/* -*- 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 "scitems.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 "output.hxx" #include "document.hxx" #include "formulacell.hxx" #include "attrib.hxx" #include "patattr.hxx" #include "cellform.hxx" #include "editutil.hxx" #include "progress.hxx" #include "scmod.hxx" #include "fillinfo.hxx" #include "viewdata.hxx" #include "tabvwsh.hxx" #include "docsh.hxx" #include "markdata.hxx" #include "stlsheet.hxx" #include #include #include #include using namespace com::sun::star; //! Autofilter-Breite mit column.cxx zusammenfassen #define DROPDOWN_BITMAP_SIZE 18 #define DRAWTEXT_MAX 32767 const sal_uInt16 SC_SHRINKAGAIN_MAX = 7; // STATIC DATA ----------------------------------------------------------- // ----------------------------------------------------------------------- class ScDrawStringsVars { ScOutputData* pOutput; // Verbindung const ScPatternAttr* pPattern; // Attribute const SfxItemSet* pCondSet; // aus bedingter Formatierung Font aFont; // aus Attributen erzeugt FontMetric aMetric; long nAscentPixel; // always pixels SvxCellOrientation eAttrOrient; SvxCellHorJustify eAttrHorJust; SvxCellVerJustify eAttrVerJust; SvxCellJustifyMethod eAttrHorJustMethod; SvxCellJustifyMethod eAttrVerJustMethod; const SvxMarginItem* pMargin; sal_uInt16 nIndent; sal_Bool bRotated; String aString; // Inhalte Size aTextSize; long nOriginalWidth; long nMaxDigitWidth; long nSignWidth; long nDotWidth; long nExpWidth; ScRefCellValue maLastCell; sal_uLong nValueFormat; sal_Bool bLineBreak; sal_Bool bRepeat; sal_Bool bShrink; sal_Bool bPixelToLogic; sal_Bool bCellContrast; Color aBackConfigColor; // used for ScPatternAttr::GetFont calls Color aTextConfigColor; sal_Int32 nPos; sal_Unicode nChar; public: ScDrawStringsVars(ScOutputData* pData, sal_Bool bPTL); ~ScDrawStringsVars(); // SetPattern = ex-SetVars // SetPatternSimple: ohne Font void SetPattern( const ScPatternAttr* pNew, const SfxItemSet* pSet, const ScRefCellValue& rCell, sal_uInt8 nScript ); void SetPatternSimple( const ScPatternAttr* pNew, const SfxItemSet* pSet ); bool SetText( ScRefCellValue& rCell ); // TRUE -> pOldPattern vergessen void SetHashText(); void SetTextToWidthOrHash( ScRefCellValue& rCell, long nWidth ); void SetAutoText( const String& rAutoText ); const ScPatternAttr* GetPattern() const { return pPattern; } SvxCellOrientation GetOrient() const { return eAttrOrient; } SvxCellHorJustify GetHorJust() const { return eAttrHorJust; } SvxCellVerJustify GetVerJust() const { return eAttrVerJust; } SvxCellJustifyMethod GetHorJustMethod() const { return eAttrHorJustMethod; } SvxCellJustifyMethod GetVerJustMethod() const { return eAttrVerJustMethod; } const SvxMarginItem* GetMargin() const { return pMargin; } sal_uInt16 GetLeftTotal() const { return pMargin->GetLeftMargin() + nIndent; } const String& GetString() const { return aString; } const Size& GetTextSize() const { return aTextSize; } long GetOriginalWidth() const { return nOriginalWidth; } sal_uLong GetResultValueFormat( const ScRefCellValue& rCell ) const; sal_uLong GetValueFormat() const { return nValueFormat; } sal_Bool GetLineBreak() const { return bLineBreak; } sal_Bool IsRepeat() const { return bRepeat; } sal_Bool IsShrink() const { return bShrink; } void RepeatToFill( long colWidth ); long GetAscent() const { return nAscentPixel; } sal_Bool IsRotated() const { return bRotated; } void SetShrinkScale( long nScale, sal_uInt8 nScript ); sal_Bool HasCondHeight() const { return pCondSet && SFX_ITEM_SET == pCondSet->GetItemState( ATTR_FONT_HEIGHT, sal_True ); } sal_Bool HasEditCharacters() const; private: long GetMaxDigitWidth(); // in logic units long GetSignWidth(); long GetDotWidth(); long GetExpWidth(); void TextChanged(); }; //================================================================== ScDrawStringsVars::ScDrawStringsVars(ScOutputData* pData, sal_Bool bPTL) : pOutput ( pData ), pPattern ( NULL ), pCondSet ( NULL ), nAscentPixel(0), eAttrOrient ( SVX_ORIENTATION_STANDARD ), eAttrHorJust( SVX_HOR_JUSTIFY_STANDARD ), eAttrVerJust( SVX_VER_JUSTIFY_BOTTOM ), eAttrHorJustMethod( SVX_JUSTIFY_METHOD_AUTO ), eAttrVerJustMethod( SVX_JUSTIFY_METHOD_AUTO ), pMargin ( NULL ), nIndent ( 0 ), bRotated ( false ), nOriginalWidth( 0 ), nMaxDigitWidth( 0 ), nSignWidth( 0 ), nDotWidth( 0 ), nExpWidth( 0 ), nValueFormat( 0 ), bLineBreak ( false ), bRepeat ( false ), bShrink ( false ), bPixelToLogic( bPTL ), nPos( STRING_NOTFOUND ), nChar( 0x0 ) { ScModule* pScMod = SC_MOD(); bCellContrast = pOutput->mbUseStyleColor && Application::GetSettings().GetStyleSettings().GetHighContrastMode(); const svtools::ColorConfig& rColorConfig = pScMod->GetColorConfig(); aBackConfigColor.SetColor( rColorConfig.GetColorValue(svtools::DOCCOLOR).nColor ); aTextConfigColor.SetColor( rColorConfig.GetColorValue(svtools::FONTCOLOR).nColor ); } ScDrawStringsVars::~ScDrawStringsVars() { } void ScDrawStringsVars::SetShrinkScale( long nScale, sal_uInt8 nScript ) { // text remains valid, size is updated OutputDevice* pDev = pOutput->mpDev; OutputDevice* pRefDevice = pOutput->mpRefDevice; OutputDevice* pFmtDevice = pOutput->pFmtDevice; // call GetFont with a modified fraction, use only the height Fraction aFraction( nScale, 100 ); if ( !bPixelToLogic ) aFraction *= pOutput->aZoomY; Font aTmpFont; pPattern->GetFont( aTmpFont, SC_AUTOCOL_RAW, pFmtDevice, &aFraction, pCondSet, nScript ); long nNewHeight = aTmpFont.GetHeight(); if ( nNewHeight > 0 ) aFont.SetHeight( nNewHeight ); // set font and dependent variables as in SetPattern pDev->SetFont( aFont ); if ( pFmtDevice != pDev ) pFmtDevice->SetFont( aFont ); aMetric = pFmtDevice->GetFontMetric(); if ( pFmtDevice->GetOutDevType() == OUTDEV_PRINTER && aMetric.GetIntLeading() == 0 ) { OutputDevice* pDefaultDev = Application::GetDefaultDevice(); MapMode aOld = pDefaultDev->GetMapMode(); pDefaultDev->SetMapMode( pFmtDevice->GetMapMode() ); aMetric = pDefaultDev->GetFontMetric( aFont ); pDefaultDev->SetMapMode( aOld ); } nAscentPixel = aMetric.GetAscent(); if ( bPixelToLogic ) nAscentPixel = pRefDevice->LogicToPixel( Size( 0, nAscentPixel ) ).Height(); SetAutoText( aString ); // same text again, to get text size } namespace { template _EnumType lcl_GetValue(const ScPatternAttr& rPattern, sal_uInt16 nWhich, const SfxItemSet* pCondSet) { const _ItemType& rItem = static_cast(rPattern.GetItem(nWhich, pCondSet)); return static_cast<_EnumType>(rItem.GetValue()); } bool lcl_GetBoolValue(const ScPatternAttr& rPattern, sal_uInt16 nWhich, const SfxItemSet* pCondSet) { return lcl_GetValue(rPattern, nWhich, pCondSet); } } void ScDrawStringsVars::SetPattern( const ScPatternAttr* pNew, const SfxItemSet* pSet, const ScRefCellValue& rCell, sal_uInt8 nScript ) { nMaxDigitWidth = 0; nSignWidth = 0; nDotWidth = 0; nExpWidth = 0; pPattern = pNew; pCondSet = pSet; // pPattern auswerten OutputDevice* pDev = pOutput->mpDev; OutputDevice* pRefDevice = pOutput->mpRefDevice; OutputDevice* pFmtDevice = pOutput->pFmtDevice; // Font ScAutoFontColorMode eColorMode; if ( pOutput->mbUseStyleColor ) { if ( pOutput->mbForceAutoColor ) eColorMode = bCellContrast ? SC_AUTOCOL_IGNOREALL : SC_AUTOCOL_IGNOREFONT; else eColorMode = bCellContrast ? SC_AUTOCOL_IGNOREBACK : SC_AUTOCOL_DISPLAY; } else eColorMode = SC_AUTOCOL_PRINT; if ( bPixelToLogic ) pPattern->GetFont( aFont, eColorMode, pFmtDevice, NULL, pCondSet, nScript, &aBackConfigColor, &aTextConfigColor ); else pPattern->GetFont( aFont, eColorMode, pFmtDevice, &pOutput->aZoomY, pCondSet, nScript, &aBackConfigColor, &aTextConfigColor ); aFont.SetAlign(ALIGN_BASELINE); // Orientierung eAttrOrient = pPattern->GetCellOrientation( pCondSet ); // alignment eAttrHorJust = (SvxCellHorJustify)((const SvxHorJustifyItem&)pPattern->GetItem( ATTR_HOR_JUSTIFY, pCondSet )).GetValue(); eAttrVerJust = (SvxCellVerJustify)((const SvxVerJustifyItem&)pPattern->GetItem( ATTR_VER_JUSTIFY, pCondSet )).GetValue(); if ( eAttrVerJust == SVX_VER_JUSTIFY_STANDARD ) eAttrVerJust = SVX_VER_JUSTIFY_BOTTOM; // justification method eAttrHorJustMethod = lcl_GetValue(*pPattern, ATTR_HOR_JUSTIFY_METHOD, pCondSet); eAttrVerJustMethod = lcl_GetValue(*pPattern, ATTR_VER_JUSTIFY_METHOD, pCondSet); // line break bLineBreak = ((const SfxBoolItem&)pPattern->GetItem( ATTR_LINEBREAK, pCondSet )).GetValue(); // handle "repeat" alignment bRepeat = ( eAttrHorJust == SVX_HOR_JUSTIFY_REPEAT ); if ( bRepeat ) { // "repeat" disables rotation (before constructing the font) eAttrOrient = SVX_ORIENTATION_STANDARD; // #i31843# "repeat" with "line breaks" is treated as default alignment (but rotation is still disabled) if ( bLineBreak ) eAttrHorJust = SVX_HOR_JUSTIFY_STANDARD; } short nRot; switch (eAttrOrient) { case SVX_ORIENTATION_STANDARD: nRot = 0; bRotated = (((const SfxInt32Item&)pPattern->GetItem( ATTR_ROTATE_VALUE, pCondSet )).GetValue() != 0) && !bRepeat; break; case SVX_ORIENTATION_STACKED: nRot = 0; bRotated = false; break; case SVX_ORIENTATION_TOPBOTTOM: nRot = 2700; bRotated = false; break; case SVX_ORIENTATION_BOTTOMTOP: nRot = 900; bRotated = false; break; default: OSL_FAIL("Falscher SvxCellOrientation Wert"); nRot = 0; bRotated = false; break; } aFont.SetOrientation( nRot ); // Syntax-Modus if (pOutput->mbSyntaxMode) pOutput->SetSyntaxColor(&aFont, rCell); pDev->SetFont( aFont ); if ( pFmtDevice != pDev ) pFmtDevice->SetFont( aFont ); aMetric = pFmtDevice->GetFontMetric(); // // Wenn auf dem Drucker das Leading 0 ist, gibt es Probleme // -> Metric vom Bildschirm nehmen (wie EditEngine!) // if ( pFmtDevice->GetOutDevType() == OUTDEV_PRINTER && aMetric.GetIntLeading() == 0 ) { OutputDevice* pDefaultDev = Application::GetDefaultDevice(); MapMode aOld = pDefaultDev->GetMapMode(); pDefaultDev->SetMapMode( pFmtDevice->GetMapMode() ); aMetric = pDefaultDev->GetFontMetric( aFont ); pDefaultDev->SetMapMode( aOld ); } nAscentPixel = aMetric.GetAscent(); if ( bPixelToLogic ) nAscentPixel = pRefDevice->LogicToPixel( Size( 0, nAscentPixel ) ).Height(); Color aULineColor( ((const SvxUnderlineItem&)pPattern->GetItem( ATTR_FONT_UNDERLINE, pCondSet )).GetColor() ); pDev->SetTextLineColor( aULineColor ); Color aOLineColor( ((const SvxOverlineItem&)pPattern->GetItem( ATTR_FONT_OVERLINE, pCondSet )).GetColor() ); pDev->SetOverlineColor( aOLineColor ); // Zahlenformat nValueFormat = pPattern->GetNumberFormat( pOutput->mpDoc->GetFormatTable(), pCondSet ); // Raender pMargin = (const SvxMarginItem*)&pPattern->GetItem( ATTR_MARGIN, pCondSet ); if ( eAttrHorJust == SVX_HOR_JUSTIFY_LEFT ) nIndent = ((const SfxUInt16Item&)pPattern->GetItem( ATTR_INDENT, pCondSet )).GetValue(); else nIndent = 0; // "Shrink to fit" bShrink = static_cast(pPattern->GetItem( ATTR_SHRINKTOFIT, pCondSet )).GetValue(); // zumindest die Text-Groesse muss neu geholt werden //! unterscheiden, und den Text nicht neu vom Numberformatter holen? maLastCell.clear(); } void ScDrawStringsVars::SetPatternSimple( const ScPatternAttr* pNew, const SfxItemSet* pSet ) { nMaxDigitWidth = 0; nSignWidth = 0; nDotWidth = 0; nExpWidth = 0; // wird gerufen, wenn sich die Font-Variablen nicht aendern (!StringDiffer) pPattern = pNew; pCondSet = pSet; //! noetig ??? // Zahlenformat sal_uLong nOld = nValueFormat; const SfxPoolItem* pFormItem; if ( !pCondSet || pCondSet->GetItemState(ATTR_VALUE_FORMAT,sal_True,&pFormItem) != SFX_ITEM_SET ) pFormItem = &pPattern->GetItem(ATTR_VALUE_FORMAT); const SfxPoolItem* pLangItem; if ( !pCondSet || pCondSet->GetItemState(ATTR_LANGUAGE_FORMAT,sal_True,&pLangItem) != SFX_ITEM_SET ) pLangItem = &pPattern->GetItem(ATTR_LANGUAGE_FORMAT); nValueFormat = pOutput->mpDoc->GetFormatTable()->GetFormatForLanguageIfBuiltIn( ((SfxUInt32Item*)pFormItem)->GetValue(), ((SvxLanguageItem*)pLangItem)->GetLanguage() ); if (nValueFormat != nOld) maLastCell.clear(); // immer neu formatieren // Raender pMargin = (const SvxMarginItem*)&pPattern->GetItem( ATTR_MARGIN, pCondSet ); if ( eAttrHorJust == SVX_HOR_JUSTIFY_LEFT ) nIndent = ((const SfxUInt16Item&)pPattern->GetItem( ATTR_INDENT, pCondSet )).GetValue(); else nIndent = 0; // "Shrink to fit" bShrink = static_cast(pPattern->GetItem( ATTR_SHRINKTOFIT, pCondSet )).GetValue(); } inline bool SameValue( const ScRefCellValue& rCell, const ScRefCellValue& rOldCell ) { return rOldCell.meType == CELLTYPE_VALUE && rCell.meType == CELLTYPE_VALUE && rCell.mfValue == rOldCell.mfValue; } bool ScDrawStringsVars::SetText( ScRefCellValue& rCell ) { bool bChanged = false; if (!rCell.isEmpty()) { if (!SameValue(rCell, maLastCell)) { maLastCell = rCell; // Zelle merken Color* pColor; sal_uLong nFormat = GetValueFormat(); OUString aOUString = aString; ScCellFormat::GetString( rCell, nFormat, aOUString, &pColor, *pOutput->mpDoc->GetFormatTable(), pOutput->mbShowNullValues, pOutput->mbShowFormulas, ftCheck, true ); aString = aOUString; if ( nFormat ) { nPos = aString.Search( 0x1B ); if ( nPos != STRING_NOTFOUND ) { nChar = aString.GetChar( nPos + 1 ); // delete placeholder and char to repeat aString.Erase( nPos, 2 ); } } else { nPos = STRING_NOTFOUND; nChar = 0x0; } if (aString.Len() > DRAWTEXT_MAX) aString.Erase(DRAWTEXT_MAX); if ( pColor && !pOutput->mbSyntaxMode && !( pOutput->mbUseStyleColor && pOutput->mbForceAutoColor ) ) { OutputDevice* pDev = pOutput->mpDev; aFont.SetColor(*pColor); pDev->SetFont( aFont ); // nur fuer Ausgabe bChanged = true; maLastCell.clear(); // naechstes Mal wieder hierherkommen } TextChanged(); } // sonst String/Groesse behalten } else { aString.Erase(); maLastCell.clear(); aTextSize = Size(0,0); nOriginalWidth = 0; } return bChanged; } void ScDrawStringsVars::SetHashText() { SetAutoText(OUString("###")); } void ScDrawStringsVars::RepeatToFill( long colWidth ) { if ( nPos == STRING_NOTFOUND || nPos > aString.Len() ) return; long charWidth = pOutput->pFmtDevice->GetTextWidth(OUString(nChar)); if ( charWidth < 1) return; if (bPixelToLogic) colWidth = pOutput->mpRefDevice->PixelToLogic(Size(colWidth,0)).Width(); // Are there restrictions on the cell type we should filter out here ? long aSpaceToFill = ( colWidth - aTextSize.Width() ); if ( aSpaceToFill <= charWidth ) return; long nCharsToInsert = aSpaceToFill / charWidth; OUStringBuffer aFill; comphelper::string::padToLength(aFill, nCharsToInsert, nChar); aString.Insert( aFill.makeStringAndClear(), nPos); TextChanged(); } void ScDrawStringsVars::SetTextToWidthOrHash( ScRefCellValue& rCell, long nWidth ) { // #i113045# do the single-character width calculations in logic units if (bPixelToLogic) nWidth = pOutput->mpRefDevice->PixelToLogic(Size(nWidth,0)).Width(); CellType eType = rCell.meType; if (eType != CELLTYPE_VALUE && eType != CELLTYPE_FORMULA) // must be a value or formula cell. return; if (eType == CELLTYPE_FORMULA) { ScFormulaCell* pFCell = rCell.mpFormula; if (pFCell->GetErrCode() != 0 || pOutput->mbShowFormulas) { SetHashText(); // If the error string doesn't fit, always use "###". Also for "display formulas" (#i116691#) return; } // If it's formula, the result must be a value. if (!pFCell->IsValue()) return; if (pFCell->GetFormatType() != NUMBERFORMAT_NUMBER) { // Make sure the format type implicitly set by the interpreter is // of pure numeric type. We don't want to adjust date and time // values here. SetHashText(); return; } } sal_uLong nFormat = GetResultValueFormat(rCell); if ((nFormat % SV_COUNTRY_LANGUAGE_OFFSET) != 0) { // Not 'General' number format. Set hash text and bail out. SetHashText(); return; } double fVal = rCell.getValue(); const SvNumberformat* pNumFormat = pOutput->mpDoc->GetFormatTable()->GetEntry(nFormat); if (!pNumFormat) return; long nMaxDigit = GetMaxDigitWidth(); sal_uInt16 nNumDigits = static_cast(nWidth / nMaxDigit); { OUString sTempOut(aString); if (!pNumFormat->GetOutputString(fVal, nNumDigits, sTempOut)) { aString = sTempOut; // Failed to get output string. Bail out. return; } aString = sTempOut; } sal_uInt8 nSignCount = 0, nDecimalCount = 0, nExpCount = 0; xub_StrLen nLen = aString.Len(); sal_Unicode cDecSep = ScGlobal::GetpLocaleData()->getLocaleItem().decimalSeparator.getStr()[0]; for (xub_StrLen i = 0; i < nLen; ++i) { sal_Unicode c = aString.GetChar(i); if (c == sal_Unicode('-')) ++nSignCount; else if (c == cDecSep) ++nDecimalCount; else if (c == sal_Unicode('E')) ++nExpCount; } // #i112250# A small value might be formatted as "0" when only counting the digits, // but fit into the column when considering the smaller width of the decimal separator. if (aString.EqualsAscii("0") && fVal != 0.0) nDecimalCount = 1; if (nDecimalCount) nWidth += (nMaxDigit - GetDotWidth()) * nDecimalCount; if (nSignCount) nWidth += (nMaxDigit - GetSignWidth()) * nSignCount; if (nExpCount) nWidth += (nMaxDigit - GetExpWidth()) * nExpCount; if (nDecimalCount || nSignCount || nExpCount) { // Re-calculate. nNumDigits = static_cast(nWidth / nMaxDigit); OUString sTempOut(aString); if (!pNumFormat->GetOutputString(fVal, nNumDigits, sTempOut)) { aString = sTempOut; // Failed to get output string. Bail out. return; } aString = sTempOut; } long nActualTextWidth = pOutput->pFmtDevice->GetTextWidth(aString); if (nActualTextWidth > nWidth) { // Even after the decimal adjustment the text doesn't fit. Give up. SetHashText(); return; } TextChanged(); maLastCell.clear(); // #i113022# equal cell and format in another column may give different string } void ScDrawStringsVars::SetAutoText( const String& rAutoText ) { aString = rAutoText; OutputDevice* pRefDevice = pOutput->mpRefDevice; OutputDevice* pFmtDevice = pOutput->pFmtDevice; aTextSize.Width() = pFmtDevice->GetTextWidth( aString ); aTextSize.Height() = pFmtDevice->GetTextHeight(); if ( !pRefDevice->GetConnectMetaFile() || pRefDevice->GetOutDevType() == OUTDEV_PRINTER ) { double fMul = pOutput->GetStretch(); aTextSize.Width() = (long)(aTextSize.Width() / fMul + 0.5); } aTextSize.Height() = aMetric.GetAscent() + aMetric.GetDescent(); if ( GetOrient() != SVX_ORIENTATION_STANDARD ) { long nTemp = aTextSize.Height(); aTextSize.Height() = aTextSize.Width(); aTextSize.Width() = nTemp; } nOriginalWidth = aTextSize.Width(); if ( bPixelToLogic ) aTextSize = pRefDevice->LogicToPixel( aTextSize ); maLastCell.clear(); // derselbe Text kann in der naechsten Zelle wieder passen } long ScDrawStringsVars::GetMaxDigitWidth() { if (nMaxDigitWidth > 0) return nMaxDigitWidth; sal_Char cZero = '0'; for (sal_Char i = 0; i < 10; ++i) { sal_Char cDigit = cZero + i; long n = pOutput->pFmtDevice->GetTextWidth(OUString(cDigit)); nMaxDigitWidth = ::std::max(nMaxDigitWidth, n); } return nMaxDigitWidth; } long ScDrawStringsVars::GetSignWidth() { if (nSignWidth > 0) return nSignWidth; nSignWidth = pOutput->pFmtDevice->GetTextWidth(OUString('-')); return nSignWidth; } long ScDrawStringsVars::GetDotWidth() { if (nDotWidth > 0) return nDotWidth; const OUString& sep = ScGlobal::GetpLocaleData()->getLocaleItem().decimalSeparator; nDotWidth = pOutput->pFmtDevice->GetTextWidth(sep); return nDotWidth; } long ScDrawStringsVars::GetExpWidth() { if (nExpWidth > 0) return nExpWidth; nExpWidth = pOutput->pFmtDevice->GetTextWidth(OUString('E')); return nExpWidth; } void ScDrawStringsVars::TextChanged() { OutputDevice* pRefDevice = pOutput->mpRefDevice; OutputDevice* pFmtDevice = pOutput->pFmtDevice; aTextSize.Width() = pFmtDevice->GetTextWidth( aString ); aTextSize.Height() = pFmtDevice->GetTextHeight(); if ( !pRefDevice->GetConnectMetaFile() || pRefDevice->GetOutDevType() == OUTDEV_PRINTER ) { double fMul = pOutput->GetStretch(); aTextSize.Width() = (long)(aTextSize.Width() / fMul + 0.5); } aTextSize.Height() = aMetric.GetAscent() + aMetric.GetDescent(); if ( GetOrient() != SVX_ORIENTATION_STANDARD ) { long nTemp = aTextSize.Height(); aTextSize.Height() = aTextSize.Width(); aTextSize.Width() = nTemp; } nOriginalWidth = aTextSize.Width(); if ( bPixelToLogic ) aTextSize = pRefDevice->LogicToPixel( aTextSize ); } sal_Bool ScDrawStringsVars::HasEditCharacters() const { static const sal_Unicode pChars[] = { CHAR_NBSP, CHAR_SHY, CHAR_ZWSP, CHAR_LRM, CHAR_RLM, CHAR_NBHY, CHAR_ZWNBSP, 0 }; return aString.SearchChar( pChars ) != STRING_NOTFOUND; } sal_uLong ScDrawStringsVars::GetResultValueFormat( const ScRefCellValue& rCell ) const { // Get the effective number format, including formula result types. // This assumes that a formula cell has already been calculated. if ((nValueFormat % SV_COUNTRY_LANGUAGE_OFFSET) == 0 && rCell.meType == CELLTYPE_FORMULA) return rCell.mpFormula->GetStandardFormat(*pOutput->mpDoc->GetFormatTable(), nValueFormat); else return nValueFormat; } //================================================================== double ScOutputData::GetStretch() { if ( mpRefDevice->IsMapMode() ) { // If a non-trivial MapMode is set, its scale is now already // taken into account in the OutputDevice's font handling // (OutputDevice::ImplNewFont, see #95414#). // The old handling below is only needed for pixel output. return 1.0; } // calculation in double is faster than Fraction multiplication // and doesn't overflow if ( mpRefDevice == pFmtDevice ) { MapMode aOld = mpRefDevice->GetMapMode(); return ((double)aOld.GetScaleY()) / ((double)aOld.GetScaleX()) * ((double)aZoomY) / ((double)aZoomX); } else { // when formatting for printer, device map mode has already been taken care of return ((double)aZoomY) / ((double)aZoomX); } } //================================================================== // // output strings // static void lcl_DoHyperlinkResult( OutputDevice* pDev, const Rectangle& rRect, ScRefCellValue& rCell ) { vcl::PDFExtOutDevData* pPDFData = PTR_CAST( vcl::PDFExtOutDevData, pDev->GetExtOutDevData() ); OUString aCellText; OUString aURL; if (rCell.meType == CELLTYPE_FORMULA) { ScFormulaCell* pFCell = rCell.mpFormula; if ( pFCell->IsHyperLinkCell() ) pFCell->GetURLResult( aURL, aCellText ); } if ( !aURL.isEmpty() && pPDFData ) { vcl::PDFExtOutDevBookmarkEntry aBookmark; aBookmark.nLinkId = pPDFData->CreateLink( rRect ); aBookmark.aBookmark = aURL; std::vector< vcl::PDFExtOutDevBookmarkEntry >& rBookmarks = pPDFData->GetBookmarks(); rBookmarks.push_back( aBookmark ); } } void ScOutputData::SetSyntaxColor( Font* pFont, const ScRefCellValue& rCell ) { switch (rCell.meType) { case CELLTYPE_VALUE: pFont->SetColor(*pValueColor); break; case CELLTYPE_STRING: pFont->SetColor(*pTextColor); break; case CELLTYPE_FORMULA: pFont->SetColor(*pFormulaColor); break; default: { // added to avoid warnings } } } static void lcl_SetEditColor( EditEngine& rEngine, const Color& rColor ) { ESelection aSel( 0, 0, rEngine.GetParagraphCount(), 0 ); SfxItemSet aSet( rEngine.GetEmptyItemSet() ); aSet.Put( SvxColorItem( rColor, EE_CHAR_COLOR ) ); rEngine.QuickSetAttribs( aSet, aSel ); // function is called with update mode set to FALSE } void ScOutputData::SetEditSyntaxColor( EditEngine& rEngine, ScRefCellValue& rCell ) { Color aColor; switch (rCell.meType) { case CELLTYPE_VALUE: aColor = *pValueColor; break; case CELLTYPE_STRING: aColor = *pTextColor; break; case CELLTYPE_FORMULA: aColor = *pFormulaColor; break; default: { // added to avoid warnings } } lcl_SetEditColor( rEngine, aColor ); } sal_Bool ScOutputData::GetMergeOrigin( SCCOL nX, SCROW nY, SCSIZE nArrY, SCCOL& rOverX, SCROW& rOverY, sal_Bool bVisRowChanged ) { sal_Bool bDoMerge = false; sal_Bool bIsLeft = ( nX == nVisX1 ); sal_Bool bIsTop = ( nY == nVisY1 ) || bVisRowChanged; CellInfo* pInfo = &pRowInfo[nArrY].pCellInfo[nX+1]; if ( pInfo->bHOverlapped && pInfo->bVOverlapped ) bDoMerge = bIsLeft && bIsTop; else if ( pInfo->bHOverlapped ) bDoMerge = bIsLeft; else if ( pInfo->bVOverlapped ) bDoMerge = bIsTop; rOverX = nX; rOverY = nY; sal_Bool bHOver = pInfo->bHOverlapped; sal_Bool bVOver = pInfo->bVOverlapped; sal_Bool bHidden; while (bHOver) // nY konstant { --rOverX; bHidden = mpDoc->ColHidden(rOverX, nTab); if ( !bDoMerge && !bHidden ) return false; if (rOverX >= nX1 && !bHidden) { bHOver = pRowInfo[nArrY].pCellInfo[rOverX+1].bHOverlapped; bVOver = pRowInfo[nArrY].pCellInfo[rOverX+1].bVOverlapped; } else { sal_uInt16 nOverlap = ((ScMergeFlagAttr*)mpDoc->GetAttr( rOverX, rOverY, nTab, ATTR_MERGE_FLAG ))->GetValue(); bHOver = ((nOverlap & SC_MF_HOR) != 0); bVOver = ((nOverlap & SC_MF_VER) != 0); } } while (bVOver) { --rOverY; bHidden = mpDoc->RowHidden(rOverY, nTab); if ( !bDoMerge && !bHidden ) return false; if (nArrY>0) --nArrY; // lokale Kopie ! if (rOverX >= nX1 && rOverY >= nY1 && !mpDoc->ColHidden(rOverX, nTab) && !mpDoc->RowHidden(rOverY, nTab) && pRowInfo[nArrY].nRowNo == rOverY) { bHOver = pRowInfo[nArrY].pCellInfo[rOverX+1].bHOverlapped; bVOver = pRowInfo[nArrY].pCellInfo[rOverX+1].bVOverlapped; } else { sal_uInt16 nOverlap = ((ScMergeFlagAttr*)mpDoc->GetAttr( rOverX, rOverY, nTab, ATTR_MERGE_FLAG ))->GetValue(); bHOver = ((nOverlap & SC_MF_HOR) != 0); bVOver = ((nOverlap & SC_MF_VER) != 0); } } return sal_True; } inline sal_Bool StringDiffer( const ScPatternAttr*& rpOldPattern, const ScPatternAttr*& rpNewPattern ) { OSL_ENSURE( rpNewPattern, "pNewPattern" ); if ( rpNewPattern == rpOldPattern ) return false; else if ( !rpOldPattern ) return sal_True; else if ( &rpNewPattern->GetItem( ATTR_FONT ) != &rpOldPattern->GetItem( ATTR_FONT ) ) return sal_True; else if ( &rpNewPattern->GetItem( ATTR_CJK_FONT ) != &rpOldPattern->GetItem( ATTR_CJK_FONT ) ) return sal_True; else if ( &rpNewPattern->GetItem( ATTR_CTL_FONT ) != &rpOldPattern->GetItem( ATTR_CTL_FONT ) ) return sal_True; else if ( &rpNewPattern->GetItem( ATTR_FONT_HEIGHT ) != &rpOldPattern->GetItem( ATTR_FONT_HEIGHT ) ) return sal_True; else if ( &rpNewPattern->GetItem( ATTR_CJK_FONT_HEIGHT ) != &rpOldPattern->GetItem( ATTR_CJK_FONT_HEIGHT ) ) return sal_True; else if ( &rpNewPattern->GetItem( ATTR_CTL_FONT_HEIGHT ) != &rpOldPattern->GetItem( ATTR_CTL_FONT_HEIGHT ) ) return sal_True; else if ( &rpNewPattern->GetItem( ATTR_FONT_WEIGHT ) != &rpOldPattern->GetItem( ATTR_FONT_WEIGHT ) ) return sal_True; else if ( &rpNewPattern->GetItem( ATTR_CJK_FONT_WEIGHT ) != &rpOldPattern->GetItem( ATTR_CJK_FONT_WEIGHT ) ) return sal_True; else if ( &rpNewPattern->GetItem( ATTR_CTL_FONT_WEIGHT ) != &rpOldPattern->GetItem( ATTR_CTL_FONT_WEIGHT ) ) return sal_True; else if ( &rpNewPattern->GetItem( ATTR_FONT_POSTURE ) != &rpOldPattern->GetItem( ATTR_FONT_POSTURE ) ) return sal_True; else if ( &rpNewPattern->GetItem( ATTR_CJK_FONT_POSTURE ) != &rpOldPattern->GetItem( ATTR_CJK_FONT_POSTURE ) ) return sal_True; else if ( &rpNewPattern->GetItem( ATTR_CTL_FONT_POSTURE ) != &rpOldPattern->GetItem( ATTR_CTL_FONT_POSTURE ) ) return sal_True; else if ( &rpNewPattern->GetItem( ATTR_FONT_UNDERLINE ) != &rpOldPattern->GetItem( ATTR_FONT_UNDERLINE ) ) return sal_True; else if ( &rpNewPattern->GetItem( ATTR_FONT_OVERLINE ) != &rpOldPattern->GetItem( ATTR_FONT_OVERLINE ) ) return sal_True; else if ( &rpNewPattern->GetItem( ATTR_FONT_WORDLINE ) != &rpOldPattern->GetItem( ATTR_FONT_WORDLINE ) ) return sal_True; else if ( &rpNewPattern->GetItem( ATTR_FONT_CROSSEDOUT ) != &rpOldPattern->GetItem( ATTR_FONT_CROSSEDOUT ) ) return sal_True; else if ( &rpNewPattern->GetItem( ATTR_FONT_CONTOUR ) != &rpOldPattern->GetItem( ATTR_FONT_CONTOUR ) ) return sal_True; else if ( &rpNewPattern->GetItem( ATTR_FONT_SHADOWED ) != &rpOldPattern->GetItem( ATTR_FONT_SHADOWED ) ) return sal_True; else if ( &rpNewPattern->GetItem( ATTR_FONT_COLOR ) != &rpOldPattern->GetItem( ATTR_FONT_COLOR ) ) return sal_True; else if ( &rpNewPattern->GetItem( ATTR_HOR_JUSTIFY ) != &rpOldPattern->GetItem( ATTR_HOR_JUSTIFY ) ) return true; else if ( &rpNewPattern->GetItem( ATTR_HOR_JUSTIFY_METHOD ) != &rpOldPattern->GetItem( ATTR_HOR_JUSTIFY_METHOD ) ) return true; else if ( &rpNewPattern->GetItem( ATTR_VER_JUSTIFY ) != &rpOldPattern->GetItem( ATTR_VER_JUSTIFY ) ) return true; else if ( &rpNewPattern->GetItem( ATTR_VER_JUSTIFY_METHOD ) != &rpOldPattern->GetItem( ATTR_VER_JUSTIFY_METHOD ) ) return true; else if ( &rpNewPattern->GetItem( ATTR_STACKED ) != &rpOldPattern->GetItem( ATTR_STACKED ) ) return sal_True; else if ( &rpNewPattern->GetItem( ATTR_LINEBREAK ) != &rpOldPattern->GetItem( ATTR_LINEBREAK ) ) return sal_True; else if ( &rpNewPattern->GetItem( ATTR_MARGIN ) != &rpOldPattern->GetItem( ATTR_MARGIN ) ) return sal_True; else if ( &rpNewPattern->GetItem( ATTR_ROTATE_VALUE ) != &rpOldPattern->GetItem( ATTR_ROTATE_VALUE ) ) return sal_True; else if ( &rpNewPattern->GetItem( ATTR_FORBIDDEN_RULES ) != &rpOldPattern->GetItem( ATTR_FORBIDDEN_RULES ) ) return sal_True; else if ( &rpNewPattern->GetItem( ATTR_FONT_EMPHASISMARK ) != &rpOldPattern->GetItem( ATTR_FONT_EMPHASISMARK ) ) return sal_True; else if ( &rpNewPattern->GetItem( ATTR_FONT_RELIEF ) != &rpOldPattern->GetItem( ATTR_FONT_RELIEF ) ) return sal_True; else if ( &rpNewPattern->GetItem( ATTR_BACKGROUND ) != &rpOldPattern->GetItem( ATTR_BACKGROUND ) ) return sal_True; // needed with automatic text color else { rpOldPattern = rpNewPattern; return false; } } static inline void lcl_CreateInterpretProgress( sal_Bool& bProgress, ScDocument* pDoc, ScFormulaCell* pFCell ) { if ( !bProgress && pFCell->GetDirty() ) { ScProgress::CreateInterpretProgress( pDoc, sal_True ); bProgress = sal_True; } } inline sal_Bool IsAmbiguousScript( sal_uInt8 nScript ) { return ( nScript != SCRIPTTYPE_LATIN && nScript != SCRIPTTYPE_ASIAN && nScript != SCRIPTTYPE_COMPLEX ); } bool ScOutputData::IsEmptyCellText( RowInfo* pThisRowInfo, SCCOL nX, SCROW nY ) { // pThisRowInfo may be NULL bool bEmpty; if ( pThisRowInfo && nX <= nX2 ) bEmpty = pThisRowInfo->pCellInfo[nX+1].bEmptyCellText; else { ScRefCellValue aCell; aCell.assign(*mpDoc, ScAddress(nX, nY, nTab)); bEmpty = aCell.isEmpty(); } if ( !bEmpty && ( nX < nX1 || nX > nX2 || !pThisRowInfo ) ) { // for the range nX1..nX2 in RowInfo, cell protection attribute is already evaluated // into bEmptyCellText in ScDocument::FillInfo / lcl_HidePrint (printfun) bool bIsPrint = ( eType == OUTTYPE_PRINTER ); if ( bIsPrint || bTabProtected ) { const ScProtectionAttr* pAttr = (const ScProtectionAttr*) mpDoc->GetEffItem( nX, nY, nTab, ATTR_PROTECTION ); if ( bIsPrint && pAttr->GetHidePrint() ) bEmpty = true; else if ( bTabProtected ) { if ( pAttr->GetHideCell() ) bEmpty = true; else if ( mbShowFormulas && pAttr->GetHideFormula() ) { if (mpDoc->GetCellType(ScAddress(nX, nY, nTab)) == CELLTYPE_FORMULA) bEmpty = true; } } } } return bEmpty; } void ScOutputData::GetVisibleCell( SCCOL nCol, SCROW nRow, SCTAB nTabP, ScRefCellValue& rCell ) { rCell.assign(*mpDoc, ScAddress(nCol, nRow, nTabP)); if (!rCell.isEmpty() && IsEmptyCellText(NULL, nCol, nRow)) rCell.clear(); } bool ScOutputData::IsAvailable( SCCOL nX, SCROW nY ) { // apply the same logic here as in DrawStrings/DrawEdit: // Stop at non-empty or merged or overlapped cell, // where a note is empty as well as a cell that's hidden by protection settings ScRefCellValue aCell; aCell.assign(*mpDoc, ScAddress(nX, nY, nTab)); if (!aCell.isEmpty() && !IsEmptyCellText(NULL, nX, nY)) return false; const ScPatternAttr* pPattern = mpDoc->GetPattern( nX, nY, nTab ); if ( ((const ScMergeAttr&)pPattern->GetItem(ATTR_MERGE)).IsMerged() || ((const ScMergeFlagAttr&)pPattern->GetItem(ATTR_MERGE_FLAG)).IsOverlapped() ) { return false; } return sal_True; } // nX, nArrY: loop variables from DrawStrings / DrawEdit // nPosX, nPosY: corresponding positions for nX, nArrY // nCellX, nCellY: position of the cell that contains the text // nNeeded: Text width, including margin // rPattern: cell format at nCellX, nCellY // nHorJustify: horizontal alignment (visual) to determine which cells to use for long strings // bCellIsValue: if set, don't extend into empty cells // bBreak: if set, don't extend, and don't set clip marks (but rLeftClip/rRightClip is set) // bOverwrite: if set, also extend into non-empty cells (for rotated text) // rParam output: various area parameters. void ScOutputData::GetOutputArea( SCCOL nX, SCSIZE nArrY, long nPosX, long nPosY, SCCOL nCellX, SCROW nCellY, long nNeeded, const ScPatternAttr& rPattern, sal_uInt16 nHorJustify, bool bCellIsValue, bool bBreak, bool bOverwrite, OutputAreaParam& rParam ) { // rThisRowInfo may be for a different row than nCellY, is still used for clip marks RowInfo& rThisRowInfo = pRowInfo[nArrY]; long nLayoutSign = bLayoutRTL ? -1 : 1; long nCellPosX = nPosX; // find nCellX position, starting at nX/nPosX SCCOL nCompCol = nX; while ( nCellX > nCompCol ) { //! extra member function for width? long nColWidth = ( nCompCol <= nX2 ) ? pRowInfo[0].pCellInfo[nCompCol+1].nWidth : (long) ( mpDoc->GetColWidth( nCompCol, nTab ) * mnPPTX ); nCellPosX += nColWidth * nLayoutSign; ++nCompCol; } while ( nCellX < nCompCol ) { --nCompCol; long nColWidth = ( nCompCol <= nX2 ) ? pRowInfo[0].pCellInfo[nCompCol+1].nWidth : (long) ( mpDoc->GetColWidth( nCompCol, nTab ) * mnPPTX ); nCellPosX -= nColWidth * nLayoutSign; } long nCellPosY = nPosY; // find nCellY position, starting at nArrY/nPosY SCSIZE nCompArr = nArrY; SCROW nCompRow = pRowInfo[nCompArr].nRowNo; while ( nCellY > nCompRow ) { if ( nCompArr + 1 < nArrCount ) { nCellPosY += pRowInfo[nCompArr].nHeight; ++nCompArr; nCompRow = pRowInfo[nCompArr].nRowNo; } else { sal_uInt16 nDocHeight = mpDoc->GetRowHeight( nCompRow, nTab ); if ( nDocHeight ) nCellPosY += (long) ( nDocHeight * mnPPTY ); ++nCompRow; } } nCellPosY -= (long) mpDoc->GetScaledRowHeight( nCellY, nCompRow-1, nTab, mnPPTY ); const ScMergeAttr* pMerge = (const ScMergeAttr*)&rPattern.GetItem( ATTR_MERGE ); sal_Bool bMerged = pMerge->IsMerged(); long nMergeCols = pMerge->GetColMerge(); if ( nMergeCols == 0 ) nMergeCols = 1; long nMergeRows = pMerge->GetRowMerge(); if ( nMergeRows == 0 ) nMergeRows = 1; long i; long nMergeSizeX = 0; for ( i=0; iGetColWidth( sal::static_int_cast(nCellX+i), nTab ) * mnPPTX ); nMergeSizeX += nColWidth; } long nMergeSizeY = 0; short nDirect = 0; if ( rThisRowInfo.nRowNo == nCellY ) { // take first row's height from row info nMergeSizeY += rThisRowInfo.nHeight; nDirect = 1; // skip in loop } // following rows always from document nMergeSizeY += (long) mpDoc->GetScaledRowHeight( nCellY+nDirect, nCellY+nMergeRows-1, nTab, mnPPTY); --nMergeSizeX; // leave out the grid horizontally, also for alignment (align between grid lines) rParam.mnColWidth = nMergeSizeX; // store the actual column width. // // construct the rectangles using logical left/right values (justify is called at the end) // // rAlignRect is the single cell or merged area, used for alignment. rParam.maAlignRect.Left() = nCellPosX; rParam.maAlignRect.Right() = nCellPosX + ( nMergeSizeX - 1 ) * nLayoutSign; rParam.maAlignRect.Top() = nCellPosY; rParam.maAlignRect.Bottom() = nCellPosY + nMergeSizeY - 1; // rClipRect is all cells that are used for output. // For merged cells this is the same as rAlignRect, otherwise neighboring cells can also be used. rParam.maClipRect = rParam.maAlignRect; if ( nNeeded > nMergeSizeX ) { SvxCellHorJustify eHorJust = (SvxCellHorJustify)nHorJustify; long nMissing = nNeeded - nMergeSizeX; long nLeftMissing = 0; long nRightMissing = 0; switch ( eHorJust ) { case SVX_HOR_JUSTIFY_LEFT: nRightMissing = nMissing; break; case SVX_HOR_JUSTIFY_RIGHT: nLeftMissing = nMissing; break; case SVX_HOR_JUSTIFY_CENTER: nLeftMissing = nMissing / 2; nRightMissing = nMissing - nLeftMissing; break; default: { // added to avoid warnings } } // nLeftMissing, nRightMissing are logical, eHorJust values are visual if ( bLayoutRTL ) ::std::swap( nLeftMissing, nRightMissing ); SCCOL nRightX = nCellX; SCCOL nLeftX = nCellX; if ( !bMerged && !bCellIsValue && !bBreak ) { // look for empty cells into which the text can be extended while ( nRightMissing > 0 && nRightX < MAXCOL && ( bOverwrite || IsAvailable( nRightX+1, nCellY ) ) ) { ++nRightX; long nAdd = (long) ( mpDoc->GetColWidth( nRightX, nTab ) * mnPPTX ); nRightMissing -= nAdd; rParam.maClipRect.Right() += nAdd * nLayoutSign; if ( rThisRowInfo.nRowNo == nCellY && nRightX >= nX1 && nRightX <= nX2 ) rThisRowInfo.pCellInfo[nRightX].bHideGrid = sal_True; } while ( nLeftMissing > 0 && nLeftX > 0 && ( bOverwrite || IsAvailable( nLeftX-1, nCellY ) ) ) { if ( rThisRowInfo.nRowNo == nCellY && nLeftX >= nX1 && nLeftX <= nX2 ) rThisRowInfo.pCellInfo[nLeftX].bHideGrid = sal_True; --nLeftX; long nAdd = (long) ( mpDoc->GetColWidth( nLeftX, nTab ) * mnPPTX ); nLeftMissing -= nAdd; rParam.maClipRect.Left() -= nAdd * nLayoutSign; } } // Set flag and reserve space for clipping mark triangle, // even if rThisRowInfo isn't for nCellY (merged cells). if ( nRightMissing > 0 && bMarkClipped && nRightX >= nX1 && nRightX <= nX2 && !bBreak && !bCellIsValue ) { rThisRowInfo.pCellInfo[nRightX+1].nClipMark |= SC_CLIPMARK_RIGHT; bAnyClipped = sal_True; long nMarkPixel = (long)( SC_CLIPMARK_SIZE * mnPPTX ); rParam.maClipRect.Right() -= nMarkPixel * nLayoutSign; } if ( nLeftMissing > 0 && bMarkClipped && nLeftX >= nX1 && nLeftX <= nX2 && !bBreak && !bCellIsValue ) { rThisRowInfo.pCellInfo[nLeftX+1].nClipMark |= SC_CLIPMARK_LEFT; bAnyClipped = sal_True; long nMarkPixel = (long)( SC_CLIPMARK_SIZE * mnPPTX ); rParam.maClipRect.Left() += nMarkPixel * nLayoutSign; } rParam.mbLeftClip = ( nLeftMissing > 0 ); rParam.mbRightClip = ( nRightMissing > 0 ); } else { rParam.mbLeftClip = rParam.mbRightClip = false; // leave space for AutoFilter on screen // (for automatic line break: only if not formatting for printer, as in ScColumn::GetNeededSize) if ( eType==OUTTYPE_WINDOW && ( static_cast(rPattern.GetItem(ATTR_MERGE_FLAG)).GetValue() & SC_MF_AUTO ) && ( !bBreak || mpRefDevice == pFmtDevice ) ) { // filter drop-down width is now independent from row height const long nFilter = DROPDOWN_BITMAP_SIZE; sal_Bool bFit = ( nNeeded + nFilter <= nMergeSizeX ); if ( bFit || bCellIsValue ) { // content fits even in the remaining area without the filter button // -> align within that remaining area rParam.maAlignRect.Right() -= nFilter * nLayoutSign; rParam.maClipRect.Right() -= nFilter * nLayoutSign; // if a number doesn't fit, don't hide part of the number behind the button // -> set clip flags, so "###" replacement is used (but also within the smaller area) if ( !bFit ) rParam.mbLeftClip = rParam.mbRightClip = sal_True; } } } // justify both rectangles for alignment calculation, use with DrawText etc. rParam.maAlignRect.Justify(); rParam.maClipRect.Justify(); } namespace { bool beginsWithRTLCharacter(const OUString& rStr) { if (rStr.isEmpty()) return false; switch (ScGlobal::pCharClass->getCharacterDirection(rStr, 0)) { case i18n::DirectionProperty_RIGHT_TO_LEFT: case i18n::DirectionProperty_RIGHT_TO_LEFT_ARABIC: case i18n::DirectionProperty_RIGHT_TO_LEFT_EMBEDDING: case i18n::DirectionProperty_RIGHT_TO_LEFT_OVERRIDE: return true; default: ; } return false; } } void ScOutputData::DrawStrings( sal_Bool bPixelToLogic ) { OSL_ENSURE( mpDev == mpRefDevice || mpDev->GetMapMode().GetMapUnit() == mpRefDevice->GetMapMode().GetMapUnit(), "DrawStrings: unterschiedliche MapUnits ?!?!" ); vcl::PDFExtOutDevData* pPDFData = PTR_CAST( vcl::PDFExtOutDevData, mpDev->GetExtOutDevData() ); bool bWasIdleEnabled = mpDoc->IsIdleEnabled(); mpDoc->EnableIdle(false); ScDrawStringsVars aVars( this, bPixelToLogic ); sal_Bool bProgress = false; long nInitPosX = nScrX; if ( bLayoutRTL ) nInitPosX += nMirrorW - 1; // pixels long nLayoutSign = bLayoutRTL ? -1 : 1; SCCOL nLastContentCol = MAXCOL; if ( nX2 < MAXCOL ) nLastContentCol = sal::static_int_cast( nLastContentCol - mpDoc->GetEmptyLinesInBlock( nX2+1, nY1, nTab, MAXCOL, nY2, nTab, DIR_RIGHT ) ); SCCOL nLoopStartX = nX1; if ( nX1 > 0 ) --nLoopStartX; // start before nX1 for rest of long text to the left // variables for GetOutputArea OutputAreaParam aAreaParam; sal_Bool bCellIsValue = false; long nNeededWidth = 0; SvxCellHorJustify eOutHorJust = SVX_HOR_JUSTIFY_STANDARD; const ScPatternAttr* pPattern = NULL; const SfxItemSet* pCondSet = NULL; const ScPatternAttr* pOldPattern = NULL; const SfxItemSet* pOldCondSet = NULL; sal_uInt8 nOldScript = 0; // alternative pattern instances in case we need to modify the pattern // before processing the cell value. ::boost::ptr_vector aAltPatterns; long nPosY = nScrY; for (SCSIZE nArrY=1; nArrY+1bChanged ) { SCROW nY = pThisRowInfo->nRowNo; long nPosX = nInitPosX; if ( nLoopStartX < nX1 ) nPosX -= pRowInfo[0].pCellInfo[nLoopStartX+1].nWidth * nLayoutSign; for (SCCOL nX=nLoopStartX; nX<=nX2; nX++) { sal_Bool bMergeEmpty = false; CellInfo* pInfo = &pThisRowInfo->pCellInfo[nX+1]; sal_Bool bEmpty = nX < nX1 || pInfo->bEmptyCellText; SCCOL nCellX = nX; // position where the cell really starts SCROW nCellY = nY; sal_Bool bDoCell = false; sal_Bool bNeedEdit = false; // // Part of a merged cell? // sal_Bool bOverlapped = ( pInfo->bHOverlapped || pInfo->bVOverlapped ); if ( bOverlapped ) { bEmpty = sal_True; SCCOL nOverX; // start of the merged cells SCROW nOverY; sal_Bool bVisChanged = !pRowInfo[nArrY-1].bChanged; if (GetMergeOrigin( nX,nY, nArrY, nOverX,nOverY, bVisChanged )) { nCellX = nOverX; nCellY = nOverY; bDoCell = sal_True; } else bMergeEmpty = sal_True; } // // Rest of a long text further to the left? // if ( bEmpty && !bMergeEmpty && nX < nX1 && !bOverlapped ) { SCCOL nTempX=nX1; while (nTempX > 0 && IsEmptyCellText( pThisRowInfo, nTempX, nY )) --nTempX; if ( nTempX < nX1 && !IsEmptyCellText( pThisRowInfo, nTempX, nY ) && !mpDoc->HasAttrib( nTempX,nY,nTab, nX1,nY,nTab, HASATTR_MERGED | HASATTR_OVERLAPPED ) ) { nCellX = nTempX; bDoCell = sal_True; } } // // Rest of a long text further to the right? // if ( bEmpty && !bMergeEmpty && nX == nX2 && !bOverlapped ) { // don't have to look further than nLastContentCol SCCOL nTempX=nX; while (nTempX < nLastContentCol && IsEmptyCellText( pThisRowInfo, nTempX, nY )) ++nTempX; if ( nTempX > nX && !IsEmptyCellText( pThisRowInfo, nTempX, nY ) && !mpDoc->HasAttrib( nTempX,nY,nTab, nX,nY,nTab, HASATTR_MERGED | HASATTR_OVERLAPPED ) ) { nCellX = nTempX; bDoCell = sal_True; } } // // normal visible cell // if (!bEmpty) bDoCell = sal_True; // // don't output the cell that's being edited // if ( bDoCell && bEditMode && nCellX == nEditCol && nCellY == nEditRow ) bDoCell = false; // skip text in cell if data bar/icon set is set and only value selected if ( bDoCell ) { if(pInfo->pDataBar && !pInfo->pDataBar->mbShowValue) bDoCell = false; if(pInfo->pIconSet && !pInfo->pIconSet->mbShowValue) bDoCell = false; } // // output the cell text // ScRefCellValue aCell; if (bDoCell) { if ( nCellY == nY && nCellX == nX && nCellX >= nX1 && nCellX <= nX2 ) aCell = pThisRowInfo->pCellInfo[nCellX+1].maCell; else GetVisibleCell( nCellX, nCellY, nTab, aCell ); // get from document if (aCell.isEmpty()) bDoCell = false; else if (aCell.meType == CELLTYPE_EDIT) bNeedEdit = true; } if (bDoCell && !bNeedEdit) { if ( nCellY == nY && nCellX >= nX1 && nCellX <= nX2 ) { CellInfo& rCellInfo = pThisRowInfo->pCellInfo[nCellX+1]; pPattern = rCellInfo.pPatternAttr; pCondSet = rCellInfo.pConditionSet; if ( !pPattern ) { // #i68085# pattern from cell info for hidden columns is null, // test for null is quicker than using column flags pPattern = mpDoc->GetPattern( nCellX, nCellY, nTab ); pCondSet = mpDoc->GetCondResult( nCellX, nCellY, nTab ); } } else // get from document { pPattern = mpDoc->GetPattern( nCellX, nCellY, nTab ); pCondSet = mpDoc->GetCondResult( nCellX, nCellY, nTab ); } if ( mpDoc->GetPreviewFont() ) { aAltPatterns.push_back(new ScPatternAttr(*pPattern)); ScPatternAttr* pAltPattern = &aAltPatterns.back(); if ( SfxItemSet* pFontSet = mpDoc->GetPreviewFont( nCellX, nCellY, nTab ) ) { const SfxPoolItem* pItem; if ( pFontSet->GetItemState( ATTR_FONT, true, &pItem ) == SFX_ITEM_SET ) pAltPattern->GetItemSet().Put( (const SvxFontItem&)*pItem ); if ( pFontSet->GetItemState( ATTR_CJK_FONT, true, &pItem ) == SFX_ITEM_SET ) pAltPattern->GetItemSet().Put( (const SvxFontItem&)*pItem ); if ( pFontSet->GetItemState( ATTR_CTL_FONT, true, &pItem ) == SFX_ITEM_SET ) pAltPattern->GetItemSet().Put( (const SvxFontItem&)*pItem ); } pPattern = pAltPattern; } if (aCell.hasNumeric() && static_cast( pPattern->GetItem(ATTR_LINEBREAK, pCondSet)).GetValue()) { // Disable line break when the cell content is numeric. aAltPatterns.push_back(new ScPatternAttr(*pPattern)); ScPatternAttr* pAltPattern = &aAltPatterns.back(); SfxBoolItem aLineBreak(ATTR_LINEBREAK, false); pAltPattern->GetItemSet().Put(aLineBreak); pPattern = pAltPattern; } sal_uInt8 nScript = mpDoc->GetCellScriptType( ScAddress(nCellX, nCellY, nTab), pPattern->GetNumberFormat(mpDoc->GetFormatTable(), pCondSet)); if (nScript == 0) nScript = ScGlobal::GetDefaultScriptType(); if ( pPattern != pOldPattern || pCondSet != pOldCondSet || nScript != nOldScript || mbSyntaxMode ) { if ( StringDiffer(pOldPattern,pPattern) || pCondSet != pOldCondSet || nScript != nOldScript || mbSyntaxMode ) { aVars.SetPattern(pPattern, pCondSet, aCell, nScript); } else aVars.SetPatternSimple( pPattern, pCondSet ); pOldPattern = pPattern; pOldCondSet = pCondSet; nOldScript = nScript; } // use edit engine for rotated, stacked or mixed-script text if ( aVars.GetOrient() == SVX_ORIENTATION_STACKED || aVars.IsRotated() || IsAmbiguousScript(nScript) ) bNeedEdit = sal_True; } if (bDoCell && !bNeedEdit) { bool bFormulaCell = (aCell.meType == CELLTYPE_FORMULA); if ( bFormulaCell ) lcl_CreateInterpretProgress(bProgress, mpDoc, aCell.mpFormula); if ( aVars.SetText(aCell) ) pOldPattern = NULL; bNeedEdit = aVars.HasEditCharacters() || (bFormulaCell && aCell.mpFormula->IsMultilineResult()); } long nTotalMargin = 0; if (bDoCell && !bNeedEdit) { CellType eCellType = aCell.meType; bCellIsValue = ( eCellType == CELLTYPE_VALUE ); if ( eCellType == CELLTYPE_FORMULA ) { ScFormulaCell* pFCell = aCell.mpFormula; bCellIsValue = pFCell->IsRunning() || pFCell->IsValue(); } if (aVars.GetHorJust() == SVX_HOR_JUSTIFY_STANDARD) { // fdo#32530: Default alignment depends on value vs // string, and the direction of the 1st letter. if (beginsWithRTLCharacter(aVars.GetString())) eOutHorJust = bCellIsValue ? SVX_HOR_JUSTIFY_LEFT : SVX_HOR_JUSTIFY_RIGHT; else eOutHorJust = bCellIsValue ? SVX_HOR_JUSTIFY_RIGHT : SVX_HOR_JUSTIFY_LEFT; } else eOutHorJust = aVars.GetHorJust(); if ( eOutHorJust == SVX_HOR_JUSTIFY_BLOCK || eOutHorJust == SVX_HOR_JUSTIFY_REPEAT ) { const SfxPoolItem* pItem = mpDoc->GetAttr( nCellX, nCellY, nTab, ATTR_WRITINGDIR ); const SvxFrameDirectionItem* pCurrentWritingMode = (const SvxFrameDirectionItem*) pItem; if (pCurrentWritingMode->GetValue() == FRMDIR_HORI_LEFT_TOP) eOutHorJust = SVX_HOR_JUSTIFY_LEFT; else eOutHorJust = SVX_HOR_JUSTIFY_RIGHT; } bool bBreak = ( aVars.GetLineBreak() || aVars.GetHorJust() == SVX_HOR_JUSTIFY_BLOCK ); // #i111387# #o11817313# disable automatic line breaks only for "General" number format if (bBreak && bCellIsValue && (aVars.GetResultValueFormat(aCell) % SV_COUNTRY_LANGUAGE_OFFSET) == 0) bBreak = false; bool bRepeat = aVars.IsRepeat() && !bBreak; bool bShrink = aVars.IsShrink() && !bBreak && !bRepeat; nTotalMargin = static_cast(aVars.GetLeftTotal() * mnPPTX) + static_cast(aVars.GetMargin()->GetRightMargin() * mnPPTX); nNeededWidth = aVars.GetTextSize().Width() + nTotalMargin; // GetOutputArea gives justfied rectangles GetOutputArea( nX, nArrY, nPosX, nPosY, nCellX, nCellY, nNeededWidth, *pPattern, sal::static_int_cast(eOutHorJust), bCellIsValue || bRepeat || bShrink, bBreak, false, aAreaParam ); aVars.RepeatToFill( aAreaParam.mnColWidth - nTotalMargin ); if ( bShrink ) { if ( aVars.GetOrient() != SVX_ORIENTATION_STANDARD ) { // Only horizontal scaling is handled here. // DrawEdit is used to vertically scale 90 deg rotated text. bNeedEdit = sal_True; } else if ( aAreaParam.mbLeftClip || aAreaParam.mbRightClip ) // horizontal { long nAvailable = aAreaParam.maAlignRect.GetWidth() - nTotalMargin; long nScaleSize = aVars.GetTextSize().Width(); // without margin if ( nScaleSize > 0 ) // 0 if the text is empty (formulas, number formats) { long nScale = ( nAvailable * 100 ) / nScaleSize; aVars.SetShrinkScale( nScale, nOldScript ); long nNewSize = aVars.GetTextSize().Width(); sal_uInt16 nShrinkAgain = 0; while ( nNewSize > nAvailable && nShrinkAgain < SC_SHRINKAGAIN_MAX ) { // If the text is still too large, reduce the scale again by 10%, until it fits, // at most 7 times (it's less than 50% of the calculated scale then). nScale = ( nScale * 9 ) / 10; aVars.SetShrinkScale( nScale, nOldScript ); nNewSize = aVars.GetTextSize().Width(); ++nShrinkAgain; } // If even at half the size the font still isn't rendered smaller, // fall back to normal clipping (showing ### for numbers). if ( nNewSize <= nAvailable ) aAreaParam.mbLeftClip = aAreaParam.mbRightClip = false; pOldPattern = NULL; } } } if ( bRepeat && !aAreaParam.mbLeftClip && !aAreaParam.mbRightClip ) { long nAvailable = aAreaParam.maAlignRect.GetWidth() - nTotalMargin; long nRepeatSize = aVars.GetTextSize().Width(); // without margin // When formatting for the printer, the text sizes don't always add up. // Round down (too few repetitions) rather than exceeding the cell size then: if ( pFmtDevice != mpRefDevice ) ++nRepeatSize; if ( nRepeatSize > 0 ) { long nRepeatCount = nAvailable / nRepeatSize; if ( nRepeatCount > 1 ) { String aCellStr = aVars.GetString(); String aRepeated = aCellStr; for ( long nRepeat = 1; nRepeat < nRepeatCount; nRepeat++ ) aRepeated.Append( aCellStr ); aVars.SetAutoText( aRepeated ); } } } // use edit engine if automatic line breaks are needed if ( bBreak ) { if ( aVars.GetOrient() == SVX_ORIENTATION_STANDARD ) bNeedEdit = ( aAreaParam.mbLeftClip || aAreaParam.mbRightClip ); else { long nHeight = aVars.GetTextSize().Height() + (long)(aVars.GetMargin()->GetTopMargin()*mnPPTY) + (long)(aVars.GetMargin()->GetBottomMargin()*mnPPTY); bNeedEdit = ( nHeight > aAreaParam.maClipRect.GetHeight() ); } } if (!bNeedEdit) { bNeedEdit = aVars.GetHorJust() == SVX_HOR_JUSTIFY_BLOCK && aVars.GetHorJustMethod() == SVX_JUSTIFY_METHOD_DISTRIBUTE; } } if (bNeedEdit) { // mark the cell in CellInfo to be drawn in DrawEdit: // Cells to the left are marked directly, cells to the // right are handled by the flag for nX2 SCCOL nMarkX = ( nCellX <= nX2 ) ? nCellX : nX2; RowInfo* pMarkRowInfo = ( nCellY == nY ) ? pThisRowInfo : &pRowInfo[0]; pMarkRowInfo->pCellInfo[nMarkX+1].bEditEngine = sal_True; bDoCell = false; // don't draw here } if ( bDoCell ) { if ( bCellIsValue && ( aAreaParam.mbLeftClip || aAreaParam.mbRightClip ) ) { if (mbShowFormulas) aVars.SetHashText(); else // Adjust the decimals to fit the available column width. aVars.SetTextToWidthOrHash(aCell, aAreaParam.mnColWidth - nTotalMargin); nNeededWidth = aVars.GetTextSize().Width() + (long) ( aVars.GetLeftTotal() * mnPPTX ) + (long) ( aVars.GetMargin()->GetRightMargin() * mnPPTX ); if ( nNeededWidth <= aAreaParam.maClipRect.GetWidth() ) aAreaParam.mbLeftClip = aAreaParam.mbRightClip = false; // If the "###" replacement doesn't fit into the cells, no clip marks // are shown, as the "###" already denotes too little space. // The rectangles from the first GetOutputArea call remain valid. } long nJustPosX = aAreaParam.maAlignRect.Left(); // "justified" - effect of alignment will be added long nJustPosY = aAreaParam.maAlignRect.Top(); long nAvailWidth = aAreaParam.maAlignRect.GetWidth(); long nOutHeight = aAreaParam.maAlignRect.GetHeight(); sal_Bool bOutside = ( aAreaParam.maClipRect.Right() < nScrX || aAreaParam.maClipRect.Left() >= nScrX + nScrW ); if ( aAreaParam.maClipRect.Left() < nScrX ) { aAreaParam.maClipRect.Left() = nScrX; aAreaParam.mbLeftClip = sal_True; } if ( aAreaParam.maClipRect.Right() > nScrX + nScrW ) { aAreaParam.maClipRect.Right() = nScrX + nScrW; //! minus one? aAreaParam.mbRightClip = sal_True; } sal_Bool bHClip = aAreaParam.mbLeftClip || aAreaParam.mbRightClip; sal_Bool bVClip = false; if ( aAreaParam.maClipRect.Top() < nScrY ) { aAreaParam.maClipRect.Top() = nScrY; bVClip = sal_True; } if ( aAreaParam.maClipRect.Bottom() > nScrY + nScrH ) { aAreaParam.maClipRect.Bottom() = nScrY + nScrH; //! minus one? bVClip = sal_True; } // // horizontalen Platz testen // sal_Bool bRightAdjusted = false; // to correct text width calculation later sal_Bool bNeedEditEngine = false; if ( !bNeedEditEngine && !bOutside ) { switch (eOutHorJust) { case SVX_HOR_JUSTIFY_LEFT: nJustPosX += (long) ( aVars.GetLeftTotal() * mnPPTX ); break; case SVX_HOR_JUSTIFY_RIGHT: nJustPosX += nAvailWidth - aVars.GetTextSize().Width() - (long) ( aVars.GetMargin()->GetRightMargin() * mnPPTX ); bRightAdjusted = sal_True; break; case SVX_HOR_JUSTIFY_CENTER: nJustPosX += ( nAvailWidth - aVars.GetTextSize().Width() + (long) ( aVars.GetLeftTotal() * mnPPTX ) - (long) ( aVars.GetMargin()->GetRightMargin() * mnPPTX ) ) / 2; break; default: { // added to avoid warnings } } long nTestClipHeight = aVars.GetTextSize().Height(); switch (aVars.GetVerJust()) { case SVX_VER_JUSTIFY_TOP: case SVX_VER_JUSTIFY_BLOCK: { long nTop = (long)( aVars.GetMargin()->GetTopMargin() * mnPPTY ); nJustPosY += nTop; nTestClipHeight += nTop; } break; case SVX_VER_JUSTIFY_BOTTOM: { long nBot = (long)( aVars.GetMargin()->GetBottomMargin() * mnPPTY ); nJustPosY += nOutHeight - aVars.GetTextSize().Height() - nBot; nTestClipHeight += nBot; } break; case SVX_VER_JUSTIFY_CENTER: { long nTop = (long)( aVars.GetMargin()->GetTopMargin() * mnPPTY ); long nBot = (long)( aVars.GetMargin()->GetBottomMargin() * mnPPTY ); nJustPosY += ( nOutHeight + nTop - aVars.GetTextSize().Height() - nBot ) / 2; nTestClipHeight += std::abs( nTop - nBot ); } break; default: { // added to avoid warnings } } if ( nTestClipHeight > nOutHeight ) { // kein vertikales Clipping beim Drucken von Zellen mit // optimaler Hoehe, ausser bei Groesse in bedingter Formatierung if ( eType != OUTTYPE_PRINTER || ( mpDoc->GetRowFlags( nCellY, nTab ) & CR_MANUALSIZE ) || ( aVars.HasCondHeight() ) ) bVClip = sal_True; } if ( bHClip || bVClip ) { // nur die betroffene Dimension clippen, // damit bei nicht-proportionalem Resize nicht alle // rechtsbuendigen Zahlen abgeschnitten werden: if (!bHClip) { aAreaParam.maClipRect.Left() = nScrX; aAreaParam.maClipRect.Right() = nScrX+nScrW; } if (!bVClip) { aAreaParam.maClipRect.Top() = nScrY; aAreaParam.maClipRect.Bottom() = nScrY+nScrH; } // aClipRect is not used after SetClipRegion/IntersectClipRegion, // so it can be modified here if (bPixelToLogic) aAreaParam.maClipRect = mpRefDevice->PixelToLogic( aAreaParam.maClipRect ); if (bMetaFile) { mpDev->Push(); mpDev->IntersectClipRegion( aAreaParam.maClipRect ); } else mpDev->SetClipRegion( Region( aAreaParam.maClipRect ) ); } Point aURLStart( nJustPosX, nJustPosY ); // copy before modifying for orientation switch (aVars.GetOrient()) { case SVX_ORIENTATION_STANDARD: nJustPosY += aVars.GetAscent(); break; case SVX_ORIENTATION_TOPBOTTOM: nJustPosX += aVars.GetTextSize().Width() - aVars.GetAscent(); break; case SVX_ORIENTATION_BOTTOMTOP: nJustPosY += aVars.GetTextSize().Height(); nJustPosX += aVars.GetAscent(); break; default: { // added to avoid warnings } } // When clipping, the visible part is now completely defined by the alignment, // there's no more special handling to show the right part of RTL text. Point aDrawTextPos( nJustPosX, nJustPosY ); if ( bPixelToLogic ) { // undo text width adjustment in pixels if (bRightAdjusted) aDrawTextPos.X() += aVars.GetTextSize().Width(); aDrawTextPos = mpRefDevice->PixelToLogic( aDrawTextPos ); // redo text width adjustment in logic units if (bRightAdjusted) aDrawTextPos.X() -= aVars.GetOriginalWidth(); } // in Metafiles immer DrawTextArray, damit die Positionen mit // aufgezeichnet werden (fuer nicht-proportionales Resize): String aString = aVars.GetString(); if (bMetaFile || pFmtDevice != mpDev || aZoomX != aZoomY) { sal_Int32* pDX = new sal_Int32[aString.Len()]; pFmtDevice->GetTextArray( aString, pDX ); if ( !mpRefDevice->GetConnectMetaFile() || mpRefDevice->GetOutDevType() == OUTDEV_PRINTER ) { double fMul = GetStretch(); xub_StrLen nLen = aString.Len(); for (xub_StrLen i=0; iDrawTextArray( aDrawTextPos, aString, pDX ); delete[] pDX; } else mpDev->DrawText( aDrawTextPos, aString ); if ( bHClip || bVClip ) { if (bMetaFile) mpDev->Pop(); else mpDev->SetClipRegion(); } // PDF: whole-cell hyperlink from formula? bool bHasURL = pPDFData && aCell.meType == CELLTYPE_FORMULA && aCell.mpFormula->IsHyperLinkCell(); if ( bHasURL ) { Rectangle aURLRect( aURLStart, aVars.GetTextSize() ); lcl_DoHyperlinkResult(mpDev, aURLRect, aCell); } } } nPosX += pRowInfo[0].pCellInfo[nX+1].nWidth * nLayoutSign; } } nPosY += pRowInfo[nArrY].nHeight; } if ( bProgress ) ScProgress::DeleteInterpretProgress(); mpDoc->EnableIdle(bWasIdleEnabled); } // ------------------------------------------------------------------------------- ScFieldEditEngine* ScOutputData::CreateOutputEditEngine() { ScFieldEditEngine* pEngine = new ScFieldEditEngine(mpDoc, mpDoc->GetEnginePool()); pEngine->SetUpdateMode( false ); // a RefDevice always has to be set, otherwise EditEngine would create a VirtualDevice pEngine->SetRefDevice( pFmtDevice ); sal_uLong nCtrl = pEngine->GetControlWord(); if ( bShowSpellErrors ) nCtrl |= EE_CNTRL_ONLINESPELLING; if ( eType == OUTTYPE_PRINTER ) nCtrl &= ~EE_CNTRL_MARKFIELDS; if ( eType == OUTTYPE_WINDOW && mpRefDevice == pFmtDevice ) nCtrl &= ~EE_CNTRL_FORMAT100; // use the actual MapMode pEngine->SetControlWord( nCtrl ); mpDoc->ApplyAsianEditSettings( *pEngine ); pEngine->EnableAutoColor( mbUseStyleColor ); pEngine->SetDefaultHorizontalTextDirection( (EEHorizontalTextDirection)mpDoc->GetEditTextDirection( nTab ) ); return pEngine; } static void lcl_ClearEdit( EditEngine& rEngine ) // Text und Attribute { rEngine.SetUpdateMode( false ); rEngine.SetText(EMPTY_STRING); // keine Para-Attribute uebrigbehalten... const SfxItemSet& rPara = rEngine.GetParaAttribs(0); if (rPara.Count()) rEngine.SetParaAttribs( 0, SfxItemSet( *rPara.GetPool(), rPara.GetRanges() ) ); } static bool lcl_SafeIsValue( ScRefCellValue& rCell ) { switch (rCell.meType) { case CELLTYPE_VALUE: return true; case CELLTYPE_FORMULA: { ScFormulaCell* pFCell = rCell.mpFormula; if (pFCell->IsRunning() || pFCell->IsValue()) return true; } break; default: { // added to avoid warnings } } return false; } static void lcl_ScaleFonts( EditEngine& rEngine, long nPercent ) { sal_Bool bUpdateMode = rEngine.GetUpdateMode(); if ( bUpdateMode ) rEngine.SetUpdateMode( false ); sal_uInt16 nParCount = rEngine.GetParagraphCount(); for (sal_uInt16 nPar=0; nPar aPortions; rEngine.GetPortions( nPar, aPortions ); sal_uInt16 nStart = 0; for ( std::vector::const_iterator it(aPortions.begin()); it != aPortions.end(); ++it ) { sal_uInt16 nEnd = *it; ESelection aSel( nPar, nStart, nPar, nEnd ); SfxItemSet aAttribs = rEngine.GetAttribs( aSel ); long nWestern = static_cast(aAttribs.Get(EE_CHAR_FONTHEIGHT)).GetHeight(); long nCJK = static_cast(aAttribs.Get(EE_CHAR_FONTHEIGHT_CJK)).GetHeight(); long nCTL = static_cast(aAttribs.Get(EE_CHAR_FONTHEIGHT_CTL)).GetHeight(); nWestern = ( nWestern * nPercent ) / 100; nCJK = ( nCJK * nPercent ) / 100; nCTL = ( nCTL * nPercent ) / 100; aAttribs.Put( SvxFontHeightItem( nWestern, 100, EE_CHAR_FONTHEIGHT ) ); aAttribs.Put( SvxFontHeightItem( nCJK, 100, EE_CHAR_FONTHEIGHT_CJK ) ); aAttribs.Put( SvxFontHeightItem( nCTL, 100, EE_CHAR_FONTHEIGHT_CTL ) ); rEngine.QuickSetAttribs( aAttribs, aSel ); //! remove paragraph attributes from aAttribs? nStart = nEnd; } } if ( bUpdateMode ) rEngine.SetUpdateMode( sal_True ); } static long lcl_GetEditSize( EditEngine& rEngine, sal_Bool bWidth, sal_Bool bSwap, long nAttrRotate ) { if ( bSwap ) bWidth = !bWidth; if ( nAttrRotate ) { long nRealWidth = (long) rEngine.CalcTextWidth(); long nRealHeight = rEngine.GetTextHeight(); // assuming standard mode, otherwise width isn't used double nRealOrient = nAttrRotate * F_PI18000; // 1/100th degrees double nAbsCos = fabs( cos( nRealOrient ) ); double nAbsSin = fabs( sin( nRealOrient ) ); if ( bWidth ) return (long) ( nRealWidth * nAbsCos + nRealHeight * nAbsSin ); else return (long) ( nRealHeight * nAbsCos + nRealWidth * nAbsSin ); } else if ( bWidth ) return (long) rEngine.CalcTextWidth(); else return rEngine.GetTextHeight(); } void ScOutputData::ShrinkEditEngine( EditEngine& rEngine, const Rectangle& rAlignRect, long nLeftM, long nTopM, long nRightM, long nBottomM, sal_Bool bWidth, sal_uInt16 nOrient, long nAttrRotate, sal_Bool bPixelToLogic, long& rEngineWidth, long& rEngineHeight, long& rNeededPixel, bool& rLeftClip, bool& rRightClip ) { if ( !bWidth ) { // vertical long nScaleSize = bPixelToLogic ? mpRefDevice->LogicToPixel(Size(0,rEngineHeight)).Height() : rEngineHeight; // Don't scale if it fits already. // Allowing to extend into the margin, to avoid scaling at optimal height. if ( nScaleSize <= rAlignRect.GetHeight() ) return; sal_Bool bSwap = ( nOrient == SVX_ORIENTATION_TOPBOTTOM || nOrient == SVX_ORIENTATION_BOTTOMTOP ); long nAvailable = rAlignRect.GetHeight() - nTopM - nBottomM; long nScale = ( nAvailable * 100 ) / nScaleSize; lcl_ScaleFonts( rEngine, nScale ); rEngineHeight = lcl_GetEditSize( rEngine, false, bSwap, nAttrRotate ); long nNewSize = bPixelToLogic ? mpRefDevice->LogicToPixel(Size(0,rEngineHeight)).Height() : rEngineHeight; sal_uInt16 nShrinkAgain = 0; while ( nNewSize > nAvailable && nShrinkAgain < SC_SHRINKAGAIN_MAX ) { // further reduce, like in DrawStrings lcl_ScaleFonts( rEngine, 90 ); // reduce by 10% rEngineHeight = lcl_GetEditSize( rEngine, false, bSwap, nAttrRotate ); nNewSize = bPixelToLogic ? mpRefDevice->LogicToPixel(Size(0,rEngineHeight)).Height() : rEngineHeight; ++nShrinkAgain; } // sizes for further processing (alignment etc): rEngineWidth = lcl_GetEditSize( rEngine, sal_True, bSwap, nAttrRotate ); long nPixelWidth = bPixelToLogic ? mpRefDevice->LogicToPixel(Size(rEngineWidth,0)).Width() : rEngineWidth; rNeededPixel = nPixelWidth + nLeftM + nRightM; } else if ( rLeftClip || rRightClip ) { // horizontal long nAvailable = rAlignRect.GetWidth() - nLeftM - nRightM; long nScaleSize = rNeededPixel - nLeftM - nRightM; // without margin if ( nScaleSize <= nAvailable ) return; long nScale = ( nAvailable * 100 ) / nScaleSize; lcl_ScaleFonts( rEngine, nScale ); rEngineWidth = lcl_GetEditSize( rEngine, sal_True, false, nAttrRotate ); long nNewSize = bPixelToLogic ? mpRefDevice->LogicToPixel(Size(rEngineWidth,0)).Width() : rEngineWidth; sal_uInt16 nShrinkAgain = 0; while ( nNewSize > nAvailable && nShrinkAgain < SC_SHRINKAGAIN_MAX ) { // further reduce, like in DrawStrings lcl_ScaleFonts( rEngine, 90 ); // reduce by 10% rEngineWidth = lcl_GetEditSize( rEngine, sal_True, false, nAttrRotate ); nNewSize = bPixelToLogic ? mpRefDevice->LogicToPixel(Size(rEngineWidth,0)).Width() : rEngineWidth; ++nShrinkAgain; } if ( nNewSize <= nAvailable ) rLeftClip = rRightClip = false; // sizes for further processing (alignment etc): rNeededPixel = nNewSize + nLeftM + nRightM; rEngineHeight = lcl_GetEditSize( rEngine, false, false, nAttrRotate ); } } ScOutputData::DrawEditParam::DrawEditParam(const ScPatternAttr* pPattern, const SfxItemSet* pCondSet, bool bCellIsValue) : meHorJust( lcl_GetValue(*pPattern, ATTR_HOR_JUSTIFY, pCondSet) ), meVerJust( lcl_GetValue(*pPattern, ATTR_VER_JUSTIFY, pCondSet) ), meHorJustMethod( lcl_GetValue(*pPattern, ATTR_HOR_JUSTIFY_METHOD, pCondSet) ), meVerJustMethod( lcl_GetValue(*pPattern, ATTR_VER_JUSTIFY_METHOD, pCondSet) ), meOrient( pPattern->GetCellOrientation(pCondSet) ), mnArrY(0), mnX(0), mnY(0), mnCellX(0), mnCellY(0), mnPosX(0), mnPosY(0), mnInitPosX(0), mbBreak( (meHorJust == SVX_HOR_JUSTIFY_BLOCK) || lcl_GetBoolValue(*pPattern, ATTR_LINEBREAK, pCondSet) ), mbCellIsValue(bCellIsValue), mbAsianVertical(false), mbPixelToLogic(false), mbHyphenatorSet(false), mbRTL(false), mpEngine(NULL), mpPattern(pPattern), mpCondSet(pCondSet), mpPreviewFontSet(NULL), mpOldPattern(NULL), mpOldCondSet(NULL), mpThisRowInfo(NULL) {} bool ScOutputData::DrawEditParam::readCellContent( ScDocument* pDoc, bool bShowNullValues, bool bShowFormulas, bool bSyntaxMode, bool bUseStyleColor, bool bForceAutoColor, bool& rWrapFields) { if (maCell.meType == CELLTYPE_EDIT) { const EditTextObject* pData = maCell.mpEditText; if (pData) { mpEngine->SetText(*pData); if ( mbBreak && !mbAsianVertical && pData->HasField() ) { // Fields aren't wrapped, so clipping is enabled to prevent // a field from being drawn beyond the cell size rWrapFields = true; } } else { OSL_FAIL("pData == 0"); return false; } } else { sal_uLong nFormat = mpPattern->GetNumberFormat( pDoc->GetFormatTable(), mpCondSet ); OUString aString; Color* pColor; ScCellFormat::GetString( maCell, nFormat,aString, &pColor, *pDoc->GetFormatTable(), bShowNullValues, bShowFormulas, ftCheck ); mpEngine->SetText(aString); if ( pColor && !bSyntaxMode && !( bUseStyleColor && bForceAutoColor ) ) lcl_SetEditColor( *mpEngine, *pColor ); } return true; } void ScOutputData::DrawEditParam::setPatternToEngine(bool bUseStyleColor) { // syntax highlighting mode is ignored here // StringDiffer doesn't look at hyphenate, language items if (mpPattern == mpOldPattern && mpCondSet == mpOldCondSet && !mpPreviewFontSet) return; sal_Int32 nConfBackColor = SC_MOD()->GetColorConfig().GetColorValue(svtools::DOCCOLOR).nColor; bool bCellContrast = bUseStyleColor && Application::GetSettings().GetStyleSettings().GetHighContrastMode(); SfxItemSet* pSet = new SfxItemSet( mpEngine->GetEmptyItemSet() ); mpPattern->FillEditItemSet( pSet, mpCondSet ); if ( mpPreviewFontSet ) { const SfxPoolItem* pItem; if ( mpPreviewFontSet->GetItemState( ATTR_FONT, true, &pItem ) == SFX_ITEM_SET ) { SvxFontItem aFontItem(EE_CHAR_FONTINFO); aFontItem = (const SvxFontItem&)*pItem; pSet->Put( aFontItem ); } if ( mpPreviewFontSet->GetItemState( ATTR_CJK_FONT, true, &pItem ) == SFX_ITEM_SET ) { SvxFontItem aCjkFontItem(EE_CHAR_FONTINFO_CJK); aCjkFontItem = (const SvxFontItem&)*pItem; pSet->Put( aCjkFontItem ); } if ( mpPreviewFontSet->GetItemState( ATTR_CTL_FONT, true, &pItem ) == SFX_ITEM_SET ) { SvxFontItem aCtlFontItem(EE_CHAR_FONTINFO_CTL); aCtlFontItem = (const SvxFontItem&)*pItem; pSet->Put( aCtlFontItem ); } } mpEngine->SetDefaults( pSet ); mpOldPattern = mpPattern; mpOldCondSet = mpCondSet; sal_uLong nControl = mpEngine->GetControlWord(); if (meOrient == SVX_ORIENTATION_STACKED) nControl |= EE_CNTRL_ONECHARPERLINE; else nControl &= ~EE_CNTRL_ONECHARPERLINE; mpEngine->SetControlWord( nControl ); if ( !mbHyphenatorSet && ((const SfxBoolItem&)pSet->Get(EE_PARA_HYPHENATE)).GetValue() ) { // set hyphenator the first time it is needed com::sun::star::uno::Reference xXHyphenator( LinguMgr::GetHyphenator() ); mpEngine->SetHyphenator( xXHyphenator ); mbHyphenatorSet = true; } Color aBackCol = ((const SvxBrushItem&)mpPattern->GetItem( ATTR_BACKGROUND, mpCondSet )).GetColor(); if ( bUseStyleColor && ( aBackCol.GetTransparency() > 0 || bCellContrast ) ) aBackCol.SetColor( nConfBackColor ); mpEngine->SetBackgroundColor( aBackCol ); } void ScOutputData::DrawEditParam::calcMargins(long& rTopM, long& rLeftM, long& rBottomM, long& rRightM, double nPPTX, double nPPTY) const { const SvxMarginItem& rMargin = static_cast(mpPattern->GetItem(ATTR_MARGIN, mpCondSet)); sal_uInt16 nIndent = 0; if (meHorJust == SVX_HOR_JUSTIFY_LEFT) nIndent = lcl_GetValue(*mpPattern, ATTR_INDENT, mpCondSet); rLeftM = static_cast(((rMargin.GetLeftMargin() + nIndent) * nPPTX)); rTopM = static_cast((rMargin.GetTopMargin() * nPPTY)); rRightM = static_cast((rMargin.GetRightMargin() * nPPTX)); rBottomM = static_cast((rMargin.GetBottomMargin() * nPPTY)); } void ScOutputData::DrawEditParam::calcPaperSize( Size& rPaperSize, const Rectangle& rAlignRect, double nPPTX, double nPPTY) const { long nTopM, nLeftM, nBottomM, nRightM; calcMargins(nTopM, nLeftM, nBottomM, nRightM, nPPTX, nPPTY); if (isVerticallyOriented()) { rPaperSize.Width() = rAlignRect.GetHeight() - nTopM - nBottomM; rPaperSize.Height() = rAlignRect.GetWidth() - nLeftM - nRightM; } else { rPaperSize.Width() = rAlignRect.GetWidth() - nLeftM - nRightM; rPaperSize.Height() = rAlignRect.GetHeight() - nTopM - nBottomM; } if (mbAsianVertical) { rPaperSize.Height() = rAlignRect.GetHeight() - nTopM - nBottomM; // Subtract some extra value from the height or else the text would go // outside the cell area. The value of 5 is arbitrary, and is based // entirely on heuristics. rPaperSize.Height() -= 5; } } void ScOutputData::DrawEditParam::getEngineSize(ScFieldEditEngine* pEngine, long& rWidth, long& rHeight) const { long nEngineWidth = 0; if (!mbBreak || meOrient == SVX_ORIENTATION_STACKED || mbAsianVertical) nEngineWidth = static_cast(pEngine->CalcTextWidth()); long nEngineHeight = pEngine->GetTextHeight(); if (isVerticallyOriented()) { long nTemp = nEngineWidth; nEngineWidth = nEngineHeight; nEngineHeight = nTemp; } if (meOrient == SVX_ORIENTATION_STACKED) nEngineWidth = nEngineWidth * 11 / 10; rWidth = nEngineWidth; rHeight = nEngineHeight; } bool ScOutputData::DrawEditParam::hasLineBreak() const { return (mbBreak || (meOrient == SVX_ORIENTATION_STACKED) || mbAsianVertical); } bool ScOutputData::DrawEditParam::isHyperlinkCell() const { if (maCell.meType != CELLTYPE_FORMULA) return false; return maCell.mpFormula->IsHyperLinkCell(); } bool ScOutputData::DrawEditParam::isVerticallyOriented() const { return (meOrient == SVX_ORIENTATION_TOPBOTTOM || meOrient == SVX_ORIENTATION_BOTTOMTOP); } void ScOutputData::DrawEditParam::calcStartPosForVertical( Point& rLogicStart, long nCellWidth, long nEngineWidth, long nTopM, OutputDevice* pRefDevice) { OSL_ENSURE(isVerticallyOriented(), "Use this only for vertically oriented cell!"); if (mbPixelToLogic) rLogicStart = pRefDevice->PixelToLogic(rLogicStart); if (mbBreak) { // vertical adjustment is within the EditEngine if (mbPixelToLogic) rLogicStart.Y() += pRefDevice->PixelToLogic(Size(0,nTopM)).Height(); else rLogicStart.Y() += nTopM; switch (meHorJust) { case SVX_HOR_JUSTIFY_CENTER: rLogicStart.X() += (nCellWidth - nEngineWidth) / 2; break; case SVX_HOR_JUSTIFY_RIGHT: rLogicStart.X() += nCellWidth - nEngineWidth; break; default: ; // do nothing } } } void ScOutputData::DrawEditParam::setAlignmentToEngine() { if (isVerticallyOriented() || mbAsianVertical) { SvxAdjust eSvxAdjust = SVX_ADJUST_LEFT; switch (meVerJust) { case SVX_VER_JUSTIFY_TOP: eSvxAdjust = (meOrient == SVX_ORIENTATION_TOPBOTTOM || mbAsianVertical) ? SVX_ADJUST_LEFT : SVX_ADJUST_RIGHT; break; case SVX_VER_JUSTIFY_CENTER: eSvxAdjust = SVX_ADJUST_CENTER; break; case SVX_VER_JUSTIFY_BOTTOM: case SVX_VER_JUSTIFY_STANDARD: eSvxAdjust = (meOrient == SVX_ORIENTATION_TOPBOTTOM || mbAsianVertical) ? SVX_ADJUST_RIGHT : SVX_ADJUST_LEFT; break; case SVX_VER_JUSTIFY_BLOCK: eSvxAdjust = SVX_ADJUST_BLOCK; break; } mpEngine->SetDefaultItem( SvxAdjustItem(eSvxAdjust, EE_PARA_JUST) ); mpEngine->SetDefaultItem( SvxJustifyMethodItem(meVerJustMethod, EE_PARA_JUST_METHOD) ); if (meHorJust == SVX_HOR_JUSTIFY_BLOCK) mpEngine->SetDefaultItem( SvxVerJustifyItem(SVX_VER_JUSTIFY_BLOCK, EE_PARA_VER_JUST) ); } else { // horizontal alignment now may depend on cell content // (for values with number formats with mixed script types) // -> always set adjustment SvxAdjust eSvxAdjust = SVX_ADJUST_LEFT; if (meOrient == SVX_ORIENTATION_STACKED) eSvxAdjust = SVX_ADJUST_CENTER; else if (mbBreak) { if (meOrient == SVX_ORIENTATION_STANDARD) switch (meHorJust) { case SVX_HOR_JUSTIFY_STANDARD: eSvxAdjust = mbCellIsValue ? SVX_ADJUST_RIGHT : SVX_ADJUST_LEFT; break; case SVX_HOR_JUSTIFY_LEFT: case SVX_HOR_JUSTIFY_REPEAT: // nicht implementiert eSvxAdjust = SVX_ADJUST_LEFT; break; case SVX_HOR_JUSTIFY_RIGHT: eSvxAdjust = SVX_ADJUST_RIGHT; break; case SVX_HOR_JUSTIFY_CENTER: eSvxAdjust = SVX_ADJUST_CENTER; break; case SVX_HOR_JUSTIFY_BLOCK: eSvxAdjust = SVX_ADJUST_BLOCK; break; } else switch (meVerJust) { case SVX_VER_JUSTIFY_TOP: eSvxAdjust = SVX_ADJUST_RIGHT; break; case SVX_VER_JUSTIFY_CENTER: eSvxAdjust = SVX_ADJUST_CENTER; break; case SVX_VER_JUSTIFY_BOTTOM: case SVX_VER_JUSTIFY_STANDARD: eSvxAdjust = SVX_ADJUST_LEFT; break; case SVX_VER_JUSTIFY_BLOCK: eSvxAdjust = SVX_ADJUST_BLOCK; break; } } mpEngine->SetDefaultItem( SvxAdjustItem(eSvxAdjust, EE_PARA_JUST) ); if (mbAsianVertical) { mpEngine->SetDefaultItem( SvxJustifyMethodItem(meVerJustMethod, EE_PARA_JUST_METHOD) ); if (meHorJust == SVX_HOR_JUSTIFY_BLOCK) mpEngine->SetDefaultItem( SvxVerJustifyItem(SVX_VER_JUSTIFY_BLOCK, EE_PARA_VER_JUST) ); } else { mpEngine->SetDefaultItem( SvxJustifyMethodItem(meHorJustMethod, EE_PARA_JUST_METHOD) ); if (meVerJust == SVX_VER_JUSTIFY_BLOCK) mpEngine->SetDefaultItem( SvxVerJustifyItem(SVX_VER_JUSTIFY_BLOCK, EE_PARA_VER_JUST) ); } } mpEngine->SetVertical(mbAsianVertical); if (maCell.meType == CELLTYPE_EDIT) { // We need to synchronize the vertical mode in the EditTextObject // instance too. No idea why we keep this state in two separate // instances. const EditTextObject* pData = maCell.mpEditText; if (pData) const_cast(pData)->SetVertical(mbAsianVertical); } } bool ScOutputData::DrawEditParam::adjustHorAlignment(ScFieldEditEngine* pEngine) { if (meHorJust == SVX_HOR_JUSTIFY_RIGHT || meHorJust == SVX_HOR_JUSTIFY_CENTER || (meHorJust == SVX_HOR_JUSTIFY_STANDARD && mbCellIsValue)) { SvxAdjust eEditAdjust = (meHorJust == SVX_HOR_JUSTIFY_CENTER) ? SVX_ADJUST_CENTER : SVX_ADJUST_RIGHT; pEngine->SetUpdateMode(false); pEngine->SetDefaultItem( SvxAdjustItem(eEditAdjust, EE_PARA_JUST) ); pEngine->SetUpdateMode(true); return true; } return false; } void ScOutputData::DrawEditParam::adjustForRTL() { if (!mpEngine->IsRightToLeft(0)) // No RTL mode. return; // For right-to-left, EditEngine always calculates its lines // beginning from the right edge, but EditLine::nStartPosX is // of sal_uInt16 type, so the PaperSize must be limited to USHRT_MAX. Size aLogicPaper = mpEngine->GetPaperSize(); if ( aLogicPaper.Width() > USHRT_MAX ) { aLogicPaper.Width() = USHRT_MAX; mpEngine->SetPaperSize(aLogicPaper); } } void ScOutputData::DrawEditParam::adjustForHyperlinkInPDF(Point aURLStart, OutputDevice* pDev) { // PDF: whole-cell hyperlink from formula? vcl::PDFExtOutDevData* pPDFData = PTR_CAST( vcl::PDFExtOutDevData, pDev->GetExtOutDevData() ); bool bHasURL = pPDFData && isHyperlinkCell(); if (!bHasURL) return; long nURLWidth = (long) mpEngine->CalcTextWidth(); long nURLHeight = mpEngine->GetTextHeight(); if (mbBreak) { Size aPaper = mpEngine->GetPaperSize(); if ( mbAsianVertical ) nURLHeight = aPaper.Height(); else nURLWidth = aPaper.Width(); } if (isVerticallyOriented()) std::swap( nURLWidth, nURLHeight ); else if (mbAsianVertical) aURLStart.X() -= nURLWidth; Rectangle aURLRect( aURLStart, Size( nURLWidth, nURLHeight ) ); lcl_DoHyperlinkResult(pDev, aURLRect, maCell); } void ScOutputData::DrawEditStandard(DrawEditParam& rParam) { OSL_ASSERT(rParam.meOrient == SVX_ORIENTATION_STANDARD); OSL_ASSERT(!rParam.mbAsianVertical); Size aRefOne = mpRefDevice->PixelToLogic(Size(1,1)); bool bHidden = false; bool bRepeat = (rParam.meHorJust == SVX_HOR_JUSTIFY_REPEAT && !rParam.mbBreak); bool bShrink = !rParam.mbBreak && !bRepeat && lcl_GetBoolValue(*rParam.mpPattern, ATTR_SHRINKTOFIT, rParam.mpCondSet); long nAttrRotate = lcl_GetValue(*rParam.mpPattern, ATTR_ROTATE_VALUE, rParam.mpCondSet); if ( rParam.meHorJust == SVX_HOR_JUSTIFY_REPEAT ) { // ignore orientation/rotation if "repeat" is active rParam.meOrient = SVX_ORIENTATION_STANDARD; nAttrRotate = 0; // #i31843# "repeat" with "line breaks" is treated as default alignment // (but rotation is still disabled) if ( rParam.mbBreak ) rParam.meHorJust = SVX_HOR_JUSTIFY_STANDARD; } if (nAttrRotate) { //! Flag setzen, um die Zelle in DrawRotated wiederzufinden ? //! (oder Flag schon bei DrawBackground, dann hier keine Abfrage) bHidden = true; // gedreht wird getrennt ausgegeben } SvxCellHorJustify eOutHorJust = rParam.meHorJust; if (eOutHorJust == SVX_HOR_JUSTIFY_STANDARD) { // fdo#32530: Default alignment depends on value vs string, and the // direction of the 1st letter. if (rParam.mbRTL) eOutHorJust = rParam.mbCellIsValue ? SVX_HOR_JUSTIFY_LEFT : SVX_HOR_JUSTIFY_RIGHT; else eOutHorJust = rParam.mbCellIsValue ? SVX_HOR_JUSTIFY_RIGHT : SVX_HOR_JUSTIFY_LEFT; } if ( eOutHorJust == SVX_HOR_JUSTIFY_BLOCK || eOutHorJust == SVX_HOR_JUSTIFY_REPEAT ) eOutHorJust = SVX_HOR_JUSTIFY_LEFT; // repeat is not yet implemented if (bHidden) return; //! mirror margin values for RTL? //! move margin down to after final GetOutputArea call long nTopM, nLeftM, nBottomM, nRightM; rParam.calcMargins(nTopM, nLeftM, nBottomM, nRightM, mnPPTX, mnPPTY); SCCOL nXForPos = rParam.mnX; if ( nXForPos < nX1 ) { nXForPos = nX1; rParam.mnPosX = rParam.mnInitPosX; } SCSIZE nArrYForPos = rParam.mnArrY; if ( nArrYForPos < 1 ) { nArrYForPos = 1; rParam.mnPosY = nScrY; } OutputAreaParam aAreaParam; // // Initial page size - large for normal text, cell size for automatic line breaks // Size aPaperSize = Size( 1000000, 1000000 ); if (rParam.mbBreak) { // call GetOutputArea with nNeeded=0, to get only the cell width //! handle nArrY == 0 GetOutputArea( nXForPos, nArrYForPos, rParam.mnPosX, rParam.mnPosY, rParam.mnCellX, rParam.mnCellY, 0, *rParam.mpPattern, sal::static_int_cast(eOutHorJust), rParam.mbCellIsValue, true, false, aAreaParam ); //! special ScEditUtil handling if formatting for printer rParam.calcPaperSize(aPaperSize, aAreaParam.maAlignRect, mnPPTX, mnPPTY); } if (rParam.mbPixelToLogic) { Size aLogicSize = mpRefDevice->PixelToLogic(aPaperSize); if ( rParam.mbBreak && !rParam.mbAsianVertical && mpRefDevice != pFmtDevice ) { // #i85342# screen display and formatting for printer, // use same GetEditArea call as in ScViewData::SetEditEngine Fraction aFract(1,1); Rectangle aUtilRect = ScEditUtil( mpDoc, rParam.mnCellX, rParam.mnCellY, nTab, Point(0,0), pFmtDevice, HMM_PER_TWIPS, HMM_PER_TWIPS, aFract, aFract ).GetEditArea( rParam.mpPattern, false ); aLogicSize.Width() = aUtilRect.GetWidth(); } rParam.mpEngine->SetPaperSize(aLogicSize); } else rParam.mpEngine->SetPaperSize(aPaperSize); // // Fill the EditEngine (cell attributes and text) // // default alignment for asian vertical mode is top-right if ( rParam.mbAsianVertical && rParam.meVerJust == SVX_VER_JUSTIFY_STANDARD ) rParam.meVerJust = SVX_VER_JUSTIFY_TOP; rParam.setPatternToEngine(mbUseStyleColor); rParam.setAlignmentToEngine(); // Read content from cell bool bWrapFields = false; if (!rParam.readCellContent(mpDoc, mbShowNullValues, mbShowFormulas, mbSyntaxMode, mbUseStyleColor, mbForceAutoColor, bWrapFields)) // Failed to read cell content. Bail out. return; if ( mbSyntaxMode ) SetEditSyntaxColor(*rParam.mpEngine, rParam.maCell); else if ( mbUseStyleColor && mbForceAutoColor ) lcl_SetEditColor( *rParam.mpEngine, COL_AUTO ); //! or have a flag at EditEngine rParam.mpEngine->SetUpdateMode( true ); // after SetText, before CalcTextWidth/GetTextHeight // // Get final output area using the calculated width // long nEngineWidth, nEngineHeight; rParam.getEngineSize(rParam.mpEngine, nEngineWidth, nEngineHeight); long nNeededPixel = nEngineWidth; if (rParam.mbPixelToLogic) nNeededPixel = mpRefDevice->LogicToPixel(Size(nNeededPixel,0)).Width(); nNeededPixel += nLeftM + nRightM; if (!rParam.mbBreak || bShrink) { // for break, the first GetOutputArea call is sufficient GetOutputArea( nXForPos, nArrYForPos, rParam.mnPosX, rParam.mnPosY, rParam.mnCellX, rParam.mnCellY, nNeededPixel, *rParam.mpPattern, sal::static_int_cast(eOutHorJust), rParam.mbCellIsValue || bRepeat || bShrink, false, false, aAreaParam ); if ( bShrink ) { ShrinkEditEngine( *rParam.mpEngine, aAreaParam.maAlignRect, nLeftM, nTopM, nRightM, nBottomM, true, sal::static_int_cast(rParam.meOrient), 0, rParam.mbPixelToLogic, nEngineWidth, nEngineHeight, nNeededPixel, aAreaParam.mbLeftClip, aAreaParam.mbRightClip ); } if ( bRepeat && !aAreaParam.mbLeftClip && !aAreaParam.mbRightClip && rParam.mpEngine->GetParagraphCount() == 1 ) { // First check if twice the space for the formatted text is available // (otherwise just keep it unchanged). long nFormatted = nNeededPixel - nLeftM - nRightM; // without margin long nAvailable = aAreaParam.maAlignRect.GetWidth() - nLeftM - nRightM; if ( nAvailable >= 2 * nFormatted ) { // "repeat" is handled with unformatted text (for performance reasons) String aCellStr = rParam.mpEngine->GetText(); rParam.mpEngine->SetText( aCellStr ); long nRepeatSize = (long) rParam.mpEngine->CalcTextWidth(); if (rParam.mbPixelToLogic) nRepeatSize = mpRefDevice->LogicToPixel(Size(nRepeatSize,0)).Width(); if ( pFmtDevice != mpRefDevice ) ++nRepeatSize; if ( nRepeatSize > 0 ) { long nRepeatCount = nAvailable / nRepeatSize; if ( nRepeatCount > 1 ) { String aRepeated = aCellStr; for ( long nRepeat = 1; nRepeat < nRepeatCount; nRepeat++ ) aRepeated.Append( aCellStr ); rParam.mpEngine->SetText( aRepeated ); nEngineHeight = rParam.mpEngine->GetTextHeight(); nEngineWidth = (long) rParam.mpEngine->CalcTextWidth(); if (rParam.mbPixelToLogic) nNeededPixel = mpRefDevice->LogicToPixel(Size(nEngineWidth,0)).Width(); else nNeededPixel = nEngineWidth; nNeededPixel += nLeftM + nRightM; } } } } if ( rParam.mbCellIsValue && ( aAreaParam.mbLeftClip || aAreaParam.mbRightClip ) ) { rParam.mpEngine->SetText(OUString("###")); nEngineWidth = (long) rParam.mpEngine->CalcTextWidth(); if (rParam.mbPixelToLogic) nNeededPixel = mpRefDevice->LogicToPixel(Size(nEngineWidth,0)).Width(); else nNeededPixel = nEngineWidth; nNeededPixel += nLeftM + nRightM; // No clip marks if "###" doesn't fit (same as in DrawStrings) } if (eOutHorJust != SVX_HOR_JUSTIFY_LEFT) { aPaperSize.Width() = nNeededPixel + 1; if (rParam.mbPixelToLogic) rParam.mpEngine->SetPaperSize(mpRefDevice->PixelToLogic(aPaperSize)); else rParam.mpEngine->SetPaperSize(aPaperSize); } } long nStartX = aAreaParam.maAlignRect.Left(); long nStartY = aAreaParam.maAlignRect.Top(); long nCellWidth = aAreaParam.maAlignRect.GetWidth(); long nOutWidth = nCellWidth - 1 - nLeftM - nRightM; long nOutHeight = aAreaParam.maAlignRect.GetHeight() - nTopM - nBottomM; if (rParam.mbBreak) { // text with automatic breaks is aligned only within the // edit engine's paper size, the output of the whole area // is always left-aligned nStartX += nLeftM; } else { if ( eOutHorJust == SVX_HOR_JUSTIFY_RIGHT ) nStartX -= nNeededPixel - nCellWidth + nRightM + 1; else if ( eOutHorJust == SVX_HOR_JUSTIFY_CENTER ) nStartX -= ( nNeededPixel - nCellWidth + nRightM + 1 - nLeftM ) / 2; else nStartX += nLeftM; } bool bOutside = (aAreaParam.maClipRect.Right() < nScrX || aAreaParam.maClipRect.Left() >= nScrX + nScrW); if (bOutside) return; if ( aAreaParam.maClipRect.Left() < nScrX ) { aAreaParam.maClipRect.Left() = nScrX; aAreaParam.mbLeftClip = true; } if ( aAreaParam.maClipRect.Right() > nScrX + nScrW ) { aAreaParam.maClipRect.Right() = nScrX + nScrW; //! minus one? aAreaParam.mbRightClip = true; } bool bClip = aAreaParam.mbLeftClip || aAreaParam.mbRightClip; bool bSimClip = false; if ( bWrapFields ) { // Fields in a cell with automatic breaks: clip to cell width bClip = true; } if ( aAreaParam.maClipRect.Top() < nScrY ) { aAreaParam.maClipRect.Top() = nScrY; bClip = true; } if ( aAreaParam.maClipRect.Bottom() > nScrY + nScrH ) { aAreaParam.maClipRect.Bottom() = nScrY + nScrH; //! minus one? bClip = true; } Size aCellSize; // output area, excluding margins, in logical units if (rParam.mbPixelToLogic) aCellSize = mpRefDevice->PixelToLogic( Size( nOutWidth, nOutHeight ) ); else aCellSize = Size( nOutWidth, nOutHeight ); if ( nEngineHeight >= aCellSize.Height() + aRefOne.Height() ) { const ScMergeAttr* pMerge = (ScMergeAttr*)&rParam.mpPattern->GetItem(ATTR_MERGE); bool bMerged = pMerge->GetColMerge() > 1 || pMerge->GetRowMerge() > 1; // Don't clip for text height when printing rows with optimal height, // except when font size is from conditional formatting. //! Allow clipping when vertically merged? if ( eType != OUTTYPE_PRINTER || ( mpDoc->GetRowFlags( rParam.mnCellY, nTab ) & CR_MANUALSIZE ) || ( rParam.mpCondSet && SFX_ITEM_SET == rParam.mpCondSet->GetItemState(ATTR_FONT_HEIGHT, true) ) ) bClip = true; else bSimClip = true; // Show clip marks if height is at least 5pt too small and // there are several lines of text. // Not for asian vertical text, because that would interfere // with the default right position of the text. // Only with automatic line breaks, to avoid having to find // the cells with the horizontal end of the text again. if ( nEngineHeight - aCellSize.Height() > 100 && rParam.mbBreak && bMarkClipped && ( rParam.mpEngine->GetParagraphCount() > 1 || rParam.mpEngine->GetLineCount(0) > 1 ) ) { CellInfo* pClipMarkCell = NULL; if ( bMerged ) { // anywhere in the merged area... SCCOL nClipX = ( rParam.mnX < nX1 ) ? nX1 : rParam.mnX; pClipMarkCell = &pRowInfo[(rParam.mnArrY != 0) ? rParam.mnArrY : 1].pCellInfo[nClipX+1]; } else pClipMarkCell = &rParam.mpThisRowInfo->pCellInfo[rParam.mnX+1]; pClipMarkCell->nClipMark |= SC_CLIPMARK_RIGHT; //! also allow left? bAnyClipped = true; long nMarkPixel = (long)( SC_CLIPMARK_SIZE * mnPPTX ); if ( aAreaParam.maClipRect.Right() - nMarkPixel > aAreaParam.maClipRect.Left() ) aAreaParam.maClipRect.Right() -= nMarkPixel; } } Rectangle aLogicClip; if (bClip || bSimClip) { // Clip marks are already handled in GetOutputArea if (rParam.mbPixelToLogic) aLogicClip = mpRefDevice->PixelToLogic( aAreaParam.maClipRect ); else aLogicClip = aAreaParam.maClipRect; if (bClip) // bei bSimClip nur aClipRect initialisieren { if (bMetaFile) { mpDev->Push(); mpDev->IntersectClipRegion( aLogicClip ); } else mpDev->SetClipRegion( Region( aLogicClip ) ); } } Point aLogicStart; if (rParam.mbPixelToLogic) aLogicStart = mpRefDevice->PixelToLogic( Point(nStartX,nStartY) ); else aLogicStart = Point(nStartX, nStartY); if (!rParam.mbBreak) { // horizontal alignment if (rParam.adjustHorAlignment(rParam.mpEngine)) // reset adjustment for the next cell rParam.mpOldPattern = NULL; } if (rParam.meVerJust==SVX_VER_JUSTIFY_BOTTOM || rParam.meVerJust==SVX_VER_JUSTIFY_STANDARD) { //! if pRefDevice != pFmtDevice, keep heights in logic units, //! only converting margin? if (rParam.mbPixelToLogic) aLogicStart.Y() += mpRefDevice->PixelToLogic( Size(0, nTopM + mpRefDevice->LogicToPixel(aCellSize).Height() - mpRefDevice->LogicToPixel(Size(0,nEngineHeight)).Height() )).Height(); else aLogicStart.Y() += nTopM + aCellSize.Height() - nEngineHeight; } else if (rParam.meVerJust==SVX_VER_JUSTIFY_CENTER) { if (rParam.mbPixelToLogic) aLogicStart.Y() += mpRefDevice->PixelToLogic( Size(0, nTopM + ( mpRefDevice->LogicToPixel(aCellSize).Height() - mpRefDevice->LogicToPixel(Size(0,nEngineHeight)).Height() ) / 2)).Height(); else aLogicStart.Y() += nTopM + (aCellSize.Height() - nEngineHeight) / 2; } else // top { if (rParam.mbPixelToLogic) aLogicStart.Y() += mpRefDevice->PixelToLogic(Size(0,nTopM)).Height(); else aLogicStart.Y() += nTopM; } Point aURLStart = aLogicStart; // copy before modifying for orientation rParam.adjustForRTL(); // bMoveClipped handling has been replaced by complete alignment // handling (also extending to the left). if (bSimClip) { // kein hartes Clipping, aber nur die betroffenen // Zeilen ausgeben Point aDocStart = aLogicClip.TopLeft(); aDocStart -= aLogicStart; rParam.mpEngine->Draw( mpDev, aLogicClip, aDocStart, false ); } else { rParam.mpEngine->Draw(mpDev, aLogicStart, 0); } if (bClip) { if (bMetaFile) mpDev->Pop(); else mpDev->SetClipRegion(); } rParam.adjustForHyperlinkInPDF(aURLStart, mpDev); } void ScOutputData::DrawEditBottomTop(DrawEditParam& rParam) { OSL_ASSERT(rParam.meHorJust != SVX_HOR_JUSTIFY_REPEAT); Size aRefOne = mpRefDevice->PixelToLogic(Size(1,1)); bool bRepeat = (rParam.meHorJust == SVX_HOR_JUSTIFY_REPEAT && !rParam.mbBreak); bool bShrink = !rParam.mbBreak && !bRepeat && lcl_GetBoolValue(*rParam.mpPattern, ATTR_SHRINKTOFIT, rParam.mpCondSet); SvxCellHorJustify eOutHorJust = ( rParam.meHorJust != SVX_HOR_JUSTIFY_STANDARD ) ? rParam.meHorJust : ( rParam.mbCellIsValue ? SVX_HOR_JUSTIFY_RIGHT : SVX_HOR_JUSTIFY_LEFT ); if ( eOutHorJust == SVX_HOR_JUSTIFY_BLOCK || eOutHorJust == SVX_HOR_JUSTIFY_REPEAT ) eOutHorJust = SVX_HOR_JUSTIFY_LEFT; // repeat is not yet implemented //! mirror margin values for RTL? //! move margin down to after final GetOutputArea call long nTopM, nLeftM, nBottomM, nRightM; rParam.calcMargins(nTopM, nLeftM, nBottomM, nRightM, mnPPTX, mnPPTY); SCCOL nXForPos = rParam.mnX; if ( nXForPos < nX1 ) { nXForPos = nX1; rParam.mnPosX = rParam.mnInitPosX; } SCSIZE nArrYForPos = rParam.mnArrY; if ( nArrYForPos < 1 ) { nArrYForPos = 1; rParam.mnPosY = nScrY; } OutputAreaParam aAreaParam; // // Initial page size - large for normal text, cell size for automatic line breaks // Size aPaperSize = Size( 1000000, 1000000 ); if (rParam.mbBreak) { // call GetOutputArea with nNeeded=0, to get only the cell width //! handle nArrY == 0 GetOutputArea( nXForPos, nArrYForPos, rParam.mnPosX, rParam.mnPosY, rParam.mnCellX, rParam.mnCellY, 0, *rParam.mpPattern, sal::static_int_cast(eOutHorJust), rParam.mbCellIsValue, true, false, aAreaParam ); //! special ScEditUtil handling if formatting for printer rParam.calcPaperSize(aPaperSize, aAreaParam.maAlignRect, mnPPTX, mnPPTY); } if (rParam.mbPixelToLogic) { Size aLogicSize = mpRefDevice->PixelToLogic(aPaperSize); rParam.mpEngine->SetPaperSize(aLogicSize); } else rParam.mpEngine->SetPaperSize(aPaperSize); // // Fill the EditEngine (cell attributes and text) // rParam.setPatternToEngine(mbUseStyleColor); rParam.setAlignmentToEngine(); // Read content from cell bool bWrapFields = false; if (!rParam.readCellContent(mpDoc, mbShowNullValues, mbShowFormulas, mbSyntaxMode, mbUseStyleColor, mbForceAutoColor, bWrapFields)) // Failed to read cell content. Bail out. return; if ( mbSyntaxMode ) SetEditSyntaxColor( *rParam.mpEngine, rParam.maCell ); else if ( mbUseStyleColor && mbForceAutoColor ) lcl_SetEditColor( *rParam.mpEngine, COL_AUTO ); //! or have a flag at EditEngine rParam.mpEngine->SetUpdateMode( true ); // after SetText, before CalcTextWidth/GetTextHeight // // Get final output area using the calculated width // long nEngineWidth, nEngineHeight; rParam.getEngineSize(rParam.mpEngine, nEngineWidth, nEngineHeight); long nNeededPixel = nEngineWidth; if (rParam.mbPixelToLogic) nNeededPixel = mpRefDevice->LogicToPixel(Size(nNeededPixel,0)).Width(); nNeededPixel += nLeftM + nRightM; if (!rParam.mbBreak || bShrink) { // for break, the first GetOutputArea call is sufficient GetOutputArea( nXForPos, nArrYForPos, rParam.mnPosX, rParam.mnPosY, rParam.mnCellX, rParam.mnCellY, nNeededPixel, *rParam.mpPattern, sal::static_int_cast(eOutHorJust), rParam.mbCellIsValue || bRepeat || bShrink, false, false, aAreaParam ); if ( bShrink ) { ShrinkEditEngine( *rParam.mpEngine, aAreaParam.maAlignRect, nLeftM, nTopM, nRightM, nBottomM, false, sal::static_int_cast(rParam.meOrient), 0, rParam.mbPixelToLogic, nEngineWidth, nEngineHeight, nNeededPixel, aAreaParam.mbLeftClip, aAreaParam.mbRightClip ); } if ( bRepeat && !aAreaParam.mbLeftClip && !aAreaParam.mbRightClip && rParam.mpEngine->GetParagraphCount() == 1 ) { // First check if twice the space for the formatted text is available // (otherwise just keep it unchanged). long nFormatted = nNeededPixel - nLeftM - nRightM; // without margin long nAvailable = aAreaParam.maAlignRect.GetWidth() - nLeftM - nRightM; if ( nAvailable >= 2 * nFormatted ) { // "repeat" is handled with unformatted text (for performance reasons) String aCellStr = rParam.mpEngine->GetText(); rParam.mpEngine->SetText( aCellStr ); long nRepeatSize = (long) rParam.mpEngine->CalcTextWidth(); if (rParam.mbPixelToLogic) nRepeatSize = mpRefDevice->LogicToPixel(Size(nRepeatSize,0)).Width(); if ( pFmtDevice != mpRefDevice ) ++nRepeatSize; if ( nRepeatSize > 0 ) { long nRepeatCount = nAvailable / nRepeatSize; if ( nRepeatCount > 1 ) { String aRepeated = aCellStr; for ( long nRepeat = 1; nRepeat < nRepeatCount; nRepeat++ ) aRepeated.Append( aCellStr ); rParam.mpEngine->SetText( aRepeated ); nEngineHeight = rParam.mpEngine->GetTextHeight(); nEngineWidth = (long) rParam.mpEngine->CalcTextWidth(); if (rParam.mbPixelToLogic) nNeededPixel = mpRefDevice->LogicToPixel(Size(nEngineWidth,0)).Width(); else nNeededPixel = nEngineWidth; nNeededPixel += nLeftM + nRightM; } } } } if ( rParam.mbCellIsValue && ( aAreaParam.mbLeftClip || aAreaParam.mbRightClip ) ) { rParam.mpEngine->SetText(OUString("###")); nEngineWidth = (long) rParam.mpEngine->CalcTextWidth(); if (rParam.mbPixelToLogic) nNeededPixel = mpRefDevice->LogicToPixel(Size(nEngineWidth,0)).Width(); else nNeededPixel = nEngineWidth; nNeededPixel += nLeftM + nRightM; // No clip marks if "###" doesn't fit (same as in DrawStrings) } } long nStartX = aAreaParam.maAlignRect.Left(); long nStartY = aAreaParam.maAlignRect.Top(); long nCellWidth = aAreaParam.maAlignRect.GetWidth(); long nOutWidth = nCellWidth - 1 - nLeftM - nRightM; long nOutHeight = aAreaParam.maAlignRect.GetHeight() - nTopM - nBottomM; if (rParam.mbBreak) { // text with automatic breaks is aligned only within the // edit engine's paper size, the output of the whole area // is always left-aligned nStartX += nLeftM; } else { if ( eOutHorJust == SVX_HOR_JUSTIFY_RIGHT ) nStartX -= nNeededPixel - nCellWidth + nRightM + 1; else if ( eOutHorJust == SVX_HOR_JUSTIFY_CENTER ) nStartX -= ( nNeededPixel - nCellWidth + nRightM + 1 - nLeftM ) / 2; else nStartX += nLeftM; } bool bOutside = (aAreaParam.maClipRect.Right() < nScrX || aAreaParam.maClipRect.Left() >= nScrX + nScrW); if (bOutside) return; if ( aAreaParam.maClipRect.Left() < nScrX ) { aAreaParam.maClipRect.Left() = nScrX; aAreaParam.mbLeftClip = true; } if ( aAreaParam.maClipRect.Right() > nScrX + nScrW ) { aAreaParam.maClipRect.Right() = nScrX + nScrW; //! minus one? aAreaParam.mbRightClip = true; } bool bClip = aAreaParam.mbLeftClip || aAreaParam.mbRightClip; bool bSimClip = false; if ( bWrapFields ) { // Fields in a cell with automatic breaks: clip to cell width bClip = true; } if ( aAreaParam.maClipRect.Top() < nScrY ) { aAreaParam.maClipRect.Top() = nScrY; bClip = true; } if ( aAreaParam.maClipRect.Bottom() > nScrY + nScrH ) { aAreaParam.maClipRect.Bottom() = nScrY + nScrH; //! minus one? bClip = true; } Size aCellSize; // output area, excluding margins, in logical units if (rParam.mbPixelToLogic) aCellSize = mpRefDevice->PixelToLogic( Size( nOutWidth, nOutHeight ) ); else aCellSize = Size( nOutWidth, nOutHeight ); if ( nEngineHeight >= aCellSize.Height() + aRefOne.Height() ) { const ScMergeAttr* pMerge = (ScMergeAttr*)&rParam.mpPattern->GetItem(ATTR_MERGE); bool bMerged = pMerge->GetColMerge() > 1 || pMerge->GetRowMerge() > 1; // Don't clip for text height when printing rows with optimal height, // except when font size is from conditional formatting. //! Allow clipping when vertically merged? if ( eType != OUTTYPE_PRINTER || ( mpDoc->GetRowFlags( rParam.mnCellY, nTab ) & CR_MANUALSIZE ) || ( rParam.mpCondSet && SFX_ITEM_SET == rParam.mpCondSet->GetItemState(ATTR_FONT_HEIGHT, true) ) ) bClip = true; else bSimClip = true; // Show clip marks if height is at least 5pt too small and // there are several lines of text. // Not for asian vertical text, because that would interfere // with the default right position of the text. // Only with automatic line breaks, to avoid having to find // the cells with the horizontal end of the text again. if ( nEngineHeight - aCellSize.Height() > 100 && rParam.mbBreak && bMarkClipped && ( rParam.mpEngine->GetParagraphCount() > 1 || rParam.mpEngine->GetLineCount(0) > 1 ) ) { CellInfo* pClipMarkCell = NULL; if ( bMerged ) { // anywhere in the merged area... SCCOL nClipX = ( rParam.mnX < nX1 ) ? nX1 : rParam.mnX; pClipMarkCell = &pRowInfo[(rParam.mnArrY != 0) ? rParam.mnArrY : 1].pCellInfo[nClipX+1]; } else pClipMarkCell = &rParam.mpThisRowInfo->pCellInfo[rParam.mnX+1]; pClipMarkCell->nClipMark |= SC_CLIPMARK_RIGHT; //! also allow left? bAnyClipped = true; long nMarkPixel = (long)( SC_CLIPMARK_SIZE * mnPPTX ); if ( aAreaParam.maClipRect.Right() - nMarkPixel > aAreaParam.maClipRect.Left() ) aAreaParam.maClipRect.Right() -= nMarkPixel; } } Rectangle aLogicClip; if (bClip || bSimClip) { // Clip marks are already handled in GetOutputArea if (rParam.mbPixelToLogic) aLogicClip = mpRefDevice->PixelToLogic( aAreaParam.maClipRect ); else aLogicClip = aAreaParam.maClipRect; if (bClip) // bei bSimClip nur aClipRect initialisieren { if (bMetaFile) { mpDev->Push(); mpDev->IntersectClipRegion( aLogicClip ); } else mpDev->SetClipRegion( Region( aLogicClip ) ); } } Point aLogicStart(nStartX, nStartY); rParam.calcStartPosForVertical(aLogicStart, aCellSize.Width(), nEngineWidth, nTopM, mpRefDevice); Point aURLStart = aLogicStart; // copy before modifying for orientation if (rParam.meHorJust == SVX_HOR_JUSTIFY_BLOCK || rParam.mbBreak) { Size aPSize = rParam.mpEngine->GetPaperSize(); aPSize.Width() = aCellSize.Height(); rParam.mpEngine->SetPaperSize(aPSize); aLogicStart.Y() += rParam.mbBreak ? aPSize.Width() : nEngineHeight; } else { // Note that the "paper" is rotated 90 degrees to the left, so // paper's width is in vertical direction. Also, the whole text // is on a single line, as text wrap is not in effect. // Set the paper width to be the width of the text. Size aPSize = rParam.mpEngine->GetPaperSize(); aPSize.Width() = rParam.mpEngine->CalcTextWidth(); rParam.mpEngine->SetPaperSize(aPSize); long nGap = 0; long nTopOffset = 0; if (rParam.mbPixelToLogic) { nGap = mpRefDevice->LogicToPixel(aCellSize).Height() - mpRefDevice->LogicToPixel(aPSize).Width(); nGap = mpRefDevice->PixelToLogic(Size(0, nGap)).Height(); nTopOffset = mpRefDevice->PixelToLogic(Size(0,nTopM)).Height(); } else { nGap = aCellSize.Height() - aPSize.Width(); nTopOffset = nTopM; } // First, align text to bottom. aLogicStart.Y() += aCellSize.Height(); aLogicStart.Y() += nTopOffset; switch (rParam.meVerJust) { case SVX_VER_JUSTIFY_STANDARD: case SVX_VER_JUSTIFY_BOTTOM: // align to bottom (do nothing). break; case SVX_VER_JUSTIFY_CENTER: // center it. aLogicStart.Y() -= nGap / 2; break; case SVX_VER_JUSTIFY_BLOCK: case SVX_VER_JUSTIFY_TOP: // align to top aLogicStart.Y() -= nGap; default: ; } } rParam.adjustForRTL(); rParam.mpEngine->Draw(mpDev, aLogicStart, 900); if (bClip) { if (bMetaFile) mpDev->Pop(); else mpDev->SetClipRegion(); } rParam.adjustForHyperlinkInPDF(aURLStart, mpDev); } void ScOutputData::DrawEditTopBottom(DrawEditParam& rParam) { OSL_ASSERT(rParam.meHorJust != SVX_HOR_JUSTIFY_REPEAT); Size aRefOne = mpRefDevice->PixelToLogic(Size(1,1)); bool bRepeat = (rParam.meHorJust == SVX_HOR_JUSTIFY_REPEAT && !rParam.mbBreak); bool bShrink = !rParam.mbBreak && !bRepeat && lcl_GetBoolValue(*rParam.mpPattern, ATTR_SHRINKTOFIT, rParam.mpCondSet); SvxCellHorJustify eOutHorJust = ( rParam.meHorJust != SVX_HOR_JUSTIFY_STANDARD ) ? rParam.meHorJust : ( rParam.mbCellIsValue ? SVX_HOR_JUSTIFY_RIGHT : SVX_HOR_JUSTIFY_LEFT ); if ( eOutHorJust == SVX_HOR_JUSTIFY_BLOCK || eOutHorJust == SVX_HOR_JUSTIFY_REPEAT ) eOutHorJust = SVX_HOR_JUSTIFY_LEFT; // repeat is not yet implemented //! mirror margin values for RTL? //! move margin down to after final GetOutputArea call long nTopM, nLeftM, nBottomM, nRightM; rParam.calcMargins(nTopM, nLeftM, nBottomM, nRightM, mnPPTX, mnPPTY); SCCOL nXForPos = rParam.mnX; if ( nXForPos < nX1 ) { nXForPos = nX1; rParam.mnPosX = rParam.mnInitPosX; } SCSIZE nArrYForPos = rParam.mnArrY; if ( nArrYForPos < 1 ) { nArrYForPos = 1; rParam.mnPosY = nScrY; } OutputAreaParam aAreaParam; // // Initial page size - large for normal text, cell size for automatic line breaks // Size aPaperSize = Size( 1000000, 1000000 ); if (rParam.hasLineBreak()) { // call GetOutputArea with nNeeded=0, to get only the cell width //! handle nArrY == 0 GetOutputArea( nXForPos, nArrYForPos, rParam.mnPosX, rParam.mnPosY, rParam.mnCellX, rParam.mnCellY, 0, *rParam.mpPattern, sal::static_int_cast(eOutHorJust), rParam.mbCellIsValue, true, false, aAreaParam ); //! special ScEditUtil handling if formatting for printer rParam.calcPaperSize(aPaperSize, aAreaParam.maAlignRect, mnPPTX, mnPPTY); } if (rParam.mbPixelToLogic) { Size aLogicSize = mpRefDevice->PixelToLogic(aPaperSize); rParam.mpEngine->SetPaperSize(aLogicSize); } else rParam.mpEngine->SetPaperSize(aPaperSize); // // Fill the EditEngine (cell attributes and text) // rParam.setPatternToEngine(mbUseStyleColor); rParam.setAlignmentToEngine(); // Read content from cell bool bWrapFields = false; if (!rParam.readCellContent(mpDoc, mbShowNullValues, mbShowFormulas, mbSyntaxMode, mbUseStyleColor, mbForceAutoColor, bWrapFields)) // Failed to read cell content. Bail out. return; if ( mbSyntaxMode ) SetEditSyntaxColor( *rParam.mpEngine, rParam.maCell ); else if ( mbUseStyleColor && mbForceAutoColor ) lcl_SetEditColor( *rParam.mpEngine, COL_AUTO ); //! or have a flag at EditEngine rParam.mpEngine->SetUpdateMode( true ); // after SetText, before CalcTextWidth/GetTextHeight // // Get final output area using the calculated width // long nEngineWidth, nEngineHeight; rParam.getEngineSize(rParam.mpEngine, nEngineWidth, nEngineHeight); long nNeededPixel = nEngineWidth; if (rParam.mbPixelToLogic) nNeededPixel = mpRefDevice->LogicToPixel(Size(nNeededPixel,0)).Width(); nNeededPixel += nLeftM + nRightM; if (!rParam.mbBreak || bShrink) { // for break, the first GetOutputArea call is sufficient GetOutputArea( nXForPos, nArrYForPos, rParam.mnPosX, rParam.mnPosY, rParam.mnCellX, rParam.mnCellY, nNeededPixel, *rParam.mpPattern, sal::static_int_cast(eOutHorJust), rParam.mbCellIsValue || bRepeat || bShrink, false, false, aAreaParam ); if ( bShrink ) { ShrinkEditEngine( *rParam.mpEngine, aAreaParam.maAlignRect, nLeftM, nTopM, nRightM, nBottomM, false, sal::static_int_cast(rParam.meOrient), 0, rParam.mbPixelToLogic, nEngineWidth, nEngineHeight, nNeededPixel, aAreaParam.mbLeftClip, aAreaParam.mbRightClip ); } if ( bRepeat && !aAreaParam.mbLeftClip && !aAreaParam.mbRightClip && rParam.mpEngine->GetParagraphCount() == 1 ) { // First check if twice the space for the formatted text is available // (otherwise just keep it unchanged). long nFormatted = nNeededPixel - nLeftM - nRightM; // without margin long nAvailable = aAreaParam.maAlignRect.GetWidth() - nLeftM - nRightM; if ( nAvailable >= 2 * nFormatted ) { // "repeat" is handled with unformatted text (for performance reasons) String aCellStr = rParam.mpEngine->GetText(); rParam.mpEngine->SetText( aCellStr ); long nRepeatSize = (long) rParam.mpEngine->CalcTextWidth(); if (rParam.mbPixelToLogic) nRepeatSize = mpRefDevice->LogicToPixel(Size(nRepeatSize,0)).Width(); if ( pFmtDevice != mpRefDevice ) ++nRepeatSize; if ( nRepeatSize > 0 ) { long nRepeatCount = nAvailable / nRepeatSize; if ( nRepeatCount > 1 ) { String aRepeated = aCellStr; for ( long nRepeat = 1; nRepeat < nRepeatCount; nRepeat++ ) aRepeated.Append( aCellStr ); rParam.mpEngine->SetText( aRepeated ); nEngineHeight = rParam.mpEngine->GetTextHeight(); nEngineWidth = (long) rParam.mpEngine->CalcTextWidth(); if (rParam.mbPixelToLogic) nNeededPixel = mpRefDevice->LogicToPixel(Size(nEngineWidth,0)).Width(); else nNeededPixel = nEngineWidth; nNeededPixel += nLeftM + nRightM; } } } } if ( rParam.mbCellIsValue && ( aAreaParam.mbLeftClip || aAreaParam.mbRightClip ) ) { rParam.mpEngine->SetText(OUString("###")); nEngineWidth = (long) rParam.mpEngine->CalcTextWidth(); if (rParam.mbPixelToLogic) nNeededPixel = mpRefDevice->LogicToPixel(Size(nEngineWidth,0)).Width(); else nNeededPixel = nEngineWidth; nNeededPixel += nLeftM + nRightM; // No clip marks if "###" doesn't fit (same as in DrawStrings) } } long nStartX = aAreaParam.maAlignRect.Left(); long nStartY = aAreaParam.maAlignRect.Top(); long nCellWidth = aAreaParam.maAlignRect.GetWidth(); long nOutWidth = nCellWidth - 1 - nLeftM - nRightM; long nOutHeight = aAreaParam.maAlignRect.GetHeight() - nTopM - nBottomM; if (rParam.mbBreak) { // text with automatic breaks is aligned only within the // edit engine's paper size, the output of the whole area // is always left-aligned nStartX += nLeftM; if (rParam.meHorJust == SVX_HOR_JUSTIFY_BLOCK) nStartX += aPaperSize.Height(); } else { if ( eOutHorJust == SVX_HOR_JUSTIFY_RIGHT ) nStartX -= nNeededPixel - nCellWidth + nRightM + 1; else if ( eOutHorJust == SVX_HOR_JUSTIFY_CENTER ) nStartX -= ( nNeededPixel - nCellWidth + nRightM + 1 - nLeftM ) / 2; else nStartX += nLeftM; } bool bOutside = (aAreaParam.maClipRect.Right() < nScrX || aAreaParam.maClipRect.Left() >= nScrX + nScrW); if (bOutside) return; if ( aAreaParam.maClipRect.Left() < nScrX ) { aAreaParam.maClipRect.Left() = nScrX; aAreaParam.mbLeftClip = true; } if ( aAreaParam.maClipRect.Right() > nScrX + nScrW ) { aAreaParam.maClipRect.Right() = nScrX + nScrW; //! minus one? aAreaParam.mbRightClip = true; } bool bClip = aAreaParam.mbLeftClip || aAreaParam.mbRightClip; bool bSimClip = false; if ( bWrapFields ) { // Fields in a cell with automatic breaks: clip to cell width bClip = true; } if ( aAreaParam.maClipRect.Top() < nScrY ) { aAreaParam.maClipRect.Top() = nScrY; bClip = true; } if ( aAreaParam.maClipRect.Bottom() > nScrY + nScrH ) { aAreaParam.maClipRect.Bottom() = nScrY + nScrH; //! minus one? bClip = true; } Size aCellSize; // output area, excluding margins, in logical units if (rParam.mbPixelToLogic) aCellSize = mpRefDevice->PixelToLogic( Size( nOutWidth, nOutHeight ) ); else aCellSize = Size( nOutWidth, nOutHeight ); if ( nEngineHeight >= aCellSize.Height() + aRefOne.Height() ) { const ScMergeAttr* pMerge = (ScMergeAttr*)&rParam.mpPattern->GetItem(ATTR_MERGE); bool bMerged = pMerge->GetColMerge() > 1 || pMerge->GetRowMerge() > 1; // Don't clip for text height when printing rows with optimal height, // except when font size is from conditional formatting. //! Allow clipping when vertically merged? if ( eType != OUTTYPE_PRINTER || ( mpDoc->GetRowFlags( rParam.mnCellY, nTab ) & CR_MANUALSIZE ) || ( rParam.mpCondSet && SFX_ITEM_SET == rParam.mpCondSet->GetItemState(ATTR_FONT_HEIGHT, true) ) ) bClip = true; else bSimClip = true; // Show clip marks if height is at least 5pt too small and // there are several lines of text. // Not for asian vertical text, because that would interfere // with the default right position of the text. // Only with automatic line breaks, to avoid having to find // the cells with the horizontal end of the text again. if ( nEngineHeight - aCellSize.Height() > 100 && rParam.mbBreak && bMarkClipped && ( rParam.mpEngine->GetParagraphCount() > 1 || rParam.mpEngine->GetLineCount(0) > 1 ) ) { CellInfo* pClipMarkCell = NULL; if ( bMerged ) { // anywhere in the merged area... SCCOL nClipX = ( rParam.mnX < nX1 ) ? nX1 : rParam.mnX; pClipMarkCell = &pRowInfo[(rParam.mnArrY != 0) ? rParam.mnArrY : 1].pCellInfo[nClipX+1]; } else pClipMarkCell = &rParam.mpThisRowInfo->pCellInfo[rParam.mnX+1]; pClipMarkCell->nClipMark |= SC_CLIPMARK_RIGHT; //! also allow left? bAnyClipped = true; long nMarkPixel = (long)( SC_CLIPMARK_SIZE * mnPPTX ); if ( aAreaParam.maClipRect.Right() - nMarkPixel > aAreaParam.maClipRect.Left() ) aAreaParam.maClipRect.Right() -= nMarkPixel; } } Rectangle aLogicClip; if (bClip || bSimClip) { // Clip marks are already handled in GetOutputArea if (rParam.mbPixelToLogic) aLogicClip = mpRefDevice->PixelToLogic( aAreaParam.maClipRect ); else aLogicClip = aAreaParam.maClipRect; if (bClip) // bei bSimClip nur aClipRect initialisieren { if (bMetaFile) { mpDev->Push(); mpDev->IntersectClipRegion( aLogicClip ); } else mpDev->SetClipRegion( Region( aLogicClip ) ); } } Point aLogicStart(nStartX, nStartY); rParam.calcStartPosForVertical(aLogicStart, aCellSize.Width(), nEngineWidth, nTopM, mpRefDevice); Point aURLStart = aLogicStart; // copy before modifying for orientation if (rParam.meHorJust != SVX_HOR_JUSTIFY_BLOCK) { aLogicStart.X() += nEngineWidth; if (!rParam.mbBreak) { // Set the paper width to text size. Size aPSize = rParam.mpEngine->GetPaperSize(); aPSize.Width() = rParam.mpEngine->CalcTextWidth(); rParam.mpEngine->SetPaperSize(aPSize); long nGap = 0; long nTopOffset = 0; // offset by top margin if (rParam.mbPixelToLogic) { nGap = mpRefDevice->LogicToPixel(aPSize).Width() - mpRefDevice->LogicToPixel(aCellSize).Height(); nGap = mpRefDevice->PixelToLogic(Size(0, nGap)).Height(); nTopOffset = mpRefDevice->PixelToLogic(Size(0,nTopM)).Height(); } else { nGap = aPSize.Width() - aCellSize.Height(); nTopOffset = nTopM; } aLogicStart.Y() += nTopOffset; switch (rParam.meVerJust) { case SVX_VER_JUSTIFY_STANDARD: case SVX_VER_JUSTIFY_BOTTOM: // align to bottom aLogicStart.Y() -= nGap; break; case SVX_VER_JUSTIFY_CENTER: // center it. aLogicStart.Y() -= nGap / 2; break; case SVX_VER_JUSTIFY_BLOCK: case SVX_VER_JUSTIFY_TOP: // align to top (do nothing) default: ; } } } rParam.adjustForRTL(); // bMoveClipped handling has been replaced by complete alignment // handling (also extending to the left). rParam.mpEngine->Draw(mpDev, aLogicStart, 2700); if (bClip) { if (bMetaFile) mpDev->Pop(); else mpDev->SetClipRegion(); } rParam.adjustForHyperlinkInPDF(aURLStart, mpDev); } void ScOutputData::DrawEditStacked(DrawEditParam& rParam) { OSL_ASSERT(rParam.meHorJust != SVX_HOR_JUSTIFY_REPEAT); Size aRefOne = mpRefDevice->PixelToLogic(Size(1,1)); bool bRepeat = (rParam.meHorJust == SVX_HOR_JUSTIFY_REPEAT && !rParam.mbBreak); bool bShrink = !rParam.mbBreak && !bRepeat && lcl_GetBoolValue(*rParam.mpPattern, ATTR_SHRINKTOFIT, rParam.mpCondSet); rParam.mbAsianVertical = lcl_GetBoolValue(*rParam.mpPattern, ATTR_VERTICAL_ASIAN, rParam.mpCondSet); if ( rParam.mbAsianVertical ) { // in asian mode, use EditEngine::SetVertical instead of EE_CNTRL_ONECHARPERLINE rParam.meOrient = SVX_ORIENTATION_STANDARD; DrawEditAsianVertical(rParam); return; } SvxCellHorJustify eOutHorJust = ( rParam.meHorJust != SVX_HOR_JUSTIFY_STANDARD ) ? rParam.meHorJust : ( rParam.mbCellIsValue ? SVX_HOR_JUSTIFY_RIGHT : SVX_HOR_JUSTIFY_LEFT ); if ( eOutHorJust == SVX_HOR_JUSTIFY_BLOCK || eOutHorJust == SVX_HOR_JUSTIFY_REPEAT ) eOutHorJust = SVX_HOR_JUSTIFY_LEFT; // repeat is not yet implemented //! mirror margin values for RTL? //! move margin down to after final GetOutputArea call long nTopM, nLeftM, nBottomM, nRightM; rParam.calcMargins(nTopM, nLeftM, nBottomM, nRightM, mnPPTX, mnPPTY); SCCOL nXForPos = rParam.mnX; if ( nXForPos < nX1 ) { nXForPos = nX1; rParam.mnPosX = rParam.mnInitPosX; } SCSIZE nArrYForPos = rParam.mnArrY; if ( nArrYForPos < 1 ) { nArrYForPos = 1; rParam.mnPosY = nScrY; } OutputAreaParam aAreaParam; // // Initial page size - large for normal text, cell size for automatic line breaks // Size aPaperSize = Size( 1000000, 1000000 ); // call GetOutputArea with nNeeded=0, to get only the cell width //! handle nArrY == 0 GetOutputArea( nXForPos, nArrYForPos, rParam.mnPosX, rParam.mnPosY, rParam.mnCellX, rParam.mnCellY, 0, *rParam.mpPattern, sal::static_int_cast(eOutHorJust), rParam.mbCellIsValue, true, false, aAreaParam ); //! special ScEditUtil handling if formatting for printer rParam.calcPaperSize(aPaperSize, aAreaParam.maAlignRect, mnPPTX, mnPPTY); if (rParam.mbPixelToLogic) { Size aLogicSize = mpRefDevice->PixelToLogic(aPaperSize); if ( rParam.mbBreak && mpRefDevice != pFmtDevice ) { // #i85342# screen display and formatting for printer, // use same GetEditArea call as in ScViewData::SetEditEngine Fraction aFract(1,1); Rectangle aUtilRect = ScEditUtil( mpDoc, rParam.mnCellX, rParam.mnCellY, nTab, Point(0,0), pFmtDevice, HMM_PER_TWIPS, HMM_PER_TWIPS, aFract, aFract ).GetEditArea( rParam.mpPattern, false ); aLogicSize.Width() = aUtilRect.GetWidth(); } rParam.mpEngine->SetPaperSize(aLogicSize); } else rParam.mpEngine->SetPaperSize(aPaperSize); // // Fill the EditEngine (cell attributes and text) // rParam.setPatternToEngine(mbUseStyleColor); rParam.setAlignmentToEngine(); // Read content from cell bool bWrapFields = false; if (!rParam.readCellContent(mpDoc, mbShowNullValues, mbShowFormulas, mbSyntaxMode, mbUseStyleColor, mbForceAutoColor, bWrapFields)) // Failed to read cell content. Bail out. return; if ( mbSyntaxMode ) SetEditSyntaxColor( *rParam.mpEngine, rParam.maCell ); else if ( mbUseStyleColor && mbForceAutoColor ) lcl_SetEditColor( *rParam.mpEngine, COL_AUTO ); //! or have a flag at EditEngine rParam.mpEngine->SetUpdateMode( true ); // after SetText, before CalcTextWidth/GetTextHeight // // Get final output area using the calculated width // long nEngineWidth, nEngineHeight; rParam.getEngineSize(rParam.mpEngine, nEngineWidth, nEngineHeight); long nNeededPixel = nEngineWidth; if (rParam.mbPixelToLogic) nNeededPixel = mpRefDevice->LogicToPixel(Size(nNeededPixel,0)).Width(); nNeededPixel += nLeftM + nRightM; if (bShrink) { // for break, the first GetOutputArea call is sufficient GetOutputArea( nXForPos, nArrYForPos, rParam.mnPosX, rParam.mnPosY, rParam.mnCellX, rParam.mnCellY, nNeededPixel, *rParam.mpPattern, sal::static_int_cast(eOutHorJust), true, false, false, aAreaParam ); ShrinkEditEngine( *rParam.mpEngine, aAreaParam.maAlignRect, nLeftM, nTopM, nRightM, nBottomM, true, sal::static_int_cast(rParam.meOrient), 0, rParam.mbPixelToLogic, nEngineWidth, nEngineHeight, nNeededPixel, aAreaParam.mbLeftClip, aAreaParam.mbRightClip ); if ( bRepeat && !aAreaParam.mbLeftClip && !aAreaParam.mbRightClip && rParam.mpEngine->GetParagraphCount() == 1 ) { // First check if twice the space for the formatted text is available // (otherwise just keep it unchanged). long nFormatted = nNeededPixel - nLeftM - nRightM; // without margin long nAvailable = aAreaParam.maAlignRect.GetWidth() - nLeftM - nRightM; if ( nAvailable >= 2 * nFormatted ) { // "repeat" is handled with unformatted text (for performance reasons) String aCellStr = rParam.mpEngine->GetText(); rParam.mpEngine->SetText( aCellStr ); long nRepeatSize = (long) rParam.mpEngine->CalcTextWidth(); if (rParam.mbPixelToLogic) nRepeatSize = mpRefDevice->LogicToPixel(Size(nRepeatSize,0)).Width(); if ( pFmtDevice != mpRefDevice ) ++nRepeatSize; if ( nRepeatSize > 0 ) { long nRepeatCount = nAvailable / nRepeatSize; if ( nRepeatCount > 1 ) { String aRepeated = aCellStr; for ( long nRepeat = 1; nRepeat < nRepeatCount; nRepeat++ ) aRepeated.Append( aCellStr ); rParam.mpEngine->SetText( aRepeated ); nEngineHeight = rParam.mpEngine->GetTextHeight(); nEngineWidth = (long) rParam.mpEngine->CalcTextWidth(); if (rParam.mbPixelToLogic) nNeededPixel = mpRefDevice->LogicToPixel(Size(nEngineWidth,0)).Width(); else nNeededPixel = nEngineWidth; nNeededPixel += nLeftM + nRightM; } } } } if ( rParam.mbCellIsValue && ( aAreaParam.mbLeftClip || aAreaParam.mbRightClip ) ) { rParam.mpEngine->SetText(OUString("###")); nEngineWidth = (long) rParam.mpEngine->CalcTextWidth(); if (rParam.mbPixelToLogic) nNeededPixel = mpRefDevice->LogicToPixel(Size(nEngineWidth,0)).Width(); else nNeededPixel = nEngineWidth; nNeededPixel += nLeftM + nRightM; // No clip marks if "###" doesn't fit (same as in DrawStrings) } if ( eOutHorJust != SVX_HOR_JUSTIFY_LEFT ) { aPaperSize.Width() = nNeededPixel + 1; if (rParam.mbPixelToLogic) rParam.mpEngine->SetPaperSize(mpRefDevice->PixelToLogic(aPaperSize)); else rParam.mpEngine->SetPaperSize(aPaperSize); } } long nStartX = aAreaParam.maAlignRect.Left(); long nStartY = aAreaParam.maAlignRect.Top(); long nCellWidth = aAreaParam.maAlignRect.GetWidth(); long nOutWidth = nCellWidth - 1 - nLeftM - nRightM; long nOutHeight = aAreaParam.maAlignRect.GetHeight() - nTopM - nBottomM; if (rParam.mbBreak) { // text with automatic breaks is aligned only within the // edit engine's paper size, the output of the whole area // is always left-aligned nStartX += nLeftM; } else { if ( eOutHorJust == SVX_HOR_JUSTIFY_RIGHT ) nStartX -= nNeededPixel - nCellWidth + nRightM + 1; else if ( eOutHorJust == SVX_HOR_JUSTIFY_CENTER ) nStartX -= ( nNeededPixel - nCellWidth + nRightM + 1 - nLeftM ) / 2; else nStartX += nLeftM; } bool bOutside = (aAreaParam.maClipRect.Right() < nScrX || aAreaParam.maClipRect.Left() >= nScrX + nScrW); if (bOutside) return; if ( aAreaParam.maClipRect.Left() < nScrX ) { aAreaParam.maClipRect.Left() = nScrX; aAreaParam.mbLeftClip = true; } if ( aAreaParam.maClipRect.Right() > nScrX + nScrW ) { aAreaParam.maClipRect.Right() = nScrX + nScrW; //! minus one? aAreaParam.mbRightClip = true; } bool bClip = aAreaParam.mbLeftClip || aAreaParam.mbRightClip; bool bSimClip = false; if ( bWrapFields ) { // Fields in a cell with automatic breaks: clip to cell width bClip = true; } if ( aAreaParam.maClipRect.Top() < nScrY ) { aAreaParam.maClipRect.Top() = nScrY; bClip = true; } if ( aAreaParam.maClipRect.Bottom() > nScrY + nScrH ) { aAreaParam.maClipRect.Bottom() = nScrY + nScrH; //! minus one? bClip = true; } Size aCellSize; // output area, excluding margins, in logical units if (rParam.mbPixelToLogic) aCellSize = mpRefDevice->PixelToLogic( Size( nOutWidth, nOutHeight ) ); else aCellSize = Size( nOutWidth, nOutHeight ); if ( nEngineHeight >= aCellSize.Height() + aRefOne.Height() ) { const ScMergeAttr* pMerge = (ScMergeAttr*)&rParam.mpPattern->GetItem(ATTR_MERGE); bool bMerged = pMerge->GetColMerge() > 1 || pMerge->GetRowMerge() > 1; // Don't clip for text height when printing rows with optimal height, // except when font size is from conditional formatting. //! Allow clipping when vertically merged? if ( eType != OUTTYPE_PRINTER || ( mpDoc->GetRowFlags( rParam.mnCellY, nTab ) & CR_MANUALSIZE ) || ( rParam.mpCondSet && SFX_ITEM_SET == rParam.mpCondSet->GetItemState(ATTR_FONT_HEIGHT, true) ) ) bClip = true; else bSimClip = true; // Show clip marks if height is at least 5pt too small and // there are several lines of text. // Not for asian vertical text, because that would interfere // with the default right position of the text. // Only with automatic line breaks, to avoid having to find // the cells with the horizontal end of the text again. if ( nEngineHeight - aCellSize.Height() > 100 && rParam.mbBreak && bMarkClipped && ( rParam.mpEngine->GetParagraphCount() > 1 || rParam.mpEngine->GetLineCount(0) > 1 ) ) { CellInfo* pClipMarkCell = NULL; if ( bMerged ) { // anywhere in the merged area... SCCOL nClipX = ( rParam.mnX < nX1 ) ? nX1 : rParam.mnX; pClipMarkCell = &pRowInfo[(rParam.mnArrY != 0) ? rParam.mnArrY : 1].pCellInfo[nClipX+1]; } else pClipMarkCell = &rParam.mpThisRowInfo->pCellInfo[rParam.mnX+1]; pClipMarkCell->nClipMark |= SC_CLIPMARK_RIGHT; //! also allow left? bAnyClipped = true; long nMarkPixel = (long)( SC_CLIPMARK_SIZE * mnPPTX ); if ( aAreaParam.maClipRect.Right() - nMarkPixel > aAreaParam.maClipRect.Left() ) aAreaParam.maClipRect.Right() -= nMarkPixel; } } Rectangle aLogicClip; if (bClip || bSimClip) { // Clip marks are already handled in GetOutputArea if (rParam.mbPixelToLogic) aLogicClip = mpRefDevice->PixelToLogic( aAreaParam.maClipRect ); else aLogicClip = aAreaParam.maClipRect; if (bClip) // bei bSimClip nur aClipRect initialisieren { if (bMetaFile) { mpDev->Push(); mpDev->IntersectClipRegion( aLogicClip ); } else mpDev->SetClipRegion( Region( aLogicClip ) ); } } Point aLogicStart; if (rParam.mbPixelToLogic) aLogicStart = mpRefDevice->PixelToLogic( Point(nStartX,nStartY) ); else aLogicStart = Point(nStartX, nStartY); if (rParam.meVerJust==SVX_VER_JUSTIFY_BOTTOM || rParam.meVerJust==SVX_VER_JUSTIFY_STANDARD) { //! if pRefDevice != pFmtDevice, keep heights in logic units, //! only converting margin? if (rParam.mbPixelToLogic) aLogicStart.Y() += mpRefDevice->PixelToLogic( Size(0, nTopM + mpRefDevice->LogicToPixel(aCellSize).Height() - mpRefDevice->LogicToPixel(Size(0,nEngineHeight)).Height() )).Height(); else aLogicStart.Y() += nTopM + aCellSize.Height() - nEngineHeight; } else if (rParam.meVerJust==SVX_VER_JUSTIFY_CENTER) { if (rParam.mbPixelToLogic) aLogicStart.Y() += mpRefDevice->PixelToLogic( Size(0, nTopM + ( mpRefDevice->LogicToPixel(aCellSize).Height() - mpRefDevice->LogicToPixel(Size(0,nEngineHeight)).Height() ) / 2)).Height(); else aLogicStart.Y() += nTopM + (aCellSize.Height() - nEngineHeight) / 2; } else // top { if (rParam.mbPixelToLogic) aLogicStart.Y() += mpRefDevice->PixelToLogic(Size(0,nTopM)).Height(); else aLogicStart.Y() += nTopM; } Point aURLStart = aLogicStart; // copy before modifying for orientation Size aPaperLogic = rParam.mpEngine->GetPaperSize(); aPaperLogic.Width() = nEngineWidth; rParam.mpEngine->SetPaperSize(aPaperLogic); rParam.adjustForRTL(); // bMoveClipped handling has been replaced by complete alignment // handling (also extending to the left). if (bSimClip) { // kein hartes Clipping, aber nur die betroffenen // Zeilen ausgeben Point aDocStart = aLogicClip.TopLeft(); aDocStart -= aLogicStart; rParam.mpEngine->Draw( mpDev, aLogicClip, aDocStart, false ); } else { rParam.mpEngine->Draw( mpDev, aLogicStart, 0 ); } if (bClip) { if (bMetaFile) mpDev->Pop(); else mpDev->SetClipRegion(); } rParam.adjustForHyperlinkInPDF(aURLStart, mpDev); } void ScOutputData::DrawEditAsianVertical(DrawEditParam& rParam) { // When in asian vertical orientation, the orientation value is STANDARD, // and the asian vertical boolean is true. OSL_ASSERT(rParam.meOrient == SVX_ORIENTATION_STANDARD); OSL_ASSERT(rParam.mbAsianVertical); OSL_ASSERT(rParam.meHorJust != SVX_HOR_JUSTIFY_REPEAT); Size aRefOne = mpRefDevice->PixelToLogic(Size(1,1)); bool bHidden = false; bool bRepeat = false; bool bShrink = !rParam.mbBreak && !bRepeat && lcl_GetBoolValue(*rParam.mpPattern, ATTR_SHRINKTOFIT, rParam.mpCondSet); long nAttrRotate = lcl_GetValue(*rParam.mpPattern, ATTR_ROTATE_VALUE, rParam.mpCondSet); if (nAttrRotate) { //! Flag setzen, um die Zelle in DrawRotated wiederzufinden ? //! (oder Flag schon bei DrawBackground, dann hier keine Abfrage) bHidden = true; // gedreht wird getrennt ausgegeben } // default alignment for asian vertical mode is top-right if ( rParam.meHorJust == SVX_HOR_JUSTIFY_STANDARD ) rParam.meHorJust = SVX_HOR_JUSTIFY_RIGHT; SvxCellHorJustify eOutHorJust = ( rParam.meHorJust != SVX_HOR_JUSTIFY_STANDARD ) ? rParam.meHorJust : ( rParam.mbCellIsValue ? SVX_HOR_JUSTIFY_RIGHT : SVX_HOR_JUSTIFY_LEFT ); if ( eOutHorJust == SVX_HOR_JUSTIFY_BLOCK || eOutHorJust == SVX_HOR_JUSTIFY_REPEAT ) eOutHorJust = SVX_HOR_JUSTIFY_LEFT; // repeat is not yet implemented if (bHidden) return; //! mirror margin values for RTL? //! move margin down to after final GetOutputArea call long nTopM, nLeftM, nBottomM, nRightM; rParam.calcMargins(nTopM, nLeftM, nBottomM, nRightM, mnPPTX, mnPPTY); SCCOL nXForPos = rParam.mnX; if ( nXForPos < nX1 ) { nXForPos = nX1; rParam.mnPosX = rParam.mnInitPosX; } SCSIZE nArrYForPos = rParam.mnArrY; if ( nArrYForPos < 1 ) { nArrYForPos = 1; rParam.mnPosY = nScrY; } OutputAreaParam aAreaParam; // // Initial page size - large for normal text, cell size for automatic line breaks // Size aPaperSize = Size( 1000000, 1000000 ); // call GetOutputArea with nNeeded=0, to get only the cell width //! handle nArrY == 0 GetOutputArea( nXForPos, nArrYForPos, rParam.mnPosX, rParam.mnPosY, rParam.mnCellX, rParam.mnCellY, 0, *rParam.mpPattern, sal::static_int_cast(eOutHorJust), rParam.mbCellIsValue, true, false, aAreaParam ); //! special ScEditUtil handling if formatting for printer rParam.calcPaperSize(aPaperSize, aAreaParam.maAlignRect, mnPPTX, mnPPTY); if (rParam.mbPixelToLogic) { Size aLogicSize = mpRefDevice->PixelToLogic(aPaperSize); if ( rParam.mbBreak && !rParam.mbAsianVertical && mpRefDevice != pFmtDevice ) { // #i85342# screen display and formatting for printer, // use same GetEditArea call as in ScViewData::SetEditEngine Fraction aFract(1,1); Rectangle aUtilRect = ScEditUtil( mpDoc, rParam.mnCellX, rParam.mnCellY, nTab, Point(0,0), pFmtDevice, HMM_PER_TWIPS, HMM_PER_TWIPS, aFract, aFract ).GetEditArea( rParam.mpPattern, false ); aLogicSize.Width() = aUtilRect.GetWidth(); } rParam.mpEngine->SetPaperSize(aLogicSize); } else rParam.mpEngine->SetPaperSize(aPaperSize); // // Fill the EditEngine (cell attributes and text) // // default alignment for asian vertical mode is top-right if ( rParam.meVerJust == SVX_VER_JUSTIFY_STANDARD ) rParam.meVerJust = SVX_VER_JUSTIFY_TOP; rParam.setPatternToEngine(mbUseStyleColor); rParam.setAlignmentToEngine(); // Read content from cell bool bWrapFields = false; if (!rParam.readCellContent(mpDoc, mbShowNullValues, mbShowFormulas, mbSyntaxMode, mbUseStyleColor, mbForceAutoColor, bWrapFields)) // Failed to read cell content. Bail out. return; if ( mbSyntaxMode ) SetEditSyntaxColor( *rParam.mpEngine, rParam.maCell ); else if ( mbUseStyleColor && mbForceAutoColor ) lcl_SetEditColor( *rParam.mpEngine, COL_AUTO ); //! or have a flag at EditEngine rParam.mpEngine->SetUpdateMode( true ); // after SetText, before CalcTextWidth/GetTextHeight // // Get final output area using the calculated width // long nEngineWidth, nEngineHeight; rParam.getEngineSize(rParam.mpEngine, nEngineWidth, nEngineHeight); long nNeededPixel = nEngineWidth; if (rParam.mbPixelToLogic) nNeededPixel = mpRefDevice->LogicToPixel(Size(nNeededPixel,0)).Width(); nNeededPixel += nLeftM + nRightM; // for break, the first GetOutputArea call is sufficient GetOutputArea( nXForPos, nArrYForPos, rParam.mnPosX, rParam.mnPosY, rParam.mnCellX, rParam.mnCellY, nNeededPixel, *rParam.mpPattern, sal::static_int_cast(eOutHorJust), rParam.mbCellIsValue || bRepeat || bShrink, false, false, aAreaParam ); if ( bShrink ) { ShrinkEditEngine( *rParam.mpEngine, aAreaParam.maAlignRect, nLeftM, nTopM, nRightM, nBottomM, false, sal::static_int_cast(rParam.meOrient), 0, rParam.mbPixelToLogic, nEngineWidth, nEngineHeight, nNeededPixel, aAreaParam.mbLeftClip, aAreaParam.mbRightClip ); } if ( bRepeat && !aAreaParam.mbLeftClip && !aAreaParam.mbRightClip && rParam.mpEngine->GetParagraphCount() == 1 ) { // First check if twice the space for the formatted text is available // (otherwise just keep it unchanged). long nFormatted = nNeededPixel - nLeftM - nRightM; // without margin long nAvailable = aAreaParam.maAlignRect.GetWidth() - nLeftM - nRightM; if ( nAvailable >= 2 * nFormatted ) { // "repeat" is handled with unformatted text (for performance reasons) String aCellStr = rParam.mpEngine->GetText(); rParam.mpEngine->SetText( aCellStr ); long nRepeatSize = (long) rParam.mpEngine->CalcTextWidth(); if (rParam.mbPixelToLogic) nRepeatSize = mpRefDevice->LogicToPixel(Size(nRepeatSize,0)).Width(); if ( pFmtDevice != mpRefDevice ) ++nRepeatSize; if ( nRepeatSize > 0 ) { long nRepeatCount = nAvailable / nRepeatSize; if ( nRepeatCount > 1 ) { String aRepeated = aCellStr; for ( long nRepeat = 1; nRepeat < nRepeatCount; nRepeat++ ) aRepeated.Append( aCellStr ); rParam.mpEngine->SetText( aRepeated ); nEngineHeight = rParam.mpEngine->GetTextHeight(); nEngineWidth = (long) rParam.mpEngine->CalcTextWidth(); if (rParam.mbPixelToLogic) nNeededPixel = mpRefDevice->LogicToPixel(Size(nEngineWidth,0)).Width(); else nNeededPixel = nEngineWidth; nNeededPixel += nLeftM + nRightM; } } } } if ( rParam.mbCellIsValue && ( aAreaParam.mbLeftClip || aAreaParam.mbRightClip ) ) { rParam.mpEngine->SetText(OUString("###")); nEngineWidth = (long) rParam.mpEngine->CalcTextWidth(); if (rParam.mbPixelToLogic) nNeededPixel = mpRefDevice->LogicToPixel(Size(nEngineWidth,0)).Width(); else nNeededPixel = nEngineWidth; nNeededPixel += nLeftM + nRightM; // No clip marks if "###" doesn't fit (same as in DrawStrings) } if (eOutHorJust != SVX_HOR_JUSTIFY_LEFT) { aPaperSize.Width() = nNeededPixel + 1; if (rParam.mbPixelToLogic) rParam.mpEngine->SetPaperSize(mpRefDevice->PixelToLogic(aPaperSize)); else rParam.mpEngine->SetPaperSize(aPaperSize); } long nStartX = aAreaParam.maAlignRect.Left(); long nStartY = aAreaParam.maAlignRect.Top(); long nCellWidth = aAreaParam.maAlignRect.GetWidth(); long nOutWidth = nCellWidth - 1 - nLeftM - nRightM; long nOutHeight = aAreaParam.maAlignRect.GetHeight() - nTopM - nBottomM; // text with automatic breaks is aligned only within the // edit engine's paper size, the output of the whole area // is always left-aligned nStartX += nLeftM; bool bOutside = (aAreaParam.maClipRect.Right() < nScrX || aAreaParam.maClipRect.Left() >= nScrX + nScrW); if (bOutside) return; if ( aAreaParam.maClipRect.Left() < nScrX ) { aAreaParam.maClipRect.Left() = nScrX; aAreaParam.mbLeftClip = true; } if ( aAreaParam.maClipRect.Right() > nScrX + nScrW ) { aAreaParam.maClipRect.Right() = nScrX + nScrW; //! minus one? aAreaParam.mbRightClip = true; } bool bClip = aAreaParam.mbLeftClip || aAreaParam.mbRightClip; bool bSimClip = false; if ( bWrapFields ) { // Fields in a cell with automatic breaks: clip to cell width bClip = true; } if ( aAreaParam.maClipRect.Top() < nScrY ) { aAreaParam.maClipRect.Top() = nScrY; bClip = true; } if ( aAreaParam.maClipRect.Bottom() > nScrY + nScrH ) { aAreaParam.maClipRect.Bottom() = nScrY + nScrH; //! minus one? bClip = true; } Size aCellSize; // output area, excluding margins, in logical units if (rParam.mbPixelToLogic) aCellSize = mpRefDevice->PixelToLogic( Size( nOutWidth, nOutHeight ) ); else aCellSize = Size( nOutWidth, nOutHeight ); if ( nEngineHeight >= aCellSize.Height() + aRefOne.Height() ) { const ScMergeAttr* pMerge = (ScMergeAttr*)&rParam.mpPattern->GetItem(ATTR_MERGE); bool bMerged = pMerge->GetColMerge() > 1 || pMerge->GetRowMerge() > 1; // Don't clip for text height when printing rows with optimal height, // except when font size is from conditional formatting. //! Allow clipping when vertically merged? if ( eType != OUTTYPE_PRINTER || ( mpDoc->GetRowFlags( rParam.mnCellY, nTab ) & CR_MANUALSIZE ) || ( rParam.mpCondSet && SFX_ITEM_SET == rParam.mpCondSet->GetItemState(ATTR_FONT_HEIGHT, true) ) ) bClip = true; else bSimClip = true; // Show clip marks if height is at least 5pt too small and // there are several lines of text. // Not for asian vertical text, because that would interfere // with the default right position of the text. // Only with automatic line breaks, to avoid having to find // the cells with the horizontal end of the text again. if ( nEngineHeight - aCellSize.Height() > 100 && ( rParam.mbBreak || rParam.meOrient == SVX_ORIENTATION_STACKED ) && !rParam.mbAsianVertical && bMarkClipped && ( rParam.mpEngine->GetParagraphCount() > 1 || rParam.mpEngine->GetLineCount(0) > 1 ) ) { CellInfo* pClipMarkCell = NULL; if ( bMerged ) { // anywhere in the merged area... SCCOL nClipX = ( rParam.mnX < nX1 ) ? nX1 : rParam.mnX; pClipMarkCell = &pRowInfo[(rParam.mnArrY != 0) ? rParam.mnArrY : 1].pCellInfo[nClipX+1]; } else pClipMarkCell = &rParam.mpThisRowInfo->pCellInfo[rParam.mnX+1]; pClipMarkCell->nClipMark |= SC_CLIPMARK_RIGHT; //! also allow left? bAnyClipped = true; long nMarkPixel = (long)( SC_CLIPMARK_SIZE * mnPPTX ); if ( aAreaParam.maClipRect.Right() - nMarkPixel > aAreaParam.maClipRect.Left() ) aAreaParam.maClipRect.Right() -= nMarkPixel; } } Rectangle aLogicClip; if (bClip || bSimClip) { // Clip marks are already handled in GetOutputArea if (rParam.mbPixelToLogic) aLogicClip = mpRefDevice->PixelToLogic( aAreaParam.maClipRect ); else aLogicClip = aAreaParam.maClipRect; if (bClip) // bei bSimClip nur aClipRect initialisieren { if (bMetaFile) { mpDev->Push(); mpDev->IntersectClipRegion( aLogicClip ); } else mpDev->SetClipRegion( Region( aLogicClip ) ); } } Point aLogicStart; if (rParam.mbPixelToLogic) aLogicStart = mpRefDevice->PixelToLogic( Point(nStartX,nStartY) ); else aLogicStart = Point(nStartX, nStartY); long nAvailWidth = aCellSize.Width(); // space for AutoFilter is already handled in GetOutputArea // horizontal alignment if (rParam.meHorJust==SVX_HOR_JUSTIFY_RIGHT) aLogicStart.X() += nAvailWidth - nEngineWidth; else if (rParam.meHorJust==SVX_HOR_JUSTIFY_CENTER) aLogicStart.X() += (nAvailWidth - nEngineWidth) / 2; // paper size is subtracted below aLogicStart.X() += nEngineWidth; // vertical adjustment is within the EditEngine if (rParam.mbPixelToLogic) aLogicStart.Y() += mpRefDevice->PixelToLogic(Size(0,nTopM)).Height(); else aLogicStart.Y() += nTopM; Point aURLStart = aLogicStart; // copy before modifying for orientation rParam.adjustForRTL(); // bMoveClipped handling has been replaced by complete alignment // handling (also extending to the left). // with SetVertical, the start position is top left of // the whole output area, not the text itself aLogicStart.X() -= rParam.mpEngine->GetPaperSize().Width(); rParam.mpEngine->Draw(mpDev, aLogicStart, 0); if (bClip) { if (bMetaFile) mpDev->Pop(); else mpDev->SetClipRegion(); } rParam.adjustForHyperlinkInPDF(aURLStart, mpDev); } void ScOutputData::DrawEdit(sal_Bool bPixelToLogic) { ScFieldEditEngine* pEngine = NULL; bool bHyphenatorSet = false; const ScPatternAttr* pOldPattern = NULL; const SfxItemSet* pOldCondSet = NULL; ScRefCellValue aCell; long nInitPosX = nScrX; if ( bLayoutRTL ) { nInitPosX += nMirrorW - 1; } long nLayoutSign = bLayoutRTL ? -1 : 1; //! store nLastContentCol as member! SCCOL nLastContentCol = MAXCOL; if ( nX2 < MAXCOL ) nLastContentCol = sal::static_int_cast( nLastContentCol - mpDoc->GetEmptyLinesInBlock( nX2+1, nY1, nTab, MAXCOL, nY2, nTab, DIR_RIGHT ) ); long nRowPosY = nScrY; for (SCSIZE nArrY=0; nArrY+1bChanged || nArrY==0 ) { long nPosX = 0; for (SCCOL nX=0; nX<=nX2; nX++) // wegen Ueberhaengen { std::auto_ptr< ScPatternAttr > pPreviewPattr; if (nX==nX1) nPosX = nInitPosX; // positions before nX1 are calculated individually CellInfo* pInfo = &pThisRowInfo->pCellInfo[nX+1]; if (pInfo->bEditEngine) { SCROW nY = pThisRowInfo->nRowNo; SCCOL nCellX = nX; // position where the cell really starts SCROW nCellY = nY; sal_Bool bDoCell = false; long nPosY = nRowPosY; if ( nArrY == 0 ) { nPosY = nScrY; nY = pRowInfo[1].nRowNo; SCCOL nOverX; // start of the merged cells SCROW nOverY; if (GetMergeOrigin( nX,nY, 1, nOverX,nOverY, sal_True )) { nCellX = nOverX; nCellY = nOverY; bDoCell = sal_True; } } else if ( nX == nX2 && pThisRowInfo->pCellInfo[nX+1].maCell.isEmpty() ) { // Rest of a long text further to the right? SCCOL nTempX=nX; while (nTempX < nLastContentCol && IsEmptyCellText( pThisRowInfo, nTempX, nY )) ++nTempX; if ( nTempX > nX && !IsEmptyCellText( pThisRowInfo, nTempX, nY ) && !mpDoc->HasAttrib( nTempX,nY,nTab, nX,nY,nTab, HASATTR_MERGED | HASATTR_OVERLAPPED ) ) { nCellX = nTempX; bDoCell = sal_True; } } else { bDoCell = sal_True; } if ( bDoCell && bEditMode && nCellX == nEditCol && nCellY == nEditRow ) bDoCell = false; const ScPatternAttr* pPattern = NULL; const SfxItemSet* pCondSet = NULL; if (bDoCell) { if ( nCellY == nY && nCellX >= nX1 && nCellX <= nX2 && !mpDoc->ColHidden(nCellX, nTab) ) { CellInfo& rCellInfo = pThisRowInfo->pCellInfo[nCellX+1]; pPattern = rCellInfo.pPatternAttr; pCondSet = rCellInfo.pConditionSet; aCell = rCellInfo.maCell; } else // get from document { pPattern = mpDoc->GetPattern( nCellX, nCellY, nTab ); pCondSet = mpDoc->GetCondResult( nCellX, nCellY, nTab ); GetVisibleCell( nCellX, nCellY, nTab, aCell ); } if (aCell.isEmpty()) bDoCell = false; } if (bDoCell) { SfxItemSet* pPreviewFontSet = mpDoc->GetPreviewFont( nCellX, nCellY, nTab ); if (!pEngine) pEngine = CreateOutputEditEngine(); else lcl_ClearEdit( *pEngine ); // also calls SetUpdateMode(sal_False) // fdo#32530: Check if the first character is RTL. OUString aStr = mpDoc->GetString(nCellX, nCellY, nTab); DrawEditParam aParam(pPattern, pCondSet, lcl_SafeIsValue(aCell)); aParam.mbPixelToLogic = bPixelToLogic; aParam.mbHyphenatorSet = bHyphenatorSet; aParam.mbRTL = beginsWithRTLCharacter(aStr); aParam.mpEngine = pEngine; aParam.maCell = aCell; aParam.mnArrY = nArrY; aParam.mnX = nX; aParam.mnY = nY; aParam.mnCellX = nCellX; aParam.mnCellY = nCellY; aParam.mnPosX = nPosX; aParam.mnPosY = nPosY; aParam.mnInitPosX = nInitPosX; aParam.mpPreviewFontSet = pPreviewFontSet; aParam.mpOldPattern = pOldPattern; aParam.mpOldCondSet = pOldCondSet; aParam.mpThisRowInfo = pThisRowInfo; if (aParam.meHorJust == SVX_HOR_JUSTIFY_REPEAT) { // ignore orientation/rotation if "repeat" is active aParam.meOrient = SVX_ORIENTATION_STANDARD; } switch (aParam.meOrient) { case SVX_ORIENTATION_BOTTOMTOP: DrawEditBottomTop(aParam); break; case SVX_ORIENTATION_TOPBOTTOM: DrawEditTopBottom(aParam); break; case SVX_ORIENTATION_STACKED: // this can be vertically stacked or asian vertical. DrawEditStacked(aParam); break; default: DrawEditStandard(aParam); } // Retrieve parameters for next iteration. pOldPattern = aParam.mpOldPattern; pOldCondSet = aParam.mpOldCondSet; bHyphenatorSet = aParam.mbHyphenatorSet; } } nPosX += pRowInfo[0].pCellInfo[nX+1].nWidth * nLayoutSign; } } nRowPosY += pRowInfo[nArrY].nHeight; } delete pEngine; if (bAnyRotated) DrawRotated(bPixelToLogic); //! von aussen rufen ? } // ------------------------------------------------------------------------------- void ScOutputData::DrawRotated(sal_Bool bPixelToLogic) { //! nRotMax speichern SCCOL nRotMax = nX2; for (SCSIZE nRotY=0; nRotY nRotMax) nRotMax = pRowInfo[nRotY].nRotMaxCol; ScModule* pScMod = SC_MOD(); sal_Int32 nConfBackColor = pScMod->GetColorConfig().GetColorValue(svtools::DOCCOLOR).nColor; sal_Bool bCellContrast = mbUseStyleColor && Application::GetSettings().GetStyleSettings().GetHighContrastMode(); ScFieldEditEngine* pEngine = NULL; sal_Bool bHyphenatorSet = false; const ScPatternAttr* pPattern; const SfxItemSet* pCondSet; const ScPatternAttr* pOldPattern = NULL; const SfxItemSet* pOldCondSet = NULL; ScRefCellValue aCell; long nInitPosX = nScrX; if ( bLayoutRTL ) { nInitPosX += nMirrorW - 1; } long nLayoutSign = bLayoutRTL ? -1 : 1; long nRowPosY = nScrY; for (SCSIZE nArrY=0; nArrY+1nHeight; if (nArrY==1) nRowPosY = nScrY; // vorher wird einzeln berechnet if ( ( pThisRowInfo->bChanged || nArrY==0 ) && pThisRowInfo->nRotMaxCol != SC_ROTMAX_NONE ) { long nPosX = 0; for (SCCOL nX=0; nX<=nRotMax; nX++) { if (nX==nX1) nPosX = nInitPosX; // positions before nX1 are calculated individually CellInfo* pInfo = &pThisRowInfo->pCellInfo[nX+1]; if ( pInfo->nRotateDir != SC_ROTDIR_NONE ) { SCROW nY = pThisRowInfo->nRowNo; sal_Bool bHidden = false; if (bEditMode) if ( nX == nEditCol && nY == nEditRow ) bHidden = sal_True; if (!bHidden) { if (!pEngine) pEngine = CreateOutputEditEngine(); else lcl_ClearEdit( *pEngine ); // also calls SetUpdateMode(sal_False) long nPosY = nRowPosY; sal_Bool bVisChanged = false; //! Rest von zusammengefasster Zelle weiter oben funktioniert nicht! sal_Bool bFromDoc = false; pPattern = pInfo->pPatternAttr; pCondSet = pInfo->pConditionSet; if (!pPattern) { pPattern = mpDoc->GetPattern( nX, nY, nTab ); bFromDoc = sal_True; } aCell = pInfo->maCell; if (bFromDoc) pCondSet = mpDoc->GetCondResult( nX, nY, nTab ); if (aCell.isEmpty() && nX>nX2) GetVisibleCell( nX, nY, nTab, aCell ); if (aCell.isEmpty() || IsEmptyCellText(pThisRowInfo, nX, nY)) bHidden = true; // nRotateDir is also set without a cell long nCellWidth = (long) pRowInfo[0].pCellInfo[nX+1].nWidth; SvxCellHorJustify eHorJust = (SvxCellHorJustify)((const SvxHorJustifyItem&) pPattern->GetItem(ATTR_HOR_JUSTIFY, pCondSet)).GetValue(); sal_Bool bBreak = ( eHorJust == SVX_HOR_JUSTIFY_BLOCK ) || ((const SfxBoolItem&)pPattern->GetItem(ATTR_LINEBREAK, pCondSet)).GetValue(); sal_Bool bRepeat = ( eHorJust == SVX_HOR_JUSTIFY_REPEAT && !bBreak ); sal_Bool bShrink = !bBreak && !bRepeat && static_cast (pPattern->GetItem( ATTR_SHRINKTOFIT, pCondSet )).GetValue(); SvxCellOrientation eOrient = pPattern->GetCellOrientation( pCondSet ); const ScMergeAttr* pMerge = (ScMergeAttr*)&pPattern->GetItem(ATTR_MERGE); sal_Bool bMerged = pMerge->GetColMerge() > 1 || pMerge->GetRowMerge() > 1; long nStartX = nPosX; long nStartY = nPosY; if (nX nX) { --nCol; nStartX -= nLayoutSign * (long) pRowInfo[0].pCellInfo[nCol+1].nWidth; } } } long nCellStartX = nStartX; // Ersatzdarstellung fuer zu kleinen Text weggelassen if (!bHidden) { long nOutWidth = nCellWidth - 1; long nOutHeight = nCellHeight; if ( bMerged ) // Zusammengefasst { SCCOL nCountX = pMerge->GetColMerge(); for (SCCOL i=1; iGetColWidth(nX+i,nTab) * mnPPTX ); SCROW nCountY = pMerge->GetRowMerge(); nOutHeight += (long) mpDoc->GetScaledRowHeight( nY+1, nY+nCountY-1, nTab, mnPPTY); } SvxCellVerJustify eVerJust = (SvxCellVerJustify)((const SvxVerJustifyItem&) pPattern->GetItem(ATTR_VER_JUSTIFY, pCondSet)).GetValue(); // Syntax-Modus wird hier ignoriert... // StringDiffer doesn't look at hyphenate, language items if ( pPattern != pOldPattern || pCondSet != pOldCondSet ) { SfxItemSet* pSet = new SfxItemSet( pEngine->GetEmptyItemSet() ); pPattern->FillEditItemSet( pSet, pCondSet ); // Ausrichtung fuer EditEngine SvxAdjust eSvxAdjust = SVX_ADJUST_LEFT; if (eOrient==SVX_ORIENTATION_STACKED) eSvxAdjust = SVX_ADJUST_CENTER; // Adjustment fuer bBreak ist hier weggelassen pSet->Put( SvxAdjustItem( eSvxAdjust, EE_PARA_JUST ) ); pEngine->SetDefaults( pSet ); pOldPattern = pPattern; pOldCondSet = pCondSet; sal_uLong nControl = pEngine->GetControlWord(); if (eOrient==SVX_ORIENTATION_STACKED) nControl |= EE_CNTRL_ONECHARPERLINE; else nControl &= ~EE_CNTRL_ONECHARPERLINE; pEngine->SetControlWord( nControl ); if ( !bHyphenatorSet && ((const SfxBoolItem&)pSet->Get(EE_PARA_HYPHENATE)).GetValue() ) { // set hyphenator the first time it is needed com::sun::star::uno::Reference xXHyphenator( LinguMgr::GetHyphenator() ); pEngine->SetHyphenator( xXHyphenator ); bHyphenatorSet = sal_True; } Color aBackCol = ((const SvxBrushItem&) pPattern->GetItem( ATTR_BACKGROUND, pCondSet )).GetColor(); if ( mbUseStyleColor && ( aBackCol.GetTransparency() > 0 || bCellContrast ) ) aBackCol.SetColor( nConfBackColor ); pEngine->SetBackgroundColor( aBackCol ); } // Raender //! Position und Papersize auf EditUtil umstellen !!! const SvxMarginItem* pMargin = (const SvxMarginItem*) &pPattern->GetItem(ATTR_MARGIN, pCondSet); sal_uInt16 nIndent = 0; if ( eHorJust == SVX_HOR_JUSTIFY_LEFT ) nIndent = ((const SfxUInt16Item&)pPattern-> GetItem(ATTR_INDENT, pCondSet)).GetValue(); long nTotalHeight = nOutHeight; // ohne Rand abzuziehen if ( bPixelToLogic ) nTotalHeight = mpRefDevice->PixelToLogic(Size(0,nTotalHeight)).Height(); long nLeftM = (long) ( (pMargin->GetLeftMargin() + nIndent) * mnPPTX ); long nTopM = (long) ( pMargin->GetTopMargin() * mnPPTY ); long nRightM = (long) ( pMargin->GetRightMargin() * mnPPTX ); long nBottomM = (long) ( pMargin->GetBottomMargin() * mnPPTY ); nStartX += nLeftM; nStartY += nTopM; nOutWidth -= nLeftM + nRightM; nOutHeight -= nTopM + nBottomM; // Rotation schon hier, um bei Umbruch auch PaperSize anzupassen long nAttrRotate = 0; double nSin = 0.0; double nCos = 1.0; SvxRotateMode eRotMode = SVX_ROTATE_MODE_STANDARD; if ( eOrient == SVX_ORIENTATION_STANDARD ) { nAttrRotate = ((const SfxInt32Item&)pPattern-> GetItem(ATTR_ROTATE_VALUE, pCondSet)).GetValue(); if ( nAttrRotate ) { eRotMode = (SvxRotateMode)((const SvxRotateModeItem&) pPattern->GetItem(ATTR_ROTATE_MODE, pCondSet)).GetValue(); if ( nAttrRotate == 18000 ) eRotMode = SVX_ROTATE_MODE_STANDARD; // keinen Ueberlauf if ( bLayoutRTL ) nAttrRotate = -nAttrRotate; double nRealOrient = nAttrRotate * F_PI18000; // 1/100 Grad nCos = cos( nRealOrient ); nSin = sin( nRealOrient ); } } Size aPaperSize = Size( 1000000, 1000000 ); if (eOrient==SVX_ORIENTATION_STACKED) aPaperSize.Width() = nOutWidth; // zum Zentrieren else if (bBreak) { if (nAttrRotate) { //! richtige PaperSize fuer Umbruch haengt von der Zeilenzahl //! ab, solange die Zeilen nicht einzeln versetzt ausgegeben //! werden koennen -> darum unbegrenzt, also kein Umbruch. //! Mit versetzten Zeilen waere das folgende richtig: aPaperSize.Width() = (long)(nOutHeight / fabs(nSin)); } else if (eOrient == SVX_ORIENTATION_STANDARD) aPaperSize.Width() = nOutWidth; else aPaperSize.Width() = nOutHeight - 1; } if (bPixelToLogic) pEngine->SetPaperSize(mpRefDevice->PixelToLogic(aPaperSize)); else pEngine->SetPaperSize(aPaperSize); // Scale ist immer 1 // Daten aus Zelle lesen if (aCell.meType == CELLTYPE_EDIT) { if (aCell.mpEditText) pEngine->SetText(*aCell.mpEditText); else { OSL_FAIL("pData == 0"); } } else { sal_uLong nFormat = pPattern->GetNumberFormat( mpDoc->GetFormatTable(), pCondSet ); OUString aString; Color* pColor; ScCellFormat::GetString( aCell, nFormat,aString, &pColor, *mpDoc->GetFormatTable(), mbShowNullValues, mbShowFormulas, ftCheck ); pEngine->SetText(aString); if ( pColor && !mbSyntaxMode && !( mbUseStyleColor && mbForceAutoColor ) ) lcl_SetEditColor( *pEngine, *pColor ); } if ( mbSyntaxMode ) { SetEditSyntaxColor(*pEngine, aCell); } else if ( mbUseStyleColor && mbForceAutoColor ) lcl_SetEditColor( *pEngine, COL_AUTO ); //! or have a flag at EditEngine pEngine->SetUpdateMode( sal_True ); // after SetText, before CalcTextWidth/GetTextHeight long nEngineWidth = (long) pEngine->CalcTextWidth(); long nEngineHeight = pEngine->GetTextHeight(); if (nAttrRotate && bBreak) { double nAbsCos = fabs( nCos ); double nAbsSin = fabs( nSin ); // adjust witdh of papersize for height of text int nSteps = 5; while (nSteps > 0) { // everything is in pixels long nEnginePixel = mpRefDevice->LogicToPixel( Size(0,nEngineHeight)).Height(); long nEffHeight = nOutHeight - (long)(nEnginePixel * nAbsCos) + 2; long nNewWidth = (long)(nEffHeight / nAbsSin) + 2; sal_Bool bFits = ( nNewWidth >= aPaperSize.Width() ); if ( bFits ) nSteps = 0; else { if ( nNewWidth < 4 ) { // can't fit -> fall back to using half height nEffHeight = nOutHeight / 2; nNewWidth = (long)(nEffHeight / nAbsSin) + 2; nSteps = 0; } else --nSteps; // set paper width and get new text height aPaperSize.Width() = nNewWidth; if (bPixelToLogic) pEngine->SetPaperSize(mpRefDevice->PixelToLogic(aPaperSize)); else pEngine->SetPaperSize(aPaperSize); // Scale ist immer 1 //pEngine->QuickFormatDoc( sal_True ); nEngineWidth = (long) pEngine->CalcTextWidth(); nEngineHeight = pEngine->GetTextHeight(); } } } long nRealWidth = nEngineWidth; long nRealHeight = nEngineHeight; // wenn gedreht, Groesse anpassen if (nAttrRotate) { double nAbsCos = fabs( nCos ); double nAbsSin = fabs( nSin ); if ( eRotMode == SVX_ROTATE_MODE_STANDARD ) nEngineWidth = (long) ( nRealWidth * nAbsCos + nRealHeight * nAbsSin ); else nEngineWidth = (long) ( nRealHeight / nAbsSin ); //! begrenzen !!! nEngineHeight = (long) ( nRealHeight * nAbsCos + nRealWidth * nAbsSin ); } if (!nAttrRotate) // hier nur gedrehter Text bHidden = sal_True; //! vorher abfragen !!! //! weglassen, was nicht hereinragt if (!bHidden) { sal_Bool bClip = false; Size aClipSize = Size( nScrX+nScrW-nStartX, nScrY+nScrH-nStartY ); // weiterschreiben Size aCellSize; if (bPixelToLogic) aCellSize = mpRefDevice->PixelToLogic( Size( nOutWidth, nOutHeight ) ); else aCellSize = Size( nOutWidth, nOutHeight ); // Scale ist 1 long nGridWidth = nEngineWidth; sal_Bool bNegative = false; if ( eRotMode != SVX_ROTATE_MODE_STANDARD ) { nGridWidth = aCellSize.Width() + std::abs((long) ( aCellSize.Height() * nCos / nSin )); bNegative = ( pInfo->nRotateDir == SC_ROTDIR_LEFT ); if ( bLayoutRTL ) bNegative = !bNegative; } // use GetOutputArea to hide the grid // (clip region is done manually below) OutputAreaParam aAreaParam; SCCOL nCellX = nX; SCROW nCellY = nY; SvxCellHorJustify eOutHorJust = eHorJust; if ( eRotMode != SVX_ROTATE_MODE_STANDARD ) eOutHorJust = bNegative ? SVX_HOR_JUSTIFY_RIGHT : SVX_HOR_JUSTIFY_LEFT; long nNeededWidth = nGridWidth; // in pixel for GetOutputArea if ( bPixelToLogic ) nNeededWidth = mpRefDevice->LogicToPixel(Size(nNeededWidth,0)).Width(); GetOutputArea( nX, nArrY, nCellStartX, nPosY, nCellX, nCellY, nNeededWidth, *pPattern, sal::static_int_cast(eOutHorJust), false, false, sal_True, aAreaParam ); if ( bShrink ) { long nPixelWidth = bPixelToLogic ? mpRefDevice->LogicToPixel(Size(nEngineWidth,0)).Width() : nEngineWidth; long nNeededPixel = nPixelWidth + nLeftM + nRightM; aAreaParam.mbLeftClip = aAreaParam.mbRightClip = sal_True; // always do height ShrinkEditEngine( *pEngine, aAreaParam.maAlignRect, nLeftM, nTopM, nRightM, nBottomM, false, sal::static_int_cast(eOrient), nAttrRotate, bPixelToLogic, nEngineWidth, nEngineHeight, nNeededPixel, aAreaParam.mbLeftClip, aAreaParam.mbRightClip ); if ( eRotMode == SVX_ROTATE_MODE_STANDARD ) { // do width only if rotating within the cell (standard mode) ShrinkEditEngine( *pEngine, aAreaParam.maAlignRect, nLeftM, nTopM, nRightM, nBottomM, sal_True, sal::static_int_cast(eOrient), nAttrRotate, bPixelToLogic, nEngineWidth, nEngineHeight, nNeededPixel, aAreaParam.mbLeftClip, aAreaParam.mbRightClip ); } // nEngineWidth/nEngineHeight is updated in ShrinkEditEngine // (but width is only valid for standard mode) nRealWidth = (long) pEngine->CalcTextWidth(); nRealHeight = pEngine->GetTextHeight(); if ( eRotMode != SVX_ROTATE_MODE_STANDARD ) nEngineWidth = (long) ( nRealHeight / fabs( nSin ) ); } long nClipStartX = nStartX; if (nXPixelToLogic( Rectangle( Point(nClipStartX,nClipStartY), aClipSize ) ); else aAreaParam.maClipRect = Rectangle(Point(nClipStartX, nClipStartY), aClipSize ); // Scale = 1 if (bMetaFile) { mpDev->Push(); mpDev->IntersectClipRegion( aAreaParam.maClipRect ); } else mpDev->SetClipRegion( Region( aAreaParam.maClipRect ) ); } Point aLogicStart; if (bPixelToLogic) aLogicStart = mpRefDevice->PixelToLogic( Point(nStartX,nStartY) ); else aLogicStart = Point(nStartX, nStartY); if ( eOrient!=SVX_ORIENTATION_STANDARD || !bBreak ) { long nAvailWidth = aCellSize.Width(); if (eType==OUTTYPE_WINDOW && eOrient!=SVX_ORIENTATION_STACKED && pInfo && pInfo->bAutoFilter) { // filter drop-down width is now independent from row height if (bPixelToLogic) nAvailWidth -= mpRefDevice->PixelToLogic(Size(0,DROPDOWN_BITMAP_SIZE)).Height(); else nAvailWidth -= DROPDOWN_BITMAP_SIZE; long nComp = nEngineWidth; if (nAvailWidthSetUpdateMode( false ); SvxAdjust eSvxAdjust = (eHorJust==SVX_HOR_JUSTIFY_RIGHT) ? SVX_ADJUST_RIGHT : SVX_ADJUST_CENTER; pEngine->SetDefaultItem( SvxAdjustItem( eSvxAdjust, EE_PARA_JUST ) ); aPaperSize.Width() = nOutWidth; if (bPixelToLogic) pEngine->SetPaperSize(mpRefDevice->PixelToLogic(aPaperSize)); else pEngine->SetPaperSize(aPaperSize); pEngine->SetUpdateMode( sal_True ); } } else { // bei gedrehtem Text ist Standard zentriert if (eHorJust==SVX_HOR_JUSTIFY_RIGHT) aLogicStart.X() += nAvailWidth - nEngineWidth; else if (eHorJust==SVX_HOR_JUSTIFY_CENTER || eHorJust==SVX_HOR_JUSTIFY_STANDARD) aLogicStart.X() += (nAvailWidth - nEngineWidth) / 2; } } if ( bLayoutRTL ) { if (bPixelToLogic) aLogicStart.X() -= mpRefDevice->PixelToLogic( Size( nCellWidth, 0 ) ).Width(); else aLogicStart.X() -= nCellWidth; } if ( eOrient==SVX_ORIENTATION_STANDARD || eOrient==SVX_ORIENTATION_STACKED || !bBreak ) { if (eVerJust==SVX_VER_JUSTIFY_BOTTOM || eVerJust==SVX_VER_JUSTIFY_STANDARD) { if (bPixelToLogic) aLogicStart.Y() += mpRefDevice->PixelToLogic( Size(0, mpRefDevice->LogicToPixel(aCellSize).Height() - mpRefDevice->LogicToPixel(Size(0,nEngineHeight)).Height() )).Height(); else aLogicStart.Y() += aCellSize.Height() - nEngineHeight; } else if (eVerJust==SVX_VER_JUSTIFY_CENTER) { if (bPixelToLogic) aLogicStart.Y() += mpRefDevice->PixelToLogic( Size(0,( mpRefDevice->LogicToPixel(aCellSize).Height() - mpRefDevice->LogicToPixel(Size(0,nEngineHeight)).Height()) / 2)).Height(); else aLogicStart.Y() += (aCellSize.Height() - nEngineHeight) / 2; } } // TOPBOTTON and BOTTOMTOP are handled in DrawStrings/DrawEdit OSL_ENSURE( eOrient == SVX_ORIENTATION_STANDARD && nAttrRotate, "DrawRotated: no rotation" ); long nOriVal = 0; if ( nAttrRotate ) { // Attribut ist 1/100, Font 1/10 Grad nOriVal = nAttrRotate / 10; double nAddX = 0.0; double nAddY = 0.0; if ( nCos > 0.0 && eRotMode != SVX_ROTATE_MODE_STANDARD ) { //! begrenzen !!! double nH = nRealHeight * nCos; nAddX += nH * ( nCos / fabs(nSin) ); } if ( nCos < 0.0 && eRotMode == SVX_ROTATE_MODE_STANDARD ) nAddX -= nRealWidth * nCos; if ( nSin < 0.0 ) nAddX -= nRealHeight * nSin; if ( nSin > 0.0 ) nAddY += nRealWidth * nSin; if ( nCos < 0.0 ) nAddY -= nRealHeight * nCos; if ( eRotMode != SVX_ROTATE_MODE_STANDARD ) { //! begrenzen !!! double nSkew = nTotalHeight * nCos / fabs(nSin); if ( eRotMode == SVX_ROTATE_MODE_CENTER ) nAddX -= nSkew * 0.5; if ( ( eRotMode == SVX_ROTATE_MODE_TOP && nSin > 0.0 ) || ( eRotMode == SVX_ROTATE_MODE_BOTTOM && nSin < 0.0 ) ) nAddX -= nSkew; long nUp = 0; if ( eVerJust == SVX_VER_JUSTIFY_CENTER ) nUp = ( aCellSize.Height() - nEngineHeight ) / 2; else if ( eVerJust == SVX_VER_JUSTIFY_TOP ) { if ( nSin > 0.0 ) nUp = aCellSize.Height() - nEngineHeight; } else // BOTTOM / STANDARD { if ( nSin < 0.0 ) nUp = aCellSize.Height() - nEngineHeight; } if ( nUp ) nAddX += ( nUp * nCos / fabs(nSin) ); } aLogicStart.X() += (long) nAddX; aLogicStart.Y() += (long) nAddY; } // bSimClip is not used here (because nOriVal is set) if ( pEngine->IsRightToLeft( 0 ) ) { // For right-to-left, EditEngine always calculates its lines // beginning from the right edge, but EditLine::nStartPosX is // of sal_uInt16 type, so the PaperSize must be limited to USHRT_MAX. Size aLogicPaper = pEngine->GetPaperSize(); if ( aLogicPaper.Width() > USHRT_MAX ) { aLogicPaper.Width() = USHRT_MAX; pEngine->SetPaperSize(aLogicPaper); } } pEngine->Draw( mpDev, aLogicStart, (short)nOriVal ); if (bClip) { if (bMetaFile) mpDev->Pop(); else mpDev->SetClipRegion(); } } } } } nPosX += pRowInfo[0].pCellInfo[nX+1].nWidth * nLayoutSign; } } nRowPosY += pRowInfo[nArrY].nHeight; } delete pEngine; } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */