/* -*- 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 <memory>
#include <xistyle.hxx>
#include <sfx2/printer.hxx>
#include <sfx2/objsh.hxx>
#include <svtools/ctrltool.hxx>
#include <editeng/editobj.hxx>
#include <scitems.hxx>
#include <editeng/fontitem.hxx>
#include <editeng/fhgtitem.hxx>
#include <editeng/wghtitem.hxx>
#include <editeng/udlnitem.hxx>
#include <editeng/postitem.hxx>
#include <editeng/crossedoutitem.hxx>
#include <editeng/contouritem.hxx>
#include <editeng/shdditem.hxx>
#include <editeng/escapementitem.hxx>
#include <svx/algitem.hxx>
#include <editeng/boxitem.hxx>
#include <editeng/lineitem.hxx>
#include <svx/rotmodit.hxx>
#include <editeng/colritem.hxx>
#include <editeng/brushitem.hxx>
#include <editeng/frmdiritem.hxx>
#include <editeng/eeitem.hxx>
#include <editeng/flstitem.hxx>
#include <editeng/justifyitem.hxx>
#include <editeng/editids.hrc>
#include <sal/macros.h>
#include <sal/log.hxx>
#include <vcl/fontcharmap.hxx>
#include <document.hxx>
#include <docpool.hxx>
#include <attrib.hxx>
#include <stlpool.hxx>
#include <stlsheet.hxx>
#include <formulacell.hxx>
#include <globstr.hrc>
#include <scresid.hxx>
#include <attarray.hxx>
#include <xltracer.hxx>
#include <xistream.hxx>
#include <xicontent.hxx>
#include <root.hxx>
#include <colrowst.hxx>
#include <svl/poolcach.hxx>
#include <o3tl/make_unique.hxx>
#include <vector>
#include <cppuhelper/implbase.hxx>
#include <com/sun/star/container/XIndexAccess.hpp>
#include <com/sun/star/beans/XPropertySet.hpp>
using ::std::vector;
using namespace ::com::sun::star;
typedef ::cppu::WeakImplHelper< container::XIndexAccess > XIndexAccess_BASE;
typedef ::std::vector< Color > ColorVec;
class PaletteIndex : public XIndexAccess_BASE
{
public:
explicit PaletteIndex( const ColorVec& rColorTable ) : maColor( rColorTable ) {}
// Methods XIndexAccess
virtual ::sal_Int32 SAL_CALL getCount() override
{
return maColor.size();
}
virtual uno::Any SAL_CALL getByIndex( ::sal_Int32 Index ) override
{
//--Index; // apparently the palette is already 1 based
return uno::makeAny( sal_Int32( maColor[ Index ] ) );
}
// Methods XElementAccess
virtual uno::Type SAL_CALL getElementType() override
{
return ::cppu::UnoType<sal_Int32>::get();
}
virtual sal_Bool SAL_CALL hasElements() override
{
return (maColor.size() > 0);
}
private:
ColorVec maColor;
};
void
XclImpPalette::ExportPalette()
{
if( SfxObjectShell* pDocShell = mrRoot.GetDocShell() )
{
// copy values in color palette
sal_Int16 nColors = maColorTable.size();
ColorVec aColors;
aColors.resize( nColors );
for( sal_uInt16 nIndex = 0; nIndex < nColors; ++nIndex )
aColors[ nIndex ] = GetColor( nIndex );
uno::Reference< beans::XPropertySet > xProps( pDocShell->GetModel(), uno::UNO_QUERY );
if ( xProps.is() )
{
uno::Reference< container::XIndexAccess > xIndex( new PaletteIndex( aColors ) );
xProps->setPropertyValue( "ColorPalette", uno::makeAny( xIndex ) );
}
}
}
// PALETTE record - color information =========================================
XclImpPalette::XclImpPalette( const XclImpRoot& rRoot ) :
XclDefaultPalette( rRoot ), mrRoot( rRoot )
{
}
void XclImpPalette::Initialize()
{
maColorTable.clear();
}
Color XclImpPalette::GetColor( sal_uInt16 nXclIndex ) const
{
if( nXclIndex >= EXC_COLOR_USEROFFSET )
{
sal_uInt32 nIx = nXclIndex - EXC_COLOR_USEROFFSET;
if( nIx < maColorTable.size() )
return maColorTable[ nIx ];
}
return GetDefColor( nXclIndex );
}
void XclImpPalette::ReadPalette( XclImpStream& rStrm )
{
sal_uInt16 nCount;
nCount = rStrm.ReaduInt16();
const size_t nMinRecordSize = 4;
const size_t nMaxRecords = rStrm.GetRecLeft() / nMinRecordSize;
if (nCount > nMaxRecords)
{
SAL_WARN("sc", "Parsing error: " << nMaxRecords <<
" max possible entries, but " << nCount << " claimed, truncating");
nCount = nMaxRecords;
}
maColorTable.resize( nCount );
Color aColor;
for( sal_uInt16 nIndex = 0; nIndex < nCount; ++nIndex )
{
rStrm >> aColor;
maColorTable[ nIndex ] = aColor;
}
ExportPalette();
}
// FONT record - font information =============================================
XclImpFont::XclImpFont( const XclImpRoot& rRoot ) :
XclImpRoot( rRoot ),
mbHasCharSet( false ),
mbHasWstrn( true ),
mbHasAsian( false ),
mbHasCmplx( false )
{
SetAllUsedFlags( false );
}
XclImpFont::XclImpFont( const XclImpRoot& rRoot, const XclFontData& rFontData ) :
XclImpRoot( rRoot )
{
SetFontData( rFontData, false );
}
void XclImpFont::SetAllUsedFlags( bool bUsed )
{
mbFontNameUsed = mbHeightUsed = mbColorUsed = mbWeightUsed = mbEscapemUsed =
mbUnderlUsed = mbItalicUsed = mbStrikeUsed = mbOutlineUsed = mbShadowUsed = bUsed;
}
void XclImpFont::SetFontData( const XclFontData& rFontData, bool bHasCharSet )
{
maData = rFontData;
mbHasCharSet = bHasCharSet;
if( !maData.maStyle.isEmpty() )
{
if( SfxObjectShell* pDocShell = GetDocShell() )
{
if( const SvxFontListItem* pInfoItem = static_cast< const SvxFontListItem* >(
pDocShell->GetItem( SID_ATTR_CHAR_FONTLIST ) ) )
{
if( const FontList* pFontList = pInfoItem->GetFontList() )
{
FontMetric aFontMetric( pFontList->Get( maData.maName, maData.maStyle ) );
maData.SetScWeight( aFontMetric.GetWeight() );
maData.SetScPosture( aFontMetric.GetItalic() );
}
}
}
maData.maStyle.clear();
}
GuessScriptType();
SetAllUsedFlags( true );
}
rtl_TextEncoding XclImpFont::GetFontEncoding() const
{
// #i63105# use text encoding from FONT record
// #i67768# BIFF2-BIFF4 FONT records do not contain character set
rtl_TextEncoding eFontEnc = mbHasCharSet ? maData.GetFontEncoding() : GetTextEncoding();
return (eFontEnc == RTL_TEXTENCODING_DONTKNOW) ? GetTextEncoding() : eFontEnc;
}
void XclImpFont::ReadFont( XclImpStream& rStrm )
{
switch( GetBiff() )
{
case EXC_BIFF2:
ReadFontData2( rStrm );
ReadFontName2( rStrm );
break;
case EXC_BIFF3:
case EXC_BIFF4:
ReadFontData2( rStrm );
ReadFontColor( rStrm );
ReadFontName2( rStrm );
break;
case EXC_BIFF5:
ReadFontData5( rStrm );
ReadFontName2( rStrm );
break;
case EXC_BIFF8:
ReadFontData5( rStrm );
ReadFontName8( rStrm );
break;
default:
DBG_ERROR_BIFF();
return;
}
GuessScriptType();
SetAllUsedFlags( true );
}
void XclImpFont::ReadEfont( XclImpStream& rStrm )
{
ReadFontColor( rStrm );
}
void XclImpFont::ReadCFFontBlock( XclImpStream& rStrm )
{
OSL_ENSURE_BIFF( GetBiff() == EXC_BIFF8 );
if( GetBiff() != EXC_BIFF8 )
return;
rStrm.Ignore( 64 );
sal_uInt32 nHeight = rStrm.ReaduInt32();
sal_uInt32 nStyle = rStrm.ReaduInt32();
sal_uInt16 nWeight = rStrm.ReaduInt16();
rStrm.Ignore( 2 ); //nEscapem
sal_uInt8 nUnderl = rStrm.ReaduInt8();
rStrm.Ignore( 3 );
sal_uInt32 nColor = rStrm.ReaduInt32();
rStrm.Ignore( 4 );
sal_uInt32 nFontFlags1 = rStrm.ReaduInt32();
rStrm.Ignore( 4 ); //nFontFlags2
sal_uInt32 nFontFlags3 = rStrm.ReaduInt32();
rStrm.Ignore( 18 );
if( (mbHeightUsed = (nHeight <= 0x7FFF)) )
maData.mnHeight = static_cast< sal_uInt16 >( nHeight );
if( (mbWeightUsed = !::get_flag( nFontFlags1, EXC_CF_FONT_STYLE ) && (nWeight < 0x7FFF)) )
maData.mnWeight = nWeight;
if( (mbItalicUsed = !::get_flag( nFontFlags1, EXC_CF_FONT_STYLE )) )
maData.mbItalic = ::get_flag( nStyle, EXC_CF_FONT_STYLE );
if( (mbUnderlUsed = !::get_flag( nFontFlags3, EXC_CF_FONT_UNDERL ) && (nUnderl <= 0x7F)) )
maData.mnUnderline = nUnderl;
if( (mbColorUsed = (nColor <= 0x7FFF)) )
maData.maColor = GetPalette().GetColor( static_cast< sal_uInt16 >( nColor ) );
if( (mbStrikeUsed = !::get_flag( nFontFlags1, EXC_CF_FONT_STRIKEOUT )) )
maData.mbStrikeout = ::get_flag( nStyle, EXC_CF_FONT_STRIKEOUT );
}
void XclImpFont::FillToItemSet( SfxItemSet& rItemSet, XclFontItemType eType, bool bSkipPoolDefs ) const
{
// true = edit engine Which-IDs (EE_CHAR_*); false = Calc Which-IDs (ATTR_*)
bool bEE = eType != XclFontItemType::Cell;
// item = the item to put into the item set
// sc_which = the Calc Which-ID of the item
// ee_which = the edit engine Which-ID of the item
#define PUTITEM( item, sc_which, ee_which ) \
ScfTools::PutItem( rItemSet, item, (bEE ? (static_cast<sal_uInt16>(ee_which)) : (sc_which)), bSkipPoolDefs )
// Font item
if( mbFontNameUsed )
{
rtl_TextEncoding eFontEnc = maData.GetFontEncoding();
rtl_TextEncoding eTempTextEnc = (bEE && (eFontEnc == GetTextEncoding())) ?
ScfTools::GetSystemTextEncoding() : eFontEnc;
//add corresponding pitch for FontFamily
FontPitch ePitch = PITCH_DONTKNOW;
FontFamily eFtFamily = maData.GetScFamily( GetTextEncoding() );
switch( eFtFamily ) //refer http://msdn.microsoft.com/en-us/library/aa246306(v=VS.60).aspx
{
case FAMILY_ROMAN: ePitch = PITCH_VARIABLE; break;
case FAMILY_SWISS: ePitch = PITCH_VARIABLE; break;
case FAMILY_MODERN: ePitch = PITCH_FIXED; break;
default: break;
}
SvxFontItem aFontItem( eFtFamily , maData.maName, EMPTY_OUSTRING, ePitch, eTempTextEnc, ATTR_FONT );
// set only for valid script types
if( mbHasWstrn )
PUTITEM( aFontItem, ATTR_FONT, EE_CHAR_FONTINFO );
if( mbHasAsian )
PUTITEM( aFontItem, ATTR_CJK_FONT, EE_CHAR_FONTINFO_CJK );
if( mbHasCmplx )
PUTITEM( aFontItem, ATTR_CTL_FONT, EE_CHAR_FONTINFO_CTL );
}
// Font height (for all script types)
if( mbHeightUsed )
{
sal_Int32 nHeight = maData.mnHeight;
if( bEE && (eType != XclFontItemType::HeaderFooter) ) // do not convert header/footer height
nHeight = (nHeight * 127 + 36) / EXC_POINTS_PER_INCH; // 1 in == 72 pt
SvxFontHeightItem aHeightItem( nHeight, 100, ATTR_FONT_HEIGHT );
PUTITEM( aHeightItem, ATTR_FONT_HEIGHT, EE_CHAR_FONTHEIGHT );
PUTITEM( aHeightItem, ATTR_CJK_FONT_HEIGHT, EE_CHAR_FONTHEIGHT_CJK );
PUTITEM( aHeightItem, ATTR_CTL_FONT_HEIGHT, EE_CHAR_FONTHEIGHT_CTL );
}
// Font color - pass AUTO_COL to item
if( mbColorUsed )
PUTITEM( SvxColorItem( maData.maColor, ATTR_FONT_COLOR ), ATTR_FONT_COLOR, EE_CHAR_COLOR );
// Font weight (for all script types)
if( mbWeightUsed )
{
SvxWeightItem aWeightItem( maData.GetScWeight(), ATTR_FONT_WEIGHT );
PUTITEM( aWeightItem, ATTR_FONT_WEIGHT, EE_CHAR_WEIGHT );
PUTITEM( aWeightItem, ATTR_CJK_FONT_WEIGHT, EE_CHAR_WEIGHT_CJK );
PUTITEM( aWeightItem, ATTR_CTL_FONT_WEIGHT, EE_CHAR_WEIGHT_CTL );
}
// Font underline
if( mbUnderlUsed )
{
SvxUnderlineItem aUnderlItem( maData.GetScUnderline(), ATTR_FONT_UNDERLINE );
PUTITEM( aUnderlItem, ATTR_FONT_UNDERLINE, EE_CHAR_UNDERLINE );
}
// Font posture (for all script types)
if( mbItalicUsed )
{
SvxPostureItem aPostItem( maData.GetScPosture(), ATTR_FONT_POSTURE );
PUTITEM( aPostItem, ATTR_FONT_POSTURE, EE_CHAR_ITALIC );
PUTITEM( aPostItem, ATTR_CJK_FONT_POSTURE, EE_CHAR_ITALIC_CJK );
PUTITEM( aPostItem, ATTR_CTL_FONT_POSTURE, EE_CHAR_ITALIC_CTL );
}
// Boolean attributes crossed out, contoured, shadowed
if( mbStrikeUsed )
PUTITEM( SvxCrossedOutItem( maData.GetScStrikeout(), ATTR_FONT_CROSSEDOUT ), ATTR_FONT_CROSSEDOUT, EE_CHAR_STRIKEOUT );
if( mbOutlineUsed )
PUTITEM( SvxContourItem( maData.mbOutline, ATTR_FONT_CONTOUR ), ATTR_FONT_CONTOUR, EE_CHAR_OUTLINE );
if( mbShadowUsed )
PUTITEM( SvxShadowedItem( maData.mbShadow, ATTR_FONT_SHADOWED ), ATTR_FONT_SHADOWED, EE_CHAR_SHADOW );
// Super-/subscript: only on edit engine objects
if( mbEscapemUsed && bEE )
rItemSet.Put( SvxEscapementItem( maData.GetScEscapement(), EE_CHAR_ESCAPEMENT ) );
#undef PUTITEM
}
void XclImpFont::WriteFontProperties( ScfPropertySet& rPropSet,
XclFontPropSetType eType, const Color* pFontColor ) const
{
GetFontPropSetHelper().WriteFontProperties(
rPropSet, eType, maData, mbHasWstrn, mbHasAsian, mbHasCmplx, pFontColor );
}
void XclImpFont::ReadFontData2( XclImpStream& rStrm )
{
sal_uInt16 nFlags;
maData.mnHeight = rStrm.ReaduInt16();
nFlags = rStrm.ReaduInt16();
maData.mnWeight = ::get_flagvalue( nFlags, EXC_FONTATTR_BOLD, EXC_FONTWGHT_BOLD, EXC_FONTWGHT_NORMAL );
maData.mnUnderline = ::get_flagvalue( nFlags, EXC_FONTATTR_UNDERLINE, EXC_FONTUNDERL_SINGLE, EXC_FONTUNDERL_NONE );
maData.mbItalic = ::get_flag( nFlags, EXC_FONTATTR_ITALIC );
maData.mbStrikeout = ::get_flag( nFlags, EXC_FONTATTR_STRIKEOUT );
maData.mbOutline = ::get_flag( nFlags, EXC_FONTATTR_OUTLINE );
maData.mbShadow = ::get_flag( nFlags, EXC_FONTATTR_SHADOW );
mbHasCharSet = false;
}
void XclImpFont::ReadFontData5( XclImpStream& rStrm )
{
sal_uInt16 nFlags;
maData.mnHeight = rStrm.ReaduInt16();
nFlags = rStrm.ReaduInt16();
ReadFontColor( rStrm );
maData.mnWeight = rStrm.ReaduInt16();
maData.mnEscapem = rStrm.ReaduInt16();
maData.mnUnderline = rStrm.ReaduInt8();
maData.mnFamily = rStrm.ReaduInt8();
maData.mnCharSet = rStrm.ReaduInt8();
rStrm.Ignore( 1 );
maData.mbItalic = ::get_flag( nFlags, EXC_FONTATTR_ITALIC );
maData.mbStrikeout = ::get_flag( nFlags, EXC_FONTATTR_STRIKEOUT );
maData.mbOutline = ::get_flag( nFlags, EXC_FONTATTR_OUTLINE );
maData.mbShadow = ::get_flag( nFlags, EXC_FONTATTR_SHADOW );
mbHasCharSet = true;
}
void XclImpFont::ReadFontColor( XclImpStream& rStrm )
{
maData.maColor = GetPalette().GetColor( rStrm.ReaduInt16() );
}
void XclImpFont::ReadFontName2( XclImpStream& rStrm )
{
maData.maName = rStrm.ReadByteString( false );
}
void XclImpFont::ReadFontName8( XclImpStream& rStrm )
{
maData.maName = rStrm.ReadUniString( rStrm.ReaduInt8() );
}
void XclImpFont::GuessScriptType()
{
mbHasWstrn = true;
mbHasAsian = mbHasCmplx = false;
// find the script types for which the font contains characters
if( OutputDevice* pPrinter = GetPrinter() )
{
vcl::Font aFont( maData.maName, Size( 0, 10 ) );
FontCharMapRef xFontCharMap;
pPrinter->SetFont( aFont );
if( pPrinter->GetFontCharMap( xFontCharMap ) )
{
// CJK fonts
mbHasAsian =
xFontCharMap->HasChar( 0x3041 ) || // 3040-309F: Hiragana
xFontCharMap->HasChar( 0x30A1 ) || // 30A0-30FF: Katakana
xFontCharMap->HasChar( 0x3111 ) || // 3100-312F: Bopomofo
xFontCharMap->HasChar( 0x3131 ) || // 3130-318F: Hangul Compatibility Jamo
xFontCharMap->HasChar( 0x3301 ) || // 3300-33FF: CJK Compatibility
xFontCharMap->HasChar( 0x3401 ) || // 3400-4DBF: CJK Unified Ideographs Extension A
xFontCharMap->HasChar( 0x4E01 ) || // 4E00-9FAF: CJK Unified Ideographs
xFontCharMap->HasChar( 0x7E01 ) || // 4E00-9FAF: CJK unified ideographs
xFontCharMap->HasChar( 0xA001 ) || // A001-A48F: Yi Syllables
xFontCharMap->HasChar( 0xAC01 ) || // AC00-D7AF: Hangul Syllables
xFontCharMap->HasChar( 0xCC01 ) || // AC00-D7AF: Hangul Syllables
xFontCharMap->HasChar( 0xF901 ) || // F900-FAFF: CJK Compatibility Ideographs
xFontCharMap->HasChar( 0xFF71 ); // FF00-FFEF: Halfwidth/Fullwidth Forms
// CTL fonts
mbHasCmplx =
xFontCharMap->HasChar( 0x05D1 ) || // 0590-05FF: Hebrew
xFontCharMap->HasChar( 0x0631 ) || // 0600-06FF: Arabic
xFontCharMap->HasChar( 0x0721 ) || // 0700-074F: Syriac
xFontCharMap->HasChar( 0x0911 ) || // 0900-0DFF: Indic scripts
xFontCharMap->HasChar( 0x0E01 ) || // 0E00-0E7F: Thai
xFontCharMap->HasChar( 0xFB21 ) || // FB1D-FB4F: Hebrew Presentation Forms
xFontCharMap->HasChar( 0xFB51 ) || // FB50-FDFF: Arabic Presentation Forms-A
xFontCharMap->HasChar( 0xFE71 ); // FE70-FEFF: Arabic Presentation Forms-B
// Western fonts
mbHasWstrn = (!mbHasAsian && !mbHasCmplx) || xFontCharMap->HasChar( 'A' );
}
}
}
XclImpFontBuffer::XclImpFontBuffer( const XclImpRoot& rRoot ) :
XclImpRoot( rRoot ),
maFont4( rRoot ),
maCtrlFont( rRoot )
{
Initialize();
// default font for form controls without own font information
XclFontData aCtrlFontData;
switch( GetBiff() )
{
case EXC_BIFF2:
case EXC_BIFF3:
case EXC_BIFF4:
case EXC_BIFF5:
aCtrlFontData.maName = "Helv";
aCtrlFontData.mnHeight = 160;
aCtrlFontData.mnWeight = EXC_FONTWGHT_BOLD;
break;
case EXC_BIFF8:
aCtrlFontData.maName = "Tahoma";
aCtrlFontData.mnHeight = 160;
aCtrlFontData.mnWeight = EXC_FONTWGHT_NORMAL;
break;
default:
DBG_ERROR_BIFF();
}
maCtrlFont.SetFontData( aCtrlFontData, false );
}
void XclImpFontBuffer::Initialize()
{
maFontList.clear();
// application font for column width calculation, later filled with first font from font list
XclFontData aAppFontData;
aAppFontData.maName = "Arial";
aAppFontData.mnHeight = 200;
aAppFontData.mnWeight = EXC_FONTWGHT_NORMAL;
UpdateAppFont( aAppFontData, false );
}
const XclImpFont* XclImpFontBuffer::GetFont( sal_uInt16 nFontIndex ) const
{
/* Font with index 4 is not stored in an Excel file, but used e.g. by
BIFF5 form pushbutton objects. It is the bold default font.
This also means that entries above 4 are out by one in the list. */
if (nFontIndex == 4)
return &maFont4;
if (nFontIndex < 4)
{
// Font ID is zero-based when it's less than 4.
return nFontIndex >= maFontList.size() ? nullptr : &maFontList[nFontIndex];
}
// Font ID is greater than 4. It is now 1-based.
return nFontIndex > maFontList.size() ? nullptr : &maFontList[nFontIndex-1];
}
void XclImpFontBuffer::ReadFont( XclImpStream& rStrm )
{
maFontList.emplace_back( GetRoot() );
XclImpFont& rFont = maFontList.back();
rFont.ReadFont( rStrm );
if( maFontList.size() == 1 )
{
UpdateAppFont( rFont.GetFontData(), rFont.HasCharSet() );
// #i71033# set text encoding from application font, if CODEPAGE is missing
SetAppFontEncoding( rFont.GetFontEncoding() );
}
}
void XclImpFontBuffer::ReadEfont( XclImpStream& rStrm )
{
if( !maFontList.empty() )
maFontList.back().ReadEfont( rStrm );
}
void XclImpFontBuffer::FillToItemSet(
SfxItemSet& rItemSet, XclFontItemType eType,
sal_uInt16 nFontIdx, bool bSkipPoolDefs ) const
{
if( const XclImpFont* pFont = GetFont( nFontIdx ) )
pFont->FillToItemSet( rItemSet, eType, bSkipPoolDefs );
}
void XclImpFontBuffer::WriteFontProperties( ScfPropertySet& rPropSet,
XclFontPropSetType eType, sal_uInt16 nFontIdx, const Color* pFontColor ) const
{
if( const XclImpFont* pFont = GetFont( nFontIdx ) )
pFont->WriteFontProperties( rPropSet, eType, pFontColor );
}
void XclImpFontBuffer::WriteDefaultCtrlFontProperties( ScfPropertySet& rPropSet ) const
{
maCtrlFont.WriteFontProperties( rPropSet, EXC_FONTPROPSET_CONTROL );
}
void XclImpFontBuffer::UpdateAppFont( const XclFontData& rFontData, bool bHasCharSet )
{
maAppFont = rFontData;
// #i3006# Calculate the width of '0' from first font and current printer.
SetCharWidth( maAppFont );
// font 4 is bold font 0
XclFontData aFont4Data( maAppFont );
aFont4Data.mnWeight = EXC_FONTWGHT_BOLD;
maFont4.SetFontData( aFont4Data, bHasCharSet );
}
// FORMAT record - number formats =============================================
XclImpNumFmtBuffer::XclImpNumFmtBuffer( const XclImpRoot& rRoot ) :
XclNumFmtBuffer( rRoot ),
XclImpRoot( rRoot ),
mnNextXclIdx( 0 )
{
}
void XclImpNumFmtBuffer::Initialize()
{
maIndexMap.clear();
mnNextXclIdx = 0;
InitializeImport(); // base class
}
void XclImpNumFmtBuffer::ReadFormat( XclImpStream& rStrm )
{
OUString aFormat;
switch( GetBiff() )
{
case EXC_BIFF2:
case EXC_BIFF3:
aFormat = rStrm.ReadByteString( false );
break;
case EXC_BIFF4:
rStrm.Ignore( 2 ); // in BIFF4 the index field exists, but is undefined
aFormat = rStrm.ReadByteString( false );
break;
case EXC_BIFF5:
mnNextXclIdx = rStrm.ReaduInt16();
aFormat = rStrm.ReadByteString( false );
break;
case EXC_BIFF8:
mnNextXclIdx = rStrm.ReaduInt16();
aFormat = rStrm.ReadUniString();
break;
default:
DBG_ERROR_BIFF();
return;
}
if( mnNextXclIdx < 0xFFFF )
{
InsertFormat( mnNextXclIdx, aFormat );
++mnNextXclIdx;
}
}
sal_uInt16 XclImpNumFmtBuffer::ReadCFFormat( XclImpStream& rStrm, bool bIFmt )
{
// internal number format ?
if(bIFmt)
{
rStrm.Ignore(1);
sal_uInt8 nIndex;
nIndex = rStrm.ReaduInt8();
return nIndex;
}
else
{
OUString aFormat = rStrm.ReadUniString();
InsertFormat( mnNextXclIdx, aFormat );
++mnNextXclIdx;
return mnNextXclIdx - 1;
}
}
void XclImpNumFmtBuffer::CreateScFormats()
{
OSL_ENSURE( maIndexMap.empty(), "XclImpNumFmtBuffer::CreateScFormats - already created" );
SvNumberFormatter& rFormatter = GetFormatter();
for( XclNumFmtMap::const_iterator aIt = GetFormatMap().begin(), aEnd = GetFormatMap().end(); aIt != aEnd; ++aIt )
{
const XclNumFmt& rNumFmt = aIt->second;
// insert/convert the Excel number format
sal_Int32 nCheckPos;
SvNumFormatType nType = SvNumFormatType::DEFINED;
sal_uInt32 nKey;
if( !rNumFmt.maFormat.isEmpty() )
{
OUString aFormat( rNumFmt.maFormat );
rFormatter.PutandConvertEntry( aFormat, nCheckPos,
nType, nKey, LANGUAGE_ENGLISH_US, rNumFmt.meLanguage, false);
}
else
nKey = rFormatter.GetFormatIndex( rNumFmt.meOffset, rNumFmt.meLanguage );
// insert the resulting format key into the Excel->Calc index map
maIndexMap[ aIt->first ] = nKey;
}
}
sal_uInt32 XclImpNumFmtBuffer::GetScFormat( sal_uInt16 nXclNumFmt ) const
{
XclImpIndexMap::const_iterator aIt = maIndexMap.find( nXclNumFmt );
return (aIt != maIndexMap.end()) ? aIt->second : NUMBERFORMAT_ENTRY_NOT_FOUND;
}
void XclImpNumFmtBuffer::FillToItemSet( SfxItemSet& rItemSet, sal_uInt16 nXclNumFmt, bool bSkipPoolDefs ) const
{
sal_uInt32 nScNumFmt = GetScFormat( nXclNumFmt );
if( nScNumFmt == NUMBERFORMAT_ENTRY_NOT_FOUND )
nScNumFmt = GetStdScNumFmt();
FillScFmtToItemSet( rItemSet, nScNumFmt, bSkipPoolDefs );
}
void XclImpNumFmtBuffer::FillScFmtToItemSet( SfxItemSet& rItemSet, sal_uInt32 nScNumFmt, bool bSkipPoolDefs ) const
{
OSL_ENSURE( nScNumFmt != NUMBERFORMAT_ENTRY_NOT_FOUND, "XclImpNumFmtBuffer::FillScFmtToItemSet - invalid number format" );
ScfTools::PutItem( rItemSet, SfxUInt32Item( ATTR_VALUE_FORMAT, nScNumFmt ), bSkipPoolDefs );
if( rItemSet.GetItemState( ATTR_VALUE_FORMAT, false ) == SfxItemState::SET )
ScGlobal::AddLanguage( rItemSet, GetFormatter() );
}
// XF, STYLE record - Cell formatting =========================================
void XclImpCellProt::FillFromXF2( sal_uInt8 nNumFmt )
{
mbLocked = ::get_flag( nNumFmt, EXC_XF2_LOCKED );
mbHidden = ::get_flag( nNumFmt, EXC_XF2_HIDDEN );
}
void XclImpCellProt::FillFromXF3( sal_uInt16 nProt )
{
mbLocked = ::get_flag( nProt, EXC_XF_LOCKED );
mbHidden = ::get_flag( nProt, EXC_XF_HIDDEN );
}
void XclImpCellProt::FillToItemSet( SfxItemSet& rItemSet, bool bSkipPoolDefs ) const
{
ScfTools::PutItem( rItemSet, ScProtectionAttr( mbLocked, mbHidden ), bSkipPoolDefs );
}
void XclImpCellAlign::FillFromXF2( sal_uInt8 nFlags )
{
mnHorAlign = ::extract_value< sal_uInt8 >( nFlags, 0, 3 );
}
void XclImpCellAlign::FillFromXF3( sal_uInt16 nAlign )
{
mnHorAlign = ::extract_value< sal_uInt8 >( nAlign, 0, 3 );
mbLineBreak = ::get_flag( nAlign, EXC_XF_LINEBREAK ); // new in BIFF3
}
void XclImpCellAlign::FillFromXF4( sal_uInt16 nAlign )
{
FillFromXF3( nAlign );
mnVerAlign = ::extract_value< sal_uInt8 >( nAlign, 4, 2 ); // new in BIFF4
mnOrient = ::extract_value< sal_uInt8 >( nAlign, 6, 2 ); // new in BIFF4
}
void XclImpCellAlign::FillFromXF5( sal_uInt16 nAlign )
{
mnHorAlign = ::extract_value< sal_uInt8 >( nAlign, 0, 3 );
mnVerAlign = ::extract_value< sal_uInt8 >( nAlign, 4, 3 );
mbLineBreak = ::get_flag( nAlign, EXC_XF_LINEBREAK );
mnOrient = ::extract_value< sal_uInt8 >( nAlign, 8, 2 );
}
void XclImpCellAlign::FillFromXF8( sal_uInt16 nAlign, sal_uInt16 nMiscAttrib )
{
mnHorAlign = ::extract_value< sal_uInt8 >( nAlign, 0, 3 );
mnVerAlign = ::extract_value< sal_uInt8 >( nAlign, 4, 3 );
mbLineBreak = ::get_flag( nAlign, EXC_XF_LINEBREAK );
mnRotation = ::extract_value< sal_uInt8 >( nAlign, 8, 8 ); // new in BIFF8
mnIndent = ::extract_value< sal_uInt8 >( nMiscAttrib, 0, 4 ); // new in BIFF8
mbShrink = ::get_flag( nMiscAttrib, EXC_XF8_SHRINK ); // new in BIFF8
mnTextDir = ::extract_value< sal_uInt8 >( nMiscAttrib, 6, 2 ); // new in BIFF8
}
void XclImpCellAlign::FillFromCF( sal_uInt16 nAlign, sal_uInt16 nMiscAttrib )
{
mnHorAlign = extract_value< sal_uInt8 >( nAlign, 0, 3 );
mbLineBreak = get_flag< sal_uInt8 >( nAlign, EXC_XF_LINEBREAK );
mnVerAlign = ::extract_value< sal_uInt8 >( nAlign, 4, 3 );
mnRotation = ::extract_value< sal_uInt8 >( nAlign, 8, 8 );
mnIndent = ::extract_value< sal_uInt8 >( nMiscAttrib, 0, 4 );
mbShrink = ::get_flag( nMiscAttrib, EXC_XF8_SHRINK );
mnTextDir = ::extract_value< sal_uInt8 >( nMiscAttrib, 6, 2 );
}
void XclImpCellAlign::FillToItemSet( SfxItemSet& rItemSet, const XclImpFont* pFont, bool bSkipPoolDefs ) const
{
// horizontal alignment
ScfTools::PutItem( rItemSet, SvxHorJustifyItem( GetScHorAlign(), ATTR_HOR_JUSTIFY ), bSkipPoolDefs );
ScfTools::PutItem( rItemSet, SvxJustifyMethodItem( GetScHorJustifyMethod(), ATTR_HOR_JUSTIFY_METHOD ), bSkipPoolDefs );
// text wrap (#i74508# always if vertical alignment is justified or distributed)
bool bLineBreak = mbLineBreak || (mnVerAlign == EXC_XF_VER_JUSTIFY) || (mnVerAlign == EXC_XF_VER_DISTRIB);
ScfTools::PutItem( rItemSet, SfxBoolItem( ATTR_LINEBREAK, bLineBreak ), bSkipPoolDefs );
// vertical alignment
ScfTools::PutItem( rItemSet, SvxVerJustifyItem( GetScVerAlign(), ATTR_VER_JUSTIFY ), bSkipPoolDefs );
ScfTools::PutItem( rItemSet, SvxJustifyMethodItem( GetScVerJustifyMethod(), ATTR_VER_JUSTIFY_METHOD ), bSkipPoolDefs );
// indent
sal_uInt16 nScIndent = mnIndent * 200; // 1 Excel unit == 10 pt == 200 twips
ScfTools::PutItem( rItemSet, SfxUInt16Item( ATTR_INDENT, nScIndent ), bSkipPoolDefs );
// shrink to fit
ScfTools::PutItem( rItemSet, SfxBoolItem( ATTR_SHRINKTOFIT, mbShrink ), bSkipPoolDefs );
// text orientation/rotation (BIFF2-BIFF7 sets mnOrient)
sal_uInt8 nXclRot = (mnOrient == EXC_ORIENT_NONE) ? mnRotation : XclTools::GetXclRotFromOrient( mnOrient );
bool bStacked = (nXclRot == EXC_ROT_STACKED);
ScfTools::PutItem( rItemSet, SfxBoolItem( ATTR_STACKED, bStacked ), bSkipPoolDefs );
// set an angle in the range from -90 to 90 degrees
sal_Int32 nAngle = XclTools::GetScRotation( nXclRot, 0 );
ScfTools::PutItem( rItemSet, SfxInt32Item( ATTR_ROTATE_VALUE, nAngle ), bSkipPoolDefs );
// set "Use asian vertical layout", if cell is stacked and font contains CKJ characters
bool bAsianVert = bStacked && pFont && pFont->HasAsianChars();
ScfTools::PutItem( rItemSet, SfxBoolItem( ATTR_VERTICAL_ASIAN, bAsianVert ), bSkipPoolDefs );
// CTL text direction
ScfTools::PutItem( rItemSet, SvxFrameDirectionItem( GetScFrameDir(), ATTR_WRITINGDIR ), bSkipPoolDefs );
}
XclImpCellBorder::XclImpCellBorder()
{
SetUsedFlags( false, false );
}
void XclImpCellBorder::SetUsedFlags( bool bOuterUsed, bool bDiagUsed )
{
mbLeftUsed = mbRightUsed = mbTopUsed = mbBottomUsed = bOuterUsed;
mbDiagUsed = bDiagUsed;
}
void XclImpCellBorder::FillFromXF2( sal_uInt8 nFlags )
{
mnLeftLine = ::get_flagvalue( nFlags, EXC_XF2_LEFTLINE, EXC_LINE_THIN, EXC_LINE_NONE );
mnRightLine = ::get_flagvalue( nFlags, EXC_XF2_RIGHTLINE, EXC_LINE_THIN, EXC_LINE_NONE );
mnTopLine = ::get_flagvalue( nFlags, EXC_XF2_TOPLINE, EXC_LINE_THIN, EXC_LINE_NONE );
mnBottomLine = ::get_flagvalue( nFlags, EXC_XF2_BOTTOMLINE, EXC_LINE_THIN, EXC_LINE_NONE );
mnLeftColor = mnRightColor = mnTopColor = mnBottomColor = EXC_COLOR_BIFF2_BLACK;
SetUsedFlags( true, false );
}
void XclImpCellBorder::FillFromXF3( sal_uInt32 nBorder )
{
mnTopLine = ::extract_value< sal_uInt8 >( nBorder, 0, 3 );
mnLeftLine = ::extract_value< sal_uInt8 >( nBorder, 8, 3 );
mnBottomLine = ::extract_value< sal_uInt8 >( nBorder, 16, 3 );
mnRightLine = ::extract_value< sal_uInt8 >( nBorder, 24, 3 );
mnTopColor = ::extract_value< sal_uInt16 >( nBorder, 3, 5 );
mnLeftColor = ::extract_value< sal_uInt16 >( nBorder, 11, 5 );
mnBottomColor = ::extract_value< sal_uInt16 >( nBorder, 19, 5 );
mnRightColor = ::extract_value< sal_uInt16 >( nBorder, 27, 5 );
SetUsedFlags( true, false );
}
void XclImpCellBorder::FillFromXF5( sal_uInt32 nBorder, sal_uInt32 nArea )
{
mnTopLine = ::extract_value< sal_uInt8 >( nBorder, 0, 3 );
mnLeftLine = ::extract_value< sal_uInt8 >( nBorder, 3, 3 );
mnBottomLine = ::extract_value< sal_uInt8 >( nArea, 22, 3 );
mnRightLine = ::extract_value< sal_uInt8 >( nBorder, 6, 3 );
mnTopColor = ::extract_value< sal_uInt16 >( nBorder, 9, 7 );
mnLeftColor = ::extract_value< sal_uInt16 >( nBorder, 16, 7 );
mnBottomColor = ::extract_value< sal_uInt16 >( nArea, 25, 7 );
mnRightColor = ::extract_value< sal_uInt16 >( nBorder, 23, 7 );
SetUsedFlags( true, false );
}
void XclImpCellBorder::FillFromXF8( sal_uInt32 nBorder1, sal_uInt32 nBorder2 )
{
mnLeftLine = ::extract_value< sal_uInt8 >( nBorder1, 0, 4 );
mnRightLine = ::extract_value< sal_uInt8 >( nBorder1, 4, 4 );
mnTopLine = ::extract_value< sal_uInt8 >( nBorder1, 8, 4 );
mnBottomLine = ::extract_value< sal_uInt8 >( nBorder1, 12, 4 );
mnLeftColor = ::extract_value< sal_uInt16 >( nBorder1, 16, 7 );
mnRightColor = ::extract_value< sal_uInt16 >( nBorder1, 23, 7 );
mnTopColor = ::extract_value< sal_uInt16 >( nBorder2, 0, 7 );
mnBottomColor = ::extract_value< sal_uInt16 >( nBorder2, 7, 7 );
mbDiagTLtoBR = ::get_flag( nBorder1, EXC_XF_DIAGONAL_TL_TO_BR );
mbDiagBLtoTR = ::get_flag( nBorder1, EXC_XF_DIAGONAL_BL_TO_TR );
if( mbDiagTLtoBR || mbDiagBLtoTR )
{
mnDiagLine = ::extract_value< sal_uInt8 >( nBorder2, 21, 4 );
mnDiagColor = ::extract_value< sal_uInt16 >( nBorder2, 14, 7 );
}
SetUsedFlags( true, true );
}
void XclImpCellBorder::FillFromCF8( sal_uInt16 nLineStyle, sal_uInt32 nLineColor, sal_uInt32 nFlags )
{
mnLeftLine = ::extract_value< sal_uInt8 >( nLineStyle, 0, 4 );
mnRightLine = ::extract_value< sal_uInt8 >( nLineStyle, 4, 4 );
mnTopLine = ::extract_value< sal_uInt8 >( nLineStyle, 8, 4 );
mnBottomLine = ::extract_value< sal_uInt8 >( nLineStyle, 12, 4 );
mnLeftColor = ::extract_value< sal_uInt16 >( nLineColor, 0, 7 );
mnRightColor = ::extract_value< sal_uInt16 >( nLineColor, 7, 7 );
mnTopColor = ::extract_value< sal_uInt16 >( nLineColor, 16, 7 );
mnBottomColor = ::extract_value< sal_uInt16 >( nLineColor, 23, 7 );
mbLeftUsed = !::get_flag( nFlags, EXC_CF_BORDER_LEFT );
mbRightUsed = !::get_flag( nFlags, EXC_CF_BORDER_RIGHT );
mbTopUsed = !::get_flag( nFlags, EXC_CF_BORDER_TOP );
mbBottomUsed = !::get_flag( nFlags, EXC_CF_BORDER_BOTTOM );
mbDiagUsed = false;
}
bool XclImpCellBorder::HasAnyOuterBorder() const
{
return
(mbLeftUsed && (mnLeftLine != EXC_LINE_NONE)) ||
(mbRightUsed && (mnRightLine != EXC_LINE_NONE)) ||
(mbTopUsed && (mnTopLine != EXC_LINE_NONE)) ||
(mbBottomUsed && (mnBottomLine != EXC_LINE_NONE));
}
namespace {
/** Converts the passed line style to a ::editeng::SvxBorderLine, or returns false, if style is "no line". */
bool lclConvertBorderLine( ::editeng::SvxBorderLine& rLine, const XclImpPalette& rPalette, sal_uInt8 nXclLine, sal_uInt16 nXclColor )
{
static const sal_uInt16 ppnLineParam[][ 4 ] =
{
// outer width, type
{ 0, table::BorderLineStyle::SOLID }, // 0 = none
{ EXC_BORDER_THIN, table::BorderLineStyle::SOLID }, // 1 = thin
{ EXC_BORDER_MEDIUM, table::BorderLineStyle::SOLID }, // 2 = medium
{ EXC_BORDER_THIN, table::BorderLineStyle::FINE_DASHED }, // 3 = dashed
{ EXC_BORDER_THIN, table::BorderLineStyle::DOTTED }, // 4 = dotted
{ EXC_BORDER_THICK, table::BorderLineStyle::SOLID }, // 5 = thick
{ EXC_BORDER_THICK, table::BorderLineStyle::DOUBLE_THIN }, // 6 = double
{ EXC_BORDER_HAIR, table::BorderLineStyle::SOLID }, // 7 = hair
{ EXC_BORDER_MEDIUM, table::BorderLineStyle::DASHED }, // 8 = med dash
{ EXC_BORDER_THIN, table::BorderLineStyle::DASH_DOT }, // 9 = thin dashdot
{ EXC_BORDER_MEDIUM, table::BorderLineStyle::DASH_DOT }, // A = med dashdot
{ EXC_BORDER_THIN, table::BorderLineStyle::DASH_DOT_DOT }, // B = thin dashdotdot
{ EXC_BORDER_MEDIUM, table::BorderLineStyle::DASH_DOT_DOT }, // C = med dashdotdot
{ EXC_BORDER_MEDIUM, table::BorderLineStyle::DASH_DOT } // D = med slant dashdot
};
if( nXclLine == EXC_LINE_NONE )
return false;
if( nXclLine >= SAL_N_ELEMENTS( ppnLineParam ) )
nXclLine = EXC_LINE_THIN;
rLine.SetColor( rPalette.GetColor( nXclColor ) );
rLine.SetWidth( ppnLineParam[ nXclLine ][ 0 ] );
rLine.SetBorderLineStyle( static_cast< SvxBorderLineStyle>(
ppnLineParam[ nXclLine ][ 1 ]) );
return true;
}
} // namespace
void XclImpCellBorder::FillToItemSet( SfxItemSet& rItemSet, const XclImpPalette& rPalette, bool bSkipPoolDefs ) const
{
if( mbLeftUsed || mbRightUsed || mbTopUsed || mbBottomUsed )
{
SvxBoxItem aBoxItem( ATTR_BORDER );
::editeng::SvxBorderLine aLine;
if( mbLeftUsed && lclConvertBorderLine( aLine, rPalette, mnLeftLine, mnLeftColor ) )
aBoxItem.SetLine( &aLine, SvxBoxItemLine::LEFT );
if( mbRightUsed && lclConvertBorderLine( aLine, rPalette, mnRightLine, mnRightColor ) )
aBoxItem.SetLine( &aLine, SvxBoxItemLine::RIGHT );
if( mbTopUsed && lclConvertBorderLine( aLine, rPalette, mnTopLine, mnTopColor ) )
aBoxItem.SetLine( &aLine, SvxBoxItemLine::TOP );
if( mbBottomUsed && lclConvertBorderLine( aLine, rPalette, mnBottomLine, mnBottomColor ) )
aBoxItem.SetLine( &aLine, SvxBoxItemLine::BOTTOM );
ScfTools::PutItem( rItemSet, aBoxItem, bSkipPoolDefs );
}
if( mbDiagUsed )
{
SvxLineItem aTLBRItem( ATTR_BORDER_TLBR );
SvxLineItem aBLTRItem( ATTR_BORDER_BLTR );
::editeng::SvxBorderLine aLine;
if( lclConvertBorderLine( aLine, rPalette, mnDiagLine, mnDiagColor ) )
{
if( mbDiagTLtoBR )
aTLBRItem.SetLine( &aLine );
if( mbDiagBLtoTR )
aBLTRItem.SetLine( &aLine );
}
ScfTools::PutItem( rItemSet, aTLBRItem, bSkipPoolDefs );
ScfTools::PutItem( rItemSet, aBLTRItem, bSkipPoolDefs );
}
}
XclImpCellArea::XclImpCellArea()
{
SetUsedFlags( false );
}
void XclImpCellArea::SetUsedFlags( bool bUsed )
{
mbForeUsed = mbBackUsed = mbPattUsed = bUsed;
}
void XclImpCellArea::FillFromXF2( sal_uInt8 nFlags )
{
mnPattern = ::get_flagvalue( nFlags, EXC_XF2_BACKGROUND, EXC_PATT_12_5_PERC, EXC_PATT_NONE );
mnForeColor = EXC_COLOR_BIFF2_BLACK;
mnBackColor = EXC_COLOR_BIFF2_WHITE;
SetUsedFlags( true );
}
void XclImpCellArea::FillFromXF3( sal_uInt16 nArea )
{
mnPattern = ::extract_value< sal_uInt8 >( nArea, 0, 6 );
mnForeColor = ::extract_value< sal_uInt16 >( nArea, 6, 5 );
mnBackColor = ::extract_value< sal_uInt16 >( nArea, 11, 5 );
SetUsedFlags( true );
}
void XclImpCellArea::FillFromXF5( sal_uInt32 nArea )
{
mnPattern = ::extract_value< sal_uInt8 >( nArea, 16, 6 );
mnForeColor = ::extract_value< sal_uInt16 >( nArea, 0, 7 );
mnBackColor = ::extract_value< sal_uInt16 >( nArea, 7, 7 );
SetUsedFlags( true );
}
void XclImpCellArea::FillFromXF8( sal_uInt32 nBorder2, sal_uInt16 nArea )
{
mnPattern = ::extract_value< sal_uInt8 >( nBorder2, 26, 6 );
mnForeColor = ::extract_value< sal_uInt16 >( nArea, 0, 7 );
mnBackColor = ::extract_value< sal_uInt16 >( nArea, 7, 7 );
SetUsedFlags( true );
}
void XclImpCellArea::FillFromCF8( sal_uInt16 nPattern, sal_uInt16 nColor, sal_uInt32 nFlags )
{
mnForeColor = ::extract_value< sal_uInt16 >( nColor, 0, 7 );
mnBackColor = ::extract_value< sal_uInt16 >( nColor, 7, 7 );
mnPattern = ::extract_value< sal_uInt8 >( nPattern, 10, 6 );
mbForeUsed = !::get_flag( nFlags, EXC_CF_AREA_FGCOLOR );
mbBackUsed = !::get_flag( nFlags, EXC_CF_AREA_BGCOLOR );
mbPattUsed = !::get_flag( nFlags, EXC_CF_AREA_PATTERN );
if( mbBackUsed && (!mbPattUsed || (mnPattern == EXC_PATT_SOLID)) )
{
mnForeColor = mnBackColor;
mnPattern = EXC_PATT_SOLID;
mbForeUsed = mbPattUsed = true;
}
else if( !mbBackUsed && mbPattUsed && (mnPattern == EXC_PATT_SOLID) )
{
mbPattUsed = false;
}
}
void XclImpCellArea::FillToItemSet( SfxItemSet& rItemSet, const XclImpPalette& rPalette, bool bSkipPoolDefs ) const
{
if( mbPattUsed ) // colors may be both unused in cond. formats
{
SvxBrushItem aBrushItem( ATTR_BACKGROUND );
// do not use IsTransparent() - old Calc filter writes tranparency with different color indexes
if( mnPattern == EXC_PATT_NONE )
{
aBrushItem.SetColor( COL_TRANSPARENT );
}
else
{
Color aFore( rPalette.GetColor( mbForeUsed ? mnForeColor : EXC_COLOR_WINDOWTEXT ) );
Color aBack( rPalette.GetColor( mbBackUsed ? mnBackColor : EXC_COLOR_WINDOWBACK ) );
aBrushItem.SetColor( XclTools::GetPatternColor( aFore, aBack, mnPattern ) );
}
ScfTools::PutItem( rItemSet, aBrushItem, bSkipPoolDefs );
}
}
XclImpXF::XclImpXF( const XclImpRoot& rRoot ) :
XclXFBase( true ), // default is cell XF
XclImpRoot( rRoot ),
mpStyleSheet( nullptr ),
mnXclNumFmt( 0 ),
mnXclFont( 0 )
{
}
XclImpXF::~XclImpXF()
{
}
void XclImpXF::ReadXF2( XclImpStream& rStrm )
{
sal_uInt8 nReadFont, nReadNumFmt, nFlags;
nReadFont = rStrm.ReaduInt8();
rStrm.Ignore( 1 );
nReadNumFmt = rStrm.ReaduInt8();
nFlags = rStrm.ReaduInt8();
// XF type always cell, no parent, used flags always true
SetAllUsedFlags( true );
// attributes
maProtection.FillFromXF2( nReadNumFmt );
mnXclFont = nReadFont;
mnXclNumFmt = nReadNumFmt & EXC_XF2_VALFMT_MASK;
maAlignment.FillFromXF2( nFlags );
maBorder.FillFromXF2( nFlags );
maArea.FillFromXF2( nFlags );
}
void XclImpXF::ReadXF3( XclImpStream& rStrm )
{
sal_uInt32 nBorder;
sal_uInt16 nTypeProt, nAlign, nArea;
sal_uInt8 nReadFont, nReadNumFmt;
nReadFont = rStrm.ReaduInt8();
nReadNumFmt = rStrm.ReaduInt8();
nTypeProt = rStrm.ReaduInt16();
nAlign = rStrm.ReaduInt16();
nArea = rStrm.ReaduInt16();
nBorder = rStrm.ReaduInt32();
// XF type/parent, attribute used flags
mbCellXF = !::get_flag( nTypeProt, EXC_XF_STYLE ); // new in BIFF3
mnParent = ::extract_value< sal_uInt16 >( nAlign, 4, 12 ); // new in BIFF3
SetUsedFlags( ::extract_value< sal_uInt8 >( nTypeProt, 10, 6 ) );
// attributes
maProtection.FillFromXF3( nTypeProt );
mnXclFont = nReadFont;
mnXclNumFmt = nReadNumFmt;
maAlignment.FillFromXF3( nAlign );
maBorder.FillFromXF3( nBorder );
maArea.FillFromXF3( nArea ); // new in BIFF3
}
void XclImpXF::ReadXF4( XclImpStream& rStrm )
{
sal_uInt32 nBorder;
sal_uInt16 nTypeProt, nAlign, nArea;
sal_uInt8 nReadFont, nReadNumFmt;
nReadFont = rStrm.ReaduInt8();
nReadNumFmt = rStrm.ReaduInt8();
nTypeProt = rStrm.ReaduInt16();
nAlign = rStrm.ReaduInt16();
nArea = rStrm.ReaduInt16();
nBorder = rStrm.ReaduInt32();
// XF type/parent, attribute used flags
mbCellXF = !::get_flag( nTypeProt, EXC_XF_STYLE );
mnParent = ::extract_value< sal_uInt16 >( nTypeProt, 4, 12 );
SetUsedFlags( ::extract_value< sal_uInt8 >( nAlign, 10, 6 ) );
// attributes
maProtection.FillFromXF3( nTypeProt );
mnXclFont = nReadFont;
mnXclNumFmt = nReadNumFmt;
maAlignment.FillFromXF4( nAlign );
maBorder.FillFromXF3( nBorder );
maArea.FillFromXF3( nArea );
}
void XclImpXF::ReadXF5( XclImpStream& rStrm )
{
sal_uInt32 nArea, nBorder;
sal_uInt16 nTypeProt, nAlign;
mnXclFont = rStrm.ReaduInt16();
mnXclNumFmt = rStrm.ReaduInt16();
nTypeProt = rStrm.ReaduInt16();
nAlign = rStrm.ReaduInt16();
nArea = rStrm.ReaduInt32();
nBorder = rStrm.ReaduInt32();
// XF type/parent, attribute used flags
mbCellXF = !::get_flag( nTypeProt, EXC_XF_STYLE );
mnParent = ::extract_value< sal_uInt16 >( nTypeProt, 4, 12 );
SetUsedFlags( ::extract_value< sal_uInt8 >( nAlign, 10, 6 ) );
// attributes
maProtection.FillFromXF3( nTypeProt );
maAlignment.FillFromXF5( nAlign );
maBorder.FillFromXF5( nBorder, nArea );
maArea.FillFromXF5( nArea );
}
void XclImpXF::ReadXF8( XclImpStream& rStrm )
{
sal_uInt32 nBorder1, nBorder2;
sal_uInt16 nTypeProt, nAlign, nMiscAttrib, nArea;
mnXclFont = rStrm.ReaduInt16();
mnXclNumFmt = rStrm.ReaduInt16();
nTypeProt = rStrm.ReaduInt16();
nAlign = rStrm.ReaduInt16();
nMiscAttrib = rStrm.ReaduInt16();
nBorder1 = rStrm.ReaduInt32();
nBorder2 = rStrm.ReaduInt32( );
nArea = rStrm.ReaduInt16();
// XF type/parent, attribute used flags
mbCellXF = !::get_flag( nTypeProt, EXC_XF_STYLE );
mnParent = ::extract_value< sal_uInt16 >( nTypeProt, 4, 12 );
SetUsedFlags( ::extract_value< sal_uInt8 >( nMiscAttrib, 10, 6 ) );
// attributes
maProtection.FillFromXF3( nTypeProt );
maAlignment.FillFromXF8( nAlign, nMiscAttrib );
maBorder.FillFromXF8( nBorder1, nBorder2 );
maArea.FillFromXF8( nBorder2, nArea );
}
void XclImpXF::ReadXF( XclImpStream& rStrm )
{
switch( GetBiff() )
{
case EXC_BIFF2: ReadXF2( rStrm ); break;
case EXC_BIFF3: ReadXF3( rStrm ); break;
case EXC_BIFF4: ReadXF4( rStrm ); break;
case EXC_BIFF5: ReadXF5( rStrm ); break;
case EXC_BIFF8: ReadXF8( rStrm ); break;
default: DBG_ERROR_BIFF();
}
}
const ScPatternAttr& XclImpXF::CreatePattern( bool bSkipPoolDefs )
{
if( mpPattern.get() )
return *mpPattern;
// create new pattern attribute set
mpPattern.reset( new ScPatternAttr( GetDoc().GetPool() ) );
SfxItemSet& rItemSet = mpPattern->GetItemSet();
XclImpXF* pParentXF = IsCellXF() ? GetXFBuffer().GetXF( mnParent ) : nullptr;
// parent cell style
if( IsCellXF() && !mpStyleSheet )
{
mpStyleSheet = GetXFBuffer().CreateStyleSheet( mnParent );
/* Enables mb***Used flags, if the formatting attributes differ from
the passed XF record. In cell XFs Excel uses the cell attributes,
if they differ from the parent style XF.
...or if the respective flag is not set in parent style XF. */
if( pParentXF )
{
if( !mbProtUsed )
mbProtUsed = !pParentXF->mbProtUsed || !(maProtection == pParentXF->maProtection);
if( !mbFontUsed )
mbFontUsed = !pParentXF->mbFontUsed || (mnXclFont != pParentXF->mnXclFont);
if( !mbFmtUsed )
mbFmtUsed = !pParentXF->mbFmtUsed || (mnXclNumFmt != pParentXF->mnXclNumFmt);
if( !mbAlignUsed )
mbAlignUsed = !pParentXF->mbAlignUsed || !(maAlignment == pParentXF->maAlignment);
if( !mbBorderUsed )
mbBorderUsed = !pParentXF->mbBorderUsed || !(maBorder == pParentXF->maBorder);
if( !mbAreaUsed )
mbAreaUsed = !pParentXF->mbAreaUsed || !(maArea == pParentXF->maArea);
}
}
// cell protection
if( mbProtUsed )
maProtection.FillToItemSet( rItemSet, bSkipPoolDefs );
// font
if( mbFontUsed )
GetFontBuffer().FillToItemSet( rItemSet, XclFontItemType::Cell, mnXclFont, bSkipPoolDefs );
// value format
if( mbFmtUsed )
{
GetNumFmtBuffer().FillToItemSet( rItemSet, mnXclNumFmt, bSkipPoolDefs );
// Trace occurrences of Windows date formats
GetTracer().TraceDates( mnXclNumFmt );
}
// alignment
if( mbAlignUsed )
maAlignment.FillToItemSet( rItemSet, GetFontBuffer().GetFont( mnXclFont ), bSkipPoolDefs );
// border
if( mbBorderUsed )
{
maBorder.FillToItemSet( rItemSet, GetPalette(), bSkipPoolDefs );
GetTracer().TraceBorderLineStyle(maBorder.mnLeftLine > EXC_LINE_HAIR ||
maBorder.mnRightLine > EXC_LINE_HAIR || maBorder.mnTopLine > EXC_LINE_HAIR ||
maBorder.mnBottomLine > EXC_LINE_HAIR );
}
// area
if( mbAreaUsed )
{
maArea.FillToItemSet( rItemSet, GetPalette(), bSkipPoolDefs );
GetTracer().TraceFillPattern(maArea.mnPattern != EXC_PATT_NONE &&
maArea.mnPattern != EXC_PATT_SOLID);
}
/* #i38709# Decide which rotation reference mode to use. If any outer
border line of the cell is set (either explicitly or via cell style),
and the cell contents are rotated, set rotation reference to bottom of
cell. This causes the borders to be painted rotated with the text. */
if( mbAlignUsed || mbBorderUsed )
{
SvxRotateMode eRotateMode = SVX_ROTATE_MODE_STANDARD;
const XclImpCellAlign* pAlign = mbAlignUsed ? &maAlignment : (pParentXF ? &pParentXF->maAlignment : nullptr);
const XclImpCellBorder* pBorder = mbBorderUsed ? &maBorder : (pParentXF ? &pParentXF->maBorder : nullptr);
if( pAlign && pBorder && (0 < pAlign->mnRotation) && (pAlign->mnRotation <= 180) && pBorder->HasAnyOuterBorder() )
eRotateMode = SVX_ROTATE_MODE_BOTTOM;
ScfTools::PutItem( rItemSet, SvxRotateModeItem( eRotateMode, ATTR_ROTATE_MODE ), bSkipPoolDefs );
}
// Excel's cell margins are different from Calc's default margins.
SvxMarginItem aItem(40, 40, 40, 40, ATTR_MARGIN);
ScfTools::PutItem(rItemSet, aItem, bSkipPoolDefs);
return *mpPattern;
}
void XclImpXF::ApplyPatternToAttrVector(
std::vector<ScAttrEntry>& rAttrs, SCROW nRow1, SCROW nRow2, sal_uInt32 nForceScNumFmt)
{
// force creation of cell style and hard formatting, do it here to have mpStyleSheet
CreatePattern();
ScPatternAttr& rPat = *mpPattern;
// insert into document
ScDocument& rDoc = GetDoc();
if (IsCellXF())
{
if (mpStyleSheet)
{
// Apply style sheet. Don't clear the direct formats.
rPat.SetStyleSheet(mpStyleSheet, false);
}
else
{
// When the cell format is not associated with any style, use the
// 'Default' style. Some buggy XLS docs generated by apps other
// than Excel (such as 1C) may not have any built-in styles at
// all.
ScStyleSheetPool* pStylePool = rDoc.GetStyleSheetPool();
if (pStylePool)
{
ScStyleSheet* pStyleSheet = static_cast<ScStyleSheet*>(
pStylePool->Find(
ScResId(STR_STYLENAME_STANDARD), SfxStyleFamily::Para));
if (pStyleSheet)
rPat.SetStyleSheet(pStyleSheet, false);
}
}
}
if (nForceScNumFmt != NUMBERFORMAT_ENTRY_NOT_FOUND)
{
ScPatternAttr aNumPat(rDoc.GetPool());
GetNumFmtBuffer().FillScFmtToItemSet(aNumPat.GetItemSet(), nForceScNumFmt);
rPat.GetItemSet().Put(aNumPat.GetItemSet());
}
// Make sure we skip unnamed styles.
if (rPat.GetStyleName())
{
// Check for a gap between the last entry and this one.
bool bHasGap = false;
if (rAttrs.empty() && nRow1 > 0)
// First attribute range doesn't start at row 0.
bHasGap = true;
if (!rAttrs.empty() && rAttrs.back().nEndRow + 1 < nRow1)
bHasGap = true;
if (bHasGap)
{
// Fill this gap with the default pattern.
ScAttrEntry aEntry;
aEntry.nEndRow = nRow1 - 1;
aEntry.pPattern = rDoc.GetDefPattern();
rAttrs.push_back(aEntry);
}
ScAttrEntry aEntry;
aEntry.nEndRow = nRow2;
aEntry.pPattern = static_cast<const ScPatternAttr*>(&rDoc.GetPool()->Put(rPat));
rAttrs.push_back(aEntry);
}
}
void XclImpXF::ApplyPattern(
SCCOL nScCol1, SCROW nScRow1, SCCOL nScCol2, SCROW nScRow2,
SCTAB nScTab )
{
// force creation of cell style and hard formatting, do it here to have mpStyleSheet
const ScPatternAttr& rPattern = CreatePattern();
// insert into document
ScDocument& rDoc = GetDoc();
if( IsCellXF() && mpStyleSheet )
rDoc.ApplyStyleAreaTab( nScCol1, nScRow1, nScCol2, nScRow2, nScTab, *mpStyleSheet );
if( HasUsedFlags() )
rDoc.ApplyPatternAreaTab( nScCol1, nScRow1, nScCol2, nScRow2, nScTab, rPattern );
}
/*static*/ void XclImpXF::ApplyPatternForBiff2CellFormat( const XclImpRoot& rRoot,
const ScAddress& rScPos, sal_uInt8 nFlags1, sal_uInt8 nFlags2, sal_uInt8 nFlags3 )
{
/* Create an XF object and let it do the work. We will have access to its
private members here. */
XclImpXF aXF( rRoot );
// no used flags available in BIFF2 (always true)
aXF.SetAllUsedFlags( true );
// set the attributes
aXF.maProtection.FillFromXF2( nFlags1 );
aXF.maAlignment.FillFromXF2( nFlags3 );
aXF.maBorder.FillFromXF2( nFlags3 );
aXF.maArea.FillFromXF2( nFlags3 );
aXF.mnXclNumFmt = ::extract_value< sal_uInt16 >( nFlags2, 0, 6 );
aXF.mnXclFont = ::extract_value< sal_uInt16 >( nFlags2, 6, 2 );
// write the attributes to the cell
aXF.ApplyPattern( rScPos.Col(), rScPos.Row(), rScPos.Col(), rScPos.Row(), rScPos.Tab() );
}
void XclImpXF::SetUsedFlags( sal_uInt8 nUsedFlags )
{
/* Notes about finding the mb***Used flags:
- In cell XFs a *set* bit means a used attribute.
- In style XFs a *cleared* bit means a used attribute.
The mb***Used members always store true, if the attribute is used.
The "mbCellXF == ::get_flag(...)" construct evaluates to true in
both mentioned cases: cell XF and set bit; or style XF and cleared bit.
*/
mbProtUsed = (mbCellXF == ::get_flag( nUsedFlags, EXC_XF_DIFF_PROT ));
mbFontUsed = (mbCellXF == ::get_flag( nUsedFlags, EXC_XF_DIFF_FONT ));
mbFmtUsed = (mbCellXF == ::get_flag( nUsedFlags, EXC_XF_DIFF_VALFMT ));
mbAlignUsed = (mbCellXF == ::get_flag( nUsedFlags, EXC_XF_DIFF_ALIGN ));
mbBorderUsed = (mbCellXF == ::get_flag( nUsedFlags, EXC_XF_DIFF_BORDER ));
mbAreaUsed = (mbCellXF == ::get_flag( nUsedFlags, EXC_XF_DIFF_AREA ));
}
XclImpStyle::XclImpStyle( const XclImpRoot& rRoot ) :
XclImpRoot( rRoot ),
mnXfId( EXC_XF_NOTFOUND ),
mnBuiltinId( EXC_STYLE_USERDEF ),
mnLevel( EXC_STYLE_NOLEVEL ),
mbBuiltin( false ),
mbCustom( false ),
mbHidden( false ),
mpStyleSheet( nullptr )
{
}
void XclImpStyle::ReadStyle( XclImpStream& rStrm )
{
OSL_ENSURE_BIFF( GetBiff() >= EXC_BIFF3 );
sal_uInt16 nXFIndex;
nXFIndex = rStrm.ReaduInt16();
mnXfId = nXFIndex & EXC_STYLE_XFMASK;
mbBuiltin = ::get_flag( nXFIndex, EXC_STYLE_BUILTIN );
if( mbBuiltin )
{
mnBuiltinId = rStrm.ReaduInt8();
mnLevel = rStrm.ReaduInt8();
}
else
{
maName = (GetBiff() <= EXC_BIFF5) ? rStrm.ReadByteString( false ) : rStrm.ReadUniString();
// #i103281# check if this is a new built-in style introduced in XL2007
if( (GetBiff() == EXC_BIFF8) && (rStrm.GetNextRecId() == EXC_ID_STYLEEXT) && rStrm.StartNextRecord() )
{
sal_uInt8 nExtFlags;
rStrm.Ignore( 12 );
nExtFlags = rStrm.ReaduInt8();
mbBuiltin = ::get_flag( nExtFlags, EXC_STYLEEXT_BUILTIN );
mbCustom = ::get_flag( nExtFlags, EXC_STYLEEXT_CUSTOM );
mbHidden = ::get_flag( nExtFlags, EXC_STYLEEXT_HIDDEN );
if( mbBuiltin )
{
rStrm.Ignore( 1 ); // category
mnBuiltinId = rStrm.ReaduInt8();
mnLevel = rStrm.ReaduInt8();
}
}
}
}
ScStyleSheet* XclImpStyle::CreateStyleSheet()
{
// #i1624# #i1768# ignore unnamed user styles
if( !mpStyleSheet && (!maFinalName.isEmpty()) )
{
bool bCreatePattern = false;
XclImpXF* pXF = GetXFBuffer().GetXF( mnXfId );
bool bDefStyle = mbBuiltin && (mnBuiltinId == EXC_STYLE_NORMAL);
if( bDefStyle )
{
// set all flags to true to get all items in XclImpXF::CreatePattern()
if( pXF ) pXF->SetAllUsedFlags( true );
// use existing "Default" style sheet
mpStyleSheet = static_cast< ScStyleSheet* >( GetStyleSheetPool().Find(
ScResId( STR_STYLENAME_STANDARD ), SfxStyleFamily::Para ) );
OSL_ENSURE( mpStyleSheet, "XclImpStyle::CreateStyleSheet - Default style not found" );
bCreatePattern = true;
}
else
{
/* #i103281# do not create another style sheet of the same name,
if it exists already. This is needed to prevent that styles
pasted from clipboard get duplicated over and over. */
mpStyleSheet = static_cast< ScStyleSheet* >( GetStyleSheetPool().Find( maFinalName, SfxStyleFamily::Para ) );
if( !mpStyleSheet )
{
mpStyleSheet = &static_cast< ScStyleSheet& >( GetStyleSheetPool().Make( maFinalName, SfxStyleFamily::Para, SfxStyleSearchBits::UserDefined ) );
bCreatePattern = true;
}
}
// bDefStyle==true omits default pool items in CreatePattern()
if( bCreatePattern && mpStyleSheet && pXF )
mpStyleSheet->GetItemSet().Put( pXF->CreatePattern( bDefStyle ).GetItemSet() );
}
return mpStyleSheet;
}
void XclImpStyle::CreateUserStyle( const OUString& rFinalName )
{
maFinalName = rFinalName;
if( !IsBuiltin() || mbCustom )
CreateStyleSheet();
}
XclImpXFBuffer::XclImpXFBuffer( const XclImpRoot& rRoot ) :
XclImpRoot( rRoot )
{
}
void XclImpXFBuffer::Initialize()
{
maXFList.clear();
maBuiltinStyles.clear();
maUserStyles.clear();
maStylesByXf.clear();
}
void XclImpXFBuffer::ReadXF( XclImpStream& rStrm )
{
XclImpXF* pXF = new XclImpXF( GetRoot() );
pXF->ReadXF( rStrm );
maXFList.push_back( std::unique_ptr<XclImpXF>(pXF) );
}
void XclImpXFBuffer::ReadStyle( XclImpStream& rStrm )
{
XclImpStyle* pStyle = new XclImpStyle( GetRoot() );
pStyle->ReadStyle( rStrm );
(pStyle->IsBuiltin() ? maBuiltinStyles : maUserStyles).push_back( std::unique_ptr<XclImpStyle>(pStyle) );
OSL_ENSURE( maStylesByXf.count( pStyle->GetXfId() ) == 0, "XclImpXFBuffer::ReadStyle - multiple styles with equal XF identifier" );
maStylesByXf[ pStyle->GetXfId() ] = pStyle;
}
sal_uInt16 XclImpXFBuffer::GetFontIndex( sal_uInt16 nXFIndex ) const
{
const XclImpXF* pXF = GetXF( nXFIndex );
return pXF ? pXF->GetFontIndex() : EXC_FONT_NOTFOUND;
}
const XclImpFont* XclImpXFBuffer::GetFont( sal_uInt16 nXFIndex ) const
{
return GetFontBuffer().GetFont( GetFontIndex( nXFIndex ) );
}
namespace {
/** Functor for case-insensitive string comparison, usable in maps etc. */
struct IgnoreCaseCompare
{
bool operator()( const OUString& rName1, const OUString& rName2 ) const
{ return rName1.compareToIgnoreAsciiCase( rName2 ) < 0; }
};
} // namespace
void XclImpXFBuffer::CreateUserStyles()
{
// calculate final names of all styles
typedef ::std::map< OUString, XclImpStyle*, IgnoreCaseCompare > CellStyleNameMap;
typedef ::std::vector< XclImpStyle* > XclImpStyleVector;
CellStyleNameMap aCellStyles;
XclImpStyleVector aConflictNameStyles;
/* First, reserve style names that are built-in in Calc. This causes that
imported cell styles get different unused names and thus do not try to
overwrite these built-in styles. For BIFF4 workbooks (which contain a
separate list of cell styles per sheet), reserve all existing styles if
current sheet is not the first sheet (this styles buffer will be
initialized again for every new sheet). This will create unique names
for styles in different sheets with the same name. Assuming that the
BIFF4W import filter is never used to import from clipboard... */
bool bReserveAll = (GetBiff() == EXC_BIFF4) && (GetCurrScTab() > 0);
SfxStyleSheetIterator aStyleIter( GetDoc().GetStyleSheetPool(), SfxStyleFamily::Para );
OUString aStandardName = ScResId( STR_STYLENAME_STANDARD );
for( SfxStyleSheetBase* pStyleSheet = aStyleIter.First(); pStyleSheet; pStyleSheet = aStyleIter.Next() )
if( (pStyleSheet->GetName() != aStandardName) && (bReserveAll || !pStyleSheet->IsUserDefined()) )
if( aCellStyles.count( pStyleSheet->GetName() ) == 0 )
aCellStyles[ pStyleSheet->GetName() ] = nullptr;
/* Calculate names of built-in styles. Store styles with reserved names
in the aConflictNameStyles list. */
for( XclImpStyleList::iterator itStyle = maBuiltinStyles.begin(); itStyle != maBuiltinStyles.end(); ++itStyle )
{
OUString aStyleName = XclTools::GetBuiltInStyleName( (*itStyle)->GetBuiltinId(), (*itStyle)->GetName(), (*itStyle)->GetLevel() );
OSL_ENSURE( bReserveAll || (aCellStyles.count( aStyleName ) == 0),
"XclImpXFBuffer::CreateUserStyles - multiple styles with equal built-in identifier" );
if( aCellStyles.count( aStyleName ) > 0 )
aConflictNameStyles.push_back( itStyle->get() );
else
aCellStyles[ aStyleName ] = itStyle->get();
}
/* Calculate names of user defined styles. Store styles with reserved
names in the aConflictNameStyles list. */
for( XclImpStyleList::iterator itStyle = maUserStyles.begin(); itStyle != maUserStyles.end(); ++itStyle )
{
// #i1624# #i1768# ignore unnamed user styles
if( !(*itStyle)->GetName().isEmpty() )
{
if( aCellStyles.count( (*itStyle)->GetName() ) > 0 )
aConflictNameStyles.push_back( itStyle->get() );
else
aCellStyles[ (*itStyle)->GetName() ] = itStyle->get();
}
}
// find unused names for all styles with conflicting names
for( XclImpStyleVector::iterator aIt = aConflictNameStyles.begin(), aEnd = aConflictNameStyles.end(); aIt != aEnd; ++aIt )
{
XclImpStyle* pStyle = *aIt;
OUString aUnusedName;
sal_Int32 nIndex = 0;
do
{
aUnusedName = pStyle->GetName() + " " + OUString::number( ++nIndex );
}
while( aCellStyles.count( aUnusedName ) > 0 );
aCellStyles[ aUnusedName ] = pStyle;
}
// set final names and create user-defined and modified built-in cell styles
for( CellStyleNameMap::iterator aIt = aCellStyles.begin(), aEnd = aCellStyles.end(); aIt != aEnd; ++aIt )
if( aIt->second )
aIt->second->CreateUserStyle( aIt->first );
}
ScStyleSheet* XclImpXFBuffer::CreateStyleSheet( sal_uInt16 nXFIndex )
{
XclImpStyleMap::iterator aIt = maStylesByXf.find( nXFIndex );
return (aIt == maStylesByXf.end()) ? nullptr : aIt->second->CreateStyleSheet();
}
// Buffer for XF indexes in cells =============================================
bool XclImpXFRange::Expand( SCROW nScRow, const XclImpXFIndex& rXFIndex )
{
if( maXFIndex != rXFIndex )
return false;
if( mnScRow2 + 1 == nScRow )
{
++mnScRow2;
return true;
}
if( mnScRow1 > 0 && (mnScRow1 - 1 == nScRow) )
{
--mnScRow1;
return true;
}
return false;
}
bool XclImpXFRange::Expand( const XclImpXFRange& rNextRange )
{
OSL_ENSURE( mnScRow2 < rNextRange.mnScRow1, "XclImpXFRange::Expand - rows out of order" );
if( (maXFIndex == rNextRange.maXFIndex) && (mnScRow2 + 1 == rNextRange.mnScRow1) )
{
mnScRow2 = rNextRange.mnScRow2;
return true;
}
return false;
}
void XclImpXFRangeColumn::SetDefaultXF( const XclImpXFIndex& rXFIndex )
{
// List should be empty when inserting the default column format.
// Later explicit SetXF() calls will break up this range.
OSL_ENSURE( maIndexList.empty(), "XclImpXFRangeColumn::SetDefaultXF - Setting Default Column XF is not empty" );
// insert a complete row range with one insert.
maIndexList.push_back( o3tl::make_unique<XclImpXFRange>( 0, MAXROW, rXFIndex ) );
}
void XclImpXFRangeColumn::SetXF( SCROW nScRow, const XclImpXFIndex& rXFIndex )
{
XclImpXFRange* pPrevRange;
XclImpXFRange* pNextRange;
sal_uLong nNextIndex;
Find( pPrevRange, pNextRange, nNextIndex, nScRow );
// previous range:
// try to overwrite XF (if row is contained in) or try to expand range
if( pPrevRange )
{
if( pPrevRange->Contains( nScRow ) ) // overwrite old XF
{
if( rXFIndex == pPrevRange->maXFIndex )
return;
SCROW nFirstScRow = pPrevRange->mnScRow1;
SCROW nLastScRow = pPrevRange->mnScRow2;
sal_uLong nIndex = nNextIndex - 1;
XclImpXFRange* pThisRange = pPrevRange;
pPrevRange = (nIndex > 0 && nIndex <= maIndexList.size()) ? maIndexList[ nIndex - 1 ].get() : nullptr;
if( nFirstScRow == nLastScRow ) // replace solely XF
{
pThisRange->maXFIndex = rXFIndex;
TryConcatPrev( nNextIndex ); // try to concat. next with this
TryConcatPrev( nIndex ); // try to concat. this with previous
}
else if( nFirstScRow == nScRow ) // replace first XF
{
++(pThisRange->mnScRow1);
// try to concatenate with previous of this
if( !pPrevRange || !pPrevRange->Expand( nScRow, rXFIndex ) )
Insert( new XclImpXFRange( nScRow, rXFIndex ), nIndex );
}
else if( nLastScRow == nScRow ) // replace last XF
{
--(pThisRange->mnScRow2);
if( !pNextRange || !pNextRange->Expand( nScRow, rXFIndex ) )
Insert( new XclImpXFRange( nScRow, rXFIndex ), nNextIndex );
}
else // insert in the middle of the range
{
pThisRange->mnScRow1 = nScRow + 1;
// List::Insert() moves entries towards end of list, so insert twice at nIndex
Insert( new XclImpXFRange( nScRow, rXFIndex ), nIndex );
Insert( new XclImpXFRange( nFirstScRow, nScRow - 1, pThisRange->maXFIndex ), nIndex );
}
return;
}
else if( pPrevRange->Expand( nScRow, rXFIndex ) ) // try to expand
{
TryConcatPrev( nNextIndex ); // try to concatenate next with expanded
return;
}
}
// try to expand next range
if( pNextRange && pNextRange->Expand( nScRow, rXFIndex ) )
return;
// create new range
Insert( new XclImpXFRange( nScRow, rXFIndex ), nNextIndex );
}
void XclImpXFRangeColumn::Insert(XclImpXFRange* pXFRange, sal_uLong nIndex)
{
maIndexList.insert( maIndexList.begin() + nIndex, std::unique_ptr<XclImpXFRange>(pXFRange) );
}
void XclImpXFRangeColumn::Find(
XclImpXFRange*& rpPrevRange, XclImpXFRange*& rpNextRange,
sal_uLong& rnNextIndex, SCROW nScRow )
{
// test whether list is empty
if( maIndexList.empty() )
{
rpPrevRange = rpNextRange = nullptr;
rnNextIndex = 0;
return;
}
rpPrevRange = maIndexList.front().get();
rpNextRange = maIndexList.back().get();
// test whether row is at end of list (contained in or behind last range)
// rpPrevRange will contain a possible existing row
if( rpNextRange->mnScRow1 <= nScRow )
{
rpPrevRange = rpNextRange;
rpNextRange = nullptr;
rnNextIndex = maIndexList.size();
return;
}
// test whether row is at beginning of list (really before first range)
if( nScRow < rpPrevRange->mnScRow1 )
{
rpNextRange = rpPrevRange;
rpPrevRange = nullptr;
rnNextIndex = 0;
return;
}
// loop: find range entries before and after new row
// break the loop if there is no more range between first and last -or-
// if rpPrevRange contains nScRow (rpNextRange will never contain nScRow)
sal_uLong nPrevIndex = 0;
sal_uLong nMidIndex;
rnNextIndex = maIndexList.size() - 1;
XclImpXFRange* pMidRange;
while( ((rnNextIndex - nPrevIndex) > 1) && (rpPrevRange->mnScRow2 < nScRow) )
{
nMidIndex = (nPrevIndex + rnNextIndex) / 2;
pMidRange = maIndexList[nMidIndex].get();
OSL_ENSURE( pMidRange, "XclImpXFRangeColumn::Find - missing XF index range" );
if( nScRow < pMidRange->mnScRow1 ) // row is really before pMidRange
{
rpNextRange = pMidRange;
rnNextIndex = nMidIndex;
}
else // row is in or after pMidRange
{
rpPrevRange = pMidRange;
nPrevIndex = nMidIndex;
}
}
// find next rpNextRange if rpPrevRange contains nScRow
if( nScRow <= rpPrevRange->mnScRow2 )
{
rnNextIndex = nPrevIndex + 1;
rpNextRange = maIndexList[rnNextIndex].get();
}
}
void XclImpXFRangeColumn::TryConcatPrev( sal_uLong nIndex )
{
if( !nIndex || nIndex >= maIndexList.size() )
return;
XclImpXFRange& prevRange = *maIndexList[ nIndex - 1 ];
XclImpXFRange& nextRange = *maIndexList[ nIndex ];
if( prevRange.Expand( nextRange ) )
maIndexList.erase( maIndexList.begin() + nIndex );
}
XclImpXFRangeBuffer::XclImpXFRangeBuffer( const XclImpRoot& rRoot ) :
XclImpRoot( rRoot )
{
}
XclImpXFRangeBuffer::~XclImpXFRangeBuffer()
{
}
void XclImpXFRangeBuffer::Initialize()
{
maColumns.clear();
maHyperlinks.clear();
maMergeList.RemoveAll();
}
void XclImpXFRangeBuffer::SetXF( const ScAddress& rScPos, sal_uInt16 nXFIndex, XclImpXFInsertMode eMode )
{
SCCOL nScCol = rScPos.Col();
SCROW nScRow = rScPos.Row();
// set cell XF's
size_t nIndex = static_cast< size_t >( nScCol );
if( maColumns.size() <= nIndex )
maColumns.resize( nIndex + 1 );
if( !maColumns[ nIndex ] )
maColumns[ nIndex ].reset( new XclImpXFRangeColumn );
// remember all Boolean cells, they will get 'Standard' number format
maColumns[ nIndex ]->SetXF( nScRow, XclImpXFIndex( nXFIndex, eMode == xlXFModeBoolCell ) );
// set "center across selection" and "fill" attribute for all following empty cells
// ignore it on row default XFs
if( eMode != xlXFModeRow )
{
const XclImpXF* pXF = GetXFBuffer().GetXF( nXFIndex );
if( pXF && ((pXF->GetHorAlign() == EXC_XF_HOR_CENTER_AS) || (pXF->GetHorAlign() == EXC_XF_HOR_FILL)) )
{
// expand last merged range if this attribute is set repeatedly
ScRange* pRange = maMergeList.empty() ? nullptr : &maMergeList.back();
if (pRange && (pRange->aEnd.Row() == nScRow) && (pRange->aEnd.Col() + 1 == nScCol) && (eMode == xlXFModeBlank))
pRange->aEnd.IncCol();
else if( eMode != xlXFModeBlank ) // do not merge empty cells
maMergeList.push_back( ScRange( nScCol, nScRow, 0 ) );
}
}
}
void XclImpXFRangeBuffer::SetXF( const ScAddress& rScPos, sal_uInt16 nXFIndex )
{
SetXF( rScPos, nXFIndex, xlXFModeCell );
}
void XclImpXFRangeBuffer::SetBlankXF( const ScAddress& rScPos, sal_uInt16 nXFIndex )
{
SetXF( rScPos, nXFIndex, xlXFModeBlank );
}
void XclImpXFRangeBuffer::SetBoolXF( const ScAddress& rScPos, sal_uInt16 nXFIndex )
{
SetXF( rScPos, nXFIndex, xlXFModeBoolCell );
}
void XclImpXFRangeBuffer::SetRowDefXF( SCROW nScRow, sal_uInt16 nXFIndex )
{
for( SCCOL nScCol = 0; nScCol <= MAXCOL; ++nScCol )
SetXF( ScAddress( nScCol, nScRow, 0 ), nXFIndex, xlXFModeRow );
}
void XclImpXFRangeBuffer::SetColumnDefXF( SCCOL nScCol, sal_uInt16 nXFIndex )
{
// our array should not have values when creating the default column format.
size_t nIndex = static_cast< size_t >( nScCol );
if( maColumns.size() <= nIndex )
maColumns.resize( nIndex + 1 );
OSL_ENSURE( !maColumns[ nIndex ], "XclImpXFRangeBuffer::SetColumnDefXF - default column of XFs already has values" );
maColumns[ nIndex ].reset( new XclImpXFRangeColumn );
maColumns[ nIndex ]->SetDefaultXF( XclImpXFIndex( nXFIndex ) );
}
void XclImpXFRangeBuffer::SetBorderLine( const ScRange& rRange, SCTAB nScTab, SvxBoxItemLine nLine )
{
SCCOL nFromScCol = (nLine == SvxBoxItemLine::RIGHT) ? rRange.aEnd.Col() : rRange.aStart.Col();
SCROW nFromScRow = (nLine == SvxBoxItemLine::BOTTOM) ? rRange.aEnd.Row() : rRange.aStart.Row();
ScDocument& rDoc = GetDoc();
const SvxBoxItem* pFromItem =
rDoc.GetAttr( nFromScCol, nFromScRow, nScTab, ATTR_BORDER );
const SvxBoxItem* pToItem =
rDoc.GetAttr( rRange.aStart.Col(), rRange.aStart.Row(), nScTab, ATTR_BORDER );
SvxBoxItem aNewItem( *pToItem );
aNewItem.SetLine( pFromItem->GetLine( nLine ), nLine );
rDoc.ApplyAttr( rRange.aStart.Col(), rRange.aStart.Row(), nScTab, aNewItem );
}
void XclImpXFRangeBuffer::SetHyperlink( const XclRange& rXclRange, const OUString& rUrl )
{
maHyperlinks.emplace_back( rXclRange, rUrl );
}
void XclImpXFRangeBuffer::SetMerge( SCCOL nScCol1, SCROW nScRow1, SCCOL nScCol2, SCROW nScRow2 )
{
if( (nScCol1 < nScCol2) || (nScRow1 < nScRow2) )
maMergeList.push_back( ScRange( nScCol1, nScRow1, 0, nScCol2, nScRow2, 0 ) );
}
void XclImpXFRangeBuffer::Finalize()
{
ScDocumentImport& rDoc = GetDocImport();
SCTAB nScTab = GetCurrScTab();
// apply patterns
XclImpXFBuffer& rXFBuffer = GetXFBuffer();
for( XclImpXFRangeColumnVec::const_iterator aVBeg = maColumns.begin(), aVEnd = maColumns.end(), aVIt = aVBeg; aVIt != aVEnd; ++aVIt )
{
// apply all cell styles of an existing column
if( aVIt->get() )
{
XclImpXFRangeColumn& rColumn = **aVIt;
SCCOL nScCol = static_cast< SCCOL >( aVIt - aVBeg );
std::vector<ScAttrEntry> aAttrs;
aAttrs.reserve(rColumn.end() - rColumn.begin());
for (XclImpXFRangeColumn::IndexList::iterator itr = rColumn.begin(), itrEnd = rColumn.end();
itr != itrEnd; ++itr)
{
XclImpXFRange& rStyle = **itr;
const XclImpXFIndex& rXFIndex = rStyle.maXFIndex;
XclImpXF* pXF = rXFBuffer.GetXF( rXFIndex.GetXFIndex() );
if (!pXF)
continue;
sal_uInt32 nForceScNumFmt = rXFIndex.IsBoolCell() ?
GetNumFmtBuffer().GetStdScNumFmt() : NUMBERFORMAT_ENTRY_NOT_FOUND;
pXF->ApplyPatternToAttrVector(aAttrs, rStyle.mnScRow1, rStyle.mnScRow2, nForceScNumFmt);
}
if (aAttrs.empty() || aAttrs.back().nEndRow != MAXROW)
{
ScAttrEntry aEntry;
aEntry.nEndRow = MAXROW;
aEntry.pPattern = rDoc.getDoc().GetDefPattern();
aAttrs.push_back(aEntry);
}
aAttrs.shrink_to_fit();
assert(aAttrs.size() > 0);
ScDocumentImport::Attrs aAttrParam;
aAttrParam.mvData.swap(aAttrs);
aAttrParam.mbLatinNumFmtOnly = false; // when unsure, set it to false.
rDoc.setAttrEntries(nScTab, nScCol, std::move(aAttrParam));
}
}
// insert hyperlink cells
for( XclImpHyperlinkVector::const_iterator aLIt = maHyperlinks.begin(), aLEnd = maHyperlinks.end(); aLIt != aLEnd; ++aLIt )
XclImpHyperlink::InsertUrl( GetRoot(), aLIt->first, aLIt->second );
// apply cell merging
for ( size_t i = 0, nRange = maMergeList.size(); i < nRange; ++i )
{
const ScRange & rRange = maMergeList[ i ];
const ScAddress& rStart = rRange.aStart;
const ScAddress& rEnd = rRange.aEnd;
bool bMultiCol = rStart.Col() != rEnd.Col();
bool bMultiRow = rStart.Row() != rEnd.Row();
// set correct right border
if( bMultiCol )
SetBorderLine( rRange, nScTab, SvxBoxItemLine::RIGHT );
// set correct lower border
if( bMultiRow )
SetBorderLine( rRange, nScTab, SvxBoxItemLine::BOTTOM );
// do merge
if( bMultiCol || bMultiRow )
rDoc.getDoc().DoMerge( nScTab, rStart.Col(), rStart.Row(), rEnd.Col(), rEnd.Row() );
// #i93609# merged range in a single row: test if manual row height is needed
if( !bMultiRow )
{
bool bTextWrap = rDoc.getDoc().GetAttr( rStart, ATTR_LINEBREAK )->GetValue();
if( !bTextWrap && (rDoc.getDoc().GetCellType( rStart ) == CELLTYPE_EDIT) )
if (const EditTextObject* pEditObj = rDoc.getDoc().GetEditText(rStart))
bTextWrap = pEditObj->GetParagraphCount() > 1;
if( bTextWrap )
GetOldRoot().pColRowBuff->SetManualRowHeight( rStart.Row() );
}
}
}
/* vim:set shiftwidth=4 softtabstop=4 expandtab: */
↑ V1029 Numeric Truncation Error. Result of the 'size' function is written to the 16-bit variable.