/* -*- 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 "xlstyle.hxx" #include #include #include #include #include #include #include #include #include #include #include #include #include "global.hxx" #include "xlroot.hxx" // Color data ================================================================= /** Standard EGA colors, bright. */ #define EXC_PALETTE_EGA_COLORS_LIGHT \ 0x000000, 0xFFFFFF, 0xFF0000, 0x00FF00, 0x0000FF, 0xFFFF00, 0xFF00FF, 0x00FFFF /** Standard EGA colors, dark. */ #define EXC_PALETTE_EGA_COLORS_DARK \ 0x800000, 0x008000, 0x000080, 0x808000, 0x800080, 0x008080, 0xC0C0C0, 0x808080 /** Default color table for BIFF2. */ static const ColorData spnDefColorTable2[] = { /* 0 */ EXC_PALETTE_EGA_COLORS_LIGHT }; /** Default color table for BIFF3/BIFF4. */ static const ColorData spnDefColorTable3[] = { /* 0 */ EXC_PALETTE_EGA_COLORS_LIGHT, /* 8 */ EXC_PALETTE_EGA_COLORS_LIGHT, /* 16 */ EXC_PALETTE_EGA_COLORS_DARK }; /** Default color table for BIFF5/BIFF7. */ static const ColorData spnDefColorTable5[] = { /* 0 */ EXC_PALETTE_EGA_COLORS_LIGHT, /* 8 */ EXC_PALETTE_EGA_COLORS_LIGHT, /* 16 */ EXC_PALETTE_EGA_COLORS_DARK, /* 24 */ 0x8080FF, 0x802060, 0xFFFFC0, 0xA0E0E0, 0x600080, 0xFF8080, 0x0080C0, 0xC0C0FF, /* 32 */ 0x000080, 0xFF00FF, 0xFFFF00, 0x00FFFF, 0x800080, 0x800000, 0x008080, 0x0000FF, /* 40 */ 0x00CFFF, 0x69FFFF, 0xE0FFE0, 0xFFFF80, 0xA6CAF0, 0xDD9CB3, 0xB38FEE, 0xE3E3E3, /* 48 */ 0x2A6FF9, 0x3FB8CD, 0x488436, 0x958C41, 0x8E5E42, 0xA0627A, 0x624FAC, 0x969696, /* 56 */ 0x1D2FBE, 0x286676, 0x004500, 0x453E01, 0x6A2813, 0x85396A, 0x4A3285, 0x424242 }; /** Default color table for BIFF8. */ static const ColorData spnDefColorTable8[] = { /* 0 */ EXC_PALETTE_EGA_COLORS_LIGHT, /* 8 */ EXC_PALETTE_EGA_COLORS_LIGHT, /* 16 */ EXC_PALETTE_EGA_COLORS_DARK, /* 24 */ 0x9999FF, 0x993366, 0xFFFFCC, 0xCCFFFF, 0x660066, 0xFF8080, 0x0066CC, 0xCCCCFF, /* 32 */ 0x000080, 0xFF00FF, 0xFFFF00, 0x00FFFF, 0x800080, 0x800000, 0x008080, 0x0000FF, /* 40 */ 0x00CCFF, 0xCCFFFF, 0xCCFFCC, 0xFFFF99, 0x99CCFF, 0xFF99CC, 0xCC99FF, 0xFFCC99, /* 48 */ 0x3366FF, 0x33CCCC, 0x99CC00, 0xFFCC00, 0xFF9900, 0xFF6600, 0x666699, 0x969696, /* 56 */ 0x003366, 0x339966, 0x003300, 0x333300, 0x993300, 0x993366, 0x333399, 0x333333 }; #undef EXC_PALETTE_EGA_COLORS_LIGHT #undef EXC_PALETTE_EGA_COLORS_DARK XclDefaultPalette::XclDefaultPalette( const XclRoot& rRoot ) : mpnColorTable( 0 ), mnTableSize( 0 ) { const StyleSettings& rSett = Application::GetSettings().GetStyleSettings(); mnWindowText = rSett.GetWindowTextColor().GetColor(); mnWindowBack = rSett.GetWindowColor().GetColor(); mnFaceColor = rSett.GetFaceColor().GetColor(); // Don't use the system HelpBack and HelpText colours as it causes problems // with modern gnome. This is because mnNoteText and mnNoteBack are used // when colour indices ( instead of real colours ) are specified. // Note: That this it is not an unusual scenario that we get the Note // background specified as a real colour and the text specified as a // colour index. That means the text colour would be picked from // the system where the note background would be picked from a real colour. // Previously the note text colour was picked from the system tooltip // text colour, on modern gnome(e.g. 3) that tends to be 'white' with the // default theme. // Using the Libreoffice defaults ( instead of system specific colours // ) lessens the chance of the one colour being an unsuitable combination // because by default the note text is black and the note background is // a light yellow colour ( very similar to Excel's normal defaults ) mnNoteText = svtools::ColorConfig::GetDefaultColor( svtools::FONTCOLOR ).GetColor(); mnNoteBack = svtools::ColorConfig::GetDefaultColor( svtools::CALCNOTESBACKGROUND ).GetColor(); // default colors switch( rRoot.GetBiff() ) { case EXC_BIFF2: mpnColorTable = spnDefColorTable2; mnTableSize = SAL_N_ELEMENTS( spnDefColorTable2 ); break; case EXC_BIFF3: case EXC_BIFF4: mpnColorTable = spnDefColorTable3; mnTableSize = SAL_N_ELEMENTS( spnDefColorTable3 ); break; case EXC_BIFF5: mpnColorTable = spnDefColorTable5; mnTableSize = SAL_N_ELEMENTS( spnDefColorTable5 ); break; case EXC_BIFF8: mpnColorTable = spnDefColorTable8; mnTableSize = SAL_N_ELEMENTS( spnDefColorTable8 ); break; default: DBG_ERROR_BIFF(); } } ColorData XclDefaultPalette::GetDefColorData( sal_uInt16 nXclIndex ) const { ColorData nColor; if( nXclIndex < mnTableSize ) nColor = mpnColorTable[ nXclIndex ]; else switch( nXclIndex ) { case EXC_COLOR_WINDOWTEXT3: case EXC_COLOR_WINDOWTEXT: case EXC_COLOR_CHWINDOWTEXT: nColor = mnWindowText; break; case EXC_COLOR_WINDOWBACK3: case EXC_COLOR_WINDOWBACK: case EXC_COLOR_CHWINDOWBACK: nColor = mnWindowBack; break; case EXC_COLOR_BUTTONBACK: nColor = mnFaceColor; break; case EXC_COLOR_CHBORDERAUTO: nColor = COL_BLACK; break; // TODO: really always black? case EXC_COLOR_NOTEBACK: nColor = mnNoteBack; break; case EXC_COLOR_NOTETEXT: nColor = mnNoteText; break; case EXC_COLOR_FONTAUTO: nColor = COL_AUTO; break; default: OSL_TRACE( "XclDefaultPalette::GetDefColorData - unknown default color index: %d", nXclIndex ); nColor = COL_AUTO; } return nColor; } // Font Data ================================================================== namespace Awt = ::com::sun::star::awt; namespace AwtFontFamily = Awt::FontFamily; namespace AwtFontUnderline = Awt::FontUnderline; namespace AwtFontStrikeout = Awt::FontStrikeout; XclFontData::XclFontData() { Clear(); } XclFontData::XclFontData( const vcl::Font& rFont ) { Clear(); FillFromVclFont( rFont ); } XclFontData::XclFontData( const SvxFont& rFont ) { FillFromSvxFont( rFont ); } void XclFontData::Clear() { maName = ""; maStyle = ""; maColor.SetColor( COL_AUTO ); mnHeight = 0; mnWeight = EXC_FONTWGHT_DONTKNOW; mnEscapem = EXC_FONTESC_NONE; mnFamily = EXC_FONTFAM_SYSTEM; mnCharSet = EXC_FONTCSET_ANSI_LATIN; mnUnderline = EXC_FONTUNDERL_NONE; mbItalic = mbStrikeout = mbOutline = mbShadow = false; } void XclFontData::FillFromVclFont( const vcl::Font& rFont ) { maName = XclTools::GetXclFontName( rFont.GetName() ); // substitute with MS fonts maStyle = ""; maColor = rFont.GetColor(); SetScUnderline( rFont.GetUnderline() ); mnEscapem = EXC_FONTESC_NONE; SetScHeight( rFont.GetSize().Height() ); SetScWeight( rFont.GetWeight() ); SetScFamily( rFont.GetFamily() ); SetFontEncoding( rFont.GetCharSet() ); SetScPosture( rFont.GetItalic() ); SetScStrikeout( rFont.GetStrikeout() ); mbOutline = rFont.IsOutline(); mbShadow = rFont.IsShadow(); } void XclFontData::FillFromSvxFont( const SvxFont& rFont ) { FillFromVclFont( rFont ); SetScEscapement( rFont.GetEscapement() ); } // *** conversion of VCL/SVX constants *** ------------------------------------ FontFamily XclFontData::GetScFamily( rtl_TextEncoding eDefTextEnc ) const { FontFamily eScFamily; // ! format differs from Windows documentation: family is in lower nibble, pitch unknown switch( mnFamily & 0x0F ) { case EXC_FONTFAM_ROMAN: eScFamily = FAMILY_ROMAN; break; case EXC_FONTFAM_SWISS: eScFamily = FAMILY_SWISS; break; case EXC_FONTFAM_MODERN: eScFamily = FAMILY_MODERN; break; case EXC_FONTFAM_SCRIPT: eScFamily = FAMILY_SCRIPT; break; case EXC_FONTFAM_DECORATIVE: eScFamily = FAMILY_DECORATIVE; break; default: eScFamily = ((eDefTextEnc == RTL_TEXTENCODING_APPLE_ROMAN) && (maName.equalsIgnoreAsciiCase( "Geneva" ) || maName.equalsIgnoreAsciiCase( "Chicago" ))) ? FAMILY_SWISS : FAMILY_DONTKNOW; } return eScFamily; } rtl_TextEncoding XclFontData::GetFontEncoding() const { // convert Windows character set to text encoding identifier return rtl_getTextEncodingFromWindowsCharset( mnCharSet ); } FontItalic XclFontData::GetScPosture() const { return mbItalic ? ITALIC_NORMAL : ITALIC_NONE; } FontWeight XclFontData::GetScWeight() const { FontWeight eScWeight; if( !mnWeight ) eScWeight = WEIGHT_DONTKNOW; else if( mnWeight < 150 ) eScWeight = WEIGHT_THIN; else if( mnWeight < 250 ) eScWeight = WEIGHT_ULTRALIGHT; else if( mnWeight < 325 ) eScWeight = WEIGHT_LIGHT; else if( mnWeight < 375 ) eScWeight = WEIGHT_SEMILIGHT; else if( mnWeight < 450 ) eScWeight = WEIGHT_NORMAL; else if( mnWeight < 550 ) eScWeight = WEIGHT_MEDIUM; else if( mnWeight < 650 ) eScWeight = WEIGHT_SEMIBOLD; else if( mnWeight < 750 ) eScWeight = WEIGHT_BOLD; else if( mnWeight < 850 ) eScWeight = WEIGHT_ULTRABOLD; else eScWeight = WEIGHT_BLACK; return eScWeight; } FontUnderline XclFontData::GetScUnderline() const { FontUnderline eScUnderl = UNDERLINE_NONE; switch( mnUnderline ) { case EXC_FONTUNDERL_SINGLE: case EXC_FONTUNDERL_SINGLE_ACC: eScUnderl = UNDERLINE_SINGLE; break; case EXC_FONTUNDERL_DOUBLE: case EXC_FONTUNDERL_DOUBLE_ACC: eScUnderl = UNDERLINE_DOUBLE; break; } return eScUnderl; } SvxEscapement XclFontData::GetScEscapement() const { SvxEscapement eScEscapem = SVX_ESCAPEMENT_OFF; switch( mnEscapem ) { case EXC_FONTESC_SUPER: eScEscapem = SVX_ESCAPEMENT_SUPERSCRIPT; break; case EXC_FONTESC_SUB: eScEscapem = SVX_ESCAPEMENT_SUBSCRIPT; break; } return eScEscapem; } FontStrikeout XclFontData::GetScStrikeout() const { return mbStrikeout ? STRIKEOUT_SINGLE : STRIKEOUT_NONE; } void XclFontData::SetScHeight( sal_Int32 nTwips ) { mnHeight = static_cast< sal_uInt16 >( ::std::min( nTwips, static_cast(0x7FFFL) ) ); } void XclFontData::SetScFamily( FontFamily eScFamily ) { switch( eScFamily ) { case FAMILY_DONTKNOW: mnFamily = EXC_FONTFAM_DONTKNOW; break; case FAMILY_DECORATIVE: mnFamily = EXC_FONTFAM_DECORATIVE; break; case FAMILY_MODERN: mnFamily = EXC_FONTFAM_MODERN; break; case FAMILY_ROMAN: mnFamily = EXC_FONTFAM_ROMAN; break; case FAMILY_SCRIPT: mnFamily = EXC_FONTFAM_SCRIPT; break; case FAMILY_SWISS: mnFamily = EXC_FONTFAM_SWISS; break; case FAMILY_SYSTEM: mnFamily = EXC_FONTFAM_SYSTEM; break; default: OSL_FAIL( "XclFontData::SetScFamily - unknown font family" ); mnFamily = EXC_FONTFAM_DONTKNOW; } } void XclFontData::SetFontEncoding( rtl_TextEncoding eFontEnc ) { // convert text encoding identifier to Windows character set mnCharSet = rtl_getBestWindowsCharsetFromTextEncoding( eFontEnc ); } void XclFontData::SetScPosture( FontItalic eScPosture ) { mbItalic = (eScPosture == ITALIC_OBLIQUE) || (eScPosture == ITALIC_NORMAL); } void XclFontData::SetScWeight( FontWeight eScWeight ) { switch( eScWeight ) { case WEIGHT_DONTKNOW: mnWeight = EXC_FONTWGHT_DONTKNOW; break; case WEIGHT_THIN: mnWeight = EXC_FONTWGHT_THIN; break; case WEIGHT_ULTRALIGHT: mnWeight = EXC_FONTWGHT_ULTRALIGHT; break; case WEIGHT_LIGHT: mnWeight = EXC_FONTWGHT_LIGHT; break; case WEIGHT_SEMILIGHT: mnWeight = EXC_FONTWGHT_SEMILIGHT; break; case WEIGHT_NORMAL: mnWeight = EXC_FONTWGHT_NORMAL; break; case WEIGHT_MEDIUM: mnWeight = EXC_FONTWGHT_MEDIUM; break; case WEIGHT_SEMIBOLD: mnWeight = EXC_FONTWGHT_SEMIBOLD; break; case WEIGHT_BOLD: mnWeight = EXC_FONTWGHT_BOLD; break; case WEIGHT_ULTRABOLD: mnWeight = EXC_FONTWGHT_ULTRABOLD; break; case WEIGHT_BLACK: mnWeight = EXC_FONTWGHT_BLACK; break; default: mnWeight = EXC_FONTWGHT_NORMAL; } } void XclFontData::SetScUnderline( FontUnderline eScUnderl ) { switch( eScUnderl ) { case UNDERLINE_NONE: case UNDERLINE_DONTKNOW: mnUnderline = EXC_FONTUNDERL_NONE; break; case UNDERLINE_DOUBLE: case UNDERLINE_DOUBLEWAVE: mnUnderline = EXC_FONTUNDERL_DOUBLE; break; default: mnUnderline = EXC_FONTUNDERL_SINGLE; } } void XclFontData::SetScEscapement( short nScEscapem ) { if( nScEscapem > 0 ) mnEscapem = EXC_FONTESC_SUPER; else if( nScEscapem < 0 ) mnEscapem = EXC_FONTESC_SUB; else mnEscapem = EXC_FONTESC_NONE; } void XclFontData::SetScStrikeout( FontStrikeout eScStrikeout ) { mbStrikeout = (eScStrikeout == STRIKEOUT_SINGLE) || (eScStrikeout == STRIKEOUT_DOUBLE) || (eScStrikeout == STRIKEOUT_BOLD) || (eScStrikeout == STRIKEOUT_SLASH) || (eScStrikeout == STRIKEOUT_X); } // *** conversion of API constants *** ---------------------------------------- float XclFontData::GetApiHeight() const { return static_cast< float >( mnHeight / TWIPS_PER_POINT ); } sal_Int16 XclFontData::GetApiFamily() const { sal_Int16 nApiFamily = AwtFontFamily::DONTKNOW; switch( mnFamily ) { case FAMILY_DECORATIVE: nApiFamily = AwtFontFamily::DECORATIVE; break; case FAMILY_MODERN: nApiFamily = AwtFontFamily::MODERN; break; case FAMILY_ROMAN: nApiFamily = AwtFontFamily::ROMAN; break; case FAMILY_SCRIPT: nApiFamily = AwtFontFamily::SCRIPT; break; case FAMILY_SWISS: nApiFamily = AwtFontFamily::SWISS; break; case FAMILY_SYSTEM: nApiFamily = AwtFontFamily::SYSTEM; break; } return nApiFamily; } sal_Int16 XclFontData::GetApiFontEncoding() const { // API constants are equal to rtl_TextEncoding constants return static_cast< sal_Int16 >( GetFontEncoding() ); } Awt::FontSlant XclFontData::GetApiPosture() const { return mbItalic ? Awt::FontSlant_ITALIC : Awt::FontSlant_NONE; } float XclFontData::GetApiWeight() const { return VCLUnoHelper::ConvertFontWeight( GetScWeight() ); } sal_Int16 XclFontData::GetApiUnderline() const { sal_Int16 nApiUnderl = AwtFontUnderline::NONE; switch( mnUnderline ) { case EXC_FONTUNDERL_SINGLE: case EXC_FONTUNDERL_SINGLE_ACC: nApiUnderl = AwtFontUnderline::SINGLE; break; case EXC_FONTUNDERL_DOUBLE: case EXC_FONTUNDERL_DOUBLE_ACC: nApiUnderl = AwtFontUnderline::DOUBLE; break; } return nApiUnderl; } sal_Int16 XclFontData::GetApiEscapement() const { sal_Int16 nApiEscapem = 0; switch( mnEscapem ) { case EXC_FONTESC_SUPER: nApiEscapem = 33; break; case EXC_FONTESC_SUB: nApiEscapem = -33; break; } return nApiEscapem; } sal_Int16 XclFontData::GetApiStrikeout() const { return mbStrikeout ? AwtFontStrikeout::SINGLE : AwtFontStrikeout::NONE; } void XclFontData::SetApiHeight( float fPoint ) { mnHeight = static_cast< sal_uInt16 >( ::std::min( fPoint * TWIPS_PER_POINT + 0.5, 32767.0 ) ); } void XclFontData::SetApiFamily( sal_Int16 nApiFamily ) { switch( nApiFamily ) { case AwtFontFamily::DECORATIVE: mnFamily = FAMILY_DECORATIVE; break; case AwtFontFamily::MODERN: mnFamily = FAMILY_MODERN; break; case AwtFontFamily::ROMAN: mnFamily = FAMILY_ROMAN; break; case AwtFontFamily::SCRIPT: mnFamily = FAMILY_SCRIPT; break; case AwtFontFamily::SWISS: mnFamily = FAMILY_SWISS; break; case AwtFontFamily::SYSTEM: mnFamily = FAMILY_SYSTEM; break; default: mnFamily = FAMILY_DONTKNOW; } } void XclFontData::SetApiPosture( Awt::FontSlant eApiPosture ) { mbItalic = (eApiPosture == Awt::FontSlant_OBLIQUE) || (eApiPosture == Awt::FontSlant_ITALIC) || (eApiPosture == Awt::FontSlant_REVERSE_OBLIQUE) || (eApiPosture == Awt::FontSlant_REVERSE_ITALIC); } void XclFontData::SetApiWeight( float fApiWeight ) { SetScWeight( VCLUnoHelper::ConvertFontWeight( fApiWeight ) ); } void XclFontData::SetApiUnderline( sal_Int16 nApiUnderl ) { switch( nApiUnderl ) { case AwtFontUnderline::NONE: case AwtFontUnderline::DONTKNOW: mnUnderline = EXC_FONTUNDERL_NONE; break; case AwtFontUnderline::DOUBLE: case AwtFontUnderline::DOUBLEWAVE: mnUnderline = EXC_FONTUNDERL_DOUBLE; break; default: mnUnderline = EXC_FONTUNDERL_SINGLE; } } void XclFontData::SetApiEscapement( sal_Int16 nApiEscapem ) { if( nApiEscapem > 0 ) mnEscapem = EXC_FONTESC_SUPER; else if( nApiEscapem < 0 ) mnEscapem = EXC_FONTESC_SUB; else mnEscapem = EXC_FONTESC_NONE; } void XclFontData::SetApiStrikeout( sal_Int16 nApiStrikeout ) { mbStrikeout = (nApiStrikeout != AwtFontStrikeout::NONE) && (nApiStrikeout != AwtFontStrikeout::DONTKNOW); } bool operator==( const XclFontData& rLeft, const XclFontData& rRight ) { return (rLeft.mnHeight == rRight.mnHeight) && (rLeft.mnWeight == rRight.mnWeight) && (rLeft.mnUnderline == rRight.mnUnderline) && (rLeft.maColor == rRight.maColor) && (rLeft.mnEscapem == rRight.mnEscapem) && (rLeft.mnFamily == rRight.mnFamily) && (rLeft.mnCharSet == rRight.mnCharSet) && (rLeft.mbItalic == rRight.mbItalic) && (rLeft.mbStrikeout == rRight.mbStrikeout) && (rLeft.mbOutline == rRight.mbOutline) && (rLeft.mbShadow == rRight.mbShadow) && (rLeft.maName == rRight.maName); } namespace { /** Property names for common font settings. */ const sal_Char *const sppcPropNamesChCommon[] = { "CharUnderline", "CharStrikeout", "CharColor", "CharContoured", "CharShadowed", 0 }; /** Property names for Western font settings. */ const sal_Char *const sppcPropNamesChWstrn[] = { "CharFontName", "CharHeight", "CharPosture", "CharWeight", 0 }; /** Property names for Asian font settings. */ const sal_Char *const sppcPropNamesChAsian[] = { "CharFontNameAsian", "CharHeightAsian", "CharPostureAsian", "CharWeightAsian", 0 }; /** Property names for Complex font settings. */ const sal_Char *const sppcPropNamesChCmplx[] = { "CharFontNameComplex", "CharHeightComplex", "CharPostureComplex", "CharWeightComplex", 0 }; /** Property names for escapement. */ const sal_Char *const sppcPropNamesChEscapement[] = { "CharEscapement", "CharEscapementHeight", 0 }; const sal_Int8 EXC_API_ESC_HEIGHT = 58; /// Default escapement font height. /** Property names for Western font settings without font name. */ const sal_Char *const *const sppcPropNamesChWstrnNoName = sppcPropNamesChWstrn + 1; /** Property names for Asian font settings without font name. */ const sal_Char *const *const sppcPropNamesChAsianNoName = sppcPropNamesChAsian + 1; /** Property names for Complex font settings without font name. */ const sal_Char *const *const sppcPropNamesChCmplxNoName = sppcPropNamesChCmplx + 1; /** Property names for font settings in form controls. */ const sal_Char *const sppcPropNamesControl[] = { "FontName", "FontFamily", "FontCharset", "FontHeight", "FontSlant", "FontWeight", "FontUnderline", "FontStrikeout", "TextColor", 0 }; /** Inserts all passed API font settings into the font data object. */ void lclSetApiFontSettings( XclFontData& rFontData, const OUString& rApiFontName, float fApiHeight, float fApiWeight, Awt::FontSlant eApiPosture, sal_Int16 nApiUnderl, sal_Int16 nApiStrikeout ) { rFontData.maName = XclTools::GetXclFontName( rApiFontName ); rFontData.SetApiHeight( fApiHeight ); rFontData.SetApiWeight( fApiWeight ); rFontData.SetApiPosture( eApiPosture ); rFontData.SetApiUnderline( nApiUnderl ); rFontData.SetApiStrikeout( nApiStrikeout ); } /** Writes script dependent properties to a font property set helper. */ void lclWriteChartFont( ScfPropertySet& rPropSet, ScfPropSetHelper& rHlpName, ScfPropSetHelper& rHlpNoName, const XclFontData& rFontData, bool bHasFontName ) { // select the font helper ScfPropSetHelper& rPropSetHlp = bHasFontName ? rHlpName : rHlpNoName; // initialize the font helper (must be called before writing any properties) rPropSetHlp.InitializeWrite(); // write font name if( bHasFontName ) rPropSetHlp << rFontData.maName; // write remaining properties rPropSetHlp << rFontData.GetApiHeight() << rFontData.GetApiPosture() << rFontData.GetApiWeight(); // write properties to property set rPropSetHlp.WriteToPropertySet( rPropSet ); } } // namespace XclFontPropSetHelper::XclFontPropSetHelper() : maHlpChCommon( sppcPropNamesChCommon ), maHlpChWstrn( sppcPropNamesChWstrn ), maHlpChAsian( sppcPropNamesChAsian ), maHlpChCmplx( sppcPropNamesChCmplx ), maHlpChWstrnNoName( sppcPropNamesChWstrnNoName ), maHlpChAsianNoName( sppcPropNamesChAsianNoName ), maHlpChCmplxNoName( sppcPropNamesChCmplxNoName ), maHlpChEscapement( sppcPropNamesChEscapement ), maHlpControl( sppcPropNamesControl ) { } void XclFontPropSetHelper::ReadFontProperties( XclFontData& rFontData, const ScfPropertySet& rPropSet, XclFontPropSetType eType, sal_Int16 nScript ) { switch( eType ) { case EXC_FONTPROPSET_CHART: { OUString aApiFontName; float fApiHeight, fApiWeight; sal_Int16 nApiUnderl = 0, nApiStrikeout = 0; Awt::FontSlant eApiPosture; // read script type dependent properties ScfPropSetHelper& rPropSetHlp = GetChartHelper( nScript ); rPropSetHlp.ReadFromPropertySet( rPropSet ); rPropSetHlp >> aApiFontName >> fApiHeight >> eApiPosture >> fApiWeight; // read common properties maHlpChCommon.ReadFromPropertySet( rPropSet ); maHlpChCommon >> nApiUnderl >> nApiStrikeout >> rFontData.maColor >> rFontData.mbOutline >> rFontData.mbShadow; // convert API property values to Excel settings lclSetApiFontSettings( rFontData, aApiFontName, fApiHeight, fApiWeight, eApiPosture, nApiUnderl, nApiStrikeout ); // font escapement sal_Int16 nApiEscapement = 0; sal_Int8 nApiEscHeight = 0; maHlpChEscapement.ReadFromPropertySet( rPropSet ); maHlpChEscapement.ReadFromPropertySet( rPropSet ); maHlpChEscapement.ReadFromPropertySet( rPropSet ); maHlpChEscapement >> nApiEscapement >> nApiEscHeight; rFontData.SetApiEscapement( nApiEscapement ); } break; case EXC_FONTPROPSET_CONTROL: { OUString aApiFontName; float fApiHeight, fApiWeight; sal_Int16 nApiFamily, nApiCharSet, nApiPosture, nApiUnderl, nApiStrikeout; // read font properties maHlpControl.ReadFromPropertySet( rPropSet ); maHlpControl >> aApiFontName >> nApiFamily >> nApiCharSet >> fApiHeight >> nApiPosture >> fApiWeight >> nApiUnderl >> nApiStrikeout >> rFontData.maColor; // convert API property values to Excel settings Awt::FontSlant eApiPosture = static_cast< Awt::FontSlant >( nApiPosture ); lclSetApiFontSettings( rFontData, aApiFontName, fApiHeight, fApiWeight, eApiPosture, nApiUnderl, nApiStrikeout ); rFontData.SetApiFamily( nApiFamily ); rFontData.SetFontEncoding( nApiCharSet ); } break; } } void XclFontPropSetHelper::WriteFontProperties( ScfPropertySet& rPropSet, XclFontPropSetType eType, const XclFontData& rFontData, bool bHasWstrn, bool bHasAsian, bool bHasCmplx, const Color* pFontColor ) { switch( eType ) { case EXC_FONTPROPSET_CHART: { // write common properties maHlpChCommon.InitializeWrite(); const Color& rColor = pFontColor ? *pFontColor : rFontData.maColor; maHlpChCommon << rFontData.GetApiUnderline() << rFontData.GetApiStrikeout() << rColor << rFontData.mbOutline << rFontData.mbShadow; maHlpChCommon.WriteToPropertySet( rPropSet ); // write script type dependent properties lclWriteChartFont( rPropSet, maHlpChWstrn, maHlpChWstrnNoName, rFontData, bHasWstrn ); lclWriteChartFont( rPropSet, maHlpChAsian, maHlpChAsianNoName, rFontData, bHasAsian ); lclWriteChartFont( rPropSet, maHlpChCmplx, maHlpChCmplxNoName, rFontData, bHasCmplx ); // font escapement if( rFontData.GetScEscapement() != SVX_ESCAPEMENT_OFF ) { maHlpChEscapement.InitializeWrite(); maHlpChEscapement << rFontData.GetApiEscapement() << EXC_API_ESC_HEIGHT; maHlpChEscapement.WriteToPropertySet( rPropSet ); } } break; case EXC_FONTPROPSET_CONTROL: { maHlpControl.InitializeWrite(); maHlpControl << rFontData.maName << rFontData.GetApiFamily() << rFontData.GetApiFontEncoding() << static_cast< sal_Int16 >( rFontData.GetApiHeight() + 0.5 ) << rFontData.GetApiPosture() << rFontData.GetApiWeight() << rFontData.GetApiUnderline() << rFontData.GetApiStrikeout() << rFontData.maColor; maHlpControl.WriteToPropertySet( rPropSet ); } break; } } ScfPropSetHelper& XclFontPropSetHelper::GetChartHelper( sal_Int16 nScript ) { namespace ApiScriptType = ::com::sun::star::i18n::ScriptType; switch( nScript ) { case ApiScriptType::LATIN: return maHlpChWstrn; case ApiScriptType::ASIAN: return maHlpChAsian; case ApiScriptType::COMPLEX: return maHlpChCmplx; default: OSL_FAIL( "XclFontPropSetHelper::GetChartHelper - unknown script type" ); } return maHlpChWstrn; } // Number formats ============================================================= namespace { /** Special number format index describing a reused format. */ const NfIndexTableOffset PRV_NF_INDEX_REUSE = NF_INDEX_TABLE_ENTRIES; /** German primary language not defined, LANGUAGE_GERMAN belongs to Germany. */ const LanguageType PRV_LANGUAGE_GERMAN_PRIM = LANGUAGE_GERMAN & LANGUAGE_MASK_PRIMARY; /** French primary language not defined, LANGUAGE_FRENCH belongs to France. */ const LanguageType PRV_LANGUAGE_FRENCH_PRIM = LANGUAGE_FRENCH & LANGUAGE_MASK_PRIMARY; /** Parent language identifier for Asian languages. */ const LanguageType PRV_LANGUAGE_ASIAN_PRIM = LANGUAGE_CHINESE & LANGUAGE_MASK_PRIMARY; /** Stores the number format used in Calc for an Excel built-in number format. */ struct XclBuiltInFormat { sal_uInt16 mnXclNumFmt; /// Excel built-in index. const sal_Char* mpFormat; /// Format string, may be 0 (meOffset used then). NfIndexTableOffset meOffset; /// SvNumberFormatter format index, if mpFormat==0. sal_uInt16 mnXclReuseFmt; /// Use this Excel format, if meOffset==PRV_NF_INDEX_REUSE. }; /** Defines a literal Excel built-in number format. */ #define EXC_NUMFMT_STRING( nXclNumFmt, pcUtf8 ) \ { nXclNumFmt, pcUtf8, NF_NUMBER_STANDARD, 0 } /** Defines an Excel built-in number format that maps to an own built-in format. */ #define EXC_NUMFMT_OFFSET( nXclNumFmt, eOffset ) \ { nXclNumFmt, 0, eOffset, 0 } /** Defines an Excel built-in number format that is the same as the specified. */ #define EXC_NUMFMT_REUSE( nXclNumFmt, nXclReuse ) \ { nXclNumFmt, 0, PRV_NF_INDEX_REUSE, nXclReuse } /** Terminates an Excel built-in number format table. */ #define EXC_NUMFMT_ENDTABLE() \ { EXC_FORMAT_NOTFOUND, 0, NF_NUMBER_STANDARD, 0 } // Currency unit characters #define UTF8_BAHT "\340\270\277" #define UTF8_EURO "\342\202\254" #define UTF8_POUND_UK "\302\243" #define UTF8_SHEQEL "\342\202\252" #define UTF8_WON "\357\277\246" #define UTF8_YEN_CS "\357\277\245" #define UTF8_YEN_JP "\302\245" // Japanese/Chinese date/time characters #define UTF8_CJ_YEAR "\345\271\264" #define UTF8_CJ_MON "\346\234\210" #define UTF8_CJ_DAY "\346\227\245" #define UTF8_CJ_HOUR "\346\231\202" #define UTF8_CJ_MIN "\345\210\206" #define UTF8_CJ_SEC "\347\247\222" // Chinese Simplified date/time characters #define UTF8_CS_HOUR "\346\227\266" // Korean date/time characters #define UTF8_KO_YEAR "\353\205\204" #define UTF8_KO_MON "\354\233\224" #define UTF8_KO_DAY "\354\235\274" #define UTF8_KO_HOUR "\354\213\234" #define UTF8_KO_MIN "\353\266\204" #define UTF8_KO_SEC "\354\264\210" /** Default number format table. Last parent of all other tables, used for unknown languages. */ static const XclBuiltInFormat spBuiltInFormats_DONTKNOW[] = { EXC_NUMFMT_OFFSET( 0, NF_NUMBER_STANDARD ), // General EXC_NUMFMT_OFFSET( 1, NF_NUMBER_INT ), // 0 EXC_NUMFMT_OFFSET( 2, NF_NUMBER_DEC2 ), // 0.00 EXC_NUMFMT_OFFSET( 3, NF_NUMBER_1000INT ), // #,##0 EXC_NUMFMT_OFFSET( 4, NF_NUMBER_1000DEC2 ), // #,##0.00 // 5...8 contained in file EXC_NUMFMT_OFFSET( 9, NF_PERCENT_INT ), // 0% EXC_NUMFMT_OFFSET( 10, NF_PERCENT_DEC2 ), // 0.00% EXC_NUMFMT_OFFSET( 11, NF_SCIENTIFIC_000E00 ), // 0.00E+00 EXC_NUMFMT_OFFSET( 12, NF_FRACTION_1 ), // # ?/? EXC_NUMFMT_OFFSET( 13, NF_FRACTION_2 ), // # ??/?? // 14...22 date and time formats EXC_NUMFMT_OFFSET( 14, NF_DATE_SYS_DDMMYYYY ), EXC_NUMFMT_OFFSET( 15, NF_DATE_SYS_DMMMYY ), EXC_NUMFMT_OFFSET( 16, NF_DATE_SYS_DDMMM ), EXC_NUMFMT_OFFSET( 17, NF_DATE_SYS_MMYY ), EXC_NUMFMT_OFFSET( 18, NF_TIME_HHMMAMPM ), EXC_NUMFMT_OFFSET( 19, NF_TIME_HHMMSSAMPM ), EXC_NUMFMT_OFFSET( 20, NF_TIME_HHMM ), EXC_NUMFMT_OFFSET( 21, NF_TIME_HHMMSS ), EXC_NUMFMT_OFFSET( 22, NF_DATETIME_SYSTEM_SHORT_HHMM ), // 23...36 international formats EXC_NUMFMT_REUSE( 23, 0 ), EXC_NUMFMT_REUSE( 24, 0 ), EXC_NUMFMT_REUSE( 25, 0 ), EXC_NUMFMT_REUSE( 26, 0 ), EXC_NUMFMT_REUSE( 27, 14 ), EXC_NUMFMT_REUSE( 28, 14 ), EXC_NUMFMT_REUSE( 29, 14 ), EXC_NUMFMT_REUSE( 30, 14 ), EXC_NUMFMT_REUSE( 31, 14 ), EXC_NUMFMT_REUSE( 32, 21 ), EXC_NUMFMT_REUSE( 33, 21 ), EXC_NUMFMT_REUSE( 34, 21 ), EXC_NUMFMT_REUSE( 35, 21 ), EXC_NUMFMT_REUSE( 36, 14 ), // 37...44 accounting formats // 41...44 contained in file EXC_NUMFMT_STRING( 37, "#,##0;-#,##0" ), EXC_NUMFMT_STRING( 38, "#,##0;[RED]-#,##0" ), EXC_NUMFMT_STRING( 39, "#,##0.00;-#,##0.00" ), EXC_NUMFMT_STRING( 40, "#,##0.00;[RED]-#,##0.00" ), // 45...49 more special formats EXC_NUMFMT_STRING( 45, "mm:ss" ), EXC_NUMFMT_STRING( 46, "[h]:mm:ss" ), EXC_NUMFMT_STRING( 47, "mm:ss.0" ), EXC_NUMFMT_STRING( 48, "##0.0E+0" ), EXC_NUMFMT_OFFSET( 49, NF_TEXT ), // 50...81 international formats EXC_NUMFMT_REUSE( 50, 14 ), EXC_NUMFMT_REUSE( 51, 14 ), EXC_NUMFMT_REUSE( 52, 14 ), EXC_NUMFMT_REUSE( 53, 14 ), EXC_NUMFMT_REUSE( 54, 14 ), EXC_NUMFMT_REUSE( 55, 14 ), EXC_NUMFMT_REUSE( 56, 14 ), EXC_NUMFMT_REUSE( 57, 14 ), EXC_NUMFMT_REUSE( 58, 14 ), EXC_NUMFMT_REUSE( 59, 1 ), EXC_NUMFMT_REUSE( 60, 2 ), EXC_NUMFMT_REUSE( 61, 3 ), EXC_NUMFMT_REUSE( 62, 4 ), EXC_NUMFMT_REUSE( 67, 9 ), EXC_NUMFMT_REUSE( 68, 10 ), EXC_NUMFMT_REUSE( 69, 12 ), EXC_NUMFMT_REUSE( 70, 13 ), EXC_NUMFMT_REUSE( 71, 14 ), EXC_NUMFMT_REUSE( 72, 14 ), EXC_NUMFMT_REUSE( 73, 15 ), EXC_NUMFMT_REUSE( 74, 16 ), EXC_NUMFMT_REUSE( 75, 17 ), EXC_NUMFMT_REUSE( 76, 20 ), EXC_NUMFMT_REUSE( 77, 21 ), EXC_NUMFMT_REUSE( 78, 22 ), EXC_NUMFMT_REUSE( 79, 45 ), EXC_NUMFMT_REUSE( 80, 46 ), EXC_NUMFMT_REUSE( 81, 47 ), // 82...163 not used, must not occur in a file (Excel may crash) EXC_NUMFMT_ENDTABLE() }; // ENGLISH -------------------------------------------------------------------- /** Base table for English locales. */ static const XclBuiltInFormat spBuiltInFormats_ENGLISH[] = { EXC_NUMFMT_STRING( 15, "DD-MMM-YY" ), EXC_NUMFMT_STRING( 16, "DD-MMM" ), EXC_NUMFMT_STRING( 17, "MMM-YY" ), EXC_NUMFMT_STRING( 18, "h:mm AM/PM" ), EXC_NUMFMT_STRING( 19, "h:mm:ss AM/PM" ), EXC_NUMFMT_STRING( 22, "DD/MM/YYYY hh:mm" ), EXC_NUMFMT_ENDTABLE() }; static const XclBuiltInFormat spBuiltInFormats_ENGLISH_UK[] = { EXC_NUMFMT_STRING( 63, UTF8_POUND_UK "#,##0;-" UTF8_POUND_UK "#,##0" ), EXC_NUMFMT_STRING( 64, UTF8_POUND_UK "#,##0;[RED]-" UTF8_POUND_UK "#,##0" ), EXC_NUMFMT_STRING( 65, UTF8_POUND_UK "#,##0.00;-" UTF8_POUND_UK "#,##0.00" ), EXC_NUMFMT_STRING( 66, UTF8_POUND_UK "#,##0.00;[RED]-" UTF8_POUND_UK "#,##0.00" ), EXC_NUMFMT_ENDTABLE() }; static const XclBuiltInFormat spBuiltInFormats_ENGLISH_EIRE[] = { EXC_NUMFMT_STRING( 63, UTF8_EURO "#,##0;-" UTF8_EURO "#,##0" ), EXC_NUMFMT_STRING( 64, UTF8_EURO "#,##0;[RED]-" UTF8_EURO "#,##0" ), EXC_NUMFMT_STRING( 65, UTF8_EURO "#,##0.00;-" UTF8_EURO "#,##0.00" ), EXC_NUMFMT_STRING( 66, UTF8_EURO "#,##0.00;[RED]-" UTF8_EURO "#,##0.00" ), EXC_NUMFMT_ENDTABLE() }; static const XclBuiltInFormat spBuiltInFormats_ENGLISH_US[] = { EXC_NUMFMT_STRING( 14, "M/D/YYYY" ), EXC_NUMFMT_STRING( 15, "D-MMM-YY" ), EXC_NUMFMT_STRING( 16, "D-MMM" ), EXC_NUMFMT_STRING( 20, "h:mm" ), EXC_NUMFMT_STRING( 21, "h:mm:ss" ), EXC_NUMFMT_STRING( 22, "M/D/YYYY h:mm" ), EXC_NUMFMT_STRING( 37, "#,##0_);(#,##0)" ), EXC_NUMFMT_STRING( 38, "#,##0_);[RED](#,##0)" ), EXC_NUMFMT_STRING( 39, "#,##0.00_);(#,##0.00)" ), EXC_NUMFMT_STRING( 40, "#,##0.00_);[RED](#,##0.00)" ), EXC_NUMFMT_STRING( 63, "$#,##0_);($#,##0)" ), EXC_NUMFMT_STRING( 64, "$#,##0_);[RED]($#,##0)" ), EXC_NUMFMT_STRING( 65, "$#,##0.00_);($#,##0.00)" ), EXC_NUMFMT_STRING( 66, "$#,##0.00_);[RED]($#,##0.00)" ), EXC_NUMFMT_ENDTABLE() }; static const XclBuiltInFormat spBuiltInFormats_ENGLISH_CAN[] = { EXC_NUMFMT_STRING( 20, "h:mm" ), EXC_NUMFMT_STRING( 21, "h:mm:ss" ), EXC_NUMFMT_STRING( 22, "DD/MM/YYYY h:mm" ), EXC_NUMFMT_STRING( 63, "$#,##0;-$#,##0" ), EXC_NUMFMT_STRING( 64, "$#,##0;[RED]-$#,##0" ), EXC_NUMFMT_STRING( 65, "$#,##0.00;-$#,##0.00" ), EXC_NUMFMT_STRING( 66, "$#,##0.00;[RED]-$#,##0.00" ), EXC_NUMFMT_ENDTABLE() }; static const XclBuiltInFormat spBuiltInFormats_ENGLISH_AUS[] = { EXC_NUMFMT_STRING( 14, "D/MM/YYYY" ), EXC_NUMFMT_STRING( 15, "D-MMM-YY" ), EXC_NUMFMT_STRING( 16, "D-MMM" ), EXC_NUMFMT_STRING( 20, "h:mm" ), EXC_NUMFMT_STRING( 21, "h:mm:ss" ), EXC_NUMFMT_STRING( 22, "D/MM/YYYY h:mm" ), EXC_NUMFMT_STRING( 63, "$#,##0;-$#,##0" ), EXC_NUMFMT_STRING( 64, "$#,##0;[RED]-$#,##0" ), EXC_NUMFMT_STRING( 65, "$#,##0.00;-$#,##0.00" ), EXC_NUMFMT_STRING( 66, "$#,##0.00;[RED]-$#,##0.00" ), EXC_NUMFMT_ENDTABLE() }; static const XclBuiltInFormat spBuiltInFormats_ENGLISH_SAFRICA[] = { EXC_NUMFMT_STRING( 14, "YYYY/MM/DD" ), EXC_NUMFMT_OFFSET( 18, NF_TIME_HHMMAMPM ), EXC_NUMFMT_OFFSET( 19, NF_TIME_HHMMSSAMPM ), EXC_NUMFMT_STRING( 22, "YYYY/MM/DD hh:mm" ), EXC_NUMFMT_STRING( 63, "\\R #,##0;\\R -#,##0" ), EXC_NUMFMT_STRING( 64, "\\R #,##0;[RED]\\R -#,##0" ), EXC_NUMFMT_STRING( 65, "\\R #,##0.00;\\R -#,##0.00" ), EXC_NUMFMT_STRING( 66, "\\R #,##0.00;[RED]\\R -#,##0.00" ), EXC_NUMFMT_ENDTABLE() }; // FRENCH --------------------------------------------------------------------- /** Base table for French locales. */ static const XclBuiltInFormat spBuiltInFormats_FRENCH[] = { EXC_NUMFMT_STRING( 15, "DD-MMM-YY" ), EXC_NUMFMT_STRING( 16, "DD-MMM" ), EXC_NUMFMT_STRING( 17, "MMM-YY" ), EXC_NUMFMT_STRING( 18, "h:mm AM/PM" ), EXC_NUMFMT_STRING( 19, "h:mm:ss AM/PM" ), EXC_NUMFMT_ENDTABLE() }; static const XclBuiltInFormat spBuiltInFormats_FRENCH_FRANCE[] = { EXC_NUMFMT_STRING( 22, "DD/MM/YYYY hh:mm" ), EXC_NUMFMT_STRING( 37, "#,##0\\ _" UTF8_EURO ";-#,##0\\ _" UTF8_EURO ), EXC_NUMFMT_STRING( 38, "#,##0\\ _" UTF8_EURO ";[RED]-#,##0\\ _" UTF8_EURO ), EXC_NUMFMT_STRING( 39, "#,##0.00\\ _" UTF8_EURO ";-#,##0.00\\ _" UTF8_EURO ), EXC_NUMFMT_STRING( 40, "#,##0.00\\ _" UTF8_EURO ";[RED]-#,##0.00\\ _" UTF8_EURO ), EXC_NUMFMT_STRING( 63, "#,##0\\ " UTF8_EURO ";-#,##0\\ " UTF8_EURO ), EXC_NUMFMT_STRING( 64, "#,##0\\ " UTF8_EURO ";[RED]-#,##0\\ " UTF8_EURO ), EXC_NUMFMT_STRING( 65, "#,##0.00\\ " UTF8_EURO ";-#,##0.00\\ " UTF8_EURO ), EXC_NUMFMT_STRING( 66, "#,##0.00\\ " UTF8_EURO ";[RED]-#,##0.00\\ " UTF8_EURO ), EXC_NUMFMT_ENDTABLE() }; static const XclBuiltInFormat spBuiltInFormats_FRENCH_CANADIAN[] = { EXC_NUMFMT_STRING( 22, "YYYY-MM-DD hh:mm" ), EXC_NUMFMT_STRING( 37, "#,##0\\ _$_-;#,##0\\ _$-" ), EXC_NUMFMT_STRING( 38, "#,##0\\ _$_-;[RED]#,##0\\ _$-" ), EXC_NUMFMT_STRING( 39, "#,##0.00\\ _$_-;#,##0.00\\ _$-" ), EXC_NUMFMT_STRING( 40, "#,##0.00\\ _$_-;[RED]#,##0.00\\ _$-" ), EXC_NUMFMT_STRING( 63, "#,##0\\ $_-;#,##0\\ $-" ), EXC_NUMFMT_STRING( 64, "#,##0\\ $_-;[RED]#,##0\\ $-" ), EXC_NUMFMT_STRING( 65, "#,##0.00\\ $_-;#,##0.00\\ $-" ), EXC_NUMFMT_STRING( 66, "#,##0.00\\ $_-;[RED]#,##0.00\\ $-" ), EXC_NUMFMT_ENDTABLE() }; static const XclBuiltInFormat spBuiltInFormats_FRENCH_SWISS[] = { EXC_NUMFMT_STRING( 15, "DD.MMM.YY" ), EXC_NUMFMT_STRING( 16, "DD.MMM" ), EXC_NUMFMT_STRING( 17, "MMM.YY" ), EXC_NUMFMT_STRING( 22, "DD.MM.YYYY hh:mm" ), EXC_NUMFMT_STRING( 63, "\"SFr. \"#,##0;\"SFr. \"-#,##0" ), EXC_NUMFMT_STRING( 64, "\"SFr. \"#,##0;[RED]\"SFr. \"-#,##0" ), EXC_NUMFMT_STRING( 65, "\"SFr. \"#,##0.00;\"SFr. \"-#,##0.00" ), EXC_NUMFMT_STRING( 66, "\"SFr. \"#,##0.00;[RED]\"SFr. \"-#,##0.00" ), EXC_NUMFMT_ENDTABLE() }; static const XclBuiltInFormat spBuiltInFormats_FRENCH_BELGIAN[] = { EXC_NUMFMT_STRING( 14, "D/MM/YYYY" ), EXC_NUMFMT_STRING( 15, "D-MMM-YY" ), EXC_NUMFMT_STRING( 16, "D-MMM" ), EXC_NUMFMT_STRING( 20, "h:mm" ), EXC_NUMFMT_STRING( 21, "h:mm:ss" ), EXC_NUMFMT_STRING( 22, "D/MM/YYYY h:mm" ), EXC_NUMFMT_ENDTABLE() }; // GERMAN --------------------------------------------------------------------- /** Base table for German locales. */ static const XclBuiltInFormat spBuiltInFormats_GERMAN[] = { EXC_NUMFMT_STRING( 15, "DD. MMM YY" ), EXC_NUMFMT_STRING( 16, "DD. MMM" ), EXC_NUMFMT_STRING( 17, "MMM YY" ), EXC_NUMFMT_STRING( 18, "h:mm AM/PM" ), EXC_NUMFMT_STRING( 19, "h:mm:ss AM/PM" ), EXC_NUMFMT_STRING( 22, "DD.MM.YYYY hh:mm" ), EXC_NUMFMT_ENDTABLE() }; static const XclBuiltInFormat spBuiltInFormats_GERMAN_GERMANY[] = { EXC_NUMFMT_STRING( 37, "#,##0 _" UTF8_EURO ";-#,##0 _" UTF8_EURO ), EXC_NUMFMT_STRING( 38, "#,##0 _" UTF8_EURO ";[RED]-#,##0 _" UTF8_EURO ), EXC_NUMFMT_STRING( 39, "#,##0.00 _" UTF8_EURO ";-#,##0.00 _" UTF8_EURO ), EXC_NUMFMT_STRING( 40, "#,##0.00 _" UTF8_EURO ";[RED]-#,##0.00 _" UTF8_EURO ), EXC_NUMFMT_STRING( 63, "#,##0 " UTF8_EURO ";-#,##0 " UTF8_EURO ), EXC_NUMFMT_STRING( 64, "#,##0 " UTF8_EURO ";[RED]-#,##0 " UTF8_EURO ), EXC_NUMFMT_STRING( 65, "#,##0.00 " UTF8_EURO ";-#,##0.00 " UTF8_EURO ), EXC_NUMFMT_STRING( 66, "#,##0.00 " UTF8_EURO ";[RED]-#,##0.00 " UTF8_EURO ), EXC_NUMFMT_ENDTABLE() }; static const XclBuiltInFormat spBuiltInFormats_GERMAN_AUSTRIAN[] = { EXC_NUMFMT_STRING( 15, "DD.MMM.YY" ), EXC_NUMFMT_STRING( 16, "DD.MMM" ), EXC_NUMFMT_STRING( 17, "MMM.YY" ), EXC_NUMFMT_STRING( 63, UTF8_EURO " #,##0;-" UTF8_EURO " #,##0" ), EXC_NUMFMT_STRING( 64, UTF8_EURO " #,##0;[RED]-" UTF8_EURO " #,##0" ), EXC_NUMFMT_STRING( 65, UTF8_EURO " #,##0.00;-" UTF8_EURO " #,##0.00" ), EXC_NUMFMT_STRING( 66, UTF8_EURO " #,##0.00;[RED]-" UTF8_EURO " #,##0.00" ), EXC_NUMFMT_ENDTABLE() }; static const XclBuiltInFormat spBuiltInFormats_GERMAN_SWISS[] = { EXC_NUMFMT_STRING( 63, "\"SFr. \"#,##0;\"SFr. \"-#,##0" ), EXC_NUMFMT_STRING( 64, "\"SFr. \"#,##0;[RED]\"SFr. \"-#,##0" ), EXC_NUMFMT_STRING( 65, "\"SFr. \"#,##0.00;\"SFr. \"-#,##0.00" ), EXC_NUMFMT_STRING( 66, "\"SFr. \"#,##0.00;[RED]\"SFr. \"-#,##0.00" ), EXC_NUMFMT_ENDTABLE() }; static const XclBuiltInFormat spBuiltInFormats_GERMAN_LUXEMBOURG[] = { EXC_NUMFMT_STRING( 15, "DD.MMM.YY" ), EXC_NUMFMT_STRING( 16, "DD.MMM" ), EXC_NUMFMT_STRING( 17, "MMM.YY" ), EXC_NUMFMT_STRING( 37, "#,##0 _" UTF8_EURO ";-#,##0 _" UTF8_EURO ), EXC_NUMFMT_STRING( 38, "#,##0 _" UTF8_EURO ";[RED]-#,##0 _" UTF8_EURO ), EXC_NUMFMT_STRING( 39, "#,##0.00 _" UTF8_EURO ";-#,##0.00 _" UTF8_EURO ), EXC_NUMFMT_STRING( 40, "#,##0.00 _" UTF8_EURO ";[RED]-#,##0.00 _" UTF8_EURO ), EXC_NUMFMT_STRING( 63, "#,##0 " UTF8_EURO ";-#,##0 " UTF8_EURO ), EXC_NUMFMT_STRING( 64, "#,##0 " UTF8_EURO ";[RED]-#,##0 " UTF8_EURO ), EXC_NUMFMT_STRING( 65, "#,##0.00 " UTF8_EURO ";-#,##0.00 " UTF8_EURO ), EXC_NUMFMT_STRING( 66, "#,##0.00 " UTF8_EURO ";[RED]-#,##0.00 " UTF8_EURO ), EXC_NUMFMT_ENDTABLE() }; static const XclBuiltInFormat spBuiltInFormats_GERMAN_LIECHTENSTEIN[] = { EXC_NUMFMT_STRING( 63, "\"CHF \"#,##0;\"CHF \"-#,##0" ), EXC_NUMFMT_STRING( 64, "\"CHF \"#,##0;[RED]\"CHF \"-#,##0" ), EXC_NUMFMT_STRING( 65, "\"CHF \"#,##0.00;\"CHF \"-#,##0.00" ), EXC_NUMFMT_STRING( 66, "\"CHF \"#,##0.00;[RED]\"CHF \"-#,##0.00" ), EXC_NUMFMT_ENDTABLE() }; // ITALIAN -------------------------------------------------------------------- static const XclBuiltInFormat spBuiltInFormats_ITALIAN_ITALY[] = { EXC_NUMFMT_STRING( 15, "DD-MMM-YY" ), EXC_NUMFMT_STRING( 16, "DD-MMM" ), EXC_NUMFMT_STRING( 17, "MMM-YY" ), EXC_NUMFMT_STRING( 18, "h:mm AM/PM" ), EXC_NUMFMT_STRING( 19, "h:mm:ss AM/PM" ), EXC_NUMFMT_STRING( 20, "h:mm" ), EXC_NUMFMT_STRING( 21, "h:mm:ss" ), EXC_NUMFMT_STRING( 22, "DD/MM/YYYY h:mm" ), EXC_NUMFMT_STRING( 63, UTF8_EURO " #,##0;-" UTF8_EURO " #,##0" ), EXC_NUMFMT_STRING( 64, UTF8_EURO " #,##0;[RED]-" UTF8_EURO " #,##0" ), EXC_NUMFMT_STRING( 65, UTF8_EURO " #,##0.00;-" UTF8_EURO " #,##0.00" ), EXC_NUMFMT_STRING( 66, UTF8_EURO " #,##0.00;[RED]-" UTF8_EURO " #,##0.00" ), EXC_NUMFMT_ENDTABLE() }; static const XclBuiltInFormat spBuiltInFormats_ITALIAN_SWISS[] = { EXC_NUMFMT_STRING( 15, "DD.MMM.YY" ), EXC_NUMFMT_STRING( 16, "DD.MMM" ), EXC_NUMFMT_STRING( 17, "MMM.YY" ), EXC_NUMFMT_STRING( 18, "h:mm AM/PM" ), EXC_NUMFMT_STRING( 19, "h:mm:ss AM/PM" ), EXC_NUMFMT_STRING( 22, "DD.MM.YYYY hh:mm" ), EXC_NUMFMT_STRING( 63, "\"SFr. \"#,##0;\"SFr. \"-#,##0" ), EXC_NUMFMT_STRING( 64, "\"SFr. \"#,##0;[RED]\"SFr. \"-#,##0" ), EXC_NUMFMT_STRING( 65, "\"SFr. \"#,##0.00;\"SFr. \"-#,##0.00" ), EXC_NUMFMT_STRING( 66, "\"SFr. \"#,##0.00;[RED]\"SFr. \"-#,##0.00" ), EXC_NUMFMT_ENDTABLE() }; // SWEDISH -------------------------------------------------------------------- static const XclBuiltInFormat spBuiltInFormats_SWEDISH_SWEDEN[] = { EXC_NUMFMT_STRING( 15, "DD-MMM-YY" ), EXC_NUMFMT_STRING( 16, "DD-MMM" ), EXC_NUMFMT_STRING( 17, "MMM-YY" ), EXC_NUMFMT_STRING( 18, "h:mm AM/PM" ), EXC_NUMFMT_STRING( 19, "h:mm:ss AM/PM" ), EXC_NUMFMT_STRING( 22, "YYYY-MM-DD hh:mm" ), EXC_NUMFMT_STRING( 37, "#,##0 _k_r;-#,##0 _k_r" ), EXC_NUMFMT_STRING( 38, "#,##0 _k_r;[RED]-#,##0 _k_r" ), EXC_NUMFMT_STRING( 39, "#,##0.00 _k_r;-#,##0.00 _k_r" ), EXC_NUMFMT_STRING( 40, "#,##0.00 _k_r;[RED]-#,##0.00 _k_r" ), EXC_NUMFMT_STRING( 63, "#,##0 \"kr\";-#,##0 \"kr\"" ), EXC_NUMFMT_STRING( 64, "#,##0 \"kr\";[RED]-#,##0 \"kr\"" ), EXC_NUMFMT_STRING( 65, "#,##0.00 \"kr\";-#,##0.00 \"kr\"" ), EXC_NUMFMT_STRING( 66, "#,##0.00 \"kr\";[RED]-#,##0.00 \"kr\"" ), EXC_NUMFMT_ENDTABLE() }; static const XclBuiltInFormat spBuiltInFormats_SWEDISH_FINLAND[] = { EXC_NUMFMT_STRING( 9, "0 %" ), EXC_NUMFMT_STRING( 10, "0.00 %" ), EXC_NUMFMT_STRING( 15, "DD.MMM.YY" ), EXC_NUMFMT_STRING( 16, "DD.MMM" ), EXC_NUMFMT_STRING( 17, "MMM.YY" ), EXC_NUMFMT_STRING( 18, "h:mm AM/PM" ), EXC_NUMFMT_STRING( 19, "h:mm:ss AM/PM" ), EXC_NUMFMT_STRING( 22, "D.M.YYYY hh:mm" ), EXC_NUMFMT_STRING( 37, "#,##0 _" UTF8_EURO ";-#,##0 _" UTF8_EURO ), EXC_NUMFMT_STRING( 38, "#,##0 _" UTF8_EURO ";[RED]-#,##0 _" UTF8_EURO ), EXC_NUMFMT_STRING( 39, "#,##0.00 _" UTF8_EURO ";-#,##0.00 _" UTF8_EURO ), EXC_NUMFMT_STRING( 40, "#,##0.00 _" UTF8_EURO ";[RED]-#,##0.00 _" UTF8_EURO ), EXC_NUMFMT_STRING( 63, "#,##0 " UTF8_EURO ";-#,##0 " UTF8_EURO ), EXC_NUMFMT_STRING( 64, "#,##0 " UTF8_EURO ";[RED]-#,##0 " UTF8_EURO ), EXC_NUMFMT_STRING( 65, "#,##0.00 " UTF8_EURO ";-#,##0.00 " UTF8_EURO ), EXC_NUMFMT_STRING( 66, "#,##0.00 " UTF8_EURO ";[RED]-#,##0.00 " UTF8_EURO ), EXC_NUMFMT_ENDTABLE() }; // ASIAN ---------------------------------------------------------------------- /** Base table for Asian locales. */ static const XclBuiltInFormat spBuiltInFormats_ASIAN[] = { EXC_NUMFMT_STRING( 18, "h:mm AM/PM" ), EXC_NUMFMT_STRING( 19, "h:mm:ss AM/PM" ), EXC_NUMFMT_STRING( 20, "h:mm" ), EXC_NUMFMT_STRING( 21, "h:mm:ss" ), EXC_NUMFMT_STRING( 23, "$#,##0_);($#,##0)" ), EXC_NUMFMT_STRING( 24, "$#,##0_);[RED]($#,##0)" ), EXC_NUMFMT_STRING( 25, "$#,##0.00_);($#,##0.00)" ), EXC_NUMFMT_STRING( 26, "$#,##0.00_);[RED]($#,##0.00)" ), EXC_NUMFMT_REUSE( 29, 28 ), EXC_NUMFMT_REUSE( 36, 27 ), EXC_NUMFMT_REUSE( 50, 27 ), EXC_NUMFMT_REUSE( 51, 28 ), EXC_NUMFMT_REUSE( 52, 34 ), EXC_NUMFMT_REUSE( 53, 35 ), EXC_NUMFMT_REUSE( 54, 28 ), EXC_NUMFMT_REUSE( 55, 34 ), EXC_NUMFMT_REUSE( 56, 35 ), EXC_NUMFMT_REUSE( 57, 27 ), EXC_NUMFMT_REUSE( 58, 28 ), EXC_NUMFMT_ENDTABLE() }; static const XclBuiltInFormat spBuiltInFormats_JAPANESE[] = { EXC_NUMFMT_STRING( 14, "YYYY/M/D" ), EXC_NUMFMT_STRING( 15, "D-MMM-YY" ), EXC_NUMFMT_STRING( 16, "D-MMM" ), EXC_NUMFMT_STRING( 17, "MMM-YY" ), EXC_NUMFMT_STRING( 22, "YYYY/M/D h:mm" ), EXC_NUMFMT_STRING( 27, "[$-0411]GE.M.D" ), EXC_NUMFMT_STRING( 28, "[$-0411]GGGE" UTF8_CJ_YEAR "M" UTF8_CJ_MON "D" UTF8_CJ_DAY ), EXC_NUMFMT_STRING( 30, "[$-0411]M/D/YY" ), EXC_NUMFMT_STRING( 31, "[$-0411]YYYY" UTF8_CJ_YEAR "M" UTF8_CJ_MON "D" UTF8_CJ_DAY ), EXC_NUMFMT_STRING( 32, "[$-0411]h" UTF8_CJ_HOUR "mm" UTF8_CJ_MIN ), EXC_NUMFMT_STRING( 33, "[$-0411]h" UTF8_CJ_HOUR "mm" UTF8_CJ_MIN "ss" UTF8_CJ_SEC ), EXC_NUMFMT_STRING( 34, "[$-0411]YYYY" UTF8_CJ_YEAR "M" UTF8_CJ_MON ), EXC_NUMFMT_STRING( 35, "[$-0411]M" UTF8_CJ_MON "D" UTF8_CJ_DAY ), EXC_NUMFMT_STRING( 63, UTF8_YEN_JP "#,##0;-" UTF8_YEN_JP "#,##0" ), EXC_NUMFMT_STRING( 64, UTF8_YEN_JP "#,##0;[RED]-" UTF8_YEN_JP "#,##0" ), EXC_NUMFMT_STRING( 65, UTF8_YEN_JP "#,##0.00;-" UTF8_YEN_JP "#,##0.00" ), EXC_NUMFMT_STRING( 66, UTF8_YEN_JP "#,##0.00;[RED]-" UTF8_YEN_JP "#,##0.00" ), EXC_NUMFMT_ENDTABLE() }; static const XclBuiltInFormat spBuiltInFormats_KOREAN[] = { EXC_NUMFMT_STRING( 14, "YYYY-MM-DD" ), EXC_NUMFMT_STRING( 15, "DD-MMM-YY" ), EXC_NUMFMT_STRING( 16, "DD-MMM" ), EXC_NUMFMT_STRING( 17, "MMM-YY" ), EXC_NUMFMT_STRING( 22, "YYYY-MM-DD h:mm" ), EXC_NUMFMT_STRING( 27, "[$-0412]YYYY" UTF8_CJ_YEAR " MM" UTF8_CJ_MON " DD" UTF8_CJ_DAY ), EXC_NUMFMT_STRING( 28, "[$-0412]MM-DD" ), EXC_NUMFMT_STRING( 30, "[$-0412]MM-DD-YY" ), EXC_NUMFMT_STRING( 31, "[$-0412]YYYY" UTF8_KO_YEAR " MM" UTF8_KO_MON " DD" UTF8_KO_DAY ), EXC_NUMFMT_STRING( 32, "[$-0412]h" UTF8_KO_HOUR " mm" UTF8_KO_MIN ), EXC_NUMFMT_STRING( 33, "[$-0412]h" UTF8_KO_HOUR " mm" UTF8_KO_MIN " ss" UTF8_KO_SEC ), EXC_NUMFMT_STRING( 34, "[$-0412]YYYY\"/\"MM\"/\"DD" ), EXC_NUMFMT_STRING( 35, "[$-0412]YYYY-MM-DD" ), EXC_NUMFMT_STRING( 63, UTF8_WON "#,##0;-" UTF8_WON "#,##0" ), EXC_NUMFMT_STRING( 64, UTF8_WON "#,##0;[RED]-" UTF8_WON "#,##0" ), EXC_NUMFMT_STRING( 65, UTF8_WON "#,##0.00;-" UTF8_WON "#,##0.00" ), EXC_NUMFMT_STRING( 66, UTF8_WON "#,##0.00;[RED]-" UTF8_WON "#,##0.00" ), EXC_NUMFMT_ENDTABLE() }; static const XclBuiltInFormat spBuiltInFormats_CHINESE_SIMPLIFIED[] = { EXC_NUMFMT_STRING( 14, "YYYY-M-D" ), EXC_NUMFMT_STRING( 15, "D-MMM-YY" ), EXC_NUMFMT_STRING( 16, "D-MMM" ), EXC_NUMFMT_STRING( 17, "MMM-YY" ), EXC_NUMFMT_STRING( 22, "YYYY-M-D h:mm" ), EXC_NUMFMT_STRING( 27, "[$-0804]YYYY" UTF8_CJ_YEAR "M" UTF8_CJ_MON ), EXC_NUMFMT_STRING( 28, "[$-0804]M" UTF8_CJ_MON "D" UTF8_CJ_DAY ), EXC_NUMFMT_STRING( 30, "[$-0804]M-D-YY" ), EXC_NUMFMT_STRING( 31, "[$-0804]YYYY" UTF8_CJ_YEAR "M" UTF8_CJ_MON "D" UTF8_CJ_DAY ), EXC_NUMFMT_STRING( 32, "[$-0804]h" UTF8_CS_HOUR "mm" UTF8_CJ_MIN ), EXC_NUMFMT_STRING( 33, "[$-0804]h" UTF8_CS_HOUR "mm" UTF8_CJ_MIN "ss" UTF8_CJ_SEC ), EXC_NUMFMT_STRING( 34, "[$-0804]AM/PMh" UTF8_CS_HOUR "mm" UTF8_CJ_MIN ), EXC_NUMFMT_STRING( 35, "[$-0804]AM/PMh" UTF8_CS_HOUR "mm" UTF8_CJ_MIN "ss" UTF8_CJ_SEC ), EXC_NUMFMT_REUSE( 52, 27 ), EXC_NUMFMT_REUSE( 53, 28 ), EXC_NUMFMT_STRING( 63, UTF8_YEN_CS "#,##0;-" UTF8_YEN_CS "#,##0" ), EXC_NUMFMT_STRING( 64, UTF8_YEN_CS "#,##0;[RED]-" UTF8_YEN_CS "#,##0" ), EXC_NUMFMT_STRING( 65, UTF8_YEN_CS "#,##0.00;-" UTF8_YEN_CS "#,##0.00" ), EXC_NUMFMT_STRING( 66, UTF8_YEN_CS "#,##0.00;[RED]-" UTF8_YEN_CS "#,##0.00" ), EXC_NUMFMT_ENDTABLE() }; static const XclBuiltInFormat spBuiltInFormats_CHINESE_TRADITIONAL[] = { EXC_NUMFMT_STRING( 15, "D-MMM-YY" ), EXC_NUMFMT_STRING( 16, "D-MMM" ), EXC_NUMFMT_STRING( 17, "MMM-YY" ), EXC_NUMFMT_STRING( 18, "hh:mm AM/PM" ), EXC_NUMFMT_STRING( 19, "hh:mm:ss AM/PM" ), EXC_NUMFMT_OFFSET( 20, NF_TIME_HHMM ), EXC_NUMFMT_OFFSET( 21, NF_TIME_HHMMSS ), EXC_NUMFMT_STRING( 22, "YYYY/M/D hh:mm" ), EXC_NUMFMT_STRING( 23, "US$#,##0_);(US$#,##0)" ), EXC_NUMFMT_STRING( 24, "US$#,##0_);[RED](US$#,##0)" ), EXC_NUMFMT_STRING( 25, "US$#,##0.00_);(US$#,##0.00)" ), EXC_NUMFMT_STRING( 26, "US$#,##0.00_);[RED](US$#,##0.00)" ), EXC_NUMFMT_STRING( 27, "[$-0404]E/M/D" ), EXC_NUMFMT_STRING( 28, "[$-0404]E" UTF8_CJ_YEAR "M" UTF8_CJ_MON "D" UTF8_CJ_DAY ), EXC_NUMFMT_STRING( 30, "[$-0404]M/D/YY" ), EXC_NUMFMT_STRING( 31, "[$-0404]YYYY" UTF8_CJ_YEAR "M" UTF8_CJ_MON "D" UTF8_CJ_DAY ), EXC_NUMFMT_STRING( 32, "[$-0404]hh" UTF8_CJ_HOUR "mm" UTF8_CJ_MIN ), EXC_NUMFMT_STRING( 33, "[$-0404]hh" UTF8_CJ_HOUR "mm" UTF8_CJ_MIN "ss" UTF8_CJ_SEC ), EXC_NUMFMT_STRING( 34, "[$-0404]AM/PMhh" UTF8_CJ_HOUR "mm" UTF8_CJ_MIN ), EXC_NUMFMT_STRING( 35, "[$-0404]AM/PMhh" UTF8_CJ_HOUR "mm" UTF8_CJ_MIN "ss" UTF8_CJ_SEC ), EXC_NUMFMT_STRING( 63, "$#,##0;-$#,##0" ), EXC_NUMFMT_STRING( 64, "$#,##0;[RED]-$#,##0" ), EXC_NUMFMT_STRING( 65, "$#,##0.00;-$#,##0.00" ), EXC_NUMFMT_STRING( 66, "$#,##0.00;[RED]-$#,##0.00" ), EXC_NUMFMT_ENDTABLE() }; // OTHER ---------------------------------------------------------------------- static const XclBuiltInFormat spBuiltInFormats_HEBREW[] = { EXC_NUMFMT_STRING( 15, "DD-MMMM-YY" ), EXC_NUMFMT_STRING( 16, "DD-MMMM" ), EXC_NUMFMT_STRING( 17, "MMMM-YY" ), EXC_NUMFMT_STRING( 18, "h:mm AM/PM" ), EXC_NUMFMT_STRING( 19, "h:mm:ss AM/PM" ), EXC_NUMFMT_STRING( 63, UTF8_SHEQEL " #,##0;" UTF8_SHEQEL " -#,##0" ), EXC_NUMFMT_STRING( 64, UTF8_SHEQEL " #,##0;[RED]" UTF8_SHEQEL " -#,##0" ), EXC_NUMFMT_STRING( 65, UTF8_SHEQEL " #,##0.00;" UTF8_SHEQEL " -#,##0.00" ), EXC_NUMFMT_STRING( 66, UTF8_SHEQEL " #,##0.00;[RED]" UTF8_SHEQEL " -#,##0.00" ), EXC_NUMFMT_ENDTABLE() }; static const XclBuiltInFormat spBuiltInFormats_THAI[] = { EXC_NUMFMT_STRING( 14, "D/M/YYYY" ), EXC_NUMFMT_STRING( 15, "D-MMM-YY" ), EXC_NUMFMT_STRING( 16, "D-MMM" ), EXC_NUMFMT_STRING( 17, "MMM-YY" ), EXC_NUMFMT_STRING( 18, "h:mm AM/PM" ), EXC_NUMFMT_STRING( 19, "h:mm:ss AM/PM" ), EXC_NUMFMT_STRING( 22, "D/M/YYYY h:mm" ), EXC_NUMFMT_STRING( 59, "t0" ), EXC_NUMFMT_STRING( 60, "t0.00" ), EXC_NUMFMT_STRING( 61, "t#,##0" ), EXC_NUMFMT_STRING( 62, "t#,##0.00" ), EXC_NUMFMT_STRING( 63, "t" UTF8_BAHT "#,##0_);t(" UTF8_BAHT "#,##0)" ), EXC_NUMFMT_STRING( 64, "t" UTF8_BAHT "#,##0_);[RED]t(" UTF8_BAHT "#,##0)" ), EXC_NUMFMT_STRING( 65, "t" UTF8_BAHT "#,##0.00_);t(" UTF8_BAHT "#,##0.00)" ), EXC_NUMFMT_STRING( 66, "t" UTF8_BAHT "#,##0.00_);[RED]t(" UTF8_BAHT "#,##0.00)" ), EXC_NUMFMT_STRING( 67, "t0%" ), EXC_NUMFMT_STRING( 68, "t0.00%" ), EXC_NUMFMT_STRING( 69, "t# ?/?" ), EXC_NUMFMT_STRING( 70, "t# ?\?/?\?" ), EXC_NUMFMT_STRING( 71, "tD/M/EE" ), EXC_NUMFMT_STRING( 72, "tD-MMM-E" ), EXC_NUMFMT_STRING( 73, "tD-MMM" ), EXC_NUMFMT_STRING( 74, "tMMM-E" ), EXC_NUMFMT_STRING( 75, "th:mm" ), EXC_NUMFMT_STRING( 76, "th:mm:ss" ), EXC_NUMFMT_STRING( 77, "tD/M/EE h:mm" ), EXC_NUMFMT_STRING( 78, "tmm:ss" ), EXC_NUMFMT_STRING( 79, "t[h]:mm:ss" ), EXC_NUMFMT_STRING( 80, "tmm:ss.0" ), EXC_NUMFMT_STRING( 81, "D/M/E" ), EXC_NUMFMT_ENDTABLE() }; #undef EXC_NUMFMT_ENDTABLE #undef EXC_NUMFMT_REUSE #undef EXC_NUMFMT_OFFSET #undef EXC_NUMFMT_STRING /** Specifies a number format table for a specific language. */ struct XclBuiltInFormatTable { LanguageType meLanguage; /// The language of this table. LanguageType meParentLang; /// The language of the parent table. const XclBuiltInFormat* mpFormats; /// The number format table. }; static const XclBuiltInFormatTable spBuiltInFormatTables[] = { // language parent language format table { LANGUAGE_DONTKNOW, LANGUAGE_NONE, spBuiltInFormats_DONTKNOW }, { LANGUAGE_ENGLISH, LANGUAGE_DONTKNOW, spBuiltInFormats_ENGLISH }, { LANGUAGE_ENGLISH_UK, LANGUAGE_ENGLISH, spBuiltInFormats_ENGLISH_UK }, { LANGUAGE_ENGLISH_EIRE, LANGUAGE_ENGLISH, spBuiltInFormats_ENGLISH_EIRE }, { LANGUAGE_ENGLISH_US, LANGUAGE_ENGLISH, spBuiltInFormats_ENGLISH_US }, { LANGUAGE_ENGLISH_CAN, LANGUAGE_ENGLISH, spBuiltInFormats_ENGLISH_CAN }, { LANGUAGE_ENGLISH_AUS, LANGUAGE_ENGLISH, spBuiltInFormats_ENGLISH_AUS }, { LANGUAGE_ENGLISH_SAFRICA, LANGUAGE_ENGLISH, spBuiltInFormats_ENGLISH_SAFRICA }, { LANGUAGE_ENGLISH_NZ, LANGUAGE_ENGLISH_AUS, 0 }, { PRV_LANGUAGE_FRENCH_PRIM, LANGUAGE_DONTKNOW, spBuiltInFormats_FRENCH }, { LANGUAGE_FRENCH, PRV_LANGUAGE_FRENCH_PRIM, spBuiltInFormats_FRENCH_FRANCE }, { LANGUAGE_FRENCH_CANADIAN, PRV_LANGUAGE_FRENCH_PRIM, spBuiltInFormats_FRENCH_CANADIAN }, { LANGUAGE_FRENCH_SWISS, PRV_LANGUAGE_FRENCH_PRIM, spBuiltInFormats_FRENCH_SWISS }, { LANGUAGE_FRENCH_BELGIAN, LANGUAGE_FRENCH, spBuiltInFormats_FRENCH_BELGIAN }, { LANGUAGE_FRENCH_LUXEMBOURG, LANGUAGE_FRENCH, 0 }, { LANGUAGE_FRENCH_MONACO, LANGUAGE_FRENCH, 0 }, { PRV_LANGUAGE_GERMAN_PRIM, LANGUAGE_DONTKNOW, spBuiltInFormats_GERMAN }, { LANGUAGE_GERMAN, PRV_LANGUAGE_GERMAN_PRIM, spBuiltInFormats_GERMAN_GERMANY }, { LANGUAGE_GERMAN_AUSTRIAN, PRV_LANGUAGE_GERMAN_PRIM, spBuiltInFormats_GERMAN_AUSTRIAN }, { LANGUAGE_GERMAN_SWISS, PRV_LANGUAGE_GERMAN_PRIM, spBuiltInFormats_GERMAN_SWISS }, { LANGUAGE_GERMAN_LUXEMBOURG, PRV_LANGUAGE_GERMAN_PRIM, spBuiltInFormats_GERMAN_LUXEMBOURG }, { LANGUAGE_GERMAN_LIECHTENSTEIN, PRV_LANGUAGE_GERMAN_PRIM, spBuiltInFormats_GERMAN_LIECHTENSTEIN }, { LANGUAGE_ITALIAN, LANGUAGE_DONTKNOW, spBuiltInFormats_ITALIAN_ITALY }, { LANGUAGE_ITALIAN_SWISS, LANGUAGE_DONTKNOW, spBuiltInFormats_ITALIAN_SWISS }, { LANGUAGE_SWEDISH, LANGUAGE_DONTKNOW, spBuiltInFormats_SWEDISH_SWEDEN }, { LANGUAGE_SWEDISH_FINLAND, LANGUAGE_DONTKNOW, spBuiltInFormats_SWEDISH_FINLAND }, { PRV_LANGUAGE_ASIAN_PRIM, LANGUAGE_DONTKNOW, spBuiltInFormats_ASIAN }, { LANGUAGE_JAPANESE, PRV_LANGUAGE_ASIAN_PRIM, spBuiltInFormats_JAPANESE }, { LANGUAGE_KOREAN, PRV_LANGUAGE_ASIAN_PRIM, spBuiltInFormats_KOREAN }, { LANGUAGE_CHINESE_SIMPLIFIED, PRV_LANGUAGE_ASIAN_PRIM, spBuiltInFormats_CHINESE_SIMPLIFIED }, { LANGUAGE_CHINESE_TRADITIONAL, PRV_LANGUAGE_ASIAN_PRIM, spBuiltInFormats_CHINESE_TRADITIONAL }, { LANGUAGE_HEBREW, LANGUAGE_DONTKNOW, spBuiltInFormats_HEBREW }, { LANGUAGE_THAI, LANGUAGE_DONTKNOW, spBuiltInFormats_THAI } }; } // namespace XclNumFmtBuffer::XclNumFmtBuffer( const XclRoot& rRoot ) : meSysLang( rRoot.GetSysLanguage() ), mnStdScNumFmt( rRoot.GetFormatter().GetStandardFormat( ScGlobal::eLnge ) ) { // *** insert default formats (BIFF5+ only)*** if( rRoot.GetBiff() >= EXC_BIFF5 ) InsertBuiltinFormats(); } void XclNumFmtBuffer::InitializeImport() { maFmtMap.clear(); } void XclNumFmtBuffer::InsertFormat( sal_uInt16 nXclNumFmt, const OUString& rFormat ) { XclNumFmt& rNumFmt = maFmtMap[ nXclNumFmt ]; rNumFmt.maFormat = rFormat; // #i62053# rFormat may be an empty string, meOffset must be initialized rNumFmt.meOffset = NF_NUMBER_STANDARD; rNumFmt.meLanguage = LANGUAGE_SYSTEM; } void XclNumFmtBuffer::InsertBuiltinFormats() { // build a map containing tables for all languages typedef ::std::map< LanguageType, const XclBuiltInFormatTable* > XclBuiltInMap; XclBuiltInMap aBuiltInMap; for( const XclBuiltInFormatTable* pTable = spBuiltInFormatTables; pTable != STATIC_ARRAY_END( spBuiltInFormatTables ); ++pTable ) aBuiltInMap[ pTable->meLanguage ] = pTable; // build a list of table pointers for the current language, with all parent tables typedef ::std::vector< const XclBuiltInFormatTable* > XclBuiltInVec; XclBuiltInVec aBuiltInVec; for( XclBuiltInMap::const_iterator aMIt = aBuiltInMap.find( meSysLang ), aMEnd = aBuiltInMap.end(); aMIt != aMEnd; aMIt = aBuiltInMap.find( aMIt->second->meParentLang ) ) aBuiltInVec.push_back( aMIt->second ); // language not supported if( aBuiltInVec.empty() ) { OSL_TRACE( "XclNumFmtBuffer::InsertBuiltinFormats - language 0x%04hX not supported (#i29949#)", meSysLang ); XclBuiltInMap::const_iterator aMIt = aBuiltInMap.find( LANGUAGE_DONTKNOW ); OSL_ENSURE( aMIt != aBuiltInMap.end(), "XclNumFmtBuffer::InsertBuiltinFormats - default map not found" ); if( aMIt != aBuiltInMap.end() ) aBuiltInVec.push_back( aMIt->second ); } // insert the default formats in the format map, from root parent to system language typedef ::std::map< sal_uInt16, sal_uInt16 > XclReuseMap; XclReuseMap aReuseMap; for( XclBuiltInVec::reverse_iterator aVIt = aBuiltInVec.rbegin(), aVEnd = aBuiltInVec.rend(); aVIt != aVEnd; ++aVIt ) { // put LANGUAGE_SYSTEM for all entries in default table LanguageType eLang = ((*aVIt)->meLanguage == LANGUAGE_DONTKNOW) ? LANGUAGE_SYSTEM : meSysLang; for( const XclBuiltInFormat* pBuiltIn = (*aVIt)->mpFormats; pBuiltIn && (pBuiltIn->mnXclNumFmt != EXC_FORMAT_NOTFOUND); ++pBuiltIn ) { XclNumFmt& rNumFmt = maFmtMap[ pBuiltIn->mnXclNumFmt ]; rNumFmt.meOffset = pBuiltIn->meOffset; rNumFmt.meLanguage = eLang; if( pBuiltIn->mpFormat ) rNumFmt.maFormat = OUString( pBuiltIn->mpFormat, strlen(pBuiltIn->mpFormat), RTL_TEXTENCODING_UTF8 ); else rNumFmt.maFormat = EMPTY_OUSTRING; if( pBuiltIn->meOffset == PRV_NF_INDEX_REUSE ) aReuseMap[ pBuiltIn->mnXclNumFmt ] = pBuiltIn->mnXclReuseFmt; else aReuseMap.erase( pBuiltIn->mnXclNumFmt ); } } // copy reused number formats for( XclReuseMap::const_iterator aRIt = aReuseMap.begin(), aREnd = aReuseMap.end(); aRIt != aREnd; ++aRIt ) maFmtMap[ aRIt->first ] = maFmtMap[ aRIt->second ]; } // Cell formatting data (XF) ================================================== XclCellProt::XclCellProt() : mbLocked( true ), // default in Excel and Calc mbHidden( false ) { } bool operator==( const XclCellProt& rLeft, const XclCellProt& rRight ) { return (rLeft.mbLocked == rRight.mbLocked) && (rLeft.mbHidden == rRight.mbHidden); } XclCellAlign::XclCellAlign() : mnHorAlign( EXC_XF_HOR_GENERAL ), mnVerAlign( EXC_XF_VER_BOTTOM ), mnOrient( EXC_ORIENT_NONE ), mnTextDir( EXC_XF_TEXTDIR_CONTEXT ), mnRotation( EXC_ROT_NONE ), mnIndent( 0 ), mbLineBreak( false ), mbShrink( false ) { } SvxCellHorJustify XclCellAlign::GetScHorAlign() const { SvxCellHorJustify eHorJust = SVX_HOR_JUSTIFY_STANDARD; switch( mnHorAlign ) { case EXC_XF_HOR_GENERAL: eHorJust = SVX_HOR_JUSTIFY_STANDARD; break; case EXC_XF_HOR_LEFT: eHorJust = SVX_HOR_JUSTIFY_LEFT; break; case EXC_XF_HOR_CENTER_AS: case EXC_XF_HOR_CENTER: eHorJust = SVX_HOR_JUSTIFY_CENTER; break; case EXC_XF_HOR_RIGHT: eHorJust = SVX_HOR_JUSTIFY_RIGHT; break; case EXC_XF_HOR_FILL: eHorJust = SVX_HOR_JUSTIFY_REPEAT; break; case EXC_XF_HOR_JUSTIFY: case EXC_XF_HOR_DISTRIB: eHorJust = SVX_HOR_JUSTIFY_BLOCK; break; default: OSL_FAIL( "XclCellAlign::GetScHorAlign - unknown horizontal alignment" ); } return eHorJust; } SvxCellJustifyMethod XclCellAlign::GetScHorJustifyMethod() const { return (mnHorAlign == EXC_XF_HOR_DISTRIB) ? SVX_JUSTIFY_METHOD_DISTRIBUTE : SVX_JUSTIFY_METHOD_AUTO; } SvxCellVerJustify XclCellAlign::GetScVerAlign() const { SvxCellVerJustify eVerJust = SVX_VER_JUSTIFY_STANDARD; switch( mnVerAlign ) { case EXC_XF_VER_TOP: eVerJust = SVX_VER_JUSTIFY_TOP; break; case EXC_XF_VER_CENTER: eVerJust = SVX_VER_JUSTIFY_CENTER; break; case EXC_XF_VER_BOTTOM: eVerJust = SVX_VER_JUSTIFY_STANDARD; break; case EXC_XF_VER_JUSTIFY: case EXC_XF_VER_DISTRIB: eVerJust = SVX_VER_JUSTIFY_BLOCK; break; default: OSL_FAIL( "XclCellAlign::GetScVerAlign - unknown vertical alignment" ); } return eVerJust; } SvxCellJustifyMethod XclCellAlign::GetScVerJustifyMethod() const { return (mnVerAlign == EXC_XF_VER_DISTRIB) ? SVX_JUSTIFY_METHOD_DISTRIBUTE : SVX_JUSTIFY_METHOD_AUTO; } SvxFrameDirection XclCellAlign::GetScFrameDir() const { SvxFrameDirection eFrameDir = FRMDIR_ENVIRONMENT; switch( mnTextDir ) { case EXC_XF_TEXTDIR_CONTEXT: eFrameDir = FRMDIR_ENVIRONMENT; break; case EXC_XF_TEXTDIR_LTR: eFrameDir = FRMDIR_HORI_LEFT_TOP; break; case EXC_XF_TEXTDIR_RTL: eFrameDir = FRMDIR_HORI_RIGHT_TOP; break; default: OSL_FAIL( "XclCellAlign::GetScFrameDir - unknown CTL text direction" ); } return eFrameDir; } void XclCellAlign::SetScHorAlign( SvxCellHorJustify eHorJust ) { switch( eHorJust ) { case SVX_HOR_JUSTIFY_STANDARD: mnHorAlign = EXC_XF_HOR_GENERAL; break; case SVX_HOR_JUSTIFY_LEFT: mnHorAlign = EXC_XF_HOR_LEFT; break; case SVX_HOR_JUSTIFY_CENTER: mnHorAlign = EXC_XF_HOR_CENTER; break; case SVX_HOR_JUSTIFY_RIGHT: mnHorAlign = EXC_XF_HOR_RIGHT; break; case SVX_HOR_JUSTIFY_BLOCK: mnHorAlign = EXC_XF_HOR_JUSTIFY; break; case SVX_HOR_JUSTIFY_REPEAT: mnHorAlign = EXC_XF_HOR_FILL; break; default: mnHorAlign = EXC_XF_HOR_GENERAL; OSL_FAIL( "XclCellAlign::SetScHorAlign - unknown horizontal alignment" ); } } void XclCellAlign::SetScVerAlign( SvxCellVerJustify eVerJust ) { switch( eVerJust ) { case SVX_VER_JUSTIFY_STANDARD: mnVerAlign = EXC_XF_VER_BOTTOM; break; case SVX_VER_JUSTIFY_TOP: mnVerAlign = EXC_XF_VER_TOP; break; case SVX_VER_JUSTIFY_CENTER: mnVerAlign = EXC_XF_VER_CENTER; break; case SVX_VER_JUSTIFY_BOTTOM: mnVerAlign = EXC_XF_VER_BOTTOM; break; default: mnVerAlign = EXC_XF_VER_BOTTOM; OSL_FAIL( "XclCellAlign::SetScVerAlign - unknown vertical alignment" ); } } void XclCellAlign::SetScFrameDir( SvxFrameDirection eFrameDir ) { switch( eFrameDir ) { case FRMDIR_ENVIRONMENT: mnTextDir = EXC_XF_TEXTDIR_CONTEXT; break; case FRMDIR_HORI_LEFT_TOP: mnTextDir = EXC_XF_TEXTDIR_LTR; break; case FRMDIR_HORI_RIGHT_TOP: mnTextDir = EXC_XF_TEXTDIR_RTL; break; default: mnTextDir = EXC_XF_TEXTDIR_CONTEXT; OSL_FAIL( "XclCellAlign::SetScFrameDir - unknown CTL text direction" ); } } bool operator==( const XclCellAlign& rLeft, const XclCellAlign& rRight ) { return (rLeft.mnHorAlign == rRight.mnHorAlign) && (rLeft.mnVerAlign == rRight.mnVerAlign) && (rLeft.mnTextDir == rRight.mnTextDir) && (rLeft.mnOrient == rRight.mnOrient) && (rLeft.mnRotation == rRight.mnRotation) && (rLeft.mnIndent == rRight.mnIndent) && (rLeft.mbLineBreak == rRight.mbLineBreak) && (rLeft.mbShrink == rRight.mbShrink); } XclCellBorder::XclCellBorder() : mnLeftColor( 0 ), mnRightColor( 0 ), mnTopColor( 0 ), mnBottomColor( 0 ), mnDiagColor( 0 ), mnLeftLine( EXC_LINE_NONE ), mnRightLine( EXC_LINE_NONE ), mnTopLine( EXC_LINE_NONE ), mnBottomLine( EXC_LINE_NONE ), mnDiagLine( EXC_LINE_NONE ), mbDiagTLtoBR( false ), mbDiagBLtoTR( false ) { } bool operator==( const XclCellBorder& rLeft, const XclCellBorder& rRight ) { return (rLeft.mnLeftColor == rRight.mnLeftColor) && (rLeft.mnRightColor == rRight.mnRightColor) && (rLeft.mnTopColor == rRight.mnTopColor) && (rLeft.mnBottomColor == rRight.mnBottomColor) && (rLeft.mnLeftLine == rRight.mnLeftLine) && (rLeft.mnRightLine == rRight.mnRightLine) && (rLeft.mnTopLine == rRight.mnTopLine) && (rLeft.mnBottomLine == rRight.mnBottomLine) && (rLeft.mnDiagColor == rRight.mnDiagColor) && (rLeft.mnDiagLine == rRight.mnDiagLine) && (rLeft.mbDiagTLtoBR == rRight.mbDiagTLtoBR) && (rLeft.mbDiagBLtoTR == rRight.mbDiagBLtoTR); } XclCellArea::XclCellArea() : mnForeColor( EXC_COLOR_WINDOWTEXT ), mnBackColor( EXC_COLOR_WINDOWBACK ), mnPattern( EXC_PATT_NONE ) { } bool XclCellArea::IsTransparent() const { return (mnPattern == EXC_PATT_NONE) && (mnBackColor == EXC_COLOR_WINDOWBACK); } bool operator==( const XclCellArea& rLeft, const XclCellArea& rRight ) { return (rLeft.mnForeColor == rRight.mnForeColor) && (rLeft.mnBackColor == rRight.mnBackColor) && (rLeft.mnPattern == rRight.mnPattern); } XclXFBase::XclXFBase( bool bCellXF ) : mnParent( bCellXF ? EXC_XF_DEFAULTSTYLE : EXC_XF_STYLEPARENT ), mbCellXF( bCellXF ) { SetAllUsedFlags( false ); } XclXFBase::~XclXFBase() { } void XclXFBase::SetAllUsedFlags( bool bUsed ) { mbProtUsed = mbFontUsed = mbFmtUsed = mbAlignUsed = mbBorderUsed = mbAreaUsed = bUsed; } bool XclXFBase::HasUsedFlags() const { return mbProtUsed || mbFontUsed || mbFmtUsed || mbAlignUsed || mbBorderUsed || mbAreaUsed; } bool XclXFBase::Equals( const XclXFBase& rCmp ) const { return (mbCellXF == rCmp.mbCellXF) && (mnParent == rCmp.mnParent) && (mbProtUsed == rCmp.mbProtUsed) && (mbFontUsed == rCmp.mbFontUsed) && (mbFmtUsed == rCmp.mbFmtUsed) && (mbAlignUsed == rCmp.mbAlignUsed) && (mbBorderUsed == rCmp.mbBorderUsed) && (mbAreaUsed == rCmp.mbAreaUsed); } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */