/* $Id$ This file is part of the KDE libraries Copyright (C) 1999 Daniel M. Duley KDE3 port (C) 2001-2002 Maksim Orlovich Port version 0.9.7 Palette setup code is from KApplication, Copyright (C) 1997 Matthias Kalle Dalheimer (kalle@kde.org) Copyright (C) 1998, 1999, 2000 KDE Team Includes code portions from the KDE HighColor style. KDE3 HighColor Style Copyright (C) 2001 Karol Szwed (C) 2001 Fredrik H�glund Drawing routines adapted from the KDE2 HCStyle, Copyright (C) 2000 Daniel M. Duley (C) 2000 Dirk Mueller (C) 2001 Martijn Klingens This library is free software; you can redistribute it and/or modify it under the terms of the GNU Library General Public License version 2 as published by the Free Software Foundation. This library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Library General Public License for more details. You should have received a copy of the GNU Library General Public License along with this library; see the file COPYING.LIB. If not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #include "kthemebase.h" #include #include #include #include #include #include #include #include typedef TQMap Prop; template class TQIntCache ; /* Bugs: Can't delete old slider image when calculating the rotated one for some reason. */ //Shamelessly stolen from KConfigBase static TQColor readColorEntry( TQSettings* s, const char *pKey, const TQColor* pDefault ) { TQColor aRetColor; int nRed = 0, nGreen = 0, nBlue = 0; TQString aValue = s->readEntry( pKey ); if ( !aValue.isEmpty() ) { if ( aValue.tqat( 0 ) == '#' ) { aRetColor.setNamedColor( aValue ); } else { bool bOK; // find first part (red) int nIndex = aValue.find( ',' ); if ( nIndex == -1 ) { // return a sensible default -- Bernd if ( pDefault ) aRetColor = *pDefault; return aRetColor; } nRed = aValue.left( nIndex ).toInt( &bOK ); // find second part (green) int nOldIndex = nIndex; nIndex = aValue.find( ',', nOldIndex + 1 ); if ( nIndex == -1 ) { // return a sensible default -- Bernd if ( pDefault ) aRetColor = *pDefault; return aRetColor; } nGreen = aValue.mid( nOldIndex + 1, nIndex - nOldIndex - 1 ).toInt( &bOK ); // find third part (blue) nBlue = aValue.right( aValue.length() - nIndex - 1 ).toInt( &bOK ); aRetColor.setRgb( nRed, nGreen, nBlue ); } } else { if ( pDefault ) aRetColor = *pDefault; } return aRetColor; } static const char * const widgetEntries[] = { // unsunken widgets (see header) "PushButton", "ComboBox", "HSBarSlider", "VSBarSlider", "Bevel", "ToolButton", "ScrollButton", "HScrollDeco", "VScrollDeco", "ComboDeco", "MenuItem", "Tab", "ArrowUp", "ArrowDown", "ArrowLeft", "ArrowRight", // sunken widgets "PushButtonDown", "ComboBoxDown", "HSBarSliderDown", "VSBarSliderDown", "BevelDown", "ToolButtonDown", "ScrollButtonDown", "HScrollDecoDown", "VScrollDecoDown", "ComboDecoDown", "MenuItemDown", "TabDown", "SunkenArrowUp", "SunkenArrowDown", "SunkenArrowLeft", "SunkenArrowRight", // everything else "HScrollGroove", "VScrollGroove", "Slider", "SliderGroove", "CheckBoxDown", "CheckBox", "CheckBoxTri", "RadioDown", "Radio", "HBarHandle", "VBarHandle", "ToolBar", "Splitter", "CheckMark", "MenuBar", "DisableArrowUp", "DisableArrowDown", "DisableArrowLeft", "DisableArrowRight", "ProgressBar", "ProgressBackground", "MenuBarItem", "Background", "RotSlider", "RotInactiveTab", "RotActiveTab", }; #define INHERIT_ITEMS 16 class KThemeBasePrivate { public: /** Color overrides flags..*/ bool overrideForeground; bool overrideBackground; bool overrideSelectForeground; bool overrideSelectBackground; bool overrideWindowForeground; bool overrideWindowBackground; /** * Colors to override defaults with.. */ TQColor overrideForegroundCol; TQColor overrideBackgroundCol; TQColor overrideSelectForegroundCol; TQColor overrideSelectBackgroundCol; TQColor overrideWindowForegroundCol; TQColor overrideWindowBackgroundCol; int contrast; TQMap > props; TQMap colorCache; /* A heuristic routine that tries to determine the avergae color of the image Wouldn't work for things like sliders, etc. */ TQColor pixmapAveColor( const TQPixmap* p ) { if ( colorCache.contains( p ) ) return colorCache[ p ]; TQImage to_ave = p->convertToImage(); double h = 0, s = 0, v = 0; int count = 0; int dh, ds, dv; for ( int x = 0; x < p->width(); x++ ) { TQColor pix( to_ave.pixel( x, p->height() / 2 ) ); pix.hsv( &dh, &ds, &dv ); h += dh; s += ds; v += dv; count++; } for ( int y = 0; y < p->height(); y++ ) { TQColor pix( to_ave.pixel( p->width() / 2, y ) ); pix.hsv( &dh, &ds, &dv ); h += dh; s += ds; v += dv; count++; } colorCache[ p ] = TQColor( int( h / count + 0.5 ), int( s / count + 0.5 ), int( v / count + 0.5 ), TQColor::Hsv ); return colorCache[ p ]; } }; // This is used to encode the keys. I used to use masks but I think this // bitfield is nicer :) I don't know why C++ coders don't use these more.. // (mosfet) struct kthemeKeyData { unsigned int id : 6; unsigned int width : 12; unsigned int height : 12; unsigned int border : 1; unsigned int mask : 1; }; union kthemeKey{ kthemeKeyData data; unsigned int cacheKey; }; #define KDE_TQBITMAP_TO_TQPAINTDEVICE(x) static_cast(static_cast(static_cast(static_cast(x)))) void KThemeBase::generateBorderPix( int i ) { // separate pixmap into separate components if ( pbPixmaps[ i ] ) { // evidently I have to do masks manually... const TQBitmap * srcMask = pbPixmaps[ i ] ->mask(); TQBitmap destMask( pbWidth[ i ], pbWidth[ i ] ); TQPixmap tmp( pbWidth[ i ], pbWidth[ i ] ); bitBlt( TQT_TQPAINTDEVICE(&tmp), 0, 0, TQT_TQPAINTDEVICE(pbPixmaps[ i ]), 0, 0, pbWidth[ i ], pbWidth[ i ], TQt::CopyROP, false ); if ( srcMask ) { bitBlt( TQT_TQPAINTDEVICE(&destMask), 0, 0, KDE_TQBITMAP_TO_TQPAINTDEVICE(srcMask), 0, 0, pbWidth[ i ], pbWidth[ i ], TQt::CopyROP, false ); tmp.setMask( destMask ); } pbPixmaps[ i ] ->setBorder( KThemePixmap::TopLeft, tmp ); bitBlt( TQT_TQPAINTDEVICE(&tmp), 0, 0, TQT_TQPAINTDEVICE(pbPixmaps[ i ]), pbPixmaps[ i ] ->width() - pbWidth[ i ], 0, pbWidth[ i ], pbWidth[ i ], TQt::CopyROP, false ); if ( srcMask ) { bitBlt( TQT_TQPAINTDEVICE(&destMask), 0, 0, KDE_TQBITMAP_TO_TQPAINTDEVICE(srcMask), pbPixmaps[ i ] ->width() - pbWidth[ i ], 0, pbWidth[ i ], pbWidth[ i ], TQt::CopyROP, false ); tmp.setMask( destMask ); } pbPixmaps[ i ] ->setBorder( KThemePixmap::TopRight, tmp ); bitBlt( TQT_TQPAINTDEVICE(&tmp), 0, 0, TQT_TQPAINTDEVICE(pbPixmaps[ i ]), 0, pbPixmaps[ i ] ->height() - pbWidth[ i ], pbWidth[ i ], pbWidth[ i ], TQt::CopyROP, false ); if ( srcMask ) { bitBlt( TQT_TQPAINTDEVICE(&destMask), 0, 0, KDE_TQBITMAP_TO_TQPAINTDEVICE(srcMask), 0, pbPixmaps[ i ] ->height() - pbWidth[ i ], pbWidth[ i ], pbWidth[ i ], TQt::CopyROP, false ); tmp.setMask( destMask ); } pbPixmaps[ i ] ->setBorder( KThemePixmap::BottomLeft, tmp ); bitBlt( TQT_TQPAINTDEVICE(&tmp), 0, 0, TQT_TQPAINTDEVICE(pbPixmaps[ i ]), pbPixmaps[ i ] ->width() - pbWidth[ i ], pbPixmaps[ i ] ->height() - pbWidth[ i ], pbWidth[ i ], pbWidth[ i ], TQt::CopyROP, false ); if ( srcMask ) { bitBlt( TQT_TQPAINTDEVICE(&destMask), 0, 0, KDE_TQBITMAP_TO_TQPAINTDEVICE(srcMask), pbPixmaps[ i ] ->width() - pbWidth[ i ], pbPixmaps[ i ] ->height() - pbWidth[ i ], pbWidth[ i ], pbWidth[ i ], TQt::CopyROP, false ); tmp.setMask( destMask ); } pbPixmaps[ i ] ->setBorder( KThemePixmap::BottomRight, tmp ); tmp.resize( pbPixmaps[ i ] ->width() - pbWidth[ i ] * 2, pbWidth[ i ] ); destMask.resize( pbPixmaps[ i ] ->width() - pbWidth[ i ] * 2, pbWidth[ i ] ); bitBlt( TQT_TQPAINTDEVICE(&tmp), 0, 0, TQT_TQPAINTDEVICE(pbPixmaps[ i ]), pbWidth[ i ], 0, pbPixmaps[ i ] ->width() - pbWidth[ i ] * 2, pbWidth[ i ], TQt::CopyROP, false ); if ( srcMask ) { bitBlt( TQT_TQPAINTDEVICE(&destMask), 0, 0, KDE_TQBITMAP_TO_TQPAINTDEVICE(srcMask), pbWidth[ i ], 0, pbPixmaps[ i ] ->width() - pbWidth[ i ] * 2, pbWidth[ i ], TQt::CopyROP, false ); tmp.setMask( destMask ); } pbPixmaps[ i ] ->setBorder( KThemePixmap::Top, tmp ); bitBlt( TQT_TQPAINTDEVICE(&tmp), 0, 0, TQT_TQPAINTDEVICE(pbPixmaps[ i ]), pbWidth[ i ], pbPixmaps[ i ] ->height() - pbWidth[ i ], pbPixmaps[ i ] ->width() - pbWidth[ i ] * 2, pbWidth[ i ], TQt::CopyROP, false ); if ( srcMask ) { bitBlt( TQT_TQPAINTDEVICE(&destMask), 0, 0, KDE_TQBITMAP_TO_TQPAINTDEVICE(srcMask), pbWidth[ i ], pbPixmaps[ i ] ->height() - pbWidth[ i ], pbPixmaps[ i ] ->width() - pbWidth[ i ] * 2, pbWidth[ i ], TQt::CopyROP, false ); tmp.setMask( destMask ); } pbPixmaps[ i ] ->setBorder( KThemePixmap::Bottom, tmp ); tmp.resize( pbWidth[ i ], pbPixmaps[ i ] ->height() - pbWidth[ i ] * 2 ); destMask.resize( pbWidth[ i ], pbPixmaps[ i ] ->height() - pbWidth[ i ] * 2 ); bitBlt( TQT_TQPAINTDEVICE(&tmp), 0, 0, TQT_TQPAINTDEVICE(pbPixmaps[ i ]), 0, pbWidth[ i ], pbWidth[ i ], pbPixmaps[ i ] ->height() - pbWidth[ i ] * 2, TQt::CopyROP, false ); if ( srcMask ) { bitBlt( TQT_TQPAINTDEVICE(&destMask), 0, 0, KDE_TQBITMAP_TO_TQPAINTDEVICE(srcMask), 0, pbWidth[ i ], pbWidth[ i ], pbPixmaps[ i ] ->height() - pbWidth[ i ] * 2, TQt::CopyROP, false ); tmp.setMask( destMask ); } pbPixmaps[ i ] ->setBorder( KThemePixmap::Left, tmp ); bitBlt( TQT_TQPAINTDEVICE(&tmp), 0, 0, TQT_TQPAINTDEVICE(pbPixmaps[ i ]), pbPixmaps[ i ] ->width() - pbWidth[ i ], pbWidth[ i ], pbWidth[ i ], pbPixmaps[ i ] ->height() - pbWidth[ i ] * 2, TQt::CopyROP, false ); if ( srcMask ) { bitBlt( TQT_TQPAINTDEVICE(&destMask), 0, 0, KDE_TQBITMAP_TO_TQPAINTDEVICE(srcMask), pbPixmaps[ i ] ->width() - pbWidth[ i ], pbWidth[ i ], pbWidth[ i ], pbPixmaps[ i ] ->height() - pbWidth[ i ] * 2, TQt::CopyROP, false ); tmp.setMask( destMask ); } pbPixmaps[ i ] ->setBorder( KThemePixmap::Right, tmp ); } else qWarning( "KThemeBase: Tried making border from empty pixmap\n" ); } void KThemeBase::copyWidgetConfig( int sourceID, int destID, TQString *pixnames, TQString *brdnames ) { scaleHints[ destID ] = scaleHints[ sourceID ]; gradients[ destID ] = gradients[ sourceID ]; blends[ destID ] = blends[ sourceID ]; bContrasts[ destID ] = bContrasts[ sourceID ]; borders[ destID ] = borders[ sourceID ]; highlights[ destID ] = highlights[ sourceID ]; if ( grLowColors[ sourceID ] ) grLowColors[ destID ] = new TQColor( *grLowColors[ sourceID ] ); else grLowColors[ destID ] = NULL; if ( grHighColors[ sourceID ] ) grHighColors[ destID ] = new TQColor( *grHighColors[ sourceID ] ); else grHighColors[ destID ] = NULL; if ( colors[ sourceID ] ) colors[ destID ] = new TQColorGroup( *colors[ sourceID ] ); else colors[ destID ] = NULL; // pixmap pixnames[ destID ] = pixnames[ sourceID ]; duplicate[ destID ] = false; pixmaps[ destID ] = NULL; images[ destID ] = NULL; if ( !pixnames[ destID ].isEmpty() ) { if ( scaleHints[ sourceID ] == TileScale && blends[ sourceID ] == 0.0 ) { pixmaps[ destID ] = pixmaps[ sourceID ]; duplicate[ destID ] = true; } if ( !duplicate[ destID ] ) { pixmaps[ destID ] = loadPixmap( pixnames[ destID ] ); if ( scaleHints[ destID ] == TileScale && blends[ destID ] == 0.0 ) images[ destID ] = NULL; else images[ destID ] = loadImage( pixnames[ destID ] ); } } // border pixmap pbDuplicate[ destID ] = false; pbPixmaps[ destID ] = NULL; pbWidth[ destID ] = pbWidth[ sourceID ]; brdnames[ destID ] = brdnames[ sourceID ]; if ( !brdnames[ destID ].isEmpty() ) { pbPixmaps[ destID ] = pbPixmaps[ sourceID ]; pbDuplicate[ destID ] = true; } if ( sourceID == ActiveTab && destID == InactiveTab ) aTabLine = iTabLine; else if ( sourceID == InactiveTab && destID == ActiveTab ) iTabLine = aTabLine; } void KThemeBase::readConfig( TQt::GUIStyle /*style*/ ) { #define PREBLEND_ITEMS 12 static const WidgetType preBlend[] = { Slider, IndicatorOn, IndicatorOff, ExIndicatorOn, ExIndicatorOff, HScrollDeco, VScrollDeco, HScrollDecoDown, VScrollDecoDown, ComboDeco, ComboDecoDown, CheckMark }; int i; TQString tmpStr; TQString pixnames[ WIDGETS ]; // used for duplicate check TQString brdnames[ WIDGETS ]; bool loaded[ WIDGETS ]; // used for preloading for CopyWidget TQSettings config; if (configDirName.isEmpty() || configDirName == ".") { KStyleDirs::dirs()->addToSearch( "themerc", config ); } else config.insertSearchPath( TQSettings::Unix, configDirName ); applyConfigFile( config ); d->contrast = config.readNumEntry( configFileName + "KDE/contrast", 7 ); for ( i = 0; i < INHERIT_ITEMS; ++i ) applyResourceGroup( &config, i ); for ( ; i < INHERIT_ITEMS*2; ++i ) { if ( config.entryList( configFileName + widgetEntries[ i ] ).size() ) applyResourceGroup( &config, i ); #ifndef Q_WS_QWS //FIXME else { Prop& copyProp = d->props[ widgetEntries[ i ] ]; copyProp[ "CopyWidget" ] = TQString( widgetEntries[ i - INHERIT_ITEMS ] ); } #endif } for ( ; i < WIDGETS; ++i ) applyResourceGroup( &config, i ); applyMiscResourceGroup( &config ); // initialize defaults that may not be read for ( i = 0; i < WIDGETS; ++i ) loaded[ i ] = false; btnXShift = btnYShift = focus3DOffset = 0; aTabLine = iTabLine = true; roundedButton = roundedCombo = roundedSlider = focus3D = false; splitterWidth = 10; //Handle the rotated background separately.. d->props[ widgetEntries[ RotSliderGroove ] ] = d->props[ widgetEntries[ SliderGroove ] ]; d->props[ widgetEntries[ RotInactiveTab ] ] = d->props[ widgetEntries[ InactiveTab ] ]; d->props[ widgetEntries[ RotActiveTab ] ] = d->props[ widgetEntries[ ActiveTab ] ]; // misc items readMiscResourceGroup(); for ( i = 0; i < WIDGETS; ++i ) readResourceGroup( i, pixnames, brdnames, loaded ); if ( pixmaps[ RotSliderGroove ] ) { TQWMatrix r270; //TODO: 90 if reverse? r270.rotate( 270 ); KThemePixmap* bf = new KThemePixmap( pixmaps[ RotSliderGroove ], pixmaps[ RotSliderGroove ] ->xForm( r270 ) ); // pixmaps[ RotSliderGroove ] = bf; if ( images[ RotSliderGroove ] ) { delete images[ RotSliderGroove ]; images[ RotSliderGroove ] = new TQImage( bf->convertToImage() ); } } if ( pixmaps[ RotActiveTab ] ) { TQWMatrix r180; r180.rotate( 180 ); KThemePixmap* bf = new KThemePixmap( pixmaps[ RotActiveTab ], pixmaps[ RotActiveTab ] ->xForm( r180 ) ); pixmaps[ RotActiveTab ] = bf; if ( images[ RotActiveTab ] ) { delete images[ RotActiveTab ]; images[ RotActiveTab ] = new TQImage( bf->convertToImage() ); } } if ( pixmaps[ RotInactiveTab ] ) { TQWMatrix r180; r180.rotate( 180 ); KThemePixmap* bf = new KThemePixmap( pixmaps[ RotInactiveTab ], pixmaps[ RotInactiveTab ] ->xForm( r180 ) ); pixmaps[ RotInactiveTab ] = bf; if ( images[ RotInactiveTab ] ) { delete images[ RotInactiveTab ]; images[ RotInactiveTab ] = new TQImage( bf->convertToImage() ); } } // Handle preblend items for ( i = 0; i < PREBLEND_ITEMS; ++i ) { if ( pixmaps[ preBlend[ i ] ] != NULL && blends[ preBlend[ i ] ] != 0.0 ) blend( preBlend[ i ] ); } d->props.clear(); } KThemeBase::KThemeBase( const TQString& dir, const TQString & configFile ) : KStyle( FilledFrameWorkaround ), configFileName( configFile ) { d = new KThemeBasePrivate; if ( configFileName.isEmpty() ) configFileName = "kstylerc"; configDirName = dir; //Strip of rc from the configFileName if ( configFileName.endsWith( "rc" ) ) { configFileName.truncate( configFileName.length() - 2 ); //Get rid of rc.. } //else SCREAM!! configFileName = "/" + configFileName + "/"; readConfig( TQt::WindowsStyle ); cache = new KThemeCache( cacheSize ); switch ( scrollBarLayout() ) { case SBBottomLeft: setScrollBarType( NextStyleScrollBar ); break; case SBBottomRight: setScrollBarType( PlatinumStyleScrollBar ); break; case SBOpposite: break; //Do nothing, this type already set.. } ; } void KThemeBase::applyConfigFile( TQSettings& config ) { TQStringList keys = config.entryList( configFileName ); if ( keys.contains( "foreground" ) ) { d->overrideForeground = true; d->overrideForegroundCol = readColorEntry( &config, ( configFileName + "foreground" ).latin1(), 0 ); } else d->overrideForeground = false; if ( keys.contains( "background" ) ) { d->overrideBackground = true; d->overrideBackgroundCol = readColorEntry( &config, ( configFileName + "background" ).latin1(), 0 ); } else d->overrideBackground = false; if ( keys.contains( "selectForeground" ) ) { d->overrideSelectForeground = true; d->overrideSelectForegroundCol = readColorEntry( &config, ( configFileName + "selectForeground" ).latin1(), 0 ); } else d->overrideSelectForeground = false; if ( keys.contains( "selectBackground" ) ) { d->overrideSelectBackground = true; d->overrideSelectBackgroundCol = readColorEntry( &config, ( configFileName + "selectBackground" ).latin1(), 0 ); } else d->overrideSelectBackground = false; if ( keys.contains( "windowBackground" ) ) { d->overrideWindowBackground = true; d->overrideWindowBackgroundCol = readColorEntry( &config, ( configFileName + "windowBackground" ).latin1(), 0 ); } else d->overrideWindowBackground = false; if ( keys.contains( "windowForeground" ) ) { d->overrideWindowForeground = true; d->overrideWindowForegroundCol = readColorEntry( &config, ( configFileName + "windowForeground" ).latin1(), 0 ); } else d->overrideWindowForeground = false; #ifndef Q_WS_QWS //FIXME for ( int input = 0; input < WIDGETS; ++input ) { d->props.erase( widgetEntries[ input ] ); } d->props.erase( "Misc" ); #endif } KThemeBase::~KThemeBase() { int i; for ( i = 0; i < WIDGETS; ++i ) { if ( !duplicate[ i ] ) { if ( images[ i ] ) delete images[ i ]; if ( pixmaps[ i ] ) delete pixmaps[ i ]; } if ( !pbDuplicate[ i ] && pbPixmaps[ i ] ) delete pbPixmaps[ i ]; if ( colors[ i ] ) delete( colors[ i ] ); if ( grLowColors[ i ] ) delete( grLowColors[ i ] ); if ( grHighColors[ i ] ) delete( grHighColors[ i ] ); } KStyleDirs::release(); delete cache; delete d; } TQImage* KThemeBase::loadImage( const TQString &name ) { TQImage * image = new TQImage; TQString path = KStyleDirs::dirs()->findResource( "themepixmap",name ); image->load( path ); if ( !image->isNull() ) return ( image ); qWarning( "KThemeBase: Unable to load image %s\n", name.latin1() ); delete image; return ( NULL ); } KThemePixmap* KThemeBase::loadPixmap( const TQString &name ) { KThemePixmap * pixmap = new KThemePixmap( false ); TQString path = KStyleDirs::dirs()->findResource( "themepixmap", name ); pixmap->load( path ); if ( !pixmap->isNull() ) return pixmap; qWarning( "KThemeBase: Unable to load pixmap %s\n", name.latin1() ); delete pixmap; return ( NULL ); } KThemePixmap* KThemeBase::scale( int w, int h, WidgetType widget ) const { if ( scaleHints[ widget ] == FullScale ) { if ( !pixmaps[ widget ] || pixmaps[ widget ] ->width() != w || pixmaps[ widget ] ->height() != h ) { KThemePixmap * cachePix = cache->pixmap( w, h, widget ); if ( cachePix ) { cachePix = new KThemePixmap( *cachePix ); if ( pixmaps[ widget ] ) cache->insert( pixmaps[ widget ], KThemeCache::FullScale, widget ); else qWarning( "We would have inserted a null pixmap!\n" ); pixmaps[ widget ] = cachePix; } else { cache->insert( pixmaps[ widget ], KThemeCache::FullScale, widget ); TQImage tmpImg = images[ widget ] ->smoothScale( w, h ); pixmaps[ widget ] = new KThemePixmap; pixmaps[ widget ] ->convertFromImage( tmpImg ); if ( blends[ widget ] != 0.0 ) blend( widget ); } } } else if ( scaleHints[ widget ] == HorizontalScale ) { if ( pixmaps[ widget ] ->width() != w ) { KThemePixmap * cachePix = cache->horizontalPixmap( w, widget ); if ( cachePix ) { cachePix = new KThemePixmap( *cachePix ); if ( pixmaps[ widget ] ) cache->insert( pixmaps[ widget ], KThemeCache::HorizontalScale, widget ); else qWarning( "We would have inserted a null pixmap!\n" ); pixmaps[ widget ] = cachePix; } else { cache->insert( pixmaps[ widget ], KThemeCache::HorizontalScale, widget ); TQImage tmpImg = images[ widget ] -> smoothScale( w, images[ widget ] ->height() ); pixmaps[ widget ] = new KThemePixmap; pixmaps[ widget ] ->convertFromImage( tmpImg ); if ( blends[ widget ] != 0.0 ) blend( widget ); } } } else if ( scaleHints[ widget ] == VerticalScale ) { if ( pixmaps[ widget ] ->height() != h ) { KThemePixmap * cachePix = cache->verticalPixmap( w, widget ); if ( cachePix ) { cachePix = new KThemePixmap( *cachePix ); if ( pixmaps[ widget ] ) cache->insert( pixmaps[ widget ], KThemeCache::VerticalScale, widget ); else qWarning( "We would have inserted a null pixmap!\n" ); pixmaps[ widget ] = cachePix; } else { cache->insert( pixmaps[ widget ], KThemeCache::VerticalScale, widget ); TQImage tmpImg = images[ widget ] ->smoothScale( images[ widget ] ->width(), h ); pixmaps[ widget ] = new KThemePixmap; pixmaps[ widget ] ->convertFromImage( tmpImg ); if ( blends[ widget ] != 0.0 ) blend( widget ); } } } // If blended tile here so the blend is scaled properly else if ( scaleHints[ widget ] == TileScale && blends[ widget ] != 0.0 ) { if ( !pixmaps[ widget ] || pixmaps[ widget ] ->width() != w || pixmaps[ widget ] ->height() != h ) { KThemePixmap * cachePix = cache->pixmap( w, h, widget ); if ( cachePix ) { cachePix = new KThemePixmap( *cachePix ); cache->insert( pixmaps[ widget ], KThemeCache::FullScale, widget ); pixmaps[ widget ] = cachePix; } else { cache->insert( pixmaps[ widget ], KThemeCache::FullScale, widget ); TQPixmap tile; tile.convertFromImage( *images[ widget ] ); pixmaps[ widget ] = new KThemePixmap; pixmaps[ widget ] ->resize( w, h ); TQPainter p( pixmaps[ widget ] ); p.drawTiledPixmap( 0, 0, w, h, tile ); if ( blends[ widget ] != 0.0 ) blend( widget ); } } } return ( pixmaps[ widget ] ); } KThemePixmap* KThemeBase::scaleBorder( int w, int h, WidgetType widget ) const { KThemePixmap * pixmap = NULL; if ( !pbPixmaps[ widget ] && !pbWidth[ widget ] ) return ( NULL ); pixmap = cache->pixmap( w, h, widget, true ); if ( pixmap ) { pixmap = new KThemePixmap( *pixmap ); } else { pixmap = new KThemePixmap(); pixmap->resize( w, h ); TQBitmap mask; mask.resize( w, h ); mask.fill( color0 ); TQPainter mPainter; mPainter.begin( &mask ); TQPixmap *tmp = borderPixmap( widget ) ->border( KThemePixmap::TopLeft ); const TQBitmap *srcMask = tmp->mask(); int bdWidth = tmp->width(); bitBlt( TQT_TQPAINTDEVICE(pixmap), 0, 0, TQT_TQPAINTDEVICE(tmp), 0, 0, bdWidth, bdWidth, TQt::CopyROP, false ); if ( srcMask ) bitBlt( TQT_TQPAINTDEVICE(&mask), 0, 0, KDE_TQBITMAP_TO_TQPAINTDEVICE(srcMask), 0, 0, bdWidth, bdWidth, TQt::CopyROP, false ); else mPainter.fillRect( 0, 0, bdWidth, bdWidth, color1 ); tmp = borderPixmap( widget ) ->border( KThemePixmap::TopRight ); srcMask = tmp->mask(); bitBlt( TQT_TQPAINTDEVICE(pixmap), w - bdWidth, 0, TQT_TQPAINTDEVICE(tmp), 0, 0, bdWidth, bdWidth, TQt::CopyROP, false ); if ( srcMask ) bitBlt( TQT_TQPAINTDEVICE(&mask), w - bdWidth, 0, KDE_TQBITMAP_TO_TQPAINTDEVICE(srcMask), 0, 0, bdWidth, bdWidth, TQt::CopyROP, false ); else mPainter.fillRect( w - bdWidth, 0, bdWidth, bdWidth, color1 ); tmp = borderPixmap( widget ) ->border( KThemePixmap::BottomLeft ); srcMask = tmp->mask(); bitBlt( TQT_TQPAINTDEVICE(pixmap), 0, h - bdWidth, TQT_TQPAINTDEVICE(tmp), 0, 0, bdWidth, bdWidth, TQt::CopyROP, false ); if ( srcMask ) bitBlt( TQT_TQPAINTDEVICE(&mask), 0, h - bdWidth, KDE_TQBITMAP_TO_TQPAINTDEVICE(srcMask), 0, 0, bdWidth, bdWidth, TQt::CopyROP, false ); else mPainter.fillRect( 0, h - bdWidth, bdWidth, bdWidth, color1 ); tmp = borderPixmap( widget ) ->border( KThemePixmap::BottomRight ); srcMask = tmp->mask(); bitBlt( TQT_TQPAINTDEVICE(pixmap), w - bdWidth, h - bdWidth, TQT_TQPAINTDEVICE(tmp), 0, 0, bdWidth, bdWidth, TQt::CopyROP, false ); if ( srcMask ) bitBlt( TQT_TQPAINTDEVICE(&mask), w - bdWidth, h - bdWidth, KDE_TQBITMAP_TO_TQPAINTDEVICE(srcMask), 0, 0, bdWidth, bdWidth, TQt::CopyROP, false ); else mPainter.fillRect( w - bdWidth, h - bdWidth, bdWidth, bdWidth, color1 ); TQPainter p; p.begin( pixmap ); if ( w - bdWidth * 2 > 0 ) { tmp = borderPixmap( widget ) ->border( KThemePixmap::Top ); srcMask = tmp->mask(); p.drawTiledPixmap( bdWidth, 0, w - bdWidth * 2, bdWidth, *tmp ); if ( srcMask ) bitBlt( TQT_TQPAINTDEVICE(&mask), bdWidth, 0, KDE_TQBITMAP_TO_TQPAINTDEVICE(srcMask), 0, 0, w - bdWidth * 2, bdWidth, TQt::CopyROP, false ); else mPainter.fillRect( bdWidth, 0, w - bdWidth * 2, bdWidth, color1 ); tmp = borderPixmap( widget ) ->border( KThemePixmap::Bottom ); srcMask = tmp->mask(); p.drawTiledPixmap( bdWidth, h - bdWidth, w - bdWidth * 2, bdWidth, *tmp ); if ( srcMask ) bitBlt( TQT_TQPAINTDEVICE(&mask), bdWidth, h - bdWidth, KDE_TQBITMAP_TO_TQPAINTDEVICE(srcMask), 0, 0, w - bdWidth * 2, bdWidth, TQt::CopyROP, false ); else mPainter.fillRect( bdWidth, h - bdWidth, w - bdWidth * 2, bdWidth, color1 ); } if ( h - bdWidth * 2 > 0 ) { tmp = borderPixmap( widget ) ->border( KThemePixmap::Left ); srcMask = tmp->mask(); p.drawTiledPixmap( 0, bdWidth, bdWidth, h - bdWidth * 2, *tmp ); if ( srcMask ) bitBlt( TQT_TQPAINTDEVICE(&mask), 0, bdWidth, KDE_TQBITMAP_TO_TQPAINTDEVICE(srcMask), 0, 0, bdWidth, h - bdWidth * 2, TQt::CopyROP, false ); else mPainter.fillRect( 0, bdWidth, bdWidth, h - bdWidth * 2, color1 ); tmp = borderPixmap( widget ) ->border( KThemePixmap::Right ); srcMask = tmp->mask(); p.drawTiledPixmap( w - bdWidth, bdWidth, bdWidth, h - bdWidth * 2, *tmp ); if ( srcMask ) bitBlt( TQT_TQPAINTDEVICE(&mask), w - bdWidth, bdWidth, KDE_TQBITMAP_TO_TQPAINTDEVICE(srcMask), 0, 0, bdWidth, h - bdWidth * 2, TQt::CopyROP, false ); else mPainter.fillRect( w - bdWidth, bdWidth, bdWidth, h - bdWidth * 2, color1 ); } p.end(); mPainter.end(); pixmap->setMask( mask ); cache->insert( pixmap, KThemeCache::FullScale, widget, true ); if ( !pixmap->mask() ) qWarning( "No mask for border pixmap!\n" ); } return ( pixmap ); } KThemePixmap* KThemeBase::blend( WidgetType widget ) const { KPixmapEffect::GradientType g; switch ( gradients[ widget ] ) { case GrHorizontal: g = KPixmapEffect::HorizontalGradient; break; case GrVertical: g = KPixmapEffect::VerticalGradient; break; case GrPyramid: g = KPixmapEffect::PyramidGradient; break; case GrRectangle: g = KPixmapEffect::RectangleGradient; break; case GrElliptic: g = KPixmapEffect::EllipticGradient; break; default: g = KPixmapEffect::DiagonalGradient; break; } KPixmapEffect::blend( *pixmaps[ widget ], blends[ widget ], *grLowColors[ widget ], g, false ); return ( pixmaps[ widget ] ); } KThemePixmap* KThemeBase::gradient( int w, int h, WidgetType widget ) const { if ( gradients[ widget ] == GrVertical ) { if ( !pixmaps[ widget ] || pixmaps[ widget ] ->height() != h ) { KThemePixmap * cachePix = cache->verticalPixmap( h, widget ); if ( cachePix ) { cachePix = new KThemePixmap( *cachePix ); if ( pixmaps[ widget ] ) cache->insert( pixmaps[ widget ], KThemeCache::VerticalScale, widget ); pixmaps[ widget ] = cachePix; } else { if ( pixmaps[ widget ] ) cache->insert( pixmaps[ widget ], KThemeCache::VerticalScale, widget ); pixmaps[ widget ] = new KThemePixmap; pixmaps[ widget ] ->resize( w, h ); KPixmapEffect::gradient( *pixmaps[ widget ], *grHighColors[ widget ], *grLowColors[ widget ], KPixmapEffect::VerticalGradient ); } } } else if ( gradients[ widget ] == GrHorizontal ) { if ( !pixmaps[ widget ] || pixmaps[ widget ] ->width() != w ) { KThemePixmap * cachePix = cache->horizontalPixmap( w, widget ); if ( cachePix ) { cachePix = new KThemePixmap( *cachePix ); if ( pixmaps[ widget ] ) cache->insert( pixmaps[ widget ], KThemeCache::HorizontalScale, widget ); pixmaps[ widget ] = cachePix; } else { if ( pixmaps[ widget ] ) cache->insert( pixmaps[ widget ], KThemeCache::HorizontalScale, widget ); pixmaps[ widget ] = new KThemePixmap; pixmaps[ widget ] ->resize( w, h ); KPixmapEffect::gradient( *pixmaps[ widget ], *grHighColors[ widget ], *grLowColors[ widget ], KPixmapEffect::HorizontalGradient ); } } } else if ( gradients[ widget ] == GrReverseBevel ) { if ( !pixmaps[ widget ] || pixmaps[ widget ] ->width() != w || pixmaps[ widget ] ->height() != h ) { KThemePixmap * cachePix = cache->pixmap( w, h, widget ); if ( cachePix ) { cachePix = new KThemePixmap( *cachePix ); if ( pixmaps[ widget ] ) cache->insert( pixmaps[ widget ], KThemeCache::FullScale, widget ); pixmaps[ widget ] = cachePix; } else { if ( pixmaps[ widget ] ) cache->insert( pixmaps[ widget ], KThemeCache::FullScale, widget ); pixmaps[ widget ] = new KThemePixmap; pixmaps[ widget ] ->resize( w, h ); KPixmap s; int offset = decoWidth( widget ); s.resize( w - offset * 2, h - offset * 2 ); TQColor lc( *grLowColors[ widget ] ); TQColor hc( *grHighColors[ widget ] ); if ( bevelContrast( widget ) ) { int bc = bevelContrast( widget ); // want single increments, not factors like light()/dark() lc.setRgb( lc.red() - bc, lc.green() - bc, lc.blue() - bc ); hc.setRgb( hc.red() + bc, hc.green() + bc, hc.blue() + bc ); } KPixmapEffect::gradient( *pixmaps[ widget ], lc, hc, KPixmapEffect::DiagonalGradient ); KPixmapEffect::gradient( s, *grHighColors[ widget ], *grLowColors[ widget ], KPixmapEffect::DiagonalGradient ); bitBlt( pixmaps[ widget ], offset, offset, &s, 0, 0, w - offset * 2, h - offset * 2, TQt::CopyROP ); } } } else { KPixmapEffect::GradientType g; switch ( gradients[ widget ] ) { case GrPyramid: g = KPixmapEffect::PyramidGradient; break; case GrRectangle: g = KPixmapEffect::RectangleGradient; break; case GrElliptic: g = KPixmapEffect::EllipticGradient; break; default: g = KPixmapEffect::DiagonalGradient; break; } if ( !pixmaps[ widget ] || pixmaps[ widget ] ->width() != w || pixmaps[ widget ] ->height() != h ) { KThemePixmap * cachePix = cache->pixmap( w, h, widget ); if ( cachePix ) { cachePix = new KThemePixmap( *cachePix ); if ( pixmaps[ widget ] ) cache->insert( pixmaps[ widget ], KThemeCache::FullScale, widget ); pixmaps[ widget ] = cachePix; } else { if ( pixmaps[ widget ] ) cache->insert( pixmaps[ widget ], KThemeCache::FullScale, widget ); pixmaps[ widget ] = new KThemePixmap; pixmaps[ widget ] ->resize( w, h ); KPixmapEffect::gradient( *pixmaps[ widget ], *grHighColors[ widget ], *grLowColors[ widget ], g ); } } } return ( pixmaps[ widget ] ); } KThemePixmap* KThemeBase::scalePixmap( int w, int h, WidgetType widget ) const { if ( gradients[ widget ] && blends[ widget ] == 0.0 ) return ( gradient( w, h, widget ) ); return ( scale( w, h, widget ) ); } TQColorGroup* KThemeBase::makeColorGroup( const TQColor &fg, const TQColor &bg, TQt::GUIStyle ) { if ( shading == Motif ) { int highlightVal, lowlightVal; highlightVal = 100 + ( 2 * d->contrast + 4 ) * 16 / 10; lowlightVal = 100 + ( ( 2 * d->contrast + 4 ) * 10 ); return ( new TQColorGroup( fg, bg, bg.light( highlightVal ), bg.dark( lowlightVal ), bg.dark( 120 ), fg, TQApplication::tqpalette().active().base() ) ); } else return ( new TQColorGroup( fg, bg, bg.light( 150 ), bg.dark(), bg.dark( 120 ), fg, TQApplication::tqpalette().active().base() ) ); } void KThemeBase::applyMiscResourceGroup( TQSettings *config ) { #ifndef Q_WS_QWS //FIXME d->props.erase( "Misc" ); // clear the old property TQString base = configFileName + "Misc/"; Prop& prop = d->props[ "Misc" ]; TQString tmpStr; tmpStr = config->readEntry( base + "SButtonPosition" ); if ( tmpStr == "BottomLeft" ) prop[ "SButtonPosition" ] = TQString::number( ( int ) SBBottomLeft ); else if ( tmpStr == "BottomRight" ) prop[ "SButtonPosition" ] = TQString::number( ( int ) SBBottomRight ); else { if ( tmpStr != "Opposite" && !tmpStr.isEmpty() ) qWarning( "KThemeBase: Unrecognized sb button option %s, using Opposite.\n", tmpStr.latin1() ); ; prop[ "SButtonPosition" ] = TQString::number( ( int ) SBOpposite ); } tmpStr = config->readEntry( base + "ArrowType" ); if ( tmpStr == "Small" ) prop[ "ArrowType" ] = TQString::number( ( int ) SmallArrow ); else if ( tmpStr == "3D" ) prop[ "ArrowType" ] = TQString::number( ( int ) MotifArrow ); else { if ( tmpStr != "Normal" && !tmpStr.isEmpty() ) qWarning( "KThemeBase: Unrecognized arrow option %s, using Normal.\n", tmpStr.latin1() ); prop[ "ArrowType" ] = TQString::number( ( int ) LargeArrow ); } tmpStr = config->readEntry( base + "ShadeStyle" ); if ( tmpStr == "Motif" ) prop[ "ShadeStyle" ] = TQString::number( ( int ) Motif ); else if ( tmpStr == "Next" ) prop[ "ShadeStyle" ] = TQString::number( ( int ) Next ); else if ( tmpStr == "KDE" ) prop[ "ShadeStyle" ] = TQString::number( ( int ) KDE ); else prop[ "ShadeStyle" ] = TQString::number( ( int ) Windows ); prop[ "FrameWidth" ] = TQString::number( config->readNumEntry( base + "FrameWidth", 2 ) ); prop[ "Cache" ] = TQString::number( config->readNumEntry( base + "Cache", 1024 ) ); prop[ "ScrollBarExtent" ] = TQString::number( config->readNumEntry( base + "ScrollBarExtent", 16 ) ); #endif } static int readNumEntry( Prop& prop, TQString setting, int def ) { bool ok; TQString s_val = prop[ setting ]; int val = s_val.toInt( &ok ); if ( ok ) return val; return def; } static TQColor readColorEntry( Prop& prop, TQString setting, const TQColor& def ) { TQString s_val = prop[ setting ]; if ( !s_val.isEmpty() ) { TQColor c( s_val ); return c; } return def; } void KThemeBase::readMiscResourceGroup() { #ifndef Q_WS_QWS //FIXME Prop & prop = d->props[ "Misc" ]; sbPlacement = ( SButton ) readNumEntry( prop, "SButtonPosition", ( int ) SBOpposite ); arrowStyle = ( ArrowStyle ) readNumEntry( prop, "ArrowType", ( int ) LargeArrow ); shading = ( ShadeStyle ) readNumEntry( prop, "ShadeStyle", ( int ) Windows ); defaultFrame = readNumEntry( prop, "FrameWidth", 2 ); cacheSize = readNumEntry( prop, "Cache", 1024 ); sbExtent = readNumEntry( prop, "ScrollBarExtent", 16 ); #endif } void KThemeBase::applyResourceGroup( TQSettings *config, int i ) { #ifndef Q_WS_QWS //FIXME TQString tmpStr; int tmpVal; // clear the old property d->props.erase( widgetEntries[ i ] ); TQString base = configFileName + widgetEntries[ i ] + "/"; Prop& prop = d->props[ widgetEntries[ i ] ]; tmpStr = config->readEntry( base + "CopyWidget", "" ); prop[ "CopyWidget" ] = tmpStr; if ( !tmpStr.isEmpty() ) { return ; } tmpStr = config->readEntry( base + "Scale" ); if ( tmpStr == "Full" ) tmpVal = ( int ) FullScale; else if ( tmpStr == "Horizontal" ) tmpVal = ( int ) HorizontalScale; else if ( tmpStr == "Vertical" ) tmpVal = ( int ) VerticalScale; else { if ( tmpStr != "Tile" && !tmpStr.isEmpty() ) qWarning( "KThemeBase: Unrecognized scale option %s, using Tile.\n", tmpStr.latin1() ); tmpVal = ( int ) TileScale; } prop[ "ScaleHint" ] = TQString::number( tmpVal ); // Gradient type tmpStr = config->readEntry( base + "Gradient" ); if ( tmpStr == "Diagonal" ) tmpVal = ( int ) GrDiagonal; else if ( tmpStr == "Horizontal" ) tmpVal = ( int ) GrHorizontal; else if ( tmpStr == "Vertical" ) tmpVal = ( int ) GrVertical; else if ( tmpStr == "Pyramid" ) tmpVal = ( int ) GrPyramid; else if ( tmpStr == "Rectangle" ) tmpVal = ( int ) GrRectangle; else if ( tmpStr == "Elliptic" ) tmpVal = ( int ) GrElliptic; else if ( tmpStr == "ReverseBevel" ) tmpVal = ( int ) GrReverseBevel; else { if ( tmpStr != "None" && !tmpStr.isEmpty() ) qWarning( "KThemeBase: Unrecognized gradient option %s, using None.\n", tmpStr.latin1() ); tmpVal = ( int ) GrNone; } prop[ "Gradient" ] = TQString::number( tmpVal ); // Blend intensity tmpStr.setNum( config->readDoubleEntry( base + "BlendIntensity", 0.0 ) ); prop[ "Blend" ] = tmpStr; // Bevel contrast prop[ "BContrast" ] = TQString::number( config->readNumEntry( base + "BevelContrast", 0 ) ); // Border width prop[ "Border" ] = TQString::number( config->readNumEntry( base + "Border", 1 ) ); // Highlight width prop[ "Highlight" ] = TQString::number( config->readNumEntry( base + "Highlight", 1 ) ); TQStringList keys = config->entryList( base ); // Gradient low color or blend background if ( keys.contains( "GradientLow" ) ) prop[ "GrLow" ] = readColorEntry( config, TQString( base + "GradientLow" ).latin1(), &TQApplication::tqpalette().active().background() ).name(); // Gradient high color if ( keys.contains( "GradientHigh" ) ) prop[ "GrHigh" ] = readColorEntry( config, TQString( base + "GradientHigh" ).latin1(), &TQApplication::tqpalette().active().foreground() ).name(); // Extended color attributes if ( keys.contains( "Foreground" ) || keys.contains( "Background" ) ) { TQColor fg, bg; if ( keys.contains( "Background" ) ) bg = readColorEntry( config, TQString( base + "Background" ).latin1(), &bg ); if ( keys.contains( "Foreground" ) ) fg = readColorEntry( config, TQString( base + "Foreground" ).latin1(), &fg ); prop[ "Foreground" ] = fg.name(); prop[ "Background" ] = bg.name(); } else colors[ i ] = NULL; // Pixmap tmpStr = config->readEntry( base + "Pixmap", "" ); if ( !tmpStr.isEmpty() ) prop[ "Pixmap" ] = tmpStr; // Pixmap border tmpStr = config->readEntry( base + "PixmapBorder", "" ); if ( !tmpStr.isEmpty() ) { prop[ "PixmapBorder" ] = tmpStr; prop[ "PixmapBWidth" ] = TQString::number( config->readNumEntry( base + "PixmapBWidth", 0 ) ); } // Various widget specific settings. This was more efficient when bunched // together in the misc group, but this makes an easier to read config. if ( i == SliderGroove ) prop[ "SmallGroove" ] = TQString::number( config->readBoolEntry( base + "SmallGroove", false ) ); else if ( i == ActiveTab || i == InactiveTab ) prop[ "BottomLine" ] = TQString::number( config->readBoolEntry( base + "BottomLine", true ) ); else if ( i == Splitter ) prop[ "Width" ] = TQString::number( config->readNumEntry( base + "Width", 10 ) ); else if ( i == ComboBox || i == ComboBoxDown ) { if ( keys.contains( "Round" ) ) prop[ "Round" ] = TQString::number( config->readBoolEntry( base + "Round", false ) ); else prop[ "Round" ] = "5000"; // invalid, used w/multiple groups } else if ( i == PushButton || i == PushButtonDown ) { if ( keys.contains( "XShift" ) ) prop[ "XShift" ] = TQString::number( config->readNumEntry( base + "XShift", 0 ) ); else prop[ "XShift" ] = "5000"; if ( keys.contains( "YShift" ) ) prop[ "YShift" ] = TQString::number( config->readNumEntry( base + "YShift", 0 ) ); else prop[ "YShift" ] = "5000"; if ( keys.contains( "3DFocusRect" ) ) prop[ "3DFRect" ] = TQString::number( config-> readBoolEntry( base + "3DFocusRect", false ) ); else prop[ "3DFRect" ] = "5000"; if ( keys.contains( "3DFocusOffset" ) ) prop[ "3DFOffset" ] = TQString::number( config-> readBoolEntry( base + "3DFocusOffset", 0 ) ); else prop[ "3DFOffset" ] = "5000"; if ( keys.contains( "Round" ) ) prop[ "Round" ] = TQString::number( config->readBoolEntry( base + "Round", false ) ); else prop[ "Round" ] = "5000"; } #endif } void KThemeBase::readResourceGroup( int i, TQString *pixnames, TQString *brdnames, bool *loadArray ) { #ifndef Q_WS_QWS //FIXME if ( loadArray[ i ] == true ) { return ; // already been preloaded. } int tmpVal; Prop prop = d->props[ widgetEntries[ i ] ]; TQString tmpStr; tmpStr = prop[ "CopyWidget" ]; if ( !tmpStr.isEmpty() ) { // Duplicate another widget's config int sIndex; loadArray[ i ] = true; for ( sIndex = 0; sIndex < WIDGETS; ++sIndex ) { if ( tmpStr == widgetEntries[ sIndex ] ) { if ( !loadArray[ sIndex ] ) // hasn't been loaded yet readResourceGroup( sIndex, pixnames, brdnames, loadArray ); break; } } if ( loadArray[ sIndex ] ) { copyWidgetConfig( sIndex, i, pixnames, brdnames ); } else qWarning( "KThemeBase: Unable to identify source widget for %s\n", widgetEntries[ i ] ); return ; } // special inheritance for disabled arrows (these are tri-state unlike // the rest of what we handle). for ( tmpVal = DisArrowUp; tmpVal <= DisArrowRight; ++tmpVal ) { if ( tmpVal == i ) { tmpStr = prop[ "Pixmap" ]; if ( tmpStr.isEmpty() ) { copyWidgetConfig( ArrowUp + ( tmpVal - DisArrowUp ), i, pixnames, brdnames ); return ; } } } // Scale hint scaleHints[ i ] = ( ScaleHint ) readNumEntry( prop, "ScaleHint", ( int ) TileScale ); gradients[ i ] = ( Gradient ) readNumEntry( prop, "Gradient", ( int ) GrNone ); // Blend intensity tmpStr = prop[ "Blend" ]; if ( tmpStr.isEmpty() ) tmpStr = TQString::fromLatin1( "0.0" ); blends[ i ] = tmpStr.toFloat(); // Bevel contrast bContrasts[ i ] = readNumEntry( prop, "BContrast", 0 ); // Border width borders[ i ] = readNumEntry( prop, "Border", 1 ); // Highlight width highlights[ i ] = readNumEntry( prop, "Highlight", 1 ); // Gradient low color or blend background if ( gradients[ i ] != GrNone || blends[ i ] != 0.0 ) grLowColors[ i ] = new TQColor( readColorEntry( prop, "GrLow", TQApplication::tqpalette().active(). background() ) ); else grLowColors[ i ] = NULL; // Gradient high color if ( gradients[ i ] != GrNone ) grHighColors[ i ] = new TQColor( readColorEntry( prop, "GrHigh", TQApplication::tqpalette().active(). background() ) ); else grHighColors[ i ] = NULL; // Extended color attributes TQColor fg, bg; fg = readColorEntry( prop, "Foreground", fg ); bg = readColorEntry( prop, "Background", bg ); if ( fg.isValid() || bg.isValid() ) { if ( !fg.isValid() ) fg = TQApplication::tqpalette().active().foreground(); if ( !bg.isValid() ) bg = TQApplication::tqpalette().active().background(); colors[ i ] = makeColorGroup( fg, bg, TQt::WindowsStyle ); } else colors[ i ] = NULL; // Pixmap int existing; tmpStr = prop[ "Pixmap" ]; pixnames[ i ] = tmpStr; duplicate[ i ] = false; pixmaps[ i ] = NULL; images[ i ] = NULL; // Scan for duplicate pixmaps(two identical pixmaps, tile scale, no blend, // no pixmapped border) if ( !tmpStr.isEmpty() ) { for ( existing = 0; existing < i; ++existing ) { if ( tmpStr == pixnames[ existing ] && scaleHints[ i ] == TileScale && scaleHints[ existing ] == TileScale && blends[ existing ] == 0.0 && blends[ i ] == 0.0 ) { pixmaps[ i ] = pixmaps[ existing ]; duplicate[ i ] = true; break; } } } // load if ( !duplicate[ i ] && !tmpStr.isEmpty() ) { pixmaps[ i ] = loadPixmap( tmpStr ); // load and save images for scaled/blended widgets for speed. if ( scaleHints[ i ] == TileScale && blends[ i ] == 0.0 ) images[ i ] = NULL; else images[ i ] = loadImage( tmpStr ); } // Pixmap border tmpStr = prop[ "PixmapBorder" ]; brdnames[ i ] = tmpStr; pbDuplicate[ i ] = false; pbPixmaps[ i ] = NULL; pbWidth[ i ] = 0; if ( !tmpStr.isEmpty() ) { pbWidth[ i ] = readNumEntry( prop, "PixmapBWidth", 0 ); if ( pbWidth[ i ] == 0 ) { qWarning( "KThemeBase: No border width specified for pixmapped border widget %s\n", widgetEntries[ i ] ); qWarning( "KThemeBase: Using default of 2.\n" ); pbWidth[ i ] = 2; } // duplicate check for ( existing = 0; existing < i; ++existing ) { if ( tmpStr == brdnames[ existing ] ) { pbPixmaps[ i ] = pbPixmaps[ existing ]; pbDuplicate[ i ] = true; break; } } } // load if ( !pbDuplicate[ i ] && !tmpStr.isEmpty() ) pbPixmaps[ i ] = loadPixmap( tmpStr ); if ( pbPixmaps[ i ] && !pbDuplicate[ i ] ) generateBorderPix( i ); // Various widget specific settings. This was more efficient when bunched // together in the misc group, but this makes an easier to read config. if ( i == SliderGroove ) roundedSlider = readNumEntry( prop, "SmallGroove", false ); else if ( i == ActiveTab ) aTabLine = readNumEntry( prop, "BottomLine", true ); else if ( i == InactiveTab ) iTabLine = readNumEntry( prop, "BottomLine", true ); else if ( i == Splitter ) splitterWidth = readNumEntry( prop, "Width", 10 ); else if ( i == ComboBox || i == ComboBoxDown ) { tmpVal = readNumEntry( prop, "Round", 5000 ); if ( tmpVal != 5000 ) roundedCombo = tmpVal; } else if ( i == PushButton || i == PushButtonDown ) { tmpVal = readNumEntry( prop, "XShift", 0 ); if ( tmpVal != 5000 ) btnXShift = tmpVal; tmpVal = readNumEntry( prop, "YShift", 0 ); if ( tmpVal != 5000 ) btnYShift = tmpVal; tmpVal = readNumEntry( prop, "3DFRect", false ); if ( tmpVal != 5000 ) focus3D = tmpVal; tmpVal = readNumEntry( prop, "3DFOffset", 0 ); if ( tmpVal != 5000 ) focus3DOffset = tmpVal; tmpVal = readNumEntry( prop, "Round", false ); if ( tmpVal != 5000 ) roundedButton = tmpVal; } loadArray[ i ] = true; #endif } TQPalette KThemeBase::overridePalette( const TQPalette& pal ) { //Read current settings for colors.. TQColor background = pal.active().background(); TQColor foreground = pal.active().foreground(); TQColor button = background; //CHECKME TQColor highlight = pal.active().highlight(); TQColor highlightedText = pal.active().highlightedText(); //CHECKME TQColor base = pal.active().base(); //config->readColorEntry( "windowBackground", &white ); TQColor baseText = pal.active().text(); //CHECKME //See whether there are any immediate overrides. if ( d->overrideBackground ) background = d->overrideBackgroundCol; if ( d->overrideForeground ) foreground = d->overrideForegroundCol; if ( d->overrideSelectBackground ) highlight = d->overrideSelectBackgroundCol; if ( d->overrideSelectForeground ) highlightedText = d->overrideSelectForegroundCol; if ( d->overrideWindowBackground ) base = d->overrideWindowBackgroundCol; if ( d->overrideWindowForeground ) baseText = d->overrideWindowForegroundCol; //Now, try to get the button color from the pixmap if ( uncached( Bevel ) ) button = d->pixmapAveColor( uncached( Bevel ) ); TQColor buttonText = foreground; int highlightVal, lowlightVal; highlightVal = 100 + ( 2 * d->contrast + 4 ) * 16 / 10; lowlightVal = 100 + ( 2 * d->contrast + 4 ) * 10; if ( isPixmap( Background ) || isColor( Background ) ) { if ( isColor( Background ) ) { background = colorGroup( pal.active(), Background ) ->background(); } if ( isPixmap( Background ) ) { background = d->pixmapAveColor( uncached( Background ) ); } TQColorGroup pre( foreground, button, background.light( highlightVal ), background.dark( lowlightVal ), background.dark( 120 ), baseText, buttonText /*CHECKME: BrightText*/, base, background ); buttonText = colorGroup( pre, PushButton ) ->foreground(); } TQColor disfg = foreground; int h, s, v; disfg.hsv( &h, &s, &v ); if ( v > 128 ) // dark bg, light fg - need a darker disabled fg disfg = disfg.dark( lowlightVal ); else if ( disfg != black ) // light bg, dark fg - need a lighter disabled fg - but only if !black disfg = disfg.light( highlightVal ); else // black fg - use darkgray disabled fg disfg = Qt::darkGray; TQColorGroup disabledgrp( disfg, background, //TODO:Convert this to the new ctor. background.light( highlightVal ), background.dark( lowlightVal ), background.dark( 120 ), background.dark( 120 ), base ); TQColorGroup colgrp( foreground, button, background.light( highlightVal ), background.dark( lowlightVal ), background.dark( 120 ), baseText, buttonText /*CHECKME: BrightText*/, base, background ); colgrp.setColor( TQColorGroup::Highlight, highlight ); colgrp.setColor( TQColorGroup::HighlightedText, highlightedText ); colgrp.setColor( TQColorGroup::ButtonText, buttonText ); colgrp.setColor( TQColorGroup::Midlight, button.light( 110 ) ); disabledgrp.setColor( TQColorGroup::Base, base ); disabledgrp.setColor( TQColorGroup::Button, button ); disabledgrp.setColor( TQColorGroup::ButtonText, buttonText ); disabledgrp.setColor( TQColorGroup::Midlight, button.light( 110 ) ); TQPalette newPal( colgrp, disabledgrp, colgrp ); return newPal; } KThemePixmap::KThemePixmap( bool timer ) : KPixmap() { if ( timer ) { t = new TQTime; t->start(); } else t = NULL; int i; for ( i = 0; i < 8; ++i ) b[ i ] = NULL; } KThemePixmap::KThemePixmap( const KThemePixmap &p ) : KPixmap( p ) { if ( p.t ) { t = new TQTime; t->start(); } else t = NULL; int i; for ( i = 0; i < 8; ++i ) if ( p.b[ i ] ) b[ i ] = new TQPixmap( *p.b[ i ] ); else b[ i ] = NULL; } KThemePixmap::KThemePixmap( const KThemePixmap &p, const TQPixmap &p2 ) : KPixmap( p2 ) { if ( p.t ) { t = new TQTime; t->start(); } else t = NULL; int i; for ( i = 0; i < 8; ++i ) if ( p.b[ i ] ) b[ i ] = new TQPixmap( *p.b[ i ] ); else b[ i ] = NULL; } KThemePixmap::~KThemePixmap() { if ( t ) delete t; int i; for ( i = 0; i < 8; ++i ) if ( b[ i ] ) delete b[ i ]; } KThemeCache::KThemeCache( int maxSize, TQObject *parent, const char *name ) : TQObject( parent, name ) { cache.setMaxCost( maxSize * 1024 ); cache.setAutoDelete( true ); flushTimer.start( 300000 ); // 5 minutes connect( &flushTimer, TQT_SIGNAL( timeout() ), TQT_SLOT( flushTimeout() ) ); } void KThemeCache::flushTimeout() { TQIntCacheIterator it( cache ); while ( it.current() ) { if ( it.current() ->isOld() ) cache.remove( it.currentKey() ); else ++it; } } KThemePixmap* KThemeCache::pixmap( int w, int h, int widgetID, bool border, bool mask ) { kthemeKey key; key.cacheKey = 0; // shut up, gcc key.data.id = widgetID; key.data.width = w; key.data.height = h; key.data.border = border; key.data.mask = mask; KThemePixmap *pix = cache.find( ( unsigned long ) key.cacheKey ); if ( pix ) pix->updateAccessed(); return ( pix ); } KThemePixmap* KThemeCache::horizontalPixmap( int w, int widgetID ) { kthemeKey key; key.cacheKey = 0; // shut up, gcc key.data.id = widgetID; key.data.width = w; key.data.height = 0; key.data.border = false; key.data.mask = false; KThemePixmap *pix = cache.find( ( unsigned long ) key.cacheKey ); if ( pix ) pix->updateAccessed(); return ( pix ); } KThemePixmap* KThemeCache::verticalPixmap( int h, int widgetID ) { kthemeKey key; key.cacheKey = 0; // shut up, gcc key.data.id = widgetID; key.data.width = 0; key.data.height = h; key.data.border = false; key.data.mask = false; KThemePixmap *pix = cache.find( ( unsigned long ) key.cacheKey ); if ( pix ) pix->updateAccessed(); return ( pix ); } bool KThemeCache::insert( KThemePixmap *pixmap, ScaleHint scale, int widgetID, bool border, bool mask ) { kthemeKey key; key.cacheKey = 0; // shut up, gcc key.data.id = widgetID; key.data.width = ( scale == FullScale || scale == HorizontalScale ) ? pixmap->width() : 0; key.data.height = ( scale == FullScale || scale == VerticalScale ) ? pixmap->height() : 0; key.data.border = border; key.data.mask = mask; if ( cache.find( ( unsigned long ) key.cacheKey, true ) != NULL ) { return ( true ); // a pixmap of this scale is already in there } return ( cache.insert( ( unsigned long ) key.cacheKey, pixmap, pixmap->width() * pixmap->height() * pixmap->depth() / 8 ) ); } #include "kthemebase.moc"