/* * Copyright (C) 2007 Gustavo Pichorim Boiko * Copyright (C) 2006 Laurent Montel * * based on KDE3 HighColor Style (version 1.0) * Copyright (C) 2001-2002 Karol Szwed * (C) 2001-2002 Fredrik Höglund * * renderGradient() code adapted from the Plastik stype * Copyright (C) 2003 Sandro Giessl * * 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., 59 Temple Place - Suite 330, * Boston, MA 02111-1307, USA. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "ia_ora.h" #include "ia_ora.moc" #include "bitmaps.h" #include #include #include //#define USE_CROSS 1 // -- Style Plugin Interface ------------------------- class ThemeMdvStylePlugin : public QStylePlugin { public: ThemeMdvStylePlugin() {} ~ThemeMdvStylePlugin() {} QStringList keys() const { return QStringList() << "ia_ora"; } QStyle* create( const QString& key ) { if ( key == "ia_ora" ) return new MandrivaStyle( ); return 0; } }; Q_EXPORT_PLUGIN( ThemeMdvStylePlugin ) // --------------------------------------------------- // ### Remove globals QBitmap menuBmp; static bool scrollmin = false; static bool scrollmax = false; static const int itemFrame = 1; static const int itemHMargin = 3; static const int itemVMargin = 0; static const int arrowHMargin = 6; static const int rightBorder = 12; static const char* kdeToolbarWidget = "kde toolbar widget"; const int smallButMaxW = 27; const int smallButMaxH = 20; // --------------------------------------------------------------------------- MandrivaStyle::MandrivaColorData::~MandrivaColorData() { } // --------------------------------------------------------------------------- MandrivaStyle::MandrivaStyle( ) : KStyle( AllowMenuTransparency | FilledFrameWorkaround, WindowsStyleScrollBar ) , m_dataCache (), formMode( false ),kickerMode(false) { hoverWidget = 0L; hoverControl = HoverNone; m_dataCache.setAutoDelete(true); horizontalLine = 0; verticalLine = 0; // setup pixmap cache... pixmapCache = new QIntCache(150000, 499); pixmapCache->setAutoDelete(true); } MandrivaStyle::~MandrivaStyle() { delete pixmapCache; delete horizontalLine; delete verticalLine; } MandrivaStyle::MandrivaColorData *MandrivaStyle::realizeData (const QColorGroup &cg) const { MandrivaColorData *cdata; //define mandriva color cdata = new MandrivaColorData; cdata->spotColor = cg.highlight().rgb(); //blue mdk color //cg.base() == white //G0 gb.background() //B2 gb.hightlight //Hardcode if ( cg.background() == QColor( "#EFF3F7" ) ) { //Be sure to use design color cdata->shades[0]=QColor( "#EFF3F7" ); cdata->shades[1]=QColor( "#DFE7EF" ); cdata->shades[2]=QColor( "#CFD7DF" ); cdata->shades[3]=QColor( "#C7D3DF" ); cdata->shades[4]=QColor( "#B6C3CF" ); cdata->shades[5]=QColor( "#A6B2C7" ); cdata->shades[6]=QColor( "#8692A6" ); } else { //create algo cdata->shades[0]=cg.background(); cdata->shades[1]=cdata->shades[0].dark(107); cdata->shades[2]=cdata->shades[0].dark(115); cdata->shades[3]=cdata->shades[0].dark(117); cdata->shades[4]=cdata->shades[0].dark(131); cdata->shades[5]=cdata->shades[0].dark(144); cdata->shades[6]=cdata->shades[0].dark(178); } if ( cg.highlight() == QColor("#4965AE" ) ) // Blue { cdata->blueMdkColor[0]=QColor("#A6B6E7" ); cdata->blueMdkColor[1]=QColor("#8EA2CF" ); cdata->blueMdkColor[2]=QColor("#4965AE" ); cdata->blueMdkColor[3]=QColor("#415DA6" ); cdata->blueMdkColor[4]=QColor("#21459C" ); } else if ( cg.highlight() == QColor("#8EC7FF" ) ) // Arctic { cdata->blueMdkColor[0]=QColor("#EFF7FF" ); cdata->blueMdkColor[1]=QColor("#C7DFFF" ); cdata->blueMdkColor[2]=QColor("#8EC7FF" ); cdata->blueMdkColor[3]=QColor("#79BEFF" ); cdata->blueMdkColor[4]=QColor("#69B6FF" ); } else if ( cg.highlight() == QColor("#7BAAE7" ) ) // Smooth { cdata->blueMdkColor[0]=QColor("#CEE3FF" ); cdata->blueMdkColor[1]=QColor("#ADCFFF" ); cdata->blueMdkColor[2]=QColor("#7BAAE7" ); cdata->blueMdkColor[3]=QColor("#5A8AD6" ); cdata->blueMdkColor[4]=QColor("#427DC6" ); } else if ( cg.highlight() == QColor("#F7B610" ) ) // Orange { cdata->blueMdkColor[0]=QColor("#FFDF10" ); cdata->blueMdkColor[1]=QColor("#FFCB10" ); cdata->blueMdkColor[2]=QColor("#F7B610" ); cdata->blueMdkColor[3]=QColor("#FFA208" ); cdata->blueMdkColor[4]=QColor("#F79600" ); } else if ( cg.highlight() == QColor("#CFD7DF" ) ) // Gray { cdata->blueMdkColor[0]=cdata->shades[1]; cdata->blueMdkColor[1]=cdata->shades[2]; cdata->blueMdkColor[2]=cdata->shades[3]; cdata->blueMdkColor[3]=cdata->shades[4]; cdata->blueMdkColor[4]=cdata->shades[5]; } else { cdata->blueMdkColor[2]=cg.highlight(); cdata->blueMdkColor[0]=cdata->blueMdkColor[2].light(150); cdata->blueMdkColor[1]=cdata->blueMdkColor[2].light(137); cdata->blueMdkColor[3]=cdata->blueMdkColor[2].dark(112); cdata->blueMdkColor[4]=cdata->blueMdkColor[2].dark(130); } if (cg.button() == cg.background()) { for (int i=0; i < 7; ++i) cdata->buttonColor[i] = cdata->shades[i]; } else if ( cg.button() == QColor( "#EFF3F7" ) ) { //Be sure to use design color cdata->buttonColor[0]=QColor( "#EFF3F7" ); cdata->buttonColor[1]=QColor( "#DFE7EF" ); cdata->buttonColor[2]=QColor( "#CFD7DF" ); cdata->buttonColor[3]=QColor( "#C7D3DF" ); cdata->buttonColor[4]=QColor( "#B6C3CF" ); cdata->buttonColor[5]=QColor( "#A6B2C7" ); cdata->buttonColor[6]=QColor( "#8692A6" ); } else { cdata->buttonColor[0]=cg.button(); cdata->buttonColor[1]=cdata->buttonColor[0].dark(107); cdata->buttonColor[2]=cdata->buttonColor[0].dark(115); cdata->buttonColor[3]=cdata->buttonColor[0].dark(117); cdata->buttonColor[4]=cdata->buttonColor[0].dark(131); cdata->buttonColor[5]=cdata->buttonColor[0].dark(144); cdata->buttonColor[6]=cdata->buttonColor[0].dark(178); } return cdata; } /* We assume this seldom collides, since we can only cache one at a time */ static long hashColorGroup (const QColorGroup &cg) { return cg.button().rgb();// << 8 ^ cg.button().rgb(); } const MandrivaStyle::MandrivaColorData *MandrivaStyle::lookupData (const QColorGroup &cg) const { MandrivaColorData *cdata; long h; QIntCache *cache; h = hashColorGroup (cg); // Cast away the const crap // Nasty, but how else would i do it? cache = (QIntCache *)&m_dataCache; cdata = cache->find(h); if (cdata == 0 || !cdata->isGroup(cg)) { if (cdata != 0) { cache->remove (h); } cdata = realizeData (cg); cache->insert (h, cdata); } return cdata; } void MandrivaStyle::getShade (const QColorGroup &cg, int shadenr, QColor &res) const { const MandrivaColorData *cdata = lookupData(cg); res = cdata->shades[shadenr]; } void MandrivaStyle::updateHoverControl(const QPoint &pos) { QRegion repaint; enum Hover oldControl = hoverControl; hoverControl = HoverNone; if (!hoverWidget) return; if (hoverWidget->inherits("QScrollBar")) { QRect subline(querySubControlMetrics(CC_ScrollBar, hoverWidget, SC_ScrollBarSubLine)), addline(querySubControlMetrics(CC_ScrollBar, hoverWidget, SC_ScrollBarAddLine)), slider(querySubControlMetrics(CC_ScrollBar, hoverWidget, SC_ScrollBarSlider)); if (subline.contains(pos)) hoverControl = HoverScrollBarSubLine; else if (addline.contains(pos)) hoverControl = HoverScrollBarAddLine; else if (slider.contains(pos)) hoverControl = HoverScrollBarSlider; if (hoverControl == HoverScrollBarSubLine || oldControl == HoverScrollBarSubLine) repaint += subline; if (hoverControl == HoverScrollBarAddLine || oldControl == HoverScrollBarAddLine) repaint += addline; if (hoverControl == HoverScrollBarSlider || oldControl == HoverScrollBarSlider) repaint += slider; } else if (hoverWidget->inherits("QComboBox")) { QComboBox *cb = static_cast(hoverWidget); // for not editable combo, this is not necessary if (!cb->editable()) return; QRect comboArrow(querySubControlMetrics(CC_ComboBox, hoverWidget, SC_ComboBoxArrow)), comboEditField(querySubControlMetrics(CC_ComboBox, hoverWidget, SC_ComboBoxEditField)); if (comboArrow.contains(pos)) hoverControl = HoverComboBoxArrow; else if (comboEditField.contains(pos)) hoverControl = HoverComboBoxEdit; if (hoverControl == HoverComboBoxArrow || oldControl == HoverComboBoxArrow) repaint += comboArrow; if (hoverControl == HoverComboBoxEdit || oldControl == HoverComboBoxEdit) repaint += comboEditField; } // if we are still in the same subcontrol, return if (oldControl != hoverControl) hoverWidget->repaint(repaint, false); } void MandrivaStyle::polish(QApplication* app) { if (!qstrcmp(app->argv()[0], "kicker")) kickerMode = true; } void MandrivaStyle::polish(QWidget* widget) { // Put in order of highest occurance to maximize hit rate if ( widget->inherits( "QComboBox" ) || widget->inherits("QScrollBar") || widget->inherits("QHeader") || widget->inherits( "QSlider" ) || widget->inherits( "QCheckBox" ) || widget->inherits("QSplitterHandle")) { widget->installEventFilter(this); if (widget->inherits( "QScrollBar" ) || widget->inherits( "QComboBox" )) widget->setMouseTracking( true ); } else if (widget->inherits("QMenuBar") || widget->inherits("QPopupMenu") ) { widget->setBackgroundMode(QWidget::NoBackground); } else if (widget->inherits("QPushButton") ) { widget->installEventFilter(this); widget->setBackgroundMode( QWidget::PaletteBackground ); } else if ( widget->inherits( "KToolBarSeparator" ) || widget->inherits( "QToolBarSeparator" ) ) { widget->setBackgroundMode( QWidget::PaletteBackground ); } else if (widget->inherits("QToolBarExtensionWidget")) { widget->installEventFilter(this); } else if ( widget->parentWidget() && ( ( widget->inherits( "QListBox" ) && widget->parentWidget()->inherits( "QComboBox" ) ) || widget->inherits( "KCompletionBox" ) ) ) { QListBox* listbox = (QListBox*) widget; listbox->setLineWidth( 1 ); listbox->setBackgroundMode( NoBackground ); widget->installEventFilter( this ); } else if ( !qstrcmp( widget->name(), kdeToolbarWidget) ) { widget->setBackgroundMode( NoBackground ); // We paint the whole background. widget->installEventFilter(this); } KStyle::polish( widget ); } void MandrivaStyle::unPolish(QWidget* widget) { QFont f = QApplication::font(); QApplication::setFont( f, TRUE ); // get rid of the special fonts for special widget classes if ( widget->inherits( "QComboBox" ) || widget->inherits("QScrollBar") || widget->inherits("QHeader") || widget->inherits( "QSlider" ) || widget->inherits( "QCheckBox" ) || widget->inherits("QSplitterHandle")) { widget->removeEventFilter(this); } else if ( widget->inherits("QMenuBar") || widget->inherits("QPopupMenu")) { widget->setBackgroundMode(QWidget::PaletteBackground); } else if ( widget->inherits("QPushButton") ) { widget->removeEventFilter(this); } else if (widget->inherits("QToolBarExtensionWidget")) { widget->removeEventFilter(this); } else if ( widget->parentWidget() && ( ( widget->inherits( "QListBox" ) && widget->parentWidget()->inherits( "QComboBox" ) ) || widget->inherits( "KCompletionBox" ) ) ) { QListBox* listbox = (QListBox*) widget; listbox->setLineWidth( 1 ); listbox->setBackgroundMode( PaletteBackground ); widget->removeEventFilter( this ); widget->clearMask(); } //For toolbar internal separators, return to button, too (can't use qt_cast here since don't have access to the class) else if ( widget->inherits( "KToolBarSeparator" ) || widget->inherits( "QToolBarSeparator" ) ) { widget->setBackgroundMode( QWidget::PaletteBackground ); } else if ( !qstrcmp( widget->name(), kdeToolbarWidget) ) { widget->setBackgroundMode( PaletteBackground ); widget->removeEventFilter(this); } KStyle::unPolish( widget ); } /* reimp. */ void MandrivaStyle::renderMenuBlendPixmap( KPixmap& pix, const QColorGroup &cg, const QPopupMenu* /* popup */ ) const { QColor col = cg.background(); //FIXME !!!!!!!!!!!!!!! #ifdef Q_WS_X11 // Only draw menu gradients on TrueColor, X11 visuals if ( QPaintDevice::x11AppDepth() >= 24 ) KPixmapEffect::gradient( pix, col.light(120), col.dark(115), KPixmapEffect::HorizontalGradient ); else #endif pix.fill( col ); } void MandrivaStyle::drawHandle( const MandrivaColorData *cdata, QPainter *p, const QRect &r, const QColorGroup & /*cg*/, SFlags flags, const QStyleOption& /*opt*/, bool /*drawBorder*/ /*for the future remove it*/, bool drawGradient) const { int x,y,width,height; r.rect(&x, &y, &width, &height); int i = 0; int delta=0; //fix for handle toolbar, otherwise it's not center if (!(flags & Style_Horizontal)) { if ( drawGradient ) renderGradient( p, QRect(x+2,y+2,width-4, height-4), cdata->shades[2], cdata->shades[0],false); if(width > 30) { delta = x + (width/2) - 11; for(i = 0; i < 3; i++) { drawHandlePoint (cdata,p, (delta + 9*i), y + QMAX((height-4)/2,0)); } } else { drawHandlePoint (cdata, p, x + (width-4)/2 , y + QMAX((height-4)/2,0)); } } else { if( drawGradient ) renderGradient(p, QRect(x+2,y+2,width-4, height-4), cdata->shades[0],cdata->shades[2], true); if(height > 30) { delta = y + (height / 2) - 11; for(i = 0; i < 3; i++) { drawHandlePoint (cdata, p, x + QMAX((width-4)/2,0), delta+9*i); } } else { drawHandlePoint (cdata,p, x + QMAX((width-4)/2,0), y + (height-4) / 2); } } } void MandrivaStyle::drawGroupBox(const MandrivaColorData *cdata, const QColorGroup & cg, QPainter *p, const QRect & r, bool /*active*/, bool sunken)const { int x,y,w,h; x=r.x(); y=r.y(); w=r.width(); h=r.height(); int x2 = x+w-1; int y2 = y+h-1; p->setPen(cdata->shades[2]); p->drawLine(x+1, y2, x2-1, y2); p->drawLine(x2, y+1, x2, y2-1); p->drawLine(x+1, y, x2-1, y); p->drawLine(x, y+1, x, y2-1); p->setPen( cg.background() ); p->drawPoint( x, y ); p->drawPoint( x, y2 ); p->drawPoint( x2, y ); p->drawPoint( x2, y2 ); p->setPen( sunken ?cg.base():cdata->shades[1] ); p->drawLine( x+1, y+1, x2-1, y+1 ); p->drawLine( x+1, y+2, x+1, y2-2 ); p->setPen( sunken ? cdata->shades[1] :cg.base() ); p->drawLine( x+1, y2-1, x2-1, y2-1 ); p->drawLine( x2-1, y+2, x2-1, y2-2 ); } void MandrivaStyle::drawLineSeparator(const MandrivaColorData *cdata, const QColorGroup & cg, QPainter *p, const QRect & r, bool horizontal, bool /*active*/, bool /*sunken*/, bool skipOffset )const { QRect line1, line2; p->fillRect(r, cg.background()); if (horizontal) { int offset = 0; // remove 5 pixels from each side of the line if (r.width() > 20 && skipOffset) offset = 3; // draw the separator in the middle of the given rect int middle = (r.top() + r.bottom()) / 2; line1 = QRect(r.x() + offset, middle, r.width() - 2*offset, 1); line2 = QRect(r.x() + offset, middle+1, r.width() - 2*offset, 1); } else { int offset = 0; // remove 5 pixels from each side of the line if (r.height() > 20 && skipOffset) offset = 3; // draw the separator in the middle of the given rect int middle = (r.left() + r.right()) / 2; line1 = QRect(middle, r.y() + offset, 1, r.height() - 2*offset); line2 = QRect(middle+1, r.y() + offset, 1, r.height() - 2*offset); } p->setPen(cdata->shades[2]); p->drawLine(line1.left(), line1.top(), line1.right(), line1.bottom()); p->setPen( cg.base() ); p->drawLine(line2.left(), line2.top(), line2.right(), line2.bottom()); } void MandrivaStyle::drawFrame( const MandrivaColorData *cdata, const QColorGroup & cg, QPainter *p, const QRect & r, bool active )const { //use by checkbox,lineedit,spinbox,combobox int x,y,w,h; x=r.x(); y=r.y(); w=r.width(); h=r.height(); int x2 = x+w-1; int y2 = y+h-1; p->setPen(cdata->shades[4]); p->drawLine(x+1, y2, x2-1, y2); p->drawLine(x2, y+1, x2, y2-1); //Change color if it's active if ( active ) p->setPen( cdata->shades[5] ); p->drawLine(x+1, y, x2-1, y); p->drawLine(x, y+1, x, y2-1); p->setPen( cg.background() ); p->drawPoint( x, y ); p->drawPoint( x, y2 ); p->drawPoint( x2, y ); p->drawPoint( x2, y2 ); } // This function draws primitive elements as well as their masks. void MandrivaStyle::drawPrimitive( PrimitiveElement pe, QPainter *p, const QRect &r, const QColorGroup &cg, SFlags flags, const QStyleOption& opt ) const { int x, y, xw, yh; x= r.x(); y= r.y(); xw = r.x()+r.width()-1; yh = r.y()+r.height()-1; bool down = flags & Style_Down; bool on = flags & Style_On; const MandrivaColorData *cdata = lookupData(cg); bool sunken = flags & Style_Sunken; switch(pe) { case PE_PanelTabWidget: { p->save(); p->setPen(cdata->shades[4]); p->drawRect(r); p->restore(); break; } case PE_FocusRect: { p->save(); p->setPen(cdata->shades[6]); p->drawWinFocusRect( r ); p->restore(); break; } case PE_PanelMenuBar: // Menu { //FIXME p->fillRect(r, cg.brush(QColorGroup::Background)); int x2 = r.x()+r.width()-1; int y2 = r.y()+r.height()-1; p->setPen(cdata->shades[2]); p->drawLine(x, y2, x2, y2); break; } case PE_PanelDockWindow: // Toolbar { bool horiz = r.width() > r.height(); //Here, we just draw the border. int x = r.x(); int y = r.y(); int x2 = r.x() + r.width() - 1; int y2 = r.y() + r.height() - 1; int lw = opt.isDefault() ? pixelMetric(PM_DefaultFrameWidth) : opt.lineWidth(); //FIXME if (lw) { //Gradient border colors. //(Same as in gradients.cpp) QColor gradTop = cg.base(); QColor gradBot = cdata->shades[2]; if (horiz) { //Top line p->setPen(gradTop); p->drawLine(x, y, x2, y); //Bottom line p->setPen(gradBot); p->drawLine(x, y2, x2, y2); } else { //Left line p->setPen(gradTop); p->drawLine(x, y, x, y2); //Right line p->setPen(gradBot); p->drawLine(x2, y, x2, y2); } } break; } case PE_DockWindowSeparator: { bool horiz = flags & Style_Horizontal; drawLineSeparator( cdata, cg, p, r, !horiz, true, sunken ); break; } case PE_DockWindowResizeHandle: case PE_Splitter: { QRect real(r); real.addCoords( 1, 0,0 ,0); QColor color = (hoverWidget == p->device())?cdata->shades[1]:cg.background(); p->fillRect( r, color ); p->setPen( cg.background() ); p->drawPoint( r.x(), 0 ); p->drawPoint( r.width()-1, 0 ); p->drawPoint( r.x(), r.height()-1 ); p->drawPoint( r.width()-1, r.height()-1 ); drawHandle( cdata, p,real,cg,flags,opt, false ); break; } case PE_PanelLineEdit: { drawFrame( cdata, cg, p, r, true ); break; } case PE_Panel: //QListBox and co { if(kickerMode) break; p->save(); p->setPen(cdata->shades[4]); p->drawRect(r); p->restore(); break; } case PE_StatusBarSection: { p->fillRect(r, cg.background()); break; } case PE_PanelPopup: case PE_WindowFrame: { int lw = /*opt.isDefault() ? pixelMetric(PM_DefaultFrameWidth) : opt.lineWidth()*/1; if (lw == 1 || lw == 2) { QPen oldPen = p->pen(); int x,y,w,h; r.rect(&x, &y, &w, &h); int x2 = x+w-1; int y2 = y+h-1; p->setPen(sunken ? cg.light() : cdata->shades[2]); p->drawLine(x, y2, x2, y2); p->drawLine(x2, y, x2, y2); p->setPen(sunken ? cdata->shades[2] : cg.light()); p->drawLine(x, y, x2, y); p->drawLine(x, y, x, y2); p->setPen(sunken ? cg.midlight() : cdata->shades[2]); p->drawLine(x+1, y2-1, x2-1, y2-1); p->drawLine(x2-1, y+1, x2-1, y2-1); p->setPen(sunken ? cdata->shades[2] : cg.midlight()); p->drawLine(x+1, y+1, x2-1, y+1); p->drawLine(x+1, y+1, x+1, y2-1); if( lw == 2 ) { p->setPen(sunken ? cg.midlight() : cdata->shades[5]); p->drawLine(x+2, y2-2, x2-2, y2-2); p->drawLine(x2-1, y+2, x2-2, y2-2); p->setPen(sunken ? cdata->shades[5] : cg.midlight()); p->drawLine(x+2, y+2, x2-2, y+2); p->drawLine(x+2, y+2, x+2, y2-2); } p->setPen(oldPen); } else KStyle::drawPrimitive(pe, p, r, cg, flags, opt); break; } case PE_GroupBoxFrame: { if ( opt.isDefault() || opt.lineWidth() <= 0 ) break; drawGroupBox( cdata, cg, p, r, true,sunken ); break; } #if 0 case PE_PanelGroupBox: drawPrimitive( PE_GroupBoxFrame, p, r, cg, flags, opt ); break; #endif case PE_Separator: { drawLineSeparator( cdata, cg, p, r, true, true, sunken ); break; } case PE_HeaderArrow: { if ( flags & Style_Up ) drawPrimitive( PE_ArrowUp, p, r, cg, Style_Enabled ); else drawPrimitive( PE_ArrowDown, p, r, cg, Style_Enabled ); break; } case PE_HeaderSection: { bool horizontal = true; bool isFirst = false; if (p && p->device()->devType() == QInternal::Widget) { QHeader* hdr = dynamic_cast(p->device()); if (hdr) { horizontal = ( hdr->orientation() == Horizontal ); isFirst = hdr->mapToIndex(hdr->sectionAt(r.x() ) ) == 0; } } int x,y,w,h; r.rect(&x, &y, &w, &h); QPen oldPen = p->pen(); //TODO verify it if (flags & Style_MouseOver) renderGradient( p, QRect(x, y, w, h-1), cdata->shades[0],cdata->shades[2], !horizontal ); else if ( on ) renderGradient(p, QRect(x, y, w, h-1), cdata->shades[0],cdata->shades[2], !horizontal ); else if ( down ) renderGradient(p, QRect(x, y, w, h-1), cdata->shades[2],cdata->shades[1], !horizontal ); else renderGradient( p, QRect(x, y, w, h-1), cdata->shades[0],cdata->shades[2], !horizontal ); //don't draw separator for first eleemtn if ( !isFirst ) { drawLineSeparator(cdata, cg, p, QRect(x,y,2,h), false, true, false, false); } p->setPen( oldPen ); break; } case PE_ExclusiveIndicator: { //radiobutton bool enabled = flags & Style_Enabled; p->setPen( cdata->shades[4] ); p->setBrush( QBrush( enabled ? cg.base() : cdata->shades[0] ) ); p->drawEllipse( r ); bool specificBackground = excludeColor( cg.highlight(), enabled ); if (!(flags & Style_Off)) { if (flags & Style_On) //on { if ( specificBackground ) p->setPen( enabled ? cdata->shades[6]:cdata->shades[3] ); else p->setPen( enabled ? cdata->blueMdkColor[2]:cdata->shades[3] ); p->drawLine( x+5, y+3, xw-5, y+3 ); p->drawLine( x+4, y+4, xw-4, y+4 ); p->drawLine( x+3, y+5, xw-3, y+5 ); if ( specificBackground ) p->setPen( enabled ? cdata->shades[6]:cdata->shades[5] ); else p->setPen( enabled ? cdata->blueMdkColor[4]:cdata->shades[5] ); p->drawLine( x+3, y+6, xw-3, y+6 ); p->drawLine( x+4, y+7, xw-4, y+7); p->drawLine( x+5, y+8, xw-5, y+8 ); } } break; } case PE_CheckListIndicator: { QCheckListItem *item = opt.checkListItem(); if(!item) return; int x = r.x(), y = r.y(), w = r.width(), h = r.width(); drawPrimitive(PE_Indicator, p, QRect(x-2, y-2 , w+3, h+3 ) , cg, flags ); break; } //case PE_IndicatorMask: case PE_Indicator: { //checkbox bool enabled = flags & Style_Enabled; //draw background use base color QRect ar( x+1, y+1, x+11, y+10 ); p->fillRect (ar, enabled ? cg.base() : cdata->shades[0]); bool specificBackground = excludeColor( cg.highlight(), enabled ); //TODO mouse over if (!(flags & Style_Off)) { if (flags & Style_On) //on { #ifdef USE_CROSS p->setPen( enabled ? cdata->blueMdkColor[2]:cdata->shades[3] ); //TODO look at if we can use a qbitmap directly p->drawLine( x+2, y+2, x+3, y+2 ); p->drawLine( x+2, y+3, x+4, y+3 ); p->drawLine( x+3, y+4, x+5, y+4 ); p->drawLine( x+4, y+5, x+8, y+5 ); p->drawLine( x+9, y+2, x+10, y+2 ); p->drawLine( x+8, y+3, x+10, y+3 ); p->drawLine( x+7, y+4, x+9, y+4 ); p->setPen( enabled ? cdata->blueMdkColor[4] : cdata->shades[5]); p->drawLine( x+4, y+6, x+8, y+6 ); p->drawLine( x+3, y+7, x+5, y+7 ); p->drawLine( x+2, y+8, x+4, y+8 ); p->drawLine( x+2, y+9, x+3, y+9 ); p->drawLine( x+9, y+9, x+10, y+9 ); p->drawLine( x+8, y+8, x+10, y+8 ); p->drawLine( x+7, y+7, x+9, y+7 ); #else if (QApplication::reverseLayout() ) { if ( specificBackground ) p->setPen( enabled ? cdata->shades[6]:cdata->shades[3] ); else p->setPen( enabled ? cdata->blueMdkColor[2]:cdata->shades[3] ); p->drawPoint( x+2,y+2 ); p->drawLine( x+2,y+3,x+3,y+3 ); p->drawLine( x+2,y+4,x+4,y+4 ); p->drawLine( x+3,y+5,x+5,y+5 ); p->drawLine( x+4,y+6,x+6,y+6 ); p->drawPoint( x+10,y+5 ); p->drawLine( x+9,y+6,x+10,y+6 ); if ( specificBackground ) p->setPen( enabled ? Qt::black : cdata->shades[4]); else p->setPen( enabled ? cdata->blueMdkColor[4] : cdata->shades[4]); p->drawLine( x+5,y+7,x+10,y+7 ); p->drawLine( x+6,y+8,x+9,y+8 ); p->drawLine( x+7,y+9,x+8,y+9 ); } else { if ( specificBackground ) p->setPen( enabled ? cdata->shades[6]:cdata->shades[3] ); else p->setPen( enabled ? cdata->blueMdkColor[2]:cdata->shades[3] ); p->drawPoint( x+10,y+2 ); p->drawLine( x+9,y+3,x+10,y+3 ); p->drawLine( x+8,y+4,x+10,y+4 ); p->drawLine( x+7,y+5,x+9,y+5 ); p->drawLine( x+6,y+6,x+8,y+6 ); p->drawPoint( x+2,y+5 ); p->drawLine( x+2,y+6,x+3,y+6 ); if ( specificBackground ) p->setPen( enabled ? Qt::black : cdata->shades[4]); else p->setPen( enabled ? cdata->blueMdkColor[4] : cdata->shades[4]); p->drawLine( x+2,y+7,x+7,y+7 ); p->drawLine( x+3,y+8,x+6,y+8 ); p->drawLine( x+4,y+9,x+5,y+9 ); } #endif } else //tristate { if ( specificBackground ) p->setPen( enabled ? cdata->shades[6] : cdata->shades[3]); else p->setPen( enabled ? cdata->blueMdkColor[2] : cdata->shades[3]); p->drawLine( x+4, y+5, x+8, y+5 ); p->drawLine( x+3, y+6, x+9, y+6 ); if ( specificBackground ) p->setPen( enabled ? Qt::black : cdata->shades[5]); else p->setPen( enabled ? cdata->blueMdkColor[4] : cdata->shades[5]); p->drawLine( x+4, y+7, x+8, y+7 ); } } drawFrame( cdata, cg, p, r,true ); break; } case PE_SizeGrip: { int y = r.y(); int x2 = r.width(); int y2 = r.height(); p->setPen( cdata->shades[2] ); p->drawPoint( x2, y ); p->drawPoint( x2-1, y+1 ); p->drawLine( x2-2, y+2, x2-1, y+2 ); p->drawLine( x2-3, y+3, x2-1, y+3 ); p->drawLine( x2-4, y+4, x2-1, y+4 ); p->drawLine( x2-5, y+5, x2-1, y+5 ); p->drawLine( x2-6, y+6, x2-1, y+6 ); p->drawLine( x2-7, y+7, x2-2, y+7 ); p->drawLine( x2-8, y+8, x2-3, y+8 ); p->drawLine( x2-9, y+9, x2-4, y+9 ); p->drawLine( x2-10, y+10, x2-6, y+10 ); p->drawLine( x2-11, y+11, x2-9, y+11 ); p->drawPoint( x2, y+12 ); p->drawLine( x2-1, y+13,x2,y+13 ); p->drawLine( x2-2, y+14,x2-1,y+14 ); //TODO draw last point p->setPen( cdata->shades[3] ); p->drawLine( x2, y+1, x2, y2-3 ); p->drawPoint( x2-1, y+7 ); p->drawLine( x2-2, y+8, x2-1, y+8 ); p->drawLine( x2-3, y+9, x2-1, y+9 ); p->drawLine( x2-5, y+10, x2-1, y+10 ); p->drawLine( x2-8, y+11, x2-1, y+11 ); p->drawLine( x2-12, y+12, x2-1, y+12 ); p->drawLine( x2-13, y+13, x2-2, y+13 ); p->drawLine( x2-14, y+14, x2-3, y+14 ); p->setPen( cg.background() ); p->drawPoint( x2, y2 ); break; } case PE_SpinWidgetUp: case PE_SpinWidgetDown: { p->save(); QRect br; QRect re( r ); br.setRect( r.x() , r.y(), r.width()+1, r.height() ); bool down = flags & Style_Down; bool on = flags & Style_On; bool sunken = on || down; //Verify if ( on ) renderGradient(p, br, cdata->shades[0],cdata->shades[2], /*!horizontal*/ false); else if ( down ) renderGradient(p, br, cdata->shades[2],cdata->shades[1], /*!horizontal*/ false); else if( !sunken && (flags & Style_Enabled )) renderGradient(p, br, cdata->shades[2],cdata->shades[0], /*!horizontal*/false ); p->setPen( cdata->shades[5]); p->drawLine( br.x()-1, br.y(), br.x()-1, br.x()+r.height() ); //TODO verify +1 ??? if ( pe == PE_SpinWidgetUp ) { QRect tmp( re ); tmp.addCoords( -1, -2, 1, 1 ); p->drawRect( tmp ); //p->drawLine(br.x()-1, br.y()+br.height(), br.x()+br.width()-1, br.y()+br.height() ); //TODO verify +1 ??? p->setPen( cg.background() ); //p->drawPoint( tmp.width()-1, tmp.y()+1 ) ; } else { QRect tmp( re ); tmp.addCoords( -1, 0, 1, 1 ); p->drawRect( tmp ); //p->drawLine(br.x()-1, br.y(), br.x()+br.width()-1, br.y() ); //TODO verify +1 ??? p->setPen( cg.background() ); //p->drawPoint( tmp.width()-5, tmp.height()-2 ) ; } int w = r.width(); int sw = w-4; if ( sw < 3 ) break; else if ( !(sw & 1) ) sw--; sw -= ( sw / 7 ) * 2; // Empty border //TODO don't use same color for active/inactive p->setPen( cg.buttonText() ); p->setBrush( cg.buttonText() ); QPointArray a; if ( pe == PE_SpinWidgetDown ) a.setPoints(QCOORDARRLEN(d_spinarrow), d_spinarrow); else { //move one pixel up re.addCoords( 0, 1,0,0); a.setPoints(QCOORDARRLEN(u_spinarrow), u_spinarrow); } drawMandrivaArrow( a, p, re, cg, flags, opt ); p->restore(); break; } case PE_ScrollBarSlider: { bool horizontal = flags & Style_Horizontal; p->setPen( cdata->shades[5]); if( scrollmin && scrollmax ) { QRect tmpRect(r); if( !horizontal ) tmpRect.addCoords(0,0,0,1); else tmpRect.addCoords(0,0,1,0); p->drawRect( tmpRect ); } else p->drawRect( r ); p->setPen( cdata->shades[0]); if ( horizontal ) { p->drawLine( r.x(), r.y()+1, r.x(), r.y()+r.height()-2 ); p->drawLine( r.x()+r.width(), r.y() +1 , r.x()+r.width(), r.y()+r.height()-2 ); } else { p->drawLine( r.x()+1, r.y(), r.x()+r.width()-2, r.y() ); p->drawLine( r.x()+1, r.y()+r.height()-1, r.x()+r.width()-2, r.y()+r.height()-1 ); } // if the mouse is over the slider, the first half of the gradient changes bool mouseover = flags & Style_MouseOver; QRect tmpRect(r), firstHalf, secondHalf; if (horizontal) { tmpRect.addCoords( 0, 1, 0, -1 ); firstHalf = QRect(tmpRect.x(), tmpRect.y(), tmpRect.width(), tmpRect.height()/2); secondHalf = QRect(tmpRect.x(), tmpRect.height()/2 + 1, tmpRect.width(), tmpRect.height() - (tmpRect.height()/2)); } else { tmpRect.addCoords( 1, 0, -1, 0 ); firstHalf = QRect(tmpRect.x(), tmpRect.y(), tmpRect.width()/2, tmpRect.height()); secondHalf = QRect(tmpRect.width()/2 + 1, tmpRect.y(), tmpRect.width() - (tmpRect.width()/2), tmpRect.height()); } // first half of the gradient // horizontal scrollbars need vertical gradients (that's the reason // of the !horizontal as the last argument renderGradient(p, firstHalf, mouseover ? cdata->blueMdkColor[0] : cdata->blueMdkColor[1], cdata->blueMdkColor[3], !horizontal); // second half of the gradient renderGradient(p, secondHalf, cdata->blueMdkColor[4], cdata->blueMdkColor[2], !horizontal); // draw the points if !scrollmin or !scrollmax p->setPen( cg.background() ); if (horizontal) { if ( !scrollmax ) { p->drawPoint( tmpRect.x()+ tmpRect.width()-1, tmpRect.y() ); p->drawPoint( tmpRect.x()+tmpRect.width()-1, tmpRect.y()+tmpRect.height()-1 ); } if ( !scrollmin ) { p->drawPoint( tmpRect.x(), tmpRect.y() ); p->drawPoint( tmpRect.x(), tmpRect.height() ); } } else { if ( !scrollmax ) { p->drawPoint( tmpRect.x(), tmpRect.y()+tmpRect.height()-1 ); p->drawPoint( tmpRect.width(), tmpRect.y()+tmpRect.height()-1 ); } if ( !scrollmin ) { p->drawPoint( tmpRect.x(), tmpRect.y() ); p->drawPoint( tmpRect.width(), tmpRect.y() ); } } break; } case PE_ScrollBarAddPage: case PE_ScrollBarSubPage: { int x, y, w, h; r.rect(&x, &y, &w, &h); int x2 = x+w-1; int y2 = y+h-1; p->setPen( cg.base()); p->drawLine( x,y,x,y2 ); p->drawLine( x2,y,x2,y2 ); p->setPen( cdata->shades[5]); if (flags & Style_Horizontal) { p->drawLine(x, y, x2, y); p->drawLine(x, y2, x2, y2); p->fillRect( QRect( x, y+1, w, h-2),cdata->shades[0] ); } else { p->drawLine(x, y, x, y2); p->drawLine(x2, y, x2, y2); p->fillRect( QRect( x+1, y, w-2, h),cdata->shades[0] ); } break; } case PE_ScrollBarAddLine: case PE_ScrollBarSubLine: { int x,y,w,h; r.rect(&x, &y, &w, &h); bool sunken = on || down; bool mouseover = flags & Style_MouseOver; bool horizontal = flags & Style_Horizontal; // draw the bounding rect p->setPen( cdata->shades[5]); p->drawRect( r ); // draw the gradient of the buttons if (w > 4 && h > 4) { if (sunken) renderGradient(p, QRect(x+1, y+1, w-2, h-2), cdata->shades[2],cdata->shades[1], !horizontal); else if ( flags & Style_Enabled ) renderGradient(p, QRect(x+1, y+1, w-2, h-2), cdata->shades[0], mouseover ? cdata->shades[1] : cdata->shades[2], !horizontal ); } PrimitiveElement arrow; // draw some points to get a kind of rounded corner p->setPen( cg.background() ); if (pe == PE_ScrollBarAddLine) { arrow = horizontal ? PE_ArrowRight : PE_ArrowDown; if ( horizontal ) { p->drawPoint( r.x()+r.width()-1 ,r.y() ); p->drawPoint( r.x()+r.width()-1 ,r.y()+r.height()-1 ); } else { p->drawPoint( r.x() ,r.y()+r.height()-1 ); p->drawPoint( r.x()+r.width()-1 ,r.y()+r.height()-1 ); } } else { arrow = horizontal ? PE_ArrowLeft : PE_ArrowUp; if ( horizontal ) { p->drawPoint( r.x() ,r.y() ); p->drawPoint( r.x() ,r.y()+r.height()-1 ); } else { p->drawPoint( r.x() ,r.y() ); p->drawPoint( r.x()+r.width()-1 ,r.y() ); } } // draw the arrow drawPrimitive( arrow, p, r, cg, flags ); break; } // BUTTONS // ------------------------------------------------------------------- case PE_ButtonDefault: //default button case PE_ButtonCommand: // action button case PE_ButtonDropDown: case PE_ButtonTool: { drawButton(cdata,r,p,cg,flags); break; } case PE_CheckMark: { if (menuBmp.isNull()) { menuBmp = QBitmap( 12 , 12, menu_check_bits, true); menuBmp.setMask(menuBmp); } int x,y; x=r.x(); y=r.y(); if (!(flags & Style_Off)) { p->setPen( on ? cdata->blueMdkColor[2] : cg.highlightedText () ); p->drawPixmap(x+3, y+3, menuBmp); } break; } //FIXME !!!!!!!!!!!!!!!!!!!! scrollbar case PE_ButtonBevel: { int x,y,w,h; r.rect(&x, &y, &w, &h); bool sunken = on || down; int x2 = x+w-1; int y2 = y+h-1; // Outer frame p->setPen(cg.shadow()); p->drawRect(r); // Bevel p->setPen(sunken ? cg.mid() : cg.light()); p->drawLine(x+1, y+1, x2-1, y+1); p->drawLine(x+1, y+1, x+1, y2-1); p->setPen(sunken ? cg.light() : cg.mid()); p->drawLine(x+2, y2-1, x2-1, y2-1); p->drawLine(x2-1, y+2, x2-1, y2-1); if (w > 4 && h > 4) { if (sunken) p->fillRect(x+2, y+2, w-4, h-4, cg.button()); /*else renderGradient( p, QRect(x+2, y+2, w-4, h-4), cg.button(), flags & Style_Horizontal );*/ } break; } default: { if (pe >= PE_ArrowUp && pe <= PE_ArrowLeft) { QPointArray a; //array point define into bitmap.h switch(pe) { case PE_ArrowUp: a.setPoints(QCOORDARRLEN(u_arrow), u_arrow); break; case PE_ArrowDown: a.setPoints(QCOORDARRLEN(d_arrow), d_arrow); break; case PE_ArrowLeft: a.setPoints(QCOORDARRLEN(l_arrow), l_arrow); break; default: a.setPoints(QCOORDARRLEN(r_arrow), r_arrow); } drawMandrivaArrow( a, p, r, cg, flags, opt ); } else KStyle::drawPrimitive( pe, p, r, cg, flags, opt ); } } //switch } void MandrivaStyle::drawMandrivaArrow( QPointArray a, QPainter *p, const QRect &r, const QColorGroup &cg, SFlags flags, const QStyleOption& /*opt*/ ) const { QPen oldPen = p->pen(); a.translate( r.x() + r.width() / 2, r.y() + r.height() / 2 ); p->setPen(flags & Style_Enabled ? cg.buttonText() : cg.mid() ); p->drawLineSegments( a ); p->setPen( oldPen ); // restore pen } void MandrivaStyle::drawKStylePrimitive( KStylePrimitive pe, QPainter* p, const QWidget* widget, const QRect &r, const QColorGroup &cg, SFlags flags, const QStyleOption &opt ) const { const MandrivaColorData *cdata = lookupData(cg); switch(pe) { // GENERAL/KICKER HANDLE // ------------------------------------------------------------------- case KPE_GeneralHandle: { drawHandle( cdata, p,r,cg,flags,opt,false ); break; } // TOOLBAR HANDLE // ------------------------------------------------------------------- case KPE_ToolBarHandle: { QRect real(r); real.addCoords( -1, 0,0,0); drawHandle( cdata, p,r,cg,flags,opt,true ); break; } // SLIDER GROOVE // ------------------------------------------------------------------- case KPE_SliderGroove: { const QSlider* sl = static_cast< const QSlider* >( widget ); bool horizontal = sl->orientation() == Horizontal; //TODO fixme p->fillRect( QRect( r.x()+1, r.y()+1, r.width()-2, r.height()-2 ),cdata->shades[0] ); p->setPen( cdata->shades[1] ); int pos = sl->sliderStart(); if ( horizontal ) { //bidi if (QApplication::reverseLayout() ) p->fillRect( QRect( pos, 1, r.right(), r.height()-2 ),cdata->shades[3] ); else p->fillRect( QRect( 1, 1, pos, r.height()-2 ),cdata->shades[3] ); for ( int i = 12; i < r.width() ; ) { p->drawLine( i, r.y()+1, i, r.height()-2 ); i+=12; } } else { p->fillRect( QRect( 1, pos, r.width()-2, r.height() ),cdata->shades[3] ); for ( int i = 12; i < r.height() ; ) { p->drawLine( r.x(), i, r.width(), i ); i+=12; } } drawFrame( cdata, cg, p, r,true /*flags ? */); break; } // SLIDER HANDLE // ------------------------------------------------------------------- case KPE_SliderHandle: { const QSlider* sl = static_cast< const QSlider* >( widget ); bool horizontal = sl->orientation() == Horizontal; bool mouseOver = (widget == hoverWidget); int x = r.x(); int y = r.y(); int x2 = r.right(); int y2 = y+r.height(); p->setPen( mouseOver ? cdata->blueMdkColor[1] : cdata->blueMdkColor[2]); if ( horizontal ) { p->drawLine( x+1, y, x2-1, y ); p->drawLine( x, y+1, x2, y+1 ); p->drawLine( x, y+2, x2, y+2 ); p->setPen( mouseOver ? cdata->blueMdkColor[2] : cdata->blueMdkColor[4]); p->drawLine( x, y+4, x2, y+4 ); p->drawLine( x, y+3, x2, y+3 ); p->drawLine( x+1, y+5, x2-1, y+5 ); //draw cross int newposx = x+r.width()/2; p->drawLine( newposx-1, y+1, newposx+1,y+1 ); p->drawLine( newposx-2, y+2, newposx+2,y+2 ); p->setPen( mouseOver ? cdata->blueMdkColor[1] : cdata->blueMdkColor[2]); p->drawLine( newposx-2, y+3, newposx+2,y+3 ); p->drawLine( newposx-1, y+4, newposx+1,y+4 ); } else //test into kmix { p->drawLine( x, y+1, x, y2-1 ); p->drawLine( x+1, y, x+1, y2 ); p->drawLine( x+2, y, x+2, y2 ); p->setPen( mouseOver ? cdata->blueMdkColor[2] : cdata->blueMdkColor[4]); p->drawLine( x+3, y, x+3, y2 ); p->drawLine( x+4, y, x+4, y2 ); p->drawLine( x+5, y+1, x+5, y2-1 ); //draw cross int newposy = y+r.height()/2; p->drawLine( x+1, newposy-1, x+1, newposy+1); p->drawLine( x+2, newposy-2, x+2, newposy+2); p->setPen( mouseOver ? cdata->blueMdkColor[1] : cdata->blueMdkColor[2]); p->drawLine( x+3, newposy-2, x+3, newposy+2); p->drawLine( x+4, newposy-1, x+4, newposy+1); } break; } // copied and slightly modified from KStyle. case KPE_ListViewBranch: { // Typical Windows style listview branch element (dotted line). // Create the dotline pixmaps if not already created if ( !verticalLine ) { // make 128*1 and 1*128 bitmaps that can be used for // drawing the right sort of lines. verticalLine = new QBitmap( 1, 129, true ); horizontalLine = new QBitmap( 128, 1, true ); QPointArray a( 64 ); QPainter p2; p2.begin( verticalLine ); int i; for( i=0; i < 64; i++ ) a.setPoint( i, 0, i*2+1 ); p2.setPen( cdata->shades[4] ); p2.drawPoints( a ); p2.end(); QApplication::flushX(); verticalLine->setMask( *verticalLine ); p2.begin( horizontalLine ); for( i=0; i < 64; i++ ) a.setPoint( i, i*2+1, 0 ); p2.setPen( cdata->shades[4] ); p2.drawPoints( a ); p2.end(); QApplication::flushX(); horizontalLine->setMask( *horizontalLine ); } p->setPen( cg.mid() ); if (flags & Style_Horizontal) { int point = r.x(); int other = r.y(); int end = r.x()+r.width(); int thickness = r.height(); while( point < end ) { int i = 128; if ( i+point > end ) i = end-point; p->drawPixmap( point, other, *horizontalLine, 0, 0, i, thickness ); point += i; } } else { int point = r.y(); int other = r.x(); int end = r.y()+r.height(); int thickness = r.width(); int pixmapoffset = (flags & Style_NoChange) ? 0 : 1; // ### Hackish while( point < end ) { int i = 128; if ( i+point > end ) i = end-point; p->drawPixmap( other, point, *verticalLine, 0, pixmapoffset, thickness, i ); point += i; } } break; } default: KStyle::drawKStylePrimitive( pe, p, widget, r, cg, flags, opt); } } void MandrivaStyle::drawControl( ControlElement element, QPainter *p, const QWidget *widget, const QRect &r, const QColorGroup &cg, SFlags flags, const QStyleOption& opt ) const { const MandrivaColorData *cdata = lookupData(cg); switch (element) { case CE_CheckBox: { drawPrimitive (PE_Indicator, p, r, cg, flags); break; } //progressbar case CE_ProgressBarContents: { const QProgressBar* pb = (const QProgressBar*)widget; QRect backend = subRect(SR_ProgressBarContents, widget); double progress = pb->progress(); bool reverse = QApplication::reverseLayout(); int steps = pb->totalSteps(); if (!pb || !backend.isValid()) return; //necessary to fill all background //TODO fix it p->fillRect(backend , cg.background() ); //draw border drawPrimitive( PE_PanelLineEdit, p, r, cg ); QRect cr(backend); cr.addCoords( 1, 1, -2, -2 ); // Draw progress bar gradient if (progress > 0 || steps == 0) { double pg = (steps == 0) ? 0.1 : progress / steps; int width = QMIN(cr.width(), (int)(pg * cr.width())); if (steps == 0) width = QMIN(width,20); //Don't cross squares if (steps == 0) { //Busy indicator if (width < 1) width = 1; //A busy indicator with width 0 is kind of useless int remWidth = cr.width() - width; //Never disappear completely if (remWidth <= 0) remWidth = 1; //Do something non-crashy when too small... int pstep = int(progress) % ( 2 * remWidth ); if ( pstep > remWidth ) { //Bounce about.. We're remWidth + some delta, we want to be remWidth - delta... // - ( (remWidth + some delta) - 2* remWidth ) = - (some deleta - remWidth) = remWidth - some delta.. pstep = - (pstep - 2 * remWidth ); } if( reverse ) renderGradient(p, QRect(cr.x() + cr.width() - width - pstep, cr.y(), width, cr.height()), cdata->shades[2],cdata->shades[1], false); else renderGradient(p, cr, cdata->shades[2],cdata->shades[1], false); p->setPen(cdata->shades[5]); p->drawLine( backend.x(), backend.y(), backend.width()+1, backend.y()); p->drawLine( backend.x(), backend.y(), backend.x(), backend.height()); return; } if( reverse ) { //convert it as after //TODO Verify it QPixmap gradient(1, cr.height()+1); QPainter painter(&gradient); KPixmap tempPixmap; tempPixmap.resize(1, cr.height()/2+1); KPixmapEffect::gradient(tempPixmap, cdata->blueMdkColor[1], cdata->blueMdkColor[3], KPixmapEffect::VerticalGradient); painter.drawPixmap(0,0, tempPixmap); tempPixmap.resize(1, cr.height()+1); KPixmapEffect::gradient(tempPixmap, cdata->blueMdkColor[4], cdata->blueMdkColor[2], KPixmapEffect::VerticalGradient); painter.drawPixmap(0, cr.height()/2 +1, tempPixmap); painter.end(); QRect tmp( cr.width()-width+1, cr.y(),width+1,cr.height() ); tmp.addCoords( 0, 0, 0, 1 ); p->drawTiledPixmap( tmp , gradient ); bool changed = false; p->setPen( cdata->shades[1]); for ( int i = 12; i < cr.width() ; ) { if ( !changed && ( i >cr.width() -width ) ) { p->setPen( cdata->blueMdkColor[2] ); changed = true; } p->drawLine( i, r.y()+1, i, r.height()-2 ); i+=12; } p->setPen(cg.background() ); p->drawPoint( cr.width() -width +1, r.y()+1 ); p->drawPoint( cr.width() -width + 1, r.height()-2 ); } else { QPixmap gradient(1, cr.height()+1); QPainter painter(&gradient); KPixmap tempPixmap; tempPixmap.resize(1, cr.height()/2+1); KPixmapEffect::gradient(tempPixmap, cdata->blueMdkColor[1], cdata->blueMdkColor[3], KPixmapEffect::VerticalGradient); painter.drawPixmap(0,0, tempPixmap); tempPixmap.resize(1, cr.height()+1); KPixmapEffect::gradient(tempPixmap, cdata->blueMdkColor[4], cdata->blueMdkColor[2], KPixmapEffect::VerticalGradient); painter.drawPixmap(0, cr.height()/2 +1, tempPixmap); painter.end(); QRect tmp( cr.x(), cr.y(),width-1,cr.height() ); tmp.addCoords( 0, 0, 0, 1 ); p->drawTiledPixmap( tmp , gradient ); bool changed = false; p->setPen( cdata->blueMdkColor[2] ); for ( int i = 12; i < cr.width() ; ) { if ( !changed && ( i >width ) ) { p->setPen( cdata->shades[1] ); changed = true; } p->drawLine( i, r.y()+1, i, r.height()-2 ); i+=12; } p->setPen(cg.background() ); p->drawPoint( width-1, r.y()+1 ); p->drawPoint( width-1, r.height()-2 ); } } break; } case CE_ProgressBarLabel: { const QProgressBar * pb = (const QProgressBar *) widget; const int unit_width = pixelMetric( PM_ProgressBarChunkWidth, pb ); int u = r.width() / unit_width; int p_v = pb->progress(); int t_s = pb->totalSteps(); if ( u > 0 && pb->progress() >= INT_MAX / u && t_s >= u ) { // scale down to something usable. p_v /= u; t_s /= u; } // QColor("#4965AE" ) powerpack if ( pb->percentageVisible() && pb->totalSteps() ) { int nu = ( u * p_v + t_s/2 ) / t_s; int x = unit_width * nu; if (pb->indicatorFollowsStyle() || pb->centerIndicator()) { if(cg.highlight() == QColor("#4965AE" )) p->setPen( QColor("#FFFFFF")); else p->setPen( QColor( "#000000" ) ); p->setClipRect( r.x(), r.y(), x, r.height() ); p->drawText( r, AlignCenter | SingleLine, pb->progressString() ); if ( pb->progress() != pb->totalSteps() ) { p->setClipRect( r.x() + x, r.y(), r.width() - x, r.height() ); //second part of progress bar => black p->setPen( /*cg.highlight()*/QColor( "#000000" ) ); p->drawText( r, AlignCenter | SingleLine, pb->progressString() ); } } else { if(cg.highlight() == QColor("#4965AE" )) p->setPen( QColor("#FFFFFF")); else p->setPen( QColor( "#000000" ) ); p->drawText( r, AlignCenter | SingleLine, pb->progressString() ); } } break; } case CE_ToolButtonLabel: { KStyle::drawControl(element, p, widget, r, cg, flags, opt); break; } case CE_MenuBarEmptyArea: case CE_DockWindowEmptyArea: { p->fillRect(r, cg.background() ); break; } case CE_TabBarTab: { const QTabBar* tb = static_cast< const QTabBar* >( widget ); int x, y, xw, yh; int offset= 0; x= r.x(); y= r.y(); //verify it xw = r.x()+r.width()-1; yh = r.y()+r.height()-1; //necessary to define type of tab TabPosition pos; if (tb->count() == 1) pos = Single; else if ((tb->indexOf(opt.tab()->identifier()) == 0)) pos = First; else if (tb->indexOf(opt.tab()->identifier()) == tb->count() - 1) pos = Last; else pos = Middle; bool bottom = tb->shape() == QTabBar::RoundedBelow || tb->shape() == QTabBar::TriangularBelow; if ( !bottom ) { if (flags & Style_Selected ) { p->fillRect( r, tb->palette().active().brush( QColorGroup::Background )); //blue-2 p->setPen( cdata->blueMdkColor[2]); p->drawLine( x+2, y, xw-2, y ); p->drawLine( x+1, y+1, xw-1, y+1 ); //blue-4 p->setPen( cdata->blueMdkColor[4] ); p->drawLine( x, y+2, xw, y+2 ); p->drawLine( x, y+3, xw, y+3 ); p->setPen( cdata->shades[4] ); p->drawLine( xw,y+4,xw,yh); if ( pos==First ) p->drawLine( x,y+4,x,yh); else if ( ( pos==Last || pos == Single ) && QApplication::reverseLayout() ) p->drawLine( xw, y+4, xw, yh ); } else { offset = 3; //grey1 p->fillRect( QRect(x,y+offset,r.width()-1,yh), cdata->shades[1]); //grey5 p->setPen( cdata->shades[5]); p->drawLine( x+2,y+offset-1,xw-2,y+offset-1); p->drawPoint(x+1, y+offset ); p->drawPoint(xw-1, y+offset ); p->drawLine( xw, y+offset+1, xw, yh ); p->drawLine( x, y+offset+1, x, yh ); p->setPen( cdata->shades[4]); p->drawLine( x, yh, xw,yh); } } else { if (flags & Style_Selected ) { p->fillRect( r, tb->palette().active().brush( QColorGroup::Background )); p->setPen( cdata->blueMdkColor[2] ); p->drawLine( x, yh-3, xw, yh-3 ); p->drawLine( x, yh-2, xw, yh-2 ); p->setPen( cdata->blueMdkColor[4] ); p->drawLine( x+1, yh-1, xw-1, yh-1 ); p->drawLine( x+2, yh, xw-2, yh ); p->setPen( cdata->shades[4] ); p->drawLine( xw,y,xw,yh-4); if ( pos==First ) p->drawLine( x,y,x,yh-4); else if ( ( pos==Last || pos == Single ) && QApplication::reverseLayout() ) p->drawLine( x, y, x, yh-4 ); //CHECK } else { offset = 3; //grey1 p->fillRect( QRect(x,y,r.width()-1,yh-offset), cdata->shades[1]); //grey5 p->setPen( cdata->shades[5]); p->drawLine( x+2,yh-offset+1,xw-2,yh-offset+1); p->drawPoint(x+1, yh-offset ); p->drawPoint(xw-1, yh-offset ); p->drawLine( xw, y, xw, yh-4 ); p->drawLine( x, y, x, yh-4 ); p->setPen( cdata->shades[4]); p->drawLine( x, y, xw,y); } } break; } //CHECK case CE_MenuBarItem: { QMenuBar *mb = (QMenuBar*)widget; QMenuItem *mi = opt.menuItem(); QRect pr = mb->rect(); bool active = flags & Style_Active; bool focused = flags & Style_HasFocus; bool down = flags & Style_Down; QColor textColor = cg.text(); if ( active && focused && down ) { //top half QRect half_rect = r; half_rect.setHeight(r.height()/2); renderGradient(p, half_rect, cdata->blueMdkColor[1], cdata->blueMdkColor[3], false); //bottom half half_rect.setHeight(r.height() - half_rect.height()); half_rect.moveBottom(r.bottom()); renderGradient(p, half_rect, cdata->blueMdkColor[4], cdata->blueMdkColor[2], false); textColor = cg.highlightedText(); // create the fake rounded corners QPen oldPen = p->pen(); p->setPen(cg.background()); p->drawPoint(r.topLeft()); p->drawPoint(r.topRight()); p->drawPoint(r.bottomLeft()); p->drawPoint(r.bottomRight()); p->setPen(oldPen); } else renderGradient(p, r, cg.background(), cg.background(),false); drawItem( p, r, AlignCenter | AlignVCenter | ShowPrefix | DontClip | SingleLine, cg, flags & Style_Enabled, mi->pixmap(), mi->text(), -1, &textColor ); break; } // POPUPMENU ITEM // ------------------------------------------------------------------- case CE_PopupMenuItem: { const QPopupMenu *popupmenu = (const QPopupMenu *) widget; QMenuItem *mi = opt.menuItem(); if ( !mi ) { // Don't leave blank holes if we set NoBackground for the QPopupMenu. // This only happens when the popupMenu spans more than one column. if (! (widget->erasePixmap() && !widget->erasePixmap()->isNull()) ) p->fillRect(r, cg.brush(QColorGroup::Background) ); break; } int tab = opt.tabWidth(); int checkcol = opt.maxIconWidth(); bool enabled = mi->isEnabled(); bool checkable = popupmenu->isCheckable(); bool active = flags & Style_Active; bool etchtext = styleHint( SH_EtchDisabledText ); bool reverse = QApplication::reverseLayout(); int x, y, w, h; r.rect( &x, &y, &w, &h ); if ( checkable ) checkcol = QMAX( checkcol, 20 ); // Are we a menu item separator? if ( mi->isSeparator() ) { drawLineSeparator( cdata, cg, p, r, true, active, false ); break; } // Draw the menu item background if( active && (flags & Style_Enabled)) { //top half QRect half_rect = r; half_rect.setHeight(r.height()/2); renderGradient(p, half_rect, cdata->blueMdkColor[1], cdata->blueMdkColor[3], false); //bottom half half_rect.setHeight(r.height() - half_rect.height()); half_rect.moveBottom(r.bottom()); renderGradient(p, half_rect, cdata->blueMdkColor[4], cdata->blueMdkColor[2], false); // create the fake rounded corners QPen oldPen = p->pen(); p->setPen(cg.background()); p->drawPoint(r.topLeft()); p->drawPoint(r.topRight()); p->drawPoint(r.bottomLeft()); p->drawPoint(r.bottomRight()); p->setPen(oldPen); } // Draw the transparency pixmap else if ( widget->erasePixmap() && !widget->erasePixmap()->isNull() ) p->drawPixmap( x, y, *widget->erasePixmap(), x, y, w, h ); // Draw a solid background else p->fillRect( r, cg.background() ); // Do we have an icon? #if 0 if ( ( (widget && !qstrcmp(widget->name(),"KMenu" )) || (widget->parentWidget() && !qstrcmp(widget->parentWidget()->name(),"KMenu" )) ) && #endif if( mi->iconSet() ) { QIconSet::Mode mode; QRect cr = visualRect( QRect(x, y, checkcol, h), r ); // Select the correct icon from the iconset if ( active ) mode = enabled ? QIconSet::Active : QIconSet::Disabled; else mode = enabled ? QIconSet::Normal : QIconSet::Disabled; #if 0 //don't check menu // Do we have an icon and are checked at the same time? // Then draw a "pressed" background behind the icon if ( checkable && !active && mi->isChecked() ) { qDrawShadePanel( p, cr.x(), cr.y(), cr.width(), cr.height(), cg, true, 1, &cg.brush(QColorGroup::Midlight) ); } #endif //TEST IT !!!!!!!!!!!!!! if ( checkable && mi->isChecked() ) {//don't display icon when button is checkable int cx = reverse ? x+w - checkcol : x; // Draw the checkmark SFlags cflags = Style_Default; cflags |= active ? Style_Enabled : Style_On; drawPrimitive( PE_CheckMark, p, QRect( cx + itemFrame, y + itemFrame, checkcol - itemFrame*2, h - itemFrame*2), cg, cflags ); } else { // Draw the icon QPixmap pixmap = mi->iconSet()->pixmap( QIconSet::Small, mode ); QRect pmr( 0, 0, pixmap.width(), pixmap.height() ); pmr.moveCenter( cr.center() ); p->drawPixmap( pmr.topLeft(), pixmap ); } } // Are we checked? (This time without an icon) else if ( (checkable && mi->isChecked()) ) { int cx = reverse ? x+w - checkcol : x; #if 0 //don't create a checked button // We only have to draw the background if the menu item is inactive // if it's active the "pressed" background is already drawn if ( ! active ) qDrawShadePanel( p, cx, y, checkcol, h, cg, true, 1, &cg.brush(QColorGroup::Midlight) ); #endif // Draw the checkmark SFlags cflags = Style_Default; cflags |= active ? Style_Enabled : Style_On; drawPrimitive( PE_CheckMark, p, QRect( cx + itemFrame, y + itemFrame, checkcol - itemFrame*2, h - itemFrame*2), cg, cflags ); } // Time to draw the menu item label... int xm = itemFrame + checkcol + itemHMargin; // X position margin int xp = reverse ? // X position x + tab + rightBorder + itemHMargin + itemFrame - 1 : x + xm; int offset = reverse ? -1 : 1; // Shadow offset for etched text // Label width (minus the width of the accelerator portion) int tw = w - xm - tab - arrowHMargin - itemHMargin * 3 - itemFrame + 1; // Set the color for enabled and disabled text // (used for both active and inactive menu items) p->setPen( enabled ? cg.buttonText() : cg.mid() ); // This color will be used instead of the above if the menu item // is active and disabled at the same time. (etched text) QColor discol = cg.mid(); // Does the menu item draw it's own label? if ( mi->custom() ) { int m = itemVMargin; // Save the painter state in case the custom // paint method changes it in some way QPen oldPen = p->pen(); // Draw etched text if we're inactive and the menu item is disabled if ( etchtext && !enabled && !active ) { p->setPen( cg.light() ); mi->custom()->paint( p, cg, active, enabled, xp+offset, y+m+1, tw, h-2*m ); p->setPen( discol ); } mi->custom()->paint( p, cg, active, enabled, xp, y+m, tw, h-2*m ); p->setPen( oldPen ); // restore pen } else { // The menu item doesn't draw it's own label QString s = mi->text(); // Does the menu item have a text label? if ( !s.isNull() ) { int t = s.find( '\t' ); int m = itemVMargin; int text_flags = AlignVCenter | ShowPrefix | DontClip | SingleLine; text_flags |= reverse ? AlignRight : AlignLeft; //QColor draw = cg.text(); QColor draw = (active && enabled) ? cg.highlightedText () : cg.text(); p->setPen(draw); // Does the menu item have a tabstop? (for the accelerator text) if ( t >= 0 ) { int tabx = reverse ? x + rightBorder + itemHMargin + itemFrame : x + w - tab - rightBorder - itemHMargin - itemFrame; // Draw the right part of the label (accelerator text) if ( etchtext && !enabled && !active ) { // Draw etched text if we're inactive and the menu item is disabled p->setPen( cg.light() ); p->drawText( tabx+offset, y+m+1, tab, h-2*m, text_flags, s.mid( t+1 ) ); p->setPen( discol ); } p->drawText( tabx, y+m, tab, h-2*m, text_flags, s.mid( t+1 ) ); s = s.left( t ); } // Draw the left part of the label (or the whole label // if there's no accelerator) if ( etchtext && !enabled && !active ) { // Etched text again for inactive disabled menu items... p->setPen( cg.light() ); p->drawText( xp+offset, y+m+1, tw, h-2*m, text_flags, s, t ); p->setPen( discol ); } p->drawText( xp, y+m, tw, h-2*m, text_flags, s, t ); } // The menu item doesn't have a text label // Check if it has a pixmap instead else if ( mi->pixmap() ) { QPixmap *pixmap = mi->pixmap(); // Draw the pixmap if ( pixmap->depth() == 1 ) p->setBackgroundMode( OpaqueMode ); int diffw = ( ( w - pixmap->width() ) / 2 ) + ( ( w - pixmap->width() ) % 2 ); p->drawPixmap( x+diffw, y+itemFrame, *pixmap ); if ( pixmap->depth() == 1 ) p->setBackgroundMode( TransparentMode ); } } // Does the menu item have a submenu? if ( mi->popup() ) { PrimitiveElement arrow = reverse ? PE_ArrowLeft : PE_ArrowRight; int dim = pixelMetric(PM_MenuButtonIndicator)- itemFrame; QRect vr = visualRect( QRect( x + w - arrowHMargin - itemFrame - dim, y + h / 2 - dim / 2, dim, dim), r ); // Draw an arrow at the far end of the menu item if ( active ) { if ( enabled ) discol = cg.buttonText(); QColorGroup g2( cg.highlightedText ()/*white*/, cg.highlight(), /*white*/cg.highlightedText (), /*white*/cg.highlightedText (), enabled ? cg.highlightedText () : discol, /*discol*/cg.highlightedText (), cg.highlightedText () ); drawPrimitive( arrow, p, vr, g2, Style_Enabled ); } else drawPrimitive( arrow, p, vr, cg, enabled ? Style_Enabled : Style_Default ); } break; } case CE_PushButtonLabel: { const QPushButton* button = (const QPushButton*)widget; bool active = button->isOn() || button->isDown(); int x, y, w, h; r.rect( &x, &y, &w, &h ); // Shift button contents if pushed. if ( active ) { x += pixelMetric(PM_ButtonShiftHorizontal, widget); y += pixelMetric(PM_ButtonShiftVertical, widget); flags |= Style_Sunken; } // Does the button have a popup menu? if ( button->isMenuButton() ) { int dx = pixelMetric( PM_MenuButtonIndicator, widget ); drawPrimitive( PE_ArrowDown, p, QRect(x + w - dx - 2, y + 2, dx, h - 4), cg, flags, opt ); w -= dx; } // Draw the icon if there is one if ( button->iconSet() && !button->iconSet()->isNull() ) { QIconSet::Mode mode = QIconSet::Disabled; QIconSet::State state = QIconSet::Off; if (button->isEnabled()) mode = button->hasFocus() ? QIconSet::Active : QIconSet::Normal; if (button->isToggleButton() && button->isOn()) state = QIconSet::On; QPixmap pixmap = button->iconSet()->pixmap( QIconSet::Small, mode, state ); // Center the iconset if there's no text or pixmap if (button->text().isEmpty() && !button->pixmap()) p->drawPixmap( x + (w - pixmap.width()) / 2, y + (h - pixmap.height()) / 2, pixmap ); else p->drawPixmap( x + 4, y + (h - pixmap.height()) / 2, pixmap ); int pw = pixmap.width(); x += pw + 4; w -= pw + 4; } // Make the label indicate if the button is a default button or not if ( active || button->isDefault() ) { // Draw "fake" bold text - this enables the font metrics to remain // the same as computed in QPushButton::sizeHint(), but gives // a reasonable bold effect. //change color of text drawItem( p, QRect(x, y, w, h), AlignCenter | ShowPrefix, button->colorGroup(), button->isEnabled(), button->pixmap(), button->text(), -1, /*button->isDefault() ? &cdata->blueMdkColor[4] :*/ &button->colorGroup().buttonText() ); #if 0 // Normal Text for(i=0; i<2; i++) drawItem( p, QRect(x+i, y, w, h), AlignCenter | ShowPrefix, button->colorGroup(), button->isEnabled(), i == 0 ? button->pixmap() : NULL, button->text(), -1, &button->colorGroup().buttonText() ); #endif } else { drawItem( p, QRect(x, y, w, h), AlignCenter | ShowPrefix, button->colorGroup(), button->isEnabled(), button->pixmap(), button->text(), -1, &button->colorGroup().buttonText() ); } // Draw a focus rect if the button has focus if ( flags & Style_HasFocus ) drawPrimitive( PE_FocusRect, p, QStyle::visualRect(subRect(SR_PushButtonFocusRect, widget), widget), cg, flags ); break; } case CE_PushButton: { const QPushButton* btn = static_cast< const QPushButton* >( widget ); if ( widget == hoverWidget ) flags |= Style_MouseOver; if (isFormWidget(btn)) formMode = true; drawPrimitive( btn->isDefault( ) ? PE_ButtonDefault : PE_ButtonCommand, p, r, cg, flags ); } break; default: KStyle::drawControl(element, p, widget, r, cg, flags, opt); } } void MandrivaStyle::drawControlMask( ControlElement element, QPainter *p, const QWidget *widget, const QRect &r, const QStyleOption& opt ) const { switch (element) { case CE_TabBarTab: case CE_TabBarLabel: { p->fillRect(r,color1); break; } default: KStyle::drawControlMask(element, p, widget, r, opt); } } void MandrivaStyle::drawComboboxArrow( QPainter *p, const QWidget *widget, const QRect &ar, const QColorGroup &cg, SFlags flags, SCFlags active)const { const QComboBox * cb = (const QComboBox *) widget; bool editableCombo = cb->editable(); // Are we enabled? if ( widget->isEnabled() ) flags |= Style_Enabled; // Are we "pushed" ? if ( active & Style_Sunken ) flags |= Style_Sunken; p->setPen( cg.text() ); //Don't apply background color otherwise it //destroys gradient. //p->setBackgroundColor( cg.button() ); QPointArray a; if ( editableCombo ) a.setPoints(QCOORDARRLEN(c_edit_arrow), c_edit_arrow); else a.setPoints(QCOORDARRLEN(c_arrow), c_arrow); if ( flags & Style_Down ) p->translate( pixelMetric( PM_ButtonShiftHorizontal ), pixelMetric( PM_ButtonShiftVertical ) ); if ( flags & Style_Enabled ) { if ( QApplication::reverseLayout() ) { a.translate( editableCombo ? ar.x() + ar.width() / 2 +1 : ar.x() + ar.width() / 2 +4 , editableCombo ? ar.y() + ar.height() / 2 + 1 : ar.y() + ar.height() / 2 ); } else { a.translate( editableCombo ? ar.x() + ar.width() / 2 +1 : ar.x() + ar.width() / 2 -3, editableCombo ? ar.y() + ar.height() / 2 + 1 : ar.y() + ar.height() / 2 ); } p->setPen( cg.buttonText() ); p->drawLineSegments( a ); } else { if ( QApplication::reverseLayout() ) { a.translate( editableCombo ? ar.x() + ar.width() / 2 + 1 : ar.x() + ar.width() / 2 +4, editableCombo ? ar.y() + ar.height() / 2 + 1: ar.y() + ar.height() / 2 ); } else { a.translate( editableCombo ? ar.x() + ar.width() / 2 + 1 : ar.x() + ar.width() / 2 -3, editableCombo ? ar.y() + ar.height() / 2 + 1: ar.y() + ar.height() / 2 ); } p->setPen( cg.light() ); p->drawLineSegments( a ); a.translate( -1, -1 ); p->setPen( cg.mid() ); p->drawLineSegments( a ); } } void MandrivaStyle::drawComplexControl( ComplexControl control, QPainter *p, const QWidget *widget, const QRect &r, const QColorGroup &cg, SFlags flags, SCFlags controls, SCFlags active, const QStyleOption& opt ) const { const MandrivaColorData *cdata = lookupData(cg); switch(control) { case CC_SpinWidget: { const QSpinWidget* sw = static_cast< const QSpinWidget* >( widget ); QRect br = visualRect( querySubControlMetrics( CC_SpinWidget, widget, SC_SpinWidgetButtonField ), widget ); //FIXME p->fillRect( r, widget->isEnabled() ? cg.base() : cg.background() ); if ( controls & SC_SpinWidgetButtonField ) { if ( controls & SC_SpinWidgetUp) { QColorGroup ucg = sw->isUpEnabled() ? cg : sw->palette().disabled(); drawPrimitive( PE_SpinWidgetUp,p, QRect(br.x()+1 , br.y()+1 , br.width()-2 , br.height() / 2 ), ucg, flags, opt); } if ( controls & SC_SpinWidgetDown) { QColorGroup dcg = sw->isDownEnabled() ? cg : sw->palette().disabled(); drawPrimitive( PE_SpinWidgetDown,p, QRect( br.x()+1 , br.y() + br.height() / 2 , br.width()-2, br.height()/ 2 -1 ), dcg, flags, opt); } } if ( controls & SC_SpinWidgetFrame ) drawPrimitive( PE_PanelLineEdit, p, r, cg ); break; } case CC_ToolButton: { const QToolButton *tb = (const QToolButton *) widget; QRect button, menuarea; button = querySubControlMetrics(control, widget, SC_ToolButton, opt); menuarea = querySubControlMetrics(control, widget, SC_ToolButtonMenu, opt); SFlags bflags = flags, mflags = flags; // don't want to have the buttoncolor as the background... p->fillRect(r, cg.background()); bflags &= ~Style_MouseOver; if (active & SC_ToolButton) bflags |= Style_Down; if (active & SC_ToolButtonMenu) mflags |= Style_Down; if (controls & SC_ToolButton) { // If we're pressed, on, or raised... if (bflags & (Style_Down | Style_On | Style_Raised) || widget==hoverWidget ) { drawPrimitive(PE_ButtonTool, p, button, cg, bflags, opt); } else if (tb->parentWidget() && tb->parentWidget()->backgroundPixmap() && !tb->parentWidget()->backgroundPixmap()->isNull()) { QPixmap pixmap = *(tb->parentWidget()->backgroundPixmap()); p->drawTiledPixmap( r, pixmap, tb->pos() ); } } // Draw a toolbutton menu indicator if required if (controls & SC_ToolButtonMenu) { if (mflags & (Style_Down | Style_On | Style_Raised)) drawPrimitive(PE_ButtonDropDown, p, menuarea, cg, mflags, opt); drawPrimitive(PE_ArrowDown, p, menuarea, cg, mflags, opt); } if (tb->hasFocus() && !tb->focusProxy()) { QRect fr = tb->rect(); fr.addCoords(2, 2, -2, -2); drawPrimitive(PE_FocusRect, p, fr, cg); } // Set the color for the ToolButton menu indicator p->setPen(cg.buttonText() ); break; } case CC_ScrollBar: { const QScrollBar *scrollbar = (const QScrollBar *) widget; QRect addline, subline, addpage, subpage, slider, first, last; bool maxedOut = (scrollbar->minValue() == scrollbar->maxValue()); scrollmin = ( scrollbar->minValue() == scrollbar->value() ); scrollmax = (( scrollbar->maxValue() == scrollbar->value() )|| maxedOut); subline = querySubControlMetrics(control, widget, SC_ScrollBarSubLine, opt); addline = querySubControlMetrics(control, widget, SC_ScrollBarAddLine, opt); subpage = querySubControlMetrics(control, widget, SC_ScrollBarSubPage, opt); addpage = querySubControlMetrics(control, widget, SC_ScrollBarAddPage, opt); slider = querySubControlMetrics(control, widget, SC_ScrollBarSlider, opt); first = querySubControlMetrics(control, widget, SC_ScrollBarFirst, opt); last = querySubControlMetrics(control, widget, SC_ScrollBarLast, opt); if ((controls & SC_ScrollBarSubLine) && subline.isValid()) { int flags = Style_Enabled; if (active == SC_ScrollBarSubLine) flags |= Style_Down; if (scrollbar->orientation() == Qt::Horizontal) flags |= Style_Horizontal; if (hoverWidget == widget && hoverControl == HoverScrollBarSubLine) flags |= Style_MouseOver; drawPrimitive(PE_ScrollBarSubLine, p, subline, cg, flags); } if ((controls & SC_ScrollBarAddLine) && addline.isValid()) { int flags = Style_Enabled; if (active == SC_ScrollBarAddLine) flags |= Style_Down; if (scrollbar->orientation() == Qt::Horizontal) flags |= Style_Horizontal; if (hoverWidget == widget && hoverControl == HoverScrollBarAddLine) flags |= Style_MouseOver; drawPrimitive(PE_ScrollBarAddLine, p, addline, cg, flags); } if ((controls & SC_ScrollBarSubPage) && subpage.isValid()) drawPrimitive(PE_ScrollBarSubPage, p, subpage, cg, Style_Enabled | ((active == SC_ScrollBarSubPage) ? Style_Down : Style_Default) | ((scrollbar->orientation() == Qt::Horizontal) ? Style_Horizontal : 0)); if ((controls & SC_ScrollBarAddPage) && addpage.isValid()) drawPrimitive(PE_ScrollBarAddPage, p, addpage, cg, ((maxedOut) ? Style_Default : Style_Enabled) | ((active == SC_ScrollBarAddPage) ? Style_Down : Style_Default) | ((scrollbar->orientation() == Qt::Horizontal) ? Style_Horizontal : 0)); if ((controls & SC_ScrollBarFirst) && first.isValid()) drawPrimitive(PE_ScrollBarFirst, p, first, cg, Style_Enabled | ((active == SC_ScrollBarFirst) ? Style_Down : Style_Default) | ((scrollbar->orientation() == Qt::Horizontal) ? Style_Horizontal : 0)); if ((controls & SC_ScrollBarLast) && last.isValid()) drawPrimitive(PE_ScrollBarLast, p, last, cg, Style_Enabled | ((active == SC_ScrollBarLast) ? Style_Down : Style_Default) | ((scrollbar->orientation() == Qt::Horizontal) ? Style_Horizontal : 0)); if ((controls & SC_ScrollBarSlider) && slider.isValid()) { int flags = Style_Enabled; if (active == SC_ScrollBarSlider) flags |= Style_Down; if (scrollbar->orientation() == Qt::Horizontal) flags |= Style_Horizontal; if (hoverWidget == widget && hoverControl == HoverScrollBarSlider) flags |= Style_MouseOver; drawPrimitive(PE_ScrollBarSlider, p, slider, cg, flags); // ### perhaps this should not be able to accept focus if maxedOut? if (scrollbar->hasFocus()) { QRect fr(slider.x() + 2, slider.y() + 2, slider.width() - 5, slider.height() - 5); drawPrimitive(PE_FocusRect, p, fr, cg, Style_Default); } } break; } // COMBOBOX // ------------------------------------------------------------------- case CC_ComboBox: { const QComboBox * cb = (const QComboBox *) widget; if (isFormWidget(cb)) formMode = true; // Draw box and arrow bool reverse = QApplication::reverseLayout(); if ( widget == hoverWidget ) flags |= Style_MouseOver; bool widgetEnabled = ( widget->isEnabled() ); bool sunken = cb->listBox() ? cb->listBox()->isShown() : false; //TODO not editable if( cb->editable()) { if ((controls & SC_ComboBoxFrame )) { drawFrame( cdata, cg, p, r,true /*flags ? */); } if( (controls & SC_ComboBoxEditField )) { QRect ar = QStyle::visualRect(querySubControlMetrics(CC_ComboBox, widget, SC_ComboBoxEditField), widget ); drawPrimitive( PE_PanelLineEdit, p, ar, cg ); } //if ( controls & SC_ComboBoxListBoxPopup ) //{ //TODO //} if( (controls & SC_ComboBoxArrow )) { QRect ar = QStyle::visualRect(querySubControlMetrics(CC_ComboBox, widget, SC_ComboBoxArrow), widget ); bool mouseOver = (flags & Style_MouseOver) && (hoverControl == HoverComboBoxArrow); if ( sunken ) renderGradient(p, QRect(ar.x()+1, ar.y()+1, ar.width()-1, ar.height()-2), cdata->shades[2], cdata->shades[0], false); else if ( mouseOver ) // FIXME: should highlight only when the mouse is over the arrow renderGradient(p, QRect(ar.x()+1, ar.y()+1, ar.width()-1, ar.height()-2), Qt::white, cdata->shades[1], false); else renderGradient(p, QRect(ar.x()+1, ar.y()+1, ar.width()-1, ar.height()-2), cdata->shades[0],cdata->shades[2], false); if ( widgetEnabled ) { if ( reverse ) { p->setPen( cg.base() ); p->drawLine( ar.x()+1, ar.y()+1,ar.x()+ar.width()-1, ar.y()+1 ); p->drawLine( ar.width()-1, ar.y()+1, ar.width()-1, ar.height()-2 ); p->setPen( cdata->shades[1]); p->drawLine( ar.x(), ar.y()+1,ar.x(), ar.height()-2 ); p->drawLine( ar.x(), ar.height()-2, ar.x()+ar.width()-1, ar.height()-2 ); } else { p->setPen( cg.base() ); p->drawLine( ar.x()+1, ar.y()+1,ar.x()+ar.width()-1, ar.y()+1 ); p->drawLine( ar.x()+1, ar.y()+1, ar.x()+1, ar.height()-2 ); p->setPen( cdata->shades[1]); p->drawLine( ar.x()+ar.width()-1, ar.y()+1,ar.x()+ar.width()-1, ar.height()-2 ); p->drawLine( ar.x()+1, ar.height()-2, ar.x()+ar.width()-1, ar.height()-2 ); } } p->setPen( widgetEnabled ? cdata->shades[5] :cdata->shades[4] ); if ( reverse) p->drawLine( ar.width(), ar.y()+1, ar.width(), ar.height()-2 ); else p->drawLine( ar.x(), ar.y()+1, ar.x(), ar.height()-2 ); drawComboboxArrow( p,widget,ar,cg,flags,active); } } else { QPen oldPen = p->pen(); // Get the button bounding box QRect ar = QStyle::visualRect(querySubControlMetrics(CC_ComboBox, widget, SC_ComboBoxArrow), widget ); drawButton( cdata,r,p,cg,flags | (sunken ? Style_Down : Style_Default)); //test reverse ! if( reverse ) { p->setPen(cg.base()); p->drawLine( ar.width()-1,ar.y()+5,ar.width()-1,ar.height()-6); p->setPen( cdata->shades[2]); p->drawLine( ar.width(),ar.y()+5,ar.width(),ar.height()-6); } else { p->setPen(cg.base()); p->drawLine( ar.x()-1,ar.y()+5,ar.x()-1,ar.height()-6); p->setPen(cdata->shades[2]); p->drawLine( ar.x()-2,ar.y()+5,ar.x()-2,ar.height()-6); } drawComboboxArrow( p,widget,ar,cg,flags,active); p->setPen( oldPen );// restore pen } break; } default: KStyle::drawComplexControl(control, p, widget, r, cg, flags, controls, active, opt); } } QRect MandrivaStyle::querySubControlMetrics( ComplexControl control, const QWidget* widget, SubControl subcontrol, const QStyleOption& opt ) const { switch (control) { case CC_SpinWidget: { switch ( subcontrol ) { case SC_SpinWidgetButtonField: return QRect( widget->width() -14 , 0, 14, widget->height() ); default: return KStyle::querySubControlMetrics( control, widget, subcontrol, opt ); } } //TODO verify it. case CC_ComboBox: { int arrow = 11; switch ( subcontrol ) { case SC_ComboBoxFrame: return QRect( 0, 0, widget->width(), widget->height() ); case SC_ComboBoxArrow: { const QComboBox * cb = (const QComboBox *) widget; return QRect( cb->editable() ? ( widget->width() - arrow - 11 ) : ( widget->width() - arrow- 7 ) , 0, arrow+10 , widget->height() ); } case SC_ComboBoxEditField: { if ( widget->width() < 36 || widget->height() < 22 ) return QRect( 5, 1, widget->width() - arrow-12, widget->height()); else if ( static_cast< const QComboBox* >( widget )->editable() ) return QRect( 1,1, widget->width() - arrow-12, widget->height() - 2 ); else //TODO verify it return QRect( 5, 1, widget->width() - arrow-12, widget->height() - 2); } default: return KStyle::querySubControlMetrics( control, widget, subcontrol, opt ); } break; } case CC_Slider: { const QSlider* sl = static_cast< const QSlider* >( widget ); bool horizontal = sl->orientation() == Horizontal; QSlider::TickSetting ticks = sl->tickmarks(); int pos = sl->sliderStart(); int handleSize = pixelMetric( PM_SliderThickness, widget ); int len = pixelMetric( PM_SliderLength, widget ); switch ( subcontrol ) { case SC_SliderHandle: if ( horizontal ) { if ( ticks == QSlider::Both ) return QRect( pos, ( sl->height() - handleSize ) / 2, len, handleSize ); else if ( ticks == QSlider::Above ) return QRect( pos, sl->height() - handleSize, len, handleSize ); return QRect( pos, 0, len, handleSize ); } else { if ( ticks == QSlider::Both ) return QRect( ( sl->width() - handleSize ) / 2, pos, handleSize, len ); else if ( ticks == QSlider::Above ) return QRect( sl->width() - handleSize, pos, handleSize, len ); return QRect( 0, pos, handleSize, len ); } default: break; } break; } default: break; } return KStyle::querySubControlMetrics( control, widget, subcontrol, opt ); } void MandrivaStyle::drawComplexControlMask( ComplexControl control, QPainter *p, const QWidget *widget, const QRect &r, const QStyleOption& opt ) const { //TODO verify //#if 0 switch (control) { // COMBOBOX & TOOLBUTTON MASKS // ------------------------------------------------------------------- case CC_ComboBox: case CC_ToolButton: { int x1, y1, x2, y2; r.coords( &x1, &y1, &x2, &y2 ); QCOORD corners[] = { x1,y1, x2,y1, x1,y2, x2,y2 }; p->fillRect( r, color1 ); p->setPen( color0 ); p->drawPoints( QPointArray(4, corners) ); break; } default: KStyle::drawComplexControlMask(control, p, widget, r, opt); } //#endif //KStyle::drawComplexControlMask(control, p, widget, r, opt); } int MandrivaStyle::pixelMetric(PixelMetric m, const QWidget *widget) const { switch(m) { case PM_SplitterWidth: return 6; //Perhaps 6 case PM_ButtonMargin: return 2; case PM_DefaultFrameWidth: return 1; case PM_MenuButtonIndicator: return 13; case PM_SliderLength: return 31; case PM_SliderControlThickness: //VERIFY it return 6; case PM_SliderThickness: //VERIFY it return 6; case PM_ExclusiveIndicatorWidth: // Radiobutton size return 13; case PM_ExclusiveIndicatorHeight: return 12; case PM_SpinBoxFrameWidth: return 1; case PM_CheckListButtonSize: //TODO FIXME §!!!!!!!!!!!!!!! return 10; case PM_ScrollBarSliderMin: return 21; case PM_ScrollBarExtent: return 14; //scrollbar width verify arrow position //checkBox case PM_IndicatorWidth: return 13; case PM_IndicatorHeight: return 12; case PM_TabBarTabShiftVertical: return 0; default: return KStyle::pixelMetric(m, widget); } } QSize MandrivaStyle::sizeFromContents( ContentsType contents, const QWidget* widget, const QSize &contentSize, const QStyleOption& opt ) const { switch (contents) { //define progressbar default size case CT_ProgressBar: return QSize( contentSize.width(), 20 ) ; case CT_SpinBox: return QSize( contentSize.width(), contentSize.height()+1); case CT_LineEdit: { return contentSize + QSize (1, 1); //add +1 to rect } case CT_SizeGrip: { return QSize( 15, 15 ); } case CT_ToolButton: { bool onToolbar = widget->parentWidget() && widget->parentWidget()->inherits( "QToolBar" ); if (!onToolbar) //Behaves like a button, so scale appropriately to the border { int w = contentSize.width(); int h = contentSize.height(); return QSize( w + 12, h + 10 ); } else { return KStyle::sizeFromContents( contents, widget, contentSize, opt ); } } case CT_ComboBox: { const QComboBox* combobox = (const QComboBox*) widget; int h = contentSize.height(); if ( h < 22 ) h = 22; int arrow = 11; return QSize( contentSize.width() + arrow + (combobox->editable() ? 26 : 22), combobox->editable() ? h : contentSize.height() + 10 ); } // PUSHBUTTON SIZE // ------------------------------------------------------------------ case CT_PushButton: { const QPushButton* button = (const QPushButton*) widget; int w = contentSize.width(); int h = contentSize.height(); int bm = pixelMetric( PM_ButtonMargin, widget ); int fw = pixelMetric( PM_DefaultFrameWidth, widget ) * 2; w += bm + fw + 6; // ### Add 6 to make way for bold font. h += bm + fw; // Ensure we stick to standard width and heights. if ( button->isDefault() || button->autoDefault() ) { if ( w < 80 && !button->pixmap() ) w = 80; } if ( h < 30 ) h = 30; return QSize( w, h ); } case CT_PopupMenuItem: { if ( ! widget || opt.isDefault() ) return contentSize; const QPopupMenu *popup = (const QPopupMenu *) widget; bool checkable = popup->isCheckable(); QMenuItem *mi = opt.menuItem(); int maxpmw = opt.maxIconWidth(); int w = contentSize.width(), h = contentSize.height(); if ( mi->custom() ) { w = mi->custom()->sizeHint().width(); h = mi->custom()->sizeHint().height(); if ( ! mi->custom()->fullSpan() ) h += 2*itemVMargin + 2*itemFrame; } else if ( mi->widget() ) { // do NOT remove this as it ends up doing wrong things // this if is here to stop processing the item } else if ( mi->isSeparator() ) { w = 30; // Arbitrary h = 2; } else { if ( mi->pixmap() ) h = QMAX( h, mi->pixmap()->height() + 2*itemFrame ); else { // Ensure that the minimum height for text-only menu items // is the same as the icon size used by KDE. h = QMAX( h, 16 + 2*itemFrame ); h = QMAX( h, popup->fontMetrics().height() + 2*itemVMargin + 2*itemFrame ); } if ( mi->iconSet() ) h = QMAX( h, mi->iconSet()->pixmap( QIconSet::Small, QIconSet::Normal).height() + 2 * itemFrame ); } if ( ! mi->text().isNull() && mi->text().find('\t') >= 0 ) w += 12; else if ( mi->popup() ) w += 2 * arrowHMargin; if ( maxpmw ) w += maxpmw + 6; if ( checkable && maxpmw < 20 ) w += 20 - maxpmw; if ( checkable || maxpmw > 0 ) w += 12; w += rightBorder; return QSize( w, h ); } default: return KStyle::sizeFromContents( contents, widget, contentSize, opt ); } } //Why ? why create virtual function ? // Fix Qt's wacky image alignment QPixmap MandrivaStyle::stylePixmap(StylePixmap stylepixmap, const QWidget* widget, const QStyleOption& opt) const { return KStyle::stylePixmap(stylepixmap, widget, opt); } bool MandrivaStyle::eventFilter( QObject *object, QEvent *event ) { if (KStyle::eventFilter( object, event )) return true; QToolBar* toolbar; //Hover highlight on buttons and combos if ( object->inherits("QPushButton") || object->inherits("QComboBox") || object->inherits("QScrollBar") || object->inherits("QHeader") || object->inherits("QSlider") || object->inherits("QCheckBox") || object->inherits("QSplitterHandle")) { if ( (event->type() == QEvent::Enter) && static_cast(object)->isEnabled()) { QWidget* button = static_cast(object); hoverWidget = button; button->repaint( false ); } else if ( (event->type() == QEvent::Leave) && (object == hoverWidget) ) { QWidget* button = static_cast(object); hoverWidget = 0; hoverControl = HoverNone; button->repaint( false ); } if ((object->inherits("QScrollBar") || object->inherits("QComboBox")) && event->type() == QEvent::MouseMove) { QWidget *button = static_cast(object); QMouseEvent *e = static_cast(event); // updateHoverControl will trigger a repainting if necessary updateHoverControl(e->pos()); } } else if (object->inherits("QListBox")) { if ( event->type() == QEvent::Show || event->type() == QEvent::Hide) { QWidget *w = static_cast(object); if (w->parentWidget() && w->parentWidget()->inherits("QComboBox")) w->parentWidget()->repaint(false); } } else if ( object->parent() && !qstrcmp( object->name(), kdeToolbarWidget ) ) { // Draw a gradient background for custom widgets in the toolbar // that have specified a "kde toolbar widget" name. if (event->type() == QEvent::Paint ) { // Find the top-level toolbar of this widget, since it may be nested in other // widgets that are on the toolbar. QWidget *widget = static_cast(object); QWidget *parent = static_cast(object->parent()); int x_offset = widget->x(), y_offset = widget->y(); while (parent && parent->parent() && !qstrcmp( parent->name(), kdeToolbarWidget ) ) { x_offset += parent->x(); y_offset += parent->y(); parent = static_cast(parent->parent()); } QRect r = widget->rect(); QRect pr = parent->rect(); bool horiz_grad = pr.width() < pr.height(); // Check if the parent is a QToolbar, and use its orientation, else guess. QToolBar* tb = dynamic_cast(parent); if (tb) horiz_grad = tb->orientation() == Qt::Vertical; QPainter p( widget ); renderGradient(&p, r, parent->colorGroup().background(),parent->colorGroup().background(), horiz_grad);/*, x_offset, y_offset, pr.width(), pr.height());*/ //FIXME: check this code later return false; // Now draw the contents } } else if ( object->parent() && (toolbar = dynamic_cast(object->parent())) ) { // We need to override the paint event to draw a // gradient on a QToolBarExtensionWidget. if ( event->type() == QEvent::Paint ) { QWidget *widget = static_cast(object); QRect wr = widget->rect(), tr = toolbar->rect(); QPainter p( widget ); renderGradient(&p, wr, toolbar->colorGroup().background(),toolbar->colorGroup().background(), toolbar->orientation() == Qt::Vertical);/*, wr.x(), wr.y(), tr.width() - 2, tr.height() - 2);*/ //FIXME: check this code later p.setPen( toolbar->colorGroup().dark() ); if ( toolbar->orientation() == Qt::Horizontal ) p.drawLine( wr.width()-1, 0, wr.width()-1, wr.height()-1 ); else p.drawLine( 0, wr.height()-1, wr.width()-1, wr.height()-1 ); return true; } } return false; } //*************** // renderGradient from PlastikStyle void MandrivaStyle::renderGradient(QPainter *painter, const QRect &rect, const QColor &c1, const QColor &c2, bool horizontal) const { if((rect.width() <= 0)||(rect.height() <= 0)) return; // generate a quite unique key for this surface. CacheEntry search(cGradientTile, horizontal ? rect.width() : 0, horizontal ? 0 : rect.height(), c1.rgb(), c2.rgb(), horizontal ); int key = search.key(); CacheEntry *cacheEntry; if( (cacheEntry = pixmapCache->find(key)) ) { if( search == *cacheEntry ) // match! we can draw now... { if(cacheEntry->pixmap) painter->drawTiledPixmap(rect, *(cacheEntry->pixmap) ); return; } else { // Remove old entry in case of a conflict! // This shouldn't happen very often, see comment in CacheEntry. pixmapCache->remove(key); } } // there wasn't anything matching in the cache, create the pixmap now... QPixmap *result = new QPixmap(horizontal ? rect.width() : 10, horizontal ? 10 : rect.height()); QPainter p(result); int r_w = result->rect().width(); int r_h = result->rect().height(); int r_x, r_y, r_x2, r_y2; result->rect().coords(&r_x, &r_y, &r_x2, &r_y2); int rDiff, gDiff, bDiff; int rc, gc, bc; register int x, y; rDiff = ( c2.red()) - (rc = c1.red()); gDiff = ( c2.green()) - (gc = c1.green()); bDiff = ( c2.blue()) - (bc = c1.blue()); register int rl = rc << 16; register int gl = gc << 16; register int bl = bc << 16; int rdelta = ((1<<16) / (horizontal ? r_w : r_h)) * rDiff; int gdelta = ((1<<16) / (horizontal ? r_w : r_h)) * gDiff; int bdelta = ((1<<16) / (horizontal ? r_w : r_h)) * bDiff; // these for-loops could be merged, but the if's in the inner loop // would make it slow if(!horizontal) { for ( y = 0; y < r_h; y++ ) { rl += rdelta; gl += gdelta; bl += bdelta; p.setPen(QColor(rl>>16, gl>>16, bl>>16)); p.drawLine(r_x, r_y+y, r_x2, r_y+y); } } else { for( x = 0; x < r_w; x++) { rl += rdelta; gl += gdelta; bl += bdelta; p.setPen(QColor(rl>>16, gl>>16, bl>>16)); p.drawLine(r_x+x, r_y, r_x+x, r_y2); } } p.end(); // draw the result... painter->drawTiledPixmap(rect, *result); // insert into cache using the previously created key. CacheEntry *toAdd = new CacheEntry(search); toAdd->pixmap = result; bool insertOk = pixmapCache->insert( key, toAdd, result->width()*result->height()*result->depth()/8 ); if(!insertOk) delete result; } void MandrivaStyle::drawButton( const MandrivaColorData *cdata, const QRect & r, QPainter *p,const QColorGroup &cg, SFlags flags)const { QPen oldPen = p->pen(); bool down = flags & Style_Down; bool on = flags & Style_On; bool enabled = flags & Style_Enabled; bool mouseOver = flags & Style_MouseOver; bool defaultButton = flags & Style_ButtonDefault; bool sunken = on || down; int x, y, xw, yh; x= r.x(); y= r.y(); xw = r.x()+r.width()-1; yh = r.y()+r.height()-1; if ( !formMode ) { if ( !defaultButton || ( defaultButton &&enabled ) ) { p->setPen( cg.background() ); p->drawRect( r ); //replace background into round //left/top p->drawPoint( x+1, y+1 ); p->drawPoint( x+2, y+1 ); p->drawPoint( x+1, y+2 ); //right/top p->drawPoint( xw-2, y+1 ); p->drawPoint( xw-1, y+1 ); p->drawPoint( xw-1, y+2 ); //right/bottom p->drawPoint( x+1, yh-2); p->drawPoint( x+2, yh-1); p->drawPoint( x+1, yh-1); //left/bottom p->drawPoint( xw-2, yh-1 ); p->drawPoint( xw-1, yh-1 ); p->drawPoint( xw-1, yh-2 ); } else { p->setPen( cdata->blueMdkColor[4] ); p->drawLine( x+3, y, xw-3, y ); p->drawLine( x, y+3, x, yh-3 ); p->drawLine( x+3, yh, xw-3, yh ); p->drawLine( xw, y+3, xw, yh-3 ); p->drawPoint( x+2, y+1 ); p->drawPoint( x+1, y+2 ); p->drawPoint( x+1, yh-2 ); p->drawPoint( x+2, yh-1 ); p->drawPoint( xw-2, y+1 ); p->drawPoint( xw-1, y+2 ); p->drawPoint( xw-1, yh-2 ); p->drawPoint( xw-2, yh-1 ); p->setPen( cg.background() ); //left/top p->drawLine( x, y, x+2, y ); p->drawLine( x, y+1, x+1, y+1 ); p->drawPoint( x, y+2 ); //right/top p->drawLine( xw-2, y, xw, y ); p->drawLine( xw-1, y+1, xw, y+1 ); p->drawPoint( xw, y+2 ); //left/bottom p->drawLine( x, yh-1, x+1, yh-1 ); p->drawLine( x, yh, x+2, yh ); p->drawPoint( x, yh-2 ); //right/bottom p->drawLine( xw-1, yh-1, xw, yh-1 ); p->drawLine( xw-2, yh, xw, yh ); p->drawPoint( xw, yh-2 ); } } //FIX toggle button p->setPen( enabled ? cdata->buttonColor[5] : cdata->buttonColor[4] ); //VERIFY it p->drawLine( x+3, y+1, xw-3, y+1 ); p->drawLine( x+1, y+3, x+1, yh-3 ); p->drawPoint( x+2, y+2 ); p->setPen( cdata->buttonColor[4] ); p->drawLine( x+3, yh-1, xw-3, yh-1 ); p->drawLine( xw-1,y+3,xw-1,yh-3 ); p->drawPoint( x+2, yh-2 ); p->drawPoint( xw-2, yh-2 ); p->drawPoint( xw-2, y+2 ); p->setPen( ( down||sunken ) ? cg.base() : cdata->buttonColor[1] ); p->drawLine( xw-2, y+3, xw-2, yh-3 ); p->drawLine( x+3, yh-2, xw-3, yh-2 ); p->setPen( ( down || sunken ) ? cdata->buttonColor[2]: cg.base() ); p->drawLine( x+3, y+2, xw-3, y+2 ); p->drawLine( x+2, y+3, x+2, yh-3 ); if ( on ) renderGradient(p, QRect(x+3, y+3, xw-5, yh-5), cdata->buttonColor[0] ,mouseOver ? cdata->buttonColor[1] : cdata->buttonColor[2], false); else if ( down ||sunken ) renderGradient(p, QRect(x+3, y+3, xw-4, yh-4), cdata->buttonColor[2] ,cdata->buttonColor[1], false); else renderGradient(p, QRect(x+3, y+3, xw-5, yh-5), cdata->buttonColor[0] ,mouseOver ? cdata->buttonColor[1] :cdata->buttonColor[2], false); p->setPen( oldPen ); // restore pen } QRect MandrivaStyle::subRect(SubRect r, const QWidget *widget) const { switch ( r ) { case SR_ProgressBarContents: { QRect wrect( widget->rect()); return QRect( wrect.x() , wrect.y() , wrect.width(), wrect.height()); } case SR_PushButtonFocusRect: { const QPushButton* button = (const QPushButton*) widget; QRect wrect(widget->rect()); if (button->isDefault() || button->autoDefault()) return QRect(wrect.x() + 6, wrect.y() + 4, wrect.width() - 12, wrect.height() - 8); else return QRect(wrect.x() + 4 , wrect.y() + 5, wrect.width() - 9, wrect.height() - 8); break; } case SR_ComboBoxFocusRect: { return querySubControlMetrics( CC_ComboBox, widget, SC_ComboBoxEditField ); } default: return KStyle::subRect( r, widget ); } } //define handle point void MandrivaStyle::drawHandlePoint ( const MandrivaColorData *cdata,QPainter *p, int x, int y)const { //blue-4 p->save(); p->setPen( cdata->blueMdkColor[4]); //optimise it and use drawLine; p->drawPoint(x+1,y); p->drawPoint(x+2,y); p->drawPoint(x,y+1); p->drawPoint(x+1,y+1); p->drawPoint(x+2,y+1); p->drawPoint(x+3,y+1); //blue-2 p->setPen( cdata->blueMdkColor[2]); p->drawPoint(x, y+2 ); p->drawPoint( x+1, y+2 ); p->drawPoint( x+1, y+3 ); //blue-1 p->setPen( cdata->blueMdkColor[1] ); p->drawPoint( x+2, y+2 ); p->drawPoint( x+3, y+2 ); p->drawPoint( x+2, y+3 ); p->restore(); } bool MandrivaStyle::excludeColor(const QColor &col, bool active) const { if ( active ) { if ( col == QColor( "#F7B610" ) || col == QColor( "#8EC7FF" ) || col == QColor( "#C7D3DF" ) ) return true; } return false; } bool MandrivaStyle::isFormWidget(const QWidget* widget) const { //Form widgets are in the KHTMLView, but that has 2 further inner levels //of widgets - QClipperWidget, and outside of that, QViewportWidget QWidget* potentialClipPort = widget->parentWidget(); if ( !potentialClipPort || potentialClipPort->isTopLevel() ) return false; QWidget* potentialViewPort = potentialClipPort->parentWidget(); if (!potentialViewPort || potentialViewPort->isTopLevel() || qstrcmp(potentialViewPort->name(), "qt_viewport") ) return false; QWidget* potentialKHTML = potentialViewPort->parentWidget(); if (!potentialKHTML || potentialKHTML->isTopLevel() || qstrcmp(potentialKHTML->className(), "KHTMLView") ) return false; return true; } // vim: ts=4 et sw=4