/* * * Redmond KWin client * * Copyright 2001 * Karol Szwed * http://gallium.n3.net/ * * Based on the default KWin client. * * Updated to support toolwindows 3/2001 (KS) * */ #include "redmond.h" #include #include #include #include #include #include #include #include #include namespace Redmond { static const char *kdelogo[] = { /* columns rows colors chars-per-pixel */ "16 16 8 1", " c None", ". c #000000", "+ c #A0A0A4", "@ c #FFFFFF", "# c #585858", "$ c #C0C0C0", "% c #808080", "& c #DCDCDC", " ", " .. .. ", " .+@. .@#. ", " .@@@. .@@@# ", " .@@@..$@@$. ", " .@@@.@@@$. ", " .@@@%@@$. ", " .@@@&@@. ", " .@@@@@@. ", " .@@@$@@&. ", " .@@@.@@@. ", " .@@@.+@@@. ", " .@@@..$@@&. ", " .@@%. .@@@. ", " .... ... ", " "}; static unsigned char iconify_bits[] = { 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x7e, 0x00, 0x7e, 0x00, 0x00, 0x00}; static unsigned char close_bits[] = { 0x00, 0x00, 0x86, 0x01, 0xcc, 0x00, 0x78, 0x00, 0x30, 0x00, 0x78, 0x00, 0xcc, 0x00, 0x86, 0x01, 0x00, 0x00, 0x00, 0x00}; static unsigned char maximize_bits[] = { 0xff, 0x01, 0xff, 0x01, 0x01, 0x01, 0x01, 0x01, 0x01, 0x01, 0x01, 0x01, 0x01, 0x01, 0x01, 0x01, 0xff, 0x01, 0x00, 0x00}; static unsigned char minmax_bits[] = { 0xfc, 0x00, 0xfc, 0x00, 0x84, 0x00, 0xbf, 0x00, 0xbf, 0x00, 0xe1, 0x00, 0x21, 0x00, 0x21, 0x00, 0x3f, 0x00, 0x00, 0x00}; static unsigned char question_bits[] = { 0x00, 0x00, 0x3c, 0x00, 0x66, 0x00, 0x60, 0x00, 0x30, 0x00, 0x18, 0x00, 0x00, 0x00, 0x18, 0x00, 0x18, 0x00, 0x00, 0x00}; // Up / Down titlebar button images static KPixmap *btnPix1; static KPixmap *iBtnPix1; static KPixmap *btnDownPix1; static KPixmap *iBtnDownPix1; static KPixmap *miniBtnPix1; static KPixmap *iMiniBtnPix1; static KPixmap *miniBtnDownPix1; static KPixmap *iMiniBtnDownPix1; static TQPixmap *defaultMenuPix; static TQColor *btnForeground; static bool pixmaps_created = false; static int toolTitleHeight; static int normalTitleHeight; static int borderWidth; static inline const KDecorationOptions *options() { return KDecoration::options(); } static void drawButtonFrame( KPixmap *pix, const TQColorGroup &g, bool sunken ) { TQPainter p; int x2 = pix->width() - 1; int y2 = pix->height() - 1; p.begin(pix); // titlebar button frame p.setPen( sunken ? TQColor(g.dark().dark(155)) : g.light()); p.drawLine(0, 0, x2-1, 0); p.drawLine(0, 0, 0, y2-1); if (sunken) { p.setPen( g.mid().dark(135) ); p.drawLine(1, 1, x2-2, 1); p.drawLine(1, 1, 1, y2-2); } p.setPen( sunken ? g.light() : TQColor(g.mid().dark(135))); p.drawLine(1, y2-1, x2-1, y2-1); p.drawLine(x2-1, 1, x2-1, y2-1); p.setPen( sunken ? g.light() : TQColor(g.dark().dark(155))); p.drawLine(0, y2, x2, y2); p.drawLine(x2, 0, x2, y2); } static void create_pixmaps () { if (pixmaps_created) return; pixmaps_created = true; bool highcolor = TQPixmap::defaultDepth() > 8; btnPix1 = new KPixmap; btnDownPix1 = new KPixmap; iBtnPix1 = new KPixmap; iBtnDownPix1 = new KPixmap; miniBtnPix1 = new KPixmap; miniBtnDownPix1 = new KPixmap; iMiniBtnPix1 = new KPixmap; iMiniBtnDownPix1 = new KPixmap; defaultMenuPix = new TQPixmap(kdelogo); // buttons (active/inactive, sunken/unsunken) TQColorGroup g = options()->colorGroup(KDecoration::ColorButtonBg, true); TQColor c = g.background(); btnPix1->resize(normalTitleHeight, normalTitleHeight-2); btnDownPix1->resize(normalTitleHeight, normalTitleHeight-2); iBtnPix1->resize(normalTitleHeight, normalTitleHeight-2); iBtnDownPix1->resize(normalTitleHeight, normalTitleHeight-2); miniBtnPix1->resize(toolTitleHeight, toolTitleHeight); miniBtnDownPix1->resize(toolTitleHeight, toolTitleHeight); iMiniBtnPix1->resize(toolTitleHeight, toolTitleHeight); iMiniBtnDownPix1->resize(toolTitleHeight, toolTitleHeight); if (highcolor && false) { KPixmapEffect::gradient(*btnPix1, c.light(130), c.dark(130), KPixmapEffect::VerticalGradient); KPixmapEffect::gradient(*btnDownPix1, c.dark(130), c.light(130), KPixmapEffect::VerticalGradient); KPixmapEffect::gradient(*miniBtnPix1, c.light(130), c.dark(130), KPixmapEffect::VerticalGradient); KPixmapEffect::gradient(*miniBtnDownPix1, c.dark(130), c.light(130), KPixmapEffect::VerticalGradient); g = options()->colorGroup(KDecoration::ColorButtonBg, false); c = g.background(); KPixmapEffect::gradient(*iBtnPix1, c.light(130), c.dark(130), KPixmapEffect::VerticalGradient); KPixmapEffect::gradient(*iBtnDownPix1, c.dark(130), c.light(130), KPixmapEffect::VerticalGradient); KPixmapEffect::gradient(*iMiniBtnPix1, c.light(130), c.dark(130), KPixmapEffect::VerticalGradient); KPixmapEffect::gradient(*iMiniBtnDownPix1, c.dark(130), c.light(130), KPixmapEffect::VerticalGradient); } else { btnPix1->fill(c.rgb()); btnDownPix1->fill(c.rgb()); miniBtnPix1->fill(c.rgb()); miniBtnDownPix1->fill(c.rgb()); g = options()->colorGroup(KDecoration::ColorButtonBg, false); c = g.background(); iBtnPix1->fill(c.rgb()); iBtnDownPix1->fill(c.rgb()); iMiniBtnPix1->fill(c.rgb()); iMiniBtnDownPix1->fill(c.rgb()); } g = options()->colorGroup(KDecoration::ColorButtonBg, true); drawButtonFrame(btnPix1, g, false); drawButtonFrame(btnDownPix1, g, true); drawButtonFrame(miniBtnPix1, g, false); drawButtonFrame(miniBtnDownPix1, g, true); g = options()->colorGroup(KDecoration::ColorButtonBg, false); drawButtonFrame(iBtnPix1, g, false); drawButtonFrame(iBtnDownPix1, g, true); drawButtonFrame(iMiniBtnPix1, g, false); drawButtonFrame(iMiniBtnDownPix1, g, true); // Make sure button pixmaps contrast with the current colour scheme. if (tqGray(options()->color(KDecoration::ColorButtonBg, true).rgb()) > 127) btnForeground = new TQColor(Qt::black); else btnForeground = new TQColor(Qt::white); } void delete_pixmaps() { delete btnPix1; delete btnDownPix1; delete iBtnPix1; delete iBtnDownPix1; delete miniBtnPix1; delete miniBtnDownPix1; delete iMiniBtnPix1; delete iMiniBtnDownPix1; delete defaultMenuPix; delete btnForeground; pixmaps_created = false; } RedmondButton::RedmondButton(ButtonType type, RedmondDeco *parent, const char *name) : KCommonDecorationButton(type, parent, name) { // Eliminate background flicker setBackgroundMode( NoBackground ); miniBtn = decoration()->isToolWindow(); } void RedmondButton::reset(unsigned long changed) { if (changed&DecorationReset || changed&ManualReset || changed&SizeChange || changed&StateChange) { switch (type() ) { case CloseButton: setBitmap(close_bits); break; case HelpButton: setBitmap(question_bits); break; case MinButton: setBitmap(iconify_bits); break; case MaxButton: setBitmap( isOn() ? minmax_bits : maximize_bits ); break; case MenuButton: { TQPixmap miniIcon = decoration()->icon().pixmap(TQIconSet::Small, TQIconSet::Normal); if (!miniIcon.isNull()) { setPixmap(miniIcon); } else { setPixmap(*defaultMenuPix); } break; } default: setBitmap(0); break; } this->update(); } } void RedmondButton::setBitmap(const unsigned char *bitmap) { pix.resize(0, 0); if (bitmap) deco = TQBitmap(10, 10, bitmap, true); else { deco = TQBitmap(10,10); deco.fill(Qt::color0); } deco.setMask(deco); } void RedmondButton::setPixmap( const TQPixmap &p ) { deco.resize(0, 0); pix = p; repaint(false); } void RedmondButton::drawButton(TQPainter *p) { if ( pix.isNull() ) { if ( decoration()->isActive() ) { if ( isDown() ) p->drawPixmap(0, 0, miniBtn ? *miniBtnDownPix1 : *btnDownPix1); else p->drawPixmap(0, 0, miniBtn ? *miniBtnPix1 : *btnPix1); } else { if ( isDown() ) p->drawPixmap(0, 0, miniBtn ? *iMiniBtnDownPix1 : *iBtnDownPix1); else p->drawPixmap(0, 0, miniBtn ? *iMiniBtnPix1 : *iBtnPix1); } p->setPen( *btnForeground ); int xOff = (width()-10)/2; int yOff = (height()-10)/2; p->drawPixmap(isDown() ? xOff+1: xOff, isDown() ? yOff+1 : yOff, deco); } else { if (isLeft() ) { p->fillRect(0, 0, width(), height(), options()->color(KDecoration::ColorTitleBar, decoration()->isActive())); } else { p->fillRect(0, 0, width(), height(), options()->color(KDecoration::ColorTitleBlend, decoration()->isActive())); } if ( type()==MenuButton && height() < 16) { TQPixmap tmpPix; // Smooth scale the menu button pixmap tmpPix.convertFromImage( TQImage(pix.convertToImage()).smoothScale(height(), height() )); p->drawPixmap( 0, 0, tmpPix ); } else { int xOff = (width() -pix.width() )/2; int yOff = (height()-pix.height())/2; p->drawPixmap(xOff, yOff, pix ); } } } RedmondDeco::RedmondDeco(KDecorationBridge *b, KDecorationFactory *f) : KCommonDecoration(b, f) { } TQString RedmondDeco::visibleName() const { return i18n("Redmond"); } TQString RedmondDeco::defaultButtonsLeft() const { return "M"; } TQString RedmondDeco::defaultButtonsRight() const { return "HIA_X"; } bool RedmondDeco::decorationBehaviour(DecorationBehaviour behaviour) const { switch (behaviour) { case DB_MenuClose: return true; case DB_WindowMask: return false; case DB_ButtonHide: return true; default: return KCommonDecoration::decorationBehaviour(behaviour); } } int RedmondDeco::layoutMetric(LayoutMetric lm, bool respectWindowState, const KCommonDecorationButton *btn) const { bool border = !(maximizeMode()==MaximizeFull && !options()->moveResizeMaximizedWindows()); switch (lm) { case LM_BorderLeft: case LM_BorderRight: case LM_BorderBottom: return border ? borderWidth : 0; case LM_TitleEdgeLeft: case LM_TitleEdgeRight: return border ? borderWidth+2 : 2; case LM_TitleEdgeTop: return border ? borderWidth+1 : 1; case LM_TitleEdgeBottom: return border ? 1 : 0; case LM_TitleBorderLeft: case LM_TitleBorderRight: return border ? 1 : 0; case LM_TitleHeight: return border ? titleHeight-2 : titleHeight-1; case LM_ButtonWidth: return titleHeight-2; case LM_ButtonHeight: if (isToolWindow() || (btn && btn->type()==MenuButton) ) { return titleHeight-2; } else { return titleHeight-2-2; } case LM_ButtonSpacing: return 0; case LM_ExplicitButtonSpacer: return 2; case LM_ButtonMarginTop: return 0; case LM_RightButtonsMarginTop: return 1; default: return KCommonDecoration::layoutMetric(lm, respectWindowState, btn); } } KCommonDecorationButton *RedmondDeco::createButton(ButtonType type) { switch (type) { case MenuButton: return new RedmondButton(MenuButton, this, "menu"); case HelpButton: return new RedmondButton(HelpButton, this, "help"); case MinButton: return new RedmondButton(MinButton, this, "minimize"); case MaxButton: return new RedmondButton(MaxButton, this, "maximize"); case CloseButton: return new RedmondButton(CloseButton, this, "close"); default: return 0; } } void RedmondDeco::init() { // Finally, toolwindows look small if ( isToolWindow() ) { titleHeight = toolTitleHeight+2; } else { titleHeight = normalTitleHeight+2; } KCommonDecoration::init(); } void RedmondDeco::reset( unsigned long changed ) { KCommonDecoration::reset(changed); } void RedmondDeco::paintEvent( TQPaintEvent* ) { bool hicolor = TQPixmap::defaultDepth() > 8; int fontoffset = 1; // Modify borderWith used by titlebar to 0, when maximized and not move or resize able bool border = !(maximizeMode()==MaximizeFull && !options()->moveResizeMaximizedWindows()); int modBorderWidth = border ? borderWidth : 0; TQPainter p(widget()); // Obtain widget bounds. TQRect r(widget()->rect()); int x = r.x(); int y = r.y(); int x2 = r.width()-1; int y2 = r.height()-1; int w = r.width(); int h = r.height(); // Draw part of the frame that is the frame color // ============================================== TQColorGroup g = options()->colorGroup(KDecoration::ColorFrame, isActive()); p.setPen( g.background() ); p.drawLine( x, y, x2-1, y ); p.drawLine( x, y, x, y2-1 ); // Draw line under title bar p.drawLine( x+borderWidth, y+titleHeight+borderWidth, x2-borderWidth, y+titleHeight+borderWidth ); // Draw a hidden line that appears during shading p.drawLine( x+borderWidth, y2-borderWidth, x2-borderWidth, y2-borderWidth ); // Fill out the border edges for (int i = 1; i < borderWidth; i++) p.drawRect( x+i, y+i, w-2*i, h-2*i ); // Draw highlights and lowlights p.setPen(g.light()); for (int i = 1; i <= borderWidth/3; i++) { p.drawLine( x+i, y+i, x2-i-1, y+i); p.drawLine( x+i, y+i, x+i, y2-i-1); } p.setPen(g.mid().dark(135)); for (int i = 1; i <= borderWidth/3; i++) { p.drawLine( x2-i, y+i+1, x2-i, y2-i); p.drawLine( x+i+1, y2-i, x2-i, y2-i); } // Draw black edges p.setPen( g.dark().dark(155) ); p.drawLine(x2, y, x2, y2); p.drawLine(x, y2, x2, y2); // Draw the title bar. // =================== r = titleRect(); // TQFontMetrics fm(options()->font(true)); // Obtain blend colours. TQColor c1 = options()->color(KDecoration::ColorTitleBar, isActive() ); TQColor c2 = options()->color(KDecoration::ColorTitleBlend, isActive() ); TQFont fnt = options()->font(true, isToolWindow() ); if (isToolWindow() ) { fnt.setWeight( TQFont::Normal ); fontoffset = 0; } // Paint without a buffer if the colours are the same to // improve performance, and only draw gradients on hicolor displays. if ((c1 != c2) && hicolor) { // KS - Add gradient caching if needed at a later stage. // Create a disposable pixmap buffer for the title blend KPixmap* titleBuffer = new KPixmap; titleBuffer->resize(w-2*modBorderWidth, titleHeight); if (titleBuffer->depth() > 16) { KPixmapEffect::gradient(*titleBuffer, c1, c2, KPixmapEffect::HorizontalGradient); } else { // This enables dithering on 15 and 16bit displays, preventing // some pretty horrible banding effects TQImage image = KImageEffect::gradient(titleBuffer->size(), c1, c2, KImageEffect::HorizontalGradient); titleBuffer->convertFromImage(image, Qt::OrderedDither); } TQPainter p2( titleBuffer, this ); // Since drawing the gradient is (relatively) slow, it is best // to draw the title text on the pixmap. p2.setFont( fnt ); p2.setPen( options()->color(KDecoration::ColorFont, isActive() )); if (border) p2.drawText( r.x()-3, fontoffset, r.width(), r.height()+1, AlignLeft | AlignVCenter, caption() ); else p2.drawText( r.x()+1, fontoffset, r.width()-4, r.height()+1, AlignLeft | AlignVCenter, caption() ); p2.end(); p.drawPixmap( modBorderWidth, modBorderWidth, *titleBuffer ); delete titleBuffer; } else { // Assume lower ended hardware, so don't use buffers. // Don't draw a gradient either. p.fillRect( modBorderWidth, modBorderWidth, w-2*modBorderWidth, titleHeight, c1 ); // Draw the title text. p.setFont( fnt ); p.setPen(options()->color(KDecoration::ColorFont, isActive() )); p.drawText(r.x()+4, r.y()+fontoffset-2, r.width()-3, r.height()+1, AlignLeft | AlignVCenter, caption() ); } } void RedmondDecoFactory::readConfig() { normalTitleHeight = TQFontMetrics(options()->font(true)).height(); TQFont toolFont = options()->font(true, true); toolFont.setWeight(TQFont::Normal); toolTitleHeight = TQFontMetrics(toolFont).height(); switch(options()->preferredBorderSize(this)) { case BorderLarge: borderWidth = 8; if (normalTitleHeight < 20) normalTitleHeight = 20; if (toolTitleHeight < 20) toolTitleHeight = 20; break; case BorderVeryLarge: borderWidth = 12; if (normalTitleHeight < 24) normalTitleHeight = 24; if (toolTitleHeight < 24) toolTitleHeight = 24; break; case BorderHuge: borderWidth = 18; if (normalTitleHeight < 28) normalTitleHeight = 28; if (toolTitleHeight < 28) toolTitleHeight = 28; break; case BorderVeryHuge: borderWidth = 27; if (normalTitleHeight < 33) normalTitleHeight = 33; if (toolTitleHeight < 33) toolTitleHeight = 33; break; case BorderOversized: borderWidth = 40; if (normalTitleHeight < 40) normalTitleHeight = 40; if (toolTitleHeight < 40) toolTitleHeight = 40; break; case BorderTiny: case BorderNormal: default: borderWidth = 3; if (normalTitleHeight < 16) normalTitleHeight = 16; if (toolTitleHeight < 16) toolTitleHeight = 16; } } RedmondDecoFactory::RedmondDecoFactory() { readConfig(); create_pixmaps(); } RedmondDecoFactory::~RedmondDecoFactory() { Redmond::delete_pixmaps(); } KDecoration *RedmondDecoFactory::createDecoration( KDecorationBridge *b ) { return new RedmondDeco(b, this); } bool RedmondDecoFactory::reset( unsigned long changed ) { // SettingButtons is handled by KCommonDecoration if ( changed & ( SettingFont | SettingBorder | SettingColors | SettingButtons ) ) { delete_pixmaps(); readConfig(); create_pixmaps(); resetDecorations(changed); return true; } else { resetDecorations(changed); return false; } } bool RedmondDecoFactory::supports( Ability ability ) { switch( ability ) { case AbilityAnnounceButtons: case AbilityButtonMenu: case AbilityButtonHelp: case AbilityButtonMinimize: case AbilityButtonMaximize: case AbilityButtonClose: case AbilityButtonSpacer: return true; default: return false; } } TQValueList< RedmondDecoFactory::BorderSize > RedmondDecoFactory::borderSizes() const { // the list must be sorted return TQValueList< BorderSize >() << BorderNormal << BorderLarge << BorderVeryLarge << BorderHuge << BorderVeryHuge << BorderOversized; } } extern "C" KDE_EXPORT KDecorationFactory *create_factory() { return new Redmond::RedmondDecoFactory(); } #include "redmond.moc"