/* * * KStyle * Copyright (C) 2001-2002 Karol Szwed * * TQWindowsStyle CC_ListView and style images were kindly donated by TrollTech, * Copyright (C) 1998-2000 TrollTech AS. * * Many thanks to Bradley T. Hughes for the 3 button scrollbar code. * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Library General Public * License version 2 as published by the Free Software Foundation. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Library General Public License for more details. * * You should have received a copy of the GNU Library General Public License * along with this library; see the file COPYING.LIB. If not, write to * the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, * Boston, MA 02110-1301, USA. */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include "kstyle.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #ifdef Q_WS_X11 # include # ifdef HAVE_XRENDER # include // schroder extern bool qt_use_xrender; # endif #else #undef HAVE_XRENDER #endif #ifdef HAVE_XCOMPOSITE #include #include #include #endif #include namespace { // INTERNAL enum TransparencyEngine { Disabled = 0, SoftwareTint, SoftwareBlend, XRender }; // Drop Shadow struct ShadowElements { TQWidget* w1; TQWidget* w2; }; typedef TQMap ShadowMap; static ShadowMap *_shadowMap = 0; TQSingleCleanupHandler cleanupShadowMap; ShadowMap &shadowMap() { if ( !_shadowMap ) { _shadowMap = new ShadowMap; cleanupShadowMap.set( &_shadowMap ); } return *_shadowMap; } // DO NOT ASK ME HOW I MADE THESE TABLES! // (I probably won't remember anyway ;) const double top_right_corner[16] = { 0.949, 0.965, 0.980, 0.992, 0.851, 0.890, 0.945, 0.980, 0.706, 0.780, 0.890, 0.960, 0.608, 0.706, 0.851, 0.949 }; const double bottom_right_corner[16] = { 0.608, 0.706, 0.851, 0.949, 0.706, 0.780, 0.890, 0.960, 0.851, 0.890, 0.945, 0.980, 0.949, 0.965, 0.980, 0.992 }; const double bottom_left_corner[16] = { 0.949, 0.851, 0.706, 0.608, 0.965, 0.890, 0.780, 0.706, 0.980, 0.945, 0.890, 0.851, 0.992, 0.980, 0.960, 0.949 }; const double shadow_strip[4] = { 0.565, 0.675, 0.835, 0.945 }; static bool useDropShadow(TQWidget* w) { return w && w->metaObject() && w->metaObject()->findProperty("KStyleMenuDropShadow") != -1; } } namespace { class TransparencyHandler : public TQObject { public: TransparencyHandler(KStyle* style, TransparencyEngine tEngine, float menuOpacity, bool useDropShadow); ~TransparencyHandler(); bool eventFilter(TQObject* object, TQEvent* event); protected: void blendToColor(const TQColor &col); void blendToPixmap(const TQColorGroup &cg, const TQWidget* p); #ifdef HAVE_XRENDER void XRenderBlendToPixmap(const TQWidget* p); #endif bool haveX11RGBASupport(); TQImage handleRealAlpha(TQImage); void createShadowWindows(const TQWidget* p); void removeShadowWindows(const TQWidget* p); void rightShadow(TQImage& dst); void bottomShadow(TQImage& dst); private: bool dropShadow; float opacity; TQPixmap pix; KStyle* kstyle; TransparencyEngine te; }; } // namespace struct KStylePrivate { bool highcolor : 1; bool useFilledFrameWorkaround : 1; bool etchDisabledText : 1; bool scrollablePopupmenus : 1; bool menuAltKeyNavigation : 1; bool menuDropShadow : 1; bool sloppySubMenus : 1; bool semiTransparentRubberband : 1; int popupMenuDelay; float menuOpacity; TransparencyEngine transparencyEngine; KStyle::KStyleScrollBarType scrollbarType; TransparencyHandler* menuHandler; KStyle::KStyleFlags flags; //For KPE_ListViewBranch TQBitmap *verticalLine; TQBitmap *horizontalLine; }; // ----------------------------------------------------------------------------- KStyle::KStyle( KStyleFlags flags, KStyleScrollBarType sbtype ) : TQCommonStyle(), d(new KStylePrivate) { d->flags = flags; bool useMenuTransparency = (flags & AllowMenuTransparency); d->useFilledFrameWorkaround = (flags & FilledFrameWorkaround); d->scrollbarType = sbtype; d->highcolor = TQPixmap::defaultDepth() > 8; // Read style settings TQSettings settings; d->popupMenuDelay = settings.readNumEntry ("/KStyle/Settings/PopupMenuDelay", 256); d->sloppySubMenus = settings.readBoolEntry("/KStyle/Settings/SloppySubMenus", false); d->etchDisabledText = settings.readBoolEntry("/KStyle/Settings/EtchDisabledText", true); d->menuAltKeyNavigation = settings.readBoolEntry("/KStyle/Settings/MenuAltKeyNavigation", true); d->scrollablePopupmenus = settings.readBoolEntry("/KStyle/Settings/ScrollablePopupMenus", false); d->menuDropShadow = settings.readBoolEntry("/KStyle/Settings/MenuDropShadow", false); d->semiTransparentRubberband = settings.readBoolEntry("/KStyle/Settings/SemiTransparentRubberband", false); d->menuHandler = NULL; if (useMenuTransparency) { TQString effectEngine = settings.readEntry("/KStyle/Settings/MenuTransparencyEngine", "Disabled"); #ifdef HAVE_XRENDER if (effectEngine == "XRender") d->transparencyEngine = XRender; #else if (effectEngine == "XRender") d->transparencyEngine = SoftwareBlend; #endif else if (effectEngine == "SoftwareBlend") d->transparencyEngine = SoftwareBlend; else if (effectEngine == "SoftwareTint") d->transparencyEngine = SoftwareTint; else d->transparencyEngine = Disabled; if (d->transparencyEngine != Disabled) { // Create an instance of the menu transparency handler d->menuOpacity = settings.readDoubleEntry("/KStyle/Settings/MenuOpacity", 0.90); d->menuHandler = new TransparencyHandler(this, d->transparencyEngine, d->menuOpacity, d->menuDropShadow); } } d->verticalLine = 0; d->horizontalLine = 0; // Create a transparency handler if only drop shadows are enabled. if (!d->menuHandler && d->menuDropShadow) d->menuHandler = new TransparencyHandler(this, Disabled, 1.0, d->menuDropShadow); } KStyle::~KStyle() { delete d->verticalLine; delete d->horizontalLine; delete d->menuHandler; d->menuHandler = NULL; delete d; } TQString KStyle::defaultStyle() { if (TQPixmap::defaultDepth() > 8) return TQString("plastik"); else return TQString("light, 3rd revision"); } void KStyle::polish( TQWidget* widget ) { if ( d->useFilledFrameWorkaround ) { if ( TQFrame *frame = ::tqqt_cast< TQFrame* >( widget ) ) { TQFrame::Shape shape = frame->frameShape(); if (shape == TQFrame::ToolBarPanel || shape == TQFrame::MenuBarPanel) widget->installEventFilter(this); } } if (widget->isTopLevel()) { if (!d->menuHandler && useDropShadow(widget)) d->menuHandler = new TransparencyHandler(this, Disabled, 1.0, false); if (d->menuHandler && useDropShadow(widget)) widget->installEventFilter(d->menuHandler); } } void KStyle::unPolish( TQWidget* widget ) { if ( d->useFilledFrameWorkaround ) { if ( TQFrame *frame = ::tqqt_cast< TQFrame* >( widget ) ) { TQFrame::Shape shape = frame->frameShape(); if (shape == TQFrame::ToolBarPanel || shape == TQFrame::MenuBarPanel) widget->removeEventFilter(this); } } if (widget->isTopLevel() && d->menuHandler && useDropShadow(widget)) widget->removeEventFilter(d->menuHandler); } // Style changes (should) always re-polish popups. void KStyle::polishPopupMenu( TQPopupMenu* p ) { if (!p->testWState( WState_Polished )) p->setCheckable(true); // Install transparency handler if the effect is enabled. if ( d->menuHandler && (strcmp(p->name(), "tear off menu") != 0)) p->installEventFilter(d->menuHandler); } // ----------------------------------------------------------------------------- // KStyle extensions // ----------------------------------------------------------------------------- void KStyle::setScrollBarType(KStyleScrollBarType sbtype) { d->scrollbarType = sbtype; } KStyle::KStyleFlags KStyle::styleFlags() const { return d->flags; } void KStyle::renderMenuBlendPixmap( KPixmap &pix, const TQColorGroup &cg, const TQPopupMenu* /* popup */ ) const { pix.fill(cg.button()); // Just tint as the default behavior } void KStyle::drawKStylePrimitive( KStylePrimitive kpe, TQPainter* p, const TQWidget* widget, const TQRect &r, const TQColorGroup &cg, SFlags flags, const TQStyleOption& /* opt */ ) const { switch( kpe ) { // Dock / Toolbar / General handles. // --------------------------------- case KPE_DockWindowHandle: { // Draws a nice DockWindow handle including the dock title. TQWidget* wid = const_cast(widget); bool horizontal = flags & Style_Horizontal; int x,y,w,h,x2,y2; r.rect( &x, &y, &w, &h ); if ((w <= 2) || (h <= 2)) { p->fillRect(r, cg.highlight()); return; } x2 = x + w - 1; y2 = y + h - 1; TQFont fnt; fnt = TQApplication::font(wid); fnt.setPointSize( fnt.pointSize()-2 ); // Draw the item on an off-screen pixmap // to preserve Xft antialiasing for // vertically oriented handles. TQPixmap pix; if (horizontal) pix.resize( h-2, w-2 ); else pix.resize( w-2, h-2 ); TQString title = wid->parentWidget()->caption(); TQPainter p2; p2.begin(&pix); p2.fillRect(pix.rect(), cg.brush(TQColorGroup::Highlight)); p2.setPen(cg.highlightedText()); p2.setFont(fnt); p2.drawText(pix.rect(), AlignCenter, title); p2.end(); // Draw a sunken bevel p->setPen(cg.dark()); p->drawLine(x, y, x2, y); p->drawLine(x, y, x, y2); p->setPen(cg.light()); p->drawLine(x+1, y2, x2, y2); p->drawLine(x2, y+1, x2, y2); if (horizontal) { TQWMatrix m; m.rotate(-90.0); TQPixmap vpix = pix.xForm(m); bitBlt(wid, r.x()+1, r.y()+1, &vpix); } else bitBlt(wid, r.x()+1, r.y()+1, &pix); break; } /* * KPE_ListViewExpander and KPE_ListViewBranch are based on code from * QWindowStyle's CC_ListView, kindly donated by TrollTech. * CC_ListView code is Copyright (C) 1998-2000 TrollTech AS. */ case KPE_ListViewExpander: { // Typical Windows style expand/collapse element. int radius = (r.width() - 4) / 2; int centerx = r.x() + r.width()/2; int centery = r.y() + r.height()/2; // Outer box p->setPen( cg.mid() ); p->drawRect( r ); // plus or minus p->setPen( cg.text() ); p->drawLine( centerx - radius, centery, centerx + radius, centery ); if ( flags & Style_On ) // Collapsed = On p->drawLine( centerx, centery - radius, centerx, centery + radius ); break; } case KPE_ListViewBranch: { // Typical Windows style listview branch element (dotted line). // Create the dotline pixmaps if not already created if ( !d->verticalLine ) { // make 128*1 and 1*128 bitmaps that can be used for // drawing the right sort of lines. d->verticalLine = new TQBitmap( 1, 129, true ); d->horizontalLine = new TQBitmap( 128, 1, true ); TQPointArray a( 64 ); TQPainter p2; p2.begin( d->verticalLine ); int i; for( i=0; i < 64; i++ ) a.setPoint( i, 0, i*2+1 ); p2.setPen( color1 ); p2.drawPoints( a ); p2.end(); TQApplication::flushX(); d->verticalLine->setMask( *d->verticalLine ); p2.begin( d->horizontalLine ); for( i=0; i < 64; i++ ) a.setPoint( i, i*2+1, 0 ); p2.setPen( color1 ); p2.drawPoints( a ); p2.end(); TQApplication::flushX(); d->horizontalLine->setMask( *d->horizontalLine ); } p->setPen( cg.text() ); // cg.dark() is bad for dark color schemes. 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, *d->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, *d->verticalLine, 0, pixmapoffset, thickness, i ); point += i; } } break; } // Reimplement the other primitives in your styles. // The current implementation just paints something visibly different. case KPE_ToolBarHandle: case KPE_GeneralHandle: case KPE_SliderHandle: p->fillRect(r, cg.light()); break; case KPE_SliderGroove: p->fillRect(r, cg.dark()); break; default: p->fillRect(r, Qt::yellow); // Something really bad happened - highlight. break; } } int KStyle::kPixelMetric( KStylePixelMetric kpm, const TQWidget* /* widget */) const { int value; switch(kpm) { case KPM_ListViewBranchThickness: value = 1; break; case KPM_MenuItemSeparatorHeight: case KPM_MenuItemHMargin: case KPM_MenuItemVMargin: case KPM_MenuItemHFrame: case KPM_MenuItemVFrame: case KPM_MenuItemCheckMarkHMargin: case KPM_MenuItemArrowHMargin: case KPM_MenuItemTabSpacing: default: value = 0; } return value; } // ----------------------------------------------------------------------------- // #ifdef USE_QT4 // kdebindings / smoke needs this function declaration available at all times. Furthermore I don't think it would hurt to have the declaration available at all times...so leave these commented out for now //void KStyle::tqdrawPrimitive( TQ_ControlElement pe, // TQPainter* p, // const TQRect &r, // const TQColorGroup &cg, // SFlags flags, // const TQStyleOption& opt ) const //{ // // FIXME: // // What should "widget" be in actuality? How should I get it? From where? // // Almost certainly it should not be null! // TQWidget *widget = 0; // drawControl(pe, p, widget, r, cg, flags, opt); //} // #endif // USE_QT4 // ----------------------------------------------------------------------------- void KStyle::tqdrawPrimitive( TQ_PrimitiveElement pe, TQPainter* p, const TQRect &r, const TQColorGroup &cg, SFlags flags, const TQStyleOption& opt ) const { // TOOLBAR/DOCK WINDOW HANDLE // ------------------------------------------------------------------------ if (pe == PE_DockWindowHandle) { // Wild workarounds are here. Beware. TQWidget *widget, *parent; if (p && p->device()->devType() == TQInternal::Widget) { widget = static_cast(p->device()); parent = widget->parentWidget(); } else return; // Don't paint on non-widgets // Check if we are a normal toolbar or a hidden dockwidget. if ( parent && (parent->inherits(TQTOOLBAR_OBJECT_NAME_STRING) || // Normal toolbar (parent->inherits(TQMAINWINDOW_OBJECT_NAME_STRING)) )) // Collapsed dock // Draw a toolbar handle drawKStylePrimitive( KPE_ToolBarHandle, p, widget, r, cg, flags, opt ); else if ( widget->inherits(TQDOCKWINDOWHANDLE_OBJECT_NAME_STRING) ) // Draw a dock window handle drawKStylePrimitive( KPE_DockWindowHandle, p, widget, r, cg, flags, opt ); else // General handle, probably a kicker applet handle. drawKStylePrimitive( KPE_GeneralHandle, p, widget, r, cg, flags, opt ); #if QT_VERSION >= 0x030300 #ifdef HAVE_XRENDER } else if ( d->semiTransparentRubberband && pe == TQStyle::PE_RubberBand ) { TQRect rect = r.normalize(); TQPoint point; point = p->xForm( point ); static XRenderColor clr = { 0, 0, 0, 0 }; static unsigned long fillColor = 0; if ( fillColor != cg.highlight().rgb() ) { fillColor = cg.highlight().rgb(); unsigned long color = fillColor << 8 | 0x40; int red = (color >> 24) & 0xff; int green = (color >> 16) & 0xff; int blue = (color >> 8) & 0xff; int alpha = (color >> 0) & 0xff; red = red * alpha / 255; green = green * alpha / 255; blue = blue * alpha / 255; clr.red = (red << 8) + red; clr.green = (green << 8) + green; clr.blue = (blue << 8) + blue; clr.alpha = (alpha << 8) + alpha; } XRenderFillRectangle( p->device()->x11Display(), PictOpOver, p->device()->x11RenderHandle(), &clr, rect.x() + point.x(), rect.y() + point.y(), rect.width(), rect.height() ); p->save(); p->setRasterOp( TQt::CopyROP ); p->setPen( TQPen( cg.highlight().dark( 160 ), 1 ) ); p->setBrush( NoBrush ); p->drawRect( rect.x() + point.x(), rect.y() + point.y(), rect.width(), rect.height() ); p->restore(); #endif #endif } else TQCommonStyle::tqdrawPrimitive( pe, p, r, cg, flags, opt ); } void KStyle::drawControl( TQ_ControlElement element, TQPainter* p, const TQWidget* widget, const TQRect &r, const TQColorGroup &cg, SFlags flags, const TQStyleOption &opt ) const { switch (element) { // TABS // ------------------------------------------------------------------------ case CE_TabBarTab: { const TQTabBar* tb = (const TQTabBar*) widget; TQTabBar::Shape tbs = tb->shape(); bool selected = flags & Style_Selected; int x = r.x(), y=r.y(), bottom=r.bottom(), right=r.right(); switch (tbs) { case TQTabBar::RoundedAbove: { if (!selected) p->translate(0,1); p->setPen(selected ? cg.light() : cg.shadow()); p->drawLine(x, y+4, x, bottom); p->drawLine(x, y+4, x+4, y); p->drawLine(x+4, y, right-1, y); if (selected) p->setPen(cg.shadow()); p->drawLine(right, y+1, right, bottom); p->setPen(cg.midlight()); p->drawLine(x+1, y+4, x+1, bottom); p->drawLine(x+1, y+4, x+4, y+1); p->drawLine(x+5, y+1, right-2, y+1); if (selected) { p->setPen(cg.mid()); p->drawLine(right-1, y+1, right-1, bottom); } else { p->setPen(cg.mid()); p->drawPoint(right-1, y+1); p->drawLine(x+4, y+2, right-1, y+2); p->drawLine(x+3, y+3, right-1, y+3); p->fillRect(x+2, y+4, r.width()-3, r.height()-6, cg.mid()); p->setPen(cg.light()); p->drawLine(x, bottom-1, right, bottom-1); p->translate(0,-1); } break; } case TQTabBar::RoundedBelow: { if (!selected) p->translate(0,-1); p->setPen(selected ? cg.light() : cg.shadow()); p->drawLine(x, bottom-4, x, y); if (selected) p->setPen(cg.mid()); p->drawLine(x, bottom-4, x+4, bottom); if (selected) p->setPen(cg.shadow()); p->drawLine(x+4, bottom, right-1, bottom); p->drawLine(right, bottom-1, right, y); p->setPen(cg.midlight()); p->drawLine(x+1, bottom-4, x+1, y); p->drawLine(x+1, bottom-4, x+4, bottom-1); p->drawLine(x+5, bottom-1, right-2, bottom-1); if (selected) { p->setPen(cg.mid()); p->drawLine(right-1, y, right-1, bottom-1); } else { p->setPen(cg.mid()); p->drawPoint(right-1, bottom-1); p->drawLine(x+4, bottom-2, right-1, bottom-2); p->drawLine(x+3, bottom-3, right-1, bottom-3); p->fillRect(x+2, y+2, r.width()-3, r.height()-6, cg.mid()); p->translate(0,1); p->setPen(cg.dark()); p->drawLine(x, y, right, y); } break; } case TQTabBar::TriangularAbove: { if (!selected) p->translate(0,1); p->setPen(selected ? cg.light() : cg.shadow()); p->drawLine(x, bottom, x, y+6); p->drawLine(x, y+6, x+6, y); p->drawLine(x+6, y, right-6, y); if (selected) p->setPen(cg.mid()); p->drawLine(right-5, y+1, right-1, y+5); p->setPen(cg.shadow()); p->drawLine(right, y+6, right, bottom); p->setPen(cg.midlight()); p->drawLine(x+1, bottom, x+1, y+6); p->drawLine(x+1, y+6, x+6, y+1); p->drawLine(x+6, y+1, right-6, y+1); p->drawLine(right-5, y+2, right-2, y+5); p->setPen(cg.mid()); p->drawLine(right-1, y+6, right-1, bottom); TQPointArray a(6); a.setPoint(0, x+2, bottom); a.setPoint(1, x+2, y+7); a.setPoint(2, x+7, y+2); a.setPoint(3, right-7, y+2); a.setPoint(4, right-2, y+7); a.setPoint(5, right-2, bottom); p->setPen (selected ? cg.background() : cg.mid()); p->setBrush(selected ? cg.background() : cg.mid()); p->drawPolygon(a); p->setBrush(NoBrush); if (!selected) { p->translate(0,-1); p->setPen(cg.light()); p->drawLine(x, bottom, right, bottom); } break; } default: { // TQTabBar::TriangularBelow if (!selected) p->translate(0,-1); p->setPen(selected ? cg.light() : cg.shadow()); p->drawLine(x, y, x, bottom-6); if (selected) p->setPen(cg.mid()); p->drawLine(x, bottom-6, x+6, bottom); if (selected) p->setPen(cg.shadow()); p->drawLine(x+6, bottom, right-6, bottom); p->drawLine(right-5, bottom-1, right-1, bottom-5); if (!selected) p->setPen(cg.shadow()); p->drawLine(right, bottom-6, right, y); p->setPen(cg.midlight()); p->drawLine(x+1, y, x+1, bottom-6); p->drawLine(x+1, bottom-6, x+6, bottom-1); p->drawLine(x+6, bottom-1, right-6, bottom-1); p->drawLine(right-5, bottom-2, right-2, bottom-5); p->setPen(cg.mid()); p->drawLine(right-1, bottom-6, right-1, y); TQPointArray a(6); a.setPoint(0, x+2, y); a.setPoint(1, x+2, bottom-7); a.setPoint(2, x+7, bottom-2); a.setPoint(3, right-7, bottom-2); a.setPoint(4, right-2, bottom-7); a.setPoint(5, right-2, y); p->setPen (selected ? cg.background() : cg.mid()); p->setBrush(selected ? cg.background() : cg.mid()); p->drawPolygon(a); p->setBrush(NoBrush); if (!selected) { p->translate(0,1); p->setPen(cg.dark()); p->drawLine(x, y, right, y); } break; } }; break; } // Popup menu scroller // ------------------------------------------------------------------------ case CE_PopupMenuScroller: { p->fillRect(r, cg.background()); tqdrawPrimitive(PE_ButtonTool, p, r, cg, Style_Enabled); tqdrawPrimitive((flags & Style_Up) ? PE_ArrowUp : PE_ArrowDown, p, r, cg, Style_Enabled); break; } // PROGRESSBAR // ------------------------------------------------------------------------ case CE_ProgressBarGroove: { TQRect fr = subRect(SR_ProgressBarGroove, widget); tqdrawPrimitive(PE_Panel, p, fr, cg, Style_Sunken, TQStyleOption::SO_Default); break; } case CE_ProgressBarContents: { // ### Take into account totalSteps() for busy indicator const TQProgressBar* pb = (const TQProgressBar*)widget; TQRect cr = subRect(SR_ProgressBarContents, widget); double progress = pb->progress(); bool reverse = TQApplication::reverseLayout(); int steps = pb->totalSteps(); if (!cr.isValid()) return; // Draw progress bar 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) { //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) p->fillRect(cr.x() + cr.width() - width - pstep, cr.y(), width, cr.height(), cg.brush(TQColorGroup::Highlight)); else p->fillRect(cr.x() + pstep, cr.y(), width, cr.height(), cg.brush(TQColorGroup::Highlight)); return; } // Do fancy gradient for highcolor displays if (d->highcolor) { TQColor c(cg.highlight()); KPixmap pix; pix.resize(cr.width(), cr.height()); KPixmapEffect::gradient(pix, reverse ? c.light(150) : c.dark(150), reverse ? c.dark(150) : c.light(150), KPixmapEffect::HorizontalGradient); if (reverse) p->drawPixmap(cr.x()+(cr.width()-width), cr.y(), pix, cr.width()-width, 0, width, cr.height()); else p->drawPixmap(cr.x(), cr.y(), pix, 0, 0, width, cr.height()); } else if (reverse) p->fillRect(cr.x()+(cr.width()-width), cr.y(), width, cr.height(), cg.brush(TQColorGroup::Highlight)); else p->fillRect(cr.x(), cr.y(), width, cr.height(), cg.brush(TQColorGroup::Highlight)); } break; } case CE_ProgressBarLabel: { const TQProgressBar* pb = (const TQProgressBar*)widget; TQRect cr = subRect(SR_ProgressBarContents, widget); double progress = pb->progress(); bool reverse = TQApplication::reverseLayout(); int steps = pb->totalSteps(); if (!cr.isValid()) return; TQFont font = p->font(); font.setBold(true); p->setFont(font); // Draw label if (progress > 0 || steps == 0) { double pg = (steps == 0) ? 1.0 : progress / steps; int width = QMIN(cr.width(), (int)(pg * cr.width())); TQRect crect; if (reverse) crect.setRect(cr.x()+(cr.width()-width), cr.y(), cr.width(), cr.height()); else crect.setRect(cr.x()+width, cr.y(), cr.width(), cr.height()); p->save(); p->setPen(pb->isEnabled() ? (reverse ? cg.text() : cg.highlightedText()) : cg.text()); p->drawText(r, AlignCenter, pb->progressString()); p->setClipRect(crect); p->setPen(reverse ? cg.highlightedText() : cg.text()); p->drawText(r, AlignCenter, pb->progressString()); p->restore(); } else { p->setPen(cg.text()); p->drawText(r, AlignCenter, pb->progressString()); } break; } default: TQCommonStyle::drawControl(element, p, widget, r, cg, flags, opt); } } TQRect KStyle::subRect(SubRect r, const TQWidget* widget) const { switch(r) { // KDE2 look smooth progress bar // ------------------------------------------------------------------------ case SR_ProgressBarGroove: return widget->rect(); case SR_ProgressBarContents: case SR_ProgressBarLabel: { // ### take into account indicatorFollowsStyle() TQRect rt = widget->rect(); return TQRect(rt.x()+2, rt.y()+2, rt.width()-4, rt.height()-4); } default: return TQCommonStyle::subRect(r, widget); } } int KStyle::pixelMetric(PixelMetric m, const TQWidget* widget) const { switch(m) { // BUTTONS // ------------------------------------------------------------------------ case PM_ButtonShiftHorizontal: // Offset by 1 case PM_ButtonShiftVertical: // ### Make configurable return 1; case PM_DockWindowHandleExtent: { TQWidget* parent = 0; // Check that we are not a normal toolbar or a hidden dockwidget, // in which case we need to adjust the height for font size if (widget && (parent = widget->parentWidget() ) && !parent->inherits(TQTOOLBAR_OBJECT_NAME_STRING) && !parent->inherits(TQMAINWINDOW_OBJECT_NAME_STRING) && widget->inherits(TQDOCKWINDOWHANDLE_OBJECT_NAME_STRING) ) return widget->fontMetrics().lineSpacing(); else return TQCommonStyle::pixelMetric(m, widget); } // TABS // ------------------------------------------------------------------------ case PM_TabBarTabHSpace: return 24; case PM_TabBarTabVSpace: { const TQTabBar * tb = (const TQTabBar *) widget; if ( tb->shape() == TQTabBar::RoundedAbove || tb->shape() == TQTabBar::RoundedBelow ) return 10; else return 4; } case PM_TabBarTabOverlap: { const TQTabBar* tb = (const TQTabBar*)widget; TQTabBar::Shape tbs = tb->shape(); if ( (tbs == TQTabBar::RoundedAbove) || (tbs == TQTabBar::RoundedBelow) ) return 0; else return 2; } // SLIDER // ------------------------------------------------------------------------ case PM_SliderLength: return 18; case PM_SliderThickness: return 24; // Determines how much space to leave for the actual non-tickmark // portion of the slider. case PM_SliderControlThickness: { const TQSlider* slider = (const TQSlider*)widget; TQSlider::TickSetting ts = slider->tickmarks(); int thickness = (slider->orientation() == Qt::Horizontal) ? slider->height() : slider->width(); switch (ts) { case TQSlider::NoMarks: // Use total area. break; case TQSlider::Both: thickness = (thickness/2) + 3; // Use approx. 1/2 of area. break; default: // Use approx. 2/3 of area thickness = ((thickness*2)/3) + 3; break; }; return thickness; } // SPLITTER // ------------------------------------------------------------------------ case PM_SplitterWidth: if (widget && widget->inherits("QDockWindowResizeHandle")) return 8; // ### why do we need 2pix extra? else return 6; // FRAMES // ------------------------------------------------------------------------ case PM_MenuBarFrameWidth: return 1; case PM_DockWindowFrameWidth: return 1; // GENERAL // ------------------------------------------------------------------------ case PM_MaximumDragDistance: return -1; case PM_MenuBarItemSpacing: return 5; case PM_ToolBarItemSpacing: return 0; case PM_PopupMenuScrollerHeight: return pixelMetric( PM_ScrollBarExtent, 0); default: return TQCommonStyle::pixelMetric( m, widget ); } } //Helper to find the next sibling that's not hidden static TQListViewItem* nextVisibleSibling(TQListViewItem* item) { TQListViewItem* sibling = item; do { sibling = sibling->nextSibling(); } while (sibling && !sibling->isVisible()); return sibling; } void KStyle::drawComplexControl( TQ_ComplexControl control, TQPainter* p, const TQWidget* widget, const TQRect &r, const TQColorGroup &cg, SFlags flags, SCFlags controls, SCFlags active, const TQStyleOption &opt ) const { switch(control) { // 3 BUTTON SCROLLBAR // ------------------------------------------------------------------------ case CC_ScrollBar: { // Many thanks to Brad Hughes for contributing this code. bool useThreeButtonScrollBar = (d->scrollbarType & ThreeButtonScrollBar); const TQScrollBar *sb = (const TQScrollBar*)widget; bool maxedOut = (sb->minValue() == sb->maxValue()); bool horizontal = (sb->orientation() == Qt::Horizontal); SFlags sflags = ((horizontal ? Style_Horizontal : Style_Default) | (maxedOut ? Style_Default : Style_Enabled)); TQRect addline, subline, subline2, addpage, subpage, slider, first, last; 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); subline2 = addline; if ( useThreeButtonScrollBar ) if (horizontal) subline2.moveBy(-addline.width(), 0); else subline2.moveBy(0, -addline.height()); // Draw the up/left button set if ((controls & SC_ScrollBarSubLine) && subline.isValid()) { tqdrawPrimitive(PE_ScrollBarSubLine, p, subline, cg, sflags | (active == SC_ScrollBarSubLine ? Style_Down : Style_Default)); if (useThreeButtonScrollBar && subline2.isValid()) tqdrawPrimitive(PE_ScrollBarSubLine, p, subline2, cg, sflags | (active == SC_ScrollBarSubLine ? Style_Down : Style_Default)); } if ((controls & SC_ScrollBarAddLine) && addline.isValid()) tqdrawPrimitive(PE_ScrollBarAddLine, p, addline, cg, sflags | ((active == SC_ScrollBarAddLine) ? Style_Down : Style_Default)); if ((controls & SC_ScrollBarSubPage) && subpage.isValid()) tqdrawPrimitive(PE_ScrollBarSubPage, p, subpage, cg, sflags | ((active == SC_ScrollBarSubPage) ? Style_Down : Style_Default)); if ((controls & SC_ScrollBarAddPage) && addpage.isValid()) tqdrawPrimitive(PE_ScrollBarAddPage, p, addpage, cg, sflags | ((active == SC_ScrollBarAddPage) ? Style_Down : Style_Default)); if ((controls & SC_ScrollBarFirst) && first.isValid()) tqdrawPrimitive(PE_ScrollBarFirst, p, first, cg, sflags | ((active == SC_ScrollBarFirst) ? Style_Down : Style_Default)); if ((controls & SC_ScrollBarLast) && last.isValid()) tqdrawPrimitive(PE_ScrollBarLast, p, last, cg, sflags | ((active == SC_ScrollBarLast) ? Style_Down : Style_Default)); if ((controls & SC_ScrollBarSlider) && slider.isValid()) { tqdrawPrimitive(PE_ScrollBarSlider, p, slider, cg, sflags | ((active == SC_ScrollBarSlider) ? Style_Down : Style_Default)); // Draw focus rect if (sb->hasFocus()) { TQRect fr(slider.x() + 2, slider.y() + 2, slider.width() - 5, slider.height() - 5); tqdrawPrimitive(PE_FocusRect, p, fr, cg, Style_Default); } } break; } // SLIDER // ------------------------------------------------------------------- case CC_Slider: { const TQSlider* slider = (const TQSlider*)widget; TQRect groove = querySubControlMetrics(CC_Slider, widget, SC_SliderGroove, opt); TQRect handle = querySubControlMetrics(CC_Slider, widget, SC_SliderHandle, opt); // Double-buffer slider for no flicker TQPixmap pix(widget->size()); TQPainter p2; p2.begin(&pix); if ( slider->parentWidget() && slider->parentWidget()->backgroundPixmap() && !slider->parentWidget()->backgroundPixmap()->isNull() ) { TQPixmap pixmap = *(slider->parentWidget()->backgroundPixmap()); p2.drawTiledPixmap(r, pixmap, slider->pos()); } else pix.fill(cg.background()); // Draw slider groove if ((controls & SC_SliderGroove) && groove.isValid()) { drawKStylePrimitive( KPE_SliderGroove, &p2, widget, groove, cg, flags, opt ); // Draw the focus rect around the groove if (slider->hasFocus()) tqdrawPrimitive(PE_FocusRect, &p2, groove, cg); } // Draw the tickmarks if (controls & SC_SliderTickmarks) TQCommonStyle::drawComplexControl(control, &p2, widget, r, cg, flags, SC_SliderTickmarks, active, opt); // Draw the slider handle if ((controls & SC_SliderHandle) && handle.isValid()) { if (active == SC_SliderHandle) flags |= Style_Active; drawKStylePrimitive( KPE_SliderHandle, &p2, widget, handle, cg, flags, opt ); } p2.end(); bitBlt((TQWidget*)widget, r.x(), r.y(), &pix); break; } // LISTVIEW // ------------------------------------------------------------------- case CC_ListView: { /* * Many thanks to TrollTech AS for donating CC_ListView from TQWindowsStyle. * CC_ListView code is Copyright (C) 1998-2000 TrollTech AS. */ // Paint the icon and text. if ( controls & SC_ListView ) TQCommonStyle::drawComplexControl( control, p, widget, r, cg, flags, controls, active, opt ); // If we're have a branch or are expanded... if ( controls & (SC_ListViewBranch | SC_ListViewExpand) ) { // If no list view item was supplied, break if (opt.isDefault()) break; TQListViewItem *item = opt.listViewItem(); TQListViewItem *child = item->firstChild(); int y = r.y(); int c; // dotline vertice count int dotoffset = 0; TQPointArray dotlines; if ( active == SC_All && controls == SC_ListViewExpand ) { // We only need to draw a vertical line c = 2; dotlines.resize(2); dotlines[0] = TQPoint( r.right(), r.top() ); dotlines[1] = TQPoint( r.right(), r.bottom() ); } else { int linetop = 0, linebot = 0; // each branch needs at most two lines, ie. four end points dotoffset = (item->itemPos() + item->height() - y) % 2; dotlines.resize( item->childCount() * 4 ); c = 0; // skip the stuff above the exposed rectangle while ( child && y + child->height() <= 0 ) { y += child->totalHeight(); child = nextVisibleSibling(child); } int bx = r.width() / 2; // paint stuff in the magical area TQListView* v = item->listView(); int lh = QMAX( p->fontMetrics().height() + 2 * v->itemMargin(), TQApplication::globalStrut().height() ); if ( lh % 2 > 0 ) lh++; // Draw all the expand/close boxes... TQRect boxrect; TQStyle::StyleFlags boxflags; while ( child && y < r.height() ) { linebot = y + lh/2; if ( (child->isExpandable() || child->childCount()) && (child->height() > 0) ) { // The primitive requires a rect. boxrect = TQRect( bx-4, linebot-4, 9, 9 ); boxflags = child->isOpen() ? TQStyle::Style_Off : TQStyle::Style_On; // KStyle extension: Draw the box and expand/collapse indicator drawKStylePrimitive( KPE_ListViewExpander, p, NULL, boxrect, cg, boxflags, opt ); // dotlinery p->setPen( cg.mid() ); dotlines[c++] = TQPoint( bx, linetop ); dotlines[c++] = TQPoint( bx, linebot - 5 ); dotlines[c++] = TQPoint( bx + 5, linebot ); dotlines[c++] = TQPoint( r.width(), linebot ); linetop = linebot + 5; } else { // just dotlinery dotlines[c++] = TQPoint( bx+1, linebot ); dotlines[c++] = TQPoint( r.width(), linebot ); } y += child->totalHeight(); child = nextVisibleSibling(child); } if ( child ) // there's a child to draw, so move linebot to edge of rectangle linebot = r.height(); if ( linetop < linebot ) { dotlines[c++] = TQPoint( bx, linetop ); dotlines[c++] = TQPoint( bx, linebot ); } } // Draw all the branches... static int thickness = kPixelMetric( KPM_ListViewBranchThickness ); int line; // index into dotlines TQRect branchrect; TQStyle::StyleFlags branchflags; for( line = 0; line < c; line += 2 ) { // assumptions here: lines are horizontal or vertical. // lines always start with the numerically lowest // coordinate. // point ... relevant coordinate of current point // end ..... same coordinate of the end of the current line // other ... the other coordinate of the current point/line if ( dotlines[line].y() == dotlines[line+1].y() ) { // Horizontal branch int end = dotlines[line+1].x(); int point = dotlines[line].x(); int other = dotlines[line].y(); branchrect = TQRect( point, other-(thickness/2), end-point, thickness ); branchflags = TQStyle::Style_Horizontal; // KStyle extension: Draw the horizontal branch drawKStylePrimitive( KPE_ListViewBranch, p, NULL, branchrect, cg, branchflags, opt ); } else { // Vertical branch int end = dotlines[line+1].y(); int point = dotlines[line].y(); int other = dotlines[line].x(); int pixmapoffset = ((point & 1) != dotoffset ) ? 1 : 0; branchrect = TQRect( other-(thickness/2), point, thickness, end-point ); if (!pixmapoffset) // ### Hackish - used to hint the offset branchflags = TQStyle::Style_NoChange; else branchflags = TQStyle::Style_Default; // KStyle extension: Draw the vertical branch drawKStylePrimitive( KPE_ListViewBranch, p, NULL, branchrect, cg, branchflags, opt ); } } } break; } default: TQCommonStyle::drawComplexControl( control, p, widget, r, cg, flags, controls, active, opt ); break; } } TQStyle::SubControl KStyle::querySubControl( TQ_ComplexControl control, const TQWidget* widget, const TQPoint &pos, const TQStyleOption &opt ) const { TQStyle::SubControl ret = TQCommonStyle::querySubControl(control, widget, pos, opt); if (d->scrollbarType == ThreeButtonScrollBar) { // Enable third button if (control == CC_ScrollBar && ret == SC_None) ret = SC_ScrollBarSubLine; } return ret; } TQRect KStyle::querySubControlMetrics( TQ_ComplexControl control, const TQWidget* widget, SubControl sc, const TQStyleOption &opt ) const { TQRect ret; if (control == CC_ScrollBar) { bool threeButtonScrollBar = d->scrollbarType & ThreeButtonScrollBar; bool platinumScrollBar = d->scrollbarType & PlatinumStyleScrollBar; bool nextScrollBar = d->scrollbarType & NextStyleScrollBar; const TQScrollBar *sb = (const TQScrollBar*)widget; bool horizontal = sb->orientation() == Qt::Horizontal; int sliderstart = sb->sliderStart(); int sbextent = pixelMetric(PM_ScrollBarExtent, widget); int maxlen = (horizontal ? sb->width() : sb->height()) - (sbextent * (threeButtonScrollBar ? 3 : 2)); int sliderlen; // calculate slider length if (sb->maxValue() != sb->minValue()) { uint range = sb->maxValue() - sb->minValue(); sliderlen = (sb->pageStep() * maxlen) / (range + sb->pageStep()); int slidermin = pixelMetric( PM_ScrollBarSliderMin, widget ); if ( sliderlen < slidermin || range > INT_MAX / 2 ) sliderlen = slidermin; if ( sliderlen > maxlen ) sliderlen = maxlen; } else sliderlen = maxlen; // Subcontrols switch (sc) { case SC_ScrollBarSubLine: { // top/left button if (platinumScrollBar) { if (horizontal) ret.setRect(sb->width() - 2 * sbextent, 0, sbextent, sbextent); else ret.setRect(0, sb->height() - 2 * sbextent, sbextent, sbextent); } else ret.setRect(0, 0, sbextent, sbextent); break; } case SC_ScrollBarAddLine: { // bottom/right button if (nextScrollBar) { if (horizontal) ret.setRect(sbextent, 0, sbextent, sbextent); else ret.setRect(0, sbextent, sbextent, sbextent); } else { if (horizontal) ret.setRect(sb->width() - sbextent, 0, sbextent, sbextent); else ret.setRect(0, sb->height() - sbextent, sbextent, sbextent); } break; } case SC_ScrollBarSubPage: { // between top/left button and slider if (platinumScrollBar) { if (horizontal) ret.setRect(0, 0, sliderstart, sbextent); else ret.setRect(0, 0, sbextent, sliderstart); } else if (nextScrollBar) { if (horizontal) ret.setRect(sbextent*2, 0, sliderstart-2*sbextent, sbextent); else ret.setRect(0, sbextent*2, sbextent, sliderstart-2*sbextent); } else { if (horizontal) ret.setRect(sbextent, 0, sliderstart - sbextent, sbextent); else ret.setRect(0, sbextent, sbextent, sliderstart - sbextent); } break; } case SC_ScrollBarAddPage: { // between bottom/right button and slider int fudge; if (platinumScrollBar) fudge = 0; else if (nextScrollBar) fudge = 2*sbextent; else fudge = sbextent; if (horizontal) ret.setRect(sliderstart + sliderlen, 0, maxlen - sliderstart - sliderlen + fudge, sbextent); else ret.setRect(0, sliderstart + sliderlen, sbextent, maxlen - sliderstart - sliderlen + fudge); break; } case SC_ScrollBarGroove: { int multi = threeButtonScrollBar ? 3 : 2; int fudge; if (platinumScrollBar) fudge = 0; else if (nextScrollBar) fudge = 2*sbextent; else fudge = sbextent; if (horizontal) ret.setRect(fudge, 0, sb->width() - sbextent * multi, sb->height()); else ret.setRect(0, fudge, sb->width(), sb->height() - sbextent * multi); break; } case SC_ScrollBarSlider: { if (horizontal) ret.setRect(sliderstart, 0, sliderlen, sbextent); else ret.setRect(0, sliderstart, sbextent, sliderlen); break; } default: ret = TQCommonStyle::querySubControlMetrics(control, widget, sc, opt); break; } } else ret = TQCommonStyle::querySubControlMetrics(control, widget, sc, opt); return ret; } static const char * const kstyle_close_xpm[] = { "12 12 2 1", "# c #000000", ". c None", "............", "............", "..##....##..", "...##..##...", "....####....", ".....##.....", "....####....", "...##..##...", "..##....##..", "............", "............", "............"}; static const char * const kstyle_maximize_xpm[]={ "12 12 2 1", "# c #000000", ". c None", "............", "............", ".##########.", ".##########.", ".#........#.", ".#........#.", ".#........#.", ".#........#.", ".#........#.", ".#........#.", ".##########.", "............"}; static const char * const kstyle_minimize_xpm[] = { "12 12 2 1", "# c #000000", ". c None", "............", "............", "............", "............", "............", "............", "............", "...######...", "...######...", "............", "............", "............"}; static const char * const kstyle_normalizeup_xpm[] = { "12 12 2 1", "# c #000000", ". c None", "............", "...#######..", "...#######..", "...#.....#..", ".#######.#..", ".#######.#..", ".#.....#.#..", ".#.....###..", ".#.....#....", ".#.....#....", ".#######....", "............"}; static const char * const kstyle_shade_xpm[] = { "12 12 2 1", "# c #000000", ". c None", "............", "............", "............", "............", "............", ".....#......", "....###.....", "...#####....", "..#######...", "............", "............", "............"}; static const char * const kstyle_unshade_xpm[] = { "12 12 2 1", "# c #000000", ". c None", "............", "............", "............", "............", "..#######...", "...#####....", "....###.....", ".....#......", "............", "............", "............", "............"}; static const char * const dock_window_close_xpm[] = { "8 8 2 1", "# c #000000", ". c None", "##....##", ".##..##.", "..####..", "...##...", "..####..", ".##..##.", "##....##", "........"}; // Message box icons, from page 210 of the Windows style guide. // Hand-drawn to resemble Microsoft's icons, but in the Mac/Netscape // palette. The "question mark" icon, which Microsoft recommends not // using but a lot of people still use, is left out. /* XPM */ static const char * const information_xpm[]={ "32 32 5 1", ". c None", "c c #000000", "* c #999999", "a c #ffffff", "b c #0000ff", "...........********.............", "........***aaaaaaaa***..........", "......**aaaaaaaaaaaaaa**........", ".....*aaaaaaaaaaaaaaaaaa*.......", "....*aaaaaaaabbbbaaaaaaaac......", "...*aaaaaaaabbbbbbaaaaaaaac.....", "..*aaaaaaaaabbbbbbaaaaaaaaac....", ".*aaaaaaaaaaabbbbaaaaaaaaaaac...", ".*aaaaaaaaaaaaaaaaaaaaaaaaaac*..", "*aaaaaaaaaaaaaaaaaaaaaaaaaaaac*.", "*aaaaaaaaaabbbbbbbaaaaaaaaaaac*.", "*aaaaaaaaaaaabbbbbaaaaaaaaaaac**", "*aaaaaaaaaaaabbbbbaaaaaaaaaaac**", "*aaaaaaaaaaaabbbbbaaaaaaaaaaac**", "*aaaaaaaaaaaabbbbbaaaaaaaaaaac**", "*aaaaaaaaaaaabbbbbaaaaaaaaaaac**", ".*aaaaaaaaaaabbbbbaaaaaaaaaac***", ".*aaaaaaaaaaabbbbbaaaaaaaaaac***", "..*aaaaaaaaaabbbbbaaaaaaaaac***.", "...caaaaaaabbbbbbbbbaaaaaac****.", "....caaaaaaaaaaaaaaaaaaaac****..", ".....caaaaaaaaaaaaaaaaaac****...", "......ccaaaaaaaaaaaaaacc****....", ".......*cccaaaaaaaaccc*****.....", "........***cccaaaac*******......", "..........****caaac*****........", ".............*caaac**...........", "...............caac**...........", "................cac**...........", ".................cc**...........", "..................***...........", "...................**..........."}; /* XPM */ static const char* const warning_xpm[]={ "32 32 4 1", ". c None", "a c #ffff00", "* c #000000", "b c #999999", ".............***................", "............*aaa*...............", "...........*aaaaa*b.............", "...........*aaaaa*bb............", "..........*aaaaaaa*bb...........", "..........*aaaaaaa*bb...........", ".........*aaaaaaaaa*bb..........", ".........*aaaaaaaaa*bb..........", "........*aaaaaaaaaaa*bb.........", "........*aaaa***aaaa*bb.........", ".......*aaaa*****aaaa*bb........", ".......*aaaa*****aaaa*bb........", "......*aaaaa*****aaaaa*bb.......", "......*aaaaa*****aaaaa*bb.......", ".....*aaaaaa*****aaaaaa*bb......", ".....*aaaaaa*****aaaaaa*bb......", "....*aaaaaaaa***aaaaaaaa*bb.....", "....*aaaaaaaa***aaaaaaaa*bb.....", "...*aaaaaaaaa***aaaaaaaaa*bb....", "...*aaaaaaaaaa*aaaaaaaaaa*bb....", "..*aaaaaaaaaaa*aaaaaaaaaaa*bb...", "..*aaaaaaaaaaaaaaaaaaaaaaa*bb...", ".*aaaaaaaaaaaa**aaaaaaaaaaa*bb..", ".*aaaaaaaaaaa****aaaaaaaaaa*bb..", "*aaaaaaaaaaaa****aaaaaaaaaaa*bb.", "*aaaaaaaaaaaaa**aaaaaaaaaaaa*bb.", "*aaaaaaaaaaaaaaaaaaaaaaaaaaa*bbb", "*aaaaaaaaaaaaaaaaaaaaaaaaaaa*bbb", ".*aaaaaaaaaaaaaaaaaaaaaaaaa*bbbb", "..*************************bbbbb", "....bbbbbbbbbbbbbbbbbbbbbbbbbbb.", ".....bbbbbbbbbbbbbbbbbbbbbbbbb.."}; /* XPM */ static const char* const critical_xpm[]={ "32 32 4 1", ". c None", "a c #999999", "* c #ff0000", "b c #ffffff", "...........********.............", ".........************...........", ".......****************.........", "......******************........", ".....********************a......", "....**********************a.....", "...************************a....", "..*******b**********b*******a...", "..******bbb********bbb******a...", ".******bbbbb******bbbbb******a..", ".*******bbbbb****bbbbb*******a..", "*********bbbbb**bbbbb*********a.", "**********bbbbbbbbbb**********a.", "***********bbbbbbbb***********aa", "************bbbbbb************aa", "************bbbbbb************aa", "***********bbbbbbbb***********aa", "**********bbbbbbbbbb**********aa", "*********bbbbb**bbbbb*********aa", ".*******bbbbb****bbbbb*******aa.", ".******bbbbb******bbbbb******aa.", "..******bbb********bbb******aaa.", "..*******b**********b*******aa..", "...************************aaa..", "....**********************aaa...", "....a********************aaa....", ".....a******************aaa.....", "......a****************aaa......", ".......aa************aaaa.......", ".........aa********aaaaa........", "...........aaaaaaaaaaa..........", ".............aaaaaaa............"}; TQPixmap KStyle::stylePixmap( StylePixmap stylepixmap, const TQWidget* widget, const TQStyleOption& opt) const { switch (stylepixmap) { case SP_TitleBarShadeButton: return TQPixmap(const_cast(kstyle_shade_xpm)); case SP_TitleBarUnshadeButton: return TQPixmap(const_cast(kstyle_unshade_xpm)); case SP_TitleBarNormalButton: return TQPixmap(const_cast(kstyle_normalizeup_xpm)); case SP_TitleBarMinButton: return TQPixmap(const_cast(kstyle_minimize_xpm)); case SP_TitleBarMaxButton: return TQPixmap(const_cast(kstyle_maximize_xpm)); case SP_TitleBarCloseButton: return TQPixmap(const_cast(kstyle_close_xpm)); case SP_DockWindowCloseButton: return TQPixmap(const_cast(dock_window_close_xpm )); case SP_MessageBoxInformation: return TQPixmap(const_cast(information_xpm)); case SP_MessageBoxWarning: return TQPixmap(const_cast(warning_xpm)); case SP_MessageBoxCritical: return TQPixmap(const_cast(critical_xpm)); default: break; } return TQCommonStyle::stylePixmap(stylepixmap, widget, opt); } int KStyle::styleHint( TQ_StyleHint sh, const TQWidget* w, const TQStyleOption &opt, TQStyleHintReturn* shr) const { switch (sh) { case SH_EtchDisabledText: return d->etchDisabledText ? 1 : 0; case SH_PopupMenu_Scrollable: return d->scrollablePopupmenus ? 1 : 0; case SH_MenuBar_AltKeyNavigation: return d->menuAltKeyNavigation ? 1 : 0; case SH_PopupMenu_SubMenuPopupDelay: if ( styleHint( SH_PopupMenu_SloppySubMenus, w ) ) return QMIN( 100, d->popupMenuDelay ); else return d->popupMenuDelay; case SH_PopupMenu_SloppySubMenus: return d->sloppySubMenus; case SH_ItemView_ChangeHighlightOnFocus: case SH_Slider_SloppyKeyEvents: case SH_MainWindow_SpaceBelowMenuBar: case SH_PopupMenu_AllowActiveAndDisabled: return 0; case SH_Slider_SnapToValue: case SH_PrintDialog_RightAlignButtons: case SH_FontDialog_SelectAssociatedText: case SH_MenuBar_MouseTracking: case SH_PopupMenu_MouseTracking: case SH_ComboBox_ListMouseTracking: case SH_ScrollBar_MiddleClickAbsolutePosition: return 1; case SH_LineEdit_PasswordCharacter: { if (w) { const TQFontMetrics &fm = w->fontMetrics(); if (fm.inFont(TQChar(0x25CF))) { return 0x25CF; } else if (fm.inFont(TQChar(0x2022))) { return 0x2022; } } return '*'; } default: return TQCommonStyle::styleHint(sh, w, opt, shr); } } bool KStyle::eventFilter( TQObject* object, TQEvent* event ) { if ( d->useFilledFrameWorkaround ) { // Make the QMenuBar/TQToolBar paintEvent() cover a larger area to // ensure that the filled frame contents are properly painted. // We essentially modify the paintEvent's rect to include the // panel border, which also paints the widget's interior. // This is nasty, but I see no other way to properly repaint // filled frames in all QMenuBars and QToolBars. // -- Karol. TQFrame *frame = 0; if ( event->type() == TQEvent::Paint && (frame = ::tqqt_cast(object)) ) { if (frame->frameShape() != TQFrame::ToolBarPanel && frame->frameShape() != TQFrame::MenuBarPanel) return false; bool horizontal = true; TQPaintEvent* pe = (TQPaintEvent*)event; TQToolBar *toolbar = ::tqqt_cast< TQToolBar *>( frame ); TQRect r = pe->rect(); if (toolbar && toolbar->orientation() == Qt::Vertical) horizontal = false; if (horizontal) { if ( r.height() == frame->height() ) return false; // Let TQFrame handle the painting now. // Else, send a new paint event with an updated paint rect. TQPaintEvent dummyPE( TQRect( r.x(), 0, r.width(), frame->height()) ); TQApplication::sendEvent( frame, &dummyPE ); } else { // Vertical if ( r.width() == frame->width() ) return false; TQPaintEvent dummyPE( TQRect( 0, r.y(), frame->width(), r.height()) ); TQApplication::sendEvent( frame, &dummyPE ); } // Discard this event as we sent a new paintEvent. return true; } } return false; } // ----------------------------------------------------------------------------- // I N T E R N A L - KStyle menu transparency handler // ----------------------------------------------------------------------------- TransparencyHandler::TransparencyHandler( KStyle* style, TransparencyEngine tEngine, float menuOpacity, bool useDropShadow ) : TQObject() { te = tEngine; kstyle = style; opacity = menuOpacity; dropShadow = useDropShadow; pix.setOptimization(TQPixmap::BestOptim); } TransparencyHandler::~TransparencyHandler() { } bool TransparencyHandler::haveX11RGBASupport() { // Simple way to determine if we have ARGB support if (TQPaintDevice::x11AppDepth() == 32) { return true; } else { return false; } } #define REAL_ALPHA_STRENGTH 255.0 // This is meant to be ugly but fast. void TransparencyHandler::rightShadow(TQImage& dst) { bool have_composite = haveX11RGBASupport(); if (dst.depth() != 32) dst = dst.convertDepth(32); // blend top-right corner. int pixels = dst.width() * dst.height(); #ifdef WORDS_BIGENDIAN register unsigned char* data = dst.bits() + 1; // Skip alpha #else register unsigned char* data = dst.bits(); // Skip alpha #endif for(register int i = 0; i < 16; i++) { if (have_composite) { data++; data++; data++; *data = (unsigned char)(REAL_ALPHA_STRENGTH*(1.0-top_right_corner[i])); data++; } else { *data = (unsigned char)((*data)*top_right_corner[i]); data++; *data = (unsigned char)((*data)*top_right_corner[i]); data++; *data = (unsigned char)((*data)*top_right_corner[i]); data++; data++; // skip alpha } } pixels -= 32; // tint right strip without rounded edges. register int c = 0; for(register int i = 0; i < pixels; i++) { if (have_composite) { data++; data++; data++;; *data = (unsigned char)(REAL_ALPHA_STRENGTH*(1.0-shadow_strip[c])); data++; } else { *data = (unsigned char)((*data)*shadow_strip[c]); data++; *data = (unsigned char)((*data)*shadow_strip[c]); data++; *data = (unsigned char)((*data)*shadow_strip[c]); data++; data++; // skip alpha } ++c; c %= 4; } // tint bottom edge for(register int i = 0; i < 16; i++) { if (have_composite) { data++; data++; data++; *data = (unsigned char)(REAL_ALPHA_STRENGTH*(1.0-bottom_right_corner[i])); data++; } else { *data = (unsigned char)((*data)*bottom_right_corner[i]); data++; *data = (unsigned char)((*data)*bottom_right_corner[i]); data++; *data = (unsigned char)((*data)*bottom_right_corner[i]); data++; data++; // skip alpha } } } void TransparencyHandler::bottomShadow(TQImage& dst) { bool have_composite = haveX11RGBASupport(); if (dst.depth() != 32) dst = dst.convertDepth(32); int line = 0; int width = dst.width() - 4; double strip_data = shadow_strip[0]; double* corner = const_cast(bottom_left_corner); #ifdef WORDS_BIGENDIAN register unsigned char* data = dst.bits() + 1; // Skip alpha #else register unsigned char* data = dst.bits(); // Skip alpha #endif for(int y = 0; y < 4; y++) { // Bottom-left Corner for(register int x = 0; x < 4; x++) { if (have_composite) { data++; data++; data++; *data = (unsigned char)(REAL_ALPHA_STRENGTH*(1.0-(*corner))); data++; } else { *data = (unsigned char)((*data)*(*corner)); data++; *data = (unsigned char)((*data)*(*corner)); data++; *data = (unsigned char)((*data)*(*corner)); data++; data++; // skip alpha } corner++; } // Scanline for(register int x = 0; x < width; x++) { if (have_composite) { data++; data++; data++; *data = (unsigned char)(REAL_ALPHA_STRENGTH*(1.0-strip_data)); data++; } else { *data = (unsigned char)((*data)*strip_data); data++; *data = (unsigned char)((*data)*strip_data); data++; *data = (unsigned char)((*data)*strip_data); data++; data++; // skip alpha } } strip_data = shadow_strip[++line]; } } TQImage TransparencyHandler::handleRealAlpha(TQImage img) { TQImage clearImage = img.convertDepth(32); clearImage.setAlphaBuffer(true); int w = clearImage.width(); int h = clearImage.height(); for (int y = 0; y < h; ++y) { TQRgb *ls = (TQRgb *)clearImage.scanLine( y ); for (int x = 0; x < w; ++x) { TQRgb l = ls[x]; ls[x] = tqRgba( 0, 0, 0, 0 ); } } return clearImage; } // Create a shadow of thickness 4. void TransparencyHandler::createShadowWindows(const TQWidget* p) { #ifdef Q_WS_X11 int x2 = p->x()+p->width(); int y2 = p->y()+p->height(); TQRect shadow1(x2, p->y() + 4, 4, p->height()); TQRect shadow2(p->x() + 4, y2, p->width() - 4, 4); bool have_composite = haveX11RGBASupport(); // Create a fake drop-down shadow effect via blended Xwindows ShadowElements se; se.w1 = new TQWidget(0, 0, (WFlags)(WStyle_Customize | WType_Popup | WX11BypassWM) ); se.w2 = new TQWidget(0, 0, (WFlags)(WStyle_Customize | WType_Popup | WX11BypassWM) ); se.w1->setGeometry(shadow1); se.w2->setGeometry(shadow2); XSelectInput(qt_xdisplay(), se.w1->winId(), StructureNotifyMask ); XSelectInput(qt_xdisplay(), se.w2->winId(), StructureNotifyMask ); // Insert a new ShadowMap entry shadowMap()[p] = se; // Some hocus-pocus here to create the drop-shadow. TQPixmap pix_shadow1; TQPixmap pix_shadow2; if (have_composite) { pix_shadow1 = TQPixmap(shadow1.width(), shadow1.height()); pix_shadow2 = TQPixmap(shadow2.width(), shadow2.height()); } else { pix_shadow1 = TQPixmap::grabWindow(qt_xrootwin(), shadow1.x(), shadow1.y(), shadow1.width(), shadow1.height()); pix_shadow2 = TQPixmap::grabWindow(qt_xrootwin(), shadow2.x(), shadow2.y(), shadow2.width(), shadow2.height()); } TQImage img; img = pix_shadow1.convertToImage(); if (have_composite) img = handleRealAlpha(img); rightShadow(img); pix_shadow1.convertFromImage(img); img = pix_shadow2.convertToImage(); if (have_composite) img = handleRealAlpha(img); bottomShadow(img); pix_shadow2.convertFromImage(img); // Set the background pixmaps se.w1->setErasePixmap(pix_shadow1); se.w2->setErasePixmap(pix_shadow2); // Show the 'shadow' just before showing the popup menu window // Don't use TQWidget::show() so we don't confuse QEffects, thus causing broken focus. XMapWindow(qt_xdisplay(), se.w1->winId()); XMapWindow(qt_xdisplay(), se.w2->winId()); #else Q_UNUSED( p ) #endif } void TransparencyHandler::removeShadowWindows(const TQWidget* p) { #ifdef Q_WS_X11 ShadowMap::iterator it = shadowMap().find(p); if (it != shadowMap().end()) { ShadowElements se = it.data(); XUnmapWindow(qt_xdisplay(), se.w1->winId()); // hide XUnmapWindow(qt_xdisplay(), se.w2->winId()); XFlush(qt_xdisplay()); // try to hide faster delete se.w1; delete se.w2; shadowMap().erase(it); } #else Q_UNUSED( p ) #endif } bool TransparencyHandler::eventFilter( TQObject* object, TQEvent* event ) { #if !defined Q_WS_MAC && !defined Q_WS_WIN // Transparency idea was borrowed from KDE2's "MegaGradient" Style, // Copyright (C) 2000 Daniel M. Duley // Added 'fake' menu shadows <04-Jul-2002> -- Karol TQWidget* p = (TQWidget*)object; TQEvent::Type et = event->type(); if (et == TQEvent::Show) { // Handle translucency if (te != Disabled) { pix = TQPixmap::grabWindow(qt_xrootwin(), p->x(), p->y(), p->width(), p->height()); switch (te) { #ifdef HAVE_XRENDER case XRender: if (qt_use_xrender) { XRenderBlendToPixmap(p); break; } // Fall through intended #else case XRender: #endif case SoftwareBlend: blendToPixmap(p->colorGroup(), p); break; case SoftwareTint: default: blendToColor(p->colorGroup().button()); }; p->setErasePixmap(pix); } // Handle drop shadow // * FIXME : !shadowMap().contains(p) is a workaround for leftover // * shadows after duplicate show events. // * TODO : determine real cause for duplicate events // * till 20021005 if ((dropShadow || useDropShadow(p)) && p->width() > 16 && p->height() > 16 && !shadowMap().contains( p )) createShadowWindows(p); } else if (et == TQEvent::Resize && p->isShown() && p->isTopLevel()) { // Handle drop shadow if (dropShadow || useDropShadow(p)) { removeShadowWindows(p); createShadowWindows(p); } } else if (et == TQEvent::Hide) { // Handle drop shadow if (dropShadow || useDropShadow(p)) removeShadowWindows(p); // Handle translucency if (te != Disabled) p->setErasePixmap(TQPixmap()); } #endif return false; } // Blends a TQImage to a predefined color, with a given opacity. void TransparencyHandler::blendToColor(const TQColor &col) { if (opacity < 0.0 || opacity > 1.0) return; TQImage img = pix.convertToImage(); KImageEffect::blend(col, img, opacity); pix.convertFromImage(img); } void TransparencyHandler::blendToPixmap(const TQColorGroup &cg, const TQWidget* p) { if (opacity < 0.0 || opacity > 1.0) return; KPixmap blendPix; blendPix.resize( pix.width(), pix.height() ); if (blendPix.width() != pix.width() || blendPix.height() != pix.height()) return; // Allow styles to define the blend pixmap - allows for some interesting effects. if (::tqqt_cast(p)) kstyle->renderMenuBlendPixmap( blendPix, cg, ::tqqt_cast(p) ); else blendPix.fill(cg.button()); // Just tint as the default behavior TQImage blendImg = blendPix.convertToImage(); TQImage backImg = pix.convertToImage(); KImageEffect::blend(blendImg, backImg, opacity); pix.convertFromImage(backImg); } #ifdef HAVE_XRENDER // Here we go, use XRender in all its glory. // NOTE: This is actually a bit slower than the above routines // on non-accelerated displays. -- Karol. void TransparencyHandler::XRenderBlendToPixmap(const TQWidget* p) { KPixmap renderPix; renderPix.resize( pix.width(), pix.height() ); // Allow styles to define the blend pixmap - allows for some interesting effects. if (::tqqt_cast(p)) kstyle->renderMenuBlendPixmap( renderPix, p->colorGroup(), ::tqqt_cast(p) ); else renderPix.fill(p->colorGroup().button()); // Just tint as the default behavior Display* dpy = qt_xdisplay(); Pixmap alphaPixmap; Picture alphaPicture; XRenderPictFormat Rpf; XRenderPictureAttributes Rpa; XRenderColor clr; clr.alpha = ((unsigned short)(255*opacity) << 8); Rpf.type = PictTypeDirect; Rpf.depth = 8; Rpf.direct.alphaMask = 0xff; Rpa.repeat = True; // Tile XRenderPictFormat* xformat = XRenderFindFormat(dpy, PictFormatType | PictFormatDepth | PictFormatAlphaMask, &Rpf, 0); alphaPixmap = XCreatePixmap(dpy, p->handle(), 1, 1, 8); alphaPicture = XRenderCreatePicture(dpy, alphaPixmap, xformat, CPRepeat, &Rpa); XRenderFillRectangle(dpy, PictOpSrc, alphaPicture, &clr, 0, 0, 1, 1); XRenderComposite(dpy, PictOpOver, renderPix.x11RenderHandle(), alphaPicture, pix.x11RenderHandle(), // src, mask, dst 0, 0, // srcx, srcy 0, 0, // maskx, masky 0, 0, // dstx, dsty pix.width(), pix.height()); XRenderFreePicture(dpy, alphaPicture); XFreePixmap(dpy, alphaPixmap); } #endif void KStyle::virtual_hook( int, void* ) { /*BASE::virtual_hook( id, data );*/ } // HACK for gtk-qt-engine extern "C" KDE_EXPORT void kde_kstyle_set_scrollbar_type_windows( void* style ) { ((KStyle*)style)->setScrollBarType( KStyle::WindowsStyleScrollBar ); } // vim: set noet ts=4 sw=4: // kate: indent-width 4; replace-tabs off; tab-width 4; space-indent off; #include "kstyle.moc"