#include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #undef signals #include #include #include #include #include #include #ifdef USE_FREEBSD #include #include #include #include #include #include #endif #ifdef USE_SOLARIS #include #endif #include #include "qt_qt_wrapper.h" #include "qt_style.h" #define RC_CACHE_VERSION TQString("1") bool gtkQtEnable = false; bool tqAppOwner = false; gboolean tde_showIconsOnPushButtons = false; TQStringList appDirList; typedef TQMap IconMap; IconMap iconMap[4]; extern int errno; TQScrollBar* scrollBar = 0; TQWidget* meepWidget = 0; TQWidget* meepWidgetP = 0; TQSlider* meepSlider = 0; TQTabBar* meepTabBar = 0; GdkGC* altBackGC = 0; TQWidget* smw = 0; GtkRcStyle* gtkRcStyle = 0; TQStringList kdeSearchPaths; TQString iconTheme; TQStringList iconThemeDirs; TQColor alternateBackgroundColour; int showIconsOnButtons; int toolbarStyle; const TQPixmap* backgroundTile; GdkPixmap* backgroundTileGdk; TQPixmap* menuBackgroundPixmap; GdkPixmap* menuBackgroundPixmapGdk; TQPixmap* fillPixmap; int scrollBarSpacingLeft = 0; int scrollBarSpacingRight = 0; int isBaghira; int isKeramik; int isAlloy; int isDomino; int isPolyester; int eclipseFix; int openOfficeFix; int mozillaFix; int gtkQtDebug; Atom kipcCommAtom; Atom desktopWindowAtom; void setFillPixmap(GdkPixbuf* buf) { if (!gtkQtEnable) return; // This code isn't very robust. It doesn't handle depths other than 24 bits. // It sure is fast though! int depth = gdk_pixbuf_get_n_channels(buf) * gdk_pixbuf_get_bits_per_sample(buf); int width = gdk_pixbuf_get_width(buf); int height = gdk_pixbuf_get_height(buf); int excess = gdk_pixbuf_get_rowstride(buf) - (width*3); if (depth != 24) return; TQImage fillImage(width, height, 32); uchar* source = gdk_pixbuf_get_pixels(buf); uchar* dest = fillImage.bits(); for (int y=0 ; yconvertFromImage(fillImage); return; } /* Now to get rid of a ton of un-needed new's across the board. `new' and `delete' are * non-trivial operations. You normally just don't notice it; until you're painting a window * with 50 widgets, with each paint operation requiring 3-4 news and 3-4 delete's. The cost * of indirection is `not insubstantial'. */ static int dummy_x_errhandler( Display *dpy, XErrorEvent *err ) { return 0; } static int dummy_xio_errhandler( Display * ) { return 0; } void createTQApp() { int argc = 1; char** argv; // Supply it with fake data to keep KApplication happy argv = (char**) malloc(sizeof(char*)); argv[0] = (char*) malloc(sizeof(char) * 19); strncpy(argv[0], "gtk-qt-application", 19); KAboutData aboutData("gtk-qt-engine", I18N_NOOP("gtk-qt-engine"), "v0.1", "GTK Qt theme engine", KAboutData::License_GPL, "(c) 2011, Timothy Pearson", "message goes here", 0 /* TODO: Website */, "kb9vqf@pearsoncomputing.net"); KCmdLineArgs::init(argc, argv, &aboutData); KApplication::disableAutoDcopRegistration(); TQString cmdLine; #ifdef USE_FREEBSD /* procfs(5) is deprecated on FreeBSD. We use the kvm(3) library to get argv[0] of the current pid. */ int cnt = 0; int ret = 0; kvm_t *kd; struct kinfo_proc *pbase; char ** arg; const char *msg = ""; kd = kvm_open(NULL, _PATH_DEVNULL, NULL, O_RDONLY, "kvm_open"); if (kd == NULL ) { msg = "kvm_open failed\n"; ret = -1; } else { pbase = kvm_getprocs(kd, KERN_PROC_PID, getpid(), &cnt); if (( pbase == NULL ) || ( cnt != 1 )) { msg = "kvm_getprocs failed\n"; ret = -1; } else { arg = kvm_getargv(kd, pbase, 1024); if (arg == NULL) { msg = "kvm_getargv failed\n"; ret = -1; } else { cmdLine += arg[0]; } } kvm_close(kd); } if (ret == -1) { printf("Gtk-Qt theme engine warning:\n"); printf(msg); printf(" This may cause problems for the GNOME window manager\n"); } #endif // USE_FREEBSD #ifdef USE_SOLARIS int pid=getpid(); char filen[256]; psinfo_t pfi; uintptr_t addr; uintptr_t addr2; int i,count,readl, ret=0; const char *msg; sprintf(filen, "/proc/%d/psinfo",pid); int fd=open(filen, O_RDONLY); if (fd == -1) { msg = "Open of psinfo failed\n"; ret = -1; } else { readl=read(fd, (void *)&pfi, sizeof(psinfo_t)); if (readl < 0) { msg = "Read on as failed\n"; close(fd); ret = -1; } else { addr=pfi.pr_argv; count=pfi.pr_argc; } close(fd); } /* if read of psinfo was success */ if (!ret) { sprintf(filen, "/proc/%d/as",pid); fd=open(filen, O_RDONLY); if (fd == -1) { msg = "Open of as failed\n"; ret = -1; } else { for (i=0;ieventLoop(); if (loop) { loop->setSingleToolkitEventHandling(false); } } if (!gtkQtEnable) return; isBaghira = (TQString(tqApp->style().name()).lower() == "baghira"); isKeramik = (TQString(tqApp->style().name()).lower() == "keramik"); isAlloy = (TQString(tqApp->style().name()).lower() == "alloy"); isDomino = (TQString(tqApp->style().name()).lower() == "domino"); isPolyester = (TQString(tqApp->style().name()).lower() == "polyester"); if (isDomino) { TQScrollBar sbar(NULL); sbar.setOrientation(Qt::Horizontal); sbar.setValue(1); sbar.resize(200,25); TQRect rect = tqApp->style().querySubControlMetrics(TQStyle::CC_ScrollBar, &sbar, TQStyle::SC_ScrollBarGroove); scrollBarSpacingLeft = rect.x(); scrollBarSpacingRight = 200 - rect.x() - rect.width(); } // Set Gtk fonts and icons /*setGnomeFonts(); setGnomeIcons();*/ if (!cmdLine.contains("xfce-mcs-manager")) { // Get KDE related atoms from the X server kipcCommAtom = XInternAtom ( gdk_x11_get_default_xdisplay() , "KIPC_COMM_ATOM" , false ); desktopWindowAtom = XInternAtom ( gdk_x11_get_default_xdisplay() , "KDE_DESKTOP_WINDOW" , false ); // Create a new window, and set the KDE_DESKTOP_WINDOW property on it // This window will then receive events from KDE when the style changes smw = new TQWidget(0,0); long data = 1; XChangeProperty(gdk_x11_get_default_xdisplay(), smw->winId(), desktopWindowAtom, desktopWindowAtom, 32, PropModeReplace, (unsigned char *)&data, 1); // This filter will intercept those events gdk_window_add_filter( NULL, gdkEventFilter, 0); } meepWidgetP = new TQWidget(0); meepWidget = new TQWidget(meepWidgetP); meepSlider = new TQSlider(meepWidget); meepWidget->polish(); meepTabBar = new TQTabBar(meepWidget); menuBackgroundPixmap = NULL; backgroundTile = meepWidget->paletteBackgroundPixmap(); if (backgroundTile != NULL) backgroundTileGdk = gdk_pixmap_foreign_new(backgroundTile->handle()); } void destroyTQApp() { if (!gtkQtEnable) return; delete meepWidget; delete meepWidgetP; delete menuBackgroundPixmap; delete smw; if (tqAppOwner) { delete tqApp; tqApp = 0; } if (altBackGC != 0) gtk_gc_release(altBackGC); } GdkFilterReturn gdkEventFilter(GdkXEvent *xevent, GdkEvent *gevent, gpointer data) { XEvent* event = (XEvent*) xevent; // Is the event a KIPC message? if ((event->type == ClientMessage) && (event->xclient.message_type == kipcCommAtom)) { // This data variable contains the type of KIPC message // As defined in tdelibs/tdecore/kipc.h, 2 = StyleChanged if (event->xclient.data.l[0] != 2) return GDK_FILTER_REMOVE; if (gtkQtDebug) printf("StyleChanged IPC message\n"); // Find out the new widget style TQString styleName = kdeConfigValue("General", "widgetStyle", ""); TQStyle* style = TQStyleFactory::create(styleName); if (!style) return GDK_FILTER_REMOVE; // Tell the TQApplication about this new style tqApp->setStyle(style); // Now we need to update GTK's properties setRcProperties(gtkRcStyle, 1); // Rewrite our cache file gtk_rc_reparse_all(); // Tell GTK to parse the cache file return GDK_FILTER_REMOVE; } return GDK_FILTER_CONTINUE; } TQString kdeConfigValue(const TQString& section, const TQString& name, const TQString& def) { KConfig currentConfig; currentConfig.setGroup(section); return currentConfig.readEntry(name, def); } bool kdeBoolConfigValue(const TQString& section, const TQString& name, bool def) { KConfig currentConfig; currentConfig.setGroup(section); return currentConfig.readBoolEntry(name, def); } TQString kdeFindDir(const TQString& suffix, const TQString& file1, const TQString& file2) { for ( TQStringList::Iterator it = kdeSearchPaths.begin(); it != kdeSearchPaths.end(); ++it ) { if ((TQFile::exists((*it) + suffix + file1)) || (TQFile::exists((*it) + suffix + file2))) return (*it) + suffix; } return TQString(); } TQString runCommand(const TQString& command) { FILE* p = popen(command.latin1(), "r"); if ((p == NULL) || (p < 0)) return TQString(); TQString ret; while (!feof(p)) { char buffer[256]; int n = fread(buffer, 1, 255, p); buffer[n] = '\0'; ret += buffer; } pclose(p); return ret.stripWhiteSpace(); } void initKdeSettings() { kdeSearchPaths.clear(); TQString kdeHome = getenv("TDEHOME"); TQString kdeDirs = getenv("TDEDIRS"); TQString kdeDir = getenv("TDEDIR"); if (!kdeHome.isEmpty()) kdeSearchPaths.append(kdeHome); kdeSearchPaths.append(runCommand("tde-config --localprefix")); if (!kdeDirs.isEmpty()) kdeSearchPaths += TQStringList::split(':', kdeDirs); if (!kdeDir.isEmpty()) kdeSearchPaths.append(kdeDir); kdeSearchPaths.append(runCommand("tde-config --prefix")); iconTheme = kdeConfigValue("Icons", "Theme", "crystalsvg"); tde_showIconsOnPushButtons = kdeBoolConfigValue("KDE", "ShowIconsOnPushButtons", false); TQStringList back = TQStringList::split(',', kdeConfigValue("General", "alternateBackground", "238,246,255")); alternateBackgroundColour.setRgb(back[0].toInt(), back[1].toInt(), back[2].toInt()); showIconsOnButtons = (kdeConfigValue("KDE", "ShowIconsOnPushButtons", "true").lower() == "true"); TQString tmp = kdeConfigValue("Toolbar style", "IconText", "true").lower(); if (tmp == "icononly") toolbarStyle = 0; else if (tmp == "icontextright") toolbarStyle = 3; else if (tmp == "textonly") toolbarStyle = 1; else if (tmp == "icontextbottom") toolbarStyle = 2; else // Should never happen, but just in case we fallback to KDE's default "icononly" toolbarStyle = 0; } TQStyle::SFlags stateToSFlags(GtkStateType state) { switch (state) { case GTK_STATE_ACTIVE: return TQStyle::Style_Enabled | TQStyle::Style_Down; case GTK_STATE_PRELIGHT: return TQStyle::Style_Enabled | TQStyle::Style_MouseOver | TQStyle::Style_Raised; case GTK_STATE_SELECTED: return TQStyle::Style_Enabled | TQStyle::Style_HasFocus | TQStyle::Style_Raised; case GTK_STATE_INSENSITIVE: return TQStyle::Style_Default | TQStyle::Style_Raised; default: return TQStyle::Style_Enabled | TQStyle::Style_Raised; } } TQColor gdkColorToTQColor(GdkColor* c) { return TQColor(c->red / 256, c->green / 256, c->blue / 256); } // The drawing functions follow the same pattern: // * Set the appropriate flags // * Ask QT to paint the widget to a pixmap // * Create a GdkPixmap that points to our TQPixmap // * Paint the pixmap on the window void drawButton(GdkWindow* window, GtkStyle* style, GtkStateType state, int defaultButton, int x, int y, int w, int h, GtkButton* gwidget) { if (!gtkQtEnable) return; if ((w < 1) || (h < 1)) return; #ifdef USE_NATIVE_GTK_BUTTON_DRAWING gwidget = NULL; #endif if (gtkQtDebug) { GtkWidget* parent; parent = gtk_widget_get_parent(GTK_WIDGET(gwidget)); printf("drawButton Parent 1: %s\n",gtk_widget_get_name(parent)); parent = gtk_widget_get_parent(GTK_WIDGET(parent)); printf("drawButton Parent 2: %s\n",gtk_widget_get_name(parent)); parent = gtk_widget_get_parent(GTK_WIDGET(parent)); printf("drawButton Parent 3: %s\n",gtk_widget_get_name(parent)); parent = gtk_widget_get_parent(GTK_WIDGET(parent)); printf("drawButton Parent 4: %s\n",gtk_widget_get_name(parent)); } if (gwidget) { TQString gwLabel(gtk_button_get_label(gwidget)); if (gtk_button_get_use_stock(gwidget)) { GtkStockItem stockData; gtk_stock_lookup(gwLabel.ascii(), &stockData); gwLabel = TQString(stockData.label); } gwLabel.replace("&", "&&"); gwLabel.replace("_", "&"); TQPixmap buttonicon; TQBitmap buttonicon_mask; GtkWidget* giconwidget = gtk_button_get_image(gwidget); if (giconwidget) { GtkIconSize giconSize; gint iconWidth; gint iconHeight; GtkImageType giconStorageType = gtk_image_get_storage_type(GTK_IMAGE(giconwidget)); if (giconStorageType == GTK_IMAGE_STOCK) { gchar *stock_id; gtk_image_get_stock(GTK_IMAGE(giconwidget), &stock_id, &giconSize); GdkPixbuf* pixbuf = gtk_widget_render_icon(GTK_WIDGET(gwidget), stock_id, giconSize, NULL); iconWidth=gdk_pixbuf_get_width(pixbuf); iconHeight=gdk_pixbuf_get_height(pixbuf); buttonicon = TQPixmap(iconWidth, iconHeight); buttonicon_mask = TQBitmap(iconWidth, iconHeight); buttonicon.fill(tqApp->palette().active().background()); buttonicon_mask.fill(TQt::color0); GdkPixmap* pix = gdk_pixmap_foreign_new(buttonicon.handle()); GdkBitmap* bmp = gdk_pixmap_foreign_new(buttonicon_mask.handle()); gdk_drawable_set_colormap(pix, gdk_drawable_get_colormap(window)); gdk_drawable_set_colormap(bmp, gdk_drawable_get_colormap(window)); gdk_draw_pixbuf(pix, NULL, pixbuf, 0, 0, 0, 0, -1, -1, GDK_RGB_DITHER_NONE, 0, 0); gdk_pixbuf_render_threshold_alpha(pixbuf, bmp, 0, 0, 0, 0, -1, -1, 128); buttonicon.setMask(buttonicon_mask); g_object_unref(pixbuf); g_object_unref(bmp); g_object_unref(pix); } else { // FIXME // Implement pixmap loading here for non-stock icons } } TQIconSet buttonIconSet(buttonicon); TQPixmap pixmap(w, h); TQPainter painter(&pixmap); TQPushButton button(meepWidget); button.setBackgroundOrigin(TQWidget::ParentOrigin); button.setGeometry(x, y, w, h); if (style->rc_style->bg[GTK_STATE_NORMAL].pixel != 0) button.setPaletteBackgroundColor(gdkColorToTQColor(&style->rc_style->bg[GTK_STATE_NORMAL])); TQPoint p = button.backgroundOffset(); TQPoint pos = button.pos(); TQStyle::SFlags sflags = stateToSFlags(state); if (defaultButton) sflags |= TQStyle::Style_ButtonDefault; button.setDefault(defaultButton); painter.fillRect(0, 0, w, h, tqApp->palette().active().background()); button.setText(gwLabel); if (tde_showIconsOnPushButtons) button.setIconSet(buttonIconSet); button.setDown(sflags&TQStyle::Style_Down); button.setOn(sflags&TQStyle::Style_On); // This emulates ::drawButton() in the Qt qbutton.cpp file tqApp->style().drawControl(TQStyle::CE_PushButton, &painter, &button, TQRect(0,0,w,h), button.palette().active(), sflags); tqApp->style().drawControl(TQStyle::CE_PushButtonLabel, &painter, &button, tqApp->style().subRect(TQStyle::SR_PushButtonContents, &button), button.colorGroup(), sflags); GdkPixmap* pix = gdk_pixmap_foreign_new(pixmap.handle()); gdk_draw_drawable(window, style->bg_gc[state], pix, 0, 0, x, y, w, h); g_object_unref(pix); } else { TQPixmap pixmap(w, h); TQPainter painter(&pixmap); TQPushButton button(meepWidget); button.setBackgroundOrigin(TQWidget::ParentOrigin); button.setGeometry(x, y, w, h); if (style->rc_style->bg[GTK_STATE_NORMAL].pixel != 0) button.setPaletteBackgroundColor(gdkColorToTQColor(&style->rc_style->bg[GTK_STATE_NORMAL])); TQPoint p = button.backgroundOffset(); TQPoint pos = button.pos(); TQStyle::SFlags sflags = stateToSFlags(state); if (defaultButton) sflags |= TQStyle::Style_ButtonDefault; button.setDefault(defaultButton); painter.fillRect(0, 0, w, h, tqApp->palette().active().background()); tqApp->style().drawControl(TQStyle::CE_PushButton, &painter, &button, TQRect(0,0,w,h), button.palette().active(), sflags); GdkPixmap* pix = gdk_pixmap_foreign_new(pixmap.handle()); gdk_draw_drawable(window, style->bg_gc[state], pix, 0, 0, x, y, w, h); g_object_unref(pix); } } // Thanks Peter Hartshorn void drawToolbar(GdkWindow* window, GtkStyle* style, GtkStateType state, int x, int y, int w, int h) { if (!gtkQtEnable) return; int w1, h1; TQStyle::SFlags sflags = stateToSFlags(state) | TQStyle::Style_Raised; // Keramik hack... // Keramik only draws the toolbar border, and not the gradient // so we also draw a separator, but make sure the line is off the // widget if (w > h) { sflags |= TQStyle::Style_Horizontal; w1 = w * 3; h1 = h; } else { w1 = h; h1 = h * 3; } if ((w1 < 1) || (h1 < 1) || (w < 1) || (h < 1)) return; TQPixmap pixmap(w1, h1); TQPixmap p(w, h); TQPainter painter(&pixmap); if ((backgroundTile) && (!backgroundTile->isNull())) painter.fillRect(0, 0, w1, h1, TQBrush(TQColor(255,255,255), *backgroundTile)); else painter.fillRect(0, 0, w1, h1, tqApp->palette().active().brush(TQColorGroup::Background)); tqApp->style().tqdrawPrimitive(TQStyle::PE_PanelDockWindow, &painter, TQRect(0,0,w1,h1), tqApp->palette().active(),sflags); if (isKeramik) { tqApp->style().tqdrawPrimitive(TQStyle::PE_DockWindowSeparator, &painter, TQRect(0,0,w1,h1), tqApp->palette().active(),sflags); } bitBlt(&p, 0, 0, &pixmap, 0, 0, w, h); GdkPixmap* pix = gdk_pixmap_foreign_new(pixmap.handle()); gdk_draw_drawable(window, style->bg_gc[state], pix, 0, 0, x, y, w, h); g_object_unref(pix); } void drawMenubar(GdkWindow* window, GtkStyle* style, GtkStateType state, int x, int y, int w, int h) { if (!gtkQtEnable) return; int w1, h1; TQStyle::SFlags sflags = stateToSFlags(state); // Keramik hack... // Keramik only draws the toolbar border, and not the gradient // so we also draw a separator, but make sure the line is off the // widget if (w > h) { sflags |= TQStyle::Style_Horizontal; w1 = w * 3; h1 = h; } else { w1 = h; h1 = h * 3; } if ((w1 < 1) || (h1 < 1) || (w < 1) || (h < 1)) return; TQPixmap pixmap(w1, h1); TQPixmap p(w, h); TQPainter painter(&pixmap); if ((backgroundTile) && (!backgroundTile->isNull())) painter.fillRect(0, 0, w1, h1, TQBrush(TQColor(255,255,255), *backgroundTile)); else painter.fillRect(0, 0, w1, h1, tqApp->palette().active().brush(TQColorGroup::Background)); tqApp->style().tqdrawPrimitive(TQStyle::PE_PanelMenuBar, &painter, TQRect(0,0,w1,h1), tqApp->palette().active(),sflags); bitBlt(&p, 0, 0, &pixmap, 0, 0, w, h); GdkPixmap* pix = gdk_pixmap_foreign_new(pixmap.handle()); gdk_draw_drawable(window, style->bg_gc[state], pix, 0, 0, x, y, w, h); g_object_unref(pix); } void drawTab(GdkWindow* window, GtkStyle* style, GtkStateType state, int x, int y, int w, int h) { if (!gtkQtEnable) return; if ((w < 1) || (h < 1)) return; TQPixmap pixmap(w,h); TQPainter painter(&pixmap); // GTK doesn't tell us if our tab is on the left, right, or middle of the tabbar // So, let's always assume it's in the middle - it looks pretty TQTab* tab = new TQTab; meepTabBar->insertTab(tab,1); TQStyle::SFlags sflags = stateToSFlags(state); if (state != GTK_STATE_ACTIVE) sflags = TQStyle::Style_Selected; painter.fillRect(0, 0, w, h, tqApp->palette().active().brush(TQColorGroup::Background)); tqApp->style().drawControl(TQStyle::CE_TabBarTab, &painter, meepTabBar, TQRect(0,0,w,h), tqApp->palette().active(), sflags, TQStyleOption(tab)); GdkPixmap* pix = gdk_pixmap_foreign_new(pixmap.handle()); gdk_draw_drawable(window, style->bg_gc[state], pix, 0, 0, x, y, w, h); g_object_unref(pix); meepTabBar->removeTab(tab); } void drawVLine(GdkWindow* window, GtkStyle* style, GtkStateType state, int x, int ySource, int yDest) { if (!gtkQtEnable) return; int width = style->xthickness; int height = abs(ySource-yDest); if (width < 2) width = 2; if ((width < 1) || (height < 1)) return; TQPixmap pixmap(width, height); TQPainter painter(&pixmap); painter.fillRect(2, 0, width - 2, height, tqApp->palette().active().brush(TQColorGroup::Background)); painter.setPen( tqApp->palette().active().mid() ); painter.drawLine( 0, 0, 0, height ); painter.setPen( tqApp->palette().active().light() ); painter.drawLine( 1, 0, 1, height ); GdkPixmap* pix = gdk_pixmap_foreign_new(pixmap.handle()); gdk_draw_drawable(window, style->bg_gc[state], pix, 0, 0, x, ySource, width, height); g_object_unref(pix); } void drawHLine(GdkWindow* window, GtkStyle* style, GtkStateType state, int y, int xSource, int xDest) { if (!gtkQtEnable) return; int width = abs(xSource-xDest); int height = style->ythickness; if ((width < 1) || (height < 1)) return; TQPixmap pixmap(width, height); TQPainter painter(&pixmap); painter.fillRect(0, 2, width, height-2, tqApp->palette().active().brush(TQColorGroup::Background)); painter.setPen(tqApp->palette().active().mid() ); painter.drawLine(0, 0, width, 0); painter.setPen(tqApp->palette().active().light()); painter.drawLine(0, 1, width, 1); GdkPixmap* pix = gdk_pixmap_foreign_new(pixmap.handle()); gdk_draw_drawable(window, style->bg_gc[state], pix, 0, 0, xSource, y, width, height); g_object_unref(pix); } void drawLineEdit(GdkWindow* window, GtkStyle* style, GtkStateType state, int hasFocus, int x, int y, int w, int h) { if (!gtkQtEnable) return; if ((w < 1) || (h < 1)) return; TQPixmap pixmap(w, h); TQPainter painter(&pixmap); TQStyle::SFlags sflags = stateToSFlags(state); if (hasFocus) sflags |= TQStyle::Style_HasFocus; painter.fillRect(0, 0, w, h, tqApp->palette().active().base()); tqApp->style().tqdrawPrimitive(TQStyle::PE_PanelLineEdit, &painter, TQRect(0, 0, w, h), tqApp->palette().active(), sflags, TQStyleOption(1,1)); GdkPixmap* pix = gdk_pixmap_foreign_new(pixmap.handle()); gdk_draw_drawable(window, style->bg_gc[state], pix, 0, 0, x, y, w, h); g_object_unref(pix); } void drawFrame(GdkWindow* window, GtkStyle* style, GtkStateType state, GtkShadowType shadow_type, int x, int y, int w, int h) { if (!gtkQtEnable) return; if ((w < 1) || (h < 1)) // Caused crash in gaim file transfers window return; TQPixmap pixmap(w, h); TQPainter painter(&pixmap); TQStyle::SFlags sflags = stateToSFlags(state); if ((shadow_type == GTK_SHADOW_IN) || (shadow_type == GTK_SHADOW_ETCHED_IN)) sflags |= TQStyle::Style_Sunken; if ((backgroundTile) && (!backgroundTile->isNull())) painter.fillRect(0, 0, w, h, TQBrush(TQColor(255,255,255), *backgroundTile)); else painter.fillRect(0, 0, w, h, tqApp->palette().active().brush(TQColorGroup::Background)); tqApp->style().tqdrawPrimitive(TQStyle::PE_Panel, &painter, TQRect(0, 0, w, h), tqApp->palette().active(), sflags, TQStyleOption(2,2) ); GdkPixmap* pix = gdk_pixmap_foreign_new(pixmap.handle()); gdk_draw_drawable(window, style->bg_gc[state], pix, 0, 0, x, y, w, h); g_object_unref(pix); } void drawComboBox(GdkWindow* window, GtkStyle* style, GtkStateType state, int x, int y, int w, int h) { if (!gtkQtEnable) return; if ((w < 1) || (h < 1)) return; TQPixmap pixmap(w,h); TQPainter painter(&pixmap); TQComboBox cb(false, 0); cb.resize(w,h); TQStyle::SFlags sflags = stateToSFlags(state); TQStyle::SCFlags scflags = TQStyle::SC_ComboBoxArrow | TQStyle::SC_ComboBoxFrame | TQStyle::SC_ComboBoxListBoxPopup; TQStyle::SCFlags activeflags = TQStyle::SC_None; if (state == GTK_STATE_PRELIGHT) activeflags = TQStyle::Style_MouseOver; painter.fillRect(0,0, w, h, tqApp->palette().active().brush(TQColorGroup::Background)); tqApp->style().drawComplexControl(TQStyle::CC_ComboBox, &painter, &cb, TQRect(0, 0, w, h), tqApp->palette().active(), sflags, scflags, activeflags); GdkPixmap* pix = gdk_pixmap_foreign_new(pixmap.handle()); gdk_draw_drawable(window, style->bg_gc[state], pix, 0, 0, x, y, w, h); g_object_unref(pix); } void drawCheckBox(GdkWindow* window, GtkStyle* style, GtkStateType state, int checked, int x, int y, int w, int h) { if (!gtkQtEnable) return; int realH = tqApp->style().pixelMetric(TQStyle::PM_IndicatorHeight); int realW = tqApp->style().pixelMetric(TQStyle::PM_IndicatorWidth); if ((realW < 1) || (realH < 1)) return; TQPixmap pixmap(realW, realH); TQPainter painter(&pixmap); TQCheckBox checkbox(0); TQStyle::SFlags sflags = stateToSFlags(state); sflags |= (checked ? TQStyle::Style_On : TQStyle::Style_Off); painter.fillRect(0, 0, realW, realH, tqApp->palette().active().brush(TQColorGroup::Background)); tqApp->style().drawControl(TQStyle::CE_CheckBox, &painter, &checkbox, TQRect(0, 0, realW, realH), tqApp->palette().active(), sflags); // Qt checkboxes are usually bigger than GTK wants. // We cheat, and draw them over the expected area. int xOffset = (realW - w) / 2; int yOffset = (realH - h) / 2; GdkPixmap* pix = gdk_pixmap_foreign_new(pixmap.handle()); gdk_draw_drawable(window, style->bg_gc[state], pix, 0, 0, x - xOffset, y - yOffset, realW, realH); g_object_unref(pix); } void drawMenuCheck(GdkWindow* window, GtkStyle* style, GtkStateType state, int x, int y, int w, int h) { if (!gtkQtEnable) return; TQCheckBox checkbox(0); /* A previous version of the function followed the sizehints exclusively Now follow w and h provided by GTK, but if the checkmark is too big we might have to scale it */ /* int w1 = checkbox.sizeHint().width(); int h1 = checkbox.sizeHint().height(); */ if ((w < 1) || (h < 1)) return; TQPixmap pixmap(w,h); TQPainter painter(&pixmap); TQStyle::SFlags sflags = stateToSFlags(state); sflags |= TQStyle::Style_On; if (fillPixmap && (!fillPixmap->isNull())) painter.fillRect(0, 0, w, h, TQBrush(TQColor(255,255,255), *fillPixmap)); else if ((backgroundTile) && (!backgroundTile->isNull())) painter.fillRect(0, 0, w, h, TQBrush(TQColor(255,255,255), *backgroundTile)); else painter.fillRect(0, 0, w, h, tqApp->palette().active().brush(TQColorGroup::Background)); tqApp->style().tqdrawPrimitive(TQStyle::PE_CheckMark, &painter, TQRect(0, 0, w, h), tqApp->palette().active(), sflags); GdkPixmap* pix = gdk_pixmap_foreign_new(pixmap.handle()); gdk_draw_drawable(window, style->bg_gc[state], pix, 0, 0, x, y, w, h); g_object_unref(pix); } void drawRadioButton(GdkWindow* window, GtkStyle* style, GtkStateType state, int checked, int x, int y, int w, int h) { if (!gtkQtEnable) return; int realH = tqApp->style().pixelMetric(TQStyle::PM_IndicatorHeight); int realW = tqApp->style().pixelMetric(TQStyle::PM_IndicatorWidth); if ((realW < 1) || (realH < 1)) return; TQPixmap pixmap(realH, realW); TQPainter painter(&pixmap); TQRadioButton radio(0); TQStyle::SFlags sflags = stateToSFlags(state); sflags |= checked ? TQStyle::Style_On : TQStyle::Style_Off; if (fillPixmap && (!fillPixmap->isNull())) painter.fillRect(0, 0, realW, realH, TQBrush(TQColor(255,255,255), *fillPixmap)); else if ((backgroundTile) && (!backgroundTile->isNull())) painter.fillRect(0, 0, realW, realH, TQBrush(TQColor(255,255,255), *backgroundTile)); else painter.fillRect(0, 0, realW, realH, tqApp->palette().active().brush(TQColorGroup::Background)); tqApp->style().drawControl(TQStyle::CE_RadioButton, &painter, &radio, TQRect(0,0,realH,realW), tqApp->palette().active(), sflags); // Qt checkboxes are usually bigger than GTK wants. // We cheat, and draw them over the expected area. int xOffset = (realW - w) / 2; int yOffset = (realH - h) / 2; GdkPixmap* pix = gdk_pixmap_foreign_new(pixmap.handle()); gdk_draw_drawable(window, style->bg_gc[state], pix, 0, 0, x - xOffset, y - yOffset, realW, realH); g_object_unref(pix); } void drawScrollBarSlider(GdkWindow* window, GtkStyle* style, GtkStateType state, int orientation, GtkAdjustment* adj, int x, int y, int w, int h, int offset, int totalExtent) { if (!gtkQtEnable) return; if ((w < 1) || (h < 1)) return; int wCorrected = w; int hCorrected = h; if (isDomino) { if (orientation == GTK_ORIENTATION_HORIZONTAL) wCorrected = w + 14; else hCorrected = h + 14; } TQPixmap pixmap(wCorrected, hCorrected); TQPainter painter(&pixmap); TQStyle::SFlags sflags = stateToSFlags(state); if (orientation == GTK_ORIENTATION_HORIZONTAL) sflags |= TQStyle::Style_Horizontal; tqApp->style().tqdrawPrimitive(TQStyle::PE_ScrollBarSlider, &painter, TQRect(0,0,wCorrected,hCorrected), tqApp->palette().active(), sflags); // The domino style doesn't draw the entire slider in PE_ScrollBarSlider // We have to draw PE_ScrollBarAddPage and PE_ScrollBarSubPage and piece the bits together if (isDomino && !mozillaFix && !eclipseFix) { TQPixmap leftPix, rightPix; TQRect leftRect, rightRect; if (orientation == GTK_ORIENTATION_HORIZONTAL) { leftRect = TQRect(0, 0, offset-scrollBarSpacingLeft, h); rightRect = TQRect(6, 0, totalExtent-offset-w-scrollBarSpacingRight+2, h); leftPix.resize(6 + leftRect.width(), h); rightPix.resize(6 + rightRect.width(), h); } else { leftRect = TQRect(0, 0, w, offset-scrollBarSpacingLeft); rightRect = TQRect(0, 6, w, totalExtent-offset-h-scrollBarSpacingRight+2); leftPix.resize(w, 6 + leftRect.height()); rightPix.resize(w, 6 + rightRect.height()); } TQPainter dominoPainter(&leftPix); tqApp->style().tqdrawPrimitive(TQStyle::PE_ScrollBarSubPage, &dominoPainter, leftRect, tqApp->palette().active(), sflags); dominoPainter.end(); dominoPainter.begin(&rightPix); tqApp->style().tqdrawPrimitive(TQStyle::PE_ScrollBarAddPage, &dominoPainter, rightRect, tqApp->palette().active(), sflags); if (orientation == GTK_ORIENTATION_HORIZONTAL) { bitBlt(TQT_TQPAINTDEVICE(&pixmap), 1, 0, TQT_TQPAINTDEVICE(&leftPix), leftRect.width(), 0, 6, h, Qt::CopyROP, true); bitBlt(TQT_TQPAINTDEVICE(&pixmap), w-7, 0, TQT_TQPAINTDEVICE(&rightPix), 0, 0, 7, h, Qt::CopyROP, true); } else { bitBlt(TQT_TQPAINTDEVICE(&pixmap), 0, 1, TQT_TQPAINTDEVICE(&leftPix), 0, leftRect.height(), w, 6, Qt::CopyROP, true); bitBlt(TQT_TQPAINTDEVICE(&pixmap), 0, h-7, TQT_TQPAINTDEVICE(&rightPix), 0, 0, w, 7, Qt::CopyROP, true); } } GdkPixmap* pix = gdk_pixmap_foreign_new(pixmap.handle()); if (isDomino) { int endsSkip = mozillaFix ? 7 : 1; if (orientation == GTK_ORIENTATION_HORIZONTAL) gdk_draw_drawable(window, style->bg_gc[state], pix, endsSkip, 0, x, y, w-1, h); else gdk_draw_drawable(window, style->bg_gc[state], pix, 0, endsSkip, x, y, w, h-1); } else gdk_draw_drawable(window, style->bg_gc[state], pix, 0, 0, x, y, w, h); g_object_unref(pix); } void drawScrollBar(GdkWindow* window, GtkStyle* style, GtkStateType state, int orientation, GtkAdjustment* adj, int x, int y, int w, int h) { if (!gtkQtEnable) return; if ((w < 1) || (h < 1)) return; if (scrollBar != 0) delete scrollBar; scrollBar = new TQScrollBar(NULL); scrollBar->resize(w,h); // Patch from Chad Kitching // Patch from Peter Hartshorn // another check for mozilla is step_increment and page_increment // are set to zero for mozilla, and have values set by all other // gtk applications I've tested this with. // Why oh why couldn't mozilla use native widgets instead of // handling everything in cross platform. scrollBar->setOrientation(orientation ? Qt::Vertical : Qt::Horizontal); TQStyle::SFlags sflags = stateToSFlags(state); if (sflags |= TQStyle::Style_Down) sflags = TQStyle::Style_Enabled; if (orientation == GTK_ORIENTATION_HORIZONTAL) sflags |= TQStyle::Style_Horizontal; TQPixmap pixmap(w,h); scrollBar->setMinValue(0); scrollBar->setMaxValue(65535); scrollBar->setValue(32767); scrollBar->setPageStep(1); int offset = 0; int thumbSize = 0; if (orientation == GTK_ORIENTATION_VERTICAL) { TQRect r; r = tqApp->style().querySubControlMetrics(TQStyle::CC_ScrollBar, scrollBar, TQStyle::SC_ScrollBarSlider); offset = r.y(); thumbSize = r.height(); if (thumbSize < 0) thumbSize = -thumbSize; if (!r.isValid()) // Fix a crash bug in Eclipse where it was trying to draw tiny scrollbars. return; TQPixmap tmpPixmap(w, h + thumbSize); TQPainter painter2(&tmpPixmap); scrollBar->resize(w, h + thumbSize); painter2.fillRect(0, 0, w, h + thumbSize, tqApp->palette().active().brush(TQColorGroup::Background)); tqApp->style().drawComplexControl(TQStyle::CC_ScrollBar, &painter2, scrollBar, TQRect(0, 0, w, h+thumbSize), tqApp->palette().active(), sflags); bitBlt(&pixmap, 0, 0, &tmpPixmap, 0, 0, w, offset, Qt::CopyROP); bitBlt(&pixmap, 0, offset, &tmpPixmap, 0, offset + thumbSize, w, h - offset, Qt::CopyROP); } else { TQRect r; r = tqApp->style().querySubControlMetrics(TQStyle::CC_ScrollBar, scrollBar, TQStyle::SC_ScrollBarSlider); offset = r.x(); thumbSize = r.width(); if (thumbSize < 0) thumbSize = -thumbSize; if (!r.isValid()) // Fix a crash bug in Eclipse when it was trying to draw tiny scrollbars. return; TQPixmap tmpPixmap(w + thumbSize, h); TQPainter painter2(&tmpPixmap); scrollBar->resize(w + thumbSize, h); painter2.fillRect(0, 0, w + thumbSize, h, tqApp->palette().active().brush(TQColorGroup::Background)); tqApp->style().drawComplexControl(TQStyle::CC_ScrollBar, &painter2, scrollBar, TQRect(0, 0, w+thumbSize, h), tqApp->palette().active(), sflags); bitBlt(&pixmap, 0, 0, &tmpPixmap, 0, 0, offset, h, Qt::CopyROP); bitBlt(&pixmap, offset, 0, &tmpPixmap, offset + thumbSize, 0, w - offset, h, Qt::CopyROP); } GdkPixmap* pix = gdk_pixmap_foreign_new(pixmap.handle()); gdk_draw_drawable(window, style->bg_gc[state], pix, 0, 0, x, y, w, h); g_object_unref(pix); } void drawToolButton(GdkWindow* window, GtkStyle* style, GtkStateType state, int x, int y, int w, int h) { if (!gtkQtEnable) return; if ((w < 1) || (h < 1)) return; TQToolButton button(NULL); button.resize(w, h); /* int realW = button.sizeHint().width(); int realH = button.sizeHint().height(); */ TQStyle::SFlags sflags = stateToSFlags(state); TQStyle::SCFlags activeflags = TQStyle::SC_None; if (state == GTK_STATE_ACTIVE) { sflags |= TQStyle::Style_AutoRaise; activeflags = TQStyle::SC_ToolButton; } else sflags |= TQStyle::Style_AutoRaise | TQStyle::Style_Raised; TQPixmap pixmap(w,h); TQPainter painter(&pixmap); if ((backgroundTile) && (!backgroundTile->isNull())) painter.fillRect(0, 0, w, h, TQBrush(TQColor(255,255,255), *backgroundTile)); else painter.fillRect(0, 0, w, h, tqApp->palette().active().brush(TQColorGroup::Background)); tqApp->style().drawComplexControl(TQStyle::CC_ToolButton, &painter, &button, TQRect(0, 0, w, h), tqApp->palette().active(), sflags, TQStyle::SC_ToolButton, activeflags); GdkPixmap* pix = gdk_pixmap_foreign_new(pixmap.handle()); gdk_draw_drawable(window, style->bg_gc[state], pix, 0, 0, x, y, w, h); g_object_unref(pix); } void drawMenuBarItem(GdkWindow* window, GtkStyle* style, GtkStateType state, int x, int y, int w, int h) { if (!gtkQtEnable) return; if ((w < 1) || (h < 1)) return; TQPixmap pixmap(w, h); TQPainter painter(&pixmap); TQMenuItem mi; TQMenuBar mb(0); TQStyle::SFlags sflags = TQStyle::Style_Down | TQStyle::Style_Enabled | TQStyle::Style_Active | TQStyle::Style_HasFocus; tqApp->style().drawControl(TQStyle::CE_MenuBarItem, &painter, &mb, TQRect(0, 0, w, h), tqApp->palette().active(), sflags, TQStyleOption(&mi)); GdkPixmap* pix = gdk_pixmap_foreign_new(pixmap.handle()); gdk_draw_drawable(window, style->bg_gc[state], pix, 0, 0, x, y, w, h); g_object_unref(pix); } void drawMenuItem(GdkWindow* window, GtkStyle* style, GtkStateType state, int x, int y, int w, int h) { if (!gtkQtEnable) return; if ((w < 1) || (h < 1)) return; TQPixmap pixmap(w,h); TQPainter painter(&pixmap); TQPopupMenu pm; TQMenuData md; TQMenuItem* mi = md.findItem(md.insertItem("")); TQStyleOption opt(mi, 16, 16); TQStyle::SFlags sflags = TQStyle::Style_Active | TQStyle::Style_Enabled; painter.fillRect(0, 0, w, h, tqApp->palette().active().brush(TQColorGroup::Background)); tqApp->style().drawControl(TQStyle::CE_PopupMenuItem, &painter, &pm, TQRect(0,0,w,h), tqApp->palette().active(), sflags, opt); GdkPixmap* pix = gdk_pixmap_foreign_new(pixmap.handle()); gdk_draw_drawable(window, style->bg_gc[state], pix, 0, 0, x, y, w, h); g_object_unref(pix); } void drawSplitter(GdkWindow* window, GtkStyle* style, GtkStateType state, int orientation, int x, int y, int w, int h) { if (!gtkQtEnable) return; if ((w < 1) || (h < 1)) return; TQPixmap pixmap(w,h); TQPainter painter(&pixmap); TQStyle::SFlags sflags = stateToSFlags(state); // No idea why this works... if (orientation != GTK_ORIENTATION_HORIZONTAL) sflags |= TQStyle::Style_Horizontal; painter.fillRect(0, 0, w, h, tqApp->palette().active().brush(TQColorGroup::Background)); tqApp->style().tqdrawPrimitive(TQStyle::PE_Splitter, &painter, TQRect(0,0,w,h), tqApp->palette().active(), sflags); GdkPixmap* pix = gdk_pixmap_foreign_new(pixmap.handle()); gdk_draw_drawable(window, style->bg_gc[state], pix, 0, 0, x, y, w, h); g_object_unref(pix); } void drawTabFrame(GdkWindow* window, GtkStyle* style, GtkStateType state, int x, int y, int w, int h, GtkPositionType pos) { if (!gtkQtEnable) return; if ((w < 1) || (h < 1)) return; TQStyle::SFlags sflags = stateToSFlags(state); TQPixmap pixmap(w, h); TQPainter painter(&pixmap); TQStyleOption opt(2, 2); // line width if ((backgroundTile) && (!backgroundTile->isNull())) painter.fillRect(0, 0, w, h, TQBrush(TQColor(255,255,255), *backgroundTile)); else painter.fillRect(0, 0, w, h, tqApp->palette().active().brush(TQColorGroup::Background)); tqApp->style().tqdrawPrimitive(TQStyle::PE_PanelTabWidget, &painter, TQRect(0,0,w,h), tqApp->palette().active(), sflags, opt); GdkPixmap* pix = gdk_pixmap_foreign_new(pixmap.handle()); gdk_draw_drawable(window, style->bg_gc[state], pix, 0, 0, x, y, w, h); g_object_unref(pix); // Drawing tab base int th = tqApp->style().pixelMetric(TQStyle::PM_TabBarBaseHeight, meepTabBar); int tw = w; if ((tw < 1) || (th < 1)) return; TQPixmap pixmap1(tw,th); TQPainter painter1(&pixmap1); if ((backgroundTile) && (!backgroundTile->isNull())) painter1.fillRect(0, 0, tw, th, TQBrush(TQColor(255,255,255), *backgroundTile)); else painter1.fillRect(0, 0, tw, th, tqApp->palette().active().brush(TQColorGroup::Background)); tqApp->style().tqdrawPrimitive(TQStyle::PE_TabBarBase, &painter1, TQRect(0, 0, tw, th), tqApp->palette().active(), sflags, TQStyleOption(1,1)); if (pos == GTK_POS_BOTTOM) { TQWMatrix m; m.scale(1, -1); pixmap1 = pixmap1.xForm(m); GdkPixmap* pix = gdk_pixmap_foreign_new(pixmap1.handle()); gdk_draw_drawable(window, style->bg_gc[state], pix, 0, 0, x, y+h+tqApp->style().pixelMetric(TQStyle::PM_TabBarBaseOverlap, meepTabBar), tw, th); g_object_unref(pix); } else { GdkPixmap* pix = gdk_pixmap_foreign_new(pixmap1.handle()); gdk_draw_drawable(window, style->bg_gc[state], pix, 0, 0, x, y-tqApp->style().pixelMetric(TQStyle::PM_TabBarBaseOverlap, meepTabBar), tw, th); g_object_unref(pix); } } void drawMenu(GdkWindow* window, GtkStyle* style, GtkStateType state, int x, int y, int w, int h) { if (!gtkQtEnable) return; if ((w < 1) || (h < 1)) return; TQPixmap pixmap(w, h); TQPainter painter(&pixmap); TQStyle::SFlags sflags = stateToSFlags(state); if ((backgroundTile) && (!backgroundTile->isNull())) painter.fillRect(0, 0, w, h, TQBrush(TQColor(255,255,255), *backgroundTile)); else painter.fillRect(0, 0, w, h, tqApp->palette().active().brush(TQColorGroup::Background)); tqApp->style().tqdrawPrimitive(TQStyle::PE_PanelPopup, &painter, TQRect(0,0,w,h), tqApp->palette().active(), sflags); GdkPixmap* pix = gdk_pixmap_foreign_new(pixmap.handle()); gdk_draw_drawable(window, style->bg_gc[state], pix, 0, 0, x, y, w, h); g_object_unref(pix); } // Note: In GTK, the drawing of a progress bar is in two parts: // First the progress "container" is drawn // Second the actually percent bar is drawn // Mozilla requires this to be done in two steps as it first // asks gtk to draw an EMPTY progress bar, then it asks to draw // the contents, or percent bar, over the empty progress bar. // So, although this function is not required for any gtk application // except mozilla based apps, doing it this way is following the gtk // theme structure more. // // See also drawScrollbar/drawScrollbarSlider pair. // // Peter Hartshorn (peter@dimtech.com.au) void drawProgressChunk(GdkWindow * window, GtkStyle * style, GtkStateType state, int x, int y, int w, int h) { // This is only for Mozilla/Firefox if (!mozillaFix || !gtkQtEnable) return; if ((w<=1) || (h<=1)) return; // Trying to draw something that small caused a segfault // Dirty hack: When using the Alloy style, tweak the position and size of progress bar "filling" int w2 = isAlloy ? w+4 : w; int h2 = isAlloy ? h+4 : h; TQProgressBar bar(100, NULL); bar.resize(w2, h2); bar.setProgress(100); bar.setCenterIndicator(false); bar.setPercentageVisible(false); bar.setFrameStyle(TQFrame::NoFrame); if ((w2 < 1) || (h2 < 1)) return; TQPixmap pixmap(w2, h2); TQPainter painter(&pixmap); TQStyle::SFlags sflags = stateToSFlags(state); painter.fillRect(0, 0, w, h, tqApp->palette().active().brush(TQColorGroup::Background)); tqApp->style().drawControl(TQStyle::CE_ProgressBarContents, &painter, &bar, TQRect(0,0,w2,h2), tqApp->palette().active(), sflags); GdkPixmap* pix = gdk_pixmap_foreign_new(pixmap.handle()); if (isAlloy) gdk_draw_drawable(window, style->bg_gc[state], pix, 4, 4, x+2, y+2, w-3, h-3); else gdk_draw_drawable(window, style->bg_gc[state], pix, 0, 0, x, y, w, h); g_object_unref(pix); } void drawProgressBar(GdkWindow * window, GtkStyle * style, GtkStateType state, GtkProgressBarOrientation orientation, gfloat percentage, int x, int y, int w, int h) { if (!gtkQtEnable) return; if ((w<=1) || (h<=1)) return; // Trying to draw something that small caused a segdault TQProgressBar bar(100, NULL); if ((orientation == GTK_PROGRESS_BOTTOM_TO_TOP) || (orientation == GTK_PROGRESS_TOP_TO_BOTTOM)) bar.resize(h, w); else bar.resize(w, h); bar.setProgress((int)(percentage*100.0)); bar.setCenterIndicator(false); bar.setPercentageVisible(false); TQPixmap pixmap = TQPixmap::grabWidget(&bar); TQWMatrix matrix; switch (orientation) { case GTK_PROGRESS_RIGHT_TO_LEFT: matrix.rotate(180); break; case GTK_PROGRESS_BOTTOM_TO_TOP: matrix.rotate(270); break; case GTK_PROGRESS_TOP_TO_BOTTOM: matrix.rotate(90); break; default: break; } if (orientation != GTK_PROGRESS_LEFT_TO_RIGHT) pixmap = pixmap.xForm(matrix); GdkPixmap* pix = gdk_pixmap_foreign_new(pixmap.handle()); gdk_draw_drawable(window, style->bg_gc[state], pix, 0, 0, x, y, w, h); g_object_unref(pix); } void drawSlider(GdkWindow * window, GtkStyle * style, GtkStateType state, GtkAdjustment *adj, int x, int y, int w, int h, GtkOrientation orientation, int inverted) { if (!gtkQtEnable) return; meepSlider->setBackgroundOrigin(TQWidget::ParentOrigin); meepSlider->setOrientation((orientation == GTK_ORIENTATION_HORIZONTAL) ? Qt::Horizontal : Qt::Vertical); meepSlider->setEnabled(state != GTK_STATE_INSENSITIVE); meepSlider->setGeometry(x, y, w, h); meepSlider->setMinValue(0); meepSlider->setMaxValue(100); if (!inverted) // Normal sliders meepSlider->setValue((int)((adj->value-adj->lower)/(adj->upper-adj->lower)*100)); else // Inverted sliders... where max is at the left/top and min is at the right/bottom meepSlider->setValue(100-(int)((adj->value-adj->lower)/(adj->upper-adj->lower)*100)); TQPixmap pixmap = TQPixmap::grabWidget(meepSlider); GdkPixmap* pix = gdk_pixmap_foreign_new(pixmap.handle()); gdk_draw_drawable(window, style->bg_gc[state], pix, 0, 0, x, y, w, h); g_object_unref(pix); } void drawSpinButton(GdkWindow * window, GtkStyle * style, GtkStateType state, int direction, int x, int y, int w, int h) { if (!gtkQtEnable) return; if ((w < 1) || (h < 1)) return; TQPixmap pixmap(w, h); TQPainter painter(&pixmap); TQStyle::SFlags sflags = stateToSFlags(state); painter.fillRect(0, 0, w, h, tqApp->palette().active().brush(TQColorGroup::Background)); tqApp->style().tqdrawPrimitive((direction ? TQStyle::PE_SpinWidgetDown : TQStyle::PE_SpinWidgetUp), &painter, TQRect(0,0,w,h), tqApp->palette().active(), sflags); GdkPixmap* pix = gdk_pixmap_foreign_new(pixmap.handle()); gdk_draw_drawable(window, style->bg_gc[state], pix, 0, 0, x, y, w, h); g_object_unref(pix); } void drawListHeader(GdkWindow* window, GtkStyle* style, GtkStateType state, int x, int y, int w, int h) { if (!gtkQtEnable) return; if ((w < 1) || (h < 1)) return; TQPixmap pixmap(w,h); TQPainter painter(&pixmap); TQStyle::SFlags sflags = stateToSFlags(state) | TQStyle::Style_Horizontal; painter.fillRect(0, 0, w, h, tqApp->palette().active().brush(TQColorGroup::Background)); tqApp->style().tqdrawPrimitive(TQStyle::PE_HeaderSection, &painter, TQRect(0,0,w,h), tqApp->palette().active(), sflags); GdkPixmap* pix = gdk_pixmap_foreign_new(pixmap.handle()); gdk_draw_drawable(window, style->bg_gc[state], pix, 0, 0, x, y, w, h); g_object_unref(pix); } void drawListViewItem(GdkWindow* window, GtkStyle* style, GtkStateType state, int x, int y, int w, int h) { if (!gtkQtEnable) return; if ((w < 1) || (h < 1)) return; TQPixmap pixmap(w, h); TQPainter painter(&pixmap); /* Get the brush corresponding to highlight color */ TQBrush brush = tqApp->palette().brush(TQPalette::Active, TQColorGroup::Highlight); painter.setBrush(brush); painter.setPen(Qt::NoPen); painter.drawRect(0, 0, w, h); GdkPixmap* pix = gdk_pixmap_foreign_new(pixmap.handle()); gdk_draw_drawable(window, style->bg_gc[state], pix, 0, 0, x, y, w, h); g_object_unref(pix); } void drawSquareButton(GdkWindow* window, GtkStyle* style, GtkStateType state, int x, int y, int w, int h) { if (!gtkQtEnable) return; TQPixmap pixmap(20, 20); TQPainter painter(&pixmap); TQPushButton button(0); TQStyle::SFlags sflags = stateToSFlags(state); if (fillPixmap && (!fillPixmap->isNull())) painter.fillRect(0, 0, 20, 20, TQBrush(TQColor(255,255,255), *fillPixmap)); else if ((backgroundTile) && (!backgroundTile->isNull())) painter.fillRect(0, 0, 20, 20, TQBrush(TQColor(255,255,255), *backgroundTile)); else painter.fillRect(0, 0, 20, 20, tqApp->palette().active().brush(TQColorGroup::Background)); tqApp->style().drawControl(TQStyle::CE_PushButton, &painter, &button, TQRect(0,0,20,20), tqApp->palette().active(), sflags); TQImage image = pixmap.convertToImage().smoothScale(w,h); GdkPixmap* pix = gdk_pixmap_foreign_new(pixmap.handle()); gdk_draw_drawable(window, style->bg_gc[state], pix, 0, 0, x, y, w, h); g_object_unref(pix); } void initDrawTabNG(int count) { if (!gtkQtEnable) return; delete meepTabBar; meepTabBar = 0; meepTabBar = new TQTabBar(meepWidget); for ( int i = 0; i < count; i++ ) meepTabBar->addTab(new TQTab); return; } void drawTabNG(GdkWindow *window, GtkStyle* style, GtkStateType state, int x, int y, int w, int h, GtkNotebook *notebook) { if (!gtkQtEnable) return; GtkPositionType tpos = gtk_notebook_get_tab_pos(notebook); // Find tab position int sdiff = 10000, pos = -1, diff = 1; for ( unsigned int i = 0; i < g_list_length(notebook->children); i++ ) { GtkWidget *tab_label=gtk_notebook_get_tab_label(notebook,gtk_notebook_get_nth_page(notebook,i)); if (tab_label) diff = tab_label->allocation.x - x; if ((diff > 0) && (diff < sdiff)) { sdiff = diff; pos = i; } } TQTab *tab = meepTabBar->tabAt(pos); if (!tab) { // This happens in Firefox. Just draw a normal tab instead if (state == GTK_STATE_ACTIVE) drawTab(window, style, state, x, y - 2, w, h + 2); else drawTab(window, style, state, x, y, w, h); return; } TQStyle::SFlags sflags = stateToSFlags(state); if (state != GTK_STATE_ACTIVE) { sflags = TQStyle::Style_Selected; if (tpos == GTK_POS_TOP) y += 3; h -= 3; } if ((w < 1) || (h < 1)) return; TQPixmap pixmap(w,h); TQPainter painter(&pixmap); if ((backgroundTile) && (!backgroundTile->isNull())) painter.fillRect(0, 0, w, h, TQBrush(TQColor(255,255,255), *backgroundTile)); else painter.fillRect(0, 0, w, h, tqApp->palette().active().brush(TQColorGroup::Background)); tqApp->style().drawControl(TQStyle::CE_TabBarTab, &painter, (TQTabBar *)meepTabBar, TQRect(0,0,w,h), tqApp->palette().active(), sflags, TQStyleOption(tab)); painter.end(); // So the pixmap assignment below won't give an error // Account for tab position -- if its in the bottom flip the image if (tpos == GTK_POS_BOTTOM) { TQWMatrix m; m.scale(1, -1); pixmap = pixmap.xForm(m); } GdkPixmap* pix = gdk_pixmap_foreign_new(pixmap.handle()); gdk_draw_drawable(window, style->bg_gc[state], pix, 0, 0, x, y, w, h); g_object_unref(pix); } void drawArrow(GdkWindow* window, GtkStyle* style, GtkStateType state, GtkArrowType direction, int x, int y, int w, int h) { if (!gtkQtEnable) return; if ((w < 1) || (h < 1)) return; TQStyle::SFlags sflags = stateToSFlags(state); if (state == GTK_STATE_INSENSITIVE) sflags |= TQStyle::Style_Off; else if (state == GTK_STATE_PRELIGHT) sflags |= TQStyle::Style_On; TQStyle::PrimitiveElement element; switch(direction) { case GTK_ARROW_UP: element = TQStyle::PE_ArrowUp; break; case GTK_ARROW_DOWN: element = TQStyle::PE_ArrowDown; break; case GTK_ARROW_LEFT: element = TQStyle::PE_ArrowLeft; break; case GTK_ARROW_RIGHT: element = TQStyle::PE_ArrowRight; break; case GTK_ARROW_NONE: return; } TQPixmap pixmap(w,h); TQPainter painter(&pixmap); if (fillPixmap && (!fillPixmap->isNull())) painter.fillRect(0, 0, w, h, TQBrush(TQColor(255,255,255), *fillPixmap)); else if ((backgroundTile) && (!backgroundTile->isNull())) painter.fillRect(0, 0, w, h, TQBrush(TQColor(255,255,255), *backgroundTile)); else painter.fillRect(0, 0, w, h, tqApp->palette().active().brush(TQColorGroup::Background)); tqApp->style().tqdrawPrimitive(element, &painter, TQRect(0,0,w,h), tqApp->palette().active(), sflags); GdkPixmap* pix = gdk_pixmap_foreign_new(pixmap.handle()); gdk_draw_drawable(window, style->bg_gc[state], pix, 0, 0, x, y, w, h); g_object_unref(pix); } void drawFocusRect(GdkWindow * window, GtkStyle * style, int x, int y, int w, int h) { // if (!gtkQtEnable) return; if ((w < 1) || (h < 1)) return; TQPixmap pixmap(w,h); TQPainter painter(&pixmap); TQColor bg(tqApp->palette().active().background()); painter.fillRect(0,0,w,h,bg); tqApp->style().tqdrawPrimitive(TQStyle::PE_FocusRect, &painter, TQRect(0,0,w,h), tqApp->palette().active(), TQStyle::Style_Default, TQStyleOption(bg)); GdkPixmap* pix = gdk_pixmap_foreign_new(pixmap.handle()); gdk_draw_drawable(window, style->bg_gc[GTK_STATE_NORMAL], pix, 0, 0, x, y, w, h); g_object_unref(pix); } GdkGC* alternateBackgroundGc(GtkStyle* style) { // Alternate background color for listviews if (altBackGC != 0) return altBackGC; GdkColor altBackColor; altBackColor.red = alternateBackgroundColour.red() * 257; altBackColor.green = alternateBackgroundColour.green() * 257; altBackColor.blue = alternateBackgroundColour.blue() * 257; gdk_colormap_alloc_color(style->colormap, &altBackColor, FALSE, TRUE); GdkGCValues gc_values; GdkGCValuesMask gc_values_mask; gc_values_mask = GDK_GC_FOREGROUND; gc_values.foreground = altBackColor; altBackGC = (GdkGC*) gtk_gc_get (style->depth, style->colormap, &gc_values, gc_values_mask); return altBackGC; } // Thanks Martin Dvorak of metatheme TQString parse_rc_string(const TQString& defs, const TQString& pattern, bool widgetClass = true) { static int dynamic_counter = 0; ++dynamic_counter; return "style \"gtk-qt-dynamic-" + TQString::number(dynamic_counter) + "\" { " + defs + " } " + (widgetClass ? "widget_class" : "widget") + " \"" + pattern + "\" style \"gtk-qt-dynamic-" + TQString::number(dynamic_counter) + "\"\n"; } TQString doIconMapping(const TQString& stockName, const TQString& path, int sizes) { TQString fullPath; bool has16 = false, has22 = false, has32 = false; for( TQStringList::ConstIterator it = iconThemeDirs.begin(); it != iconThemeDirs.end(); ++it ) { fullPath = *it + "16x16/" + path; if (access(fullPath.latin1(), R_OK) == 0) has16 = true; fullPath = *it + "22x22/" + path; if (access(fullPath.latin1(), R_OK) == 0) has22 = true; fullPath = *it + "32x32/" + path; if (access(fullPath.latin1(), R_OK) == 0) has32 = true; } if (!has16 && !has22 && !has32) return ""; // sizes is an addition of 1=16, 2=22 and 4=32 TQString ret = "stock[\"" + stockName + "\"]={\n"; if (has22) ret += "\t{ \"22x22/" + path +"\", *, *, \"gtk-large-toolbar\" },\n"; if (has32) { ret += "\t{ \"32x32/" + path +"\", *, *, \"gtk-dnd\" },\n"; ret += "\t{ \"32x32/" + path +"\", *, *, \"gtk-dialog\" },\n"; } if (has16) { ret += "\t{ \"16x16/" + path +"\", *, *, \"gtk-button\" },\n"; ret += "\t{ \"16x16/" + path +"\", *, *, \"gtk-menu\" },\n"; ret += "\t{ \"16x16/" + path +"\", *, *, \"gtk-small-toolbar\" },\n"; } if (has22) ret += "\t{ \"22x22/" + path +"\" }\n"; else if (has32) ret += "\t{ \"32x32/" + path +"\" }\n"; else ret += "\t{ \"16x16/" + path +"\" }\n"; ret += "}\n"; return ret; } TQString colorString(TQColor color) { TQString ret = "{"; ret += TQString::number(color.red() * 257) + ", "; ret += TQString::number(color.green() * 257) + ", "; ret += TQString::number(color.blue() * 257) + "}"; return ret; } void setColour(TQString name, TQColor color) { gtk_rc_parse_string(parse_rc_string(name + " = " + colorString(color), "*").latin1()); } static TQStringList iconInheritsDirs( const TQString& icondir ) { TQFile index; index.setName( icondir + "index.theme" ); if( !index.open( IO_ReadOnly )) { index.setName( icondir + "index.desktop" ); if( !index.open( IO_ReadOnly )) return TQStringList(); } char buf[ 1024 ]; TQRegExp reg( "^\\s*Inherits=([^\\n]*)" ); for(;;) { if( index.readLine( buf, 1023 ) <= 0 ) break; if( reg.search( buf, 0 ) >= 0 ) return TQStringList::split(",", reg.cap(1)); } return TQStringList(); } void setRcProperties(GtkRcStyle* rc_style, int forceRecreate) { if (!gtkQtEnable) return; if (gtkQtDebug) printf("setRcProperties()\n"); gtkRcStyle = rc_style; // Set colors // Normal setColour("fg[NORMAL]", tqApp->palette().active().text()); setColour("bg[NORMAL]", tqApp->palette().active().background()); setColour("text[NORMAL]", tqApp->palette().active().text()); setColour("base[NORMAL]", tqApp->palette().active().base()); // Active (on) setColour("fg[ACTIVE]", tqApp->palette().active().text()); setColour("bg[ACTIVE]", tqApp->palette().active().background()); setColour("text[ACTIVE]", tqApp->palette().active().text()); setColour("base[ACTIVE]", tqApp->palette().active().base()); // Mouseover setColour("fg[PRELIGHT]", tqApp->palette().active().text()); // menu items - change? setColour("bg[PRELIGHT]", tqApp->palette().active().highlight()); setColour("text[PRELIGHT]", tqApp->palette().active().text()); setColour("base[PRELIGHT]", tqApp->palette().active().base()); // Selected setColour("fg[SELECTED]", tqApp->palette().active().highlightedText()); setColour("bg[SELECTED]", tqApp->palette().active().highlight()); setColour("text[SELECTED]", tqApp->palette().active().highlightedText()); setColour("base[SELECTED]", tqApp->palette().active().highlight()); // Disabled setColour("fg[INSENSITIVE]", tqApp->palette().disabled().text()); setColour("bg[INSENSITIVE]", tqApp->palette().disabled().background()); setColour("text[INSENSITIVE]", tqApp->palette().disabled().text()); setColour("base[INSENSITIVE]", tqApp->palette().disabled().background()); gtk_rc_parse_string(("gtk-button-images = " + TQString::number(showIconsOnButtons)).latin1()); gtk_rc_parse_string(("gtk-toolbar-style = " + TQString::number(toolbarStyle)).latin1()); // This function takes quite a long time to execute, and is run at the start of every app. // In order to speed it up, we can store the results in a file, along with the name of icon // theme and style. This file can then be regenerated when the icon theme or style change. TQString cacheFilePath = TQDir::homeDirPath() + "/.gtk_qt_engine_rc"; TQFile cacheFile(cacheFilePath); TQTextStream stream; if (!forceRecreate && cacheFile.exists()) { cacheFile.open(IO_ReadOnly); stream.setDevice(TQT_TQIODEVICE(&cacheFile)); if (stream.readLine() == "# " + iconTheme + ", " + tqApp->style().name() + ", " + RC_CACHE_VERSION) { // This cache matches the current icon theme and style // Let's load it and return gtk_rc_add_default_file(cacheFilePath.latin1()); return; } stream.unsetDevice(); cacheFile.close(); } cacheFile.open(IO_WriteOnly | IO_Truncate); stream.setDevice(TQT_TQIODEVICE(&cacheFile)); stream << "# " << iconTheme << ", " << tqApp->style().name() << ", " << RC_CACHE_VERSION << "\n\n"; stream << "# This file was generated by the Gtk Qt Theme Engine\n"; stream << "# It will be recreated when you change your KDE icon theme or widget style\n\n"; TQScrollBar sbar(NULL); sbar.setOrientation(Qt::Horizontal); sbar.setValue(1); sbar.resize(200,25); // The following code determines how many buttons are on a scrollbar // It works by looking at each pixel of the scrollbar's area not taken up by the groove, // and asking the style which subcontrol is at that location. TQRect rect = tqApp->style().querySubControlMetrics(TQStyle::CC_ScrollBar, &sbar, TQStyle::SC_ScrollBarGroove); bool back1 = false; bool forward1 = false; bool back2 = false; bool forward2 = false; TQStyle::SubControl sc = TQStyle::SC_None; for (TQPoint pos(0,7) ; pos.x()style().querySubControl(TQStyle::CC_ScrollBar, &sbar, pos); if (sc != sc2) { if (sc2 == TQStyle::SC_ScrollBarAddLine) forward1 = true; if (sc2 == TQStyle::SC_ScrollBarSubLine) back1 = true; sc = sc2; } } sc = TQStyle::SC_None; for (TQPoint pos(rect.x()+rect.width(),7) ; pos.x()<200 ; pos.setX(pos.x()+1)) { TQStyle::SubControl sc2 = tqApp->style().querySubControl(TQStyle::CC_ScrollBar, &sbar, pos); if (sc != sc2) { if (sc2 == TQStyle::SC_ScrollBarAddLine) forward2 = true; if (sc2 == TQStyle::SC_ScrollBarSubLine) back2 = true; sc = sc2; } } stream << parse_rc_string(TQString("GtkComboBox::appears-as-list = 1"), "*"); stream << parse_rc_string(TQString("GtkScrollbar::has-backward-stepper = ") + (back1 ? "1" : "0"), "*"); stream << parse_rc_string(TQString("GtkScrollbar::has-forward-stepper = ") + (forward2 ? "1" : "0"), "*"); stream << parse_rc_string(TQString("GtkScrollbar::has-secondary-forward-stepper = ") + (forward1 ? "1" : "0"), "*"); stream << parse_rc_string(TQString("GtkScrollbar::has-secondary-backward-stepper = ") + (back2 ? "1" : "0"), "*"); stream << parse_rc_string("GtkScrollbar::stepper-size = " + TQString::number(tqApp->style().querySubControlMetrics(TQStyle::CC_ScrollBar, &sbar, TQStyle::SC_ScrollBarSubLine).width() - 1), "*"); stream << parse_rc_string("GtkScrollbar::min-slider-length = " + TQString::number(tqApp->style().pixelMetric(TQStyle::PM_ScrollBarSliderMin)), "*"); stream << parse_rc_string("GtkScrollbar::slider-width = " + TQString::number(tqApp->style().pixelMetric(TQStyle::PM_ScrollBarExtent)-2), "*"); stream << parse_rc_string("GtkButton::child-displacement-x = " + TQString::number(tqApp->style().pixelMetric(TQStyle::PM_ButtonShiftHorizontal)), "*"); stream << parse_rc_string("GtkButton::child-displacement-y = " + TQString::number(tqApp->style().pixelMetric(TQStyle::PM_ButtonShiftVertical)), "*"); stream << parse_rc_string("GtkButton::default-border = { 0, 0, 0, 0 }", "*"); stream << parse_rc_string("GtkButton::default-outside-border = {0, 0, 0, 0}", "*"); #ifdef USE_NATIVE_GTK_BUTTON_DRAWING stream << parse_rc_string("GtkButton::inner-border = {2, 2, 2, 2}", "*"); #else if (tde_showIconsOnPushButtons) { stream << parse_rc_string("GtkButton::inner-border = {10, 10, 2, 2}", "*"); // Allow space for the icon on either side of the text } else { stream << parse_rc_string("GtkButton::inner-border = {2, 2, 2, 2}", "*"); } #endif stream << parse_rc_string("GtkButtonBox::child_min_height = 0", "*"); stream << parse_rc_string("GtkButtonBox::child_internal_pad_x = 0", "*"); stream << parse_rc_string("GtkButtonBox::child_internal_pad_y = 0", "*"); TQSlider slider(NULL); // To keep BlueCurve happy stream << parse_rc_string("GtkScale::slider-length = " + TQString::number(tqApp->style().pixelMetric(TQStyle::PM_SliderLength, &slider)), "*"); stream << parse_rc_string("xthickness = " + TQString::number(tqApp->style().pixelMetric(TQStyle::PM_DefaultFrameWidth)), "*.GtkMenu"); stream << parse_rc_string("ythickness = " + TQString::number(tqApp->style().pixelMetric(TQStyle::PM_DefaultFrameWidth)), "*.GtkMenu"); stream << parse_rc_string("xthickness = 5", "*.GtkMenu.Gtk*MenuItem"); stream << parse_rc_string("xthickness = 3", "*.GtkNotebook"); stream << parse_rc_string("ythickness = 3", "*.GtkNotebook"); stream << parse_rc_string("ythickness = 1", "*.GtkButton"); stream << parse_rc_string("fg[NORMAL] = {0, 0, 0}", "gtk-tooltips.GtkLabel", false); stream << parse_rc_string("xthickness = 1", "*.GtkButton.*"); stream << parse_rc_string("ythickness = 1", "*.GtkButton.*"); // stream << parse_rc_string("GtkTreeView::allow-rules = 0", "*"); // stream << parse_rc_string("GtkTreeView::tree-line-width = 1", "*"); // stream << parse_rc_string("GtkTreeView::vertical-separator = 30", "*"); // //stream << parse_rc_string("GtkTreeView::odd-row-color = { 0.0, 0.0, 0.0 }", "*"); stream << parse_rc_string("GtkButton::inner-border = {0, 0, 0, 0}", "*GtkToolbar*GtkButton*"); stream << parse_rc_string("GtkButton::inner-border = {0, 0, 0, 0}", "*GtkToolbar*GtkToggleButton*"); stream << parse_rc_string("GtkButton::inner-border = {0, 0, 0, 0}", "*GtkNotebook*GtkButton*"); stream << parse_rc_string("GtkButton::inner-border = {0, 0, 0, 0}", "*GtkNotebook*GtkToggleButton*"); // Qt calls them tab boxes, GTK calls them notebooks (!??!?) Either way they are a pain... stream << parse_rc_string("GtkNotebook::tab-overlap = " + TQString::number(tqApp->style().pixelMetric(TQStyle::PM_TabBarTabOverlap)), "*"); // This one may not work... //insertIntProperty(rc_style, "GtkCheckButton", "indicator-size", tqApp->style().pixelMetric(TQStyle::PM_IndicatorHeight) ); // For icons // Build the list of icon theme directories. // This function is recursive - it gets the directories of all the inherited themes as well addIconThemeDir(iconTheme); if (iconThemeDirs.isEmpty()) { cacheFile.close(); gtk_rc_add_default_file(cacheFilePath.latin1()); return; } stream << "\npixmap_path \"" + iconThemeDirs.join( ":" ) + "\"\n\n"; stream << "style \"KDE-icons\" {\n"; stream << doIconMapping("gtk-about", "actions/about_kde.png"); stream << doIconMapping("gtk-add", "actions/add.png"); stream << doIconMapping("gtk-apply", "actions/apply.png"); stream << doIconMapping("gtk-bold", "actions/text_bold.png"); stream << doIconMapping("gtk-cancel", "actions/button_cancel.png"); stream << doIconMapping("gtk-cdrom", "devices/cdrom_unmount.png"); stream << doIconMapping("gtk-clear", "actions/editclear.png"); stream << doIconMapping("gtk-close", "actions/fileclose.png"); stream << doIconMapping("gtk-color-picker", "actions/colorpicker.png", 3); stream << doIconMapping("gtk-copy", "actions/editcopy.png"); stream << doIconMapping("gtk-convert", "actions/gtk-convert.png"); stream << doIconMapping("gtk-connect", "actions/connect_creating.png"); stream << doIconMapping("gtk-cut", "actions/editcut.png"); stream << doIconMapping("gtk-delete", "actions/editdelete.png"); stream << doIconMapping("gtk-dialog-authentication", "status/gtk-dialog-authentication"); stream << doIconMapping("gtk-dialog-error", "actions/messagebox_critical.png", 4); stream << doIconMapping("gtk-dialog-info", "actions/messagebox_info.png", 4); stream << doIconMapping("gtk-dialog-question", "actions/help.png"); stream << doIconMapping("gtk-dialog-warning", "actions/messagebox_warning.png", 4); stream << doIconMapping("gtk-directory", "filesystems/folder.png"); stream << doIconMapping("gtk-disconnect", "actions/connect_no.png"); stream << doIconMapping("gtk-dnd", "mimetypes/empty.png"); stream << doIconMapping("gtk-dnd-multiple", "mimetypes/kmultiple.png"); stream << doIconMapping("gtk-edit", "actions/edit.png"); //2.6 stream << doIconMapping("gtk-execute", "actions/exec.png"); stream << doIconMapping("gtk-file", "mimetypes/empty.png"); stream << doIconMapping("gtk-find", "actions/find.png"); stream << doIconMapping("gtk-find-and-replace", "actions/find.png"); // Is there a TDE "find and replace" icon? FIXME stream << doIconMapping("gtk-floppy", "devices/3floppy_unmount.png"); stream << doIconMapping("gtk-fullscreen", "actions/window-fullscreen.png"); stream << doIconMapping("gtk-goto-bottom", "actions/bottom.png"); stream << doIconMapping("gtk-goto-first", "actions/start.png"); stream << doIconMapping("gtk-goto-last", "actions/finish.png"); stream << doIconMapping("gtk-goto-top", "actions/top.png"); stream << doIconMapping("gtk-go-back", "actions/back.png"); stream << doIconMapping("gtk-go-down", "actions/down.png"); stream << doIconMapping("gtk-go-forward", "actions/forward.png"); stream << doIconMapping("gtk-go-up", "actions/up.png"); stream << doIconMapping("gtk-harddisk", "devices/hdd_unmount.png"); stream << doIconMapping("gtk-help", "apps/khelpcenter.png"); stream << doIconMapping("gtk-home", "filesystems/folder_home.png"); stream << doIconMapping("gtk-indent", "actions/indent.png"); stream << doIconMapping("gtk-index", "actions/contents.png"); stream << doIconMapping("gtk-info", "actions/messagebox_info.png"); stream << doIconMapping("gtk-italic", "actions/text_italic.png"); stream << doIconMapping("gtk-jump-to", "actions/goto.png"); stream << doIconMapping("gtk-justify-center", "actions/text_center.png"); stream << doIconMapping("gtk-justify-fill", "actions/text_block.png"); stream << doIconMapping("gtk-justify-left", "actions/text_left.png"); stream << doIconMapping("gtk-justify-right", "actions/text_right.png"); stream << doIconMapping("gtk-leave-fullscreen", "actions/window-nofullscreen.png"); stream << doIconMapping("gtk-media-forward", "player-fwd.png"); stream << doIconMapping("gtk-media-next", "actions/player-end.png"); stream << doIconMapping("gtk-media-pause", "actions/player-pause.png"); stream << doIconMapping("gtk-media-previous", "actions/player-start.png"); stream << doIconMapping("gtk-media-record", "actions/gtk-media-record.png"); // FIXME stream << doIconMapping("gtk-media-rewind", "actions/player-rew.png"); stream << doIconMapping("gtk-media-stop", "actions/player-stop.png"); stream << doIconMapping("gtk-missing-image", "mimetypes/unknown.png"); stream << doIconMapping("gtk-network", "filesystems/network.png"); stream << doIconMapping("gtk-new", "actions/filenew.png"); stream << doIconMapping("gtk-no", "actions/gtk-no.png"); stream << doIconMapping("gtk-ok", "actions/button_ok.png"); stream << doIconMapping("gtk-open", "actions/fileopen.png"); //stream << doIconMapping("gtk-orientation-landscape", "??"); // FIXME //stream << doIconMapping("gtk-orientation-portrait", "??"); // FIXME //stream << doIconMapping("gtk-orientation-reverse-landscape", "??"); // FIXME //stream << doIconMapping("gtk-orientation-reverse-portrait", "??"); // FIXME stream << doIconMapping("gtk-paste", "actions/editpaste.png"); stream << doIconMapping("gtk-preferences", "actions/configure.png"); stream << doIconMapping("gtk-print", "actions/fileprint.png"); stream << doIconMapping("gtk-print-preview", "actions/filequickprint.png"); stream << doIconMapping("gtk-properties", "actions/configure.png"); stream << doIconMapping("gtk-quit", "actions/exit.png"); stream << doIconMapping("gtk-redo", "actions/redo.png"); stream << doIconMapping("gtk-refresh", "actions/reload.png"); stream << doIconMapping("gtk-remove", "actions/remove.png"); stream << doIconMapping("gtk-revert-to-saved", "actions/revert.png"); stream << doIconMapping("gtk-save", "actions/filesave.png"); stream << doIconMapping("gtk-save-as", "actions/filesaveas.png"); stream << doIconMapping("gtk-select-all", "actions/gtk-select-all.png"); // FIXME stream << doIconMapping("gtk-select-color", "actions/colorize.png"); stream << doIconMapping("gtk-select-font", "mimetypes/font.png"); //stream << doIconMapping("gtk-sort-ascending", "??"); // FIXME //stream << doIconMapping("gtk-sort-descending", "??"); // FIXME stream << doIconMapping("gtk-spell-check", "actions/spellcheck.png"); stream << doIconMapping("gtk-stop", "actions/stop.png"); stream << doIconMapping("gtk-strikethrough", "actions/text_strike.png", 3); stream << doIconMapping("gtk-undelete", "actions/gtk-undelete.png"); // FIXME stream << doIconMapping("gtk-underline", "actions/text_under.png"); stream << doIconMapping("gtk-undo", "actions/undo.png"); stream << doIconMapping("gtk-unindent", "actions/unindent.png"); stream << doIconMapping("gtk-yes", "actions/button_ok.png"); // Verify mapping here stream << doIconMapping("gtk-zoom-100", "actions/viewmag1.png"); stream << doIconMapping("gtk-zoom-fit", "actions/viewmagfit.png"); stream << doIconMapping("gtk-zoom-in", "actions/viewmag+.png"); stream << doIconMapping("gtk-zoom-out", "actions/viewmag-.png"); // Other icons that really should have Trinity equivalents in tdelibs stream << doIconMapping("list-add", "actions/add.png"); stream << doIconMapping("list-remove", "actions/remove.png"); stream << "} class \"*\" style \"KDE-icons\""; cacheFile.close(); gtk_rc_add_default_file(cacheFilePath.latin1()); } void addIconThemeDir(const TQString& theme) { // Try to find this theme's directory TQString icondir = kdeFindDir("/share/icons/" + theme + "/", "index.theme", "index.desktop"); if(icondir.isEmpty()) return; if (iconThemeDirs.contains(icondir)) return; // Add this theme to the list iconThemeDirs.append(icondir); // Do it again for any parent themes TQStringList parents = iconInheritsDirs(icondir); for ( TQStringList::Iterator it=parents.begin() ; it!=parents.end(); ++it) addIconThemeDir((*it).stripWhiteSpace()); } void setMenuBackground(GtkStyle* style) { if (!gtkQtEnable) return; if (menuBackgroundPixmap == NULL) { // Get the menu background image menuBackgroundPixmap = new TQPixmap(1024, 25); // Meh TQPainter painter(menuBackgroundPixmap); TQPopupMenu pm; TQMenuData md; TQMenuItem* mi = md.findItem(md.insertItem("")); tqApp->style().polish(&pm); TQStyleOption opt(mi, 16, 16); TQStyle::SFlags sflags = TQStyle::Style_Default; if ((backgroundTile) && (!backgroundTile->isNull())) painter.fillRect(0, 0, 1024, 25, TQBrush(TQColor(255,255,255), *backgroundTile)); else painter.fillRect(0, 0, 1024, 25, tqApp->palette().active().brush(TQColorGroup::Background)); tqApp->style().drawControl(TQStyle::CE_PopupMenuItem, &painter, &pm, TQRect(0,0,1024,25), tqApp->palette().active(), sflags, opt); menuBackgroundPixmapGdk = gdk_pixmap_foreign_new(menuBackgroundPixmap->handle()); } TQTENGINE_STYLE(style)->menuBackground = menuBackgroundPixmapGdk; g_object_ref(menuBackgroundPixmapGdk); } // It has a 'u' damnit void setColour(GdkColor* g, TQColor q) { g->red = q.red() * 257; g->green = q.green() * 257; g->blue = q.blue() * 257; } void setColors(GtkStyle* style) { if (!gtkQtEnable) return; if (gtkQtDebug) printf("setColors()\n"); /*gtkStyle = style;*/ bool useBg = ((backgroundTile) && (!backgroundTile->isNull())); if (useBg) { style->bg_pixmap[GTK_STATE_NORMAL] = backgroundTileGdk; g_object_ref(backgroundTileGdk); } setMenuBackground(style); } void getTextColor(GdkColor *color, GtkStateType state_type) { if (!gtkQtEnable) return; if ((state_type == GTK_STATE_PRELIGHT) || (state_type == GTK_STATE_ACTIVE) || (state_type == GTK_STATE_SELECTED)) setColour(color, tqApp->palette().active().highlightedText()); else if (state_type == GTK_STATE_NORMAL) setColour(color, tqApp->palette().active().text()); else if (state_type == GTK_STATE_INSENSITIVE) setColour(color, tqApp->palette().disabled().text()); }