// 4 september 2015 #include "uipriv_unix.h" extern GThread* gtkthread; struct areaWidget { GtkDrawingArea parent_instance; uiArea *a; // construct-only parameters aare not set until after the init() function has returned // we need this particular object available during init(), so put it here instead of in uiArea // keep a pointer in uiArea for convenience, though clickCounter cc; }; struct areaWidgetClass { GtkDrawingAreaClass parent_class; }; typedef struct uiGLContext uiGLContext; struct uiArea { uiUnixControl c; GtkWidget *widget; // either swidget or areaWidget depending on whether it is scrolling GtkWidget *swidget; GtkContainer *scontainer; GtkScrolledWindow *sw; GtkWidget *areaWidget; GtkDrawingArea *drawingArea; areaWidget *area; gboolean opengl; uiGLContext *glContext; unsigned int* req_versions; int bgR, bgG, bgB; uiAreaHandler *ah; gboolean scrolling; int scrollWidth; int scrollHeight; // note that this is a pointer; see above clickCounter *cc; // for user window drags GdkEventButton *dragevent; }; G_DEFINE_TYPE(areaWidget, areaWidget, GTK_TYPE_DRAWING_AREA) int boub(GtkWidget* w) { return isAreaWidget(w); } void baba(GtkWidget* w) { if (!isAreaWidget(w)) return; areaWidget *aw = areaWidget(w); uiArea *a = aw->a; if (!a->opengl) return; GdkGLContext* oldctx = gdk_gl_context_get_current(); uiGLMakeContextCurrent(a->glContext); glFinish(); gdk_gl_context_make_current(oldctx); } static void areaWidget_init(areaWidget *aw) { // for events gtk_widget_add_events(GTK_WIDGET(aw), GDK_POINTER_MOTION_MASK | GDK_BUTTON_MOTION_MASK | GDK_BUTTON_PRESS_MASK | GDK_BUTTON_RELEASE_MASK | GDK_KEY_PRESS_MASK | GDK_KEY_RELEASE_MASK | GDK_ENTER_NOTIFY_MASK | GDK_LEAVE_NOTIFY_MASK); gtk_widget_set_can_focus(GTK_WIDGET(aw), TRUE); clickCounterReset(&(aw->cc)); } static void areaWidget_dispose(GObject *obj) { // remove any draw order that might still be pending areaWidget *aw = areaWidget(obj); while (g_idle_remove_by_data(aw->a)); G_OBJECT_CLASS(areaWidget_parent_class)->dispose(obj); } static void areaWidget_finalize(GObject *obj) { G_OBJECT_CLASS(areaWidget_parent_class)->finalize(obj); } static void areaWidget_size_allocate(GtkWidget *w, GtkAllocation *allocation) { areaWidget *aw = areaWidget(w); uiArea *a = aw->a; // GtkDrawingArea has a size_allocate() implementation; we need to call it // this will call gtk_widget_set_allocation() for us GTK_WIDGET_CLASS(areaWidget_parent_class)->size_allocate(w, allocation); if (!a->scrolling) // we must redraw everything on resize because Windows requires it gtk_widget_queue_resize(w); a->ah->Resize(a->ah, a, allocation->width, allocation->height); } static void loadAreaSize(uiArea *a, double *width, double *height) { GtkAllocation allocation; *width = 0; *height = 0; // don't provide size information for scrolling areas if (!a->scrolling) { gtk_widget_get_allocation(a->areaWidget, &allocation); // these are already in drawing space coordinates // for drawing, the size of drawing space has the same value as the widget allocation // thanks to tristan in irc.gimp.net/#gtk+ *width = allocation.width; *height = allocation.height; } } void areaPreRedraw(areaWidget* widget) { uiArea* a = widget->a; if (!a->opengl) return; areaPreRedrawGL(a->glContext); } void areaPostRedraw(areaWidget* widget) { uiArea* a = widget->a; if (!a->opengl) return; areaPostRedrawGL(a->glContext); } static gboolean areaWidget_draw(GtkWidget *w, cairo_t *cr) { areaWidget *aw = areaWidget(w); uiArea *a = aw->a; uiAreaDrawParams dp; double clipX0, clipY0, clipX1, clipY1; dp.Context = newContext(cr); loadAreaSize(a, &(dp.AreaWidth), &(dp.AreaHeight)); if (!a->opengl) { cairo_clip_extents(cr, &clipX0, &clipY0, &clipX1, &clipY1); dp.ClipX = clipX0; dp.ClipY = clipY0; dp.ClipWidth = clipX1 - clipX0; dp.ClipHeight = clipY1 - clipY0; if (a->bgR != -1) { cairo_set_source_rgb(cr, a->bgR/255.0, a->bgG/255.0, a->bgB/255.0); cairo_paint(cr); } // no need to save or restore the graphics state to reset transformations; GTK+ does that for us (*(a->ah->Draw))(a->ah, a, &dp); } else { areaDrawGL(w, &dp, cr, a->glContext); } freeContext(dp.Context); return FALSE; } // to do this properly for scrolling areas, we need to // - return the same value for min and nat // - call gtk_widget_queue_resize() when the size changes // thanks to Company in irc.gimp.net/#gtk+ static void areaWidget_get_preferred_height(GtkWidget *w, gint *min, gint *nat) { areaWidget *aw = areaWidget(w); uiArea *a = aw->a; // always chain up just in case GTK_WIDGET_CLASS(areaWidget_parent_class)->get_preferred_height(w, min, nat); if (a->scrolling) { *min = a->scrollHeight; *nat = a->scrollHeight; } // TODO: min size } static void areaWidget_get_preferred_width(GtkWidget *w, gint *min, gint *nat) { areaWidget *aw = areaWidget(w); uiArea *a = aw->a; // always chain up just in case GTK_WIDGET_CLASS(areaWidget_parent_class)->get_preferred_width(w, min, nat); if (a->scrolling) { *min = a->scrollWidth; *nat = a->scrollWidth; } } static guint translateModifiers(guint state, GdkWindow *window) { GdkModifierType statetype; // GDK doesn't initialize the modifier flags fully; we have to explicitly tell it to (thanks to Daniel_S and daniels (two different people) in irc.gimp.net/#gtk+) statetype = state; gdk_keymap_add_virtual_modifiers( gdk_keymap_get_for_display(gdk_window_get_display(window)), &statetype); return statetype; } static uiModifiers toModifiers(guint state) { uiModifiers m; m = 0; if ((state & GDK_CONTROL_MASK) != 0) m |= uiModifierCtrl; if ((state & GDK_META_MASK) != 0) m |= uiModifierAlt; if ((state & GDK_MOD1_MASK) != 0) // GTK+ itself requires this to be Alt (just read through gtkaccelgroup.c) m |= uiModifierAlt; if ((state & GDK_SHIFT_MASK) != 0) m |= uiModifierShift; if ((state & GDK_SUPER_MASK) != 0) m |= uiModifierSuper; return m; } // capture on drag is done automatically on GTK+ static void finishMouseEvent(uiArea *a, uiAreaMouseEvent *me, guint mb, gdouble x, gdouble y, guint state, GdkWindow *window) { // on GTK+, mouse buttons 4-7 are for scrolling; if we got here, that's a mistake if (mb >= 4 && mb <= 7) return; // if the button ID >= 8, continue counting from 4, as in the MouseEvent spec if (me->Down >= 8) me->Down -= 4; if (me->Up >= 8) me->Up -= 4; state = translateModifiers(state, window); me->Modifiers = toModifiers(state); // the mb != # checks exclude the Up/Down button from Held me->Held1To64 = 0; if (mb != 1 && (state & GDK_BUTTON1_MASK) != 0) me->Held1To64 |= 1 << 0; if (mb != 2 && (state & GDK_BUTTON2_MASK) != 0) me->Held1To64 |= 1 << 1; if (mb != 3 && (state & GDK_BUTTON3_MASK) != 0) me->Held1To64 |= 1 << 2; // don't check GDK_BUTTON4_MASK or GDK_BUTTON5_MASK because those are for the scrolling buttons mentioned above // GDK expressly does not support any more buttons in the GdkModifierType; see https://git.gnome.org/browse/gtk+/tree/gdk/x11/gdkdevice-xi2.c#n763 (thanks mclasen in irc.gimp.net/#gtk+) // these are already in drawing space coordinates // the size of drawing space has the same value as the widget allocation // thanks to tristan in irc.gimp.net/#gtk+ me->X = x; me->Y = y; loadAreaSize(a, &(me->AreaWidth), &(me->AreaHeight)); (*(a->ah->MouseEvent))(a->ah, a, me); } static gboolean areaWidget_button_press_event(GtkWidget *w, GdkEventButton *e) { areaWidget *aw = areaWidget(w); uiArea *a = aw->a; gint maxTime, maxDistance; GtkSettings *settings; uiAreaMouseEvent me; // clicking doesn't automatically transfer keyboard focus; we must do so manually (thanks tristan in irc.gimp.net/#gtk+) gtk_widget_grab_focus(w); // we handle multiple clicks ourselves here, in the same way as we do on Windows if (e->type != GDK_BUTTON_PRESS) // ignore GDK's generated double-clicks and beyond return GDK_EVENT_PROPAGATE; settings = gtk_widget_get_settings(w); g_object_get(settings, "gtk-double-click-time", &maxTime, "gtk-double-click-distance", &maxDistance, NULL); // don't unref settings; it's transfer-none (thanks gregier in irc.gimp.net/#gtk+) // e->time is guint32 // e->x and e->y are floating-point; just make them 32-bit integers // maxTime and maxDistance... are gint, which *should* fit, hopefully... me.Count = clickCounterClick(a->cc, me.Down, e->x, e->y, e->time, maxTime, maxDistance, maxDistance); me.Down = e->button; me.Up = 0; // and set things up for window drags a->dragevent = e; finishMouseEvent(a, &me, e->button, e->x, e->y, e->state, e->window); a->dragevent = NULL; return GDK_EVENT_PROPAGATE; } static gboolean areaWidget_button_release_event(GtkWidget *w, GdkEventButton *e) { areaWidget *aw = areaWidget(w); uiArea *a = aw->a; uiAreaMouseEvent me; me.Down = 0; me.Up = e->button; me.Count = 0; finishMouseEvent(a, &me, e->button, e->x, e->y, e->state, e->window); return GDK_EVENT_PROPAGATE; } static gboolean areaWidget_motion_notify_event(GtkWidget *w, GdkEventMotion *e) { areaWidget *aw = areaWidget(w); uiArea *a = aw->a; uiAreaMouseEvent me; me.Down = 0; me.Up = 0; me.Count = 0; finishMouseEvent(a, &me, 0, e->x, e->y, e->state, e->window); return GDK_EVENT_PROPAGATE; } // we want switching away from the control to reset the double-click counter, like with WM_ACTIVATE on Windows // according to tristan in irc.gimp.net/#gtk+, doing this on both enter-notify-event and leave-notify-event is correct (and it seems to be true in my own tests; plus the events DO get sent when switching programs with the keyboard (just pointing that out)) static gboolean onCrossing(areaWidget *aw, int left) { uiArea *a = aw->a; (*(a->ah->MouseCrossed))(a->ah, a, left); clickCounterReset(a->cc); return GDK_EVENT_PROPAGATE; } static gboolean areaWidget_enter_notify_event(GtkWidget *w, GdkEventCrossing *e) { return onCrossing(areaWidget(w), 0); } static gboolean areaWidget_leave_notify_event(GtkWidget *w, GdkEventCrossing *e) { return onCrossing(areaWidget(w), 1); } // note: there is no equivalent to WM_CAPTURECHANGED on GTK+; there literally is no way to break a grab like that (at least not on X11 and Wayland) // even if I invoke the task switcher and switch processes, the mouse grab will still be held until I let go of all buttons // therefore, no DragBroken() // we use GDK_KEY_Print as a sentinel because libui will never support the print screen key; that key belongs to the user static const struct { guint keyval; uiExtKey extkey; } extKeys[] = { { GDK_KEY_Escape, uiExtKeyEscape }, { GDK_KEY_Insert, uiExtKeyInsert }, { GDK_KEY_Delete, uiExtKeyDelete }, { GDK_KEY_Home, uiExtKeyHome }, { GDK_KEY_End, uiExtKeyEnd }, { GDK_KEY_Page_Up, uiExtKeyPageUp }, { GDK_KEY_Page_Down, uiExtKeyPageDown }, { GDK_KEY_Up, uiExtKeyUp }, { GDK_KEY_Down, uiExtKeyDown }, { GDK_KEY_Left, uiExtKeyLeft }, { GDK_KEY_Right, uiExtKeyRight }, { GDK_KEY_F1, uiExtKeyF1 }, { GDK_KEY_F2, uiExtKeyF2 }, { GDK_KEY_F3, uiExtKeyF3 }, { GDK_KEY_F4, uiExtKeyF4 }, { GDK_KEY_F5, uiExtKeyF5 }, { GDK_KEY_F6, uiExtKeyF6 }, { GDK_KEY_F7, uiExtKeyF7 }, { GDK_KEY_F8, uiExtKeyF8 }, { GDK_KEY_F9, uiExtKeyF9 }, { GDK_KEY_F10, uiExtKeyF10 }, { GDK_KEY_F11, uiExtKeyF11 }, { GDK_KEY_F12, uiExtKeyF12 }, // numpad numeric keys and . are handled in events.c { GDK_KEY_KP_Enter, uiExtKeyNEnter }, { GDK_KEY_KP_Add, uiExtKeyNAdd }, { GDK_KEY_KP_Subtract, uiExtKeyNSubtract }, { GDK_KEY_KP_Multiply, uiExtKeyNMultiply }, { GDK_KEY_KP_Divide, uiExtKeyNDivide }, { GDK_KEY_Print, 0 }, }; static const struct { guint keyval; uiModifiers mod; } modKeys[] = { { GDK_KEY_Control_L, uiModifierCtrl }, { GDK_KEY_Control_R, uiModifierCtrl }, { GDK_KEY_Alt_L, uiModifierAlt }, { GDK_KEY_Alt_R, uiModifierAlt }, { GDK_KEY_Meta_L, uiModifierAlt }, { GDK_KEY_Meta_R, uiModifierAlt }, { GDK_KEY_Shift_L, uiModifierShift }, { GDK_KEY_Shift_R, uiModifierShift }, { GDK_KEY_Super_L, uiModifierSuper }, { GDK_KEY_Super_R, uiModifierSuper }, { GDK_KEY_Print, 0 }, }; // http://www.comptechdoc.org/os/linux/howlinuxworks/linux_hlkeycodes.html int scancode_unix2normal(int scan) { scan -= 8; // extended keys get weird scancodes. fix 'em up switch (scan) { case 0x60: return 0x11C; case 0x61: return 0x11D; case 0x62: return 0x135; case 0x63: return 0x137; case 0x64: return 0x138; case 0x66: return 0x147; case 0x67: return 0x148; case 0x68: return 0x149; case 0x69: return 0x14B; case 0x6A: return 0x14D; case 0x6B: return 0x14F; case 0x6C: return 0x150; case 0x6D: return 0x151; case 0x6E: return 0x152; case 0x6F: return 0x153; case 0x77: return 0x45; // PAUSE, this one is weird. check it. case 0x7D: return 0x15B; // Windows key case 0x7F: return 0x15D; // context menu key // TODO: there may be more fancy keys default: return scan; } } int scancode_normal2unix(int scan) { // extended keys get weird scancodes. fix 'em up switch (scan) { case 0x11C: return 8+0x60; case 0x11D: return 8+0x61; case 0x135: return 8+0x62; case 0x137: return 8+0x63; case 0x138: return 8+0x64; case 0x147: return 8+0x66; case 0x148: return 8+0x67; case 0x149: return 8+0x68; case 0x14B: return 8+0x69; case 0x14D: return 8+0x6A; case 0x14F: return 8+0x6B; case 0x150: return 8+0x6C; case 0x151: return 8+0x6D; case 0x152: return 8+0x6E; case 0x153: return 8+0x6F; case 0x45: return 8+0x77; // PAUSE, this one is weird. check it. case 0x15B: return 8+0x7D; // Windows key case 0x15D: return 8+0x7F; // context menu key // TODO: there may be more fancy keys default: return scan + 8; } } static int areaKeyEvent(uiArea *a, int up, GdkEventKey *e) { uiAreaKeyEvent ke; guint state; int i; ke.Key = 0; ke.ExtKey = 0; ke.Modifier = 0; state = translateModifiers(e->state, e->window); ke.Modifiers = toModifiers(state); ke.Up = up; ke.Repeat = 0; // TODO!!!!! ke.Scancode = scancode_unix2normal(e->hardware_keycode); #if 0 for (i = 0; extKeys[i].keyval != GDK_KEY_Print; i++) if (extKeys[i].keyval == e->keyval) { ke.ExtKey = extKeys[i].extkey; goto keyFound; } for (i = 0; modKeys[i].keyval != GDK_KEY_Print; i++) if (modKeys[i].keyval == e->keyval) { ke.Modifier = modKeys[i].mod; // don't include the modifier in ke.Modifiers ke.Modifiers &= ~ke.Modifier; goto keyFound; } if (fromScancode(e->hardware_keycode - 8, &ke)) goto keyFound; // no supported key found; treat as unhandled return 0; keyFound: #endif return (*(a->ah->KeyEvent))(a->ah, a, &ke); } static gboolean areaWidget_key_press_event(GtkWidget *w, GdkEventKey *e) { areaWidget *aw = areaWidget(w); uiArea *a = aw->a; if (areaKeyEvent(a, 0, e)) return GDK_EVENT_STOP; return GDK_EVENT_PROPAGATE; } static gboolean areaWidget_key_release_event(GtkWidget *w, GdkEventKey *e) { areaWidget *aw = areaWidget(w); uiArea *a = aw->a; if (areaKeyEvent(a, 1, e)) return GDK_EVENT_STOP; return GDK_EVENT_PROPAGATE; } char* uiKeyName(int scancode) { scancode = scancode_normal2unix(scancode); char* ret; guint* keyvals; int num; GdkKeymap* keymap = gdk_keymap_get_for_display(gdk_display_get_default()); if (gdk_keymap_get_entries_for_keycode(keymap, scancode, NULL, &keyvals, &num)) { // TODO: pick smarter?? int keyval = keyvals[0]; g_free(keyvals); ret = gdk_keyval_name(keyval); } else { char tmp[16]; sprintf(tmp, "#%03X", scancode); ret = tmp; } return uiUnixStrdupText(ret); } enum { pArea = 1, nProps, }; static GParamSpec *pspecArea; static void areaWidget_set_property(GObject *obj, guint prop, const GValue *value, GParamSpec *pspec) { areaWidget *aw = areaWidget(obj); switch (prop) { case pArea: aw->a = (uiArea *) g_value_get_pointer(value); aw->a->cc = &(aw->cc); return; } G_OBJECT_WARN_INVALID_PROPERTY_ID(obj, prop, pspec); } static void areaWidget_get_property(GObject *obj, guint prop, GValue *value, GParamSpec *pspec) { G_OBJECT_WARN_INVALID_PROPERTY_ID(obj, prop, pspec); } static void areaWidget_class_init(areaWidgetClass *class) { G_OBJECT_CLASS(class)->dispose = areaWidget_dispose; G_OBJECT_CLASS(class)->finalize = areaWidget_finalize; G_OBJECT_CLASS(class)->set_property = areaWidget_set_property; G_OBJECT_CLASS(class)->get_property = areaWidget_get_property; GTK_WIDGET_CLASS(class)->size_allocate = areaWidget_size_allocate; GTK_WIDGET_CLASS(class)->draw = areaWidget_draw; GTK_WIDGET_CLASS(class)->get_preferred_height = areaWidget_get_preferred_height; GTK_WIDGET_CLASS(class)->get_preferred_width = areaWidget_get_preferred_width; GTK_WIDGET_CLASS(class)->button_press_event = areaWidget_button_press_event; GTK_WIDGET_CLASS(class)->button_release_event = areaWidget_button_release_event; GTK_WIDGET_CLASS(class)->motion_notify_event = areaWidget_motion_notify_event; GTK_WIDGET_CLASS(class)->enter_notify_event = areaWidget_enter_notify_event; GTK_WIDGET_CLASS(class)->leave_notify_event = areaWidget_leave_notify_event; GTK_WIDGET_CLASS(class)->key_press_event = areaWidget_key_press_event; GTK_WIDGET_CLASS(class)->key_release_event = areaWidget_key_release_event; pspecArea = g_param_spec_pointer("libui-area", "libui-area", "uiArea.", G_PARAM_WRITABLE | G_PARAM_CONSTRUCT_ONLY | G_PARAM_STATIC_STRINGS); g_object_class_install_property(G_OBJECT_CLASS(class), pArea, pspecArea); } // control implementation uiUnixControlAllDefaultsExceptDestroy(uiArea) static void uiAreaDestroy(uiControl *c) { uiArea* a = uiArea(c); if (a->opengl && a->glContext) freeGLContext(a->glContext); g_object_unref(uiArea(c)->widget); uiFreeControl(c); } void uiAreaSetBackgroundColor(uiArea *a, int r, int g, int b) { a->bgR = r; a->bgG = g; a->bgB = b; } void uiAreaSetSize(uiArea *a, int width, int height) { if (!a->scrolling) userbug("You cannot call uiAreaSetSize() on a non-scrolling uiArea. (area: %p)", a); a->scrollWidth = width; a->scrollHeight = height; gtk_widget_queue_resize(a->areaWidget); } gboolean _threadsaferefresh(gpointer data) { uiArea* a = (uiArea*)data; gtk_widget_queue_draw(a->areaWidget); return FALSE; } void uiAreaQueueRedrawAll(uiArea *a) { // TODO: figure out how we could generalize the "thread-safe function call" mechanism if (g_thread_self() != gtkthread) g_idle_add(_threadsaferefresh, a); else gtk_widget_queue_draw(a->areaWidget); } void uiAreaScrollTo(uiArea *a, double x, double y, double width, double height) { // TODO // TODO adjust adjustments and find source for that } void uiAreaBeginUserWindowMove(uiArea *a) { GtkWidget *toplevel; if (a->dragevent == NULL) userbug("cannot call uiAreaBeginUserWindowMove() outside of a Mouse() with Down != 0"); // TODO don't we have a libui function for this? did I scrap it? // TODO widget or areaWidget? toplevel = gtk_widget_get_toplevel(a->widget); if (toplevel == NULL) { // TODO return; } // the docs say to do this if (!gtk_widget_is_toplevel(toplevel)) { // TODO return; } if (!GTK_IS_WINDOW(toplevel)) { // TODO return; } gtk_window_begin_move_drag(GTK_WINDOW(toplevel), a->dragevent->button, a->dragevent->x_root, // TODO are these correct? a->dragevent->y_root, a->dragevent->time); } static const GdkWindowEdge edges[] = { [uiWindowResizeEdgeLeft] = GDK_WINDOW_EDGE_WEST, [uiWindowResizeEdgeTop] = GDK_WINDOW_EDGE_NORTH, [uiWindowResizeEdgeRight] = GDK_WINDOW_EDGE_EAST, [uiWindowResizeEdgeBottom] = GDK_WINDOW_EDGE_SOUTH, [uiWindowResizeEdgeTopLeft] = GDK_WINDOW_EDGE_NORTH_WEST, [uiWindowResizeEdgeTopRight] = GDK_WINDOW_EDGE_NORTH_EAST, [uiWindowResizeEdgeBottomLeft] = GDK_WINDOW_EDGE_SOUTH_WEST, [uiWindowResizeEdgeBottomRight] = GDK_WINDOW_EDGE_SOUTH_EAST, }; void uiAreaBeginUserWindowResize(uiArea *a, uiWindowResizeEdge edge) { GtkWidget *toplevel; if (a->dragevent == NULL) userbug("cannot call uiAreaBeginUserWindowResize() outside of a Mouse() with Down != 0"); // TODO don't we have a libui function for this? did I scrap it? // TODO widget or areaWidget? toplevel = gtk_widget_get_toplevel(a->widget); if (toplevel == NULL) { // TODO return; } // the docs say to do this if (!gtk_widget_is_toplevel(toplevel)) { // TODO return; } if (!GTK_IS_WINDOW(toplevel)) { // TODO return; } gtk_window_begin_resize_drag(GTK_WINDOW(toplevel), edges[edge], a->dragevent->button, a->dragevent->x_root, // TODO are these correct? a->dragevent->y_root, a->dragevent->time); } uiArea *uiNewArea(uiAreaHandler *ah) { uiArea *a; uiUnixNewControl(uiArea, a); a->ah = ah; a->scrolling = FALSE; a->opengl = FALSE; a->areaWidget = GTK_WIDGET(g_object_new(areaWidgetType, "libui-area", a, NULL)); a->drawingArea = GTK_DRAWING_AREA(a->areaWidget); a->area = areaWidget(a->areaWidget); a->widget = a->areaWidget; uiAreaSetBackgroundColor(a, -1, -1, -1); return a; } void _areaCreateGLContext(GtkWidget* widget, gpointer data) { uiArea* a = (uiArea*)data; uiGLContext* ctx = NULL; for (int i = 0; a->req_versions[i] && !ctx; i++) { int major = uiGLVerMajor(a->req_versions[i]); int minor = uiGLVerMinor(a->req_versions[i]); // we cannot support any version older than 3.2 via GDK if ((major < 3) || (major == 3 && minor < 2)) break; ctx = createGLContext(widget, major, minor); } a->glContext = ctx; } uiArea *uiNewGLArea(uiAreaHandler *ah, const unsigned int* req_versions) { uiArea *a; uiUnixNewControl(uiArea, a); a->ah = ah; a->scrolling = FALSE; a->opengl = TRUE; a->glContext = NULL; a->req_versions = req_versions; a->areaWidget = GTK_WIDGET(g_object_new(areaWidgetType, "libui-area", a, NULL)); a->area = areaWidget(a->areaWidget); a->widget = a->areaWidget; g_signal_connect(a->widget, "realize", G_CALLBACK(_areaCreateGLContext), a); uiAreaSetBackgroundColor(a, -1, -1, -1); return a; } uiGLContext *uiAreaGetGLContext(uiArea* a) { if (!a) return NULL; return a->glContext; } uiArea *uiNewScrollingArea(uiAreaHandler *ah, int width, int height) { uiArea *a; uiUnixNewControl(uiArea, a); a->ah = ah; a->scrolling = TRUE; a->scrollWidth = width; a->scrollHeight = height; a->opengl = FALSE; a->swidget = gtk_scrolled_window_new(NULL, NULL); a->scontainer = GTK_CONTAINER(a->swidget); a->sw = GTK_SCROLLED_WINDOW(a->swidget); a->areaWidget = GTK_WIDGET(g_object_new(areaWidgetType, "libui-area", a, NULL)); a->drawingArea = GTK_DRAWING_AREA(a->areaWidget); a->area = areaWidget(a->areaWidget); a->widget = a->swidget; uiAreaSetBackgroundColor(a, -1, -1, -1); gtk_container_add(a->scontainer, a->areaWidget); // and make the area visible; only the scrolled window's visibility is controlled by libui gtk_widget_show(a->areaWidget); return a; }