GtkType GTK_TYPE_ARRAY = 0; GtkType GTK_TYPE_STRING_ARRAY = 0; GtkType GTK_TYPE_FLOAT_ARRAY = 0; GtkType GTK_TYPE_INT_ARRAY = 0; GtkType GTK_TYPE_LISTOF = 0; GtkType GTK_TYPE_STRING_LIST = 0; GtkType GTK_TYPE_OBJECT_LIST = 0; GtkType GTK_TYPE_GDK_GC = 0; static GtkType xemacs_type_register (gchar *name, GtkType parent) { GtkType type_id; GtkTypeInfo info; info.type_name = name; info.object_size = 0; info.class_size = 0; info.class_init_func = NULL; info.object_init_func = NULL; info.reserved_1 = NULL; info.reserved_2 = NULL; type_id = gtk_type_unique (parent, &info); return (type_id); } static void xemacs_init_gtk_classes (void) { if (!GTK_TYPE_ARRAY) { GTK_TYPE_ARRAY = xemacs_type_register ("GtkArrayOf", 0); GTK_TYPE_STRING_ARRAY = xemacs_type_register ("GtkArrayOfString", GTK_TYPE_ARRAY); GTK_TYPE_FLOAT_ARRAY = xemacs_type_register ("GtkArrayOfFloat", GTK_TYPE_ARRAY); GTK_TYPE_INT_ARRAY = xemacs_type_register ("GtkArrayOfInteger", GTK_TYPE_ARRAY); GTK_TYPE_LISTOF = xemacs_type_register ("GtkListOf", 0); GTK_TYPE_STRING_LIST = xemacs_type_register ("GtkListOfString", GTK_TYPE_LISTOF); GTK_TYPE_OBJECT_LIST = xemacs_type_register ("GtkListOfObject", GTK_TYPE_LISTOF); GTK_TYPE_GDK_GC = xemacs_type_register ("GdkGC", GTK_TYPE_BOXED); } } static void xemacs_list_to_gtklist (Lisp_Object obj, GtkArg *arg) { CHECK_LIST (obj); if (arg->type == GTK_TYPE_STRING_LIST) { Lisp_Object temp = obj; GList *strings = NULL; while (!NILP (temp)) { CHECK_STRING (XCAR (temp)); temp = XCDR (temp); } temp = obj; while (!NILP (temp)) { strings = g_list_append (strings, XSTRING_DATA (XCAR (temp))); temp = XCDR (temp); } GTK_VALUE_POINTER(*arg) = strings; } else if (arg->type == GTK_TYPE_OBJECT_LIST) { Lisp_Object temp = obj; GList *objects = NULL; while (!NILP (temp)) { CHECK_GTK_OBJECT (XCAR (temp)); temp = XCDR (temp); } temp = obj; while (!NILP (temp)) { objects = g_list_append (objects, XGTK_OBJECT (XCAR (temp))->object); temp = XCDR (temp); } GTK_VALUE_POINTER(*arg) = objects; } else { ABORT(); } } static void __make_gtk_object_mapper (gpointer data, gpointer user_data) { Lisp_Object *rv = (Lisp_Object *) user_data; *rv = Fcons (build_gtk_object (GTK_OBJECT (data)), *rv); } static void __make_string_mapper (gpointer data, gpointer user_data) { Lisp_Object *rv = (Lisp_Object *) user_data; *rv = Fcons (build_string ((char *)data), *rv); } static Lisp_Object xemacs_gtklist_to_list (GtkArg *arg) { Lisp_Object rval = Qnil; if (GTK_VALUE_POINTER (*arg)) { if (arg->type == GTK_TYPE_STRING_LIST) { g_list_foreach (GTK_VALUE_POINTER (*arg), __make_string_mapper, &rval); } else if (arg->type == GTK_TYPE_OBJECT_LIST) { g_list_foreach (GTK_VALUE_POINTER (*arg), __make_gtk_object_mapper, &rval); } else { ABORT(); } } return (rval); } static void xemacs_list_to_array (Lisp_Object obj, GtkArg *arg) { CHECK_LIST (obj); #define FROB(ret_type,check_fn,extract_fn) \ do { \ Lisp_Object temp = obj; \ int length = 0; \ ret_type *array = NULL; \ \ while (!NILP (temp)) \ { \ check_fn (XCAR (temp)); \ length++; \ temp = XCDR (temp); \ } \ \ array = xnew_array_and_zero (ret_type, length + 2); \ temp = obj; \ length = 0; \ \ while (!NILP (temp)) \ { \ array[length++] = extract_fn (XCAR (temp)); \ temp = XCDR (temp); \ } \ \ GTK_VALUE_POINTER(*arg) = array; \ } while (0); if (arg->type == GTK_TYPE_STRING_ARRAY) { FROB(gchar *, CHECK_STRING, XSTRING_DATA); } else if (arg->type == GTK_TYPE_FLOAT_ARRAY) { FROB(gfloat, CHECK_FLOAT, extract_float); } else if (arg->type == GTK_TYPE_INT_ARRAY) { FROB(gint, CHECK_INT, XINT); } else { ABORT(); } #undef FROB } extern GdkGC *gtk_get_gc (struct device *d, Lisp_Object font, Lisp_Object fg, Lisp_Object bg, Lisp_Object bg_pmap, Lisp_Object lwidth); static GdkGC * face_to_gc (Lisp_Object face) { Lisp_Object device = Fselected_device (Qnil); return (gtk_get_gc (XDEVICE (device), Fspecifier_instance (Fget (face, Qfont, Qnil), device, Qnil, Qnil), Fspecifier_instance (Fget (face, Qforeground, Qnil), device, Qnil, Qnil), Fspecifier_instance (Fget (face, Qbackground, Qnil), device, Qnil, Qnil), Fspecifier_instance (Fget (face, Qbackground_pixmap, Qnil), device, Qnil, Qnil), Qnil)); } static GtkStyle * face_to_style (Lisp_Object face) { Lisp_Object device = Fselected_device (Qnil); GtkStyle *style = gtk_style_new (); int i; Lisp_Object font = Fspecifier_instance (Fget (face, Qfont, Qnil), device, Qnil, Qnil); Lisp_Object fg = Fspecifier_instance (Fget (face, Qforeground, Qnil), device, Qnil, Qnil); Lisp_Object bg = Fspecifier_instance (Fget (face, Qbackground, Qnil), device, Qnil, Qnil); Lisp_Object pm = Fspecifier_instance (Fget (face, Qbackground_pixmap, Qnil), device, Qnil, Qnil); for (i = 0; i < 5; i++) style->fg[i] = * COLOR_INSTANCE_GTK_COLOR (XCOLOR_INSTANCE (fg)); for (i = 0; i < 5; i++) style->bg[i] = * COLOR_INSTANCE_GTK_COLOR (XCOLOR_INSTANCE (bg)); if (IMAGE_INSTANCEP (pm)) { for (i = 0; i < 5; i++) style->bg_pixmap[i] = XIMAGE_INSTANCE_GTK_PIXMAP (pm); } style->font = FONT_INSTANCE_GTK_FONT (XFONT_INSTANCE (font)); return (style); } extern int gtk_event_to_emacs_event (struct frame *, GdkEvent *, struct Lisp_Event *); static Lisp_Object gdk_event_to_emacs_event(GdkEvent *ev) { Lisp_Object emacs_event = Qnil; if (ev) { emacs_event = Fmake_event (Qnil, Qnil); if (!gtk_event_to_emacs_event (NULL, ev, XEVENT (emacs_event))) { /* We need to handle a few more cases than the normal event ** loop does. Mainly the double/triple click events. */ if ((ev->type == GDK_2BUTTON_PRESS) || (ev->type == GDK_3BUTTON_PRESS)) { struct Lisp_Event *le = XEVENT (emacs_event); le->event_type = misc_user_event; le->event.misc.button = ev->button.button; le->event.misc.modifiers = 0; le->event.misc.x = ev->button.x; le->event.misc.y = ev->button.y; if (ev->type == GDK_2BUTTON_PRESS) le->event.misc.function = intern ("double-click"); else le->event.misc.function = intern ("triple-click"); } else { Fdeallocate_event (emacs_event); emacs_event = Qnil; } } } return (emacs_event); }