#include #include "gobject2gtk.h" // GObject dummy implementation static void g_object_set_arg(GtkObject *object, GtkArg *arg, guint id) { ((GObjectClass *)object->klass)->set_property((GObject *)object,id,arg,NULL); } static void g_object_get_arg(GtkObject *object, GtkArg *arg, guint id) { ((GObjectClass *)object->klass)->get_property((GObject *)object,id,arg,NULL); } static void g_object_base_class_init (GObjectClass *klass) { GtkObjectClass *gtkobject_class; gtkobject_class = (GtkObjectClass*) klass; gtkobject_class->set_arg = g_object_set_arg; gtkobject_class->get_arg = g_object_get_arg; } GType g_object_get_type (void) { static GType object_type = 0; if (!object_type) { static const GtkTypeInfo object_info = { "GObject", sizeof(GObject), sizeof(GObjectClass), (GtkClassInitFunc)NULL, (GtkObjectInitFunc)NULL, (GtkArgSetFunc)NULL, (GtkArgGetFunc)NULL, (GtkClassInitFunc)g_object_base_class_init, }; object_type = gtk_type_unique(gtk_object_get_type(),&object_info); } return object_type; } guint g_type_register_static (GtkType parent_type, gchar *type_name, const GTypeInfo *info, guint flags) { GtkTypeInfo gtkinfo = { type_name, info->instance_size, info->class_size, info->class_init, info->instance_init, NULL, NULL, info->base_init, }; return gtk_type_unique(parent_type,>kinfo); } gpointer g_object_new(GtkType type,gpointer blah_varargs_stuff) { return gtk_type_new(type); } void g_object_class_install_property(GtkObjectClass *oclass,guint property_id,GParamSpec *pspec) { gchar *arg_fullname; arg_fullname = g_strdup_printf("%s::%s",gtk_type_name(oclass->type),pspec->name); //fprintf(stderr,"installing arg \"%s\" into class \"%s\"\n",arg_fullname,""); gtk_object_add_arg_type(arg_fullname,pspec->value_type,pspec->flags,property_id); g_free(pspec); } GParamSpec * g_object_class_find_property(GtkObjectClass *class,gchar *name) { GtkArgInfo *info; GParamSpec *spec; //fprintf(stderr,"class name is %s\n",gtk_type_name(class->type)); gtk_object_arg_get_info(class->type,name,&info); spec = g_new0(GParamSpec,1); if (info) { spec->name = name; spec->value_type = info->type; spec->flags = info->arg_flags; } else { spec->value_type = GTK_TYPE_NONE; } return spec; } GParamSpec ** g_object_class_list_properties(GtkObjectClass *oclass,guint *n_properties) { GType type = G_OBJECT_CLASS_TYPE (oclass); guint32 *flags; GtkArg *args; gint num_args; GParamSpec **params; int i; args = gtk_object_query_args (type, &flags, &num_args); params = g_new0(GParamSpec *,num_args); for (i=0;iname = args[i].name; params[i]->value_type = args[i].type; params[i]->flags = flags[i]; } return params; } GParamSpec * g_param_spec_boolean(gchar *name,gchar *nick,gchar *blurb,gboolean def,gint flags) { GParamSpec *spec = g_new(GParamSpec,1); spec->name = name; spec->value_type = GTK_TYPE_BOOL; spec->flags = flags; return spec; } GParamSpec * g_param_spec_enum(gchar *name,gchar *nick,gchar *blurb,GtkType e,guint def,gint flags) { GParamSpec *spec = g_new(GParamSpec,1); spec->name = name; spec->value_type = e; spec->flags = flags; return spec; } GParamSpec * g_param_spec_int(gchar *name,gchar *nick,gchar *blurb,gint min,gint max,gint def,gint flags) { GParamSpec *spec = g_new(GParamSpec,1); spec->name = name; spec->value_type = GTK_TYPE_INT; spec->flags = flags; return spec; } GParamSpec * g_param_spec_uint(gchar *name,gchar *nick,gchar *blurb,guint min,guint max,guint def,gint flags) { GParamSpec *spec = g_new(GParamSpec,1); spec->name = name; spec->value_type = GTK_TYPE_UINT; spec->flags = flags; return spec; } GParamSpec * g_param_spec_long(gchar *name,gchar *nick,gchar *blurb,glong min,glong max,glong def,gint flags) { GParamSpec *spec = g_new(GParamSpec,1); spec->name = name; spec->value_type = GTK_TYPE_LONG; spec->flags = flags; return spec; } GParamSpec * g_param_spec_ulong(gchar *name,gchar *nick,gchar *blurb,gulong min,gulong max,gulong def,gint flags) { GParamSpec *spec = g_new(GParamSpec,1); spec->name = name; spec->value_type = GTK_TYPE_ULONG; spec->flags = flags; return spec; } GParamSpec * g_param_spec_float(gchar *name,gchar *nick,gchar *blurb,float min,float max,float def,gint flags) { GParamSpec *spec = g_new(GParamSpec,1); spec->name = name; spec->value_type = GTK_TYPE_FLOAT; spec->flags = flags; return spec; } GParamSpec * g_param_spec_double(gchar *name,gchar *nick,gchar *blurb,double min,double max,double def,gint flags) { GParamSpec *spec = g_new(GParamSpec,1); spec->name = name; spec->value_type = GTK_TYPE_DOUBLE; spec->flags = flags; return spec; } GParamSpec * g_param_spec_pointer(gchar *name,gchar *nick,gchar *blurb,gint flags) { GParamSpec *spec = g_new(GParamSpec,1); spec->name = name; spec->value_type = GTK_TYPE_POINTER; spec->flags = flags; return spec; } GParamSpec * g_param_spec_string(gchar *name,gchar *nick,gchar *blurb,gchar *def,gint flags) { GParamSpec *spec = g_new(GParamSpec,1); spec->name = name; spec->value_type = GTK_TYPE_STRING; spec->flags = flags; return spec; } guint g_signal_newc (const gchar *name, GtkType object_type, GtkSignalRunType signal_flags, guint function_offset, gpointer accumulator, // GSignalAccumulator gpointer accu_data, GtkSignalMarshaller marshaller, GType return_val, guint nparams, ...) { GtkType *params; guint i; va_list args; guint signal_id; #define MAX_SIGNAL_PARAMS (31) // from gtksignal.c g_return_val_if_fail (nparams < MAX_SIGNAL_PARAMS, 0); if (nparams > 0) { params = g_new (GtkType, nparams); va_start (args, nparams); for (i = 0; i < nparams; i++) params[i] = va_arg (args, GtkType); va_end (args); } else params = NULL; signal_id = gtk_signal_newv (name, signal_flags, object_type, function_offset, marshaller, return_val, nparams, params); g_free (params); // now register it. gtk_object_class_add_signals(gtk_type_class(object_type), &signal_id, 1); return signal_id; }