Ejemplo n.º 1
0
/*
 * Define constants toplevel. Uses the casing as in the typelib
 */
static void
seed_gi_importer_handle_constant(JSContextRef ctx,
                                 JSObjectRef namespace_ref,
                                 GIConstantInfo* info,
                                 JSValueRef* exception)
{
    GArgument argument;
    GITypeInfo* constant_type = g_constant_info_get_type(info);
    JSValueRef constant_value;

    g_constant_info_get_value(info, &argument);
    constant_value
      = seed_value_from_gi_argument(ctx, &argument, constant_type, exception);
    seed_object_set_property(ctx, namespace_ref,
                             g_base_info_get_name((GIBaseInfo*) info),
                             constant_value);

    g_base_info_unref((GIBaseInfo*) constant_type);
    g_constant_info_free_value(info, &argument);
}
Ejemplo n.º 2
0
static gboolean
peas_extension_seed_call (PeasExtensionWrapper *exten,
                          const gchar          *method_name,
                          GIArgument           *args,
                          GIArgument           *retval)
{
  PeasExtensionSeed *sexten = PEAS_EXTENSION_SEED (exten);
  GType exten_type;
  SeedValue js_method;
  GICallableInfo *func_info;
  gint n_args, i;
  SeedValue *js_in_args;
  OutArg *out_args;
  SeedValue js_ret, val;
  SeedException exc = NULL;
  gchar *exc_string;
  gint n_in_args = 0;
  gint n_out_args = 0;
  GIArgument argument;

  g_return_val_if_fail (sexten->js_context != NULL, FALSE);
  g_return_val_if_fail (sexten->js_object != NULL, FALSE);

  exten_type = peas_extension_wrapper_get_extension_type (exten);

  /* Fetch the JS method we want to call */
  js_method = seed_object_get_property (sexten->js_context,
                                        sexten->js_object,
                                        method_name);
  if (seed_value_is_undefined (sexten->js_context, js_method))
    {
      g_warning ("Method '%s.%s' is not defined",
                 g_type_name (exten_type), method_name);
      return FALSE;
    }

  /* We want to display an error if the method is defined but is not a function. */
  if (!seed_value_is_function (sexten->js_context, js_method))
    {
      g_warning ("Method '%s.%s' is not a function",
                 g_type_name (exten_type), method_name);
      return FALSE;
    }

  /* Prepare the arguments */
  func_info = peas_gi_get_method_info (exten_type, method_name);
  if (func_info == NULL)
    return FALSE;

  n_args = g_callable_info_get_n_args (func_info);
  g_return_val_if_fail (n_args >= 0, FALSE);

  js_in_args = g_newa (SeedValue, n_args);
  out_args = g_newa (OutArg, n_args + 1);

  /* We put the return value first in the out tuple, as it seems to be
   * the common behaviour for GI-based bindings */
  g_callable_info_load_return_type (func_info, &out_args[0].type_info);
  if (g_type_info_get_tag (&out_args[0].type_info) != GI_TYPE_TAG_VOID)
    out_args[n_out_args++].ptr = &retval->v_pointer;

  /* Handle the other arguments */
  for (i = 0; i < n_args && exc == NULL; i++)
    {
      GIArgInfo arg_info;
      GIDirection direction;

      g_callable_info_load_arg (func_info, i, &arg_info);
      direction = g_arg_info_get_direction (&arg_info);
      g_arg_info_load_type (&arg_info, &out_args[n_out_args].type_info);

      if (direction == GI_DIRECTION_IN)
        {
          js_in_args[n_in_args++] = seed_value_from_gi_argument (sexten->js_context,
                                                                 &args[i],
                                                                 &out_args[n_out_args].type_info,
                                                                 &exc);
        }

      if (direction == GI_DIRECTION_INOUT)
        {
          GIArgument arg;

          peas_gi_pointer_to_argument (&out_args[n_out_args].type_info,
                                       args[i].v_pointer, &arg);
          js_in_args[n_in_args++] = seed_value_from_gi_argument (sexten->js_context,
                                                                 &arg,
                                                                 &out_args[n_out_args].type_info,
                                                                 &exc);
        }

      if (direction == GI_DIRECTION_OUT || direction == GI_DIRECTION_INOUT)
        out_args[n_out_args++].ptr = args[i].v_pointer;
    }
  if (exc != NULL)
    goto cleanup;

  js_ret = seed_object_call (sexten->js_context,
                             js_method,
                             sexten->js_object,
                             n_in_args,
                             js_in_args,
                             &exc);
  if (exc != NULL)
    goto cleanup;

  if (n_out_args == 1)
    {
      if (seed_value_to_gi_argument (sexten->js_context, js_ret,
                                     &out_args[0].type_info, &argument, &exc))
        {
          peas_gi_argument_to_pointer (&out_args[0].type_info,
                                       &argument, out_args[0].ptr);
        }
    }
  else if (n_out_args > 0 && seed_value_is_object (sexten->js_context, js_ret))
    {
      for (i = 0; i < n_out_args && exc == NULL; i++)
        {
          val = seed_object_get_property_at_index (sexten->js_context, js_ret,
                                                   i, exc);

          if (exc == NULL &&
              seed_value_to_gi_argument (sexten->js_context, val,
                                         &out_args[i].type_info,
                                         &argument, &exc))
            {
              peas_gi_argument_to_pointer (&out_args[i].type_info,
                                           &argument, out_args[i].ptr);
            }
        }
    }

cleanup:

  g_base_info_unref ((GIBaseInfo *) func_info);

  if (exc == NULL)
    return TRUE;

  exc_string = seed_exception_to_string (sexten->js_context, exc);
  g_warning ("Seed Exception: %s", exc_string);
  g_free (exc_string);
  return FALSE;
}