+ struct declaration_enum *enum_declaration =
+ container_of(declaration, struct declaration_enum, p);
+ struct definition_enum *_enum;
+ struct bt_definition *definition_integer_parent;
+ int ret;
+
+ _enum = g_new(struct definition_enum, 1);
+ bt_declaration_ref(&enum_declaration->p);
+ _enum->p.declaration = declaration;
+ _enum->declaration = enum_declaration;
+ _enum->p.ref = 1;
+ /*
+ * Use INT_MAX order to ensure that all fields of the parent
+ * scope are seen as being prior to this scope.
+ */
+ _enum->p.index = root_name ? INT_MAX : index;
+ _enum->p.name = field_name;
+ _enum->p.path = bt_new_definition_path(parent_scope, field_name, root_name);
+ _enum->p.scope = bt_new_definition_scope(parent_scope, field_name, root_name);
+ _enum->value = NULL;
+ ret = bt_register_field_definition(field_name, &_enum->p,
+ parent_scope);
+ assert(!ret);
+ definition_integer_parent =
+ enum_declaration->integer_declaration->p.definition_new(&enum_declaration->integer_declaration->p,
+ _enum->p.scope,
+ g_quark_from_static_string("container"), 0, NULL);
+ _enum->integer = container_of(definition_integer_parent,
+ struct definition_integer, p);
+ return &_enum->p;
+}
+
+static
+void _enum_definition_free(struct bt_definition *definition)
+{
+ struct definition_enum *_enum =
+ container_of(definition, struct definition_enum, p);
+
+ bt_definition_unref(&_enum->integer->p);
+ bt_free_definition_scope(_enum->p.scope);
+ bt_declaration_unref(_enum->p.declaration);
+ if (_enum->value)
+ g_array_unref(_enum->value);
+ g_free(_enum);