* now to test enum read and write code.
*/
v = g_array_index(array, GQuark, 0);
* now to test enum read and write code.
*/
v = g_array_index(array, GQuark, 0);
NULL, enum_range_set_free);
declaration_ref(&integer_declaration->p);
enum_declaration->integer_declaration = integer_declaration;
enum_declaration->p.id = CTF_TYPE_ENUM;
NULL, enum_range_set_free);
declaration_ref(&integer_declaration->p);
enum_declaration->integer_declaration = integer_declaration;
enum_declaration->p.id = CTF_TYPE_ENUM;
enum_declaration->p.alignment = 1;
enum_declaration->p.copy = enum_copy;
enum_declaration->p.declaration_free = _enum_declaration_free;
enum_declaration->p.alignment = 1;
enum_declaration->p.copy = enum_copy;
enum_declaration->p.declaration_free = _enum_declaration_free;
{
struct declaration_enum *enum_declaration =
container_of(declaration, struct declaration_enum, p);
{
struct declaration_enum *enum_declaration =
container_of(declaration, struct declaration_enum, p);
_enum->value = NULL;
definition_integer_parent =
enum_declaration->integer_declaration->p.definition_new(&enum_declaration->integer_declaration->p,
_enum->value = NULL;
definition_integer_parent =
enum_declaration->integer_declaration->p.definition_new(&enum_declaration->integer_declaration->p,
_enum->integer = container_of(definition_integer_parent,
struct definition_integer, p);
return &_enum->p;
_enum->integer = container_of(definition_integer_parent,
struct definition_integer, p);
return &_enum->p;