Signed-off-by: Julien Desfossez <jdesfossez@efficios.com>
Signed-off-by: Mathieu Desnoyers <mathieu.desnoyers@efficios.com>
def_enum = container_of(field, const struct definition_enum, p);
decl_enum = def_enum->declaration;
if (get_int_signedness(&def_enum->integer->p)) {
def_enum = container_of(field, const struct definition_enum, p);
decl_enum = def_enum->declaration;
if (get_int_signedness(&def_enum->integer->p)) {
- array = enum_int_to_quark_set(decl_enum,
+ array = bt_enum_int_to_quark_set(decl_enum,
get_signed_int(&def_enum->integer->p));
} else {
get_signed_int(&def_enum->integer->p));
} else {
- array = enum_uint_to_quark_set(decl_enum,
+ array = bt_enum_uint_to_quark_set(decl_enum,
get_unsigned_int(&def_enum->integer->p));
}
if (!array) {
get_unsigned_int(&def_enum->integer->p));
}
if (!array) {
if (nr_vals <= 1)
end = start;
last->u.s = end + 1;
if (nr_vals <= 1)
end = start;
last->u.s = end + 1;
- enum_signed_insert(enum_declaration, start, end, q);
+ bt_enum_signed_insert(enum_declaration, start, end, q);
} else {
uint64_t start, end;
int nr_vals = 0;
} else {
uint64_t start, end;
int nr_vals = 0;
if (nr_vals <= 1)
end = start;
last->u.u = end + 1;
if (nr_vals <= 1)
end = start;
last->u.u = end + 1;
- enum_unsigned_insert(enum_declaration, start, end, q);
+ bt_enum_unsigned_insert(enum_declaration, start, end, q);
return NULL;
}
integer_declaration = container_of(declaration, struct declaration_integer, p);
return NULL;
}
integer_declaration = container_of(declaration, struct declaration_integer, p);
- enum_declaration = enum_declaration_new(integer_declaration);
+ enum_declaration = bt_enum_declaration_new(integer_declaration);
bt_declaration_unref(&integer_declaration->p); /* leave ref to enum */
if (enum_declaration->integer_declaration->signedness) {
last_value.u.s = 0;
bt_declaration_unref(&integer_declaration->p); /* leave ref to enum */
if (enum_declaration->integer_declaration->signedness) {
last_value.u.s = 0;
if (ret)
return ret;
if (!integer_declaration->signedness) {
if (ret)
return ret;
if (!integer_declaration->signedness) {
- qs = enum_uint_to_quark_set(enum_declaration,
+ qs = bt_enum_uint_to_quark_set(enum_declaration,
integer_definition->value._unsigned);
if (!qs) {
fprintf(stderr, "[warning] Unknown value %" PRIu64 " in enum.\n",
integer_definition->value._unsigned);
}
} else {
integer_definition->value._unsigned);
if (!qs) {
fprintf(stderr, "[warning] Unknown value %" PRIu64 " in enum.\n",
integer_definition->value._unsigned);
}
} else {
- qs = enum_int_to_quark_set(enum_declaration,
+ qs = bt_enum_int_to_quark_set(enum_declaration,
integer_definition->value._signed);
if (!qs) {
fprintf(stderr, "[warning] Unknown value %" PRId64 " in enum.\n",
integer_definition->value._signed);
if (!qs) {
fprintf(stderr, "[warning] Unknown value %" PRId64 " in enum.\n",
* Returns a GArray of GQuark or NULL.
* Caller must release the GArray with g_array_unref().
*/
* Returns a GArray of GQuark or NULL.
* Caller must release the GArray with g_array_unref().
*/
-GArray *enum_uint_to_quark_set(const struct declaration_enum *enum_declaration,
+GArray *bt_enum_uint_to_quark_set(const struct declaration_enum *enum_declaration,
uint64_t v);
/*
* Returns a GArray of GQuark or NULL.
* Caller must release the GArray with g_array_unref().
*/
uint64_t v);
/*
* Returns a GArray of GQuark or NULL.
* Caller must release the GArray with g_array_unref().
*/
-GArray *enum_int_to_quark_set(const struct declaration_enum *enum_declaration,
+GArray *bt_enum_int_to_quark_set(const struct declaration_enum *enum_declaration,
* Callers do _not_ own the returned GArray (and therefore _don't_ need to
* release it).
*/
* Callers do _not_ own the returned GArray (and therefore _don't_ need to
* release it).
*/
-GArray *enum_quark_to_range_set(const struct declaration_enum *enum_declaration,
+GArray *bt_enum_quark_to_range_set(const struct declaration_enum *enum_declaration,
-void enum_signed_insert(struct declaration_enum *enum_declaration,
+void bt_enum_signed_insert(struct declaration_enum *enum_declaration,
int64_t start, int64_t end, GQuark q);
int64_t start, int64_t end, GQuark q);
-void enum_unsigned_insert(struct declaration_enum *enum_declaration,
+void bt_enum_unsigned_insert(struct declaration_enum *enum_declaration,
uint64_t start, uint64_t end, GQuark q);
uint64_t start, uint64_t end, GQuark q);
-size_t enum_get_nr_enumerators(struct declaration_enum *enum_declaration);
+size_t bt_enum_get_nr_enumerators(struct declaration_enum *enum_declaration);
struct declaration_enum *
struct declaration_enum *
- enum_declaration_new(struct declaration_integer *integer_declaration);
+ bt_enum_declaration_new(struct declaration_integer *integer_declaration);
struct declaration_string *
string_declaration_new(enum ctf_string_encoding encoding);
struct declaration_string *
string_declaration_new(enum ctf_string_encoding encoding);
* Returns a GArray or NULL.
* Caller must release the GArray with g_array_unref().
*/
* Returns a GArray or NULL.
* Caller must release the GArray with g_array_unref().
*/
-GArray *enum_uint_to_quark_set(const struct declaration_enum *enum_declaration,
+GArray *bt_enum_uint_to_quark_set(const struct declaration_enum *enum_declaration,
uint64_t v)
{
struct enum_range_to_quark *iter;
uint64_t v)
{
struct enum_range_to_quark *iter;
* Returns a GArray or NULL.
* Caller must release the GArray with g_array_unref().
*/
* Returns a GArray or NULL.
* Caller must release the GArray with g_array_unref().
*/
-GArray *enum_int_to_quark_set(const struct declaration_enum *enum_declaration,
+GArray *bt_enum_int_to_quark_set(const struct declaration_enum *enum_declaration,
int64_t v)
{
struct enum_range_to_quark *iter;
int64_t v)
{
struct enum_range_to_quark *iter;
-void enum_unsigned_insert_value_to_quark_set(struct declaration_enum *enum_declaration,
+void bt_enum_unsigned_insert_value_to_quark_set(struct declaration_enum *enum_declaration,
uint64_t v, GQuark q)
{
uint64_t *valuep;
uint64_t v, GQuark q)
{
uint64_t *valuep;
-void enum_signed_insert_value_to_quark_set(struct declaration_enum *enum_declaration,
+void bt_enum_signed_insert_value_to_quark_set(struct declaration_enum *enum_declaration,
int64_t v, GQuark q)
{
int64_t *valuep;
int64_t v, GQuark q)
{
int64_t *valuep;
-GArray *enum_quark_to_range_set(const struct declaration_enum *enum_declaration,
+GArray *bt_enum_quark_to_range_set(const struct declaration_enum *enum_declaration,
GQuark q)
{
return g_hash_table_lookup(enum_declaration->table.quark_to_range_set,
GQuark q)
{
return g_hash_table_lookup(enum_declaration->table.quark_to_range_set,
-void enum_signed_insert_range_to_quark(struct declaration_enum *enum_declaration,
+void bt_enum_signed_insert_range_to_quark(struct declaration_enum *enum_declaration,
int64_t start, int64_t end, GQuark q)
{
struct enum_range_to_quark *rtoq;
int64_t start, int64_t end, GQuark q)
{
struct enum_range_to_quark *rtoq;
-void enum_unsigned_insert_range_to_quark(struct declaration_enum *enum_declaration,
+void bt_enum_unsigned_insert_range_to_quark(struct declaration_enum *enum_declaration,
uint64_t start, uint64_t end, GQuark q)
{
struct enum_range_to_quark *rtoq;
uint64_t start, uint64_t end, GQuark q)
{
struct enum_range_to_quark *rtoq;
-void enum_signed_insert(struct declaration_enum *enum_declaration,
+void bt_enum_signed_insert(struct declaration_enum *enum_declaration,
int64_t start, int64_t end, GQuark q)
{
GArray *array;
struct enum_range *range;
if (start == end) {
int64_t start, int64_t end, GQuark q)
{
GArray *array;
struct enum_range *range;
if (start == end) {
- enum_signed_insert_value_to_quark_set(enum_declaration, start, q);
+ bt_enum_signed_insert_value_to_quark_set(enum_declaration, start, q);
} else {
if (start > end) {
uint64_t tmp;
} else {
if (start > end) {
uint64_t tmp;
start = end;
end = tmp;
}
start = end;
end = tmp;
}
- enum_signed_insert_range_to_quark(enum_declaration, start, end, q);
+ bt_enum_signed_insert_range_to_quark(enum_declaration, start, end, q);
}
array = g_hash_table_lookup(enum_declaration->table.quark_to_range_set,
}
array = g_hash_table_lookup(enum_declaration->table.quark_to_range_set,
range->end._signed = end;
}
range->end._signed = end;
}
-void enum_unsigned_insert(struct declaration_enum *enum_declaration,
+void bt_enum_unsigned_insert(struct declaration_enum *enum_declaration,
uint64_t start, uint64_t end, GQuark q)
{
GArray *array;
uint64_t start, uint64_t end, GQuark q)
{
GArray *array;
- enum_unsigned_insert_value_to_quark_set(enum_declaration, start, q);
+ bt_enum_unsigned_insert_value_to_quark_set(enum_declaration, start, q);
} else {
if (start > end) {
uint64_t tmp;
} else {
if (start > end) {
uint64_t tmp;
start = end;
end = tmp;
}
start = end;
end = tmp;
}
- enum_unsigned_insert_range_to_quark(enum_declaration, start, end, q);
+ bt_enum_unsigned_insert_range_to_quark(enum_declaration, start, end, q);
}
array = g_hash_table_lookup(enum_declaration->table.quark_to_range_set,
}
array = g_hash_table_lookup(enum_declaration->table.quark_to_range_set,
range->end._unsigned = end;
}
range->end._unsigned = end;
}
-size_t enum_get_nr_enumerators(struct declaration_enum *enum_declaration)
+size_t bt_enum_get_nr_enumerators(struct declaration_enum *enum_declaration)
{
return g_hash_table_size(enum_declaration->table.quark_to_range_set);
}
{
return g_hash_table_size(enum_declaration->table.quark_to_range_set);
}
}
struct declaration_enum *
}
struct declaration_enum *
- enum_declaration_new(struct declaration_integer *integer_declaration)
+ bt_enum_declaration_new(struct declaration_integer *integer_declaration)
{
struct declaration_enum *enum_declaration;
{
struct declaration_enum *enum_declaration;
* variant choice map to an enumerator too. We then validate that the
* number of enumerators equals the number of variant choices.
*/
* variant choice map to an enumerator too. We then validate that the
* number of enumerators equals the number of variant choices.
*/
- if (variant->declaration->untagged_variant->fields->len != enum_get_nr_enumerators(enum_declaration))
+ if (variant->declaration->untagged_variant->fields->len != bt_enum_get_nr_enumerators(enum_declaration))
return -EPERM;
for (i = 0; i < variant->declaration->untagged_variant->fields->len; i++) {
struct declaration_field *field_declaration =
&g_array_index(variant->declaration->untagged_variant->fields,
struct declaration_field, i);
return -EPERM;
for (i = 0; i < variant->declaration->untagged_variant->fields->len; i++) {
struct declaration_field *field_declaration =
&g_array_index(variant->declaration->untagged_variant->fields,
struct declaration_field, i);
- if (!enum_quark_to_range_set(enum_declaration, field_declaration->name)) {
+ if (!bt_enum_quark_to_range_set(enum_declaration, field_declaration->name)) {
missing_field = 1;
break;
}
missing_field = 1;
break;
}