&& integer_declaration->p.alignment == CHAR_BIT)) {
pos->string = sequence_definition->string;
g_string_assign(sequence_definition->string, "");
- ret = sequence_rw(ppos, definition);
+ ret = bt_sequence_rw(ppos, definition);
pos->string = NULL;
}
fprintf(pos->fp, "\"%s\"", sequence_definition->string->str);
}
field_nr_saved = pos->field_nr;
pos->field_nr = 0;
- ret = sequence_rw(ppos, definition);
+ ret = bt_sequence_rw(ppos, definition);
if (!pos->dummy) {
pos->depth--;
fprintf(pos->fp, " ]");
struct definition_sequence *sequence_definition;
sequence_definition = container_of(field,
struct definition_sequence, p);
- ret = sequence_index(sequence_definition, index);
+ ret = bt_sequence_index(sequence_definition, index);
}
return ret;
}
char *length_name = concatenate_unary_strings(&node_type_declarator->u.type_declarator.u.nested.length);
struct declaration_sequence *sequence_declaration;
- sequence_declaration = sequence_declaration_new(length_name, nested_declaration, declaration_scope);
+ sequence_declaration = bt_sequence_declaration_new(length_name, nested_declaration, declaration_scope);
if (!sequence_declaration) {
fprintf(fd, "[error] %s: cannot create sequence declaration.\n", __func__);
g_free(length_name);
if (integer_declaration->len == CHAR_BIT
&& integer_declaration->p.alignment == CHAR_BIT) {
- uint64_t len = sequence_len(sequence_definition);
+ uint64_t len = bt_sequence_len(sequence_definition);
ctf_align_pos(pos, integer_declaration->p.alignment);
if (!ctf_pos_access_ok(pos, len * CHAR_BIT))
}
}
}
- return sequence_rw(ppos, definition);
+ return bt_sequence_rw(ppos, definition);
}
int ctf_sequence_write(struct stream_pos *ppos, struct definition *definition)
if (integer_declaration->len == CHAR_BIT
&& integer_declaration->p.alignment == CHAR_BIT) {
- uint64_t len = sequence_len(sequence_definition);
+ uint64_t len = bt_sequence_len(sequence_definition);
ctf_align_pos(pos, integer_declaration->p.alignment);
if (!ctf_pos_access_ok(pos, len * CHAR_BIT))
}
}
}
- return sequence_rw(ppos, definition);
+ return bt_sequence_rw(ppos, definition);
}
* to the sequence. No need to free them explicitly.
*/
struct declaration_sequence *
- sequence_declaration_new(const char *length_name,
+ bt_sequence_declaration_new(const char *length_name,
struct declaration *elem_declaration,
struct declaration_scope *parent_scope);
-uint64_t sequence_len(struct definition_sequence *sequence);
-struct definition *sequence_index(struct definition_sequence *sequence, uint64_t i);
-int sequence_rw(struct stream_pos *pos, struct definition *definition);
+uint64_t bt_sequence_len(struct definition_sequence *sequence);
+struct definition *bt_sequence_index(struct definition_sequence *sequence, uint64_t i);
+int bt_sequence_rw(struct stream_pos *pos, struct definition *definition);
/*
* in: path (dot separated), out: q (GArray of GQuark)
static
void _sequence_definition_free(struct definition *definition);
-int sequence_rw(struct stream_pos *pos, struct definition *definition)
+int bt_sequence_rw(struct stream_pos *pos, struct definition *definition)
{
struct definition_sequence *sequence_definition =
container_of(definition, struct definition_sequence, p);
}
struct declaration_sequence *
- sequence_declaration_new(const char *length,
+ bt_sequence_declaration_new(const char *length,
struct declaration *elem_declaration,
struct declaration_scope *parent_scope)
{
g_free(sequence);
}
-uint64_t sequence_len(struct definition_sequence *sequence)
+uint64_t bt_sequence_len(struct definition_sequence *sequence)
{
return sequence->length->value._unsigned;
}
-struct definition *sequence_index(struct definition_sequence *sequence, uint64_t i)
+struct definition *bt_sequence_index(struct definition_sequence *sequence, uint64_t i)
{
if (!sequence->elems)
return NULL;