#include <babeltrace/assert-pre-internal.h>
#include <babeltrace/compat/uuid-internal.h>
+#include <babeltrace/trace-ir/clock-class-const.h>
+#include <babeltrace/trace-ir/clock-class.h>
#include <babeltrace/trace-ir/clock-class-internal.h>
#include <babeltrace/trace-ir/clock-snapshot-internal.h>
#include <babeltrace/trace-ir/utils-internal.h>
static inline
void set_base_offset(struct bt_clock_class *clock_class)
{
- uint64_t offset_cycles_ns;
-
- /* Initialize nanosecond timestamp to clock's offset in seconds */
- if (clock_class->offset_seconds <= (INT64_MIN / INT64_C(1000000000) - 1) ||
- clock_class->offset_seconds >= (INT64_MAX / INT64_C(1000000000)) - 1) {
- /*
- * Overflow: offset in seconds converted to nanoseconds
- * is outside the int64_t range. We also subtract 1 here
- * to leave "space" for the offset in cycles converted
- * to nanoseconds (which is always less than 1 second by
- * contract).
- */
- clock_class->base_offset.overflows = true;
- goto end;
- }
-
- /* Offset (seconds) to nanoseconds */
- clock_class->base_offset.value_ns = clock_class->offset_seconds *
- INT64_C(1000000000);
-
- /* Add offset in cycles */
- BT_ASSERT(clock_class->offset_cycles < clock_class->frequency);
- offset_cycles_ns = bt_util_ns_from_value(clock_class->frequency,
- clock_class->offset_cycles);
- BT_ASSERT(offset_cycles_ns < 1000000000);
- clock_class->base_offset.value_ns += (int64_t) offset_cycles_ns;
- clock_class->base_offset.overflows = false;
-
-end:
- return;
+ clock_class->base_offset.overflows = bt_util_get_base_offset_ns(
+ clock_class->offset_seconds, clock_class->offset_cycles,
+ clock_class->frequency, &clock_class->base_offset.value_ns);
}
-struct bt_clock_class *bt_clock_class_create(void)
+struct bt_clock_class *bt_clock_class_create(bt_trace_class *trace_class)
{
int ret;
struct bt_clock_class *clock_class = NULL;
+ BT_ASSERT_PRE_NON_NULL(trace_class, "Trace class");
BT_LOGD_STR("Creating default clock class object");
clock_class = g_new0(struct bt_clock_class, 1);
return clock_class->name.value;
}
-int bt_clock_class_set_name(struct bt_clock_class *clock_class,
- const char *name)
+enum bt_clock_class_status bt_clock_class_set_name(
+ struct bt_clock_class *clock_class, const char *name)
{
BT_ASSERT_PRE_NON_NULL(clock_class, "Clock class");
BT_ASSERT_PRE_NON_NULL(name, "Name");
g_string_assign(clock_class->name.str, name);
clock_class->name.value = clock_class->name.str->str;
BT_LIB_LOGV("Set clock class's name: %!+K", clock_class);
- return 0;
+ return BT_CLOCK_CLASS_STATUS_OK;
}
const char *bt_clock_class_get_description(
return clock_class->description.value;
}
-int bt_clock_class_set_description(struct bt_clock_class *clock_class,
- const char *descr)
+enum bt_clock_class_status bt_clock_class_set_description(
+ struct bt_clock_class *clock_class, const char *descr)
{
BT_ASSERT_PRE_NON_NULL(clock_class, "Clock class");
BT_ASSERT_PRE_NON_NULL(descr, "Description");
clock_class->description.value = clock_class->description.str->str;
BT_LIB_LOGV("Set clock class's description: %!+K",
clock_class);
- return 0;
+ return BT_CLOCK_CLASS_STATUS_OK;
}
uint64_t bt_clock_class_get_frequency(const struct bt_clock_class *clock_class)
((struct bt_clock_class *) clock_class)->frozen = 1;
}
-int bt_clock_class_cycles_to_ns_from_origin(
+enum bt_clock_class_status bt_clock_class_cycles_to_ns_from_origin(
const struct bt_clock_class *clock_class,
uint64_t cycles, int64_t *ns)
{
BT_ASSERT_PRE_NON_NULL(clock_class, "Clock class");
BT_ASSERT_PRE_NON_NULL(ns, "Nanoseconds (output)");
- ret = bt_util_ns_from_origin(clock_class, cycles, ns);
+ ret = bt_util_ns_from_origin_clock_class(clock_class, cycles, ns);
if (ret) {
+ ret = BT_CLOCK_CLASS_STATUS_OVERFLOW;
BT_LIB_LOGW("Cannot convert cycles to nanoseconds "
"from origin for given clock class: "
"value overflows the signed 64-bit integer range: "