if (cur_ms) {
int i;
+
for (i = 0; i < new_size - 1 && i < cur_size - 1; i++)
measure_copy(&cur_ms[cur_size - i - 1],
&new_ms[new_size - i - 1]);
struct psensor **tmp;
if (!sensor)
- return ;
+ return;
tmp = psensor_list_add(*sensors, sensor);
if (sensor->type & type) {
int i;
double t;
+
for (i = 0; i < sensor->values_max_length; i++) {
t = sensor->measures[i].value;
return "Memory usage";
else if (type & SENSOR_TYPE_PCIE)
return "PCIe usage";
- else
- return "NVIDIA GPU";
+
+ return "NVIDIA GPU";
}
if (type & SENSOR_TYPE_ATIADL) {
return "AMD GPU Temperature";
else if (type & SENSOR_TYPE_RPM)
return "AMD GPU Fan Speed";
- else /* type & SENSOR_TYPE_USAGE */
- return "AMD GPU Usage";
+ /*else type & SENSOR_TYPE_USAGE */
+ return "AMD GPU Usage";
}
if ((type & SENSOR_TYPE_HDD_TEMP) == SENSOR_TYPE_HDD_TEMP)
if (is_temp_type(type)) {
if (use_celsius)
return "\302\260C";
- else
- return "\302\260F";
+ return "\302\260F";
} else if (type & SENSOR_TYPE_RPM) {
return _("RPM");
} else if (type & SENSOR_TYPE_PERCENT) {
return _("%");
- } else {
- return _("N/A");
}
+ return _("N/A");
}
void psensor_list_update_measures(struct psensor **sensors)