-Updating rpresentation from ROTATION_VECTOR_EVENT_RAW_DATA_REPORT_ON_TIME to ROTATION_VECTOR_RAW_DATA_EVENT
Change-Id: Iaee8da2a4523f48a08a251ab931e4fc82ccb0911
FILL_LOG_ELEMENT(LOG_ID_EVENT, ORIENTATION_RAW_DATA_EVENT, 0, 10),
FILL_LOG_ELEMENT(LOG_ID_EVENT, PRESSURE_RAW_DATA_EVENT, 0, 10),
FILL_LOG_ELEMENT(LOG_ID_EVENT, TEMPERATURE_RAW_DATA_EVENT, 0, 10),
- FILL_LOG_ELEMENT(LOG_ID_EVENT, ROTATION_VECTOR_EVENT_RAW_DATA_REPORT_ON_TIME, 0, 10),
+ FILL_LOG_ELEMENT(LOG_ID_EVENT, ROTATION_VECTOR_RAW_DATA_EVENT, 0, 10),
FILL_LOG_ELEMENT(LOG_ID_EVENT, GEOMAGNETIC_RV_RAW_DATA_EVENT, 0, 10),
FILL_LOG_ELEMENT(LOG_ID_EVENT, GAMING_RV_RAW_DATA_EVENT, 0, 10),
FILL_LOG_ELEMENT(LOG_ID_EVENT, FUSION_EVENT, 0, 10),
*/
enum rot_event_type {
- ROTATION_VECTOR_EVENT_RAW_DATA_REPORT_ON_TIME = (ROTATION_VECTOR_SENSOR << 16) | 0x0001,
+ ROTATION_VECTOR_RAW_DATA_EVENT = (ROTATION_VECTOR_SENSOR << 16) | 0x0001,
};
/**
cvirtual_sensor_config &config = cvirtual_sensor_config::get_instance();
m_name = string(SENSOR_NAME);
- register_supported_event(ROTATION_VECTOR_EVENT_RAW_DATA_REPORT_ON_TIME);
+ register_supported_event(ROTATION_VECTOR_RAW_DATA_EVENT);
m_enable_orientation = 0;
if (!config.get(SENSOR_TYPE_RV, ELEMENT_VENDOR, m_vendor)) {
m_time = get_timestamp();
rv_event.sensor_id = get_id();
- rv_event.event_type = ROTATION_VECTOR_EVENT_RAW_DATA_REPORT_ON_TIME;
+ rv_event.event_type = ROTATION_VECTOR_RAW_DATA_EVENT;
rv_event.data.accuracy = SENSOR_ACCURACY_GOOD;
rv_event.data.timestamp = m_time;
rv_event.data.value_count = 4;
{
sensor_data_t fusion_data;
- if (event_type != ROTATION_VECTOR_EVENT_RAW_DATA_REPORT_ON_TIME)
+ if (event_type != ROTATION_VECTOR_RAW_DATA_EVENT)
return -1;
m_fusion_sensor->get_sensor_data(FUSION_ORIENTATION_ENABLED, fusion_data);
if (event_type == ORIENTATION_RAW_DATA_EVENT ||
event_type == LINEAR_ACCEL_RAW_DATA_EVENT ||
event_type == GRAVITY_RAW_DATA_EVENT ||
- event_type == ROTATION_VECTOR_EVENT_RAW_DATA_REPORT_ON_TIME) {
+ event_type == ROTATION_VECTOR_RAW_DATA_EVENT) {
priority_list.insert(ACCELEROMETER_RAW_DATA_EVENT);
priority_list.insert(GYROSCOPE_RAW_DATA_EVENT);
priority_list.insert(GEOMAGNETIC_RAW_DATA_EVENT);
result = check_sensor_api(PRESSURE_RAW_DATA_EVENT, interval);
fprintf(fp, "Pressure - RAW_DATA_REPORT_ON_TIME - %d\n", result);
- result = check_sensor_api(ROTATION_VECTOR_EVENT_RAW_DATA_REPORT_ON_TIME, interval);
+ result = check_sensor_api(ROTATION_VECTOR_RAW_DATA_EVENT, interval);
fprintf(fp, "Rotation Vector - RAW_DATA_REPORT_ON_TIME - %d\n", result);
result = check_sensor_api(GEOMAGNETIC_RV_RAW_DATA_EVENT, interval);
break;
case ROTATION_VECTOR_SENSOR:
if (strcmp(str, "RAW_DATA_REPORT_ON_TIME") == 0)
- return ROTATION_VECTOR_EVENT_RAW_DATA_REPORT_ON_TIME;
+ return ROTATION_VECTOR_RAW_DATA_EVENT;
break;
case GEOMAGNETIC_RV_SENSOR:
if (strcmp(str, "RAW_DATA_REPORT_ON_TIME") == 0)
}
else if (strcmp(argv[1], "rotation_vector") == 0) {
sensor_type = ROTATION_VECTOR_SENSOR;
- event = ROTATION_VECTOR_EVENT_RAW_DATA_REPORT_ON_TIME;
+ event = ROTATION_VECTOR_RAW_DATA_EVENT;
}
else if (strcmp(argv[1], "geomagnetic_rv") == 0) {
sensor_type = GEOMAGNETIC_RV_SENSOR;