#include #if HAL_LOGGING_ENABLED #include "AP_InertialSensor.h" #include "AP_InertialSensor_Backend.h" #include // Write ACC data packet: raw accel data void AP_InertialSensor_Backend::Write_ACC(const uint8_t instance, const uint64_t sample_us, const Vector3f &accel) const { const uint64_t now = AP_HAL::micros64(); const struct log_ACC pkt { LOG_PACKET_HEADER_INIT(LOG_ACC_MSG), time_us : now, instance : instance, sample_us : sample_us?sample_us:now, AccX : accel.x, AccY : accel.y, AccZ : accel.z }; AP::logger().WriteBlock(&pkt, sizeof(pkt)); } // Write GYR data packet: raw gyro data void AP_InertialSensor_Backend::Write_GYR(const uint8_t instance, const uint64_t sample_us, const Vector3f &gyro, bool use_sample_timestamp) const { const uint64_t now = use_sample_timestamp?sample_us:AP_HAL::micros64(); const struct log_GYR pkt{ LOG_PACKET_HEADER_INIT(LOG_GYR_MSG), time_us : now, instance : instance, sample_us : sample_us?sample_us:now, GyrX : gyro.x, GyrY : gyro.y, GyrZ : gyro.z }; AP::logger().WriteBlock(&pkt, sizeof(pkt)); } // Write IMU data packet: raw accel/gyro data void AP_InertialSensor::Write_IMU_instance(const uint64_t time_us, const uint8_t imu_instance) const { const Vector3f &gyro = get_gyro(imu_instance); const Vector3f &accel = get_accel(imu_instance); const struct log_IMU pkt{ LOG_PACKET_HEADER_INIT(LOG_IMU_MSG), time_us : time_us, instance: imu_instance, gyro_x : gyro.x, gyro_y : gyro.y, gyro_z : gyro.z, accel_x : accel.x, accel_y : accel.y, accel_z : accel.z, gyro_error : _gyro_error_count[imu_instance], accel_error : _accel_error_count[imu_instance], temperature : get_temperature(imu_instance), gyro_health : (uint8_t)get_gyro_health(imu_instance), accel_health : (uint8_t)get_accel_health(imu_instance), gyro_rate : get_gyro_rate_hz(imu_instance), accel_rate : get_accel_rate_hz(imu_instance), }; AP::logger().WriteBlock(&pkt, sizeof(pkt)); } // Write IMU data packet for all instances void AP_InertialSensor::Write_IMU() const { const uint64_t time_us = AP_HAL::micros64(); uint8_t n = MAX(get_accel_count(), get_gyro_count()); for (uint8_t i=0; i 1) { // log per motor center frequencies AP::logger().WriteStreaming( "FTN", "TimeUS,I,NDn,NF1,NF2,NF3,NF4,NF5,NF6,NF7,NF8,NF9,NF10,NF11,NF12", "s#-zzzzzzzzzzzz", "F--------------", "QBBffffffffffff", AP_HAL::micros64(), i, notch.num_calculated_notch_frequencies, notches[0], notches[1], notches[2], notches[3], notches[4], notches[5], notches[6], notches[7], notches[8], notches[9], notches[10], notches[11]); } else { // log single center frequency AP::logger().WriteStreaming( "FTNS", "TimeUS,I,NF", "s#z", "F--", "QBf", AP_HAL::micros64(), i, notches[0]); } } } #endif // HAL_LOGGING_ENABLED