2017-10-03 20:44:07 -03:00
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#include "AP_InertialSensor.h"
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#include <GCS_MAVLink/GCS.h>
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// Class level parameters
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const AP_Param::GroupInfo AP_InertialSensor::BatchSampler::var_info[] = {
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// @Param: BAT_CNT
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// @DisplayName: sample count per batch
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// @Description: Number of samples to take when logging streams of IMU sensor readings. Will be rounded down to a multiple of 32.
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// @User: Advanced
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// @Increment: 32
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AP_GROUPINFO("BAT_CNT", 1, AP_InertialSensor::BatchSampler, _required_count, 1024),
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// @Param: BAT_MASK
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// @DisplayName: Sensor Bitmask
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// @Description: Bitmap of which IMUs to log batch data for
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// @User: Advanced
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// @Values: 0:None,1:First IMU,255:All
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// @Bitmask: 0:IMU1,1:IMU2,2:IMU3
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AP_GROUPINFO("BAT_MASK", 2, AP_InertialSensor::BatchSampler, _sensor_mask, DEFAULT_IMU_LOG_BAT_MASK),
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AP_GROUPEND
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};
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extern const AP_HAL::HAL& hal;
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void AP_InertialSensor::BatchSampler::init()
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{
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if (_sensor_mask == 0) {
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return;
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}
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if (_required_count <= 0) {
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return;
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}
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_required_count -= _required_count % 32; // round down to nearest multiple of 32
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const uint32_t total_allocation = 3*_required_count*sizeof(uint16_t);
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gcs().send_text(MAV_SEVERITY_DEBUG, "INS: alloc %u bytes for ISB (free=%u)", total_allocation, hal.util->available_memory());
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data_x = (int16_t*)calloc(_required_count, sizeof(int16_t));
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data_y = (int16_t*)calloc(_required_count, sizeof(int16_t));
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data_z = (int16_t*)calloc(_required_count, sizeof(int16_t));
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if (data_x == nullptr || data_y == nullptr || data_z == nullptr) {
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free(data_x);
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free(data_y);
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free(data_z);
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data_x = nullptr;
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data_y = nullptr;
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data_z = nullptr;
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gcs().send_text(MAV_SEVERITY_WARNING, "Failed to allocate %u bytes for IMU batch sampling", total_allocation);
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return;
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}
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rotate_to_next_sensor();
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initialised = true;
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}
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void AP_InertialSensor::BatchSampler::periodic()
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{
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if (_sensor_mask == 0) {
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return;
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}
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push_data_to_log();
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}
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void AP_InertialSensor::BatchSampler::rotate_to_next_sensor()
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{
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if (_sensor_mask == 0) {
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// should not have been called
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return;
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}
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if ((1U<<instance) > (uint8_t)_sensor_mask) {
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// should only ever happen if user resets _sensor_mask
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instance = 0;
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}
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if (type == IMU_SENSOR_TYPE_ACCEL) {
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// we have logged accelerometers, now log gyros:
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type = IMU_SENSOR_TYPE_GYRO;
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multiplier = multiplier_gyro;
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return;
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}
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// log for accel sensor:
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type = IMU_SENSOR_TYPE_ACCEL;
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multiplier = multiplier_accel;
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// move to next IMU backend:
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// we assume the number of gyros and accels is the same, taking
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// this minimum stops us doing bad things if that isn't true:
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const uint8_t _count = MIN(_imu._accel_count, _imu._gyro_count);
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// find next backend instance to log:
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for (uint8_t i=instance+1; i<_count; i++) {
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if (_sensor_mask & (1U<<i)) {
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instance = i;
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return;
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}
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}
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for (uint8_t i=0; i<instance; i++) {
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if (_sensor_mask & (1U<<i)) {
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instance = i;
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return;
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}
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}
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}
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void AP_InertialSensor::BatchSampler::push_data_to_log()
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{
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if (!initialised) {
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return;
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}
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if (_sensor_mask == 0) {
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return;
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}
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if (data_write_offset - data_read_offset < samples_per_msg) {
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// insuffucient data to pack a packet
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return;
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}
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const uint32_t now = AP_HAL::millis();
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if (now - last_sent_ms < push_interval_ms) {
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// avoid flooding DataFlash's buffer
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return;
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}
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DataFlash_Class *dataflash = DataFlash_Class::instance();
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if (dataflash == nullptr) {
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// should not have been called
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return;
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}
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// possibly send isb header:
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if (!isbh_sent && data_read_offset == 0) {
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float sample_rate = 0; // avoid warning about uninitialised values
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switch(type) {
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case IMU_SENSOR_TYPE_GYRO:
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sample_rate = _imu._gyro_raw_sample_rates[instance];
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break;
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case IMU_SENSOR_TYPE_ACCEL:
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sample_rate = _imu._accel_raw_sample_rates[instance];
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break;
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}
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if (!dataflash->Log_Write_ISBH(isb_seqnum,
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type,
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instance,
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multiplier,
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2017-10-10 20:35:41 -03:00
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_required_count,
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2017-10-03 20:44:07 -03:00
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measurement_started_us,
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sample_rate)) {
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// buffer full?
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return;
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}
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isbh_sent = true;
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}
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// pack and send a data packet:
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if (!dataflash->Log_Write_ISBD(isb_seqnum,
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data_read_offset/samples_per_msg,
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&data_x[data_read_offset],
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&data_y[data_read_offset],
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&data_z[data_read_offset])) {
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// maybe later?!
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return;
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}
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data_read_offset += samples_per_msg;
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last_sent_ms = AP_HAL::millis();
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if (data_read_offset >= _required_count) {
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// that was the last one. Clean up:
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data_read_offset = 0;
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isb_seqnum++;
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isbh_sent = false;
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// rotate to next instance:
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rotate_to_next_sensor();
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data_write_offset = 0; // unlocks writing process
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}
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}
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bool AP_InertialSensor::BatchSampler::should_log(uint8_t _instance, IMU_SENSOR_TYPE _type)
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{
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if (_sensor_mask == 0) {
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return false;
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}
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if (!initialised) {
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return false;
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}
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if (_instance != instance) {
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return false;
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}
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if (_type != type) {
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return false;
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}
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if (data_write_offset >= _required_count) {
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return false;
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}
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DataFlash_Class *dataflash = DataFlash_Class::instance();
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#define MASK_LOG_ANY 0xFFFF
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if (!dataflash->should_log(MASK_LOG_ANY)) {
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return false;
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}
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return true;
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}
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void AP_InertialSensor::BatchSampler::sample(uint8_t _instance, AP_InertialSensor::IMU_SENSOR_TYPE _type, uint64_t sample_us, const Vector3f &_sample)
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{
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if (!should_log(_instance, _type)) {
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return;
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}
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if (data_write_offset == 0) {
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measurement_started_us = sample_us;
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}
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data_x[data_write_offset] = multiplier*_sample.x;
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data_y[data_write_offset] = multiplier*_sample.y;
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data_z[data_write_offset] = multiplier*_sample.z;
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data_write_offset++; // may unblock the reading process
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}
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