ardupilot/libraries/AP_Mount/AP_Mount_Alexmos.cpp

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// -*- tab-width: 4; Mode: C++; c-basic-offset: 4; indent-tabs-mode: nil -*-
#include "AP_Mount_Alexmos.h"
extern const AP_HAL::HAL& hal;
void AP_Mount_Alexmos::init(const AP_SerialManager& serial_manager)
{
// check for alexmos protcol
if ((_port = serial_manager.find_serial(AP_SerialManager::SerialProtocol_AlexMos, 0))) {
_initialised = true;
get_boardinfo();
read_params(0); //we request parameters for profile 0 and therfore get global and profile parameters
}
}
// update mount position - should be called periodically
void AP_Mount_Alexmos::update()
{
if (!_initialised) {
return;
}
read_incoming(); // read the incoming messages from the gimbal
// update based on mount mode
switch(get_mode()) {
// move mount to a "retracted" position. we do not implement a separate servo based retract mechanism
case MAV_MOUNT_MODE_RETRACT:
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control_axis(_state._retract_angles.get(), true);
break;
// move mount to a neutral position, typically pointing forward
case MAV_MOUNT_MODE_NEUTRAL:
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control_axis(_state._neutral_angles.get(), true);
break;
// point to the angles given by a mavlink message
case MAV_MOUNT_MODE_MAVLINK_TARGETING:
// do nothing because earth-frame angle targets (i.e. _angle_ef_target_rad) should have already been set by a MOUNT_CONTROL message from GCS
break;
// RC radio manual angle control, but with stabilization from the AHRS
case MAV_MOUNT_MODE_RC_TARGETING:
// update targets using pilot's rc inputs
update_targets_from_rc();
control_axis(_angle_ef_target_rad, false);
break;
// point mount to a GPS point given by the mission planner
case MAV_MOUNT_MODE_GPS_POINT:
if(_frontend._ahrs.get_gps().status() >= AP_GPS::GPS_OK_FIX_2D) {
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calc_angle_to_location(_state._roi_target, _angle_ef_target_rad, true, false);
control_axis(_angle_ef_target_rad, false);
}
break;
default:
// we do not know this mode so do nothing
break;
}
}
// has_pan_control - returns true if this mount can control it's pan (required for multicopters)
bool AP_Mount_Alexmos::has_pan_control() const
{
return _gimbal_3axis;
}
// set_mode - sets mount's mode
void AP_Mount_Alexmos::set_mode(enum MAV_MOUNT_MODE mode)
{
// record the mode change and return success
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_state._mode = mode;
}
// status_msg - called to allow mounts to send their status to GCS using the MOUNT_STATUS message
void AP_Mount_Alexmos::status_msg(mavlink_channel_t chan)
{
get_angles();
mavlink_msg_mount_status_send(chan, 0, 0, _current_angle.y*100, _current_angle.x*100, _current_angle.z*100);
}
/*
* get_angles
*/
void AP_Mount_Alexmos::get_angles()
{
uint8_t data[1] = {(uint8_t)1};
send_command (CMD_GET_ANGLES, data , 1);
}
/*
* set_motor will activate motors if true , and disable them if false.
*/
void AP_Mount_Alexmos::set_motor(bool on){
if (on) {
uint8_t data[1] = {(uint8_t)1};
send_command (CMD_MOTORS_ON, data, 1);
} else {
uint8_t data[1] = {(uint8_t)1};
send_command (CMD_MOTORS_OFF, data, 1);
}
}
/*
* get board version and firmware version
*/
void AP_Mount_Alexmos::get_boardinfo()
{
if (_board_version != 0) {
return;
}
uint8_t data[1] = {(uint8_t)1};
send_command (CMD_BOARD_INFO, data , 1);
}
/*
control_axis : send new angles to the gimbal at a fixed speed of 30 deg/s2
*/
void AP_Mount_Alexmos::control_axis(const Vector3f& angle, bool target_in_degrees )
{
// convert to degrees if necessary
Vector3f target_deg = angle;
if (!target_in_degrees) {
target_deg *= RAD_TO_DEG;
}
alexmos_parameters outgoing_buffer;
outgoing_buffer.angle_speed.mode = AP_MOUNT_ALEXMOS_MODE_ANGLE;
outgoing_buffer.angle_speed.speed_roll = DEGREE_PER_SEC_TO_VALUE(AP_MOUNT_ALEXMOS_SPEED);
outgoing_buffer.angle_speed.angle_roll = DEGREE_TO_VALUE(target_deg.x);
outgoing_buffer.angle_speed.speed_pitch = DEGREE_PER_SEC_TO_VALUE(AP_MOUNT_ALEXMOS_SPEED);
outgoing_buffer.angle_speed.angle_pitch = DEGREE_TO_VALUE(target_deg.y);
outgoing_buffer.angle_speed.speed_yaw = DEGREE_PER_SEC_TO_VALUE(AP_MOUNT_ALEXMOS_SPEED);
outgoing_buffer.angle_speed.angle_yaw = DEGREE_TO_VALUE(target_deg.z);
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send_command (CMD_CONTROL, (uint8_t *)&outgoing_buffer.angle_speed , sizeof(alexmos_angles_speed));
}
/*
read current profile profile_id and global parameters from the gimbal settings
*/
void AP_Mount_Alexmos::read_params(uint8_t profile_id){
uint8_t data[1] = {(uint8_t) profile_id};
send_command (CMD_READ_PARAMS, data , 1);
}
/*
write new parameters to the gimbal settings
*/
void AP_Mount_Alexmos::write_params()
{
if (!_param_read_once) {
return;
}
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send_command (CMD_WRITE_PARAMS, (uint8_t *)&_current_parameters.params , sizeof(alexmos_params));
}
/*
send a command to the Alemox Serial API
*/
void AP_Mount_Alexmos::send_command(uint8_t cmd, uint8_t* data, uint8_t size)
{
if (_port->txspace() < (size + 5)) {
return;
}
uint8_t checksum = 0;
_port->write( '>' );
_port->write( cmd ); // write command id
_port->write( size ); // write body size
_port->write( cmd+size ); // write header checkum
for (uint8_t i = 0; i != size ; i++) {
checksum += data[i];
_port->write ( data[i] );
}
_port->write (checksum);
}
/*
* Parse the body of the message received from the Alexmos gimbal
*/
void AP_Mount_Alexmos::parse_body()
{
switch (_command_id ) {
case CMD_BOARD_INFO:
_board_version = _buffer.version._board_version/ 10;
_current_firmware_version = _buffer.version._firmware_version / 1000.0f ;
_firmware_beta_version = _buffer.version._firmware_version % 10 ;
_gimbal_3axis = ( _buffer.version._board_features & 0x1 );
_gimbal_bat_monitoring = (_buffer.version._board_features & 0x2 );
break;
case CMD_GET_ANGLES:
_current_angle.x = VALUE_TO_DEGREE(_buffer.angles.angle_roll);
_current_angle.y = VALUE_TO_DEGREE(_buffer.angles.angle_pitch);
_current_angle.z = VALUE_TO_DEGREE(_buffer.angles.angle_yaw);
break;
case CMD_READ_PARAMS:
_param_read_once = true;
_current_parameters.params = _buffer.params;
break;
case CMD_WRITE_PARAMS:
break;
default :
_last_command_confirmed = true;
break;
}
}
/*
* detect and read the header of the incoming message from the gimbal
*/
void AP_Mount_Alexmos::read_incoming()
{
uint8_t data;
int16_t numc;
numc = _port->available();
if (numc < 0 ){
return;
}
for (int16_t i = 0; i < numc; i++) { // Process bytes received
data = _port->read();
switch (_step) {
case 0:
if ( '>' == data) {
_step = 1;
_checksum = 0; //reset checksum accumulator
_last_command_confirmed = false;
}
break;
case 1: // command ID
_checksum = data;
_command_id = data;
_step++;
break;
case 2: // Size of the body of the message
_checksum += data;
_payload_length = data;
_step++;
break;
case 3: // checksum of the header
if (_checksum != data ) {
_step = 0;
_checksum = 0;
// checksum error
break;
}
_step++;
_checksum = 0;
_payload_counter = 0; // prepare to receive payload
break;
case 4: // parsing body
_checksum += data;
if (_payload_counter < sizeof(_buffer)) {
_buffer.bytes[_payload_counter] = data;
}
if (++_payload_counter == _payload_length)
_step++;
break;
case 5:// body checksum
_step = 0;
if (_checksum != data) {
break;
}
parse_body ();
}
}
}