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# include <AP_Common/AP_Common.h>
# include <AP_Param/AP_Param.h>
# include "AP_Mount.h"
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# if HAL_MOUNT_ENABLED
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# include "AP_Mount_Backend.h"
# include "AP_Mount_Servo.h"
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# include "AP_Mount_SoloGimbal.h"
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# include "AP_Mount_Alexmos.h"
# include "AP_Mount_SToRM32.h"
# include "AP_Mount_SToRM32_serial.h"
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# include "AP_Mount_Gremsy.h"
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# include "AP_Mount_Siyi.h"
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# include "AP_Mount_Scripting.h"
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# include "AP_Mount_Xacti.h"
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# include "AP_Mount_Viewpro.h"
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# include <stdio.h>
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# include <AP_Math/location.h>
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# include <SRV_Channel/SRV_Channel.h>
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# include <AP_Logger/AP_Logger.h>
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const AP_Param : : GroupInfo AP_Mount : : var_info [ ] = {
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// @Group: 1
// @Path: AP_Mount_Params.cpp
AP_SUBGROUPINFO ( _params [ 0 ] , " 1 " , 43 , AP_Mount , AP_Mount_Params ) ,
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# if AP_MOUNT_MAX_INSTANCES > 1
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// @Group: 2
// @Path: AP_Mount_Params.cpp
AP_SUBGROUPINFO ( _params [ 1 ] , " 2 " , 44 , AP_Mount , AP_Mount_Params ) ,
# endif
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AP_GROUPEND
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} ;
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AP_Mount : : AP_Mount ( )
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{
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if ( _singleton ! = nullptr ) {
# if CONFIG_HAL_BOARD == HAL_BOARD_SITL
AP_HAL : : panic ( " Mount must be singleton " ) ;
# endif
return ;
}
_singleton = this ;
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AP_Param : : setup_object_defaults ( this , var_info ) ;
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}
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// init - detect and initialise all mounts
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void AP_Mount : : init ( )
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{
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// check init has not been called before
if ( _num_instances ! = 0 ) {
return ;
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}
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// perform any required parameter conversion
convert_params ( ) ;
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// primary is reset to the first instantiated mount
bool primary_set = false ;
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// create each instance
for ( uint8_t instance = 0 ; instance < AP_MOUNT_MAX_INSTANCES ; instance + + ) {
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switch ( get_mount_type ( instance ) ) {
case Type : : None :
break ;
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# if HAL_MOUNT_SERVO_ENABLED
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case Type : : Servo :
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_backends [ instance ] = new AP_Mount_Servo ( * this , _params [ instance ] , true , instance ) ;
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_num_instances + + ;
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break ;
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# endif
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# if HAL_SOLO_GIMBAL_ENABLED
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case Type : : SoloGimbal :
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_backends [ instance ] = new AP_Mount_SoloGimbal ( * this , _params [ instance ] , instance ) ;
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_num_instances + + ;
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break ;
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# endif // HAL_SOLO_GIMBAL_ENABLED
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# if HAL_MOUNT_ALEXMOS_ENABLED
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case Type : : Alexmos :
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_backends [ instance ] = new AP_Mount_Alexmos ( * this , _params [ instance ] , instance ) ;
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_num_instances + + ;
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break ;
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# endif
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# if HAL_MOUNT_STORM32MAVLINK_ENABLED
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// check for SToRM32 mounts using MAVLink protocol
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case Type : : SToRM32 :
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_backends [ instance ] = new AP_Mount_SToRM32 ( * this , _params [ instance ] , instance ) ;
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_num_instances + + ;
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break ;
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# endif
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# if HAL_MOUNT_STORM32SERIAL_ENABLED
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// check for SToRM32 mounts using serial protocol
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case Type : : SToRM32_serial :
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_backends [ instance ] = new AP_Mount_SToRM32_serial ( * this , _params [ instance ] , instance ) ;
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_num_instances + + ;
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break ;
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# endif
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# if HAL_MOUNT_GREMSY_ENABLED
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// check for Gremsy mounts
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case Type : : Gremsy :
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_backends [ instance ] = new AP_Mount_Gremsy ( * this , _params [ instance ] , instance ) ;
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_num_instances + + ;
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break ;
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# endif // HAL_MOUNT_GREMSY_ENABLED
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# if HAL_MOUNT_SERVO_ENABLED
// check for BrushlessPWM mounts (uses Servo backend)
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case Type : : BrushlessPWM :
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_backends [ instance ] = new AP_Mount_Servo ( * this , _params [ instance ] , false , instance ) ;
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_num_instances + + ;
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break ;
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# endif
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# if HAL_MOUNT_SIYI_ENABLED
// check for Siyi gimbal
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case Type : : Siyi :
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_backends [ instance ] = new AP_Mount_Siyi ( * this , _params [ instance ] , instance ) ;
_num_instances + + ;
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break ;
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# endif // HAL_MOUNT_SIYI_ENABLED
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# if HAL_MOUNT_SCRIPTING_ENABLED
// check for Scripting gimbal
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case Type : : Scripting :
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_backends [ instance ] = new AP_Mount_Scripting ( * this , _params [ instance ] , instance ) ;
_num_instances + + ;
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break ;
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# endif // HAL_MOUNT_SCRIPTING_ENABLED
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# if HAL_MOUNT_XACTI_ENABLED
// check for Xacti gimbal
case Type : : Xacti :
_backends [ instance ] = new AP_Mount_Xacti ( * this , _params [ instance ] , instance ) ;
_num_instances + + ;
break ;
# endif // HAL_MOUNT_XACTI_ENABLED
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# if HAL_MOUNT_VIEWPRO_ENABLED
// check for Xacti gimbal
case Type : : Viewpro :
_backends [ instance ] = new AP_Mount_Viewpro ( * this , _params [ instance ] , instance ) ;
_num_instances + + ;
break ;
# endif // HAL_MOUNT_VIEWPRO_ENABLED
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}
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// init new instance
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if ( _backends [ instance ] ! = nullptr ) {
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if ( ! primary_set ) {
_primary = instance ;
primary_set = true ;
}
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}
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}
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// init each instance, do it after all instances were created, so that they all know things
for ( uint8_t instance = 0 ; instance < AP_MOUNT_MAX_INSTANCES ; instance + + ) {
if ( _backends [ instance ] ! = nullptr ) {
_backends [ instance ] - > init ( ) ;
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set_mode_to_default ( instance ) ;
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}
}
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}
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// update - give mount opportunity to update servos. should be called at 10hz or higher
void AP_Mount : : update ( )
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{
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// update each instance
for ( uint8_t instance = 0 ; instance < AP_MOUNT_MAX_INSTANCES ; instance + + ) {
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if ( _backends [ instance ] ! = nullptr ) {
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_backends [ instance ] - > update ( ) ;
}
}
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}
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// used for gimbals that need to read INS data at full rate
void AP_Mount : : update_fast ( )
{
// update each instance
for ( uint8_t instance = 0 ; instance < AP_MOUNT_MAX_INSTANCES ; instance + + ) {
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if ( _backends [ instance ] ! = nullptr ) {
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_backends [ instance ] - > update_fast ( ) ;
}
}
}
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// get_mount_type - returns the type of mount
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AP_Mount : : Type AP_Mount : : get_mount_type ( uint8_t instance ) const
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{
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if ( instance > = AP_MOUNT_MAX_INSTANCES ) {
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return Type : : None ;
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}
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return ( Type ) _params [ instance ] . type . get ( ) ;
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}
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// has_pan_control - returns true if the mount has yaw control (required for copters)
bool AP_Mount : : has_pan_control ( uint8_t instance ) const
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{
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const auto * backend = get_instance ( instance ) ;
if ( backend = = nullptr ) {
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return false ;
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}
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// ask backend if it support pan
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return backend - > has_pan_control ( ) ;
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}
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// get_mode - returns current mode of mount (i.e. Retracted, Neutral, RC_Targeting, GPS Point)
MAV_MOUNT_MODE AP_Mount : : get_mode ( uint8_t instance ) const
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{
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const auto * backend = get_instance ( instance ) ;
if ( backend = = nullptr ) {
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return MAV_MOUNT_MODE_RETRACT ;
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}
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// ask backend its mode
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return backend - > get_mode ( ) ;
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}
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// set_mode_to_default - restores the mode to it's default mode held in the MNTx__DEFLT_MODE parameter
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// this operation requires 60us on a Pixhawk/PX4
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void AP_Mount : : set_mode_to_default ( uint8_t instance )
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{
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auto * backend = get_instance ( instance ) ;
if ( backend = = nullptr ) {
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return ;
}
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backend - > set_mode ( ( enum MAV_MOUNT_MODE ) _params [ instance ] . default_mode . get ( ) ) ;
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}
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// set_mode - sets mount's mode
void AP_Mount : : set_mode ( uint8_t instance , enum MAV_MOUNT_MODE mode )
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{
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auto * backend = get_instance ( instance ) ;
if ( backend = = nullptr ) {
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return ;
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}
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// call backend's set_mode
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backend - > set_mode ( mode ) ;
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}
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// set yaw_lock used in RC_TARGETING mode. If true, the gimbal's yaw target is maintained in earth-frame meaning it will lock onto an earth-frame heading (e.g. North)
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// If false (aka "follow") the gimbal's yaw is maintained in body-frame meaning it will rotate with the vehicle
void AP_Mount : : set_yaw_lock ( uint8_t instance , bool yaw_lock )
{
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auto * backend = get_instance ( instance ) ;
if ( backend = = nullptr ) {
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return ;
}
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// call backend's set_yaw_lock
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backend - > set_yaw_lock ( yaw_lock ) ;
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}
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// set angle target in degrees
// yaw_is_earth_frame (aka yaw_lock) should be true if yaw angle is earth-frame, false if body-frame
void AP_Mount : : set_angle_target ( uint8_t instance , float roll_deg , float pitch_deg , float yaw_deg , bool yaw_is_earth_frame )
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{
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auto * backend = get_instance ( instance ) ;
if ( backend = = nullptr ) {
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return ;
}
// send command to backend
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backend - > set_angle_target ( roll_deg , pitch_deg , yaw_deg , yaw_is_earth_frame ) ;
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}
// sets rate target in deg/s
// yaw_lock should be true if the yaw rate is earth-frame, false if body-frame (e.g. rotates with body of vehicle)
void AP_Mount : : set_rate_target ( uint8_t instance , float roll_degs , float pitch_degs , float yaw_degs , bool yaw_lock )
{
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auto * backend = get_instance ( instance ) ;
if ( backend = = nullptr ) {
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return ;
}
// send command to backend
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backend - > set_rate_target ( roll_degs , pitch_degs , yaw_degs , yaw_lock ) ;
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}
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MAV_RESULT AP_Mount : : handle_command_do_mount_configure ( const mavlink_command_int_t & packet )
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{
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auto * backend = get_primary ( ) ;
if ( backend = = nullptr ) {
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return MAV_RESULT_FAILED ;
}
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backend - > set_mode ( ( MAV_MOUNT_MODE ) packet . param1 ) ;
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return MAV_RESULT_ACCEPTED ;
}
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MAV_RESULT AP_Mount : : handle_command_do_mount_control ( const mavlink_command_int_t & packet )
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{
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auto * backend = get_primary ( ) ;
if ( backend = = nullptr ) {
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return MAV_RESULT_FAILED ;
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}
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return backend - > handle_command_do_mount_control ( packet ) ;
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}
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MAV_RESULT AP_Mount : : handle_command_do_gimbal_manager_pitchyaw ( const mavlink_command_int_t & packet )
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{
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AP_Mount_Backend * backend ;
// check gimbal device id. 0 is primary, 1 is 1st gimbal, 2 is
// 2nd gimbal, etc
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const uint8_t instance = packet . z ;
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if ( instance = = 0 ) {
backend = get_primary ( ) ;
} else {
backend = get_instance ( instance - 1 ) ;
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}
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if ( backend = = nullptr ) {
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return MAV_RESULT_FAILED ;
}
// check flags for change to RETRACT
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const uint32_t flags = packet . x ;
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if ( ( flags & GIMBAL_MANAGER_FLAGS_RETRACT ) > 0 ) {
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backend - > set_mode ( MAV_MOUNT_MODE_RETRACT ) ;
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return MAV_RESULT_ACCEPTED ;
}
// check flags for change to NEUTRAL
if ( ( flags & GIMBAL_MANAGER_FLAGS_NEUTRAL ) > 0 ) {
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backend - > set_mode ( MAV_MOUNT_MODE_NEUTRAL ) ;
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return MAV_RESULT_ACCEPTED ;
}
// param1 : pitch_angle (in degrees)
// param2 : yaw angle (in degrees)
const float pitch_angle_deg = packet . param1 ;
const float yaw_angle_deg = packet . param2 ;
if ( ! isnan ( pitch_angle_deg ) & & ! isnan ( yaw_angle_deg ) ) {
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backend - > set_angle_target ( 0 , pitch_angle_deg , yaw_angle_deg , flags & GIMBAL_MANAGER_FLAGS_YAW_LOCK ) ;
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return MAV_RESULT_ACCEPTED ;
}
// param3 : pitch_rate (in deg/s)
// param4 : yaw rate (in deg/s)
const float pitch_rate_degs = packet . param3 ;
const float yaw_rate_degs = packet . param4 ;
if ( ! isnan ( pitch_rate_degs ) & & ! isnan ( yaw_rate_degs ) ) {
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backend - > set_rate_target ( 0 , pitch_rate_degs , yaw_rate_degs , flags & GIMBAL_MANAGER_FLAGS_YAW_LOCK ) ;
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return MAV_RESULT_ACCEPTED ;
}
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// if neither angles nor rates were provided set the RC_TARGETING yaw lock state
if ( isnan ( pitch_angle_deg ) & & isnan ( yaw_angle_deg ) & & isnan ( pitch_rate_degs ) & & isnan ( yaw_rate_degs ) ) {
backend - > set_yaw_lock ( flags & GIMBAL_MANAGER_FLAGS_YAW_LOCK ) ;
return MAV_RESULT_ACCEPTED ;
}
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return MAV_RESULT_FAILED ;
}
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// handle mav_cmd_do_gimbal_manager_configure for deconflicting different mavlink message senders
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MAV_RESULT AP_Mount : : handle_command_do_gimbal_manager_configure ( const mavlink_command_int_t & packet , const mavlink_message_t & msg )
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{
AP_Mount_Backend * backend ;
// check gimbal device id. 0 is primary, 1 is 1st gimbal, 2 is 2nd gimbal, etc
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const uint8_t instance = packet . z ;
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if ( instance = = 0 ) {
backend = get_primary ( ) ;
} else {
backend = get_instance ( instance - 1 ) ;
}
if ( backend = = nullptr ) {
return MAV_RESULT_FAILED ;
}
return backend - > handle_command_do_gimbal_manager_configure ( packet , msg ) ;
}
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void AP_Mount : : handle_gimbal_manager_set_attitude ( const mavlink_message_t & msg ) {
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mavlink_gimbal_manager_set_attitude_t packet ;
mavlink_msg_gimbal_manager_set_attitude_decode ( & msg , & packet ) ;
AP_Mount_Backend * backend ;
// check gimbal device id. 0 is primary, 1 is 1st gimbal, 2 is
// 2nd gimbal, etc
const uint8_t instance = packet . gimbal_device_id ;
if ( instance = = 0 ) {
backend = get_primary ( ) ;
} else {
backend = get_instance ( instance - 1 ) ;
}
if ( backend = = nullptr ) {
return ;
}
// check flags for change to RETRACT
const uint32_t flags = packet . flags ;
if ( ( flags & GIMBAL_MANAGER_FLAGS_RETRACT ) > 0 ) {
backend - > set_mode ( MAV_MOUNT_MODE_RETRACT ) ;
return ;
}
// check flags for change to NEUTRAL
if ( ( flags & GIMBAL_MANAGER_FLAGS_NEUTRAL ) > 0 ) {
backend - > set_mode ( MAV_MOUNT_MODE_NEUTRAL ) ;
return ;
}
const Quaternion att_quat { packet . q } ;
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const Vector3f att_rate_degs {
packet . angular_velocity_x ,
packet . angular_velocity_y ,
packet . angular_velocity_y
} ;
// ensure that we are only demanded to a specific attitude or to
// achieve a specific rate. Do not allow both to be specified at
// the same time:
if ( ! att_quat . is_nan ( ) & & ! att_rate_degs . is_nan ( ) ) {
return ;
}
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if ( ! att_quat . is_nan ( ) ) {
// convert quaternion to euler angles
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Vector3f attitude ;
att_quat . to_euler ( attitude ) ; // attitude is in radians here
attitude * = RAD_TO_DEG ; // convert to degrees
backend - > set_angle_target ( attitude . x , attitude . y , attitude . z , flags & GIMBAL_MANAGER_FLAGS_YAW_LOCK ) ;
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return ;
}
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{
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const float roll_rate_degs = degrees ( packet . angular_velocity_x ) ;
const float pitch_rate_degs = degrees ( packet . angular_velocity_y ) ;
const float yaw_rate_degs = degrees ( packet . angular_velocity_z ) ;
backend - > set_rate_target ( roll_rate_degs , pitch_rate_degs , yaw_rate_degs , flags & GIMBAL_MANAGER_FLAGS_YAW_LOCK ) ;
return ;
}
}
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void AP_Mount : : handle_gimbal_manager_set_pitchyaw ( const mavlink_message_t & msg )
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{
mavlink_gimbal_manager_set_pitchyaw_t packet ;
mavlink_msg_gimbal_manager_set_pitchyaw_decode ( & msg , & packet ) ;
AP_Mount_Backend * backend ;
// check gimbal device id. 0 is primary, 1 is 1st gimbal, 2 is
// 2nd gimbal, etc
const uint8_t instance = packet . gimbal_device_id ;
if ( instance = = 0 ) {
backend = get_primary ( ) ;
} else {
backend = get_instance ( instance - 1 ) ;
}
if ( backend = = nullptr ) {
return ;
}
// check flags for change to RETRACT
uint32_t flags = ( uint32_t ) packet . flags ;
if ( ( flags & GIMBAL_MANAGER_FLAGS_RETRACT ) > 0 ) {
backend - > set_mode ( MAV_MOUNT_MODE_RETRACT ) ;
return ;
}
// check flags for change to NEUTRAL
if ( ( flags & GIMBAL_MANAGER_FLAGS_NEUTRAL ) > 0 ) {
backend - > set_mode ( MAV_MOUNT_MODE_NEUTRAL ) ;
return ;
}
// Do not allow both angle and rate to be specified at the same time
if ( ! isnan ( packet . pitch ) & & ! isnan ( packet . yaw ) & & ! isnan ( packet . pitch_rate ) & & ! isnan ( packet . yaw_rate ) ) {
return ;
}
// pitch and yaw from packet are in radians
if ( ! isnan ( packet . pitch ) & & ! isnan ( packet . yaw ) ) {
const float pitch_angle_deg = degrees ( packet . pitch ) ;
const float yaw_angle_deg = degrees ( packet . yaw ) ;
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backend - > set_angle_target ( 0 , pitch_angle_deg , yaw_angle_deg , flags & GIMBAL_MANAGER_FLAGS_YAW_LOCK ) ;
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return ;
}
// pitch_rate and yaw_rate from packet are in rad/s
if ( ! isnan ( packet . pitch_rate ) & & ! isnan ( packet . yaw_rate ) ) {
const float pitch_rate_degs = degrees ( packet . pitch_rate ) ;
const float yaw_rate_degs = degrees ( packet . yaw_rate ) ;
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backend - > set_rate_target ( 0 , pitch_rate_degs , yaw_rate_degs , flags & GIMBAL_MANAGER_FLAGS_YAW_LOCK ) ;
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return ;
}
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// if neither angles nor rates were provided set the RC_TARGETING yaw lock state
if ( isnan ( packet . pitch ) & & isnan ( packet . yaw ) & & isnan ( packet . pitch_rate ) & & isnan ( packet . yaw_rate ) ) {
backend - > set_yaw_lock ( flags & GIMBAL_MANAGER_FLAGS_YAW_LOCK ) ;
return ;
}
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}
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MAV_RESULT AP_Mount : : handle_command_do_set_roi_sysid ( const mavlink_command_int_t & packet )
{
set_target_sysid ( ( uint8_t ) packet . param1 ) ;
return MAV_RESULT_ACCEPTED ;
}
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MAV_RESULT AP_Mount : : handle_command ( const mavlink_command_int_t & packet , const mavlink_message_t & msg )
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{
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switch ( packet . command ) {
case MAV_CMD_DO_MOUNT_CONFIGURE :
return handle_command_do_mount_configure ( packet ) ;
case MAV_CMD_DO_MOUNT_CONTROL :
return handle_command_do_mount_control ( packet ) ;
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case MAV_CMD_DO_GIMBAL_MANAGER_PITCHYAW :
return handle_command_do_gimbal_manager_pitchyaw ( packet ) ;
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case MAV_CMD_DO_GIMBAL_MANAGER_CONFIGURE :
return handle_command_do_gimbal_manager_configure ( packet , msg ) ;
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case MAV_CMD_DO_SET_ROI_SYSID :
return handle_command_do_set_roi_sysid ( packet ) ;
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default :
return MAV_RESULT_UNSUPPORTED ;
}
}
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/// Change the configuration of the mount
void AP_Mount : : handle_global_position_int ( const mavlink_message_t & msg )
{
mavlink_global_position_int_t packet ;
mavlink_msg_global_position_int_decode ( & msg , & packet ) ;
if ( ! check_latlng ( packet . lat , packet . lon ) ) {
return ;
}
for ( uint8_t instance = 0 ; instance < AP_MOUNT_MAX_INSTANCES ; instance + + ) {
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if ( _backends [ instance ] ! = nullptr ) {
_backends [ instance ] - > handle_global_position_int ( msg . sysid , packet ) ;
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}
}
}
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# if AP_MAVLINK_MSG_MOUNT_CONFIGURE_ENABLED
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/// Change the configuration of the mount
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void AP_Mount : : handle_mount_configure ( const mavlink_message_t & msg )
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{
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auto * backend = get_primary ( ) ;
if ( backend = = nullptr ) {
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return ;
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}
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mavlink_mount_configure_t packet ;
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mavlink_msg_mount_configure_decode ( & msg , & packet ) ;
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// send message to backend
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backend - > handle_mount_configure ( packet ) ;
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}
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# endif
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# if AP_MAVLINK_MSG_MOUNT_CONTROL_ENABLED
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/// Control the mount (depends on the previously set mount configuration)
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void AP_Mount : : handle_mount_control ( const mavlink_message_t & msg )
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{
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auto * backend = get_primary ( ) ;
if ( backend = = nullptr ) {
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return ;
}
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mavlink_mount_control_t packet ;
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mavlink_msg_mount_control_decode ( & msg , & packet ) ;
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// send message to backend
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backend - > handle_mount_control ( packet ) ;
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}
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# endif
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# if HAL_GCS_ENABLED
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// send a GIMBAL_DEVICE_ATTITUDE_STATUS message to GCS
void AP_Mount : : send_gimbal_device_attitude_status ( mavlink_channel_t chan )
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{
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// call send_gimbal_device_attitude_status for each instance
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for ( uint8_t instance = 0 ; instance < AP_MOUNT_MAX_INSTANCES ; instance + + ) {
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if ( _backends [ instance ] ! = nullptr ) {
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_backends [ instance ] - > send_gimbal_device_attitude_status ( chan ) ;
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}
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}
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}
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// send a GIMBAL_MANAGER_INFORMATION message to GCS
void AP_Mount : : send_gimbal_manager_information ( mavlink_channel_t chan )
{
// call send_gimbal_device_attitude_status for each instance
for ( uint8_t instance = 0 ; instance < AP_MOUNT_MAX_INSTANCES ; instance + + ) {
if ( _backends [ instance ] ! = nullptr ) {
_backends [ instance ] - > send_gimbal_manager_information ( chan ) ;
}
}
}
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// send a GIMBAL_MANAGER_STATUS message to GCS
void AP_Mount : : send_gimbal_manager_status ( mavlink_channel_t chan )
{
// call send_gimbal_device_attitude_status for each instance
for ( uint8_t instance = 0 ; instance < AP_MOUNT_MAX_INSTANCES ; instance + + ) {
if ( _backends [ instance ] ! = nullptr ) {
_backends [ instance ] - > send_gimbal_manager_status ( chan ) ;
}
}
}
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# endif // HAL_GCS_ENABLED
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# if AP_MOUNT_POI_TO_LATLONALT_ENABLED
// get poi information. Returns true on success and fills in gimbal attitude, location and poi location
bool AP_Mount : : get_poi ( uint8_t instance , Quaternion & quat , Location & loc , Location & poi_loc ) const
{
auto * backend = get_instance ( instance ) ;
if ( backend = = nullptr ) {
return false ;
}
return backend - > get_poi ( instance , quat , loc , poi_loc ) ;
}
# endif
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// get mount's current attitude in euler angles in degrees. yaw angle is in body-frame
// returns true on success
bool AP_Mount : : get_attitude_euler ( uint8_t instance , float & roll_deg , float & pitch_deg , float & yaw_bf_deg )
{
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auto * backend = get_instance ( instance ) ;
if ( backend = = nullptr ) {
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return false ;
}
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// re-use get_attitude_quaternion and convert to Euler angles
Quaternion att_quat ;
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if ( ! backend - > get_attitude_quaternion ( att_quat ) ) {
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return false ;
}
float roll_rad , pitch_rad , yaw_rad ;
att_quat . to_euler ( roll_rad , pitch_rad , yaw_rad ) ;
roll_deg = degrees ( roll_rad ) ;
pitch_deg = degrees ( pitch_rad ) ;
yaw_bf_deg = degrees ( yaw_rad ) ;
return true ;
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}
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// run pre-arm check. returns false on failure and fills in failure_msg
// any failure_msg returned will not include a prefix
bool AP_Mount : : pre_arm_checks ( char * failure_msg , uint8_t failure_msg_len )
{
// check type parameters
for ( uint8_t i = 0 ; i < AP_MOUNT_MAX_INSTANCES ; i + + ) {
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if ( ( get_mount_type ( i ) ! = Type : : None ) & & ( _backends [ i ] = = nullptr ) ) {
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strncpy ( failure_msg , " check TYPE " , failure_msg_len ) ;
return false ;
}
}
// return true if no mount configured
if ( _num_instances = = 0 ) {
return true ;
}
// check healthy
for ( uint8_t i = 0 ; i < AP_MOUNT_MAX_INSTANCES ; i + + ) {
if ( ( _backends [ i ] ! = nullptr ) & & ! _backends [ i ] - > healthy ( ) ) {
strncpy ( failure_msg , " not healthy " , failure_msg_len ) ;
return false ;
}
}
return true ;
}
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// get target rate in deg/sec. returns true on success
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bool AP_Mount : : get_rate_target ( uint8_t instance , float & roll_degs , float & pitch_degs , float & yaw_degs , bool & yaw_is_earth_frame )
{
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auto * backend = get_instance ( instance ) ;
if ( backend = = nullptr ) {
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return false ;
}
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return backend - > get_rate_target ( roll_degs , pitch_degs , yaw_degs , yaw_is_earth_frame ) ;
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}
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// get target angle in deg. returns true on success
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bool AP_Mount : : get_angle_target ( uint8_t instance , float & roll_deg , float & pitch_deg , float & yaw_deg , bool & yaw_is_earth_frame )
{
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auto * backend = get_instance ( instance ) ;
if ( backend = = nullptr ) {
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return false ;
}
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return backend - > get_angle_target ( roll_deg , pitch_deg , yaw_deg , yaw_is_earth_frame ) ;
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}
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// accessors for scripting backends and logging
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bool AP_Mount : : get_location_target ( uint8_t instance , Location & target_loc )
{
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auto * backend = get_instance ( instance ) ;
if ( backend = = nullptr ) {
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return false ;
}
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return backend - > get_location_target ( target_loc ) ;
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}
void AP_Mount : : set_attitude_euler ( uint8_t instance , float roll_deg , float pitch_deg , float yaw_bf_deg )
{
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auto * backend = get_instance ( instance ) ;
if ( backend = = nullptr ) {
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return ;
}
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backend - > set_attitude_euler ( roll_deg , pitch_deg , yaw_bf_deg ) ;
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}
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# if HAL_LOGGING_ENABLED
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// write mount log packet for all backends
void AP_Mount : : write_log ( )
{
// each instance writes log
for ( uint8_t instance = 0 ; instance < AP_MOUNT_MAX_INSTANCES ; instance + + ) {
if ( _backends [ instance ] ! = nullptr ) {
_backends [ instance ] - > write_log ( 0 ) ;
}
}
}
void AP_Mount : : write_log ( uint8_t instance , uint64_t timestamp_us )
{
auto * backend = get_instance ( instance ) ;
if ( backend = = nullptr ) {
return ;
}
backend - > write_log ( timestamp_us ) ;
}
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# endif
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// point at system ID sysid
void AP_Mount : : set_target_sysid ( uint8_t instance , uint8_t sysid )
{
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auto * backend = get_instance ( instance ) ;
if ( backend = = nullptr ) {
return ;
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}
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// call instance's set_roi_cmd
backend - > set_target_sysid ( sysid ) ;
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}
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// set_roi_target - sets target location that mount should attempt to point towards
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void AP_Mount : : set_roi_target ( uint8_t instance , const Location & target_loc )
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{
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auto * backend = get_instance ( instance ) ;
if ( backend = = nullptr ) {
return ;
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}
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backend - > set_roi_target ( target_loc ) ;
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}
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// clear_roi_target - clears target location that mount should attempt to point towards
void AP_Mount : : clear_roi_target ( uint8_t instance )
{
auto * backend = get_instance ( instance ) ;
if ( backend = = nullptr ) {
return ;
}
backend - > clear_roi_target ( ) ;
}
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//
// camera controls for gimbals that include a camera
//
// take a picture. returns true on success
bool AP_Mount : : take_picture ( uint8_t instance )
{
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auto * backend = get_instance ( instance ) ;
if ( backend = = nullptr ) {
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return false ;
}
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return backend - > take_picture ( ) ;
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}
// start or stop video recording. returns true on success
// set start_recording = true to start record, false to stop recording
bool AP_Mount : : record_video ( uint8_t instance , bool start_recording )
{
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auto * backend = get_instance ( instance ) ;
if ( backend = = nullptr ) {
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return false ;
}
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return backend - > record_video ( start_recording ) ;
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}
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// set zoom specified as a rate or percentage
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bool AP_Mount : : set_zoom ( uint8_t instance , ZoomType zoom_type , float zoom_value )
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{
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auto * backend = get_instance ( instance ) ;
if ( backend = = nullptr ) {
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return false ;
}
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return backend - > set_zoom ( zoom_type , zoom_value ) ;
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}
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// set focus specified as rate, percentage or auto
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// focus in = -1, focus hold = 0, focus out = 1
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SetFocusResult AP_Mount : : set_focus ( uint8_t instance , FocusType focus_type , float focus_value )
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{
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auto * backend = get_instance ( instance ) ;
if ( backend = = nullptr ) {
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return SetFocusResult : : FAILED ;
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}
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return backend - > set_focus ( focus_type , focus_value ) ;
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}
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// set tracking to none, point or rectangle (see TrackingType enum)
// if POINT only p1 is used, if RECTANGLE then p1 is top-left, p2 is bottom-right
// p1,p2 are in range 0 to 1. 0 is left or top, 1 is right or bottom
bool AP_Mount : : set_tracking ( uint8_t instance , TrackingType tracking_type , const Vector2f & p1 , const Vector2f & p2 )
{
auto * backend = get_instance ( instance ) ;
if ( backend = = nullptr ) {
return false ;
}
return backend - > set_tracking ( tracking_type , p1 , p2 ) ;
}
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// set camera lens as a value from 0 to 5
bool AP_Mount : : set_lens ( uint8_t instance , uint8_t lens )
{
auto * backend = get_instance ( instance ) ;
if ( backend = = nullptr ) {
return false ;
}
return backend - > set_lens ( lens ) ;
}
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# if HAL_MOUNT_SET_CAMERA_SOURCE_ENABLED
// set_camera_source is functionally the same as set_lens except primary and secondary lenses are specified by type
// primary and secondary sources use the AP_Camera::CameraSource enum cast to uint8_t
bool AP_Mount : : set_camera_source ( uint8_t instance , uint8_t primary_source , uint8_t secondary_source )
{
auto * backend = get_instance ( instance ) ;
if ( backend = = nullptr ) {
return false ;
}
return backend - > set_camera_source ( primary_source , secondary_source ) ;
}
# endif
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// send camera information message to GCS
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void AP_Mount : : send_camera_information ( uint8_t instance , mavlink_channel_t chan ) const
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{
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auto * backend = get_instance ( instance ) ;
if ( backend = = nullptr ) {
return ;
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}
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backend - > send_camera_information ( chan ) ;
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}
// send camera settings message to GCS
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void AP_Mount : : send_camera_settings ( uint8_t instance , mavlink_channel_t chan ) const
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{
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auto * backend = get_instance ( instance ) ;
if ( backend = = nullptr ) {
return ;
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}
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backend - > send_camera_settings ( chan ) ;
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}
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// send camera capture status message to GCS
void AP_Mount : : send_camera_capture_status ( uint8_t instance , mavlink_channel_t chan ) const
{
auto * backend = get_instance ( instance ) ;
if ( backend = = nullptr ) {
return ;
}
backend - > send_camera_capture_status ( chan ) ;
}
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// get rangefinder distance. Returns true on success
bool AP_Mount : : get_rangefinder_distance ( uint8_t instance , float & distance_m ) const
{
auto * backend = get_instance ( instance ) ;
if ( backend = = nullptr ) {
return false ;
}
return backend - > get_rangefinder_distance ( distance_m ) ;
}
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// enable/disable rangefinder. Returns true on success
bool AP_Mount : : set_rangefinder_enable ( uint8_t instance , bool enable )
{
auto * backend = get_instance ( instance ) ;
if ( backend = = nullptr ) {
return false ;
}
return backend - > set_rangefinder_enable ( enable ) ;
}
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AP_Mount_Backend * AP_Mount : : get_primary ( ) const
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{
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return get_instance ( _primary ) ;
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}
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AP_Mount_Backend * AP_Mount : : get_instance ( uint8_t instance ) const
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{
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if ( instance > = ARRAY_SIZE ( _backends ) ) {
return nullptr ;
}
return _backends [ instance ] ;
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}
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// pass a GIMBAL_REPORT message to the backend
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void AP_Mount : : handle_gimbal_report ( mavlink_channel_t chan , const mavlink_message_t & msg )
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{
for ( uint8_t instance = 0 ; instance < AP_MOUNT_MAX_INSTANCES ; instance + + ) {
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if ( _backends [ instance ] ! = nullptr ) {
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_backends [ instance ] - > handle_gimbal_report ( chan , msg ) ;
}
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}
}
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void AP_Mount : : handle_message ( mavlink_channel_t chan , const mavlink_message_t & msg )
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{
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switch ( msg . msgid ) {
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case MAVLINK_MSG_ID_GIMBAL_REPORT :
handle_gimbal_report ( chan , msg ) ;
break ;
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# if AP_MAVLINK_MSG_MOUNT_CONFIGURE_ENABLED
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case MAVLINK_MSG_ID_MOUNT_CONFIGURE :
handle_mount_configure ( msg ) ;
break ;
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# endif
# if AP_MAVLINK_MSG_MOUNT_CONTROL_ENABLED
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case MAVLINK_MSG_ID_MOUNT_CONTROL :
handle_mount_control ( msg ) ;
break ;
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# endif
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case MAVLINK_MSG_ID_GLOBAL_POSITION_INT :
handle_global_position_int ( msg ) ;
break ;
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case MAVLINK_MSG_ID_GIMBAL_MANAGER_SET_ATTITUDE :
handle_gimbal_manager_set_attitude ( msg ) ;
break ;
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case MAVLINK_MSG_ID_GIMBAL_MANAGER_SET_PITCHYAW :
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handle_gimbal_manager_set_pitchyaw ( msg ) ;
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break ;
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case MAVLINK_MSG_ID_GIMBAL_DEVICE_INFORMATION :
handle_gimbal_device_information ( msg ) ;
break ;
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case MAVLINK_MSG_ID_GIMBAL_DEVICE_ATTITUDE_STATUS :
handle_gimbal_device_attitude_status ( msg ) ;
break ;
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default :
# if CONFIG_HAL_BOARD == HAL_BOARD_SITL
AP_HAL : : panic ( " Unhandled mount case " ) ;
# endif
break ;
}
}
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// handle PARAM_VALUE
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void AP_Mount : : handle_param_value ( const mavlink_message_t & msg )
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{
for ( uint8_t instance = 0 ; instance < AP_MOUNT_MAX_INSTANCES ; instance + + ) {
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if ( _backends [ instance ] ! = nullptr ) {
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_backends [ instance ] - > handle_param_value ( msg ) ;
}
}
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}
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// handle GIMBAL_DEVICE_INFORMATION message
void AP_Mount : : handle_gimbal_device_information ( const mavlink_message_t & msg )
{
for ( uint8_t instance = 0 ; instance < AP_MOUNT_MAX_INSTANCES ; instance + + ) {
if ( _backends [ instance ] ! = nullptr ) {
_backends [ instance ] - > handle_gimbal_device_information ( msg ) ;
}
}
}
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// handle GIMBAL_DEVICE_ATTITUDE_STATUS message
void AP_Mount : : handle_gimbal_device_attitude_status ( const mavlink_message_t & msg )
{
for ( uint8_t instance = 0 ; instance < AP_MOUNT_MAX_INSTANCES ; instance + + ) {
if ( _backends [ instance ] ! = nullptr ) {
_backends [ instance ] - > handle_gimbal_device_attitude_status ( msg ) ;
}
}
}
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// perform any required parameter conversion
void AP_Mount : : convert_params ( )
{
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// exit immediately if MNT1_TYPE has already been configured
if ( _params [ 0 ] . type . configured ( ) ) {
return ;
}
// below conversions added Sep 2022 ahead of 4.3 release
// convert MNT_TYPE to MNT1_TYPE
int8_t mnt_type = 0 ;
IGNORE_RETURN ( AP_Param : : get_param_by_index ( this , 19 , AP_PARAM_INT8 , & mnt_type ) ) ;
if ( mnt_type > 0 ) {
int8_t stab_roll = 0 ;
int8_t stab_pitch = 0 ;
IGNORE_RETURN ( AP_Param : : get_param_by_index ( this , 4 , AP_PARAM_INT8 , & stab_roll ) ) ;
IGNORE_RETURN ( AP_Param : : get_param_by_index ( this , 5 , AP_PARAM_INT8 , & stab_pitch ) ) ;
if ( mnt_type = = 1 & & stab_roll = = 0 & & stab_pitch = = 0 ) {
// Servo type without stabilization is changed to BrushlessPWM
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// conversion is still done even if HAL_MOUNT_SERVO_ENABLED is false
mnt_type = 7 ; // (int8_t)Type::BrushlessPWM;
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}
}
_params [ 0 ] . type . set_and_save ( mnt_type ) ;
// convert MNT_JSTICK_SPD to MNT1_RC_RATE
int8_t jstick_spd = 0 ;
if ( AP_Param : : get_param_by_index ( this , 16 , AP_PARAM_INT8 , & jstick_spd ) & & ( jstick_spd > 0 ) ) {
_params [ 0 ] . rc_rate_max . set_and_save ( jstick_spd * 0.3 ) ;
}
// find Mount's top level key
uint16_t k_param_mount_key ;
if ( ! AP_Param : : find_top_level_key_by_pointer ( this , k_param_mount_key ) ) {
return ;
}
// table of mount parameters to be converted without scaling
static const AP_Param : : ConversionInfo mnt_param_conversion_info [ ] {
{ k_param_mount_key , 0 , AP_PARAM_INT8 , " MNT1_DEFLT_MODE " } ,
{ k_param_mount_key , 1 , AP_PARAM_VECTOR3F , " MNT1_RETRACT " } ,
{ k_param_mount_key , 2 , AP_PARAM_VECTOR3F , " MNT1_NEUTRAL " } ,
{ k_param_mount_key , 17 , AP_PARAM_FLOAT , " MNT1_LEAD_RLL " } ,
{ k_param_mount_key , 18 , AP_PARAM_FLOAT , " MNT1_LEAD_PTCH " } ,
} ;
uint8_t table_size = ARRAY_SIZE ( mnt_param_conversion_info ) ;
for ( uint8_t i = 0 ; i < table_size ; i + + ) {
AP_Param : : convert_old_parameter ( & mnt_param_conversion_info [ i ] , 1.0f ) ;
}
// mount parameters conversion from centi-degrees to degrees
static const AP_Param : : ConversionInfo mnt_param_deg_conversion_info [ ] {
{ k_param_mount_key , 8 , AP_PARAM_INT16 , " MNT1_ROLL_MIN " } ,
{ k_param_mount_key , 9 , AP_PARAM_INT16 , " MNT1_ROLL_MAX " } ,
{ k_param_mount_key , 11 , AP_PARAM_INT16 , " MNT1_PITCH_MIN " } ,
{ k_param_mount_key , 12 , AP_PARAM_INT16 , " MNT1_PITCH_MAX " } ,
{ k_param_mount_key , 14 , AP_PARAM_INT16 , " MNT1_YAW_MIN " } ,
{ k_param_mount_key , 15 , AP_PARAM_INT16 , " MNT1_YAW_MAX " } ,
} ;
table_size = ARRAY_SIZE ( mnt_param_deg_conversion_info ) ;
for ( uint8_t i = 0 ; i < table_size ; i + + ) {
AP_Param : : convert_old_parameter ( & mnt_param_deg_conversion_info [ i ] , 0.01f ) ;
}
// struct and array holding mapping between old param table index and new RCx_OPTION value
struct MountRCConversionTable {
uint8_t old_rcin_idx ;
uint16_t new_rc_option ;
} ;
const struct MountRCConversionTable mnt_rc_conversion_table [ ] = {
{ 7 , 212 } , // MTN_RC_IN_ROLL to RCx_OPTION = 212 (MOUNT1_ROLL)
{ 10 , 213 } , // MTN_RC_IN_TILT to RCx_OPTION = 213 (MOUNT1_PITCH)
{ 13 , 214 } , // MTN_RC_IN_PAN to RCx_OPTION = 214 (MOUNT1_YAW)
} ;
for ( uint8_t i = 0 ; i < ARRAY_SIZE ( mnt_rc_conversion_table ) ; i + + ) {
int8_t mnt_rcin = 0 ;
if ( AP_Param : : get_param_by_index ( this , mnt_rc_conversion_table [ i ] . old_rcin_idx , AP_PARAM_INT8 , & mnt_rcin ) & & ( mnt_rcin > 0 ) ) {
// get pointers to the appropriate RCx_OPTION parameter
char pname [ 17 ] ;
enum ap_var_type ptype ;
snprintf ( pname , sizeof ( pname ) , " RC%u_OPTION " , ( unsigned ) mnt_rcin ) ;
AP_Int16 * rcx_option = ( AP_Int16 * ) AP_Param : : find ( pname , & ptype ) ;
if ( ( rcx_option ! = nullptr ) & & ! rcx_option - > configured ( ) ) {
rcx_option - > set_and_save ( mnt_rc_conversion_table [ i ] . new_rc_option ) ;
}
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}
}
}
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// singleton instance
AP_Mount * AP_Mount : : _singleton ;
namespace AP {
AP_Mount * mount ( )
{
return AP_Mount : : get_singleton ( ) ;
}
} ;
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# endif /* HAL_MOUNT_ENABLED */