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# include "mode.h"
# include "Plane.h"
bool ModeGuided : : _enter ( )
{
plane . guided_throttle_passthru = false ;
/*
when entering guided mode we set the target as the current
location . This matches the behaviour of the copter code
*/
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Location loc { plane . current_loc } ;
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# if HAL_QUADPLANE_ENABLED
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if ( plane . quadplane . guided_mode_enabled ( ) ) {
/*
if using Q_GUIDED_MODE then project forward by the stopping distance
*/
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loc . offset_bearing ( degrees ( ahrs . groundspeed_vector ( ) . angle ( ) ) ,
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plane . quadplane . stopping_distance ( ) ) ;
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}
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# endif
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// set guided radius to WP_LOITER_RAD on mode change.
active_radius_m = 0 ;
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plane . set_guided_WP ( loc ) ;
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return true ;
}
void ModeGuided : : update ( )
{
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# if HAL_QUADPLANE_ENABLED
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if ( plane . auto_state . vtol_loiter & & plane . quadplane . available ( ) ) {
plane . quadplane . guided_update ( ) ;
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return ;
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}
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# endif
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// Received an external msg that guides roll in the last 3 seconds?
if ( plane . guided_state . last_forced_rpy_ms . x > 0 & &
millis ( ) - plane . guided_state . last_forced_rpy_ms . x < 3000 ) {
plane . nav_roll_cd = constrain_int32 ( plane . guided_state . forced_rpy_cd . x , - plane . roll_limit_cd , plane . roll_limit_cd ) ;
plane . update_load_factor ( ) ;
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# if AP_PLANE_OFFBOARD_GUIDED_SLEW_ENABLED
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// guided_state.target_heading is radians at this point between -pi and pi ( defaults to -4 )
// This function is used in Guided and AvoidADSB, check for guided
} else if ( ( plane . control_mode = = & plane . mode_guided ) & & ( plane . guided_state . target_heading_type ! = GUIDED_HEADING_NONE ) ) {
uint32_t tnow = AP_HAL : : millis ( ) ;
float delta = ( tnow - plane . guided_state . target_heading_time_ms ) * 1e-3 f ;
plane . guided_state . target_heading_time_ms = tnow ;
float error = 0.0f ;
if ( plane . guided_state . target_heading_type = = GUIDED_HEADING_HEADING ) {
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error = wrap_PI ( plane . guided_state . target_heading - AP : : ahrs ( ) . get_yaw ( ) ) ;
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} else {
Vector2f groundspeed = AP : : ahrs ( ) . groundspeed_vector ( ) ;
error = wrap_PI ( plane . guided_state . target_heading - atan2f ( - groundspeed . y , - groundspeed . x ) + M_PI ) ;
}
float bank_limit = degrees ( atanf ( plane . guided_state . target_heading_accel_limit / GRAVITY_MSS ) ) * 1e2 f ;
bank_limit = MIN ( bank_limit , plane . roll_limit_cd ) ;
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// push error into AC_PID
const float desired = plane . g2 . guidedHeading . update_error ( error , delta , plane . guided_state . target_heading_limit ) ;
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// Check for output saturation
plane . guided_state . target_heading_limit = fabsf ( desired ) > = bank_limit ;
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plane . nav_roll_cd = constrain_int32 ( desired , - bank_limit , bank_limit ) ;
plane . update_load_factor ( ) ;
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# endif // AP_PLANE_OFFBOARD_GUIDED_SLEW_ENABLED
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} else {
plane . calc_nav_roll ( ) ;
}
if ( plane . guided_state . last_forced_rpy_ms . y > 0 & &
millis ( ) - plane . guided_state . last_forced_rpy_ms . y < 3000 ) {
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plane . nav_pitch_cd = constrain_int32 ( plane . guided_state . forced_rpy_cd . y , plane . pitch_limit_min * 100 , plane . aparm . pitch_limit_max . get ( ) * 100 ) ;
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} else {
plane . calc_nav_pitch ( ) ;
}
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// Throttle output
if ( plane . guided_throttle_passthru ) {
// manual passthrough of throttle in fence breach
SRV_Channels : : set_output_scaled ( SRV_Channel : : k_throttle , plane . get_throttle_input ( true ) ) ;
} else if ( plane . aparm . throttle_cruise > 1 & &
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plane . guided_state . last_forced_throttle_ms > 0 & &
millis ( ) - plane . guided_state . last_forced_throttle_ms < 3000 ) {
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// Received an external msg that guides throttle in the last 3 seconds?
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SRV_Channels : : set_output_scaled ( SRV_Channel : : k_throttle , plane . guided_state . forced_throttle ) ;
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} else {
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// TECS control
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plane . calc_throttle ( ) ;
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}
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}
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void ModeGuided : : navigate ( )
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{
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plane . update_loiter ( active_radius_m ) ;
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}
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bool ModeGuided : : handle_guided_request ( Location target_loc )
{
// add home alt if needed
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if ( target_loc . relative_alt ) {
target_loc . alt + = plane . home . alt ;
target_loc . relative_alt = 0 ;
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}
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plane . set_guided_WP ( target_loc ) ;
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return true ;
}
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void ModeGuided : : set_radius_and_direction ( const float radius , const bool direction_is_ccw )
{
// constrain to (uint16_t) range for update_loiter()
active_radius_m = constrain_int32 ( fabsf ( radius ) , 0 , UINT16_MAX ) ;
plane . loiter . direction = direction_is_ccw ? - 1 : 1 ;
}
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void ModeGuided : : update_target_altitude ( )
{
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# if AP_PLANE_OFFBOARD_GUIDED_SLEW_ENABLED
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if ( ( ( plane . guided_state . target_alt_time_ms ! = 0 ) | | plane . guided_state . target_alt > - 0.001 ) ) { // target_alt now defaults to -1, and _time_ms defaults to zero.
// offboard altitude demanded
uint32_t now = AP_HAL : : millis ( ) ;
float delta = 1e-3 f * ( now - plane . guided_state . target_alt_time_ms ) ;
plane . guided_state . target_alt_time_ms = now ;
// determine delta accurately as a float
float delta_amt_f = delta * plane . guided_state . target_alt_accel ;
// then scale x100 to match last_target_alt and convert to a signed int32_t as it may be negative
int32_t delta_amt_i = ( int32_t ) ( 100.0 * delta_amt_f ) ;
Location temp { } ;
temp . alt = plane . guided_state . last_target_alt + delta_amt_i ; // ...to avoid floats here,
if ( is_positive ( plane . guided_state . target_alt_accel ) ) {
temp . alt = MIN ( plane . guided_state . target_alt , temp . alt ) ;
} else {
temp . alt = MAX ( plane . guided_state . target_alt , temp . alt ) ;
}
plane . guided_state . last_target_alt = temp . alt ;
plane . set_target_altitude_location ( temp ) ;
} else
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# endif // AP_PLANE_OFFBOARD_GUIDED_SLEW_ENABLED
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{
Mode : : update_target_altitude ( ) ;
}
}