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zr-v4/ArduCopter/mode_sport.cpp

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#include "Copter.h"
/*
* Init and run calls for sport flight mode
*/
// sport_init - initialise sport controller
bool Copter::ModeSport::init(bool ignore_checks)
{
// initialize vertical speed and acceleration
pos_control->set_speed_z(-get_pilot_speed_dn(), g.pilot_speed_up);
pos_control->set_accel_z(g.pilot_accel_z);
// initialise position and desired velocity
if (!pos_control->is_active_z()) {
pos_control->set_alt_target_to_current_alt();
pos_control->set_desired_velocity_z(inertial_nav.get_velocity_z());
}
return true;
}
// sport_run - runs the sport controller
// should be called at 100hz or more
void Copter::ModeSport::run()
{
SportModeState sport_state;
float takeoff_climb_rate = 0.0f;
// initialize vertical speed and acceleration
pos_control->set_speed_z(-get_pilot_speed_dn(), g.pilot_speed_up);
pos_control->set_accel_z(g.pilot_accel_z);
// apply SIMPLE mode transform
update_simple_mode();
// get pilot's desired roll and pitch rates
// calculate rate requests
float target_roll_rate = channel_roll->get_control_in() * g.acro_rp_p;
float target_pitch_rate = channel_pitch->get_control_in() * g.acro_rp_p;
// get attitude targets
const Vector3f att_target = attitude_control->get_att_target_euler_cd();
// Calculate trainer mode earth frame rate command for roll
int32_t roll_angle = wrap_180_cd(att_target.x);
target_roll_rate -= constrain_int32(roll_angle, -ACRO_LEVEL_MAX_ANGLE, ACRO_LEVEL_MAX_ANGLE) * g.acro_balance_roll;
// Calculate trainer mode earth frame rate command for pitch
int32_t pitch_angle = wrap_180_cd(att_target.y);
target_pitch_rate -= constrain_int32(pitch_angle, -ACRO_LEVEL_MAX_ANGLE, ACRO_LEVEL_MAX_ANGLE) * g.acro_balance_pitch;
AP_Vehicle::MultiCopter &aparm = copter.aparm;
if (roll_angle > aparm.angle_max){
target_roll_rate -= g.acro_rp_p*(roll_angle-aparm.angle_max);
}else if (roll_angle < -aparm.angle_max) {
target_roll_rate -= g.acro_rp_p*(roll_angle+aparm.angle_max);
}
if (pitch_angle > aparm.angle_max){
target_pitch_rate -= g.acro_rp_p*(pitch_angle-aparm.angle_max);
}else if (pitch_angle < -aparm.angle_max) {
target_pitch_rate -= g.acro_rp_p*(pitch_angle+aparm.angle_max);
}
// get pilot's desired yaw rate
float target_yaw_rate = get_pilot_desired_yaw_rate(channel_yaw->get_control_in());
// get pilot desired climb rate
float target_climb_rate = get_pilot_desired_climb_rate(channel_throttle->get_control_in());
target_climb_rate = constrain_float(target_climb_rate, -get_pilot_speed_dn(), g.pilot_speed_up);
// State Machine Determination
if (!motors->armed() || !motors->get_interlock()) {
sport_state = Sport_MotorStopped;
} else if (takeoff.running() || takeoff.triggered(target_climb_rate)) {
sport_state = Sport_Takeoff;
} else if (!ap.auto_armed || ap.land_complete) {
sport_state = Sport_Landed;
} else {
sport_state = Sport_Flying;
}
// State Machine
switch (sport_state) {
case Sport_MotorStopped:
motors->set_desired_spool_state(AP_Motors::DESIRED_SHUT_DOWN);
attitude_control->input_euler_rate_roll_pitch_yaw(target_roll_rate, target_pitch_rate, target_yaw_rate);
#if FRAME_CONFIG == HELI_FRAME
// force descent rate and call position controller
pos_control->set_alt_target_from_climb_rate(-abs(g.land_speed), G_Dt, false);
#else
attitude_control->relax_attitude_controllers();
attitude_control->reset_rate_controller_I_terms();
attitude_control->set_yaw_target_to_current_heading();
pos_control->relax_alt_hold_controllers(0.0f); // forces throttle output to go to zero
#endif
pos_control->update_z_controller();
break;
case Sport_Takeoff:
// set motors to full range
motors->set_desired_spool_state(AP_Motors::DESIRED_THROTTLE_UNLIMITED);
// initiate take-off
if (!takeoff.running()) {
takeoff.start(constrain_float(g.pilot_takeoff_alt,0.0f,1000.0f));
// indicate we are taking off
set_land_complete(false);
// clear i terms
set_throttle_takeoff();
}
// get take-off adjusted pilot and takeoff climb rates
takeoff.get_climb_rates(target_climb_rate, takeoff_climb_rate);
// get avoidance adjusted climb rate
target_climb_rate = get_avoidance_adjusted_climbrate(target_climb_rate);
// call attitude controller
attitude_control->input_euler_rate_roll_pitch_yaw(target_roll_rate, target_pitch_rate, target_yaw_rate);
// call position controller
pos_control->set_alt_target_from_climb_rate_ff(target_climb_rate, G_Dt, false);
pos_control->add_takeoff_climb_rate(takeoff_climb_rate, G_Dt);
pos_control->update_z_controller();
break;
case Sport_Landed:
// set motors to spin-when-armed if throttle below deadzone, otherwise full range (but motors will only spin at min throttle)
if (target_climb_rate < 0.0f) {
motors->set_desired_spool_state(AP_Motors::DESIRED_SPIN_WHEN_ARMED);
} else {
motors->set_desired_spool_state(AP_Motors::DESIRED_THROTTLE_UNLIMITED);
}
attitude_control->reset_rate_controller_I_terms();
attitude_control->set_yaw_target_to_current_heading();
attitude_control->input_euler_rate_roll_pitch_yaw(target_roll_rate, target_pitch_rate, target_yaw_rate);
pos_control->relax_alt_hold_controllers(0.0f); // forces throttle output to go to zero
pos_control->update_z_controller();
break;
case Sport_Flying:
motors->set_desired_spool_state(AP_Motors::DESIRED_THROTTLE_UNLIMITED);
// call attitude controller
attitude_control->input_euler_rate_roll_pitch_yaw(target_roll_rate, target_pitch_rate, target_yaw_rate);
// adjust climb rate using rangefinder
target_climb_rate = get_surface_tracking_climb_rate(target_climb_rate, pos_control->get_alt_target(), G_Dt);
// get avoidance adjusted climb rate
target_climb_rate = get_avoidance_adjusted_climbrate(target_climb_rate);
// call position controller
pos_control->set_alt_target_from_climb_rate_ff(target_climb_rate, G_Dt, false);
pos_control->update_z_controller();
break;
}
}