ardupilot/ArduPlane/tuning.cpp

267 lines
8.7 KiB
C++

// -*- tab-width: 4; Mode: C++; c-basic-offset: 4; indent-tabs-mode: nil -*-
#include "Plane.h"
/*
the vehicle class has its own var table for TUNE_PARAM so it can
have separate parameter docs for the list of available parameters
*/
const AP_Param::GroupInfo AP_Tuning_Plane::var_info[] = {
// @Param: PARAM
// @DisplayName: Transmitter tuning parameter or set of parameters
// @Description: This sets which parameter or set of parameters will be tuned. Values greater than 100 indicate a set of parameters rather than a single parameter. Parameters less than 50 are for QuadPlane vertical lift motors only.
// @Values: 0:None,1:RateRollPI,2:RateRollP,3:RateRollI,4:RateRollD,5:RatePitchPI,6:RatePitchP,7:RatePitchI,8:RatePitchD,9:RateYawPI,10:RateYawP,11:RateYawI,12:RateYawD,13:AngleRollP,14:AnglePitchP,15:AngleYawP,16:PosXYP,17:PosZP,18:VelXYP,19:VelXYI,20:VelZP,21:AccelZP,22:AccelZI,23:AccelZD,50:FixedWingRollP,51:FixedWingRollI,52:FixedWingRollD,53:FixedWingRollFF,54:FixedWingPitchP,55:FixedWingPitchI,56:FixedWingPitchD,57:FixedWingPitchFF,101:Set_RateRollPitch,102:Set_RateRoll,103:Set_RatePitch,104:Set_RateYaw,105:Set_AngleRollPitch,106:Set_VelXY,107:Set_AccelZ
// @User: Standard
AP_GROUPINFO("PARAM", 1, AP_Tuning_Plane, parmset, 0),
// the rest of the parameters are from AP_Tuning
AP_NESTEDGROUPINFO(AP_Tuning, 0),
AP_GROUPEND
};
/*
tables of tuning sets
*/
const uint8_t AP_Tuning_Plane::tuning_set_rate_roll_pitch[] = { TUNING_RATE_ROLL_D, TUNING_RATE_ROLL_PI,
TUNING_RATE_PITCH_D, TUNING_RATE_PITCH_PI};
const uint8_t AP_Tuning_Plane::tuning_set_rate_roll[] = { TUNING_RATE_ROLL_D, TUNING_RATE_ROLL_PI };
const uint8_t AP_Tuning_Plane::tuning_set_rate_pitch[] = { TUNING_RATE_PITCH_D, TUNING_RATE_PITCH_PI };
const uint8_t AP_Tuning_Plane::tuning_set_rate_yaw[] = { TUNING_RATE_YAW_P, TUNING_RATE_YAW_I, TUNING_RATE_YAW_D };
const uint8_t AP_Tuning_Plane::tuning_set_ang_roll_pitch[] = { TUNING_ANG_ROLL_P, TUNING_ANG_PITCH_P };
const uint8_t AP_Tuning_Plane::tuning_set_vxy[] = { TUNING_VXY_P, TUNING_VXY_I };
const uint8_t AP_Tuning_Plane::tuning_set_az[] = { TUNING_AZ_P, TUNING_AZ_I, TUNING_AZ_D };
// macro to prevent getting the array length wrong
#define TUNING_ARRAY(v) ARRAY_SIZE(v), v
// list of tuning sets
const AP_Tuning_Plane::tuning_set AP_Tuning_Plane::tuning_sets[] = {
{ TUNING_SET_RATE_ROLL_PITCH, TUNING_ARRAY(tuning_set_rate_roll_pitch) },
{ TUNING_SET_RATE_ROLL, TUNING_ARRAY(tuning_set_rate_roll) },
{ TUNING_SET_RATE_PITCH, TUNING_ARRAY(tuning_set_rate_pitch) },
{ 0, 0, nullptr }
};
/*
table of tuning names
*/
const AP_Tuning_Plane::tuning_name AP_Tuning_Plane::tuning_names[] = {
{ TUNING_RATE_ROLL_PI, "RateRollPI" },
{ TUNING_RATE_ROLL_P, "RateRollP" },
{ TUNING_RATE_ROLL_I, "RateRollI" },
{ TUNING_RATE_ROLL_D, "RateRollD" },
{ TUNING_RATE_PITCH_PI,"RatePitchPI" },
{ TUNING_RATE_PITCH_P, "RatePitchP" },
{ TUNING_RATE_PITCH_I, "RatePitchI" },
{ TUNING_RATE_PITCH_D, "RatePitchD" },
{ TUNING_RATE_YAW_PI, "RateYawPI" },
{ TUNING_RATE_YAW_P, "RateYawP" },
{ TUNING_RATE_YAW_I, "RateYawI" },
{ TUNING_RATE_YAW_D, "RateYawD" },
{ TUNING_ANG_ROLL_P, "AngRollP" },
{ TUNING_ANG_PITCH_P, "AngPitchP" },
{ TUNING_ANG_YAW_P, "AngYawP" },
{ TUNING_PXY_P, "PXY_P" },
{ TUNING_PZ_P, "PZ_P" },
{ TUNING_VXY_P, "VXY_P" },
{ TUNING_VXY_I, "VXY_I" },
{ TUNING_VZ_P, "VZ_P" },
{ TUNING_AZ_P, "RateAZ_P" },
{ TUNING_AZ_I, "RateAZ_I" },
{ TUNING_AZ_D, "RateAZ_D" },
{ TUNING_RLL_P, "RollP" },
{ TUNING_RLL_I, "RollI" },
{ TUNING_RLL_D, "RollD" },
{ TUNING_RLL_FF, "RollFF" },
{ TUNING_PIT_P, "PitchP" },
{ TUNING_PIT_I, "PitchI" },
{ TUNING_PIT_D, "PitchD" },
{ TUNING_PIT_FF, "PitchFF" },
{ TUNING_NONE, nullptr }
};
/*
get a pointer to an AP_Float for a parameter, or NULL on fail
*/
AP_Float *AP_Tuning_Plane::get_param_pointer(uint8_t parm)
{
if (parm < TUNING_FIXED_WING_BASE && !plane.quadplane.available()) {
// quadplane tuning options not available
return nullptr;
}
switch(parm) {
case TUNING_RATE_ROLL_PI:
// use P for initial value when tuning PI
return &plane.quadplane.attitude_control->get_rate_roll_pid().kP();
case TUNING_RATE_ROLL_P:
return &plane.quadplane.attitude_control->get_rate_roll_pid().kP();
case TUNING_RATE_ROLL_I:
return &plane.quadplane.attitude_control->get_rate_roll_pid().kI();
case TUNING_RATE_ROLL_D:
return &plane.quadplane.attitude_control->get_rate_roll_pid().kD();
case TUNING_RATE_PITCH_PI:
return &plane.quadplane.attitude_control->get_rate_pitch_pid().kP();
case TUNING_RATE_PITCH_P:
return &plane.quadplane.attitude_control->get_rate_pitch_pid().kP();
case TUNING_RATE_PITCH_I:
return &plane.quadplane.attitude_control->get_rate_pitch_pid().kI();
case TUNING_RATE_PITCH_D:
return &plane.quadplane.attitude_control->get_rate_pitch_pid().kD();
case TUNING_RATE_YAW_PI:
return &plane.quadplane.attitude_control->get_rate_yaw_pid().kP();
case TUNING_RATE_YAW_P:
return &plane.quadplane.attitude_control->get_rate_yaw_pid().kP();
case TUNING_RATE_YAW_I:
return &plane.quadplane.attitude_control->get_rate_yaw_pid().kI();
case TUNING_RATE_YAW_D:
return &plane.quadplane.attitude_control->get_rate_yaw_pid().kD();
case TUNING_ANG_ROLL_P:
return &plane.quadplane.attitude_control->get_angle_roll_p().kP();
case TUNING_ANG_PITCH_P:
return &plane.quadplane.attitude_control->get_angle_pitch_p().kP();
case TUNING_ANG_YAW_P:
return &plane.quadplane.attitude_control->get_angle_yaw_p().kP();
case TUNING_PXY_P:
return &plane.quadplane.p_pos_xy.kP();
case TUNING_PZ_P:
return &plane.quadplane.p_alt_hold.kP();
case TUNING_VXY_P:
return &plane.quadplane.pi_vel_xy.kP();
case TUNING_VXY_I:
return &plane.quadplane.pi_vel_xy.kI();
case TUNING_VZ_P:
return &plane.quadplane.p_vel_z.kP();
case TUNING_AZ_P:
return &plane.quadplane.pid_accel_z.kP();
case TUNING_AZ_I:
return &plane.quadplane.pid_accel_z.kI();
case TUNING_AZ_D:
return &plane.quadplane.pid_accel_z.kD();
// fixed wing tuning parameters
case TUNING_RLL_P:
return &plane.rollController.kP();
case TUNING_RLL_I:
return &plane.rollController.kI();
case TUNING_RLL_D:
return &plane.rollController.kD();
case TUNING_RLL_FF:
return &plane.rollController.kFF();
case TUNING_PIT_P:
return &plane.pitchController.kP();
case TUNING_PIT_I:
return &plane.pitchController.kI();
case TUNING_PIT_D:
return &plane.pitchController.kD();
case TUNING_PIT_FF:
return &plane.pitchController.kFF();
}
return nullptr;
}
/*
save a parameter
*/
void AP_Tuning_Plane::save_value(uint8_t parm)
{
switch(parm) {
// special handling of dual-parameters
case TUNING_RATE_ROLL_PI:
save_value(TUNING_RATE_ROLL_P);
save_value(TUNING_RATE_ROLL_I);
break;
case TUNING_RATE_PITCH_PI:
save_value(TUNING_RATE_PITCH_P);
save_value(TUNING_RATE_PITCH_I);
break;
default:
AP_Float *f = get_param_pointer(parm);
if (f != nullptr) {
f->save();
}
break;
}
}
/*
set a parameter
*/
void AP_Tuning_Plane::set_value(uint8_t parm, float value)
{
switch(parm) {
// special handling of dual-parameters
case TUNING_RATE_ROLL_PI:
set_value(TUNING_RATE_ROLL_P, value);
set_value(TUNING_RATE_ROLL_I, value);
break;
case TUNING_RATE_PITCH_PI:
set_value(TUNING_RATE_PITCH_P, value);
set_value(TUNING_RATE_PITCH_I, value);
break;
default:
AP_Float *f = get_param_pointer(parm);
if (f != nullptr) {
f->set_and_notify(value);
}
break;
}
}
/*
reload a parameter
*/
void AP_Tuning_Plane::reload_value(uint8_t parm)
{
switch(parm) {
// special handling of dual-parameters
case TUNING_RATE_ROLL_PI:
reload_value(TUNING_RATE_ROLL_P);
reload_value(TUNING_RATE_ROLL_I);
break;
case TUNING_RATE_PITCH_PI:
reload_value(TUNING_RATE_PITCH_P);
reload_value(TUNING_RATE_PITCH_I);
break;
default:
AP_Float *f = get_param_pointer(parm);
if (f != nullptr) {
f->load();
}
break;
}
}