mirror of https://github.com/ArduPilot/ardupilot
339 lines
10 KiB
C++
339 lines
10 KiB
C++
#include "AP_Tuning.h"
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#include <GCS_MAVLink/GCS.h>
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extern const AP_HAL::HAL& hal;
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const AP_Param::GroupInfo AP_Tuning::var_info[] = {
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// @Param: CHAN
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// @DisplayName: Transmitter tuning channel
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// @Description: This sets the channel for transmitter tuning. This should be connected to a knob or slider on your transmitter. It needs to be setup to use the PWM range given by TUNE_CHAN_MIN to TUNE_CHAN_MAX
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// @Values: 0:Disable,5:Chan5,6:Chan6,7:Chan7,8:Chan8,9:Chan9,10:Chan10,11:Chan11,12:Chan12,13:Chan13,14:Chan14,15:Chan15,16:Chan16
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// @User: Standard
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AP_GROUPINFO("CHAN", 1, AP_Tuning, channel, 0),
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// @Param: CHAN_MIN
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// @DisplayName: Transmitter tuning channel minimum pwm
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// @Description: This sets the PWM lower limit for the tuning channel
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// @Range: 900 2100
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// @User: Standard
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AP_GROUPINFO("CHAN_MIN", 2, AP_Tuning, channel_min, 1000),
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// @Param: CHAN_MAX
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// @DisplayName: Transmitter tuning channel maximum pwm
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// @Description: This sets the PWM upper limit for the tuning channel
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// @Range: 900 2100
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// @User: Standard
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AP_GROUPINFO("CHAN_MAX", 3, AP_Tuning, channel_max, 2000),
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// @Param: SELECTOR
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// @DisplayName: Transmitter tuning selector channel
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// @Description: This sets the channel for the transmitter tuning selector switch. This should be a 2 position switch, preferably spring loaded. A PWM above 1700 means high, below 1300 means low. If no selector is set then you won't be able to switch between parameters during flight or re-center the tuning knob
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// @Values: 0:Disable,1:Chan1,2:Chan3,3:Chan3,4:Chan4,5:Chan5,6:Chan6,7:Chan7,8:Chan8,9:Chan9,10:Chan10,11:Chan11,12:Chan12,13:Chan13,14:Chan14,15:Chan15,16:Chan16
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// @User: Standard
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AP_GROUPINFO("SELECTOR", 4, AP_Tuning, selector, 0),
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// @Param: RANGE
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// @DisplayName: Transmitter tuning range
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// @Description: This sets the range over which tuning will change a parameter. A value of 2 means the tuning parameter will go from 0.5 times the start value to 2x the start value over the range of the tuning channel
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// @User: Standard
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AP_GROUPINFO("RANGE", 5, AP_Tuning, range, 2.0f),
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// @Param: MODE_REVERT
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// @DisplayName: Revert on mode change
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// @Description: This controls whether tuning values will revert on a flight mode change.
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// @Values: 0:Disable,1:Enable
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// @User: Standard
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AP_GROUPINFO("MODE_REVERT", 6, AP_Tuning, mode_revert, 1),
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// @Param: ERR_THRESH
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// @DisplayName: Controller error threshold
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// @Description: This sets the controller error threshold above which an alarm will sound and a message will be sent to the GCS to warn of controller instability
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// @Range: 0 1
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// @User: Standard
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AP_GROUPINFO("ERR_THRESH", 7, AP_Tuning, error_threshold, 0.15f),
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AP_GROUPEND
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};
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/*
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handle selector switch input
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*/
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void AP_Tuning::check_selector_switch(void)
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{
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if (selector == 0) {
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// no selector switch enabled
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return;
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}
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RC_Channel *selchan = RC_Channel::rc_channel(selector-1);
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if (selchan == nullptr) {
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return;
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}
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uint16_t selector_in = selchan->get_radio_in();
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if (selector_in >= 1700) {
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// high selector
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if (selector_start_ms == 0) {
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selector_start_ms = AP_HAL::millis();
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}
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uint32_t hold_time = AP_HAL::millis() - selector_start_ms;
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if (hold_time > 5000 && changed) {
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// save tune
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save_parameters();
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re_center();
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GCS_MAVLINK::send_statustext_all(MAV_SEVERITY_INFO, "Tuning: Saved");
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AP_Notify::events.tune_save = 1;
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changed = false;
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need_revert = 0;
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}
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} else if (selector_in <= 1300) {
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// low selector
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if (selector_start_ms != 0) {
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uint32_t hold_time = AP_HAL::millis() - selector_start_ms;
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if (hold_time < 2000) {
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// re-center the value
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re_center();
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GCS_MAVLINK::send_statustext_all(MAV_SEVERITY_INFO, "Tuning: recentered %s", get_tuning_name(current_parm));
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} else if (hold_time < 5000) {
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// change parameter
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next_parameter();
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}
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}
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selector_start_ms = 0;
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}
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}
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/*
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re-center the tuning value
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*/
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void AP_Tuning::re_center(void)
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{
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AP_Float *f = get_param_pointer(current_parm);
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if (f != nullptr) {
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center_value = f->get();
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}
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mid_point_wait = true;
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}
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/*
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check for changed tuning input
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*/
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void AP_Tuning::check_input(uint8_t flightmode)
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{
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if (channel <= 0 || parmset <= 0) {
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// disabled
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return;
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}
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// check for revert on changed flightmode
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if (flightmode != last_flightmode) {
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if (need_revert != 0 && mode_revert != 0) {
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GCS_MAVLINK::send_statustext_all(MAV_SEVERITY_INFO, "Tuning: reverted");
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revert_parameters();
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re_center();
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}
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last_flightmode = flightmode;
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}
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// only adjust values at 10Hz
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uint32_t now = AP_HAL::millis();
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uint32_t dt_ms = now - last_check_ms;
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if (dt_ms < 100) {
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return;
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}
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last_check_ms = now;
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if (channel > hal.rcin->num_channels()) {
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// not valid channel
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return;
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}
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// check for invalid range
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if (range < 1.1f) {
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range.set(1.1f);
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}
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if (current_parm == 0) {
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next_parameter();
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}
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// cope with user changing parmset while tuning
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if (current_set != parmset) {
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re_center();
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}
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current_set = parmset;
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check_selector_switch();
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if (selector_start_ms) {
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// no tuning while selector high
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return;
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}
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if (current_parm == 0) {
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return;
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}
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RC_Channel *chan = RC_Channel::rc_channel(channel-1);
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if (chan == nullptr) {
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return;
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}
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float chan_value = linear_interpolate(-1, 1, chan->get_radio_in(), channel_min, channel_max);
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if (dt_ms > 500) {
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last_channel_value = chan_value;
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}
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// check for controller error
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check_controller_error();
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if (fabsf(chan_value - last_channel_value) < 0.01) {
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// ignore changes of less than 1%
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return;
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}
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//hal.console->printf("chan_value %.2f last_channel_value %.2f\n", chan_value, last_channel_value);
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if (mid_point_wait) {
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// see if we have crossed the mid-point. We use a small deadzone to make it easier
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// to move to the "indent" portion of a slider to start tuning
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const float dead_zone = 0.02;
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if ((chan_value > dead_zone && last_channel_value > 0) ||
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(chan_value < -dead_zone && last_channel_value < 0)) {
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// still waiting
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return;
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}
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// starting tuning
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mid_point_wait = false;
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GCS_MAVLINK::send_statustext_all(MAV_SEVERITY_INFO, "Tuning: mid-point %s", get_tuning_name(current_parm));
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AP_Notify::events.tune_started = 1;
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}
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last_channel_value = chan_value;
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float new_value;
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if (chan_value > 0) {
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new_value = linear_interpolate(center_value, range*center_value, chan_value, 0, 1);
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} else {
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new_value = linear_interpolate(center_value/range, center_value, chan_value, -1, 0);
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}
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changed = true;
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need_revert |= (1U << current_parm_index);
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set_value(current_parm, new_value);
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Log_Write_Parameter_Tuning(new_value);
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}
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/*
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log a tuning change
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*/
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void AP_Tuning::Log_Write_Parameter_Tuning(float value)
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{
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DataFlash_Class::instance()->Log_Write("PTUN", "TimeUS,Set,Parm,Value,CenterValue", "QBBff",
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AP_HAL::micros64(),
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parmset,
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current_parm,
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(double)value,
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(double)center_value);
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}
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/*
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save parameters in the set
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*/
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void AP_Tuning::save_parameters(void)
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{
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uint8_t set = (uint8_t)parmset.get();
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if (set < set_base) {
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// single parameter tuning
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save_value(set);
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return;
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}
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// multiple parameter tuning
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for (uint8_t i=0; tuning_sets[i].num_parms != 0; i++) {
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if (tuning_sets[i].set+set_base == set) {
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for (uint8_t p=0; p<tuning_sets[i].num_parms; p++) {
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save_value(tuning_sets[i].parms[p]);
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}
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break;
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}
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}
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}
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/*
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save parameters in the set
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*/
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void AP_Tuning::revert_parameters(void)
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{
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uint8_t set = (uint8_t)parmset.get();
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if (set < set_base) {
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// single parameter tuning
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reload_value(set);
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return;
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}
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for (uint8_t i=0; tuning_sets[i].num_parms != 0; i++) {
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if (tuning_sets[i].set+set_base == set) {
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for (uint8_t p=0; p<tuning_sets[i].num_parms; p++) {
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if (p >= 32 || (need_revert & (1U<<p))) {
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reload_value(tuning_sets[i].parms[p]);
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}
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}
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need_revert = 0;
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break;
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}
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}
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}
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/*
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switch to the next parameter in the set
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*/
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void AP_Tuning::next_parameter(void)
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{
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uint8_t set = (uint8_t)parmset.get();
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if (set < set_base) {
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// nothing to do but re-center
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current_parm = set;
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re_center();
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return;
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}
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for (uint8_t i=0; tuning_sets[i].num_parms != 0; i++) {
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if (tuning_sets[i].set+set_base == set) {
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if (current_parm == 0) {
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current_parm_index = 0;
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} else {
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current_parm_index = (current_parm_index + 1) % tuning_sets[i].num_parms;
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}
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current_parm = tuning_sets[i].parms[current_parm_index];
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re_center();
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GCS_MAVLINK::send_statustext_all(MAV_SEVERITY_INFO, "Tuning: started %s", get_tuning_name(current_parm));
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AP_Notify::events.tune_next = current_parm_index+1;
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break;
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}
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}
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}
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/*
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return a string representing a tuning parameter
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*/
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const char *AP_Tuning::get_tuning_name(uint8_t parm)
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{
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for (uint8_t i=0; tuning_names[i].name != nullptr; i++) {
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if (parm == tuning_names[i].parm) {
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return tuning_names[i].name;
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}
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}
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return "UNKNOWN";
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}
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/*
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check for controller error
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*/
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void AP_Tuning::check_controller_error(void)
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{
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float err = controller_error(current_parm);
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if (err > error_threshold) {
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uint32_t now = AP_HAL::millis();
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if (now - last_controller_error_ms > 2000 && hal.util->get_soft_armed()) {
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AP_Notify::events.tune_error = 1;
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GCS_MAVLINK::send_statustext_all(MAV_SEVERITY_INFO, "Tuning: error %.2f", (double)err);
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last_controller_error_ms = now;
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}
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}
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}
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