mirror of https://github.com/ArduPilot/ardupilot
418 lines
14 KiB
Plaintext
418 lines
14 KiB
Plaintext
/// -*- tab-width: 4; Mode: C++; c-basic-offset: 4; indent-tabs-mode: nil -*-
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#define CONTROL_SWITCH_COUNTER 20 // 20 iterations at 100hz (i.e. 2/10th of a second) at a new switch position will cause flight mode change
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static void read_control_switch()
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{
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static uint8_t switch_counter = 0;
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uint8_t switchPosition = readSwitch();
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// has switch moved?
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// ignore flight mode changes if in failsafe
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if (oldSwitchPosition != switchPosition && !failsafe.radio && failsafe.radio_counter == 0) {
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switch_counter++;
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if(switch_counter >= CONTROL_SWITCH_COUNTER) {
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oldSwitchPosition = switchPosition;
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switch_counter = 0;
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// set flight mode and simple mode setting
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if (set_mode(flight_modes[switchPosition])) {
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if(g.ch7_option != AUX_SWITCH_SIMPLE_MODE && g.ch8_option != AUX_SWITCH_SIMPLE_MODE && g.ch7_option != AUX_SWITCH_SUPERSIMPLE_MODE && g.ch8_option != AUX_SWITCH_SUPERSIMPLE_MODE) {
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// set Simple mode using stored paramters from Mission planner
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// rather than by the control switch
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if (BIT_IS_SET(g.super_simple, switchPosition)) {
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set_simple_mode(2);
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}else{
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set_simple_mode(BIT_IS_SET(g.simple_modes, switchPosition));
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}
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}
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}
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}
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}else{
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// reset switch_counter if there's been no change
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// we don't want 10 intermittant blips causing a flight mode change
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switch_counter = 0;
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}
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}
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static uint8_t readSwitch(void){
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int16_t pulsewidth = g.rc_5.radio_in; // default for Arducopter
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if (pulsewidth < 1231) return 0;
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if (pulsewidth < 1361) return 1;
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if (pulsewidth < 1491) return 2;
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if (pulsewidth < 1621) return 3;
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if (pulsewidth < 1750) return 4; // Software Manual
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return 5; // Hardware Manual
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}
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static void reset_control_switch()
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{
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oldSwitchPosition = -1;
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read_control_switch();
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}
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// read_3pos_switch
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static uint8_t read_3pos_switch(int16_t radio_in){
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if (radio_in < AUX_SWITCH_PWM_TRIGGER_LOW) return AUX_SWITCH_LOW; // switch is in low position
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if (radio_in > AUX_SWITCH_PWM_TRIGGER_HIGH) return AUX_SWITCH_HIGH; // switch is in high position
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return AUX_SWITCH_MIDDLE; // switch is in middle position
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}
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// read_aux_switches - checks aux switch positions and invokes configured actions
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static void read_aux_switches()
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{
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uint8_t switch_position;
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// exit immediately during radio failsafe
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if (failsafe.radio || failsafe.radio_counter != 0) {
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return;
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}
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// check if ch7 switch has changed position
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switch_position = read_3pos_switch(g.rc_7.radio_in);
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if (ap.CH7_flag != switch_position) {
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// set the CH7 flag
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ap.CH7_flag = switch_position;
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// invoke the appropriate function
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do_aux_switch_function(g.ch7_option, ap.CH7_flag);
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}
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// check if Ch8 switch has changed position
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switch_position = read_3pos_switch(g.rc_8.radio_in);
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if (ap.CH8_flag != switch_position) {
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// set the CH8 flag
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ap.CH8_flag = switch_position;
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// invoke the appropriate function
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do_aux_switch_function(g.ch8_option, ap.CH8_flag);
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}
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}
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// init_aux_switches - invoke configured actions at start-up for aux function where it is safe to do so
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static void init_aux_switches()
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{
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// set the CH7 flag
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ap.CH7_flag = read_3pos_switch(g.rc_7.radio_in);
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ap.CH8_flag = read_3pos_switch(g.rc_8.radio_in);
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// init channel 7 options
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switch(g.ch7_option) {
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case AUX_SWITCH_SIMPLE_MODE:
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case AUX_SWITCH_SONAR:
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case AUX_SWITCH_FENCE:
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case AUX_SWITCH_RESETTOARMEDYAW:
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case AUX_SWITCH_SUPERSIMPLE_MODE:
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case AUX_SWITCH_ACRO_TRAINER:
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case AUX_SWITCH_EPM:
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case AUX_SWITCH_SPRAYER:
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do_aux_switch_function(g.ch7_option, ap.CH7_flag);
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break;
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}
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// init channel 8 option
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switch(g.ch8_option) {
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case AUX_SWITCH_SIMPLE_MODE:
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case AUX_SWITCH_SONAR:
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case AUX_SWITCH_FENCE:
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case AUX_SWITCH_RESETTOARMEDYAW:
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case AUX_SWITCH_SUPERSIMPLE_MODE:
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case AUX_SWITCH_ACRO_TRAINER:
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case AUX_SWITCH_EPM:
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case AUX_SWITCH_SPRAYER:
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do_aux_switch_function(g.ch8_option, ap.CH8_flag);
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break;
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}
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}
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// do_aux_switch_function - implement the function invoked by the ch7 or ch8 switch
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static void do_aux_switch_function(int8_t ch_function, uint8_t ch_flag)
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{
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int8_t tmp_function = ch_function;
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// multi mode check
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if(ch_function == AUX_SWITCH_MULTI_MODE) {
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if (g.rc_6.radio_in < CH6_PWM_TRIGGER_LOW) {
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tmp_function = AUX_SWITCH_FLIP;
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}else if (g.rc_6.radio_in > CH6_PWM_TRIGGER_HIGH) {
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tmp_function = AUX_SWITCH_SAVE_WP;
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}else{
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tmp_function = AUX_SWITCH_RTL;
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}
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}
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switch(tmp_function) {
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case AUX_SWITCH_FLIP:
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// flip if switch is on, positive throttle and we're actually flying
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if(ch_flag == AUX_SWITCH_HIGH) {
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set_mode(FLIP);
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}else{
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flip_stop();
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}
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break;
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case AUX_SWITCH_SIMPLE_MODE:
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// low = simple mode off, middle or high position turns simple mode on
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set_simple_mode(ch_flag == AUX_SWITCH_HIGH || ch_flag == AUX_SWITCH_MIDDLE);
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break;
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case AUX_SWITCH_SUPERSIMPLE_MODE:
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// low = simple mode off, middle = simple mode, high = super simple mode
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set_simple_mode(ch_flag);
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break;
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case AUX_SWITCH_RTL:
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if (ch_flag == AUX_SWITCH_HIGH) {
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// engage RTL (if not possible we remain in current flight mode)
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set_mode(RTL);
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}else{
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// return to flight mode switch's flight mode if we are currently in RTL
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if (control_mode == RTL) {
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reset_control_switch();
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}
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}
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break;
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case AUX_SWITCH_SAVE_TRIM:
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if ((ch_flag == AUX_SWITCH_HIGH) && (control_mode <= ACRO) && (g.rc_3.control_in == 0)) {
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save_trim();
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}
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break;
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case AUX_SWITCH_SAVE_WP:
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// save waypoint when switch is brought high
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if (ch_flag == AUX_SWITCH_HIGH) {
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// if in auto mode, reset the mission
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if(control_mode == AUTO) {
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aux_switch_wp_index = 0;
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g.command_total.set_and_save(1);
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set_mode(RTL); // if by chance we are unable to switch to RTL we just stay in AUTO and hope the GPS failsafe will take-over
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Log_Write_Event(DATA_SAVEWP_CLEAR_MISSION_RTL);
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return;
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}
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// we're on the ground
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if((g.rc_3.control_in == 0) && (aux_switch_wp_index == 0)){
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// nothing to do
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return;
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}
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// initialise new waypoint to current location
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Location new_wp;
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if(aux_switch_wp_index == 0) {
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// this is our first WP, let's save WP 1 as a takeoff
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// increment index to WP index of 1 (home is stored at 0)
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aux_switch_wp_index = 1;
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// set our location ID to 16, MAV_CMD_NAV_WAYPOINT
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new_wp.id = MAV_CMD_NAV_TAKEOFF;
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new_wp.options = 0;
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new_wp.p1 = 0;
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new_wp.lat = 0;
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new_wp.lng = 0;
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new_wp.alt = max(current_loc.alt,100);
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// save command:
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// we use the current altitude to be the target for takeoff.
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// only altitude will matter to the AP mission script for takeoff.
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// If we are above the altitude, we will skip the command.
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set_cmd_with_index(new_wp, aux_switch_wp_index);
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}
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// initialise new waypoint to current location
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new_wp = current_loc;
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// increment index
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aux_switch_wp_index++;
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// set the next_WP (home is stored at 0)
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// max out at 100 since I think we need to stay under the EEPROM limit
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aux_switch_wp_index = constrain_int16(aux_switch_wp_index, 1, 100);
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if(g.rc_3.control_in > 0) {
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// set our location ID to 16, MAV_CMD_NAV_WAYPOINT
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new_wp.id = MAV_CMD_NAV_WAYPOINT;
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}else{
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// set our location ID to 21, MAV_CMD_NAV_LAND
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new_wp.id = MAV_CMD_NAV_LAND;
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}
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// save command
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set_cmd_with_index(new_wp, aux_switch_wp_index);
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// log event
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Log_Write_Event(DATA_SAVEWP_ADD_WP);
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}
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break;
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#if CAMERA == ENABLED
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case AUX_SWITCH_CAMERA_TRIGGER:
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if (ch_flag == AUX_SWITCH_HIGH) {
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do_take_picture();
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}
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break;
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#endif
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case AUX_SWITCH_SONAR:
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// enable or disable the sonar
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if (ch_flag == AUX_SWITCH_HIGH) {
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g.sonar_enabled = true;
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}else{
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g.sonar_enabled = false;
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}
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break;
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#if AC_FENCE == ENABLED
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case AUX_SWITCH_FENCE:
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// enable or disable the fence
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if (ch_flag == AUX_SWITCH_HIGH) {
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fence.enable(true);
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Log_Write_Event(DATA_FENCE_ENABLE);
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}else{
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fence.enable(false);
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Log_Write_Event(DATA_FENCE_DISABLE);
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}
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break;
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#endif
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// To-Do: add back support for this feature
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//case AUX_SWITCH_RESETTOARMEDYAW:
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// if (ch_flag == AUX_SWITCH_HIGH) {
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// set_yaw_mode(YAW_RESETTOARMEDYAW);
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// }else{
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// set_yaw_mode(YAW_HOLD);
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// }
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// break;
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case AUX_SWITCH_ACRO_TRAINER:
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switch(ch_flag) {
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case AUX_SWITCH_LOW:
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g.acro_trainer = ACRO_TRAINER_DISABLED;
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Log_Write_Event(DATA_ACRO_TRAINER_DISABLED);
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break;
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case AUX_SWITCH_MIDDLE:
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g.acro_trainer = ACRO_TRAINER_LEVELING;
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Log_Write_Event(DATA_ACRO_TRAINER_LEVELING);
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break;
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case AUX_SWITCH_HIGH:
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g.acro_trainer = ACRO_TRAINER_LIMITED;
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Log_Write_Event(DATA_ACRO_TRAINER_LIMITED);
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break;
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}
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break;
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#if EPM_ENABLED == ENABLED
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case AUX_SWITCH_EPM:
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switch(ch_flag) {
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case AUX_SWITCH_LOW:
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epm.off();
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Log_Write_Event(DATA_EPM_OFF);
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break;
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case AUX_SWITCH_MIDDLE:
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epm.neutral();
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Log_Write_Event(DATA_EPM_NEUTRAL);
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break;
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case AUX_SWITCH_HIGH:
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epm.on();
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Log_Write_Event(DATA_EPM_ON);
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break;
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}
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break;
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#endif
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#if SPRAYER == ENABLED
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case AUX_SWITCH_SPRAYER:
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sprayer.enable(ch_flag == AUX_SWITCH_HIGH);
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// if we are disarmed the pilot must want to test the pump
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sprayer.test_pump((ch_flag == AUX_SWITCH_HIGH) && !motors.armed());
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break;
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#endif
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case AUX_SWITCH_AUTO:
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if (ch_flag == AUX_SWITCH_HIGH) {
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set_mode(AUTO);
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}else{
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// return to flight mode switch's flight mode if we are currently in AUTO
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if (control_mode == AUTO) {
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reset_control_switch();
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}
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}
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break;
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#if AUTOTUNE == ENABLED
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case AUX_SWITCH_AUTOTUNE:
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// turn on auto tuner
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switch(ch_flag) {
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case AUX_SWITCH_LOW:
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case AUX_SWITCH_MIDDLE:
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// turn off tuning and return to standard pids
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if (roll_pitch_mode == ROLL_PITCH_AUTOTUNE) {
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set_roll_pitch_mode(ROLL_PITCH_STABLE);
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}
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break;
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case AUX_SWITCH_HIGH:
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// start an auto tuning session
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// set roll-pitch mode to our special auto tuning stabilize roll-pitch mode
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set_roll_pitch_mode(ROLL_PITCH_AUTOTUNE);
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break;
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}
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break;
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#endif
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case AUX_SWITCH_LAND:
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if (ch_flag == AUX_SWITCH_HIGH) {
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set_mode(LAND);
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}else{
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// return to flight mode switch's flight mode if we are currently in LAND
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if (control_mode == LAND) {
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reset_control_switch();
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}
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}
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break;
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}
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}
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// save_trim - adds roll and pitch trims from the radio to ahrs
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static void save_trim()
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{
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// save roll and pitch trim
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float roll_trim = ToRad((float)g.rc_1.control_in/100.0f);
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float pitch_trim = ToRad((float)g.rc_2.control_in/100.0f);
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ahrs.add_trim(roll_trim, pitch_trim);
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Log_Write_Event(DATA_SAVE_TRIM);
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gcs_send_text_P(SEVERITY_HIGH, PSTR("Trim saved"));
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}
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// auto_trim - slightly adjusts the ahrs.roll_trim and ahrs.pitch_trim towards the current stick positions
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// meant to be called continuously while the pilot attempts to keep the copter level
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static void auto_trim()
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{
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if(auto_trim_counter > 0) {
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auto_trim_counter--;
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// flash the leds
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AP_Notify::flags.save_trim = true;
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// calculate roll trim adjustment
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float roll_trim_adjustment = ToRad((float)g.rc_1.control_in / 4000.0f);
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// calculate pitch trim adjustment
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float pitch_trim_adjustment = ToRad((float)g.rc_2.control_in / 4000.0f);
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// make sure accelerometer values impact attitude quickly
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ahrs.set_fast_gains(true);
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// add trim to ahrs object
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// save to eeprom on last iteration
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ahrs.add_trim(roll_trim_adjustment, pitch_trim_adjustment, (auto_trim_counter == 0));
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// on last iteration restore leds and accel gains to normal
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if(auto_trim_counter == 0) {
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ahrs.set_fast_gains(false);
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AP_Notify::flags.save_trim = false;
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}
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}
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}
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