mirror of https://github.com/ArduPilot/ardupilot
158 lines
3.3 KiB
Plaintext
158 lines
3.3 KiB
Plaintext
/// -*- tab-width: 4; Mode: C++; c-basic-offset: 4; indent-tabs-mode: nil -*-
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static void read_control_switch()
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{
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static bool switch_debouncer = false;
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byte switchPosition = readSwitch();
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if (oldSwitchPosition != switchPosition){
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if(switch_debouncer){
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// remember the prev location for GS
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prev_WP = current_loc;
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oldSwitchPosition = switchPosition;
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switch_debouncer = false;
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set_mode(flight_modes[switchPosition]);
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#if CH7_OPTION != CH7_SIMPLE_MODE
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// setup Simple mode
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// do we enable simple mode?
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do_simple = (g.simple_modes & (1 << switchPosition));
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#endif
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}else{
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switch_debouncer = true;
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}
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}
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}
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static byte readSwitch(void){
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int pulsewidth = g.rc_5.radio_in; // default for Arducopter
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if (pulsewidth > 1230 && pulsewidth <= 1360) return 1;
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if (pulsewidth > 1360 && pulsewidth <= 1490) return 2;
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if (pulsewidth > 1490 && pulsewidth <= 1620) return 3;
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if (pulsewidth > 1620 && pulsewidth <= 1749) return 4; // Software Manual
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if (pulsewidth >= 1750) return 5; // Hardware Manual
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return 0;
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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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static boolean trim_flag;
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// read at 10 hz
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// set this to your trainer switch
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static void read_trim_switch()
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{
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#if CH7_OPTION == CH7_FLIP
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if (g.rc_7.control_in > 800 && g.rc_3.control_in != 0){
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do_flip = true;
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}
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#elif CH7_OPTION == CH7_SIMPLE_MODE
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do_simple = (g.rc_7.control_in > 800);
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//Serial.println(g.rc_7.control_in, DEC);
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#elif CH7_OPTION == CH7_RTL
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static bool ch7_rtl_flag = false;
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if (ch7_rtl_flag == false && g.rc_7.control_in > 800){
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ch7_rtl_flag = true;
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set_mode(RTL);
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}
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if (ch7_rtl_flag == true && g.rc_7.control_in < 800){
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ch7_rtl_flag = false;
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if (control_mode == RTL || control_mode == LOITER){
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reset_control_switch();
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}
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}
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#elif CH7_OPTION == CH7_SET_HOVER
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// switch is engaged
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if (g.rc_7.control_in > 800){
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trim_flag = true;
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}else{ // switch is disengaged
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if(trim_flag){
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// set the throttle nominal
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if(g.rc_3.control_in > 150){
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g.throttle_cruise.set_and_save(g.rc_3.control_in);
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//Serial.printf("tnom %d\n", g.throttle_cruise.get());
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}
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trim_flag = false;
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}
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}
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#elif CH7_OPTION == CH7_ADC_FILTER
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if (g.rc_7.control_in > 800){
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adc.filter_result = true;
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}else{
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adc.filter_result = false;
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}
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#elif CH7_OPTION == CH7_AUTO_TRIM
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if (g.rc_7.control_in > 800){
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auto_level_counter = 10;
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}
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#endif
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}
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static void auto_trim()
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{
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if(auto_level_counter > 0){
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//g.rc_1.dead_zone = 60; // 60 = .6 degrees
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//g.rc_2.dead_zone = 60;
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auto_level_counter--;
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trim_accel();
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led_mode = AUTO_TRIM_LEDS;
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if(auto_level_counter == 1){
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//g.rc_1.dead_zone = 0; // 60 = .6 degrees
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//g.rc_2.dead_zone = 0;
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led_mode = NORMAL_LEDS;
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clear_leds();
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imu.save();
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Serial.println("Done");
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auto_level_counter = 0;
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}
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}
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}
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static void trim_accel()
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{
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g.pi_stabilize_roll.reset_I();
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g.pi_stabilize_pitch.reset_I();
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if(g.rc_1.control_in > 0){ // Roll RIght
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imu.ay(imu.ay() + 1);
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}else if (g.rc_1.control_in < 0){
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imu.ay(imu.ay() - 1);
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}
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if(g.rc_2.control_in > 0){ // Pitch Back
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imu.ax(imu.ax() + 1);
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}else if (g.rc_2.control_in < 0){
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imu.ax(imu.ax() - 1);
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}
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/*
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Serial.printf_P(PSTR("r:%ld p:%ld ax:%f, ay:%f, az:%f\n"),
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dcm.roll_sensor,
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dcm.pitch_sensor,
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(float)imu.ax(),
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(float)imu.ay(),
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(float)imu.az());
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//*/
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}
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