// -*- tab-width: 4; Mode: C++; c-basic-offset: 4; indent-tabs-mode: nil -*- /* This event will be called when the failsafe changes boolean failsafe reflects the current state */ static void failsafe_on_event() { // This is how to handle a failsafe. switch(control_mode) { case AUTO: if (g.throttle_fs_action == 1) { set_mode(RTL); } // 2 = Stay in AUTO and ignore failsafe default: // not ready to enable yet w/o more testing //set_mode(RTL); break; } } static void failsafe_off_event() { if (g.throttle_fs_action == 2){ // We're back in radio contact // return to AP // --------------------------- // re-read the switch so we can return to our preferred mode // -------------------------------------------------------- reset_control_switch(); }else if (g.throttle_fs_action == 1){ // We're back in radio contact // return to Home // we should already be in RTL and throttle set to cruise // ------------------------------------------------------ set_mode(RTL); } } static void low_battery_event(void) { gcs.send_text_P(SEVERITY_HIGH,PSTR("Low Battery!")); low_batt = true; // if we are in Auto mode, come home if(control_mode >= AUTO) set_mode(RTL); } static void update_events() // Used for MAV_CMD_DO_REPEAT_SERVO and MAV_CMD_DO_REPEAT_RELAY { if(event_repeat == 0 || (millis() - event_timer) < event_delay) return; if (event_repeat > 0){ event_repeat --; } if(event_repeat != 0) { // event_repeat = -1 means repeat forever event_timer = millis(); if (event_id >= CH_5 && event_id <= CH_8) { if(event_repeat%2) { APM_RC.OutputCh(event_id, event_value); // send to Servos } else { APM_RC.OutputCh(event_id, event_undo_value); } } if (event_id == RELAY_TOGGLE) { relay.toggle(); } } } #if PIEZO == ENABLED void piezo_on() { digitalWrite(PIEZO_PIN,HIGH); //PORTF |= B00100000; } void piezo_off() { digitalWrite(PIEZO_PIN,LOW); //PORTF &= ~B00100000; } void piezo_beep() { // Note: This command should not be used in time sensitive loops piezo_on(); delay(100); piezo_off(); } #endif