/* This program is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . */ #pragma once #include #include // allow buttons for up to 4 pins #define AP_BUTTON_NUM_PINS 4 // how often we send reports #define AP_BUTTON_REPORT_PERIOD_MS 1000 class AP_Button { public: // constructor AP_Button(void); /* Do not allow copies */ AP_Button(const AP_Button &other) = delete; AP_Button &operator=(const AP_Button&) = delete; static const struct AP_Param::GroupInfo var_info[]; // update button state and send messages, called periodically by main loop void update(void); static AP_Button *get_singleton(void) { return _singleton; } // get state of a button // used by scripting bool get_button_state(uint8_t number); // check settings are valid bool arming_checks(size_t buflen, char *buffer) const; private: static AP_Button *_singleton; AP_Int8 enable; AP_Int8 pin[AP_BUTTON_NUM_PINS]; AP_Int8 options[AP_BUTTON_NUM_PINS]; // if a pin's bit is set then it uses PWM assertion bool is_pwm_input(uint8_t n) const { return ((uint8_t)options[n].get() & (1U<<0)) != 0; } bool is_input_inverted(uint8_t n) const { return ((uint8_t)options[n].get() & (1U<<1)) != 0; } AP_Int16 pin_func[AP_BUTTON_NUM_PINS]; // from the RC_Channel functions // number of seconds to send change notifications AP_Int16 report_send_time; // last button press mask uint8_t last_mask; // debounced button press mask uint8_t debounce_mask; // current state of PWM pins: uint8_t pwm_state; // mask indicating which action was most recent taken for pins uint8_t state_actioned_mask; // pwm sources are used when using PWM on the input AP_HAL::PWMSource pwm_pin_source[AP_BUTTON_NUM_PINS]; // state from the timer interrupt: HAL_Semaphore last_debounced_change_ms_sem; // last time GPIO pins were debounced: uint64_t last_debounced_change_ms; // time at least last debounce changes across both PWM and GPIO // pins was detected: uint64_t last_debounce_ms; // when the mask last changed uint64_t last_change_time_ms; // when button change events were last actioned uint64_t last_action_time_ms; // true if allocated aux functions have been initialised bool aux_functions_initialised; // call init_aux_function for all used functions void run_aux_functions(bool force); // time of last report uint32_t last_report_ms; // has the timer been installed? bool initialised:1; // called by timer thread void timer_update(void); // get current mask uint8_t get_mask(void); // send a BUTTON_CHANGE report void send_report(void) const; // setup pins as pullup input void setup_pins(); }; namespace AP { AP_Button &button(); };