mediCAL's first BLE project
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nordic/nrf-sdk/app_common/app_button.h
- Committer:
- antoniorohit
- Date:
- 2014-11-02
- Revision:
- 69:d9f51b65a3c8
- Parent:
- 65:98215c4f3a25
File content as of revision 69:d9f51b65a3c8:
/* Copyright (c) 2012 Nordic Semiconductor. All Rights Reserved. * * The information contained herein is property of Nordic Semiconductor ASA. * Terms and conditions of usage are described in detail in NORDIC * SEMICONDUCTOR STANDARD SOFTWARE LICENSE AGREEMENT. * * Licensees are granted free, non-transferable use of the information. NO * WARRANTY of ANY KIND is provided. This heading must NOT be removed from * the file. * */ /** @file * * @defgroup app_button Button Handler * @{ * @ingroup app_common * * @brief Buttons handling module. * * @details The button handler uses the @ref app_gpiote to detect that a button has been * pushed. To handle debouncing, it will start a timer in the GPIOTE event handler. * The button will only be reported as pushed if the corresponding pin is still active when * the timer expires. If there is a new GPIOTE event while the timer is running, the timer * is restarted. * Use the USE_SCHEDULER parameter of the APP_BUTTON_INIT() macro to select if the * @ref app_scheduler is to be used or not. * * @note The app_button module uses the app_timer module. The user must ensure that the queue in * app_timer is large enough to hold the app_timer_stop() / app_timer_start() operations * which will be executed on each event from GPIOTE module (2 operations), as well as other * app_timer operations queued simultaneously in the application. * * @note Even if the scheduler is not used, app_button.h will include app_scheduler.h, so when * compiling, app_scheduler.h must be available in one of the compiler include paths. */ #ifndef APP_BUTTON_H__ #define APP_BUTTON_H__ #include <stdint.h> #include <stdbool.h> #include "nrf.h" #include "app_error.h" #include "app_scheduler.h" #include "nrf_gpio.h" #define APP_BUTTON_SCHED_EVT_SIZE sizeof(app_button_event_t) /**< Size of button events being passed through the scheduler (is to be used for computing the maximum size of scheduler events). */ #define APP_BUTTON_PUSH 1 /**< Indicates that a button is pushed. */ #define APP_BUTTON_RELEASE 0 /**< Indicates that a button is released. */ #define APP_BUTTON_ACTIVE_HIGH 1 /**< Indicates that a button is active high. */ #define APP_BUTTON_ACTIVE_LOW 0 /**< Indicates that a button is active low. */ /**@brief Button event handler type. */ typedef void (*app_button_handler_t)(uint8_t pin_no, uint8_t button_action); /**@brief Type of function for passing events from the Button Handler module to the scheduler. */ typedef uint32_t (*app_button_evt_schedule_func_t) (app_button_handler_t button_handler, uint8_t pin_no, uint8_t button_action); /**@brief Button configuration structure. */ typedef struct { uint8_t pin_no; /**< Pin to be used as a button. */ uint8_t active_state; /**< APP_BUTTON_ACTIVE_HIGH or APP_BUTTON_ACTIVE_LOW. */ nrf_gpio_pin_pull_t pull_cfg; /**< Pull-up or -down configuration. */ app_button_handler_t button_handler; /**< Handler to be called when button is pushed. */ } app_button_cfg_t; /**@brief Pin transition direction struct. */ typedef struct { uint32_t high_to_low; /**Pin went from high to low */ uint32_t low_to_high; /**Pin went from low to high */ } pin_transition_t; /**@brief Macro for initializing the Button Handler module. * * @details It will initialize the specified pins as buttons, and configure the Button Handler * module as a GPIOTE user (but it will not enable button detection). It will also connect * the Button Handler module to the scheduler (if specified). * * @param[in] BUTTONS Array of buttons to be used (type app_button_cfg_t, must be * static!). * @param[in] BUTTON_COUNT Number of buttons. * @param[in] DETECTION_DELAY Delay from a GPIOTE event until a button is reported as pushed. * @param[in] USE_SCHEDULER TRUE if the application is using the event scheduler, * FALSE otherwise. */ /*lint -emacro(506, APP_BUTTON_INIT) */ /* Suppress "Constant value Boolean */ #define APP_BUTTON_INIT(BUTTONS, BUTTON_COUNT, DETECTION_DELAY, USE_SCHEDULER) \ do \ { \ uint32_t ERR_CODE = app_button_init((BUTTONS), \ (BUTTON_COUNT), \ (DETECTION_DELAY), \ (USE_SCHEDULER) ? app_button_evt_schedule : NULL); \ APP_ERROR_CHECK(ERR_CODE); \ } while (0) /**@brief Function for initializing the Buttons. * * @details This function will initialize the specified pins as buttons, and configure the Button * Handler module as a GPIOTE user (but it will not enable button detection). * * @note Normally initialization should be done using the APP_BUTTON_INIT() macro, as that will take * care of connecting the Buttons module to the scheduler (if specified). * * @note app_button_enable() function must be called in order to enable the button detection. * * @param[in] p_buttons Array of buttons to be used (NOTE: Must be static!). * @param[in] button_count Number of buttons. * @param[in] detection_delay Delay from a GPIOTE event until a button is reported as pushed. * @param[in] evt_schedule_func Function for passing button events to the scheduler. Point to * app_button_evt_schedule() to connect to the scheduler. Set to * NULL to make the Buttons module call the event handler directly * from the delayed button push detection timeout handler. * * @return NRF_SUCCESS on success, otherwise an error code. */ uint32_t app_button_init(app_button_cfg_t * p_buttons, uint8_t button_count, uint32_t detection_delay, app_button_evt_schedule_func_t evt_schedule_func); /**@brief Function for enabling button detection. * * @retval NRF_ERROR_INVALID_PARAM GPIOTE has to many users. * @retval NRF_ERROR_INVALID_STATE Button or GPIOTE not initialized. * @retval NRF_SUCCESS Button detection successfully enabled. */ uint32_t app_button_enable(void); /**@brief Function for disabling button detection. * * @retval NRF_ERROR_INVALID_PARAM GPIOTE has to many users. * @retval NRF_ERROR_INVALID_STATE Button or GPIOTE not initialized. * @retval NRF_SUCCESS Button detection successfully enabled. */ uint32_t app_button_disable(void); /**@brief Function for checking if a button is currently being pushed. * * @param[in] button_id Button index (in the app_button_cfg_t array given to app_button_init) to be checked. * @param[out] p_is_pushed Button state. * * @retval NRF_SUCCESS State successfully read. * @retval NRF_ERROR_INVALID_PARAM Invalid button index. */ uint32_t app_button_is_pushed(uint8_t button_id, bool * p_is_pushed); // Type and functions for connecting the Buttons module to the scheduler: /**@cond NO_DOXYGEN */ typedef struct { app_button_handler_t button_handler; uint8_t pin_no; uint8_t button_action; } app_button_event_t; static __INLINE void app_button_evt_get(void * p_event_data, uint16_t event_size) { app_button_event_t * p_buttons_event = (app_button_event_t *)p_event_data; APP_ERROR_CHECK_BOOL(event_size == sizeof(app_button_event_t)); p_buttons_event->button_handler(p_buttons_event->pin_no, p_buttons_event->button_action); } static __INLINE uint32_t app_button_evt_schedule(app_button_handler_t button_handler, uint8_t pin_no, uint8_t button_action) { app_button_event_t buttons_event; buttons_event.button_handler = button_handler; buttons_event.pin_no = pin_no; buttons_event.button_action = button_action; return app_sched_event_put(&buttons_event, sizeof(buttons_event), app_button_evt_get); } /**@endcond */ #endif // APP_BUTTON_H__ /** @} */