#pragma once #include #include #ifdef __cplusplus extern "C" { #endif #define MAX_TIMINGS_AMOUNT 1024U /** Interface struct of infrared worker */ typedef struct InfraredWorker InfraredWorker; /** Interface struct of received signal */ typedef struct InfraredWorkerSignal InfraredWorkerSignal; typedef enum { InfraredWorkerGetSignalResponseNew, /** Signal, provided by callback is new and encoder should be reseted */ InfraredWorkerGetSignalResponseSame, /** Signal, provided by callback is same. No encoder resetting. */ InfraredWorkerGetSignalResponseStop, /** No more signals available. */ } InfraredWorkerGetSignalResponse; /** Callback type for providing next signal to send. Should be used with * infrared_worker_make_decoded_signal() or infrared_worker_make_raw_signal() */ typedef InfraredWorkerGetSignalResponse ( *InfraredWorkerGetSignalCallback)(void* context, InfraredWorker* instance); /** Callback type for 'message is sent' event */ typedef void (*InfraredWorkerMessageSentCallback)(void* context); /** Callback type to call by InfraredWorker thread when new signal is received */ typedef void ( *InfraredWorkerReceivedSignalCallback)(void* context, InfraredWorkerSignal* received_signal); /** Allocate InfraredWorker * * @return just created instance of InfraredWorker */ InfraredWorker* infrared_worker_alloc(); /** Free InfraredWorker * * @param[in] instance - InfraredWorker instance */ void infrared_worker_free(InfraredWorker* instance); /** Start InfraredWorker thread, initialise furi_hal, prepare all work. * * @param[in] instance - InfraredWorker instance */ void infrared_worker_rx_start(InfraredWorker* instance); /** Stop InfraredWorker thread, deinitialize furi_hal. * * @param[in] instance - InfraredWorker instance */ void infrared_worker_rx_stop(InfraredWorker* instance); /** Set received data callback InfraredWorker * * @param[in] instance - InfraredWorker instance * @param[in] context - context to pass to callbacks * @param[in] callback - InfraredWorkerReceivedSignalCallback callback */ void infrared_worker_rx_set_received_signal_callback( InfraredWorker* instance, InfraredWorkerReceivedSignalCallback callback, void* context); /** Enable blinking on receiving any signal on IR port. * * @param[in] instance - instance of InfraredWorker * @param[in] enable - true if you want to enable blinking * false otherwise */ void infrared_worker_rx_enable_blink_on_receiving(InfraredWorker* instance, bool enable); /** Enable decoding of received infrared signals. * * @param[in] instance - instance of InfraredWorker * @param[in] enable - true if you want to enable decoding * false otherwise */ void infrared_worker_rx_enable_signal_decoding(InfraredWorker* instance, bool enable); /** Clarify is received signal either decoded or raw * * @param[in] signal - received signal * @return true if signal is decoded, false if signal is raw */ bool infrared_worker_signal_is_decoded(const InfraredWorkerSignal* signal); /** Start transmitting signal. Callback InfraredWorkerGetSignalCallback should be * set before this function is called, as it calls for it to fill buffer before * starting transmission. * * @param[in] instance - InfraredWorker instance */ void infrared_worker_tx_start(InfraredWorker* instance); /** Stop transmitting signal. Waits for end of current signal and stops transmission. * * @param[in] instance - InfraredWorker instance */ void infrared_worker_tx_stop(InfraredWorker* instance); /** Set callback for providing next signal to send * * @param[in] instance - InfraredWorker instance * @param[in] context - context to pass to callbacks * @param[in] callback - InfraredWorkerGetSignalCallback callback */ void infrared_worker_tx_set_get_signal_callback( InfraredWorker* instance, InfraredWorkerGetSignalCallback callback, void* context); /** Set callback for end of signal transmitting * * @param[in] instance - InfraredWorker instance * @param[in] context - context to pass to callbacks * @param[in] callback - InfraredWorkerMessageSentCallback callback */ void infrared_worker_tx_set_signal_sent_callback( InfraredWorker* instance, InfraredWorkerMessageSentCallback callback, void* context); /** Callback to pass to infrared_worker_tx_set_get_signal_callback() if signal * is steady and will not be changed between infrared_worker start and stop. * Before starting transmission, desired steady signal must be set with * infrared_worker_set_decoded_signal() or infrared_worker_set_raw_signal(). * * This function should not be called directly. * * @param[in] context - context * @param[out] instance - InfraredWorker instance */ InfraredWorkerGetSignalResponse infrared_worker_tx_get_signal_steady_callback(void* context, InfraredWorker* instance); /** Acquire raw signal from interface struct 'InfraredWorkerSignal'. * First, you have to ensure that signal is raw. * * @param[in] signal - received signal * @param[out] timings - pointer to array of timings * @param[out] timings_cnt - pointer to amount of timings */ void infrared_worker_get_raw_signal( const InfraredWorkerSignal* signal, const uint32_t** timings, size_t* timings_cnt); /** Acquire decoded message from interface struct 'InfraredWorkerSignal'. * First, you have to ensure that signal is decoded. * * @param[in] signal - received signal * @return decoded INFRARED message */ const InfraredMessage* infrared_worker_get_decoded_signal(const InfraredWorkerSignal* signal); /** Set current decoded signal for InfraredWorker instance * * @param[out] instance - InfraredWorker instance * @param[in] message - decoded signal */ void infrared_worker_set_decoded_signal(InfraredWorker* instance, const InfraredMessage* message); /** Set current raw signal for InfraredWorker instance * * @param[out] instance - InfraredWorker instance * @param[in] timings - array of raw timings * @param[in] timings_cnt - size of array of raw timings * @param[in] frequency - carrier frequency in Hertz * @param[in] duty_cycle - carrier duty cycle (0.0 - 1.0) */ void infrared_worker_set_raw_signal( InfraredWorker* instance, const uint32_t* timings, size_t timings_cnt, uint32_t frequency, float duty_cycle); #ifdef __cplusplus } #endif