#pragma once #include "IR_config.h" //#define IRDEBUG #ifdef IRDEBUG #define wrHigh A3 // Запись HIGH инициирована // green #define wrLow A3 // Запись LOW инициирована // blue #define writeOp 13 // Операция записи, 1 пульс для 0 и 2 для 1 // orange // Исправленные ошибки // purle // 1 пульс: fix #define errOut A3 #endif ///////////////////////////////////////////////////////////////////////////////////////////////// #define riseTime riseSyncTime //* bitTime */ 893U // TODO: Должно высчитываться медианой #define riseTolerance tolerance /* 250U */ // погрешность #define riseTimeMax (riseTime + riseTolerance) #define riseTimeMin (riseTime - riseTolerance) #define aroundRise(t) (riseTimeMin < t && t < riseTimeMax) #define IR_timeout ((riseTimeMax * 8) + syncBits +1) // us // таймаут в 8 data + 3 sync + 1 #define subBuffer 5 //Буфер для складирования фронтов, пока их не обработают class IR_Encoder; class IR_Decoder : private IR_FOX { friend IR_Encoder; public: uint16_t addrSelf; IR_Decoder(const uint8_t isrPin, uint16_t addr, IR_Encoder* encPair = nullptr); ~IR_Decoder(); // @brief Для прерывания void isr(); void tick(); // @return Буффер переполнился bool isOverflow() { return isBufferOverflow; }; bool isReciving() { return isRecive; }; // @brief Слушатель для работы isReciving() void listen(); ////////////////////////////////////////////////////////////////////////// class InputData : protected IR_FOX { friend IR_Decoder; protected: bool _isAvaliable = false; uint8_t _msgType = 0; uint16_t _addrFrom = 0; uint16_t _addrTo = 0; uint8_t* _data = nullptr; uint8_t _dataRawSize = 0; uint16_t _crcPackVal = 0; uint16_t _crcCalcVal = 0; uint16_t _errCount = 0; uint16_t _bitPeriod = 0; void _set(uint8_t* ptr, uint8_t len, uint16_t crc, uint16_t err, uint16_t rTime) { _crcCalcVal = crc; _dataRawSize = len; _errCount = err; _bitPeriod = rTime; if (_data != nullptr) { delete _data; _data = nullptr; } _data = new uint8_t[len]; for (uint8_t i = 0; i < len; i++) { _data[i] = ptr[i]; } _msgType = _data[0]; ini(); _isAvaliable = true; } private: virtual void ini(); public: bool avaliable() { return _isAvaliable; }; uint8_t msgInfo() { return _msgType & IR_MASK_MSG_INFO; }; uint8_t msgType() { return (_msgType >> 5) & IR_MASK_MSG_TYPE; }; uint8_t msgRAW() { return _msgType; }; uint16_t errorCount() { return _errCount; }; uint16_t crcIN() { return _crcPackVal; }; uint16_t crcCALC() { return _crcCalcVal; }; uint16_t tunerTime() { return _bitPeriod; }; void resetAvaliable() { _isAvaliable = false; }; }; ////////////////////////////////////////////////////////////////////////// class Data : public InputData { public: uint16_t addrFrom() { return _addrFrom; }; uint16_t addrTo() { return _addrTo; }; uint8_t dataSize() { return _dataRawSize - (msgBytes + addrBytes + addrBytes + crcBytes); }; uint8_t* data() { return &_data[msgBytes + addrBytes + addrBytes]; }; uint8_t dataRawSize() { return _dataRawSize; }; uint8_t* dataRaw() { return _data; }; bool isNeedAccept() { return ((_msgType >> 5) & IR_MASK_MSG_TYPE) == IR_MSG_DATA_ACCEPT; }; String printRawData(uint8_t mode = 10) { return printBytes(dataRaw(), dataRawSize(), mode); } String printData(uint8_t mode = 10) { return printBytes(data(), dataSize(), mode); } ~Data() {}; private: void ini() override { _addrFrom = (_data[1] << 8) | _data[2]; _addrTo = (_data[3] << 8) | _data[4]; _crcPackVal = (_data[_dataRawSize - 2] << 8) | _data[_dataRawSize - 1]; } }; // class RawData : public Data { // }; class Accept : public InputData { public: uint16_t addrFrom() { return _addrFrom; }; private: void ini() override { _addrFrom = (_data[1] << 8) | _data[2]; _crcPackVal = (_data[3] << 8) | _data[4]; } }; class Request : public Accept { public: uint16_t addrTo() { return _addrTo; }; private: void ini() override { _addrFrom = (_data[1] << 8) | _data[2]; _addrTo = (_data[3] << 8) | _data[4]; _crcPackVal = (_data[5] << 8) | _data[6]; } }; class RawTune { friend IR_Decoder; private: bool _isAvaliable = false; uint16_t _errCount = 0; uint16_t _tune = 0; public: bool avaliable() { return _isAvaliable; }; uint16_t getTune() { return _tune; }; uint16_t errorCount() { return _errCount; }; void resetAvaliable() { _isAvaliable = false; }; private: void _set(uint16_t val) { _tune = val; _isAvaliable = true; } }; Data gotData; Data gotRawData; // RawData gotRawData; Accept gotAccept; Request gotRequest; RawTune gotTune; private: const uint8_t isrPin; IR_Encoder* encoder; bool isPairSending = false; bool IsPairSendLOW = false; volatile bool isRecive = false; bool isWaitingAccept = false; uint16_t addrWaitingFrom = 0; uint16_t addrFrom = 0; uint16_t riseSyncTime = bitTime; volatile bool isRawAvaliable = false; volatile bool isMsgAvaliable = false; volatile bool isFilterBufferAvaliable = false; volatile bool isBufferOverflow = false; volatile bool isPreamb = false; // флаг начальной последовости bool HIGH_FIRST = true; // порядок приходящих битов //Буффер const uint8_t bufferRawSize = ((bufferBitSizeMax % 8 > 0) ? (bufferBitSizeMax / 8) + 1 : (bufferBitSizeMax / 8)); const uint8_t bufferDataSize = dataByteSizeMax; // + crc //////////////////////////////////////////////////////////////////////// void noFunc(); volatile uint8_t currentFrontBufferWriteIndex; struct FrontStorage { volatile uint32_t time; volatile bool dir; volatile FrontStorage* next; FrontStorage& operator= (FrontStorage& val) { this->next = val.next; this->time = val.time; this->dir = val.dir; return *this; } }; volatile FrontStorage* lastFront = nullptr; volatile FrontStorage* firstUnHandledFront = nullptr; volatile FrontStorage frontBuffer[subBuffer]; //////////////////////////////////////////////////////////////////////// uint8_t* rawBuffer = nullptr; uint8_t* dataBuffer = nullptr; volatile uint32_t prevRise, prevFall, prevPrevFall, prevPrevRise; volatile uint16_t errorCounter = 0; volatile int8_t frontCounter = 0; volatile int16_t bufBitPos = 0; crc_t crcValue = 0; private: uint8_t* getDataBuffer(bool reset = false); bool crcCheck(uint8_t len); inline void writeToBuffer(bool); inline void start_RX(); void resetAvaliable(); uint16_t ceil_div(uint16_t, uint16_t); //uint16_t sma = 0; void SMA(uint16_t); //TODO: Сделать функцию медианы void medi(uint16_t); // class Medi { // public: // uint16_t* arr; // uint8_t size; // uint8_t center; // Medi(uint8_t _size) : size(_size - 1) { // arr = new uint16_t[size] { 0 }; // center = size / 2; // }; // void add(uint16_t newVal) { // _add(newVal, center); // } // void _add(uint16_t newVal, int8_t pos, bool f) { // if (pos < 0 || pos > size) return; // if (newVal < arr[pos]) _add(newVal, pos-1, f); // if (newVal > arr[pos]) _add(newVal, pos+1, f); // } // ~Medi() { delete arr; } // }; #ifdef IRDEBUG inline void errPulse(uint8_t pin, uint8_t count); inline void infoPulse(uint8_t pin, uint8_t count); #endif };