mirror of
https://github.com/Show-maket/IR-protocol.git
synced 2025-05-04 07:10:16 +00:00
223 lines
8.5 KiB
C++
223 lines
8.5 KiB
C++
#pragma once
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#include "IR_DecoderRaw.h"
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#include "PacketTypes.h"
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class IR_Decoder : public IR_DecoderRaw {
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public:
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IR_Decoder(const uint8_t isrPin, uint16_t addr, IR_Encoder* encPair = nullptr) : IR_DecoderRaw(isrPin, addr, encPair) {
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}
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Data gotData;
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void tick() {
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IR_DecoderRaw::tick();
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if (available()) {
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Serial.println("PARSING RAW DATA");
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switch (packInfo.buffer[0] >> 5 & IR_MASK_MSG_TYPE) {
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case IR_MSG_DATA_NOACCEPT:
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gotData.set(&packInfo);
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break;
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case IR_MSG_DATA_ACCEPT:
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break;
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case IR_MSG_BACK:
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break;
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case IR_MSG_BACK_TO:
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break;
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case IR_MSG_REQUEST:
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break;
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case IR_MSG_ACCEPT:
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break;
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default:
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break;
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}
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}
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}
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};
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// class IDataPack : protected IR_FOX {
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// friend IR_Decoder;
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// public:
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// IDataPack(IR_Decoder* dec) : dec(dec) {};
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// public:
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// bool available() { if (isAvailable) { isAvailable = false; return true; } else { return isAvailable; }; };
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// virtual uint8_t getMsgInfo() { return msgPtr[0] & IR_MASK_MSG_INFO; };
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// virtual uint8_t getMsgType() { return (msgPtr[0] >> 5) & IR_MASK_MSG_TYPE; };
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// virtual uint8_t getMsgRAW() { return msgPtr[0]; };
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// virtual uint16_t getErrorCount() { return err.all(); };
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// virtual uint8_t getErrorLowSignal() { return err.lowSignal; };
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// virtual uint8_t getErrorHighSignal() { return err.highSignal; };
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// virtual uint8_t getErrorOther() { return err.other; };
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// // uint16_t getCrcIN() { return crcPtr[0] << 8 | crcPtr[1]; };
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// // uint16_t getCrcCALC() { return crcCalcVal; };
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// virtual uint16_t getTunerTime() { return bitPeriod; };
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// void resetAvailable() { isAvailable = false; };
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// protected:
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// inline static uint8_t data[dataByteSizeMax] { 0 };
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// inline static uint8_t* msgPtr;
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// inline static uint8_t* addrFromPtr;
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// inline static uint8_t* addrToPtr;
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// inline static uint8_t* dataPtr;
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// inline static uint8_t* crcPtr;
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// inline static ErrorsStruct err;
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// inline static uint8_t packRawSize;
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// inline static uint16_t bitPeriod;
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// inline static uint16_t crcCalcVal;
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// IR_Decoder* dec;
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// bool isAvailable = false;
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// virtual bool checkAddress(PackOutInfo* packInfo) {
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// bool ret;
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// uint8_t targetAddrOffset = packInfo->offsets.addrToOffset;
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// uint16_t address = (packInfo->ptr[targetAddrOffset] << 8) | (packInfo->ptr[targetAddrOffset + 1]);
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// checkaddressRuleApply(address, dec->id, ret);
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// return ret;
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// };
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// virtual void onPackAddressCorrect(PackOutInfo* packInfo) {
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// memset(IDataPack::data, 0, dataByteSizeMax);
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// memcpy(data, packInfo->ptr, min(packInfo->packSize, dataByteSizeMax));
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// err = packInfo->err;
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// bitPeriod = packInfo->rTime;
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// crcCalcVal = packInfo->crc;
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// packRawSize = packInfo->packSize;
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// msgPtr = (data + packInfo->offsets.msgOffset);
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// addrFromPtr = (data + packInfo->offsets.addrFromOffset);
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// addrToPtr = (data + packInfo->offsets.addrToOffset);
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// dataPtr = (data + packInfo->offsets.dataOffset);
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// crcPtr = (data + packInfo->offsets.crcOffset);
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// }
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// virtual void onPackAddressIncorrect(PackOutInfo* packInfo) {}
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// virtual void afterSet() {}
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// void set(PackOutInfo packInfo, bool isNeedAddressCheck) {
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// isAvailable = false;
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// if (!isNeedAddressCheck || checkAddress(&packInfo)) {
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// onPackAddressCorrect(&packInfo);
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// #ifdef IRDEBUG_INFO
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// Serial.println(" OK ");
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// #endif
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// isAvailable = true;
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// } else {
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// onPackAddressIncorrect(&packInfo);
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// #ifdef IRDEBUG_INFO
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// Serial.println(" NOT MY ");
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// #endif
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// }
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// afterSet();
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// }
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// };
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// public:
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// ///////////////////////////////////////////////////////////////////////////////////////////////////////////
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// class HasAddrFrom {
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// public:
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// virtual uint16_t getAddrFrom() { return IDataPack::addrFromPtr[0] << 8 | IDataPack::addrFromPtr[1]; };
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// };
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// class HasAddrTo {
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// public:
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// virtual uint16_t getAddrTo() { return IDataPack::addrToPtr[0] << 8 | IDataPack::addrToPtr[1]; };
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// };
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// class HasData {
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// public:
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// virtual uint8_t getDataSize() { return (uint8_t)(IDataPack::crcPtr - IDataPack::dataPtr); };
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// virtual uint8_t* getDataPrt() { return IDataPack::dataPtr; };
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// virtual uint8_t getDataRawSize() { return IDataPack::packRawSize; };
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// virtual uint8_t* getDataRawPtr() { return IDataPack::data; };
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// };
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// class IAcceptable {
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// public:
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// virtual bool isNeedAccept();
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// };
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// class AnyData : public IDataPack, public HasAddrFrom, public HasAddrTo, public HasData {
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// using IDataPack::IDataPack;
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// };
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// ///////////////////////////////////////////////////////////////////////////////////////////////////////////
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// class Data : public AnyData, public IAcceptable {
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// using AnyData::AnyData;
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// public:
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// bool isNeedAccept() override { return ((IDataPack::msgPtr[0] >> 5) & IR_MASK_MSG_TYPE) == IR_MSG_DATA_ACCEPT; };
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// private:
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// void afterSet() override {
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// if (Data::IDataPack::isAvailable && isNeedAccept()) {
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// dec->addrWaitingSendgTo = getAddrFrom();
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// dec->startWaitingSendToTime = millis();
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// dec->isWaitingAcceptSend = true;
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// Serial.print("\n Need to accept to ");
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// Serial.println(dec->addrWaitingSendgTo);
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// }
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// }
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// };
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// class BackData : public AnyData {
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// using AnyData::AnyData;
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// public:
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// bool isAddressed() { return IDataPack::msgPtr[0] & 0b00010000; };
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// uint8_t getMsgInfo() { return IDataPack::msgPtr[0] & (IR_MASK_MSG_INFO >> 1); };
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// uint16_t getAddrTo() override {
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// if (isAddressed()) {
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// return IDataPack::addrToPtr[0] << 8 | IDataPack::addrToPtr[1];
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// } else {
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// return IR_Broadcast;
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// }
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// };
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// };
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// class Accept : public IDataPack, public HasAddrFrom {
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// using IDataPack::IDataPack;
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// public:
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// private:
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// bool checkAddress(PackOutInfo* packInfo) override {
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// bool ret;
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// uint8_t targetAddrOffset = packInfo->offsets.addrFromOffset;
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// uint16_t address = (packInfo->ptr[targetAddrOffset] << 8) | (packInfo->ptr[targetAddrOffset + 1]);
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// ret = address == dec->addrWaitingFrom;
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// return ret;
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// }
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// };
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// class Request : public IDataPack, public HasAddrFrom, public HasAddrTo {
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// using IDataPack::IDataPack;
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// public:
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// private:
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// // void afterSet() override {
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// // if (isAvailable) {
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// // dec->isWaitingAcceptSend = true;
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// // dec->addrWaitingSendgTo = getAddrFrom();
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// // Serial.print("\n Need to accept to ");
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// // Serial.println(dec->addrWaitingSendgTo);
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// // }
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// // }
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// };
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// class RawTune {
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// friend IR_Decoder;
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// public:
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// bool available() { return isAvailable; };
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// uint16_t getTunerTime() { return bitPeriod; };
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// void resetAvailable() { isAvailable = false; };
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// protected:
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// bool isAvailable;
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// uint16_t bitPeriod;
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// void set(uint16_t time) {
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// bitPeriod = time;
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// isAvailable = true;
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// }
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// };
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// /////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
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// /////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
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// /////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
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