// Copyright 2009 Ken Shirriff // Copyright 2017 David Conran #include #include "IRrecv.h" #include "IRsend.h" #include "IRutils.h" // NN NN IIIII KK KK AAA IIIII // NNN NN III KK KK AAAAA III // NN N NN III KKKK AA AA III // NN NNN III KK KK AAAAAAA III // NN NN IIIII KK KK AA AA IIIII // Constants // Ref: // https://github.com/markszabo/IRremoteESP8266/issues/309 const uint16_t kNikaiTick = 500; const uint16_t kNikaiHdrMarkTicks = 8; const uint16_t kNikaiHdrMark = kNikaiHdrMarkTicks * kNikaiTick; const uint16_t kNikaiHdrSpaceTicks = 8; const uint16_t kNikaiHdrSpace = kNikaiHdrSpaceTicks * kNikaiTick; const uint16_t kNikaiBitMarkTicks = 1; const uint16_t kNikaiBitMark = kNikaiBitMarkTicks * kNikaiTick; const uint16_t kNikaiOneSpaceTicks = 2; const uint16_t kNikaiOneSpace = kNikaiOneSpaceTicks * kNikaiTick; const uint16_t kNikaiZeroSpaceTicks = 4; const uint16_t kNikaiZeroSpace = kNikaiZeroSpaceTicks * kNikaiTick; const uint16_t kNikaiMinGapTicks = 17; const uint16_t kNikaiMinGap = kNikaiMinGapTicks * kNikaiTick; #if SEND_NIKAI // Send a Nikai TV formatted message. // // Args: // data: The message to be sent. // nbits: The bit size of the message being sent. typically kNikaiBits. // repeat: The number of times the message is to be repeated. // // Status: STABLE / Working. // // Ref: https://github.com/markszabo/IRremoteESP8266/issues/309 void IRsend::sendNikai(uint64_t data, uint16_t nbits, uint16_t repeat) { sendGeneric(kNikaiHdrMark, kNikaiHdrSpace, kNikaiBitMark, kNikaiOneSpace, kNikaiBitMark, kNikaiZeroSpace, kNikaiBitMark, kNikaiMinGap, data, nbits, 38, true, repeat, 33); } #endif #if DECODE_NIKAI // Decode the supplied Nikai message. // // Args: // results: Ptr to the data to decode and where to store the decode result. // nbits: Nr. of bits to expect in the data portion. // Typically kNikaiBits. // strict: Flag to indicate if we strictly adhere to the specification. // Returns: // boolean: True if it can decode it, false if it can't. // // Status: STABLE / Working. // bool IRrecv::decodeNikai(decode_results *results, uint16_t nbits, bool strict) { if (results->rawlen < 2 * nbits + kHeader + kFooter - 1) return false; // Can't possibly be a valid Nikai message. if (strict && nbits != kNikaiBits) return false; // We expect Nikai to be a certain sized message. uint64_t data = 0; uint16_t offset = kStartOffset; // Header if (!matchMark(results->rawbuf[offset], kNikaiHdrMark)) return false; // Calculate how long the common tick time is based on the header mark. uint32_t m_tick = results->rawbuf[offset++] * kRawTick / kNikaiHdrMarkTicks; if (!matchSpace(results->rawbuf[offset], kNikaiHdrSpace)) return false; // Calculate how long the common tick time is based on the header space. uint32_t s_tick = results->rawbuf[offset++] * kRawTick / kNikaiHdrSpaceTicks; // Data match_result_t data_result = matchData(&(results->rawbuf[offset]), nbits, kNikaiBitMarkTicks * m_tick, kNikaiOneSpaceTicks * s_tick, kNikaiBitMarkTicks * m_tick, kNikaiZeroSpaceTicks * s_tick); if (data_result.success == false) return false; data = data_result.data; offset += data_result.used; // Footer if (!matchMark(results->rawbuf[offset++], kNikaiBitMarkTicks * m_tick)) return false; if (offset < results->rawlen && !matchAtLeast(results->rawbuf[offset], kNikaiMinGapTicks * s_tick)) return false; // Compliance // Success results->bits = nbits; results->value = data; results->decode_type = NIKAI; results->command = 0; results->address = 0; return true; } #endif