801 lines
28 KiB
C++
801 lines
28 KiB
C++
// Copyright 2018-2019 David Conran
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//
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// Code to emulate Hitachi protocol compatible devices.
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// Should be compatible with:
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// * Hitachi RAS-35THA6 remote
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//
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#include "ir_Hitachi.h"
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#include <algorithm>
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#include <cstring>
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#ifndef ARDUINO
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#include <string>
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#endif
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#include "IRrecv.h"
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#include "IRremoteESP8266.h"
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#include "IRsend.h"
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#include "IRtext.h"
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#include "IRutils.h"
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// Constants
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// Ref: https://github.com/crankyoldgit/IRremoteESP8266/issues/417
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const uint16_t kHitachiAcHdrMark = 3300;
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const uint16_t kHitachiAcHdrSpace = 1700;
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const uint16_t kHitachiAc1HdrMark = 3400;
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const uint16_t kHitachiAc1HdrSpace = 3400;
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const uint16_t kHitachiAcBitMark = 400;
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const uint16_t kHitachiAcOneSpace = 1250;
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const uint16_t kHitachiAcZeroSpace = 500;
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const uint32_t kHitachiAcMinGap = kDefaultMessageGap; // Just a guess.
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// Support for HitachiAc424 protocol
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// Ref: https://github.com/crankyoldgit/IRremoteESP8266/issues/973
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const uint16_t kHitachiAc424LdrMark = 29784; // Leader
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const uint16_t kHitachiAc424LdrSpace = 49290; // Leader
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const uint16_t kHitachiAc424HdrMark = 3416; // Header
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const uint16_t kHitachiAc424HdrSpace = 1604; // Header
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const uint16_t kHitachiAc424BitMark = 463;
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const uint16_t kHitachiAc424OneSpace = 1208;
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const uint16_t kHitachiAc424ZeroSpace = 372;
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using irutils::addBoolToString;
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using irutils::addIntToString;
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using irutils::addLabeledString;
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using irutils::addModeToString;
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using irutils::addFanToString;
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using irutils::addTempToString;
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using irutils::setBit;
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using irutils::setBits;
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#if (SEND_HITACHI_AC || SEND_HITACHI_AC2)
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// Send a Hitachi A/C message.
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//
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// Args:
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// data: An array of bytes containing the IR command.
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// nbytes: Nr. of bytes of data in the array. (>=kHitachiAcStateLength)
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// repeat: Nr. of times the message is to be repeated. (Default = 0).
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//
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// Status: ALPHA / Untested.
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//
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// Ref:
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// https://github.com/crankyoldgit/IRremoteESP8266/issues/417
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void IRsend::sendHitachiAC(const unsigned char data[], const uint16_t nbytes,
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const uint16_t repeat) {
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if (nbytes < kHitachiAcStateLength)
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return; // Not enough bytes to send a proper message.
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sendGeneric(kHitachiAcHdrMark, kHitachiAcHdrSpace, kHitachiAcBitMark,
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kHitachiAcOneSpace, kHitachiAcBitMark, kHitachiAcZeroSpace,
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kHitachiAcBitMark, kHitachiAcMinGap, data, nbytes, 38, true,
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repeat, 50);
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}
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#endif // (SEND_HITACHI_AC || SEND_HITACHI_AC2)
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#if SEND_HITACHI_AC1
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// Send a Hitachi A/C 13-byte message.
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//
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// For devices:
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// Hitachi A/C Series VI (Circa 2007) / Remote: LT0541-HTA
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//
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// Args:
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// data: An array of bytes containing the IR command.
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// nbytes: Nr. of bytes of data in the array. (>=kHitachiAc1StateLength)
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// repeat: Nr. of times the message is to be repeated. (Default = 0).
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//
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// Status: BETA / Appears to work.
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//
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// Ref:
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// https://github.com/crankyoldgit/IRremoteESP8266/issues/453
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// Basically the same as sendHitatchiAC() except different size and header.
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void IRsend::sendHitachiAC1(const unsigned char data[], const uint16_t nbytes,
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const uint16_t repeat) {
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if (nbytes < kHitachiAc1StateLength)
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return; // Not enough bytes to send a proper message.
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sendGeneric(kHitachiAc1HdrMark, kHitachiAc1HdrSpace, kHitachiAcBitMark,
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kHitachiAcOneSpace, kHitachiAcBitMark, kHitachiAcZeroSpace,
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kHitachiAcBitMark, kHitachiAcMinGap, data, nbytes, kHitachiAcFreq,
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true, repeat, kDutyDefault);
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}
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#endif // SEND_HITACHI_AC1
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#if SEND_HITACHI_AC2
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// Send a Hitachi A/C 53-byte message.
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//
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// For devices:
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// Hitachi A/C Series VI (Circa 2007) / Remote: LT0541-HTA
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//
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// Args:
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// data: An array of bytes containing the IR command.
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// nbytes: Nr. of bytes of data in the array. (>=kHitachiAc2StateLength)
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// repeat: Nr. of times the message is to be repeated. (Default = 0).
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//
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// Status: BETA / Appears to work.
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//
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// Ref:
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// https://github.com/crankyoldgit/IRremoteESP8266/issues/417
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// Basically the same as sendHitatchiAC() except different size.
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void IRsend::sendHitachiAC2(const unsigned char data[], const uint16_t nbytes,
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const uint16_t repeat) {
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if (nbytes < kHitachiAc2StateLength)
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return; // Not enough bytes to send a proper message.
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sendHitachiAC(data, nbytes, repeat);
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}
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#endif // SEND_HITACHI_AC2
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// Class for handling the remote control on a Hitachi 28 byte A/C message.
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// Inspired by:
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// https://github.com/ToniA/arduino-heatpumpir/blob/master/HitachiHeatpumpIR.cpp
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IRHitachiAc::IRHitachiAc(const uint16_t pin, const bool inverted,
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const bool use_modulation)
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: _irsend(pin, inverted, use_modulation) { stateReset(); }
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void IRHitachiAc::stateReset(void) {
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remote_state[0] = 0x80;
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remote_state[1] = 0x08;
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remote_state[2] = 0x0C;
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remote_state[3] = 0x02;
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remote_state[4] = 0xFD;
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remote_state[5] = 0x80;
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remote_state[6] = 0x7F;
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remote_state[7] = 0x88;
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remote_state[8] = 0x48;
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remote_state[9] = 0x10;
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for (uint8_t i = 10; i < kHitachiAcStateLength; i++) remote_state[i] = 0x00;
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remote_state[14] = 0x60;
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remote_state[15] = 0x60;
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remote_state[24] = 0x80;
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setTemp(23);
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}
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void IRHitachiAc::begin(void) { _irsend.begin(); }
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uint8_t IRHitachiAc::calcChecksum(const uint8_t state[],
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const uint16_t length) {
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uint8_t sum = 62;
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for (uint16_t i = 0; i < length - 1; i++) sum -= reverseBits(state[i], 8);
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return reverseBits(sum, 8);
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}
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void IRHitachiAc::checksum(const uint16_t length) {
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remote_state[length - 1] = calcChecksum(remote_state, length);
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}
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bool IRHitachiAc::validChecksum(const uint8_t state[], const uint16_t length) {
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if (length < 2) return true; // Assume true for lengths that are too short.
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return (state[length - 1] == calcChecksum(state, length));
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}
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uint8_t *IRHitachiAc::getRaw(void) {
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checksum();
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return remote_state;
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}
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void IRHitachiAc::setRaw(const uint8_t new_code[], const uint16_t length) {
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memcpy(remote_state, new_code, std::min(length, kHitachiAcStateLength));
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}
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#if SEND_HITACHI_AC
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void IRHitachiAc::send(const uint16_t repeat) {
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_irsend.sendHitachiAC(getRaw(), kHitachiAcStateLength, repeat);
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}
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#endif // SEND_HITACHI_AC
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bool IRHitachiAc::getPower(void) {
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return GETBIT8(remote_state[17], kHitachiAcPowerOffset);
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}
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void IRHitachiAc::setPower(const bool on) {
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setBit(&remote_state[17], kHitachiAcPowerOffset, on);
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}
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void IRHitachiAc::on(void) { setPower(true); }
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void IRHitachiAc::off(void) { setPower(false); }
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uint8_t IRHitachiAc::getMode(void) { return reverseBits(remote_state[10], 8); }
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void IRHitachiAc::setMode(const uint8_t mode) {
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uint8_t newmode = mode;
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switch (mode) {
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// Fan mode sets a special temp.
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case kHitachiAcFan: setTemp(64); break;
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case kHitachiAcAuto:
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case kHitachiAcHeat:
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case kHitachiAcCool:
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case kHitachiAcDry: break;
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default: newmode = kHitachiAcAuto;
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}
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remote_state[10] = reverseBits(newmode, 8);
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if (mode != kHitachiAcFan) setTemp(_previoustemp);
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setFan(getFan()); // Reset the fan speed after the mode change.
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}
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uint8_t IRHitachiAc::getTemp(void) {
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return reverseBits(remote_state[11], 8) >> 1;
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}
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void IRHitachiAc::setTemp(const uint8_t celsius) {
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uint8_t temp;
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if (celsius != 64) _previoustemp = celsius;
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switch (celsius) {
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case 64:
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temp = celsius;
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break;
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default:
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temp = std::min(celsius, kHitachiAcMaxTemp);
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temp = std::max(temp, kHitachiAcMinTemp);
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}
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remote_state[11] = reverseBits(temp << 1, 8);
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if (temp == kHitachiAcMinTemp)
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remote_state[9] = 0x90;
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else
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remote_state[9] = 0x10;
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}
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uint8_t IRHitachiAc::getFan(void) { return reverseBits(remote_state[13], 8); }
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void IRHitachiAc::setFan(const uint8_t speed) {
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uint8_t fanmin = kHitachiAcFanAuto;
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uint8_t fanmax = kHitachiAcFanHigh;
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switch (getMode()) {
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case kHitachiAcDry: // Only 2 x low speeds in Dry mode.
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fanmin = kHitachiAcFanLow;
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fanmax = kHitachiAcFanLow + 1;
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break;
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case kHitachiAcFan:
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fanmin = kHitachiAcFanLow; // No Auto in Fan mode.
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break;
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}
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uint8_t newspeed = std::max(speed, fanmin);
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newspeed = std::min(newspeed, fanmax);
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remote_state[13] = reverseBits(newspeed, 8);
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}
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bool IRHitachiAc::getSwingVertical(void) {
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return GETBIT8(remote_state[14], kHitachiAcSwingOffset);
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}
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void IRHitachiAc::setSwingVertical(const bool on) {
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setBit(&remote_state[14], kHitachiAcSwingOffset, on);
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}
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bool IRHitachiAc::getSwingHorizontal(void) {
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return GETBIT8(remote_state[15], kHitachiAcSwingOffset);
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}
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void IRHitachiAc::setSwingHorizontal(const bool on) {
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setBit(&remote_state[15], kHitachiAcSwingOffset, on);
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}
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// Convert a standard A/C mode into its native mode.
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uint8_t IRHitachiAc::convertMode(const stdAc::opmode_t mode) {
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switch (mode) {
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case stdAc::opmode_t::kCool: return kHitachiAcCool;
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case stdAc::opmode_t::kHeat: return kHitachiAcHeat;
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case stdAc::opmode_t::kDry: return kHitachiAcDry;
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case stdAc::opmode_t::kFan: return kHitachiAcFan;
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default: return kHitachiAcAuto;
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}
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}
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// Convert a standard A/C Fan speed into its native fan speed.
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uint8_t IRHitachiAc::convertFan(const stdAc::fanspeed_t speed) {
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switch (speed) {
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case stdAc::fanspeed_t::kMin:
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case stdAc::fanspeed_t::kLow: return kHitachiAcFanLow;
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case stdAc::fanspeed_t::kMedium: return kHitachiAcFanLow + 1;
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case stdAc::fanspeed_t::kHigh: return kHitachiAcFanHigh - 1;
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case stdAc::fanspeed_t::kMax: return kHitachiAcFanHigh;
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default: return kHitachiAcFanAuto;
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}
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}
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// Convert a native mode to it's common equivalent.
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stdAc::opmode_t IRHitachiAc::toCommonMode(const uint8_t mode) {
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switch (mode) {
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case kHitachiAcCool: return stdAc::opmode_t::kCool;
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case kHitachiAcHeat: return stdAc::opmode_t::kHeat;
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case kHitachiAcDry: return stdAc::opmode_t::kDry;
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case kHitachiAcFan: return stdAc::opmode_t::kFan;
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default: return stdAc::opmode_t::kAuto;
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}
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}
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// Convert a native fan speed to it's common equivalent.
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stdAc::fanspeed_t IRHitachiAc::toCommonFanSpeed(const uint8_t speed) {
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switch (speed) {
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case kHitachiAcFanHigh: return stdAc::fanspeed_t::kMax;
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case kHitachiAcFanHigh - 1: return stdAc::fanspeed_t::kHigh;
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case kHitachiAcFanLow + 1: return stdAc::fanspeed_t::kMedium;
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case kHitachiAcFanLow: return stdAc::fanspeed_t::kLow;
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default: return stdAc::fanspeed_t::kAuto;
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}
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}
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// Convert the A/C state to it's common equivalent.
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stdAc::state_t IRHitachiAc::toCommon(void) {
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stdAc::state_t result;
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result.protocol = decode_type_t::HITACHI_AC;
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result.model = -1; // No models used.
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result.power = this->getPower();
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result.mode = this->toCommonMode(this->getMode());
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result.celsius = true;
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result.degrees = this->getTemp();
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result.fanspeed = this->toCommonFanSpeed(this->getFan());
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result.swingv = this->getSwingVertical() ? stdAc::swingv_t::kAuto :
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stdAc::swingv_t::kOff;
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result.swingh = this->getSwingHorizontal() ? stdAc::swingh_t::kAuto :
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stdAc::swingh_t::kOff;
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// Not supported.
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result.quiet = false;
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result.turbo = false;
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result.clean = false;
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result.econo = false;
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result.filter = false;
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result.light = false;
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result.beep = false;
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result.sleep = -1;
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result.clock = -1;
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return result;
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}
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// Convert the internal state into a human readable string.
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String IRHitachiAc::toString(void) {
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String result = "";
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result.reserve(110); // Reserve some heap for the string to reduce fragging.
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result += addBoolToString(getPower(), kPowerStr, false);
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result += addModeToString(getMode(), kHitachiAcAuto, kHitachiAcCool,
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kHitachiAcHeat, kHitachiAcDry, kHitachiAcFan);
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result += addTempToString(getTemp());
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result += addFanToString(getFan(), kHitachiAcFanHigh, kHitachiAcFanLow,
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kHitachiAcFanAuto, kHitachiAcFanAuto,
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kHitachiAcFanMed);
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result += addBoolToString(getSwingVertical(), kSwingVStr);
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result += addBoolToString(getSwingHorizontal(), kSwingHStr);
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return result;
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}
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#if (DECODE_HITACHI_AC || DECODE_HITACHI_AC1 || DECODE_HITACHI_AC2)
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// Decode the supplied Hitachi A/C message.
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//
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// Args:
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// results: Ptr to the data to decode and where to store the decode result.
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// nbits: The number of data bits to expect.
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// Typically kHitachiAcBits, kHitachiAc1Bits, kHitachiAc2Bits
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// strict: Flag indicating if we should perform strict matching.
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// Returns:
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// boolean: True if it can decode it, false if it can't.
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//
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// Status: ALPHA / Untested.
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//
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// Supported devices:
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// Hitachi A/C Series VI (Circa 2007) / Remote: LT0541-HTA
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//
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// Ref:
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// https://github.com/crankyoldgit/IRremoteESP8266/issues/417
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// https://github.com/crankyoldgit/IRremoteESP8266/issues/453
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bool IRrecv::decodeHitachiAC(decode_results *results, const uint16_t nbits,
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const bool strict) {
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const uint8_t k_tolerance = _tolerance + 5;
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if (results->rawlen < 2 * nbits + kHeader + kFooter - 1)
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return false; // Can't possibly be a valid HitachiAC message.
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if (strict) {
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switch (nbits) {
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case kHitachiAcBits:
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case kHitachiAc1Bits:
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case kHitachiAc2Bits:
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break; // Okay to continue.
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default:
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return false; // Not strictly a Hitachi message.
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}
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}
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uint16_t offset = kStartOffset;
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uint16_t hmark;
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uint32_t hspace;
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if (nbits == kHitachiAc1Bits) {
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hmark = kHitachiAc1HdrMark;
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hspace = kHitachiAc1HdrSpace;
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} else {
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hmark = kHitachiAcHdrMark;
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hspace = kHitachiAcHdrSpace;
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}
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// Match Header + Data + Footer
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if (!matchGeneric(results->rawbuf + offset, results->state,
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results->rawlen - offset, nbits,
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hmark, hspace,
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kHitachiAcBitMark, kHitachiAcOneSpace,
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kHitachiAcBitMark, kHitachiAcZeroSpace,
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kHitachiAcBitMark, kHitachiAcMinGap, true,
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k_tolerance)) return false;
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// Compliance
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if (strict) {
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if (nbits / 8 == kHitachiAcStateLength &&
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!IRHitachiAc::validChecksum(results->state, kHitachiAcStateLength))
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return false;
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}
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// Success
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switch (nbits) {
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case kHitachiAc1Bits:
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results->decode_type = HITACHI_AC1;
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break;
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case kHitachiAc2Bits:
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results->decode_type = HITACHI_AC2;
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break;
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case kHitachiAcBits:
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default:
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results->decode_type = HITACHI_AC;
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}
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results->bits = nbits;
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// No need to record the state as we stored it as we decoded it.
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// As we use result->state, we don't record value, address, or command as it
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// is a union data type.
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return true;
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}
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#endif // (DECODE_HITACHI_AC || DECODE_HITACHI_AC1 || DECODE_HITACHI_AC2)
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#if SEND_HITACHI_AC424
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// Send HITACHI_AC424 messages
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//
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// Note: This protocol is almost exactly the same as HitachiAC2 except this
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// variant has a leader section as well, and subtle timing differences.
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// It is also in LSBF order (per byte), rather than MSBF order.
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//
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// Args:
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// data: An array of bytes containing the IR command.
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// It is assumed to be in LSBF order for this code.
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// nbytes: Nr. of bytes of data in the array. (>=kHitachiAc424StateLength)
|
|
// repeat: Nr. of times the message is to be repeated.
|
|
//
|
|
// Status: STABLE / Reported as working.
|
|
void IRsend::sendHitachiAc424(const uint8_t data[], const uint16_t nbytes,
|
|
const uint16_t repeat) {
|
|
enableIROut(kHitachiAcFreq);
|
|
for (uint16_t r = 0; r <= repeat; r++) {
|
|
// Leader
|
|
mark(kHitachiAc424LdrMark);
|
|
space(kHitachiAc424LdrSpace);
|
|
// Header + Data + Footer
|
|
sendGeneric(kHitachiAc424HdrMark, kHitachiAc424HdrSpace,
|
|
kHitachiAc424BitMark, kHitachiAc424OneSpace,
|
|
kHitachiAc424BitMark, kHitachiAc424ZeroSpace,
|
|
kHitachiAc424BitMark, kHitachiAcMinGap,
|
|
data, nbytes, // Bytes
|
|
kHitachiAcFreq, false, kNoRepeat, kDutyDefault);
|
|
}
|
|
}
|
|
#endif // SEND_HITACHI_AC424
|
|
|
|
#if DECODE_HITACHI_AC424
|
|
// Decode the supplied Hitachi 424 bit A/C message.
|
|
//
|
|
// Note: This protocol is almost exactly the same as HitachiAC2 except this
|
|
// variant has a leader section as well, and subtle timing differences.
|
|
// It is also in LSBF order (per byte), rather than MSBF order.
|
|
//
|
|
// Args:
|
|
// results: Ptr to the data to decode and where to store the decode result.
|
|
// nbits: The number of data bits to expect. Typically kHitachiAc424Bits.
|
|
// strict: Flag indicating if we should perform strict matching.
|
|
// Returns:
|
|
// boolean: True if it can decode it, false if it can't.
|
|
//
|
|
// Status: STABLE / Reported as working.
|
|
//
|
|
// Supported devices:
|
|
// Hitachi Shirokumakun / AC Model: RAS-AJ25H / AC Remote Model: RAR-8P2
|
|
// Manual (Japanese):
|
|
// https://kadenfan.hitachi.co.jp/support/raj/item/docs/ras_aj22h_a_tori.pdf
|
|
//
|
|
// Ref:
|
|
// https://github.com/crankyoldgit/IRremoteESP8266/issues/973
|
|
bool IRrecv::decodeHitachiAc424(decode_results *results, const uint16_t nbits,
|
|
const bool strict) {
|
|
if (results->rawlen < 2 * nbits + kHeader + kHeader + kFooter - 1)
|
|
return false; // Too short a message to match.
|
|
if (strict && nbits != kHitachiAc424Bits)
|
|
return false;
|
|
|
|
uint16_t offset = kStartOffset;
|
|
uint16_t used;
|
|
|
|
// Leader
|
|
if (!matchMark(results->rawbuf[offset++], kHitachiAc424LdrMark))
|
|
return false;
|
|
if (!matchSpace(results->rawbuf[offset++], kHitachiAc424LdrSpace))
|
|
return false;
|
|
|
|
// Header + Data + Footer
|
|
used = matchGeneric(results->rawbuf + offset, results->state,
|
|
results->rawlen - offset, nbits,
|
|
kHitachiAc424HdrMark, kHitachiAc424HdrSpace,
|
|
kHitachiAc424BitMark, kHitachiAc424OneSpace,
|
|
kHitachiAc424BitMark, kHitachiAc424ZeroSpace,
|
|
kHitachiAc424BitMark, kHitachiAcMinGap, true,
|
|
kUseDefTol, 0, false);
|
|
if (used == 0) return false; // We failed to find any data.
|
|
|
|
// Success
|
|
results->decode_type = decode_type_t::HITACHI_AC424;
|
|
results->bits = nbits;
|
|
return true;
|
|
}
|
|
#endif // DECODE_HITACHI_AC424
|
|
|
|
// Class for handling the remote control on a Hitachi_AC424 53 byte A/C message
|
|
IRHitachiAc424::IRHitachiAc424(const uint16_t pin, const bool inverted,
|
|
const bool use_modulation)
|
|
: _irsend(pin, inverted, use_modulation) { stateReset(); }
|
|
|
|
// Reset to auto fan, cooling, 23° Celcius
|
|
void IRHitachiAc424::stateReset(void) {
|
|
for (uint8_t i = 0; i < kHitachiAc424StateLength; i++)
|
|
remote_state[i] = 0x00;
|
|
|
|
remote_state[0] = 0x01;
|
|
remote_state[1] = 0x10;
|
|
remote_state[3] = 0x40;
|
|
remote_state[5] = 0xFF;
|
|
remote_state[7] = 0xCC;
|
|
remote_state[33] = 0x80;
|
|
remote_state[35] = 0x03;
|
|
remote_state[37] = 0x01;
|
|
remote_state[39] = 0x88;
|
|
remote_state[45] = 0xFF;
|
|
remote_state[47] = 0xFF;
|
|
remote_state[49] = 0xFF;
|
|
remote_state[51] = 0xFF;
|
|
|
|
setTemp(23);
|
|
setPower(true);
|
|
setMode(kHitachiAc424Cool);
|
|
setFan(kHitachiAc424FanAuto);
|
|
}
|
|
|
|
void IRHitachiAc424::setInvertedStates(void) {
|
|
for (uint8_t i = 3; i < kHitachiAc424StateLength - 1; i += 2)
|
|
remote_state[i + 1] = ~remote_state[i];
|
|
}
|
|
|
|
void IRHitachiAc424::begin(void) { _irsend.begin(); }
|
|
|
|
uint8_t *IRHitachiAc424::getRaw(void) {
|
|
setInvertedStates();
|
|
return remote_state;
|
|
}
|
|
|
|
void IRHitachiAc424::setRaw(const uint8_t new_code[], const uint16_t length) {
|
|
memcpy(remote_state, new_code, std::min(length, kHitachiAc424StateLength));
|
|
}
|
|
|
|
#if SEND_HITACHI_AC424
|
|
void IRHitachiAc424::send(const uint16_t repeat) {
|
|
_irsend.sendHitachiAc424(getRaw(), kHitachiAc424StateLength, repeat);
|
|
}
|
|
#endif // SEND_HITACHI_AC424
|
|
|
|
bool IRHitachiAc424::getPower(void) {
|
|
return remote_state[kHitachiAc424PowerByte] == kHitachiAc424PowerOn;
|
|
}
|
|
|
|
void IRHitachiAc424::setPower(const bool on) {
|
|
setButton(kHitachiAc424ButtonPowerMode);
|
|
remote_state[kHitachiAc424PowerByte] = on ? kHitachiAc424PowerOn
|
|
: kHitachiAc424PowerOff;
|
|
}
|
|
|
|
void IRHitachiAc424::on(void) { setPower(true); }
|
|
|
|
void IRHitachiAc424::off(void) { setPower(false); }
|
|
|
|
uint8_t IRHitachiAc424::getMode(void) {
|
|
return GETBITS8(remote_state[kHitachiAc424ModeByte], kLowNibble, kNibbleSize);
|
|
}
|
|
|
|
void IRHitachiAc424::setMode(const uint8_t mode) {
|
|
uint8_t newMode = mode;
|
|
switch (mode) {
|
|
// Fan mode sets a special temp.
|
|
case kHitachiAc424Fan: setTemp(kHitachiAc424FanTemp, false); break;
|
|
case kHitachiAc424Heat:
|
|
case kHitachiAc424Cool:
|
|
case kHitachiAc424Dry: break;
|
|
default: newMode = kHitachiAc424Cool;
|
|
}
|
|
setBits(&remote_state[kHitachiAc424ModeByte], kLowNibble, kNibbleSize,
|
|
newMode);
|
|
if (newMode != kHitachiAc424Fan) setTemp(_previoustemp);
|
|
setFan(getFan()); // Reset the fan speed after the mode change.
|
|
setButton(kHitachiAc424ButtonPowerMode);
|
|
}
|
|
|
|
uint8_t IRHitachiAc424::getTemp(void) {
|
|
return GETBITS8(remote_state[kHitachiAc424TempByte], kHitachiAc424TempOffset,
|
|
kHitachiAc424TempSize);
|
|
}
|
|
|
|
void IRHitachiAc424::setTemp(const uint8_t celsius, bool setPrevious) {
|
|
uint8_t temp;
|
|
temp = std::min(celsius, kHitachiAc424MaxTemp);
|
|
temp = std::max(temp, kHitachiAc424MinTemp);
|
|
setBits(&remote_state[kHitachiAc424TempByte], kHitachiAc424TempOffset,
|
|
kHitachiAc424TempSize, temp);
|
|
if (_previoustemp > temp)
|
|
setButton(kHitachiAc424ButtonTempDown);
|
|
else if (_previoustemp < temp)
|
|
setButton(kHitachiAc424ButtonTempUp);
|
|
if (setPrevious) _previoustemp = temp;
|
|
}
|
|
|
|
uint8_t IRHitachiAc424::getFan(void) {
|
|
return GETBITS8(remote_state[kHitachiAc424FanByte], kHighNibble, kNibbleSize);
|
|
}
|
|
|
|
void IRHitachiAc424::setFan(const uint8_t speed) {
|
|
uint8_t newSpeed = std::max(speed, kHitachiAc424FanMin);
|
|
uint8_t fanMax = kHitachiAc424FanMax;
|
|
|
|
// Only 2 x low speeds in Dry mode or Auto
|
|
if (getMode() == kHitachiAc424Dry && speed == kHitachiAc424FanAuto) {
|
|
fanMax = kHitachiAc424FanAuto;
|
|
} else if (getMode() == kHitachiAc424Dry) {
|
|
fanMax = kHitachiAc424FanMaxDry;
|
|
} else if (getMode() == kHitachiAc424Fan && speed == kHitachiAc424FanAuto) {
|
|
// Fan Mode does not have auto. Set to safe low
|
|
newSpeed = kHitachiAc424FanMin;
|
|
}
|
|
|
|
newSpeed = std::min(newSpeed, fanMax);
|
|
// Handle the setting the button value if we are going to change the value.
|
|
if (newSpeed != getFan()) setButton(kHitachiAc424ButtonFan);
|
|
// Set the values
|
|
setBits(&remote_state[kHitachiAc424FanByte], kHighNibble, kNibbleSize,
|
|
newSpeed);
|
|
remote_state[9] = 0x92;
|
|
remote_state[29] = 0x00;
|
|
|
|
// When fan is at min/max, additional bytes seem to be set
|
|
if (newSpeed == kHitachiAc424FanMin) remote_state[9] = 0x98;
|
|
if (newSpeed == kHitachiAc424FanMax) {
|
|
remote_state[9] = 0xA9;
|
|
remote_state[29] = 0x30;
|
|
}
|
|
}
|
|
|
|
uint8_t IRHitachiAc424::getButton(void) {
|
|
return remote_state[kHitachiAc424ButtonByte];
|
|
}
|
|
|
|
// The remote sends the type of button pressed on send
|
|
void IRHitachiAc424::setButton(const uint8_t button) {
|
|
remote_state[kHitachiAc424ButtonByte] = button;
|
|
}
|
|
|
|
// The remote does not keep state of the vertical swing.
|
|
// A byte is sent indicating the swing button is pressed on the remote
|
|
void IRHitachiAc424::setSwingVToggle(const bool on) {
|
|
uint8_t button = getButton(); // Get the current button value.
|
|
if (on)
|
|
button = kHitachiAc424ButtonSwingV; // Set the button to SwingV.
|
|
else if (button == kHitachiAc424ButtonSwingV) // Asked to unset it
|
|
// It was set previous, so use Power as a default
|
|
button = kHitachiAc424ButtonPowerMode;
|
|
setButton(button);
|
|
}
|
|
|
|
bool IRHitachiAc424::getSwingVToggle(void) {
|
|
return getButton() == kHitachiAc424ButtonSwingV;
|
|
}
|
|
|
|
// Convert a standard A/C mode into its native mode.
|
|
uint8_t IRHitachiAc424::convertMode(const stdAc::opmode_t mode) {
|
|
switch (mode) {
|
|
case stdAc::opmode_t::kCool: return kHitachiAc424Cool;
|
|
case stdAc::opmode_t::kHeat: return kHitachiAc424Heat;
|
|
case stdAc::opmode_t::kDry: return kHitachiAc424Dry;
|
|
case stdAc::opmode_t::kFan: return kHitachiAc424Fan;
|
|
default: return kHitachiAc424Cool;
|
|
}
|
|
}
|
|
|
|
// Convert a standard A/C Fan speed into its native fan speed.
|
|
uint8_t IRHitachiAc424::convertFan(const stdAc::fanspeed_t speed) {
|
|
switch (speed) {
|
|
case stdAc::fanspeed_t::kMin: return kHitachiAc424FanMin;
|
|
case stdAc::fanspeed_t::kLow: return kHitachiAc424FanLow;
|
|
case stdAc::fanspeed_t::kMedium: return kHitachiAc424FanMedium;
|
|
case stdAc::fanspeed_t::kHigh: return kHitachiAc424FanHigh;
|
|
case stdAc::fanspeed_t::kMax: return kHitachiAc424FanMax;
|
|
default: return kHitachiAc424FanAuto;
|
|
}
|
|
}
|
|
|
|
// Convert a native mode to it's common equivalent.
|
|
stdAc::opmode_t IRHitachiAc424::toCommonMode(const uint8_t mode) {
|
|
switch (mode) {
|
|
case kHitachiAc424Cool: return stdAc::opmode_t::kCool;
|
|
case kHitachiAc424Heat: return stdAc::opmode_t::kHeat;
|
|
case kHitachiAc424Dry: return stdAc::opmode_t::kDry;
|
|
case kHitachiAc424Fan: return stdAc::opmode_t::kFan;
|
|
default: return stdAc::opmode_t::kCool;
|
|
}
|
|
}
|
|
|
|
// Convert a native fan speed to it's common equivalent.
|
|
stdAc::fanspeed_t IRHitachiAc424::toCommonFanSpeed(const uint8_t speed) {
|
|
switch (speed) {
|
|
case kHitachiAc424FanMax: return stdAc::fanspeed_t::kMax;
|
|
case kHitachiAc424FanHigh: return stdAc::fanspeed_t::kHigh;
|
|
case kHitachiAc424FanMedium: return stdAc::fanspeed_t::kMedium;
|
|
case kHitachiAc424FanLow: return stdAc::fanspeed_t::kLow;
|
|
case kHitachiAc424FanMin: return stdAc::fanspeed_t::kMin;
|
|
default: return stdAc::fanspeed_t::kAuto;
|
|
}
|
|
}
|
|
|
|
// Convert the A/C state to it's common equivalent.
|
|
stdAc::state_t IRHitachiAc424::toCommon(void) {
|
|
stdAc::state_t result;
|
|
result.protocol = decode_type_t::HITACHI_AC424;
|
|
result.model = -1; // No models used.
|
|
result.power = this->getPower();
|
|
result.mode = this->toCommonMode(this->getMode());
|
|
result.celsius = true;
|
|
result.degrees = this->getTemp();
|
|
result.fanspeed = this->toCommonFanSpeed(this->getFan());
|
|
result.swingv = this->getSwingVToggle() ? stdAc::swingv_t::kAuto
|
|
: stdAc::swingv_t::kOff;
|
|
// Not supported.
|
|
result.swingh = stdAc::swingh_t::kOff;
|
|
result.quiet = false;
|
|
result.turbo = false;
|
|
result.clean = false;
|
|
result.econo = false;
|
|
result.filter = false;
|
|
result.light = false;
|
|
result.beep = false;
|
|
result.sleep = -1;
|
|
result.clock = -1;
|
|
return result;
|
|
}
|
|
|
|
// Convert the internal state into a human readable string.
|
|
String IRHitachiAc424::toString(void) {
|
|
String result = "";
|
|
result.reserve(100); // Reserve some heap for the string to reduce fragging.
|
|
result += addBoolToString(getPower(), kPowerStr, false);
|
|
result += addModeToString(getMode(), 0, kHitachiAc424Cool,
|
|
kHitachiAc424Heat, kHitachiAc424Dry,
|
|
kHitachiAc424Fan);
|
|
result += addTempToString(getTemp());
|
|
result += addIntToString(getFan(), kFanStr);
|
|
result += kSpaceLBraceStr;
|
|
switch (getFan()) {
|
|
case kHitachiAc424FanAuto: result += kAutoStr; break;
|
|
case kHitachiAc424FanMax: result += kMaxStr; break;
|
|
case kHitachiAc424FanHigh: result += kHighStr; break;
|
|
case kHitachiAc424FanMedium: result += kMedStr; break;
|
|
case kHitachiAc424FanLow: result += kLowStr; break;
|
|
case kHitachiAc424FanMin: result += kMinStr; break;
|
|
default: result += kUnknownStr;
|
|
}
|
|
result += ')';
|
|
result += addBoolToString(getSwingVToggle(), kSwingVToggleStr);
|
|
result += addIntToString(getButton(), kButtonStr);
|
|
result += kSpaceLBraceStr;
|
|
switch (getButton()) {
|
|
case kHitachiAc424ButtonPowerMode:
|
|
result += kPowerStr;
|
|
result += '/';
|
|
result += kModeStr;
|
|
break;
|
|
case kHitachiAc424ButtonFan: result += kFanStr; break;
|
|
case kHitachiAc424ButtonSwingV: result += kSwingVStr; break;
|
|
case kHitachiAc424ButtonTempDown: result += kTempDownStr; break;
|
|
case kHitachiAc424ButtonTempUp: result += kTempUpStr; break;
|
|
default: result += kUnknownStr;
|
|
}
|
|
result += ')';
|
|
return result;
|
|
}
|