mirror of https://github.com/arendst/Tasmota.git
234 lines
6.9 KiB
C++
234 lines
6.9 KiB
C++
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/*
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Code to emulate IR Kelvinator YALIF remote control unit, which should control
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at least the following Kelvinator A/C units:
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KSV26CRC, KSV26HRC, KSV35CRC, KSV35HRC, KSV53HRC, KSV62HRC, KSV70CRC,
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KSV70HRC, KSV80HRC.
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Note:
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* Unsupported:
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- All Sleep modes.
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- All Timer modes.
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- "I Feel" button & mode.
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- Energy Saving mode.
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- Low Heat mode.
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- Farenheit.
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*/
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#include <IRKelvinator.h>
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IRKelvinatorAC::IRKelvinatorAC(int pin) : _irsend(pin) {
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stateReset();
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}
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void IRKelvinatorAC::stateReset() {
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for (uint8_t i = 0; i < KELVINATOR_STATE_LENGTH; i++)
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remote_state[i] = 0x0;
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remote_state[3] = 0x50;
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remote_state[11] = 0x70;
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}
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void IRKelvinatorAC::begin() {
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_irsend.begin();
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}
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void IRKelvinatorAC::fixup() {
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// X-Fan mode is only valid in COOL or DRY modes.
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if (getMode() != KELVINATOR_COOL && getMode() != KELVINATOR_DRY)
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setXFan(false);
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checksum(); // Calculate the checksums
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}
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void IRKelvinatorAC::send() {
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fixup(); // Ensure correct settings before sending.
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_irsend.sendKelvinator(remote_state);
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}
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uint8_t* IRKelvinatorAC::getRaw() {
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fixup(); // Ensure correct settings before sending.
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return remote_state;
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}
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// Many Bothans died to bring us this information.
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void IRKelvinatorAC::checksum() {
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// For each command + options block.
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for (uint8_t offset = 0; offset < KELVINATOR_STATE_LENGTH; offset += 8) {
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uint8_t sum = KELVINATOR_CHECKSUM_START;
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// Sum the lower half of the first 4 bytes of this block.
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for(uint8_t i = 0; i < 4; i++) {
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sum += (remote_state[i + offset] & 0xFU);
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}
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// then sum the upper half of the next 3 bytes.
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for(uint8_t i = 4; i < 7; i++) {
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sum += (remote_state[i + offset] >> 4);
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}
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// Trim it down to fit into the 4 bits allowed. i.e. Mod 16.
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sum &= 0xFU;
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// Place it into the IR code in the top half of the 8th & 16th byte.
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remote_state[7 + offset] = (sum << 4) | (remote_state[7 + offset] & 0xFU);
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}
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}
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void IRKelvinatorAC::on() {
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//state = ON;
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remote_state[0] |= KELVINATOR_POWER;
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remote_state[8] = remote_state[0]; // Duplicate to the 2nd command chunk.
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}
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void IRKelvinatorAC::off() {
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//state = OFF;
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remote_state[0] &= ~KELVINATOR_POWER;
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remote_state[8] = remote_state[0]; // Duplicate to the 2nd command chunk.
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}
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void IRKelvinatorAC::setPower(bool state) {
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if (state)
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on();
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else
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off();
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}
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bool IRKelvinatorAC::getPower() {
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return ((remote_state[0] & KELVINATOR_POWER) != 0);
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}
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// Set the temp. in deg C
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void IRKelvinatorAC::setTemp(uint8_t temp) {
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temp = max(KELVINATOR_MIN_TEMP, temp);
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temp = min(KELVINATOR_MAX_TEMP, temp);
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remote_state[1] = (remote_state[1] & 0xF0U) | (temp - KELVINATOR_MIN_TEMP);
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remote_state[9] = remote_state[1]; // Duplicate to the 2nd command chunk.
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}
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// Return the set temp. in deg C
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uint8_t IRKelvinatorAC::getTemp() {
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return ((remote_state[1] & 0xFU) + KELVINATOR_MIN_TEMP);
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}
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// Set the speed of the fan, 0-5, 0 is auto, 1-5 is the speed
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void IRKelvinatorAC::setFan(uint8_t fan) {
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fan = min(KELVINATOR_FAN_MAX, fan); // Bounds check
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// Only change things if we need to.
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if (fan != getFan()) {
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// Set the basic fan values.
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uint8_t fan_basic = min(KELVINATOR_BASIC_FAN_MAX, fan);
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remote_state[0] = (remote_state[0] & KELVINATOR_BASIC_FAN_MASK) |
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(fan_basic << KELVINATOR_FAN_OFFSET);
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remote_state[8] = remote_state[0]; // Duplicate to the 2nd command chunk.
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// Set the advanced(?) fan value.
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remote_state[14] = (remote_state[14] & KELVINATOR_FAN_MASK) |
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(fan << KELVINATOR_FAN_OFFSET);
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setTurbo(false); // Turbo mode is turned off if we change the fan settings.
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}
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}
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uint8_t IRKelvinatorAC::getFan() {
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return ((remote_state[14] & ~KELVINATOR_FAN_MASK) >> KELVINATOR_FAN_OFFSET);
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}
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uint8_t IRKelvinatorAC::getMode() {
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/*
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KELVINATOR_AUTO
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KELVINATOR_COOL
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KELVINATOR_DRY
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KELVINATOR_FAN
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KELVINATOR_HEAT
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*/
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return (remote_state[0] & ~KELVINATOR_MODE_MASK);
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}
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void IRKelvinatorAC::setMode(uint8_t mode) {
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// If we get an unexpected mode, default to AUTO.
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if (mode > KELVINATOR_HEAT) mode = KELVINATOR_AUTO;
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remote_state[0] = (remote_state[0] & KELVINATOR_MODE_MASK) | mode;
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remote_state[8] = remote_state[0]; // Duplicate to the 2nd command chunk.
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if (mode == KELVINATOR_AUTO)
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// When the remote is set to Auto, it defaults to 25C and doesn't show it.
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setTemp(KELVINATOR_AUTO_TEMP);
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}
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void IRKelvinatorAC::setSwingVertical(bool state) {
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if (state) {
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remote_state[0] |= KELVINATOR_VENT_SWING;
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remote_state[4] |= KELVINATOR_VENT_SWING_V;
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}
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else {
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remote_state[4] &= ~KELVINATOR_VENT_SWING_V;
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if (! getSwingHorizontal())
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remote_state[0] &= ~KELVINATOR_VENT_SWING;
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}
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remote_state[8] = remote_state[0]; // Duplicate to the 2nd command chunk.
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}
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bool IRKelvinatorAC::getSwingVertical() {
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return ((remote_state[4] & KELVINATOR_VENT_SWING_V) != 0);
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}
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void IRKelvinatorAC::setSwingHorizontal(bool state) {
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if (state) {
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remote_state[0] |= KELVINATOR_VENT_SWING;
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remote_state[4] |= KELVINATOR_VENT_SWING_H;
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}
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else {
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remote_state[4] &= ~KELVINATOR_VENT_SWING_H;
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if (! getSwingVertical())
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remote_state[0] &= ~KELVINATOR_VENT_SWING;
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}
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remote_state[8] = remote_state[0]; // Duplicate to the 2nd command chunk.
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}
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bool IRKelvinatorAC::getSwingHorizontal() {
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return ((remote_state[4] & KELVINATOR_VENT_SWING_H) != 0);
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}
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void IRKelvinatorAC::setQuiet(bool state) {
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remote_state[12] &= ~KELVINATOR_QUIET;
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remote_state[12] |= (state << KELVINATOR_QUIET_OFFSET);
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}
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bool IRKelvinatorAC::getQuiet() {
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return ((remote_state[12] & KELVINATOR_QUIET) != 0);
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}
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void IRKelvinatorAC::setIonFilter(bool state) {
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remote_state[2] &= ~KELVINATOR_ION_FILTER;
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remote_state[2] |= (state << KELVINATOR_ION_FILTER_OFFSET);
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remote_state[10] = remote_state[2]; // Duplicate to the 2nd command chunk.
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}
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bool IRKelvinatorAC::getIonFilter() {
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return ((remote_state[2] & KELVINATOR_ION_FILTER) != 0);
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}
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void IRKelvinatorAC::setLight(bool state) {
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remote_state[2] &= ~KELVINATOR_LIGHT;
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remote_state[2] |= (state << KELVINATOR_LIGHT_OFFSET);
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remote_state[10] = remote_state[2]; // Duplicate to the 2nd command chunk.
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}
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bool IRKelvinatorAC::getLight() {
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return ((remote_state[2] & KELVINATOR_LIGHT) != 0);
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}
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// Note: XFan mode is only valid in Cool or Dry mode.
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void IRKelvinatorAC::setXFan(bool state) {
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remote_state[2] &= ~KELVINATOR_XFAN;
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remote_state[2] |= (state << KELVINATOR_XFAN_OFFSET);
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remote_state[10] = remote_state[2]; // Duplicate to the 2nd command chunk.
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}
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bool IRKelvinatorAC::getXFan() {
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return ((remote_state[2] & KELVINATOR_XFAN) != 0);
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}
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// Note: Turbo mode is turned off if the fan speed is changed.
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void IRKelvinatorAC::setTurbo(bool state) {
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remote_state[2] &= ~KELVINATOR_TURBO;
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remote_state[2] |= (state << KELVINATOR_TURBO_OFFSET);
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remote_state[10] = remote_state[2]; // Duplicate to the 2nd command chunk.
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}
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bool IRKelvinatorAC::getTurbo() {
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return ((remote_state[2] & KELVINATOR_TURBO) != 0);
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}
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