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Add Yashima climate component (#634)
This commit is contained in:
Mario Di Raimondo
Otto Winter
parent
a09bd80636
commit
dc9f304d94
0
esphome/components/yashima/__init__.py
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esphome/components/yashima/__init__.py
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esphome/components/yashima/climate.py
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esphome/components/yashima/climate.py
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import esphome.codegen as cg
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import esphome.config_validation as cv
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from esphome.components import climate, remote_transmitter, sensor
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from esphome.const import CONF_ID, CONF_SENSOR
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AUTO_LOAD = ['sensor']
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yashima_ns = cg.esphome_ns.namespace('yashima')
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YashimaClimate = yashima_ns.class_('YashimaClimate', climate.Climate, cg.Component)
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CONF_TRANSMITTER_ID = 'transmitter_id'
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CONF_SUPPORTS_HEAT = 'supports_heat'
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CONF_SUPPORTS_COOL = 'supports_cool'
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CONFIG_SCHEMA = cv.All(climate.CLIMATE_SCHEMA.extend({
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cv.GenerateID(): cv.declare_id(YashimaClimate),
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cv.GenerateID(CONF_TRANSMITTER_ID): cv.use_id(remote_transmitter.RemoteTransmitterComponent),
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cv.Optional(CONF_SUPPORTS_COOL, default=True): cv.boolean,
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cv.Optional(CONF_SUPPORTS_HEAT, default=True): cv.boolean,
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cv.Optional(CONF_SENSOR): cv.use_id(sensor.Sensor),
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}).extend(cv.COMPONENT_SCHEMA))
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def to_code(config):
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var = cg.new_Pvariable(config[CONF_ID])
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yield cg.register_component(var, config)
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yield climate.register_climate(var, config)
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cg.add(var.set_supports_cool(config[CONF_SUPPORTS_COOL]))
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cg.add(var.set_supports_heat(config[CONF_SUPPORTS_HEAT]))
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if CONF_SENSOR in config:
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sens = yield cg.get_variable(config[CONF_SENSOR])
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cg.add(var.set_sensor(sens))
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transmitter = yield cg.get_variable(config[CONF_TRANSMITTER_ID])
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cg.add(var.set_transmitter(transmitter))
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193
esphome/components/yashima/yashima.cpp
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esphome/components/yashima/yashima.cpp
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#include "yashima.h"
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#include "esphome/core/log.h"
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namespace esphome {
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namespace yashima {
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static const char *TAG = "yashima.climate";
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const uint16_t YASHIMA_STATE_LENGTH = 9;
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const uint16_t YASHIMA_BITS = YASHIMA_STATE_LENGTH * 8;
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/* the bit masks are intended to be sent from the MSB to the LSB */
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const uint8_t YASHIMA_MODE_HEAT_BYTE0 = 0b00100000;
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const uint8_t YASHIMA_MODE_DRY_BYTE0 = 0b01100000;
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const uint8_t YASHIMA_MODE_COOL_BYTE0 = 0b11100000;
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const uint8_t YASHIMA_MODE_FAN_BYTE0 = 0b10100000;
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const uint8_t YASHIMA_MODE_AUTO_BYTE0 = 0b11100000;
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const uint8_t YASHIMA_MODE_OFF_BYTE0 = 0b11110000;
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const uint8_t YASHIMA_BASE_BYTE0 = 0b1110;
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const uint8_t YASHIMA_TEMP_MAX = 30; // Celsius
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const uint8_t YASHIMA_TEMP_MIN = 16; // Celsius
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const uint8_t YASHIMA_TEMP_RANGE = YASHIMA_TEMP_MAX - YASHIMA_TEMP_MIN + 1;
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const uint8_t YASHIMA_TEMP_MAP_BYTE1[YASHIMA_TEMP_RANGE] = {
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0b01100100, // 16C
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0b10100100, // 17C
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0b00100100, // 18C
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0b11000100, // 19C
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0b01000100, // 20C
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0b10000100, // 21C
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0b00000100, // 22C
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0b11111000, // 23C
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0b01111000, // 24C
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0b10111000, // 25C
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0b00111000, // 26C
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0b11011000, // 27C
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0b01011000, // 28C
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0b10011000, // 29C
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0b00011000, // 30C
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};
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const uint8_t YASHIMA_BASE_BYTE1 = 0b11;
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const uint8_t YASHIMA_FAN_AUTO_BYTE2 = 0b11000000;
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const uint8_t YASHIMA_FAN_LOW_BYTE2 = 0b00000000;
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const uint8_t YASHIMA_FAN_MEDIUM_BYTE2 = 0b10000000;
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const uint8_t YASHIMA_FAN_HIGH_BYTE2 = 0b01000000;
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const uint8_t YASHIMA_BASE_BYTE2 = 0b111111;
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const uint8_t YASHIMA_BASE_BYTE3 = 0b11111111;
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const uint8_t YASHIMA_BASE_BYTE4 = 0b11;
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const uint8_t YASHIMA_MODE_HEAT_BYTE5 = 0b00000000;
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const uint8_t YASHIMA_MODE_DRY_BYTE5 = 0b00000000;
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const uint8_t YASHIMA_MODE_FAN_BYTE5 = 0b00000000;
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const uint8_t YASHIMA_MODE_AUTO_BYTE5 = 0b00000000;
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const uint8_t YASHIMA_MODE_COOL_BYTE5 = 0b10000000;
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const uint8_t YASHIMA_MODE_OFF_BYTE5 = 0b10000000;
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const uint8_t YASHIMA_BASE_BYTE5 = 0b11111;
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const uint8_t YASHIMA_BASE_BYTE6 = 0b11111111;
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const uint8_t YASHIMA_BASE_BYTE7 = 0b11111111;
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const uint8_t YASHIMA_BASE_BYTE8 = 0b11001111;
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/* values sampled using a Broadlink Mini 3: */
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// const uint16_t YASHIMA_HEADER_MARK = 9600;
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// const uint16_t YASHIMA_HEADER_SPACE = 4800;
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// const uint16_t YASHIMA_BIT_MARK = 720;
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// const uint16_t YASHIMA_ONE_SPACE = 550;
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// const uint16_t YASHIMA_ZERO_SPACE = 1640;
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/* scaled values to get correct timing on ESP8266/ESP32: */
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const uint16_t YASHIMA_HEADER_MARK = 9035;
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const uint16_t YASHIMA_HEADER_SPACE = 4517;
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const uint16_t YASHIMA_BIT_MARK = 667;
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const uint16_t YASHIMA_ONE_SPACE = 517;
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const uint16_t YASHIMA_ZERO_SPACE = 1543;
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const uint32_t YASHIMA_GAP = YASHIMA_HEADER_SPACE;
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const uint32_t YASHIMA_CARRIER_FREQUENCY = 38000;
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climate::ClimateTraits YashimaClimate::traits() {
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auto traits = climate::ClimateTraits();
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traits.set_supports_current_temperature(this->sensor_ != nullptr);
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traits.set_supports_auto_mode(true);
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traits.set_supports_cool_mode(this->supports_cool_);
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traits.set_supports_heat_mode(this->supports_heat_);
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traits.set_supports_two_point_target_temperature(false);
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traits.set_supports_away(false);
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traits.set_visual_min_temperature(YASHIMA_TEMP_MIN);
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traits.set_visual_max_temperature(YASHIMA_TEMP_MAX);
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traits.set_visual_temperature_step(1);
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return traits;
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}
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void YashimaClimate::setup() {
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if (this->sensor_) {
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this->sensor_->add_on_state_callback([this](float state) {
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this->current_temperature = state;
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// current temperature changed, publish state
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this->publish_state();
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});
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this->current_temperature = this->sensor_->state;
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} else
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this->current_temperature = NAN;
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// restore set points
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auto restore = this->restore_state_();
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if (restore.has_value()) {
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restore->apply(this);
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} else {
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// restore from defaults
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this->mode = climate::CLIMATE_MODE_OFF;
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this->target_temperature = 24;
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}
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}
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void YashimaClimate::control(const climate::ClimateCall &call) {
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if (call.get_mode().has_value())
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this->mode = *call.get_mode();
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if (call.get_target_temperature().has_value())
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this->target_temperature = *call.get_target_temperature();
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this->transmit_state_();
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this->publish_state();
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}
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void YashimaClimate::transmit_state_() {
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uint8_t remote_state[YASHIMA_STATE_LENGTH] = {0};
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remote_state[0] = YASHIMA_BASE_BYTE0;
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remote_state[1] = YASHIMA_BASE_BYTE1;
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remote_state[2] = YASHIMA_BASE_BYTE2;
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remote_state[3] = YASHIMA_BASE_BYTE3;
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remote_state[4] = YASHIMA_BASE_BYTE4;
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remote_state[5] = YASHIMA_BASE_BYTE5;
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remote_state[6] = YASHIMA_BASE_BYTE6;
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remote_state[7] = YASHIMA_BASE_BYTE7;
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remote_state[8] = YASHIMA_BASE_BYTE8;
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// Set mode
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switch (this->mode) {
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case climate::CLIMATE_MODE_AUTO:
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remote_state[0] |= YASHIMA_MODE_AUTO_BYTE0;
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remote_state[5] |= YASHIMA_MODE_AUTO_BYTE5;
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break;
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case climate::CLIMATE_MODE_COOL:
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remote_state[0] |= YASHIMA_MODE_COOL_BYTE0;
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remote_state[5] |= YASHIMA_MODE_COOL_BYTE5;
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break;
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case climate::CLIMATE_MODE_HEAT:
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remote_state[0] |= YASHIMA_MODE_HEAT_BYTE0;
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remote_state[5] |= YASHIMA_MODE_HEAT_BYTE5;
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break;
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case climate::CLIMATE_MODE_OFF:
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default:
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remote_state[0] |= YASHIMA_MODE_OFF_BYTE0;
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remote_state[5] |= YASHIMA_MODE_OFF_BYTE5;
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break;
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// TODO: CLIMATE_MODE_FAN_ONLY, CLIMATE_MODE_DRY are missing in esphome
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}
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// TODO: missing support for fan speed
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remote_state[2] |= YASHIMA_FAN_AUTO_BYTE2;
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// Set temperature
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uint8_t safecelsius = std::max((uint8_t) this->target_temperature, YASHIMA_TEMP_MIN);
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safecelsius = std::min(safecelsius, YASHIMA_TEMP_MAX);
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remote_state[1] |= YASHIMA_TEMP_MAP_BYTE1[safecelsius - YASHIMA_TEMP_MIN];
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auto transmit = this->transmitter_->transmit();
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auto data = transmit.get_data();
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data->set_carrier_frequency(YASHIMA_CARRIER_FREQUENCY);
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// Header
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data->mark(YASHIMA_HEADER_MARK);
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data->space(YASHIMA_HEADER_SPACE);
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// Data (sent from the MSB to the LSB)
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for (uint8_t i : remote_state)
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for (int8_t j = 7; j >= 0; j--) {
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data->mark(YASHIMA_BIT_MARK);
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bool bit = i & (1 << j);
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data->space(bit ? YASHIMA_ONE_SPACE : YASHIMA_ZERO_SPACE);
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}
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// Footer
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data->mark(YASHIMA_BIT_MARK);
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data->space(YASHIMA_GAP);
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transmit.perform();
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}
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} // namespace yashima
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} // namespace esphome
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40
esphome/components/yashima/yashima.h
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40
esphome/components/yashima/yashima.h
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#pragma once
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#include "esphome/core/component.h"
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#include "esphome/core/automation.h"
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#include "esphome/components/climate/climate.h"
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#include "esphome/components/remote_base/remote_base.h"
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#include "esphome/components/remote_transmitter/remote_transmitter.h"
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#include "esphome/components/sensor/sensor.h"
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namespace esphome {
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namespace yashima {
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class YashimaClimate : public climate::Climate, public Component {
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public:
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void setup() override;
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void set_transmitter(remote_transmitter::RemoteTransmitterComponent *transmitter) {
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this->transmitter_ = transmitter;
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}
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void set_supports_cool(bool supports_cool) { this->supports_cool_ = supports_cool; }
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void set_supports_heat(bool supports_heat) { this->supports_heat_ = supports_heat; }
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void set_sensor(sensor::Sensor *sensor) { this->sensor_ = sensor; }
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protected:
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/// Override control to change settings of the climate device.
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void control(const climate::ClimateCall &call) override;
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/// Return the traits of this controller.
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climate::ClimateTraits traits() override;
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/// Transmit via IR the state of this climate controller.
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void transmit_state_();
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bool supports_cool_{true};
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bool supports_heat_{true};
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remote_transmitter::RemoteTransmitterComponent *transmitter_;
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sensor::Sensor *sensor_{nullptr};
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};
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} // namespace yashima
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} // namespace esphome
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