mirror of
https://github.com/IoTManagerProject/IoTManager.git
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401 lines
15 KiB
C++
401 lines
15 KiB
C++
//===============================================================================================================================
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//=========================================Модуль аналогового сенсора============================================================
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void analog() {
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String pin = sCmd.next();
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String viget_name = sCmd.next();
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String page_name = sCmd.next();
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String type = sCmd.next();
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String analog_start = sCmd.next();
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String analog_end = sCmd.next();
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String analog_start_out = sCmd.next();
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String analog_end_out = sCmd.next();
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String page_number = sCmd.next();
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jsonWrite(optionJson, "analog_start", analog_start);
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jsonWrite(optionJson, "analog_end", analog_end);
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jsonWrite(optionJson, "analog_start_out", analog_start_out);
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jsonWrite(optionJson, "analog_end_out", analog_end_out);
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choose_viget_and_create(viget_name, page_name, page_number, type, "analog");
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ts.add(ANALOG_, analog_update_int, [&](void*) {
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static int analog_old;
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#ifdef ESP32
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//int pin_int = pin.toInt();
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int analog_in;// = analogRead(pin_int);
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#endif
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#ifdef ESP8266
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int analog_in = analogRead(A0);
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#endif
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jsonWrite(configJson, "analog_in", analog_in);
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int analog = map(analog_in,
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jsonReadtoInt(optionJson, "analog_start") ,
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jsonReadtoInt(optionJson, "analog_end"),
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jsonReadtoInt(optionJson, "analog_start_out"),
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jsonReadtoInt(optionJson, "analog_end_out"));
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jsonWrite(configJson, "analog", analog);
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// if (analog_old != analog) {
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eventGen ("analog", "");
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sendSTATUS("analog", String(analog));
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if (client.connected()) {
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Serial.println("[i] sensor analog send date " + String(analog));
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}
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// }
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analog_old = analog;
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}, nullptr, true);
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}
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//===================================================================================================================================
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//=========================================Модуль измерения уровня в баке============================================================
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void level() {
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String viget_name = sCmd.next();
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String page_name = sCmd.next();
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String type = sCmd.next();
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String empty_level = sCmd.next();
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String full_level = sCmd.next();
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String page_number = sCmd.next();
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jsonWrite(optionJson, "empty_level", empty_level);
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jsonWrite(optionJson, "full_level", full_level);
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pinMode(14, OUTPUT);
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pinMode(12, INPUT);
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choose_viget_and_create(viget_name, page_name, page_number, type, "level");
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ts.add(LEVEL, tank_level_shooting_interval, [&](void*) {
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long duration_;
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int distance_cm;
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int level;
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static int level_old; //переменная static сохраняет свое значение между вызовами функции
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static int counter;
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digitalWrite(14, LOW);
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delayMicroseconds(2);
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digitalWrite(14, HIGH);
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delayMicroseconds(10);
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digitalWrite(14, LOW);
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duration_ = pulseIn(12, HIGH, 30000); // 3000 µs = 50cm // 30000 µs = 5 m
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distance_cm = duration_ / 29 / 2;
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distance_cm = medianFilter.filtered(distance_cm);//отсечение промахов медианным фильтром
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counter++;
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if (counter > tank_level_times_to_send) {
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counter = 0;
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jsonWrite(configJson, "level_in", distance_cm);
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level = map(distance_cm,
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jsonReadtoInt(optionJson, "empty_level"),
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jsonReadtoInt(optionJson, "full_level"), 0, 100);
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//jsonWrite(configJson, "level", level);
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//if (level_old != level) {
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eventGen ("level", "");
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sendSTATUS("level", String(level));
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if (client.connected()) {
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Serial.println("[i] sensor tank level send date " + String(level));
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}
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//}
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level_old = level;
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}
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}, nullptr, true);
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}
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//==========================================================================================================================================
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//=========================================Модуль температурного сенсора ds18b20============================================================
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void dallas() {
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String pin = sCmd.next();
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String viget_name = sCmd.next();
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String page_name = sCmd.next();
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String type = sCmd.next();
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String page_number = sCmd.next();
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oneWire = new OneWire((uint8_t) pin.toInt());
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sensors.setOneWire(oneWire);
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sensors.begin();
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sensors.setResolution(12);
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choose_viget_and_create(viget_name, page_name, page_number, type, "dallas");
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ts.add(DALLAS, temp_update_int, [&](void*) {
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float temp = 0;
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static float temp_old;
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sensors.requestTemperatures();
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temp = sensors.getTempCByIndex(0);
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jsonWrite(configJson, "dallas", String(temp));
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//if (temp_old != temp) {
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eventGen ("dallas", "");
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sendSTATUS("dallas", String(temp));
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if (client.connected()) {
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Serial.println("[i] sensor dallas send date " + String(temp));
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}
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//}
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temp_old = temp;
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}, nullptr, true);
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}
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//======================================================================================================================
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//=========================================Модуль сенсоров DHT==========================================================
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void dhtT() {
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String sensor_type = sCmd.next();
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String pin = sCmd.next();
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String viget_name = sCmd.next();
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String page_name = sCmd.next();
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String type = sCmd.next();
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String page_number = sCmd.next();
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if (sensor_type == "DHT11") {
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dht.setup(pin.toInt(), DHTesp::DHT11);
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}
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if (sensor_type == "DHT22") {
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dht.setup(pin.toInt(), DHTesp::DHT22);
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}
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choose_viget_and_create(viget_name, page_name, page_number, type, "dhtT");
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ts.add(DHTT, dhtT_update_int + dht.getMinimumSamplingPeriod(), [&](void*) {
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float value = 0;
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static float value_old;
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value = dht.getTemperature();
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jsonWrite(configJson, "dhtT", String(value));
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//if (value_old != value) {
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eventGen ("dhtT", "");
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sendSTATUS("dhtT", String(value));
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if (client.connected()) {
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Serial.println("[i] sensor dhtT send date " + String(value));
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}
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//}
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value_old = value;
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}, nullptr, true);
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}
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void dhtH() {
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String sensor_type = sCmd.next();
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String pin = sCmd.next();
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String viget_name = sCmd.next();
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String page_name = sCmd.next();
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String type = sCmd.next();
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String page_number = sCmd.next();
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if (sensor_type == "DHT11") {
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dht.setup(pin.toInt(), DHTesp::DHT11);
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}
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if (sensor_type == "DHT22") {
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dht.setup(pin.toInt(), DHTesp::DHT22);
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}
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choose_viget_and_create(viget_name, page_name, page_number, type, "dhtH");
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ts.add(DHTH, dhtH_update_int + dht.getMinimumSamplingPeriod(), [&](void*) {
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int value = 0;
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static int value_old;
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value = dht.getHumidity();
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jsonWrite(configJson, "dhtH", String(value));
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//if (value_old != value) {
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eventGen ("dhtH", "");
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sendSTATUS("dhtH", String(value));
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if (client.connected()) {
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Serial.println("[i] sensor dhtH send date " + String(value));
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}
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//}
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value_old = value;
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}, nullptr, true);
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}
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void dhtPerception() {
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String viget_name = sCmd.next();
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String page_name = sCmd.next();
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String page_number = sCmd.next();
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choose_viget_and_create(viget_name, page_name, page_number, "any-data", "dhtPerception");
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ts.add(DHTP, dhtPerception_update_int, [&](void*) {
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byte value;
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ComfortState cf;
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value = dht.computePerception(jsonRead(configJson, "dhtT").toFloat(), jsonRead(configJson, "dhtH").toInt(), false);
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String final_line = perception(value);
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jsonWrite(configJson, "dhtPerception", final_line);
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eventGen ("dhtPerception", "");
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sendSTATUS("dhtPerception", final_line);
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if (client.connected()) {
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Serial.println("[i] sensor dhtPerception send date " + final_line);
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}
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}, nullptr, true);
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}
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String perception(byte value) {
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if (value == 0) return "Сухой воздух";
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if (value == 1) return "Комфортно";
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if (value == 2) return "Уютно";
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if (value == 3) return "Хорошо";
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if (value == 4) return "Неудобно";
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if (value == 5) return "Довольно неудобно";
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if (value == 6) return "Очень неудобно";
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if (value == 7) return "Сильно неудобно, полный звиздец";
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}
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void dhtComfort() {
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String viget_name = sCmd.next();
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String page_name = sCmd.next();
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String page_number = sCmd.next();
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choose_viget_and_create(viget_name, page_name, page_number, "any-data", "dhtComfort");
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ts.add(DHTC, dhtComfort_update_int, [&](void*) {
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float value;
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ComfortState cf;
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value = dht.getComfortRatio(cf, jsonRead(configJson, "dhtT").toFloat(), jsonRead(configJson, "dhtH").toInt(), false);
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String comfortStatus;
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switch (cf) {
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case Comfort_OK:
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comfortStatus = "Отлично";
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break;
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case Comfort_TooHot:
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comfortStatus = "Очень жарко";
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break;
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case Comfort_TooCold:
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comfortStatus = "Очень холодно";
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break;
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case Comfort_TooDry:
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comfortStatus = "Очень сухо";
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break;
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case Comfort_TooHumid:
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comfortStatus = "Очень влажно";
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break;
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case Comfort_HotAndHumid:
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comfortStatus = "Жарко и влажно";
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break;
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case Comfort_HotAndDry:
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comfortStatus = "Жарко и сухо";
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break;
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case Comfort_ColdAndHumid:
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comfortStatus = "Холодно и влажно";
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break;
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case Comfort_ColdAndDry:
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comfortStatus = "Холодно и сухо";
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break;
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default:
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comfortStatus = "Неизвестно";
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break;
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};
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String final_line = comfortStatus;
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jsonWrite(configJson, "dhtComfort", final_line);
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eventGen ("dhtComfort", "");
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sendSTATUS("dhtComfort", final_line);
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if (client.connected()) {
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Serial.println("[i] sensor dhtComfort send date " + final_line);
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}
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}, nullptr, true);
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}
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void dhtDewPoint() {
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String viget_name = sCmd.next();
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String page_name = sCmd.next();
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String page_number = sCmd.next();
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choose_viget_and_create(viget_name, page_name, page_number, "any-data", "dhtPerception");
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ts.add(DHTP, dhtPerception_update_int, [&](void*) {
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byte value;
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ComfortState cf;
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value = dht.computePerception(jsonRead(configJson, "dhtT").toFloat(), jsonRead(configJson, "dhtH").toInt(), false);
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String final_line = perception(value);
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jsonWrite(configJson, "dhtPerception", final_line);
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eventGen ("dhtPerception", "");
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sendSTATUS("dhtPerception", final_line);
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if (client.connected()) {
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Serial.println("[i] sensor dhtPerception send date " + final_line);
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}
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}, nullptr, true);
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}
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void choose_viget_and_create(String viget_name, String page_name, String page_number, String type, String topik) {
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if (type == "any-data") createViget (viget_name, page_name, page_number, "vigets/viget.anydata.json", topik);
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if (type == "progress-line") createViget (viget_name, page_name, page_number, "vigets/viget.progressL.json", topik);
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if (type == "progress-round") createViget (viget_name, page_name, page_number, "vigets/viget.progressR.json", topik);
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}
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//======================================================================================================================
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//===============================================Логирование============================================================
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void logging() {
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static boolean flag = true;
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String sensor_name = sCmd.next();
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String period_min = sCmd.next();
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String maxCount = sCmd.next();
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String viget_name = sCmd.next();
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viget_name.replace("#", " ");
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String page_name = sCmd.next();
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String page_number = sCmd.next();
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if (sensor_name == "analog") jsonWrite(optionJson, "analog_logging_count", maxCount);
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if (sensor_name == "level") jsonWrite(optionJson, "level_logging_count", maxCount);
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if (sensor_name == "dallas") jsonWrite(optionJson, "dallas_logging_count", maxCount);
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if (sensor_name == "ph") jsonWrite(optionJson, "ph_logging_count", maxCount);
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/*
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if (sensor_name == "analog") createViget (viget_name, page_name, page_number, "vigets/viget.chart.json", "loganalog", "maxCount", maxCount);
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if (sensor_name == "level") createViget (viget_name, page_name, page_number, "vigets/viget.chart.json", "loglevel", "maxCount", maxCount);
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if (sensor_name == "dallas") createViget (viget_name, page_name, page_number, "vigets/viget.chart.json", "logdallas", "maxCount", maxCount);
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if (sensor_name == "ph") createViget (viget_name, page_name, page_number, "vigets/viget.chart.json", "logph", "maxCount", maxCount);
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*/
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if (sensor_name == "analog") {
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flagLoggingAnalog = true;
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ts.remove(ANALOG_LOG);
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ts.add(ANALOG_LOG, period_min.toInt() * 1000 * 60, [&](void*) {
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deleteOldDate("log.analog.txt", jsonReadtoInt(optionJson, "analog_logging_count"), jsonRead(configJson, "analog"), false);
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}, nullptr, true);
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}
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if (sensor_name == "level") {
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flagLoggingLevel = true;
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ts.remove(LEVEL_LOG);
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ts.add(LEVEL_LOG, period_min.toInt() * 1000 * 60, [&](void*) {
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deleteOldDate("log.level.txt", jsonReadtoInt(optionJson, "level_logging_count"), jsonRead(configJson, "level"), false);
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}, nullptr, true);
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}
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if (sensor_name == "dallas") {
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flagLoggingDallas = true;
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ts.remove(DALLAS_LOG);
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ts.add(DALLAS_LOG, period_min.toInt() * 1000 * 60, [&](void*) {
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deleteOldDate("log.dallas.txt", jsonReadtoInt(optionJson, "dallas_logging_count"), jsonRead(configJson, "dallas"), false);
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}, nullptr, true);
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}
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if (sensor_name == "ph") {
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flagLoggingPh = true;
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ts.remove(PH_LOG);
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ts.add(PH_LOG, period_min.toInt() * 1000 * 60, [&](void*) {
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deleteOldDate("log.ph.txt", jsonReadtoInt(optionJson, "ph_logging_count"), jsonRead(configJson, "ph"), false);
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}, nullptr, true);
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}
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}
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void deleteOldDate(String file, int seted_number_of_lines, String date_to_add, boolean date_time) {
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String current_time;
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if (date_time) {
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current_time = GetDataDigital() + " " + GetTimeWOsec();
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current_time.replace(".", "");
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current_time.replace(":", "");
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} else {
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current_time = "";
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}
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String log_date = readFile(file, 5000);
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getMemoryLoad("[i] after logging procedure");
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//предел количества строк 255
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log_date.replace("\r\n", "\n");
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log_date.replace("\r", "\n");
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int current_number_of_lines = count(log_date, "\n");
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Serial.println("[i] in log file " + file + " " + current_number_of_lines + " lines");
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if (current_number_of_lines > seted_number_of_lines + 1) {
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SPIFFS.remove("/" + file);
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current_number_of_lines = 0;
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}
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if (current_number_of_lines == 0) {
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SPIFFS.remove("/" + file);
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current_number_of_lines = 0;
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}
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if (current_number_of_lines > seted_number_of_lines) {
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log_date = deleteBeforeDelimiter(log_date, "\n");
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log_date += current_time + " " + date_to_add + "\n";
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writeFile(file, log_date);
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} else {
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if (date_time) {
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addFile(file, current_time + " " + date_to_add);
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} else {
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addFile(file, date_to_add);
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}
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}
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}
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