#include <Homie.h>  // https://github.com/marvinroger/homie-esp8266
#include <DHT.h>    // https://github.com/adafruit/DHT-sensor-library

#include "DeviceLdr.h"

#define HAS_LDR
#define HAS_LED
#undef HAS_DHT

// HAS_LED
#define PIN_LED_RED D8
#define PIN_LED_GREEN D6
#define PIN_LED_BLUE D7
HomieNode ledNode("led", "rgb");
int led_red = 0;
int led_green = 0;
int led_blue = 0;

// HAS_LDR
#define PIN_LDR A0
DeviceLdr deviceLdr(PIN_LDR);

// HAS_DHT
#define PIN_DHT D4
#define TYPE_DHT DHT22
HomieNode humidityNode("humidity", "humidity");
HomieNode temperatureNode("temperature", "temperature");
HomieNode heatindexNode("heatindex", "heatindex");
const int INTERVAL_DHT = 60;
unsigned long lastSentDHT = 0;
DHT dht(PIN_DHT, TYPE_DHT);
float humidity, temperature;  // raw values from the sensor
float heatindex;              // computed value from the sensor

void setupHandler() {
  #ifdef HAS_LDR
    deviceLdr.setup();
  #endif
  #ifdef HAS_LED
    pinMode(PIN_LED_RED, OUTPUT);
    pinMode(PIN_LED_GREEN, OUTPUT);
    pinMode(PIN_LED_BLUE, OUTPUT);
    analogWrite(PIN_LED_RED, led_red);
    analogWrite(PIN_LED_GREEN, led_green);
    analogWrite(PIN_LED_BLUE, led_blue);
  #endif
  #ifdef HAS_DHT
    dht.begin();
  #endif
}

bool ledOnHandler(String value) {
  if (value == "true") {
    analogWrite(PIN_LED_RED, led_red);
    analogWrite(PIN_LED_GREEN, led_green);
    analogWrite(PIN_LED_BLUE, led_blue);
    Homie.setNodeProperty(ledNode, "on", "true");
    Serial.println("led is on");
  } else if (value == "false") {
    analogWrite(PIN_LED_RED, 0);
    analogWrite(PIN_LED_GREEN, 0);
    analogWrite(PIN_LED_BLUE, 0);
    Homie.setNodeProperty(ledNode, "on", "false");
    Serial.println("led is off");
  } else {
    return false;
  }
  return true;
}

bool ledColorHandler(String message) {
  DynamicJsonBuffer json_inBuffer;
  JsonObject& json_in = json_inBuffer.parseObject(message);
  if (json_in.success()) {
    if (json_in.containsKey("red")) {
      led_red = json_in["red"];
      analogWrite(PIN_LED_RED, led_red);
    }
    if (json_in.containsKey("green")) {
      led_green = json_in["green"];
      analogWrite(PIN_LED_GREEN, led_green);
    }
    if (json_in.containsKey("blue")) {
      led_blue = json_in["blue"];
      analogWrite(PIN_LED_BLUE, led_blue);
    }
  } else {
    Serial.println("parsing of JSON failed");
  }

  DynamicJsonBuffer json_outBuffer;
  JsonObject& json_out = json_outBuffer.createObject();
  json_out["red"] = led_red;
  json_out["green"] = led_green;
  json_out["blue"] = led_blue;
  String response;
  json_out.printTo(response);
  Serial.print("led state: ");
  Serial.println(response);
  Homie.setNodeProperty(ledNode, "color", response);
  return true;
}

// compare float values
bool isEqual(float a, float b, float epsilon=0.001) {
  return fabs(a - b) <= epsilon * fabs(a);
}

void loopHandlerDHT() {
  if (millis() - lastSentDHT >= INTERVAL_DHT * 1000UL || lastSentDHT == 0) {
    float previousHumidity = humidity;
    float previousTemperature = temperature;
    float previousHeatindex = heatindex;
    humidity = dht.readHumidity();        // read humidity as a percent
    temperature = dht.readTemperature();  // read temperature as Celsius
    heatindex = dht.computeHeatIndex(temperature, humidity, false);

    // check if any reads failed and exit early
    if (isnan(humidity) || isnan(temperature)) {
      Serial.println("Failed to read from DHT sensor!");
      return;
    }

    if (!isEqual(humidity, previousHumidity)) {
      Serial.print("humidity: ");
      Serial.println(humidity);
      if (!Homie.setNodeProperty(humidityNode, "value", String(humidity), true)) {
        Serial.println("Sending failed");
      }
    } else {
      Serial.println("humidity unchanged");
    }

    if (!isEqual(temperature, previousTemperature)) {
      Serial.print("temperature: ");
      Serial.println(temperature);
      if (!Homie.setNodeProperty(temperatureNode, "value", String(temperature), true)) {
        Serial.println("Sending failed");
      }
    } else {
      Serial.println("temperature unchanged");
    }

    if (!isEqual(heatindex, previousHeatindex)) {
      Serial.print("heatindex: ");
      Serial.println(heatindex);
      if (!Homie.setNodeProperty(heatindexNode, "value", String(heatindex), true)) {
        Serial.println("Sending failed");
      }
    } else {
      Serial.println("heatindex unchanged");
    }

    lastSentDHT = millis();
  }
}

void loopHandler() {
  #ifdef HAS_LDR
  deviceLdr.loop();
  #endif
  #ifdef HAS_DHT
  loopHandlerDHT();
  #endif
}

void setup() {
  Homie.setFirmware("things", "1.0.0");
  #ifdef HAS_LDR
  deviceLdr.homieRegister();
  #endif
  #ifdef HAS_LED
  ledNode.subscribe("on", ledOnHandler);
  ledNode.subscribe("color", ledColorHandler);
  Homie.registerNode(ledNode);
  #endif
  #ifdef HAS_DHT
  Homie.registerNode(humidityNode);
  Homie.registerNode(temperatureNode);
  Homie.registerNode(heatindexNode);
  #endif
  Homie.setSetupFunction(setupHandler);
  Homie.setLoopFunction(loopHandler);
  Homie.setup();
}

void loop() {
  Homie.loop();
}