#include #include #include #include #include #define DHT11_PIN 7 #define photoL1 A0 #define photoL2 A1 #define photoL3 A2 #define photoL4 A3 #define LED 3 #define button 2 #define buzzer 6 #define circleServoPin 9 #define tiltServoPin 10 #define LED 3//define the pin of LED as D10 BH1750 lightMeter; dht11 DHT; volatile int buttonState; volatile int lightReadL1 = 0; volatile int lightReadL2 = 0; volatile int lightReadL3 = 0; volatile int lightReadL4 = 0; int value; int servoPin = 9;//set the pin of the servo LiquidCrystal_I2C lcd(0x27, 16, 2); Servo circleServo; Servo tiltServo; void setup() { Serial.begin(9600); Serial.println(""); Serial.print("setting up!\n"); Serial.print("init lcd\n"); lcd.init(); lcd.backlight(); lcd.setCursor(0,0); lcd.printstr("setting up!"); //lcd.setCursor(0,1); //lcd.printstr("hey,human!"); pinMode(LED, OUTPUT); //initialize digital pin LED as an output. pinMode(button, INPUT); pinMode(buzzer, OUTPUT); //circleServo.attach(circleServoPin); //tiltServo.attach(tiltServoPin); Serial.print("done setting up!\n"); lcd.clear(); lcd.setCursor(0,0); lcd.printstr("done"); //Intialize the 12C bus Wire.begin(); //On esp8266 you can select SCL and SDA pins using Wire.begin //For Wemos /Lolin D1 Mini Pro and the Ambient Light shield use lightMeter.begin(); Serial.println(F("BH1750 Test begin")); } void loop() { /* delay(300); for (int i = 180; i > 0; i--) { circleServo.write(i); tiltServo.write(i); delay(10); } for (int i = 0; i < 180; i++) { circleServo.write(i); tiltServo.write(i); delay(10); } */ /* servopulse(servoPin, 0);//rotate to 0 degree delay(200);//delay in 1s servopulse(servoPin, 90);//rotate to 90 degrees delay(200); servopulse(servoPin, 180);//rotate to 1800 degrees delay(200); if (lightReadL1 > 300){ digitalWrite(LED, HIGH); } else{ digitalWrite(LED, LOW); } */ int chk; chk = DHT.read(DHT11_PIN); switch (chk) { case DHTLIB_OK: break; case DHTLIB_ERROR_CHECKSUM: Serial.println("[ERR] dht11 checksum"); break; case DHTLIB_ERROR_TIMEOUT: Serial.println("[ERR] dht11 timeout"); break; default: break; } float lux = lightMeter.readLightLevel(); lightReadL1 = analogRead(photoL1); lightReadL2 = analogRead(photoL2); lightReadL3 = analogRead(photoL3); lightReadL4 = analogRead(photoL4); { char buf[40]; char lStr[6]; dtostrf(lux, 4, 2, lStr); // https://forum.arduino.cc/t/sprintf-with-float-values/937562 sprintf(buf, "h: %d%%, t: %dF, l: %s, ", DHT.humidity, CtoF(DHT.temperature), lStr); Serial.print(buf); sprintf(buf, "L1: %d, L2: %d, L3: %d, L4: %d", lightReadL1, lightReadL2, lightReadL3, lightReadL4); Serial.println(buf); lcd.clear(); // the LCD has two rows and 17 columns ... sprintf(buf, "h:%d,t:%d,l:%s", DHT.humidity, CtoF(DHT.temperature), lStr); lcd.setCursor(0,0); lcd.printstr(buf); sprintf(buf, "%d,%d,%d,%d", lightReadL1, lightReadL2, lightReadL3, lightReadL4); lcd.setCursor(0,1); lcd.printstr(buf); } delay(2000); /* { Serial.print("hum: "); Serial.print(DHT.humidity); Serial.print(", temp: "); Serial.print(CtoF(DHT.temperature)); Serial.print(", L1: "); Serial.print(lightReadL1); Serial.print(", L2: "); Serial.print(lightReadL2); Serial.print(", L3: "); Serial.print(lightReadL3); Serial.print(", L4: "); Serial.print(lightReadL4); Serial.print(", lx: "); Serial.println(lux); delay(500); } */ buttonState = digitalRead(button); if(buttonState == 0) { for(value = 0; value < 255; value +1){ analogWrite (LED, value);//LED lights gradually light up } } else { digitalWrite(LED, LOW); value = 0; } } int CtoF(int temp) { return temp * 1.8 + 32; } int FtoC(int temp) { return (temp - 32) * 0.55555; } void blink() { digitalWrite(LED,HIGH); //turn the LED on (HIGH is the voltage level delay(1000); //wait for a second digitalWrite(LED,LOW); //turn the LED off by making the voltage LOW delay(1000); //wait for a second }