ThatProject/Esp32_Flutter_firebase_DHT/esp32_App/esp32_App.ino

// Wifi
#include <WiFi.h>
#include "FirebaseESP32.h"

#define FIREBASE_HOST "YOUR_FIREBASE_HOST" //Do not include https:// in FIREBASE_HOST
#define FIREBASE_AUTH "YOUR_FIREBASE_AUTH"
#define WIFI_SSID "YOUR_WIFI_SSID"
#define WIFI_PASSWORD "YOUR_WIFI_PASSWORD"

// Define Firebase Data object
FirebaseData firebaseData;

// Root Path
String path = "/ESP32_Device";

// SCREEN, DHT

#include "SPIFFS.h"
#include <JPEGDecoder.h>

#include <Adafruit_GFX.h>
#include <Adafruit_SSD1351.h>
#include <Adafruit_Sensor.h>
#include <DHT.h>
#include <DHT_U.h>

#define DHTPIN 19    
#define DHTTYPE    DHT11

DHT_Unified dht(DHTPIN, DHTTYPE);

uint32_t delayMS;

#define SCREEN_WIDTH 128
#define SCREEN_HEIGHT 128

#define SCLK_PIN 18
#define MOSI_PIN 23
#define DC_PIN   17
#define CS_PIN   5
#define RST_PIN 4

// Color definitions
#define BLACK           0x0000
#define BLUE            0x001F
#define RED             0xF800
#define GREEN           0x07E0
#define CYAN            0x07FF
#define MAGENTA         0xF81F
#define YELLOW          0xFFE0  
#define WHITE           0xFFFF

const String fileTemperature = "/temperature.jpg";
const String fileHumidity = "/humidity.jpg";

Adafruit_SSD1351 tft = Adafruit_SSD1351(SCREEN_WIDTH, SCREEN_HEIGHT, CS_PIN, DC_PIN, MOSI_PIN, SCLK_PIN, RST_PIN);

float prev_temp;
float prev_humidity;

void setup() {
  // put your setup code here, to run once:
  Serial.begin(115200);

  initDrawing();
  initWifi();
  
}

void loop() {

  delay(delayMS);
  
  sensors_event_t event;
  dht.temperature().getEvent(&event);
  if (isnan(event.temperature)) {
    Serial.println(F("Error reading temperature!"));
  }
  else {
    Serial.print(F("Temperature: "));
    Serial.print(event.temperature);
    Serial.println(F("°C"));
    updateTemp(event.temperature);
  }
  // Get humidity event and print its value.
  dht.humidity().getEvent(&event);
  if (isnan(event.relative_humidity)) {
    Serial.println(F("Error reading humidity!"));
  }
  else {
    Serial.print(F("Humidity: "));
    Serial.print(event.relative_humidity);
    Serial.println(F("%"));
    updateHumidity(event.relative_humidity);
  }
}

void updateTemp(float temp){
  if(prev_temp != temp){
    tft.fillRect(64, 0, 128, 64, WHITE);
    tft.setCursor(70, 24);
    tft.setTextColor(BLACK);
    tft.setTextSize(3);
    String tempString = "";
    tempString += (int)temp;
    tempString += "C";
    tft.print(tempString);
    prev_temp = temp;

    Firebase.setDouble(firebaseData, path + "/Temperature/Data", temp);
  }
}

void updateHumidity(float humidity){
  if(prev_humidity != humidity){
    tft.fillRect(64, 64, 128, 128, WHITE);
    tft.setCursor(70, 88);
    tft.setTextColor(BLACK);
    tft.setTextSize(3);
    String humidityString = "";
    humidityString += (int)humidity;
    humidityString += "%";
    tft.print(humidityString);
    prev_humidity = humidity;
    Firebase.setDouble(firebaseData, path + "/Humidity/Data", humidity);
  }
}


void initDrawing(){
  tft.begin();
  tft.fillRect(0,0,128,128,WHITE);
  
  dht.begin();
  
  // Print temperature sensor details.
  sensor_t sensor;
  dht.temperature().getSensor(&sensor);

  // Print humidity sensor details.
  dht.humidity().getSensor(&sensor);
  
  // Set delay between sensor readings based on sensor details.
  delayMS = sensor.min_delay / 1000;

  if(!SPIFFS.begin()){
    while(1) yield();
  }

  drawFSJpeg(fileTemperature.c_str(), 0, 0);
  drawFSJpeg(fileHumidity.c_str(), 0, 64);

  tft.setCursor(72, 24);
  tft.setTextColor(BLACK);
  tft.setTextSize(3);
  tft.print("?");

  tft.setCursor(72, 88);
  tft.setTextColor(BLACK);
  tft.setTextSize(3);
  tft.print("?"); 
}

void initWifi(){
  WiFi.begin(WIFI_SSID, WIFI_PASSWORD);
  Serial.print("Connecting to Wi-Fi");
  while (WiFi.status() != WL_CONNECTED)
  {
    Serial.print(".");
    delay(300);
  }
  Serial.println();
  Serial.print("Connected with IP: ");
  Serial.println(WiFi.localIP());
  Serial.println();

  Firebase.begin(FIREBASE_HOST, FIREBASE_AUTH);
  Firebase.reconnectWiFi(true);
  
  //Set database read timeout to 1 minute (max 15 minutes)
  Firebase.setReadTimeout(firebaseData, 1000 * 60);
  //tiny, small, medium, large and unlimited.
  //Size and its write timeout e.g. tiny (1s), small (10s), medium (30s) and large (60s).
  Firebase.setwriteSizeLimit(firebaseData, "tiny");
}


/*====================================================================================
  This sketch contains support functions to render the Jpeg images.

  Created by Bodmer 15th Jan 2017
  ==================================================================================*/

// Return the minimum of two values a and b
#define minimum(a,b)     (((a) < (b)) ? (a) : (b))

//====================================================================================
//   This function opens the Filing System Jpeg image file and primes the decoder
//====================================================================================
void drawFSJpeg(const char *filename, int xpos, int ypos) {

  Serial.println("=====================================");
  Serial.print("Drawing file: "); Serial.println(filename);
  Serial.println("=====================================");

  // Open the file (the Jpeg decoder library will close it)
  fs::File jpgFile = SPIFFS.open( filename, "r");    // File handle reference for SPIFFS
  //  File jpgFile = SD.open( filename, FILE_READ);  // or, file handle reference for SD library
 
  if ( !jpgFile ) {
    Serial.print("ERROR: File \""); Serial.print(filename); Serial.println ("\" not found!");
    return;
  }

  // To initialise the decoder and provide the file, we can use one of the three following methods:
  //boolean decoded = JpegDec.decodeFsFile(jpgFile); // We can pass the SPIFFS file handle to the decoder,
  //boolean decoded = JpegDec.decodeSdFile(jpgFile); // or we can pass the SD file handle to the decoder,
  boolean decoded = JpegDec.decodeFsFile(filename);  // or we can pass the filename (leading / distinguishes SPIFFS files)
                                                     // The filename can be a String or character array
  if (decoded) {
    // print information about the image to the serial port
    jpegInfo();

    // render the image onto the screen at given coordinates
    jpegRender(xpos, ypos);
  }
  else {
    Serial.println("Jpeg file format not supported!");
  }
}

//====================================================================================
//   Decode and paint onto the TFT screen
//====================================================================================
void jpegRender(int xpos, int ypos) {

  // retrieve infomration about the image
  uint16_t  *pImg;
  uint16_t mcu_w = JpegDec.MCUWidth;
  uint16_t mcu_h = JpegDec.MCUHeight;
  uint32_t max_x = JpegDec.width;
  uint32_t max_y = JpegDec.height;

  // Jpeg images are draw as a set of image block (tiles) called Minimum Coding Units (MCUs)
  // Typically these MCUs are 16x16 pixel blocks
  // Determine the width and height of the right and bottom edge image blocks
  uint32_t min_w = minimum(mcu_w, max_x % mcu_w);
  uint32_t min_h = minimum(mcu_h, max_y % mcu_h);

  // save the current image block size
  uint32_t win_w = mcu_w;
  uint32_t win_h = mcu_h;

  // record the current time so we can measure how long it takes to draw an image
  uint32_t drawTime = millis();

  // save the coordinate of the right and bottom edges to assist image cropping
  // to the screen size
  max_x += xpos;
  max_y += ypos;

  // read each MCU block until there are no more
  while ( JpegDec.read()) {

    // save a pointer to the image block
    pImg = JpegDec.pImage;

    // calculate where the image block should be drawn on the screen
    int mcu_x = JpegDec.MCUx * mcu_w + xpos;
    int mcu_y = JpegDec.MCUy * mcu_h + ypos;

    // check if the image block size needs to be changed for the right edge
    if (mcu_x + mcu_w <= max_x) win_w = mcu_w;
    else win_w = min_w;

    // check if the image block size needs to be changed for the bottom edge
    if (mcu_y + mcu_h <= max_y) win_h = mcu_h;
    else win_h = min_h;

    // copy pixels into a contiguous block
    if (win_w != mcu_w)
    {
      for (int h = 1; h < win_h-1; h++)
      {
        memcpy(pImg + h * win_w, pImg + (h + 1) * mcu_w, win_w << 1);
      }
    }


    // draw image MCU block only if it will fit on the screen
    if ( ( mcu_x + win_w) <= tft.width() && ( mcu_y + win_h) <= tft.height())
    {
      tft.drawRGBBitmap(mcu_x, mcu_y, pImg, win_w, win_h);
    }

    // Stop drawing blocks if the bottom of the screen has been reached,
    // the abort function will close the file
    else if ( ( mcu_y + win_h) >= tft.height()) JpegDec.abort();

  }

  // calculate how long it took to draw the image
  drawTime = millis() - drawTime;

  // print the results to the serial port
  Serial.print  ("Total render time was    : "); Serial.print(drawTime); Serial.println(" ms");
  Serial.println("=====================================");

}

//====================================================================================
//   Send time taken to Serial port
//====================================================================================
void jpegInfo() {
  Serial.println(F("==============="));
  Serial.println(F("JPEG image info"));
  Serial.println(F("==============="));
  Serial.print(F(  "Width      :")); Serial.println(JpegDec.width);
  Serial.print(F(  "Height     :")); Serial.println(JpegDec.height);
  Serial.print(F(  "Components :")); Serial.println(JpegDec.comps);
  Serial.print(F(  "MCU / row  :")); Serial.println(JpegDec.MCUSPerRow);
  Serial.print(F(  "MCU / col  :")); Serial.println(JpegDec.MCUSPerCol);
  Serial.print(F(  "Scan type  :")); Serial.println(JpegDec.scanType);
  Serial.print(F(  "MCU width  :")); Serial.println(JpegDec.MCUWidth);
  Serial.print(F(  "MCU height :")); Serial.println(JpegDec.MCUHeight);
  Serial.println(F("==============="));
}

//====================================================================================
//   Open a Jpeg file and dump it to the Serial port as a C array
//====================================================================================
void createArray(const char *filename) {

  fs::File jpgFile;  // File handle reference for SPIFFS
  //  File jpgFile;  // File handle reference For SD library
  
  if ( !( jpgFile = SPIFFS.open( filename, "r"))) {
    Serial.println(F("JPEG file not found"));
    return;
  }

  uint8_t data;
  byte line_len = 0;
  Serial.println("// Generated by a JPEGDecoder library example sketch:");
  Serial.println("// https://github.com/Bodmer/JPEGDecoder");
  Serial.println("");
  Serial.println("#if defined(__AVR__)");
  Serial.println("  #include <avr/pgmspace.h>");
  Serial.println("#endif");
  Serial.println("");
  Serial.print("const uint8_t ");
  while (*filename != '.') Serial.print(*filename++);
  Serial.println("[] PROGMEM = {"); // PROGMEM added for AVR processors, it is ignored by Due

  while ( jpgFile.available()) {

    data = jpgFile.read();
    Serial.print("0x"); if (abs(data) < 16) Serial.print("0");
    Serial.print(data, HEX); Serial.print(",");// Add value and comma
    line_len++;
    if ( line_len >= 32) {
      line_len = 0;
      Serial.println();
    }

  }

  Serial.println("};\r\n");
  // jpgFile.seek( 0, SeekEnd);
  jpgFile.close();
}
//====================================================================================