kopia lustrzana https://github.com/Aircoookie/WLED
267 wiersze
7.9 KiB
C++
267 wiersze
7.9 KiB
C++
#include "wled.h"
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#include <Arduino.h>
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#include <U8x8lib.h> // from https://github.com/olikraus/u8g2/
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#include <Wire.h>
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#include <BME280I2C.h> //BME280 sensor
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void UpdateBME280Data();
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#define Celsius // Show temperature mesaurement in Celcius otherwise is in Fahrenheit
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BME280I2C bme; // Default : forced mode, standby time = 1000 ms
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// Oversampling = pressure ×1, temperature ×1, humidity ×1, filter off,
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#ifdef ARDUINO_ARCH_ESP32 //ESP32 boards
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uint8_t SCL_PIN = 22;
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uint8_t SDA_PIN = 21;
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#else //ESP8266 boards
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uint8_t SCL_PIN = 5;
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uint8_t SDA_PIN = 4;
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// uint8_t RST_PIN = 16; // Uncoment for Heltec WiFi-Kit-8
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#endif
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//The SCL and SDA pins are defined here.
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//ESP8266 Wemos D1 mini board use SCL=5 SDA=4 while ESP32 Wemos32 mini board use SCL=22 SDA=21
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#define U8X8_PIN_SCL SCL_PIN
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#define U8X8_PIN_SDA SDA_PIN
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//#define U8X8_PIN_RESET RST_PIN // Uncoment for Heltec WiFi-Kit-8
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// If display does not work or looks corrupted check the
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// constructor reference:
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// https://github.com/olikraus/u8g2/wiki/u8x8setupcpp
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// or check the gallery:
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// https://github.com/olikraus/u8g2/wiki/gallery
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// --> First choise of cheap I2C OLED 128X32 0.91"
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U8X8_SSD1306_128X32_UNIVISION_HW_I2C u8x8(U8X8_PIN_NONE, U8X8_PIN_SCL, U8X8_PIN_SDA); // Pins are Reset, SCL, SDA
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// --> Second choise of cheap I2C OLED 128X64 0.96" or 1.3"
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//U8X8_SSD1306_128X64_NONAME_HW_I2C u8x8(U8X8_PIN_NONE, U8X8_PIN_SCL, U8X8_PIN_SDA); // Pins are Reset, SCL, SDA
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// --> Third choise of Heltec WiFi-Kit-8 OLED 128X32 0.91"
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//U8X8_SSD1306_128X32_UNIVISION_HW_I2C u8x8(U8X8_PIN_RESET, U8X8_PIN_SCL, U8X8_PIN_SDA); // Constructor for Heltec WiFi-Kit-8
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// gets called once at boot. Do all initialization that doesn't depend on network here
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// BME280 sensor timer
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long tempTimer = millis();
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long lastMeasure = 0;
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float SensorPressure(NAN);
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float SensorTemperature(NAN);
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float SensorHumidity(NAN);
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void userSetup() {
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u8x8.begin();
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u8x8.setPowerSave(0);
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u8x8.setFlipMode(1);
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u8x8.setContrast(10); //Contrast setup will help to preserve OLED lifetime. In case OLED need to be brighter increase number up to 255
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u8x8.setFont(u8x8_font_chroma48medium8_r);
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u8x8.drawString(0, 0, "Loading...");
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Wire.begin(SDA_PIN,SCL_PIN);
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while(!bme.begin())
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{
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Serial.println("Could not find BME280I2C sensor!");
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delay(1000);
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}
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switch(bme.chipModel())
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{
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case BME280::ChipModel_BME280:
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Serial.println("Found BME280 sensor! Success.");
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break;
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case BME280::ChipModel_BMP280:
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Serial.println("Found BMP280 sensor! No Humidity available.");
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break;
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default:
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Serial.println("Found UNKNOWN sensor! Error!");
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}
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}
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// gets called every time WiFi is (re-)connected. Initialize own network
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// interfaces here
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void userConnected() {}
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// needRedraw marks if redraw is required to prevent often redrawing.
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bool needRedraw = true;
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// Next variables hold the previous known values to determine if redraw is
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// required.
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String knownSsid = "";
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IPAddress knownIp;
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uint8_t knownBrightness = 0;
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uint8_t knownMode = 0;
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uint8_t knownPalette = 0;
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long lastUpdate = 0;
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long lastRedraw = 0;
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bool displayTurnedOff = false;
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// How often we are redrawing screen
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#define USER_LOOP_REFRESH_RATE_MS 5000
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void userLoop() {
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// BME280 sensor MQTT publishing
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tempTimer = millis();
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// Timer to publish new sensor data every 60 seconds
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if (tempTimer - lastMeasure > 60000)
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{
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lastMeasure = tempTimer;
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// Check if MQTT Connected, otherwise it will crash the 8266
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if (mqtt != nullptr)
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{
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UpdateBME280Data();
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float board_temperature = SensorTemperature;
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float board_pressure = SensorPressure;
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float board_humidity = SensorHumidity;
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// Create string populated with user defined device topic from the UI, and the read temperature, humidity and pressure. Then publish to MQTT server.
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String t = String(mqttDeviceTopic);
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t += "/temperature";
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mqtt->publish(t.c_str(), 0, true, String(board_temperature).c_str());
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String p = String(mqttDeviceTopic);
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p += "/pressure";
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mqtt->publish(p.c_str(), 0, true, String(board_pressure).c_str());
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String h = String(mqttDeviceTopic);
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h += "/humidity";
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mqtt->publish(h.c_str(), 0, true, String(board_humidity).c_str());
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}
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}
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// Check if we time interval for redrawing passes.
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if (millis() - lastUpdate < USER_LOOP_REFRESH_RATE_MS) {
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return;
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}
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lastUpdate = millis();
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// Turn off display after 3 minutes with no change.
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if(!displayTurnedOff && millis() - lastRedraw > 3*60*1000) {
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u8x8.setPowerSave(1);
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displayTurnedOff = true;
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}
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// Check if values which are shown on display changed from the last time.
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if (((apActive) ? String(apSSID) : WiFi.SSID()) != knownSsid) {
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needRedraw = true;
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} else if (knownIp != (apActive ? IPAddress(4, 3, 2, 1) : WiFi.localIP())) {
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needRedraw = true;
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} else if (knownBrightness != bri) {
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needRedraw = true;
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} else if (knownMode != strip.getMode()) {
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needRedraw = true;
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} else if (knownPalette != strip.getSegment(0).palette) {
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needRedraw = true;
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}
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if (!needRedraw) {
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return;
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}
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needRedraw = false;
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if (displayTurnedOff)
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{
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u8x8.setPowerSave(0);
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displayTurnedOff = false;
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}
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lastRedraw = millis();
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// Update last known values.
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#if defined(ESP8266)
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knownSsid = apActive ? WiFi.softAPSSID() : WiFi.SSID();
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#else
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knownSsid = WiFi.SSID();
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#endif
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knownIp = apActive ? IPAddress(4, 3, 2, 1) : WiFi.localIP();
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knownBrightness = bri;
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knownMode = strip.getMode();
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knownPalette = strip.getSegment(0).palette;
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u8x8.clear();
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u8x8.setFont(u8x8_font_chroma48medium8_r);
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// First row with Wifi name
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u8x8.setCursor(1, 0);
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u8x8.print(knownSsid.substring(0, u8x8.getCols() > 1 ? u8x8.getCols() - 2 : 0));
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// Print `~` char to indicate that SSID is longer, than owr dicplay
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if (knownSsid.length() > u8x8.getCols())
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u8x8.print("~");
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// Second row with IP or Psssword
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u8x8.setCursor(1, 1);
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// Print password in AP mode and if led is OFF.
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if (apActive && bri == 0)
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u8x8.print(apPass);
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else
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u8x8.print(knownIp);
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// Third row with mode name
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u8x8.setCursor(2, 2);
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uint8_t qComma = 0;
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bool insideQuotes = false;
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uint8_t printedChars = 0;
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char singleJsonSymbol;
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// Find the mode name in JSON
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for (size_t i = 0; i < strlen_P(JSON_mode_names); i++) {
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singleJsonSymbol = pgm_read_byte_near(JSON_mode_names + i);
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switch (singleJsonSymbol) {
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case '"':
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insideQuotes = !insideQuotes;
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break;
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case '[':
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case ']':
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break;
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case ',':
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qComma++;
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default:
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if (!insideQuotes || (qComma != knownMode))
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break;
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u8x8.print(singleJsonSymbol);
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printedChars++;
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}
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if ((qComma > knownMode) || (printedChars > u8x8.getCols() - 2))
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break;
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}
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// Fourth row with palette name
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u8x8.setCursor(2, 3);
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qComma = 0;
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insideQuotes = false;
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printedChars = 0;
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// Looking for palette name in JSON.
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for (size_t i = 0; i < strlen_P(JSON_palette_names); i++) {
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singleJsonSymbol = pgm_read_byte_near(JSON_palette_names + i);
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switch (singleJsonSymbol) {
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case '"':
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insideQuotes = !insideQuotes;
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break;
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case '[':
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case ']':
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break;
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case ',':
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qComma++;
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default:
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if (!insideQuotes || (qComma != knownPalette))
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break;
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u8x8.print(singleJsonSymbol);
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printedChars++;
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}
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if ((qComma > knownMode) || (printedChars > u8x8.getCols() - 2))
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break;
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}
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u8x8.setFont(u8x8_font_open_iconic_embedded_1x1);
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u8x8.drawGlyph(0, 0, 80); // wifi icon
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u8x8.drawGlyph(0, 1, 68); // home icon
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u8x8.setFont(u8x8_font_open_iconic_weather_2x2);
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u8x8.drawGlyph(0, 2, 66 + (bri > 0 ? 3 : 0)); // sun/moon icon
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}
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void UpdateBME280Data() {
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float temp(NAN), hum(NAN), pres(NAN);
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#ifdef Celsius
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BME280::TempUnit tempUnit(BME280::TempUnit_Celsius);
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#else
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BME280::TempUnit tempUnit(BME280::TempUnit_Fahrenheit);
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#endif
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BME280::PresUnit presUnit(BME280::PresUnit_Pa);
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bme.read(pres, temp, hum, tempUnit, presUnit);
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SensorTemperature=temp;
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SensorHumidity=hum;
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SensorPressure=pres;
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}
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