#include #include #include #include #include #include "secrets.h" const char* ssid = STASSID; const char* password = STAPSK; const int pinCS = D8; const int numberOfHorizontalDisplays = 8; const int numberOfVerticalDisplays = 1; Max72xxPanel matrix = Max72xxPanel(pinCS, numberOfHorizontalDisplays, numberOfVerticalDisplays); void setup() { // Init Matrix Panel matrix.setIntensity(0); // Use a value between 0 and 15 for brightness for (int i=0; i<8; i++) { matrix.setRotation(i,1); } matrix.fillScreen(LOW); matrix.write(); matrix.setIntensity(analogRead(A0)/64); // set brightness matrix.drawChar(2,0, 'W', HIGH,LOW,1); // W matrix.drawChar(8,0, '-', HIGH,LOW,1); // W- matrix.drawChar(14,0,'L', HIGH,LOW,1); // W-L matrix.drawChar(20,0,'A', HIGH,LOW,1); // W-LA matrix.drawChar(26,0,'N', HIGH,LOW,1); // W-LAN matrix.write(); // Send bitmap to display // Init Wifi WiFi.mode(WIFI_STA); WiFi.begin(ssid, password); while (WiFi.waitForConnectResult() != WL_CONNECTED) { delay(5000); ESP.restart(); } // NTP Init if (esp8266::coreVersionNumeric() >= 20700000) { configTime("CET-1CEST-2,M3.5.0/02,M10.5.0/03", "at.pool.ntp.org"); } else { setenv("TZ", "CET-1CEST-2,M3.5.0/02,M10.5.0/03",1); configTime(0, 0, "at.pool.ntp.org", "time.nist.gov"); } // Display message on OTA update ArduinoOTA.onStart([]() { matrix.fillScreen(LOW); matrix.drawChar(2,0, 'U', HIGH,LOW,1); matrix.drawChar(8,0, 'p', HIGH,LOW,1); matrix.drawChar(14,0,'d', HIGH,LOW,1); matrix.drawChar(20,0,'a', HIGH,LOW,1); matrix.drawChar(26,0,'t', HIGH,LOW,1); matrix.drawChar(32,0,'e', HIGH,LOW,1); // Update matrix.setIntensity(analogRead(A0)/64); matrix.write(); // Send bitmap to display }); // Use dots to indicate the progress of the OTA update ArduinoOTA.onProgress([](unsigned int progress, unsigned int total) { matrix.setIntensity(analogRead(A0)/64); if (progress/(total/100)>25) { matrix.drawChar(38,0,'.', HIGH,LOW,1); matrix.write(); } if (progress/(total/100)>50) { matrix.drawChar(44,0,'.', HIGH,LOW,1); matrix.write(); } if (progress/(total/100)>75) { matrix.drawChar(50,0,'.', HIGH,LOW,1); matrix.write(); } }); // Init OTA ArduinoOTA.begin(); } void loop() { struct tm *timeinfo; // fetch actual time time_t now = time(nullptr); time(&now); timeinfo=localtime(&now); matrix.fillScreen(LOW); // clear LEDs if (timeinfo->tm_year==70) { matrix.drawChar(2,0, 'T', HIGH,LOW,1); // H matrix.drawChar(8,0, 'I', HIGH,LOW,1); // HH matrix.drawChar(14,0,'M', HIGH,LOW,1); // HH: matrix.drawChar(20,0,'E', HIGH,LOW,1); // HH:M } else { // display date on LED panel matrix.drawChar(0,0, (timeinfo->tm_mday)/10?'0'+(timeinfo->tm_mday)/10:' ', HIGH,LOW,1); // day of month, blank if zero matrix.drawChar(6,0, '0'+(timeinfo->tm_mday)%10, HIGH,LOW,1); // day of month matrix.drawChar(11,0,'.', HIGH,LOW,1); // . matrix.drawChar(17,0, '0'+(timeinfo->tm_mon+1)/10, HIGH,LOW,1); // month matrix.drawChar(23,0, '0'+(timeinfo->tm_mon+1)%10, HIGH,LOW,1); // month matrix.drawChar(28,0,'.', HIGH,LOW,1); // display time matrix.drawChar(36,0, (timeinfo->tm_hour)/10?'0'+(timeinfo->tm_hour)/10:' ', HIGH,LOW,1); // hour, blank if zero matrix.drawChar(42,0, '0'+(timeinfo->tm_hour)%10, HIGH,LOW,1); // hour matrix.drawChar(47,0,timeinfo->tm_sec&1?':':' ', HIGH,LOW,1); // blinking : matrix.drawChar(52,0,'0'+(timeinfo->tm_min)/10, HIGH,LOW,1); // minute matrix.drawChar(58,0,'0'+(timeinfo->tm_min)%10, HIGH,LOW,1); // minute } matrix.setIntensity(analogRead(A0)/64); matrix.write(); // Send bitmap to display // Over The Air Update ArduinoOTA.handle(); }