/* GPS_RTC_Clock MIT License Copyright (c) 2023 hdrlux https://www.instructables.com/01-Sec-Accurate-RTC-GPS-Wall-Clock-Arduino-96x8-LE/ https://github.com/hdrlux/GPS_RTC_Clock */ #include "GPS_RTC_Clock.h" #include "LED_96x8_matrix.h" char TempBuf[5] = "99.9"; // demo value char HumiBuf[3] = "99"; // demo value void setup() { // the setup function runs once when you press reset or power the board GPS_RTC_Clock_setup(); // first in setup Matrix_setup(); // LED display Serial.begin(9600); // = 9600, must be same as GPS for debug Serial.println(); // flush serial Serial.println("-Arduino Reboot-"); // debug } void loop() { // the loop function runs over and over again forever GPS_RTC_Clock_loop(); // first in loop PrintSec(); PrintHour(); } void PrintSec() { // print time if new second if (NewSec) { // NewSec = false; // remove flag, do only once every sec char startmarker = '<'; char endmarker = '>'; Serial.print(startmarker); // for remote display via RS485 Serial.print(Loc_t); // for remote display via RS485 Serial.println(endmarker); // for remote display via RS485 char TimeBuf[9]; // time string buffer, max n-1 char snprintf(TimeBuf, sizeof(TimeBuf), "%.2u:%.2u:%.2u", // https://cplusplus.com/reference/cstdio/printf/ hour(Loc_t), minute(Loc_t), second(Loc_t)); // time 24h format Serial.print("Time: "); // debug Serial.println(TimeBuf); // debug Print_time_zone(TimeBuf); // print to LED Matrix PrintMin(); } } void PrintMin() { char TextBuf[12]; // date string buffer, max n-1 char if (!DIP_Scroll()) { // print date only or 'scrolling' text snprintf(TextBuf, sizeof(TextBuf), "%s %.2u %s", dayShortStrLoc(weekday(Loc_t)), day(Loc_t), monthShortStrLoc(month(Loc_t))); // weekday, day, month } else { // print 'scrolling' /*** HowTo ****************************************************************** print different info every few seconds, because of limited display space define the amount of different text lines, must be at least 1 define the amount of seconds each textline is displayed, must be at least 1 define each text line, this may be duplicates of other text lines *****************************************************************************/ byte text_lines = 3; // amount of different text lines printed byte text_timer = 5; // amount of seconds to next text byte text_counter(((Loc_t / text_timer) % text_lines) + 1); // range = 1..n if (text_counter == 1) { snprintf(TextBuf, sizeof(TextBuf), "%.2u%s%u", day(Loc_t), monthShortStrLoc(month(Loc_t)), year(Loc_t)); // day, month, year } else if (text_counter == 2) { snprintf(TextBuf, sizeof(TextBuf), "%s W%.2u", dayShortStrLoc(weekday(Loc_t)), ISOWeekNumber(Loc_t)); // weekday, week } else if (text_counter == 3) { snprintf(TextBuf, sizeof(TextBuf), "%s*C %s%%", TempBuf, HumiBuf); // * = ° degrees char in fontClock } else { snprintf(TextBuf, sizeof(TextBuf), " Err "); } } Print_date_zone(TextBuf); // print to LED Matrix if (NewMin) { // print date if new minute NewMin = false; // remove flag, do only once every min char DateBuf[21]; // date string buffer, max n-1 char // long date version snprintf(DateBuf, sizeof(DateBuf), "%s %.2u-%s-%u W%.2u", dayShortStrLoc(weekday(Loc_t)), day(Loc_t), monthShortStrLoc(month(Loc_t)), year(Loc_t), ISOWeekNumber(Loc_t)); Serial.print("Date long: "); // debug Serial.println(DateBuf); // debug } } void PrintHour() { // do if new hour if (NewHour) { // NewHour = false; // remove flag, do only once every hour Serial.println("bring out the Cuckoo ;-)"); // debug } } //End