WIP

рабочий код. отображение часов согласно часового пояса MSK на LCD. GPS(19200) и RTC работают.

GPS_RTC_Clock.cpp

@@ -25,6 +25,7 @@ void GPS_RTC_Clock_setup() {
   RTC_setup();
   GPS_setup();
   TZ_setup();
+  Serial.println("DEBUG[GPS_RTC_Clock_setup] done");
 }
 
 void GPS_RTC_Clock_loop() {

GPS_RTC_Clock.ino

@@ -19,26 +19,59 @@
 SoftDMD dmd(2, 1);
 LiquidCrystal_I2C lcd(0x27, 16, 2);
 
-unsigned long tmr_Blink;
-
 char TempBuf[5] = "99.9";  // demo value
 char HumiBuf[3] = "99";    // demo value
 
+bool LCD_Simple_clock;
+
+void RTCtoLCD(bool ClockType = LCD_Simple_clock) {
+    if (millis() < 2000) ClockType = true;
+    else if (!NewSec && !NewMin && !NewHour) return;
+    char Clock[9];
+    char segment[3];
+
+    if (ClockType) {
+      snprintf(Clock, sizeof(Clock), "%.2u:%.2u:%.2u", hour(Loc_t), minute(Loc_t), second(Loc_t));
+      lcd.setCursor(0,0);
+      lcd.print(Clock);
+    } 
+    else if (NewSec) {
+      snprintf(segment, sizeof(segment),"%.2u", second(Loc_t));
+      lcd.setCursor(6, 0);
+      lcd.print(segment);
+    }
+    if (NewMin) {
+      snprintf(segment, sizeof(segment),"%.2u", minute(Loc_t));
+      lcd.setCursor(3, 0);
+      lcd.print(segment);
+    }
+    if (NewHour) {
+      snprintf(segment, sizeof(segment),"%.2u", hour(Loc_t));
+      lcd.setCursor(0, 0);
+      lcd.print(segment);
+    }
+}
+
 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
-  dmd.setBrightness(5);
-  dmd.selectFont(Font_Chrono1);
-  dmd.begin();
-  dmd.clearScreen();
   // LCD
   lcd.init();  // Инициализация дисплея
   lcd.clear();
   lcd.backlight();
-
+  lcd.setCursor(0,0);
+  lcd.print("DEBUG[setup()]");
+  delay(500);
   Serial.begin(19200);                  // = 9600, must be same as GPS for debug
   Serial.println();                    // flush serial
   Serial.println("-Arduino Reboot-");  // debug
+
+  GPS_RTC_Clock_setup();               // first in setup
+  //Matrix_setup();                      // LED display
+  //dmd.setBrightness(5);
+  //dmd.selectFont(Font_Chrono1);
+  //dmd.begin();
+  //dmd.clearScreen();
+  lcd.setCursor(0, 0);
+  lcd.print("                ");
 }
 
 void loop() {            // the loop function runs over and over again forever
@@ -49,18 +82,9 @@ void loop() {            // the loop function runs over and over again forever
 //  }
 
   GPS_RTC_Clock_loop();  // first in loop
-  //PrintSec();
-  //PrintHour();
-  if (NewSec) {
-    RTCtoLCD();
-  }
-}
-
-void RTCtoLCD() {
-    char sz[32];
-    sprintf(sz, "%02d:%02d:%02d ", hour(Loc_t), minute(Loc_t), second(Loc_t));
-    lcd.setCursor(0,0);
-    lcd.print(sz);
+  RTCtoLCD();
+  PrintSec();
+  PrintHour();
 }
 
 void PrintSec() {    // print time if new second
@@ -68,16 +92,16 @@ void PrintSec() {    // print time if new second
     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
+    //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
+    //Serial.print("Time: ");                               // debug
+    //Serial.println(TimeBuf);                              // debug
+    //Print_time_zone(TimeBuf);                             // print to LED Matrix
     PrintMin();
   }
 }
@@ -109,7 +133,7 @@ void PrintMin() {
       snprintf(TextBuf, sizeof(TextBuf), " Err ");
     }
   }
-  Print_date_zone(TextBuf);  // print to LED Matrix
+  //Print_date_zone(TextBuf);  // print to LED Matrix
 
   if (NewMin) {        // print date if new minute
     NewMin = false;    // remove flag, do only once every min
@@ -117,15 +141,15 @@ void PrintMin() {
     // 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
+    //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
+    //Serial.println("bring out the Cuckoo ;-)");  // debug
   }
 }
 

GPS_com.cpp

@@ -12,8 +12,8 @@
 #include "RTC_com.h"  // to set the RTC
 
 #define cfg_pin_GPS_PPS 2;
-#define cfg_pin_GPS_Rx 4;
-#define cfg_pin_GPS_Tx 5;
+//#define cfg_pin_GPS_Rx 4;
+//#define cfg_pin_GPS_Tx 5;
 
 // add the static modifier to limit visibility of these variables to just this file
 static byte GPS_PPS_PIN = cfg_pin_GPS_PPS;  // Pin 2 = NANO INT0, GPS PPS interrupt signal on this Pin
@@ -25,17 +25,19 @@ volatile bool GPS_sec = false;  // flag for GPS-PPS
 
 // set interrupt flag
 void gps_interrupt() {
-  Serial.println("DEBUG[INT] GPS interrupt");
+  //Serial.print("DEBUG[INT] GPS interrupt "); Serial.println(micros());
   GPS_sec = true;
 }
 
 NMEAGPS gps;  // This parses the GPS characters
 gps_fix fix;  // This holds on to the latest values
-//#include <GPSport.h> // use only for soft-serial
-#include <NeoSWSerial.h>
-NeoSWSerial gpsPort(4, 5);
+
+#include <AltSoftSerial.h>
+#include <GPSport.h> // use only for soft-serial
 //#define gpsPort Serial
-#define GPS_PORT_NAME "NeoSWSerial(4, 5)"
+//#define GPS_PORT_NAME "Serial"
+#define GPS_PORT_NAME "AltSoftSerial"
+
 #define DEBUG_PORT Serial
 
 /***** Notice ********************************************
@@ -64,12 +66,12 @@ NeoSWSerial gpsPort(4, 5);
 const long POSIX_Y2K_offset = 946684800;  // = 10957 days = 30 years, NeoTime (GPS) & TimeLib (RTC) library use different Epoch year, 2000 & 1970
 const long offset_28y = 883612800;        // = 10227 days = 28 years, simple test for 2038 bug
 const long offset_26w = 15724800;         // = 182 days = 26 weeks, simple test for timezone
-
+const long offset_135 = 123456;           // = 135 seconds, simple test for timezone
 void GPS_setup() {
   pinMode(GPS_PPS_PIN, INPUT_PULLUP);                                          // enable pullup on interrupt pin
   attachInterrupt(digitalPinToInterrupt(GPS_PPS_PIN), gps_interrupt, RISING);  // 100ms HIGH at start of second
   GPS_sec = false;
-  gpsPort.begin(9600);  // set PC to same baudrate for debug messages
+  gpsPort.begin(19200);  // set PC to same baudrate for debug messages
   GPS_ON();
 }
 
@@ -88,6 +90,7 @@ void GPS_PPS() {  // do something on the flip of the GPS second
       if (gps_seconds_t != 0) {  // do only if value is set
         // gps_seconds_t += offset_28y; // debug & testing only!
         // gps_seconds_t += offset_26w; // debug & testing only!
+        // gps_seconds_t += offset_135;
         SetRTC(gps_seconds_t);  // sync RTC with GPS
         GPS_OFF();
       }
@@ -112,7 +115,7 @@ void GPS_ON() {
   gps_on = true;
   gps_seconds_t = 0;  // make shure GPS serial is alive before setting
   pulse_count = 0;
-  Serial.println("GPS: ON");  // debug  
+  Serial.println("GPS: ON");  // debug
 }
 
 void GPS_OFF() {

LocalDateTime.cpp

@@ -41,8 +41,8 @@
 
 // Central European Time Zone, directive 2000/84/EC [Bruxelles, Paris, Madrid, Roma, Beograd, Warszawa, Stockholm, Berlin]
 // All 3 European timezones change at the same time: 01:00 UTC
-TimeChangeRule mySTD = { "CET ", Last, Sun, Oct, 3, 60 };   // change to UTC + 1 hours
-TimeChangeRule myDST = { "CEST", Last, Sun, Mar, 2, 120 };  // change to UTC + 2 hours
+// TimeChangeRule mySTD = { "CET ", Last, Sun, Oct, 3, 60 };   // change to UTC + 1 hours
+// TimeChangeRule myDST = { "CEST", Last, Sun, Mar, 2, 120 };  // change to UTC + 2 hours
 
 // Eastern European Time Zone [Helsinki, Rīga, Kyiv, Αθήνα]
 //TimeChangeRule mySTD = { "EET ", Last, Sun, Oct, 4, 120 }; // change to UTC + 2 hours
@@ -53,8 +53,8 @@ TimeChangeRule myDST = { "CEST", Last, Sun, Mar, 2, 120 };  // change to UTC + 2
 //TimeChangeRule myDST = { "AEDT", First, Sun, Oct, 2, 660 }; // change to UTC + 11 hours
 
 // Москва Standard Time (MSK, does not observe DST)
-//TimeChangeRule mySTD = {"MSK ", Last, Sun, Oct, 1, 180}; // allways UTC + 3 hours
-//TimeChangeRule myDST = {"MSK ", Last, Sun, Mar, 1, 180}; // allways UTC + 3 hours
+TimeChangeRule mySTD = {"MSK ", Last, Sun, Oct, 1, 180}; // allways UTC + 3 hours
+TimeChangeRule myDST = {"MSK ", Last, Sun, Mar, 1, 180}; // allways UTC + 3 hours
 
 // Universal Time Coordinated [UTC]
 //TimeChangeRule mySTD = {"UTC ", Last, Sun, Oct, 1, 0};

RTC_com.cpp

@@ -26,7 +26,7 @@ volatile bool RTC_sec = false;   // flag for PseudoPPS
 static unsigned long RTCMillis;  // blinking timer
 
 void rtc_interrupt() {
-  Serial.println("DEBUG[INT] RTC interrupt");
+  //Serial.print("DEBUG[INT] RTC interrupt "); Serial.println(micros());
   RTCMillis = millis();
   RTC_sec = true;
 }