Refactoring: created Display class.

2019-01-29 15:25:27 +01:00 · 2019-01-29 15:25:27 +01:00 · 37e8f1bfca
parent 52bfedb2aa
commit 37e8f1bfca
3 changed files with 274 additions and 230 deletions
--- a/src/Display.cpp
+++ b/src/Display.cpp
@ -0,0 +1,198 @@
 #include "Display.h"
 #include <MD_Parola.h>
 #include <MD_MAX72xx.h>
 #include <SPI.h>
 #include "MD_RobotEyes.h"
 #define DISPLAY_CLK_PIN D5
 #define DISPLAY_DATA_PIN D7
 #define DISPLAY_CS_PIN D6
 #define VERTICAL_BAR_STARTS_TOP false
 #define HARDWARE_TYPE MD_MAX72XX::FC16_HW
 #define MAX_DISPLAY_DEVICES 4
 static MD_Parola P = MD_Parola(HARDWARE_TYPE, DISPLAY_DATA_PIN, DISPLAY_CLK_PIN, DISPLAY_CS_PIN, MAX_DISPLAY_DEVICES);
 static MD_RobotEyes E;
 static MD_MAX72XX *graphicDisplay = NULL;
 void Display::begin() {
  int charCode;
 #if VERTICAL_BAR_STARTS_TOP
  static uint8_t verticalBarFont[] = {
    1, 0x00, /* blank */
    1, 0x01, /* 1 dot */
    1, 0x03, /* 2 dots */
    1, 0x07,
    1, 0x0f,
    1, 0x1f,
    1, 0x3f,
    1, 0x7f,
    1, 0xff, /* vertical bar completely set */
  }; // columns from right to left, each byte is a single column
 #else
  static uint8_t verticalBarFont[] = {
    1, 0x00, /* blank */
    1, 0x80, /* 1 dot */
    1, 0xc0, /* 2 dots */
    1, 0xe0,
    1, 0xf0,
    1, 0xf8,
    1, 0xfc,
    1, 0xfe,
    1, 0xff, /* vertical bar completely set */
  }; // columns from right to left, each byte is a single column
 #endif
  static uint8_t newZero[] = {0x05, 0x3e, 0x41, 0x41, 0x41, 0x3e, 0x00};
  P.begin();
  // P.setZoneEffect(0, true, PA_FLIP_LR);
  graphicDisplay = P.getGraphicObject();
  E.begin(graphicDisplay);
  P.setIntensity(1);
  for (charCode=1; charCode<=9; ++charCode) {
    P.addChar(charCode, verticalBarFont+2*(charCode-1));
  }
  // replace the 0 characters, we do not like the "slash"
  P.addChar('0', newZero);
  char intro[] = {':', '-', ')', ' ', 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x00};
  P.print(intro);
 }
 typedef struct
 {
  char name[7];
  MD_RobotEyes::emotion_t e;
  uint16_t timePause;  // in milliseconds
 } sampleItem_t;
 static const sampleItem_t eSeq[] =
 {
  { "Nutral", MD_RobotEyes::E_NEUTRAL, 1000 },
  { "Blink" , MD_RobotEyes::E_BLINK, 1000 },
  { "Wink"  , MD_RobotEyes::E_WINK, 1000 },
  { "Left"  , MD_RobotEyes::E_LOOK_L, 1000 },
  { "Right" , MD_RobotEyes::E_LOOK_R, 1000 },
  { "Up"    , MD_RobotEyes::E_LOOK_U, 1000 },
  { "Down"  , MD_RobotEyes::E_LOOK_D, 1000 },
  { "Angry" , MD_RobotEyes::E_ANGRY, 1000 },
  { "Sad"   , MD_RobotEyes::E_SAD, 1000 },
  { "Evil"  , MD_RobotEyes::E_EVIL, 1000 },
  { "Evil2" , MD_RobotEyes::E_EVIL2, 1000 },
  { "Squint", MD_RobotEyes::E_SQUINT, 1000 },
  { "Dead"  , MD_RobotEyes::E_DEAD, 1000 },
  { "ScanV" , MD_RobotEyes::E_SCAN_UD, 1000 },
  { "ScanH" , MD_RobotEyes::E_SCAN_LR, 1000 },
 };
 #define DISPLAY_ANIM_NAME false
 void Display::loopEyeAnimation() {
  // show startup animation
  boolean animationFinished = false;
  static uint32_t timeStartDelay;
  static uint8_t index = ARRAY_SIZE(eSeq);
  static enum { S_IDLE, S_TEXT, S_ANIM, S_PAUSE } state = S_IDLE;
  animationFinished = E.runAnimation();
  switch (state)
  {
    case S_IDLE:
      index++;
      if (index >= ARRAY_SIZE(eSeq))
        index = 0;
      P.displayClear();
      #if DISPLAY_ANIM_NAME
        E.setText(eSeq[index].name);
      #endif
      state = S_TEXT;
      break;
    case S_TEXT: // wait for the text to finish
      if (animationFinished)  // text animation is finished
      {
        E.setAnimation(eSeq[index].e, true);
        state = S_ANIM;
      }
      break;
    case S_ANIM:  // checking animation is completed
      if (animationFinished)  // animation is finished
      {
        timeStartDelay = millis();
        state = S_PAUSE;
      }
      break;
    case S_PAUSE: // non blocking waiting for a period between animations
      if (millis() - timeStartDelay >= eSeq[index].timePause)
        state = S_IDLE;
      break;
      default:
      state = S_IDLE;
      break;
  }
 }
 void Display::loop() {
  char minuteProgressIndicator;
  char timeBuffer[10];
  minuteProgressIndicator = currentTime->getSeconds()/6.7 + 1; // char code 1-8 show vertical bar
  if (minuteProgressIndicator > 9) minuteProgressIndicator = 9;
  snprintf(timeBuffer, 10, "%c %2d:%02d", minuteProgressIndicator, currentTime->getHours(), currentTime->getMinutes());
  // standard procedure to display
  static uint32_t last_clock_refresh = 0;
  static uint32_t lastTimeClockNameShown = 0;
  static boolean showingClockName = false;
  if (showingClockName) {
    if (millis() - lastTimeClockNameShown > clockNameDurationTime_ms) {
      // stop showingClockName
      showingClockName = false;
    }
  } else {
    if ((millis() - lastTimeClockNameShown > displayClockNameEvery_ms)
        && (currentTime->getSeconds() < 60-doNotShowClockNameBeforeAndAfterMinuteChange_s)
        && (currentTime->getSeconds() > doNotShowClockNameBeforeAndAfterMinuteChange_s)) {
      // re-initialize, that fixes display problems due to electrical relais feedbacks
      reInitializeDisplay();
      P.setIntensity(2);
      P.print(currentTime->getClockName());
      lastTimeClockNameShown = millis();
      showingClockName = true;
    } else {
      // showing clock
      if (millis() - last_clock_refresh > displayRefresh_ms) {
        // re-initialize, that fixes display problems due to electrical relais feedbacks
        reInitializeDisplay();
        P.setIntensity(1);
        P.print(timeBuffer);
        last_clock_refresh = millis();
      }
    }
  }
 }
 void Display::reInitializeDisplay() {
  #define REINIT_AFTER_ms 5000
  #define AVOID_REINIT_BEFORE_AND_AFTER_FULLMINUTE_FOR_s 3
  if (last_reinit_ts == 0) last_reinit_ts = millis();
  if (millis() - last_reinit_ts > REINIT_AFTER_ms
      && currentTime->getSeconds() < 60 - AVOID_REINIT_BEFORE_AND_AFTER_FULLMINUTE_FOR_s
      && currentTime->getSeconds() > AVOID_REINIT_BEFORE_AND_AFTER_FULLMINUTE_FOR_s) {
    P.begin();
    last_reinit_ts = millis();
  }
 }
 void Display::print(const char *s) { P.print(s); }
 void Display::print(const String s) { P.print(s); }
--- a/src/Display.h
+++ b/src/Display.h
@ -0,0 +1,40 @@
 #ifndef DISPLAY_h_included
 #define DISPLAY_h_included
 #include <Arduino.h>
 #include "Clock.h"
 class Display {
 public:
  Display(Clock *real, Clock *model):
    last_reinit_ts(0),
    realTime(real),
    modelTime(model),
    displayClockNameEvery_ms(16000),
    clockNameDurationTime_ms(1200),
    doNotShowClockNameBeforeAndAfterMinuteChange_s(2),
    displayRefresh_ms(200)
  {
    showRealTime();
  };
  void begin();
  void loop();
  void loopEyeAnimation();
  void reInitializeDisplay();
  void showRealTime() { showRealTimeFlag=true; currentTime = realTime; };
  void showModelTime() { showRealTimeFlag=false; currentTime = modelTime; };
  void setClockNameDurationTime_ms(unsigned long val) { clockNameDurationTime_ms=val; };
  void setClockNameDisplayEvery_ms(unsigned long val) { displayClockNameEvery_ms=val; };
  void print(const char *s);
  void print(const String s);
 protected:
  unsigned long last_reinit_ts;
  Clock *realTime, *modelTime, *currentTime;
  boolean showRealTimeFlag;
  unsigned long displayClockNameEvery_ms;
  unsigned long clockNameDurationTime_ms;
  unsigned int doNotShowClockNameBeforeAndAfterMinuteChange_s;
  unsigned long displayRefresh_ms;
 };
 #endif
--- a/src/main.cpp
+++ b/src/main.cpp
@ -4,74 +4,55 @@
 #define COMPDATE __DATE__ __TIME__
 #define APP_VERSION "0.2.18"
 // Button pin on the esp for selecting modes. 0 for Generic devices!
 #define MODEBUTTON D3
 #define RELAY1_PIN D1
 #define RELAY2_PIN D2
 #define DISPLAY_CLK_PIN D5
 #define DISPLAY_DATA_PIN D7
 #define DISPLAY_CS_PIN D6
 #define VERTICAL_BAR_STARTS_TOP false
 #define DEBUG_RELAYS false
 #define DEBUG_DISPLAY false
 #define STARTUP1_ANIMATION_DURATION_ms 2000
 #define STARTUP2_ANIMATION_DURATION_ms 33000
 #include <Arduino.h>
 #include <IOTAppStory.h>
 #include <MD_Parola.h>
 #include <MD_MAX72xx.h>
 #include <SPI.h>
 #include <NTPClient.h>
 #include <ESP8266WiFi.h>
 #include <WiFiUdp.h>
 #include "MD_RobotEyes.h"
 #include <FS.h>
 #include "WebServer.h"
 #include <ESP8266HTTPClient.h>
 #include "Relays.h"
 #include "Clock.h"
 #include "Display.h"
 // Button pin on the esp for selecting modes. 0 for Generic devices!
 #define MODEBUTTON D3
 #define RELAY1_PIN D1
 #define RELAY2_PIN D2
 #define DEBUG_RELAYS false
 #define DEBUG_DISPLAY false
 #define STARTUP1_ANIMATION_DURATION_ms 2000
 #define STARTUP2_ANIMATION_DURATION_ms 33000
 IOTAppStory IAS(COMPDATE, MODEBUTTON);
 String deviceName = "wemosMatrixDisplay";
 String chipId;
 #define HARDWARE_TYPE MD_MAX72XX::FC16_HW
 #define MAX_DISPLAY_DEVICES 4
 Clock realTime("real");
 Clock modelTime("Fremo");
 MD_Parola P = MD_Parola(HARDWARE_TYPE, DISPLAY_DATA_PIN, DISPLAY_CLK_PIN, DISPLAY_CS_PIN, MAX_DISPLAY_DEVICES);
 MD_RobotEyes E;
 Relays R;
 WebServer W(&R, &realTime, &modelTime);
 Display D(&realTime, &modelTime);
 WiFiUDP ntpUDP;
 NTPClient timeClient(ntpUDP, "europe.pool.ntp.org", 3600, 60000);
 #define mkstring(x) #x
 // Field default values
 char *clockName = "FREMO";
 char *clockSpeed_modelMsPerRealSec_String = "250";
-int clockSpeed_modelMsPerRealSec = 250;
+char *relay1Pin_String = mkstring(RELAY1_PIN);
-char *relay1Pin_String = "D1";
+char *relay2Pin_String = mkstring(RELAY2_PIN);
-char *relay2Pin_String = "D2";
+int relay1Pin = RELAY1_PIN, relay2Pin = RELAY2_PIN;
 int relay1Pin = D1, relay2Pin = D2;
 char *relayHoldTime_ms_String = "200";
 char *relayMinOffTime_ms_String = "100";
 unsigned int displayRefresh_ms = 200;
 // Clock Display Config Parameter
 static char * displayClockNameEvery_ms_String = "16000";
 static char * displayClockNameDuration_ms_String = "1200";
 static uint32_t displayClockNameEvery_ms = 16000;
 static uint32_t displayClockNameDuration_ms = 1200;
 static uint16_t doNotShowClockNameBeforeAndAfterMinuteChange_s = 2;
 static uint16_t hours, minutes, seconds;
 static char minuteProgressIndicator;
 static char timeBuffer[10];
 void setupIAS(void) {
  #if defined  ESP8266
@ -100,41 +81,41 @@ void setupIAS(void) {
  IAS.onModeButtonShortPress([]() {
    Serial.println(F(" If mode button is released, I will enter firmware update mode."));
    Serial.println(F("*----------------------------------------------------------------------*"));
-    P.print("|updt");
+    D.print("|updt");
  });
  IAS.onModeButtonLongPress([]() {
    Serial.println(F(" If mode button is released, I will enter configuration mode."));
    Serial.println(F("*----------------------------------------------------------------------*"));
-    P.print("|cfg");
+    D.print("|cfg");
  });
  IAS.onFirstBoot([]() {
    Serial.println(F(" Manual reset necessary after serial upload!"));
    Serial.println(F("*----------------------------------------------------------------------*"));
-    P.print("|rst");
+    D.print("|rst");
    ESP.reset();
  });
  IAS.onConfigMode([]() {
-    P.print(" WiFi");
+    D.print(" WiFi");
    delay(400);
-    P.print(":" + chipId);
+    D.print(":" + chipId);
    Serial.print(F("Entered config mode for Wifi, device=")); Serial.println(chipId);
  });
  IAS.onFirmwareUpdateCheck([]() {
-    // P.print("chk upd");
+    // D.print("chk upd");
    Serial.println(F("Firmware update check"));
  });
  IAS.onFirmwareUpdateDownload([]() {
-    P.print("dl+instl");
+    D.print("dl+instl");
    Serial.println(F("Download and install new firmware"));
  });
  IAS.onFirmwareUpdateError([]() {
-    // P.print("Err fwu");
+    // D.print("Err fwu");
    Serial.println(F("Firmware update error"));
  });
@ -148,71 +129,24 @@ void setupIAS(void) {
  // Please change it to at least 2 hours in production
  IAS.setCallHomeInterval(120);
  IAS.callHome(true /*SPIFFS-check*/);
-  clockSpeed_modelMsPerRealSec = atoi(clockSpeed_modelMsPerRealSec_String);
+  modelTime.setSpeed_modelMsPerRealSecond(atoi(clockSpeed_modelMsPerRealSec_String));
  relay1Pin = IAS.dPinConv(relay1Pin_String);
  relay2Pin = IAS.dPinConv(relay2Pin_String);
  R.setHoldTime_ms(atoi(relayHoldTime_ms_String));
  R.setMinOffTime_ms(atoi(relayMinOffTime_ms_String));
-  displayClockNameEvery_ms = atoi(displayClockNameEvery_ms_String);
+  D.setClockNameDisplayEvery_ms(atoi(displayClockNameEvery_ms_String));
-  displayClockNameDuration_ms = atoi(displayClockNameDuration_ms_String);
+  D.setClockNameDurationTime_ms(atoi(displayClockNameDuration_ms_String));
  Serial.println(F("Configuration used:"));
  Serial.print(F("Relay1 Pin: ")); Serial.println(relay1Pin);
  Serial.print(F("Relay2 Pin: ")); Serial.println(relay2Pin);
  Serial.print(F("Clock speed: ")); Serial.print(clockSpeed_modelMsPerRealSec); Serial.println(F(" model ms per real sec"));
  Serial.print(F("Relay hold time (ms): ")); Serial.println(relayHoldTime_ms_String);
  Serial.print(F("Relay min off time (ms): ")); Serial.println(relayMinOffTime_ms_String);
-  Serial.print(F("Clock speed (model ms per real time s): ")); Serial.println(clockSpeed_modelMsPerRealSec);
+  Serial.print(F("Clock speed (model ms per real time s): ")); Serial.println(clockSpeed_modelMsPerRealSec_String);
-  Serial.print(F("Show clock name every (ms): ")); Serial.println(displayClockNameEvery_ms);
+  Serial.print(F("Show clock name every (ms): ")); Serial.println(displayClockNameEvery_ms_String);
-  Serial.print(F("Show clock name for (ms): ")); Serial.println(displayClockNameDuration_ms);
+  Serial.print(F("Show clock name for (ms): ")); Serial.println(displayClockNameDuration_ms_String);
 }
 static MD_MAX72XX *graphicDisplay = NULL;
 void setupDisplay() {
  int charCode;
 #if VERTICAL_BAR_STARTS_TOP
  static uint8_t verticalBarFont[] = {
    1, 0x00, /* blank */
    1, 0x01, /* 1 dot */
    1, 0x03, /* 2 dots */
    1, 0x07,
    1, 0x0f,
    1, 0x1f,
    1, 0x3f,
    1, 0x7f,
    1, 0xff, /* vertical bar completely set */
  }; // columns from right to left, each byte is a single column
 #else
  static uint8_t verticalBarFont[] = {
    1, 0x00, /* blank */
    1, 0x80, /* 1 dot */
    1, 0xc0, /* 2 dots */
    1, 0xe0,
    1, 0xf0,
    1, 0xf8,
    1, 0xfc,
    1, 0xfe,
    1, 0xff, /* vertical bar completely set */
  }; // columns from right to left, each byte is a single column
 #endif
  static uint8_t newZero[] = {0x05, 0x3e, 0x41, 0x41, 0x41, 0x3e, 0x00};
  P.begin();
  // P.setZoneEffect(0, true, PA_FLIP_LR);
  graphicDisplay = P.getGraphicObject();
  E.begin(graphicDisplay);
  P.setIntensity(1);
  for (charCode=1; charCode<=9; ++charCode) {
    P.addChar(charCode, verticalBarFont+2*(charCode-1));
  }
  char intro[] = {':', '-', ')', ' ', 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x00};
  // replace the 0 characters, we do not like the "slash"
  P.addChar('0', newZero);
  P.print(intro);
 }
 void setupFS() {
  if(!SPIFFS.begin()){
@ -224,7 +158,7 @@ void setupFS() {
 void setup(void)
 {
  Serial.println(F("setup():"));
-  setupDisplay();
+  D.begin();
  setupFS();
  setupIAS();
  W.begin();
@ -240,97 +174,6 @@ static unsigned long lastTimeOutput_ms = 0;
 #define TIME_BETWEEN_REALTIME_UPDATE_ms 60000
 typedef struct
 {
  char name[7];
  MD_RobotEyes::emotion_t e;
  uint16_t timePause;  // in milliseconds
 } sampleItem_t;
 static const sampleItem_t eSeq[] =
 {
  { "Nutral", MD_RobotEyes::E_NEUTRAL, 1000 },
  { "Blink" , MD_RobotEyes::E_BLINK, 1000 },
  { "Wink"  , MD_RobotEyes::E_WINK, 1000 },
  { "Left"  , MD_RobotEyes::E_LOOK_L, 1000 },
  { "Right" , MD_RobotEyes::E_LOOK_R, 1000 },
  { "Up"    , MD_RobotEyes::E_LOOK_U, 1000 },
  { "Down"  , MD_RobotEyes::E_LOOK_D, 1000 },
  { "Angry" , MD_RobotEyes::E_ANGRY, 1000 },
  { "Sad"   , MD_RobotEyes::E_SAD, 1000 },
  { "Evil"  , MD_RobotEyes::E_EVIL, 1000 },
  { "Evil2" , MD_RobotEyes::E_EVIL2, 1000 },
  { "Squint", MD_RobotEyes::E_SQUINT, 1000 },
  { "Dead"  , MD_RobotEyes::E_DEAD, 1000 },
  { "ScanV" , MD_RobotEyes::E_SCAN_UD, 1000 },
  { "ScanH" , MD_RobotEyes::E_SCAN_LR, 1000 },
 };
 #define DISPLAY_ANIM_NAME false
 void loopStartupAnimation() {
  // show startup animation
  boolean animationFinished = false;
  static uint32_t timeStartDelay;
  static uint8_t index = ARRAY_SIZE(eSeq);
  static enum { S_IDLE, S_TEXT, S_ANIM, S_PAUSE } state = S_IDLE;
  animationFinished = E.runAnimation();
  switch (state)
  {
    case S_IDLE:
      index++;
      if (index >= ARRAY_SIZE(eSeq))
        index = 0;
      P.displayClear();
      #if DISPLAY_ANIM_NAME
        E.setText(eSeq[index].name);
      #endif
      state = S_TEXT;
      break;
    case S_TEXT: // wait for the text to finish
      if (animationFinished)  // text animation is finished
      {
        E.setAnimation(eSeq[index].e, true);
        state = S_ANIM;
      }
      break;
    case S_ANIM:  // checking animation is completed
      if (animationFinished)  // animation is finished
      {
        timeStartDelay = millis();
        state = S_PAUSE;
      }
      break;
    case S_PAUSE: // non blocking waiting for a period between animations
      if (millis() - timeStartDelay >= eSeq[index].timePause)
        state = S_IDLE;
      break;
      default:
      state = S_IDLE;
      break;
  }
 }
 void reInitializeDisplay() {
  static unsigned long last_reinit_ts = 0;
  #define REINIT_AFTER_ms 5000
  #define AVOID_REINIT_BEFORE_AND_AFTER_FULLMINUTE_FOR_s 3
  if (last_reinit_ts == 0) last_reinit_ts = millis();
  if (millis() - last_reinit_ts > REINIT_AFTER_ms
      && seconds < 60 - AVOID_REINIT_BEFORE_AND_AFTER_FULLMINUTE_FOR_s
      && seconds > AVOID_REINIT_BEFORE_AND_AFTER_FULLMINUTE_FOR_s) {
    P.begin();
    last_reinit_ts = millis();
  }
 }
 void loop(void)
 {
  static int lastMinutes = 0;
@ -358,59 +201,22 @@ void loop(void)
    return;
  }
  if (millis() < firstLoop_ts + STARTUP1_ANIMATION_DURATION_ms + STARTUP2_ANIMATION_DURATION_ms) {
-    loopStartupAnimation();
+    D.loopEyeAnimation();
    return;
  }
  if (timeClientInitialized) {
-    hours = timeClient.getHours();
+    realTime.setTime(timeClient.getHours(), timeClient.getMinutes(), timeClient.getSeconds());
    minutes = timeClient.getMinutes();
    seconds = timeClient.getSeconds();
  } else {
-    hours = (millis() / 60 * 60 * 1000) % 24;
+    realTime.setTime((millis() / 60 * 60 * 1000) % 24, (millis() / 60 * 1000) % 60, (millis() / 1000) % 60);
    minutes = (millis() / 60 * 1000) % 60;
    seconds = (millis() / 1000) % 60;
  }
  minuteProgressIndicator = seconds/6.7 + 1; // char code 1-8 show vertical bar
  if (minuteProgressIndicator > 9) minuteProgressIndicator = 9;
  snprintf(timeBuffer, 10, "%c %2d:%02d", minuteProgressIndicator, hours, minutes);
-  // standard procedure to display
+  D.loop();
  static uint32_t last_clock_refresh = 0;
  static uint32_t lastTimeClockNameShown = 0;
  static boolean showingClockName = false;
  if (showingClockName) {
    if (millis() - lastTimeClockNameShown > displayClockNameDuration_ms) {
      // stop showingClockName
      showingClockName = false;
    }
  } else {
    if ((millis() - lastTimeClockNameShown > displayClockNameEvery_ms)
        && (seconds < 60-doNotShowClockNameBeforeAndAfterMinuteChange_s)
        && (seconds > doNotShowClockNameBeforeAndAfterMinuteChange_s)) {
      //P.begin(); // re-initialize, that fixes display problems due to electrical relais feedbacks
      reInitializeDisplay();
      P.setIntensity(2);
      P.print(clockName);
      lastTimeClockNameShown = millis();
      showingClockName = true;
    } else {
      // showing clock
      if (millis() - last_clock_refresh > displayRefresh_ms) {
        // P.begin(); // re-initialize, that fixes display problems due to electrical relais feedbacks
        reInitializeDisplay();
        P.setIntensity(1);
        P.print(timeBuffer);
        last_clock_refresh = millis();
      }
    }
  }
  // toggle relays
-  if (lastMinutes != minutes) {
+  if (lastMinutes != realTime.getMinutes()) {
    R.toggle();
-    lastMinutes = minutes;
+    lastMinutes = realTime.getMinutes();
  }
  R.loop();