/* * Used to draw clock overlays over the strip */ void initCronixie() { if (overlayCurrent == 3 && !cronixieInit) { strip.driverModeCronixie(true); strip.setCronixieBacklight(cronixieBacklight); setCronixie(); cronixieInit = true; } else if (cronixieInit && overlayCurrent != 3) { strip.driverModeCronixie(false); cronixieInit = false; } } void _nixieDisplay(int num[], uint16_t dur[], uint16_t pausedur[], byte cnt) { strip.setRange(overlayMin, overlayMax, 0); if (num[nixieClockI] >= 0 && !nixiePause) { strip.setIndividual(num[nixieClockI],((uint32_t)white << 24)| ((uint32_t)colT[0] << 16) | ((uint32_t)colT[1] << 8) | colT[2]); strip.unlock(num[nixieClockI]); } if (!nixiePause) { overlayRefreshMs = dur[nixieClockI]; } else { overlayRefreshMs = pausedur[nixieClockI]; } if (pausedur[nixieClockI] > 0 && !nixiePause) { nixiePause = true; } else { if (nixieClockI < cnt -1) { nixieClockI++; } else { nixieClockI = -1; } nixiePause = false; } } void _nixieNumber(int number, int dur) { if (nixieClockI < 0) { DEBUG_PRINT(number); int digitCnt = -1; int digits[4]; digits[3] = number/1000; digits[2] = (number/100)%10; digits[1] = (number/10)%10; digits[0] = number%10; if (number > 999) //four digits { digitCnt = 4; } else if (number > 99) //three digits { digitCnt = 3; } else if (number > 9) //two digits { digitCnt = 2; } else { //single digit digitCnt = 1; } DEBUG_PRINT(" "); for (int i = 0; i < digitCnt; i++) { DEBUG_PRINT(digits[i]); overlayArr[digitCnt-1-i] = digits[i]; overlayDur[digitCnt-1-i] = ((dur/4)*3)/digitCnt; overlayPauseDur[digitCnt-1-i] = 0; } DEBUG_PRINTLN(" "); for (int i = 1; i < digitCnt; i++) { if (overlayArr[i] == overlayArr[i-1]) { overlayPauseDur[i-1] = dur/12; overlayDur[i-1] = overlayDur[i-1]-dur/12; } } for (int i = digitCnt; i < 6; i++) { overlayArr[i] = -1; overlayDur[i] = 0; overlayPauseDur[i] = 0; } overlayPauseDur[5] = dur/4; for (int i = 0; i < 6; i++) { if (overlayArr[i] != -1) { overlayArr[i] = overlayArr[i] + overlayMin; } } for (int i = 0; i <6; i++) { DEBUG_PRINT(overlayArr[i]); DEBUG_PRINT(" "); DEBUG_PRINT(overlayDur[i]); DEBUG_PRINT(" "); DEBUG_PRINT(overlayPauseDur[i]); DEBUG_PRINT(" "); } DEBUG_PRINTLN(" "); nixieClockI = 0; } else { _nixieDisplay(overlayArr, overlayDur, overlayPauseDur, 6); } } void handleOverlays() { if (millis() - overlayRefreshedTime > overlayRefreshMs) { initCronixie(); updateLocalTime(); checkTimers(); switch (overlayCurrent) { case 0: break;//no overlay case 1: _overlayAnalogClock(); break;//2 analog clock case 2: _overlayNixieClock(); break;//nixie 1-digit case 3: _overlayCronixie();//Diamex cronixie clock kit } if (!countdownMode || overlayCurrent < 2) checkCountdown(); //countdown macro activation must work overlayRefreshedTime = millis(); } } void _overlayAnalogClock() { int overlaySize = overlayMax - overlayMin +1; strip.unlockAll(); if (countdownMode) { _overlayAnalogCountdown(); return; } double hourP = ((double)(hour(local)%12))/12; double minuteP = ((double)minute(local))/60; hourP = hourP + minuteP/12; double secondP = ((double)second(local))/60; int hourPixel = floor(analogClock12pixel + overlaySize*hourP); if (hourPixel > overlayMax) hourPixel = overlayMin -1 + hourPixel - overlayMax; int minutePixel = floor(analogClock12pixel + overlaySize*minuteP); if (minutePixel > overlayMax) minutePixel = overlayMin -1 + minutePixel - overlayMax; int secondPixel = floor(analogClock12pixel + overlaySize*secondP); if (secondPixel > overlayMax) secondPixel = overlayMin -1 + secondPixel - overlayMax; if (analogClockSecondsTrail) { if (secondPixel < analogClock12pixel) { strip.setRange(analogClock12pixel, overlayMax, 0xFF0000); strip.setRange(overlayMin, secondPixel, 0xFF0000); } else { strip.setRange(analogClock12pixel, secondPixel, 0xFF0000); } } if (analogClock5MinuteMarks) { int pix; for (int i = 0; i <= 12; i++) { pix = analogClock12pixel + round((overlaySize / 12.0) *i); if (pix > overlayMax) pix -= overlaySize; strip.setIndividual(pix, 0x00FFAA); } } if (!analogClockSecondsTrail) strip.setIndividual(secondPixel, 0xFF0000); strip.setIndividual(minutePixel, 0x00FF00); strip.setIndividual(hourPixel, 0x0000FF); overlayRefreshMs = 998; } void _overlayNixieClock() { #ifdef WLED_FLASH_512K_MODE if (countdownMode) checkCountdown(); #else if (countdownMode) { _overlayNixieCountdown(); return; } if (nixieClockI < 0) { overlayArr[0] = hour(local); if (useAMPM) overlayArr[0] = overlayArr[0]%12; overlayArr[1] = -1; if (overlayArr[0] > 9) { overlayArr[1] = overlayArr[0]%10; overlayArr[0] = overlayArr[0]/10; } overlayArr[2] = minute(local); overlayArr[3] = overlayArr[2]%10; overlayArr[2] = overlayArr[2]/10; overlayArr[4] = -1; overlayArr[5] = -1; if (analogClockSecondsTrail) { overlayArr[4] = second(local); overlayArr[5] = overlayArr[4]%10; overlayArr[4] = overlayArr[4]/10; } for (int i = 0; i < 6; i++) { if (overlayArr[i] != -1) { overlayArr[i] = overlayArr[i] + overlayMin; } } overlayDur[0] = 12 + 12*(255 - overlaySpeed); if (overlayArr[1] == overlayArr[0]) { overlayPauseDur[0] = 3 + 3*(255 - overlaySpeed); } else { overlayPauseDur[0] = 0; } if (overlayArr[1] == -1) { overlayDur[1] = 0; } else { overlayDur[1] = 12 + 12*(255 - overlaySpeed); } overlayPauseDur[1] = 9 + 9*(255 - overlaySpeed); overlayDur[2] = 12 + 12*(255 - overlaySpeed); if (overlayArr[2] == overlayArr[3]) { overlayPauseDur[2] = 3 + 3*(255 - overlaySpeed); } else { overlayPauseDur[2] = 0; } overlayDur[3] = 12 + 12*(255 - overlaySpeed); overlayPauseDur[3] = 9 + 9*(255 - overlaySpeed); if (overlayArr[4] == -1) { overlayDur[4] = 0; overlayPauseDur[4] = 0; overlayDur[5] = 0; } else { overlayDur[4] = 12 + 12*(255 - overlaySpeed); if (overlayArr[5] == overlayArr[4]) { overlayPauseDur[4] = 3 + 3*(255 - overlaySpeed); } else { overlayPauseDur[4] = 0; } overlayDur[5] = 12 + 12*(255 - overlaySpeed); } overlayPauseDur[5] = 22 + 22*(255 - overlaySpeed); nixieClockI = 0; } else { _nixieDisplay(overlayArr, overlayDur, overlayPauseDur, 6); } #endif } void _overlayAnalogCountdown() { strip.unlockAll(); if (now() >= countdownTime) { checkCountdown(); } else { long diff = countdownTime - now(); double pval = 60; if (diff > 31557600L) //display in years if more than 365 days { pval = 315576000L; //10 years } else if (diff > 2592000L) //display in months if more than a month { pval = 31557600L; //1 year } else if (diff > 604800) //display in weeks if more than a week { pval = 2592000L; //1 month } else if (diff > 86400) //display in days if more than 24 hours { pval = 604800; //1 week } else if (diff > 3600) //display in hours if more than 60 minutes { pval = 86400; //1 day } else if (diff > 60) //display in minutes if more than 60 seconds { pval = 3600; //1 hour } int overlaySize = overlayMax - overlayMin +1; double perc = (pval-(double)diff)/pval; if (perc > 1.0) perc = 1.0; byte pixelCnt = perc*overlaySize; if (analogClock12pixel + pixelCnt > overlayMax) { strip.setRange(analogClock12pixel, overlayMax, ((uint32_t)whiteSec << 24)| ((uint32_t)colSec[0] << 16) | ((uint32_t)colSec[1] << 8) | colSec[2]); strip.setRange(overlayMin, overlayMin +pixelCnt -(1+ overlayMax -analogClock12pixel), ((uint32_t)whiteSec << 24)| ((uint32_t)colSec[0] << 16) | ((uint32_t)colSec[1] << 8) | colSec[2]); } else { strip.setRange(analogClock12pixel, analogClock12pixel + pixelCnt, ((uint32_t)whiteSec << 24)| ((uint32_t)colSec[0] << 16) | ((uint32_t)colSec[1] << 8) | colSec[2]); } } overlayRefreshMs = 998; } void _overlayNixieCountdown() { if (now() >= countdownTime) { if (checkCountdown()) { _nixieNumber(2019, 2019); } } else { long diff = countdownTime - now(); if (diff > 86313600L) //display in years if more than 999 days { diff = diff/31557600L; } else if (diff > 3596400) //display in days if more than 999 hours { diff = diff/86400; } else if (diff > 59940) //display in hours if more than 999 minutes { diff = diff/1440; } else if (diff > 999) //display in minutes if more than 999 seconds { diff = diff/60; } _nixieNumber(diff, 800); } overlayRefreshMs = 998; }