kopia lustrzana https://github.com/Aircoookie/WLED
302 wiersze
10 KiB
C++
302 wiersze
10 KiB
C++
#pragma once
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#include "wled.h"
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class UsermodCronixie : public Usermod {
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private:
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unsigned long lastTime = 0;
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char cronixieDisplay[7] = "HHMMSS";
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byte _digitOut[6] = {10,10,10,10,10,10};
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byte dP[6] = {255, 255, 255, 255, 255, 255};
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// set your config variables to their boot default value (this can also be done in readFromConfig() or a constructor if you prefer)
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bool backlight = true;
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public:
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void initCronixie()
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{
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if (dP[0] == 255) // if dP[0] is 255, cronixie is not yet init'ed
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{
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setCronixie();
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strip.getSegment(0).grouping = 10; // 10 LEDs per digit
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}
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}
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void setup() {
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}
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void loop() {
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if (!toki.isTick()) return;
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initCronixie();
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_overlayCronixie();
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strip.trigger();
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}
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byte getSameCodeLength(char code, int index, char const cronixieDisplay[])
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{
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byte counter = 0;
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for (int i = index+1; i < 6; i++)
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{
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if (cronixieDisplay[i] == code)
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{
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counter++;
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} else {
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return counter;
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}
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}
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return counter;
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}
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void setCronixie()
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{
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/*
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* digit purpose index
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* 0-9 | 0-9 (incl. random)
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* 10 | blank
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* 11 | blank, bg off
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* 12 | test upw.
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* 13 | test dnw.
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* 14 | binary AM/PM
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* 15 | BB upper +50 for no trailing 0
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* 16 | BBB
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* 17 | BBBB
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* 18 | BBBBB
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* 19 | BBBBBB
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* 20 | H
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* 21 | HH
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* 22 | HHH
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* 23 | HHHH
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* 24 | M
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* 25 | MM
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* 26 | MMM
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* 27 | MMMM
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* 28 | MMMMM
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* 29 | MMMMMM
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* 30 | S
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* 31 | SS
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* 32 | SSS
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* 33 | SSSS
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* 34 | SSSSS
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* 35 | SSSSSS
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* 36 | Y
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* 37 | YY
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* 38 | YYYY
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* 39 | I
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* 40 | II
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* 41 | W
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* 42 | WW
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* 43 | D
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* 44 | DD
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* 45 | DDD
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* 46 | V
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* 47 | VV
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* 48 | VVV
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* 49 | VVVV
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* 50 | VVVVV
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* 51 | VVVVVV
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* 52 | v
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* 53 | vv
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* 54 | vvv
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* 55 | vvvv
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* 56 | vvvvv
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* 57 | vvvvvv
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*/
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//H HourLower | HH - Hour 24. | AH - Hour 12. | HHH Hour of Month | HHHH Hour of Year
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//M MinuteUpper | MM Minute of Hour | MMM Minute of 12h | MMMM Minute of Day | MMMMM Minute of Month | MMMMMM Minute of Year
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//S SecondUpper | SS Second of Minute | SSS Second of 10 Minute | SSSS Second of Hour | SSSSS Second of Day | SSSSSS Second of Week
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//B AM/PM | BB 0-6/6-12/12-18/18-24 | BBB 0-3... | BBBB 0-1.5... | BBBBB 0-1 | BBBBBB 0-0.5
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//Y YearLower | YY - Year LU | YYYY - Std.
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//I MonthLower | II - Month of Year
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//W Week of Month | WW Week of Year
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//D Day of Week | DD Day Of Month | DDD Day Of Year
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DEBUG_PRINT("cset ");
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DEBUG_PRINTLN(cronixieDisplay);
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for (int i = 0; i < 6; i++)
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{
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dP[i] = 10;
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switch (cronixieDisplay[i])
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{
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case '_': dP[i] = 10; break;
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case '-': dP[i] = 11; break;
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case 'r': dP[i] = random(1,7); break; //random btw. 1-6
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case 'R': dP[i] = random(0,10); break; //random btw. 0-9
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//case 't': break; //Test upw.
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//case 'T': break; //Test dnw.
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case 'b': dP[i] = 14 + getSameCodeLength('b',i,cronixieDisplay); i = i+dP[i]-14; break;
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case 'B': dP[i] = 14 + getSameCodeLength('B',i,cronixieDisplay); i = i+dP[i]-14; break;
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case 'h': dP[i] = 70 + getSameCodeLength('h',i,cronixieDisplay); i = i+dP[i]-70; break;
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case 'H': dP[i] = 20 + getSameCodeLength('H',i,cronixieDisplay); i = i+dP[i]-20; break;
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case 'A': dP[i] = 108; i++; break;
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case 'a': dP[i] = 58; i++; break;
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case 'm': dP[i] = 74 + getSameCodeLength('m',i,cronixieDisplay); i = i+dP[i]-74; break;
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case 'M': dP[i] = 24 + getSameCodeLength('M',i,cronixieDisplay); i = i+dP[i]-24; break;
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case 's': dP[i] = 80 + getSameCodeLength('s',i,cronixieDisplay); i = i+dP[i]-80; break; //refresh more often bc. of secs
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case 'S': dP[i] = 30 + getSameCodeLength('S',i,cronixieDisplay); i = i+dP[i]-30; break;
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case 'Y': dP[i] = 36 + getSameCodeLength('Y',i,cronixieDisplay); i = i+dP[i]-36; break;
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case 'y': dP[i] = 86 + getSameCodeLength('y',i,cronixieDisplay); i = i+dP[i]-86; break;
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case 'I': dP[i] = 39 + getSameCodeLength('I',i,cronixieDisplay); i = i+dP[i]-39; break; //Month. Don't ask me why month and minute both start with M.
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case 'i': dP[i] = 89 + getSameCodeLength('i',i,cronixieDisplay); i = i+dP[i]-89; break;
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//case 'W': break;
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//case 'w': break;
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case 'D': dP[i] = 43 + getSameCodeLength('D',i,cronixieDisplay); i = i+dP[i]-43; break;
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case 'd': dP[i] = 93 + getSameCodeLength('d',i,cronixieDisplay); i = i+dP[i]-93; break;
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case '0': dP[i] = 0; break;
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case '1': dP[i] = 1; break;
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case '2': dP[i] = 2; break;
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case '3': dP[i] = 3; break;
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case '4': dP[i] = 4; break;
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case '5': dP[i] = 5; break;
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case '6': dP[i] = 6; break;
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case '7': dP[i] = 7; break;
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case '8': dP[i] = 8; break;
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case '9': dP[i] = 9; break;
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//case 'V': break; //user var0
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//case 'v': break; //user var1
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}
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}
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DEBUG_PRINT("result ");
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for (int i = 0; i < 5; i++)
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{
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DEBUG_PRINT((int)dP[i]);
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DEBUG_PRINT(" ");
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}
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DEBUG_PRINTLN((int)dP[5]);
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_overlayCronixie(); // refresh
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}
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void _overlayCronixie()
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{
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byte h = hour(localTime);
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byte h0 = h;
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byte m = minute(localTime);
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byte s = second(localTime);
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byte d = day(localTime);
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byte mi = month(localTime);
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int y = year(localTime);
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//this has to be changed in time for 22nd century
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y -= 2000; if (y<0) y += 30; //makes countdown work
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if (useAMPM && !countdownMode)
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{
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if (h>12) h-=12;
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else if (h==0) h+=12;
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}
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for (int i = 0; i < 6; i++)
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{
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if (dP[i] < 12) _digitOut[i] = dP[i];
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else {
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if (dP[i] < 65)
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{
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switch(dP[i])
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{
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case 21: _digitOut[i] = h/10; _digitOut[i+1] = h- _digitOut[i]*10; i++; break; //HH
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case 25: _digitOut[i] = m/10; _digitOut[i+1] = m- _digitOut[i]*10; i++; break; //MM
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case 31: _digitOut[i] = s/10; _digitOut[i+1] = s- _digitOut[i]*10; i++; break; //SS
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case 20: _digitOut[i] = h- (h/10)*10; break; //H
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case 24: _digitOut[i] = m/10; break; //M
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case 30: _digitOut[i] = s/10; break; //S
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case 43: _digitOut[i] = weekday(localTime); _digitOut[i]--; if (_digitOut[i]<1) _digitOut[i]= 7; break; //D
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case 44: _digitOut[i] = d/10; _digitOut[i+1] = d- _digitOut[i]*10; i++; break; //DD
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case 40: _digitOut[i] = mi/10; _digitOut[i+1] = mi- _digitOut[i]*10; i++; break; //II
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case 37: _digitOut[i] = y/10; _digitOut[i+1] = y- _digitOut[i]*10; i++; break; //YY
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case 39: _digitOut[i] = 2; _digitOut[i+1] = 0; _digitOut[i+2] = y/10; _digitOut[i+3] = y- _digitOut[i+2]*10; i+=3; break; //YYYY
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//case 16: _digitOut[i+2] = ((h0/3)&1)?1:0; i++; //BBB (BBBB NI)
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//case 15: _digitOut[i+1] = (h0>17 || (h0>5 && h0<12))?1:0; i++; //BB
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case 14: _digitOut[i] = (h0>11)?1:0; break; //B
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}
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} else
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{
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switch(dP[i])
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{
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case 71: _digitOut[i] = h/10; _digitOut[i+1] = h- _digitOut[i]*10; if(_digitOut[i] == 0) _digitOut[i]=10; i++; break; //hh
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case 75: _digitOut[i] = m/10; _digitOut[i+1] = m- _digitOut[i]*10; if(_digitOut[i] == 0) _digitOut[i]=10; i++; break; //mm
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case 81: _digitOut[i] = s/10; _digitOut[i+1] = s- _digitOut[i]*10; if(_digitOut[i] == 0) _digitOut[i]=10; i++; break; //ss
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//case 66: _digitOut[i+2] = ((h0/3)&1)?1:10; i++; //bbb (bbbb NI)
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//case 65: _digitOut[i+1] = (h0>17 || (h0>5 && h0<12))?1:10; i++; //bb
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case 64: _digitOut[i] = (h0>11)?1:10; break; //b
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case 93: _digitOut[i] = weekday(localTime); _digitOut[i]--; if (_digitOut[i]<1) _digitOut[i]= 7; break; //d
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case 94: _digitOut[i] = d/10; _digitOut[i+1] = d- _digitOut[i]*10; if(_digitOut[i] == 0) _digitOut[i]=10; i++; break; //dd
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case 90: _digitOut[i] = mi/10; _digitOut[i+1] = mi- _digitOut[i]*10; if(_digitOut[i] == 0) _digitOut[i]=10; i++; break; //ii
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case 87: _digitOut[i] = y/10; _digitOut[i+1] = y- _digitOut[i]*10; i++; break; //yy
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case 89: _digitOut[i] = 2; _digitOut[i+1] = 0; _digitOut[i+2] = y/10; _digitOut[i+3] = y- _digitOut[i+2]*10; i+=3; break; //yyyy
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}
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}
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}
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}
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}
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void handleOverlayDraw()
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{
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byte offsets[] = {5, 0, 6, 1, 7, 2, 8, 3, 9, 4};
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for (uint16_t i = 0; i < 6; i++)
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{
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byte o = 10*i;
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byte excl = 10;
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if(_digitOut[i] < 10) excl = offsets[_digitOut[i]];
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excl += o;
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if (backlight && _digitOut[i] <11)
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{
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uint32_t col = gamma32(strip.getSegment(0).colors[1]);
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for (uint16_t j=o; j< o+10; j++) {
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if (j != excl) strip.setPixelColor(j, col);
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}
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} else
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{
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for (uint16_t j=o; j< o+10; j++) {
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if (j != excl) strip.setPixelColor(j, 0);
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}
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}
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}
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}
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void addToJsonState(JsonObject& root)
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{
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root["nx"] = cronixieDisplay;
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}
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void readFromJsonState(JsonObject& root)
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{
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if (root["nx"].is<const char*>()) {
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strncpy(cronixieDisplay, root["nx"], 6);
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setCronixie();
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}
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}
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void addToConfig(JsonObject& root)
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{
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JsonObject top = root.createNestedObject(F("Cronixie"));
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top["backlight"] = backlight;
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}
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bool readFromConfig(JsonObject& root)
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{
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// default settings values could be set here (or below using the 3-argument getJsonValue()) instead of in the class definition or constructor
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// setting them inside readFromConfig() is slightly more robust, handling the rare but plausible use case of single value being missing after boot (e.g. if the cfg.json was manually edited and a value was removed)
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JsonObject top = root[F("Cronixie")];
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bool configComplete = !top.isNull();
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configComplete &= getJsonValue(top["backlight"], backlight);
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return configComplete;
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}
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uint16_t getId()
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{
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return USERMOD_ID_CRONIXIE;
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}
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}; |