Function definitions in func_declare.h

Significantly reducing number of header files
This commit is contained in:
cschwinne 2020-03-31 02:38:08 +02:00
parent 470b4b3972
commit 6268cadc95
47 changed files with 759 additions and 890 deletions

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@ -2,43 +2,47 @@
### Development versions after 0.9.1 release
#### Build 2003300
- Major change of project structure from .ino to .cpp and func_declare.h
#### Build 2003262
- Fixed compilation for Analog LEDs
- Fixed sync settings network port fields too small
- Fixed compilation for Analog LEDs
- Fixed sync settings network port fields too small
#### Build 2003261
- Fixed live preview not displaying whole light if over 255 LEDs
- Fixed live preview not displaying whole light if over 255 LEDs
#### Build 2003251
- Added Pacifica effect (tentative, doesn't yet support other colors)
- Added Atlantica palette
- Fixed ESP32 build of Espalexa
- Added Pacifica effect (tentative, doesn't yet support other colors)
- Added Atlantica palette
- Fixed ESP32 build of Espalexa
#### Build 2003222
- Fixed Alexa Whites on non-RGBW lights (bump Espalexa to 2.4.5)
- Fixed Alexa Whites on non-RGBW lights (bump Espalexa to 2.4.5)
#### Build 2003221
- Moved Cronixie driver from FX library to drawOverlay handler
- Moved Cronixie driver from FX library to drawOverlay handler
#### Build 2003211
- Added custom mapping compile define to FX_fcn.h
- Merged pull request #784 by @TravisDean: Fixed initialization bug when toggling skip first
- Added link to youtube videos by Room31 to readme
- Added custom mapping compile define to FX_fcn.h
- Merged pull request #784 by @TravisDean: Fixed initialization bug when toggling skip first
- Added link to youtube videos by Room31 to readme
#### Build 2003141
- Fixed color of main segment returned in JSON API during transition not being target color (closes #765)
- Fixed arlsLock() being called after pixels set in E1.31 (closes #772)
- Fixed HTTP API calls not having an effect if no segment selected (now applies to main segment)
- Fixed color of main segment returned in JSON API during transition not being target color (closes #765)
- Fixed arlsLock() being called after pixels set in E1.31 (closes #772)
- Fixed HTTP API calls not having an effect if no segment selected (now applies to main segment)
#### Build 2003121
- Created changelog.md - make tracking changes to code easier
- Merged pull request #766 by @pille: Fix E1.31 out-of sequence detection
- Created changelog.md - make tracking changes to code easier
- Merged pull request #766 by @pille: Fix E1.31 out-of sequence detection

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@ -1,9 +1,13 @@
#include "alexa.h"
#include "wled.h"
#include "const.h"
#include "led.h"
#include "wled_eeprom.h"
#include "colors.h"
/*
* Alexa Voice On/Off/Brightness/Color Control. Emulates a Philips Hue bridge to Alexa.
*
* This was put together from these two excellent projects:
* https://github.com/kakopappa/arduino-esp8266-alexa-wemo-switch
* https://github.com/probonopd/ESP8266HueEmulator
*/
#include "src/dependencies/espalexa/EspalexaDevice.h"
#ifndef WLED_DISABLE_ALEXA
void onAlexaChange(EspalexaDevice* dev);

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#ifndef WLED_ALEXA_H
#define WLED_ALEXA_H
/*
* Alexa Voice On/Off/Brightness Control. Emulates a Philips Hue bridge to Alexa.
*
* This was put together from these two excellent projects:
* https://github.com/kakopappa/arduino-esp8266-alexa-wemo-switch
* https://github.com/probonopd/ESP8266HueEmulator
*/
#include "src/dependencies/espalexa/EspalexaDevice.h"
void onAlexaChange(EspalexaDevice* dev);
void alexaInit();
void handleAlexa();
void onAlexaChange(EspalexaDevice* dev);
#endif // WLED_ALEXA_H

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@ -1,9 +1,9 @@
#include "blynk.h"
#include "const.h"
#include "wled.h"
#include "src/dependencies/blynk/Blynk/BlynkHandlers.h"
#include "led.h"
#include "colors.h"
/*
* Remote light control with the free Blynk app
*/
uint16_t blHue = 0;
byte blSat = 255;

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#ifndef WLED_BLYNK_H
#define WLED_BLYNK_H
#include <Arduino.h>
/*
* Remote light control with the free Blynk app
*/
void initBlynk(const char* auth);
void handleBlynk();
void updateBlynk();
// TODO: Make sure that the macro expansions are handled correctly.
#endif //WLED_BLYNK_H

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@ -1,8 +1,4 @@
#include "button.h"
#include "wled.h"
#include "led.h"
#include "wled_eeprom.h"
#include "set.h"
/*
* Physical IO

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#ifndef WLED_BUTTON_H
#define WLED_BUTTON_H
#include <Arduino.h>
/*
* Physical IO
*/
void shortPressAction();
void handleButton();
void handleIO();
#endif // WLED_BUTTON_H

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@ -1,6 +1,9 @@
#include "colors.h"
#include "wled.h"
/*
* Color conversion methods
*/
void colorFromUint32(uint32_t in, bool secondary)
{
if (secondary) {

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#ifndef WLED_COLORS_H
#define WLED_COLORS_H
#include <Arduino.h>
/*
* Color conversion methods
*/
void colorFromUint32(uint32_t in, bool secondary = false);
void colorFromUint24(uint32_t in, bool secondary = false);
void relativeChangeWhite(int8_t amount, byte lowerBoundary = 0);
void colorHStoRGB(uint16_t hue, byte sat, byte* rgb); //hue, sat to rgb
void colorCTtoRGB(uint16_t mired, byte* rgb); //white spectrum to rgb
void colorXYtoRGB(float x, float y, byte* rgb); // only defined if huesync disabled TODO
void colorRGBtoXY(byte* rgb, float* xy); // only defined if huesync disabled TODO
void colorFromDecOrHexString(byte* rgb, char* in);
void colorRGBtoRGBW(byte* rgb); //rgb to rgbw (http://codewelt.com/rgbw). (RGBW_MODE_LEGACY)
#endif //WLED_COLORS_H

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@ -1,5 +1,5 @@
#ifndef wled_const_h
#define wled_const_h
#ifndef WLED_CONST_H
#define WLED_CONST_H
//Defaults
#define DEFAULT_CLIENT_SSID "Your_Network"
@ -72,4 +72,7 @@
#define HUE_ERROR_TIMEOUT 251
#define HUE_ERROR_ACTIVE 255
//EEPROM size
#define EEPSIZE 2560 //Maximum is 4096
#endif

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@ -1,243 +0,0 @@
#include "cronixie.h"
#include "wled.h"
#ifndef WLED_DISABLE_CRONIXIE
byte _digitOut[6] = {10,10,10,10,10,10};
byte getSameCodeLength(char code, int index, char const cronixieDisplay[])
{
byte counter = 0;
for (int i = index+1; i < 6; i++)
{
if (cronixieDisplay[i] == code)
{
counter++;
} else {
return counter;
}
}
return counter;
}
void setCronixie()
{
/*
* digit purpose index
* 0-9 | 0-9 (incl. random)
* 10 | blank
* 11 | blank, bg off
* 12 | test upw.
* 13 | test dnw.
* 14 | binary AM/PM
* 15 | BB upper +50 for no trailing 0
* 16 | BBB
* 17 | BBBB
* 18 | BBBBB
* 19 | BBBBBB
* 20 | H
* 21 | HH
* 22 | HHH
* 23 | HHHH
* 24 | M
* 25 | MM
* 26 | MMM
* 27 | MMMM
* 28 | MMMMM
* 29 | MMMMMM
* 30 | S
* 31 | SS
* 32 | SSS
* 33 | SSSS
* 34 | SSSSS
* 35 | SSSSSS
* 36 | Y
* 37 | YY
* 38 | YYYY
* 39 | I
* 40 | II
* 41 | W
* 42 | WW
* 43 | D
* 44 | DD
* 45 | DDD
* 46 | V
* 47 | VV
* 48 | VVV
* 49 | VVVV
* 50 | VVVVV
* 51 | VVVVVV
* 52 | v
* 53 | vv
* 54 | vvv
* 55 | vvvv
* 56 | vvvvv
* 57 | vvvvvv
*/
//H HourLower | HH - Hour 24. | AH - Hour 12. | HHH Hour of Month | HHHH Hour of Year
//M MinuteUpper | MM Minute of Hour | MMM Minute of 12h | MMMM Minute of Day | MMMMM Minute of Month | MMMMMM Minute of Year
//S SecondUpper | SS Second of Minute | SSS Second of 10 Minute | SSSS Second of Hour | SSSSS Second of Day | SSSSSS Second of Week
//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
//Y YearLower | YY - Year LU | YYYY - Std.
//I MonthLower | II - Month of Year
//W Week of Month | WW Week of Year
//D Day of Week | DD Day Of Month | DDD Day Of Year
DEBUG_PRINT("cset ");
DEBUG_PRINTLN(cronixieDisplay);
overlayRefreshMs = 1997; //Only refresh every 2secs if no seconds are displayed
for (int i = 0; i < 6; i++)
{
dP[i] = 10;
switch (cronixieDisplay[i])
{
case '_': dP[i] = 10; break;
case '-': dP[i] = 11; break;
case 'r': dP[i] = random(1,7); break; //random btw. 1-6
case 'R': dP[i] = random(0,10); break; //random btw. 0-9
//case 't': break; //Test upw.
//case 'T': break; //Test dnw.
case 'b': dP[i] = 14 + getSameCodeLength('b',i,cronixieDisplay); i = i+dP[i]-14; break;
case 'B': dP[i] = 14 + getSameCodeLength('B',i,cronixieDisplay); i = i+dP[i]-14; break;
case 'h': dP[i] = 70 + getSameCodeLength('h',i,cronixieDisplay); i = i+dP[i]-70; break;
case 'H': dP[i] = 20 + getSameCodeLength('H',i,cronixieDisplay); i = i+dP[i]-20; break;
case 'A': dP[i] = 108; i++; break;
case 'a': dP[i] = 58; i++; break;
case 'm': dP[i] = 74 + getSameCodeLength('m',i,cronixieDisplay); i = i+dP[i]-74; break;
case 'M': dP[i] = 24 + getSameCodeLength('M',i,cronixieDisplay); i = i+dP[i]-24; break;
case 's': dP[i] = 80 + getSameCodeLength('s',i,cronixieDisplay); i = i+dP[i]-80; overlayRefreshMs = 497; break; //refresh more often bc. of secs
case 'S': dP[i] = 30 + getSameCodeLength('S',i,cronixieDisplay); i = i+dP[i]-30; overlayRefreshMs = 497; break;
case 'Y': dP[i] = 36 + getSameCodeLength('Y',i,cronixieDisplay); i = i+dP[i]-36; break;
case 'y': dP[i] = 86 + getSameCodeLength('y',i,cronixieDisplay); i = i+dP[i]-86; break;
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.
case 'i': dP[i] = 89 + getSameCodeLength('i',i,cronixieDisplay); i = i+dP[i]-89; break;
//case 'W': break;
//case 'w': break;
case 'D': dP[i] = 43 + getSameCodeLength('D',i,cronixieDisplay); i = i+dP[i]-43; break;
case 'd': dP[i] = 93 + getSameCodeLength('d',i,cronixieDisplay); i = i+dP[i]-93; break;
case '0': dP[i] = 0; break;
case '1': dP[i] = 1; break;
case '2': dP[i] = 2; break;
case '3': dP[i] = 3; break;
case '4': dP[i] = 4; break;
case '5': dP[i] = 5; break;
case '6': dP[i] = 6; break;
case '7': dP[i] = 7; break;
case '8': dP[i] = 8; break;
case '9': dP[i] = 9; break;
//case 'V': break; //user var0
//case 'v': break; //user var1
}
}
DEBUG_PRINT("result ");
for (int i = 0; i < 5; i++)
{
DEBUG_PRINT((int)dP[i]);
DEBUG_PRINT(" ");
}
DEBUG_PRINTLN((int)dP[5]);
_overlayCronixie(); //refresh
}
void _overlayCronixie()
{
byte h = hour(local);
byte h0 = h;
byte m = minute(local);
byte s = second(local);
byte d = day(local);
byte mi = month(local);
int y = year(local);
//this has to be changed in time for 22nd century
y -= 2000; if (y<0) y += 30; //makes countdown work
if (useAMPM && !countdownMode)
{
if (h>12) h-=12;
else if (h==0) h+=12;
}
for (int i = 0; i < 6; i++)
{
if (dP[i] < 12) _digitOut[i] = dP[i];
else {
if (dP[i] < 65)
{
switch(dP[i])
{
case 21: _digitOut[i] = h/10; _digitOut[i+1] = h- _digitOut[i]*10; i++; break; //HH
case 25: _digitOut[i] = m/10; _digitOut[i+1] = m- _digitOut[i]*10; i++; break; //MM
case 31: _digitOut[i] = s/10; _digitOut[i+1] = s- _digitOut[i]*10; i++; break; //SS
case 20: _digitOut[i] = h- (h/10)*10; break; //H
case 24: _digitOut[i] = m/10; break; //M
case 30: _digitOut[i] = s/10; break; //S
case 43: _digitOut[i] = weekday(local); _digitOut[i]--; if (_digitOut[i]<1) _digitOut[i]= 7; break; //D
case 44: _digitOut[i] = d/10; _digitOut[i+1] = d- _digitOut[i]*10; i++; break; //DD
case 40: _digitOut[i] = mi/10; _digitOut[i+1] = mi- _digitOut[i]*10; i++; break; //II
case 37: _digitOut[i] = y/10; _digitOut[i+1] = y- _digitOut[i]*10; i++; break; //YY
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
//case 16: _digitOut[i+2] = ((h0/3)&1)?1:0; i++; //BBB (BBBB NI)
//case 15: _digitOut[i+1] = (h0>17 || (h0>5 && h0<12))?1:0; i++; //BB
case 14: _digitOut[i] = (h0>11)?1:0; break; //B
}
} else
{
switch(dP[i])
{
case 71: _digitOut[i] = h/10; _digitOut[i+1] = h- _digitOut[i]*10; if(_digitOut[i] == 0) _digitOut[i]=10; i++; break; //hh
case 75: _digitOut[i] = m/10; _digitOut[i+1] = m- _digitOut[i]*10; if(_digitOut[i] == 0) _digitOut[i]=10; i++; break; //mm
case 81: _digitOut[i] = s/10; _digitOut[i+1] = s- _digitOut[i]*10; if(_digitOut[i] == 0) _digitOut[i]=10; i++; break; //ss
//case 66: _digitOut[i+2] = ((h0/3)&1)?1:10; i++; //bbb (bbbb NI)
//case 65: _digitOut[i+1] = (h0>17 || (h0>5 && h0<12))?1:10; i++; //bb
case 64: _digitOut[i] = (h0>11)?1:10; break; //b
case 93: _digitOut[i] = weekday(local); _digitOut[i]--; if (_digitOut[i]<1) _digitOut[i]= 7; break; //d
case 94: _digitOut[i] = d/10; _digitOut[i+1] = d- _digitOut[i]*10; if(_digitOut[i] == 0) _digitOut[i]=10; i++; break; //dd
case 90: _digitOut[i] = mi/10; _digitOut[i+1] = mi- _digitOut[i]*10; if(_digitOut[i] == 0) _digitOut[i]=10; i++; break; //ii
case 87: _digitOut[i] = y/10; _digitOut[i+1] = y- _digitOut[i]*10; i++; break; //yy
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
}
}
}
}
}
void _drawOverlayCronixie()
{
byte offsets[] = {5, 0, 6, 1, 7, 2, 8, 3, 9, 4};
for (uint16_t i = 0; i < 6; i++)
{
byte o = 10*i;
byte excl = 10;
if(_digitOut[i] < 10) excl = offsets[_digitOut[i]];
excl += o;
if (cronixieBacklight && _digitOut[i] <11)
{
uint32_t col = strip.gamma32(strip.getSegment(0).colors[1]);
for (uint16_t j=o; j< o+10; j++) {
if (j != excl) strip.setPixelColor(j, col);
}
} else
{
for (uint16_t j=o; j< o+10; j++) {
if (j != excl) strip.setPixelColor(j, 0);
}
}
}
}
#else // WLED_DISABLE_CRONIXIE
byte getSameCodeLength(char code, int index, char const cronixieDisplay[]) {}
void setCronixie() {}
void _overlayCronixie() {}
void _drawOverlayCronixie() {}
#endif

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#ifndef WLED_CRONIXIE_H
#define WLED_CRONIXIE_H
#include <Arduino.h>
/*
* Support for the Cronixie clock
*/
byte getSameCodeLength(char code, int index, char const cronixieDisplay[]);
void setCronixie();
void _overlayCronixie();
void _drawOverlayCronixie();
#endif // WLED_CRONIXIE_H

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#ifndef WLED_DMX_H
#define WLED_DMX_H
#include "wled.h"
/*
* Support for DMX via MAX485.
* Change the output pin in src/dependencies/ESPDMX.cpp if needed.
@ -61,5 +60,3 @@ void handleDMX()
#else
void handleDMX() {}
#endif
#endif //WLED_DMX_H

144
wled00/e131.cpp Normal file
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#include "wled.h"
/*
* E1.31 handler
*/
void handleE131Packet(e131_packet_t* p, IPAddress clientIP){
//E1.31 protocol support
uint16_t uni = htons(p->universe);
uint8_t previousUniverses = uni - e131Universe;
uint16_t possibleLEDsInCurrentUniverse;
uint16_t dmxChannels = htons(p->property_value_count) -1;
// only listen for universes we're handling & allocated memory
if (uni >= (e131Universe + E131_MAX_UNIVERSE_COUNT)) return;
if (e131SkipOutOfSequence)
if (p->sequence_number < e131LastSequenceNumber[uni-e131Universe] && p->sequence_number > 20 && e131LastSequenceNumber[uni-e131Universe] < 250){
DEBUG_PRINT("skipping E1.31 frame (last seq=");
DEBUG_PRINT(e131LastSequenceNumber[uni-e131Universe]);
DEBUG_PRINT(", current seq=");
DEBUG_PRINT(p->sequence_number);
DEBUG_PRINT(", universe=");
DEBUG_PRINT(uni);
DEBUG_PRINTLN(")");
return;
}
e131LastSequenceNumber[uni-e131Universe] = p->sequence_number;
// update status info
realtimeIP = clientIP;
switch (DMXMode) {
case DMX_MODE_DISABLED:
return; // nothing to do
break;
case DMX_MODE_SINGLE_RGB:
if (uni != e131Universe) return;
if (dmxChannels-DMXAddress+1 < 3) return;
arlsLock(realtimeTimeoutMs, REALTIME_MODE_E131);
for (uint16_t i = 0; i < ledCount; i++)
setRealtimePixel(i, p->property_values[DMXAddress+0], p->property_values[DMXAddress+1], p->property_values[DMXAddress+2], 0);
break;
case DMX_MODE_SINGLE_DRGB:
if (uni != e131Universe) return;
if (dmxChannels-DMXAddress+1 < 4) return;
arlsLock(realtimeTimeoutMs, REALTIME_MODE_E131);
if (DMXOldDimmer != p->property_values[DMXAddress+0]) {
DMXOldDimmer = p->property_values[DMXAddress+0];
bri = p->property_values[DMXAddress+0];
strip.setBrightness(bri);
}
for (uint16_t i = 0; i < ledCount; i++)
setRealtimePixel(i, p->property_values[DMXAddress+1], p->property_values[DMXAddress+2], p->property_values[DMXAddress+3], 0);
break;
case DMX_MODE_EFFECT:
if (uni != e131Universe) return;
if (dmxChannels-DMXAddress+1 < 11) return;
if (DMXOldDimmer != p->property_values[DMXAddress+0]) {
DMXOldDimmer = p->property_values[DMXAddress+0];
bri = p->property_values[DMXAddress+0];
}
if (p->property_values[DMXAddress+1] < MODE_COUNT)
effectCurrent = p->property_values[DMXAddress+ 1];
effectSpeed = p->property_values[DMXAddress+ 2]; // flickers
effectIntensity = p->property_values[DMXAddress+ 3];
effectPalette = p->property_values[DMXAddress+ 4];
col[0] = p->property_values[DMXAddress+ 5];
col[1] = p->property_values[DMXAddress+ 6];
col[2] = p->property_values[DMXAddress+ 7];
colSec[0] = p->property_values[DMXAddress+ 8];
colSec[1] = p->property_values[DMXAddress+ 9];
colSec[2] = p->property_values[DMXAddress+10];
if (dmxChannels-DMXAddress+1 > 11)
{
col[3] = p->property_values[DMXAddress+11]; //white
colSec[3] = p->property_values[DMXAddress+12];
}
transitionDelayTemp = 0; // act fast
colorUpdated(NOTIFIER_CALL_MODE_NOTIFICATION); // don't send UDP
return; // don't activate realtime live mode
break;
case DMX_MODE_MULTIPLE_RGB:
arlsLock(realtimeTimeoutMs, REALTIME_MODE_E131);
if (previousUniverses == 0) {
// first universe of this fixture
possibleLEDsInCurrentUniverse = (dmxChannels - DMXAddress + 1) / 3;
for (uint16_t i = 0; i < ledCount; i++) {
if (i >= possibleLEDsInCurrentUniverse) break; // more LEDs will follow in next universe(s)
setRealtimePixel(i, p->property_values[DMXAddress+i*3+0], p->property_values[DMXAddress+i*3+1], p->property_values[DMXAddress+i*3+2], 0);
}
} else if (previousUniverses > 0 && uni < (e131Universe + E131_MAX_UNIVERSE_COUNT)) {
// additional universe(s) of this fixture
uint16_t numberOfLEDsInPreviousUniverses = ((512 - DMXAddress + 1) / 3); // first universe
if (previousUniverses > 1) numberOfLEDsInPreviousUniverses += (512 / 3) * (previousUniverses - 1); // extended universe(s) before current
possibleLEDsInCurrentUniverse = dmxChannels / 3;
for (uint16_t i = numberOfLEDsInPreviousUniverses; i < ledCount; i++) {
uint8_t j = i - numberOfLEDsInPreviousUniverses;
if (j >= possibleLEDsInCurrentUniverse) break; // more LEDs will follow in next universe(s)
setRealtimePixel(i, p->property_values[j*3+1], p->property_values[j*3+2], p->property_values[j*3+3], 0);
}
}
break;
case DMX_MODE_MULTIPLE_DRGB:
arlsLock(realtimeTimeoutMs, REALTIME_MODE_E131);
if (previousUniverses == 0) {
// first universe of this fixture
if (DMXOldDimmer != p->property_values[DMXAddress+0]) {
DMXOldDimmer = p->property_values[DMXAddress+0];
bri = p->property_values[DMXAddress+0];
strip.setBrightness(bri);
}
possibleLEDsInCurrentUniverse = (dmxChannels - DMXAddress) / 3;
for (uint16_t i = 0; i < ledCount; i++) {
if (i >= possibleLEDsInCurrentUniverse) break; // more LEDs will follow in next universe(s)
setRealtimePixel(i, p->property_values[DMXAddress+i*3+1], p->property_values[DMXAddress+i*3+2], p->property_values[DMXAddress+i*3+3], 0);
}
} else if (previousUniverses > 0 && uni < (e131Universe + E131_MAX_UNIVERSE_COUNT)) {
// additional universe(s) of this fixture
uint16_t numberOfLEDsInPreviousUniverses = ((512 - DMXAddress + 1) / 3); // first universe
if (previousUniverses > 1) numberOfLEDsInPreviousUniverses += (512 / 3) * (previousUniverses - 1); // extended universe(s) before current
possibleLEDsInCurrentUniverse = dmxChannels / 3;
for (uint16_t i = numberOfLEDsInPreviousUniverses; i < ledCount; i++) {
uint8_t j = i - numberOfLEDsInPreviousUniverses;
if (j >= possibleLEDsInCurrentUniverse) break; // more LEDs will follow in next universe(s)
setRealtimePixel(i, p->property_values[j*3+1], p->property_values[j*3+2], p->property_values[j*3+3], 0);
}
}
break;
default:
DEBUG_PRINTLN("unknown E1.31 DMX mode");
return; // nothing to do
break;
}
e131NewData = true;
}

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@ -1,7 +1,8 @@
#include "file.h"
#include "wled.h"
#include "led.h"
#include "notify.h"
/*
* Utility for SPIFFS filesystem
*/
//filesystem
#ifndef WLED_DISABLE_FILESYSTEM
@ -12,85 +13,6 @@
#include "SPIFFSEditor.h"
#endif
enum class AdaState {
Header_A,
Header_d,
Header_a,
Header_CountHi,
Header_CountLo,
Header_CountCheck,
Data_Red,
Data_Green,
Data_Blue
};
// Maybe Adalight should not be in filehandling? TODO
void handleSerial()
{
#ifdef WLED_ENABLE_ADALIGHT
static auto state = AdaState::Header_A;
static uint16_t count = 0;
static uint16_t pixel = 0;
static byte check = 0x00;
static byte red = 0x00;
static byte green = 0x00;
while (Serial.available() > 0)
{
yield();
byte next = Serial.read();
switch (state) {
case AdaState::Header_A:
if (next == 'A') state = AdaState::Header_d;
break;
case AdaState::Header_d:
if (next == 'd') state = AdaState::Header_a;
else state = AdaState::Header_A;
break;
case AdaState::Header_a:
if (next == 'a') state = AdaState::Header_CountHi;
else state = AdaState::Header_A;
break;
case AdaState::Header_CountHi:
pixel = 0;
count = next * 0x100;
check = next;
state = AdaState::Header_CountLo;
break;
case AdaState::Header_CountLo:
count += next + 1;
check = check ^ next ^ 0x55;
state = AdaState::Header_CountCheck;
break;
case AdaState::Header_CountCheck:
if (check == next) state = AdaState::Data_Red;
else state = AdaState::Header_A;
break;
case AdaState::Data_Red:
red = next;
state = AdaState::Data_Green;
break;
case AdaState::Data_Green:
green = next;
state = AdaState::Data_Blue;
break;
case AdaState::Data_Blue:
byte blue = next;
setRealtimePixel(pixel++, red, green, blue, 0);
if (--count > 0) state = AdaState::Data_Red;
else {
if (!realtimeMode && bri == 0) strip.setBrightness(briLast);
arlsLock(realtimeTimeoutMs, REALTIME_MODE_ADALIGHT);
strip.show();
state = AdaState::Header_A;
}
break;
}
}
#endif
}
#if !defined WLED_DISABLE_FILESYSTEM && defined WLED_ENABLE_FS_SERVING
//Un-comment any file types you need

View File

@ -1,12 +0,0 @@
#ifndef WLED_FILE_H
#define WLED_FILE_H
#include <Arduino.h>
#include <ESPAsyncWebServer.h>
/*
* Utility for SPIFFS filesystem & Serial console
*/
void handleSerial();
bool handleFileRead(AsyncWebServerRequest*, String path);
#endif // WLED_FILE_H

183
wled00/func_declare.h Normal file
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@ -0,0 +1,183 @@
#ifndef WLED_FUNC_DECLARE_H
#define WLED_FUNC_DECLARE_H
#include <Arduino.h>
#include "src/dependencies/espalexa/EspalexaDevice.h"
#include "src/dependencies/e131/ESPAsyncE131.h"
/*
* All globally accessible functions are declared here
*/
//alexa.cpp
void onAlexaChange(EspalexaDevice* dev);
void alexaInit();
void handleAlexa();
void onAlexaChange(EspalexaDevice* dev);
//blynk.cpp
void initBlynk(const char* auth);
void handleBlynk();
void updateBlynk();
//button.cpp
void shortPressAction();
void handleButton();
void handleIO();
//colors.cpp
void colorFromUint32(uint32_t in, bool secondary = false);
void colorFromUint24(uint32_t in, bool secondary = false);
void relativeChangeWhite(int8_t amount, byte lowerBoundary = 0);
void colorHStoRGB(uint16_t hue, byte sat, byte* rgb); //hue, sat to rgb
void colorCTtoRGB(uint16_t mired, byte* rgb); //white spectrum to rgb
void colorXYtoRGB(float x, float y, byte* rgb); // only defined if huesync disabled TODO
void colorRGBtoXY(byte* rgb, float* xy); // only defined if huesync disabled TODO
void colorFromDecOrHexString(byte* rgb, char* in);
void colorRGBtoRGBW(byte* rgb); //rgb to rgbw (http://codewelt.com/rgbw). (RGBW_MODE_LEGACY)
//e131.cpp
void handleE131Packet(e131_packet_t* p, IPAddress clientIP);
//file.cpp
bool handleFileRead(AsyncWebServerRequest*, String path);
//dmx.cpp
void handleDMX();
//hue.cpp
void handleHue();
void reconnectHue();
void onHueError(void* arg, AsyncClient* client, int8_t error);
void onHueConnect(void* arg, AsyncClient* client);
void sendHuePoll();
void onHueData(void* arg, AsyncClient* client, void *data, size_t len);
//ir.cpp
bool decodeIRCustom(uint32_t code);
void relativeChange(byte* property, int8_t amount, byte lowerBoundary = 0, byte higherBoundary = 0xFF);
void changeEffectSpeed(int8_t amount);
void changeEffectIntensity(int8_t amount);
void decodeIR(uint32_t code);
void decodeIR24(uint32_t code);
void decodeIR24OLD(uint32_t code);
void decodeIR24CT(uint32_t code);
void decodeIR40(uint32_t code);
void decodeIR44(uint32_t code);
void decodeIR21(uint32_t code);
void decodeIR6(uint32_t code);
void initIR();
void handleIR();
//json.cpp
#include "ESPAsyncWebServer.h"
#include "src/dependencies/json/ArduinoJson-v6.h"
#include "src/dependencies/json/AsyncJson-v6.h"
#include "FX.h"
// TODO: AsynicWebServerRequest conflict?
void deserializeSegment(JsonObject elem, byte it);
bool deserializeState(JsonObject root);
void serializeSegment(JsonObject& root, WS2812FX::Segment& seg, byte id);
void serializeState(JsonObject root);
void serializeInfo(JsonObject root);
void serveJson(AsyncWebServerRequest* request);
void serveLiveLeds(AsyncWebServerRequest* request);
//led.cpp
void setValuesFromMainSeg();
void resetTimebase();
void toggleOnOff();
void setAllLeds();
void setLedsStandard(bool justColors = false);
bool colorChanged();
void colorUpdated(int callMode);
void updateInterfaces(uint8_t callMode);
void handleTransitions();
void handleNightlight();
//mqtt.cpp
bool initMqtt();
void publishMqtt();
//notify.cpp
void notify(byte callMode, bool followUp=false);
void arlsLock(uint32_t timeoutMs, byte md = REALTIME_MODE_GENERIC);
void handleNotifications();
void setRealtimePixel(uint16_t i, byte r, byte g, byte b, byte w);
//ntp.cpp
void handleNetworkTime();
void sendNTPPacket();
bool checkNTPResponse();
void updateLocalTime();
void getTimeString(char* out);
bool checkCountdown();
void setCountdown();
byte weekdayMondayFirst();
void checkTimers();
//overlay.cpp
void initCronixie();
void handleOverlays();
void handleOverlayDraw();
void _overlayAnalogCountdown();
void _overlayAnalogClock();
byte getSameCodeLength(char code, int index, char const cronixieDisplay[]);
void setCronixie();
void _overlayCronixie();
void _drawOverlayCronixie();
//set.cpp
void _setRandomColor(bool _sec,bool fromButton=false);
bool isAsterisksOnly(const char* str, byte maxLen);
void handleSettingsSet(AsyncWebServerRequest *request, byte subPage);
bool handleSet(AsyncWebServerRequest *request, const String& req);
int getNumVal(const String* req, uint16_t pos);
bool updateVal(const String* req, const char* key, byte* val, byte minv=0, byte maxv=255);
//usermod.cpp
void userSetup();
void userConnected();
void userLoop();
//wled_eeprom.cpp
void commit();
void clearEEPROM();
void writeStringToEEPROM(uint16_t pos, char* str, uint16_t len);
void readStringFromEEPROM(uint16_t pos, char* str, uint16_t len);
void saveSettingsToEEPROM();
void loadSettingsFromEEPROM(bool first);
void savedToPresets();
bool applyPreset(byte index, bool loadBri = true);
void savePreset(byte index, bool persist = true);
void loadMacro(byte index, char* m);
void applyMacro(byte index);
void saveMacro(byte index, String mc, bool persist = true); //only commit on single save, not in settings
//wled_serial.cpp
void handleSerial();
//wled_server.cpp
bool isIp(String str);
bool captivePortal(AsyncWebServerRequest *request);
void initServer();
void serveIndexOrWelcome(AsyncWebServerRequest *request);
void serveIndex(AsyncWebServerRequest* request);
String msgProcessor(const String& var);
void serveMessage(AsyncWebServerRequest* request, uint16_t code, String headl, String subl="", byte optionT=255);
String settingsProcessor(const String& var);
String dmxProcessor(const String& var);
void serveSettings(AsyncWebServerRequest* request);
//xml.cpp
char* XML_response(AsyncWebServerRequest *request, char* dest = nullptr);
char* URL_response(AsyncWebServerRequest *request);
void sappend(char stype, const char* key, int val);
void sappends(char stype, const char* key, char* val);
void getSettingsJS(byte subPage, char* dest);
#endif

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@ -1,9 +1,8 @@
#include "hue.h"
#include "wled.h"
#include "colors.h"
#include "wled_eeprom.h"
#include "notify.h"
#include "led.h"
/*
* Sync to Philips hue lights
*/
#ifndef WLED_DISABLE_HUESYNC

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@ -1,16 +0,0 @@
#ifndef WLED_HUE_H
#define WLED_HUE_H
/*
* Sync to Philips hue lights
*/
#include <Arduino.h>
class AsyncClient;
void handleHue();
void reconnectHue();
void onHueError(void* arg, AsyncClient* client, int8_t error);
void onHueConnect(void* arg, AsyncClient* client);
void sendHuePoll();
void onHueData(void* arg, AsyncClient* client, void *data, size_t len);
#endif //WLED_HUE_H

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@ -1,8 +1,8 @@
#include "ir.h"
#include "wled.h"
#include "led.h"
#include "colors.h"
#include "wled_eeprom.h"
/*
* Infrared sensor support for generic 24/40/44 key RGB remotes
*/
#if defined(WLED_DISABLE_INFRARED)
void handleIR(){}

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@ -1,24 +0,0 @@
#ifndef WLED_IR_H
#define WLED_IR_H
#include <Arduino.h>
/*
* Infrared sensor support for generic 24/40/44 key RGB remotes
*/
bool decodeIRCustom(uint32_t code);
void relativeChange(byte* property, int8_t amount, byte lowerBoundary = 0, byte higherBoundary = 0xFF);
void changeEffectSpeed(int8_t amount);
void changeEffectIntensity(int8_t amount);
void decodeIR(uint32_t code);
void decodeIR24(uint32_t code);
void decodeIR24OLD(uint32_t code);
void decodeIR24CT(uint32_t code);
void decodeIR40(uint32_t code);
void decodeIR44(uint32_t code);
void decodeIR21(uint32_t code);
void decodeIR6(uint32_t code);
void initIR();
void handleIR();
#endif //WLED_IR_H

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@ -1,7 +1,8 @@
#include "json.h"
#include "wled.h"
#include "wled_eeprom.h"
#include "led.h"
/*
* JSON API (De)serialization
*/
void deserializeSegment(JsonObject elem, byte it)
{

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@ -1,21 +0,0 @@
#ifndef WLED_JSON_H
#define WLED_JSON_H
/*
* JSON API (De)serialization
*/
#include <Arduino.h>
#include "ESPAsyncWebServer.h"
#include "src/dependencies/json/ArduinoJson-v6.h"
#include "src/dependencies/json/AsyncJson-v6.h"
#include "fx.h"
// TODO: AsynicWebServerRequest conflict?
void deserializeSegment(JsonObject elem, byte it);
bool deserializeState(JsonObject root);
void serializeSegment(JsonObject& root, WS2812FX::Segment& seg, byte id);
void serializeState(JsonObject root);
void serializeInfo(JsonObject root);
void serveJson(AsyncWebServerRequest* request);
void serveLiveLeds(AsyncWebServerRequest* request);
#endif //WLED_JSON_H

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@ -1,10 +1,8 @@
#include "led.h"
#include "wled.h"
#include "notify.h"
#include "blynk.h"
#include "wled_eeprom.h"
#include "mqtt.h"
#include "colors.h"
/*
* LED methods
*/
void setValuesFromMainSeg()
{

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@ -1,19 +0,0 @@
#ifndef WLED_LED_H
#define WLED_LED_H
#include <Arduino.h>
/*
* LED methods
*/
void setValuesFromMainSeg();
void resetTimebase();
void toggleOnOff();
void setAllLeds();
void setLedsStandard(bool justColors = false);
bool colorChanged();
void colorUpdated(int callMode);
void updateInterfaces(uint8_t callMode);
void handleTransitions();
void handleNightlight();
#endif

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@ -1,10 +1,8 @@
#include "mqtt.h"
#include "wled.h"
#include "notify.h"
#include "led.h"
#include "colors.h"
#include "xml.h"
#include "set.h"
/*
* MQTT communication protocol for home automation
*/
#ifdef WLED_ENABLE_MQTT
#define MQTT_KEEP_ALIVE_TIME 60 // contact the MQTT broker every 60 seconds

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@ -1,9 +0,0 @@
#ifndef WLED_MQTT_H
#define WLED_MQTT_H
/*
* MQTT communication protocol for home automation
*/
bool initMqtt();
void publishMqtt();
#endif //WLED_MQTT_H

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@ -1,18 +0,0 @@
#ifndef WLED_NOTIFY_H
#define WLED_NOTIFY_H
#include <Arduino.h>
#include "src/dependencies/e131/ESPAsyncE131.h"
#include "const.h"
/*
* UDP notifier
*/
//union e131_packet_t; // Will this compile?
class IPAddress;
void notify(byte callMode, bool followUp=false);
void arlsLock(uint32_t timeoutMs, byte md = REALTIME_MODE_GENERIC);
void handleE131Packet(e131_packet_t* p, IPAddress clientIP);
void handleNotifications();
void setRealtimePixel(uint16_t i, byte r, byte g, byte b, byte w);
#endif // WLED_NOTIFY_H

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@ -1,7 +1,9 @@
#include "ntp.h"
#include "src/dependencies/timezone/Timezone.h"
#include "wled.h"
#include "wled_eeprom.h"
/*
* Acquires time from NTP server
*/
TimeChangeRule UTCr = {Last, Sun, Mar, 1, 0}; // UTC
Timezone tzUTC(UTCr, UTCr);

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@ -1,18 +0,0 @@
#ifndef WLED_NTP_H
#define WLED_NTP_H
#include <Arduino.h>
/*
* Acquires time from NTP server
*/
void handleNetworkTime();
void sendNTPPacket();
bool checkNTPResponse();
void updateLocalTime();
void getTimeString(char* out);
bool checkCountdown();
void setCountdown();
byte weekdayMondayFirst();
void checkTimers();
#endif // WLED_NTP_H

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@ -1,7 +1,8 @@
#include "overlay.h"
#include "wled.h"
#include "cronixie.h"
#include "ntp.h"
/*
* Used to draw clock overlays over the strip
*/
void initCronixie()
{
@ -127,3 +128,249 @@ void handleOverlayDraw() {
case 3: _drawOverlayCronixie(); break;
}
}
/*
* Support for the Cronixie clock
*/
#ifndef WLED_DISABLE_CRONIXIE
byte _digitOut[6] = {10,10,10,10,10,10};
byte getSameCodeLength(char code, int index, char const cronixieDisplay[])
{
byte counter = 0;
for (int i = index+1; i < 6; i++)
{
if (cronixieDisplay[i] == code)
{
counter++;
} else {
return counter;
}
}
return counter;
}
void setCronixie()
{
/*
* digit purpose index
* 0-9 | 0-9 (incl. random)
* 10 | blank
* 11 | blank, bg off
* 12 | test upw.
* 13 | test dnw.
* 14 | binary AM/PM
* 15 | BB upper +50 for no trailing 0
* 16 | BBB
* 17 | BBBB
* 18 | BBBBB
* 19 | BBBBBB
* 20 | H
* 21 | HH
* 22 | HHH
* 23 | HHHH
* 24 | M
* 25 | MM
* 26 | MMM
* 27 | MMMM
* 28 | MMMMM
* 29 | MMMMMM
* 30 | S
* 31 | SS
* 32 | SSS
* 33 | SSSS
* 34 | SSSSS
* 35 | SSSSSS
* 36 | Y
* 37 | YY
* 38 | YYYY
* 39 | I
* 40 | II
* 41 | W
* 42 | WW
* 43 | D
* 44 | DD
* 45 | DDD
* 46 | V
* 47 | VV
* 48 | VVV
* 49 | VVVV
* 50 | VVVVV
* 51 | VVVVVV
* 52 | v
* 53 | vv
* 54 | vvv
* 55 | vvvv
* 56 | vvvvv
* 57 | vvvvvv
*/
//H HourLower | HH - Hour 24. | AH - Hour 12. | HHH Hour of Month | HHHH Hour of Year
//M MinuteUpper | MM Minute of Hour | MMM Minute of 12h | MMMM Minute of Day | MMMMM Minute of Month | MMMMMM Minute of Year
//S SecondUpper | SS Second of Minute | SSS Second of 10 Minute | SSSS Second of Hour | SSSSS Second of Day | SSSSSS Second of Week
//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
//Y YearLower | YY - Year LU | YYYY - Std.
//I MonthLower | II - Month of Year
//W Week of Month | WW Week of Year
//D Day of Week | DD Day Of Month | DDD Day Of Year
DEBUG_PRINT("cset ");
DEBUG_PRINTLN(cronixieDisplay);
overlayRefreshMs = 1997; //Only refresh every 2secs if no seconds are displayed
for (int i = 0; i < 6; i++)
{
dP[i] = 10;
switch (cronixieDisplay[i])
{
case '_': dP[i] = 10; break;
case '-': dP[i] = 11; break;
case 'r': dP[i] = random(1,7); break; //random btw. 1-6
case 'R': dP[i] = random(0,10); break; //random btw. 0-9
//case 't': break; //Test upw.
//case 'T': break; //Test dnw.
case 'b': dP[i] = 14 + getSameCodeLength('b',i,cronixieDisplay); i = i+dP[i]-14; break;
case 'B': dP[i] = 14 + getSameCodeLength('B',i,cronixieDisplay); i = i+dP[i]-14; break;
case 'h': dP[i] = 70 + getSameCodeLength('h',i,cronixieDisplay); i = i+dP[i]-70; break;
case 'H': dP[i] = 20 + getSameCodeLength('H',i,cronixieDisplay); i = i+dP[i]-20; break;
case 'A': dP[i] = 108; i++; break;
case 'a': dP[i] = 58; i++; break;
case 'm': dP[i] = 74 + getSameCodeLength('m',i,cronixieDisplay); i = i+dP[i]-74; break;
case 'M': dP[i] = 24 + getSameCodeLength('M',i,cronixieDisplay); i = i+dP[i]-24; break;
case 's': dP[i] = 80 + getSameCodeLength('s',i,cronixieDisplay); i = i+dP[i]-80; overlayRefreshMs = 497; break; //refresh more often bc. of secs
case 'S': dP[i] = 30 + getSameCodeLength('S',i,cronixieDisplay); i = i+dP[i]-30; overlayRefreshMs = 497; break;
case 'Y': dP[i] = 36 + getSameCodeLength('Y',i,cronixieDisplay); i = i+dP[i]-36; break;
case 'y': dP[i] = 86 + getSameCodeLength('y',i,cronixieDisplay); i = i+dP[i]-86; break;
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.
case 'i': dP[i] = 89 + getSameCodeLength('i',i,cronixieDisplay); i = i+dP[i]-89; break;
//case 'W': break;
//case 'w': break;
case 'D': dP[i] = 43 + getSameCodeLength('D',i,cronixieDisplay); i = i+dP[i]-43; break;
case 'd': dP[i] = 93 + getSameCodeLength('d',i,cronixieDisplay); i = i+dP[i]-93; break;
case '0': dP[i] = 0; break;
case '1': dP[i] = 1; break;
case '2': dP[i] = 2; break;
case '3': dP[i] = 3; break;
case '4': dP[i] = 4; break;
case '5': dP[i] = 5; break;
case '6': dP[i] = 6; break;
case '7': dP[i] = 7; break;
case '8': dP[i] = 8; break;
case '9': dP[i] = 9; break;
//case 'V': break; //user var0
//case 'v': break; //user var1
}
}
DEBUG_PRINT("result ");
for (int i = 0; i < 5; i++)
{
DEBUG_PRINT((int)dP[i]);
DEBUG_PRINT(" ");
}
DEBUG_PRINTLN((int)dP[5]);
_overlayCronixie(); //refresh
}
void _overlayCronixie()
{
byte h = hour(local);
byte h0 = h;
byte m = minute(local);
byte s = second(local);
byte d = day(local);
byte mi = month(local);
int y = year(local);
//this has to be changed in time for 22nd century
y -= 2000; if (y<0) y += 30; //makes countdown work
if (useAMPM && !countdownMode)
{
if (h>12) h-=12;
else if (h==0) h+=12;
}
for (int i = 0; i < 6; i++)
{
if (dP[i] < 12) _digitOut[i] = dP[i];
else {
if (dP[i] < 65)
{
switch(dP[i])
{
case 21: _digitOut[i] = h/10; _digitOut[i+1] = h- _digitOut[i]*10; i++; break; //HH
case 25: _digitOut[i] = m/10; _digitOut[i+1] = m- _digitOut[i]*10; i++; break; //MM
case 31: _digitOut[i] = s/10; _digitOut[i+1] = s- _digitOut[i]*10; i++; break; //SS
case 20: _digitOut[i] = h- (h/10)*10; break; //H
case 24: _digitOut[i] = m/10; break; //M
case 30: _digitOut[i] = s/10; break; //S
case 43: _digitOut[i] = weekday(local); _digitOut[i]--; if (_digitOut[i]<1) _digitOut[i]= 7; break; //D
case 44: _digitOut[i] = d/10; _digitOut[i+1] = d- _digitOut[i]*10; i++; break; //DD
case 40: _digitOut[i] = mi/10; _digitOut[i+1] = mi- _digitOut[i]*10; i++; break; //II
case 37: _digitOut[i] = y/10; _digitOut[i+1] = y- _digitOut[i]*10; i++; break; //YY
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
//case 16: _digitOut[i+2] = ((h0/3)&1)?1:0; i++; //BBB (BBBB NI)
//case 15: _digitOut[i+1] = (h0>17 || (h0>5 && h0<12))?1:0; i++; //BB
case 14: _digitOut[i] = (h0>11)?1:0; break; //B
}
} else
{
switch(dP[i])
{
case 71: _digitOut[i] = h/10; _digitOut[i+1] = h- _digitOut[i]*10; if(_digitOut[i] == 0) _digitOut[i]=10; i++; break; //hh
case 75: _digitOut[i] = m/10; _digitOut[i+1] = m- _digitOut[i]*10; if(_digitOut[i] == 0) _digitOut[i]=10; i++; break; //mm
case 81: _digitOut[i] = s/10; _digitOut[i+1] = s- _digitOut[i]*10; if(_digitOut[i] == 0) _digitOut[i]=10; i++; break; //ss
//case 66: _digitOut[i+2] = ((h0/3)&1)?1:10; i++; //bbb (bbbb NI)
//case 65: _digitOut[i+1] = (h0>17 || (h0>5 && h0<12))?1:10; i++; //bb
case 64: _digitOut[i] = (h0>11)?1:10; break; //b
case 93: _digitOut[i] = weekday(local); _digitOut[i]--; if (_digitOut[i]<1) _digitOut[i]= 7; break; //d
case 94: _digitOut[i] = d/10; _digitOut[i+1] = d- _digitOut[i]*10; if(_digitOut[i] == 0) _digitOut[i]=10; i++; break; //dd
case 90: _digitOut[i] = mi/10; _digitOut[i+1] = mi- _digitOut[i]*10; if(_digitOut[i] == 0) _digitOut[i]=10; i++; break; //ii
case 87: _digitOut[i] = y/10; _digitOut[i+1] = y- _digitOut[i]*10; i++; break; //yy
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
}
}
}
}
}
void _drawOverlayCronixie()
{
byte offsets[] = {5, 0, 6, 1, 7, 2, 8, 3, 9, 4};
for (uint16_t i = 0; i < 6; i++)
{
byte o = 10*i;
byte excl = 10;
if(_digitOut[i] < 10) excl = offsets[_digitOut[i]];
excl += o;
if (cronixieBacklight && _digitOut[i] <11)
{
uint32_t col = strip.gamma32(strip.getSegment(0).colors[1]);
for (uint16_t j=o; j< o+10; j++) {
if (j != excl) strip.setPixelColor(j, col);
}
} else
{
for (uint16_t j=o; j< o+10; j++) {
if (j != excl) strip.setPixelColor(j, 0);
}
}
}
}
#else // WLED_DISABLE_CRONIXIE
byte getSameCodeLength(char code, int index, char const cronixieDisplay[]) {}
void setCronixie() {}
void _overlayCronixie() {}
void _drawOverlayCronixie() {}
#endif

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@ -1,14 +0,0 @@
#ifndef WLED_OVERLAY_H
#define WLED_OVERLAY_H
#include <Arduino.h>
/*
* Used to draw clock overlays over the strip
*/
void initCronixie();
void handleOverlays();
void handleOverlayDraw();
void _overlayAnalogCountdown();
void _overlayAnalogClock();
#endif // WLED_OVERLAY_H

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@ -1,14 +1,8 @@
#include "set.h"
#include "wled.h"
#include "colors.h"
#include "hue.h"
#include "led.h"
#include "blynk.h"
#include "wled_eeprom.h"
#include "alexa.h"
#include "cronixie.h"
#include "xml.h"
#include "wled_server.h"
/*
* Receives client input
*/
void _setRandomColor(bool _sec,bool fromButton)
{

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@ -1,16 +0,0 @@
#ifndef WLED_SET_H
#define WLED_SET_H
#include <Arduino.h>
#include <ESPAsyncWebServer.h>
/*
* Receives client input
*/
void _setRandomColor(bool _sec,bool fromButton=false);
bool isAsterisksOnly(const char* str, byte maxLen);
void handleSettingsSet(AsyncWebServerRequest *request, byte subPage);
bool handleSet(AsyncWebServerRequest *request, const String& req);
int getNumVal(const String* req, uint16_t pos);
bool updateVal(const String* req, const char* key, byte* val, byte minv=0, byte maxv=255);
#endif // WLED_SET_H

View File

@ -1,12 +1,12 @@
#include "notify.h"
#include "wled.h"
#include "src/dependencies/e131/ESPAsyncE131.h"
#include "led.h"
/*
* UDP sync notifier
*/
#define WLEDPACKETSIZE 29
#define UDP_IN_MAXSIZE 1472
void notify(byte callMode, bool followUp)
{
if (!udpConnected) return;
@ -87,146 +87,6 @@ void arlsLock(uint32_t timeoutMs, byte md)
}
void handleE131Packet(e131_packet_t* p, IPAddress clientIP){
//E1.31 protocol support
uint16_t uni = htons(p->universe);
uint8_t previousUniverses = uni - e131Universe;
uint16_t possibleLEDsInCurrentUniverse;
uint16_t dmxChannels = htons(p->property_value_count) -1;
// only listen for universes we're handling & allocated memory
if (uni >= (e131Universe + E131_MAX_UNIVERSE_COUNT)) return;
if (e131SkipOutOfSequence)
if (p->sequence_number < e131LastSequenceNumber[uni-e131Universe] && p->sequence_number > 20 && e131LastSequenceNumber[uni-e131Universe] < 250){
DEBUG_PRINT("skipping E1.31 frame (last seq=");
DEBUG_PRINT(e131LastSequenceNumber[uni-e131Universe]);
DEBUG_PRINT(", current seq=");
DEBUG_PRINT(p->sequence_number);
DEBUG_PRINT(", universe=");
DEBUG_PRINT(uni);
DEBUG_PRINTLN(")");
return;
}
e131LastSequenceNumber[uni-e131Universe] = p->sequence_number;
// update status info
realtimeIP = clientIP;
switch (DMXMode) {
case DMX_MODE_DISABLED:
return; // nothing to do
break;
case DMX_MODE_SINGLE_RGB:
if (uni != e131Universe) return;
if (dmxChannels-DMXAddress+1 < 3) return;
arlsLock(realtimeTimeoutMs, REALTIME_MODE_E131);
for (uint16_t i = 0; i < ledCount; i++)
setRealtimePixel(i, p->property_values[DMXAddress+0], p->property_values[DMXAddress+1], p->property_values[DMXAddress+2], 0);
break;
case DMX_MODE_SINGLE_DRGB:
if (uni != e131Universe) return;
if (dmxChannels-DMXAddress+1 < 4) return;
arlsLock(realtimeTimeoutMs, REALTIME_MODE_E131);
if (DMXOldDimmer != p->property_values[DMXAddress+0]) {
DMXOldDimmer = p->property_values[DMXAddress+0];
bri = p->property_values[DMXAddress+0];
strip.setBrightness(bri);
}
for (uint16_t i = 0; i < ledCount; i++)
setRealtimePixel(i, p->property_values[DMXAddress+1], p->property_values[DMXAddress+2], p->property_values[DMXAddress+3], 0);
break;
case DMX_MODE_EFFECT:
if (uni != e131Universe) return;
if (dmxChannels-DMXAddress+1 < 11) return;
if (DMXOldDimmer != p->property_values[DMXAddress+0]) {
DMXOldDimmer = p->property_values[DMXAddress+0];
bri = p->property_values[DMXAddress+0];
}
if (p->property_values[DMXAddress+1] < MODE_COUNT)
effectCurrent = p->property_values[DMXAddress+ 1];
effectSpeed = p->property_values[DMXAddress+ 2]; // flickers
effectIntensity = p->property_values[DMXAddress+ 3];
effectPalette = p->property_values[DMXAddress+ 4];
col[0] = p->property_values[DMXAddress+ 5];
col[1] = p->property_values[DMXAddress+ 6];
col[2] = p->property_values[DMXAddress+ 7];
colSec[0] = p->property_values[DMXAddress+ 8];
colSec[1] = p->property_values[DMXAddress+ 9];
colSec[2] = p->property_values[DMXAddress+10];
if (dmxChannels-DMXAddress+1 > 11)
{
col[3] = p->property_values[DMXAddress+11]; //white
colSec[3] = p->property_values[DMXAddress+12];
}
transitionDelayTemp = 0; // act fast
colorUpdated(NOTIFIER_CALL_MODE_NOTIFICATION); // don't send UDP
return; // don't activate realtime live mode
break;
case DMX_MODE_MULTIPLE_RGB:
arlsLock(realtimeTimeoutMs, REALTIME_MODE_E131);
if (previousUniverses == 0) {
// first universe of this fixture
possibleLEDsInCurrentUniverse = (dmxChannels - DMXAddress + 1) / 3;
for (uint16_t i = 0; i < ledCount; i++) {
if (i >= possibleLEDsInCurrentUniverse) break; // more LEDs will follow in next universe(s)
setRealtimePixel(i, p->property_values[DMXAddress+i*3+0], p->property_values[DMXAddress+i*3+1], p->property_values[DMXAddress+i*3+2], 0);
}
} else if (previousUniverses > 0 && uni < (e131Universe + E131_MAX_UNIVERSE_COUNT)) {
// additional universe(s) of this fixture
uint16_t numberOfLEDsInPreviousUniverses = ((512 - DMXAddress + 1) / 3); // first universe
if (previousUniverses > 1) numberOfLEDsInPreviousUniverses += (512 / 3) * (previousUniverses - 1); // extended universe(s) before current
possibleLEDsInCurrentUniverse = dmxChannels / 3;
for (uint16_t i = numberOfLEDsInPreviousUniverses; i < ledCount; i++) {
uint8_t j = i - numberOfLEDsInPreviousUniverses;
if (j >= possibleLEDsInCurrentUniverse) break; // more LEDs will follow in next universe(s)
setRealtimePixel(i, p->property_values[j*3+1], p->property_values[j*3+2], p->property_values[j*3+3], 0);
}
}
break;
case DMX_MODE_MULTIPLE_DRGB:
arlsLock(realtimeTimeoutMs, REALTIME_MODE_E131);
if (previousUniverses == 0) {
// first universe of this fixture
if (DMXOldDimmer != p->property_values[DMXAddress+0]) {
DMXOldDimmer = p->property_values[DMXAddress+0];
bri = p->property_values[DMXAddress+0];
strip.setBrightness(bri);
}
possibleLEDsInCurrentUniverse = (dmxChannels - DMXAddress) / 3;
for (uint16_t i = 0; i < ledCount; i++) {
if (i >= possibleLEDsInCurrentUniverse) break; // more LEDs will follow in next universe(s)
setRealtimePixel(i, p->property_values[DMXAddress+i*3+1], p->property_values[DMXAddress+i*3+2], p->property_values[DMXAddress+i*3+3], 0);
}
} else if (previousUniverses > 0 && uni < (e131Universe + E131_MAX_UNIVERSE_COUNT)) {
// additional universe(s) of this fixture
uint16_t numberOfLEDsInPreviousUniverses = ((512 - DMXAddress + 1) / 3); // first universe
if (previousUniverses > 1) numberOfLEDsInPreviousUniverses += (512 / 3) * (previousUniverses - 1); // extended universe(s) before current
possibleLEDsInCurrentUniverse = dmxChannels / 3;
for (uint16_t i = numberOfLEDsInPreviousUniverses; i < ledCount; i++) {
uint8_t j = i - numberOfLEDsInPreviousUniverses;
if (j >= possibleLEDsInCurrentUniverse) break; // more LEDs will follow in next universe(s)
setRealtimePixel(i, p->property_values[j*3+1], p->property_values[j*3+2], p->property_values[j*3+3], 0);
}
}
break;
default:
DEBUG_PRINTLN("unknown E1.31 DMX mode");
return; // nothing to do
break;
}
e131NewData = true;
}
void handleNotifications()
{
//send second notification if enabled

View File

@ -2,7 +2,7 @@
/*
* This file allows you to add own functionality to WLED more easily
* See: https://github.com/Aircoookie/WLED/wiki/Add-own-functionality
* EEPROM bytes 2750+ are reserved for your custom use case. (if you extend #define EEPSIZE in wled_eeprom.h)
* EEPROM bytes 2750+ are reserved for your custom use case. (if you extend #define EEPSIZE in const.h)
* bytes 2400+ are currently ununsed, but might be used for future wled features
*/

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@ -1,8 +0,0 @@
#ifndef WLED_USERMOD_H
#define WLED_USERMOD_H
void userSetup();
void userConnected();
void userLoop();
#endif // WLED_USERMOD_H

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@ -1,23 +1,8 @@
#include "wled.h"
#include "alexa.h"
#include "blynk.h"
#include "button.h"
#include "dmx.h"
#include "file.h"
#include "hue.h"
#include "ir.h"
#include "led.h"
#include "mqtt.h"
#include "notify.h"
#include "ntp.h"
#include "overlay.h"
#include "usermod.h"
#include "wled_eeprom.h"
#include "wled_server.h"
#include <Arduino.h>
// Global Variable definitions
char versionString[] = "0.9.1";
char versionString[] = "0.9.1n";
// AP and OTA default passwords (for maximum change them!)
char apPass[65] = DEFAULT_AP_PASS;

View File

@ -3,10 +3,13 @@
/*
Main sketch, global variable declarations
@title WLED project sketch
@version 0.9.1
@version 0.9.1n
@author Christian Schwinne
*/
// version code in format yymmddb (b = daily build)
#define VERSION 2003300
// ESP8266-01 (blue) got too little storage space to work with all features of WLED. To use it, you must use ESP8266 Arduino Core v2.4.2 and the setting 512K(No SPIFFS).
// ESP8266-01 (black) has 1MB flash and can thus fit the whole program. Use 1M(64K SPIFFS).
@ -78,6 +81,7 @@
#include "src/dependencies/json/AsyncJson-v6.h"
#include "src/dependencies/json/ArduinoJson-v6.h"
#include "func_declare.h"
#include "html_ui.h"
#include "html_settings.h"
#include "html_other.h"
@ -117,9 +121,6 @@
#endif
#endif
// version code in format yymmddb (b = daily build)
#define VERSION 2003301
// Global external variable declaration. See wled.cpp for definitions and comments.
extern char versionString[];
extern char apPass[65];

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@ -1,6 +1,6 @@
/*
Arduino Studio support file.
*/
* Arduino IDE compatibility file.
*/
#include "wled.h"
void setup() {
@ -9,4 +9,4 @@ void setup() {
void loop() {
WLED::instance().loop();
}
}

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@ -1,11 +1,10 @@
#include "wled_eeprom.h"
#include <EEPROM.h>
#include "wled.h"
#include "cronixie.h"
#include "ntp.h"
#include "set.h"
#include "led.h"
/*
* Methods to handle saving and loading to non-volatile memory
* EEPROM Map: https://github.com/Aircoookie/WLED/wiki/EEPROM-Map
*/
//eeprom Version code, enables default settings instead of 0 init on update
#define EEPVER 18

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@ -1,23 +0,0 @@
#ifndef WLED_EPPROM_H
#define WLED_EPPROM_H
#include <Arduino.h>
/*
* Methods to handle saving and loading to non-volatile memory
* EEPROM Map: https://github.com/Aircoookie/WLED/wiki/EEPROM-Map
*/
#define EEPSIZE 2560 //Maximum is 4096
void commit();
void clearEEPROM();
void writeStringToEEPROM(uint16_t pos, char* str, uint16_t len);
void readStringFromEEPROM(uint16_t pos, char* str, uint16_t len);
void saveSettingsToEEPROM();
void loadSettingsFromEEPROM(bool first);
void savedToPresets();
bool applyPreset(byte index, bool loadBri = true);
void savePreset(byte index, bool persist = true);
void loadMacro(byte index, char* m);
void applyMacro(byte index);
void saveMacro(byte index, String mc, bool persist = true); //only commit on single save, not in settings
#endif //WLED_EPPROM_H

83
wled00/wled_serial.cpp Normal file
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@ -0,0 +1,83 @@
#include "wled.h"
/*
* Adalight handler
*/
enum class AdaState {
Header_A,
Header_d,
Header_a,
Header_CountHi,
Header_CountLo,
Header_CountCheck,
Data_Red,
Data_Green,
Data_Blue
};
void handleSerial()
{
#ifdef WLED_ENABLE_ADALIGHT
static auto state = AdaState::Header_A;
static uint16_t count = 0;
static uint16_t pixel = 0;
static byte check = 0x00;
static byte red = 0x00;
static byte green = 0x00;
while (Serial.available() > 0)
{
yield();
byte next = Serial.read();
switch (state) {
case AdaState::Header_A:
if (next == 'A') state = AdaState::Header_d;
break;
case AdaState::Header_d:
if (next == 'd') state = AdaState::Header_a;
else state = AdaState::Header_A;
break;
case AdaState::Header_a:
if (next == 'a') state = AdaState::Header_CountHi;
else state = AdaState::Header_A;
break;
case AdaState::Header_CountHi:
pixel = 0;
count = next * 0x100;
check = next;
state = AdaState::Header_CountLo;
break;
case AdaState::Header_CountLo:
count += next + 1;
check = check ^ next ^ 0x55;
state = AdaState::Header_CountCheck;
break;
case AdaState::Header_CountCheck:
if (check == next) state = AdaState::Data_Red;
else state = AdaState::Header_A;
break;
case AdaState::Data_Red:
red = next;
state = AdaState::Data_Green;
break;
case AdaState::Data_Green:
green = next;
state = AdaState::Data_Blue;
break;
case AdaState::Data_Blue:
byte blue = next;
setRealtimePixel(pixel++, red, green, blue, 0);
if (--count > 0) state = AdaState::Data_Red;
else {
if (!realtimeMode && bri == 0) strip.setBrightness(briLast);
arlsLock(realtimeTimeoutMs, REALTIME_MODE_ADALIGHT);
strip.show();
state = AdaState::Header_A;
}
break;
}
}
#endif
}

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@ -1,10 +1,8 @@
#include "wled_server.h"
#include "wled.h"
#include "file.h"
#include "set.h"
#include "json.h"
#include "xml.h"
/*
* Integrated HTTP web server page declarations
*/
//Is this an IP?
bool isIp(String str) {

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@ -1,21 +0,0 @@
#ifndef WLED_SERVER_H
#define WLED_SERVER_H
#include <Arduino.h>
/*
* Server page declarations
*/
class AsyncWebServerRequest;
bool isIp(String str);
bool captivePortal(AsyncWebServerRequest *request);
void initServer();
void serveIndexOrWelcome(AsyncWebServerRequest *request);
void serveIndex(AsyncWebServerRequest* request);
String msgProcessor(const String& var);
void serveMessage(AsyncWebServerRequest* request, uint16_t code, String headl, String subl="", byte optionT=255);
String settingsProcessor(const String& var);
String dmxProcessor(const String& var);
void serveSettings(AsyncWebServerRequest* request);
#endif //WLED_SERVER_H

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@ -1,8 +1,8 @@
#include "xml.h"
#include "wled.h"
#include "wled_eeprom.h"
#include "ntp.h"
/*
* Sending XML status files to client
*/
//build XML response to HTTP /win API request
char* XML_response(AsyncWebServerRequest *request, char* dest)

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@ -1,15 +0,0 @@
#ifndef WLED_XML_H
#define WLED_XML_H
#include <Arduino.h>
#include <ESPAsyncWebServer.h>
/*
* Sending XML status files to client
*/
char* XML_response(AsyncWebServerRequest *request, char* dest = nullptr);
char* URL_response(AsyncWebServerRequest *request);
void sappend(char stype, const char* key, int val);
void sappends(char stype, const char* key, char* val);
void getSettingsJS(byte subPage, char* dest);
#endif // WLED_XML_H