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WLED_MM_Infinity/wled00/data/settings_leds.htm
copilot-swe-agent[bot] 99e0743281 Fix Hub75 shown incorrectly in LED output dropdowns 
Call hideHub75() after dynamically adding new LED outputs to ensure Hub75 options are removed when Hub75 support is not compiled in.

Co-authored-by: netmindz <442066+netmindz@users.noreply.github.com>
2025-12-25 10:06:30 +00:00

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<!DOCTYPE html>
<html lang="en">
<head>
<meta charset="utf-8">
<meta content="width=device-width, initial-scale=1.0, maximum-scale=1.0, user-scalable=no" name="viewport">
<title>LED Settings</title>
<script>
var d=document,laprev=55,maxB=1,maxV=0,maxM=4000,maxPB=18438,maxL=1333,maxLbquot=0; //maximum bytes for LED allocation: 4kB for 8266, 64kB for 32
d.um_p = [];
d.rsvd = [];
d.ro_gpio = [];
d.max_gpio = 39;
var customStarts=false,startsDirty=[],maxCOOverrides=5;
var loc = false, locip;
function H(){window.open("https://mm.kno.wled.ge/features/settings/#led-settings");}
function B(){window.open("/settings","_self");}
function gId(n){return d.getElementById(n);}
function hideNoIR(){gId("irOnOff2").style.display="none";} //WLEDMM
function hideHub75() {
var s = d.getElementsByTagName("select");
for (i=0; i<s.length; i++) {
// is the field a LED type?
if (s[i].name.substring(0,2)=="LT") {
var selectobject = s[i];
for (var j=(selectobject.length - 1); j > 0; j--) {
var t = parseInt(selectobject.options[j].value);
if(t >= 100 && t <= 110) selectobject.remove(j);
}
}
}
}
function off(n){d.getElementsByName(n)[0].value = -1;}
// https://www.educative.io/edpresso/how-to-dynamically-load-a-js-file-in-javascript
function loadJS(FILE_URL, async = true) {
let scE = d.createElement("script");
scE.setAttribute("src", FILE_URL);
scE.setAttribute("type", "text/javascript");
scE.setAttribute("async", async);
d.body.appendChild(scE);
// success event
scE.addEventListener("load", () => {
GetV();
checkSi();
setABL();
if (d.um_p[0]==-1) d.um_p.shift();
});
// error event
scE.addEventListener("error", (ev) => {
console.log("Error on loading file", ev);
alert("Loading of configuration script failed.\nIncomplete page data!");
});
}
var timeout;
function showToast(text, error = false)
{
var x = gId("toast");
x.innerHTML = text;
x.className = error ? "error":"show";
clearTimeout(timeout);
x.style.animation = 'none';
timeout = setTimeout(function(){ x.className = x.className.replace("show", ""); }, 2900);
}
function bLimits(b,v,m,l) {
maxB = b; maxV = v; maxM = m; maxL = l;
}
function setPixelLimit(i, max) {
var lc = d.getElementsByName("LC"+i)[0];
lc.max = max;
}
function pinsOK() {
var LCs = d.getElementsByTagName("input");
for (i=0; i<LCs.length; i++) {
var nm = LCs[i].name.substring(0,2);
// ignore IP address
if (nm=="L0" || nm=="L1" || nm=="L2" || nm=="L3") {
var n = LCs[i].name.substring(2);
var t = parseInt(d.getElementsByName("LT"+n)[0].value, 10); // LED type SELECT
if (t>=80) continue;
}
//check for pin conflicts
if (nm=="L0" || nm=="L1" || nm=="L2" || nm=="L3" || nm=="L4" || nm=="RL" || nm=="BT" || nm=="IR")
if (LCs[i].value!="" && LCs[i].value!="-1") {
var p = []; // used pin array
for (k=0;k<d.rsvd.length;k++) p.push(d.rsvd[k]); // fill with reservations
for (k=0;k<d.um_p.length;k++) p.push(d.um_p[k]); // fill with usermod pins
if (p.some((e)=>e==parseInt(LCs[i].value,10))) {alert(`Sorry, pins ${JSON.stringify(p)} can't be used.`);LCs[i].value="";LCs[i].focus();return false;}
else if (!(nm == "IR" || nm=="BT") && d.ro_gpio.some((e)=>e==parseInt(LCs[i].value,10))) {alert(`Sorry, pins ${JSON.stringify(d.ro_gpio)} are input only.`);LCs[i].value="";LCs[i].focus();return false;}
for (j=i+1; j<LCs.length; j++)
{
var n2 = LCs[j].name.substring(0,2);
if (n2=="L0" || n2=="L1" || n2=="L2" || n2=="L3" || n2=="L4" || n2=="RL" || n2=="BT" || n2=="IR") {
if (n2.substring(0,1)==="L") {
var m = LCs[j].name.substring(2);
var t2 = parseInt(d.getElementsByName("LT"+m)[0].value, 10);
if (t2>=80) continue;
}
if (LCs[j].value!="" && LCs[i].value==LCs[j].value) {alert(`Pin conflict between ${LCs[i].name}/${LCs[j].name}!`);LCs[j].value="";LCs[j].focus();return false;}
}
}
}
}
return true;
}
function trySubmit(e) {
d.Sf.data.value = '';
e.preventDefault();
if (!pinsOK()) {e.stopPropagation();return false;} // Prevent form submission and contact with server
if (bquot > 100) {var msg = "Too many LEDs for me to handle!"; if (maxM < 10000) msg += "\n\rConsider using an ESP32."; alert(msg);}
if (d.Sf.checkValidity()) d.Sf.submit(); //https://stackoverflow.com/q/37323914
}
function enABL()
{
const en = gId('able').checked;
d.Sf.LA.value = (en) ? laprev:0;
d.Sf.MA.min = (en) ? 250 : 0; // WLEDMM no minimum if invisble
if ((!en) && (!d.Sf.MA.value || d.Sf.MA.value<0)) d.Sf.MA.value = 0; // WLEDMM workaround when field is invisible with invalid value
gId('abl').style.display = (en) ? 'inline':'none';
gId('psu2').style.display = (en) ? 'inline':'none';
if (d.Sf.LA.value > 0) setABL();
}
function enLA()
{
var val = d.Sf.LAsel.value;
d.Sf.LA.value = val;
gId('LAdis').style.display = (val == 50) ? 'inline':'none';
UI();
}
function setABL()
{
gId('able').checked = true;
d.Sf.LAsel.value = 50;
switch (parseInt(d.Sf.LA.value)) {
case 0: gId('able').checked = false; enABL(); break;
case 30: d.Sf.LAsel.value = 30; break;
case 35: d.Sf.LAsel.value = 35; break;
case 55: d.Sf.LAsel.value = 55; break;
case 255: d.Sf.LAsel.value = 255; break;
default: gId('LAdis').style.display = 'inline';
}
gId('m1').innerHTML = maxM;
d.getElementsByName("Sf")[0].addEventListener("submit", trySubmit);
UI();
}
//returns mem usage
function getMem(t, n) {
let len = parseInt(d.getElementsByName("LC"+n)[0].value);
len += parseInt(d.getElementsByName("SL"+n)[0].value); // skipped LEDs are allocated too
if (t < 32) {
if (t==26 || t==29) len *= 2; // 16 bit LEDs
if (maxM < 10000 && d.getElementsByName("L0"+n)[0].value == 3) { //8266 DMA uses 5x the mem
if (t > 28) return len*20; //RGBW
return len*15;
} else if (maxM >= 10000) //ESP32 RMT uses double buffer?
{
if (t > 28) return len*8; //RGBW
return len*6;
}
if (t > 28) return len*4; //RGBW
return len*3;
}
if (t > 31 && t < 48) return 5;
return len*3;
}
function UI(change=false)
{
let isRGBW = false, gRGBW = false, memu = 0;
gId('ampwarning').style.display = (d.Sf.MA.value > 7200) ? 'inline':'none';
gId('fpsNone').style.display = ((d.Sf.FR.value == 0) || (d.Sf.FR.value > 249))? 'block':'none'; // WLEDMM
gId('fpsNoHelp').style.display = ((d.Sf.FR.value == 0) || (d.Sf.FR.value > 249))? 'none':'block'; // WLEDMM
gId('fpswarning').style.display = (d.Sf.FR.value > 79) || (d.Sf.FR.value == 0) ? 'block':'none'; // WLEDMM
gId('fpshelp1').style.display = ((d.Sf.FR.value > 90) && (d.Sf.FR.value < 132)) ? 'block':'none'; // WLEDMM
gId('fpshelp2').style.display = ((d.Sf.FR.value > 132) && (d.Sf.FR.value < 196)) ? 'block':'none'; // WLEDMM
gId('fpshelp3').style.display = (d.Sf.FR.value > 196) ? 'block':'none'; // WLEDMM
const ablEnabled = gId('able').checked;
d.Sf.MA.min = ablEnabled ? 250 : 0; // WLEDMM no minimum if invisble
if ((!ablEnabled) && !d.Sf.MA.value) d.Sf.MA.value = 0; // WLEDMM workaround when field is blank but invisible
if (d.Sf.LA.value == 255) laprev = 12;
else if (d.Sf.LA.value > 0) laprev = d.Sf.LA.value;
// enable/disable LED fields
var s = d.getElementsByTagName("select");
for (i=0; i<s.length; i++) {
// is the field a LED type?
if (s[i].name.substring(0,2)=="LT") {
var n = s[i].name.substring(2);
var t = parseInt(s[i].value,10);
gId("p0d"+n).innerHTML = (t >= 100 && t < 110) ? "Chain Length:" : (t>=80 && t<96) ? "IP address:" : (t > 49) ? "Data GPIO:" : (t > 41) ? "GPIOs:" : "GPIO:";
gId("p1d"+n).innerHTML = (t> 49 && t<64) ? "Clk GPIO:" : "";
var LK = d.getElementsByName("L1"+n)[0]; // clock pin
memu += getMem(t, n); // calc memory
// enumerate pins
for (p=1; p<5; p++) {
var LK = d.getElementsByName("L"+p+n)[0]; // secondary pins
if (!LK) continue;
if(t >= 100 && t < 110) {
// hide pin field
LK.style.display = "none";
LK.required = false;
LK.value="";
}
else if (((t>=80 && t<96) && p<4) || (t>49 && p==1) || (t>41 && t < 50 && (p+40 < t))) // TYPE_xxxx values from const.h
{
// display pin field
LK.style.display = "inline";
LK.required = true;
} else {
// hide pin field
LK.style.display = "none";
LK.required = false;
LK.value="";
}
}
if (change) {
gId("rf"+n).checked = (gId("rf"+n).checked || t == 31); // LEDs require data in off state
if (t > 31 && t < 48) d.getElementsByName("LC"+n)[0].value = 1; // for sanity change analog count just to 1 LED
}
gId("rf"+n).onclick = (t == 31) ? (()=>{return false}) : (()=>{}); // prevent change for TM1814
gRGBW |= isRGBW = ((t > 17 && t < 22) || (t > 28 && t < 32) || (t > 40 && t < 46 && t != 43) || t == 88); // RGBW checkbox, TYPE_xxxx values from const.h
gId("co"+n).style.display = ((t >= 83 && t < 96) || (t >= 40 && t < 48)||(t >= 100 && t < 110)) ? "none":"inline"; // hide color order for PWM
gId("dig"+n+"w").style.display = (t > 28 && t < 32) ? "inline":"none"; // show swap channels dropdown
gId("dig"+n+"O").style.display = (t == 82 || t == 83) ? "inline":"none"; // show Art-Net output number
gId("dig"+n+"L").style.display = (t == 82 || t == 83) ? "inline":"none"; // show Art-Net LEDs per output
gId("dig"+n+"F").style.display = (t == 82 || t == 83) ? "inline":"none"; // show Art-Net FPS limiter
gId("dig"+n+"W").style.display = (t == 82 || t == 83) ? "inline":"none"; // show Art-Net warnings/info box
d.getElementsByName("AO"+n)[0].min = (t == 82 || t == 83) ? 1 : -1; // make sure these fields do not block saving when hidden
d.getElementsByName("AL"+n)[0].min = (t == 82 || t == 83) ? 1 : -1;
d.getElementsByName("AF"+n)[0].min = (t == 82 || t == 83) ? 1 : -1;
if (gId("dig"+n+"F").style.display == "inline") {
total_leds = d.getElementsByName("LC"+n)[0].value;
outputs = d.getElementsByName("AO"+n)[0].value;
leds_per_output = d.getElementsByName("AL"+n)[0].value;
fps_limit = d.getElementsByName("AF"+n)[0].value;
last_octet = d.getElementsByName("L3"+n)[0].value;
if (outputs > 1) {
if (t == 82) gId("dig"+n+"W").innerHTML = "<br />Set your Art-Net Hardware to "+Math.ceil(leds_per_output/170)+" universes per output.";
if (t == 83) gId("dig"+n+"W").innerHTML = "<br />Set your Art-Net Hardware to "+Math.ceil(leds_per_output/128)+" universes per output.";
} else if (outputs == 1) {
gId("dig"+n+"W").innerHTML = "<br />WLED-style Art-Net output enabled.";
} else {
gId("dig"+n+"W").innerHTML = "<br />You need at least 1 output!";
}
if (outputs > 1 && fps_limit > 33333/leds_per_output) gId("dig"+n+"W").innerHTML += "<br />FPS limit may be too high for WS281x pixels.";
if (outputs*leds_per_output != total_leds) gId("dig"+n+"W").innerHTML += "<br />Length ("+total_leds+") doesn't match Number of Outputs * LEDs Per Output ("+outputs*leds_per_output+").";
if (last_octet == 255) {
if (total_leds <= 1024) gId("dig"+n+"W").innerHTML += "<br />Art-Net is in broadcast mode.";
if (total_leds > 1024) gId("dig"+n+"W").innerHTML += "<br />You are sending a lot of broadcast data. Be cautious.";
}
gId("dig"+n+"W").innerHTML += "<br />Art-Net starting universe is "+d.e131Universe+". Change this in <a href='/settings/sync'>Sync Interfaces</a>.";
}
if (!(t > 28 && t < 32)) d.getElementsByName("WO"+n)[0].value = 0; // reset swapping
gId("dig"+n+"c").style.display = ((t >= 40 && t < 48)||(t >= 100 && t < 110)) ? "none":"inline"; // hide count for analog and HUB75
gId("dig"+n+"r").style.display = (t >= 80) && (t < 100) ? "none":"inline"; // hide reversed for virtual, except for HUB75
gId("dig"+n+"s").style.display = ((t >= 80) || (t >= 40 && t < 48)) ? "none":"inline"; // hide skip 1st for virtual & analog
gId("dig"+n+"f").style.display = ((t >= 16 && t < 32) || (t >= 50 && t < 64)||(t >= 100 && t < 110)) ? "inline":"none"; // hide refresh, except for HUB75
gId("dig"+n+"a").style.display = (isRGBW && t != 40) ? "inline":"none"; // auto calculate white
gId("dig"+n+"l").style.display = ((t > 48 && t < 64) && !(t >= 100 && t < 110)) ? "inline":"none"; // bus clock speed
gId("rev"+n).innerHTML = (t >= 40 && t < 48) ? "Inverted output":"Reversed (rotated 180°)"; // change reverse text for analog
if (t >= 100 && t < 110) gId("rev"+n).innerHTML = "Inverted clock phase"; // change "reverse" text for HUB75
gId("ref"+n).innerHTML = (t >= 100 && t < 110) ? "Single-cycle latch blanking":"Off Refresh"; // change "off refresh" text for HUB75
gId("psd"+n).innerHTML = (t >= 40 && t < 48) ? "Index:":"Start:"; // change analog start description
}
}
// display global white channel overrides
gId("wc").style.display = (gRGBW) ? 'inline':'none';
if (!gRGBW) {
d.Sf.AW.selectedIndex = 0;
d.Sf.CR.checked = false;
}
// check for pin conflicts
var LCs = d.getElementsByTagName("input");
var sLC = 0, sPC = 0, maxLC = 0;
for (i=0; i<LCs.length; i++) {
var nm = LCs[i].name.substring(0,2); // field name
var n = LCs[i].name.substring(2); // bus number
// correct HUB75 chain length stored as LED pin 0
if (nm=="L0" && (t >= 100 && t < 110) && LCs[i].value!="") {
const clen = parseInt(LCs[i].value,10);
if ((clen < 1) || ((clen > 6))) LCs[i].value = "1";
LCs[i].min = 1;
LCs[i].max = 6;
}
// do we have a led count field
if (nm=="LC") {
var c=parseInt(LCs[i].value,10); //get LED count
if (!customStarts || !startsDirty[n]) gId("ls"+n).value=sLC; //update start value
gId("ls"+n).disabled = !customStarts; //enable/disable field editing
if(c){
var s = parseInt(gId("ls"+n).value); //start value
if (s+c > sLC) sLC = s+c; //update total count
if(c>maxLC)maxLC=c; //max per output
var t = parseInt(d.getElementsByName("LT"+n)[0].value); // LED type SELECT
if ((t<128) && ((t<80) || ((t>99)))) sPC+=c; //virtual out busses do not count towards physical LEDs //WLEDMM include HUB75 (>=100)
} // increase led count
continue;
}
// do we have led pins for digital leds
if (nm=="L0" || nm=="L1") {
var lc=d.getElementsByName("LC"+n)[0];
lc.max=maxPB; // update max led count value
}
// ignore IP address (stored in pins for virtual busses)
if (nm=="L0" || nm=="L1" || nm=="L2" || nm=="L3") {
var t = parseInt(d.getElementsByName("LT"+n)[0].value); // LED type SELECT
if (t>=80) {
LCs[i].max = 255;
LCs[i].min = 0;
LCs[i].style.color="#fff";
continue; // do not check conflicts
} else {
LCs[i].max = d.max_gpio;
LCs[i].min = -1;
}
}
// check for pin conflicts
if (nm=="L0" || nm=="L1" || nm=="L2" || nm=="L3" || nm=="L4" || nm=="RL" || nm=="BT" || nm=="IR")
if (LCs[i].value!="" && LCs[i].value!="-1") {
var p = []; // used pin array
for (k=0;k<d.rsvd.length;k++) p.push(d.rsvd[k]); // fill with reservations
for (k=0;k<d.um_p.length;k++) p.push(d.um_p[k]); // fill with usermod pins
for (j=0; j<LCs.length; j++) {
if (i==j) continue;
var n2 = LCs[j].name.substring(0,2);
if (n2=="L0" || n2=="L1" || n2=="L2" || n2=="L3" || n2=="L4" || n2=="RL" || n2=="BT" || n2=="IR") {
if (n2.substring(0,1)==="L") {
var m = LCs[j].name.substring(2);
var t2 = parseInt(d.getElementsByName("LT"+m)[0].value, 10);
if (t2>=80) continue;
}
if (LCs[j].value!="" && LCs[j].value!="-1") p.push(parseInt(LCs[j].value,10)); // add current pin
}
}
// now check for conflicts
if (p.some((e)=>e==parseInt(LCs[i].value,10))) LCs[i].style.color="red"; else LCs[i].style.color=d.ro_gpio.some((e)=>e==parseInt(LCs[i].value,10))?"orange":"#fff";
}
// check buttons, IR & relay
if (nm=="IR" || nm=="BT" || nm=="RL") {
LCs[i].max = d.max_gpio;
LCs[i].min = -1;
}
}
// update total led count
gId("lc").textContent = sLC;
gId("pc").textContent = (sLC == sPC) ? "":"(" + sPC + " physical)";
// memory usage and warnings
gId('m0').innerHTML = memu;
bquot = memu / maxM * 100;
gId('dbar').style.background = `linear-gradient(90deg, ${bquot > 60 ? (bquot > 90 ? "red":"orange"):"#ccc"} 0 ${bquot}%, #444 ${bquot}% 100%)`;
gId('ledwarning').style.display = (maxLC > Math.min(maxPB,800) || bquot > 80) ? 'inline':'none';
gId('ledwarning').style.color = (maxLC > Math.max(maxPB,800) || bquot > 100) ? 'red':'orange';
gId('wreason').innerHTML = (bquot > 80) ? "80% of max. LED memory" +(bquot>100 ? ` (<b>ERROR: Using over ${maxM}B!</b>)` : "") : "800 LEDs per output";
// calculate power
var val = Math.ceil((100 + sPC * laprev)/500)/2;
val = (val > 5) ? Math.ceil(val) : val;
var s = "";
var is12V = (d.Sf.LAsel.value == 30);
var isWS2815 = (d.Sf.LAsel.value == 255);
if (val < 1.02 && !is12V && !isWS2815)
{
s = "ESP 5V pin with 1A USB supply";
} else
{
s += is12V ? "12V ": isWS2815 ? "WS2815 12V " : "5V ";
s += val;
s += "A supply connected to LEDs";
}
var val2 = Math.ceil((100 + sPC * laprev)/1500)/2;
val2 = (val2 > 5) ? Math.ceil(val2) : val2;
var s2 = "(for most effects, ~";
s2 += val2;
s2 += "A is enough)<br>";
gId('psu').innerHTML = s;
gId('psu2').innerHTML = isWS2815 ? "" : s2;
gId("json").style.display = d.Sf.IT.value==8 ? "" : "none";
}
function lastEnd(i) {
if (i<1) return 0;
v = parseInt(d.getElementsByName("LS"+(i-1))[0].value) + parseInt(d.getElementsByName("LC"+(i-1))[0].value);
var t = parseInt(d.getElementsByName("LT"+(i-1))[0].value);
if (t > 31 && t < 48) v = 1; //PWM busses
if (isNaN(v)) return 0;
return v;
}
function addLEDs(n,init=true)
{
var o = d.getElementsByClassName("iST");
var i = o.length;
if ((n==1 && i>=maxB+maxV) || (n==-1 && i==0)) return;
var f = gId("mLC");
if (n==1) {
// npm run build has trouble minimizing spaces inside string
var cn = `<div class="iST">
<hr class="sml">
${i+1}:
<select name="LT${i}" onchange="UI(true)">${i>=maxB ? '' :
'<option value="22" selected>WS281x</option>\
<option value="30">SK6812/WS2814 RGBW</option>\
<option value="31">TM1814</option>\
<option value="24">400kHz</option>\
<option value="25">TM1829</option>\
<option value="26">UCS8903</option>\
<option value="29">UCS8904 RGBW</option>\
<option value="50">WS2801</option>\
<option value="51">APA102</option>\
<option value="52">LPD8806</option>\
<option value="54">LPD6803</option>\
<option value="53">P9813</option>\
<option value="19">WS2811 White</option>\
<option value="40">On/Off</option>\
<option value="41">PWM White</option>\
<option value="42">PWM CCT</option>\
<option value="43">PWM RGB</option>\
<option value="44">PWM RGBW</option>\
<option value="45">PWM RGB+CCT</option>\
<!--option value="46">PWM RGB+DCCT</option-->'}
<option value="80">DDP RGB (network)</option>
<!--option value="81">E1.31 RGB (network)</option-->
<option value="82">Art-Net RGB (network)</option>
<option value="83">Art-Net RGBW (network)</option>
<option value="88">DDP RGBW (network)</option>
<option value="101">Hub75Matrix 32x32</option>
<option value="102">Hub75Matrix 64x32</option>
<option value="103">Hub75Matrix 64x64</option>
<option value="104">Hub75Matrix 128x64</option>
<option value="105">Hub75Matrix 32x32 (Outdoor 8S)</option>
<option value="106">Hub75Matrix 64x32 (Outdoor 8S)</option>
<option value="107">Hub75Matrix 64x64 (Outdoor 16S)</option>
<option value="108">Hub75Matrix 128x64 (Outdoor 16S)</option>
</select><br>
<div id="co${i}" style="display:inline">Color Order:
<select name="CO${i}">
<option value="0">GRB</option>
<option value="1">RGB</option>
<option value="2">BRG</option>
<option value="3">RBG</option>
<option value="4">BGR</option>
<option value="5">GBR</option>
</select></div>
<div id="dig${i}w" style="display:none">Swap: <select name="WO${i}"><option value="0">None</option><option value="1">W & B</option><option value="2">W & G</option><option value="3">W & R</option></select></div>
<div id="dig${i}l" style="display:none">Clock: <select name="SP${i}"><option value="0">Slowest</option><option value="1">Slow</option><option value="2">Normal</option><option value="3">Fast</option><option value="4">Fastest</option><option value="5">MAX</option><option value="6">overspeed</option></select></div>
<div>
<span id="psd${i}">Start:</span> <input type="number" name="LS${i}" id="ls${i}" class="l starts" min="0" max="8464" value="${lastEnd(i)}" oninput="startsDirty[${i}]=true;UI();" required />&nbsp;
<div id="dig${i}c" style="display:inline">Length: <input type="number" name="LC${i}" class="l" min="1" max="${maxPB}" value="1" required oninput="UI()" /></div><br>
</div>
<span id="p0d${i}">GPIO:</span> <input type="number" name="L0${i}" required class="s" onchange="UI()"/>
<span id="p1d${i}"></span><input type="number" name="L1${i}" class="s" onchange="UI()"/>
<span id="p2d${i}"></span><input type="number" name="L2${i}" class="s" onchange="UI()"/>
<span id="p3d${i}"></span><input type="number" name="L3${i}" class="s" onchange="UI()"/>
<span id="p4d${i}"></span><input type="number" name="L4${i}" class="s" onchange="UI()"/>
<div id="dig${i}O" style="display:inline"><br>Number of Outputs: <input type="number" name="AO${i}" min="1" max="255" value="1" oninput="UI()"></div>
<div id="dig${i}L" style="display:inline"><br>LEDs Per Output: <input type="number" name="AL${i}" min="1" max="65535" value="1" oninput="UI()"></div>
<div id="dig${i}F" style="display:inline"><br>FPS Limit: <input type="number" name="AF${i}" min="1" max="255" value="30" oninput="UI()"></div>
<div id="dig${i}W" style="display:inline"><br>Art-Net Warnings Go Here.</div>
<div id="dig${i}r" style="display:inline"><br><span id="rev${i}">Reversed</span>: <input type="checkbox" name="CV${i}"></div>
<div id="dig${i}s" style="display:inline"><br>Skip first LEDs: <input type="number" name="SL${i}" min="0" max="255" value="0" oninput="UI()"></div>
<div id="dig${i}f" style="display:inline"><br><span id="ref${i}">Off Refresh</span>: <input id="rf${i}" type="checkbox" name="RF${i}"></div>
<div id="dig${i}a" style="display:inline"><br>Auto-calculate white channel from RGB:<br><select name="AW${i}"><option value=0>None</option><option value=1>Brighter</option><option value=2>Accurate</option><option value=3>Dual</option><option value=4>Max</option></select>&nbsp;</div>
</div>`;
f.insertAdjacentHTML("beforeend", cn);
hideHub75(); // remove Hub75 options if not supported
}
if (n==-1) {
o[--i].remove();--i;
}
gId("+").style.display = (i<maxB+maxV-1) ? "inline":"none";
gId("-").style.display = (i>0) ? "inline":"none";
if (!init) UI();
}
function addCOM(start=0,len=1,co=0) {
var i = d.getElementsByClassName("com_entry").length;
if (i >= 10) return;
var b = `<div class="com_entry">
<hr class="sml">
${i+1}: Start: <input type="number" name="XS${i}" id="xs${i}" class="l starts" min="0" max="65535" value="${start}" oninput="UI();" required="">&nbsp;
Length: <input type="number" name="XC${i}" id="xc${i}" class="l" min="1" max="65535" value="${len}" required="" oninput="UI()">
<div style="display:inline">Color Order:
<select id="xo${i}" name="XO${i}">
<option value="0">GRB</option>
<option value="1">RGB</option>
<option value="2">BRG</option>
<option value="3">RBG</option>
<option value="4">BGR</option>
<option value="5">GBR</option>
</select>
</div><br></div>`;
gId("com_entries").insertAdjacentHTML("beforeend", b);
gId("xo"+i).value = co;
btnCOM(i+1);
UI();
}
function remCOM() {
var entries = d.getElementsByClassName("com_entry");
var i = entries.length;
if (i === 0) return;
entries[i-1].remove();
btnCOM(i-1);
UI();
}
function resetCOM(_newMaxCOOverrides=undefined) {
if (_newMaxCOOverrides) {
maxCOOverrides = _newMaxCOOverrides;
}
for (let e of d.getElementsByClassName("com_entry")) {
e.remove();
}
btnCOM(0);
}
function btnCOM(i) {
gId("com_add").style.display = (i<maxCOOverrides) ? "inline":"none";
gId("com_rem").style.display = (i>0) ? "inline":"none";
}
function addBtn(i,p,t) {
var c = gId("btns").innerHTML;
var bt = "BT" + String.fromCharCode((i<10?48:55)+i);
var be = "BE" + String.fromCharCode((i<10?48:55)+i);
c += `Button ${i} GPIO: <input type="number" name="${bt}" onchange="UI()" class="xs" value="${p}">`;
c += `&nbsp;<select name="${be}">`
c += `<option value="0" ${t==0?"selected":""}>Disabled</option>`;
c += `<option value="2" ${t==2?"selected":""}>Pushbutton</option>`;
c += `<option value="3" ${t==3?"selected":""}>Push inverted</option>`;
c += `<option value="4" ${t==4?"selected":""}>Switch</option>`;
c += `<option value="5" ${t==5?"selected":""}>PIR sensor</option>`;
c += `<option value="6" ${t==6?"selected":""}>Touch</option>`;
c += `<option value="7" ${t==7?"selected":""}>Analog</option>`;
c += `<option value="8" ${t==8?"selected":""}>Analog inverted</option>`;
c += `</select>`;
c += `<span style="cursor: pointer;" onclick="off('${bt}')">&nbsp;&#x2715;</span><br>`;
gId("btns").innerHTML = c;
}
function tglSi(cs) {
customStarts = cs;
if (!customStarts) startsDirty = []; //set all starts to clean
UI();
}
function checkSi() { //on load, checks whether there are custom start fields
var cs = false;
for (var i=1; i < d.getElementsByClassName("iST").length; i++) {
var v = parseInt(gId("ls"+(i-1)).value) + parseInt(d.getElementsByName("LC"+(i-1))[0].value);
if (v != parseInt(gId("ls"+i).value)) {cs = true; startsDirty[i] = true;}
}
if (gId("ls0") && parseInt(gId("ls0").value) != 0) {cs = true; startsDirty[0] = true;}
gId("si").checked = cs;
tglSi(cs);
}
function uploadFile(name) {
var req = new XMLHttpRequest();
req.addEventListener('load', function(){showToast(this.responseText,this.status >= 400)});
req.addEventListener('error', function(e){showToast(e.stack,true);});
req.open("POST", "/upload");
var formData = new FormData();
formData.append("data", d.Sf.data.files[0], name);
req.send(formData);
d.Sf.data.value = '';
return false;
}
// https://stackoverflow.com/questions/7346563/loading-local-json-file
function loadCfg(o) {
var f, fr;
if (typeof window.FileReader !== 'function') {
alert("The file API isn't supported on this browser yet.");
return;
}
if (!o.files) {
alert("This browser doesn't support the `files` property of file inputs.");
} else if (!o.files[0]) {
alert("Please select a JSON file first!");
} else {
f = o.files[0];
fr = new FileReader();
fr.onload = receivedText;
fr.readAsText(f);
}
o.value = '';
function receivedText(e) {
let lines = e.target.result;
var c = JSON.parse(lines);
if (c.hw) {
if (c.hw.led) {
for (var i=0; i<10; i++) addLEDs(-1);
var l = c.hw.led;
l.ins.forEach((v,i,a)=>{
addLEDs(1);
for (var j=0; j<v.pin.length; j++) d.getElementsByName(`L${j}${i}`)[0].value = v.pin[j];
d.getElementsByName("LT"+i)[0].value = v.type;
d.getElementsByName("LS"+i)[0].value = v.start;
d.getElementsByName("LC"+i)[0].value = v.len;
d.getElementsByName("CO"+i)[0].value = v.order;
d.getElementsByName("SL"+i)[0].value = v.skip;
d.getElementsByName("RF"+i)[0].checked = v.ref;
d.getElementsByName("CV"+i)[0].checked = v.rev;
});
}
if(c.hw.com) {
resetCOM();
c.hw.com.forEach(e => {
addCOM(e.start, e.len, e.order);
});
}
if (c.hw.btn) {
var b = c.hw.btn;
if (Array.isArray(b.ins)) gId("btns").innerHTML = "";
b.ins.forEach((v,i,a)=>{
addBtn(i,v.pin[0],v.type);
});
d.getElementsByName("TT")[0].value = b.tt;
}
if (c.hw.ir) {
d.getElementsByName("IR")[0].value = c.hw.ir.pin;
d.getElementsByName("IT")[0].value = c.hw.ir.type;
}
if (c.hw.relay) {
d.getElementsByName("RL")[0].value = c.hw.relay.pin;
d.getElementsByName("RM")[0].checked = c.hw.relay.inv;
}
UI();
}
}
}
function S(){
if (window.location.protocol == "file:") {
loc = true;
locip = localStorage.getItem('locIp');
if (!locip) {
locip = prompt("File Mode. Please enter WLED IP!");
localStorage.setItem('locIp', locip);
}
}
var url = (loc?`http://${locip}`:'') + '/settings/s.js?p=2';
loadJS(url, false); // If we set async false, file is loaded and executed, then next statement is processed
}
</script>
<style>@import url("style.css");</style>
</head>
<body onload="S()">
<form id="form_s" name="Sf" method="post">
<div class="toprow">
<div class="helpB"><button type="button" onclick="H()">?</button></div>
<button type="button" onclick="B()">Back</button><button type="submit">Save</button><hr>
</div>
<h2>LED &amp; Hardware setup</h2>
Total LEDs: <span id="lc">?</span> <span id="pc"></span><br>
<i>Recommended power supply for brightest white:</i><br>
<b><span id="psu">?</span></b><br>
<span id="psu2"><br></span>
<br>
Enable automatic brightness limiter: <input type="checkbox" name="ABen" onchange="enABL()" id="able"><br>
<div id="abl">
Maximum Current: <input name="MA" type="number" class="l" min="250" max="65000" oninput="UI()" required> mA<br>
<div id="ampwarning" style="color: orange; display: none;">
&#9888; Your power supply provides high current.<br>
To improve the safety of your setup,<br>
please use thick cables,<br>
multiple power injection points and a fuse!<br>
</div>
<i>Automatically limits brightness to stay close to the limit.<br>
Keep at &lt;1A if powering LEDs directly from the ESP 5V pin!<br>
If you are using an external power supply, enter its rating.<br>
(Current estimated usage: <span class="pow">unknown</span>)</i><br><br>
LED voltage (Max. current for a single LED):<br>
<select name="LAsel" onchange="enLA()">
<option value="55" selected>5V default (55mA)</option>
<option value="35">5V efficient (35mA)</option>
<option value="30">12V (30mA)</option>
<option value="255">WS2815 (12mA)</option>
<option value="50">Custom</option>
</select><br>
<span id="LAdis" style="display: none;">Custom max. current per LED: <input name="LA" type="number" min="0" max="255" id="la" oninput="UI()" required> mA<br></span>
<i>Keep at default if you are unsure about your type of LEDs.</i><br>
</div>
<h3>Hardware setup</h3>
<div id="mLC">LED outputs:</div>
<hr class="sml">
<button type="button" id="+" onclick="addLEDs(1,false)">+</button>
<button type="button" id="-" onclick="addLEDs(-1,false)">-</button><br>
LED Memory Usage: <span id="m0">0</span> / <span id="m1">?</span> B<br>
<div id="dbar" style="display:inline-block; width: 100px; height: 10px; border-radius: 20px;"></div><br>
<div id="ledwarning" style="color: orange; display: none;">
&#9888; You might run into stability or lag issues.<br>
Use less than <span id="wreason">800 LEDs per output</span> for the best experience!<br>
</div>
<hr class="sml">
Make a segment for each output: <input type="checkbox" name="MS"><br>
Custom bus start indices: <input type="checkbox" onchange="tglSi(this.checked)" id="si"><br>
Use global LED buffer: <input type="checkbox" name="LD"><br>
<i>WLEDMM: Recommended for overlapping segments (0.13 style)</i><br>
<hr class="sml">
<div id="color_order_mapping">
Color Order Override:
<div id="com_entries"></div>
<hr class="sml">
<button type="button" id="com_add" onclick="addCOM()">+</button>
<button type="button" id="com_rem" onclick="remCOM()">-</button><br>
</div>
<hr class="sml">
<div id="btns"></div>
Disable internal pull-up/down: <input type="checkbox" name="IP"><br>
Touch threshold: <input type="number" class="s" min="0" max="100" name="TT" required><br>
<div id="irOnOff2"> <!--WLEDMM-->
<em style="color:darkorange">This firmware build does not include IR Remote support. <br></em>
</div>
IR GPIO: <input type="number" min="-1" max="48" name="IR" onchange="UI()" class="xs"><select name="IT" onchange="UI()">
<option value=0>Remote disabled</option>
<option value=1>24-key RGB</option>
<option value=2>24-key with CT</option>
<option value=3>40-key blue</option>
<option value=4>44-key RGB</option>
<option value=5>21-key RGB</option>
<option value=6>6-key black</option>
<option value=7>9-key red</option>
<option value=8>JSON remote</option>
<option value=9>24-key music</option> <!--WLEDMM-->
</select><span style="cursor: pointer;" onclick="off('IR')">&nbsp;&#x2715;</span><br>
Apply IR change to main segment only: <input type="checkbox" name="MSO"><br>
<div id="json" style="display:none;">JSON file: <input type="file" name="data" accept=".json"><button type="button" class="sml" onclick="uploadFile('/ir.json')">Upload</button><br></div>
<a href="https://mm.kno.wled.ge/interfaces/infrared/" target="_blank">IR info</a><br>
Relay GPIO: <input type="number" min="-1" max="48" name="RL" onchange="UI()" class="xs"> Invert <input type="checkbox" name="RM"><span style="cursor: pointer;" onclick="off('RL')">&nbsp;&#x2715;</span><br>
<hr class="sml">
<h3>Defaults</h3>
Turn LEDs on after power up/reset: <input type="checkbox" name="BO"><br>
Default brightness: <input name="CA" type="number" class="m" min="0" max="255" required> (0-255)<br><br>
Apply preset <input name="BP" type="number" class="m" min="0" max="250" required> at boot (0 uses defaults)
<br><br>
Use Gamma correction for color: <input type="checkbox" name="GC"> (strongly recommended)<br>
Use Gamma correction for preview: <input type="checkbox" name="GCP"> (<em>WLEDMM experimental </em>)<br><!--WLEDMM-->
Use Gamma correction for brightness: <input type="checkbox" name="GB"> (not recommended)<br>
Use Gamma value: <input name="GV" type="number" class="m" placeholder="2.8" min="1" max="3" step="0.1" required><br><br>
Brightness factor: <input name="BF" type="number" class="m" min="1" max="255" required> %
<h3>Transitions</h3>
Cross-fade: <input type="checkbox" name="TF"><br>
Transition Time: <input name="TD" type="number" class="xl" min="0" max="65500"> ms<br>
Enable Palette transitions: <input type="checkbox" name="PF"><br>
<i>Random Cycle</i> Palette Time: <input name="TP" type="number" class="m" min="1" max="255"> s<br>
<h3>Timed light</h3>
Default Duration: <input name="TL" type="number" class="m" min="1" max="255" required> min<br>
Default Target brightness: <input name="TB" type="number" class="m" min="0" max="255" required><br>
Mode:
<select name="TW">
<option value="0">Wait and set</option>
<option value="1">Fade</option>
<option value="2">Fade Color</option>
<option value="3">Sunrise</option>
</select>
<h3>White management</h3>
White Balance correction: <input type="checkbox" name="CCT"><br>
<div id="wc">
Global override for Auto-calculate white:<br>
<select name="AW">
<option value=255>Disabled</option>
<option value=0>None</option>
<option value=1>Brighter</option>
<option value=2>Accurate</option>
<option value=3>Dual</option>
<option value=4>Max</option>
</select>
<br>
Calculate CCT from RGB: <input type="checkbox" name="CR"><br>
CCT additive blending: <input type="number" class="s" min="0" max="100" name="CB" required> %
</div>
<h3>Advanced</h3>
Palette blending:
<select name="PB">
<option value="0">Linear (wrap if moving)</option>
<option value="1">Linear (always wrap)</option>
<option value="2">Linear (never wrap)</option>
<option value="3">None (not recommended)</option>
</select><br><br>
Target refresh rate: <input type="number" class="s" min="0" max="250" name="FR" oninput="UI()" required> FPS
<div id="fpsNoHelp" style="display: block;"><i>use 0 for unlimited</i><br></div>
<div id="fpsNone" style="color:green; display: none;"><b>Unlimited refresh rate mode.</b><br></div>
<div id="fpswarning" style="color:GoldenRod; display: none;">
&#9888; WLED may become unstable above 80 fps.<br>
To protect your setup,
please make sure to <a class="lnk" href="sec#backup">backup</a> WLED configuration and presets before raising target FPS above 80!<br>
</div>
<div id="fpshelp1" style="color: orange; display: none;">For a very smooth experience, use less than 300 LEDs per output!<br> </div><!-- up to 120 fps on ws281x -->
<div id="fpshelp2" style="color: orange; display: none;">For an extremely smooth experience, use less than 180 LEDs per output!<br></div><!-- up to 180 fps on WS281x -->
<div id="fpshelp3" style="color: orange; display: none;">For a mega ultra smooth experience, use less than 132 LEDs per output!<br></div><!-- up to 240 fps on WS281x -->
<hr class="sml">
<div id="cfg">Config template: <input type="file" name="data2" accept=".json"><button type="button" class="sml" onclick="loadCfg(d.Sf.data2)">Apply</button><br></div>
<hr>
<button type="button" onclick="B()">Back</button><button type="submit">Save</button>
</form>
<div id="toast"></div>
</body>
</html>
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