mirror
/
WLED
kopia lustrzana https://github.com/Aircoookie/WLED
1
0
Forkuj 0
Kod Zgłoszenia Packages Projekty Wydania Wiki Aktywność
WLED/wled00/data/settings_leds.htm

890 wiersze
37 KiB
HTML
Czysty Wina Historia

<!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=4096,maxL=1333,maxLbquot=0; //maximum bytes for LED allocation: 4kB for 8266, 32kB for 32
d.um_p = [];
d.rsvd = [];
d.ro_gpio = [];
d.max_gpio = 50;
var customStarts=false,startsDirty=[],maxCOOverrides=5;
var loc = false, locip, locproto = "http:";
function H(){window.open("https://kno.wled.ge/features/settings/#led-settings");}
function B(){window.open(getURL("/settings"),"_self");}
function gId(n){return d.getElementById(n);}
function off(n){d.getElementsByName(n)[0].value = -1;}
// these functions correspond to C macros found in const.h
function isPWM(t) { return t > 40 && t < 46; } // is PWM type
function isAna(t) { return t == 40 || isPWM(t); } // is analog type
function isDig(t) { return (t > 15 && t < 40) || isD2P(t); } // is digital type
function isD2P(t) { return t > 47 && t < 64; } // is digital 2 pin type
function is16b(t) { return t == 26 || t == 29 } // is digital 16 bit type
function isVir(t) { return t >= 80 && t < 96; } // is virtual type
function hasW(t) { return (t >= 18 && t <= 21) || (t >= 28 && t <= 32) || (t >= 44 && t <= 45) || (t >= 88 && t <= 89); }
function hasCCT(t) { return t == 20 || t == 21 || t == 42 || t == 45 || t == 28 || t == 32; }
// 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();
d.Sf.addEventListener("submit", trySubmit);
if (d.um_p[0]==-1) d.um_p.shift();
pinDropdowns();
});
// 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,p,m,l) {
maxB = b; maxV = v; maxM = m; maxPB = p; maxL = l;
}
function pinsOK() {
var ok = true;
var nList = d.Sf.querySelectorAll("#mLC input[name^=L]");
nList.forEach((LC,i)=>{
if (!ok) return; // prevent iteration after conflict
let nm = LC.name.substring(0,2);
let n = LC.name.substring(2);
let t = parseInt(d.Sf["LT"+n].value, 10); // LED type SELECT
// ignore IP address
if (nm=="L0" || nm=="L1" || nm=="L2" || nm=="L3") {
if (t>=80) return;
}
//check for pin conflicts
if (nm=="L0" || nm=="L1" || nm=="L2" || nm=="L3" || nm=="L4")
if (LC.value!="" && LC.value!="-1") {
let p = d.rsvd.concat(d.um_p); // used pin array
d.Sf.querySelectorAll("select.pin").forEach((e)=>{if(e.value>-1)p.push(parseInt(e.value));}) // buttons, IR & relay
if (p.some((e)=>e==parseInt(LC.value))) {
alert(`Sorry, pins ${JSON.stringify(p)} can't be used.`);
LC.value="";
LC.focus();
ok = false;
return;
} else if (d.ro_gpio.some((e)=>e==parseInt(LC.value))) {
alert(`Sorry, pins ${JSON.stringify(d.ro_gpio)} are input only.`);
LC.value="";
LC.focus();
ok = false;
return;
}
for (j=i+1; j<nList.length; j++) {
let n2 = nList[j].name.substring(0,2);
if (n2=="L0" || n2=="L1" || n2=="L2" || n2=="L3" || n2=="L4") {
if (n2.substring(0,1)==="L") {
var m = nList[j].name.substring(2);
var t2 = parseInt(d.Sf["LT"+m].value, 10);
if (t2>=80) continue;
}
if (nList[j].value!="" && nList[i].value==nList[j].value) {
alert(`Pin conflict between ${LC.name}/${nList[j].name}!`);
nList[j].value="";
nList[j].focus();
ok = false;
return;
}
}
}
}
});
return ok;
}
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.ABL.checked || d.Sf.PPL.checked) d.Sf.MA.value = 0; // submit 0 as ABL (PPL will handle it)
if (d.Sf.checkValidity()) d.Sf.submit(); //https://stackoverflow.com/q/37323914
}
function enABL()
{
var en = d.Sf.ABL.checked;
gId('abl').style.display = (en) ? 'inline':'none';
gId('psu2').style.display = (en) ? 'inline':'none';
if (!en) d.Sf.PPL.checked = false;
UI();
}
// enable per port limiter and calculate current
function enPPL(sDI=0)
{
const abl = d.Sf.ABL.checked;
const ppl = d.Sf.PPL.checked;
let sumMA = 0;
d.Sf.MA.readonly = ppl;
d.Sf.MA.min = abl && !ppl ? 250 : 0;
gId("psuMA").style.display = ppl ? 'none' : 'inline';
gId("ppldis").style.display = ppl ? 'inline' : 'none';
// set PPL minimum value and clear actual PPL limit if ABL disabled
d.Sf.querySelectorAll("#mLC input[name^=MA]").forEach((i,n)=>{
gId("PSU"+n).style.display = ppl ? "inline" : "none";
const t = parseInt(d.Sf["LT"+n].value); // LED type SELECT
const c = parseInt(d.Sf["LC"+n].value); //get LED count
i.min = ppl && !(isVir(t) || isAna(t)) ? 250 : 0;
if (!abl || isVir(t) || isAna(t)) i.value = 0;
else if (ppl) sumMA += parseInt(i.value,10);
else if (sDI) i.value = Math.round(parseInt(d.Sf.MA.value,10)*c/sDI);
});
if (ppl) d.Sf.MA.value = sumMA; // populate UI ABL value if PPL used
}
function enLA(s,n)
{
const t = parseInt(d.Sf["LT"+n].value); // LED type SELECT
gId('LAdis'+n).style.display = s.selectedIndex==5 ? "inline" : "none";
if (s.value!=="0") d.Sf["LA"+n].value = s.value;
d.Sf["LA"+n].min = (isVir(t) || isAna(t)) ? 0 : 1;
}
function setABL()
{
d.Sf.ABL.checked = parseInt(d.Sf.MA.value) > 0;
// check if ABL is enabled (max mA entered per output)
d.Sf.querySelectorAll("#mLC input[name^=MA]").forEach((i,n)=>{
if (parseInt(i.value) > 0) d.Sf.ABL.checked = true;
});
// select appropriate LED current
d.Sf.querySelectorAll("#mLC select[name^=LAsel]").forEach((sel,n)=>{
sel.value = 0; // set custom
switch (parseInt(d.Sf["LA"+n].value)) {
case 0: break; // disable ABL
case 15: sel.value = 15; break;
case 30: sel.value = 30; break;
case 35: sel.value = 35; break;
case 55: sel.value = 55; break;
case 255: sel.value = 255; break;
}
enLA(sel,n);
});
enABL();
gId('m1').innerHTML = maxM;
}
//returns mem usage
function getMem(t, n) {
if (isAna(t)) return 5; // analog
let len = parseInt(d.getElementsByName("LC"+n)[0].value);
len += parseInt(d.getElementsByName("SL"+n)[0].value); // skipped LEDs are allocated too
let dbl = 0;
let ch = 3;
let mul = 1;
if (isDig(t)) {
if (is16b(t)) len *= 2; // 16 bit LEDs
if (t > 28 && t < 40) ch = 4; //RGBW
if (t == 28) ch = 5; //GRBCW
if (maxM < 10000 && d.getElementsByName("L0"+n)[0].value == 3) { //8266 DMA uses 5x the mem
mul = 5;
}
if (maxM >= 10000) { //ESP32 RMT uses double buffer?
mul = 2;
}
if (d.Sf.LD.checked) dbl = len * ch; // double buffering
}
if (isVir(t) && t == 88) ch = 4;
return len * ch * mul + dbl;
}
function UI(change=false)
{
let gRGBW = false, memu = 0;
let busMA = 0;
let sLC = 0, sPC = 0, sDI = 0, maxLC = 0;
const ablEN = d.Sf.ABL.checked;
// enable/disable LED fields
d.Sf.querySelectorAll("#mLC select[name^=LT]").forEach((s)=>{
// is the field a LED type?
var n = s.name.substring(2);
var t = parseInt(s.value);
gId("p0d"+n).innerHTML = isVir(t) ? "IP address:" : isD2P(t) ? "Data GPIO:" : (t > 41) ? "GPIOs:" : "GPIO:";
gId("p1d"+n).innerHTML = isD2P(t) ? "Clk GPIO:" : "";
gId("abl"+n).style.display = (!ablEN || isVir(t) || isAna(t)) ? "none" : "inline";
//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.Sf["L"+p+n]; // secondary pins
if (!LK) continue;
if ((isVir(t) && p<4) || (isD2P(t) && p==1) || (isPWM(t) && (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 (isAna(t)) d.Sf["LC"+n].value = 1; // for sanity change analog count just to 1 LED
d.Sf["LA"+n].min = (isVir(t) || isAna(t)) ? 0 : 1;
d.Sf["MA"+n].min = (isVir(t) || isAna(t)) ? 0 : 250;
}
gId("rf"+n).onclick = (t == 31) ? (()=>{return false}) : (()=>{}); // prevent change for TM1814
gRGBW |= hasW(t); // RGBW checkbox, TYPE_xxxx values from const.h
gId("co"+n).style.display = (isVir(t) || isAna(t)) ? "none":"inline"; // hide color order for PWM
gId("dig"+n+"w").style.display = (isDig(t) && hasW(t)) ? "inline":"none"; // show swap channels dropdown
if (!(isDig(t) && hasW(t))) d.Sf["WO"+n].value = 0; // reset swapping
gId("dig"+n+"c").style.display = (isAna(t)) ? "none":"inline"; // hide count for analog
gId("dig"+n+"r").style.display = (isVir(t)) ? "none":"inline"; // hide reversed for virtual
gId("dig"+n+"s").style.display = (isVir(t) || isAna(t)) ? "none":"inline"; // hide skip 1st for virtual & analog
gId("dig"+n+"f").style.display = (isDig(t)) ? "inline":"none"; // hide refresh
gId("dig"+n+"a").style.display = (hasW(t)) ? "inline":"none"; // auto calculate white
gId("dig"+n+"l").style.display = (isD2P(t) || isPWM(t)) ? "inline":"none"; // bus clock speed / PWM speed (relative) (not On/Off)
gId("rev"+n).innerHTML = isAna(t) ? "Inverted output":"Reversed (rotated 180°)"; // change reverse text for analog
//gId("psd"+n).innerHTML = isAna(t) ? "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;
}
// update start indexes, max values, calculate current, etc
var nList = d.Sf.querySelectorAll("#mLC input[name^=L]");
nList.forEach((LC,i)=>{
let nm = LC.name.substring(0,2); // field name
let n = LC.name.substring(2); // bus number
let t = parseInt(d.Sf["LT"+n].value); // LED type SELECT
// do we have a led count field
if (nm=="LC") {
let c = parseInt(LC.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) {
let 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
if (!isVir(t)) sPC += c; //virtual out busses do not count towards physical LEDs
if (!(isVir(t) || isAna(t))) {
sDI += c; // summarize digital LED count
let maPL = parseInt(d.Sf["LA"+n].value);
if (maPL == 255) maPL = 12;
busMA += maPL*c; // summarize maximum bus current (calculated)
}
} // increase led count
return;
}
// do we have led pins for digital leds
if (nm=="L0" || nm=="L1") {
d.Sf["LC"+n].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") {
if (isVir(t)) {
LC.max = 255;
LC.min = 0;
LC.style.color="#fff";
return; // do not check conflicts
} else {
LC.max = d.max_gpio;
LC.min = -1;
}
}
// check for pin conflicts & color fields
if (nm=="L0" || nm=="L1" || nm=="L2" || nm=="L3" || nm=="L4")
if (LC.value!="" && LC.value!="-1") {
let p = d.rsvd.concat(d.um_p); // used pin array
d.Sf.querySelectorAll("select.pin").forEach((e)=>{if(e.value>-1)p.push(parseInt(e.value));}) // buttons, IR & relay
for (j=0; j<nList.length; j++) {
if (i==j) continue;
let n2 = nList[j].name.substring(0,2);
if (n2=="L0" || n2=="L1" || n2=="L2" || n2=="L3" || n2=="L4") {
if (n2.substring(0,1)==="L") {
let m = nList[j].name.substring(2);
let t2 = parseInt(d.Sf["LT"+m].value, 10);
if (isVir(t2)) continue;
}
if (nList[j].value!="" && nList[j].value!="-1") p.push(parseInt(nList[j].value,10)); // add current pin
}
}
// now check for conflicts
if (p.some((e)=>e==parseInt(LC.value))) LC.style.color = "red";
else LC.style.color = d.ro_gpio.some((e)=>e==parseInt(LC.value)) ? "orange" : "#fff";
}
});
// distribute ABL current if not using PPL
enPPL(sDI);
// 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
gId('ampwarning').style.display = (parseInt(d.Sf.MA.value,10) > 7200) ? 'inline':'none';
var val = Math.ceil((100 + busMA)/500)/2;
val = (val > 5) ? Math.ceil(val) : val;
var s = "A power supply with total of ";
s += val;
s += "A is required.";
var val2 = Math.ceil((100 + busMA)/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 = 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)">${i>=maxB ? '' :
'<option value="22" selected>WS281x</option>\
<option value="30">SK6812/WS2814 RGBW</option>\
<option value="31">TM1814</option>\
<option value="24">400kHz</option>\
<option value="25">TM1829</option>\
<option value="26">UCS8903</option>\
<option value="27">APA106/PL9823</option>\
<option value="28">FW1906 GRBCW</option>\
<option value="29">UCS8904 RGBW</option>\
<option value="32">WS2805 RGBCW</option>\
<option value="50">WS2801</option>\
<option value="51">APA102</option>\
<option value="52">LPD8806</option>\
<option value="54">LPD6803</option>\
<option value="53">P9813</option>\
<option value="19">WS2811 White</option>\
<option value="40">On/Off</option>\
<option value="41">PWM White</option>\
<option value="42">PWM CCT</option>\
<option value="43">PWM RGB</option>\
<option value="44">PWM RGBW</option>\
<option value="45">PWM RGB+CCT</option>\
<!--option value="46">PWM RGB+DCCT</option-->'}
<option value="80">DDP RGB (network)</option>
<!--option value="81">E1.31 RGB (network)</option-->
<option value="82">Art-Net RGB (network)</option>
<option value="88">DDP RGBW (network)</option>
<option value="89">Art-Net RGBW (network)</option>
</select><br>
<div id="abl${i}">
mA/LED: <select name="LAsel${i}" onchange="enLA(this,${i});UI();">
<option value="55" selected>55mA (typ. 5V WS281x)</option>
<option value="35">35mA (eco WS2812)</option>
<option value="30">30mA (typ. 12V)</option>
<option value="255">12mA (WS2815)</option>
<option value="15">15mA (seed/fairy pixels)</option>
<option value="0">Custom</option>
</select><br>
<div id="LAdis${i}" style="display: none;">max. mA/LED: <input name="LA${i}" type="number" min="1" max="255" oninput="UI()"> mA<br></div>
<div id="PSU${i}">PSU: <input name="MA${i}" type="number" class="xl" min="250" max="65000" oninput="UI()" value="250"> mA<br></div>
</div>
<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></select></div>
<div>
<span id="psd${i}">Start:</span> <input type="number" name="LS${i}" id="ls${i}" class="l starts" min="0" max="8191" value="${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();pinUpd(this);"/>
<span id="p1d${i}"></span><input type="number" name="L1${i}" class="s" onchange="UI();pinUpd(this);"/>
<span id="p2d${i}"></span><input type="number" name="L2${i}" class="s" onchange="UI();pinUpd(this);"/>
<span id="p3d${i}"></span><input type="number" name="L3${i}" class="s" onchange="UI();pinUpd(this);"/>
<span id="p4d${i}"></span><input type="number" name="L4${i}" class="s" onchange="UI();pinUpd(this);"/>
<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>Off Refresh: <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);
}
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="${len}" required="" oninput="UI()">
<div>Color Order:
<select id="xo${i}" name="XO${i}">
<option value="0">GRB</option>
<option value="1">RGB</option>
<option value="2">BRG</option>
<option value="3">RBG</option>
<option value="4">BGR</option>
<option value="5">GBR</option>
</select>
Swap: <select id="xw${i}" name="XW${i}">
<option value="0">Use global</option>
<option value="1">W & B</option>
<option value="2">W & G</option>
<option value="3">W & R</option>
</select>
</div></div>`;
gId("com_entries").insertAdjacentHTML("beforeend", b);
gId("xo"+i).value = co & 0x0F;
gId("xw"+i).value = co >> 4;
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 += `<option value="9" ${t==9?"selected":""}>Touch (switch)</option>`;
c += `</select>`;
c += `<span style="cursor: pointer;" onclick="off('${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.rev;
d.getElementsByName("RO")[0].checked = c.hw.relay.odrain;
}
UI();
}
}
}
function pinDropdowns() {
let fields = ["IR","RL"]; // IR & relay
gId("btns").querySelectorAll('input[type="number"]').forEach((e)=>{fields.push(e.name);}) // buttons
for (let i of d.Sf.elements) {
if (i.type === "number" && fields.includes(i.name)) { //select all pin select elements
let v = parseInt(i.value);
let sel = addDropdown(i.name,0);
for (var j = -1; j <= d.max_gpio; j++) {
if (d.rsvd.includes(j)) continue;
let foundPin = d.um_p.indexOf(j);
let txt = (j === -1) ? "unused" : `${j}`;
if (foundPin >= 0 && j !== v) txt += ` used`; // already reserved pin
if (d.ro_gpio.includes(j)) txt += " (R/O)";
let opt = addOption(sel, txt, j);
if (j === v) opt.selected = true; // this is "our" pin
else if (d.um_p.includes(j)) opt.disabled = true; // someone else's pin
}
}
}
// update select options
d.Sf.querySelectorAll("select.pin").forEach((e)=>{pinUpd(e);});
// add dataset values for LED GPIO pins
d.Sf.querySelectorAll(".iST input.s[name^=L]").forEach((i)=>{
if (i.value!=="" && i.value>=0)
i.dataset.val = i.value;
});
}
function pinUpd(e) {
// update changed select options across all usermods
let oldV = parseInt(e.dataset.val);
e.dataset.val = e.value;
let txt = e.name;
let pins = [];
d.Sf.querySelectorAll(".iST input.s[name^=L]").forEach((i)=>{
if (i.value!=="" && i.value>=0 && i.max<255)
pins.push(i.value);
});
let selects = d.Sf.querySelectorAll("select.pin");
for (let sel of selects) {
if (sel == e) continue
Array.from(sel.options).forEach((i)=>{
let led = pins.includes(i.value);
if (!(i.value==oldV || i.value==e.value || led)) return;
if (i.value == -1) {
i.text = "unused";
return
}
i.text = i.value;
if (i.value==oldV) {
i.disabled = false;
}
if (i.value==e.value || led) {
i.disabled = true;
i.text += ` ${led?'LED':txt}`;
}
if (d.ro_gpio.includes(parseInt(i.value))) i.text += " (R/O)";
});
}
}
// https://stackoverflow.com/questions/39729741/javascript-change-input-text-to-select-option
function addDropdown(field) {
let sel = d.createElement('select');
sel.classList.add("pin");
let inp = d.getElementsByName(field)[0];
if (inp && inp.tagName === "INPUT" && (inp.type === "text" || inp.type === "number")) { // may also use nodeName
let v = inp.value;
let n = inp.name;
// copy the existing input element's attributes to the new select element
for (var i = 0; i < inp.attributes.length; ++ i) {
var att = inp.attributes[i];
// type and value don't apply, so skip them
// ** you might also want to skip style, or others -- modify as needed **
if (att.name != 'type' && att.name != 'value' && att.name != 'class' && att.name != 'style') {
sel.setAttribute(att.name, att.value);
}
}
sel.setAttribute("data-val", v);
sel.setAttribute("onchange", "pinUpd(this)");
// finally, replace the old input element with the new select element
inp.parentElement.replaceChild(sel, inp);
return sel;
}
return null;
}
function addOption(sel,txt,val) {
if (sel===null) return; // select object missing
let opt = d.createElement("option");
opt.value = val;
opt.text = txt;
sel.appendChild(opt);
for (let i=0; i<sel.childNodes.length; i++) {
let c = sel.childNodes[i];
if (c.value == sel.dataset.val) sel.selectedIndex = i;
}
return opt;
}
function S() {
let l = window.location;
if (l.protocol == "file:") {
loc = true;
locip = localStorage.getItem('locIp');
if (!locip) {
locip = prompt("File Mode. Please enter WLED IP!");
localStorage.setItem('locIp', locip);
}
} else {
// detect reverse proxy
let path = l.pathname;
let paths = path.slice(1,path.endsWith('/')?-1:undefined).split("/");
if (paths.length > 2) {
paths.pop(); // remove "leds"
paths.pop(); // remove "settings"
locproto = l.protocol;
loc = true;
locip = l.hostname + (l.port ? ":" + l.port : "") + "/" + paths.join('/');
}
}
loadJS(getURL('/settings/s.js?p=2'), false); // If we set async false, file is loaded and executed, then next statement is processed
if (loc) d.Sf.action = getURL('/settings/leds');
}
function getURL(path) {
return (loc ? locproto + "//" + locip : "") + path;
}
</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="ABL" onchange="enABL()"><br>
<div id="abl">
<i>Automatically limits brightness to stay close to the limit.<br>
Keep at &lt;1A if poweing LEDs directly from the ESP 5V pin!<br>
Analog (PWM) and virtual LEDs cannot use automatic brightness limiter.<br></i>
<div id="psuMA">Maximum PSU Current: <input name="MA" type="number" class="xl" min="250" max="65000" oninput="UI()" required> mA<br></div>
Use per-output limiter: <input type="checkbox" name="PPL" onchange="UI()"><br>
<div id="ppldis" style="display:none;">
<i>Make sure you enter correct values in each LED output.<br>
If using multiple outputs with only one PSU, distribute its power proportionally amongst ouputs.</i><br>
</div>
<div id="ampwarning" class="warn" style="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>
</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" class="warn" style="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" onchange="UI()"><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>
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>
</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://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"><span style="cursor: pointer;" onclick="off('RL')">&nbsp;&#x2715;</span> Invert <input type="checkbox" name="RM"> Open drain <input type="checkbox" name="RO"><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 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>
Enable transitions: <input type="checkbox" name="TF" onchange="gId('tran').style.display=this.checked?'inline':'none';"><br>
<span id="tran">
Effect blending: <input type="checkbox" name="EB"><br>
Transition Time: <input name="TD" type="number" class="xl" min="0" max="65500"> ms<br>
Palette transitions: <input type="checkbox" name="PF"><br>
</span>
<i>Random Cycle</i> Palette Time: <input name="TP" type="number" class="m" min="1" max="255"> s<br>
Use harmonic <i>Random Cycle</i> Palette: <input type="checkbox" name="TH"><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 IC used (Athom 15W): <input type="checkbox" name="IC"><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>
Target refresh rate: <input type="number" class="s" min="1" max="120" name="FR" required> FPS
<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>
Reference in New Issue View Git Blame Kopiuj bezpośredni odnośnik