kieran-mcauliffe/max-mod-enum
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base: kieran-mcauliffe:save-center
Branches Tags
kieran-mcauliffe:main kieran-mcauliffe:directory-structure kieran-mcauliffe:help-patch-integration kieran-mcauliffe:help-patch kieran-mcauliffe:viewMode-max kieran-mcauliffe:bpatcher-embed kieran-mcauliffe:hotfix kieran-mcauliffe:more-dj-instances kieran-mcauliffe:showhide-button kieran-mcauliffe:button-headers kieran-mcauliffe:increase-maxlfos kieran-mcauliffe:removing-lock kieran-mcauliffe:nn-communication kieran-mcauliffe:lock kieran-mcauliffe:noise-functions kieran-mcauliffe:user-defined-table kieran-mcauliffe:save-center
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compare: kieran-mcauliffe:directory-structure
Branches Tags
kieran-mcauliffe:directory-structure kieran-mcauliffe:main kieran-mcauliffe:help-patch-integration kieran-mcauliffe:help-patch kieran-mcauliffe:viewMode-max kieran-mcauliffe:bpatcher-embed kieran-mcauliffe:hotfix kieran-mcauliffe:more-dj-instances kieran-mcauliffe:showhide-button kieran-mcauliffe:button-headers kieran-mcauliffe:increase-maxlfos kieran-mcauliffe:removing-lock kieran-mcauliffe:nn-communication kieran-mcauliffe:lock kieran-mcauliffe:noise-functions kieran-mcauliffe:user-defined-table kieran-mcauliffe:save-center

70 Commits
save-cente ... directory-

Author SHA1 Message Date
Kieran
53a88ca374 restructuring repo 2025-08-11 14:51:25 +02:00
kieran-mcauliffe
7f464366af Merge pull request 'how to integrate tab' (#22) from help-patch-integration into main 
Reviewed-on: #22
 2025-08-04 16:28:21 +02:00
Kieran
51420cbd5f how to integrate tab 2025-08-04 16:27:13 +02:00
kieran-mcauliffe
533de4668a Merge pull request 'initial help patch' (#19) from help-patch into main 
Reviewed-on: #19
 2025-07-29 14:10:37 +02:00
Kieran
b850440287 improved text placement 2025-07-29 14:10:14 +02:00
Kieran
7ac026f35f initial help patch 2025-07-22 15:27:16 +02:00
kieran-mcauliffe
7cb4180d97 Merge pull request 'setting viewMode directly from Max' (#16) from viewMode-max into main 
Reviewed-on: #16
 2025-07-21 16:15:52 +02:00
Kieran
51767ff058 setting viewMode directly from Max 2025-07-21 16:14:12 +02:00
Eveline-97
fe68764e7d fix aligning 2025-07-02 14:29:59 +02:00
Eveline-97
40d0927a0e streamline layout patch 2025-07-02 12:16:30 +02:00
Eveline-97
92b7545e90 match Max layout to jweb 2025-07-02 12:07:53 +02:00
Eveline-97
4912b398dd Merge remote-tracking branch 'refs/remotes/origin/main' 
merge
 2025-07-01 16:34:50 +02:00
Eveline-97
02d5c6e914 cleanup modulator table 2025-07-01 16:34:27 +02:00
kieran-mcauliffe
13f3a18c4c Merge pull request 'bpatcher-embed' (#15) from bpatcher-embed into main 
Reviewed-on: #15
 2025-07-01 16:32:05 +02:00
kieran-mcauliffe
f21220e7b2 Merge branch 'main' into bpatcher-embed 2025-07-01 16:31:40 +02:00
Kieran
fe165b77e5 working saving for bpatcher 2025-07-01 16:30:08 +02:00
Eveline-97
a7b0de9e66 navigation bar 2025-07-01 16:15:41 +02:00
Kieran
43d37f215f Merge branch 'main' into bpatcher-embed 2025-07-01 16:12:51 +02:00
Eveline-97
c1a0a4d919 basic design 2025-07-01 15:04:49 +02:00
kieran-mcauliffe
e2f33b8ba7 Merge pull request 'properly saving on adding rows, changing enum length, changing enum params' (#14) from hotfix into main 
Reviewed-on: #14
 2025-07-01 09:54:22 +02:00
Kieran
a19717a759 properly saving on adding rows, changing enum length, changing enum params 2025-07-01 09:53:39 +02:00
Kieran
64da80b742 WIP 2025-07-01 09:25:27 +02:00
Eveline-97
34549daf67 also enumerator items as datacells 2025-07-01 09:20:30 +02:00
Eveline-97
dd47c0b030 enumerators as table, jweb bit wider 2025-07-01 09:18:02 +02:00
Kieran
0b7dbbb775 Merge branch 'main' into bpatcher-embed 2025-06-30 12:00:29 +02:00
kieran-mcauliffe
290ff73524 Merge pull request 'more instances of DJster' (#13) from more-dj-instances into main 
Reviewed-on: #13
 2025-06-30 11:59:31 +02:00
Kieran
9b1a9f2e03 more instances 2025-06-30 11:58:56 +02:00
Kieran
541ab6d459 created initial bpatcher file and maxhelp 2025-06-30 11:44:03 +02:00
kieran-mcauliffe
b96f2aa53b Merge pull request 'button for showing and hiding everything' (#12) from showhide-button into main 
Reviewed-on: #12
 2025-06-30 11:00:09 +02:00
Kieran
edcddde844 button for showing and hiding everything 2025-06-30 10:58:51 +02:00
kieran-mcauliffe
e41567c101 Merge pull request 'buttons for switching between modes' (#11) from button-headers into main 
Reviewed-on: #11
 2025-06-30 10:22:01 +02:00
kieran-mcauliffe
8002ae8bdb Merge branch 'main' into button-headers 2025-06-30 10:21:44 +02:00
Kieran
286a43b0b2 buttons for switching between modes 2025-06-30 10:19:42 +02:00
kieran-mcauliffe
229ddb9c37 Merge pull request 'increased max number of lfos and enums to 200' (#10) from increase-maxlfos into main 
Reviewed-on: #10
 2025-06-30 09:46:03 +02:00
Kieran
bbcfd8faab increased max number of lfos and enums to 200 2025-06-30 09:40:14 +02:00
kieran-mcauliffe
5d092a607c Merge pull request 'removed lock' (#9) from removing-lock into main 
Reviewed-on: #9
 2025-06-30 09:32:36 +02:00
Kieran
de28fd87fa removed lock 2025-06-30 09:31:23 +02:00
Eveline-97
07c4826bd9 table layout for modulators 2025-06-29 17:53:12 +02:00
Eveline-97
501fca079e autopattr save and load waves, functions, types 2025-05-15 10:32:39 +02:00
Eveline-97
3507899eb3 debug function waves works now 2025-05-15 10:18:10 +02:00
Eveline-97
dc2daade1b add function functionality for custom shape 2025-05-14 14:42:34 +02:00
Kieran
149d1a0b8d save on every UI change 2025-05-13 11:24:39 +02:00
Kieran
4ee8a93791 four user defined waves 2025-02-12 11:02:51 +01:00
kieran-mcauliffe
c706461443 Merge pull request 'nn-communication' (#8) from nn-communication into main 
Reviewed-on: #8
 2024-11-29 14:21:11 +01:00
Kieran
081e33dd07 modulator noise function previous val bug 2024-11-29 14:20:29 +01:00
Kieran
eb02657b4a center vals included in NN data 2024-10-22 13:27:07 +02:00
Kieran
d670aefcbd enums start with NONE 2024-10-22 12:32:42 +02:00
kieran-mcauliffe
68baa3c8de Merge pull request 'nn-communication' (#7) from nn-communication into main 
Reviewed-on: #7
 2024-10-22 11:00:25 +02:00
Kieran
a35fecafae NN data receiving 2024-10-22 10:58:46 +02:00
Kieran
b3ba9b0f2d cachedNoise no longer an array 2024-10-18 15:34:53 +02:00
Kieran
102a88b242 bugfix - modulators not properly initializing 2024-10-15 14:54:37 +02:00
kieran-mcauliffe
aebfbe5277 Merge pull request 'main' (#6) from main into nn-communication 
Reviewed-on: #6
 2024-10-15 12:27:53 +02:00
kieran-mcauliffe
2d81a832af Merge branch 'nn-communication' into main 2024-10-15 12:27:08 +02:00
kieran-mcauliffe
cdbcf24dfc Merge pull request 'fixed userwave update' (#5) from lock into main 
Reviewed-on: #5
 2024-10-15 12:21:08 +02:00
Kieran
64f1455f69 fixed userwave update 2024-10-14 09:16:05 +02:00
trian-gles
a855d254cd non musical timing to ms value for input from neural net 2024-10-11 15:34:37 +02:00
kieran-mcauliffe
09a1b5f20f Merge pull request 'lock mode' (#4) from lock into main 
Reviewed-on: #4
 2024-10-11 13:36:54 +02:00
Kieran
34e99f09fd lock mode 2024-10-11 12:52:54 +02:00
kieran-mcauliffe
86a994546e Merge pull request 'noise-functions' (#3) from noise-functions into main 
Reviewed-on: #3
 2024-10-10 12:25:22 +02:00
Kieran
d22cdc8401 basic random value noise functions 2024-10-10 12:23:50 +02:00
trian-gles
43e517cc4e added new init values 2024-09-26 12:40:47 +02:00
Kieran McAuliffe
a608b083f3 working sine interpolation 2024-09-25 15:59:27 +02:00
Kieran McAuliffe
83cf801ec3 merge conflict 2024-09-24 14:35:37 +02:00
trian-gles
45e168ba11 UI changes 2024-09-24 14:35:01 +02:00
kieran-mcauliffe
37a65058bc Merge pull request 'musical-timing-phase' (#2) from musical-timing-phase into main 
Reviewed-on: #2
 2024-09-03 11:37:51 +02:00
trian-gles
45847fbae4 phase calculated from ticks 2024-09-03 11:34:32 +02:00
trian-gles
c794b5bc2f separated phase handling into two options 2024-09-02 16:58:18 +02:00
trian-gles
c8c410a38f UI changes 2024-08-08 15:31:57 +02:00
kieran-mcauliffe
985b6c832f Merge pull request 'user defined wavetable shape' (#1) from user-defined-table into main 
Reviewed-on: #1
 2024-08-08 14:32:34 +02:00
trian-gles
ff0e8443fc user defined wavetable shape 2024-08-08 14:31:53 +02:00
18 changed files with 6485 additions and 4475 deletions
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1
.gitignore vendored Normal file
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.DS_Store

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ModEnum.maxhelp Normal file
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ModEnum.maxpat Normal file
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example-with-dj.maxpat
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example.maxpat
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181
lfogui.css
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html,
body {
width: 100%;
height: 100%;
margin: 0px;
border: 0;
overflow: hidden; /* Disable scrollbars */
display: block; /* No floating content on sides */
}
ul {
list-style-type: none;
margin: 0;
padding: 0;
overflow: hidden;
background-color: #333333;
}
li {
float: left;
}
input[type=number] {
width: 50px;
margin: 0;
padding: 0;
}
input[type=text] {
width: 60px;
margin: 0;
padding: 0;
font-weight: bold;
}
.timeInput {
width: 80px;
margin: 0;
padding: 0;
}
#matrix {
background-color: aquamarine;
height: 100%;
width: 100%;
}
.numbox-unclicked {
user-select: none;
border: solid;
font-size: 12vw;
}
.numbox-clicked {
user-select: none;
border : solid;
font-size: 12vw;
}
.param-input-label {
width: 93%;
font-size: 5vw;
}
.lfo-input-label {
width: 40%;
font-size: 5vw;
}
/* The switch - the box around the slider */
.switch {
position: relative;
display: inline-block;
width: 30px;
height: 17px;
}
/* Hide default HTML checkbox */
.switch input {
opacity: 0;
width: 0;
height: 0;
}
/* The slider */
.slider {
position: absolute;
cursor: pointer;
top: 0;
left: 0;
right: 0;
bottom: 0;
background-color: #ccc;
-webkit-transition: .4s;
transition: .4s;
}
.slider:before {
position: absolute;
content: "";
height: 13px;
width: 13px;
left: 2px;
bottom: 2px;
background-color: white;
-webkit-transition: .4s;
transition: .4s;
}
input:checked + .slider {
background-color: #2196F3;
}
input:focus + .slider {
box-shadow: 0 0 1px #2196F3;
}
input:checked + .slider:before {
-webkit-transform: translateX(13px);
-ms-transform: translateX(13px);
transform: translateX(13px);
}
/* Rounded sliders */
.slider.round {
border-radius: 17px;
}
.slider.round:before {
border-radius: 50%;
}
h5 {
margin: 0;
padding: 0;
}
.enum-count {
background-color: aquamarine;
}
.label {
background-color: aliceblue;
padding: 0 4px 0 4px;
margin: 0 2px 0 2px;
border-color: #333333;
border-width: 1px;
}
.base-val {
background-color: lightgray;
border-color: #333333;
border-width: 1px;
width: 50px;
margin-left: 2px;
margin-top: 1px;
}
.linked {
color: red;
border-width: 1px;
width: 50px;
font-size: small;
margin-left: 2px;
margin-top: 5px;
}
@keyframes pulse-animation {
0% {
color: black;
}
100% {
color: red;
}
}
#pulse {
animation: pulse-animation 0.2s normal;
}

27
lfogui.html
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@@ -1,28 +1,21 @@
<!DOCTYPE html>
<html>
<!--
We start with a basic html 'page' that is the size of the jweb object,
but has no scrollbars nor floating content.
-->
<head>
<link rel="stylesheet" href="./lfogui.css">
<meta charset="utf-8">
<link rel="stylesheet" href="./src/lfogui.css">
</head>
<body>
<div id="lfo-container"></div>
<div id="lfo-container"></div>
<script src="./react.js"></script>
<script src="./react-dom.js"></script>
<script src="./moment.js"></script>
<script src="./common.js"></script>
<script src="./enums.js"></script>
<script src="./modulators.js"></script>
<script src="./lfogui.js">
</script>
<script src="./lib/react.js"></script>
<script src="./lib/react-dom.js"></script>
<script src="./lib/moment.js"></script>
<script src="./src/common.js"></script>
<script src="./src/enums.js"></script>
<script src="./src/modulators.js"></script>
<script src="./src/lfogui.js"></script>
</body>

445
lfogui.js
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@@ -1,445 +0,0 @@
// const { createElement } = require("./react");
const DEBUG = false;
var log;
if (DEBUG)
log = console.log;
else
log = (msg) => {window.max.outlet("debug " + msg)};
const e = React.createElement;
let lfos = [];
const MAXLFOS = 20;
const MAXENUMS = 20;
const MAXENUMPOINTS = 10;
const ViewModes = Object.freeze({
MOD: 0,
ENUM: 1
});
var modPhases = Array(MAXLFOS).fill(0);
var firstUpdateTime = Date.now();
const MODULATORLABELS = ["inst", "-type-", "---shape---", "-------param-------", "--timebase--", "-min-", "-max", "-phase-", "center"];
const ENUMERATORLABELS = ["inst", "---parameter---", "-# points-"];
function MasterLfoHandler(){
let initVisArr = Array(MAXLFOS).fill(false);
initVisArr[0] = true;
const [viewMode, setViewMode] = React.useState(ViewModes.MOD);
const toggleViewMode = () => {
if (viewMode === ViewModes.MOD)
setViewMode(ViewModes.ENUM);
else
setViewMode(ViewModes.MOD);
};
/// MODULATOR ARRAYS
const [modVisibleArr, setModVisibleArr] = React.useState(initVisArr);
const [modInstanceNumArr, setModInstanceNumArr] = React.useState(Array(MAXLFOS).fill('1'));
const [modCenterVals, setModCenterVals] = React.useState({'1':{}, '2':{}, '3':{}, '4':{}});
const [bpm, setBpm] = React.useState(100);
const [beatsInMeasure, setBeatsInMeasure] = React.useState(4);
const [shapeArr, setShapeArr] = React.useState(Array(MAXLFOS).fill('Sine'));
const [djParamArr, setDjParamArr] = React.useState(Array(MAXLFOS).fill('NONE'));
const [freqArr, setFreqArr] = React.useState(Array(MAXLFOS).fill('1hz'));
// const [ampArr, setAmpArr] = React.useState(Array(MAXLFOS).fill('1'));
const [minArr, setMinArr] = React.useState(Array(MAXLFOS).fill('0'));
const [maxArr, setMaxArr] = React.useState(Array(MAXLFOS).fill('1'));
const [phaseArr, setPhaseArr] = React.useState(Array(MAXLFOS).fill('0'));
const allModArrays = [modVisibleArr, modInstanceNumArr, shapeArr, djParamArr, freqArr, minArr, maxArr, phaseArr];
const allModSetters = [setModVisibleArr, setModInstanceNumArr, setShapeArr, setDjParamArr, setFreqArr, setMinArr, setMaxArr, setPhaseArr];
const modBlankVals = [true, '1', SHAPETYPES[0], MODPARAMOPTIONS[0], '1hz', '0', '1', '0'];
/// ENUMERATOR ARRAYS
const [enumVisibleArr, setEnumVisibleArr] = React.useState(initVisArr);
const [enumInstanceNumArr, setEnumInstanceNumArr] = React.useState(Array(MAXLFOS).fill('1'));
const [enumItemCounts, setEnumItemCounts] = React.useState(Array(MAXENUMPOINTS).fill('2'));
const [enumDjParamArr, setEnumDjParamArr] = React.useState(Array(MAXENUMPOINTS).fill('attenuation'));
let baseEnumBreakpoints = Array(MAXENUMS).fill(0).map(x => Array(MAXENUMPOINTS+ 1).fill(0));
for (let i = 0; i < MAXENUMS; i++){
for (let j=0; j < MAXENUMPOINTS + 1; j++){
baseEnumBreakpoints[i][j] = j;
}
}
const [enumBreakPoints, setEnumBreakPoints] = React.useState(baseEnumBreakpoints);
const getBlankEnumBreakPointRow = () => {
let arr = []
for (let i=0; i< MAXENUMPOINTS + 1; i++)
arr.push(i)
return arr;
}
const getBlankEnumNameRow = () => {return Array(MAXENUMPOINTS).fill('param')};
let baseEnumNames = Array(MAXENUMS).fill(0).map(x => Array(MAXENUMPOINTS).fill('param'));
const [enumNames, setEnumNames] = React.useState(baseEnumNames);
const allEnumArrays = [enumVisibleArr, enumInstanceNumArr, enumItemCounts, enumDjParamArr];
const allEnumArrSetters = [setEnumVisibleArr, setEnumInstanceNumArr, setEnumItemCounts, setEnumDjParamArr];
const allEnumMats = [enumBreakPoints, enumNames];
const allEnumMatSetters = [setEnumBreakPoints, setEnumNames];
const allGetEnumMatBlankVals = [getBlankEnumBreakPointRow, getBlankEnumNameRow]
const enumBlankVals = [true, '1', 2, MODPARAMOPTIONS[0]];
const [render, rerender] = React.useState(false); // BAD. I SHOULDN'T BE DOING THIS
React.useEffect(() => {
function handleLoad(event) {
window.max.getDict(event.detail, (dict) => {
for (let i = 0; i<allModArrays.length; i++) {
allModSetters[i](dict.data.modArrays[i]);
}
for (let i = 0; i<allEnumArrays.length; i++) {
allEnumArrSetters[i](dict.data.enumArrays[i]);
}
for (let i = 0; i<allEnumMats.length; i++) {
allEnumMatSetters[i](dict.data.enumMats[i]);
}
setModCenterVals(dict.data.modCenters);
})
}
function handleSave(event) {
let data = {
'modArrays' : allModArrays,
'enumArrays' : allEnumArrays,
'enumMats' : allEnumMats,
'modCenters': modCenterVals
}
window.max.setDict(event.detail, {"data" : data});
window.max.outlet("saved");
}
// only called internally by 1. Handler after modulator processing 2. LFO outputs
function handleEnum(event){
let inst = event.detail[0];
let name = event.detail[1];
let val = event.detail[2];
// if none of the Enums use this param, then we output it
let i = 0;
while (i < MAXENUMS){
if (enumVisibleArr[i] && enumDjParamArr[i] == name && enumInstanceNumArr[i] == inst)
break;
i++
}
if (i == MAXENUMS){
window.max.outlet(inst + ' ' + name + ' ' + val);
}
else {
enumerate(name, inst, val, enumItemCounts[i], enumBreakPoints[i], enumNames[i]);
}
}
function handleParam(event) {
let inst = event.detail[0]; // djster instance
let name = event.detail[1];
let val = event.detail[2];
// CHECK FOR INDEX OF THIS NAME IN ENUM MATRIX, AND IF IT IS THERE DENUMERATE
let index = -1;
for (let i = 0; i < MAXENUMS; i++){
if (enumDjParamArr[i] == name && enumInstanceNumArr[i] == inst)
index = i;
}
if (index != -1){
val = denumerate(val, enumItemCounts[index], enumBreakPoints[index], enumNames[index]);
}
// if none of the LFOs use this param, then we send it straight to the enum
let i = 0;
while (i < MAXLFOS){
if (modVisibleArr[i] && djParamArr[i] == name && modInstanceNumArr[i] == inst)
break;
i++;
}
if (i == MAXLFOS){
window.dispatchEvent(new CustomEvent('enum', {'detail' : [inst, name, val]}));
}
modCenterVals[inst][name] = val;
setModCenterVals(modCenterVals);
rerender(!render); // BAD! SHOULD NOT BE DOING THIS!
}
function handleTick(event) {
let time = (Date.now() - firstUpdateTime) / 1000;
operateModulators(modVisibleArr, modInstanceNumArr, djParamArr, modCenterVals, freqArr, minArr, maxArr, shapeArr, phaseArr, time, bpm, beatsInMeasure);
}
function handleBpm(event) {
setBpm(event.detail);
}
function handleTimeSig(event) {
setBeatsInMeasure(parseFloat(event.detail[0]) * parseFloat(event.detail[1])/ 4);
}
window.addEventListener('loadDict', handleLoad);
window.addEventListener('saveDict', handleSave);
window.addEventListener('tick', handleTick);
window.addEventListener('param', handleParam);
window.addEventListener('enum', handleEnum);
window.addEventListener('tempo', handleBpm);
window.addEventListener('timesig', handleTimeSig);
return () => {
window.removeEventListener('loadDict', handleLoad);
window.removeEventListener('saveDict', handleSave);
window.removeEventListener('tick', handleTick);
window.removeEventListener('param', handleParam);
window.removeEventListener('enum', handleEnum);
window.removeEventListener('tempo', handleBpm);
window.removeEventListener('timesig', handleTimeSig);
};
}, [...allModArrays, ...allEnumArrays, ...allEnumMats, modCenterVals, render, bpm, beatsInMeasure]);
function CheckLinked(inst, param, checkInstArr, checkParamArr){
for (let i = 0; i < checkInstArr.length; i++){
if (checkInstArr[i] == inst && checkParamArr[i] == param)
return true;
}
return false;
}
///////
// Generate Modulators
///////
let modContents = []
for (var i = 0; i<MAXLFOS; i++){
let id = i;
modContents.push(
e(LfoRow, {
instanceNum : modInstanceNumArr[i],
setInstanceNum: CreateParamChanger(modInstanceNumArr, setModInstanceNumArr, i),
shape: shapeArr[i],
setShape: CreateParamChanger(shapeArr, setShapeArr, i),
djParam: djParamArr[i],
setDjParam: CreateParamChanger(djParamArr, setDjParamArr, i),
centerVals: modCenterVals,
freq: freqArr[i],
setFreq: CreateParamChanger(freqArr, setFreqArr, i),
//amp: ampArr[i],
//setAmp: CreateParamChanger(ampArr, setAmpArr, i),
min: minArr[i],
setMin : CreateParamChanger(minArr, setMinArr, i),
max: maxArr[i],
setMax: CreateParamChanger(maxArr, setMaxArr, i),
phase: phaseArr[i],
setPhase: CreateParamChanger(phaseArr, setPhaseArr, i),
visible: modVisibleArr[i],
linked: CheckLinked(modInstanceNumArr[i], djParamArr[i], enumInstanceNumArr, enumDjParamArr),
addLfo: () => {
if (id < MAXLFOS - 1){
if (modVisibleArr[id + 1]){
let emptyIndex = modVisibleArr.findIndex((item) => !item);
if (emptyIndex != -1){
for (var j = 0; j < allModArrays.length; j++){
let array = allModArrays[j];
// remove from all arrays
array.splice(emptyIndex, 1);
// add empty item at opened index
array.splice(id + 1, 0, modBlankVals[j]);
allModSetters[j](array);
}
}
}
else {
for (var j = 0; j < allModArrays.length; j++){ // no space below, easy.
let array = allModArrays[j];
array[id + 1] = modBlankVals[j];
allModSetters[j](array);
}
}
rerender(!render);
}
},
removeLfo: () => {
if (modVisibleArr.filter(x=>x).length > 1){
let newArr = modVisibleArr.slice();
newArr[id] = false;
setModVisibleArr(newArr);
}
}
},
null));
}
///////
// Generate Enumerators
///////
let enumContents = []
for (var i = 0; i<MAXLFOS; i++){
let id = i;
enumContents.push(
e(EnumeratorRow, {
index: i,
instanceNum : enumInstanceNumArr[i],
setInstanceNum: CreateParamChanger(enumInstanceNumArr, setEnumInstanceNumArr, i),
enumItems: enumItemCounts[i],
setEnumItemCounts: CreateParamChanger(enumItemCounts, setEnumItemCounts, i),
enumBreakPoints: enumBreakPoints,
setEnumBreakPoints: setEnumBreakPoints,
enumNames: enumNames,
setEnumNames: setEnumNames,
visible: enumVisibleArr[i],
djParam: enumDjParamArr[i],
setDjParam: CreateParamChanger(enumDjParamArr, setEnumDjParamArr, i),
linked: CheckLinked(enumInstanceNumArr[i], enumDjParamArr[i], modInstanceNumArr, djParamArr),
addEnum: () => {
if (id < MAXLFOS - 1){
if (enumVisibleArr[id + 1]){ // if we need to open up space
let emptyIndex = enumVisibleArr.findIndex((item) => !item);
if (emptyIndex != -1){
for (var j = 0; j < allEnumArrays.length; j++){
let array = allEnumArrays[j];
// remove from all arrays
array.splice(emptyIndex, 1);
// add empty item at opened index
array.splice(id + 1, 0, enumBlankVals[j]);
allEnumArrSetters[j](array);
}
// Now do the same with matrices
for (var j = 0; j < allEnumMats.length; j++){
let mat = allEnumMats[j];
mat.splice(emptyIndex, 1);
mat.splice(id + 1, 0, 0);
mat[id + 1] = allGetEnumMatBlankVals[j]();
allEnumMatSetters[j](mat);
}
}
}
else {
for (var j = 0; j < allEnumArrays.length; j++){
let array = allEnumArrays[j];
array[id+1] = enumBlankVals[j];
allEnumArrSetters[j](array);
}
// Now do the same with matrices
for (var j = 0; j < allEnumMats.length; j++){
let mat = allEnumMats[j];
mat[id + 1] = allGetEnumMatBlankVals[j]();
allEnumMatSetters[j](mat);
}
}
rerender(!render);
}
},
removeEnum: () => {
if (enumVisibleArr.filter(x=>x).length > 1){
let newArr = enumVisibleArr.slice();
newArr[id] = false;
setEnumVisibleArr(newArr);
}
}
}, null)
);
}
var grid;
var title;
var labels;
if (viewMode === ViewModes.MOD){
grid = modContents;
title = "MODULATORS";
labels = MODULATORLABELS;
}
else {
grid = enumContents;
title = "ENUMERATORS";
labels = ENUMERATORLABELS;
}
return e('div', null,
e(Switch, {ontoggle: toggleViewMode}, null),
e('h5', null, title),
e('ul', null, ...labels.map(x => ListItem(Label(x)))),
e('div', {id: 'grid'}, ...grid)
);
}
if (!DEBUG){
window.max.bindInlet("load", (dictId) => {
window.dispatchEvent(new CustomEvent('loadDict', {'detail' : dictId}));
});
window.max.bindInlet("save", (dictId) => {
window.dispatchEvent(new CustomEvent('saveDict', {'detail' : dictId}));
});
window.max.bindInlet("param", (inst, paramName, val) => {
window.dispatchEvent(new CustomEvent('param', {'detail' : [inst, paramName, val]}));
});
window.max.bindInlet("tempo", (val) => {
window.dispatchEvent(new CustomEvent('tempo', {'detail' : val}));
});
window.max.bindInlet("timesig", (top, bottom) => {
window.dispatchEvent(new CustomEvent('timesig', {'detail' : [top, bottom]}));
});
setInterval(() => {
window.dispatchEvent(new CustomEvent('tick'));
}, 200);
}
const root = ReactDOM.createRoot(document.getElementById('lfo-container'));
root.render(e(MasterLfoHandler, null, null));

0
moment.js → lib/moment.js
View File

0
react-dom.js → lib/react-dom.js vendored
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0
react.js → lib/react.js vendored
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122
modulators.js
View File

@@ -1,122 +0,0 @@
/////////////////////////
// MODULATORS
/////////////////////////
var SHAPETYPES = ["Sine", "SawUp", "SawDown", "Tri", "Square"];
var INSTANCEOPTIONS = ["1", "2", "3", "4"];
const MODPARAMOPTIONS = ["NONE", "stream", "pulse_length", "eventfulness", "event_length", "metriclarity",
"harmoniclarity", "melodic_cohesion", "melody_scope", "tonic_pitch", "pitch_center", "pitch_range", "dynamics",
"attenuation", "chordal_weight", "tonality-profile", "ostinato-buffer", "ostinato", "meter", "scale"];
function ControlType(){
return e('select', {className: 'control-type'}, Option("LFO"));
}
function LfoRow(props){
let linkedText = props.linked ? "-> enums" : "";
let center = props.centerVals[props.instanceNum][props.djParam];
if (!center)
center = 0;
let content = e('ul', {className: 'lfo-item'},
ListItem(DropDown({onChange: props.setInstanceNum, value:props.instanceNum, options: INSTANCEOPTIONS})),
ListItem(ControlType()),
ListItem(DropDown({onChange: props.setShape, value:props.shape, options: SHAPETYPES})),
ListItem(DropDown({onChange: props.setDjParam, value: props.djParam, options: MODPARAMOPTIONS})),
ListItem(e("input", {onChange:props.setFreq, value:props.freq, className:"timeInput"}, null)),
ListItem(e(NumberBox, {onChange:props.setMin, value:props.min, step:0.1}, null)),
ListItem(e(NumberBox, {onChange:props.setMax, value:props.max, step:0.1}, null)),
//ListItem(e(NumberBox, {onChange:props.setAmp, value:props.amp, step:0.1}, null)),
ListItem(e(NumberBox, {onChange:props.setPhase, value:props.phase, step:0.1}, null)),
ListItem(e("div", {className:"base-val"}, center.toString())),
ListItem(e("input", {type: 'range', min: 0, max: 1, step: 0.01, readonly: true, id: `slider-${props.instanceNum}-${props.djParam}`})),
ListItem(e(Button, {text:'+', onClick: props.addLfo}, null)),
ListItem(e(Button, {text:'-', onClick: props.removeLfo}, null)),
ListItem(e("div", {className:"linked"}, linkedText)),
);
if (props.visible){
return content
};
}
function indexWave(type, phase){
switch (type){
case "Sine":
return (Math.sin(phase * Math.PI * 2) / 2) + 0.5;
case "SawUp":
return phase;
case "SawDown":
return 1 - phase;
case "Tri":
return phase > 0.5? (1-phase) * 2 : phase * 2;
case "Square":
return +(phase > 0.5);
}
}
function operateModulators(visibleArr, instanceNumArr, paramNames, centers, freqs, mins, maxs, waveTypes, phaseArr, currTime, bpm, beatsInMeasure){
for (let i=0; i<paramNames.length; i++){
if (visibleArr[i]){
let name = paramNames[i];
let inst = instanceNumArr[i];
let center = 0;
if (centers[inst].hasOwnProperty(name)){
center = centers[inst][name];
}
let output = operateModulator(center, inst, freqs[i], mins[i], maxs[i], waveTypes[i], phaseArr, i, name, currTime, bpm, beatsInMeasure);
if (name !== "NONE")
window.dispatchEvent(new CustomEvent('enum', {'detail' : [inst, name, output]}));
}
}
}
function operateModulator(center, inst, freq, min, max, waveType, phaseArr, phaseI, name, currTime, bpm, beatsInMeasure){
let amp = parseFloat(max) - parseFloat(min);
freq = parseLfoTime(freq, bpm, beatsInMeasure);
let phase = (currTime * freq + parseFloat(phaseArr[phaseI])) % 1.00;
let unscaled = indexWave(waveType, phase);
let el = document.getElementById(`slider-${inst}-${name}`);
if (el)
el.value = unscaled;
return unscaled * amp + center + parseFloat(min);
}
function parseLfoTime(lfoTime, bpm, beatsInMeasure){
if (lfoTime.slice(-2) == "hz"){
return parseFloat(lfoTime.slice(0, -2));
}
else if (lfoTime.slice(-2) == "ms"){
return 1000 / parseFloat(lfoTime.slice(0, -2));
}
else if (lfoTime.slice(-1) == "s"){
return 1 / parseFloat(lfoTime.slice(0, -1));
}
else if ((lfoTime.match(/:/g) || []).length == 2){
return 1 / moment.duration(lfoTime).asSeconds();
}
else if ((lfoTime.match(/\./g) || []).length == 2){
return musicalTimingToFreq(...lfoTime.split('.'), bpm, beatsInMeasure)
}
else {
return 0;
}
}
function musicalTimingToFreq(bars, beats, ticks, bpm, beatsInMeasure){
let totalTicks = (parseFloat(bars) * parseFloat(beatsInMeasure) + beats) * 480 + parseFloat(ticks);
let tpm = bpm * 480;
let cyclesPerMinute = tpm / totalTicks;
let hz = cyclesPerMinute / 60;
return hz;
}

93
myStorage.json Normal file
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File diff suppressed because one or more lines are too long

21
common.js → src/common.js
View File

@@ -5,7 +5,8 @@ function isNumeric(str) {
}
function DropDown(props) {
return e('select', {type: "number", onChange: props.onChange, value: props.value},
let className = props.locked ? 'locked-component' : '';
return e('select', {className, type: "number", onChange: props.onChange, value: props.value},
...props.options.map((item) => Option(item)));
}
@@ -18,11 +19,13 @@ function Label(text){
}
function NumberBox(props){
return e('input', {type: "number", onChange: props.onChange, step: props.step, value: props.value, className: props.className}, null);
let extraClassName = props.locked ? ' locked-component' : '';
return e('input', {type: "number", onChange: props.onChange, step: props.step, value: props.value, className: props.className + extraClassName}, null);
}
function TextBox(props){
return e('input', {type: "text", value: props.value, onChange: props.onChange, id: props.id});
let className = props.locked ? 'locked-component' : '';
return e('input', {className, type: "text", value: props.value, onChange: props.onChange, id: props.id});
}
function Option(str, value){
@@ -30,7 +33,8 @@ function Option(str, value){
}
function Button(props){
return e('button', {onClick: props.onClick}, props.text);
let className = props.locked ? 'locked-component' : '';
return e('button', {onClick: props.onClick, className}, props.text);
}
function Switch(props){
@@ -39,12 +43,20 @@ function Switch(props){
e('span', {className: 'slider round'}, null))
}
function SendSaveEvent(){
setTimeout(() => {
window.dispatchEvent(new CustomEvent('saveDict', {'detail' : "localStorage"}));
}, 50)
}
function CreateParamChanger(arr, setArr, index, postCB=() => {}, preCB=(val) => val){
return (event) => {
let newArr = arr.slice();
newArr[index] = preCB(event.target.value);
setArr(newArr);
postCB();
SendSaveEvent();
log(`${index} ${event.target.value}`);
}
}
@@ -56,6 +68,7 @@ function CreateMatrixParamChanger(matrix, setMatrix, i, j){
});
newMatrix[i][j] = event.target.value;
setMatrix(newMatrix);
SendSaveEvent();
log(`${i}, ${j} ${event.target.value}`);
}

28
enums.js → src/enums.js
View File

@@ -4,14 +4,18 @@
function DataCell(element) {
return e('td', null, element);
}
// NOT A REACT FUNCTIONAL COMPONENT. MERELY RETURNS AN ARRAY WHICH IS UNPACKED
function EnumeratorItems(index, enumBreakPoints, setEnumBreakPoints, enumNames, setEnumNames, djParam){
function EnumeratorItems(index, enumBreakPoints, setEnumBreakPoints, enumNames, setEnumNames, djParam, locked){
let items = [];
for (let i = 0; i < MAXENUMPOINTS; i++){
items.push(ListItem(e(TextBox, {onChange: CreateMatrixParamChanger(enumNames, setEnumNames, index, i), value: enumNames[index][i], id:`text-${djParam}-${enumNames[index][i]}`}, null)));
items.push(DataCell(e(TextBox, {locked, onChange: CreateMatrixParamChanger(enumNames, setEnumNames, index, i), value: enumNames[index][i], id:`text-${djParam}-${enumNames[index][i]}`}, null)));
// Add 1 to make up for the lower enum bound
items.push(ListItem(e(NumberBox, {onChange: CreateMatrixParamChanger(enumBreakPoints, setEnumBreakPoints, index, i + 1), value:enumBreakPoints[index][i + 1]}, null)));
items.push(DataCell(e(NumberBox, {locked, onChange: CreateMatrixParamChanger(enumBreakPoints, setEnumBreakPoints, index, i + 1), value:enumBreakPoints[index][i + 1]}, null)));
}
return items;
}
@@ -19,15 +23,15 @@ function EnumeratorItems(index, enumBreakPoints, setEnumBreakPoints, enumNames,
function EnumeratorRow(props){
let linkedText = props.linked ? "<- mods" : "";
let content = e('ul', {className: 'lfo-item', id: `${props.djParam}-enum-row`},
ListItem(DropDown({onChange: props.setInstanceNum, value:props.instanceNum, options: INSTANCEOPTIONS})),
ListItem(DropDown({onChange: props.setDjParam, value: props.djParam, options: MODPARAMOPTIONS})),
ListItem(e(NumberBox, {onChange: props.setEnumItemCounts, step:1, value:props.enumItems, className: 'enum-count'}, null)),
ListItem(e(NumberBox, {onChange: CreateMatrixParamChanger(props.enumBreakPoints, props.setEnumBreakPoints, props.index, 0), value:props.enumBreakPoints[props.index][0], step:0.1}, null)),
...(EnumeratorItems(props.index, props.enumBreakPoints, props.setEnumBreakPoints, props.enumNames, props.setEnumNames, props.djParam).slice(0, props.enumItems * 2)),
ListItem(e(Button, {text:'+', onClick: props.addEnum}, null)),
ListItem(e(Button, {text:'-', onClick: props.removeEnum}, null)),
ListItem(e("div", {className:"linked"}, linkedText))
let content = e('tr', {className: 'lfo-item', id: `${props.djParam}-enum-row`},
DataCell(DropDown({locked:props.locked, onChange: props.setInstanceNum, value:props.instanceNum, options: INSTANCEOPTIONS})),
DataCell(DropDown({locked:props.locked, onChange: props.setDjParam, value: props.djParam, options: MODPARAMOPTIONS})),
DataCell(e(NumberBox, {locked:props.locked, onChange: props.setEnumItemCounts, step:1, value:props.enumItems, className: 'enum-count'}, null)),
DataCell(e(NumberBox, {locked:props.locked, onChange: CreateMatrixParamChanger(props.enumBreakPoints, props.setEnumBreakPoints, props.index, 0), value:props.enumBreakPoints[props.index][0], step:0.1}, null)),
...(EnumeratorItems(props.index, props.enumBreakPoints, props.setEnumBreakPoints, props.enumNames, props.setEnumNames, props.djParam, props.locked).slice(0, props.enumItems * 2)),
DataCell(e(Button, {locked:props.locked, text:'+', onClick: props.addEnum}, null)),
DataCell(e(Button, {locked:props.locked, text:'-', onClick: props.removeEnum}, null)),
DataCell(e("div", {className:"linked"}, linkedText))
);
if (props.visible){
return content;

378
src/lfogui.css Normal file
View File

@@ -0,0 +1,378 @@
* {
--locked-color: #5fadbf;
--unlocked-color: #ff5153;
}
:root {
--background: white;
--active: royalblue;
--nonactive: rgb(205, 205, 205);
--alert: red;
--textcolor: black;
}
@import url('https://fonts.googleapis.com/css2?family=Poppins:ital,wght@0,100;0,200;0,300;0,400;0,500;0,600;0,700;0,800;0,900;1,100;1,200;1,300;1,400;1,500;1,600;1,700;1,800;1,900&display=swap');
html {
background-color: var(--background);
}
body {
font-family: "Poppins", sans-serif;
}
html,
body {
width: 100%;
height: 100%;
margin: 0px;
border: 0;
overflow-x: scroll;
overflow-y: scroll;
display: block;
/* No floating content on sides */
}
/*navigation*/
.header {
display: flex;
flex-flow: row nowrap;
justify-content: space-between;
align-items: center;
margin: 1em;
border-bottom: 1px solid var(--active);
}
.header button {
border: 1px solid var(--active);
color: var(--active);
background-color: white;
padding: 4px;
text-align: center;
display: inline-block;
padding: 0.5em;
margin: 4px;
font-size: 0.9em;
min-width: 4.5em;
}
td button {
background-color: white;
color: var(--active);
border: 1px solid var(--active);
}
/* :::::::::::::: SELECTING MODULATORS/ENUMERATORS */
.header button.highlighted-button {
color: var(--active);
border: 1px solid var(--active);
}
.header button.unhighlighted-button {
color: var(--nonactive);
border: 1px solid var(--nonactive);
}
/* table */
table {
margin: 1em;
padding: 0em;
border-collapse: collapse;
background-color: lightsteelblue;
}
/* points datacells should have a min-width*/
.enum-count {
min-width: 5.6em;
}
th {
padding: 0.4em 0.3em;
text-align: left;
}
thead {
color: white;
background-color: var(--active);
}
tr,
td {
margin: 0em;
}
td:last-child {
white-space: nowrap;
overflow: hidden;
padding: 0;
}
/* input types */
/* dropdown list */
select {
width: 100%;
}
/*
option, select>* {
font-size: 0.8em !important;
padding: 0em !important;
margin: 0em !important;
min-height: 0em !important;
}
*/
option {
background-color: var(--active);
}
option:not(:checked) {
background-color: white;
}
/* input */
input,
select {
border: 1px solid var(--active);
color: var(--active);
margin: 0;
padding: 0;
line-height: 1.5em;
height: 1.5em;
box-sizing: border-box;
}
input {
padding-left: 5px;
/*slight padding on left*/
}
input[type=number] {
width: 50px;
}
input[type=text] {
width: 60px;
font-weight: bold;
}
.timeInput {
width: 80px;
}
#matrix {
background-color: aquamarine;
height: 100%;
width: 100%;
}
.numbox-unclicked {
user-select: none;
border: solid;
font-size: 12vw;
}
.numbox-clicked {
user-select: none;
border: solid;
font-size: 12vw;
}
.param-input-label {
width: 93%;
font-size: 5vw;
}
.lfo-input-label {
width: 40%;
font-size: 5vw;
}
/* The switch - the box around the slider */
.switch {
position: relative;
display: inline-block;
width: 30px;
height: 17px;
}
/* Hide default HTML checkbox */
.switch input {
opacity: 0;
width: 0;
height: 0;
}
/* The slider */
input[type="range"] {
appearance: none;
-webkit-appearance: none;
height: 8px;
border-radius: 6px;
background-color: white;
outline: none;
opacity: 0.7;
-webkit-transition: .2s;
transition: opacity .2s;
overflow: hidden;
}
/*slider knob*/
input[type="range"]::-webkit-slider-runnable-track {
-webkit-appearance: none;
color: var(--active);
margin-top: -1px;
}
input[type="range"]::-webkit-slider-thumb {
-webkit-appearance: none;
appearance: none;
width: 20px;
height: 20px;
border-radius: 50%;
background: var(--active);
box-shadow: -80px 0 0 80px var(--active);
}
input[type="range"]::-moz-range-progress {
background-color: var(--active);
}
h5 {
margin: 0;
padding: 0;
}
.label {
background-color: aliceblue;
padding: 0 4px 0 4px;
margin: 0 2px 0 2px;
border-color: #333333;
border-width: 1px;
}
.base-val {
border: none;
color: white;
text-align: center;
font-size: 0.9em;
width: 50px;
margin: 0;
padding: 0;
}
.linked {
color: red;
border-width: 1px;
width: 50px;
font-size: small;
margin-left: 2px;
margin-top: 5px;
display: none;
/*hide*/
}
@keyframes pulse-animation {
0% {
color: black;
}
100% {
color: red;
}
}
#pulse {
animation: pulse-animation 0.2s normal;
}
/* :::::::::::::: LOCK CSS */
.locked-component {
pointer-events: none;
background-color: #333333;
color: white;
}
/* Locked */
.lock {
margin-top: 14px;
width: 24px;
height: 21px;
border: 3px solid var(--locked-color);
border-radius: 5px;
position: relative;
cursor: pointer;
-webkit-transition: all 0.1s ease-in-out;
transition: all 0.1s ease-in-out;
}
.lock:after {
content: "";
display: block;
background: var(--locked-color);
width: 3px;
height: 7px;
position: absolute;
top: 50%;
left: 50%;
margin: -3.5px 0 0 -2px;
-webkit-transition: all 0.1s ease-in-out;
transition: all 0.1s ease-in-out;
}
.lock:before {
content: "";
display: block;
width: 10px;
height: 10px;
bottom: 100%;
position: absolute;
left: 50%;
margin-left: -8px;
border: 3px solid var(--locked-color);
border-top-right-radius: 50%;
border-top-left-radius: 50%;
border-bottom: 0;
-webkit-transition: all 0.1s ease-in-out;
transition: all 0.1s ease-in-out;
}
/* Locked Hover */
.lock:hover:before {
height: 12px;
}
/* Unlocked */
.unlocked {
transform: rotate(10deg);
}
.unlocked:before {
bottom: 130%;
left: 31%;
margin-left: -11.5px;
transform: rotate(-45deg);
}
.unlocked,
.unlocked:before {
border-color: var(--unlocked-color);
}
.unlocked:after {
background: var(--unlocked-color);
}
/* Unlocked Hover */
.unlocked:hover {
transform: rotate(3deg);
}
.unlocked:hover:before {
height: 10px;
left: 40%;
bottom: 124%;
transform: rotate(-30deg);
}

660
src/lfogui.js Normal file
View File

@@ -0,0 +1,660 @@
// const { createElement } = require("./react");
const DEBUG = false;
var log;
if (DEBUG)
log = console.log;
else
log = (msg) => { window.max.outlet("debug " + msg) };
const e = React.createElement;
let lfos = [];
const MAXLFOS = 200;
const MAXENUMS = 200;
const MAXENUMPOINTS = 10;
const MAXUSERDEFINED = 4;
const ViewModes = Object.freeze({
MOD: 0,
ENUM: 1
});
const LockModes = Object.freeze({
UNLOCK: 0,
LOCK: 1
});
var modPhases = Array(MAXLFOS).fill(0);
var firstUpdateTime = Date.now();
const MODULATORLABELS = ["inst", "type", "shape", "param", "timebase", "min", "max", "phase", "center", "result", "", ""];
const ENUMERATORLABELS = ["inst", "parameter", "# points"];
function parseLfoTimeNonMusical(lfoTime) {
if (lfoTime.slice(-2) == "hz") {
return parseFloat(lfoTime.slice(0, -2));
}
else if (lfoTime.slice(-2) == "ms") {
return 1000 / parseFloat(lfoTime.slice(0, -2));
}
else if (lfoTime.slice(-1) == "s") {
return 1 / parseFloat(lfoTime.slice(0, -1));
}
else if ((lfoTime.match(/:/g) || []).length == 2) {
return 1 / moment.duration(lfoTime).asSeconds();
}
else if ((lfoTime.match(/\./g) || []).length == 2) {
return 0; // ignore musical timings
}
else {
return 0;
}
}
function nnFreqToHzString(num) {
return `${num}hz`;
}
function MasterLfoHandler() {
let initVisArr = Array(MAXLFOS).fill(false);
initVisArr[0] = true;
const [viewMode, setViewMode] = React.useState(ViewModes.MOD);
const [lockMode, setLockMode] = React.useState(LockModes.UNLOCK);
const toggleLockMode = () => {
if (lockMode === LockModes.UNLOCK)
setLockMode(LockModes.LOCK);
else
setLockMode(LockModes.UNLOCK);
};
const [enabled, setEnabled] = React.useState(false);
const toggleEnabled = () => {
setEnabled(!enabled);
};
const displayIfEnabled = (content) => {
if (enabled)
return content
}
let toggleEnabledText = enabled ? `Hide \u{25BE}` : `Show \u{25B8}`;
/// MODULATOR ARRAYS
let userDefinedWavesBase = [];
let userDefinedFunctionsBase = [];
let userDefinedTypesBase = [0, 0, 0, 0]; //0 = wave, 1 = function
for (let i = 0; i < MAXUSERDEFINED; i++) {
userDefinedWavesBase.push(Array(50).fill(0));
userDefinedFunctionsBase.push(Array(101).fill(0));
}
const [userDefinedWaves, setUserDefinedWaves] = React.useState(userDefinedWavesBase);
const [userDefinedFunctions, setUserDefinedFunctions] = React.useState(userDefinedFunctionsBase);
const [userDefinedTypes, setUserDefinedTypes] = React.useState(userDefinedTypesBase);
const [modVisibleArr, setModVisibleArr] = React.useState(initVisArr);
const [modTypeArr, setModTypeArr] = React.useState(Array(MAXLFOS).fill('LFO'));
const [modInstanceNumArr, setModInstanceNumArr] = React.useState(Array(MAXLFOS).fill('1'));
const [modCenterVals, setModCenterVals] = React.useState({ '1': {}, '2': {}, '3': {}, '4': {}, '5': {}, '6': {}});
const [ticks, setTicks] = React.useState(0);
const [beatsInMeasure, setBeatsInMeasure] = React.useState(4);
const [noiseTypeArr, setNoiseTypeArr] = React.useState(Array(MAXLFOS).fill('Sine Int.'));
const [shapeArr, setShapeArr] = React.useState(Array(MAXLFOS).fill('Sine'));
const [djParamArr, setDjParamArr] = React.useState(Array(MAXLFOS).fill('NONE'));
const [freqArr, setFreqArr] = React.useState(Array(MAXLFOS).fill('1hz'));
// const [ampArr, setAmpArr] = React.useState(Array(MAXLFOS).fill('1'));
const [minArr, setMinArr] = React.useState(Array(MAXLFOS).fill('0'));
const [maxArr, setMaxArr] = React.useState(Array(MAXLFOS).fill('1'));
const [initPhaseArr, setInitPhaseArr] = React.useState(Array(MAXLFOS).fill('0'));
const [lastPhaseArr, setLastPhaseArr] = React.useState(Array(MAXLFOS).fill(0));
const [cachedNoiseValueArr1, setCachedNoiseValueArr1] = React.useState(Array(MAXLFOS).fill(0));
const [cachedNoiseValueArr2, setCachedNoiseValueArr2] = React.useState(Array(MAXLFOS).fill(0));
const allModArrays = [modVisibleArr, modTypeArr, modInstanceNumArr, shapeArr, noiseTypeArr, djParamArr, freqArr, minArr, maxArr, initPhaseArr, lastPhaseArr, cachedNoiseValueArr1, cachedNoiseValueArr2];
const allModSetters = [setModVisibleArr, setModTypeArr, setModInstanceNumArr, setShapeArr, setNoiseTypeArr, setDjParamArr, setFreqArr, setMinArr, setMaxArr, setInitPhaseArr, setLastPhaseArr, setCachedNoiseValueArr1, setCachedNoiseValueArr2];
const modBlankVals = [true, 'LFO', '1', SHAPETYPES[0], NOISETYPES[0], MODPARAMOPTIONS[0], '1hz', '0', '1', '0', 0, 0, 0];
/// ENUMERATOR ARRAYS
const [enumVisibleArr, setEnumVisibleArr] = React.useState(initVisArr);
const [enumInstanceNumArr, setEnumInstanceNumArr] = React.useState(Array(MAXLFOS).fill('1'));
const [enumItemCounts, setEnumItemCounts] = React.useState(Array(MAXENUMPOINTS).fill('2'));
const [enumDjParamArr, setEnumDjParamArr] = React.useState(Array(MAXENUMPOINTS).fill('NONE'));
let baseEnumBreakpoints = Array(MAXENUMS).fill(0).map(x => Array(MAXENUMPOINTS + 1).fill(0));
for (let i = 0; i < MAXENUMS; i++) {
for (let j = 0; j < MAXENUMPOINTS + 1; j++) {
baseEnumBreakpoints[i][j] = j - 0.5;
}
}
const [enumBreakPoints, setEnumBreakPoints] = React.useState(baseEnumBreakpoints);
const getBlankEnumBreakPointRow = () => {
let arr = []
for (let i = 0; i < MAXENUMPOINTS + 1; i++)
arr.push(i - 0.5)
return arr;
}
const getBlankEnumNameRow = () => { return Array(MAXENUMPOINTS).fill('param') };
let baseEnumNames = Array(MAXENUMS).fill(0).map(x => Array(MAXENUMPOINTS).fill('param'));
const [enumNames, setEnumNames] = React.useState(baseEnumNames);
const allEnumArrays = [enumVisibleArr, enumInstanceNumArr, enumItemCounts, enumDjParamArr];
const allEnumArrSetters = [setEnumVisibleArr, setEnumInstanceNumArr, setEnumItemCounts, setEnumDjParamArr];
const allEnumMats = [enumBreakPoints, enumNames];
const allEnumMatSetters = [setEnumBreakPoints, setEnumNames];
const allGetEnumMatBlankVals = [getBlankEnumBreakPointRow, getBlankEnumNameRow]
const enumBlankVals = [true, '1', 2, MODPARAMOPTIONS[0]];
const [render, rerender] = React.useState(false); // BAD. I SHOULDN'T BE DOING THIS
React.useEffect(() => {
function handleLoad(event) {
window.max.getDict(event.detail, (dict) => {
for (let i = 0; i < dict.data.modArrays.length; i++) {
allModSetters[i](dict.data.modArrays[i]);
}
for (let i = 0; i < allEnumArrays.length; i++) {
allEnumArrSetters[i](dict.data.enumArrays[i]);
}
for (let i = 0; i < allEnumMats.length; i++) {
allEnumMatSetters[i](dict.data.enumMats[i]);
}
})
}
function handleSave(event) {
let data = {
'modArrays': allModArrays,
'enumArrays': allEnumArrays,
'enumMats': allEnumMats
}
window.max.setDict(event.detail, { "data": data });
window.max.outlet("saved");
}
// only called internally by 1. Handler after modulator processing 2. LFO outputs
function handleEnum(event) {
let inst = event.detail[0];
let name = event.detail[1];
let val = event.detail[2];
// if none of the Enums use this param, then we output it
let i = 0;
while (i < MAXENUMS) {
if (enumVisibleArr[i] && enumDjParamArr[i] == name && enumInstanceNumArr[i] == inst)
break;
i++
}
if (i == MAXENUMS) {
window.max.outlet(inst + ' ' + name + ' ' + val);
}
else {
enumerate(name, inst, val, enumItemCounts[i], enumBreakPoints[i], enumNames[i]);
}
}
function handleParam(event) {
let inst = event.detail[0]; // djster instance
let name = event.detail[1];
let val = event.detail[2];
// CHECK FOR INDEX OF THIS NAME IN ENUM MATRIX, AND IF IT IS THERE DENUMERATE
let index = -1;
for (let i = 0; i < MAXENUMS; i++) {
if (enumDjParamArr[i] == name && enumInstanceNumArr[i] == inst)
index = i;
}
if (index != -1) {
val = denumerate(val, enumItemCounts[index], enumBreakPoints[index], enumNames[index]);
}
// if none of the LFOs use this param, then we send it straight to the enum
let i = 0;
while (i < MAXLFOS) {
if (modVisibleArr[i] && djParamArr[i] == name && modInstanceNumArr[i] == inst)
break;
i++;
}
if (i == MAXLFOS) {
window.dispatchEvent(new CustomEvent('enum', { 'detail': [inst, name, val] }));
}
modCenterVals[inst][name] = val;
setModCenterVals(modCenterVals);
rerender(!render); // BAD! SHOULD NOT BE DOING THIS!
}
function handleTick(event) {
let time = (Date.now() - firstUpdateTime) / 1000;
let noiseData = { lastPhaseArr, setLastPhaseArr, cachedNoiseValueArr1, setCachedNoiseValueArr1, cachedNoiseValueArr2, setCachedNoiseValueArr2, noiseTypeArr };
operateModulators(modVisibleArr, modTypeArr, modInstanceNumArr, djParamArr, modCenterVals, freqArr, minArr, maxArr, shapeArr, initPhaseArr, noiseData, userDefinedWaves, userDefinedFunctions, userDefinedTypes, time, beatsInMeasure, ticks);
}
function handleTimeSig(event) {
setBeatsInMeasure(parseFloat(event.detail[0]) * parseFloat(event.detail[1]) / 4);
}
function handleChangeUserWave(event) {
userDefinedWaves[event.detail.index] = event.detail.points;
setUserDefinedWaves(userDefinedWaves);
}
function handleChangeUserFunction(event) {
userDefinedFunctions[event.detail.index] = event.detail.points;
setUserDefinedFunctions(userDefinedFunctions);
}
function handleChangeUserDefinedType(event) {
userDefinedTypes[event.detail.index - 1] = event.detail.type;
setUserDefinedTypes(userDefinedTypes);
}
function handleMaxTicks(event) {
setTicks(event.detail);
}
function handleChangeViewMode(event){
setEnabled(true);
setViewMode(event.detail);
}
function setNN(event) {
for (let i = 0; i < MAXLFOS; i++) {
freqArr[i] = nnFreqToHzString(event.detail[i]);
}
setFreqArr(freqArr)
for (let i = MAXLFOS; i < MAXLFOS * 2; i++) {
minArr[i - MAXLFOS] = event.detail[i];
}
setMinArr(minArr);
for (let i = MAXLFOS * 2; i < MAXLFOS * 3; i++) {
maxArr[i - MAXLFOS * 2] = event.detail[i];
}
setMaxArr(maxArr);
for (let i = MAXLFOS * 3; i < MAXLFOS * 4; i++) {
initPhaseArr[i - MAXLFOS * 3] = parseFloat(event.detail[i]);
}
setInitPhaseArr(initPhaseArr);
for (let i = MAXLFOS * 4; i < MAXLFOS * 5; i++) {
let index = i - MAXLFOS * 4;
let inst = modInstanceNumArr[index];
let param = djParamArr[index];
modCenterVals[inst][param] = parseFloat(event.detail[i]);
}
setModCenterVals(modCenterVals);
rerender(!render); // BAD! SHOULD NOT BE DOING THIS!
}
function dumpNN(event) {
let allNNData = [];
freqArr.forEach(element => {
allNNData.push(parseLfoTimeNonMusical(element));
});
allNNData = allNNData.concat(minArr);
allNNData = allNNData.concat(maxArr);
allNNData = allNNData.concat(initPhaseArr);
let lfoMatchedCenterVals = [];
for (let i = 0; i < MAXLFOS; i++) {
let inst = modInstanceNumArr[i];
let param = djParamArr[i];
lfoMatchedCenterVals.push(modCenterVals[inst][param]);
if (!lfoMatchedCenterVals[i])
lfoMatchedCenterVals[i] = 0
}
allNNData = allNNData.concat(lfoMatchedCenterVals);
window.max.outlet("NNdata " + allNNData.join(" "));
}
window.addEventListener('loadDict', handleLoad);
window.addEventListener('saveDict', handleSave);
window.addEventListener('dumpNN', dumpNN);
window.addEventListener('setNN', setNN);
window.addEventListener('tick', handleTick);
window.addEventListener('param', handleParam);
window.addEventListener('enum', handleEnum);
window.addEventListener('timesig', handleTimeSig);
window.addEventListener('userWave', handleChangeUserWave);
window.addEventListener('userFunction', handleChangeUserFunction);
window.addEventListener('userDefinedType', handleChangeUserDefinedType);
window.addEventListener('maxTicks', handleMaxTicks);
window.addEventListener('viewMode', handleChangeViewMode);
return () => {
window.removeEventListener('loadDict', handleLoad);
window.removeEventListener('saveDict', handleSave);
window.removeEventListener('dumpNN', dumpNN);
window.removeEventListener('setNN', setNN);
window.removeEventListener('tick', handleTick);
window.removeEventListener('param', handleParam);
window.removeEventListener('enum', handleEnum);
window.removeEventListener('timesig', handleTimeSig);
window.removeEventListener('userWave', handleChangeUserWave);
window.removeEventListener('userFunction', handleChangeUserFunction);
window.removeEventListener('userDefinedType', handleChangeUserDefinedType);
window.removeEventListener('maxTicks', handleMaxTicks);
window.removeEventListener('viewMode', handleChangeViewMode);
};
}, [...allModArrays, ...allEnumArrays, ...allEnumMats, userDefinedWaves, userDefinedFunctions, userDefinedTypes, modCenterVals, render, beatsInMeasure, ticks]);
function CheckLinked(inst, param, checkInstArr, checkParamArr) {
for (let i = 0; i < checkInstArr.length; i++) {
if (checkInstArr[i] == inst && checkParamArr[i] == param)
return true;
}
return false;
}
///////
// Generate Modulators
///////
let modContents = []
for (var i = 0; i < MAXLFOS; i++) {
let id = i;
modContents.push(
e(LfoRow, {
locked: lockMode,
instanceNum: modInstanceNumArr[i],
setInstanceNum: CreateParamChanger(modInstanceNumArr, setModInstanceNumArr, i),
type: modTypeArr[i],
setType: CreateParamChanger(modTypeArr, setModTypeArr, i),
shape: shapeArr[i],
setShape: CreateParamChanger(shapeArr, setShapeArr, i),
noise: noiseTypeArr[i],
setNoise: CreateParamChanger(noiseTypeArr, setNoiseTypeArr, i),
djParam: djParamArr[i],
setDjParam: CreateParamChanger(djParamArr, setDjParamArr, i),
centerVals: modCenterVals,
freq: freqArr[i],
setFreq: CreateParamChanger(freqArr, setFreqArr, i),
//amp: ampArr[i],
//setAmp: CreateParamChanger(ampArr, setAmpArr, i),
min: minArr[i],
setMin: CreateParamChanger(minArr, setMinArr, i),
max: maxArr[i],
setMax: CreateParamChanger(maxArr, setMaxArr, i),
phase: initPhaseArr[i],
setPhase: CreateParamChanger(initPhaseArr, setInitPhaseArr, i),
visible: modVisibleArr[i],
linked: CheckLinked(modInstanceNumArr[i], djParamArr[i], enumInstanceNumArr, enumDjParamArr),
addLfo: () => {
if (id < MAXLFOS - 1) {
if (modVisibleArr[id + 1]) {
let emptyIndex = modVisibleArr.findIndex((item) => !item);
if (emptyIndex != -1) {
for (var j = 0; j < allModArrays.length; j++) {
let array = allModArrays[j];
// remove from all arrays
array.splice(emptyIndex, 1);
// add empty item at opened index
array.splice(id + 1, 0, modBlankVals[j]);
allModSetters[j](array);
}
}
}
else {
for (var j = 0; j < allModArrays.length; j++) { // no space below, easy.
let array = allModArrays[j];
array[id + 1] = modBlankVals[j];
allModSetters[j](array);
}
}
SendSaveEvent();
rerender(!render);
}
},
removeLfo: () => {
if (modVisibleArr.filter(x => x).length > 1) {
let newArr = modVisibleArr.slice();
newArr[id] = false;
setModVisibleArr(newArr);
SendSaveEvent();
}
}
},
null));
}
///////
// Generate Enumerators
///////
let enumContents = []
for (var i = 0; i < MAXLFOS; i++) {
let id = i;
enumContents.push(
e(EnumeratorRow, {
index: i,
locked: lockMode,
instanceNum: enumInstanceNumArr[i],
setInstanceNum: CreateParamChanger(enumInstanceNumArr, setEnumInstanceNumArr, i),
enumItems: enumItemCounts[i],
setEnumItemCounts: CreateParamChanger(enumItemCounts, setEnumItemCounts, i),
enumBreakPoints: enumBreakPoints,
setEnumBreakPoints: (val) => {
setEnumBreakPoints(val);
SendSaveEvent
},
enumNames: enumNames,
setEnumNames: (val) => {
setEnumNames(val);
SendSaveEvent
},
visible: enumVisibleArr[i],
djParam: enumDjParamArr[i],
setDjParam: CreateParamChanger(enumDjParamArr, setEnumDjParamArr, i),
linked: CheckLinked(enumInstanceNumArr[i], enumDjParamArr[i], modInstanceNumArr, djParamArr),
addEnum: () => {
if (id < MAXLFOS - 1) {
if (enumVisibleArr[id + 1]) { // if we need to open up space
let emptyIndex = enumVisibleArr.findIndex((item) => !item);
if (emptyIndex != -1) {
for (var j = 0; j < allEnumArrays.length; j++) {
let array = allEnumArrays[j];
// remove from all arrays
array.splice(emptyIndex, 1);
// add empty item at opened index
array.splice(id + 1, 0, enumBlankVals[j]);
allEnumArrSetters[j](array);
}
// Now do the same with matrices
for (var j = 0; j < allEnumMats.length; j++) {
let mat = allEnumMats[j];
mat.splice(emptyIndex, 1);
mat.splice(id + 1, 0, 0);
mat[id + 1] = allGetEnumMatBlankVals[j]();
allEnumMatSetters[j](mat);
}
}
}
else {
for (var j = 0; j < allEnumArrays.length; j++) {
let array = allEnumArrays[j];
array[id + 1] = enumBlankVals[j];
allEnumArrSetters[j](array);
}
// Now do the same with matrices
for (var j = 0; j < allEnumMats.length; j++) {
let mat = allEnumMats[j];
mat[id + 1] = allGetEnumMatBlankVals[j]();
allEnumMatSetters[j](mat);
}
}
rerender(!render);
SendSaveEvent();
}
},
removeEnum: () => {
if (enumVisibleArr.filter(x => x).length > 1) {
let newArr = enumVisibleArr.slice();
newArr[id] = false;
setEnumVisibleArr(newArr);
SendSaveEvent();
}
}
}, null)
);
}
var grid;
var modButtonClass;
var enumButtonClass;
var labels;
if (viewMode === ViewModes.MOD) {
grid = modContents;
modButtonClass = "highlighted-button";
enumButtonClass = "unhighlighted-button";
labels = MODULATORLABELS;
}
else {
grid = enumContents;
modButtonClass = "unhighlighted-button";
enumButtonClass = "highlighted-button";
labels = ENUMERATORLABELS;
}
let lockClass;
if (lockMode == LockModes.LOCK) {
lockClass = 'lock';
}
else {
lockClass = 'lock unlocked';
}
return e('div', null,
e('div', { className: 'header' },
e('div', {className: 'nav'},
displayIfEnabled(e('button', { onClick: () => setViewMode(ViewModes.MOD), className: modButtonClass}, 'Modulators')),
displayIfEnabled(e('button', { onClick: () => setViewMode(ViewModes.ENUM), className: enumButtonClass }, 'Enumerators'))
),
e('button', { onClick: toggleEnabled, id: 'hide-button'}, toggleEnabledText),
//allows lock mode
//e('span', { className: lockClass, onClick: toggleLockMode }, null)
),
displayIfEnabled(
e('table', { id: 'table' },
e('thead', null, e('tr', { id: 'headers' }, ...labels.map(x => e('th', {id: x == '# points' ? 'points' : x}, x)))),
e('tbody', null, ...grid)
))
);
}
if (!DEBUG) {
window.max.bindInlet("load", (dictId) => {
window.dispatchEvent(new CustomEvent('loadDict', { 'detail': dictId }));
});
window.max.bindInlet("save", (dictId) => {
window.dispatchEvent(new CustomEvent('saveDict', { 'detail': dictId }));
});
window.max.bindInlet("dumpNN", () => {
window.dispatchEvent(new CustomEvent('dumpNN'));
});
window.max.bindInlet("setNN", (...data) => {
window.dispatchEvent(new CustomEvent('setNN', { 'detail': data }));
});
window.max.bindInlet("param", (inst, paramName, val) => {
window.dispatchEvent(new CustomEvent('param', { 'detail': [inst, paramName, val] }));
});
window.max.bindInlet("timesig", (top, bottom) => {
window.dispatchEvent(new CustomEvent('timesig', { 'detail': [top, bottom] }));
});
window.max.bindInlet("ticks", (val) => {
window.dispatchEvent(new CustomEvent('maxTicks', { 'detail': val }));
});
window.max.bindInlet("userWave", (index, ...points) => {
let data = { points, index };
window.dispatchEvent(new CustomEvent('userWave', { 'detail': data }));
});
window.max.bindInlet("viewMode", (mode) => {
window.dispatchEvent(new CustomEvent('viewMode', { 'detail': parseInt(mode) }));
});
window.max.bindInlet("userFunction", (index, ...points) => {
//list of 101 points between 0-100
let data = { points, index };
window.dispatchEvent(new CustomEvent('userFunction', { 'detail': data }));
});
window.max.bindInlet("userDefinedType", (index, type) => {
let data = { index, type };
window.dispatchEvent(new CustomEvent('userDefinedType', { 'detail': data }));
})
setInterval(() => {
window.dispatchEvent(new CustomEvent('tick'));
}, 200);
}
const root = ReactDOM.createRoot(document.getElementById('lfo-container'));
root.render(e(MasterLfoHandler, null, null));

224
src/modulators.js Normal file
View File

@@ -0,0 +1,224 @@
/////////////////////////
// MODULATORS
/////////////////////////
var TYPEOPTIONS = ["LFO", "Noise"];
var SHAPETYPES = ["Sine", "SawUp", "SawDown", "Tri", "Square", "Custom_1", "Custom_2", "Custom_3", "Custom_4"];
var NOISETYPES = ["Rand", "Line Int.", "Sine Int."]
var INSTANCEOPTIONS = ["1", "2", "3", "4", "5", "6"];
const MODPARAMOPTIONS = ["NONE", "stream", "pulse_length", "eventfulness", "event_length", "metriclarity",
"harmoniclarity", "melodic_cohesion", "melody_scope", "tonic_pitch", "pitch_center", "pitch_range", "dynamics",
"attenuation", "chordal_weight", "tonality-profile", "ostinato-buffer", "ostinato", "meter", "scale"];
const PhaseTypes = Object.freeze({
MUSICAL: Symbol("musical"),
TIME: Symbol("time")
});
function ControlType(){
return e('select', {className: 'control-type'}, Option("LFO"));
}
function DataCell(element) {
return e('td', null, element);
}
function LfoRow(props){
let linkedText = props.linked ? "-> enums" : "";
let center = props.centerVals[props.instanceNum][props.djParam];
if (!center)
center = 0;
let typeOption = null;
if (props.type == "LFO"){
typeOption = DataCell(DropDown({locked:props.locked, onChange: props.setShape, value:props.shape, options: SHAPETYPES}));
}
else if (props.type == "Noise"){
typeOption = DataCell(DropDown({locked:props.locked, onChange: props.setNoise, value:props.noise, options: NOISETYPES}));
}
let content = e('tr', {className: 'lfo-item'},
DataCell(DropDown({locked:props.locked, onChange: props.setInstanceNum, value:props.instanceNum, options: INSTANCEOPTIONS})),
DataCell(DropDown({locked:props.locked, options: TYPEOPTIONS, onChange: props.setType, value:props.type})),
typeOption,
DataCell(DropDown({locked:props.locked, onChange: props.setDjParam, value: props.djParam, options: MODPARAMOPTIONS})),
DataCell(e("input", {onChange:props.setFreq, value:props.freq, className:"timeInput"}, null)),
DataCell(e(NumberBox, {onChange:props.setMin, value:props.min, step:0.1}, null)),
DataCell(e(NumberBox, {onChange:props.setMax, value:props.max, step:0.1}, null)),
//DataCell(e(NumberBox, {onChange:props.setAmp, value:props.amp, step:0.1}, null)),
DataCell(e(NumberBox, {onChange:props.setPhase, value:props.phase, step:0.1}, null)),
DataCell(e("div", {className:"base-val"}, center.toString())),
DataCell(e("input", {type: 'range', min: 0, max: 1, step: 0.01, readonly: true, id: `slider-${props.instanceNum}-${props.djParam}`})),
DataCell(e(Button, {text:'+', onClick: props.addLfo, locked: props.locked}, null)),
DataCell(e(Button, {text:'-', onClick: props.removeLfo, locked: props.locked}, null)),
DataCell(e("div", {className:"linked"}, linkedText)),
);
if (props.visible){
return content;
};
}
function indexUserWave(phase, index, userDefinedWaves){
return parseFloat(userDefinedWaves[index][Math.floor(phase * 50)]) / 127;
}
function indexUserFunction(phase, index, userDefinedFunctions){
return parseFloat(userDefinedFunctions[index][Math.floor(phase * 101)]) / 127;
}
function indexWave(type, phase, userDefinedWaves, userDefinedFunctions, userDefinedTypes){
switch (type){
case "Sine":
return (Math.sin(phase * Math.PI * 2) / 2) + 0.5;
case "SawUp":
return phase;
case "SawDown":
return 1 - phase;
case "Tri":
return phase > 0.5? (1-phase) * 2 : phase * 2;
case "Square":
return +(phase > 0.5);
case "Custom_1":
return userDefinedTypes[0] == 0 ? indexUserWave(phase, 1, userDefinedWaves) : indexUserFunction(phase, 1, userDefinedFunctions);
case "Custom_2":
return userDefinedTypes[1] == 0 ? indexUserWave(phase, 2, userDefinedWaves) : indexUserFunction(phase, 2, userDefinedFunctions);
case "Custom_3":
return userDefinedTypes[2] == 0 ? indexUserWave(phase, 3, userDefinedWaves) : indexUserFunction(phase, 3, userDefinedFunctions);
case "Custom_4":
return userDefinedTypes[3] == 0 ? indexUserWave(phase, 4, userDefinedWaves) : indexUserFunction(phase, 4, userDefinedFunctions);
}
}
function operateModulators(visibleArr, typeArr, instanceNumArr, paramNames, centers, freqs, mins, maxs, waveTypes, phaseArr, noiseData, userDefinedWaves, userDefinedFunctions, userDefinedTypes, currTime, beatsInMeasure, ticks){
for (let i=0; i<paramNames.length; i++){
if (visibleArr[i]){
let name = paramNames[i];
let inst = instanceNumArr[i];
let center = 0;
if (centers[inst].hasOwnProperty(name)){
center = centers[inst][name];
}
let output = 0;
if (typeArr[i] == "LFO")
output = operateLFO(center, inst, freqs[i], mins[i], maxs[i], waveTypes[i], phaseArr, i, userDefinedWaves, userDefinedFunctions, userDefinedTypes, name, currTime, beatsInMeasure, ticks);
else
output = operateNoise(center, inst, freqs[i], mins[i], maxs[i], waveTypes[i], phaseArr, i, name, noiseData, currTime, beatsInMeasure, ticks);
if (name !== "NONE")
window.dispatchEvent(new CustomEvent('enum', {'detail' : [inst, name, output]}));
}
}
}
function operateLFO(center, inst, timeBaseStr, min, max, waveType, phaseArr, phaseIndex, userDefinedWaves, userDefinedFunctions, userDefinedTypes, name, currTime, beatsInMeasure, maxTicks){
let amp = parseFloat(max) - parseFloat(min);
let phaseType;
let timeBase;
[timeBase, phaseType] = parseLfoTime(timeBaseStr, beatsInMeasure);
let phase;
if (phaseType === PhaseTypes.TIME)
phase = (currTime * timeBase + parseFloat(phaseArr[phaseIndex])) % 1.00;
else if (phaseType === PhaseTypes.MUSICAL)
phase = (maxTicks % timeBase) / timeBase;
let unscaled = indexWave(waveType, phase, userDefinedWaves, userDefinedFunctions, userDefinedTypes);
syncDisplay(inst, name, unscaled);
return unscaled * amp + center + parseFloat(min);
}
function syncDisplay(inst, name, val) {
let el = document.getElementById(`slider-${inst}-${name}`);
if (el)
el.value = val;
}
// For now, we're only using sine interpolation
function operateNoise(center, inst, timeBaseStr, min, max, waveType, phaseArr, index, name, noiseData, currTime, beatsInMeasure, maxTicks){
let amp = parseFloat(max) - parseFloat(min);
let phaseType;
let timeBase;
let noiseType = noiseData.noiseTypeArr[index];
[timeBase, phaseType] = parseLfoTime(timeBaseStr, beatsInMeasure);
let phase;
if (phaseType === PhaseTypes.TIME)
phase = (currTime * timeBase + parseFloat(phaseArr[index])) % 1.00;
else if (phaseType === PhaseTypes.MUSICAL)
phase = (maxTicks % timeBase) / timeBase;
if (noiseData.cachedNoiseValueArr1[index] == 0 || noiseData.lastPhaseArr[index] > phase){ // occurs if the phase reset to 0 or at the very start
noiseData.cachedNoiseValueArr2[index] = noiseData.cachedNoiseValueArr1[index];
if (noiseData.cachedNoiseValueArr1[index] == 0)
noiseData.cachedNoiseValueArr2[index] = center;
noiseData.cachedNoiseValueArr1[index] = Math.random();
noiseData.setCachedNoiseValueArr1(noiseData.cachedNoiseValueArr1);
noiseData.setCachedNoiseValueArr2(noiseData.cachedNoiseValueArr2);
}
noiseData.lastPhaseArr[index] = phase;
noiseData.setLastPhaseArr(noiseData.lastPhaseArr);
//let unscaled = (noiseData.cachedNoiseValueArr[index][1] - noiseData.cachedNoiseValueArr[index][0]) * sinePhase + noiseData.cachedNoiseValueArr[index][0];
let unscaled = interpolateNoise(noiseType, noiseData.cachedNoiseValueArr1[index], noiseData.cachedNoiseValueArr2[index], phase);
syncDisplay(inst, name, unscaled);
return unscaled * amp + center + parseFloat(min);
}
function interpolateNoise(type, cachedVal1, cachedVal2, phase){
let interpVal;
switch (type){
case "Sine Int.":
interpVal = (Math.sin(Math.PI + Math.PI * phase) + 1) / 2;
break;
case "Rand":
interpVal = 0;
break;
case "Line Int.":
interpVal = phase;
break;
}
return (cachedVal2 - cachedVal1) * interpVal + cachedVal1;
}
// actual returns the period for musical timing, to avoid floating point errors
function parseLfoTime(lfoTime, beatsInMeasure){
if (lfoTime.slice(-2) == "hz"){
return [parseFloat(lfoTime.slice(0, -2)), PhaseTypes.TIME];
}
else if (lfoTime.slice(-2) == "ms"){
return [1000 / parseFloat(lfoTime.slice(0, -2)), PhaseTypes.TIME];
}
else if (lfoTime.slice(-1) == "s"){
return [1 / parseFloat(lfoTime.slice(0, -1)), PhaseTypes.TIME];
}
else if ((lfoTime.match(/:/g) || []).length == 2){
return [1 / moment.duration(lfoTime).asSeconds(), PhaseTypes.TIME];
}
else if ((lfoTime.match(/\./g) || []).length == 2){
return [musicalTimingToFreq(...lfoTime.split('.'), beatsInMeasure), PhaseTypes.MUSICAL];
}
else {
return [0, PhaseTypes.TIME];
}
}
function musicalTimingToFreq(bars, beats, ticks, beatsInMeasure){
let totalTicks = (parseFloat(bars) * parseFloat(beatsInMeasure) + parseFloat(beats)) * 480 + parseFloat(ticks);
return totalTicks;
}