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58 Commits

Author SHA1 Message Date
Jade (Rose) Rowland b8e1b8d7ac Merge branch 'main' into supradough 2025-08-31 22:42:07 -04:00
daslyfe a26559fd3d Merge branch 'main' into supradough 2025-07-22 06:35:59 +02:00
Felix Roos 5632d83afb fix: supradough onTrigger after breaking change 2025-07-16 02:21:39 +02:00
Felix Roos a32473d570 Merge remote-tracking branch 'origin/main' into supradough 2025-07-15 22:26:46 +02:00
froos 8051e56d13 Merge branch 'main' into supradough 2025-06-14 00:35:52 +02:00
Felix Roos 239987af0b snapshot 2025-06-12 10:23:06 +02:00
Felix Roos 8363ba5a41 format 2025-06-12 10:22:35 +02:00
Felix Roos 30f7127a92 Merge remote-tracking branch 'origin/main' into supradough 2025-06-12 10:22:08 +02:00
Felix Roos 14193abe03 improve export: add stereo + measure performance + add bigger pattern for testing 2025-06-12 02:26:50 +02:00
Felix Roos 3caf08e199 up latency 2025-06-12 02:26:08 +02:00
Felix Roos 5cbd38a3e8 improve filter performance making it accept hz directly 2025-06-12 02:25:46 +02:00
Felix Roos bbd7ed0f27 lazy sample loading 2025-06-12 02:25:04 +02:00
Jade (Rose) Rowland 43504d16b6 add chorus 2025-06-10 16:03:42 +02:00
Jade (Rose) Rowland 7e8206dcbc pitched delay 2025-06-10 12:31:21 +02:00
Felix Roos 3963b807eb fix: calling doughsamples multiple times 2025-06-09 22:32:41 +02:00
Felix Roos e99adffc56 vibrato 2025-06-09 22:29:35 +02:00
Felix Roos c9f494d865 fix: node export 2025-06-09 22:10:09 +02:00
Felix Roos e8254735bb apply speed to synths and samples + add normalize flag (for fit) 2025-06-09 19:35:50 +02:00
Jade (Rose) Rowland 3d30007756 supersaw 2025-06-09 15:55:44 +02:00
Jade (Rose) Rowland aeaed50446 gaincurve 2025-06-09 15:18:47 +02:00
Felix Roos 3ac0fdf619 rudimentary sample map loading (doughsamples) 2025-06-09 11:07:57 +02:00
Felix Roos d1b6b6be85 fix: hpf 2025-06-09 09:54:24 +02:00
Felix Roos 1081fc69e9 refactor: stereo sample support + channelwise fx 2025-06-09 09:52:29 +02:00
Felix Roos 73ef43dd2c move things around in init
+ shorten things
2025-06-08 22:56:55 +02:00
Jade (Rose) Rowland 181e51ef0e adjustable envelope curves 2025-06-08 20:26:20 +02:00
Jade (Rose) Rowland 1167fdb910 Merge branch 'supradough' of https://github.com/tidalcycles/strudel into supradough 2025-06-08 19:25:47 +02:00
Jade (Rose) Rowland ec9109dd89 exponential lerp 2025-06-08 19:24:55 +02:00
Felix Roos 55aef18851 buffers can now be repitched (still with aliasing) 2025-06-08 14:43:23 +02:00
Felix Roos 356d4360ec fix: scheduling + sample playback 2025-06-08 09:05:14 +02:00
Felix Roos 0f2aa9569b half working samples 2025-06-08 02:04:49 +02:00
Felix Roos ac7ee376e5 pitch envelope 2025-06-08 00:43:58 +02:00
Felix Roos ab052ce1ac fix: polyblepped sawtooth + fm = death 2025-06-07 23:15:09 +02:00
Felix Roos 5988e3d3b4 fix: hot reloading for dough.mjs (see comment) 2025-06-07 22:42:48 +02:00
Felix Roos 2f2bf5bf29 fix: note2midi for notes without octave 2025-06-07 22:36:54 +02:00
Felix Roos b000f2297d fm 2025-06-07 20:31:47 +02:00
Felix Roos 77463a199a add square alias for pulse 2025-06-07 13:26:43 +02:00
Felix Roos e54449f5f7 white brown pink noise + crackle alias for dust 2025-06-07 13:24:06 +02:00
Felix Roos d743570546 set delay time and feedback from voice 2025-06-07 13:12:35 +02:00
Felix Roos 1dac69635d feedback delay (still hard coded feedback / time values) 2025-06-07 10:40:34 +02:00
Felix Roos 49f38aeddb remove log 2025-06-06 16:26:17 +02:00
Felix Roos 43c05cb504 move supradough to separate package 2025-06-06 16:17:05 +02:00
Felix Roos ccc90d547c ignore dough-export to fix checks 2025-06-06 15:47:19 +02:00
Felix Roos 998a010247 better filter envelopes 2025-06-06 11:21:01 +02:00
Felix Roos e4cd5dc552 rough filter envelope implementation 2025-06-06 10:55:38 +02:00
Felix Roos 6cf0b6f651 hpf + bpf 2025-06-06 10:12:49 +02:00
Felix Roos 794bf86904 distort 2025-06-06 09:56:41 +02:00
Felix Roos 9ed690ce45 pulse osc + velocity 2025-06-06 09:37:40 +02:00
Felix Roos 623bf93368 panning 2025-06-06 08:50:02 +02:00
Felix Roos 0cc18a6468 crush (might be wrong) 2025-06-06 08:27:47 +02:00
Felix Roos 87598e10d1 coarse 2025-06-06 08:17:20 +02:00
Felix Roos ccec7e725a poc: render pattern audio with node script 2025-06-05 11:04:55 +02:00
Felix Roos f0e6c5483c handle invalid spawns + remove logs 2025-06-05 10:30:53 +02:00
Felix Roos 2cbd35f6d2 refactor: make webaudio glue as minimal as possible 2025-06-05 10:26:14 +02:00
Felix Roos 930dabe4d6 dough as a singleton worklet with voice allocation 2025-06-05 09:54:44 +02:00
Jade (Rose) Rowland ff4b7ca171 fix volume 2025-06-04 01:08:36 +01:00
Jade (Rose) Rowland 5129fa6677 fix click 2025-06-04 00:48:32 +01:00
Felix Roos 5336569c25 proper lpf mapping + remove redundant worklet params, 2025-06-01 21:20:28 +02:00
Felix Roos 483843bd0a begin supradough 2025-06-01 18:06:36 +02:00
54 changed files with 1591 additions and 496 deletions
+1
View File
@@ -42,6 +42,7 @@ export default [
'**/hydra.mjs',
'**/jsdoc-synonyms.js',
'packages/hs2js/src/hs2js.mjs',
'packages/supradough/dough-export.mjs',
'**/samples',
],
},
+6 -8
View File
@@ -56,13 +56,11 @@ const buildExamples = (examples) =>
export const Autocomplete = ({ doc, label }) =>
h`
<div class="autocomplete-info-container">
<div class="autocomplete-info-tooltip">
<h3 class="autocomplete-info-function-name">${label || getDocLabel(doc)}</h3>
${doc.description ? `<div class="autocomplete-info-function-description">${doc.description}</div>` : ''}
${buildParamsList(doc.params)}
${buildExamples(doc.examples)}
</div>
<div class="autocomplete-info-tooltip">
<h3 class="autocomplete-info-function-name">${label || getDocLabel(doc)}</h3>
${doc.description ? `<p class="autocomplete-info-function-description">${doc.description}</p>` : ''}
${buildParamsList(doc.params)}
${buildExamples(doc.examples)}
</div>
`[0];
@@ -100,4 +98,4 @@ export const strudelAutocomplete = (context) => {
};
export const isAutoCompletionEnabled = (enabled) =>
enabled ? [autocompletion({ override: [strudelAutocomplete], closeOnBlur: false })] : [];
enabled ? [autocompletion({ override: [strudelAutocomplete] })] : [];
+1 -1
View File
@@ -1,6 +1,6 @@
{
"name": "@strudel/codemirror",
"version": "1.2.4",
"version": "1.2.3",
"description": "Codemirror Extensions for Strudel",
"main": "index.mjs",
"publishConfig": {
+27 -26
View File
@@ -309,6 +309,17 @@ export const { fmvelocity } = registerControl('fmvelocity');
*/
export const { bank } = registerControl('bank');
/**
* mix control for the chorus effect
*
* @name chorus
* @param {string | Pattern} chorus mix amount between 0 and 1
* @example
* note("d d a# a").s("sawtooth").chorus(.5)
*
*/
export const { chorus } = registerControl('chorus');
// analyser node send amount 0 - 1 (used by scope)
export const { analyze } = registerControl('analyze');
// fftSize of analyser
@@ -1097,14 +1108,27 @@ export const { delay } = registerControl(['delay', 'delaytime', 'delayfeedback']
*
*/
export const { delayfeedback, delayfb, dfb } = registerControl('delayfeedback', 'delayfb', 'dfb');
/**
* Sets the level of the signal that is fed back into the delay.
* Caution: Values >= 1 will result in a signal that gets louder and louder! Don't do it
*
* @name delayfeedback
* @param {number | Pattern} feedback between 0 and 1
* @synonyms delayfb, dfb
* @example
* s("bd").delay(.25).delayfeedback("<.25 .5 .75 1>")
*
*/
export const { delayspeed } = registerControl('delayspeed');
/**
* Sets the time of the delay effect.
*
* @name delaytime
* @param {number | Pattern} seconds between 0 and Infinity
* @name delayspeed
* @param {number | Pattern} delayspeed controls the pitch of the delay feedback
* @synonyms delayt, dt
* @example
* s("bd bd").delay(.25).delaytime("<.125 .25 .5 1>")
* note("d d a# a".fast(2)).s("sawtooth").delay(.8).delaytime(1/2).delayspeed("<2 .5 -1 -2>")
*
*/
export const { delaytime, delayt, dt } = registerControl('delaytime', 'delayt', 'dt');
@@ -1516,29 +1540,6 @@ export const { roomfade, rfade } = registerControl('roomfade', 'rfade');
*
*/
export const { ir, iresponse } = registerControl(['ir', 'i'], 'iresponse');
/**
* Sets speed of the sample for the impulse response.
* @name irspeed
* @param {string | Pattern} speed
* @example
* samples('github:switchangel/pad')
* $: s("brk/2").fit().scrub(irand(16).div(16).seg(8)).ir("swpad:4").room(.2).irspeed("<2 1 .5>/2").irbegin(.5).roomsize(.5)
*
*/
export const { irspeed } = registerControl('irspeed');
/**
* Sets the beginning of the IR response sample
* @name irbegin
* @param {string | Pattern} begin between 0 and 1
* @synonyms ir
* @example
* samples('github:switchangel/pad')
* $: s("brk/2").fit().scrub(irand(16).div(16).seg(8)).ir("swpad:4").room(.65).irspeed("-2").irbegin("<0 .5 .75>/2").roomsize(.6)
*
*/
export const { irbegin } = registerControl('irbegin');
/**
* Sets the room size of the reverb, see `room`.
* When this property is changed, the reverb will be recaculated, so only change this sparsely..
+1 -1
View File
@@ -1,6 +1,6 @@
{
"name": "@strudel/core",
"version": "1.2.4",
"version": "1.2.3",
"description": "Port of Tidal Cycles to JavaScript",
"main": "index.mjs",
"type": "module",
+1 -1
View File
@@ -3277,7 +3277,7 @@ export const slice = register(
* @memberof Pattern
* @returns Pattern
* @example
* s("bd!8").onTriggerTime((hap) => {console.log(hap)})
* s("bd!8").onTriggerTime((hap) => {console.info(hap)})
*/
Pattern.prototype.onTriggerTime = function (func) {
return this.onTrigger((hap, currentTime, _cps, targetTime) => {
+1 -1
View File
@@ -1,6 +1,6 @@
{
"name": "@strudel/csound",
"version": "1.2.5",
"version": "1.2.4",
"description": "csound bindings for strudel",
"main": "index.mjs",
"type": "module",
+1 -1
View File
@@ -1,6 +1,6 @@
{
"name": "@strudel/draw",
"version": "1.2.4",
"version": "1.2.3",
"description": "Helpers for drawing with Strudel",
"main": "index.mjs",
"type": "module",
+1 -1
View File
@@ -1,6 +1,6 @@
{
"name": "@strudel/gamepad",
"version": "1.2.4",
"version": "1.2.3",
"description": "Gamepad Inputs for strudel",
"main": "index.mjs",
"type": "module",
+1 -1
View File
@@ -1,6 +1,6 @@
{
"name": "@strudel/hydra",
"version": "1.2.4",
"version": "1.2.3",
"description": "Hydra integration for strudel",
"main": "hydra.mjs",
"type": "module",
+1 -1
View File
@@ -1,6 +1,6 @@
{
"name": "@strudel/midi",
"version": "1.2.5",
"version": "1.2.4",
"description": "Midi API for strudel",
"main": "index.mjs",
"type": "module",
+1 -1
View File
@@ -1,6 +1,6 @@
{
"name": "@strudel/mini",
"version": "1.2.4",
"version": "1.2.3",
"description": "Mini notation for strudel",
"main": "index.mjs",
"type": "module",
+1 -1
View File
@@ -1,6 +1,6 @@
{
"name": "@strudel/mondo",
"version": "1.1.2",
"version": "1.1.1",
"description": "mondo notation for strudel",
"main": "mondough.mjs",
"type": "module",
+1 -1
View File
@@ -1,6 +1,6 @@
{
"name": "@strudel/motion",
"version": "1.2.4",
"version": "1.2.3",
"description": "DeviceMotion API for strudel",
"main": "index.mjs",
"type": "module",
+1 -1
View File
@@ -1,6 +1,6 @@
{
"name": "@strudel/mqtt",
"version": "1.2.4",
"version": "1.2.3",
"description": "MQTT API for strudel",
"main": "mqtt.mjs",
"type": "module",
+1 -1
View File
@@ -1,6 +1,6 @@
{
"name": "@strudel/osc",
"version": "1.2.4",
"version": "1.2.3",
"description": "OSC messaging for strudel",
"main": "osc.mjs",
"type": "module",
+4 -4
View File
@@ -1,10 +1,10 @@
/* import { oscTriggerTauri } from '../desktopbridge/oscbridge.mjs';
import { isTauri } from '../desktopbridge/utils.mjs'; */
import { oscTriggerTauri } from '../desktopbridge/oscbridge.mjs';
import { isTauri } from '../desktopbridge/utils.mjs';
import { oscTrigger } from './osc.mjs';
const trigger = /* isTauri() ? oscTriggerTauri : */ oscTrigger;
const trigger = isTauri() ? oscTriggerTauri : oscTrigger;
export const superdirtOutput = (hap, deadline, hapDuration, cps, targetTime) => {
const currentTime = performance.now() / 1000;
return trigger(hap, currentTime, cps, targetTime);
return trigger(null, hap, currentTime, cps, targetTime);
};
+1 -1
View File
@@ -1,6 +1,6 @@
{
"name": "@strudel/repl",
"version": "1.2.5",
"version": "1.2.4",
"description": "Strudel REPL as a Web Component",
"module": "index.mjs",
"publishConfig": {
+1 -1
View File
@@ -1,6 +1,6 @@
{
"name": "@strudel/sampler",
"version": "0.2.3",
"version": "0.2.2",
"description": "",
"keywords": [
"tidalcycles",
+19 -55
View File
@@ -1,20 +1,14 @@
#!/usr/bin/env node
import cowsay from 'cowsay';
import { createReadStream, existsSync, writeFileSync } from 'fs';
import { createReadStream, existsSync } from 'fs';
import { readdir } from 'fs/promises';
import http from 'http';
import { join, resolve, sep } from 'path';
import readline from 'readline';
import { join, sep } from 'path';
import os from 'os';
// eslint-disable-next-line
const LOG = !!process.env.LOG || false;
const VALID_AUDIO_EXTENSIONS = ['wav', 'mp3', 'ogg'];
const isAudioFile = (f) => {
const ext = f.split('.').slice(-1)[0].toLowerCase();
return VALID_AUDIO_EXTENSIONS.includes(ext);
};
async function getFilesInDirectory(directory) {
let files = [];
@@ -27,32 +21,32 @@ async function getFilesInDirectory(directory) {
continue;
}
try {
const subFiles = (await getFilesInDirectory(fullPath)).filter(isAudioFile);
const subFiles = (await getFilesInDirectory(fullPath)).filter((f) =>
['wav', 'mp3', 'ogg'].includes(f.split('.').slice(-1)[0].toLowerCase()),
);
files = files.concat(subFiles);
LOG && console.log(`${dirent.name} (${subFiles.length})`);
} catch (err) {
LOG && console.warn(`skipped due to error: ${fullPath}`);
}
} else {
isAudioFile(fullPath) && files.push(fullPath);
files.push(fullPath);
}
}
return files;
}
async function getBanks(directory, flat = false) {
async function getBanks(directory) {
let files = await getFilesInDirectory(directory);
let banks = {};
directory = directory.split(sep).join('/');
files = files.map((path) => {
path = path.split(sep).join('/');
const subDir = path.replace(directory, '');
const subDirFlat = subDir.replaceAll('/', '_').slice(1); // remove initial underscore
const subDirFlatStem = subDirFlat.replace(/\.[^.]+$/, ''); // remove extension
let bank = flat ? subDirFlatStem : path.split('/').slice(-2)[0];
const [bank] = path.split('/').slice(-2);
banks[bank] = banks[bank] || [];
banks[bank].push(subDir);
return subDir;
const relativeUrl = path.replace(directory, '');
banks[bank].push(relativeUrl);
return relativeUrl;
});
banks._base = `http://localhost:5432`;
return { banks, files };
@@ -60,44 +54,14 @@ async function getBanks(directory, flat = false) {
const args = process.argv.slice(2);
function getArgValue(flag) {
const i = args.indexOf(flag);
if (i !== -1) {
const nextIsFlag = args[i + 1]?.startsWith('--') ?? true;
if (nextIsFlag) return true;
return args[i + 1];
}
}
// eslint-disable-next-line
const directory = process.cwd();
function getInput(query) {
const rl = readline.createInterface({
input: process.stdin,
output: process.stdout,
});
return new Promise((resolve) =>
rl.question(query, (response) => {
rl.close();
resolve(response);
}),
);
}
let directory = getArgValue('--dir') || process.cwd();
directory = resolve(directory);
if (args.includes('--json')) {
const { banks } = await getBanks(directory, getArgValue('--flat'));
const { banks, files } = await getBanks(directory);
const json = JSON.stringify(banks);
const outFile = resolve(directory, 'strudel.json');
if (existsSync(outFile)) {
const answer = await getInput(`Warning: File already exists at ${outFile}. Overwrite? (y/N): `);
if (answer.toLowerCase() !== 'y') {
console.log('Aborted.');
process.exit(0);
}
}
writeFileSync(outFile, json, 'utf8');
console.log(`Wrote json to ${outFile}`);
console.log(json);
process.exit(0);
}
console.log(
@@ -110,7 +74,7 @@ console.log(
const server = http.createServer(async (req, res) => {
res.setHeader('Access-Control-Allow-Origin', '*');
const { banks, files } = await getBanks(directory, getArgValue('--flat'));
const { banks, files } = await getBanks(directory);
if (req.url === '/') {
res.setHeader('Content-Type', 'application/json');
return res.end(JSON.stringify(banks));
@@ -118,7 +82,7 @@ const server = http.createServer(async (req, res) => {
let subpath = decodeURIComponent(req.url);
const filePath = join(directory, subpath.split('/').join(sep));
// console.log('GET:', filePath);
//console.log('GET:', filePath);
const isFound = existsSync(filePath);
if (!isFound) {
res.statusCode = 404;
+1 -1
View File
@@ -1,6 +1,6 @@
{
"name": "@strudel/serial",
"version": "1.2.4",
"version": "1.2.3",
"description": "Webserial API for strudel",
"main": "serial.mjs",
"type": "module",
+1 -1
View File
@@ -1,6 +1,6 @@
{
"name": "@strudel/soundfonts",
"version": "1.2.5",
"version": "1.2.4",
"description": "Soundsfont support for strudel",
"main": "index.mjs",
"publishConfig": {
+1 -1
View File
@@ -1,6 +1,6 @@
{
"name": "superdough",
"version": "1.2.5",
"version": "1.2.4",
"description": "simple web audio synth and sampler intended for live coding. inspired by superdirt and webdirt.",
"main": "index.mjs",
"type": "module",
+6 -16
View File
@@ -1,9 +1,7 @@
import reverbGen from './reverbGen.mjs';
import { clamp } from './util.mjs';
if (typeof AudioContext !== 'undefined') {
AudioContext.prototype.adjustLength = function (duration, buffer, speed = 1, offsetAmount = 0) {
const sampleOffset = Math.floor(clamp(offsetAmount, 0, 1) * buffer.length);
AudioContext.prototype.adjustLength = function (duration, buffer) {
const newLength = buffer.sampleRate * duration;
const newBuffer = this.createBuffer(buffer.numberOfChannels, buffer.length, buffer.sampleRate);
for (let channel = 0; channel < buffer.numberOfChannels; channel++) {
@@ -11,30 +9,22 @@ if (typeof AudioContext !== 'undefined') {
let newData = newBuffer.getChannelData(channel);
for (let i = 0; i < newLength; i++) {
// loop the buffer around to prevent
let position = (sampleOffset + i * Math.abs(speed)) % oldData.length;
if (speed < 1) {
position = position * -1;
}
newData[i] = oldData.at(position) || 0;
newData[i] = oldData[i] || 0;
}
}
return newBuffer;
};
AudioContext.prototype.createReverb = function (duration, fade, lp, dim, ir, irspeed, irbegin) {
AudioContext.prototype.createReverb = function (duration, fade, lp, dim, ir) {
const convolver = this.createConvolver();
convolver.generate = (d = 2, fade = 0.1, lp = 15000, dim = 1000, ir, irspeed, irbegin) => {
convolver.generate = (d = 2, fade = 0.1, lp = 15000, dim = 1000, ir) => {
convolver.duration = d;
convolver.fade = fade;
convolver.lp = lp;
convolver.dim = dim;
convolver.ir = ir;
convolver.irspeed = irspeed;
convolver.irbegin = irbegin;
if (ir) {
convolver.buffer = this.adjustLength(d, ir, irspeed, irbegin);
convolver.buffer = this.adjustLength(d, ir);
} else {
reverbGen.generateReverb(
{
@@ -51,7 +41,7 @@ if (typeof AudioContext !== 'undefined') {
);
}
};
convolver.generate(duration, fade, lp, dim, ir, irspeed, irbegin);
convolver.generate(duration, fade, lp, dim, ir);
return convolver;
};
}
+48 -43
View File
@@ -196,6 +196,52 @@ function getSamplesPrefixHandler(url) {
return;
}
export async function fetchSampleMap(url) {
// check if custom prefix handler
const handler = getSamplesPrefixHandler(url);
if (handler) {
return handler(url);
}
url = resolveSpecialPaths(url);
if (url.startsWith('github:')) {
url = githubPath(url, 'strudel.json');
}
if (url.startsWith('local:')) {
url = `http://localhost:5432`;
}
if (url.startsWith('shabda:')) {
let [_, path] = url.split('shabda:');
url = `https://shabda.ndre.gr/${path}.json?strudel=1`;
}
if (url.startsWith('shabda/speech')) {
let [_, path] = url.split('shabda/speech');
path = path.startsWith('/') ? path.substring(1) : path;
let [params, words] = path.split(':');
let gender = 'f';
let language = 'en-GB';
if (params) {
[language, gender] = params.split('/');
}
url = `https://shabda.ndre.gr/speech/${words}.json?gender=${gender}&language=${language}&strudel=1'`;
}
if (typeof fetch !== 'function') {
// not a browser
return;
}
const base = url.split('/').slice(0, -1).join('/');
if (typeof fetch === 'undefined') {
// skip fetch when in node / testing
return;
}
const json = await fetch(url)
.then((res) => res.json())
.catch((error) => {
console.error(error);
throw new Error(`error loading "${url}"`);
});
return [json, json._base || base];
}
/**
* Loads a collection of samples to use with `s`
* @example
@@ -217,49 +263,8 @@ function getSamplesPrefixHandler(url) {
export const samples = async (sampleMap, baseUrl = sampleMap._base || '', options = {}) => {
if (typeof sampleMap === 'string') {
// check if custom prefix handler
const handler = getSamplesPrefixHandler(sampleMap);
if (handler) {
return handler(sampleMap);
}
sampleMap = resolveSpecialPaths(sampleMap);
if (sampleMap.startsWith('github:')) {
sampleMap = githubPath(sampleMap, 'strudel.json');
}
if (sampleMap.startsWith('local:')) {
sampleMap = `http://localhost:5432`;
}
if (sampleMap.startsWith('shabda:')) {
let [_, path] = sampleMap.split('shabda:');
sampleMap = `https://shabda.ndre.gr/${path}.json?strudel=1`;
}
if (sampleMap.startsWith('shabda/speech')) {
let [_, path] = sampleMap.split('shabda/speech');
path = path.startsWith('/') ? path.substring(1) : path;
let [params, words] = path.split(':');
let gender = 'f';
let language = 'en-GB';
if (params) {
[language, gender] = params.split('/');
}
sampleMap = `https://shabda.ndre.gr/speech/${words}.json?gender=${gender}&language=${language}&strudel=1'`;
}
if (typeof fetch !== 'function') {
// not a browser
return;
}
const base = sampleMap.split('/').slice(0, -1).join('/');
if (typeof fetch === 'undefined') {
// skip fetch when in node / testing
return;
}
return fetch(sampleMap)
.then((res) => res.json())
.then((json) => samples(json, baseUrl || json._base || base, options))
.catch((error) => {
console.error(error);
throw new Error(`error loading "${sampleMap}"`);
});
const [json, base] = await fetchSampleMap(sampleMap);
return samples(json, baseUrl || base, options);
}
const { prebake, tag } = options;
processSampleMap(
+16 -14
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@@ -196,7 +196,7 @@ export const resetLoadedSounds = () => soundMap.set({});
let audioContext;
export const setDefaultAudioContext = () => {
audioContext = new AudioContext();
audioContext = new AudioContext({ latencyHint: 'playback' });
return audioContext;
};
@@ -212,11 +212,17 @@ export function getAudioContextCurrentTime() {
return getAudioContext().currentTime;
}
let externalWorklets = [];
export function registerWorklet(url) {
externalWorklets.push(url);
}
let workletsLoading;
function loadWorklets() {
if (!workletsLoading) {
const audioCtx = getAudioContext();
workletsLoading = audioCtx.audioWorklet.addModule(workletsUrl);
const allWorkletURLs = externalWorklets.concat([workletsUrl]);
workletsLoading = Promise.all(allWorkletURLs.map((workletURL) => audioCtx.audioWorklet.addModule(workletURL)));
}
return workletsLoading;
@@ -282,6 +288,7 @@ export async function initAudioOnFirstClick(options) {
return audioReady;
}
let delays = {};
const maxfeedback = 0.98;
let channelMerger, destinationGain;
@@ -325,7 +332,7 @@ export const panic = () => {
channelMerger == null;
};
function getDelay(orbit, delaytime, delayfeedback, t) {
function getDelay(orbit, delaytime, delayfeedback, t, channels) {
if (delayfeedback > maxfeedback) {
//logger(`delayfeedback was clamped to ${maxfeedback} to save your ears`);
}
@@ -413,7 +420,7 @@ function connectToOrbit(node, orbit) {
function setOrbit(audioContext, orbit, channels) {
if (orbits[orbit] == null) {
orbits[orbit] = {
gain: new GainNode(audioContext, { gain: 1, channelCount: 2, channelCountMode: 'explicit' }),
gain: new GainNode(audioContext, { gain: 1 }),
};
connectToDestination(orbits[orbit].gain, channels);
}
@@ -441,22 +448,19 @@ function duckOrbit(audioContext, targetOrbit, t, attacktime = 0.1, duckdepth = 1
}
let hasChanged = (now, before) => now !== undefined && now !== before;
function getReverb(orbit, duration, fade, lp, dim, ir, irspeed, irbegin) {
function getReverb(orbit, duration, fade, lp, dim, ir) {
// If no reverb has been created for a given orbit, create one
if (!orbits[orbit].reverbNode) {
const ac = getAudioContext();
const reverb = ac.createReverb(duration, fade, lp, dim, ir, irspeed, irbegin);
const reverb = ac.createReverb(duration, fade, lp, dim, ir);
connectToOrbit(reverb, orbit);
orbits[orbit].reverbNode = reverb;
}
if (
hasChanged(duration, orbits[orbit].reverbNode.duration) ||
hasChanged(fade, orbits[orbit].reverbNode.fade) ||
hasChanged(lp, orbits[orbit].reverbNode.lp) ||
hasChanged(dim, orbits[orbit].reverbNode.dim) ||
hasChanged(irspeed, orbits[orbit].reverbNode.irspeed) ||
hasChanged(irbegin, orbits[orbit].reverbNode.irbegin) ||
orbits[orbit].reverbNode.ir !== ir
) {
// only regenerate when something has changed
@@ -464,7 +468,7 @@ function getReverb(orbit, duration, fade, lp, dim, ir, irspeed, irbegin) {
// stack(s("a"), s("b").rsize(8)).room(.5)
// this only works when args may stay undefined until here
// setting default values breaks this
orbits[orbit].reverbNode.generate(duration, fade, lp, dim, ir, irspeed, irbegin);
orbits[orbit].reverbNode.generate(duration, fade, lp, dim, ir);
}
return orbits[orbit].reverbNode;
}
@@ -621,8 +625,6 @@ export const superdough = async (value, t, hapDuration, cps = 0.5, cycle = 0.5)
roomdim,
roomsize,
ir,
irspeed,
irbegin,
i = getDefaultValue('i'),
velocity = getDefaultValue('velocity'),
analyze, // analyser wet
@@ -836,7 +838,7 @@ export const superdough = async (value, t, hapDuration, cps = 0.5, cycle = 0.5)
// delay
let delaySend;
if (delay > 0 && delaytime > 0 && delayfeedback > 0) {
const delayNode = getDelay(orbit, delaytime, delayfeedback, t);
const delayNode = getDelay(orbit, delaytime, delayfeedback, t, orbitChannels);
delaySend = effectSend(post, delayNode, delay);
audioNodes.push(delaySend);
}
@@ -854,7 +856,7 @@ export const superdough = async (value, t, hapDuration, cps = 0.5, cycle = 0.5)
}
roomIR = await loadBuffer(url, ac, ir, 0);
}
const reverbNode = getReverb(orbit, roomsize, roomfade, roomlp, roomdim, roomIR, irspeed, irbegin);
const reverbNode = getReverb(orbit, roomsize, roomfade, roomlp, roomdim, roomIR, orbitChannels);
reverbSend = effectSend(post, reverbNode, room);
audioNodes.push(reverbSend);
}
+1
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@@ -0,0 +1 @@
pattern.wav
+3
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@@ -0,0 +1,3 @@
# supradough
platform agnostic synth and sampler intended for live coding. a reimplementation of superdough.
+123
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@@ -0,0 +1,123 @@
// this is a poc of how a pattern can be rendered as a wav file using node
// run via: node dough-export.mjs
import fs from 'node:fs';
import WavEncoder from 'wav-encoder';
import { evalScope } from '@strudel/core';
import { miniAllStrings } from '@strudel/mini';
import { Dough } from './dough.mjs';
await evalScope(
import('@strudel/core'),
import('@strudel/mini'),
import('@strudel/tonal'),
// import('@strudel/tonal'),
);
miniAllStrings(); // allows using single quotes for mini notation / skip transpilation
let sampleRate = 48000,
cps = 0.4;
/* await doughsamples('github:eddyflux/crate');
await doughsamples('github:eddyflux/wax'); */
let pat = note('c,eb,g,<bb c4 d4 eb4>')
.s('sine')
.press()
.add(note(24))
.fmi(3)
.fmh(5.01)
.dec(0.4)
.delay('.6:<.12 .22>:.8')
.jux(press)
.rarely(add(note('12')))
.lpf(400)
.lpq(0.2)
.lpd(0.4)
.lpenv(3)
.fmdecay(0.4)
.fmenv(1)
.postgain(0.6)
.stack(s('<pink white>*8').dec(0.07).rarely(ply('2')).delay(0.5).hpf(sine.range(200, 2000).slow(4)).hpq(0.2))
.stack(
s('[- white@3]*2')
.dec(0.4)
.hpf('<2000!3 <4000 8000>>*4')
.hpq(0.6)
.ply('<1 2>*4')
.postgain(0.5)
.delay(0.5)
.jux(rev)
.lpf(5000),
)
.stack(
note('<c2 - [- f1] ->*2')
.s('square')
.lpf(sine.range(100, 300).slow(4))
.lpe(1)
.segment(8)
.lpd(0.3)
.lpq(0.2)
.dec(0.2)
.speed('<1 2>')
.ply('<1 2>')
.postgain(1),
)
.stack(
chord('<Cm Cm7 Cm9 Cm11 Fm Fm7 Fm9 Fm11>')
.voicing()
.s('<sine>')
.clip(1)
.rel(0.4)
.vib('4:.2')
.gain(0.7)
.hpf(1200)
.fm(0.5)
.att(1)
.lpa(0.5)
.lpf(200)
.lpenv(4)
.chorus(0.8),
)
.slow(1 / cps);
let cycles = 30;
let seconds = cycles + 1; // 1s release tail
const haps = pat.queryArc(0, cycles);
const dough = new Dough(sampleRate);
console.log('spawn voices...');
haps.forEach((hap) => {
hap.value._begin = Number(hap.whole.begin);
hap.value._duration = hap.duration /* / cps */;
dough.scheduleSpawn(hap.value);
});
console.log(`render ${seconds}s long buffer, each dot is 1 second:`);
const buffers = [new Float32Array(seconds * sampleRate), new Float32Array(seconds * sampleRate)];
let t = performance.now();
while (dough.t <= buffers[0].length) {
dough.update();
buffers[0][dough.t] = dough.out[0];
buffers[1][dough.t] = dough.out[1];
if (dough.t % sampleRate === 0) {
process.stdout.write('.');
}
}
const took = (performance.now() - t) / 1000;
const load = (took / seconds) * 100;
const speed = (seconds / took).toFixed(2);
console.log('');
console.log(`done!
rendered ${seconds}s in ${took.toFixed(2)}s
speed: ${speed}x
load: ${load.toFixed(2)}%`);
const patternAudio = {
sampleRate,
channelData: buffers,
};
WavEncoder.encode(patternAudio).then((buffer) => {
fs.writeFileSync('pattern.wav', new Float32Array(buffer));
});
+39
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@@ -0,0 +1,39 @@
import { Dough } from './dough.mjs';
const clamp = (num, min, max) => Math.min(Math.max(num, min), max);
class DoughProcessor extends AudioWorkletProcessor {
constructor() {
super();
this.dough = new Dough(sampleRate, currentTime);
this.port.onmessage = (event) => {
if (event.data.spawn) {
this.dough.scheduleSpawn(event.data.spawn);
} else if (event.data.sample) {
this.dough.loadSample(event.data.sample, event.data.channels, event.data.sampleRate);
} else if (event.data.samples) {
event.data.samples.forEach(([name, channels, sampleRate]) => {
this.dough.loadSample(name, channels, sampleRate);
});
} else {
console.log('unrecognized event type', event.data);
}
};
}
process(inputs, outputs, params) {
if (this.disconnected) {
return false;
}
const output = outputs[0];
for (let i = 0; i < output[0].length; i++) {
this.dough.update();
for (let c = 0; c < output.length; c++) {
//prevent speaker blowout via clipping if threshold exceeds
output[c][i] = clamp(this.dough.out[c], -1, 1);
}
}
return true; // keep the audio processing going
}
}
registerProcessor('dough-processor', DoughProcessor);
+976
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@@ -0,0 +1,976 @@
// this is dough, the superdough without dependencies
const SAMPLE_RATE = typeof sampleRate !== 'undefined' ? sampleRate : 48000;
const PI_DIV_SR = Math.PI / SAMPLE_RATE;
const ISR = 1 / SAMPLE_RATE;
let gainCurveFunc = (val) => Math.pow(val, 2);
function applyGainCurve(val) {
return gainCurveFunc(val);
}
/**
* Equal Power Crossfade function.
* Smoothly transitions between signals A and B, maintaining consistent perceived loudness.
*
* @param {number} a - Signal A (can be a single value or an array value in buffer processing).
* @param {number} b - Signal B (can be a single value or an array value in buffer processing).
* @param {number} m - Crossfade parameter (0.0 = all A, 1.0 = all B, 0.5 = equal mix).
* @returns {number} Crossfaded output value.
*/
function crossfade(a, b, m) {
const aGain = Math.sin((1 - m) * 0.5 * Math.PI);
const bGain = Math.sin(m * 0.5 * Math.PI);
return a * aGain + b * bGain;
}
// function setGainCurve(newGainCurveFunc) {
// gainCurveFunc = newGainCurveFunc;
// }
// https://garten.salat.dev/audio-DSP/oscillators.html
export class SineOsc {
phase = 0;
update(freq) {
const value = Math.sin(this.phase * 2 * Math.PI);
this.phase = (this.phase + freq / SAMPLE_RATE) % 1;
return value;
}
}
export class ZawOsc {
phase = 0;
update(freq) {
this.phase += ISR * freq;
return (this.phase % 1) * 2 - 1;
}
}
function polyBlep(t, dt) {
// 0 <= t < 1
if (t < dt) {
t /= dt;
// 2 * (t - t^2/2 - 0.5)
return t + t - t * t - 1;
}
// -1 < t < 0
if (t > 1 - dt) {
t = (t - 1) / dt;
// 2 * (t^2/2 + t + 0.5)
return t * t + t + t + 1;
}
// 0 otherwise
return 0;
}
export class SawOsc {
constructor(props = {}) {
this.phase = props.phase ?? 0;
}
update(freq) {
const dt = freq / SAMPLE_RATE;
let p = polyBlep(this.phase, dt);
let s = 2 * this.phase - 1 - p;
this.phase += dt;
if (this.phase > 1) {
this.phase -= 1;
}
return s;
}
}
function getUnisonDetune(unison, detune, voiceIndex) {
if (unison < 2) {
return 0;
}
const lerp = (a, b, n) => {
return n * (b - a) + a;
};
return lerp(-detune * 0.5, detune * 0.5, voiceIndex / (unison - 1));
}
function applySemitoneDetuneToFrequency(frequency, detune) {
return frequency * Math.pow(2, detune / 12);
}
export class SupersawOsc {
constructor(props = {}) {
//TODO: figure out a good way to pass in these params
this.voices = props.voices ?? 5;
this.freqspread = props.freqspread ?? 0.2;
this.panspread = props.panspread ?? 0.4;
this.phase = new Float32Array(this.voices).map(() => Math.random());
}
update(freq) {
const gain1 = Math.sqrt(1 - this.panspread);
const gain2 = Math.sqrt(this.panspread);
let sl = 0;
let sr = 0;
for (let n = 0; n < this.voices; n++) {
const freqAdjusted = applySemitoneDetuneToFrequency(freq, getUnisonDetune(this.voices, this.freqspread, n));
const dt = freqAdjusted / SAMPLE_RATE;
const isOdd = (n & 1) == 1;
let gainL = gain1;
let gainR = gain2;
// invert right and left gain
if (isOdd) {
gainL = gain2;
gainR = gain1;
}
let p = polyBlep(this.phase[n], dt);
let s = 2 * this.phase[n] - 1 - p;
sl = sl + s * gainL;
sr = sr + s * gainL;
this.phase[n] += dt;
if (this.phase[n] > 1) {
this.phase[n] -= 1;
}
}
return sl + sr;
//TODO: make stereo
// return [sl, sr];
}
}
export class TriOsc {
phase = 0;
update(freq) {
this.phase += ISR * freq;
let phase = this.phase % 1;
let value = phase < 0.5 ? 2 * phase : 1 - 2 * (phase - 0.5);
return value * 2 - 1;
}
}
export class TwoPoleFilter {
s0 = 0;
s1 = 0;
update(s, cutoff, resonance = 0) {
// Out of bound values can produce NaNs
resonance = Math.max(resonance, 0);
cutoff = Math.min(cutoff, 20000);
const c = 2 * Math.sin(cutoff * PI_DIV_SR);
const r = Math.pow(0.5, (resonance + 0.125) / 0.125);
const mrc = 1 - r * c;
this.s0 = mrc * this.s0 - c * this.s1 + c * s; // bpf
this.s1 = mrc * this.s1 + c * this.s0; // lpf
return this.s1; // return lpf by default
}
}
class PulseOsc {
constructor(phase = 0) {
this.phase = phase;
}
saw(offset, dt) {
let phase = (this.phase + offset) % 1;
let p = polyBlep(phase, dt);
return 2 * phase - 1 - p;
}
update(freq, pw = 0.5) {
const dt = freq / SAMPLE_RATE;
let pulse = this.saw(0, dt) - this.saw(pw, dt);
this.phase = (this.phase + dt) % 1;
return pulse + pw * 2 - 1;
}
}
// non bandlimited (has aliasing)
export class PulzeOsc {
phase = 0;
update(freq, duty = 0.5) {
this.phase += ISR * freq;
let cyclePos = this.phase % 1;
return cyclePos < duty ? 1 : -1;
}
}
export class Dust {
update = (density) => (Math.random() < density * ISR ? Math.random() : 0);
}
export class WhiteNoise {
update() {
return Math.random() * 2 - 1;
}
}
export class BrownNoise {
constructor() {
this.out = 0;
}
update() {
let white = Math.random() * 2 - 1;
this.out = (this.out + 0.02 * white) / 1.02;
return this.out;
}
}
export class PinkNoise {
constructor() {
this.b0 = 0;
this.b1 = 0;
this.b2 = 0;
this.b3 = 0;
this.b4 = 0;
this.b5 = 0;
this.b6 = 0;
}
update() {
const white = Math.random() * 2 - 1;
this.b0 = 0.99886 * this.b0 + white * 0.0555179;
this.b1 = 0.99332 * this.b1 + white * 0.0750759;
this.b2 = 0.969 * this.b2 + white * 0.153852;
this.b3 = 0.8665 * this.b3 + white * 0.3104856;
this.b4 = 0.55 * this.b4 + white * 0.5329522;
this.b5 = -0.7616 * this.b5 - white * 0.016898;
const pink = this.b0 + this.b1 + this.b2 + this.b3 + this.b4 + this.b5 + this.b6 + white * 0.5362;
this.b6 = white * 0.115926;
return pink * 0.11;
}
}
export class Impulse {
phase = 1;
update(freq) {
this.phase += ISR * freq;
let v = this.phase >= 1 ? 1 : 0;
this.phase = this.phase % 1;
return v;
}
}
export class ClockDiv {
inSgn = true;
outSgn = true;
clockCnt = 0;
update(clock, factor) {
let curSgn = clock > 0;
if (this.inSgn != curSgn) {
this.clockCnt++;
if (this.clockCnt >= factor) {
this.clockCnt = 0;
this.outSgn = !this.outSgn;
}
}
this.inSgn = curSgn;
return this.outSgn ? 1 : -1;
}
}
export class Hold {
value = 0;
trigSgn = false;
update(input, trig) {
if (!this.trigSgn && trig > 0) this.value = input;
this.trigSgn = trig > 0;
return this.value;
}
}
function lerp(x, y0, y1, exponent = 1) {
if (x <= 0) return y0;
if (x >= 1) return y1;
let curvedX;
if (exponent === 0) {
curvedX = x; // linear
} else if (exponent > 0) {
curvedX = Math.pow(x, exponent); // ease-in
} else {
curvedX = 1 - Math.pow(1 - x, -exponent); // ease-out
}
return y0 + (y1 - y0) * curvedX;
}
export class ADSR {
constructor(props = {}) {
this.state = 'off';
this.startTime = 0;
this.startVal = 0;
this.decayCurve = props.decayCurve ?? 1;
}
update(curTime, gate, attack, decay, susVal, release) {
switch (this.state) {
case 'off': {
if (gate > 0) {
this.state = 'attack';
this.startTime = curTime;
this.startVal = 0;
}
return 0;
}
case 'attack': {
let time = curTime - this.startTime;
if (time > attack) {
this.state = 'decay';
this.startTime = curTime;
return 1;
}
return lerp(time / attack, this.startVal, 1, 1);
}
case 'decay': {
let time = curTime - this.startTime;
let curVal = lerp(time / decay, 1, susVal, -this.decayCurve);
if (gate <= 0) {
this.state = 'release';
this.startTime = curTime;
this.startVal = curVal;
return curVal;
}
if (time > decay) {
this.state = 'sustain';
this.startTime = curTime;
return susVal;
}
return curVal;
}
case 'sustain': {
if (gate <= 0) {
this.state = 'release';
this.startTime = curTime;
this.startVal = susVal;
}
return susVal;
}
case 'release': {
let time = curTime - this.startTime;
if (time > release) {
this.state = 'off';
return 0;
}
let curVal = lerp(time / release, this.startVal, 0, -this.decayCurve);
if (gate > 0) {
this.state = 'attack';
this.startTime = curTime;
this.startVal = curVal;
}
return curVal;
}
}
throw 'invalid envelope state';
}
}
/*
impulse(1).ad(.1).mul(sine(200))
.add(x=>x.delay(.1).mul(.8))
.out()*/
const MAX_DELAY_TIME = 10;
export class PitchDelay {
lpf = new TwoPoleFilter();
constructor(_props = {}) {
this.buffer = new Float32Array(MAX_DELAY_TIME * SAMPLE_RATE);
this.writeIdx = 0;
this.readIdx = 0;
this.numSamples = 0;
}
write(s, delayTime) {
// Calculate how far in the past to read
this.numSamples = Math.min(Math.floor(SAMPLE_RATE * delayTime), this.buffer.length - 1);
this.writeIdx = (this.writeIdx + 1) % this.numSamples;
this.buffer[this.writeIdx] = s;
this.readIdx = this.writeIdx - this.numSamples + 1;
// If past the start of the buffer, wrap around (Q: is this possible?)
if (this.readIdx < 0) this.readIdx += this.numSamples;
}
update(input, delayTime, speed = 1) {
this.write(input, delayTime);
let index = this.readIdx;
if (speed < 0) {
index = this.numSamples - Math.floor(Math.abs(this.readIdx * speed) % this.numSamples);
} else {
index = Math.floor(this.readIdx * speed) % this.numSamples;
}
const s = this.lpf.update(this.buffer[index], 0.9, 0);
return s;
}
}
export class Delay {
writeIdx = 0;
readIdx = 0;
buffer = new Float32Array(MAX_DELAY_TIME * SAMPLE_RATE); //.fill(0)
write(s, delayTime) {
this.writeIdx = (this.writeIdx + 1) % this.buffer.length;
this.buffer[this.writeIdx] = s;
// Calculate how far in the past to read
let numSamples = Math.min(Math.floor(SAMPLE_RATE * delayTime), this.buffer.length - 1);
this.readIdx = this.writeIdx - numSamples;
// If past the start of the buffer, wrap around
if (this.readIdx < 0) this.readIdx += this.buffer.length;
}
update(input, delayTime) {
this.write(input, delayTime);
return this.buffer[this.readIdx];
}
}
//TODO: Figure out why clicking at the start off the buffer
export class Chorus {
delay = new Delay();
modulator = new TriOsc();
update(input, mix, delayTime, modulationFreq, modulationDepth) {
const m = this.modulator.update(modulationFreq) * modulationDepth;
const c = this.delay.update(input, delayTime * (1 + m));
return crossfade(input, c, mix);
}
}
export class Fold {
update(input = 0, rate = 0) {
if (rate < 0) rate = 0;
rate = rate + 1;
input = input * rate;
return 4 * (Math.abs(0.25 * input + 0.25 - Math.round(0.25 * input + 0.25)) - 0.25);
}
}
export class Lag {
lagUnit = 4410;
s = 0;
update(input, rate) {
// Remap so the useful range is around [0, 1]
rate = rate * this.lagUnit;
if (rate < 1) rate = 1;
this.s += (1 / rate) * (input - this.s);
return this.s;
}
}
export class Slew {
last = 0;
update(input, up, dn) {
const upStep = up * ISR;
const downStep = dn * ISR;
let delta = input - this.last;
if (delta > upStep) {
delta = upStep;
} else if (delta < -downStep) {
delta = -downStep;
}
this.last += delta;
return this.last;
}
}
// overdrive style distortion (adapted from noisecraft) currently unused
export function applyDistortion(x, amount) {
amount = Math.min(Math.max(amount, 0), 1);
amount -= 0.01;
var k = (2 * amount) / (1 - amount);
var y = ((1 + k) * x) / (1 + k * Math.abs(x));
return y;
}
export class Sequence {
clockSgn = true;
step = 0;
first = true;
update(clock, ...ins) {
if (!this.clockSgn && clock > 0) {
this.step = (this.step + 1) % ins.length;
this.clockSgn = clock > 0;
return 0; // set first sample to zero to retrigger gates on step change...
}
this.clockSgn = clock > 0;
return ins[this.step];
}
}
// sample rate bit crusher
export class Coarse {
hold = 0;
t = 0;
update(input, coarse) {
if (this.t++ % coarse === 0) {
this.t = 0;
this.hold = input;
}
return this.hold;
}
}
// amplitude bit crusher
export class Crush {
update(input, crush) {
crush = Math.max(1, crush);
const x = Math.pow(2, crush - 1);
return Math.round(input * x) / x;
}
}
// this is the distort from superdough
export class Distort {
update(input, distort = 0, postgain = 1) {
postgain = Math.max(0.001, Math.min(1, postgain));
const shape = Math.expm1(distort);
return (((1 + shape) * input) / (1 + shape * Math.abs(input))) * postgain;
}
}
// distortion could be expressed as a function, because it's stateless
export class BufferPlayer {
static samples = new Map(); // string -> { channels, sampleRate }
buffer; // Float32Array
sampleRate;
pos = 0;
sampleFreq = note2freq();
constructor(buffer, sampleRate, normalize) {
this.buffer = buffer;
this.sampleRate = sampleRate;
this.duration = this.buffer.length / this.sampleRate;
this.speed = SAMPLE_RATE / this.sampleRate;
if (normalize) {
// this will make the buffer last 1s if freq = sampleFreq
// it's useful to loop samples (e.g. fit function)
this.speed *= this.duration;
}
}
update(freq) {
if (this.pos >= this.buffer.length) {
return 0;
}
const speed = (freq / this.sampleFreq) * this.speed;
let s = this.buffer[Math.floor(this.pos)];
this.pos = this.pos + speed;
return s;
}
}
export function _rangex(sig, min, max) {
let logmin = Math.log(min);
let range = Math.log(max) - logmin;
const unipolar = (sig + 1) / 2;
return Math.exp(unipolar * range + logmin);
}
// duplicate
export const getADSR = (params, curve = 'linear', defaultValues) => {
const envmin = curve === 'exponential' ? 0.001 : 0.001;
const releaseMin = 0.01;
const envmax = 1;
const [a, d, s, r] = params;
if (a == null && d == null && s == null && r == null) {
return defaultValues ?? [envmin, envmin, envmax, releaseMin];
}
const sustain = s != null ? s : (a != null && d == null) || (a == null && d == null) ? envmax : envmin;
return [Math.max(a ?? 0, envmin), Math.max(d ?? 0, envmin), Math.min(sustain, envmax), Math.max(r ?? 0, releaseMin)];
};
let shapes = {
sine: SineOsc,
saw: SawOsc,
zaw: ZawOsc,
sawtooth: SawOsc,
zawtooth: ZawOsc,
supersaw: SupersawOsc,
tri: TriOsc,
triangle: TriOsc,
pulse: PulseOsc,
square: PulseOsc,
pulze: PulzeOsc,
dust: Dust,
crackle: Dust,
impulse: Impulse,
white: WhiteNoise,
brown: BrownNoise,
pink: PinkNoise,
};
const defaultDefaultValues = {
chorus: 0,
note: 48,
s: 'triangle',
bank: '',
gain: 1,
postgain: 1,
velocity: 1,
density: '.03',
ftype: '12db',
fanchor: 0,
//resonance: 1, // superdough resonance is scaled differently
resonance: 0,
//hresonance: 1, // superdough resonance is scaled differently
hresonance: 0,
// bandq: 1, // superdough resonance is scaled differently
bandq: 0,
channels: [1, 2],
phaserdepth: 0.75,
shapevol: 1,
distortvol: 1,
delay: 0,
byteBeatExpression: '0',
delayfeedback: 0.5,
delayspeed: 1,
delaytime: 0.25,
orbit: 1,
i: 1,
fft: 8,
z: 'triangle',
pan: 0.5,
fmh: 1,
fmenv: 0, // differs from superdough
speed: 1,
pw: 0.5,
};
let getDefaultValue = (key) => defaultDefaultValues[key];
const chromas = { c: 0, d: 2, e: 4, f: 5, g: 7, a: 9, b: 11 };
const accs = { '#': 1, b: -1, s: 1, f: -1 };
const note2midi = (note, defaultOctave = 3) => {
let [pc, acc = '', oct = ''] =
String(note)
.match(/^([a-gA-G])([#bsf]*)([0-9]*)$/)
?.slice(1) || [];
if (!pc) {
throw new Error('not a note: "' + note + '"');
}
const chroma = chromas[pc.toLowerCase()];
const offset = acc?.split('').reduce((o, char) => o + accs[char], 0) || 0;
oct = Number(oct || defaultOctave);
return (oct + 1) * 12 + chroma + offset;
};
const midi2freq = (midi) => Math.pow(2, (midi - 69) / 12) * 440;
const note2freq = (note) => {
note = note || getDefaultValue('note');
if (typeof note === 'string') {
note = note2midi(note, 3); // e.g. c3 => 48
}
return midi2freq(note);
};
export class DoughVoice {
out = [0, 0];
constructor(value) {
value.freq ??= note2freq(value.note);
let $ = this;
Object.assign($, value);
$.s = $.s ?? getDefaultValue('s');
$.gain = applyGainCurve($.gain ?? getDefaultValue('gain'));
$.velocity = applyGainCurve($.velocity ?? getDefaultValue('velocity'));
$.postgain = applyGainCurve($.postgain ?? getDefaultValue('postgain'));
$.density = $.density ?? getDefaultValue('density');
$.fanchor = $.fanchor ?? getDefaultValue('fanchor');
$.drive = $.drive ?? 0.69;
$.phaserdepth = $.phaserdepth ?? getDefaultValue('phaserdepth');
$.shapevol = applyGainCurve($.shapevol ?? getDefaultValue('shapevol'));
$.distortvol = applyGainCurve($.distortvol ?? getDefaultValue('distortvol'));
$.i = $.i ?? getDefaultValue('i');
$.chorus = $.chorus ?? getDefaultValue('chorus');
$.fft = $.fft ?? getDefaultValue('fft');
$.pan = $.pan ?? getDefaultValue('pan');
$.orbit = $.orbit ?? getDefaultValue('orbit');
$.fmenv = $.fmenv ?? getDefaultValue('fmenv');
$.resonance = $.resonance ?? getDefaultValue('resonance');
$.hresonance = $.hresonance ?? getDefaultValue('hresonance');
$.bandq = $.bandq ?? getDefaultValue('bandq');
$.speed = $.speed ?? getDefaultValue('speed');
$.pw = $.pw ?? getDefaultValue('pw');
[$.attack, $.decay, $.sustain, $.release] = getADSR([$.attack, $.decay, $.sustain, $.release]);
$._holdEnd = $._begin + $._duration; // needed for gate
$._end = $._holdEnd + $.release + 0.01; // needed for despawn
if ($.fmi && ($.s === 'saw' || $.s === 'sawtooth')) {
$.s = 'zaw'; // polyblepped saw when fm is applied
}
if (shapes[$.s]) {
const SourceClass = shapes[$.s];
$._sound = new SourceClass();
$._channels = 1;
} else if (BufferPlayer.samples.has($.s)) {
const sample = BufferPlayer.samples.get($.s);
$._buffers = [];
$._channels = sample.channels.length;
for (let i = 0; i < $._channels; i++) {
$._buffers.push(new BufferPlayer(sample.channels[i], sample.sampleRate, $.unit === 'c')); // tbd unit === 'c'
}
} else {
console.warn('sound not loaded', $.s);
}
if ($.penv) {
$._penv = new ADSR({ decayCurve: 4 });
[$.pattack, $.pdecay, $.psustain, $.prelease] = getADSR([$.pattack, $.pdecay, $.psustain, $.prelease]);
}
if ($.vib) {
$._vib = new SineOsc();
$.vibmod = $.vibmod ?? getDefaultValue('vibmod');
}
if ($.fmi) {
$._fm = new SineOsc();
$.fmh = $.fmh ?? getDefaultValue('fmh');
if ($.fmenv) {
$._fmenv = new ADSR({ decayCurve: 2 });
[$.fmattack, $.fmdecay, $.fmsustain, $.fmrelease] = getADSR([$.fmattack, $.fmdecay, $.fmsustain, $.fmrelease]);
}
}
// gain envelope
$._adsr = new ADSR({ decayCurve: 2 });
// delay
$.delay = applyGainCurve($.delay ?? getDefaultValue('delay'));
$.delayfeedback = $.delayfeedback ?? getDefaultValue('delayfeedback');
$.delayspeed = $.delayspeed ?? getDefaultValue('delayspeed');
$.delaytime = $.delaytime ?? getDefaultValue('delaytime');
// filter setup
if ($.lpenv) {
$._lpenv = new ADSR({ decayCurve: 4 });
[$.lpattack, $.lpdecay, $.lpsustain, $.lprelease] = getADSR([$.lpattack, $.lpdecay, $.lpsustain, $.lprelease]);
}
if ($.hpenv) {
$._hpenv = new ADSR({ decayCurve: 4 });
[$.hpattack, $.hpdecay, $.hpsustain, $.hprelease] = getADSR([$.hpattack, $.hpdecay, $.hpsustain, $.hprelease]);
}
if ($.bpenv) {
$._bpenv = new ADSR({ decayCurve: 4 });
[$.bpattack, $.bpdecay, $.bpsustain, $.bprelease] = getADSR([$.bpattack, $.bpdecay, $.bpsustain, $.bprelease]);
}
// channelwise effects setup
$._chorus = $.chorus ? [] : null;
$._lpf = $.cutoff ? [] : null;
$._hpf = $.hcutoff ? [] : null;
$._bpf = $.bandf ? [] : null;
$._coarse = $.coarse ? [] : null;
$._crush = $.crush ? [] : null;
$._distort = $.distort ? [] : null;
for (let i = 0; i < this._channels; i++) {
$._lpf?.push(new TwoPoleFilter());
$._hpf?.push(new TwoPoleFilter());
$._bpf?.push(new TwoPoleFilter());
$._chorus?.push(new Chorus());
$._coarse?.push(new Coarse());
$._crush?.push(new Crush());
$._distort?.push(new Distort());
}
}
update(t) {
if (!this._sound && !this._buffers) {
return 0;
}
let gate = Number(t >= this._begin && t <= this._holdEnd);
let freq = this.freq * this.speed;
// frequency modulation
if (this._fm) {
let fmi = this.fmi;
if (this._fmenv) {
const env = this._fmenv.update(t, gate, this.fmattack, this.fmdecay, this.fmsustain, this.fmrelease);
fmi = this.fmenv * env * fmi;
}
const modfreq = freq * this.fmh;
const modgain = modfreq * fmi;
freq = freq + this._fm.update(modfreq) * modgain;
}
// vibrato
if (this._vib) {
freq = freq * 2 ** ((this._vib.update(this.vib) * this.vibmod) / 12);
}
// pitch envelope
if (this._penv) {
const env = this._penv.update(t, gate, this.pattack, this.pdecay, this.psustain, this.prelease);
freq = freq + env * this.penv;
}
// filters
let lpf = this.cutoff;
if (this._lpf) {
if (this._lpenv) {
const env = this._lpenv.update(t, gate, this.lpattack, this.lpdecay, this.lpsustain, this.lprelease);
lpf = this.lpenv * env * lpf + lpf;
}
}
let hpf = this.hcutoff;
if (this._hpf) {
if (this._hpenv) {
const env = this._hpenv.update(t, gate, this.hpattack, this.hpdecay, this.hpsustain, this.hprelease);
hpf = 2 ** this.hpenv * env * hpf + hpf;
}
}
let bpf = this.bandf;
if (this._bpf) {
if (this._bpenv) {
const env = this._bpenv.update(t, gate, this.bpattack, this.bpdecay, this.bpsustain, this.bprelease);
bpf = 2 ** this.bpenv * env * bpf + bpf;
}
}
// gain envelope
const env = this._adsr.update(t, gate, this.attack, this.decay, this.sustain, this.release);
// channelwise dsp
for (let i = 0; i < this._channels; i++) {
// sound source
if (this._sound && this.s === 'pulse') {
this.out[i] = this._sound.update(freq, this.pw);
} else if (this._sound) {
this.out[i] = this._sound.update(freq);
} else if (this._buffers) {
this.out[i] = this._buffers[i].update(freq);
}
this.out[i] = this.out[i] * this.gain * this.velocity;
if (this._chorus) {
const c = this._chorus[i].update(this.out[i], this.chorus, 0.03 + 0.05 * i, 1, 0.11);
this.out[i] = c + this.out[i];
}
if (this._lpf) {
this._lpf[i].update(this.out[i], lpf, this.resonance);
this.out[i] = this._lpf[i].s1;
}
if (this._hpf) {
this._hpf[i].update(this.out[i], hpf, this.hresonance);
this.out[i] = this.out[i] - this._hpf[i].s1;
}
if (this._bpf) {
this._bpf[i].update(this.out[i], bpf, this.bandq);
this.out[i] = this._bpf[i].s0;
}
if (this._coarse) {
this.out[i] = this._coarse[i].update(this.out[i], this.coarse);
}
if (this._crush) {
this.out[i] = this._crush[i].update(this.out[i], this.crush);
}
if (this._distort) {
this.out[i] = this._distort[i].update(this.out[i], this.distort, this.distortvol);
}
this.out[i] = this.out[i] * env;
this.out[i] = this.out[i] * this.postgain;
if (!this._buffers) {
this.out[i] = this.out[i] * 0.2; // turn down waveform
}
}
if (this._channels === 1) {
this.out[1] = this.out[0];
}
if (this.pan !== 0.5) {
const panpos = (this.pan * Math.PI) / 2;
this.out[0] = this.out[0] * Math.cos(panpos);
this.out[1] = this.out[1] * Math.sin(panpos);
}
}
}
// this class is the interface to the "outer world"
// it handles spawning and despawning of DoughVoice's
export class Dough {
voices = []; // DoughVoice[]
vid = 0;
q = [];
out = [0, 0];
delaysend = [0, 0];
delaytime = getDefaultValue('delaytime');
delayfeedback = getDefaultValue('delayfeedback');
delayspeed = getDefaultValue('delayspeed');
t = 0;
// sampleRate: number, currentTime: number (seconds)
constructor(sampleRate = 48000, currentTime = 0) {
this.sampleRate = sampleRate;
this.t = Math.floor(currentTime * sampleRate); // samples
// console.log('init dough', this.sampleRate, this.t);
this._delayL = new PitchDelay();
this._delayR = new PitchDelay();
}
loadSample(name, channels, sampleRate) {
BufferPlayer.samples.set(name, { channels, sampleRate });
}
scheduleSpawn(value) {
if (value._begin === undefined) {
throw new Error('[dough]: scheduleSpawn expected _begin to be set');
}
if (value._duration === undefined) {
throw new Error('[dough]: scheduleSpawn expected _duration to be set');
}
value.sampleRate = this.sampleRate;
// convert seconds to samples
const time = Math.floor(value._begin * this.sampleRate); // set from supradough.mjs
this.schedule({ time, type: 'spawn', arg: value });
}
spawn(value) {
value.id = this.vid++;
const voice = new DoughVoice(value);
this.voices.push(voice);
// console.log('spawn', voice.id, 'voices:', this.voices.length);
// schedule removal
const endTime = Math.ceil(voice._end * this.sampleRate);
this.schedule({ time: endTime /* + 48000 */, type: 'despawn', arg: voice.id });
}
despawn(vid) {
this.voices = this.voices.filter((v) => v.id !== vid);
// console.log('despawn', vid, 'voices:', this.voices.length);
}
// schedules a function call with a single argument
// msg = {time:number,type:string, arg: any}
// the Dough method "type" will be called with "arg" at "time"
schedule(msg) {
if (!this.q.length) {
// if empty, just push
this.q.push(msg);
return;
}
// not empty
// find index where msg.time fits in
let i = 0;
while (i < this.q.length && this.q[i].time < msg.time) {
i++;
}
// this ensures q stays sorted by time, so we only need to check q[0]
this.q.splice(i, 0, msg);
}
// maybe update should be called once per block instead for perf reasons?
update() {
// go over q
while (this.q.length > 0 && this.q[0].time <= this.t) {
// console.log('schedule', this.q[0]);
// trigger due messages. q is sorted, so we only need to check q[0]
this[this.q[0].type](this.q[0].arg); // type is expected to be a Dough method
this.q.shift();
}
// add active voices
this.out[0] = 0;
this.out[1] = 0;
for (let v = 0; v < this.voices.length; v++) {
this.voices[v].update(this.t / this.sampleRate);
this.out[0] += this.voices[v].out[0];
this.out[1] += this.voices[v].out[1];
if (this.voices[v].delay) {
this.delaysend[0] += this.voices[v].out[0] * this.voices[v].delay;
this.delaysend[1] += this.voices[v].out[1] * this.voices[v].delay;
this.delaytime = this.voices[v].delaytime; // we trust that these are initialized in the voice
this.delayspeed = this.voices[v].delayspeed; // we trust that these are initialized in the voice
this.delayfeedback = this.voices[v].delayfeedback;
}
}
// todo: how to change delaytime / delayfeedback from a voice?
const delayL = this._delayL.update(this.delaysend[0], this.delaytime, this.delayspeed);
const delayR = this._delayR.update(this.delaysend[1], this.delaytime, this.delayspeed);
this.delaysend[0] = delayL * this.delayfeedback;
this.delaysend[1] = delayR * this.delayfeedback;
this.out[0] += delayL;
this.out[1] += delayR;
this.t++;
}
}
+4
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@@ -0,0 +1,4 @@
import _workletUrl from './dough-worklet.mjs?url'; // todo: change ?url to ?audioworklet before build (?audioworklet doesn't hot reload)
export * from './dough.mjs';
export const workletUrl = _workletUrl;
+37
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@@ -0,0 +1,37 @@
{
"name": "supradough",
"version": "1.2.3",
"description": "platform agnostic synth and sampler intended for live coding. a reimplementation of superdough.",
"main": "index.mjs",
"type": "module",
"publishConfig": {
"main": "dist/index.mjs"
},
"scripts": {
"build": "vite build",
"prepublishOnly": "npm run build"
},
"repository": {
"type": "git",
"url": "git+https://github.com/tidalcycles/strudel.git"
},
"keywords": [
"tidalcycles",
"strudel",
"pattern",
"livecoding",
"algorave"
],
"author": "Felix Roos <flix91@gmail.com>",
"license": "AGPL-3.0-or-later",
"bugs": {
"url": "https://github.com/tidalcycles/strudel/issues"
},
"homepage": "https://github.com/tidalcycles/strudel#readme",
"devDependencies": {
"vite": "^6.0.11",
"vite-plugin-bundle-audioworklet": "workspace:*",
"wav-encoder": "^1.3.0"
},
"dependencies": {}
}
+1 -1
View File
@@ -1,6 +1,6 @@
{
"name": "@strudel/tonal",
"version": "1.2.4",
"version": "1.2.3",
"description": "Tonal functions for strudel",
"main": "index.mjs",
"publishConfig": {
+1 -1
View File
@@ -1,6 +1,6 @@
{
"name": "@strudel/transpiler",
"version": "1.2.4",
"version": "1.2.3",
"description": "Transpiler for strudel user code. Converts syntactically correct but semantically meaningless JS into evaluatable strudel code.",
"main": "index.mjs",
"type": "module",
+1 -1
View File
@@ -1,6 +1,6 @@
{
"name": "@strudel/web",
"version": "1.2.5",
"version": "1.2.4",
"description": "Easy to setup, opiniated bundle of Strudel for the browser.",
"module": "web.mjs",
"publishConfig": {
+1
View File
@@ -7,4 +7,5 @@ This program is free software: you can redistribute it and/or modify it under th
export * from './webaudio.mjs';
export * from './scope.mjs';
export * from './spectrum.mjs';
export * from './supradough.mjs';
export * from 'superdough';
+3 -2
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@@ -1,6 +1,6 @@
{
"name": "@strudel/webaudio",
"version": "1.2.5",
"version": "1.2.4",
"description": "Web Audio helpers for Strudel",
"main": "index.mjs",
"type": "module",
@@ -35,7 +35,8 @@
"dependencies": {
"@strudel/core": "workspace:*",
"@strudel/draw": "workspace:*",
"superdough": "workspace:*"
"superdough": "workspace:*",
"supradough": "workspace:*"
},
"devDependencies": {
"vite": "^6.0.11"
+130
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@@ -0,0 +1,130 @@
import { Pattern } from '@strudel/core';
import { connectToDestination, getAudioContext, getWorklet } from 'superdough';
let doughWorklet;
function initDoughWorklet() {
const ac = getAudioContext();
doughWorklet = getWorklet(
ac,
'dough-processor',
{},
{
outputChannelCount: [2],
},
);
connectToDestination(doughWorklet); // channels?
}
const soundMap = new Map();
const loadedSounds = new Map();
Pattern.prototype.supradough = function () {
return this.onTrigger((hap, __, cps, begin) => {
hap.value._begin = begin;
hap.value._duration = hap.duration / cps;
!doughWorklet && initDoughWorklet();
const s = (hap.value.bank ? hap.value.bank + '_' : '') + hap.value.s;
const n = hap.value.n ?? 0;
const soundKey = `${s}:${n}`;
if (soundMap.has(s)) {
hap.value.s = soundKey; // dough.mjs is unaware of bank and n (only maps keys to buffers)
}
if (soundMap.has(s) && !loadedSounds.has(soundKey)) {
const urls = soundMap.get(s);
const url = urls[n % urls.length];
console.log(`load ${soundKey} from ${url}`);
const loadSample = fetchSample(url);
loadedSounds.set(soundKey, loadSample);
loadSample.then(({ channels, sampleRate }) =>
doughWorklet.port.postMessage({
sample: soundKey,
channels,
sampleRate,
}),
);
}
doughWorklet.port.postMessage({ spawn: hap.value });
}, 1);
};
function githubPath(base, subpath = '') {
if (!base.startsWith('github:')) {
throw new Error('expected "github:" at the start of pseudoUrl');
}
let [_, path] = base.split('github:');
path = path.endsWith('/') ? path.slice(0, -1) : path;
if (path.split('/').length === 2) {
// assume main as default branch if none set
path += '/main';
}
return `https://raw.githubusercontent.com/${path}/${subpath}`;
}
export async function fetchSampleMap(url) {
if (url.startsWith('github:')) {
url = githubPath(url, 'strudel.json');
}
if (url.startsWith('local:')) {
url = `http://localhost:5432`;
}
if (url.startsWith('shabda:')) {
let [_, path] = url.split('shabda:');
url = `https://shabda.ndre.gr/${path}.json?strudel=1`;
}
if (url.startsWith('shabda/speech')) {
let [_, path] = url.split('shabda/speech');
path = path.startsWith('/') ? path.substring(1) : path;
let [params, words] = path.split(':');
let gender = 'f';
let language = 'en-GB';
if (params) {
[language, gender] = params.split('/');
}
url = `https://shabda.ndre.gr/speech/${words}.json?gender=${gender}&language=${language}&strudel=1'`;
}
if (typeof fetch !== 'function') {
// not a browser
return;
}
const base = url.split('/').slice(0, -1).join('/');
if (typeof fetch === 'undefined') {
// skip fetch when in node / testing
return;
}
const json = await fetch(url)
.then((res) => res.json())
.catch((error) => {
console.error(error);
throw new Error(`error loading "${url}"`);
});
return [json, json._base || base];
}
// for some reason, only piano and flute work.. is it because mp3??
async function fetchSample(url) {
const buffer = await fetch(url)
.then((res) => res.arrayBuffer())
.then((buf) => getAudioContext().decodeAudioData(buf));
let channels = [];
for (let i = 0; i < buffer.numberOfChannels; i++) {
channels.push(buffer.getChannelData(i));
}
return { channels, sampleRate: buffer.sampleRate };
}
export async function doughsamples(sampleMap, baseUrl) {
if (typeof sampleMap === 'string') {
const [json, base] = await fetchSampleMap(sampleMap);
// console.log('json', json, 'base', base);
return doughsamples(json, base);
}
Object.entries(sampleMap).map(async ([key, urls]) => {
if (key !== '_base') {
urls = urls.map((url) => baseUrl + url);
// console.log('set', key, urls);
soundMap.set(key, urls);
}
});
}
+6 -1
View File
@@ -5,7 +5,12 @@ This program is free software: you can redistribute it and/or modify it under th
*/
import * as strudel from '@strudel/core';
import { superdough, getAudioContext, setLogger, doughTrigger } from 'superdough';
import { superdough, getAudioContext, setLogger, doughTrigger, registerWorklet } from 'superdough';
import './supradough.mjs';
import { workletUrl } from 'supradough';
registerWorklet(workletUrl);
const { Pattern, logger, repl } = strudel;
setLogger(logger);
+1 -1
View File
@@ -1,6 +1,6 @@
{
"name": "@strudel/xen",
"version": "1.2.4",
"version": "1.2.3",
"description": "Xenharmonic API for strudel",
"main": "index.mjs",
"type": "module",
+20
View File
@@ -517,6 +517,18 @@ importers:
specifier: workspace:*
version: link:../vite-plugin-bundle-audioworklet
packages/supradough:
devDependencies:
vite:
specifier: ^6.0.11
version: 6.0.11(@types/node@22.10.10)(jiti@2.4.2)(lightningcss@1.29.1)(terser@5.37.0)(yaml@2.7.0)
vite-plugin-bundle-audioworklet:
specifier: workspace:*
version: link:../vite-plugin-bundle-audioworklet
wav-encoder:
specifier: ^1.3.0
version: 1.3.0
packages/tidal:
dependencies:
'@strudel/core':
@@ -625,6 +637,9 @@ importers:
superdough:
specifier: workspace:*
version: link:../superdough
supradough:
specifier: workspace:*
version: link:../supradough
devDependencies:
vite:
specifier: ^6.0.11
@@ -7535,6 +7550,9 @@ packages:
walk-up-path@3.0.1:
resolution: {integrity: sha512-9YlCL/ynK3CTlrSRrDxZvUauLzAswPCrsaCgilqFevUYpeEW0/3ScEjaa3kbW/T0ghhkEr7mv+fpjqn1Y1YuTA==}
wav-encoder@1.3.0:
resolution: {integrity: sha512-FXJdEu2qDOI+wbVYZpu21CS1vPEg5NaxNskBr4SaULpOJMrLE6xkH8dECa7PiS+ZoeyvP7GllWUAxPN3AvFSEw==}
wav@1.0.2:
resolution: {integrity: sha512-viHtz3cDd/Tcr/HbNqzQCofKdF6kWUymH9LGDdskfWFoIy/HJ+RTihgjEcHfnsy1PO4e9B+y4HwgTwMrByquhg==}
@@ -15955,6 +15973,8 @@ snapshots:
walk-up-path@3.0.1: {}
wav-encoder@1.3.0: {}
wav@1.0.2:
dependencies:
buffer-alloc: 1.2.0
+67 -87
View File
@@ -1847,6 +1847,27 @@ exports[`runs examples > example "chop" example index 0 1`] = `
]
`;
exports[`runs examples > example "chorus" example index 0 1`] = `
[
"[ 0/1 → 1/4 | note:d s:sawtooth chorus:0.5 ]",
"[ 1/4 → 1/2 | note:d s:sawtooth chorus:0.5 ]",
"[ 1/2 → 3/4 | note:a# s:sawtooth chorus:0.5 ]",
"[ 3/4 → 1/1 | note:a s:sawtooth chorus:0.5 ]",
"[ 1/1 → 5/4 | note:d s:sawtooth chorus:0.5 ]",
"[ 5/4 → 3/2 | note:d s:sawtooth chorus:0.5 ]",
"[ 3/2 → 7/4 | note:a# s:sawtooth chorus:0.5 ]",
"[ 7/4 → 2/1 | note:a s:sawtooth chorus:0.5 ]",
"[ 2/1 → 9/4 | note:d s:sawtooth chorus:0.5 ]",
"[ 9/4 → 5/2 | note:d s:sawtooth chorus:0.5 ]",
"[ 5/2 → 11/4 | note:a# s:sawtooth chorus:0.5 ]",
"[ 11/4 → 3/1 | note:a s:sawtooth chorus:0.5 ]",
"[ 3/1 → 13/4 | note:d s:sawtooth chorus:0.5 ]",
"[ 13/4 → 7/2 | note:d s:sawtooth chorus:0.5 ]",
"[ 7/2 → 15/4 | note:a# s:sawtooth chorus:0.5 ]",
"[ 15/4 → 4/1 | note:a s:sawtooth chorus:0.5 ]",
]
`;
exports[`runs examples > example "chunk" example index 0 1`] = `
[
"[ 0/1 → 1/4 | note:A4 ]",
@@ -2585,6 +2606,52 @@ exports[`runs examples > example "delayfeedback" example index 0 1`] = `
]
`;
exports[`runs examples > example "delayfeedback" example index 0 2`] = `
[
"[ 0/1 → 1/1 | s:bd delay:0.25 delayfeedback:0.25 ]",
"[ 1/1 → 2/1 | s:bd delay:0.25 delayfeedback:0.5 ]",
"[ 2/1 → 3/1 | s:bd delay:0.25 delayfeedback:0.75 ]",
"[ 3/1 → 4/1 | s:bd delay:0.25 delayfeedback:1 ]",
]
`;
exports[`runs examples > example "delayspeed" example index 0 1`] = `
[
"[ 0/1 → 1/8 | note:d s:sawtooth delay:0.8 delaytime:0.5 delayspeed:2 ]",
"[ 1/8 → 1/4 | note:d s:sawtooth delay:0.8 delaytime:0.5 delayspeed:2 ]",
"[ 1/4 → 3/8 | note:a# s:sawtooth delay:0.8 delaytime:0.5 delayspeed:2 ]",
"[ 3/8 → 1/2 | note:a s:sawtooth delay:0.8 delaytime:0.5 delayspeed:2 ]",
"[ 1/2 → 5/8 | note:d s:sawtooth delay:0.8 delaytime:0.5 delayspeed:2 ]",
"[ 5/8 → 3/4 | note:d s:sawtooth delay:0.8 delaytime:0.5 delayspeed:2 ]",
"[ 3/4 → 7/8 | note:a# s:sawtooth delay:0.8 delaytime:0.5 delayspeed:2 ]",
"[ 7/8 → 1/1 | note:a s:sawtooth delay:0.8 delaytime:0.5 delayspeed:2 ]",
"[ 1/1 → 9/8 | note:d s:sawtooth delay:0.8 delaytime:0.5 delayspeed:0.5 ]",
"[ 9/8 → 5/4 | note:d s:sawtooth delay:0.8 delaytime:0.5 delayspeed:0.5 ]",
"[ 5/4 → 11/8 | note:a# s:sawtooth delay:0.8 delaytime:0.5 delayspeed:0.5 ]",
"[ 11/8 → 3/2 | note:a s:sawtooth delay:0.8 delaytime:0.5 delayspeed:0.5 ]",
"[ 3/2 → 13/8 | note:d s:sawtooth delay:0.8 delaytime:0.5 delayspeed:0.5 ]",
"[ 13/8 → 7/4 | note:d s:sawtooth delay:0.8 delaytime:0.5 delayspeed:0.5 ]",
"[ 7/4 → 15/8 | note:a# s:sawtooth delay:0.8 delaytime:0.5 delayspeed:0.5 ]",
"[ 15/8 → 2/1 | note:a s:sawtooth delay:0.8 delaytime:0.5 delayspeed:0.5 ]",
"[ 2/1 → 17/8 | note:d s:sawtooth delay:0.8 delaytime:0.5 delayspeed:-1 ]",
"[ 17/8 → 9/4 | note:d s:sawtooth delay:0.8 delaytime:0.5 delayspeed:-1 ]",
"[ 9/4 → 19/8 | note:a# s:sawtooth delay:0.8 delaytime:0.5 delayspeed:-1 ]",
"[ 19/8 → 5/2 | note:a s:sawtooth delay:0.8 delaytime:0.5 delayspeed:-1 ]",
"[ 5/2 → 21/8 | note:d s:sawtooth delay:0.8 delaytime:0.5 delayspeed:-1 ]",
"[ 21/8 → 11/4 | note:d s:sawtooth delay:0.8 delaytime:0.5 delayspeed:-1 ]",
"[ 11/4 → 23/8 | note:a# s:sawtooth delay:0.8 delaytime:0.5 delayspeed:-1 ]",
"[ 23/8 → 3/1 | note:a s:sawtooth delay:0.8 delaytime:0.5 delayspeed:-1 ]",
"[ 3/1 → 25/8 | note:d s:sawtooth delay:0.8 delaytime:0.5 delayspeed:-2 ]",
"[ 25/8 → 13/4 | note:d s:sawtooth delay:0.8 delaytime:0.5 delayspeed:-2 ]",
"[ 13/4 → 27/8 | note:a# s:sawtooth delay:0.8 delaytime:0.5 delayspeed:-2 ]",
"[ 27/8 → 7/2 | note:a s:sawtooth delay:0.8 delaytime:0.5 delayspeed:-2 ]",
"[ 7/2 → 29/8 | note:d s:sawtooth delay:0.8 delaytime:0.5 delayspeed:-2 ]",
"[ 29/8 → 15/4 | note:d s:sawtooth delay:0.8 delaytime:0.5 delayspeed:-2 ]",
"[ 15/4 → 31/8 | note:a# s:sawtooth delay:0.8 delaytime:0.5 delayspeed:-2 ]",
"[ 31/8 → 4/1 | note:a s:sawtooth delay:0.8 delaytime:0.5 delayspeed:-2 ]",
]
`;
exports[`runs examples > example "delaysync" example index 0 1`] = `
[
"[ 0/1 → 1/2 | s:bd delay:0.25 delaysync:0.125 ]",
@@ -2598,19 +2665,6 @@ exports[`runs examples > example "delaysync" example index 0 1`] = `
]
`;
exports[`runs examples > example "delaytime" example index 0 1`] = `
[
"[ 0/1 → 1/2 | s:bd delay:0.25 delaytime:0.125 ]",
"[ 1/2 → 1/1 | s:bd delay:0.25 delaytime:0.125 ]",
"[ 1/1 → 3/2 | s:bd delay:0.25 delaytime:0.25 ]",
"[ 3/2 → 2/1 | s:bd delay:0.25 delaytime:0.25 ]",
"[ 2/1 → 5/2 | s:bd delay:0.25 delaytime:0.5 ]",
"[ 5/2 → 3/1 | s:bd delay:0.25 delaytime:0.5 ]",
"[ 3/1 → 7/2 | s:bd delay:0.25 delaytime:1 ]",
"[ 7/2 → 4/1 | s:bd delay:0.25 delaytime:1 ]",
]
`;
exports[`runs examples > example "density" example index 0 1`] = `
[
"[ 0/1 → 1/4 | s:crackle density:0.01 ]",
@@ -4875,43 +4929,6 @@ exports[`runs examples > example "irand" example index 0 1`] = `
]
`;
exports[`runs examples > example "irbegin" example index 0 1`] = `
[
"[ 0/1 → 1/8 | s:brk speed:0.5 unit:c begin:0 clip:1 ir:swpad i:4 room:0.65 irspeed:-2 irbegin:0 roomsize:0.6 ]",
"[ 1/8 → 1/4 | s:brk speed:0.5 unit:c begin:0.625 clip:1 ir:swpad i:4 room:0.65 irspeed:-2 irbegin:0 roomsize:0.6 ]",
"[ 1/4 → 3/8 | s:brk speed:0.5 unit:c begin:0.3125 clip:1 ir:swpad i:4 room:0.65 irspeed:-2 irbegin:0 roomsize:0.6 ]",
"[ 3/8 → 1/2 | s:brk speed:0.5 unit:c begin:0.375 clip:1 ir:swpad i:4 room:0.65 irspeed:-2 irbegin:0 roomsize:0.6 ]",
"[ 1/2 → 5/8 | s:brk speed:0.5 unit:c begin:0.25 clip:1 ir:swpad i:4 room:0.65 irspeed:-2 irbegin:0 roomsize:0.6 ]",
"[ 5/8 → 3/4 | s:brk speed:0.5 unit:c begin:0.125 clip:1 ir:swpad i:4 room:0.65 irspeed:-2 irbegin:0 roomsize:0.6 ]",
"[ 3/4 → 7/8 | s:brk speed:0.5 unit:c begin:0.1875 clip:1 ir:swpad i:4 room:0.65 irspeed:-2 irbegin:0 roomsize:0.6 ]",
"[ 7/8 → 1/1 | s:brk speed:0.5 unit:c begin:0.375 clip:1 ir:swpad i:4 room:0.65 irspeed:-2 irbegin:0 roomsize:0.6 ]",
"[ 1/1 → 9/8 | s:brk speed:0.5 unit:c begin:0.5 clip:1 ir:swpad i:4 room:0.65 irspeed:-2 irbegin:0 roomsize:0.6 ]",
"[ 9/8 → 5/4 | s:brk speed:0.5 unit:c begin:0.625 clip:1 ir:swpad i:4 room:0.65 irspeed:-2 irbegin:0 roomsize:0.6 ]",
"[ 5/4 → 11/8 | s:brk speed:0.5 unit:c begin:0.6875 clip:1 ir:swpad i:4 room:0.65 irspeed:-2 irbegin:0 roomsize:0.6 ]",
"[ 11/8 → 3/2 | s:brk speed:0.5 unit:c begin:0.125 clip:1 ir:swpad i:4 room:0.65 irspeed:-2 irbegin:0 roomsize:0.6 ]",
"[ 3/2 → 13/8 | s:brk speed:0.5 unit:c begin:0.5625 clip:1 ir:swpad i:4 room:0.65 irspeed:-2 irbegin:0 roomsize:0.6 ]",
"[ 13/8 → 7/4 | s:brk speed:0.5 unit:c begin:0.4375 clip:1 ir:swpad i:4 room:0.65 irspeed:-2 irbegin:0 roomsize:0.6 ]",
"[ 7/4 → 15/8 | s:brk speed:0.5 unit:c begin:0.1875 clip:1 ir:swpad i:4 room:0.65 irspeed:-2 irbegin:0 roomsize:0.6 ]",
"[ 15/8 → 2/1 | s:brk speed:0.5 unit:c begin:0.5625 clip:1 ir:swpad i:4 room:0.65 irspeed:-2 irbegin:0 roomsize:0.6 ]",
"[ 2/1 → 17/8 | s:brk speed:0.5 unit:c begin:0.9375 clip:1 ir:swpad i:4 room:0.65 irspeed:-2 irbegin:0.5 roomsize:0.6 ]",
"[ 17/8 → 9/4 | s:brk speed:0.5 unit:c begin:0.875 clip:1 ir:swpad i:4 room:0.65 irspeed:-2 irbegin:0.5 roomsize:0.6 ]",
"[ 9/4 → 19/8 | s:brk speed:0.5 unit:c begin:0.3125 clip:1 ir:swpad i:4 room:0.65 irspeed:-2 irbegin:0.5 roomsize:0.6 ]",
"[ 19/8 → 5/2 | s:brk speed:0.5 unit:c begin:0.8125 clip:1 ir:swpad i:4 room:0.65 irspeed:-2 irbegin:0.5 roomsize:0.6 ]",
"[ 5/2 → 21/8 | s:brk speed:0.5 unit:c begin:0.4375 clip:1 ir:swpad i:4 room:0.65 irspeed:-2 irbegin:0.5 roomsize:0.6 ]",
"[ 21/8 → 11/4 | s:brk speed:0.5 unit:c begin:0.125 clip:1 ir:swpad i:4 room:0.65 irspeed:-2 irbegin:0.5 roomsize:0.6 ]",
"[ 11/4 → 23/8 | s:brk speed:0.5 unit:c begin:0.625 clip:1 ir:swpad i:4 room:0.65 irspeed:-2 irbegin:0.5 roomsize:0.6 ]",
"[ 23/8 → 3/1 | s:brk speed:0.5 unit:c begin:0 clip:1 ir:swpad i:4 room:0.65 irspeed:-2 irbegin:0.5 roomsize:0.6 ]",
"[ 3/1 → 25/8 | s:brk speed:0.5 unit:c begin:0.1875 clip:1 ir:swpad i:4 room:0.65 irspeed:-2 irbegin:0.5 roomsize:0.6 ]",
"[ 25/8 → 13/4 | s:brk speed:0.5 unit:c begin:0.3125 clip:1 ir:swpad i:4 room:0.65 irspeed:-2 irbegin:0.5 roomsize:0.6 ]",
"[ 13/4 → 27/8 | s:brk speed:0.5 unit:c begin:0.9375 clip:1 ir:swpad i:4 room:0.65 irspeed:-2 irbegin:0.5 roomsize:0.6 ]",
"[ 27/8 → 7/2 | s:brk speed:0.5 unit:c begin:0.375 clip:1 ir:swpad i:4 room:0.65 irspeed:-2 irbegin:0.5 roomsize:0.6 ]",
"[ 7/2 → 29/8 | s:brk speed:0.5 unit:c begin:0.375 clip:1 ir:swpad i:4 room:0.65 irspeed:-2 irbegin:0.5 roomsize:0.6 ]",
"[ 29/8 → 15/4 | s:brk speed:0.5 unit:c begin:0.9375 clip:1 ir:swpad i:4 room:0.65 irspeed:-2 irbegin:0.5 roomsize:0.6 ]",
"[ 15/4 → 31/8 | s:brk speed:0.5 unit:c begin:0.75 clip:1 ir:swpad i:4 room:0.65 irspeed:-2 irbegin:0.5 roomsize:0.6 ]",
"[ 31/8 → 4/1 | s:brk speed:0.5 unit:c begin:0.6875 clip:1 ir:swpad i:4 room:0.65 irspeed:-2 irbegin:0.5 roomsize:0.6 ]",
]
`;
exports[`runs examples > example "iresponse" example index 0 1`] = `
[
"[ 0/1 → 1/4 | s:bd room:0.8 ir:shaker_large i:0 ]",
@@ -4933,43 +4950,6 @@ exports[`runs examples > example "iresponse" example index 0 1`] = `
]
`;
exports[`runs examples > example "irspeed" example index 0 1`] = `
[
"[ 0/1 → 1/8 | s:brk speed:0.5 unit:c begin:0 clip:1 ir:swpad i:4 room:0.2 irspeed:2 irbegin:0.5 roomsize:0.5 ]",
"[ 1/8 → 1/4 | s:brk speed:0.5 unit:c begin:0.625 clip:1 ir:swpad i:4 room:0.2 irspeed:2 irbegin:0.5 roomsize:0.5 ]",
"[ 1/4 → 3/8 | s:brk speed:0.5 unit:c begin:0.3125 clip:1 ir:swpad i:4 room:0.2 irspeed:2 irbegin:0.5 roomsize:0.5 ]",
"[ 3/8 → 1/2 | s:brk speed:0.5 unit:c begin:0.375 clip:1 ir:swpad i:4 room:0.2 irspeed:2 irbegin:0.5 roomsize:0.5 ]",
"[ 1/2 → 5/8 | s:brk speed:0.5 unit:c begin:0.25 clip:1 ir:swpad i:4 room:0.2 irspeed:2 irbegin:0.5 roomsize:0.5 ]",
"[ 5/8 → 3/4 | s:brk speed:0.5 unit:c begin:0.125 clip:1 ir:swpad i:4 room:0.2 irspeed:2 irbegin:0.5 roomsize:0.5 ]",
"[ 3/4 → 7/8 | s:brk speed:0.5 unit:c begin:0.1875 clip:1 ir:swpad i:4 room:0.2 irspeed:2 irbegin:0.5 roomsize:0.5 ]",
"[ 7/8 → 1/1 | s:brk speed:0.5 unit:c begin:0.375 clip:1 ir:swpad i:4 room:0.2 irspeed:2 irbegin:0.5 roomsize:0.5 ]",
"[ 1/1 → 9/8 | s:brk speed:0.5 unit:c begin:0.5 clip:1 ir:swpad i:4 room:0.2 irspeed:2 irbegin:0.5 roomsize:0.5 ]",
"[ 9/8 → 5/4 | s:brk speed:0.5 unit:c begin:0.625 clip:1 ir:swpad i:4 room:0.2 irspeed:2 irbegin:0.5 roomsize:0.5 ]",
"[ 5/4 → 11/8 | s:brk speed:0.5 unit:c begin:0.6875 clip:1 ir:swpad i:4 room:0.2 irspeed:2 irbegin:0.5 roomsize:0.5 ]",
"[ 11/8 → 3/2 | s:brk speed:0.5 unit:c begin:0.125 clip:1 ir:swpad i:4 room:0.2 irspeed:2 irbegin:0.5 roomsize:0.5 ]",
"[ 3/2 → 13/8 | s:brk speed:0.5 unit:c begin:0.5625 clip:1 ir:swpad i:4 room:0.2 irspeed:2 irbegin:0.5 roomsize:0.5 ]",
"[ 13/8 → 7/4 | s:brk speed:0.5 unit:c begin:0.4375 clip:1 ir:swpad i:4 room:0.2 irspeed:2 irbegin:0.5 roomsize:0.5 ]",
"[ 7/4 → 15/8 | s:brk speed:0.5 unit:c begin:0.1875 clip:1 ir:swpad i:4 room:0.2 irspeed:2 irbegin:0.5 roomsize:0.5 ]",
"[ 15/8 → 2/1 | s:brk speed:0.5 unit:c begin:0.5625 clip:1 ir:swpad i:4 room:0.2 irspeed:2 irbegin:0.5 roomsize:0.5 ]",
"[ 2/1 → 17/8 | s:brk speed:0.5 unit:c begin:0.9375 clip:1 ir:swpad i:4 room:0.2 irspeed:1 irbegin:0.5 roomsize:0.5 ]",
"[ 17/8 → 9/4 | s:brk speed:0.5 unit:c begin:0.875 clip:1 ir:swpad i:4 room:0.2 irspeed:1 irbegin:0.5 roomsize:0.5 ]",
"[ 9/4 → 19/8 | s:brk speed:0.5 unit:c begin:0.3125 clip:1 ir:swpad i:4 room:0.2 irspeed:1 irbegin:0.5 roomsize:0.5 ]",
"[ 19/8 → 5/2 | s:brk speed:0.5 unit:c begin:0.8125 clip:1 ir:swpad i:4 room:0.2 irspeed:1 irbegin:0.5 roomsize:0.5 ]",
"[ 5/2 → 21/8 | s:brk speed:0.5 unit:c begin:0.4375 clip:1 ir:swpad i:4 room:0.2 irspeed:1 irbegin:0.5 roomsize:0.5 ]",
"[ 21/8 → 11/4 | s:brk speed:0.5 unit:c begin:0.125 clip:1 ir:swpad i:4 room:0.2 irspeed:1 irbegin:0.5 roomsize:0.5 ]",
"[ 11/4 → 23/8 | s:brk speed:0.5 unit:c begin:0.625 clip:1 ir:swpad i:4 room:0.2 irspeed:1 irbegin:0.5 roomsize:0.5 ]",
"[ 23/8 → 3/1 | s:brk speed:0.5 unit:c begin:0 clip:1 ir:swpad i:4 room:0.2 irspeed:1 irbegin:0.5 roomsize:0.5 ]",
"[ 3/1 → 25/8 | s:brk speed:0.5 unit:c begin:0.1875 clip:1 ir:swpad i:4 room:0.2 irspeed:1 irbegin:0.5 roomsize:0.5 ]",
"[ 25/8 → 13/4 | s:brk speed:0.5 unit:c begin:0.3125 clip:1 ir:swpad i:4 room:0.2 irspeed:1 irbegin:0.5 roomsize:0.5 ]",
"[ 13/4 → 27/8 | s:brk speed:0.5 unit:c begin:0.9375 clip:1 ir:swpad i:4 room:0.2 irspeed:1 irbegin:0.5 roomsize:0.5 ]",
"[ 27/8 → 7/2 | s:brk speed:0.5 unit:c begin:0.375 clip:1 ir:swpad i:4 room:0.2 irspeed:1 irbegin:0.5 roomsize:0.5 ]",
"[ 7/2 → 29/8 | s:brk speed:0.5 unit:c begin:0.375 clip:1 ir:swpad i:4 room:0.2 irspeed:1 irbegin:0.5 roomsize:0.5 ]",
"[ 29/8 → 15/4 | s:brk speed:0.5 unit:c begin:0.9375 clip:1 ir:swpad i:4 room:0.2 irspeed:1 irbegin:0.5 roomsize:0.5 ]",
"[ 15/4 → 31/8 | s:brk speed:0.5 unit:c begin:0.75 clip:1 ir:swpad i:4 room:0.2 irspeed:1 irbegin:0.5 roomsize:0.5 ]",
"[ 31/8 → 4/1 | s:brk speed:0.5 unit:c begin:0.6875 clip:1 ir:swpad i:4 room:0.2 irspeed:1 irbegin:0.5 roomsize:0.5 ]",
]
`;
exports[`runs examples > example "isaw" example index 0 1`] = `
[
"[ 0/1 → 1/8 | note:c3 clip:1 ]",
Binary file not shown.

Before

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-123
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@@ -11,129 +11,6 @@ import { JsDoc } from '../../docs/JsDoc';
Whether you're using a synth or a sample, you can apply any of the following built-in audio effects.
As you might suspect, the effects can be chained together, and they accept a pattern string as their argument.
# Signal chain
<img src="/img/strudel-signal-flow.png"></img>
The signal chain in Strudel is as follows:
- An sound-generating event is triggered by a pattern
- This has a start time and a duration, which is usually
controlled by the note length and ADSR parameters
- If we exceed the max polyphony, old sounds begin to die off
- Muted sounds (one whose `s` value is `-`, `~`, or `_`) are skipped
- A sound is produced (through, say, a sample or an oscillator)
- This is where detune-based effects (like `detune`, `penv`, etc. occur)
- The following will occur _in order_ and only if they've been called in the pattern. Note that all of these are
single use effects, meaning that multiple occurrences of them in a pattern will simply override the values
(e.g. you can't do `s("bd").lpf(100).distort(2).lpf(800)` to lowpass, distort, and then lowpass
again)
- Phase vocoder (`stretch`)
- Gain is applied (`gain`)
- This is where the main (volume) ADSR happens
- A lowpass filter (`lpf`)
- A highpass filter (`hpf`)
- A bandpass filter (`bandpass`)
- A vowel filter (`vowel`)
- Sample rate reduction (`coarse`)
- Bit crushing (`crush`)
- Waveshape distortion (`shape`)
- Normal distortion (`distort`)
- Tremolo (`tremolo`)
- Compressor (`compressor`)
- Panning (`pan`)
- Phaser (`phaser`)
- Postgain (`post`)
- The sound is then split into multiple destinations
- Dry output (amount controlled by `dry` parameter)
- The sends
- Analyzers
- These are used for tooling like `scope` and `spectrum` and their setup usually happens behind the scenes
- Delay (amount controlled by `delay` parameter)
- Reverb (amount controlled by `room` parameter)
- The dry output, delay, and reverb are joined into what is called the "orbit" of the pattern (see more in the section below)
- The `duck` effect affects the volume of all signals in the orbit
- The orbit is then sent to the mixer
## Orbits
Orbits are the way in which outputs are handled in Strudel. They also prescribe which delay and reverb to associate with the dry signal.
By default, all orbits are mixed down to channels `1` and `2` in stereo, however with the "Multi Channel Orbits" setting
(under Settings at the right) you can use them as individual 2 channel stereo outs (orbit `i` will be mapped to
to channels `2i` and `2i + 1`). You can then use routers like Blackhole 16 to retrieve and record all of the channels in a DAW for later processing.
The default orbit is `1` and it is set with `orbit`. You may send a sound to multiple orbits via mininotation
<MiniRepl client:visible tune={`s("white").orbit("2,3,4").gain(0.2)`} />
but please be careful as this will create three copies of the sound behind the scenes, meaning that if they are mixed
down to a single output, they will triple the volume. We've reduced the gain here to save your ears.
⚠️ There is only one delay and reverb per orbit, so please be aware that if you attempt to change the parameters on two
patterns pointing to the same orbit, it can lead to unpredictable results. Compare, for example, this pretty pluck
with a large reverb:
<MiniRepl
client:visible
tune={`
$: s("triangle*4").decay(0.5).n(irand(12)).scale('C minor')
.room(1).roomsize(10)`}
/>
versus the same pluck with a muted kick drum coming in and overwriting the `roomsize` value:
<MiniRepl
client:visible
tune={`
$: s("triangle*4").decay(0.5).n(irand(12)).scale('C minor')
.room(1).roomsize(10)
$: s("bd\*4").room(0.01).roomsize(0.01).postgain(0)`}
/>
This is due to them sharing the same orbit: the default of `1`. It can be corrected simply by updating the orbits to be
distinct:
<MiniRepl
client:visible
tune={`
$: s("triangle*4").decay(0.5).n(irand(12)).scale('C minor')
.room(1).roomsize(10).orbit(2)
$: s("bd\*4").room(0.01).roomsize(0.01).postgain(0)`}
/>
## Continuous changes
As all of the above is triggered by a _sound occurring_, it is often the case that parameters may not be
modified continuously in time. For example,
<MiniRepl
client:visible
tune={`
s("supersaw").lpf(tri.range(100, 5000).slow(2))`}
/>
Will not produce a continually LFO'd low-pass filter due to the `tri` only being sampled every time the note hits
(in this case the default of once per cycle). You can fake it by introducing more sound-generating events, e.g.:
<MiniRepl
client:visible
tune={`
s("supersaw").seg(16).lpf(tri.range(100, 5000).slow(2))`}
/>
Some parameters _do_ induce continuous variations in time, though:
- The ADSR curve (governed by `attack`, `sustain`, `decay`, `release`)
- The pitch envelope curve (governed by `penv` and its associated ADSR)
- The FM curve (`fmenv`)
- The filter envelopes (`lpenv`, `hpenv`, `bpenv`)
- Tremolo (`tremolo`)
- Phaser (`phaser`)
- Vibrato (`vib`)
- Ducking (`duckorbit`)
# Filters
Filters are an essential building block of [subtractive synthesis](https://en.wikipedia.org/wiki/Subtractive_synthesis).
-16
View File
@@ -168,20 +168,6 @@ Using "!" we can repeat without speeding up:
<MiniRepl client:idle tune={`note("<[g3,b3,e4]!2 [a3,c3,e4] [b3,d3,f#4]>*2")`} punchcard />
## Randomness
Events with a "?" placed after them will have a 50% chance of being removed from the pattern:
<MiniRepl client:idle tune={`note("[g3,b3,e4]*8?")`} punchcard />
Adding a number between 0 and 1 after the "?" will affect the likelihood of the event being removed. For example, events with "?0.1" placed after them will have a 10% chance of being removed:
<MiniRepl client:idle tune={`note("[g3,b3,e4]*8?0.1")`} punchcard />
Events separated by a "|" will be chosen from at random:
<MiniRepl client:idle tune={`note("[g3,b3,e4] | [a3,c3,e4] | [b3,d3,f#4]")`} punchcard />
## Mini-notation review
To recap what we've learned so far, compare the following patterns:
@@ -193,8 +179,6 @@ To recap what we've learned so far, compare the following patterns:
<MiniRepl client:idle tune={`note("<[g3,b3,e4] _ [a3,c3,e4] [b3,d3,f#4]>*2")`} />
<MiniRepl client:idle tune={`note("<[g3,b3,e4]@2 [a3,c3,e4] [b3,d3,f#4]>*2")`} />
<MiniRepl client:idle tune={`note("<[g3,b3,e4]!2 [a3,c3,e4] [b3,d3,f#4]>*2")`} />
<MiniRepl client:idle tune={`note("<[g3,b3,e4]? [a3,c3,e4] [b3,d3,f#4]>*2")`} />
<MiniRepl client:idle tune={`note("<[g3|b3|e4] [a3,c3,e4] [b3,d3,f#4]>*2")`} />
## Euclidian rhythms
+1 -3
View File
@@ -9,9 +9,7 @@ import { MiniRepl } from '../../docs/MiniRepl';
{/* The [REPL](https://strudel.cc/) is the place where all packages come together to form a live coding system. It can also be seen as a reference implementation for users of the library. */}
While Strudel can be used as a library in any JavaScript codebase, its main, reference user interface is the Strudel REPL[^1], which is a browser-based live coding environment. This live code editor is dedicated to manipulating Strudel patterns while they play. The REPL features built-in visual feedback, highlighting which elements in the patterned (mini-notation) sequences are influencing the event that is currently being played. This feedback is designed to support both learning and live use of Strudel.
[^1]: REPL stands for read, evaluate, print/play, loop. It is friendly jargon for an interactive programming interface from computing heritage, usually for a commandline interface but also applied to live coding editors.
While Strudel can be used as a library in any JavaScript codebase, its main, reference user interface is the Strudel REPL^[REPL stands for read, evaluate, print/play, loop. It is friendly jargon for an interactive programming interface from computing heritage, usually for a commandline interface but also applied to live coding editors.], which is a browser-based live coding environment. This live code editor is dedicated to manipulating Strudel patterns while they play. The REPL features built-in visual feedback, highlighting which elements in the patterned (mini-notation) sequences are influencing the event that is currently being played. This feedback is designed to support both learning and live use of Strudel.
Besides a UI for playback control and meta information, the main part of the REPL interface is the code editor powered by CodeMirror. In it, the user can edit and evaluate pattern code live, using one of the available synthesis outputs to create music and/or sound art. The control flow of the REPL follows 3 basic steps:
+5 -13
View File
@@ -72,19 +72,21 @@
/* Override default styles from the codemirror inline css for autocomplete info tooltip*/
.cm-tooltip.cm-completionInfo {
padding: 0 !important;
padding: 12px !important;
padding-bottom: 12px !important;
border: 1px solid var(--foreground) !important;
border-radius: 4px !important;
box-shadow: 0 4px 12px rgba(0, 0, 0, 0.3) !important;
max-width: 500px !important;
min-width: 300px !important;
max-height: 400px !important;
white-space: normal !important;
overflow: auto !important;
background-color: var(--lineHighlight) !important;
}
/* Main tooltip container */
.autocomplete-info-container {
padding: 12px !important;
.autocomplete-info-tooltip {
border-radius: 4px !important;
color: var(--foreground);
font-family: var(--font-family, 'SF Mono', 'Monaco', monospace);
@@ -93,16 +95,6 @@
max-width: 600px;
max-height: 400px;
min-width: 400px;
white-space: normal !important;
overflow-y: auto !important;
}
.autocomplete-info-tooltip {
overflow-y: auto !important;
}
.autocomplete-info-function-description {
white-space: pre-wrap !important;
}
.autocomplete-info-function-name {
@@ -1,10 +0,0 @@
import cx from '@src/cx.mjs';
export function ActionButton({ children, label, labelIsHidden, className, ...buttonProps }) {
return (
<button className={cx('hover:opacity-50 text-nowrap w-fit', className)} title={label} {...buttonProps}>
{labelIsHidden !== true && label}
{children}
</button>
);
}
@@ -12,8 +12,8 @@ import { useMemo } from 'react';
import { getMetadata } from '../../../metadata_parser.js';
import { useExamplePatterns } from '../../useExamplePatterns.jsx';
import { parseJSON, isUdels } from '../../util.mjs';
import { useSettings } from '../../../settings.mjs';
import { ActionButton } from '../button/action-button.jsx';
import { ButtonGroup } from './Forms.jsx';
import { settingsMap, useSettings } from '../../../settings.mjs';
import { Pagination } from '../pagination/Pagination.jsx';
import { useState } from 'react';
import { useDebounce } from '../usedebounce.jsx';
@@ -75,6 +75,15 @@ function PatternButtons({ patterns, activePattern, onClick, started }) {
);
}
function ActionButton({ children, onClick, label, labelIsHidden }) {
return (
<button className="hover:opacity-50 text-nowrap" onClick={onClick} title={label}>
{labelIsHidden !== true && label}
{children}
</button>
);
}
const updateCodeWindow = (context, patternData, reset = false) => {
context.handleUpdate(patternData, reset);
};
@@ -311,8 +311,7 @@ export function SettingsTab({ started }) {
onClick={() => {
confirmDialog('Sure?').then((r) => {
if (r) {
const { userPatterns } = settingsMap.get(); // keep current patterns
settingsMap.set({ ...defaultSettings, userPatterns });
settingsMap.set(defaultSettings);
}
});
}}
+11 -34
View File
@@ -2,21 +2,16 @@ import useEvent from '@src/useEvent.mjs';
import { useStore } from '@nanostores/react';
import { getAudioContext, soundMap, connectToDestination } from '@strudel/webaudio';
import { useMemo, useRef, useState } from 'react';
import { settingsMap, soundFilterType, useSettings } from '../../../settings.mjs';
import { settingsMap, useSettings } from '../../../settings.mjs';
import { ButtonGroup } from './Forms.jsx';
import ImportSoundsButton from './ImportSoundsButton.jsx';
import { Textbox } from '../textbox/Textbox.jsx';
import { ActionButton } from '../button/action-button.jsx';
import { confirmDialog } from '@src/repl/util.mjs';
import { clearIDB, userSamplesDBConfig } from '@src/repl/idbutils.mjs';
import { prebake } from '@src/repl/prebake.mjs';
const getSamples = (samples) =>
Array.isArray(samples) ? samples.length : typeof samples === 'object' ? Object.values(samples).length : 1;
export function SoundsTab() {
const sounds = useStore(soundMap);
const { soundsFilter } = useSettings();
const [search, setSearch] = useState('');
const { BASE_URL } = import.meta.env;
@@ -32,19 +27,18 @@ export function SoundsTab() {
.sort((a, b) => a[0].localeCompare(b[0]))
.filter(([name]) => name.toLowerCase().includes(search.toLowerCase()));
if (soundsFilter === soundFilterType.USER) {
if (soundsFilter === 'user') {
return filtered.filter(([_, { data }]) => !data.prebake);
}
if (soundsFilter === soundFilterType.DRUMS) {
if (soundsFilter === 'drums') {
return filtered.filter(([_, { data }]) => data.type === 'sample' && data.tag === 'drum-machines');
}
if (soundsFilter === soundFilterType.SAMPLES) {
if (soundsFilter === 'samples') {
return filtered.filter(([_, { data }]) => data.type === 'sample' && data.tag !== 'drum-machines');
}
if (soundsFilter === soundFilterType.SYNTHS) {
if (soundsFilter === 'synths') {
return filtered.filter(([_, { data }]) => ['synth', 'soundfont'].includes(data.type));
}
//TODO: tidy this up, it does not need to be saved in settings
if (soundsFilter === 'importSounds') {
return [];
}
@@ -63,10 +57,10 @@ export function SoundsTab() {
});
});
return (
<div id="sounds-tab" className="px-4 flex gap-2 flex-col w-full h-full text-foreground">
<div id="sounds-tab" className="px-4 flex flex-col w-full h-full text-foreground">
<Textbox placeholder="Search" value={search} onChange={(v) => setSearch(v)} />
<div className=" flex shrink-0 flex-wrap">
<div className="pb-2 flex shrink-0 flex-wrap">
<ButtonGroup
value={soundsFilter}
onChange={(value) => settingsMap.setKey('soundsFilter', value)}
@@ -80,26 +74,7 @@ export function SoundsTab() {
></ButtonGroup>
</div>
{soundsFilter === soundFilterType.USER && soundEntries.length > 0 && (
<ActionButton
className="pl-2"
label="delete-all"
onClick={async () => {
try {
const confirmed = await confirmDialog('Delete all imported user samples?');
if (confirmed) {
clearIDB(userSamplesDBConfig.dbName);
soundMap.set({});
await prebake();
}
} catch (e) {
console.error(e);
}
}}
/>
)}
<div className="min-h-0 max-h-full grow overflow-auto text-sm break-normal bg-background p-2 rounded-md">
<div className="min-h-0 max-h-full grow overflow-auto text-sm break-normal pb-2">
{soundEntries.map(([name, { data, onTrigger }]) => {
return (
<span
@@ -176,7 +151,9 @@ export function SoundsTab() {
) : (
''
)}
{!soundEntries.length && soundsFilter !== 'importSounds' ? 'No sounds loaded' : ''}
{!soundEntries.length && soundsFilter !== 'importSounds'
? 'No custom sounds loaded in this pattern (yet).'
: ''}
</div>
</div>
);
+2 -6
View File
@@ -12,21 +12,17 @@ export const userSamplesDBConfig = {
};
// deletes all of the databases, useful for debugging
function clearAllIDB() {
function clearIDB() {
window.indexedDB
.databases()
.then((r) => {
for (var i = 0; i < r.length; i++) clearIDB(r[i].name);
for (var i = 0; i < r.length; i++) window.indexedDB.deleteDatabase(r[i].name);
})
.then(() => {
alert('All data cleared.');
});
}
export function clearIDB(dbName) {
return window.indexedDB.deleteDatabase(dbName);
}
// queries the DB, and registers the sounds so they can be played
export function registerSamplesFromDB(config = userSamplesDBConfig, onComplete = () => {}) {
openDB(config, (objectStore) => {
+1 -9
View File
@@ -8,14 +8,6 @@ export const audioEngineTargets = {
osc: 'osc',
};
export const soundFilterType = {
USER: 'user',
DRUMS: 'drums',
SAMPLES: 'samples',
SYNTHS: 'synths',
ALL: 'all',
};
export const defaultSettings = {
activeFooter: 'intro',
keybindings: 'codemirror',
@@ -36,7 +28,7 @@ export const defaultSettings = {
fontSize: 18,
latestCode: '',
isZen: false,
soundsFilter: soundFilterType.ALL,
soundsFilter: 'all',
patternFilter: 'community',
// panelPosition: window.innerWidth > 1000 ? 'right' : 'bottom', //FIX: does not work on astro
panelPosition: 'right',