First pass at transient processor

This commit is contained in:
Aria
2025-11-23 20:31:31 -06:00
parent 132a124644
commit 020a6bc75f
2 changed files with 72 additions and 0 deletions
+2
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@@ -2584,3 +2584,5 @@ export const scrub = register(
},
false,
);
export const { transient } = registerControl(['transient', 'transsustain', 'transattack']);
+70
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@@ -11,6 +11,9 @@ const PI = Math.PI;
const TWO_PI = 2 * PI;
const INVSR = 1 / sampleRate;
const timeToCoeff = (t) => Math.exp(-INVSR / t);
const dbToLin = (db) => Math.pow(10, db / 20);
const clamp = (num, min, max) => Math.min(Math.max(num, min), max);
const mod = (n, m) => ((n % m) + m) % m;
const lerp = (a, b, n) => n * (b - a) + a;
@@ -1383,3 +1386,70 @@ class WavetableOscillatorProcessor extends AudioWorkletProcessor {
}
registerProcessor('wavetable-oscillator-processor', WavetableOscillatorProcessor);
class TransientProcessor extends AudioWorkletProcessor {
static get parameterDescriptors() {
return [];
}
constructor(options) {
super();
this.gainCoeff = timeToCoeff(0.2);
this.avgGain = 1;
let {
attackTime = 0.003,
sustainTime = 0.08,
attack = 0,
sustain = 0,
sensitivity = 0.1,
mix = 1,
} = options.processorOptions;
attackTime = clamp(attackTime, 0.0005, 0.05);
sustainTime = clamp(sustainTime, 0.01, 0.5);
this.attackCoeff = timeToCoeff(attackTime);
this.sustainCoeff = timeToCoeff(sustainTime);
this.attackAmt = clamp(attack, -1, 1);
this.sustainAmt = clamp(sustain, -1, 1);
this.scaling = 0.5 + 5 * clamp(sensitivity, 0, 1);
this.mix = clamp(mix, 0, 1);
}
process(inputs, outputs, _params) {
const input = inputs[0];
const output = outputs[0];
if (!input || !output) {
return true;
}
const channels = output.length;
this.attackEnv ??= new Float32Array(channels);
this.sustainEnv ??= new Float32Array(channels);
let avgGain = this.avgGain;
for (let ch = 0; ch < channels; ch++) {
const inCh = input[ch];
const outCh = output[ch];
let attEnv = this.attackEnv[ch];
let susEnv = this.sustainEnv[ch];
for (let i = 0; i < blockSize; i++) {
const x = Math.abs(inCh[i]);
attEnv = lerp(attEnv, x, this.attackCoeff);
susEnv = lerp(susEnv, x, this.sustainCoeff);
const peakiness = clamp((this.scaling * (attEnv - susEnv)) / (susEnv + 1e-6), -1.5, 1.5);
const attScale = Math.max(0, peakiness);
const susScale = Math.max(0, -peakiness);
const attackGain = dbToLin(this.attackAmt * attScale * 18); // max 18db
const sustainGain = dbToLin(this.sustainAmt * susScale * 36); // max 36db
const gain = clamp(attackGain * sustainGain, 0, 8);
avgGain = lerp(avgGain, gain, this.gainCoeff);
const makeup = avgGain > 1e-3 ? 1 / avgGain : 1;
const wet = x * gain * makeup;
outCh[i] = lerp(x, wet, this.mix);
}
this.attackEnv[ch] = attEnv;
this.sustainEnv[ch] = susEnv;
}
this.avgGain = avgGain;
return true;
}
}
registerProcessor('transient-processor', TransientProcessor);