LayoutTests/webaudio/resources/audio-param.js - WebKit - Git at Google

 // Define functions that implement the formulas for AudioParam automations.

 // AudioParam linearRamp value at time t for a linear ramp between (t0, v0) and
 // (t1, v1).  It is assumed that t0 <= t.  Results are undefined otherwise.
 function audioParamLinearRamp(t, v0, t0, v1, t1) {
   if (t >= t1)
     return v1;
   return (v0 + (v1 - v0) * (t - t0) / (t1 - t0))
 }

 // AudioParam exponentialRamp value at time t for an exponential ramp between
 // (t0, v0) and (t1, v1). It is assumed that t0 <= t.  Results are undefined
 // otherwise.
 function audioParamExponentialRamp(t, v0, t0, v1, t1) {
   if (t >= t1)
     return v1;
   return v0 * Math.pow(v1 / v0, (t - t0) / (t1 - t0));
 }

 // AudioParam setTarget value at time t for a setTarget curve starting at (t0,
 // v0) with a final value of vFainal and a time constant of timeConstant.  It is
 // assumed that t0 <= t.  Results are undefined otherwise.
 function audioParamSetTarget(t, v0, t0, vFinal, timeConstant) {
   return vFinal + (v0 - vFinal) * Math.exp(-(t - t0) / timeConstant);
 }

 // AudioParam setValueCurve value at time t for a setValueCurve starting at time
 // t0 with curve, curve, and duration duration.  The sample rate is sampleRate.
 // It is assumed that t0 <= t.
 function audioParamSetValueCurve(t, curve, t0, duration) {
   if (t > t0 + duration)
     return curve[curve.length - 1];

   let curvePointsPerSecond = (curve.length - 1) / duration;

   let virtualIndex = (t - t0) * curvePointsPerSecond;
   let index = Math.floor(virtualIndex);

   let delta = virtualIndex - index;

   let c0 = curve[index];
   let c1 = curve[Math.min(index + 1, curve.length - 1)];
   return c0 + (c1 - c0) * delta;
 }
	// Define functions that implement the formulas for AudioParam automations.

	// AudioParam linearRamp value at time t for a linear ramp between (t0, v0) and
	// (t1, v1). It is assumed that t0 <= t. Results are undefined otherwise.
	function audioParamLinearRamp(t, v0, t0, v1, t1) {
	if (t >= t1)
	return v1;
	return (v0 + (v1 - v0) * (t - t0) / (t1 - t0))
	}

	// AudioParam exponentialRamp value at time t for an exponential ramp between
	// (t0, v0) and (t1, v1). It is assumed that t0 <= t. Results are undefined
	// otherwise.
	function audioParamExponentialRamp(t, v0, t0, v1, t1) {
	if (t >= t1)
	return v1;
	return v0 * Math.pow(v1 / v0, (t - t0) / (t1 - t0));
	}

	// AudioParam setTarget value at time t for a setTarget curve starting at (t0,
	// v0) with a final value of vFainal and a time constant of timeConstant. It is
	// assumed that t0 <= t. Results are undefined otherwise.
	function audioParamSetTarget(t, v0, t0, vFinal, timeConstant) {
	return vFinal + (v0 - vFinal) * Math.exp(-(t - t0) / timeConstant);
	}

	// AudioParam setValueCurve value at time t for a setValueCurve starting at time
	// t0 with curve, curve, and duration duration. The sample rate is sampleRate.
	// It is assumed that t0 <= t.
	function audioParamSetValueCurve(t, curve, t0, duration) {
	if (t > t0 + duration)
	return curve[curve.length - 1];

	let curvePointsPerSecond = (curve.length - 1) / duration;

	let virtualIndex = (t - t0) * curvePointsPerSecond;
	let index = Math.floor(virtualIndex);

	let delta = virtualIndex - index;

	let c0 = curve[index];
	let c1 = curve[Math.min(index + 1, curve.length - 1)];
	return c0 + (c1 - c0) * delta;
	}