Oh common the sound was horrible...

Checked wiki? It is not that hard to understand... Even if you don't know that much of mathematics... Which you should - PROGRAMMING music is not easy.

So:

Let's first define something:

```
var harmonics:Array = new Array();
```

*harmonics* is the array in which we will store individual harmonics. Each child will be another array, containing ["*amplitude*"] (technically the volume), ["*frequency*"] and ["wavelength"] (period). We also need a function that can give us the phase of the wave given the *amplitude*, *wavelength* and *offset* (from the beginning of the wave). For square wave something like:

```
function getSquarePhase(amp:Number, wl:Number, off:Number):Number {
while (off > wl){off -= wl;}
return (off > wl / 2 ? -amp : amp); // Return amp in first half, -amp in 2.
}
```

You might add other types, or even custom vector waves if you want.

Now for the harder part.

```
var samplingFrequency; // set this to your SF
function getAddSyn(harmonics:Array, time:Number):Number {
if (harmonics.length == 1){ // We do not need to perform AS here
return getSquarePhase(harmonics[0]["amplitude"], harmonics[0]["wavelength"], time);
} else {
var hs:Number = 0;
hs += 0.5 * (harmonics[0]["amplitude"] * Math.cos(getSquarePhase(harmonics[0]["amplitude"], harmonics[0]["wavelength"], time)));
// ^ You can try to remove the line above if it does not sound right.
for (var i:int = 1; i < harmonics.length; i++){
hs += (harmonics[0]["amplitude"] * Math.cos(getSquarePhase(harmonics[0]["amplitude"], harmonics[0]["wavelength"], time)) * Math.cos((Math.PI * 2 * harmonics[0]["frequency"] / samplingFrequency) * time);
hs -= Math.sin(getSquarePhase(harmonics[0]["amplitude"], harmonics[0]["wavelength"], time)) * Math.sin((Math.PI * 2 * harmonics[0]["frequency"] / samplingFrequency) * time);
}
return hs;
}
}
```

This is all just converted (weakly :D) from the Wikipedia, I may have done a mistake *somewhere* in there... But I think you should get the idea... And if not, try to convert the AS from Wikipedia yourself, as I said, it is not so hard.

I also somehow ignored the Nyquist frequency...