# How to properly bend a note in an audio synthesis application?

Problem

I'm trying to figure this out for a while to no avail - how to continuously change the pitch of a note between two frequencies.

I'm generating the audio signal with a function similar to this:

``````double SineGenerator(double time, double frequency)
{
return Math.Sin(frequency * time * 2 * Math.PI);
}
``````

While I manage time manually outside of this function, like so:

``````time += 1.0 / sampleRate;
double sample = SineGenerator(time, frequency);
``````

And the obvious solution of linearly interpolating the `frequency` parameter over the desired amount of samples does not work as expected. The sound wave gets filled with pops and clicks when doing this.

How must I implement this instead?

Solution (Edit)

Thanks to geofftnzless, this was surprisingly easy to solve. I have switched to using this generator now:

``````double SineGenerator(ref double time, double frequency, int sampleRate)
{
return Math.Sin(time += (frequency * 2 * Math.PI) / sampleRate);
}
``````

Which takes care of incrementing `time` internally.

Using this generator interpolating `frequency` works smoothly and with not audible problems. Thanks!

-
Instead of multiplying `frequency` by `time`, use `frequency` to increment `time` by the appropriate amount. That way `time` is continuous and you wont get jumps.
I.e. `Sin(time + frequency)` (which I believe would normally be called a phase, not a frequency)? In that case, what's the "appropriate amount"? I need control over the pitch of each note, and using the sine wave function above, the frequency parameter lets me do that in a straightforward way. I have no clue how I would be able to control the sound's frequency by changing its phase (or if that's even possible). –  David Gouveia Dec 19 '11 at 20:44
No, I mean keep track of the `time` for each generator, and go `time += (2.0 * Math.PI * frequency) / (samples_per_second)` (I think that's right) –  geofftnz Dec 19 '11 at 20:50