Generating sine, square, triangle, sawtooth audio signals using Android's AudioTrack Class

My objective is to generate sine, square, triangle and sawtooth signals with Android's AudioTrack Class.

I have made an attempt based on a tutorial. It works relatively well, although I'm not always sure how accurate the frequency generated corresponds with the frequency aimed at.

I would like to make square, triangle etc. functions. The tutorial only implements sine. My question is therefore:

How exactly does the sample work

``````  new Thread( new Runnable( )
{
public void run( )
{
final float frequency = 440;
float increment = (float)(2*Math.PI) * frequency / 44100; // angular increment for each sample
float angle = 0;
AudioDevice device = new AndroidAudioDevice( );
float samples[] = new float[1024];

while( true )
{
for( int i = 0; i < samples.length; i++ )
{
samples[i] = (float)Math.sin( angle );
angle += increment;
}

device.writeSamples( samples );
}
}
} ).start();
``````

Can I make the sine into a square like follows (using the signum function)?

``````samples[i] = (float)Math.signum(Math.sin( angle ));
``````

Basically, I would like to fundamentally understand the samples being written, so I can generate various signals and also eventually superposition them.

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I know this is a year old but... Yes, signum should work fine. Ditch the angle and incrementing business.

This code superimposes two signals - a square and a triangle at different frequencies.

``````int rate = 44100;
AudioDevice device = new AndroidAudioDevice( );
float samples[] = new float[1024];

while( true )
{
for( int i = 0; i < samples.length; i++ )
{
samples[i] = (float)(0.5*Math.signum(Math.sin(550*2*Math.PI*i/rate))+0.5*Math.asin(Math.sin(450*2*Math.PI*i/rate)));
}
device.writeSamples( samples );
}
``````

Btw, a better way to do square is probably: `((550.0*2*i/rate)%2<0?-1:1)`

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