I wanted to use Apache math commons implementation for FFT (**FastFourierTransformer** class) to process some dummy data whose 8 data samples are contributing to one complete sinusoidal wave. The maximum being amplitude 230. The code snippet that I tried is below :

```
private double[] transform()
{
double [] input = new double[8];
input[0] = 0.0;
input[1] = 162.6345596729059;
input[2] = 230.0;
input[3] = 162.63455967290594;
input[4] = 2.8166876380389125E-14;
input[5] = -162.6345596729059;
input[6] = -230.0;
input[7] = -162.63455967290597;
double[] tempConversion = new double[input.length];
FastFourierTransformer transformer = new FastFourierTransformer();
try {
Complex[] complx = transformer.transform(input);
for (int i = 0; i < complx.length; i++) {
double rr = (complx[i].getReal());
double ri = (complx[i].getImaginary());
tempConversion[i] = Math.sqrt((rr * rr) + (ri * ri));
}
} catch (IllegalArgumentException e) {
System.out.println(e);
}
return tempConversion;
}
```

1) Now the data returned by method **transform** is an array of complex number. Does that array contains the frequency component information about input data? or the tempConversion array that I created will contain the frequency information? The values in tempConversion array is :

```
2.5483305001488234E-16
920.0
4.0014578493024757E-14
2.2914314707516465E-13
5.658858581079313E-14
2.2914314707516465E-13
4.0014578493024757E-14
920.0
```

2) I searched a lot but at most of the places there is no clear documentation on what format of data algorithm expects (in terms of sample code to understand better) and how do I use the array of results to calculate the frequencies contained in the signal?