OK, so this should be simple... But I still can't figure it out. I am writing a program in java for Android to take the fft of a float array. On the complex frequency spectrum returned I extract the real and imaginary components so I can calculate some parameters such as magnitude and phase. The problem is the libgdx fft transform I am using uses float, however most of the Math class operations use double. So that means I need to convert float to double. It seems to work fine on the Real component of the fft, however with the imaginary I get precision errors, or rather I get for one frequency bin I get an imaginary float value of 45.188522 however, when I convert to double it changes to -45.188522.

```
fft.forward(array);
fft_cpx=fft.getSpectrum();
tmpi = fft.getImaginaryPart();
tmpr = fft.getRealPart();
for(int i=0;i<array.length/2;i++)
{
real[i] = (double) tmpr[i];
imag[i] = (double) tmpi[i]; // THIS CONVERSION
mag[i] = (float)Math.sqrt((real[i]*real[i]) + (imag[i]*imag[i]));
phase[i] = (float) ((float) Math.atan2(imag[i], real[i]));
}
```

I am aware and have tried the android FloatMath class, however there is no atan2 implemented so I am forced to convert to double regardless.

I have also tried a few different conversions like:

```
imag[i] = tmpi[i];
imag[i] = Double.parseDouble(Float.toString(tmpi[i])); // Of course you loose accuracy
```

But all still return a -45.18852 instead of 45.18852

^^^^^ ORIGINAL ^^^^^^

More Detail:

Below is my src code and usage for those interested.

Ok, I am using Ubuntu 10.10 with eclipse JDK, Version: Helios Service Release 2 Android SDK: The latest r10 from android developers. I am compiling for android 1.6, API level 4. I am using libgdx for the fft you can get it here, Libgdx and ensure you add the gdx.jar to your libs and added to your build path libraries. If you create a new project either with the same or new activity for android 1.6, set up a AVD, the one I have set up has the following support (included for completeness) :

```
SD Card yes
Accellerometer yes
DPas Support yes
Abstracted LCD Density 240
Audio Playback Support yes
Max VM Application heap size 24
camera support no
Touch Screen support yes
```

Here is my src code:

```
package com.spec.example;
import android.app.Activity;
import android.os.Bundle;
import com.badlogic.gdx.audio.analysis.FFT;
import java.lang.String;
import android.util.FloatMath;
import android.widget.TextView;
public class spectrogram extends Activity {
/** Called when the activity is first created. */
float[] array = {1, 6, 1, 4, 5, 0, 8, 7, 8, 6, 1,0, 5 ,6, 1,8,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0};
float[] array_hat,res=new float[array.length/2];
float[] fft_cpx,tmpr,tmpi,mod_spec =new float[array.length/2];
float[] real_mod = new float[array.length], imag_mod = new float[array.length];
double[] real = new double[array.length], imag= new double[array.length];
double[] mag = new double[array.length] ,phase = new double[array.length];
int n;
float tmp_val;
String strings;
FFT fft = new FFT(32, 8000);
@Override
public void onCreate(Bundle savedInstanceState) {
super.onCreate(savedInstanceState);
TextView tv = new TextView(this);
fft.forward(array);
fft_cpx=fft.getSpectrum();
tmpi = fft.getImaginaryPart();
tmpr = fft.getRealPart();
for(int i=0;i<array.length;i++)
{
real[i] = (double) tmpr[i]; // This works well
imag[i] = (double) tmpi[i]; // However this is creates a problem
//mag[i] = FloatMath.sqrt((tmpr[i]*tmpr[i]) + (tmpi[i]*tmpi[i])); //using FloatMath android class (works fine)
mag[i] = Math.sqrt((real[i]*real[i]) + (imag[i]*imag[i]));
phase[i]=Math.atan2(imag[i],real[i]);
/****Reconstruction****/
real_mod[i] = (float) (mag[i] * Math.cos(phase[i]));
imag_mod[i] = (float) (mag[i] * Math.sin(phase[i]));
}
fft.inverse(real_mod,tmpi,res);// inverse fft to reconstruct original array if input = output It works as it is, however it is using the input imaginary, not imag_mod
strings=String.valueOf(tmpi[1]); // Just printing the second imaginary element Calculated using: |X|e^(j*phaseofX) = |X|(cos(X) + jsin(X))
//strings=String.valueOf(imag_mod[1]); // Just printing the second imaginary element (Original returned from fft.getImaginary())
//this ^^ is the one which returns a -ve (Uncomment to test)
tv.setText(strings);
setContentView(tv);
}
}
```

I am new to android development and java, so please be patient with me if the answer seems obvious or my syntax seems odd. Hopefully someone work it out...

`double myDoubleValue = myFloatValue`

is so completely broken in such an obvious way then (forgive me) I seriously doubt you'd be the first to discover it. So what's your environment, and can we reproduce it? – corlettk Apr 30 '11 at 4:55