Given below is my java program for FFT. For the input {0,2,3,-1} its returns a false output in complex point representation.

```
import java.io.*;
public class test{
static double s[]={0,2,3,-1};
static double[][] re=new double[s.length][2];
static double[][] er=new double[s.length][2];
static double[][][] ma=new double[s.length][s.length][2];
public static void main(String args[])
{
double[][] aray1=new double[s.length][2];
for(int i=0;i<s.length;i++)
{
aray1[i][0]=s[i];
aray1[i][1]=0;
}
re=fft(aray1,1);
for(int i=0;i<re.length;i++)
{
System.out.println(""+re[i][0]+"+i*"+re[i][1]);
}
//Inverse FFT
re=fft(re,-1);
for(int i=0;i<re.length;i++)
{
//System.out.println("sdsfbv /n /n");
System.out.println(""+(re[i][0]/s.length)+"+i*"+((re[i][1])/s.length));
}
}
public static double[][] complexmult(double[][] a,double[][] b)
{
double[][] e=new double[1][2];
return e;
}
public static double[][] fft(double[][] a, int c)
{
double[][] de=new double[1][2];
int n=a.length;
if(n==1)
{
return a;
}
double wnx=Math.cos(c*2*Math.PI/n);
double wny=Math.sin(c*2*Math.PI/n);
double wx=1;
double wy=0;
double[][] y=new double[n][2];
double[] e=new double[n];
double[][] a0=new double[n/2][2];
double[][] a1=new double[n/2][2];
double[][] y0=new double[n][2];
double[][] y1=new double[n][2];
for(int i=0,k=0,j=0;i<n;i=i+1)
{
if((i%2)==0)
{
a0[k][0]=a[i][0];
a0[k][1]=a[i][1];
k=k+1;
}
else
{
a1[j][0]=a[i][0];
a1[j][1]=a[i][1];
j=j+1;
}
}
y0=fft(a0,c);
y1=fft(a1,c);
for(int k=0;k<=((n/2)-1);k++)
{
double m1=((wx*y1[k][0])-(wy*y1[k][1]));
double m2=((wx*y1[k][1])+(wy*y1[k][0]));
y[k][0]= y0[k][0]+m1;
y[k][1]=y0[k][1]+m2;
y[k+(n/2)][0]=y0[k][0]-m1;
y[k+(n/2)][1]=y0[k][1]-m2;
wx=((wx*wnx)-(wy*wny));
wy=((wx*wny)+(wy*wnx));
}
return y;
}
}
```

Output is as follows:

```
4.0+i*0.0
-3.0+i*1.8369701987210297E-16
2.0+i*0.0
-3.0+i*-1.8369701987210297E-16
```

However the output should be:

```
4.0+i*0.0
-3.0+i*-3
2.0+i*0.0
-3.0+i*3
```

It seems that there is a logic error somewhere in fft() that I am missing. Can someone help me locate it?

too localizedand not a valid question for SO. The fact that you keep repeating your objections to SO's guidelines really has no bearing. – Brian Roach Jan 31 '13 at 7:37