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I'm trying to learn how to use Fast Fourier Transform, and have copied the FFT algorithm from Numerical Recipies in C called four1. I have written a small function test that fourier transforms a simple function. But upon execution the program returns a segmentation fault. I can't find where the fault is can you help me?

#include <stdio.h>
#include <math.h>
#define SWAP(a,b) tempr=(a);(a)=(b);(b)=tempr

void four1(float data[], unsigned long nn, int isign)
{
        unsigned long n,mmax,m,j,istep,i;
        double wtemp,wr,wpr,wpi,wi,theta;
        float tempr,tempi;

        n=nn << 1;
        j=1;
        for (i=1;i<n;i+=2) {
                if (j > i) {
                        SWAP(data[j],data[i]);
                        SWAP(data[j+1],data[i+1]);
                }
                m=n >> 1;
                while (m >= 2 && j > m) {
                        j -= m;
                        m >>= 1;
                }
                j += m;
        }
        mmax=2;
        while (n > mmax) {
                istep=mmax << 1;
                theta=isign*(6.28318530717959/mmax);
                wtemp=sin(0.5*theta);
                wpr = -2.0*wtemp*wtemp;
                wpi=sin(theta);
                wr=1.0;
                wi=0.0;
                for (m=1;m<mmax;m+=2) {
                        for (i=m;i<=n;i+=istep) {
                                j=i+mmax;
                                tempr=wr*data[j]-wi*data[j+1];
                                tempi=wr*data[j+1]+wi*data[j];
                                data[j]=data[i]-tempr;
                                data[j+1]=data[i+1]-tempi;
                                data[i] += tempr;
                                data[i+1] += tempi;
                        }
                        wr=(wtemp=wr)*wpr-wi*wpi+wr;
                        wi=wi*wpr+wtemp*wpi+wi;
                }
                mmax=istep;
        }
}

void fourier_transform_test (FILE* output_file)
{
        /* 
        This function serves as a test to see whether my implementation of the
        fft is working or not.
        */
        int n = 30;             // number of samples
        float x[n];             // array that holds all values for x            

        // misc
        int i = 0;

        printf("Running fourier transform tests...\n");
        fprintf(output_file, "# x t\n"); 

        // fill the array x with values to be transformed
        for (i = 0; i <= (n - 1); i++) 
                x[i] = cos((2 * 3.1415 * i) / 10);

        // according to the Numerical Recipies, I have to decrement the pointer to data
        // by one to compensate for the zero-offset
        four1(x-1, 64, 1);

        // loop through the transformed array x and print results to a file
        for (i = 0; i <= (n - 1); i++)
                fprintf(output_file, "%i\t%f\n", i, x[i]);

        fclose(output_file);

}

int main (int argc, char *argv[]) 
{
        // open data_file to write results
        FILE* file; 
        if (argc == 1)
                file = fopen("results.dat", "w");
        else
                file = fopen(argv[1], "w");

        fourier_transform_test(file);

        return 0;
} 

I'm using latest Debian, gcc 4 (pretty sure)

For those of you who want to see the book for yourself: http://www.nrbook.com/a/bookcpdf/c12-2.pdf (its legit)

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2  
Have you tried using GDB to look where the segmentation fault occurs? –  GWW Feb 18 '11 at 0:52
    
No I don't know how to use GDB –  chutsu Feb 18 '11 at 0:58
1  
You may want to read this cautionary article before using code derived from Numerical Recipes. The hideous Fortran to C translation (e.g. the treatment of C's zero based array indexing, as seen in one of your comments) is only part of the story. –  Jim Lewis Feb 18 '11 at 1:03
    
yea I came across that article, however it does seem to be the few books that has a simple FFT algorithm in C –  chutsu Feb 18 '11 at 1:07
1  
For standard performance-sensitive algorithms like FFTs, it is probably better to use popular implementations such as FFTW (unless you are educating yourself on FFT implementation). –  marshall.ward Feb 18 '11 at 1:07

4 Answers 4

up vote 3 down vote accepted

You only have 30 values in your array but you're telling four1 that your array is 64 floats long.

four1(x-1, n, 1);
share|improve this answer
    
Actually, he's telling it that it's 64 complex numbers (or 128 floats) long. Reading the original comments, it's also being pointed out that the number of samples should be a power-of-two. –  kusma Feb 18 '11 at 0:58

Your input array of floats is of length 30, but you pass 64 as the nn value. n is then set to twice nn, which is 128:

n = nn << 1;

(by the way, this line is just an obfuscatory way to write n = nn * 2, given that nn is unsigned long).

The function then accesses values up to data[128], which is equivalent to x[127], and well beyond the bounds of the array.

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I don't understand either? the Numerical recipes book didn't really explain why. From the book it says "Replaces data[1..2*nn] by its discrete Fourier transfrom..." but that itself doesn't make sense, why would you do that... (tearing hair out) –  chutsu Feb 18 '11 at 1:13

Here is a stacktrace of your crash:

Breakpoint 1, main (argc=1, argv=0x7fffffffe3c8) at main.c:86
86          if (argc == 1)
(gdb) n
88                  file = fopen("results.dat", "w");
(gdb) n
92          fourier_transform_test(file);
(gdb) print file
$1 = (FILE *) 0x603010
(gdb) n
Running fourier transform tests...

Program received signal SIGSEGV, Segmentation fault.
0x00007ffff7313974 in fclose () from /lib/libc.so.6
(gdb) bt
#0  0x00007ffff7313974 in fclose () from /lib/libc.so.6
#1  0x0000000000400e55 in fourier_transform_test (output_file=0xffffe1e0ffffe1e0) at main.c:78

your output_file pointer and also stack frame was garbaged because of this line, which incorrectly assumed size of x[] to be more than 30 floats:

four1(x-1, 64, 1);

And here is the place which overwrites output_file pointer by reaching over array limits:

Breakpoint 1, main (argc=1, argv=0x7fffffffe3c8) at main.c:90
90          if (argc == 1)
(gdb) n
92                  file = fopen("results.dat", "w");
(gdb) n
96          fourier_transform_test(file);
(gdb) s
fourier_transform_test (output_file=0x603010) at main.c:52
52  {
(gdb) watch output_file 
Hardware watchpoint 2: output_file
(gdb) c
Continuing.
Running fourier transform tests...
Hardware watchpoint 2: output_file

Old value = (FILE *) 0x603010
New value = (FILE *) 0x0
four1 (data=0x7fffffffe1cc, nn=64, isign=1) at main.c:16
16                          SWAP(data[j+1],data[i+1]);
(gdb) bt
#0  four1 (data=0x7fffffffe1cc, nn=64, isign=1) at main.c:16
#1  0x0000000000400dfe in fourier_transform_test (output_file=0x0) at main.c:72
#2  0x0000000000400edb in main (argc=1, argv=0x3f4f07073e9df6ca) at main.c:96
(gdb) l
11          n=nn << 1;
12          j=1;
13          for (i=1;i<n;i+=2) {
14                  if (j > i) {
15                          SWAP(data[j],data[i]);
16                          SWAP(data[j+1],data[i+1]); <---i=39;j=101
17                  }
18                  m=n >> 1;
19                  while (m >= 2 && j > m) {
20                          j -= m;
(gdb) info locals
m = 64
j = 101
istep = 6
wpr = 6.953355807477696e-310
wpi = 0
n = 128
wtemp = 4.9406564584124654e-324
wr = 6.9533490701916841e-310
wi = 6.953355807463467e-310
mmax = 4603839450133099783
i = 39
theta = 6755399441055756
tempr = 0
tempi = -nan(0x7fe260)
(gdb) 

Here is an excellent book about how to implement Fourier Transform - http://www.dspguide.com/

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It will be easier to help if you tell us what operating system and compiler you're using.

That said, a segmentation fault usually means an error with pointers. I'm assuming you copied this by hand? Then look for a tiny typo, something like *p for **p or something equally trivial.

If you're on a UNIX system, set your corelimit to a large number, run it again. You'll get a coredump, most likely. use gdb to find out where the actual error occurs.

I'd also check the line

 for (i=m;i<=n;i+=istep) {

Usual C convention is that indices range from 0 to n-1, but a <= test suggests i will range up to n.

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