phoned/lib/libpvf/fft.c

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/*
* fft.c
*
* Original code by ulrich@Gaston.westfalen.de (Heinz Ulrich Stille).
*
* $Id: fft.c,v 1.5 1999/03/16 09:59:19 marcs Exp $
*
*/
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#include <stdio.h>
#include <string.h>
#include <math.h>
#include "pvf.h"
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static void fft (float *real, float *imag, int n)
{
float a;
float tr;
float ti;
float wr;
float wi;
int mr = 0;
int l;
int istep;
int m;
int i;
int j;
for (m = 1; m <= (n - 1); m++)
{
l = n / 2;
while ((mr + l) > (n - 1))
l /= 2;
mr = (mr % l) + l;
if (mr > m)
{
tr = real[m];
real[m] = real[mr];
real[mr] = tr;
ti = imag[m];
imag[m] = imag[mr];
imag[mr] = ti;
}
}
for (l = 1; l < n; l = istep)
{
istep = 2 * l;
for (m = 1; m <= l; m++)
{
a = -M_PI * (m - 1.0) / l;
wr = cos(a);
wi = sin(a);
i = m - 1;
do
{
j = i + l;
tr = wr * real[j] - wi * imag[j];
ti = wr * imag[j] + wi * real[j];
real[j] = real[i] - tr;
imag[j] = imag[i] - ti;
real[i] += tr;
imag[i] += ti;
i += istep;
}
while (i < n);
}
}
}
int pvffft (FILE *fd_in, pvf_header *header_in, int skip, int sample_size,
double threshold, int vgetty_pid, int display)
{
/*
* Read pvf data, transform it into amplitude data and
* compute an index for the distribution of energy over the
* frequencies.
*/
int i;
int data;
float val;
float sum = 0.0;
float max = 0.0;
float *real;
float *imag;
for (i = sample_size; i > 0; i >>= 1)
{
if (((i & 0x01) != 0) && (i != 1))
{
fprintf(stderr, "%s: sample size (%d) must be a power of 2\n",
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"libpvf", sample_size);
return(0);
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}
}
real = malloc((sample_size + 8) * sizeof(float));
imag = malloc((sample_size + 8) * sizeof(float));
if ((real == NULL) || (imag == NULL))
{
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fprintf(stderr, "%s: not enough memory\n", "libpvf");
return(0);
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}
for(i = 0; i < sample_size; i++)
{
real[i] = 0;
imag[i] = 0;
}
/*
* skip the first few seconds
*/
for (i = 0; i < skip; i++)
data = header_in->read_pvf_data(fd_in);
/*
* store a few seconds' worth of data
*/
for (i = 0; i < sample_size; i++)
{
real[i] = (float) header_in->read_pvf_data(fd_in);
if (feof(fd_in))
{
/*
* assume it isn't data
*/
fprintf(stderr, "%s: not enough samples available\n",
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"libpvf");
return(0);
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}
}
/*
* tell the calling process that it can stop writing
*/
if (vgetty_pid > 0)
kill(vgetty_pid, SIGPIPE);
/*
* note that it will get another sigpipe once this is
* really finished - a close won't do since other processes
* (i.e. the calling shell) will still have the fd opened.
*/
fft(real, imag, sample_size);
for (i = 10; i < sample_size; i++)
{
val = sqrt(real[i] * real[i] + imag[i] * imag[i]);
sum += val;
if (val > max)
max = val;
}
sum /= sample_size;
if (max > 1e-10)
sum /= max;
if (vgetty_pid > 0)
{
if (sum < threshold)
kill(vgetty_pid, SIGUSR2);
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return(1);
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}
if (display)
{
for (i = 10; i < (sample_size >> 1); i++)
printf("%f %f\n", ((double) i / sample_size) *
header_in->speed, sqrt(real[i] * real[i] +
imag[i] * imag[i]) / max);
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return(1);
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};
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printf("%s: FFT level is %g\n", "libpvf", sum);
return(1);
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}