?? random.c
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/*
SGPC: Simple Genetic Programming in C
(c) 1993 by Walter Alden Tackett and Aviram Carmi
This code and documentation is copyrighted and is not in the public domain.
All rights reserved.
- This notice may not be removed or altered.
- You may not try to make money by distributing the package or by using the
process that the code creates.
- You may not distribute modified versions without clearly documenting your
changes and notifying the principal author.
- The origin of this software must not be misrepresented, either by
explicit claim or by omission. Since few users ever read sources,
credits must appear in the documentation.
- Altered versions must be plainly marked as such, and must not be
misrepresented as being the original software. Since few users ever read
sources, credits must appear in the documentation.
- The authors are not responsible for the consequences of use of this
software, no matter how awful, even if they arise from flaws in it.
If you make changes to the code, or have suggestions for changes,
let us know! (gpc@ipld01.hac.com)
*/
#ifndef lint
static char random_c_rcsid[]="$Id: random.c,v 2.9 1993/04/22 07:39:12 gpc-avc Exp gpc-avc $";
#endif
/*
*
* $Log: random.c,v $
* Revision 2.9 1993/04/22 07:39:12 gpc-avc
* Removed old log messages
*
* Revision 2.8 1993/04/14 04:53:06 gpc-avc
* Finished modes for checkpoining
*
*
*/
#include <math.h>
#include "random.h"
/* definitions for the random number generator (seed * GEN % MOD) */
#define GEN 16807
#define MOD 2147483647
#define QUO 127773
#define RES 2836
static long seed;
#ifdef ANSI_FUNC
void set_seed(
unsigned long s
)
#else
void set_seed(s)
unsigned long s;
#endif
{
seed = (long)s;
}
#ifdef ANSI_FUNC
unsigned long get_seed(void)
#else
unsigned long get_seed()
#endif
{
return seed;
}
#ifdef ANSI_FUNC
float park_miller_randomizer(void)
#else
float park_miller_randomizer()
#endif
{
float retval;
retval = (float) (((double) PMrand(&seed)) / ((double) MOD));
return retval;
}
/* Park-Miller "minimal standard" pseudo random number generator */
/* Implementation by Jan Jannink (c) 1992 */
#ifdef ANSI_FUNC
long PMrand(
long *s
)
#else
long PMrand(s)
long *s;
#endif
{
long tmp;
tmp = (*s >> 16) * GEN;
*s = (*s & 65535) * GEN + ((tmp & 32767) << 16) + (tmp >> 15);
return (*s -= (*s < 0 ? MOD: 0));
}
#ifdef ANSI_FUNC
float gaussian_noise(
float mean,
float sigma
)
#else
float gaussian_noise(mean, sigma)
float mean;
float sigma;
#endif
{
float gauss;
if (gaussian_noise_toggle) {
gaussian_noise_uniform1 = (random_float(1.0));
gaussian_noise_uniform2 = (random_float(1.0));
gaussian_noise_temp = sqrt(-2.0*log((double)gaussian_noise_uniform1));
gauss = gaussian_noise_temp *
(float)cos((double)(2.0*M_PI*gaussian_noise_uniform2));
}
else {
gauss = gaussian_noise_temp *
(float)sin((double)(2.0*M_PI*gaussian_noise_uniform2));
}
gaussian_noise_toggle = ! gaussian_noise_toggle;
return mean + (sigma * gauss);
}
#ifdef ANSI_FUNC
float random_float( /* 0 <= random_float() < f */
float f
)
#else
float random_float(f) /* 0 <= random_float() < f */
float f;
#endif
{
float retval;
retval = (f*(1.0-park_miller_randomizer()));
return retval;
}
#ifdef ANSI_FUNC
int random_int( /* 0 <= random_int() < i */
int i
)
#else
int random_int(i) /* 0 <= random_int() < i */
int i;
#endif
{
int retval;
retval = (int) (i * random_float(1.0));
return retval;
}
i */
int i
)
#else
int random_int(i) /* 0 <= random_int() < i */
int i;
#endif
{
int retval;
retval = (int) (i * random_float(1.0));
return retval;
}
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