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#ifndef lint

static char *RCSid() { return RCSid("$Id: bf_test.c,v 1.14 2014/11/02 22:42:46 broeker Exp $"); }

#endif

/*

* This program creates some binary data files used by the demo

* binary.dem to exercise gnuplot's binary input routines.

* This code is not used by gnuplot itself.

*

* Copyright (c) 1992 Robert K. Cunningham, MIT Lincoln Laboratory

*

*/

/*

* Ethan A Merritt July 2014

* Remove dependence on any gnuplot source files

*/

#include <ctype.h>

#include <stdio.h>

#include <math.h>

#ifdef HAVE_CONFIG_H

#include "config.h"

#endif

#ifdef HAVE_STDLIB_H

# include <stdlib.h>

#else

# ifdef HAVE_MALLOC_H

# include <malloc.h>

# endif

#endif

/* replaces __PROTO() */

static float function (int p, double x, double y);

typedef struct {

float xmin, xmax;

float ymin, ymax;

} range;

#define NUM_PLOTS 2

static range TheRange[] = {{-3,3,-2,2},

{-3,3,-3,3},

{-3,3,-3,3}}; /* Sampling rate causes this to go from -3:6*/

static float

function(int p, double x, double y)

{

float t = 0; /* HBB 990828: initialize */

switch (p) {

case 0:

t = 1.0 / (x * x + y * y + 1.0);

break;

case 1:

t = sin(x * x + y * y) / (x * x + y * y);

if (t > 1.0)

t = 1.0;

break;

case 2:

t = sin(x * x + y * y) / (x * x + y * y);

/* sinc modulated sinc */

t *= sin(4. * (x * x + y * y)) / (4. * (x * x + y * y));

if (t > 1.0)

t = 1.0;

break;

default:

fprintf(stderr, "Unknown function\n");

break;

}

return t;

}

int

fwrite_matrix( FILE *fout, float **m, int xsize, int ysize, float *rt, float *ct)

{

int j;

int status;

float length = ysize;

if ((status = fwrite((char *) &length, sizeof(float), 1, fout)) != 1) {

fprintf(stderr, "fwrite 1 returned %d\n", status);

return (0);

}

fwrite((char *) ct, sizeof(float), ysize, fout);

for (j = 0; j < xsize; j++) {

fwrite((char *) &rt[j], sizeof(float), 1, fout);

fwrite((char *) (m[j]), sizeof(float), ysize, fout);

}

return (1);

}

#define ISOSAMPLES 5.0

int

main(void)

{

int plot;

int i, j;

int im;

float x, y;

float *rt, *ct;

float **m;

int xsize, ysize;

char buf[256];

FILE *fout;

/* Create a few standard test interfaces */

for (plot = 0; plot < NUM_PLOTS; plot++) {

xsize = (TheRange[plot].xmax - TheRange[plot].xmin) * ISOSAMPLES + 1;

ysize = (TheRange[plot].ymax - TheRange[plot].ymin) * ISOSAMPLES + 1;

sprintf(buf, "binary%d", plot + 1);

if (!(fout = fopen(buf, "wb"))) {

fprintf(stderr, "Could not open output file\n");

return EXIT_FAILURE;

}

rt = calloc(xsize, sizeof(float));

ct = calloc(ysize, sizeof(float));

m = calloc(xsize, sizeof(m[0]));

for (im = 0; im < xsize; im++) {

m[im] = calloc(ysize, sizeof(m[0][0]));

}

for (y = TheRange[plot].ymin, j = 0; j < ysize; j++, y += 1.0 / (double) ISOSAMPLES) {

ct[j] = y;

}

for (x = TheRange[plot].xmin, i = 0; i < xsize; i++, x += 1.0 / (double) ISOSAMPLES) {

rt[i] = x;

for (y = TheRange[plot].ymin, j = 0; j < ysize; j++, y += 1.0 / (double) ISOSAMPLES) {

m[i][j] = function(plot, x, y);

}

}

fwrite_matrix(fout, m, xsize, ysize, rt, ct);

free(rt);

free(ct);

for (im = 0; im < xsize; im++)

free(m[im]);

free(m);

}

/* Show that it's ok to vary sampling rate, as long as x1<x2, y1<y2... */

sprintf(buf, "binary%d", plot + 1);

if (!(fout = fopen(buf, "wb"))) {

fprintf(stderr, "Could not open output file\n");

return EXIT_FAILURE;

}

xsize = (TheRange[plot].xmax - TheRange[plot].xmin) * ISOSAMPLES + 1;

ysize = (TheRange[plot].ymax - TheRange[plot].ymin) * ISOSAMPLES + 1;

rt = calloc(xsize, sizeof(float));

ct = calloc(ysize, sizeof(float));

m = calloc(xsize, sizeof(m[0]));

for (im = 0; im < xsize; im++) {

m[im] = calloc(ysize, sizeof(m[0][0]));

}

for (y = TheRange[plot].ymin, j = 0; j < ysize; j++, y += 1.0 / (double) ISOSAMPLES) {

ct[j] = y > 0 ? 2 * y : y;

}

for (x = TheRange[plot].xmin, i = 0; i < xsize; i++, x += 1.0 / (double) ISOSAMPLES) {

rt[i] = x > 0 ? 2 * x : x;

for (y = TheRange[plot].ymin, j = 0; j < ysize; j++, y += 1.0 / (double) ISOSAMPLES) {

m[i][j] = function(plot, x, y);

}

}

fwrite_matrix(fout, m, xsize, ysize, rt, ct);

free(rt);

free(ct);

for (im = 0; im < xsize; im++)

free(m[im]);

free(m);

return 0;

}