src/cv/pabopto2bsdf.c

#ifndef lint
static const char RCSid[] = "$Id: pabopto2bsdf.c,v 2.17 2014/03/18 19:08:24 greg Exp $";
#endif
/*
 * Load measured BSDF data in PAB-Opto format.
 *
 *      G. Ward
 */

#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <ctype.h>
#include <math.h>
#include "platform.h"
#include "bsdfrep.h"
#include "resolu.h"
                                /* global argv[0] */
char                    *progname;

typedef struct {
        const char      *fname;         /* input file path */
        double          theta, phi;     /* incident angles (in degrees) */
        int             isDSF;          /* data is DSF (rather than BSDF)? */
        long            dstart;         /* data start offset in file */
} PGINPUT;

double          angle_eps = 0;  /* epsilon for angle comparisons */

PGINPUT         *inpfile;       /* input files sorted by incidence */
int             ninpfiles;      /* number of input files */

/* Compare incident angles */
static int
cmp_inang(const void *p1, const void *p2)
{
        const PGINPUT   *inp1 = (const PGINPUT *)p1;
        const PGINPUT   *inp2 = (const PGINPUT *)p2;
        
        if (inp1->theta > inp2->theta+angle_eps)
                return(1);
        if (inp1->theta < inp2->theta-angle_eps)
                return(-1);
        if (inp1->phi > inp2->phi+angle_eps)
                return(1);
        if (inp1->phi < inp2->phi-angle_eps)
                return(-1);
        return(0);
}

/* Prepare a PAB-Opto input file by reading its header */
static int
init_pabopto_inp(const int i, const char *fname)
{
        FILE    *fp = fopen(fname, "r");
        char    buf[2048];
        int     c;
        
        if (fp == NULL) {
                fputs(fname, stderr);
                fputs(": cannot open\n", stderr);
                return(0);
        }
        inpfile[i].fname = fname;
        inpfile[i].isDSF = -1;
        inpfile[i].theta = inpfile[i].phi = -10001.;
                                /* read header information */
        while ((c = getc(fp)) == '#' || c == EOF) {
                char    typ[32];
                if (fgets(buf, sizeof(buf), fp) == NULL) {
                        fputs(fname, stderr);
                        fputs(": unexpected EOF\n", stderr);
                        fclose(fp);
                        return(0);
                }
                if (sscanf(buf, "sample_name \"%[^\"]\"", bsdf_name) == 1)
                        continue;
                if (sscanf(buf, "format: theta phi %s", typ) == 1) {
                        if (!strcasecmp(typ, "DSF")) {
                                inpfile[i].isDSF = 1;
                                continue;
                        }
                        if (!strcasecmp(typ, "BSDF")) {
                                inpfile[i].isDSF = 0;
                                continue;
                        }
                }
                if (sscanf(buf, "intheta %lf", &inpfile[i].theta) == 1)
                        continue;
                if (sscanf(buf, "inphi %lf", &inpfile[i].phi) == 1)
                        continue;
                if (sscanf(buf, "incident_angle %lf %lf",
                                &inpfile[i].theta, &inpfile[i].phi) == 2)
                        continue;
        }
        inpfile[i].dstart = ftell(fp) - 1;
        fclose(fp);
        if (inpfile[i].isDSF < 0) {
                fputs(fname, stderr);
                fputs(": unknown format\n", stderr);
                return(0);
        }
        if ((inpfile[i].theta < -10000.) | (inpfile[i].phi < -10000.)) {
                fputs(fname, stderr);
                fputs(": unknown incident angle\n", stderr);
                return(0);
        }
        while (inpfile[i].phi < 0)      /* normalize phi direction */
                inpfile[i].phi += 360.;
        return(1);
}

/* Load a set of measurements corresponding to a particular incident angle */
static int
add_pabopto_inp(const int i)
{
        FILE    *fp = fopen(inpfile[i].fname, "r");
        double  theta_out, phi_out, val;
        int     n, c;
        
        if (fp == NULL || fseek(fp, inpfile[i].dstart, 0) == EOF) {
                fputs(inpfile[i].fname, stderr);
                fputs(": cannot open\n", stderr);
                return(0);
        }
                                        /* prepare input grid */
        angle_eps = 180./2./GRIDRES;
        if (!i || cmp_inang(&inpfile[i-1], &inpfile[i])) {
                if (i)                  /* need to process previous incidence */
                        make_rbfrep();
#ifdef DEBUG
                fprintf(stderr, "New incident (theta,phi)=(%f,%f)\n",
                                        inpfile[i].theta, inpfile[i].phi);
#endif
                new_bsdf_data(inpfile[i].theta, inpfile[i].phi);
        }
#ifdef DEBUG
        fprintf(stderr, "Loading measurements from '%s'...\n", inpfile[i].fname);
#endif
                                        /* read scattering data */
        while (fscanf(fp, "%lf %lf %lf\n", &theta_out, &phi_out, &val) == 3)
                add_bsdf_data(theta_out, phi_out, val, inpfile[i].isDSF);
        n = 0;
        while ((c = getc(fp)) != EOF)
                n += !isspace(c);
        if (n) 
                fprintf(stderr,
                        "%s: warning: %d unexpected characters past EOD\n",
                                inpfile[i].fname, n);
        fclose(fp);
        return(1);
}

#ifndef TEST_MAIN
/* Read in PAB-Opto BSDF files and output RBF interpolant */
int
main(int argc, char *argv[])
{
        extern int      nprocs;
        int             i;
                                                /* start header */
        SET_FILE_BINARY(stdout);
        newheader("RADIANCE", stdout);
        printargs(argc, argv, stdout);
        fputnow(stdout);
        progname = argv[0];                     /* get options */
        while (argc > 2 && argv[1][0] == '-') {
                switch (argv[1][1]) {
                case 'n':
                        nprocs = atoi(argv[2]);
                        break;
                default:
                        goto userr;
                }
                argv += 2; argc -= 2;
        }
                                                /* initialize & sort inputs */
        ninpfiles = argc - 1;
        if (ninpfiles < 2)
                goto userr;
        inpfile = (PGINPUT *)malloc(sizeof(PGINPUT)*ninpfiles);
        if (inpfile == NULL)
                return(1);
        for (i = 0; i < ninpfiles; i++)
                if (!init_pabopto_inp(i, argv[i+1]))
                        return(1);
        angle_eps = 0;
        qsort(inpfile, ninpfiles, sizeof(PGINPUT), &cmp_inang);
                                                /* compile measurements */
        for (i = 0; i < ninpfiles; i++)
                if (!add_pabopto_inp(i))
                        return(1);
        make_rbfrep();                          /* process last data set */
        build_mesh();                           /* create interpolation */
        save_bsdf_rep(stdout);                  /* write it out */
        return(0);
userr:
        fprintf(stderr, "Usage: %s [-n nproc] meas1.dat meas2.dat .. > bsdf.sir\n",
                                        progname);
        return(1);
}
#else
/* Test main produces a Radiance model from the given input file */
int
main(int argc, char *argv[])
{
        PGINPUT pginp;
        char    buf[128];
        FILE    *pfp;
        double  bsdf, min_log;
        FVECT   dir;
        int     i, j, n;

        if (argc != 2) {
                fprintf(stderr, "Usage: %s input.dat > output.rad\n", argv[0]);
                return(1);
        }
        ninpfiles = 1;
        inpfile = &pginp;
        if (!init_pabopto_inp(0, argv[1]) || !add_pabopto_inp(0))
                return(1);
                                                /* reduce data set */
        make_rbfrep();
#ifdef DEBUG
        fprintf(stderr, "Minimum BSDF = %.4f\n", bsdf_min);
#endif
        min_log = log(bsdf_min*.5 + 1e-5);
#if 1                                           /* produce spheres at meas. */
        puts("void plastic yellow\n0\n0\n5 .6 .4 .01 .04 .08\n");
        n = 0;
        for (i = 0; i < GRIDRES; i++)
            for (j = 0; j < GRIDRES; j++)
                if (dsf_grid[i][j].sum.n > 0) {
                        ovec_from_pos(dir, i, j);
                        bsdf = dsf_grid[i][j].sum.v /
                                (dsf_grid[i][j].sum.n*output_orient*dir[2]);
                        if (bsdf <= bsdf_min*.6)
                                continue;
                        bsdf = log(bsdf + 1e-5) - min_log;
                        ovec_from_pos(dir, i, j);
                        printf("yellow sphere s%04d\n0\n0\n", ++n);
                        printf("4 %.6g %.6g %.6g %.6g\n\n",
                                        dir[0]*bsdf, dir[1]*bsdf, dir[2]*bsdf,
                                        .007*bsdf);
                }
#endif
#if 1                                           /* spheres at RBF peaks */
        puts("void plastic red\n0\n0\n5 .8 .01 .01 .04 .08\n");
        for (n = 0; n < dsf_list->nrbf; n++) {
                RBFVAL  *rbf = &dsf_list->rbfa[n];
                ovec_from_pos(dir, rbf->gx, rbf->gy);
                bsdf = eval_rbfrep(dsf_list, dir) / (output_orient*dir[2]);
                bsdf = log(bsdf + 1e-5) - min_log;
                printf("red sphere p%04d\n0\n0\n", ++n);
                printf("4 %.6g %.6g %.6g %.6g\n\n",
                                dir[0]*bsdf, dir[1]*bsdf, dir[2]*bsdf,
                                .011*bsdf);
        }
#endif
#if 1                                           /* output continuous surface */
        puts("void trans tgreen\n0\n0\n7 .7 1 .7 .04 .04 .9 1\n");
        fflush(stdout);
        sprintf(buf, "gensurf tgreen bsdf - - - %d %d", GRIDRES-1, GRIDRES-1);
        pfp = popen(buf, "w");
        if (pfp == NULL) {
                fprintf(stderr, "%s: cannot open '| %s'\n", argv[0], buf);
                return(1);
        }
        for (i = 0; i < GRIDRES; i++)
            for (j = 0; j < GRIDRES; j++) {
                ovec_from_pos(dir, i, j);
                bsdf = eval_rbfrep(dsf_list, dir) / (output_orient*dir[2]);
                bsdf = log(bsdf + 1e-5) - min_log;
                fprintf(pfp, "%.8e %.8e %.8e\n",
                                dir[0]*bsdf, dir[1]*bsdf, dir[2]*bsdf);
            }
        if (pclose(pfp) != 0)
                return(1);
#endif
        return(0);
}
#endif
Revision:	2.18
Committed:	Wed Mar 19 00:19:11 2014 UTC (10 years, 1 month ago) by greg
Content type:	text/plain
Branch:	MAIN
Changes since 2.17:	+8 -6 lines
Log Message:	Rejiggered epsilon tests so as not to confuse qsort()
#	Content
1	#ifndef lint
2	static const char RCSid[] = "$Id: pabopto2bsdf.c,v 2.17 2014/03/18 19:08:24 greg Exp $";
3	#endif
4	/*
5	* Load measured BSDF data in PAB-Opto format.
6	*
7	* G. Ward
8	*/
9
10	#include <stdio.h>
11	#include <stdlib.h>
12	#include <string.h>
13	#include <ctype.h>
14	#include <math.h>
15	#include "platform.h"
16	#include "bsdfrep.h"
17	#include "resolu.h"
18	/* global argv[0] */
19	char *progname;
20
21	typedef struct {
22	const char fname; / input file path */
23	double theta, phi; /* incident angles (in degrees) */
24	int isDSF; /* data is DSF (rather than BSDF)? */
25	long dstart; /* data start offset in file */
26	} PGINPUT;
27
28	double angle_eps = 0; /* epsilon for angle comparisons */
29
30	PGINPUT inpfile; / input files sorted by incidence */
31	int ninpfiles; /* number of input files */
32
33	/* Compare incident angles */
34	static int
35	cmp_inang(const void p1, const void p2)
36	{
37	const PGINPUT inp1 = (const PGINPUT )p1;
38	const PGINPUT inp2 = (const PGINPUT )p2;
39
40	if (inp1->theta > inp2->theta+angle_eps)
41	return(1);
42	if (inp1->theta < inp2->theta-angle_eps)
43	return(-1);
44	if (inp1->phi > inp2->phi+angle_eps)
45	return(1);
46	if (inp1->phi < inp2->phi-angle_eps)
47	return(-1);
48	return(0);
49	}
50
51	/* Prepare a PAB-Opto input file by reading its header */
52	static int
53	init_pabopto_inp(const int i, const char *fname)
54	{
55	FILE *fp = fopen(fname, "r");
56	char buf[2048];
57	int c;
58
59	if (fp == NULL) {
60	fputs(fname, stderr);
61	fputs(": cannot open\n", stderr);
62	return(0);
63	}
64	inpfile[i].fname = fname;
65	inpfile[i].isDSF = -1;
66	inpfile[i].theta = inpfile[i].phi = -10001.;
67	/* read header information */
68	while ((c = getc(fp)) == '#' \|\| c == EOF) {
69	char typ[32];
70	if (fgets(buf, sizeof(buf), fp) == NULL) {
71	fputs(fname, stderr);
72	fputs(": unexpected EOF\n", stderr);
73	fclose(fp);
74	return(0);
75	}
76	if (sscanf(buf, "sample_name \"%[^\"]\"", bsdf_name) == 1)
77	continue;
78	if (sscanf(buf, "format: theta phi %s", typ) == 1) {
79	if (!strcasecmp(typ, "DSF")) {
80	inpfile[i].isDSF = 1;
81	continue;
82	}
83	if (!strcasecmp(typ, "BSDF")) {
84	inpfile[i].isDSF = 0;
85	continue;
86	}
87	}
88	if (sscanf(buf, "intheta %lf", &inpfile[i].theta) == 1)
89	continue;
90	if (sscanf(buf, "inphi %lf", &inpfile[i].phi) == 1)
91	continue;
92	if (sscanf(buf, "incident_angle %lf %lf",
93	&inpfile[i].theta, &inpfile[i].phi) == 2)
94	continue;
95	}
96	inpfile[i].dstart = ftell(fp) - 1;
97	fclose(fp);
98	if (inpfile[i].isDSF < 0) {
99	fputs(fname, stderr);
100	fputs(": unknown format\n", stderr);
101	return(0);
102	}
103	if ((inpfile[i].theta < -10000.) \| (inpfile[i].phi < -10000.)) {
104	fputs(fname, stderr);
105	fputs(": unknown incident angle\n", stderr);
106	return(0);
107	}
108	while (inpfile[i].phi < 0) /* normalize phi direction */
109	inpfile[i].phi += 360.;
110	return(1);
111	}
112
113	/* Load a set of measurements corresponding to a particular incident angle */
114	static int
115	add_pabopto_inp(const int i)
116	{
117	FILE *fp = fopen(inpfile[i].fname, "r");
118	double theta_out, phi_out, val;
119	int n, c;
120
121	if (fp == NULL \|\| fseek(fp, inpfile[i].dstart, 0) == EOF) {
122	fputs(inpfile[i].fname, stderr);
123	fputs(": cannot open\n", stderr);
124	return(0);
125	}
126	/* prepare input grid */
127	angle_eps = 180./2./GRIDRES;
128	if (!i \|\| cmp_inang(&inpfile[i-1], &inpfile[i])) {
129	if (i) /* need to process previous incidence */
130	make_rbfrep();
131	#ifdef DEBUG
132	fprintf(stderr, "New incident (theta,phi)=(%f,%f)\n",
133	inpfile[i].theta, inpfile[i].phi);
134	#endif
135	new_bsdf_data(inpfile[i].theta, inpfile[i].phi);
136	}
137	#ifdef DEBUG
138	fprintf(stderr, "Loading measurements from '%s'...\n", inpfile[i].fname);
139	#endif
140	/* read scattering data */
141	while (fscanf(fp, "%lf %lf %lf\n", &theta_out, &phi_out, &val) == 3)
142	add_bsdf_data(theta_out, phi_out, val, inpfile[i].isDSF);
143	n = 0;
144	while ((c = getc(fp)) != EOF)
145	n += !isspace(c);
146	if (n)
147	fprintf(stderr,
148	"%s: warning: %d unexpected characters past EOD\n",
149	inpfile[i].fname, n);
150	fclose(fp);
151	return(1);
152	}
153
154	#ifndef TEST_MAIN
155	/* Read in PAB-Opto BSDF files and output RBF interpolant */
156	int
157	main(int argc, char *argv[])
158	{
159	extern int nprocs;
160	int i;
161	/* start header */
162	SET_FILE_BINARY(stdout);
163	newheader("RADIANCE", stdout);
164	printargs(argc, argv, stdout);
165	fputnow(stdout);
166	progname = argv[0]; /* get options */
167	while (argc > 2 && argv[1][0] == '-') {
168	switch (argv[1][1]) {
169	case 'n':
170	nprocs = atoi(argv[2]);
171	break;
172	default:
173	goto userr;
174	}
175	argv += 2; argc -= 2;
176	}
177	/* initialize & sort inputs */
178	ninpfiles = argc - 1;
179	if (ninpfiles < 2)
180	goto userr;
181	inpfile = (PGINPUT )malloc(sizeof(PGINPUT)ninpfiles);
182	if (inpfile == NULL)
183	return(1);
184	for (i = 0; i < ninpfiles; i++)
185	if (!init_pabopto_inp(i, argv[i+1]))
186	return(1);
187	angle_eps = 0;
188	qsort(inpfile, ninpfiles, sizeof(PGINPUT), &cmp_inang);
189	/* compile measurements */
190	for (i = 0; i < ninpfiles; i++)
191	if (!add_pabopto_inp(i))
192	return(1);
193	make_rbfrep(); /* process last data set */
194	build_mesh(); /* create interpolation */
195	save_bsdf_rep(stdout); /* write it out */
196	return(0);
197	userr:
198	fprintf(stderr, "Usage: %s [-n nproc] meas1.dat meas2.dat .. > bsdf.sir\n",
199	progname);
200	return(1);
201	}
202	#else
203	/* Test main produces a Radiance model from the given input file */
204	int
205	main(int argc, char *argv[])
206	{
207	PGINPUT pginp;
208	char buf[128];
209	FILE *pfp;
210	double bsdf, min_log;
211	FVECT dir;
212	int i, j, n;
213
214	if (argc != 2) {
215	fprintf(stderr, "Usage: %s input.dat > output.rad\n", argv[0]);
216	return(1);
217	}
218	ninpfiles = 1;
219	inpfile = &pginp;
220	if (!init_pabopto_inp(0, argv[1]) \|\| !add_pabopto_inp(0))
221	return(1);
222	/* reduce data set */
223	make_rbfrep();
224	#ifdef DEBUG
225	fprintf(stderr, "Minimum BSDF = %.4f\n", bsdf_min);
226	#endif
227	min_log = log(bsdf_min*.5 + 1e-5);
228	#if 1 /* produce spheres at meas. */
229	puts("void plastic yellow\n0\n0\n5 .6 .4 .01 .04 .08\n");
230	n = 0;
231	for (i = 0; i < GRIDRES; i++)
232	for (j = 0; j < GRIDRES; j++)
233	if (dsf_grid[i][j].sum.n > 0) {
234	ovec_from_pos(dir, i, j);
235	bsdf = dsf_grid[i][j].sum.v /
236	(dsf_grid[i][j].sum.noutput_orientdir[2]);
237	if (bsdf <= bsdf_min*.6)
238	continue;
239	bsdf = log(bsdf + 1e-5) - min_log;
240	ovec_from_pos(dir, i, j);
241	printf("yellow sphere s%04d\n0\n0\n", ++n);
242	printf("4 %.6g %.6g %.6g %.6g\n\n",
243	dir[0]bsdf, dir[1]bsdf, dir[2]*bsdf,
244	.007*bsdf);
245	}
246	#endif
247	#if 1 /* spheres at RBF peaks */
248	puts("void plastic red\n0\n0\n5 .8 .01 .01 .04 .08\n");
249	for (n = 0; n < dsf_list->nrbf; n++) {
250	RBFVAL *rbf = &dsf_list->rbfa[n];
251	ovec_from_pos(dir, rbf->gx, rbf->gy);
252	bsdf = eval_rbfrep(dsf_list, dir) / (output_orient*dir[2]);
253	bsdf = log(bsdf + 1e-5) - min_log;
254	printf("red sphere p%04d\n0\n0\n", ++n);
255	printf("4 %.6g %.6g %.6g %.6g\n\n",
256	dir[0]bsdf, dir[1]bsdf, dir[2]*bsdf,
257	.011*bsdf);
258	}
259	#endif
260	#if 1 /* output continuous surface */
261	puts("void trans tgreen\n0\n0\n7 .7 1 .7 .04 .04 .9 1\n");
262	fflush(stdout);
263	sprintf(buf, "gensurf tgreen bsdf - - - %d %d", GRIDRES-1, GRIDRES-1);
264	pfp = popen(buf, "w");
265	if (pfp == NULL) {
266	fprintf(stderr, "%s: cannot open '\| %s'\n", argv[0], buf);
267	return(1);
268	}
269	for (i = 0; i < GRIDRES; i++)
270	for (j = 0; j < GRIDRES; j++) {
271	ovec_from_pos(dir, i, j);
272	bsdf = eval_rbfrep(dsf_list, dir) / (output_orient*dir[2]);
273	bsdf = log(bsdf + 1e-5) - min_log;
274	fprintf(pfp, "%.8e %.8e %.8e\n",
275	dir[0]bsdf, dir[1]bsdf, dir[2]*bsdf);
276	}
277	if (pclose(pfp) != 0)
278	return(1);
279	#endif
280	return(0);
281	}
282	#endif