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root/radiance/ray/src/util/rfluxmtx.c
Revision: 2.12
Committed: Mon Jul 28 16:30:18 2014 UTC (9 years, 8 months ago) by greg
Content type: text/plain
Branch: MAIN
CVS Tags: rad4R2
Changes since 2.11: +2 -1 lines
Log Message: 
Added inclusion of rtprocess.h

File Contents

# Content
1 #ifndef lint
2 static const char RCSid[] = "$Id: rfluxmtx.c,v 2.11 2014/07/25 19:23:14 greg Exp $";
3 #endif
4 /*
5 * Calculate flux transfer matrix or matrices using rcontrib
6 */
7
8 #include "copyright.h"
9
10 #include <ctype.h>
11 #include <stdlib.h>
12 #include "rtio.h"
13 #include "rtmath.h"
14 #include "rtprocess.h"
15 #include "bsdf.h"
16 #include "bsdf_m.h"
17 #include "random.h"
18 #include "triangulate.h"
19 #include "platform.h"
20
21 #ifdef getc_unlocked /* avoid horrendous overhead of flockfile */
22 #undef getc
23 #define getc getc_unlocked
24 #endif
25
26 #ifdef _WIN32
27 #define SPECIALS " \t\"$*?"
28 #define QUOTCHAR '"'
29 #else
30 #define SPECIALS " \t\n'\"()${}*?[];|&"
31 #define QUOTCHAR '\''
32 #define ALTQUOT '"'
33 #endif
34
35 #define MAXRCARG 512
36
37 char *progname; /* global argv[0] */
38
39 int verbose = 0; /* verbose mode? */
40
41 char *rcarg[MAXRCARG+1] = {"rcontrib", "-fo+"};
42 int nrcargs = 2;
43
44 const char overflowerr[] = "%s: too many arguments!\n";
45
46 #define CHECKARGC(n) if (nrcargs >= MAXRCARG-(n)) \
47 { fprintf(stderr, overflowerr, progname); exit(1); }
48
49 int sampcnt = 0; /* sample count (0==unset) */
50
51 char *reinhfn = "reinhartb.cal";
52 char *shirchiufn = "disk2square.cal";
53 char *kfullfn = "klems_full.cal";
54 char *khalffn = "klems_half.cal";
55 char *kquarterfn = "klems_quarter.cal";
56
57 /* string indicating parameters */
58 const char PARAMSTART[] = "@rfluxmtx";
59
60 /* surface type IDs */
61 #define ST_NONE 0
62 #define ST_POLY 1
63 #define ST_RING 2
64 #define ST_SOURCE 3
65
66 typedef struct surf_s {
67 struct surf_s *next; /* next surface in list */
68 void *priv; /* private data (malloc'ed) */
69 char sname[32]; /* surface name */
70 FVECT snrm; /* surface normal */
71 double area; /* surface area / proj. solid angle */
72 short styp; /* surface type */
73 short nfargs; /* number of real arguments */
74 double farg[1]; /* real values (extends struct) */
75 } SURF; /* surface structure */
76
77 typedef struct {
78 FVECT uva[2]; /* tangent axes */
79 int ntris; /* number of triangles */
80 struct ptri {
81 float afrac; /* fraction of total area */
82 short vndx[3]; /* vertex indices */
83 } tri[1]; /* triangle array (extends struct) */
84 } POLYTRIS; /* triangulated polygon */
85
86 typedef struct param_s {
87 char hemis[32]; /* hemispherical sampling spec. */
88 int hsiz; /* hemisphere basis size */
89 int nsurfs; /* number of surfaces */
90 SURF *slist; /* list of surfaces */
91 FVECT vup; /* up vector (zero if unset) */
92 FVECT nrm; /* average normal direction */
93 FVECT udir, vdir; /* v-up tangent axes */
94 char *outfn; /* output file name (receiver) */
95 int (*sample_basis)(struct param_s *p, int, FILE *);
96 } PARAMS; /* sender/receiver parameters */
97
98 PARAMS curparams;
99 char curmod[128];
100 char newparams[1024];
101
102 typedef int SURFSAMP(FVECT, SURF *, double);
103
104 static SURFSAMP ssamp_bad, ssamp_poly, ssamp_ring;
105
106 SURFSAMP *orig_in_surf[4] = {
107 ssamp_bad, ssamp_poly, ssamp_ring, ssamp_bad
108 };
109
110 /* Clear parameter set */
111 static void
112 clear_params(PARAMS *p, int reset_only)
113 {
114 while (p->slist != NULL) {
115 SURF *sdel = p->slist;
116 p->slist = sdel->next;
117 if (sdel->priv != NULL)
118 free(sdel->priv);
119 free(sdel);
120 }
121 if (reset_only) {
122 p->nsurfs = 0;
123 memset(p->nrm, 0, sizeof(FVECT));
124 memset(p->vup, 0, sizeof(FVECT));
125 p->outfn = NULL;
126 return;
127 }
128 memset(p, 0, sizeof(PARAMS));
129 }
130
131 /* Get surface type from name */
132 static int
133 surf_type(const char *otype)
134 {
135 if (!strcmp(otype, "polygon"))
136 return(ST_POLY);
137 if (!strcmp(otype, "ring"))
138 return(ST_RING);
139 if (!strcmp(otype, "source"))
140 return(ST_SOURCE);
141 return(ST_NONE);
142 }
143
144 /* Add arguments to oconv command */
145 static char *
146 oconv_command(int ac, char *av[])
147 {
148 static char oconvbuf[2048] = "!oconv -f";
149 char *cp = oconvbuf + 9;
150
151 while (ac-- > 0) {
152 if (cp >= oconvbuf+(sizeof(oconvbuf)-32)) {
153 fputs(progname, stderr);
154 fputs(": too many file arguments!\n", stderr);
155 exit(1);
156 }
157 *cp++ = ' ';
158 strcpy(cp, *av++);
159 while (*cp) cp++;
160 }
161 *cp = '\0';
162 return(oconvbuf);
163 }
164
165 /* Check if any of the characters in str2 are found in str1 */
166 static int
167 matchany(const char *str1, const char *str2)
168 {
169 while (*str1) {
170 const char *cp = str2;
171 while (*cp)
172 if (*cp++ == *str1)
173 return(*str1);
174 ++str1;
175 }
176 return(0);
177 }
178
179
180 /* Convert a set of arguments into a command line for pipe() or system() */
181 static char *
182 convert_commandline(char *cmd, const int len, char *av[])
183 {
184 int match;
185 char *cp;
186
187 for (cp = cmd; *av != NULL; av++) {
188 const int n = strlen(*av);
189 if (cp+n >= cmd+(len-3)) {
190 fputs(progname, stderr);
191 return(NULL);
192 }
193 if ((match = matchany(*av, SPECIALS))) {
194 const int quote =
195 #ifdef ALTQUOT
196 (match == QUOTCHAR) ? ALTQUOT :
197 #endif
198 QUOTCHAR;
199 *cp++ = quote;
200 strcpy(cp, *av);
201 cp += n;
202 *cp++ = quote;
203 } else {
204 strcpy(cp, *av);
205 cp += n;
206 }
207 *cp++ = ' ';
208 }
209 if (cp <= cmd)
210 return(NULL);
211 *--cp = '\0';
212 return(cmd);
213 }
214
215 /* Open a pipe to/from a command given as an argument list */
216 static FILE *
217 popen_arglist(char *av[], char *mode)
218 {
219 char cmd[10240];
220
221 if (!convert_commandline(cmd, sizeof(cmd), av)) {
222 fputs(progname, stderr);
223 fputs(": command line too long in popen_arglist()\n", stderr);
224 return(NULL);
225 }
226 if (verbose)
227 fprintf(stderr, "%s: opening pipe %s: %s\n",
228 progname, (*mode=='w') ? "to" : "from", cmd);
229 return(popen(cmd, mode));
230 }
231
232 #ifdef _WIN32
233 /* Execute system command (Windows version) */
234 static int
235 my_exec(char *av[])
236 {
237 char cmd[10240];
238
239 if (!convert_commandline(cmd, sizeof(cmd), av)) {
240 fputs(progname, stderr);
241 fputs(": command line too long in my_exec()\n", stderr);
242 return(1);
243 }
244 if (verbose)
245 fprintf(stderr, "%s: running: %s\n", progname, cmd);
246 return(system(cmd));
247 }
248 #else
249 /* Execute system command in our stead (Unix version) */
250 static int
251 my_exec(char *av[])
252 {
253 char *compath;
254
255 if ((compath = getpath((char *)av[0], getenv("PATH"), X_OK)) == NULL) {
256 fprintf(stderr, "%s: cannot locate %s\n", progname, av[0]);
257 return(1);
258 }
259 if (verbose) {
260 char cmd[4096];
261 if (!convert_commandline(cmd, sizeof(cmd), av))
262 strcpy(cmd, "COMMAND TOO LONG TO SHOW");
263 fprintf(stderr, "%s: running: %s\n", progname, cmd);
264 }
265 execv(compath, av); /* successful call never returns */
266 perror(compath);
267 return(1);
268 }
269 #endif
270
271 /* Get normalized direction vector from string specification */
272 static int
273 get_direction(FVECT dv, const char *s)
274 {
275 int sign = 1;
276 int axis = 0;
277
278 memset(dv, 0, sizeof(FVECT));
279 nextchar:
280 switch (*s) {
281 case '+':
282 ++s;
283 goto nextchar;
284 case '-':
285 sign = -sign;
286 ++s;
287 goto nextchar;
288 case 'z':
289 case 'Z':
290 ++axis;
291 case 'y':
292 case 'Y':
293 ++axis;
294 case 'x':
295 case 'X':
296 dv[axis] = sign;
297 return(!s[1] | isspace(s[1]));
298 default:
299 break;
300 }
301 #ifdef SMLFLT
302 if (sscanf(s, "%f,%f,%f", &dv[0], &dv[1], &dv[2]) != 3)
303 #else
304 if (sscanf(s, "%lf,%lf,%lf", &dv[0], &dv[1], &dv[2]) != 3)
305 #endif
306 return(0);
307 dv[0] *= (RREAL)sign;
308 return(normalize(dv) > 0);
309 }
310
311 /* Parse program parameters (directives) */
312 static int
313 parse_params(PARAMS *p, char *pargs)
314 {
315 char *cp = pargs;
316 int nparams = 0;
317 int i;
318
319 for ( ; ; )
320 switch (*cp++) {
321 case 'h':
322 if (*cp++ != '=')
323 break;
324 p->hsiz = 0;
325 i = 0;
326 while (*cp && !isspace(*cp)) {
327 if (isdigit(*cp))
328 p->hsiz = 10*p->hsiz + *cp - '0';
329 p->hemis[i++] = *cp++;
330 }
331 if (!i)
332 break;
333 p->hemis[i] = '\0';
334 p->hsiz += !p->hsiz;
335 ++nparams;
336 continue;
337 case 'u':
338 if (*cp++ != '=')
339 break;
340 if (!get_direction(p->vup, cp))
341 break;
342 ++nparams;
343 continue;
344 case 'o':
345 if (*cp++ != '=')
346 break;
347 i = 0;
348 while (*cp && !isspace(*cp++))
349 i++;
350 if (!i)
351 break;
352 *--cp = '\0';
353 p->outfn = savqstr(cp-i);
354 *cp++ = ' ';
355 ++nparams;
356 continue;
357 case ' ':
358 case '\t':
359 case '\r':
360 case '\n':
361 continue;
362 case '\0':
363 return(nparams);
364 default:
365 break;
366 }
367 fprintf(stderr, "%s: bad parameter string '%s'\n", progname, pargs);
368 exit(1);
369 return(-1); /* pro forma return */
370 }
371
372 /* Add receiver arguments (directives) corresponding to the current modifier */
373 static void
374 finish_receiver(void)
375 {
376 char sbuf[256];
377 int uniform = 0;
378 char *calfn = NULL;
379 char *params = NULL;
380 char *binv = NULL;
381 char *binf = NULL;
382 char *nbins = NULL;
383
384 if (!curmod[0]) {
385 fputs(progname, stderr);
386 fputs(": missing receiver surface!\n", stderr);
387 exit(1);
388 }
389 if (curparams.outfn != NULL) { /* add output file spec. */
390 CHECKARGC(2);
391 rcarg[nrcargs++] = "-o";
392 rcarg[nrcargs++] = curparams.outfn;
393 }
394 /* check arguments */
395 if (!curparams.hemis[0]) {
396 fputs(progname, stderr);
397 fputs(": missing hemisphere sampling type!\n", stderr);
398 exit(1);
399 }
400 if (normalize(curparams.nrm) == 0) {
401 fputs(progname, stderr);
402 fputs(": undefined normal for hemisphere sampling\n", stderr);
403 exit(1);
404 }
405 if (normalize(curparams.vup) == 0) {
406 if (fabs(curparams.nrm[2]) < .7)
407 curparams.vup[2] = 1;
408 else
409 curparams.vup[1] = 1;
410 }
411 /* determine sample type/bin */
412 if (tolower(curparams.hemis[0]) == 'u' | curparams.hemis[0] == '1') {
413 binv = "0"; /* uniform sampling -- one bin */
414 uniform = 1;
415 } else if (tolower(curparams.hemis[0]) == 's' &&
416 tolower(curparams.hemis[1]) == 'c') {
417 /* assign parameters */
418 if (curparams.hsiz <= 1) {
419 fputs(progname, stderr);
420 fputs(": missing size for Shirley-Chiu sampling!\n", stderr);
421 exit(1);
422 }
423 calfn = shirchiufn; shirchiufn = NULL;
424 sprintf(sbuf, "SCdim=%d,rNx=%g,rNy=%g,rNz=%g,Ux=%g,Uy=%g,Uz=%g",
425 curparams.hsiz,
426 curparams.nrm[0], curparams.nrm[1], curparams.nrm[2],
427 curparams.vup[0], curparams.vup[1], curparams.vup[2]);
428 params = savqstr(sbuf);
429 binv = "scbin";
430 nbins = "SCdim*SCdim";
431 } else if ((tolower(curparams.hemis[0]) == 'r') |
432 (tolower(curparams.hemis[0]) == 't')) {
433 calfn = reinhfn; reinhfn = NULL;
434 sprintf(sbuf, "MF=%d,rNx=%g,rNy=%g,rNz=%g,Ux=%g,Uy=%g,Uz=%g",
435 curparams.hsiz,
436 curparams.nrm[0], curparams.nrm[1], curparams.nrm[2],
437 curparams.vup[0], curparams.vup[1], curparams.vup[2]);
438 params = savqstr(sbuf);
439 binv = "rbin";
440 nbins = "Nrbins";
441 } else if (tolower(curparams.hemis[0]) == 'k' &&
442 !curparams.hemis[1] |
443 (tolower(curparams.hemis[1]) == 'f') |
444 (curparams.hemis[1] == '1')) {
445 calfn = kfullfn; kfullfn = NULL;
446 binf = "kbin";
447 nbins = "Nkbins";
448 } else if (tolower(curparams.hemis[0]) == 'k' &&
449 (tolower(curparams.hemis[1]) == 'h') |
450 (curparams.hemis[1] == '2')) {
451 calfn = khalffn; khalffn = NULL;
452 binf = "khbin";
453 nbins = "Nkhbins";
454 } else if (tolower(curparams.hemis[0]) == 'k' &&
455 (tolower(curparams.hemis[1]) == 'q') |
456 (curparams.hemis[1] == '4')) {
457 calfn = kquarterfn; kquarterfn = NULL;
458 binf = "kqbin";
459 nbins = "Nkqbins";
460 } else {
461 fprintf(stderr, "%s: unrecognized hemisphere sampling: h=%s\n",
462 progname, curparams.hemis);
463 exit(1);
464 }
465 if (!uniform & (curparams.slist->styp == ST_SOURCE)) {
466 SURF *sp;
467 for (sp = curparams.slist; sp != NULL; sp = sp->next)
468 if (fabs(sp->area - PI) > 1e-3) {
469 fprintf(stderr, "%s: source '%s' must be 180-degrees\n",
470 progname, sp->sname);
471 exit(1);
472 }
473 }
474 if (calfn != NULL) { /* add cal file if needed */
475 CHECKARGC(2);
476 rcarg[nrcargs++] = "-f";
477 rcarg[nrcargs++] = calfn;
478 }
479 if (params != NULL) { /* parameters _after_ cal file */
480 CHECKARGC(2);
481 rcarg[nrcargs++] = "-p";
482 rcarg[nrcargs++] = params;
483 }
484 if (nbins != NULL) { /* add #bins if set */
485 CHECKARGC(2);
486 rcarg[nrcargs++] = "-bn";
487 rcarg[nrcargs++] = nbins;
488 }
489 if (binv != NULL) {
490 CHECKARGC(2); /* assign bin variable */
491 rcarg[nrcargs++] = "-b";
492 rcarg[nrcargs++] = binv;
493 } else if (binf != NULL) {
494 CHECKARGC(2); /* assign bin function */
495 rcarg[nrcargs++] = "-b";
496 sprintf(sbuf, "%s(%g,%g,%g,%g,%g,%g)", binf,
497 curparams.nrm[0], curparams.nrm[1], curparams.nrm[2],
498 curparams.vup[0], curparams.vup[1], curparams.vup[2]);
499 rcarg[nrcargs++] = savqstr(sbuf);
500 }
501 CHECKARGC(2); /* modifier argument goes last */
502 rcarg[nrcargs++] = "-m";
503 rcarg[nrcargs++] = savqstr(curmod);
504 }
505
506 /* Make randomly oriented tangent plane axes for given normal direction */
507 static void
508 make_axes(FVECT uva[2], const FVECT nrm)
509 {
510 int i;
511
512 uva[1][0] = 0.5 - frandom();
513 uva[1][1] = 0.5 - frandom();
514 uva[1][2] = 0.5 - frandom();
515 for (i = 3; i--; )
516 if ((-0.6 < nrm[i]) & (nrm[i] < 0.6))
517 break;
518 if (i < 0) {
519 fputs(progname, stderr);
520 fputs(": bad surface normal in make_axes!\n", stderr);
521 exit(1);
522 }
523 uva[1][i] = 1.0;
524 VCROSS(uva[0], uva[1], nrm);
525 normalize(uva[0]);
526 VCROSS(uva[1], nrm, uva[0]);
527 }
528
529 /* Illegal sender surfaces end up here */
530 static int
531 ssamp_bad(FVECT orig, SURF *sp, double x)
532 {
533 fprintf(stderr, "%s: illegal sender surface '%s'\n",
534 progname, sp->sname);
535 return(0);
536 }
537
538 /* Generate origin on ring surface from uniform random variable */
539 static int
540 ssamp_ring(FVECT orig, SURF *sp, double x)
541 {
542 FVECT *uva = (FVECT *)sp->priv;
543 double samp2[2];
544 double uv[2];
545 int i;
546
547 if (uva == NULL) { /* need tangent axes */
548 uva = (FVECT *)malloc(sizeof(FVECT)*2);
549 if (uva == NULL) {
550 fputs(progname, stderr);
551 fputs(": out of memory in ssamp_ring!\n", stderr);
552 return(0);
553 }
554 make_axes(uva, sp->snrm);
555 sp->priv = (void *)uva;
556 }
557 SDmultiSamp(samp2, 2, x);
558 samp2[0] = sqrt(samp2[0]*sp->area*(1./PI) + sp->farg[6]*sp->farg[6]);
559 samp2[1] *= 2.*PI;
560 uv[0] = samp2[0]*tcos(samp2[1]);
561 uv[1] = samp2[0]*tsin(samp2[1]);
562 for (i = 3; i--; )
563 orig[i] = sp->farg[i] + uv[0]*uva[0][i] + uv[1]*uva[1][i];
564 return(1);
565 }
566
567 /* Add triangle to polygon's list (call-back function) */
568 static int
569 add_triangle(const Vert2_list *tp, int a, int b, int c)
570 {
571 POLYTRIS *ptp = (POLYTRIS *)tp->p;
572 struct ptri *trip = ptp->tri + ptp->ntris++;
573
574 trip->vndx[0] = a;
575 trip->vndx[1] = b;
576 trip->vndx[2] = c;
577 return(1);
578 }
579
580 /* Generate origin on polygon surface from uniform random variable */
581 static int
582 ssamp_poly(FVECT orig, SURF *sp, double x)
583 {
584 POLYTRIS *ptp = (POLYTRIS *)sp->priv;
585 double samp2[2];
586 double *v0, *v1, *v2;
587 int i;
588
589 if (ptp == NULL) { /* need to triangulate */
590 ptp = (POLYTRIS *)malloc(sizeof(POLYTRIS) +
591 sizeof(struct ptri)*(sp->nfargs/3 - 3));
592 if (ptp == NULL)
593 goto memerr;
594 if (sp->nfargs == 3) { /* simple case */
595 ptp->ntris = 1;
596 ptp->tri[0].vndx[0] = 0;
597 ptp->tri[0].vndx[1] = 1;
598 ptp->tri[0].vndx[2] = 2;
599 ptp->tri[0].afrac = 1;
600 } else {
601 Vert2_list *v2l = polyAlloc(sp->nfargs/3);
602 if (v2l == NULL)
603 goto memerr;
604 make_axes(ptp->uva, sp->snrm);
605 for (i = v2l->nv; i--; ) {
606 v2l->v[i].mX = DOT(sp->farg+3*i, ptp->uva[0]);
607 v2l->v[i].mY = DOT(sp->farg+3*i, ptp->uva[1]);
608 }
609 ptp->ntris = 0;
610 v2l->p = (void *)ptp;
611 if (!polyTriangulate(v2l, add_triangle)) {
612 fprintf(stderr,
613 "%s: cannot triangulate polygon '%s'\n",
614 progname, sp->sname);
615 return(0);
616 }
617 for (i = ptp->ntris; i--; ) {
618 int a = ptp->tri[i].vndx[0];
619 int b = ptp->tri[i].vndx[1];
620 int c = ptp->tri[i].vndx[2];
621 ptp->tri[i].afrac =
622 (v2l->v[a].mX*v2l->v[b].mY -
623 v2l->v[b].mX*v2l->v[a].mY +
624 v2l->v[b].mX*v2l->v[c].mY -
625 v2l->v[c].mX*v2l->v[b].mY +
626 v2l->v[c].mX*v2l->v[a].mY -
627 v2l->v[a].mX*v2l->v[c].mY) /
628 (2.*sp->area);
629 }
630 polyFree(v2l);
631 }
632 sp->priv = (void *)ptp;
633 }
634 /* pick triangle by partial area */
635 for (i = 0; i < ptp->ntris && x > ptp->tri[i].afrac; i++)
636 x -= ptp->tri[i].afrac;
637 SDmultiSamp(samp2, 2, x/ptp->tri[i].afrac);
638 samp2[0] *= samp2[1] = sqrt(samp2[1]);
639 samp2[1] = 1. - samp2[1];
640 v0 = sp->farg + 3*ptp->tri[i].vndx[0];
641 v1 = sp->farg + 3*ptp->tri[i].vndx[1];
642 v2 = sp->farg + 3*ptp->tri[i].vndx[2];
643 for (i = 3; i--; )
644 orig[i] = v0[i] + samp2[0]*(v1[i] - v0[i])
645 + samp2[1]*(v2[i] - v0[i]) ;
646 return(1);
647 memerr:
648 fputs(progname, stderr);
649 fputs(": out of memory in ssamp_poly!\n", stderr);
650 return(0);
651 }
652
653 /* Compute sample origin based on projected areas of sender subsurfaces */
654 static int
655 sample_origin(PARAMS *p, FVECT orig, const FVECT rdir, double x)
656 {
657 static double *projsa;
658 static int nall;
659 double tarea = 0;
660 int i;
661 SURF *sp;
662 /* special case for lone surface */
663 if (p->nsurfs == 1) {
664 sp = p->slist;
665 if (DOT(sp->snrm, rdir) >= -FTINY) {
666 fprintf(stderr,
667 "%s: internal - sample behind sender '%s'\n",
668 progname, sp->sname);
669 return(0);
670 }
671 return((*orig_in_surf[sp->styp])(orig, sp, x));
672 }
673 if (p->nsurfs > nall) { /* (re)allocate surface area cache */
674 if (projsa) free(projsa);
675 projsa = (double *)malloc(sizeof(double)*p->nsurfs);
676 if (!projsa) return(0);
677 nall = p->nsurfs;
678 }
679 /* compute projected areas */
680 for (i = 0, sp = p->slist; sp != NULL; i++, sp = sp->next) {
681 projsa[i] = -DOT(sp->snrm, rdir) * sp->area;
682 tarea += projsa[i] *= (double)(projsa[i] > FTINY);
683 }
684 if (tarea <= FTINY) { /* wrong side of sender? */
685 fputs(progname, stderr);
686 fputs(": internal - sample behind all sender elements!\n",
687 stderr);
688 return(0);
689 }
690 tarea *= x; /* get surface from list */
691 for (i = 0, sp = p->slist; tarea > projsa[i]; sp = sp->next)
692 tarea -= projsa[i++];
693 return((*orig_in_surf[sp->styp])(orig, sp, tarea/projsa[i]));
694 }
695
696 /* Uniform sample generator */
697 static int
698 sample_uniform(PARAMS *p, int b, FILE *fp)
699 {
700 int n = sampcnt;
701 double samp3[3];
702 double duvw[3];
703 FVECT orig_dir[2];
704 int i;
705
706 if (fp == NULL) /* just requesting number of bins? */
707 return(1);
708
709 while (n--) { /* stratified hemisphere sampling */
710 SDmultiSamp(samp3, 3, (n+frandom())/sampcnt);
711 SDsquare2disk(duvw, samp3[1], samp3[2]);
712 duvw[2] = -sqrt(1. - duvw[0]*duvw[0] - duvw[1]*duvw[1]);
713 for (i = 3; i--; )
714 orig_dir[1][i] = duvw[0]*p->udir[i] +
715 duvw[1]*p->vdir[i] +
716 duvw[2]*p->nrm[i] ;
717 if (!sample_origin(p, orig_dir[0], orig_dir[1], samp3[0]))
718 return(0);
719 if (fwrite(orig_dir, sizeof(FVECT), 2, fp) != 2)
720 return(0);
721 }
722 return(1);
723 }
724
725 /* Shirly-Chiu sample generator */
726 static int
727 sample_shirchiu(PARAMS *p, int b, FILE *fp)
728 {
729 int n = sampcnt;
730 double samp3[3];
731 double duvw[3];
732 FVECT orig_dir[2];
733 int i;
734
735 if (fp == NULL) /* just requesting number of bins? */
736 return(p->hsiz*p->hsiz);
737
738 while (n--) { /* stratified sampling */
739 SDmultiSamp(samp3, 3, (n+frandom())/sampcnt);
740 SDsquare2disk(duvw, (b/p->hsiz + samp3[1])/curparams.hsiz,
741 (b%p->hsiz + samp3[2])/curparams.hsiz);
742 duvw[2] = sqrt(1. - duvw[0]*duvw[0] - duvw[1]*duvw[1]);
743 for (i = 3; i--; )
744 orig_dir[1][i] = -duvw[0]*p->udir[i] -
745 duvw[1]*p->vdir[i] -
746 duvw[2]*p->nrm[i] ;
747 if (!sample_origin(p, orig_dir[0], orig_dir[1], samp3[0]))
748 return(0);
749 if (fwrite(orig_dir, sizeof(FVECT), 2, fp) != 2)
750 return(0);
751 }
752 return(1);
753 }
754
755 /* Reinhart/Tregenza sample generator */
756 static int
757 sample_reinhart(PARAMS *p, int b, FILE *fp)
758 {
759 #define T_NALT 7
760 static const int tnaz[T_NALT] = {30, 30, 24, 24, 18, 12, 6};
761 const int RowMax = T_NALT*p->hsiz + 1;
762 const double RAH = (.5*PI)/(RowMax-.5);
763 #define rnaz(r) (r >= RowMax-1 ? 1 : p->hsiz*tnaz[r/p->hsiz])
764 int n = sampcnt;
765 int row, col;
766 double samp3[3];
767 double alt, azi;
768 double duvw[3];
769 FVECT orig_dir[2];
770 int i;
771
772 if (fp == NULL) { /* just requesting number of bins? */
773 n = 0;
774 for (row = RowMax; row--; ) n += rnaz(row);
775 return(n);
776 }
777 row = 0; /* identify row & column */
778 col = b;
779 while (col >= rnaz(row)) {
780 col -= rnaz(row);
781 ++row;
782 }
783 while (n--) { /* stratified sampling */
784 SDmultiSamp(samp3, 3, (n+frandom())/sampcnt);
785 alt = (row+samp3[1])*RAH;
786 azi = (2.*PI)*(col+samp3[2]-.5)/rnaz(row);
787 duvw[2] = cos(alt); /* measured from horizon */
788 duvw[0] = tcos(azi)*duvw[2];
789 duvw[1] = tsin(azi)*duvw[2];
790 duvw[2] = sqrt(1. - duvw[2]*duvw[2]);
791 for (i = 3; i--; )
792 orig_dir[1][i] = -duvw[0]*p->udir[i] -
793 duvw[1]*p->vdir[i] -
794 duvw[2]*p->nrm[i] ;
795 if (!sample_origin(p, orig_dir[0], orig_dir[1], samp3[0]))
796 return(0);
797 if (fwrite(orig_dir, sizeof(FVECT), 2, fp) != 2)
798 return(0);
799 }
800 return(1);
801 #undef rnaz
802 #undef T_NALT
803 }
804
805 /* Klems sample generator */
806 static int
807 sample_klems(PARAMS *p, int b, FILE *fp)
808 {
809 static const char bname[4][20] = {
810 "LBNL/Klems Full",
811 "LBNL/Klems Half",
812 "INTERNAL ERROR",
813 "LBNL/Klems Quarter"
814 };
815 static ANGLE_BASIS *kbasis[4];
816 const int bi = p->hemis[1] - '1';
817 int n = sampcnt;
818 double samp2[2];
819 double duvw[3];
820 FVECT orig_dir[2];
821 int i;
822
823 if (!kbasis[bi]) { /* need to get basis, first */
824 for (i = 4; i--; )
825 if (!strcasecmp(abase_list[i].name, bname[bi])) {
826 kbasis[bi] = &abase_list[i];
827 break;
828 }
829 if (i < 0) {
830 fprintf(stderr, "%s: unknown hemisphere basis '%s'\n",
831 progname, bname[bi]);
832 return(0);
833 }
834 }
835 if (fp == NULL) /* just requesting number of bins? */
836 return(kbasis[bi]->nangles);
837
838 while (n--) { /* stratified sampling */
839 SDmultiSamp(samp2, 2, (n+frandom())/sampcnt);
840 if (!bo_getvec(duvw, b+samp2[1], kbasis[bi]))
841 return(0);
842 for (i = 3; i--; )
843 orig_dir[1][i] = duvw[0]*p->udir[i] +
844 duvw[1]*p->vdir[i] +
845 duvw[2]*p->nrm[i] ;
846 if (!sample_origin(p, orig_dir[0], orig_dir[1], samp2[0]))
847 return(0);
848 if (fwrite(orig_dir, sizeof(FVECT), 2, fp) != 2)
849 return(0);
850 }
851 return(1);
852 }
853
854 /* Prepare hemisphere basis sampler that will send rays to rcontrib */
855 static int
856 prepare_sampler(void)
857 {
858 if (curparams.slist == NULL) { /* missing sample surface! */
859 fputs(progname, stderr);
860 fputs(": no sender surface!\n", stderr);
861 return(-1);
862 }
863 if (curparams.outfn != NULL) /* misplaced output file spec. */
864 fprintf(stderr, "%s: warning - ignoring output file in sender ('%s')\n",
865 progname, curparams.outfn);
866 /* check/set basis hemisphere */
867 if (!curparams.hemis[0]) {
868 fputs(progname, stderr);
869 fputs(": missing sender sampling type!\n", stderr);
870 return(-1);
871 }
872 if (normalize(curparams.nrm) == 0) {
873 fputs(progname, stderr);
874 fputs(": undefined normal for sender sampling\n", stderr);
875 return(-1);
876 }
877 if (normalize(curparams.vup) == 0) {
878 if (fabs(curparams.nrm[2]) < .7)
879 curparams.vup[2] = 1;
880 else
881 curparams.vup[1] = 1;
882 }
883 VCROSS(curparams.udir, curparams.vup, curparams.nrm);
884 if (normalize(curparams.udir) == 0) {
885 fputs(progname, stderr);
886 fputs(": up vector coincides with sender normal\n", stderr);
887 return(-1);
888 }
889 VCROSS(curparams.vdir, curparams.nrm, curparams.udir);
890 if (tolower(curparams.hemis[0]) == 'u' | curparams.hemis[0] == '1')
891 curparams.sample_basis = sample_uniform;
892 else if (tolower(curparams.hemis[0]) == 's' &&
893 tolower(curparams.hemis[1]) == 'c')
894 curparams.sample_basis = sample_shirchiu;
895 else if ((tolower(curparams.hemis[0]) == 'r') |
896 (tolower(curparams.hemis[0]) == 't'))
897 curparams.sample_basis = sample_reinhart;
898 else if (tolower(curparams.hemis[0]) == 'k') {
899 switch (curparams.hemis[1]) {
900 case '1':
901 case '2':
902 case '4':
903 break;
904 case 'f':
905 case 'F':
906 case '\0':
907 curparams.hemis[1] = '1';
908 break;
909 case 'h':
910 case 'H':
911 curparams.hemis[1] = '2';
912 break;
913 case 'q':
914 case 'Q':
915 curparams.hemis[1] = '4';
916 break;
917 default:
918 goto unrecognized;
919 }
920 curparams.hemis[2] = '\0';
921 curparams.sample_basis = sample_klems;
922 } else
923 goto unrecognized;
924 /* return number of bins */
925 return((*curparams.sample_basis)(&curparams,0,NULL));
926 unrecognized:
927 fprintf(stderr, "%s: unrecognized sender sampling: h=%s\n",
928 progname, curparams.hemis);
929 return(-1);
930 }
931
932 /* Compute normal and area for polygon */
933 static int
934 finish_polygon(SURF *p)
935 {
936 const int nv = p->nfargs / 3;
937 FVECT e1, e2, vc;
938 int i;
939
940 memset(p->snrm, 0, sizeof(FVECT));
941 VSUB(e1, p->farg+3, p->farg);
942 for (i = 2; i < nv; i++) {
943 VSUB(e2, p->farg+3*i, p->farg);
944 VCROSS(vc, e1, e2);
945 p->snrm[0] += vc[0];
946 p->snrm[1] += vc[1];
947 p->snrm[2] += vc[2];
948 VCOPY(e1, e2);
949 }
950 p->area = normalize(p->snrm)*0.5;
951 return(p->area > FTINY);
952 }
953
954 /* Add a surface to our current parameters */
955 static void
956 add_surface(int st, const char *oname, FILE *fp)
957 {
958 SURF *snew;
959 int n;
960 /* get floating-point arguments */
961 if (!fscanf(fp, "%d", &n)) return;
962 while (n-- > 0) fscanf(fp, "%*s");
963 if (!fscanf(fp, "%d", &n)) return;
964 while (n-- > 0) fscanf(fp, "%*d");
965 if (!fscanf(fp, "%d", &n) || n <= 0) return;
966 snew = (SURF *)malloc(sizeof(SURF) + sizeof(double)*(n-1));
967 if (snew == NULL) {
968 fputs(progname, stderr);
969 fputs(": out of memory!\n", stderr);
970 exit(1);
971 }
972 strncpy(snew->sname, oname, sizeof(snew->sname)-1);
973 snew->sname[sizeof(snew->sname)-1] = '\0';
974 snew->styp = st;
975 snew->priv = NULL;
976 snew->nfargs = n;
977 for (n = 0; n < snew->nfargs; n++)
978 if (fscanf(fp, "%lf", &snew->farg[n]) != 1) {
979 fprintf(stderr, "%s: error reading arguments for '%s'\n",
980 progname, oname);
981 exit(1);
982 }
983 switch (st) {
984 case ST_RING:
985 if (snew->nfargs != 8)
986 goto badcount;
987 VCOPY(snew->snrm, snew->farg+3);
988 if (normalize(snew->snrm) == 0)
989 goto badnorm;
990 if (snew->farg[7] < snew->farg[6]) {
991 double t = snew->farg[7];
992 snew->farg[7] = snew->farg[6];
993 snew->farg[6] = t;
994 }
995 snew->area = PI*(snew->farg[7]*snew->farg[7] -
996 snew->farg[6]*snew->farg[6]);
997 break;
998 case ST_POLY:
999 if (snew->nfargs < 9 || snew->nfargs % 3)
1000 goto badcount;
1001 finish_polygon(snew);
1002 break;
1003 case ST_SOURCE:
1004 if (snew->nfargs != 4)
1005 goto badcount;
1006 for (n = 3; n--; ) /* need to reverse "normal" */
1007 snew->snrm[n] = -snew->farg[n];
1008 if (normalize(snew->snrm) == 0)
1009 goto badnorm;
1010 snew->area = sin((PI/180./2.)*snew->farg[3]);
1011 snew->area *= PI*snew->area;
1012 break;
1013 }
1014 if (snew->area <= FTINY) {
1015 fprintf(stderr, "%s: warning - zero area for surface '%s'\n",
1016 progname, oname);
1017 free(snew);
1018 return;
1019 }
1020 VSUM(curparams.nrm, curparams.nrm, snew->snrm, snew->area);
1021 snew->next = curparams.slist;
1022 curparams.slist = snew;
1023 curparams.nsurfs++;
1024 return;
1025 badcount:
1026 fprintf(stderr, "%s: bad argument count for surface element '%s'\n",
1027 progname, oname);
1028 exit(1);
1029 badnorm:
1030 fprintf(stderr, "%s: bad orientation for surface element '%s'\n",
1031 progname, oname);
1032 exit(1);
1033 }
1034
1035 /* Parse a receiver object (look for modifiers to add to rcontrib command) */
1036 static int
1037 add_recv_object(FILE *fp)
1038 {
1039 int st;
1040 char thismod[128], otype[32], oname[128];
1041 int n;
1042
1043 if (fscanf(fp, "%s %s %s", thismod, otype, oname) != 3)
1044 return(0); /* must have hit EOF! */
1045 if (!strcmp(otype, "alias")) {
1046 fscanf(fp, "%*s"); /* skip alias */
1047 return(0);
1048 }
1049 /* is it a new receiver? */
1050 if ((st = surf_type(otype)) != ST_NONE) {
1051 if (curparams.slist != NULL && (st == ST_SOURCE) ^
1052 (curparams.slist->styp == ST_SOURCE)) {
1053 fputs(progname, stderr);
1054 fputs(": cannot mix source/non-source receivers!\n", stderr);
1055 return(-1);
1056 }
1057 if (strcmp(thismod, curmod)) {
1058 if (curmod[0]) { /* output last receiver? */
1059 finish_receiver();
1060 clear_params(&curparams, 1);
1061 }
1062 parse_params(&curparams, newparams);
1063 newparams[0] = '\0';
1064 strcpy(curmod, thismod);
1065 }
1066 add_surface(st, oname, fp); /* read & store surface */
1067 return(1);
1068 }
1069 /* else skip arguments */
1070 if (!fscanf(fp, "%d", &n)) return(0);
1071 while (n-- > 0) fscanf(fp, "%*s");
1072 if (!fscanf(fp, "%d", &n)) return(0);
1073 while (n-- > 0) fscanf(fp, "%*d");
1074 if (!fscanf(fp, "%d", &n)) return(0);
1075 while (n-- > 0) fscanf(fp, "%*f");
1076 return(0);
1077 }
1078
1079 /* Parse a sender object */
1080 static int
1081 add_send_object(FILE *fp)
1082 {
1083 int st;
1084 char otype[32], oname[128];
1085 int n;
1086
1087 if (fscanf(fp, "%*s %s %s", otype, oname) != 2)
1088 return(0); /* must have hit EOF! */
1089 if (!strcmp(otype, "alias")) {
1090 fscanf(fp, "%*s"); /* skip alias */
1091 return(0);
1092 }
1093 /* is it a new surface? */
1094 if ((st = surf_type(otype)) != ST_NONE) {
1095 if (st == ST_SOURCE) {
1096 fputs(progname, stderr);
1097 fputs(": cannot use source as a sender!\n", stderr);
1098 return(-1);
1099 }
1100 parse_params(&curparams, newparams);
1101 newparams[0] = '\0';
1102 add_surface(st, oname, fp); /* read & store surface */
1103 return(0);
1104 }
1105 /* else skip arguments */
1106 if (!fscanf(fp, "%d", &n)) return(0);
1107 while (n-- > 0) fscanf(fp, "%*s");
1108 if (!fscanf(fp, "%d", &n)) return(0);
1109 while (n-- > 0) fscanf(fp, "%*d");
1110 if (!fscanf(fp, "%d", &n)) return(0);
1111 while (n-- > 0) fscanf(fp, "%*f");
1112 return(0);
1113 }
1114
1115 /* Load a Radiance scene using the given callback function for objects */
1116 static int
1117 load_scene(const char *inspec, int (*ocb)(FILE *))
1118 {
1119 int rv = 0;
1120 char inpbuf[1024];
1121 FILE *fp;
1122 int c;
1123
1124 if (*inspec == '!')
1125 fp = popen(inspec+1, "r");
1126 else
1127 fp = fopen(inspec, "r");
1128 if (fp == NULL) {
1129 fprintf(stderr, "%s: cannot load '%s'\n", progname, inspec);
1130 return(-1);
1131 }
1132 while ((c = getc(fp)) != EOF) { /* load receiver data */
1133 if (isspace(c)) /* skip leading white space */
1134 continue;
1135 if (c == '!') { /* read from a new command */
1136 inpbuf[0] = c;
1137 if (fgetline(inpbuf+1, sizeof(inpbuf)-1, fp) != NULL) {
1138 if ((c = load_scene(inpbuf, ocb)) < 0)
1139 return(c);
1140 rv += c;
1141 }
1142 continue;
1143 }
1144 if (c == '#') { /* parameters/comment */
1145 if ((c = getc(fp)) == EOF || ungetc(c,fp) == EOF)
1146 break;
1147 if (!isspace(c) && fscanf(fp, "%s", inpbuf) == 1 &&
1148 !strcmp(inpbuf, PARAMSTART)) {
1149 if (fgets(inpbuf, sizeof(inpbuf), fp) != NULL)
1150 strcat(newparams, inpbuf);
1151 continue;
1152 }
1153 while ((c = getc(fp)) != EOF && c != '\n')
1154 ; /* else skipping comment */
1155 continue;
1156 }
1157 ungetc(c, fp); /* else check object for receiver */
1158 c = (*ocb)(fp);
1159 if (c < 0)
1160 return(c);
1161 rv += c;
1162 }
1163 /* close our input stream */
1164 c = (*inspec == '!') ? pclose(fp) : fclose(fp);
1165 if (c != 0) {
1166 fprintf(stderr, "%s: error loading '%s'\n", progname, inspec);
1167 return(-1);
1168 }
1169 return(rv);
1170 }
1171
1172 /* Get command arguments and run program */
1173 int
1174 main(int argc, char *argv[])
1175 {
1176 char fmtopt[6] = "-faa"; /* default output is ASCII */
1177 char *xrs=NULL, *yrs=NULL, *ldopt=NULL;
1178 char *iropt = NULL;
1179 char *sendfn;
1180 char sampcntbuf[32], nsbinbuf[32];
1181 FILE *rcfp;
1182 int nsbins;
1183 int a, i;
1184 /* screen rcontrib options */
1185 progname = argv[0];
1186 for (a = 1; a < argc-2 && argv[a][0] == '-'; a++) {
1187 int na = 1; /* !! Keep consistent !! */
1188 switch (argv[a][1]) {
1189 case 'v': /* verbose mode */
1190 verbose = !verbose;
1191 na = 0;
1192 continue;
1193 case 'f': /* special case for -fo, -ff, etc. */
1194 switch (argv[a][2]) {
1195 case '\0': /* cal file */
1196 goto userr;
1197 case 'o': /* force output */
1198 goto userr;
1199 case 'a': /* output format */
1200 case 'f':
1201 case 'd':
1202 case 'c':
1203 if (!(fmtopt[3] = argv[a][3]))
1204 fmtopt[3] = argv[a][2];
1205 fmtopt[2] = argv[a][2];
1206 na = 0;
1207 continue; /* will pass later */
1208 default:
1209 goto userr;
1210 }
1211 break;
1212 case 'x': /* x-resolution */
1213 xrs = argv[++a];
1214 na = 0;
1215 continue;
1216 case 'y': /* y-resolution */
1217 yrs = argv[++a];
1218 na = 0;
1219 continue;
1220 case 'c': /* number of samples */
1221 sampcnt = atoi(argv[++a]);
1222 if (sampcnt <= 0)
1223 goto userr;
1224 na = 0; /* we re-add this later */
1225 continue;
1226 case 'I': /* only for pass-through mode */
1227 case 'i':
1228 iropt = argv[a];
1229 na = 0;
1230 continue;
1231 case 'V': /* options without arguments */
1232 case 'w':
1233 case 'u':
1234 case 'h':
1235 case 'r':
1236 break;
1237 case 'n': /* options with 1 argument */
1238 case 's':
1239 case 'o':
1240 na = 2;
1241 break;
1242 case 'b': /* special case */
1243 if (argv[a][2] != 'v') goto userr;
1244 break;
1245 case 'l': /* special case */
1246 if (argv[a][2] == 'd') {
1247 ldopt = argv[a];
1248 na = 0;
1249 continue;
1250 }
1251 na = 2;
1252 break;
1253 case 'd': /* special case */
1254 if (argv[a][2] != 'v') na = 2;
1255 break;
1256 case 'a': /* special case */
1257 na = (argv[a][2] == 'v') ? 4 : 2;
1258 break;
1259 case 'm': /* special case */
1260 if (!argv[a][2]) goto userr;
1261 na = (argv[a][2] == 'e') | (argv[a][2] == 'a') ? 4 : 2;
1262 break;
1263 case '\0': /* pass-through mode */
1264 goto done_opts;
1265 default: /* anything else is verbotten */
1266 goto userr;
1267 }
1268 if (na <= 0) continue;
1269 CHECKARGC(na); /* pass on option */
1270 rcarg[nrcargs++] = argv[a];
1271 while (--na) /* + arguments if any */
1272 rcarg[nrcargs++] = argv[++a];
1273 }
1274 done_opts:
1275 if (a > argc-2)
1276 goto userr; /* check at end of options */
1277 sendfn = argv[a++]; /* assign sender & receiver inputs */
1278 if (sendfn[0] == '-') { /* user wants pass-through mode? */
1279 if (sendfn[1]) goto userr;
1280 sendfn = NULL;
1281 if (iropt) {
1282 CHECKARGC(1);
1283 rcarg[nrcargs++] = iropt;
1284 }
1285 if (xrs) {
1286 CHECKARGC(2);
1287 rcarg[nrcargs++] = "-x";
1288 rcarg[nrcargs++] = xrs;
1289 }
1290 if (yrs) {
1291 CHECKARGC(2);
1292 rcarg[nrcargs++] = "-y";
1293 rcarg[nrcargs++] = yrs;
1294 }
1295 if (ldopt) {
1296 CHECKARGC(1);
1297 rcarg[nrcargs++] = ldopt;
1298 }
1299 if (sampcnt <= 0) sampcnt = 1;
1300 } else { /* else in sampling mode */
1301 if (iropt) {
1302 fputs(progname, stderr);
1303 fputs(": -i, -I supported for pass-through only\n", stderr);
1304 return(1);
1305 }
1306 fmtopt[2] = (sizeof(RREAL)==sizeof(double)) ? 'd' : 'f';
1307 if (sampcnt <= 0) sampcnt = 10000;
1308 }
1309 sprintf(sampcntbuf, "%d", sampcnt);
1310 CHECKARGC(3); /* add our format & sample count */
1311 rcarg[nrcargs++] = fmtopt;
1312 rcarg[nrcargs++] = "-c";
1313 rcarg[nrcargs++] = sampcntbuf;
1314 /* add receiver arguments to rcontrib */
1315 if (load_scene(argv[a], add_recv_object) < 0)
1316 return(1);
1317 finish_receiver();
1318 if (sendfn == NULL) { /* pass-through mode? */
1319 CHECKARGC(1); /* add octree */
1320 rcarg[nrcargs++] = oconv_command(argc-a, argv+a);
1321 rcarg[nrcargs] = NULL;
1322 return(my_exec(rcarg)); /* rcontrib does everything */
1323 }
1324 clear_params(&curparams, 0); /* else load sender surface & params */
1325 if (load_scene(sendfn, add_send_object) < 0)
1326 return(1);
1327 if ((nsbins = prepare_sampler()) <= 0)
1328 return(1);
1329 CHECKARGC(3); /* add row count and octree */
1330 rcarg[nrcargs++] = "-y";
1331 sprintf(nsbinbuf, "%d", nsbins);
1332 rcarg[nrcargs++] = nsbinbuf;
1333 rcarg[nrcargs++] = oconv_command(argc-a, argv+a);
1334 rcarg[nrcargs] = NULL;
1335 /* open pipe to rcontrib process */
1336 if ((rcfp = popen_arglist(rcarg, "w")) == NULL)
1337 return(1);
1338 SET_FILE_BINARY(rcfp);
1339 #ifdef getc_unlocked
1340 flockfile(rcfp);
1341 #endif
1342 if (verbose) {
1343 fprintf(stderr, "%s: sampling %d directions", progname, nsbins);
1344 if (curparams.nsurfs > 1)
1345 fprintf(stderr, " (%d elements)\n", curparams.nsurfs);
1346 else
1347 fputc('\n', stderr);
1348 }
1349 for (i = 0; i < nsbins; i++) /* send rcontrib ray samples */
1350 if (!(*curparams.sample_basis)(&curparams, i, rcfp))
1351 return(1);
1352 return(pclose(rcfp) == 0); /* all finished! */
1353 userr:
1354 if (a < argc-2)
1355 fprintf(stderr, "%s: unsupported option '%s'", progname, argv[a]);
1356 fprintf(stderr, "Usage: %s [-v][rcontrib options] sender.rad receiver.rad [system.rad ..]\n",
1357 progname);
1358 return(1);
1359 }