1 |
#ifndef lint |
2 |
static const char RCSid[] = "$Id: rad2mgf.c,v 2.20 2003/10/22 02:06:34 greg Exp $"; |
3 |
#endif |
4 |
/* |
5 |
* Convert Radiance scene description to MGF |
6 |
*/ |
7 |
|
8 |
#include "platform.h" |
9 |
#include "standard.h" |
10 |
#include <ctype.h> |
11 |
#include <string.h> |
12 |
#include <stdio.h> |
13 |
|
14 |
#include "rtprocess.h" |
15 |
#include "object.h" |
16 |
#include "color.h" |
17 |
#include "lookup.h" |
18 |
|
19 |
#define C_1SIDEDTHICK 0.005 |
20 |
|
21 |
int o_face(), o_cone(), o_sphere(), o_ring(), o_cylinder(); |
22 |
int o_instance(), o_illum(); |
23 |
int o_plastic(), o_metal(), o_glass(), o_dielectric(), |
24 |
o_mirror(), o_trans(), o_light(); |
25 |
|
26 |
LUTAB rmats = LU_SINIT(free,NULL); /* defined material table */ |
27 |
|
28 |
LUTAB rdispatch = LU_SINIT(NULL,NULL); /* function dispatch table */ |
29 |
|
30 |
char curmat[80]; /* current material */ |
31 |
char curobj[128] = "Untitled"; /* current object name */ |
32 |
|
33 |
double unit_mult = 1.; /* units multiplier */ |
34 |
|
35 |
#define hasmult (unit_mult < .999 || unit_mult > 1.001) |
36 |
|
37 |
/* |
38 |
* Stuff for tracking and reusing vertices: |
39 |
*/ |
40 |
|
41 |
char VKFMT[] = "%+16.9e %+16.9e %+16.9e"; |
42 |
#define VKLEN 64 |
43 |
|
44 |
#define mkvkey(k,v) sprintf(k, VKFMT, (v)[0], (v)[1], (v)[2]) |
45 |
|
46 |
#define NVERTS 256 |
47 |
|
48 |
long vclock; /* incremented at each vertex request */ |
49 |
|
50 |
struct vert { |
51 |
long lused; /* when last used (0 if unassigned) */ |
52 |
FVECT p; /* track point position only */ |
53 |
} vert[NVERTS]; /* our vertex cache */ |
54 |
|
55 |
LUTAB vertab = LU_SINIT(free,NULL); /* our vertex lookup table */ |
56 |
|
57 |
|
58 |
main(argc, argv) |
59 |
int argc; |
60 |
char **argv; |
61 |
{ |
62 |
int i; |
63 |
|
64 |
for (i = 1; i < argc && argv[i][0] == '-'; i++) |
65 |
switch (argv[i][1]) { |
66 |
case 'd': /* units */ |
67 |
switch (argv[i][2]) { |
68 |
case 'm': /* meters */ |
69 |
unit_mult = 1.; |
70 |
break; |
71 |
case 'c': /* centimeters */ |
72 |
unit_mult = .01; |
73 |
break; |
74 |
case 'f': /* feet */ |
75 |
unit_mult = 12.*.0254; |
76 |
break; |
77 |
case 'i': /* inches */ |
78 |
unit_mult = .0254; |
79 |
break; |
80 |
default: |
81 |
goto unkopt; |
82 |
} |
83 |
break; |
84 |
default: |
85 |
goto unkopt; |
86 |
} |
87 |
init(); |
88 |
if (i >= argc) |
89 |
rad2mgf(NULL); |
90 |
else |
91 |
for ( ; i < argc; i++) |
92 |
rad2mgf(argv[i]); |
93 |
uninit(); |
94 |
exit(0); |
95 |
unkopt: |
96 |
fprintf(stderr, "Usage: %s [-d{m|c|f|i}] file ..\n", argv[0]); |
97 |
exit(1); |
98 |
} |
99 |
|
100 |
|
101 |
rad2mgf(inp) /* convert a Radiance file to MGF */ |
102 |
char *inp; |
103 |
{ |
104 |
#define mod buf |
105 |
#define typ (buf+128) |
106 |
#define id (buf+256) |
107 |
#define alias (buf+384) |
108 |
char buf[512]; |
109 |
FUNARGS fa; |
110 |
register FILE *fp; |
111 |
register int c; |
112 |
|
113 |
if (inp == NULL) { |
114 |
inp = "standard input"; |
115 |
fp = stdin; |
116 |
} else if (inp[0] == '!') { |
117 |
if ((fp = popen(inp+1, "r")) == NULL) { |
118 |
fputs(inp, stderr); |
119 |
fputs(": cannot execute\n", stderr); |
120 |
exit(1); |
121 |
} |
122 |
} else if ((fp = fopen(inp, "r")) == NULL) { |
123 |
fputs(inp, stderr); |
124 |
fputs(": cannot open\n", stderr); |
125 |
exit(1); |
126 |
} |
127 |
printf("# Begin conversion from: %s\n", inp); |
128 |
while ((c = getc(fp)) != EOF) |
129 |
switch (c) { |
130 |
case ' ': /* white space */ |
131 |
case '\t': |
132 |
case '\n': |
133 |
case '\r': |
134 |
case '\f': |
135 |
break; |
136 |
case '#': /* comment */ |
137 |
if (fgets(buf, sizeof(buf), fp) != NULL) |
138 |
printf("# %s", buf); |
139 |
break; |
140 |
case '!': /* inline command */ |
141 |
ungetc(c, fp); |
142 |
fgetline(buf, sizeof(buf), fp); |
143 |
rad2mgf(buf); |
144 |
break; |
145 |
default: /* Radiance primitive */ |
146 |
ungetc(c, fp); |
147 |
if (fscanf(fp, "%s %s %s", mod, typ, id) != 3) { |
148 |
fputs(inp, stderr); |
149 |
fputs(": unexpected EOF\n", stderr); |
150 |
exit(1); |
151 |
} |
152 |
if (!strcmp(typ, "alias")) { |
153 |
strcpy(alias, "EOF"); |
154 |
fscanf(fp, "%s", alias); |
155 |
newmat(id, alias); |
156 |
} else { |
157 |
if (!readfargs(&fa, fp)) { |
158 |
fprintf(stderr, |
159 |
"%s: bad argument syntax for %s \"%s\"\n", |
160 |
inp, typ, id); |
161 |
exit(1); |
162 |
} |
163 |
cvtprim(inp, mod, typ, id, &fa); |
164 |
freefargs(&fa); |
165 |
} |
166 |
break; |
167 |
} |
168 |
printf("# End conversion from: %s\n", inp); |
169 |
if (inp[0] == '!') |
170 |
pclose(fp); |
171 |
else |
172 |
fclose(fp); |
173 |
#undef mod |
174 |
#undef typ |
175 |
#undef id |
176 |
#undef alias |
177 |
} |
178 |
|
179 |
|
180 |
cvtprim(inp, mod, typ, id, fa) /* process Radiance primitive */ |
181 |
char *inp, *mod, *typ, *id; |
182 |
FUNARGS *fa; |
183 |
{ |
184 |
int (*df)(); |
185 |
|
186 |
df = (int (*)())lu_find(&rdispatch, typ)->data; |
187 |
if (df != NULL) { /* convert */ |
188 |
if ((*df)(mod, typ, id, fa) < 0) { |
189 |
fprintf(stderr, "%s: bad %s \"%s\"\n", typ, id); |
190 |
exit(1); |
191 |
} |
192 |
} else { /* unsupported */ |
193 |
o_unsupported(mod, typ, id, fa); |
194 |
if (lu_find(&rmats, mod)->data != NULL) /* make alias */ |
195 |
newmat(id, mod); |
196 |
} |
197 |
} |
198 |
|
199 |
|
200 |
newmat(id, alias) /* add a modifier to the alias list */ |
201 |
char *id; |
202 |
char *alias; |
203 |
{ |
204 |
register LUENT *lp, *lpa; |
205 |
|
206 |
if (alias != NULL) { /* look up alias */ |
207 |
if ((lpa = lu_find(&rmats, alias)) == NULL) |
208 |
goto memerr; |
209 |
if (lpa->data == NULL) |
210 |
alias = NULL; /* doesn't exist! */ |
211 |
} |
212 |
if ((lp = lu_find(&rmats, id)) == NULL) /* look up material */ |
213 |
goto memerr; |
214 |
if (alias != NULL && lp->data == lpa->key) |
215 |
return; /* alias set already */ |
216 |
if (lp->data == NULL) { /* allocate material */ |
217 |
if ((lp->key = (char *)malloc(strlen(id)+1)) == NULL) |
218 |
goto memerr; |
219 |
strcpy(lp->key, id); |
220 |
} |
221 |
if (alias == NULL) { /* set this material */ |
222 |
lp->data = lp->key; |
223 |
printf("m %s =\n", id); |
224 |
} else { /* set this alias */ |
225 |
lp->data = lpa->key; |
226 |
printf("m %s = %s\n", id, alias); |
227 |
} |
228 |
strcpy(curmat, id); |
229 |
return; |
230 |
memerr: |
231 |
fputs("Out of memory in newmat!\n", stderr); |
232 |
exit(1); |
233 |
} |
234 |
|
235 |
|
236 |
setmat(id) /* set material to this one */ |
237 |
char *id; |
238 |
{ |
239 |
if (!strcmp(id, curmat)) /* already set? */ |
240 |
return; |
241 |
if (!strcmp(id, VOIDID)) /* cannot set */ |
242 |
return; |
243 |
printf("m %s\n", id); |
244 |
strcpy(curmat, id); |
245 |
} |
246 |
|
247 |
|
248 |
setobj(id) /* set object name to this one */ |
249 |
char *id; |
250 |
{ |
251 |
register char *cp, *cp2; |
252 |
char *end = NULL; |
253 |
int diff = 0; |
254 |
/* use all but final suffix */ |
255 |
for (cp = id; *cp; cp++) |
256 |
if (*cp == '.') |
257 |
end = cp; |
258 |
if (end == NULL) |
259 |
end = cp; |
260 |
/* copy to current object */ |
261 |
cp2 = curobj; |
262 |
if (!isalpha(*id)) { /* start with letter */ |
263 |
diff = *cp2 != 'O'; |
264 |
*cp2++ = 'O'; |
265 |
} |
266 |
for (cp = id; cp < end; *cp2++ = *cp++) { |
267 |
if ((*cp < '!') | (*cp > '~')) /* limit to visible chars */ |
268 |
*cp = '?'; |
269 |
diff += *cp != *cp2; |
270 |
} |
271 |
if (!diff && !*cp2) |
272 |
return; |
273 |
*cp2 = '\0'; |
274 |
fputs("o\no ", stdout); |
275 |
puts(curobj); |
276 |
} |
277 |
|
278 |
|
279 |
init() /* initialize dispatch table and output */ |
280 |
{ |
281 |
lu_init(&vertab, NVERTS); |
282 |
lu_init(&rdispatch, 22); |
283 |
add2dispatch("polygon", o_face); |
284 |
add2dispatch("cone", o_cone); |
285 |
add2dispatch("cup", o_cone); |
286 |
add2dispatch("sphere", o_sphere); |
287 |
add2dispatch("bubble", o_sphere); |
288 |
add2dispatch("cylinder", o_cylinder); |
289 |
add2dispatch("tube", o_cylinder); |
290 |
add2dispatch("ring", o_ring); |
291 |
add2dispatch("instance", o_instance); |
292 |
add2dispatch("mesh", o_instance); |
293 |
add2dispatch("plastic", o_plastic); |
294 |
add2dispatch("plastic2", o_plastic); |
295 |
add2dispatch("metal", o_metal); |
296 |
add2dispatch("metal2", o_metal); |
297 |
add2dispatch("glass", o_glass); |
298 |
add2dispatch("dielectric", o_dielectric); |
299 |
add2dispatch("trans", o_trans); |
300 |
add2dispatch("trans2", o_trans); |
301 |
add2dispatch("mirror", o_mirror); |
302 |
add2dispatch("light", o_light); |
303 |
add2dispatch("spotlight", o_light); |
304 |
add2dispatch("glow", o_light); |
305 |
add2dispatch("illum", o_illum); |
306 |
puts("# The following was converted from RADIANCE scene input"); |
307 |
if (hasmult) |
308 |
printf("xf -s %.4e\n", unit_mult); |
309 |
printf("o %s\n", curobj); |
310 |
} |
311 |
|
312 |
|
313 |
uninit() /* mark end of MGF file */ |
314 |
{ |
315 |
puts("o"); |
316 |
if (hasmult) |
317 |
puts("xf"); |
318 |
puts("# End of data converted from RADIANCE scene input"); |
319 |
lu_done(&rdispatch); |
320 |
lu_done(&rmats); |
321 |
lu_done(&vertab); |
322 |
} |
323 |
|
324 |
|
325 |
clrverts() /* clear vertex table */ |
326 |
{ |
327 |
register int i; |
328 |
|
329 |
lu_done(&vertab); |
330 |
for (i = 0; i < NVERTS; i++) |
331 |
vert[i].lused = 0; |
332 |
lu_init(&vertab, NVERTS); |
333 |
} |
334 |
|
335 |
|
336 |
add2dispatch(name, func) /* add function to dispatch table */ |
337 |
char *name; |
338 |
int (*func)(); |
339 |
{ |
340 |
register LUENT *lp; |
341 |
|
342 |
lp = lu_find(&rdispatch, name); |
343 |
if (lp->key != NULL) { |
344 |
fputs(name, stderr); |
345 |
fputs(": duplicate dispatch entry!\n", stderr); |
346 |
exit(1); |
347 |
} |
348 |
lp->key = name; |
349 |
lp->data = (char *)func; |
350 |
} |
351 |
|
352 |
|
353 |
char * |
354 |
getvertid(vname, vp) /* get/set vertex ID for this point */ |
355 |
char *vname; |
356 |
FVECT vp; |
357 |
{ |
358 |
static char vkey[VKLEN]; |
359 |
register LUENT *lp; |
360 |
register int i, vndx; |
361 |
|
362 |
vclock++; /* increment counter */ |
363 |
mkvkey(vkey, vp); |
364 |
if ((lp = lu_find(&vertab, vkey)) == NULL) |
365 |
goto memerr; |
366 |
if (lp->data == NULL) { /* allocate new vertex entry */ |
367 |
if (lp->key != NULL) /* reclaim deleted entry */ |
368 |
vertab.ndel--; |
369 |
else { |
370 |
if ((lp->key = (char *)malloc(VKLEN)) == NULL) |
371 |
goto memerr; |
372 |
strcpy(lp->key, vkey); |
373 |
} |
374 |
vndx = 0; /* find oldest vertex */ |
375 |
for (i = 1; i < NVERTS; i++) |
376 |
if (vert[i].lused < vert[vndx].lused) |
377 |
vndx = i; |
378 |
if (vert[vndx].lused) { /* free old entry first */ |
379 |
mkvkey(vkey, vert[vndx].p); |
380 |
lu_delete(&vertab, vkey); |
381 |
} |
382 |
VCOPY(vert[vndx].p, vp); /* assign it */ |
383 |
printf("v v%d =\n\tp %.15g %.15g %.15g\n", /* print it */ |
384 |
vndx, vp[0], vp[1], vp[2]); |
385 |
lp->data = (char *)&vert[vndx]; /* set it */ |
386 |
} else |
387 |
vndx = (struct vert *)lp->data - vert; |
388 |
vert[vndx].lused = vclock; /* record this use */ |
389 |
sprintf(vname, "v%d", vndx); |
390 |
return(vname); |
391 |
memerr: |
392 |
fputs("Out of memory in getvertid!\n", stderr); |
393 |
exit(1); |
394 |
} |
395 |
|
396 |
|
397 |
int |
398 |
o_unsupported(mod, typ, id, fa) /* mark unsupported primitive */ |
399 |
char *mod, *typ, *id; |
400 |
FUNARGS *fa; |
401 |
{ |
402 |
register int i; |
403 |
|
404 |
fputs("\n# Unsupported RADIANCE primitive:\n", stdout); |
405 |
printf("# %s %s %s", mod, typ, id); |
406 |
printf("\n# %d", fa->nsargs); |
407 |
for (i = 0; i < fa->nsargs; i++) |
408 |
printf(" %s", fa->sarg[i]); |
409 |
#ifdef IARGS |
410 |
printf("\n# %d", fa->niargs); |
411 |
for (i = 0; i < fa->niargs; i++) |
412 |
printf(" %ld", fa->iarg[i]); |
413 |
#else |
414 |
fputs("\n# 0", stdout); |
415 |
#endif |
416 |
printf("\n# %d", fa->nfargs); |
417 |
for (i = 0; i < fa->nfargs; i++) |
418 |
printf(" %g", fa->farg[i]); |
419 |
fputs("\n\n", stdout); |
420 |
return(0); |
421 |
} |
422 |
|
423 |
|
424 |
int |
425 |
o_face(mod, typ, id, fa) /* print out a polygon */ |
426 |
char *mod, *typ, *id; |
427 |
FUNARGS *fa; |
428 |
{ |
429 |
char entbuf[2048], *linestart; |
430 |
register char *cp; |
431 |
register int i; |
432 |
|
433 |
if ((fa->nfargs < 9) | (fa->nfargs % 3)) |
434 |
return(-1); |
435 |
setmat(mod); |
436 |
setobj(id); |
437 |
cp = linestart = entbuf; |
438 |
*cp++ = 'f'; |
439 |
for (i = 0; i < fa->nfargs; i += 3) { |
440 |
*cp++ = ' '; |
441 |
if (cp - linestart > 72) { |
442 |
*cp++ = '\\'; *cp++ = '\n'; |
443 |
linestart = cp; |
444 |
*cp++ = ' '; *cp++ = ' '; |
445 |
} |
446 |
getvertid(cp, fa->farg + i); |
447 |
while (*cp) |
448 |
cp++; |
449 |
} |
450 |
puts(entbuf); |
451 |
return(0); |
452 |
} |
453 |
|
454 |
|
455 |
int |
456 |
o_cone(mod, typ, id, fa) /* print out a cone */ |
457 |
char *mod, *typ, *id; |
458 |
register FUNARGS *fa; |
459 |
{ |
460 |
char v1[6], v2[6]; |
461 |
|
462 |
if (fa->nfargs != 8) |
463 |
return(-1); |
464 |
setmat(mod); |
465 |
setobj(id); |
466 |
getvertid(v1, fa->farg); |
467 |
getvertid(v2, fa->farg + 3); |
468 |
if (typ[1] == 'u') /* cup -> inverted cone */ |
469 |
printf("cone %s %.12g %s %.12g\n", |
470 |
v1, -fa->farg[6], v2, -fa->farg[7]); |
471 |
else |
472 |
printf("cone %s %.12g %s %.12g\n", |
473 |
v1, fa->farg[6], v2, fa->farg[7]); |
474 |
return(0); |
475 |
} |
476 |
|
477 |
|
478 |
int |
479 |
o_sphere(mod, typ, id, fa) /* print out a sphere */ |
480 |
char *mod, *typ, *id; |
481 |
register FUNARGS *fa; |
482 |
{ |
483 |
char cent[6]; |
484 |
|
485 |
if (fa->nfargs != 4) |
486 |
return(-1); |
487 |
setmat(mod); |
488 |
setobj(id); |
489 |
printf("sph %s %.12g\n", getvertid(cent, fa->farg), |
490 |
typ[0]=='b' ? -fa->farg[3] : fa->farg[3]); |
491 |
return(0); |
492 |
} |
493 |
|
494 |
|
495 |
int |
496 |
o_cylinder(mod, typ, id, fa) /* print out a cylinder */ |
497 |
char *mod, *typ, *id; |
498 |
register FUNARGS *fa; |
499 |
{ |
500 |
char v1[6], v2[6]; |
501 |
|
502 |
if (fa->nfargs != 7) |
503 |
return(-1); |
504 |
setmat(mod); |
505 |
setobj(id); |
506 |
getvertid(v1, fa->farg); |
507 |
getvertid(v2, fa->farg + 3); |
508 |
printf("cyl %s %.12g %s\n", v1, |
509 |
typ[0]=='t' ? -fa->farg[6] : fa->farg[6], v2); |
510 |
return(0); |
511 |
} |
512 |
|
513 |
|
514 |
int |
515 |
o_ring(mod, typ, id, fa) /* print out a ring */ |
516 |
char *mod, *typ, *id; |
517 |
register FUNARGS *fa; |
518 |
{ |
519 |
if (fa->nfargs != 8) |
520 |
return(-1); |
521 |
setmat(mod); |
522 |
setobj(id); |
523 |
printf("v cent =\n\tp %.12g %.12g %.12g\n", |
524 |
fa->farg[0], fa->farg[1], fa->farg[2]); |
525 |
printf("\tn %.12g %.12g %.12g\n", |
526 |
fa->farg[3], fa->farg[4], fa->farg[5]); |
527 |
if (fa->farg[6] < fa->farg[7]) |
528 |
printf("ring cent %.12g %.12g\n", |
529 |
fa->farg[6], fa->farg[7]); |
530 |
else |
531 |
printf("ring cent %.12g %.12g\n", |
532 |
fa->farg[7], fa->farg[6]); |
533 |
return(0); |
534 |
} |
535 |
|
536 |
|
537 |
int |
538 |
o_instance(mod, typ, id, fa) /* convert an instance (or mesh) */ |
539 |
char *mod, *typ, *id; |
540 |
FUNARGS *fa; |
541 |
{ |
542 |
register int i; |
543 |
register char *cp; |
544 |
char *start = NULL, *end = NULL; |
545 |
/* |
546 |
* We don't really know how to do this, so we just create |
547 |
* a reference to an undefined MGF file and it's the user's |
548 |
* responsibility to create this file and put the appropriate |
549 |
* stuff into it. |
550 |
*/ |
551 |
if (fa->nsargs < 1) |
552 |
return(-1); |
553 |
setmat(mod); /* only works if surfaces are void */ |
554 |
setobj(id); |
555 |
for (cp = fa->sarg[0]; *cp; cp++) /* construct MGF file name */ |
556 |
if (*cp == '/') |
557 |
start = cp+1; |
558 |
else if (*cp == '.') |
559 |
end = cp; |
560 |
if (start == NULL) |
561 |
start = fa->sarg[0]; |
562 |
if (end == NULL || start >= end) |
563 |
end = cp; |
564 |
fputs("i ", stdout); /* print include entity */ |
565 |
for (cp = start; cp < end; cp++) |
566 |
putchar(*cp); |
567 |
fputs(".mgf", stdout); /* add MGF suffix */ |
568 |
for (i = 1; i < fa->nsargs; i++) { /* add transform */ |
569 |
putchar(' '); |
570 |
fputs(fa->sarg[i], stdout); |
571 |
} |
572 |
putchar('\n'); |
573 |
clrverts(); /* vertex id's no longer reliable */ |
574 |
return(0); |
575 |
} |
576 |
|
577 |
|
578 |
int |
579 |
o_illum(mod, typ, id, fa) /* convert an illum material */ |
580 |
char *mod, *typ, *id; |
581 |
FUNARGS *fa; |
582 |
{ |
583 |
if (fa->nsargs == 1 && strcmp(fa->sarg[0], VOIDID)) { |
584 |
newmat(id, fa->sarg[0]); /* just create alias */ |
585 |
return(0); |
586 |
} |
587 |
/* else create invisible material */ |
588 |
newmat(id, NULL); |
589 |
puts("\tts 1 0"); |
590 |
return(0); |
591 |
} |
592 |
|
593 |
|
594 |
int |
595 |
o_plastic(mod, typ, id, fa) /* convert a plastic material */ |
596 |
char *mod, *typ, *id; |
597 |
register FUNARGS *fa; |
598 |
{ |
599 |
COLOR cxyz, rrgb; |
600 |
double d; |
601 |
|
602 |
if (fa->nfargs != (typ[7]=='2' ? 6 : 5)) |
603 |
return(-1); |
604 |
newmat(id, NULL); |
605 |
rrgb[0] = fa->farg[0]; rrgb[1] = fa->farg[1]; rrgb[2] = fa->farg[2]; |
606 |
rgb_cie(cxyz, rrgb); |
607 |
puts("\tc"); /* put diffuse component */ |
608 |
d = cxyz[0] + cxyz[1] + cxyz[2]; |
609 |
if (d > FTINY) |
610 |
printf("\t\tcxy %.4f %.4f\n", cxyz[0]/d, cxyz[1]/d); |
611 |
printf("\trd %.4f\n", cxyz[1]*(1. - fa->farg[3])); |
612 |
if (fa->farg[3] > FTINY) { /* put specular component */ |
613 |
puts("\tc"); |
614 |
printf("\trs %.4f %.4f\n", fa->farg[3], |
615 |
typ[7]=='2' ? .5*(fa->farg[4] + fa->farg[5]) : |
616 |
fa->farg[4]); |
617 |
} |
618 |
return(0); |
619 |
} |
620 |
|
621 |
|
622 |
int |
623 |
o_metal(mod, typ, id, fa) /* convert a metal material */ |
624 |
char *mod, *typ, *id; |
625 |
register FUNARGS *fa; |
626 |
{ |
627 |
COLOR cxyz, rrgb; |
628 |
double d; |
629 |
|
630 |
if (fa->nfargs != (typ[5]=='2' ? 6 : 5)) |
631 |
return(-1); |
632 |
newmat(id, NULL); |
633 |
rrgb[0] = fa->farg[0]; rrgb[1] = fa->farg[1]; rrgb[2] = fa->farg[2]; |
634 |
rgb_cie(cxyz, rrgb); |
635 |
puts("\tc"); /* put diffuse component */ |
636 |
d = cxyz[0] + cxyz[1] + cxyz[2]; |
637 |
if (d > FTINY) |
638 |
printf("\t\tcxy %.4f %.4f\n", cxyz[0]/d, cxyz[1]/d); |
639 |
printf("\trd %.4f\n", cxyz[1]*(1. - fa->farg[3])); |
640 |
/* put specular component */ |
641 |
printf("\trs %.4f %.4f\n", cxyz[1]*fa->farg[3], |
642 |
typ[5]=='2' ? .5*(fa->farg[4] + fa->farg[5]) : |
643 |
fa->farg[4]); |
644 |
return(0); |
645 |
} |
646 |
|
647 |
|
648 |
int |
649 |
o_glass(mod, typ, id, fa) /* convert a glass material */ |
650 |
char *mod, *typ, *id; |
651 |
register FUNARGS *fa; |
652 |
{ |
653 |
COLOR cxyz, rrgb, trgb; |
654 |
double nrfr = 1.52, F, d; |
655 |
register int i; |
656 |
|
657 |
if (fa->nfargs != 3 && fa->nfargs != 4) |
658 |
return(-1); |
659 |
newmat(id, NULL); |
660 |
if (fa->nfargs == 4) |
661 |
nrfr = fa->farg[3]; |
662 |
printf("\tir %f 0\n", nrfr); |
663 |
F = (1. - nrfr)/(1. + nrfr); /* use normal incidence */ |
664 |
F *= F; |
665 |
for (i = 0; i < 3; i++) { |
666 |
trgb[i] = fa->farg[i] * (1. - F)*(1. - F) / |
667 |
(1. - F*F*fa->farg[i]*fa->farg[i]); |
668 |
rrgb[i] = F * (1. + (1. - 2.*F)*fa->farg[i]) / |
669 |
(1. - F*F*fa->farg[i]*fa->farg[i]); |
670 |
} |
671 |
rgb_cie(cxyz, rrgb); /* put reflected component */ |
672 |
puts("\tc"); |
673 |
d = cxyz[0] + cxyz[1] + cxyz[2]; |
674 |
if (d > FTINY) |
675 |
printf("\t\tcxy %.4f %.4f\n", cxyz[0]/d, cxyz[1]/d); |
676 |
printf("\trs %.4f 0\n", cxyz[1]); |
677 |
rgb_cie(cxyz, trgb); /* put transmitted component */ |
678 |
puts("\tc"); |
679 |
d = cxyz[0] + cxyz[1] + cxyz[2]; |
680 |
if (d > FTINY) |
681 |
printf("\t\tcxy %.4f %.4f\n", cxyz[0]/d, cxyz[1]/d); |
682 |
printf("\tts %.4f 0\n", cxyz[1]); |
683 |
return(0); |
684 |
} |
685 |
|
686 |
|
687 |
int |
688 |
o_dielectric(mod, typ, id, fa) /* convert a dielectric material */ |
689 |
char *mod, *typ, *id; |
690 |
register FUNARGS *fa; |
691 |
{ |
692 |
COLOR cxyz, trgb; |
693 |
double F, d; |
694 |
register int i; |
695 |
|
696 |
if (fa->nfargs != 5) |
697 |
return(-1); |
698 |
newmat(id, NULL); |
699 |
F = (1. - fa->farg[3])/(1. + fa->farg[3]); /* normal incidence */ |
700 |
F *= F; |
701 |
for (i = 0; i < 3; i++) |
702 |
trgb[i] = (1. - F)*pow(fa->farg[i], C_1SIDEDTHICK/unit_mult); |
703 |
printf("\tir %f 0\n", fa->farg[3]); /* put index of refraction */ |
704 |
printf("\tsides 1\n"); |
705 |
puts("\tc"); /* put reflected component */ |
706 |
printf("\trs %.4f 0\n", F); |
707 |
rgb_cie(cxyz, trgb); /* put transmitted component */ |
708 |
puts("\tc"); |
709 |
d = cxyz[0] + cxyz[1] + cxyz[2]; |
710 |
if (d > FTINY) |
711 |
printf("\t\tcxy %.4f %.4f\n", cxyz[0]/d, cxyz[1]/d); |
712 |
printf("\tts %.4f 0\n", cxyz[1]); |
713 |
return(0); |
714 |
} |
715 |
|
716 |
|
717 |
int |
718 |
o_mirror(mod, typ, id, fa) /* convert a mirror material */ |
719 |
char *mod, *typ, *id; |
720 |
register FUNARGS *fa; |
721 |
{ |
722 |
COLOR cxyz, rrgb; |
723 |
double d; |
724 |
|
725 |
if (fa->nsargs == 1) { /* use alternate material */ |
726 |
newmat(id, fa->sarg[0]); |
727 |
return(0); |
728 |
} |
729 |
if (fa->nfargs != 3) |
730 |
return(-1); |
731 |
newmat(id, NULL); |
732 |
rrgb[0] = fa->farg[0]; rrgb[1] = fa->farg[1]; rrgb[2] = fa->farg[2]; |
733 |
rgb_cie(cxyz, rrgb); |
734 |
puts("\tc"); /* put specular component */ |
735 |
d = cxyz[0] + cxyz[1] + cxyz[2]; |
736 |
if (d > FTINY) |
737 |
printf("\t\tcxy %.4f %.4f\n", cxyz[0]/d, cxyz[1]/d); |
738 |
printf("\trs %.4f 0\n", cxyz[1]); |
739 |
return(0); |
740 |
} |
741 |
|
742 |
|
743 |
int |
744 |
o_trans(mod, typ, id, fa) /* convert a trans material */ |
745 |
char *mod, *typ, *id; |
746 |
register FUNARGS *fa; |
747 |
{ |
748 |
COLOR cxyz, rrgb; |
749 |
double rough, trans, tspec, d; |
750 |
|
751 |
if (typ[4] == '2') { /* trans2 */ |
752 |
if (fa->nfargs != 8) |
753 |
return(-1); |
754 |
rough = .5*(fa->farg[4] + fa->farg[5]); |
755 |
trans = fa->farg[6]; |
756 |
tspec = fa->farg[7]; |
757 |
} else { /* trans */ |
758 |
if (fa->nfargs != 7) |
759 |
return(-1); |
760 |
rough = fa->farg[4]; |
761 |
trans = fa->farg[5]; |
762 |
tspec = fa->farg[6]; |
763 |
} |
764 |
newmat(id, NULL); |
765 |
rrgb[0] = fa->farg[0]; rrgb[1] = fa->farg[1]; rrgb[2] = fa->farg[2]; |
766 |
rgb_cie(cxyz, rrgb); |
767 |
puts("\tc"); /* put transmitted diffuse */ |
768 |
d = cxyz[0] + cxyz[1] + cxyz[2]; |
769 |
if (d > FTINY) |
770 |
printf("\t\tcxy %.4f %.4f\n", cxyz[0]/d, cxyz[1]/d); |
771 |
printf("\ttd %.4f\n", cxyz[1]*trans*(1. - fa->farg[3])*(1. - tspec)); |
772 |
/* put transmitted specular */ |
773 |
printf("\tts %.4f %.4f\n", cxyz[1]*trans*tspec*(1. - fa->farg[3]), rough); |
774 |
/* put reflected diffuse */ |
775 |
printf("\trd %.4f\n", cxyz[1]*(1. - fa->farg[3])*(1. - trans)); |
776 |
puts("\tc"); /* put reflected specular */ |
777 |
printf("\trs %.4f %.4f\n", fa->farg[3], rough); |
778 |
return(0); |
779 |
} |
780 |
|
781 |
|
782 |
int |
783 |
o_light(mod, typ, id, fa) /* convert a light type */ |
784 |
char *mod, *typ, *id; |
785 |
register FUNARGS *fa; |
786 |
{ |
787 |
COLOR cxyz, rrgb; |
788 |
double d; |
789 |
|
790 |
if (fa->nfargs < 3) |
791 |
return(-1); |
792 |
newmat(id, NULL); |
793 |
rrgb[0] = fa->farg[0]; rrgb[1] = fa->farg[1]; rrgb[2] = fa->farg[2]; |
794 |
rgb_cie(cxyz, rrgb); |
795 |
d = cxyz[0] + cxyz[1] + cxyz[2]; |
796 |
puts("\tc"); |
797 |
if (d > FTINY) |
798 |
printf("\t\tcxy %.4f %.4f\n", cxyz[0]/d, cxyz[1]/d); |
799 |
printf("\ted %.4g\n", cxyz[1]*(PI*WHTEFFICACY)); |
800 |
return(0); |
801 |
} |