1 |
/* Copyright (c) 1992 Regents of the University of California */ |
2 |
|
3 |
#ifndef lint |
4 |
static char SCCSid[] = "$SunId$ LBL"; |
5 |
#endif |
6 |
|
7 |
/* |
8 |
* Convert IES luminaire data to Radiance description |
9 |
* |
10 |
* 07Apr90 Greg Ward |
11 |
*/ |
12 |
|
13 |
#include <stdio.h> |
14 |
#include <math.h> |
15 |
#include <ctype.h> |
16 |
#include "color.h" |
17 |
#include "paths.h" |
18 |
|
19 |
#define PI 3.14159265358979323846 |
20 |
/* floating comparisons */ |
21 |
#define FTINY 1e-6 |
22 |
#define FEQ(a,b) ((a)<=(b)+FTINY&&(a)>=(b)-FTINY) |
23 |
/* tilt specs */ |
24 |
#define TLTSTR "TILT=" |
25 |
#define TLTSTRLEN 5 |
26 |
#define TLTNONE "NONE" |
27 |
#define TLTINCL "INCLUDE" |
28 |
#define TLT_VERT 1 |
29 |
#define TLT_H0 2 |
30 |
#define TLT_H90 3 |
31 |
/* photometric types */ |
32 |
#define PM_C 1 |
33 |
#define PM_B 2 |
34 |
/* unit types */ |
35 |
#define U_FEET 1 |
36 |
#define U_METERS 2 |
37 |
/* string lengths */ |
38 |
#define MAXLINE 132 |
39 |
#define MAXWORD 76 |
40 |
/* file types */ |
41 |
#define T_RAD ".rad" |
42 |
#define T_DST ".dat" |
43 |
#define T_TLT "%.dat" |
44 |
/* shape types */ |
45 |
#define RECT 1 |
46 |
#define DISK 2 |
47 |
#define SPHERE 3 |
48 |
|
49 |
#define MINDIM .001 /* minimum dimension (point source) */ |
50 |
|
51 |
#define F_M .3048 /* feet to meters */ |
52 |
|
53 |
#define abspath(p) (ISDIRSEP((p)[0]) || (p)[0] == '.') |
54 |
|
55 |
static char default_name[] = "default"; |
56 |
|
57 |
char *libdir = NULL; /* library directory location */ |
58 |
char *prefdir = NULL; /* subdirectory */ |
59 |
char *lampdat = "lamp.tab"; /* lamp data file */ |
60 |
|
61 |
double meters2out = 1.0; /* conversion from meters to output */ |
62 |
char *lamptype = NULL; /* selected lamp type */ |
63 |
char *deflamp = NULL; /* default lamp type */ |
64 |
float defcolor[3] = {1.,1.,1.}; /* default lamp color */ |
65 |
float *lampcolor = defcolor; /* pointer to current lamp color */ |
66 |
double multiplier = 1.0; /* multiplier for all light sources */ |
67 |
char units[64] = "meters"; /* output units */ |
68 |
double illumrad = 0.0; /* radius for illum sphere */ |
69 |
|
70 |
typedef struct { |
71 |
int type; /* RECT, DISK, SPHERE */ |
72 |
double w, l, h; /* width, length, height */ |
73 |
double area; /* max. projected area */ |
74 |
} SHAPE; /* a source shape */ |
75 |
|
76 |
int gargc; /* global argc (minus filenames) */ |
77 |
char **gargv; /* global argv */ |
78 |
|
79 |
extern char *strcpy(), *strcat(), *stradd(), *tailtrunc(), *filetrunc(), |
80 |
*filename(), *libname(), *fullname(), *malloc(), |
81 |
*getword(), *atos(); |
82 |
extern float *matchlamp(); |
83 |
|
84 |
#define scnint(fp,ip) cvtint(ip,getword(fp)) |
85 |
#define scnflt(fp,rp) cvtflt(rp,getword(fp)) |
86 |
#define isint isflt /* IES allows real as integer */ |
87 |
|
88 |
|
89 |
main(argc, argv) |
90 |
int argc; |
91 |
char *argv[]; |
92 |
{ |
93 |
char *outfile = NULL; |
94 |
int status; |
95 |
char outname[MAXWORD]; |
96 |
double d1; |
97 |
int i; |
98 |
|
99 |
for (i = 1; i < argc && argv[i][0] == '-'; i++) |
100 |
switch (argv[i][1]) { |
101 |
case 'd': /* dimensions */ |
102 |
if (argv[i][2] == '\0') |
103 |
goto badopt; |
104 |
if (argv[i][3] == '\0') |
105 |
d1 = 1.0; |
106 |
else if (argv[i][3] == '/') { |
107 |
d1 = atof(argv[i]+4); |
108 |
if (d1 <= FTINY) |
109 |
goto badopt; |
110 |
} else |
111 |
goto badopt; |
112 |
switch (argv[i][2]) { |
113 |
case 'c': /* centimeters */ |
114 |
if (FEQ(d1,10.)) |
115 |
strcpy(units,"millimeters"); |
116 |
else { |
117 |
strcpy(units,"centimeters"); |
118 |
strcat(units,argv[i]+3); |
119 |
} |
120 |
meters2out = 100.*d1; |
121 |
break; |
122 |
case 'm': /* meters */ |
123 |
if (FEQ(d1,1000.)) |
124 |
strcpy(units,"millimeters"); |
125 |
else if (FEQ(d1,100.)) |
126 |
strcpy(units,"centimeters"); |
127 |
else { |
128 |
strcpy(units,"meters"); |
129 |
strcat(units,argv[i]+3); |
130 |
} |
131 |
meters2out = d1; |
132 |
break; |
133 |
case 'i': /* inches */ |
134 |
strcpy(units,"inches"); |
135 |
strcat(units,argv[i]+3); |
136 |
meters2out = d1*(12./F_M); |
137 |
break; |
138 |
case 'f': /* feet */ |
139 |
if (FEQ(d1,12.)) |
140 |
strcpy(units,"inches"); |
141 |
else { |
142 |
strcpy(units,"feet"); |
143 |
strcat(units,argv[i]+3); |
144 |
} |
145 |
meters2out = d1/F_M; |
146 |
break; |
147 |
default: |
148 |
goto badopt; |
149 |
} |
150 |
break; |
151 |
case 'l': /* library directory */ |
152 |
libdir = argv[++i]; |
153 |
break; |
154 |
case 'p': /* prefix subdirectory */ |
155 |
prefdir = argv[++i]; |
156 |
break; |
157 |
case 'f': /* lamp data file */ |
158 |
lampdat = argv[++i]; |
159 |
break; |
160 |
case 'o': /* output file name */ |
161 |
outfile = argv[++i]; |
162 |
break; |
163 |
case 'i': /* illum */ |
164 |
illumrad = atof(argv[++i]); |
165 |
if (illumrad < MINDIM) |
166 |
illumrad = MINDIM; |
167 |
break; |
168 |
case 't': /* override lamp type */ |
169 |
lamptype = argv[++i]; |
170 |
break; |
171 |
case 'u': /* default lamp type */ |
172 |
deflamp = argv[++i]; |
173 |
break; |
174 |
case 'c': /* default lamp color */ |
175 |
defcolor[0] = atof(argv[++i]); |
176 |
defcolor[1] = atof(argv[++i]); |
177 |
defcolor[2] = atof(argv[++i]); |
178 |
break; |
179 |
case 'm': /* multiplier */ |
180 |
multiplier = atof(argv[++i]); |
181 |
break; |
182 |
default: |
183 |
badopt: |
184 |
fprintf(stderr, "%s: bad option: %s\n", |
185 |
argv[0], argv[i]); |
186 |
exit(1); |
187 |
} |
188 |
gargc = i; |
189 |
gargv = argv; |
190 |
initlamps(); /* get lamp data (if needed) */ |
191 |
/* convert ies file(s) */ |
192 |
if (outfile != NULL) { |
193 |
if (i == argc) |
194 |
exit(ies2rad(NULL, outfile) == 0 ? 0 : 1); |
195 |
else if (i == argc-1) |
196 |
exit(ies2rad(argv[i], outfile) == 0 ? 0 : 1); |
197 |
else { |
198 |
fprintf(stderr, "%s: single input file required\n", |
199 |
argv[0]); |
200 |
exit(1); |
201 |
} |
202 |
} else if (i >= argc) { |
203 |
fprintf(stderr, "%s: missing output file specification\n", |
204 |
argv[0]); |
205 |
exit(1); |
206 |
} |
207 |
status = 0; |
208 |
for ( ; i < argc; i++) { |
209 |
tailtrunc(strcpy(outname,filename(argv[i]))); |
210 |
if (ies2rad(argv[i], outname) != 0) |
211 |
status = 1; |
212 |
} |
213 |
exit(status); |
214 |
} |
215 |
|
216 |
|
217 |
initlamps() /* set up lamps */ |
218 |
{ |
219 |
float *lcol; |
220 |
int status; |
221 |
|
222 |
if (lamptype != NULL && !strcmp(lamptype, default_name) && |
223 |
deflamp == NULL) |
224 |
return; /* no need for data */ |
225 |
/* else load file */ |
226 |
if ((status = loadlamps(lampdat)) < 0) |
227 |
exit(1); |
228 |
if (status == 0) { |
229 |
fprintf(stderr, "%s: warning - no lamp data\n", lampdat); |
230 |
lamptype = default_name; |
231 |
return; |
232 |
} |
233 |
if (deflamp != NULL) { /* match default type */ |
234 |
if ((lcol = matchlamp(deflamp)) == NULL) |
235 |
fprintf(stderr, |
236 |
"%s: warning - unknown default lamp type\n", |
237 |
deflamp); |
238 |
else |
239 |
copycolor(defcolor, lcol); |
240 |
} |
241 |
if (lamptype != NULL) { /* match selected type */ |
242 |
if (strcmp(lamptype, default_name)) { |
243 |
if ((lcol = matchlamp(lamptype)) == NULL) { |
244 |
fprintf(stderr, |
245 |
"%s: warning - unknown lamp type\n", |
246 |
lamptype); |
247 |
lamptype = default_name; |
248 |
} else |
249 |
copycolor(defcolor, lcol); |
250 |
} |
251 |
freelamps(); /* all done with data */ |
252 |
} |
253 |
/* else keep lamp data */ |
254 |
} |
255 |
|
256 |
|
257 |
char * |
258 |
stradd(dst, src, sep) /* add a string at dst */ |
259 |
register char *dst, *src; |
260 |
int sep; |
261 |
{ |
262 |
if (src && *src) { |
263 |
do |
264 |
*dst++ = *src++; |
265 |
while (*src); |
266 |
if (sep && dst[-1] != sep) |
267 |
*dst++ = sep; |
268 |
} |
269 |
*dst = '\0'; |
270 |
return(dst); |
271 |
} |
272 |
|
273 |
|
274 |
char * |
275 |
fullname(path, fname, suffix) /* return full path name */ |
276 |
char *path, *fname, *suffix; |
277 |
{ |
278 |
if (prefdir != NULL && abspath(prefdir)) |
279 |
libname(path, fname, suffix); |
280 |
else if (abspath(fname)) |
281 |
strcpy(stradd(path, fname, 0), suffix); |
282 |
else |
283 |
libname(stradd(path, libdir, DIRSEP), fname, suffix); |
284 |
|
285 |
return(path); |
286 |
} |
287 |
|
288 |
|
289 |
char * |
290 |
libname(path, fname, suffix) /* return library relative name */ |
291 |
char *path, *fname, *suffix; |
292 |
{ |
293 |
if (abspath(fname)) |
294 |
strcpy(stradd(path, fname, 0), suffix); |
295 |
else |
296 |
strcpy(stradd(stradd(path, prefdir, DIRSEP), fname, 0), suffix); |
297 |
|
298 |
return(path); |
299 |
} |
300 |
|
301 |
|
302 |
char * |
303 |
filename(path) /* get final component of pathname */ |
304 |
register char *path; |
305 |
{ |
306 |
register char *cp; |
307 |
|
308 |
for (cp = path; *path; path++) |
309 |
if (ISDIRSEP(*path)) |
310 |
cp = path+1; |
311 |
return(cp); |
312 |
} |
313 |
|
314 |
|
315 |
char * |
316 |
filetrunc(path) /* truncate filename at end of path */ |
317 |
char *path; |
318 |
{ |
319 |
register char *p1, *p2; |
320 |
|
321 |
for (p1 = p2 = path; *p2; p2++) |
322 |
if (ISDIRSEP(*p2)) |
323 |
p1 = p2; |
324 |
*p1 = '\0'; |
325 |
return(path); |
326 |
} |
327 |
|
328 |
|
329 |
char * |
330 |
tailtrunc(name) /* truncate tail of filename */ |
331 |
char *name; |
332 |
{ |
333 |
register char *p1, *p2; |
334 |
|
335 |
for (p1 = filename(name); *p1 == '.'; p1++) |
336 |
; |
337 |
p2 = NULL; |
338 |
for ( ; *p1; p1++) |
339 |
if (*p1 == '.') |
340 |
p2 = p1; |
341 |
if (p2 != NULL) |
342 |
*p2 = '\0'; |
343 |
return(name); |
344 |
} |
345 |
|
346 |
|
347 |
blanktrunc(s) /* truncate spaces at end of line */ |
348 |
char *s; |
349 |
{ |
350 |
register char *cp; |
351 |
|
352 |
for (cp = s; *cp; cp++) |
353 |
; |
354 |
while (cp-- > s && isspace(*cp)) |
355 |
; |
356 |
*++cp = '\0'; |
357 |
} |
358 |
|
359 |
|
360 |
putheader(out) /* print header */ |
361 |
FILE *out; |
362 |
{ |
363 |
register int i; |
364 |
|
365 |
putc('#', out); |
366 |
for (i = 0; i < gargc; i++) { |
367 |
putc(' ', out); |
368 |
fputs(gargv[i], out); |
369 |
} |
370 |
fputs("\n# Dimensions in ", out); |
371 |
fputs(units, out); |
372 |
putc('\n', out); |
373 |
} |
374 |
|
375 |
|
376 |
ies2rad(inpname, outname) /* convert IES file */ |
377 |
char *inpname, *outname; |
378 |
{ |
379 |
char buf[MAXLINE], tltid[MAXWORD]; |
380 |
FILE *inpfp, *outfp; |
381 |
|
382 |
if (inpname == NULL) { |
383 |
inpname = "<stdin>"; |
384 |
inpfp = stdin; |
385 |
} else if ((inpfp = fopen(inpname, "r")) == NULL) { |
386 |
perror(inpname); |
387 |
return(-1); |
388 |
} |
389 |
if ((outfp = fopen(fullname(buf,outname,T_RAD), "w")) == NULL) { |
390 |
perror(buf); |
391 |
fclose(inpfp); |
392 |
return(-1); |
393 |
} |
394 |
putheader(outfp); |
395 |
if (lamptype == NULL) |
396 |
lampcolor = NULL; |
397 |
while (fgets(buf,sizeof(buf),inpfp) != NULL |
398 |
&& strncmp(buf,TLTSTR,TLTSTRLEN)) { |
399 |
blanktrunc(buf); |
400 |
if (!buf[0]) |
401 |
continue; |
402 |
fputs("#<", outfp); |
403 |
fputs(buf, outfp); |
404 |
putc('\n', outfp); |
405 |
if (lampcolor == NULL) |
406 |
lampcolor = matchlamp(buf); |
407 |
} |
408 |
if (lampcolor == NULL) { |
409 |
fprintf(stderr, "%s: warning - no lamp type\n", inpname); |
410 |
fputs("# Unknown lamp type (used default)\n", outfp); |
411 |
lampcolor = defcolor; |
412 |
} else if (lamptype == NULL) |
413 |
fprintf(outfp,"# CIE(x,y) = (%f,%f)\n# Depreciation = %.1f%%\n", |
414 |
lampcolor[3], lampcolor[4], 100.*lampcolor[5]); |
415 |
if (feof(inpfp)) { |
416 |
fprintf(stderr, "%s: not in IES format\n", inpname); |
417 |
goto readerr; |
418 |
} |
419 |
atos(tltid, MAXWORD, buf+TLTSTRLEN); |
420 |
if (inpfp == stdin) |
421 |
buf[0] = '\0'; |
422 |
else |
423 |
filetrunc(strcpy(buf, inpname)); |
424 |
if (dotilt(inpfp, outfp, buf, tltid, outname, tltid) != 0) { |
425 |
fprintf(stderr, "%s: bad tilt data\n", inpname); |
426 |
goto readerr; |
427 |
} |
428 |
if (dosource(inpfp, outfp, tltid, outname) != 0) { |
429 |
fprintf(stderr, "%s: bad luminaire data\n", inpname); |
430 |
goto readerr; |
431 |
} |
432 |
fclose(outfp); |
433 |
fclose(inpfp); |
434 |
return(0); |
435 |
readerr: |
436 |
fclose(outfp); |
437 |
fclose(inpfp); |
438 |
unlink(fullname(buf,outname,T_RAD)); |
439 |
return(-1); |
440 |
} |
441 |
|
442 |
|
443 |
dotilt(in, out, dir, tltspec, dfltname, tltid) /* convert tilt data */ |
444 |
FILE *in, *out; |
445 |
char *dir, *tltspec, *dfltname, *tltid; |
446 |
{ |
447 |
int nangles, tlt_type; |
448 |
double minmax[2]; |
449 |
char buf[MAXPATH], tltname[MAXWORD]; |
450 |
FILE *datin, *datout; |
451 |
|
452 |
if (!strcmp(tltspec, TLTNONE)) { |
453 |
datin = NULL; |
454 |
strcpy(tltid, "void"); |
455 |
} else if (!strcmp(tltspec, TLTINCL)) { |
456 |
datin = in; |
457 |
strcpy(tltname, dfltname); |
458 |
} else { |
459 |
if (ISDIRSEP(tltspec[0])) |
460 |
strcpy(buf, tltspec); |
461 |
else |
462 |
strcpy(stradd(buf, dir, DIRSEP), tltspec); |
463 |
if ((datin = fopen(buf, "r")) == NULL) { |
464 |
perror(buf); |
465 |
return(-1); |
466 |
} |
467 |
tailtrunc(strcpy(tltname,filename(tltspec))); |
468 |
} |
469 |
if (datin != NULL) { |
470 |
if ((datout = fopen(fullname(buf,tltname,T_TLT),"w")) == NULL) { |
471 |
perror(buf); |
472 |
if (datin != in) |
473 |
fclose(datin); |
474 |
return(-1); |
475 |
} |
476 |
if (!scnint(datin,&tlt_type) || !scnint(datin,&nangles) |
477 |
|| cvdata(datin,datout,1,&nangles,1.,minmax) != 0) { |
478 |
fprintf(stderr, "%s: data format error\n", tltspec); |
479 |
fclose(datout); |
480 |
if (datin != in) |
481 |
fclose(datin); |
482 |
unlink(fullname(buf,tltname,T_TLT)); |
483 |
return(-1); |
484 |
} |
485 |
fclose(datout); |
486 |
if (datin != in) |
487 |
fclose(datin); |
488 |
strcat(strcpy(tltid, filename(tltname)), "_tilt"); |
489 |
fprintf(out, "\nvoid brightdata %s\n", tltid); |
490 |
libname(buf,tltname,T_TLT); |
491 |
switch (tlt_type) { |
492 |
case TLT_VERT: /* vertical */ |
493 |
fprintf(out, "4 noop %s tilt.cal %s\n", buf, |
494 |
minmax[1]>90.+FTINY ? "tilt_ang" : "tilt_ang2"); |
495 |
break; |
496 |
case TLT_H0: /* horiz. in 0 deg. plane */ |
497 |
fprintf(out, "6 noop %s tilt.cal %s -rz 90\n", buf, |
498 |
minmax[1]>90.+FTINY ? "tilt_xang" : "tilt_xang2"); |
499 |
break; |
500 |
case TLT_H90: |
501 |
fprintf(out, "4 noop %s tilt.cal %s\n", buf, |
502 |
minmax[1]>90.+FTINY ? "tilt_xang" : "tilt_xang2"); |
503 |
break; |
504 |
default: |
505 |
fprintf(stderr, |
506 |
"%s: illegal lamp to luminaire geometry (%d)\n", |
507 |
tltspec, tlt_type); |
508 |
return(-1); |
509 |
} |
510 |
fprintf(out, "0\n0\n"); |
511 |
} |
512 |
return(0); |
513 |
} |
514 |
|
515 |
|
516 |
dosource(in, out, mod, name) /* create source and distribution */ |
517 |
FILE *in, *out; |
518 |
char *mod, *name; |
519 |
{ |
520 |
SHAPE srcshape; |
521 |
char buf[MAXPATH], id[MAXWORD]; |
522 |
FILE *datout; |
523 |
double mult, bfactor, pfactor, width, length, height, wattage; |
524 |
double bounds[2][2]; |
525 |
int nangles[2], pmtype, unitype; |
526 |
double d1; |
527 |
|
528 |
if (!isint(getword(in)) || !isflt(getword(in)) || !scnflt(in,&mult) |
529 |
|| !scnint(in,&nangles[0]) || !scnint(in,&nangles[1]) |
530 |
|| !scnint(in,&pmtype) || !scnint(in,&unitype) |
531 |
|| !scnflt(in,&width) || !scnflt(in,&length) |
532 |
|| !scnflt(in,&height) || !scnflt(in,&bfactor) |
533 |
|| !scnflt(in,&pfactor) || !scnflt(in,&wattage)) { |
534 |
fprintf(stderr, "dosource: bad lamp specification\n"); |
535 |
return(-1); |
536 |
} |
537 |
if (nangles[0] < 2 || nangles[1] < 1) { |
538 |
fprintf(stderr, "dosource: too few measured angles\n"); |
539 |
return(-1); |
540 |
} |
541 |
if (unitype == U_FEET) { |
542 |
width *= F_M; |
543 |
length *= F_M; |
544 |
height *= F_M; |
545 |
} |
546 |
if (makeshape(&srcshape, width, length, height) != 0) { |
547 |
fprintf(stderr, "dosource: illegal source dimensions"); |
548 |
return(-1); |
549 |
} |
550 |
if ((datout = fopen(fullname(buf,name,T_DST), "w")) == NULL) { |
551 |
perror(buf); |
552 |
return(-1); |
553 |
} |
554 |
if (cvdata(in, datout, 2, nangles, 1./WHTEFFICACY, bounds) != 0) { |
555 |
fprintf(stderr, "dosource: bad distribution data\n"); |
556 |
fclose(datout); |
557 |
unlink(fullname(buf,name,T_DST)); |
558 |
return(-1); |
559 |
} |
560 |
fclose(datout); |
561 |
fprintf(out, "# %g watt luminaire, lamp*ballast factor = %g\n", |
562 |
wattage, bfactor*pfactor); |
563 |
strcat(strcpy(id, filename(name)), "_dist"); |
564 |
fprintf(out, "\n%s brightdata %s\n", mod, id); |
565 |
if (nangles[1] < 2) |
566 |
fprintf(out, "4 "); |
567 |
else if (pmtype == PM_B) |
568 |
fprintf(out, "5 "); |
569 |
else if (FEQ(bounds[1][0],90.) && FEQ(bounds[1][1],270.)) |
570 |
fprintf(out, "7 "); |
571 |
else |
572 |
fprintf(out, "5 "); |
573 |
fprintf(out, "%s %s source.cal ", |
574 |
srcshape.type==SPHERE ? "corr" : "flatcorr", |
575 |
libname(buf,name,T_DST)); |
576 |
if (pmtype == PM_B) { |
577 |
if (FEQ(bounds[1][0],0.)) |
578 |
fprintf(out, "srcB_horiz2 "); |
579 |
else |
580 |
fprintf(out, "srcB_horiz "); |
581 |
fprintf(out, "srcB_vert "); |
582 |
} else { |
583 |
if (nangles[1] >= 2) { |
584 |
d1 = bounds[1][1] - bounds[1][0]; |
585 |
if (d1 <= 90.+FTINY) |
586 |
fprintf(out, "src_phi4 "); |
587 |
else if (d1 <= 180.+FTINY) |
588 |
fprintf(out, "src_phi2 "); |
589 |
else |
590 |
fprintf(out, "src_phi "); |
591 |
fprintf(out, "src_theta "); |
592 |
if (FEQ(bounds[1][0],90.) && FEQ(bounds[1][1],270.)) |
593 |
fprintf(out, "-rz -90 "); |
594 |
} else |
595 |
fprintf(out, "src_theta "); |
596 |
} |
597 |
fprintf(out, "\n0\n1 %g\n", multiplier*mult*bfactor*pfactor); |
598 |
if (putsource(&srcshape, out, id, filename(name), |
599 |
bounds[0][0]<90., bounds[0][1]>90.) != 0) |
600 |
return(-1); |
601 |
return(0); |
602 |
} |
603 |
|
604 |
|
605 |
putsource(shp, fp, mod, name, dolower, doupper) /* put out source */ |
606 |
SHAPE *shp; |
607 |
FILE *fp; |
608 |
char *mod, *name; |
609 |
int dolower, doupper; |
610 |
{ |
611 |
char buf[MAXWORD]; |
612 |
|
613 |
fprintf(fp, "\n%s %s %s_light\n", mod, |
614 |
illumrad>=MINDIM/2. ? "illum" : "light", |
615 |
name); |
616 |
fprintf(fp, "0\n0\n3 %g %g %g\n", |
617 |
lampcolor[0]/shp->area, |
618 |
lampcolor[1]/shp->area, |
619 |
lampcolor[2]/shp->area); |
620 |
if (doupper && dolower && shp->type != SPHERE && shp->h > MINDIM) { |
621 |
fprintf(fp, "\n%s glow %s_glow\n", mod, name); |
622 |
fprintf(fp, "0\n0\n4 %g %g %g -1\n", |
623 |
lampcolor[0]/shp->area, |
624 |
lampcolor[1]/shp->area, |
625 |
lampcolor[2]/shp->area); |
626 |
} |
627 |
switch (shp->type) { |
628 |
case RECT: |
629 |
strcat(strcpy(buf, name), "_light"); |
630 |
if (dolower) |
631 |
putrectsrc(shp, fp, buf, name, 0); |
632 |
if (doupper) |
633 |
putrectsrc(shp, fp, buf, name, 1); |
634 |
if (doupper && dolower && shp->h > MINDIM) { |
635 |
strcat(strcpy(buf, name), "_glow"); |
636 |
putsides(shp, fp, buf, name); |
637 |
} |
638 |
break; |
639 |
case DISK: |
640 |
strcat(strcpy(buf, name), "_light"); |
641 |
if (dolower) |
642 |
putdisksrc(shp, fp, buf, name, 0); |
643 |
if (doupper) |
644 |
putdisksrc(shp, fp, buf, name, 1); |
645 |
if (doupper && dolower && shp->h > MINDIM) { |
646 |
strcat(strcpy(buf, name), "_glow"); |
647 |
putcyl(shp, fp, buf, name); |
648 |
} |
649 |
break; |
650 |
case SPHERE: |
651 |
strcat(strcpy(buf, name), "_light"); |
652 |
putspheresrc(shp, fp, buf, name); |
653 |
break; |
654 |
} |
655 |
return(0); |
656 |
} |
657 |
|
658 |
|
659 |
makeshape(shp, width, length, height) /* make source shape */ |
660 |
register SHAPE *shp; |
661 |
double width, length, height; |
662 |
{ |
663 |
if (illumrad >= MINDIM/2.) { |
664 |
shp->type = SPHERE; |
665 |
shp->w = shp->l = shp->h = 2.*illumrad; |
666 |
} else if (width < MINDIM) { |
667 |
width = -width; |
668 |
if (width < MINDIM) { |
669 |
shp->type = SPHERE; |
670 |
shp->w = shp->l = shp->h = MINDIM; |
671 |
} else if (height < .5*width) { |
672 |
shp->type = DISK; |
673 |
shp->w = shp->l = width; |
674 |
if (height >= MINDIM) |
675 |
shp->h = height; |
676 |
else |
677 |
shp->h = .5*MINDIM; |
678 |
} else { |
679 |
shp->type = SPHERE; |
680 |
shp->w = shp->l = shp->h = width; |
681 |
} |
682 |
} else { |
683 |
shp->type = RECT; |
684 |
shp->w = width; |
685 |
if (length >= MINDIM) |
686 |
shp->l = length; |
687 |
else |
688 |
shp->l = MINDIM; |
689 |
if (height >= MINDIM) |
690 |
shp->h = height; |
691 |
else |
692 |
shp->h = .5*MINDIM; |
693 |
} |
694 |
switch (shp->type) { |
695 |
case RECT: |
696 |
shp->area = shp->w * shp->l; |
697 |
break; |
698 |
case DISK: |
699 |
case SPHERE: |
700 |
shp->area = PI/4. * shp->w * shp->w; |
701 |
break; |
702 |
} |
703 |
return(0); |
704 |
} |
705 |
|
706 |
|
707 |
putrectsrc(shp, fp, mod, name, up) /* rectangular source */ |
708 |
SHAPE *shp; |
709 |
FILE *fp; |
710 |
char *mod, *name; |
711 |
int up; |
712 |
{ |
713 |
if (up) |
714 |
putrect(shp, fp, mod, name, ".u", 4, 5, 7, 6); |
715 |
else |
716 |
putrect(shp, fp, mod, name, ".d", 0, 2, 3, 1); |
717 |
} |
718 |
|
719 |
|
720 |
putsides(shp, fp, mod, name) /* put out sides of box */ |
721 |
register SHAPE *shp; |
722 |
FILE *fp; |
723 |
char *mod, *name; |
724 |
{ |
725 |
putrect(shp, fp, mod, name, ".1", 0, 1, 5, 4); |
726 |
putrect(shp, fp, mod, name, ".2", 1, 3, 7, 5); |
727 |
putrect(shp, fp, mod, name, ".3", 3, 2, 6, 7); |
728 |
putrect(shp, fp, mod, name, ".4", 2, 0, 4, 6); |
729 |
} |
730 |
|
731 |
|
732 |
putrect(shp, fp, mod, name, suffix, a, b, c, d) /* put out a rectangle */ |
733 |
SHAPE *shp; |
734 |
FILE *fp; |
735 |
char *mod, *name, *suffix; |
736 |
int a, b, c, d; |
737 |
{ |
738 |
fprintf(fp, "\n%s polygon %s%s\n0\n0\n12\n", mod, name, suffix); |
739 |
putpoint(shp, fp, a); |
740 |
putpoint(shp, fp, b); |
741 |
putpoint(shp, fp, c); |
742 |
putpoint(shp, fp, d); |
743 |
} |
744 |
|
745 |
|
746 |
putpoint(shp, fp, p) /* put out a point */ |
747 |
register SHAPE *shp; |
748 |
FILE *fp; |
749 |
int p; |
750 |
{ |
751 |
static double mult[2] = {-.5, .5}; |
752 |
|
753 |
fprintf(fp, "\t%g\t%g\t%g\n", |
754 |
mult[p&1]*shp->l*meters2out, |
755 |
mult[p>>1&1]*shp->w*meters2out, |
756 |
mult[p>>2]*shp->h*meters2out); |
757 |
} |
758 |
|
759 |
|
760 |
putdisksrc(shp, fp, mod, name, up) /* put out a disk source */ |
761 |
register SHAPE *shp; |
762 |
FILE *fp; |
763 |
char *mod, *name; |
764 |
int up; |
765 |
{ |
766 |
if (up) { |
767 |
fprintf(fp, "\n%s ring %s.u\n", mod, name); |
768 |
fprintf(fp, "0\n0\n8\n"); |
769 |
fprintf(fp, "\t0 0 %g\n", .5*shp->h*meters2out); |
770 |
fprintf(fp, "\t0 0 1\n"); |
771 |
fprintf(fp, "\t0 %g\n", .5*shp->w*meters2out); |
772 |
} else { |
773 |
fprintf(fp, "\n%s ring %s.d\n", mod, name); |
774 |
fprintf(fp, "0\n0\n8\n"); |
775 |
fprintf(fp, "\t0 0 %g\n", -.5*shp->h*meters2out); |
776 |
fprintf(fp, "\t0 0 -1\n"); |
777 |
fprintf(fp, "\t0 %g\n", .5*shp->w*meters2out); |
778 |
} |
779 |
} |
780 |
|
781 |
|
782 |
putcyl(shp, fp, mod, name) /* put out a cylinder */ |
783 |
register SHAPE *shp; |
784 |
FILE *fp; |
785 |
char *mod, *name; |
786 |
{ |
787 |
fprintf(fp, "\n%s cylinder %s.c\n", mod, name); |
788 |
fprintf(fp, "0\n0\n7\n"); |
789 |
fprintf(fp, "\t0 0 %g\n", .5*shp->h*meters2out); |
790 |
fprintf(fp, "\t0 0 %g\n", -.5*shp->h*meters2out); |
791 |
fprintf(fp, "\t%g\n", .5*shp->w*meters2out); |
792 |
} |
793 |
|
794 |
|
795 |
putspheresrc(shp, fp, mod, name) /* put out a sphere source */ |
796 |
SHAPE *shp; |
797 |
FILE *fp; |
798 |
char *mod, *name; |
799 |
{ |
800 |
fprintf(fp, "\n%s sphere %s.s\n", mod, name); |
801 |
fprintf(fp, "0\n0\n4 0 0 0 %g\n", .5*shp->w*meters2out); |
802 |
} |
803 |
|
804 |
|
805 |
cvdata(in, out, ndim, npts, mult, lim) /* convert data */ |
806 |
FILE *in, *out; |
807 |
int ndim, npts[]; |
808 |
double mult, lim[][2]; |
809 |
{ |
810 |
double *pt[4]; |
811 |
register int i, j; |
812 |
double val; |
813 |
int total; |
814 |
|
815 |
total = 1; j = 0; |
816 |
for (i = 0; i < ndim; i++) |
817 |
if (npts[i] > 1) { |
818 |
total *= npts[i]; |
819 |
j++; |
820 |
} |
821 |
fprintf(out, "%d\n", j); |
822 |
/* get coordinates */ |
823 |
for (i = 0; i < ndim; i++) { |
824 |
pt[i] = (double *)malloc(npts[i]*sizeof(double)); |
825 |
for (j = 0; j < npts[i]; j++) |
826 |
if (!scnflt(in, &pt[i][j])) |
827 |
return(-1); |
828 |
if (lim != NULL) { |
829 |
lim[i][0] = pt[i][0]; |
830 |
lim[i][1] = pt[i][npts[i]-1]; |
831 |
} |
832 |
} |
833 |
/* write out in reverse */ |
834 |
for (i = ndim-1; i >= 0; i--) { |
835 |
if (npts[i] > 1) { |
836 |
for (j = 1; j < npts[i]-1; j++) |
837 |
if (!FEQ(pt[i][j]-pt[i][j-1], |
838 |
pt[i][j+1]-pt[i][j])) |
839 |
break; |
840 |
if (j == npts[i]-1) |
841 |
fprintf(out, "%g %g %d\n", pt[i][0], pt[i][j], |
842 |
npts[i]); |
843 |
else { |
844 |
fprintf(out, "0 0 %d", npts[i]); |
845 |
for (j = 0; j < npts[i]; j++) { |
846 |
if (j%4 == 0) |
847 |
putc('\n', out); |
848 |
fprintf(out, "\t%g", pt[i][j]); |
849 |
} |
850 |
putc('\n', out); |
851 |
} |
852 |
} |
853 |
free((char *)pt[i]); |
854 |
} |
855 |
for (i = 0; i < total; i++) { |
856 |
if (i%4 == 0) |
857 |
putc('\n', out); |
858 |
if (!scnflt(in, &val)) |
859 |
return(-1); |
860 |
fprintf(out, "\t%g", val*mult); |
861 |
} |
862 |
putc('\n', out); |
863 |
return(0); |
864 |
} |
865 |
|
866 |
|
867 |
char * |
868 |
getword(fp) /* scan a word from fp */ |
869 |
register FILE *fp; |
870 |
{ |
871 |
static char word[MAXWORD]; |
872 |
register char *cp; |
873 |
register int c; |
874 |
|
875 |
while (isspace(c=getc(fp))) |
876 |
; |
877 |
for (cp = word; c != EOF && cp < word+MAXWORD-1; |
878 |
*cp++ = c, c = getc(fp)) |
879 |
if (isspace(c) || c == ',') { |
880 |
while (isspace(c)) |
881 |
c = getc(fp); |
882 |
if (c != EOF & c != ',') |
883 |
ungetc(c, fp); |
884 |
*cp = '\0'; |
885 |
return(word); |
886 |
} |
887 |
*cp = '\0'; |
888 |
return(cp > word ? word : NULL); |
889 |
} |
890 |
|
891 |
|
892 |
cvtint(ip, word) /* convert a word to an integer */ |
893 |
int *ip; |
894 |
char *word; |
895 |
{ |
896 |
if (word == NULL || !isint(word)) |
897 |
return(0); |
898 |
*ip = atoi(word); |
899 |
return(1); |
900 |
} |
901 |
|
902 |
|
903 |
cvtflt(rp, word) /* convert a word to a double */ |
904 |
double *rp; |
905 |
char *word; |
906 |
{ |
907 |
if (word == NULL || !isflt(word)) |
908 |
return(0); |
909 |
*rp = atof(word); |
910 |
return(1); |
911 |
} |