23 |
|
|
24 |
|
double emult = 1.; /* emitter multiplier */ |
25 |
|
|
26 |
+ |
FILE *matfp = stdout; /* material output file */ |
27 |
+ |
|
28 |
|
int r_comment(), r_cone(), r_cyl(), r_face(), r_ies(), r_ring(), r_sph(); |
29 |
|
char *material(), *object(), *addarg(); |
30 |
|
|
65 |
|
printf(" %s", argv[i]); |
66 |
|
switch (argv[i][1]) { |
67 |
|
case 'g': /* glow distance (meters) */ |
68 |
< |
if (argv[i][2] || badarg(argc-i, argv+i, "f")) |
68 |
> |
if (argv[i][2] || badarg(argc-i-1, argv+i+1, "f")) |
69 |
|
goto userr; |
70 |
|
glowdist = atof(argv[++i]); |
71 |
|
printf(" %s", argv[i]); |
72 |
|
break; |
73 |
|
case 'e': /* emitter multiplier */ |
74 |
< |
if (argv[i][2] || badarg(argc-i, argv+i, "f")) |
74 |
> |
if (argv[i][2] || badarg(argc-i-1, argv+i+1, "f")) |
75 |
|
goto userr; |
76 |
|
emult = atof(argv[++i]); |
77 |
|
printf(" %s", argv[i]); |
78 |
|
break; |
79 |
+ |
case 'm': /* materials file */ |
80 |
+ |
matfp = fopen(argv[++i], "a"); |
81 |
+ |
if (matfp == NULL) { |
82 |
+ |
fprintf(stderr, "%s: cannot append\n", argv[i]); |
83 |
+ |
exit(1); |
84 |
+ |
} |
85 |
+ |
printf(" %s", argv[i]); |
86 |
+ |
break; |
87 |
|
default: |
88 |
|
goto userr; |
89 |
|
} |
101 |
|
} |
102 |
|
exit(0); |
103 |
|
userr: |
104 |
< |
fprintf(stderr, "Usage: %s [-g dist][-m mult] [file.mgf] ..\n", |
104 |
> |
fprintf(stderr, "Usage: %s [-g dist][-e mult][-m matf] [file.mgf] ..\n", |
105 |
|
argv[0]); |
106 |
|
exit(1); |
107 |
|
} |
427 |
|
c_cmaterial->clock = 0; |
428 |
|
if (c_cmaterial->ed > .1) { /* emitter */ |
429 |
|
cvtcolor(radrgb, &c_cmaterial->ed_c, |
430 |
< |
emult*c_cmaterial->ed/WHTEFFICACY); |
430 |
> |
emult*c_cmaterial->ed/(PI*WHTEFFICACY)); |
431 |
|
if (glowdist < FHUGE) { /* do a glow */ |
432 |
< |
printf("\nvoid glow %s\n0\n0\n", mname); |
433 |
< |
printf("4 %f %f %f %f\n", colval(radrgb,RED), |
432 |
> |
fprintf(matfp, "\nvoid glow %s\n0\n0\n", mname); |
433 |
> |
fprintf(matfp, "4 %f %f %f %f\n", colval(radrgb,RED), |
434 |
|
colval(radrgb,GRN), |
435 |
|
colval(radrgb,BLU), glowdist); |
436 |
|
} else { |
437 |
< |
printf("\nvoid light %s\n0\n0\n", mname); |
438 |
< |
printf("3 %f %f %f\n", colval(radrgb,RED), |
437 |
> |
fprintf(matfp, "\nvoid light %s\n0\n0\n", mname); |
438 |
> |
fprintf(matfp, "3 %f %f %f\n", colval(radrgb,RED), |
439 |
|
colval(radrgb,GRN), |
440 |
|
colval(radrgb,BLU)); |
441 |
|
} |
474 |
|
else |
475 |
|
d = c_cmaterial->td + ts; |
476 |
|
scalecolor(radrgb, d); |
477 |
< |
printf("\nvoid trans %s\n0\n0\n", mname); |
478 |
< |
printf("7 %f %f %f\n", colval(radrgb,RED), |
477 |
> |
fprintf(matfp, "\nvoid trans %s\n0\n0\n", mname); |
478 |
> |
fprintf(matfp, "7 %f %f %f\n", colval(radrgb,RED), |
479 |
|
colval(radrgb,GRN), colval(radrgb,BLU)); |
480 |
< |
printf("\t%f %f %f %f\n", c_cmaterial->rs, a5, a6, |
480 |
> |
fprintf(matfp, "\t%f %f %f %f\n", c_cmaterial->rs, a5, a6, |
481 |
|
ts/(ts + c_cmaterial->td)); |
482 |
|
return(mname); |
483 |
|
} |
486 |
|
c_isgrey(&c_cmaterial->rs_c))) { |
487 |
|
cvtcolor(radrgb, &c_cmaterial->rd_c, |
488 |
|
c_cmaterial->rd/(1.-c_cmaterial->rs)); |
489 |
< |
printf("\nvoid plastic %s\n0\n0\n", mname); |
490 |
< |
printf("5 %f %f %f %f %f\n", colval(radrgb,RED), |
489 |
> |
fprintf(matfp, "\nvoid plastic %s\n0\n0\n", mname); |
490 |
> |
fprintf(matfp, "5 %f %f %f %f %f\n", colval(radrgb,RED), |
491 |
|
colval(radrgb,GRN), colval(radrgb,BLU), |
492 |
|
c_cmaterial->rs, c_cmaterial->rs_a); |
493 |
|
return(mname); |
497 |
|
cvtcolor(radrgb, &c_cmaterial->rd_c, c_cmaterial->rd); |
498 |
|
cvtcolor(c2, &c_cmaterial->rs_c, c_cmaterial->rs); |
499 |
|
addcolor(radrgb, c2); |
500 |
< |
printf("\nvoid metal %s\n0\n0\n", mname); |
501 |
< |
printf("5 %f %f %f %f %f\n", colval(radrgb,RED), |
500 |
> |
fprintf(matfp, "\nvoid metal %s\n0\n0\n", mname); |
501 |
> |
fprintf(matfp, "5 %f %f %f %f %f\n", colval(radrgb,RED), |
502 |
|
colval(radrgb,GRN), colval(radrgb,BLU), |
503 |
|
c_cmaterial->rs/(c_cmaterial->rd + c_cmaterial->rs), |
504 |
|
c_cmaterial->rs_a); |