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#include "resolu.h" |
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#include "bsdfrep.h" |
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|
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#ifndef NINCIDENT |
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#define NINCIDENT 37 /* number of samples/hemisphere */ |
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> |
#endif |
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#ifndef GRIDSTEP |
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#define GRIDSTEP 2 /* our grid step size */ |
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#endif |
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#define SAMPRES (GRIDRES/GRIDSTEP) |
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|
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int front_comp = 0; /* front component flags (SDsamp*) */ |
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double min_log10; /* smallest log10 value for plotting */ |
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double overall_max = .0; /* overall maximum BSDF value */ |
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|
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char ourTempDir[TEMPLEN] = ""; /* our temporary directory */ |
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char ourTempDir[TEMPLEN+1] = ""; /* our temporary directory */ |
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|
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const char frpref[] = "rf"; |
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const char ftpref[] = "tf"; |
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|
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#define FEQ(a,b) ((a)-(b) <= 1e-7 && (b)-(a) <= 1e-7) |
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|
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#define set_minlog() (min_log10 = log10(overall_min + 1e-5) - .1) |
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#define set_minlog() overall_min = (overall_min < 1e-5) ? 1e-5 : overall_min; \ |
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min_log10 = log10(overall_min) - .1 |
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|
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char *progname; |
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|
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static char * |
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tfile_name(const char *prefix, const char *suffix, int i) |
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{ |
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static char buf[128]; |
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> |
static char buf[256]; |
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|
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if (!ourTempDir[0]) { /* create temporary directory */ |
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mktemp(strcpy(ourTempDir,TEMPLATE)); |
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{ |
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const double arrow_len = 1.2*bsdf_rad; |
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const double tip_len = 0.2*bsdf_rad; |
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static int cnt = 1; |
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FVECT refl; |
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int i; |
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|
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refl[1] = 2.*nrm[2]*nrm[1]; |
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refl[2] = 2.*nrm[2]*nrm[2] - 1.; |
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|
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printf("\n# Mirror arrow\n"); |
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< |
printf("\narrow_mat cylinder inc_dir\n0\n0\n7"); |
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> |
printf("\n# Mirror arrow #%d\n", cnt); |
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> |
printf("\nshaft_mat cylinder inc_dir%d\n0\n0\n7", cnt); |
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printf("\n\t%f %f %f\n\t%f %f %f\n\t%f\n", |
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origin[0], origin[1], origin[2]+arrow_len, |
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origin[0], origin[1], origin[2], |
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arrow_rad); |
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printf("\narrow_mat cylinder mir_dir\n0\n0\n7"); |
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> |
printf("\nshaft_mat cylinder mir_dir%d\n0\n0\n7", cnt); |
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printf("\n\t%f %f %f\n\t%f %f %f\n\t%f\n", |
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origin[0], origin[1], origin[2], |
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origin[0] + arrow_len*refl[0], |
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origin[1] + arrow_len*refl[1], |
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origin[2] + arrow_len*refl[2], |
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arrow_rad); |
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< |
printf("\narrow_mat cone mir_tip\n0\n0\n8"); |
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> |
printf("\ntip_mat cone mir_tip%d\n0\n0\n8", cnt); |
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printf("\n\t%f %f %f\n\t%f %f %f\n\t%f 0\n", |
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origin[0] + (arrow_len-.5*tip_len)*refl[0], |
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origin[1] + (arrow_len-.5*tip_len)*refl[1], |
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origin[1] + (arrow_len+.5*tip_len)*refl[1], |
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origin[2] + (arrow_len+.5*tip_len)*refl[2], |
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2.*arrow_rad); |
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+ |
++cnt; |
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} |
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|
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/* Put out transmitted direction arrow for the given incident vector */ |
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{ |
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const double arrow_len = 1.2*bsdf_rad; |
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const double tip_len = 0.2*bsdf_rad; |
| 320 |
+ |
static int cnt = 1; |
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int i; |
| 322 |
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|
| 323 |
< |
printf("\n# Transmission arrow\n"); |
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< |
printf("\narrow_mat cylinder trans_dir\n0\n0\n7"); |
| 323 |
> |
printf("\n# Transmission arrow #%d\n", cnt); |
| 324 |
> |
printf("\nshaft_mat cylinder trans_dir%d\n0\n0\n7", cnt); |
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printf("\n\t%f %f %f\n\t%f %f %f\n\t%f\n", |
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origin[0], origin[1], origin[2], |
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origin[0], origin[1], origin[2]-arrow_len, |
| 328 |
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arrow_rad); |
| 329 |
< |
printf("\narrow_mat cone trans_tip\n0\n0\n8"); |
| 329 |
> |
printf("\ntip_mat cone trans_tip%d\n0\n0\n8", cnt); |
| 330 |
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printf("\n\t%f %f %f\n\t%f %f %f\n\t%f 0\n", |
| 331 |
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origin[0], origin[1], origin[2]-arrow_len+.5*tip_len, |
| 332 |
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origin[0], origin[1], origin[2]-arrow_len-.5*tip_len, |
| 333 |
< |
2.*arrow_rad); |
| 333 |
> |
2.*arrow_rad); |
| 334 |
> |
++cnt; |
| 335 |
|
} |
| 336 |
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|
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|
/* Compute rotation (x,y,z) => (xp,yp,zp) */ |
| 386 |
|
printf("\n# Gensurf output corresponding to %d incident directions\n", |
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NINCIDENT); |
| 388 |
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|
| 389 |
< |
printf("\nvoid glow arrow_glow\n0\n0\n4 1 0 1 0\n"); |
| 390 |
< |
printf("\nvoid mixfunc arrow_mat\n4 arrow_glow void 0.25 .\n0\n0\n"); |
| 389 |
> |
printf("\nvoid glow tip_mat\n0\n0\n4 1 0 1 0\n"); |
| 390 |
> |
printf("\nvoid mixfunc shaft_mat\n4 tip_mat void 0.25 .\n0\n0\n"); |
| 391 |
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|
| 392 |
|
for (i = 0; i < NINCIDENT; i++) { |
| 393 |
|
get_ivector(ivec, i); |
| 478 |
|
} |
| 479 |
|
switch (XMLfile[0]) { /* avoid RAYPATH search */ |
| 480 |
|
case '.': |
| 481 |
+ |
case '~': |
| 482 |
|
CASEDIRSEP: |
| 483 |
|
curdir = ""; |
| 484 |
|
break; |
| 520 |
|
if (front_comp) { |
| 521 |
|
printf( |
| 522 |
|
"\n!genrev %s Front \"R*sin(A*t)\" \"R*cos(A*t)\" %d -e \"R:%g;A:%f\" -s | xform -t %g 0 0\n", |
| 523 |
< |
sph_fmat, nsegs, sph_rad, 0.495*PI, sph_xoffset); |
| 523 |
> |
sph_fmat, nsegs, sph_rad, 0.5*PI, sph_xoffset); |
| 524 |
|
printf("\nvoid brighttext front_text\n3 helvet.fnt . FRONT\n0\n"); |
| 525 |
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printf("12\n\t%f %f 0\n\t%f 0 0\n\t0 %f 0\n\t.01 1 -.1\n", |
| 526 |
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-.22*sph_rad + sph_xoffset, -1.4*sph_rad, |
| 536 |
|
if (back_comp) { |
| 537 |
|
printf( |
| 538 |
|
"\n!genrev %s Back \"R*cos(A*t)\" \"R*sin(A*t)\" %d -e \"R:%g;A:%f\" -s | xform -t %g 0 0\n", |
| 539 |
< |
sph_bmat, nsegs, sph_rad, 0.495*PI, -sph_xoffset); |
| 539 |
> |
sph_bmat, nsegs, sph_rad, 0.5*PI, -sph_xoffset); |
| 540 |
|
printf("\nvoid brighttext back_text\n3 helvet.fnt . BACK\n0\n"); |
| 541 |
|
printf("12\n\t%f %f 0\n\t%f 0 0\n\t0 %f 0\n\t.01 1 -.1\n", |
| 542 |
|
-.22*sph_rad - sph_xoffset, -1.4*sph_rad, |
| 760 |
|
} else { |
| 761 |
|
FILE *fp[4]; |
| 762 |
|
if (argc > 5) { |
| 763 |
< |
fprintf(stderr, "%s: too many input files\n", progname); |
| 763 |
> |
fprintf(stderr, "%s: more than 4 hemispheres!\n", progname); |
| 764 |
|
return(1); |
| 765 |
|
} |
| 766 |
|
for (n = 1; n < argc; n++) { |
| 796 |
|
put_scale(); |
| 797 |
|
if (inpXML && myBSDF.mgf) |
| 798 |
|
convert_mgf(myBSDF.mgf); |
| 799 |
< |
if (!put_BSDFs()) |
| 799 |
> |
if (!put_BSDFs()) /* most of the output happens here */ |
| 800 |
|
return(1); |
| 801 |
|
cleanup_tmp(); |
| 802 |
|
return(0); |
