19 |
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|
20 |
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#include "random.h" |
21 |
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|
22 |
< |
#define MINSAMPLES 5 /* minimum number of pretest samples */ |
23 |
< |
#define STESTMAX 30 /* maximum seeks per sample */ |
22 |
> |
#define MINSAMPLES 16 /* minimum number of pretest samples */ |
23 |
> |
#define STESTMAX 32 /* maximum seeks per sample */ |
24 |
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|
25 |
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|
26 |
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double getdisk(); |
41 |
|
o = objptr(i); |
42 |
|
if (!issurface(o->otype) || o->omod == OVOID) |
43 |
|
continue; |
44 |
< |
if (!isvlight(objptr(o->omod)->otype)) |
44 |
> |
if (!isvlight(vsmaterial(o)->otype)) |
45 |
|
continue; |
46 |
|
if (sfun[o->otype].of == NULL || |
47 |
< |
sfun[o->otype].of->getpleq == NULL) |
48 |
< |
objerror(o, USER, "illegal material"); |
47 |
> |
sfun[o->otype].of->getpleq == NULL) { |
48 |
> |
objerror(o,WARNING,"secondary sources not supported"); |
49 |
> |
continue; |
50 |
> |
} |
51 |
|
if (nvobjects == 0) |
52 |
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vobject = (OBJECT *)malloc(sizeof(OBJECT)); |
53 |
|
else |
101 |
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if (o == source[sn].so) /* objects cannot project themselves */ |
102 |
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return; |
103 |
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/* get virtual source material */ |
104 |
< |
vsmat = sfun[objptr(o->omod)->otype].mf; |
104 |
> |
vsmat = sfun[vsmaterial(o)->otype].mf; |
105 |
|
/* project virtual sources */ |
106 |
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for (i = 0; i < vsmat->nproj; i++) |
107 |
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if ((*vsmat->vproj)(proj, o, &source[sn], i)) |
115 |
|
} |
116 |
|
|
117 |
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|
118 |
+ |
OBJREC * |
119 |
+ |
vsmaterial(o) /* get virtual source material pointer */ |
120 |
+ |
OBJREC *o; |
121 |
+ |
{ |
122 |
+ |
register int i; |
123 |
+ |
register OBJREC *m; |
124 |
+ |
|
125 |
+ |
i = o->omod; |
126 |
+ |
m = objptr(i); |
127 |
+ |
if (m->otype != MAT_ILLUM || m->oargs.nsargs < 1 || |
128 |
+ |
!strcmp(m->oargs.sarg[0], VOIDID) || |
129 |
+ |
(i = modifier(m->oargs.sarg[0])) == OVOID) |
130 |
+ |
return(m); /* direct modifier */ |
131 |
+ |
return(objptr(i)); /* illum alternate */ |
132 |
+ |
} |
133 |
+ |
|
134 |
+ |
|
135 |
|
int |
136 |
|
makevsrc(op, sn, pm) /* make virtual source if reasonable */ |
137 |
|
OBJREC *op; |
159 |
|
ourspot.siz = PI*maxrad2; |
160 |
|
ourspot.flen = 0.; |
161 |
|
if (source[sn].sflags & SSPOT) { |
143 |
– |
copystruct(&theirspot, source[sn].sl.s); |
162 |
|
multp3(theirspot.aim, source[sn].sl.s->aim, pm); |
163 |
+ |
/* adjust for source size */ |
164 |
+ |
d = sqrt(dist2(ourspot.aim, theirspot.aim)); |
165 |
+ |
d = sqrt(source[sn].sl.s->siz/PI) + d*source[sn].srad; |
166 |
+ |
theirspot.siz = PI*d*d; |
167 |
+ |
ourspot.flen = theirspot.flen = source[sn].sl.s->flen; |
168 |
|
d = ourspot.siz; |
169 |
|
if (!commonbeam(&ourspot, &theirspot, nsloc)) |
170 |
|
return(-1); /* no overlap */ |
187 |
|
if (source[sn].sflags & SPROX && d > source[sn].sl.prox) |
188 |
|
return(-1); /* too far away */ |
189 |
|
ourspot.flen = 0.; |
190 |
< |
if (d*d > maxrad2) |
191 |
< |
ourspot.siz = 2.*PI*(1. - sqrt(1.-maxrad2/(d*d))); |
190 |
> |
/* adjust for source size */ |
191 |
> |
d = (sqrt(maxrad2) + source[sn].srad) / d; |
192 |
> |
if (d < 1.-FTINY) |
193 |
> |
ourspot.siz = 2.*PI*(1. - sqrt(1.-d*d)); |
194 |
|
else |
195 |
|
nsflags &= ~SSPOT; |
196 |
|
if (source[sn].sflags & SSPOT) { |
220 |
|
if (source[sn].sflags & SFLAT) { /* behind source? */ |
221 |
|
multv3(nsnorm, source[sn].snorm, pm); |
222 |
|
normalize(nsnorm); |
223 |
< |
if (!checkspot(&ourspot, nsnorm)) |
223 |
> |
if (nsflags & SSPOT && !checkspot(&ourspot, nsnorm)) |
224 |
|
return(-1); |
225 |
|
} |
226 |
|
} |
233 |
|
goto memerr; |
234 |
|
source[i].sflags = nsflags; |
235 |
|
VCOPY(source[i].sloc, nsloc); |
236 |
+ |
multv3(source[i].ss[SU], source[sn].ss[SU], pm); |
237 |
+ |
multv3(source[i].ss[SV], source[sn].ss[SV], pm); |
238 |
|
if (nsflags & SFLAT) |
239 |
|
VCOPY(source[i].snorm, nsnorm); |
240 |
< |
source[i].ss = source[sn].ss; source[i].ss2 = source[sn].ss2; |
240 |
> |
else |
241 |
> |
multv3(source[i].ss[SW], source[sn].ss[SW], pm); |
242 |
> |
source[i].srad = source[sn].srad; |
243 |
> |
source[i].ss2 = source[sn].ss2; |
244 |
|
if (nsflags & SSPOT) { |
245 |
|
if ((source[i].sl.s = (SPOT *)malloc(sizeof(SPOT))) == NULL) |
246 |
|
goto memerr; |
299 |
|
RAY sr; |
300 |
|
FVECT onorm; |
301 |
|
FVECT offsdir; |
302 |
+ |
SRCINDEX si; |
303 |
|
double or, d; |
304 |
|
int infront; |
305 |
|
int stestlim, ssn; |
312 |
|
getplaneq(onorm, o); |
313 |
|
/* set number of rays to sample */ |
314 |
|
if (source[sn].sflags & SDISTANT) { |
315 |
< |
n = (2./3.*PI*PI)*or2/(thescene.cusize*thescene.cusize)* |
316 |
< |
vspretest + .5; |
315 |
> |
/* 32. == heuristic constant */ |
316 |
> |
n = 32.*or2/(thescene.cusize*thescene.cusize)*vspretest + .5; |
317 |
|
infront = DOT(onorm, source[sn].sloc) > 0.; |
318 |
|
} else { |
319 |
|
for (i = 0; i < 3; i++) |
320 |
|
offsdir[i] = source[sn].sloc[i] - oc[i]; |
321 |
< |
n = or2/DOT(offsdir,offsdir)*vspretest + .5; |
321 |
> |
d = DOT(offsdir,offsdir); |
322 |
> |
if (d <= FTINY) |
323 |
> |
n = 2.*PI * vspretest + .5; |
324 |
> |
else |
325 |
> |
n = 2.*PI * (1.-sqrt(1./(1.+or2/d)))*vspretest + .5; |
326 |
|
infront = DOT(onorm, offsdir) > 0.; |
327 |
|
} |
328 |
|
if (n < MINSAMPLES) n = MINSAMPLES; |
344 |
|
#endif |
345 |
|
return(f); /* too small a target! */ |
346 |
|
} |
347 |
+ |
multisamp(offsdir, 3, urand(sn*931+5827+ssn)); |
348 |
|
for (i = 0; i < 3; i++) |
349 |
< |
offsdir[i] = or*(1. - |
314 |
< |
2.*urand(urind(931*i+5827,ssn))); |
349 |
> |
offsdir[i] = or*(1. - 2.*offsdir[i]); |
350 |
|
ssn++; |
351 |
|
for (i = 0; i < 3; i++) |
352 |
|
sr.rorg[i] = oc[i] + offsdir[i]; |
364 |
|
rayorigin(&sr, NULL, PRIMARY, 1.0); |
365 |
|
} while (!(*ofun[o->otype].funp)(o, &sr)); |
366 |
|
/* check against source */ |
367 |
+ |
initsrcindex(&si); |
368 |
+ |
si.sn = sn; |
369 |
+ |
nopart(&si, &sr); |
370 |
|
samplendx++; |
371 |
< |
if (srcray(&sr, NULL, sn) == 0.) |
371 |
> |
if (!srcray(&sr, NULL, &si) || sr.rsrc != sn) |
372 |
|
continue; |
373 |
|
sr.revf = srcvalue; |
374 |
|
rayvalue(&sr); |