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#include "ray.h" |
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#include "otypes.h" |
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#include "rtotypes.h" |
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#include "pmapmat.h" |
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#ifdef DISPERSE |
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#include "source.h" |
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#define MINCOS 0.997 /* minimum dot product for dispersion */ |
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|
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< |
|
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static double |
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static |
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double |
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mylog( /* special log for extinction coefficients */ |
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double x |
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) |
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} |
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|
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extern int |
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int |
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m_dielectric( /* color a ray which hit a dielectric interface */ |
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OBJREC *m, |
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register RAY *r |
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RAY *r |
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) |
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{ |
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double cos1, cos2, nratio; |
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COLOR ctrans; |
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COLOR talb; |
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int hastexture; |
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double transdist, transtest=0; |
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double mirdist, mirtest=0; |
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double transdist=0, transtest=0; |
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double mirdist=0, mirtest=0; |
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int flatsurface; |
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double refl, trans; |
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FVECT dnorm; |
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double d1, d2; |
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RAY p; |
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register int i; |
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int i; |
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|
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/* PMAP: skip refracted shadow ray if accounted for by photon map */ |
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if (shadowRayInPmap(r)) |
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return(1); |
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|
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if (m->oargs.nfargs != (m->otype==MAT_DIELECTRIC ? 5 : 8)) |
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objerror(m, USER, "bad arguments"); |
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|
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VCOPY(dnorm, r->ron); |
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cos1 = r->rod; |
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} |
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flatsurface = !hastexture && r->ro != NULL && isflat(r->ro->otype); |
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flatsurface = r->ro != NULL && isflat(r->ro->otype) && |
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!hastexture | (r->crtype & AMBIENT); |
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|
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/* index of refraction */ |
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if (m->otype == MAT_DIELECTRIC) |
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addcolor(r->rcol, p.rcol); |
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/* virtual distance */ |
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if (flatsurface || |
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(1.-FTINY <= nratio && |
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< |
nratio <= 1.+FTINY)) { |
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(1.-FTINY <= nratio) & |
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(nratio <= 1.+FTINY)) { |
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transtest = 2*bright(p.rcol); |
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transdist = r->rot + p.rt; |
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} |
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rayorigin(&p, REFLECTED, r, p.rcoef) == 0) { |
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|
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/* compute reflected ray */ |
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for (i = 0; i < 3; i++) |
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p.rdir[i] = r->rdir[i] + 2.0*cos1*dnorm[i]; |
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VSUM(p.rdir, r->rdir, dnorm, 2.*cos1); |
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/* accidental penetration? */ |
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if (hastexture && DOT(p.rdir,r->ron)*hastexture <= FTINY) |
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for (i = 0; i < 3; i++) /* ignore texture */ |
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p.rdir[i] = r->rdir[i] + 2.0*r->rod*r->ron[i]; |
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VSUM(p.rdir, r->rdir, r->ron, 2.*r->rod); |
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checknorm(p.rdir); |
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rayvalue(&p); /* reflected ray value */ |
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VCOPY(n2, r->ron); |
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/* first order dispersion approx. */ |
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< |
dtmp1 = DOT(n1, v1); |
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< |
dtmp2 = DOT(n2, v2); |
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> |
dtmp1 = 1./DOT(n1, v1); |
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> |
dtmp2 = 1./DOT(n2, v2); |
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for (i = 0; i < 3; i++) |
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< |
dv[i] = v1[i] + v2[i] - n1[i]/dtmp1 - n2[i]/dtmp2; |
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> |
dv[i] = v1[i] + v2[i] - n1[i]*dtmp1 - n2[i]*dtmp2; |
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|
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if (DOT(dv, dv) <= FTINY) /* null effect */ |
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return(0); |
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dtmp1 = sqrt(si.dom / v2Xdvv2Xdv / PI); |
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|
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/* compute first ray */ |
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< |
for (i = 0; i < 3; i++) |
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< |
vtmp2[i] = sray.rdir[i] + dtmp1*vtmp1[i]; |
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> |
VSUM(vtmp2, sray.rdir, vtmp1, dtmp1); |
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|
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l1 = lambda(m, v2, dv, vtmp2); /* first lambda */ |
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if (l1 < 0) |
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continue; |
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/* compute second ray */ |
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< |
for (i = 0; i < 3; i++) |
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< |
vtmp2[i] = sray.rdir[i] - dtmp1*vtmp1[i]; |
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> |
VSUM(vtmp2, sray.rdir, vtmp1, -dtmp1); |
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|
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l2 = lambda(m, v2, dv, vtmp2); /* second lambda */ |
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if (l2 < 0) |
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static int |
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lambda( /* compute lambda for material */ |
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< |
register OBJREC *m, |
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> |
OBJREC *m, |
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FVECT v2, |
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FVECT dv, |
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FVECT lr |
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|
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fcross(lrXdv, lr, dv); |
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for (i = 0; i < 3; i++) |
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< |
if (lrXdv[i] > FTINY || lrXdv[i] < -FTINY) |
401 |
> |
if ((lrXdv[i] > FTINY) | (lrXdv[i] < -FTINY)) |
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break; |
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if (i >= 3) |
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return(-1); |