14 |
|
|
15 |
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#include "otypes.h" |
16 |
|
|
17 |
+ |
#include "func.h" |
18 |
+ |
|
19 |
|
/* |
20 |
|
* Arguments to this material include the color and specularity. |
21 |
|
* String arguments include the reflection function and files. |
51 |
|
* rbrtd gbrtd bbrtd |
52 |
|
* funcfile transform |
53 |
|
* 0 |
54 |
< |
* 6+ red grn blu rspec trans tspec A7 .. |
54 |
> |
* 9+ rdf gdf bdf |
55 |
> |
* rdb gdb bdb |
56 |
> |
* rdt gdt bdt A10 .. |
57 |
|
* |
58 |
|
* In addition to the normal variables available to functions, |
59 |
|
* we define the following: |
60 |
|
* NxP, NyP, NzP - perturbed surface normal |
61 |
|
* RdotP - perturbed ray dot product |
62 |
< |
* CrP, CgP, CbP - perturbed material color |
62 |
> |
* CrP, CgP, CbP - perturbed material color (or pattern) |
63 |
|
*/ |
64 |
|
|
61 |
– |
extern double funvalue(), varvalue(); |
62 |
– |
extern XF funcxf; |
63 |
– |
|
65 |
|
typedef struct { |
66 |
|
OBJREC *mp; /* material pointer */ |
67 |
|
RAY *pr; /* intersected ray */ |
68 |
|
DATARRAY *dp; /* data array for PDATA, MDATA or TDATA */ |
69 |
< |
COLOR mcolor; /* color of this material */ |
70 |
< |
double rspec; /* specular reflection */ |
71 |
< |
double rdiff; /* diffuse reflection */ |
72 |
< |
double trans; /* transmissivity */ |
73 |
< |
double tspec; /* specular transmission */ |
74 |
< |
double tdiff; /* diffuse transmission */ |
69 |
> |
COLOR mcolor; /* material (or pattern) color */ |
70 |
> |
COLOR rdiff; /* diffuse reflection */ |
71 |
> |
COLOR tdiff; /* diffuse transmission */ |
72 |
> |
double rspec; /* specular reflectance (1 for BRDTF) */ |
73 |
> |
double trans; /* transmissivity (.5 for BRDTF) */ |
74 |
> |
double tspec; /* specular transmittance (1 for BRDTF) */ |
75 |
|
FVECT pnorm; /* perturbed surface normal */ |
76 |
|
double pdot; /* perturbed dot product */ |
77 |
|
} BRDFDAT; /* BRDF material data */ |
87 |
|
double dtmp; |
88 |
|
COLOR ctmp; |
89 |
|
FVECT ldx; |
90 |
< |
double pt[MAXDIM]; |
90 |
> |
double lddx[3], pt[MAXDIM]; |
91 |
|
register char **sa; |
92 |
|
register int i; |
93 |
|
|
97 |
|
|
98 |
|
if (ldot <= FTINY && ldot >= -FTINY) |
99 |
|
return; /* too close to grazing */ |
100 |
+ |
|
101 |
|
if (ldot < 0.0 ? np->trans <= FTINY : np->trans >= 1.0-FTINY) |
102 |
|
return; /* wrong side */ |
103 |
|
|
104 |
< |
if (ldot > 0.0 && np->rdiff > FTINY) { |
104 |
> |
if (ldot > 0.0) { |
105 |
|
/* |
106 |
|
* Compute and add diffuse reflected component to returned |
107 |
|
* color. The diffuse reflected component will always be |
108 |
|
* modified by the color of the material. |
109 |
|
*/ |
110 |
< |
copycolor(ctmp, np->mcolor); |
111 |
< |
dtmp = ldot * omega * np->rdiff / PI; |
110 |
> |
copycolor(ctmp, np->rdiff); |
111 |
> |
dtmp = ldot * omega / PI; |
112 |
|
scalecolor(ctmp, dtmp); |
113 |
|
addcolor(cval, ctmp); |
114 |
< |
} |
113 |
< |
if (ldot < 0.0 && np->tdiff > FTINY) { |
114 |
> |
} else { |
115 |
|
/* |
116 |
|
* Diffuse transmitted component. |
117 |
|
*/ |
118 |
< |
copycolor(ctmp, np->mcolor); |
119 |
< |
dtmp = -ldot * omega * np->tdiff / PI; |
118 |
> |
copycolor(ctmp, np->tdiff); |
119 |
> |
dtmp = -ldot * omega / PI; |
120 |
|
scalecolor(ctmp, dtmp); |
121 |
|
addcolor(cval, ctmp); |
122 |
|
} |
129 |
|
/* transform light vector */ |
130 |
|
multv3(ldx, ldir, funcxf.xfm); |
131 |
|
for (i = 0; i < 3; i++) |
132 |
< |
ldx[i] /= funcxf.sca; |
132 |
> |
lddx[i] = ldx[i]/funcxf.sca; |
133 |
|
/* compute BRTDF */ |
134 |
|
if (np->mp->otype == MAT_BRTDF) { |
135 |
< |
colval(ctmp,RED) = funvalue(sa[6], 3, ldx); |
135 |
> |
if (sa[6][0] == '0') /* special case */ |
136 |
> |
colval(ctmp,RED) = 0.0; |
137 |
> |
else |
138 |
> |
colval(ctmp,RED) = funvalue(sa[6], 3, lddx); |
139 |
|
if (!strcmp(sa[7],sa[6])) |
140 |
|
colval(ctmp,GRN) = colval(ctmp,RED); |
141 |
|
else |
142 |
< |
colval(ctmp,GRN) = funvalue(sa[7], 3, ldx); |
142 |
> |
colval(ctmp,GRN) = funvalue(sa[7], 3, lddx); |
143 |
|
if (!strcmp(sa[8],sa[6])) |
144 |
|
colval(ctmp,BLU) = colval(ctmp,RED); |
145 |
|
else if (!strcmp(sa[8],sa[7])) |
146 |
|
colval(ctmp,BLU) = colval(ctmp,GRN); |
147 |
|
else |
148 |
< |
colval(ctmp,BLU) = funvalue(sa[8], 3, ldx); |
148 |
> |
colval(ctmp,BLU) = funvalue(sa[8], 3, lddx); |
149 |
|
dtmp = bright(ctmp); |
150 |
|
} else if (np->dp == NULL) { |
151 |
< |
dtmp = funvalue(sa[0], 3, ldx); |
151 |
> |
dtmp = funvalue(sa[0], 3, lddx); |
152 |
|
setcolor(ctmp, dtmp, dtmp, dtmp); |
153 |
|
} else { |
154 |
|
for (i = 0; i < np->dp->nd; i++) |
155 |
< |
pt[i] = funvalue(sa[3+i], 3, ldx); |
155 |
> |
pt[i] = funvalue(sa[3+i], 3, lddx); |
156 |
|
dtmp = datavalue(np->dp, pt); |
157 |
|
dtmp = funvalue(sa[0], 1, &dtmp); |
158 |
|
setcolor(ctmp, dtmp, dtmp, dtmp); |
159 |
|
} |
160 |
< |
if (errno) |
161 |
< |
goto computerr; |
160 |
> |
if (errno) { |
161 |
> |
objerror(np->mp, WARNING, "compute error"); |
162 |
> |
return; |
163 |
> |
} |
164 |
|
if (dtmp <= FTINY) |
165 |
|
return; |
166 |
|
if (ldot > 0.0) { |
167 |
|
/* |
168 |
|
* Compute reflected non-diffuse component. |
169 |
|
*/ |
170 |
< |
if (np->mp->otype == MAT_MFUNC || np->mp->otype == MAT_MDATA) |
170 |
> |
if (np->mp->otype == MAT_MFUNC | np->mp->otype == MAT_MDATA) |
171 |
|
multcolor(ctmp, np->mcolor); |
172 |
|
dtmp = ldot * omega * np->rspec; |
173 |
|
scalecolor(ctmp, dtmp); |
176 |
|
/* |
177 |
|
* Compute transmitted non-diffuse component. |
178 |
|
*/ |
179 |
< |
if (np->mp->otype == MAT_TFUNC || np->mp->otype == MAT_TDATA) |
179 |
> |
if (np->mp->otype == MAT_TFUNC | np->mp->otype == MAT_TDATA) |
180 |
|
multcolor(ctmp, np->mcolor); |
181 |
|
dtmp = -ldot * omega * np->tspec; |
182 |
|
scalecolor(ctmp, dtmp); |
183 |
|
addcolor(cval, ctmp); |
184 |
|
} |
179 |
– |
return; |
180 |
– |
computerr: |
181 |
– |
objerror(np->mp, WARNING, "compute error"); |
182 |
– |
return; |
185 |
|
} |
186 |
|
|
187 |
|
|
188 |
< |
m_brdf(m, r) /* color a ray which hit a BRDF material */ |
188 |
> |
m_brdf(m, r) /* color a ray which hit a BRDTF material */ |
189 |
|
register OBJREC *m; |
190 |
|
register RAY *r; |
191 |
|
{ |
190 |
– |
int minsa, minfa; |
192 |
|
BRDFDAT nd; |
193 |
+ |
RAY sr; |
194 |
|
double transtest, transdist; |
195 |
+ |
int hasrefl, hastrans; |
196 |
|
COLOR ctmp; |
197 |
< |
double dtmp, tspect, rspecr; |
197 |
> |
double dtmp; |
198 |
> |
register MFUNC *mf; |
199 |
|
register int i; |
200 |
|
/* check arguments */ |
201 |
< |
switch (m->otype) { |
202 |
< |
case MAT_PFUNC: case MAT_MFUNC: |
203 |
< |
minsa = 2; minfa = 4; break; |
204 |
< |
case MAT_PDATA: case MAT_MDATA: |
205 |
< |
minsa = 4; minfa = 4; break; |
206 |
< |
case MAT_TFUNC: |
207 |
< |
minsa = 2; minfa = 6; break; |
208 |
< |
case MAT_TDATA: |
209 |
< |
minsa = 4; minfa = 6; break; |
210 |
< |
case MAT_BRTDF: |
211 |
< |
minsa = 10; minfa = 6; break; |
201 |
> |
if (m->oargs.nsargs < 10 | m->oargs.nfargs < 9) |
202 |
> |
objerror(m, USER, "bad # arguments"); |
203 |
> |
nd.mp = m; |
204 |
> |
nd.pr = r; |
205 |
> |
/* dummy values */ |
206 |
> |
nd.rspec = nd.tspec = 1.0; |
207 |
> |
nd.trans = 0.5; |
208 |
> |
/* diffuse reflectance */ |
209 |
> |
if (r->rod > 0.0) |
210 |
> |
setcolor(nd.rdiff, m->oargs.farg[0], |
211 |
> |
m->oargs.farg[1], |
212 |
> |
m->oargs.farg[2]); |
213 |
> |
else |
214 |
> |
setcolor(nd.rdiff, m->oargs.farg[3], |
215 |
> |
m->oargs.farg[4], |
216 |
> |
m->oargs.farg[5]); |
217 |
> |
/* diffuse transmittance */ |
218 |
> |
setcolor(nd.tdiff, m->oargs.farg[6], |
219 |
> |
m->oargs.farg[7], |
220 |
> |
m->oargs.farg[8]); |
221 |
> |
/* get modifiers */ |
222 |
> |
raytexture(r, m->omod); |
223 |
> |
nd.pdot = raynormal(nd.pnorm, r); /* perturb normal */ |
224 |
> |
if (r->rod < 0.0) { /* orient perturbed values */ |
225 |
> |
nd.pdot = -nd.pdot; |
226 |
> |
for (i = 0; i < 3; i++) { |
227 |
> |
nd.pnorm[i] = -nd.pnorm[i]; |
228 |
> |
r->pert[i] = -r->pert[i]; |
229 |
> |
} |
230 |
|
} |
231 |
< |
if (m->oargs.nsargs < minsa || m->oargs.nfargs < minfa) |
231 |
> |
copycolor(nd.mcolor, r->pcol); /* get pattern color */ |
232 |
> |
multcolor(nd.rdiff, nd.mcolor); /* modify diffuse values */ |
233 |
> |
multcolor(nd.tdiff, nd.mcolor); |
234 |
> |
hasrefl = bright(nd.rdiff) > FTINY; |
235 |
> |
hastrans = bright(nd.tdiff) > FTINY; |
236 |
> |
/* load cal file */ |
237 |
> |
nd.dp = NULL; |
238 |
> |
mf = getfunc(m, 9, 0x3f, 0); |
239 |
> |
/* compute transmitted ray */ |
240 |
> |
setbrdfunc(&nd); |
241 |
> |
transtest = 0; |
242 |
> |
errno = 0; |
243 |
> |
setcolor(ctmp, evalue(mf->ep[3]), |
244 |
> |
evalue(mf->ep[4]), |
245 |
> |
evalue(mf->ep[5])); |
246 |
> |
if (errno) |
247 |
> |
objerror(m, WARNING, "compute error"); |
248 |
> |
else if (rayorigin(&sr, r, TRANS, bright(ctmp)) == 0) { |
249 |
> |
if (!(r->crtype & SHADOW) && |
250 |
> |
DOT(r->pert,r->pert) > FTINY*FTINY) { |
251 |
> |
for (i = 0; i < 3; i++) /* perturb direction */ |
252 |
> |
sr.rdir[i] = r->rdir[i] - .75*r->pert[i]; |
253 |
> |
if (normalize(sr.rdir) == 0.0) { |
254 |
> |
objerror(m, WARNING, "illegal perturbation"); |
255 |
> |
VCOPY(sr.rdir, r->rdir); |
256 |
> |
} |
257 |
> |
} else { |
258 |
> |
VCOPY(sr.rdir, r->rdir); |
259 |
> |
transtest = 2; |
260 |
> |
} |
261 |
> |
rayvalue(&sr); |
262 |
> |
multcolor(sr.rcol, ctmp); |
263 |
> |
addcolor(r->rcol, sr.rcol); |
264 |
> |
transtest *= bright(sr.rcol); |
265 |
> |
transdist = r->rot + sr.rt; |
266 |
> |
} |
267 |
> |
if (r->crtype & SHADOW) /* the rest is shadow */ |
268 |
> |
return; |
269 |
> |
/* compute reflected ray */ |
270 |
> |
setbrdfunc(&nd); |
271 |
> |
errno = 0; |
272 |
> |
setcolor(ctmp, evalue(mf->ep[0]), |
273 |
> |
evalue(mf->ep[1]), |
274 |
> |
evalue(mf->ep[2])); |
275 |
> |
if (errno) |
276 |
> |
objerror(m, WARNING, "compute error"); |
277 |
> |
else if (rayorigin(&sr, r, REFLECTED, bright(ctmp)) == 0) { |
278 |
> |
for (i = 0; i < 3; i++) |
279 |
> |
sr.rdir[i] = r->rdir[i] + 2.0*nd.pdot*nd.pnorm[i]; |
280 |
> |
rayvalue(&sr); |
281 |
> |
multcolor(sr.rcol, ctmp); |
282 |
> |
addcolor(r->rcol, sr.rcol); |
283 |
> |
} |
284 |
> |
/* compute ambient */ |
285 |
> |
if (hasrefl) { |
286 |
> |
if (nd.pdot < 0.0) |
287 |
> |
flipsurface(r); |
288 |
> |
ambient(ctmp, r); |
289 |
> |
multcolor(ctmp, nd.rdiff); |
290 |
> |
addcolor(r->rcol, ctmp); /* add to returned color */ |
291 |
> |
if (nd.pdot < 0.0) |
292 |
> |
flipsurface(r); |
293 |
> |
} |
294 |
> |
if (hastrans) { /* from other side */ |
295 |
> |
if (nd.pdot > 0.0) |
296 |
> |
flipsurface(r); |
297 |
> |
ambient(ctmp, r); |
298 |
> |
multcolor(ctmp, nd.tdiff); |
299 |
> |
addcolor(r->rcol, ctmp); |
300 |
> |
if (nd.pdot > 0.0) |
301 |
> |
flipsurface(r); |
302 |
> |
} |
303 |
> |
if (hasrefl | hastrans || m->oargs.sarg[6][0] != '0') |
304 |
> |
direct(r, dirbrdf, &nd); /* add direct component */ |
305 |
> |
/* check distance */ |
306 |
> |
if (transtest > bright(r->rcol)) |
307 |
> |
r->rt = transdist; |
308 |
> |
} |
309 |
> |
|
310 |
> |
|
311 |
> |
|
312 |
> |
m_brdf2(m, r) /* color a ray which hit a BRDF material */ |
313 |
> |
register OBJREC *m; |
314 |
> |
register RAY *r; |
315 |
> |
{ |
316 |
> |
BRDFDAT nd; |
317 |
> |
COLOR ctmp; |
318 |
> |
double dtmp; |
319 |
> |
/* always a shadow */ |
320 |
> |
if (r->crtype & SHADOW) |
321 |
> |
return; |
322 |
> |
/* check arguments */ |
323 |
> |
if (m->oargs.nsargs < (hasdata(m->otype)?4:2) | m->oargs.nfargs < |
324 |
> |
(m->otype==MAT_TFUNC|m->otype==MAT_TDATA?6:4)) |
325 |
|
objerror(m, USER, "bad # arguments"); |
326 |
|
nd.mp = m; |
327 |
|
nd.pr = r; |
328 |
+ |
/* get material color */ |
329 |
+ |
setcolor(nd.mcolor, m->oargs.farg[0], |
330 |
+ |
m->oargs.farg[1], |
331 |
+ |
m->oargs.farg[2]); |
332 |
|
/* get specular component */ |
333 |
|
nd.rspec = m->oargs.farg[3]; |
334 |
< |
/* compute transmission */ |
335 |
< |
if (m->otype == MAT_TFUNC || m->otype == MAT_TDATA |
217 |
< |
|| m->otype == MAT_BRTDF) { |
334 |
> |
/* compute transmittance */ |
335 |
> |
if (m->otype == MAT_TFUNC | m->otype == MAT_TDATA) { |
336 |
|
nd.trans = m->oargs.farg[4]*(1.0 - nd.rspec); |
337 |
|
nd.tspec = nd.trans * m->oargs.farg[5]; |
338 |
< |
nd.tdiff = nd.trans - nd.tspec; |
339 |
< |
} else |
340 |
< |
nd.tdiff = nd.tspec = nd.trans = 0.0; |
341 |
< |
/* early shadow check */ |
342 |
< |
if (r->crtype & SHADOW && (m->otype != MAT_BRTDF || nd.tspec <= FTINY)) |
343 |
< |
return; |
344 |
< |
/* diffuse reflection */ |
345 |
< |
nd.rdiff = 1.0 - nd.trans - nd.rspec; |
346 |
< |
/* get material color */ |
229 |
< |
setcolor(nd.mcolor, m->oargs.farg[0], |
230 |
< |
m->oargs.farg[1], |
231 |
< |
m->oargs.farg[2]); |
338 |
> |
dtmp = nd.trans - nd.tspec; |
339 |
> |
setcolor(nd.tdiff, dtmp, dtmp, dtmp); |
340 |
> |
} else { |
341 |
> |
nd.tspec = nd.trans = 0.0; |
342 |
> |
setcolor(nd.tdiff, 0.0, 0.0, 0.0); |
343 |
> |
} |
344 |
> |
/* compute reflectance */ |
345 |
> |
dtmp = 1.0 - nd.trans - nd.rspec; |
346 |
> |
setcolor(nd.rdiff, dtmp, dtmp, dtmp); |
347 |
|
/* fix orientation */ |
348 |
|
if (r->rod < 0.0) |
349 |
|
flipsurface(r); |
351 |
|
raytexture(r, m->omod); |
352 |
|
nd.pdot = raynormal(nd.pnorm, r); /* perturb normal */ |
353 |
|
multcolor(nd.mcolor, r->pcol); /* modify material color */ |
354 |
< |
transtest = 0; |
354 |
> |
multcolor(nd.rdiff, nd.mcolor); |
355 |
> |
multcolor(nd.tdiff, nd.mcolor); |
356 |
|
/* load auxiliary files */ |
357 |
< |
if (m->otype == MAT_PDATA || m->otype == MAT_MDATA |
242 |
< |
|| m->otype == MAT_TDATA) { |
357 |
> |
if (hasdata(m->otype)) { |
358 |
|
nd.dp = getdata(m->oargs.sarg[1]); |
359 |
< |
for (i = 3; i < m->oargs.nsargs; i++) |
245 |
< |
if (m->oargs.sarg[i][0] == '-') |
246 |
< |
break; |
247 |
< |
if (i-3 != nd.dp->nd) |
248 |
< |
objerror(m, USER, "dimension error"); |
249 |
< |
funcfile(m->oargs.sarg[2]); |
250 |
< |
} else if (m->otype == MAT_BRTDF) { |
251 |
< |
nd.dp = NULL; |
252 |
< |
funcfile(m->oargs.sarg[9]); |
359 |
> |
getfunc(m, 2, 0, 0); |
360 |
|
} else { |
361 |
|
nd.dp = NULL; |
362 |
< |
funcfile(m->oargs.sarg[1]); |
362 |
> |
getfunc(m, 1, 0, 0); |
363 |
|
} |
257 |
– |
/* set special variables */ |
258 |
– |
setbrdfunc(&nd); |
259 |
– |
/* compute transmitted ray */ |
260 |
– |
tspect = 0.; |
261 |
– |
if (m->otype == MAT_BRTDF && nd.tspec > FTINY) { |
262 |
– |
RAY sr; |
263 |
– |
errno = 0; |
264 |
– |
setcolor(ctmp, varvalue(m->oargs.sarg[3]), |
265 |
– |
varvalue(m->oargs.sarg[4]), |
266 |
– |
varvalue(m->oargs.sarg[5])); |
267 |
– |
scalecolor(ctmp, nd.trans); |
268 |
– |
if (errno) |
269 |
– |
objerror(m, WARNING, "compute error"); |
270 |
– |
else if ((tspect = bright(ctmp)) > FTINY && |
271 |
– |
rayorigin(&sr, r, TRANS, tspect) == 0) { |
272 |
– |
if (!(r->crtype & SHADOW) && |
273 |
– |
DOT(r->pert,r->pert) > FTINY*FTINY) { |
274 |
– |
for (i = 0; i < 3; i++) /* perturb direction */ |
275 |
– |
sr.rdir[i] = r->rdir[i] - |
276 |
– |
.75*r->pert[i]; |
277 |
– |
normalize(sr.rdir); |
278 |
– |
} else { |
279 |
– |
VCOPY(sr.rdir, r->rdir); |
280 |
– |
transtest = 2; |
281 |
– |
} |
282 |
– |
rayvalue(&sr); |
283 |
– |
multcolor(sr.rcol, ctmp); |
284 |
– |
addcolor(r->rcol, sr.rcol); |
285 |
– |
transtest *= bright(sr.rcol); |
286 |
– |
transdist = r->rot + sr.rt; |
287 |
– |
} |
288 |
– |
} |
289 |
– |
if (r->crtype & SHADOW) /* the rest is shadow */ |
290 |
– |
return; |
291 |
– |
/* compute reflected ray */ |
292 |
– |
rspecr = 0.; |
293 |
– |
if (m->otype == MAT_BRTDF && nd.rspec > FTINY) { |
294 |
– |
RAY sr; |
295 |
– |
errno = 0; |
296 |
– |
setcolor(ctmp, varvalue(m->oargs.sarg[0]), |
297 |
– |
varvalue(m->oargs.sarg[1]), |
298 |
– |
varvalue(m->oargs.sarg[2])); |
299 |
– |
if (errno) |
300 |
– |
objerror(m, WARNING, "compute error"); |
301 |
– |
else if ((rspecr = bright(ctmp)) > FTINY && |
302 |
– |
rayorigin(&sr, r, REFLECTED, rspecr) == 0) { |
303 |
– |
for (i = 0; i < 3; i++) |
304 |
– |
sr.rdir[i] = r->rdir[i] + |
305 |
– |
2.0*nd.pdot*nd.pnorm[i]; |
306 |
– |
rayvalue(&sr); |
307 |
– |
multcolor(sr.rcol, ctmp); |
308 |
– |
addcolor(r->rcol, sr.rcol); |
309 |
– |
} |
310 |
– |
} |
364 |
|
/* compute ambient */ |
365 |
< |
if ((dtmp = 1.0-nd.trans-rspecr) > FTINY) { |
365 |
> |
if (nd.trans < 1.0-FTINY) { |
366 |
|
ambient(ctmp, r); |
367 |
< |
scalecolor(ctmp, dtmp); |
367 |
> |
scalecolor(ctmp, 1.0-nd.trans); |
368 |
|
multcolor(ctmp, nd.mcolor); /* modified by material color */ |
369 |
|
addcolor(r->rcol, ctmp); /* add to returned color */ |
370 |
|
} |
371 |
< |
if ((dtmp = nd.trans-tspect) > FTINY) { /* from other side */ |
371 |
> |
if (nd.trans > FTINY) { /* from other side */ |
372 |
|
flipsurface(r); |
373 |
|
ambient(ctmp, r); |
374 |
< |
scalecolor(ctmp, dtmp); |
374 |
> |
scalecolor(ctmp, nd.trans); |
375 |
|
multcolor(ctmp, nd.mcolor); |
376 |
|
addcolor(r->rcol, ctmp); |
377 |
|
flipsurface(r); |
378 |
|
} |
379 |
|
/* add direct component */ |
380 |
|
direct(r, dirbrdf, &nd); |
328 |
– |
/* check distance */ |
329 |
– |
if (transtest > bright(r->rcol)) |
330 |
– |
r->rt = transdist; |
381 |
|
} |
382 |
|
|
383 |
|
|