19 |
|
HOLO *hp; /* holodeck pointer */ |
20 |
|
GCOORD gc; /* grid cell */ |
21 |
|
FVECT egp; /* eye grid point */ |
22 |
< |
double erg[2]; /* eye range in wall grid coords */ |
22 |
> |
double erg2; /* mean square eye grid range */ |
23 |
|
double gmin[2], gmax[2]; /* grid coordinate limits */ |
24 |
|
}; /* a grid coordinate range */ |
25 |
|
|
26 |
|
|
27 |
|
static |
28 |
< |
initeyelim(gcl, hd, gc) /* initialize grid coordinate limits */ |
28 |
> |
initeyelim(gcl, hp, gc) /* initialize grid coordinate limits */ |
29 |
|
register struct gclim *gcl; |
30 |
< |
int hd; |
30 |
> |
register HOLO *hp; |
31 |
|
GCOORD *gc; |
32 |
|
{ |
33 |
|
register FLOAT *v; |
34 |
|
register int i; |
35 |
|
|
36 |
< |
gcl->hp = hdlist[hd]; |
37 |
< |
copystruct(&gcl->gc, gc); |
38 |
< |
hdgrid(gcl->egp, gcl->hp, myeye.vpt); |
39 |
< |
for (i = 0; i < 2; i++) { |
40 |
< |
v = gcl->hp->wg[((gcl->gc.w>>1)+i+1)%3]; |
41 |
< |
gcl->erg[i] = myeye.rng * VLEN(v); |
42 |
< |
gcl->gmin[i] = FHUGE; gcl->gmax[i] = -FHUGE; |
36 |
> |
if (hp != NULL) { |
37 |
> |
hdgrid(gcl->egp, gcl->hp = hp, myeye.vpt); |
38 |
> |
gcl->erg2 = 0; |
39 |
> |
for (i = 0, v = hp->wg[0]; i < 3; i++, v += 3) |
40 |
> |
gcl->erg2 += DOT(v,v); |
41 |
> |
gcl->erg2 *= (1./3.) * myeye.rng*myeye.rng; |
42 |
|
} |
43 |
+ |
if (gc != NULL) |
44 |
+ |
copystruct(&gcl->gc, gc); |
45 |
+ |
gcl->gmin[0] = gcl->gmin[1] = FHUGE; |
46 |
+ |
gcl->gmax[0] = gcl->gmax[1] = -FHUGE; |
47 |
|
} |
48 |
|
|
49 |
|
|
50 |
|
static |
51 |
< |
groweyelim(gcl, gp) /* grow grid limits about eye point */ |
51 |
> |
groweyelim(gcl, gc, r0, r1) /* grow grid limits about eye point */ |
52 |
|
register struct gclim *gcl; |
53 |
< |
FVECT gp; |
53 |
> |
GCOORD *gc; |
54 |
> |
double r0, r1; |
55 |
|
{ |
56 |
< |
FVECT ab; |
57 |
< |
double l2, d, mult, wg; |
58 |
< |
register int i, g; |
56 |
> |
FVECT gp, ab; |
57 |
> |
double vlen, plen, dv0, dv1; |
58 |
> |
double rd2, dwall, gpos; |
59 |
> |
int eyeout; |
60 |
> |
register int i, g0, g1; |
61 |
|
|
62 |
+ |
i = gc->w>>1; |
63 |
+ |
if (gc->w&1) |
64 |
+ |
eyeout = (gp[i] = gcl->hp->grid[i]) < gcl->egp[i]; |
65 |
+ |
else |
66 |
+ |
eyeout = (gp[i] = 0) > gcl->egp[i]; |
67 |
+ |
gp[hdwg0[gc->w]] = gc->i[0] + r0; |
68 |
+ |
gp[hdwg1[gc->w]] = gc->i[1] + r1; |
69 |
|
VSUB(ab, gcl->egp, gp); |
70 |
< |
l2 = DOT(ab,ab); |
71 |
< |
if (l2 <= gcl->erg[0]*gcl->erg[1]) { |
70 |
> |
rd2 = DOT(ab,ab); |
71 |
> |
if (rd2 <= gcl->erg2) { |
72 |
|
gcl->gmin[0] = gcl->gmin[1] = -FHUGE; |
73 |
|
gcl->gmax[0] = gcl->gmax[1] = FHUGE; |
74 |
|
return; |
75 |
|
} |
76 |
< |
mult = gp[g = gcl->gc.w>>1]; |
77 |
< |
if (gcl->gc.w&1) |
78 |
< |
mult -= gcl->hp->grid[g]; |
79 |
< |
if (ab[g]*ab[g] > gcl->erg[0]*gcl->erg[1]) |
80 |
< |
mult /= -ab[g]; |
81 |
< |
else if (fabs(ab[hdwg0[gcl->gc.w]]) > fabs(ab[hdwg1[gcl->gc.w]])) |
82 |
< |
mult = (gcl->gc.i[0] + .5 - gp[hdwg0[gcl->gc.w]]) / |
83 |
< |
ab[hdwg0[gcl->gc.w]]; |
84 |
< |
else |
85 |
< |
mult = (gcl->gc.i[1] + .5 - gp[hdwg1[gcl->gc.w]]) / |
86 |
< |
ab[hdwg1[gcl->gc.w]]; |
87 |
< |
for (i = 0; i < 2; i++) { |
88 |
< |
g = ((gcl->gc.w>>1)+i+1)%3; |
89 |
< |
wg = gp[g] + mult*ab[g]; |
90 |
< |
d = mult*gcl->erg[i]; |
91 |
< |
if (d < 0.) d = -d; |
92 |
< |
if (wg - d < gcl->gmin[i]) |
93 |
< |
gcl->gmin[i] = wg - d; |
94 |
< |
if (wg + d > gcl->gmax[i]) |
95 |
< |
gcl->gmax[i] = wg + d; |
76 |
> |
rd2 = gcl->erg2 / rd2; |
77 |
> |
vlen = 1. - rd2; |
78 |
> |
plen = sqrt(rd2 * vlen); |
79 |
> |
g0 = gcl->gc.w>>1; |
80 |
> |
dwall = (gcl->gc.w&1 ? gcl->hp->grid[g0] : 0) - gp[g0]; |
81 |
> |
for (i = 0; i < 4; i++) { |
82 |
> |
if (i == 2) |
83 |
> |
plen = -plen; |
84 |
> |
g1 = (g0+(i&1)+1)%3; |
85 |
> |
dv0 = vlen*ab[g0] + plen*ab[g1]; |
86 |
> |
dv1 = vlen*ab[g1] - plen*ab[g0]; |
87 |
> |
if ((dv0 < 0 ^ dwall < 0 ^ eyeout) || |
88 |
> |
(dv0 <= FTINY && dv0 >= -FTINY)) { |
89 |
> |
if (eyeout) |
90 |
> |
dv1 = -dv1; |
91 |
> |
if (dv1 > FTINY) |
92 |
> |
gcl->gmax[i&1] = FHUGE; |
93 |
> |
else if (dv1 < -FTINY) |
94 |
> |
gcl->gmin[i&1] = -FHUGE; |
95 |
> |
} else { |
96 |
> |
gpos = gp[g1] + dv1*dwall/dv0; |
97 |
> |
if (gpos < gcl->gmin[i&1]) |
98 |
> |
gcl->gmin[i&1] = gpos; |
99 |
> |
if (gpos > gcl->gmax[i&1]) |
100 |
> |
gcl->gmax[i&1] = gpos; |
101 |
> |
} |
102 |
|
} |
103 |
|
} |
104 |
|
|
116 |
|
gcl->gmin[i] = gcl->gc.i[i]; |
117 |
|
if (gcl->gmax[i] > gcl->gc.i[i]+1) |
118 |
|
gcl->gmax[i] = gcl->gc.i[i]+1; |
119 |
< |
if ((incell &= gcl->gmax[i] > gcl->gmin[i])) { |
119 |
> |
if (gcl->gmax[i] > gcl->gmin[i]) { |
120 |
|
rrng[i][0] = 256.*(gcl->gmin[i] - gcl->gc.i[i]) + |
121 |
|
(1.-FTINY); |
122 |
|
rrng[i][1] = 256.*(gcl->gmax[i] - gcl->gc.i[i]) + |
123 |
|
(1.-FTINY) - rrng[i][0]; |
124 |
< |
incell &= rrng[i][1] > 0; |
125 |
< |
} |
124 |
> |
} else |
125 |
> |
rrng[i][0] = rrng[i][1] = 0; |
126 |
> |
incell &= rrng[i][1] > 0; |
127 |
|
} |
128 |
|
return(incell); |
129 |
|
} |
133 |
|
register float *rod; |
134 |
|
register PACKET *p; |
135 |
|
{ |
116 |
– |
#define gp ro |
117 |
– |
#ifdef DEBUG |
118 |
– |
double dist2sum = 0.; |
119 |
– |
FVECT vt; |
120 |
– |
#endif |
136 |
|
int nretries = p->nr + 2; |
137 |
|
struct gclim eyelim; |
138 |
|
short rrng0[2][2], rrng1[2][2]; |
145 |
|
if (!hdbcoord(gc, hdlist[p->hd], p->bi)) |
146 |
|
error(CONSISTENCY, "bad beam index in packrays"); |
147 |
|
if ((useyelim = myeye.rng > FTINY)) { |
148 |
< |
initeyelim(&eyelim, p->hd, gc); |
149 |
< |
gp[gc[1].w>>1] = gc[1].w&1 ? |
150 |
< |
hdlist[p->hd]->grid[gc[1].w>>1] : 0; |
136 |
< |
gp[hdwg0[gc[1].w]] = gc[1].i[0]; |
137 |
< |
gp[hdwg1[gc[1].w]] = gc[1].i[1]; |
138 |
< |
groweyelim(&eyelim, gp); |
139 |
< |
gp[hdwg0[gc[1].w]]++; |
140 |
< |
gp[hdwg1[gc[1].w]]++; |
141 |
< |
groweyelim(&eyelim, gp); |
148 |
> |
initeyelim(&eyelim, hdlist[p->hd], gc); |
149 |
> |
groweyelim(&eyelim, gc+1, 0., 0.); |
150 |
> |
groweyelim(&eyelim, gc+1, 1., 1.); |
151 |
|
useyelim &= clipeyelim(rrng0, &eyelim); |
152 |
|
} |
153 |
|
for (i = 0; i < p->nr; i++) { |
154 |
|
retry: |
155 |
|
if (useyelim) { |
156 |
+ |
initeyelim(&eyelim, NULL, gc+1); |
157 |
|
p->ra[i].r[0][0] = (int)(frandom()*rrng0[0][1]) |
158 |
|
+ rrng0[0][0]; |
159 |
|
p->ra[i].r[0][1] = (int)(frandom()*rrng0[1][1]) |
160 |
|
+ rrng0[1][0]; |
161 |
< |
initeyelim(&eyelim, p->hd, gc+1); |
162 |
< |
gp[gc[0].w>>1] = gc[0].w&1 ? |
163 |
< |
hdlist[p->hd]->grid[gc[0].w>>1] : 0; |
154 |
< |
gp[hdwg0[gc[0].w]] = gc[0].i[0] + |
155 |
< |
(1./256.)*(p->ra[i].r[0][0]+.5); |
156 |
< |
gp[hdwg1[gc[0].w]] = gc[0].i[1] + |
157 |
< |
(1./256.)*(p->ra[i].r[0][1]+.5); |
158 |
< |
groweyelim(&eyelim, gp); |
161 |
> |
groweyelim(&eyelim, gc, |
162 |
> |
(1./256.)*(p->ra[i].r[0][0]+.5), |
163 |
> |
(1./256.)*(p->ra[i].r[0][1]+.5)); |
164 |
|
if (!clipeyelim(rrng1, &eyelim)) { |
165 |
|
useyelim &= nretries-- > 0; |
161 |
– |
#ifdef DEBUG |
162 |
– |
if (!useyelim) |
163 |
– |
error(WARNING, "exceeded retry limit in packrays"); |
164 |
– |
#endif |
166 |
|
goto retry; |
167 |
|
} |
168 |
|
p->ra[i].r[1][0] = (int)(frandom()*rrng1[0][1]) |
176 |
|
p->ra[i].r[1][1] = frandom() * 256.; |
177 |
|
} |
178 |
|
d = hdray(ro, rd, hdlist[p->hd], gc, p->ra[i].r); |
178 |
– |
#ifdef DEBUG |
179 |
– |
VSUM(vt, ro, rd, d); |
180 |
– |
dist2sum += dist2line(myeye.vpt, ro, vt); |
181 |
– |
#endif |
179 |
|
if (p->offset != NULL) { |
180 |
|
if (!vdef(OBSTRUCTIONS)) |
181 |
|
d *= frandom(); /* random offset */ |
187 |
|
VCOPY(rod, rd); |
188 |
|
rod += 3; |
189 |
|
} |
193 |
– |
#ifdef DEBUG |
194 |
– |
fprintf(stderr, "RMS distance = %f\n", sqrt(dist2sum/p->nr)); |
195 |
– |
#endif |
196 |
– |
#undef gp |
190 |
|
} |
191 |
|
|
192 |
|
|