ViewVC Help
View File | Revision Log | Show Annotations | Download File | Root Listing
root/radiance/src/px/pcond4.c
Revision: 3.1
Committed: Thu Oct 3 16:52:51 1996 UTC (29 years ago) by greg
Content type: text/plain
Branch: MAIN
Log Message: 
Initial revision

File Contents

# User Rev Content
1 greg 3.1 /* Copyright (c) 1996 Regents of the University of California */
2    
3     #ifndef lint
4     static char SCCSid[] = "$SunId$ LBL";
5     #endif
6    
7     /*
8     * Routines for veiling glare and loss of acuity.
9     */
10    
11     #include "pcond.h"
12    
13    
14     #define VADAPT 0.08 /* fraction of adaptation from veil */
15    
16     extern COLOR *fovimg; /* foveal (1 degree) averaged image */
17     extern short fvxr, fvyr; /* foveal image resolution */
18    
19     #define fovscan(y) (fovimg+(y)*fvxr)
20    
21     static COLOR *veilimg; /* veiling image */
22    
23     #define veilscan(y) (veilimg+(y)*fvxr)
24    
25     static FVECT *raydir = NULL; /* ray direction for each pixel */
26    
27     #define rdirscan(y) (raydir+(y)*fvxr)
28    
29    
30     compraydir() /* compute ray directions */
31     {
32     FVECT rorg;
33     double h, v;
34     register int x, y;
35    
36     if (raydir != NULL) /* already done? */
37     return;
38     raydir = (FVECT *)malloc(fvxr*fvyr*sizeof(FVECT));
39     if (raydir == NULL)
40     syserror("malloc");
41    
42     for (y = 0; y < fvyr; y++) {
43     switch (inpres.or) {
44     case YMAJOR: case YMAJOR|XDECR:
45     v = (y+.5)/fvyr; break;
46     case YMAJOR|YDECR: case YMAJOR|YDECR|XDECR:
47     v = 1. - (y+.5)/fvyr; break;
48     case 0: case YDECR:
49     h = (y+.5)/fvyr; break;
50     case XDECR: case XDECR|YDECR:
51     h = 1. - (y+.5)/fvyr; break;
52     }
53     for (x = 0; x < fvxr; x++) {
54     switch (inpres.or) {
55     case YMAJOR: case YMAJOR|YDECR:
56     h = (x+.5)/fvxr; break;
57     case YMAJOR|XDECR: case YMAJOR|XDECR|YDECR:
58     h = 1. - (x+.5)/fvxr; break;
59     case 0: case XDECR:
60     v = (x+.5)/fvxr; break;
61     case YDECR: case YDECR|XDECR:
62     v = 1. - (x+.5)/fvxr; break;
63     }
64     if (viewray(rorg, rdirscan(y)[x], &ourview, h, v)
65     < -FTINY) {
66     rdirscan(y)[x][0] =
67     rdirscan(y)[x][1] =
68     rdirscan(y)[x][2] = 0.0;
69     }
70     }
71     }
72     }
73    
74    
75     compveil() /* compute veiling image */
76     {
77     double t2, t2sum;
78     COLOR ctmp, vsum;
79     int px, py;
80     register int x, y;
81     /* compute ray directions */
82     compraydir();
83     /* compute veil image */
84     veilimg = (COLOR *)malloc(fvxr*fvyr*sizeof(COLOR));
85     if (veilimg == NULL)
86     syserror("malloc");
87     for (py = 0; py < fvyr; py++)
88     for (px = 0; px < fvxr; px++) {
89     t2sum = 0.;
90     setcolor(vsum, 0., 0., 0.);
91     for (y = 0; y < fvyr; y++)
92     for (x = 0; x < fvxr; x++) {
93     if (x == px && y == py) continue;
94     t2 = DOT(rdirscan(py)[px],
95     rdirscan(y)[x]);
96     if (t2 <= FTINY) continue;
97     t2 = acos(t2);
98     t2 = 1./(t2*t2);
99     copycolor(ctmp, fovscan(y)[x]);
100     scalecolor(ctmp, t2);
101     addcolor(vsum, ctmp);
102     t2sum += t2;
103     }
104     /* VADAPT of original is subtracted in addveil() */
105     scalecolor(vsum, VADAPT/t2sum);
106     copycolor(veilscan(py)[px], vsum);
107     }
108     }
109    
110    
111     addveil(sl, y) /* add veil to scanline */
112     COLOR *sl;
113     int y;
114     {
115     int vx, vy;
116     double dx, dy;
117     double lv, uv;
118     register int x, i;
119    
120     vy = dy = (y+.5)/numscans(&inpres)*fvyr - .5;
121     if (vy >= fvyr-1) vy--;
122     dy -= (double)vy;
123     for (x = 0; x < scanlen(&inpres); x++) {
124     vx = dx = (x+.5)/scanlen(&inpres)*fvxr - .5;
125     if (vx >= fvxr-1) vx--;
126     dx -= (double)vx;
127     for (i = 0; i < 3; i++) {
128     lv = (1.-dy)*colval(veilscan(vy)[vx],i) +
129     dy*colval(veilscan(vy+1)[vx],i);
130     uv = (1.-dy)*colval(veilscan(vy)[vx+1],i) +
131     dy*colval(veilscan(vy+1)[vx+1],i);
132     colval(sl[x],i) = (1.-VADAPT)*colval(sl[x],i) +
133     (1.-dx)*lv + dx*uv;
134     }
135     }
136     }