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root/radiance/ray/src/util/vwrays.c
Revision: 3.14
Committed: Mon Jun 22 00:12:04 2009 UTC (14 years, 10 months ago) by greg
Content type: text/plain
Branch: MAIN
CVS Tags: rad4R0
Changes since 3.13: +1 -8 lines
Log Message: 
Removed unnecessary and problematic error check

File Contents

# User Rev Content
1 gregl 3.1 #ifndef lint
2 greg 3.14 static const char RCSid[] = "$Id: vwrays.c,v 3.13 2006/05/07 15:44:28 greg Exp $";
3 gregl 3.1 #endif
4     /*
5     * Compute rays corresponding to a given picture or view.
6     */
7    
8 greg 3.9 #include "platform.h"
9 gregl 3.1 #include "standard.h"
10 greg 3.12 #include "random.h"
11 gregl 3.1 #include "view.h"
12    
13 schorsch 3.10 typedef void putfunc(FVECT ro, FVECT rd);
14     static putfunc puta;
15     static putfunc putf;
16     static putfunc putd;
17     static void pix2rays(FILE *fp);
18     static void putrays(void);
19 gregl 3.1
20 schorsch 3.10 static putfunc *putr = puta;
21 gregl 3.1
22     VIEW vw = STDVIEW;
23    
24     RESOLU rs = {PIXSTANDARD, 512, 512};
25    
26     double pa = 1.;
27    
28 greg 3.12 double pj = 0.;
29    
30 gregl 3.1 int zfd = -1;
31    
32 greg 3.4 int fromstdin = 0;
33    
34 gregl 3.1 char *progname;
35    
36    
37 schorsch 3.10 int
38     main(
39     int argc,
40     char *argv[]
41     )
42 gregl 3.1 {
43     char *err;
44     int rval, getdim = 0;
45     register int i;
46    
47     progname = argv[0];
48     if (argc < 2)
49     goto userr;
50     for (i = 1; i < argc && argv[i][0] == '-'; i++)
51     switch (argv[i][1]) {
52     case 'f': /* output format */
53     switch (argv[i][2]) {
54     case 'a': /* ASCII */
55     putr = puta;
56     break;
57     case 'f': /* float */
58     putr = putf;
59 greg 3.13 SET_FILE_BINARY(stdout);
60 gregl 3.1 break;
61     case 'd': /* double */
62     putr = putd;
63 greg 3.13 SET_FILE_BINARY(stdout);
64 gregl 3.1 break;
65     default:
66     goto userr;
67     }
68     break;
69     case 'v': /* view file or option */
70     if (argv[i][2] == 'f') {
71     rval = viewfile(argv[++i], &vw, NULL);
72     if (rval <= 0) {
73     fprintf(stderr,
74     "%s: no view in file\n",
75     argv[i]);
76     exit(1);
77     }
78     break;
79     }
80     rval = getviewopt(&vw, argc-i, argv+i);
81     if (rval < 0)
82     goto userr;
83     i += rval;
84     break;
85     case 'd': /* report dimensions only */
86     getdim++;
87     break;
88     case 'x': /* x resolution */
89     rs.xr = atoi(argv[++i]);
90     if (rs.xr <= 0) {
91     fprintf(stderr, "%s: bad x resolution\n",
92     progname);
93     exit(1);
94     }
95     break;
96     case 'y': /* y resolution */
97     rs.yr = atoi(argv[++i]);
98     if (rs.yr <= 0) {
99     fprintf(stderr, "%s: bad y resolution\n",
100     progname);
101     exit(1);
102     }
103     break;
104 greg 3.12 case 'p': /* pixel aspect or jitter */
105     if (argv[i][2] == 'a')
106     pa = atof(argv[++i]);
107     else if (argv[i][2] == 'j')
108     pj= atof(argv[++i]);
109     else
110     goto userr;
111 gregl 3.1 break;
112 greg 3.4 case 'i': /* get pixels from stdin */
113     fromstdin = 1;
114     break;
115 gregl 3.1 default:
116     goto userr;
117     }
118 schorsch 3.7 if ((i > argc) | (i+2 < argc))
119 gregl 3.1 goto userr;
120     if (i < argc) {
121     rval = viewfile(argv[i], &vw, &rs);
122     if (rval <= 0) {
123     fprintf(stderr, "%s: no view in picture\n", argv[i]);
124     exit(1);
125     }
126     if (i+1 < argc) {
127     zfd = open(argv[i+1], O_RDONLY);
128     if (zfd < 0) {
129     fprintf(stderr,
130     "%s: cannot open depth buffer\n",
131     argv[i+1]);
132     exit(1);
133     }
134     }
135     }
136     if ((err = setview(&vw)) != NULL) {
137     fprintf(stderr, "%s: %s\n", progname, err);
138     exit(1);
139     }
140     if (i == argc)
141     normaspect(viewaspect(&vw), &pa, &rs.xr, &rs.yr);
142     if (getdim) {
143 gregl 3.3 printf("-x %d -y %d -ld%c\n", rs.xr, rs.yr,
144     vw.vaft > FTINY ? '+' : '-');
145 gregl 3.1 exit(0);
146     }
147 greg 3.4 if (fromstdin)
148     pix2rays(stdin);
149     else
150     putrays();
151 gregl 3.1 exit(0);
152     userr:
153     fprintf(stderr,
154 greg 3.4 "Usage: %s [ -i -f{a|f|d} | -d ] { view opts .. | picture [zbuf] }\n",
155 gregl 3.1 progname);
156     exit(1);
157     }
158    
159    
160 schorsch 3.10 static void
161 greg 3.12 jitterloc(
162     RREAL loc[2]
163     )
164     {
165     if (pj > FTINY) {
166     loc[0] += pj*(.5 - frandom())/rs.xr;
167     loc[1] += pj*(.5 - frandom())/rs.yr;
168     }
169     }
170    
171    
172     static void
173 schorsch 3.10 pix2rays(
174     FILE *fp
175     )
176 greg 3.4 {
177     static FVECT rorg, rdir;
178     float zval;
179     double px, py;
180 greg 3.12 RREAL loc[2];
181 greg 3.4 int pp[2];
182     double d;
183     register int i;
184    
185     while (fscanf(fp, "%lf %lf", &px, &py) == 2) {
186 greg 3.11 px += .5; py += .5;
187 greg 3.12 loc[0] = px/rs.xr; loc[1] = py/rs.yr;
188 greg 3.4 if (zfd >= 0) {
189 greg 3.12 loc2pix(pp, &rs, loc[0], loc[1]);
190 greg 3.4 if (lseek(zfd,
191 greg 3.8 (pp[1]*scanlen(&rs)+pp[0])*sizeof(float),
192     SEEK_SET) < 0 ||
193 greg 3.4 read(zfd, &zval, sizeof(float))
194 greg 3.8 < sizeof(float)) {
195 greg 3.4 fprintf(stderr, "%s: depth buffer read error\n",
196     progname);
197     exit(1);
198     }
199     }
200 greg 3.12 jitterloc(loc);
201     d = viewray(rorg, rdir, &vw, loc[0], loc[1]);
202 greg 3.4 if (d < -FTINY)
203     rorg[0] = rorg[1] = rorg[2] =
204     rdir[0] = rdir[1] = rdir[2] = 0.;
205     else if (zfd >= 0)
206     for (i = 0; i < 3; i++) {
207     rorg[i] += rdir[i]*zval;
208     rdir[i] = -rdir[i];
209     }
210     else if (d > FTINY) {
211     rdir[0] *= d; rdir[1] *= d; rdir[2] *= d;
212     }
213     (*putr)(rorg, rdir);
214     }
215     if (!feof(fp)) {
216     fprintf(stderr, "%s: expected px py on input\n", progname);
217     exit(1);
218     }
219     }
220    
221    
222 schorsch 3.10 static void
223     putrays(void)
224 gregl 3.1 {
225 greg 3.12 RREAL loc[2];
226     FVECT rorg, rdir;
227 schorsch 3.10 float *zbuf = NULL;
228 gregl 3.1 int sc;
229 gregl 3.2 double d;
230 gregl 3.1 register int si, i;
231    
232     if (zfd >= 0) {
233     zbuf = (float *)malloc(scanlen(&rs)*sizeof(float));
234     if (zbuf == NULL) {
235     fprintf(stderr, "%s: not enough memory\n", progname);
236     exit(1);
237     }
238     }
239     for (sc = 0; sc < numscans(&rs); sc++) {
240     if (zfd >= 0) {
241     if (read(zfd, zbuf, scanlen(&rs)*sizeof(float)) <
242     scanlen(&rs)*sizeof(float)) {
243     fprintf(stderr, "%s: depth buffer read error\n",
244     progname);
245     exit(1);
246     }
247     }
248     for (si = 0; si < scanlen(&rs); si++) {
249     pix2loc(loc, &rs, si, sc);
250 greg 3.12 jitterloc(loc);
251 gregl 3.2 d = viewray(rorg, rdir, &vw, loc[0], loc[1]);
252     if (d < -FTINY)
253 gregl 3.1 rorg[0] = rorg[1] = rorg[2] =
254     rdir[0] = rdir[1] = rdir[2] = 0.;
255     else if (zfd >= 0)
256     for (i = 0; i < 3; i++) {
257     rorg[i] += rdir[i]*zbuf[si];
258     rdir[i] = -rdir[i];
259     }
260 gregl 3.2 else if (d > FTINY) {
261     rdir[0] *= d; rdir[1] *= d; rdir[2] *= d;
262     }
263 gregl 3.1 (*putr)(rorg, rdir);
264     }
265     }
266     if (zfd >= 0)
267 greg 3.4 free((void *)zbuf);
268 gregl 3.1 }
269    
270    
271 schorsch 3.10 static void
272     puta( /* put out ray in ASCII format */
273     FVECT ro,
274     FVECT rd
275     )
276 gregl 3.1 {
277     printf("%.5e %.5e %.5e %.5e %.5e %.5e\n",
278     ro[0], ro[1], ro[2],
279     rd[0], rd[1], rd[2]);
280     }
281    
282    
283 schorsch 3.10 static void
284     putf( /* put out ray in float format */
285     FVECT ro,
286     FVECT rd
287     )
288 gregl 3.1 {
289     float v[6];
290    
291     v[0] = ro[0]; v[1] = ro[1]; v[2] = ro[2];
292     v[3] = rd[0]; v[4] = rd[1]; v[5] = rd[2];
293     fwrite(v, sizeof(float), 6, stdout);
294     }
295    
296    
297 schorsch 3.10 static void
298     putd( /* put out ray in double format */
299     FVECT ro,
300     FVECT rd
301     )
302 gregl 3.1 {
303     double v[6];
304    
305     v[0] = ro[0]; v[1] = ro[1]; v[2] = ro[2];
306     v[3] = rd[0]; v[4] = rd[1]; v[5] = rd[2];
307     fwrite(v, sizeof(double), 6, stdout);
308     }