ViewVC Help
View File | Revision Log | Show Annotations | Download File | Root Listing
root/radiance/ray/src/px/pinterp.c
Revision: 2.21
Committed: Mon Dec 26 21:02:31 1994 UTC (29 years, 4 months ago) by greg
Content type: text/plain
Branch: MAIN
Changes since 2.20: +42 -10 lines
Log Message: 
add -e exposure option and fixed small bug

File Contents

# User Rev Content
1 greg 2.14 /* Copyright (c) 1994 Regents of the University of California */
2 greg 1.34
3 greg 1.1 #ifndef lint
4     static char SCCSid[] = "$SunId$ LBL";
5     #endif
6    
7     /*
8     * Interpolate and extrapolate pictures with different view parameters.
9     *
10     * Greg Ward 09Dec89
11     */
12    
13     #include "standard.h"
14    
15 greg 2.3 #include <ctype.h>
16    
17 greg 1.1 #include "view.h"
18    
19     #include "color.h"
20    
21 greg 1.34 #include "resolu.h"
22    
23 greg 2.21 #define LOG2 0.69314718055994530942
24    
25 greg 1.17 #define pscan(y) (ourpict+(y)*hresolu)
26 greg 2.19 #define sscan(y) (ourspict+(y)*hresolu)
27     #define wscan(y) (ourweigh+(y)*hresolu)
28 greg 1.17 #define zscan(y) (ourzbuf+(y)*hresolu)
29 greg 2.19 #define averaging (ourweigh != NULL)
30 greg 1.1
31 greg 2.20 #define MAXWT 1000. /* maximum pixel weight (averaging) */
32 greg 2.19
33 greg 1.13 #define F_FORE 1 /* fill foreground */
34     #define F_BACK 2 /* fill background */
35 greg 1.11
36 greg 2.3 #define PACKSIZ 256 /* max. calculation packet size */
37 greg 1.13
38 greg 2.4 #define RTCOM "rtrace -h- -ovl -fff "
39 greg 1.13
40 greg 1.3 #define ABS(x) ((x)>0?(x):-(x))
41    
42 greg 1.15 struct position {int x,y; float z;};
43    
44 greg 2.16 #define NSTEPS 64 /* number steps in overlap prescan */
45     #define MINSTEP 4 /* minimum worthwhile preview step */
46    
47     struct bound {int min,max;};
48    
49 greg 1.17 VIEW ourview = STDVIEW; /* desired view */
50     int hresolu = 512; /* horizontal resolution */
51     int vresolu = 512; /* vertical resolution */
52 greg 1.18 double pixaspect = 1.0; /* pixel aspect ratio */
53 greg 1.1
54 greg 1.8 double zeps = .02; /* allowed z epsilon */
55 greg 1.1
56 greg 2.19 COLR *ourpict; /* output picture (COLR's) */
57 greg 2.20 COLOR *ourspict; /* output pixel sums (averaging) */
58     float *ourweigh = NULL; /* output pixel weights (averaging) */
59 greg 1.1 float *ourzbuf; /* corresponding z-buffer */
60    
61     char *progname;
62    
63 greg 1.25 int fillo = F_FORE|F_BACK; /* selected fill options */
64 greg 1.26 int fillsamp = 0; /* sample separation (0 == inf) */
65 greg 1.14 extern int backfill(), rcalfill(); /* fill functions */
66 greg 1.25 int (*fillfunc)() = backfill; /* selected fill function */
67 greg 1.11 COLR backcolr = BLKCOLR; /* background color */
68 greg 2.19 COLOR backcolor = BLKCOLOR; /* background color (float) */
69 greg 1.13 double backz = 0.0; /* background z value */
70 greg 1.16 int normdist = 1; /* normalized distance? */
71 greg 2.21 double ourexp = -1; /* original picture exposure */
72     int expadj = 0; /* exposure adjustment (f-stops) */
73     double rexpadj = 1; /* real exposure adjustment */
74 greg 1.11
75 greg 1.17 VIEW theirview = STDVIEW; /* input view */
76 greg 1.16 int gotview; /* got input view? */
77 greg 1.33 int wrongformat = 0; /* input in another format? */
78 greg 1.34 RESOLU tresolu; /* input resolution */
79 greg 1.17 double theirexp; /* input picture exposure */
80 greg 2.19 MAT4 theirs2ours; /* transformation matrix */
81 greg 1.30 int hasmatrix = 0; /* has transformation matrix */
82 greg 1.1
83 greg 2.3 int PDesc[3] = {-1,-1,-1}; /* rtrace process descriptor */
84     #define childpid (PDesc[2])
85     unsigned short queue[PACKSIZ][2]; /* pending pixels */
86     int packsiz; /* actual packet size */
87 greg 1.13 int queuesiz; /* number of pixels pending */
88 greg 1.5
89 greg 2.19 extern double movepixel();
90 greg 1.13
91 greg 2.19
92 greg 1.1 main(argc, argv) /* interpolate pictures */
93     int argc;
94     char *argv[];
95     {
96 greg 2.3 #define check(ol,al) if (argv[i][ol] || \
97     badarg(argc-i-1,argv+i+1,al)) \
98     goto badopt
99 greg 1.1 int gotvfile = 0;
100 greg 2.19 int doavg = -1;
101 greg 1.11 char *zfile = NULL;
102 greg 2.21 char *expcomp = NULL;
103 greg 1.1 char *err;
104 greg 1.17 int i, rval;
105 greg 1.1
106     progname = argv[0];
107    
108 greg 1.17 for (i = 1; i < argc && argv[i][0] == '-'; i++) {
109     rval = getviewopt(&ourview, argc-i, argv+i);
110     if (rval >= 0) {
111     i += rval;
112     continue;
113     }
114 greg 1.1 switch (argv[i][1]) {
115 greg 2.21 case 'e': /* exposure */
116     check(2,"f");
117     expcomp = argv[++i];
118     break;
119 greg 1.1 case 't': /* threshold */
120 greg 2.3 check(2,"f");
121 greg 1.1 zeps = atof(argv[++i]);
122     break;
123 greg 2.19 case 'a': /* average */
124     check(2,NULL);
125     doavg = 1;
126     break;
127     case 'q': /* quick (no avg.) */
128     check(2,NULL);
129     doavg = 0;
130     break;
131 greg 1.11 case 'n': /* dist. normalized? */
132 greg 2.3 check(2,NULL);
133 greg 1.11 normdist = !normdist;
134 greg 1.10 break;
135 greg 1.11 case 'f': /* fill type */
136     switch (argv[i][2]) {
137     case '0': /* none */
138 greg 2.3 check(3,NULL);
139 greg 1.25 fillo = 0;
140 greg 1.11 break;
141     case 'f': /* foreground */
142 greg 2.3 check(3,NULL);
143 greg 1.25 fillo = F_FORE;
144 greg 1.11 break;
145     case 'b': /* background */
146 greg 2.3 check(3,NULL);
147 greg 1.25 fillo = F_BACK;
148 greg 1.11 break;
149     case 'a': /* all */
150 greg 2.3 check(3,NULL);
151 greg 1.25 fillo = F_FORE|F_BACK;
152 greg 1.11 break;
153 greg 1.25 case 's': /* sample */
154 greg 2.3 check(3,"i");
155 greg 1.26 fillsamp = atoi(argv[++i]);
156 greg 1.25 break;
157 greg 1.11 case 'c': /* color */
158 greg 2.3 check(3,"fff");
159 greg 1.25 fillfunc = backfill;
160 greg 2.19 setcolor(backcolor, atof(argv[i+1]),
161 greg 1.11 atof(argv[i+2]), atof(argv[i+3]));
162 greg 2.19 setcolr(backcolr, colval(backcolor,RED),
163     colval(backcolor,GRN),
164     colval(backcolor,BLU));
165 greg 1.11 i += 3;
166     break;
167 greg 1.13 case 'z': /* z value */
168 greg 2.3 check(3,"f");
169 greg 1.25 fillfunc = backfill;
170 greg 1.13 backz = atof(argv[++i]);
171     break;
172     case 'r': /* rtrace */
173 greg 2.3 check(3,"s");
174 greg 1.25 fillfunc = rcalfill;
175 greg 1.13 calstart(RTCOM, argv[++i]);
176     break;
177 greg 1.11 default:
178     goto badopt;
179     }
180     break;
181     case 'z': /* z file */
182 greg 2.3 check(2,"s");
183 greg 1.11 zfile = argv[++i];
184     break;
185 greg 1.6 case 'x': /* x resolution */
186 greg 2.3 check(2,"i");
187 greg 1.17 hresolu = atoi(argv[++i]);
188 greg 1.6 break;
189     case 'y': /* y resolution */
190 greg 2.3 check(2,"i");
191 greg 1.17 vresolu = atoi(argv[++i]);
192 greg 1.6 break;
193 greg 1.18 case 'p': /* pixel aspect */
194 greg 2.6 if (argv[i][2] != 'a')
195     goto badopt;
196     check(3,"f");
197 greg 1.18 pixaspect = atof(argv[++i]);
198     break;
199 greg 1.17 case 'v': /* view file */
200     if (argv[i][2] != 'f')
201 greg 1.1 goto badopt;
202 greg 2.3 check(3,"s");
203 greg 1.19 gotvfile = viewfile(argv[++i], &ourview, 0, 0);
204 greg 2.10 if (gotvfile < 0)
205     syserror(argv[i]);
206     else if (gotvfile == 0) {
207 greg 1.17 fprintf(stderr, "%s: bad view file\n",
208     argv[i]);
209     exit(1);
210 greg 1.1 }
211     break;
212     default:
213     badopt:
214 greg 1.10 fprintf(stderr, "%s: command line error at '%s'\n",
215 greg 1.1 progname, argv[i]);
216 greg 1.10 goto userr;
217 greg 1.1 }
218 greg 1.17 }
219 greg 1.1 /* check arguments */
220 greg 1.13 if ((argc-i)%2)
221 greg 1.10 goto userr;
222 greg 2.3 if (fillsamp == 1)
223     fillo &= ~F_BACK;
224 greg 2.20 if (doavg < 0)
225     doavg = (argc-i) > 2;
226 greg 2.21 if (expcomp != NULL)
227     if (expcomp[0] == '+' | expcomp[0] == '-') {
228     expadj = atof(expcomp) + (expcomp[0]=='+' ? .5 : -.5);
229     if (doavg)
230     rexpadj = pow(2.0, atof(expcomp));
231     else
232     rexpadj = pow(2.0, (double)expadj);
233     } else {
234     if (!isflt(expcomp))
235     goto userr;
236     rexpadj = atof(expcomp);
237     expadj = log(rexpadj)/LOG2 + (rexpadj>1 ? .5 : -.5);
238     if (!doavg)
239     rexpadj = pow(2.0, (double)expadj);
240     }
241 greg 1.1 /* set view */
242 greg 2.15 if ((err = setview(&ourview)) != NULL) {
243 greg 1.1 fprintf(stderr, "%s: %s\n", progname, err);
244     exit(1);
245     }
246 greg 1.18 normaspect(viewaspect(&ourview), &pixaspect, &hresolu, &vresolu);
247 greg 1.1 /* allocate frame */
248 greg 2.19 if (doavg) {
249     ourspict = (COLOR *)bmalloc(hresolu*vresolu*sizeof(COLOR));
250     ourweigh = (float *)bmalloc(hresolu*vresolu*sizeof(float));
251     if (ourspict == NULL | ourweigh == NULL)
252     syserror(progname);
253     } else {
254     ourpict = (COLR *)bmalloc(hresolu*vresolu*sizeof(COLR));
255     if (ourpict == NULL)
256     syserror(progname);
257     }
258 greg 2.7 ourzbuf = (float *)bmalloc(hresolu*vresolu*sizeof(float));
259 greg 2.19 if (ourzbuf == NULL)
260 greg 2.10 syserror(progname);
261 greg 2.7 bzero((char *)ourzbuf, hresolu*vresolu*sizeof(float));
262 greg 2.13 /* new header */
263     newheader("RADIANCE", stdout);
264 greg 1.1 /* get input */
265     for ( ; i < argc; i += 2)
266     addpicture(argv[i], argv[i+1]);
267     /* fill in spaces */
268 greg 1.25 if (fillo&F_BACK)
269 greg 1.26 backpicture(fillfunc, fillsamp);
270 greg 1.12 else
271 greg 1.25 fillpicture(fillfunc);
272 greg 1.13 /* close calculation */
273 greg 1.14 caldone();
274 greg 2.15 /* aft clipping */
275     clipaft();
276 greg 1.1 /* add to header */
277     printargs(argc, argv, stdout);
278     if (gotvfile) {
279 greg 1.25 fputs(VIEWSTR, stdout);
280 greg 1.1 fprintview(&ourview, stdout);
281 greg 1.25 putc('\n', stdout);
282 greg 1.1 }
283 greg 2.21 if (pixaspect < .99 | pixaspect > 1.01)
284 greg 1.18 fputaspect(pixaspect, stdout);
285 greg 2.21 if (ourexp > 0)
286     ourexp *= rexpadj;
287     else
288     ourexp = rexpadj;
289     if (ourexp < .995 | ourexp > 1.005)
290 greg 1.16 fputexpos(ourexp, stdout);
291 greg 1.33 fputformat(COLRFMT, stdout);
292 greg 1.25 putc('\n', stdout);
293 greg 1.11 /* write picture */
294 greg 1.1 writepicture();
295 greg 1.11 /* write z file */
296     if (zfile != NULL)
297     writedistance(zfile);
298 greg 1.1
299     exit(0);
300 greg 1.10 userr:
301     fprintf(stderr,
302 greg 2.21 "Usage: %s [view opts][-t eps][-z zout][-e spec][-a|-q][-fT][-n] pfile zspec ..\n",
303 greg 1.10 progname);
304     exit(1);
305 greg 1.1 #undef check
306     }
307    
308    
309     headline(s) /* process header string */
310     char *s;
311     {
312 greg 1.33 char fmt[32];
313 greg 1.1
314 greg 2.13 if (isheadid(s))
315     return;
316     if (formatval(fmt, s)) {
317 greg 1.33 wrongformat = strcmp(fmt, COLRFMT);
318     return;
319     }
320 greg 1.25 putc('\t', stdout);
321     fputs(s, stdout);
322 greg 1.1
323 greg 1.16 if (isexpos(s)) {
324     theirexp *= exposval(s);
325     return;
326     }
327 greg 2.5 if (isview(s) && sscanview(&theirview, s) > 0)
328     gotview++;
329 greg 1.1 }
330    
331    
332 greg 1.10 addpicture(pfile, zspec) /* add picture to output */
333     char *pfile, *zspec;
334 greg 1.1 {
335 greg 1.19 FILE *pfp;
336     int zfd;
337 greg 1.8 char *err;
338 greg 1.1 COLR *scanin;
339 greg 1.15 float *zin;
340     struct position *plast;
341 greg 2.16 struct bound *xlim, ylim;
342 greg 1.1 int y;
343 greg 1.10 /* open picture file */
344 greg 2.10 if ((pfp = fopen(pfile, "r")) == NULL)
345     syserror(pfile);
346 greg 1.16 /* get header with exposure and view */
347     theirexp = 1.0;
348     gotview = 0;
349 greg 1.1 printf("%s:\n", pfile);
350 greg 1.33 getheader(pfp, headline, NULL);
351 greg 1.34 if (wrongformat || !gotview || !fgetsresolu(&tresolu, pfp)) {
352 greg 1.33 fprintf(stderr, "%s: picture format error\n", pfile);
353 greg 1.1 exit(1);
354     }
355 greg 1.16 if (ourexp <= 0)
356     ourexp = theirexp;
357     else if (ABS(theirexp-ourexp) > .01*ourexp)
358     fprintf(stderr, "%s: different exposure (warning)\n", pfile);
359 greg 1.1 if (err = setview(&theirview)) {
360     fprintf(stderr, "%s: %s\n", pfile, err);
361     exit(1);
362     }
363 greg 1.5 /* compute transformation */
364 greg 1.30 hasmatrix = pixform(theirs2ours, &theirview, &ourview);
365 greg 2.16 /* get z specification or file */
366 greg 1.34 zin = (float *)malloc(scanlen(&tresolu)*sizeof(float));
367 greg 2.16 if (zin == NULL)
368 greg 2.10 syserror(progname);
369 greg 1.19 if ((zfd = open(zspec, O_RDONLY)) == -1) {
370 greg 1.10 double zvalue;
371     register int x;
372 greg 2.19 if (!isflt(zspec) || (zvalue = atof(zspec)) <= 0.0)
373 greg 2.10 syserror(zspec);
374 greg 1.34 for (x = scanlen(&tresolu); x-- > 0; )
375 greg 1.10 zin[x] = zvalue;
376     }
377 greg 2.16 /* compute transferrable perimeter */
378     xlim = (struct bound *)malloc(numscans(&tresolu)*sizeof(struct bound));
379     if (xlim == NULL)
380     syserror(progname);
381     if (!getperim(xlim, &ylim, zin, zfd)) { /* overlapping area? */
382     free((char *)zin);
383     free((char *)xlim);
384     if (zfd != -1)
385     close(zfd);
386     fclose(pfp);
387     return;
388     }
389     /* allocate scanlines */
390     scanin = (COLR *)malloc(scanlen(&tresolu)*sizeof(COLR));
391     plast = (struct position *)calloc(scanlen(&tresolu),
392     sizeof(struct position));
393     if (scanin == NULL | plast == NULL)
394     syserror(progname);
395     /* skip to starting point */
396     for (y = 0; y < ylim.min; y++)
397     if (freadcolrs(scanin, scanlen(&tresolu), pfp) < 0) {
398     fprintf(stderr, "%s: read error\n", pfile);
399     exit(1);
400     }
401     if (zfd != -1 && lseek(zfd,
402     (long)ylim.min*scanlen(&tresolu)*sizeof(float), 0) < 0)
403     syserror(zspec);
404 greg 1.1 /* load image */
405 greg 2.16 for (y = ylim.min; y <= ylim.max; y++) {
406 greg 1.34 if (freadcolrs(scanin, scanlen(&tresolu), pfp) < 0) {
407 greg 1.1 fprintf(stderr, "%s: read error\n", pfile);
408     exit(1);
409     }
410 greg 2.16 if (zfd != -1 && read(zfd, (char *)zin,
411 greg 1.34 scanlen(&tresolu)*sizeof(float))
412 greg 2.16 < scanlen(&tresolu)*sizeof(float))
413     syserror(zspec);
414     addscanline(xlim+y, y, scanin, zin, plast);
415 greg 1.1 }
416     /* clean up */
417 greg 2.16 free((char *)xlim);
418 greg 1.1 free((char *)scanin);
419     free((char *)zin);
420 greg 1.9 free((char *)plast);
421 greg 1.1 fclose(pfp);
422 greg 1.19 if (zfd != -1)
423     close(zfd);
424 greg 1.1 }
425    
426    
427 greg 1.5 pixform(xfmat, vw1, vw2) /* compute view1 to view2 matrix */
428 greg 2.19 register MAT4 xfmat;
429 greg 1.5 register VIEW *vw1, *vw2;
430     {
431     double m4t[4][4];
432    
433 greg 1.30 if (vw1->type != VT_PER && vw1->type != VT_PAR)
434     return(0);
435     if (vw2->type != VT_PER && vw2->type != VT_PAR)
436     return(0);
437 greg 1.5 setident4(xfmat);
438 greg 1.17 xfmat[0][0] = vw1->hvec[0];
439     xfmat[0][1] = vw1->hvec[1];
440     xfmat[0][2] = vw1->hvec[2];
441     xfmat[1][0] = vw1->vvec[0];
442     xfmat[1][1] = vw1->vvec[1];
443     xfmat[1][2] = vw1->vvec[2];
444 greg 1.5 xfmat[2][0] = vw1->vdir[0];
445     xfmat[2][1] = vw1->vdir[1];
446     xfmat[2][2] = vw1->vdir[2];
447     xfmat[3][0] = vw1->vp[0];
448     xfmat[3][1] = vw1->vp[1];
449     xfmat[3][2] = vw1->vp[2];
450     setident4(m4t);
451 greg 1.17 m4t[0][0] = vw2->hvec[0]/vw2->hn2;
452     m4t[1][0] = vw2->hvec[1]/vw2->hn2;
453     m4t[2][0] = vw2->hvec[2]/vw2->hn2;
454     m4t[3][0] = -DOT(vw2->vp,vw2->hvec)/vw2->hn2;
455     m4t[0][1] = vw2->vvec[0]/vw2->vn2;
456     m4t[1][1] = vw2->vvec[1]/vw2->vn2;
457     m4t[2][1] = vw2->vvec[2]/vw2->vn2;
458     m4t[3][1] = -DOT(vw2->vp,vw2->vvec)/vw2->vn2;
459 greg 1.5 m4t[0][2] = vw2->vdir[0];
460     m4t[1][2] = vw2->vdir[1];
461     m4t[2][2] = vw2->vdir[2];
462     m4t[3][2] = -DOT(vw2->vp,vw2->vdir);
463     multmat4(xfmat, xfmat, m4t);
464 greg 1.30 return(1);
465 greg 1.5 }
466    
467    
468 greg 2.16 addscanline(xl, y, pline, zline, lasty) /* add scanline to output */
469     struct bound *xl;
470 greg 1.1 int y;
471     COLR *pline;
472     float *zline;
473 greg 1.15 struct position *lasty; /* input/output */
474 greg 1.1 {
475 greg 1.30 FVECT pos;
476 greg 1.15 struct position lastx, newpos;
477 greg 2.19 double wt;
478 greg 1.1 register int x;
479    
480 greg 1.20 lastx.z = 0;
481 greg 2.16 for (x = xl->max; x >= xl->min; x--) {
482 greg 1.34 pix2loc(pos, &tresolu, x, y);
483 greg 1.5 pos[2] = zline[x];
484 greg 2.19 if ((wt = movepixel(pos)) <= FTINY) {
485 greg 1.15 lasty[x].z = lastx.z = 0; /* mark invalid */
486 greg 1.1 continue;
487 greg 1.15 }
488 greg 2.19 /* add pixel to our image */
489 greg 1.17 newpos.x = pos[0] * hresolu;
490     newpos.y = pos[1] * vresolu;
491 greg 1.15 newpos.z = zline[x];
492 greg 2.19 addpixel(&newpos, &lastx, &lasty[x], pline[x], wt, pos[2]);
493     lasty[x].x = lastx.x = newpos.x;
494     lasty[x].y = lastx.y = newpos.y;
495     lasty[x].z = lastx.z = newpos.z;
496 greg 1.1 }
497     }
498    
499    
500 greg 2.19 addpixel(p0, p1, p2, pix, w, z) /* fill in pixel parallelogram */
501 greg 1.15 struct position *p0, *p1, *p2;
502 greg 1.8 COLR pix;
503 greg 2.19 double w;
504 greg 1.8 double z;
505     {
506 greg 1.15 double zt = 2.*zeps*p0->z; /* threshold */
507 greg 2.19 COLOR pval; /* converted+weighted pixel */
508 greg 1.15 int s1x, s1y, s2x, s2y; /* step sizes */
509     int l1, l2, c1, c2; /* side lengths and counters */
510     int p1isy; /* p0p1 along y? */
511     int x1, y1; /* p1 position */
512     register int x, y; /* final position */
513    
514     /* compute vector p0p1 */
515 greg 1.25 if (fillo&F_FORE && ABS(p1->z-p0->z) <= zt) {
516 greg 1.15 s1x = p1->x - p0->x;
517     s1y = p1->y - p0->y;
518     l1 = ABS(s1x);
519     if (p1isy = (ABS(s1y) > l1))
520     l1 = ABS(s1y);
521 greg 2.20 else if (l1 < 1)
522 greg 2.19 l1 = 1;
523 greg 1.15 } else {
524     l1 = s1x = s1y = 1;
525     p1isy = -1;
526     }
527     /* compute vector p0p2 */
528 greg 1.25 if (fillo&F_FORE && ABS(p2->z-p0->z) <= zt) {
529 greg 1.15 s2x = p2->x - p0->x;
530     s2y = p2->y - p0->y;
531     if (p1isy == 1)
532     l2 = ABS(s2x);
533     else {
534     l2 = ABS(s2y);
535     if (p1isy != 0 && ABS(s2x) > l2)
536     l2 = ABS(s2x);
537     }
538 greg 2.19 if (l2 < 1)
539     l2 = 1;
540 greg 1.15 } else
541     l2 = s2x = s2y = 1;
542     /* fill the parallelogram */
543 greg 2.19 if (averaging) {
544     colr_color(pval, pix);
545     scalecolor(pval, w);
546     }
547 greg 1.15 for (c1 = l1; c1-- > 0; ) {
548     x1 = p0->x + c1*s1x/l1;
549     y1 = p0->y + c1*s1y/l1;
550     for (c2 = l2; c2-- > 0; ) {
551     x = x1 + c2*s2x/l2;
552 greg 1.28 if (x < 0 || x >= hresolu)
553     continue;
554 greg 1.15 y = y1 + c2*s2y/l2;
555 greg 1.28 if (y < 0 || y >= vresolu)
556     continue;
557 greg 2.19 if (averaging) {
558     if (zscan(y)[x] <= 0 || zscan(y)[x]-z
559 greg 1.15 > zeps*zscan(y)[x]) {
560 greg 2.19 copycolor(sscan(y)[x], pval);
561     wscan(y)[x] = w;
562     zscan(y)[x] = z;
563     } else if (z-zscan(y)[x] <= zeps*zscan(y)[x]) {
564     addcolor(sscan(y)[x], pval);
565     wscan(y)[x] += w;
566     }
567     } else if (zscan(y)[x] <= 0 || zscan(y)[x]-z
568     > zeps*zscan(y)[x]) {
569     copycolr(pscan(y)[x], pix);
570 greg 1.8 zscan(y)[x] = z;
571     }
572 greg 1.15 }
573     }
574 greg 2.16 }
575    
576    
577 greg 2.19 double
578 greg 2.18 movepixel(pos) /* reposition image point */
579 greg 2.20 register FVECT pos;
580 greg 2.18 {
581 greg 2.19 FVECT pt, tdir, odir;
582 greg 2.20 double d;
583 greg 2.19 register int i;
584 greg 2.18
585     if (pos[2] <= 0) /* empty pixel */
586 greg 2.19 return(0);
587     if (!averaging && hasmatrix) {
588 greg 2.18 pos[0] += theirview.hoff - .5;
589     pos[1] += theirview.voff - .5;
590     if (theirview.type == VT_PER) {
591 greg 2.20 if (normdist) /* adjust distance */
592     pos[2] /= sqrt(1. + pos[0]*pos[0]*theirview.hn2
593     + pos[1]*pos[1]*theirview.vn2);
594 greg 2.18 pos[0] *= pos[2];
595     pos[1] *= pos[2];
596     }
597     multp3(pos, pos, theirs2ours);
598     if (pos[2] <= 0)
599 greg 2.19 return(0);
600 greg 2.18 if (ourview.type == VT_PER) {
601     pos[0] /= pos[2];
602     pos[1] /= pos[2];
603     }
604     pos[0] += .5 - ourview.hoff;
605     pos[1] += .5 - ourview.voff;
606 greg 2.19 } else {
607     if (viewray(pt, tdir, &theirview, pos[0], pos[1]) < -FTINY)
608     return(0);
609 greg 2.20 if (!normdist && theirview.type == VT_PER) /* adjust */
610     pos[2] *= sqrt(1. + pos[0]*pos[0]*theirview.hn2
611     + pos[1]*pos[1]*theirview.vn2);
612 greg 2.19 pt[0] += tdir[0]*pos[2];
613     pt[1] += tdir[1]*pos[2];
614     pt[2] += tdir[2]*pos[2];
615     viewloc(pos, &ourview, pt);
616     if (pos[2] <= 0)
617     return(0);
618     }
619     if (pos[0] < 0 || pos[0] >= 1-FTINY || pos[1] < 0 || pos[1] >= 1-FTINY)
620 greg 2.18 return(0);
621 greg 2.19 if (!averaging)
622     return(1);
623     if (ourview.type == VT_PAR) /* compute our direction */
624     VCOPY(odir, ourview.vdir);
625     else
626     for (i = 0; i < 3; i++)
627     odir[i] = (pt[i] - ourview.vp[i])/pos[2];
628 greg 2.20 d = DOT(odir,tdir); /* compute pixel weight */
629     if (d >= 1.-1./MAXWT/MAXWT)
630 greg 2.19 return(MAXWT); /* clip to maximum weight */
631 greg 2.20 return(1./sqrt(1.-d));
632 greg 2.18 }
633    
634    
635 greg 2.16 getperim(xl, yl, zline, zfd) /* compute overlapping image area */
636     register struct bound *xl;
637     struct bound *yl;
638     float *zline;
639     int zfd;
640     {
641     int step;
642     FVECT pos;
643     register int x, y;
644     /* set up step size */
645     if (scanlen(&tresolu) < numscans(&tresolu))
646     step = scanlen(&tresolu)/NSTEPS;
647     else
648     step = numscans(&tresolu)/NSTEPS;
649     if (step < MINSTEP) { /* not worth cropping? */
650     yl->min = 0;
651     yl->max = numscans(&tresolu) - 1;
652     x = scanlen(&tresolu) - 1;
653     for (y = numscans(&tresolu); y--; ) {
654     xl[y].min = 0;
655     xl[y].max = x;
656     }
657     return(1);
658     }
659     yl->min = 32000; yl->max = 0; /* search for points on image */
660     for (y = step - 1; y < numscans(&tresolu); y += step) {
661     if (zfd != -1) {
662     if (lseek(zfd, (long)y*scanlen(&tresolu)*sizeof(float),
663     0) < 0)
664     syserror("lseek");
665     if (read(zfd, (char *)zline,
666     scanlen(&tresolu)*sizeof(float))
667     < scanlen(&tresolu)*sizeof(float))
668     syserror("read");
669     }
670     xl[y].min = 32000; xl[y].max = 0; /* x max */
671     for (x = scanlen(&tresolu); (x -= step) > 0; ) {
672     pix2loc(pos, &tresolu, x, y);
673     pos[2] = zline[x];
674 greg 2.19 if (movepixel(pos) > FTINY) {
675 greg 2.16 xl[y].max = x + step - 1;
676     xl[y].min = x - step + 1; /* x min */
677     if (xl[y].min < 0)
678     xl[y].min = 0;
679     for (x = step - 1; x < xl[y].max; x += step) {
680     pix2loc(pos, &tresolu, x, y);
681     pos[2] = zline[x];
682 greg 2.19 if (movepixel(pos) > FTINY) {
683 greg 2.16 xl[y].min = x - step + 1;
684     break;
685     }
686     }
687     if (y < yl->min) /* y limits */
688     yl->min = y - step + 1;
689     yl->max = y + step - 1;
690     break;
691     }
692     }
693     /* fill in between */
694 greg 2.18 if (y < step) {
695 greg 2.16 xl[y-1].min = xl[y].min;
696     xl[y-1].max = xl[y].max;
697 greg 2.18 } else {
698     if (xl[y].min < xl[y-step].min)
699     xl[y-1].min = xl[y].min;
700     else
701     xl[y-1].min = xl[y-step].min;
702     if (xl[y].max > xl[y-step].max)
703     xl[y-1].max = xl[y].max;
704     else
705     xl[y-1].max = xl[y-step].max;
706     }
707 greg 2.16 for (x = 2; x < step; x++)
708     copystruct(xl+y-x, xl+y-1);
709     }
710     if (yl->max >= numscans(&tresolu))
711     yl->max = numscans(&tresolu) - 1;
712 greg 2.20 y -= step;
713 greg 2.16 for (x = numscans(&tresolu) - 1; x > y; x--) /* fill bottom rows */
714     copystruct(xl+x, xl+y);
715     return(yl->max >= yl->min);
716 greg 1.8 }
717    
718    
719 greg 1.26 backpicture(fill, samp) /* background fill algorithm */
720 greg 1.25 int (*fill)();
721 greg 1.26 int samp;
722 greg 1.1 {
723 greg 1.2 int *yback, xback;
724 greg 1.1 int y;
725 greg 1.2 register int x, i;
726     /* get back buffer */
727 greg 1.17 yback = (int *)malloc(hresolu*sizeof(int));
728 greg 1.15 if (yback == NULL)
729 greg 2.10 syserror(progname);
730 greg 1.17 for (x = 0; x < hresolu; x++)
731 greg 1.4 yback[x] = -2;
732 greg 1.7 /*
733     * Xback and yback are the pixel locations of suitable
734     * background values in each direction.
735     * A value of -2 means unassigned, and -1 means
736     * that there is no suitable background in this direction.
737     */
738 greg 1.2 /* fill image */
739 greg 1.17 for (y = 0; y < vresolu; y++) {
740 greg 1.4 xback = -2;
741 greg 1.17 for (x = 0; x < hresolu; x++)
742 greg 1.8 if (zscan(y)[x] <= 0) { /* empty pixel */
743 greg 1.7 /*
744     * First, find background from above or below.
745     * (farthest assigned pixel)
746     */
747 greg 1.4 if (yback[x] == -2) {
748 greg 1.17 for (i = y+1; i < vresolu; i++)
749 greg 1.8 if (zscan(i)[x] > 0)
750 greg 1.4 break;
751 greg 1.17 if (i < vresolu
752 greg 1.2 && (y <= 0 || zscan(y-1)[x] < zscan(i)[x]))
753 greg 1.4 yback[x] = i;
754     else
755     yback[x] = y-1;
756 greg 1.2 }
757 greg 1.7 /*
758     * Next, find background from left or right.
759     */
760 greg 1.4 if (xback == -2) {
761 greg 1.17 for (i = x+1; i < hresolu; i++)
762 greg 1.8 if (zscan(y)[i] > 0)
763 greg 1.4 break;
764 greg 1.17 if (i < hresolu
765 greg 1.4 && (x <= 0 || zscan(y)[x-1] < zscan(y)[i]))
766     xback = i;
767     else
768     xback = x-1;
769     }
770 greg 1.7 /*
771 greg 1.26 * If we have no background for this pixel,
772     * use the given fill function.
773 greg 1.11 */
774 greg 1.27 if (xback < 0 && yback[x] < 0)
775     goto fillit;
776 greg 1.11 /*
777 greg 1.7 * Compare, and use the background that is
778     * farther, unless one of them is next to us.
779 greg 1.27 * If the background is too distant, call
780     * the fill function.
781 greg 1.7 */
782 greg 1.11 if ( yback[x] < 0
783     || (xback >= 0 && ABS(x-xback) <= 1)
784 greg 1.4 || ( ABS(y-yback[x]) > 1
785 greg 1.11 && zscan(yback[x])[x]
786 greg 1.13 < zscan(y)[xback] ) ) {
787 greg 1.27 if (samp > 0 && ABS(x-xback) >= samp)
788     goto fillit;
789 greg 2.19 if (averaging) {
790     copycolor(sscan(y)[x],
791     sscan(y)[xback]);
792     wscan(y)[x] = wscan(y)[xback];
793     } else
794     copycolr(pscan(y)[x],
795     pscan(y)[xback]);
796 greg 1.13 zscan(y)[x] = zscan(y)[xback];
797     } else {
798 greg 1.27 if (samp > 0 && ABS(y-yback[x]) > samp)
799     goto fillit;
800 greg 2.19 if (averaging) {
801     copycolor(sscan(y)[x],
802     sscan(yback[x])[x]);
803     wscan(y)[x] =
804     wscan(yback[x])[x];
805     } else
806     copycolr(pscan(y)[x],
807     pscan(yback[x])[x]);
808 greg 1.13 zscan(y)[x] = zscan(yback[x])[x];
809 greg 1.27 }
810     continue;
811     fillit:
812     (*fill)(x,y);
813     if (fill == rcalfill) { /* use it */
814     clearqueue();
815     xback = x;
816     yback[x] = y;
817 greg 1.13 }
818 greg 1.4 } else { /* full pixel */
819     yback[x] = -2;
820     xback = -2;
821     }
822     }
823 greg 1.2 free((char *)yback);
824 greg 1.1 }
825    
826    
827 greg 1.25 fillpicture(fill) /* paint in empty pixels using fill */
828     int (*fill)();
829 greg 1.11 {
830     register int x, y;
831    
832 greg 1.17 for (y = 0; y < vresolu; y++)
833     for (x = 0; x < hresolu; x++)
834 greg 1.11 if (zscan(y)[x] <= 0)
835 greg 1.25 (*fill)(x,y);
836 greg 2.15 }
837    
838    
839     clipaft() /* perform aft clipping as indicated */
840     {
841     register int x, y;
842     double tstdist;
843     double yzn2, vx;
844    
845     if (ourview.vaft <= FTINY)
846     return;
847 greg 2.17 tstdist = ourview.vaft - ourview.vfore;
848 greg 2.15 for (y = 0; y < vresolu; y++) {
849     if (ourview.type == VT_PER) { /* adjust distance */
850     yzn2 = (y+.5)/vresolu + ourview.voff - .5;
851     yzn2 = 1. + yzn2*yzn2*ourview.vn2;
852 greg 2.17 tstdist = (ourview.vaft - ourview.vfore)*sqrt(yzn2);
853 greg 2.15 }
854     for (x = 0; x < hresolu; x++)
855     if (zscan(y)[x] > tstdist) {
856     if (ourview.type == VT_PER) {
857     vx = (x+.5)/hresolu + ourview.hoff - .5;
858 greg 2.17 if (zscan(y)[x] <= (ourview.vaft -
859     ourview.vfore) *
860 greg 2.15 sqrt(vx*vx*ourview.hn2 + yzn2))
861     continue;
862     }
863 greg 2.19 if (averaging)
864     bzero(sscan(y)[x], sizeof(COLOR));
865     else
866     bzero(pscan(y)[x], sizeof(COLR));
867 greg 2.15 zscan(y)[x] = 0.0;
868     }
869     }
870 greg 1.11 }
871    
872    
873 greg 2.21 writepicture() /* write out picture (alters buffer) */
874 greg 1.1 {
875     int y;
876 greg 2.19 register int x;
877     double d;
878 greg 1.1
879 greg 1.34 fprtresolu(hresolu, vresolu, stdout);
880 greg 1.17 for (y = vresolu-1; y >= 0; y--)
881 greg 2.19 if (averaging) {
882     for (x = 0; x < hresolu; x++) { /* average pixels */
883 greg 2.21 d = rexpadj/wscan(y)[x];
884 greg 2.19 scalecolor(sscan(y)[x], d);
885     }
886     if (fwritescan(sscan(y), hresolu, stdout) < 0)
887     syserror(progname);
888 greg 2.21 } else {
889     if (expadj)
890     shiftcolrs(pscan(y), hresolu, expadj);
891     if (fwritecolrs(pscan(y), hresolu, stdout) < 0)
892     syserror(progname);
893     }
894 greg 1.11 }
895    
896    
897     writedistance(fname) /* write out z file */
898     char *fname;
899     {
900 greg 2.21 int donorm = normdist && ourview.type == VT_PER &&
901     !averaging && hasmatrix;
902 greg 1.19 int fd;
903 greg 1.11 int y;
904     float *zout;
905    
906 greg 2.10 if ((fd = open(fname, O_WRONLY|O_CREAT|O_TRUNC, 0666)) == -1)
907     syserror(fname);
908 greg 1.11 if (donorm
909 greg 1.17 && (zout = (float *)malloc(hresolu*sizeof(float))) == NULL)
910 greg 2.10 syserror(progname);
911 greg 1.17 for (y = vresolu-1; y >= 0; y--) {
912 greg 1.11 if (donorm) {
913     double vx, yzn2;
914     register int x;
915 greg 1.29 yzn2 = (y+.5)/vresolu + ourview.voff - .5;
916 greg 1.17 yzn2 = 1. + yzn2*yzn2*ourview.vn2;
917     for (x = 0; x < hresolu; x++) {
918 greg 1.29 vx = (x+.5)/hresolu + ourview.hoff - .5;
919 greg 1.11 zout[x] = zscan(y)[x]
920 greg 1.17 * sqrt(vx*vx*ourview.hn2 + yzn2);
921 greg 1.11 }
922     } else
923     zout = zscan(y);
924 greg 1.23 if (write(fd, (char *)zout, hresolu*sizeof(float))
925 greg 2.10 < hresolu*sizeof(float))
926     syserror(fname);
927 greg 1.11 }
928     if (donorm)
929     free((char *)zout);
930 greg 1.19 close(fd);
931 greg 1.10 }
932    
933    
934 greg 1.12 backfill(x, y) /* fill pixel with background */
935     int x, y;
936     {
937 greg 2.19 if (averaging) {
938     copycolor(sscan(y)[x], backcolor);
939     wscan(y)[x] = 1;
940     } else
941     copycolr(pscan(y)[x], backcolr);
942 greg 1.13 zscan(y)[x] = backz;
943     }
944    
945    
946 greg 2.3 calstart(prog, args) /* start fill calculation */
947 greg 1.13 char *prog, *args;
948     {
949     char combuf[512];
950 greg 2.3 char *argv[64];
951     int rval;
952     register char **wp, *cp;
953 greg 1.13
954 greg 1.14 if (childpid != -1) {
955     fprintf(stderr, "%s: too many calculations\n", progname);
956     exit(1);
957     }
958 greg 2.3 strcpy(combuf, prog);
959     strcat(combuf, args);
960     cp = combuf;
961     wp = argv;
962     for ( ; ; ) {
963 greg 2.11 while (isspace(*cp)) /* nullify spaces */
964     *cp++ = '\0';
965     if (!*cp) /* all done? */
966     break;
967     *wp++ = cp; /* add argument to list */
968     while (*++cp && !isspace(*cp))
969     ;
970 greg 2.3 }
971     *wp = NULL;
972     /* start process */
973     if ((rval = open_process(PDesc, argv)) < 0)
974 greg 2.10 syserror(progname);
975 greg 2.3 if (rval == 0) {
976     fprintf(stderr, "%s: command not found\n", argv[0]);
977     exit(1);
978 greg 1.13 }
979 greg 2.3 packsiz = rval/(6*sizeof(float)) - 1;
980     if (packsiz > PACKSIZ)
981     packsiz = PACKSIZ;
982 greg 1.13 queuesiz = 0;
983     }
984    
985    
986 greg 2.3 caldone() /* done with calculation */
987 greg 1.13 {
988 greg 1.14 if (childpid == -1)
989     return;
990 greg 1.25 clearqueue();
991 greg 2.3 close_process(PDesc);
992 greg 1.14 childpid = -1;
993 greg 1.13 }
994    
995    
996 greg 1.14 rcalfill(x, y) /* fill with ray-calculated pixel */
997 greg 1.13 int x, y;
998     {
999 greg 2.3 if (queuesiz >= packsiz) /* flush queue if needed */
1000 greg 1.25 clearqueue();
1001 greg 1.22 /* add position to queue */
1002 greg 1.13 queue[queuesiz][0] = x;
1003     queue[queuesiz][1] = y;
1004     queuesiz++;
1005     }
1006    
1007    
1008 greg 1.25 clearqueue() /* process queue */
1009 greg 1.13 {
1010 greg 1.22 FVECT orig, dir;
1011 greg 2.3 float fbuf[6*(PACKSIZ+1)];
1012     register float *fbp;
1013 greg 1.13 register int i;
1014    
1015 greg 2.10 if (queuesiz == 0)
1016     return;
1017 greg 2.3 fbp = fbuf;
1018 greg 1.13 for (i = 0; i < queuesiz; i++) {
1019 greg 1.22 viewray(orig, dir, &ourview,
1020     (queue[i][0]+.5)/hresolu,
1021     (queue[i][1]+.5)/vresolu);
1022 greg 2.3 *fbp++ = orig[0]; *fbp++ = orig[1]; *fbp++ = orig[2];
1023     *fbp++ = dir[0]; *fbp++ = dir[1]; *fbp++ = dir[2];
1024 greg 1.22 }
1025 greg 2.3 /* mark end and get results */
1026     bzero((char *)fbp, 6*sizeof(float));
1027     if (process(PDesc, fbuf, fbuf, 4*sizeof(float)*queuesiz,
1028     6*sizeof(float)*(queuesiz+1)) !=
1029     4*sizeof(float)*queuesiz) {
1030     fprintf(stderr, "%s: error reading from rtrace process\n",
1031     progname);
1032     exit(1);
1033     }
1034     fbp = fbuf;
1035 greg 1.22 for (i = 0; i < queuesiz; i++) {
1036 greg 1.16 if (ourexp > 0 && ourexp != 1.0) {
1037 greg 2.3 fbp[0] *= ourexp;
1038     fbp[1] *= ourexp;
1039     fbp[2] *= ourexp;
1040 greg 1.14 }
1041 greg 2.19 if (averaging) {
1042     setcolor(sscan(queue[i][1])[queue[i][0]],
1043     fbp[0], fbp[1], fbp[2]);
1044     wscan(queue[i][1])[queue[i][0]] = 1;
1045     } else
1046     setcolr(pscan(queue[i][1])[queue[i][0]],
1047     fbp[0], fbp[1], fbp[2]);
1048 greg 2.3 zscan(queue[i][1])[queue[i][0]] = fbp[3];
1049     fbp += 4;
1050 greg 1.13 }
1051     queuesiz = 0;
1052 greg 1.14 }
1053    
1054    
1055 greg 2.10 syserror(s) /* report error and exit */
1056     char *s;
1057 greg 1.14 {
1058 greg 2.10 perror(s);
1059 greg 1.14 exit(1);
1060 greg 1.1 }