[ViewVC] Diff of: radiance/ray/src/px/pinterp.c

Comparing ray/src/px/pinterp.c (file contents):
Revision 1.23 by greg, Thu Jan 18 23:58:29 1990 UTC vs.
Revision 1.30 by greg, Mon Oct 15 11:01:48 1990 UTC

#	Line 10 \| Line 10 \| static char SCCSid[] = "$SunId$ LBL";
10
11		#include "standard.h"
12
13	<	#include <sys/fcntl.h>
13	>	#include <fcntl.h>
14
15		#include "view.h"
16
#	Line 28 \| Line 28 \| static char SCCSid[] = "$SunId$ LBL";
28
29		#define PACKSIZ 42 /* calculation packet size */
30
31	<	#define RTCOM "rtrace -h -ovl -fff -x %d %s"
31	>	#define RTCOM "rtrace -h -ovl -fff %s"
32
33		#define ABS(x) ((x)>0?(x):-(x))
34
#	Line 46 \| Line 46 \| *float ourzbuf; /* corresponding z-buffer /*
46
47		char *progname;
48
49	<	int fill = F_FORE\|F_BACK; /* selected fill algorithm */
49	>	int fillo = F_FORE\|F_BACK; /* selected fill options */
50	>	int fillsamp = 0; /* sample separation (0 == inf) */
51		extern int backfill(), rcalfill(); /* fill functions */
52	<	int (deffill)() = backfill; / selected fill function */
52	>	int (fillfunc)() = backfill; / selected fill function */
53		COLR backcolr = BLKCOLR; /* background color */
54		double backz = 0.0; /* background z value */
55		int normdist = 1; /* normalized distance? */
#	Line 59 \| Line 60 \| *int gotview; / got input view? /*
60		int thresolu, tvresolu; /* input resolution */
61		double theirexp; /* input picture exposure */
62		double theirs2ours[4][4]; /* transformation matrix */
63	+	int hasmatrix = 0; /* has transformation matrix */
64
65		int childpid = -1; /* id of fill process */
66		FILE psend, precv; /* pipes to/from fill calculation */
#	Line 98 \| Line 100 \| *char argv[];**
100		switch (argv[i][2]) {
101		case '0': /* none */
102		check(3,0);
103	<	fill = 0;
103	>	fillo = 0;
104		break;
105		case 'f': /* foreground */
106		check(3,0);
107	<	fill = F_FORE;
107	>	fillo = F_FORE;
108		break;
109		case 'b': /* background */
110		check(3,0);
111	<	fill = F_BACK;
111	>	fillo = F_BACK;
112		break;
113		case 'a': /* all */
114		check(3,0);
115	<	fill = F_FORE\|F_BACK;
115	>	fillo = F_FORE\|F_BACK;
116		break;
117	+	case 's': /* sample */
118	+	check(3,1);
119	+	fillsamp = atoi(argv[++i]);
120	+	break;
121		case 'c': /* color */
122		check(3,3);
123	<	deffill = backfill;
123	>	fillfunc = backfill;
124		setcolr(backcolr, atof(argv[i+1]),
125		atof(argv[i+2]), atof(argv[i+3]));
126		i += 3;
127		break;
128		case 'z': /* z value */
129		check(3,1);
130	<	deffill = backfill;
130	>	fillfunc = backfill;
131		backz = atof(argv[++i]);
132		break;
133		case 'r': /* rtrace */
134		check(3,1);
135	<	deffill = rcalfill;
135	>	fillfunc = rcalfill;
136		calstart(RTCOM, argv[++i]);
137		break;
138		default:
#	Line 188 \| Line 194 \| *char argv[];**
194		for ( ; i < argc; i += 2)
195		addpicture(argv[i], argv[i+1]);
196		/* fill in spaces */
197	<	if (fill&F_BACK)
198	<	backpicture();
197	>	if (fillo&F_BACK)
198	>	backpicture(fillfunc, fillsamp);
199		else
200	<	fillpicture();
200	>	fillpicture(fillfunc);
201		/* close calculation */
202		caldone();
203		/* add to header */
204		printargs(argc, argv, stdout);
205		if (gotvfile) {
206	<	printf(VIEWSTR);
206	>	fputs(VIEWSTR, stdout);
207		fprintview(&ourview, stdout);
208	<	printf("\n");
208	>	putc('\n', stdout);
209		}
210		if (pixaspect < .99 \|\| pixaspect > 1.01)
211		fputaspect(pixaspect, stdout);
212		if (ourexp > 0 && (ourexp < .995 \|\| ourexp > 1.005))
213		fputexpos(ourexp, stdout);
214	<	printf("\n");
214	>	putc('\n', stdout);
215		/* write picture */
216		writepicture();
217		/* write z file */
#	Line 225 \| Line 231 \| userr:
231		headline(s) /* process header string */
232		char *s;
233		{
234	<	static char *altname[] = {"rview","rpict","pinterp",VIEWSTR,NULL};
234	>	static char *altname[] = {VIEWSTR,"rpict","rview","pinterp",NULL};
235		register char **an;
236
237	<	printf("\t%s", s);
237	>	putc('\t', stdout);
238	>	fputs(s, stdout);
239
240		if (isexpos(s)) {
241		theirexp *= exposval(s);
#	Line 278 \| Line 285 \| *char pfile, zspec;*
285		exit(1);
286		}
287		/* compute transformation */
288	<	pixform(theirs2ours, &theirview, &ourview);
288	>	hasmatrix = pixform(theirs2ours, &theirview, &ourview);
289		/* allocate scanlines */
290		scanin = (COLR )malloc(thresolusizeof(COLR));
291		zin = (float )malloc(thresolusizeof(float));
#	Line 325 \| Line 332 \| *register VIEW vw1, vw2;*
332		{
333		double m4t[4][4];
334
335	+	if (vw1->type != VT_PER && vw1->type != VT_PAR)
336	+	return(0);
337	+	if (vw2->type != VT_PER && vw2->type != VT_PAR)
338	+	return(0);
339		setident4(xfmat);
340		xfmat[0][0] = vw1->hvec[0];
341		xfmat[0][1] = vw1->hvec[1];
#	Line 352 \| Line 363 \| *register VIEW vw1, vw2;*
363		m4t[2][2] = vw2->vdir[2];
364		m4t[3][2] = -DOT(vw2->vp,vw2->vdir);
365		multmat4(xfmat, xfmat, m4t);
366	+	return(1);
367		}
368
369
#	Line 362 \| Line 374 \| *float zline;**
374		struct position lasty; / input/output */
375		{
376		extern double sqrt();
377	<	double pos[3];
377	>	FVECT pos;
378		struct position lastx, newpos;
379		register int x;
380
381		lastx.z = 0;
382		for (x = thresolu-1; x >= 0; x--) {
383	<	pos[0] = (x+.5)/thresolu + theirview.hoff - .5;
384	<	pos[1] = (y+.5)/tvresolu + theirview.voff - .5;
383	>	pos[0] = (x+.5)/thresolu;
384	>	pos[1] = (y+.5)/tvresolu;
385		pos[2] = zline[x];
386	<	if (theirview.type == VT_PER) {
375	<	if (normdist) /* adjust for eye-ray distance */
376	<	pos[2] /= sqrt( 1.
377	<	+ pos[0]pos[0]theirview.hn2
378	<	+ pos[1]pos[1]theirview.vn2 );
379	<	pos[0] *= pos[2];
380	<	pos[1] *= pos[2];
381	<	}
382	<	multp3(pos, pos, theirs2ours);
383	<	if (pos[2] <= 0) {
386	>	if (movepixel(pos) < 0) {
387		lasty[x].z = lastx.z = 0; /* mark invalid */
388		continue;
389		}
387	–	if (ourview.type == VT_PER) {
388	–	pos[0] /= pos[2];
389	–	pos[1] /= pos[2];
390	–	}
391	–	pos[0] += .5 - ourview.hoff;
392	–	pos[1] += .5 - ourview.voff;
390		newpos.x = pos[0] * hresolu;
391		newpos.y = pos[1] * vresolu;
392		newpos.z = zline[x];
#	Line 419 \| Line 416 \| double z;
416		register int x, y; /* final position */
417
418		/* compute vector p0p1 */
419	<	if (fill&F_FORE && ABS(p1->z-p0->z) <= zt) {
419	>	if (fillo&F_FORE && ABS(p1->z-p0->z) <= zt) {
420		s1x = p1->x - p0->x;
421		s1y = p1->y - p0->y;
422		l1 = ABS(s1x);
#	Line 430 \| Line 427 \| double z;
427		p1isy = -1;
428		}
429		/* compute vector p0p2 */
430	<	if (fill&F_FORE && ABS(p2->z-p0->z) <= zt) {
430	>	if (fillo&F_FORE && ABS(p2->z-p0->z) <= zt) {
431		s2x = p2->x - p0->x;
432		s2y = p2->y - p0->y;
433		if (p1isy == 1)
#	Line 448 \| Line 445 \| double z;
445		y1 = p0->y + c1*s1y/l1;
446		for (c2 = l2; c2-- > 0; ) {
447		x = x1 + c2*s2x/l2;
448	+	if (x < 0 \|\| x >= hresolu)
449	+	continue;
450		y = y1 + c2*s2y/l2;
451	+	if (y < 0 \|\| y >= vresolu)
452	+	continue;
453		if (zscan(y)[x] <= 0 \|\| zscan(y)[x]-z
454		> zeps*zscan(y)[x]) {
455		zscan(y)[x] = z;
#	Line 459 \| Line 460 \| double z;
460		}
461
462
463	<	backpicture() /* background fill algorithm */
463	>	movepixel(pos) /* reposition image point */
464	>	FVECT pos;
465		{
466	+	FVECT pt, direc;
467	+
468	+	if (hasmatrix) {
469	+	pos[0] += theirview.hoff - .5;
470	+	pos[1] += theirview.voff - .5;
471	+	if (theirview.type == VT_PER) {
472	+	if (normdist) /* adjust for eye-ray distance */
473	+	pos[2] /= sqrt( 1.
474	+	+ pos[0]pos[0]theirview.hn2
475	+	+ pos[1]pos[1]theirview.vn2 );
476	+	pos[0] *= pos[2];
477	+	pos[1] *= pos[2];
478	+	}
479	+	multp3(pos, pos, theirs2ours);
480	+	if (pos[2] <= 0)
481	+	return(-1);
482	+	if (ourview.type == VT_PER) {
483	+	pos[0] /= pos[2];
484	+	pos[1] /= pos[2];
485	+	}
486	+	pos[0] += .5 - ourview.hoff;
487	+	pos[1] += .5 - ourview.voff;
488	+	return(0);
489	+	}
490	+	if (viewray(pt, direc, &theirview, pos[0], pos[1]) < 0)
491	+	return(-1);
492	+	pt[0] += direc[0]*pos[2];
493	+	pt[1] += direc[1]*pos[2];
494	+	pt[2] += direc[2]*pos[2];
495	+	viewpixel(&pos[0], &pos[1], &pos[2], &ourview, pt);
496	+	if (pos[2] <= 0)
497	+	return(-1);
498	+	return(0);
499	+	}
500	+
501	+
502	+	backpicture(fill, samp) /* background fill algorithm */
503	+	int (*fill)();
504	+	int samp;
505	+	{
506		int *yback, xback;
507		int y;
508		COLR pfill;
#	Line 510 \| Line 552 \| *backpicture() / background fill algorithm /*
552		xback = x-1;
553		}
554		/*
555	<	* Check to see if we have no background for
556	<	* this pixel. If not, use background color.
555	>	* If we have no background for this pixel,
556	>	* use the given fill function.
557		*/
558	<	if (xback < 0 && yback[x] < 0) {
559	<	(*deffill)(x,y);
518	<	continue;
519	<	}
558	>	if (xback < 0 && yback[x] < 0)
559	>	goto fillit;
560		/*
561		* Compare, and use the background that is
562		* farther, unless one of them is next to us.
563	+	* If the background is too distant, call
564	+	* the fill function.
565		*/
566		if ( yback[x] < 0
567		\|\| (xback >= 0 && ABS(x-xback) <= 1)
568		\|\| ( ABS(y-yback[x]) > 1
569		&& zscan(yback[x])[x]
570		< zscan(y)[xback] ) ) {
571	+	if (samp > 0 && ABS(x-xback) >= samp)
572	+	goto fillit;
573		copycolr(pscan(y)[x],pscan(y)[xback]);
574		zscan(y)[x] = zscan(y)[xback];
575		} else {
576	+	if (samp > 0 && ABS(y-yback[x]) > samp)
577	+	goto fillit;
578		copycolr(pscan(y)[x],pscan(yback[x])[x]);
579		zscan(y)[x] = zscan(yback[x])[x];
580		}
581	+	continue;
582	+	fillit:
583	+	(*fill)(x,y);
584	+	if (fill == rcalfill) { /* use it */
585	+	clearqueue();
586	+	xback = x;
587	+	yback[x] = y;
588	+	}
589		} else { /* full pixel */
590		yback[x] = -2;
591		xback = -2;
#	Line 541 \| Line 595 \| *backpicture() / background fill algorithm /*
595		}
596
597
598	<	fillpicture() /* paint in empty pixels with default */
598	>	fillpicture(fill) /* paint in empty pixels using fill */
599	>	int (*fill)();
600		{
601		register int x, y;
602
603		for (y = 0; y < vresolu; y++)
604		for (x = 0; x < hresolu; x++)
605		if (zscan(y)[x] <= 0)
606	<	(*deffill)(x,y);
606	>	(*fill)(x,y);
607		}
608
609
#	Line 583 \| Line 638 \| *char fname;**
638		if (donorm) {
639		double vx, yzn2;
640		register int x;
641	<	yzn2 = y - .5*(vresolu-1);
641	>	yzn2 = (y+.5)/vresolu + ourview.voff - .5;
642		yzn2 = 1. + yzn2yzn2ourview.vn2;
643		for (x = 0; x < hresolu; x++) {
644	<	vx = x - .5*(hresolu-1);
644	>	vx = (x+.5)/hresolu + ourview.hoff - .5;
645		zout[x] = zscan(y)[x]
646		* sqrt(vxvxourview.hn2 + yzn2);
647		}
#	Line 635 \| Line 690 \| *char prog, args;*
690		fprintf(stderr, "%s: too many calculations\n", progname);
691		exit(1);
692		}
693	<	sprintf(combuf, prog, PACKSIZ, args);
693	>	sprintf(combuf, prog, args);
694		if (pipe(p0) < 0 \|\| pipe(p1) < 0)
695		syserror();
696		if ((childpid = vfork()) == 0) { /* fork calculation */
#	Line 671 \| Line 726 \| *caldone() / done with calculation /*
726
727		if (childpid == -1)
728		return;
729	<	clearqueue(1);
729	>	clearqueue();
730	>	fclose(psend);
731	>	fclose(precv);
732		while ((pid = wait(0)) != -1 && pid != childpid)
733		;
734		childpid = -1;
#	Line 682 \| Line 739 \| *rcalfill(x, y) / fill with ray-calculated pixel /*
739		int x, y;
740		{
741		if (queuesiz >= PACKSIZ) /* flush queue if needed */
742	<	clearqueue(0);
742	>	clearqueue();
743		/* add position to queue */
744		queue[queuesiz][0] = x;
745		queue[queuesiz][1] = y;
#	Line 690 \| Line 747 \| int x, y;
747		}
748
749
750	<	clearqueue(done) /* process queue */
694	<	int done;
750	>	clearqueue() /* process queue */
751		{
752		FVECT orig, dir;
753		float fbuf[6];
#	Line 705 \| Line 761 \| int done;
761		fbuf[3] = dir[0]; fbuf[4] = dir[1]; fbuf[5] = dir[2];
762		fwrite((char *)fbuf, sizeof(float), 6, psend);
763		}
764	<	if ((done ? fclose(psend) : fflush(psend)) == EOF)
764	>	/* flush output and get results */
765	>	fbuf[3] = fbuf[4] = fbuf[5] = 0.0; /* mark */
766	>	fwrite((char *)fbuf, sizeof(float), 6, psend);
767	>	if (fflush(psend) == EOF)
768		syserror();
769		for (i = 0; i < queuesiz; i++) {
770		if (fread((char *)fbuf, sizeof(float), 4, precv) < 4) {
#	Line 722 \| Line 781 \| int done;
781		fbuf[0], fbuf[1], fbuf[2]);
782		zscan(queue[i][1])[queue[i][0]] = fbuf[3];
783		}
725	–	if (done)
726	–	fclose(precv);
784		queuesiz = 0;
785		}
786

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Comparing ray/src/px/pinterp.c (file contents): Revision 1.23 by greg, Thu Jan 18 23:58:29 1990 UTC vs. Revision 1.30 by greg, Mon Oct 15 11:01:48 1990 UTC

Diff Legend

Comparing ray/src/px/pinterp.c (file contents):
Revision 1.23 by greg, Thu Jan 18 23:58:29 1990 UTC vs.
Revision 1.30 by greg, Mon Oct 15 11:01:48 1990 UTC