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

Comparing ray/src/px/pinterp.c (file contents):
Revision 2.15 by greg, Thu Dec 22 19:11:01 1994 UTC vs.
Revision 2.20 by greg, Mon Dec 26 19:57:22 1994 UTC

#	Line 21 \| Line 21 \| static char SCCSid[] = "$SunId$ LBL";
21		#include "resolu.h"
22
23		#define pscan(y) (ourpict+(y)*hresolu)
24	+	#define sscan(y) (ourspict+(y)*hresolu)
25	+	#define wscan(y) (ourweigh+(y)*hresolu)
26		#define zscan(y) (ourzbuf+(y)*hresolu)
27	+	#define averaging (ourweigh != NULL)
28
29	+	#define MAXWT 1000. /* maximum pixel weight (averaging) */
30	+
31		#define F_FORE 1 /* fill foreground */
32		#define F_BACK 2 /* fill background */
33
#	Line 34 \| Line 39 \| static char SCCSid[] = "$SunId$ LBL";
39
40		struct position {int x,y; float z;};
41
42	+	#define NSTEPS 64 /* number steps in overlap prescan */
43	+	#define MINSTEP 4 /* minimum worthwhile preview step */
44	+
45	+	struct bound {int min,max;};
46	+
47		VIEW ourview = STDVIEW; /* desired view */
48		int hresolu = 512; /* horizontal resolution */
49		int vresolu = 512; /* vertical resolution */
#	Line 41 \| Line 51 \| *double pixaspect = 1.0; / pixel aspect ratio /*
51
52		double zeps = .02; /* allowed z epsilon */
53
54	<	COLR ourpict; / output picture */
54	>	COLR ourpict; / output picture (COLR's) */
55	>	COLOR ourspict; / output pixel sums (averaging) */
56	>	float ourweigh = NULL; / output pixel weights (averaging) */
57		float ourzbuf; / corresponding z-buffer */
58
59		char *progname;
#	Line 51 \| Line 63 \| *int fillsamp = 0; / sample separation (0 == inf) /*
63		extern int backfill(), rcalfill(); /* fill functions */
64		int (fillfunc)() = backfill; / selected fill function */
65		COLR backcolr = BLKCOLR; /* background color */
66	+	COLOR backcolor = BLKCOLOR; /* background color (float) */
67		double backz = 0.0; /* background z value */
68		int normdist = 1; /* normalized distance? */
69		double ourexp = -1; /* output picture exposure */
#	Line 60 \| Line 73 \| *int gotview; / got input view? /*
73		int wrongformat = 0; /* input in another format? */
74		RESOLU tresolu; /* input resolution */
75		double theirexp; /* input picture exposure */
76	<	double theirs2ours[4][4]; /* transformation matrix */
76	>	MAT4 theirs2ours; /* transformation matrix */
77		int hasmatrix = 0; /* has transformation matrix */
78
79		int PDesc[3] = {-1,-1,-1}; /* rtrace process descriptor */
#	Line 69 \| Line 82 \| *unsigned short queue[PACKSIZ][2]; / pending pixels /*
82		int packsiz; /* actual packet size */
83		int queuesiz; /* number of pixels pending */
84
85	+	extern double movepixel();
86
87	+
88		main(argc, argv) /* interpolate pictures */
89		int argc;
90		char *argv[];
#	Line 78 \| Line 93 \| *char argv[];**
93		badarg(argc-i-1,argv+i+1,al)) \
94		goto badopt
95		int gotvfile = 0;
96	+	int doavg = -1;
97		char *zfile = NULL;
98		char *err;
99		int i, rval;
#	Line 95 \| Line 111 \| *char argv[];**
111		check(2,"f");
112		zeps = atof(argv[++i]);
113		break;
114	+	case 'a': /* average */
115	+	check(2,NULL);
116	+	doavg = 1;
117	+	break;
118	+	case 'q': /* quick (no avg.) */
119	+	check(2,NULL);
120	+	doavg = 0;
121	+	break;
122		case 'n': /* dist. normalized? */
123		check(2,NULL);
124		normdist = !normdist;
#	Line 124 \| Line 148 \| *char argv[];**
148		case 'c': /* color */
149		check(3,"fff");
150		fillfunc = backfill;
151	<	setcolr(backcolr, atof(argv[i+1]),
151	>	setcolor(backcolor, atof(argv[i+1]),
152		atof(argv[i+2]), atof(argv[i+3]));
153	+	setcolr(backcolr, colval(backcolor,RED),
154	+	colval(backcolor,GRN),
155	+	colval(backcolor,BLU));
156		i += 3;
157		break;
158		case 'z': /* z value */
#	Line 185 \| Line 212 \| *char argv[];**
212		goto userr;
213		if (fillsamp == 1)
214		fillo &= ~F_BACK;
215	+	if (doavg < 0)
216	+	doavg = (argc-i) > 2;
217		/* set view */
218		if ((err = setview(&ourview)) != NULL) {
219		fprintf(stderr, "%s: %s\n", progname, err);
#	Line 192 \| Line 221 \| *char argv[];**
221		}
222		normaspect(viewaspect(&ourview), &pixaspect, &hresolu, &vresolu);
223		/* allocate frame */
224	<	ourpict = (COLR )bmalloc(hresoluvresolu*sizeof(COLR));
224	>	if (doavg) {
225	>	ourspict = (COLOR )bmalloc(hresoluvresolu*sizeof(COLOR));
226	>	ourweigh = (float )bmalloc(hresoluvresolu*sizeof(float));
227	>	if (ourspict == NULL \| ourweigh == NULL)
228	>	syserror(progname);
229	>	} else {
230	>	ourpict = (COLR )bmalloc(hresoluvresolu*sizeof(COLR));
231	>	if (ourpict == NULL)
232	>	syserror(progname);
233	>	}
234		ourzbuf = (float )bmalloc(hresoluvresolu*sizeof(float));
235	<	if (ourpict == NULL \|\| ourzbuf == NULL)
235	>	if (ourzbuf == NULL)
236		syserror(progname);
237		bzero((char )ourzbuf, hresoluvresolu*sizeof(float));
238		/* new header */
#	Line 272 \| Line 310 \| *char pfile, zspec;*
310		COLR *scanin;
311		float *zin;
312		struct position *plast;
313	+	struct bound *xlim, ylim;
314		int y;
315		/* open picture file */
316		if ((pfp = fopen(pfile, "r")) == NULL)
#	Line 295 \| Line 334 \| *char pfile, zspec;*
334		}
335		/* compute transformation */
336		hasmatrix = pixform(theirs2ours, &theirview, &ourview);
337	<	/* allocate scanlines */
299	<	scanin = (COLR )malloc(scanlen(&tresolu)sizeof(COLR));
337	>	/* get z specification or file */
338		zin = (float )malloc(scanlen(&tresolu)sizeof(float));
339	<	plast = (struct position *)calloc(scanlen(&tresolu),
302	<	sizeof(struct position));
303	<	if (scanin == NULL \|\| zin == NULL \|\| plast == NULL)
339	>	if (zin == NULL)
340		syserror(progname);
305	–	/* get z specification or file */
341		if ((zfd = open(zspec, O_RDONLY)) == -1) {
342		double zvalue;
343		register int x;
344	<	if (!isfloat(zspec) \|\| (zvalue = atof(zspec)) <= 0.0)
344	>	if (!isflt(zspec) \|\| (zvalue = atof(zspec)) <= 0.0)
345		syserror(zspec);
346		for (x = scanlen(&tresolu); x-- > 0; )
347		zin[x] = zvalue;
348		}
349	<	/* load image */
350	<	for (y = 0; y < numscans(&tresolu); y++) {
349	>	/* compute transferrable perimeter */
350	>	xlim = (struct bound )malloc(numscans(&tresolu)sizeof(struct bound));
351	>	if (xlim == NULL)
352	>	syserror(progname);
353	>	if (!getperim(xlim, &ylim, zin, zfd)) { /* overlapping area? */
354	>	free((char *)zin);
355	>	free((char *)xlim);
356	>	if (zfd != -1)
357	>	close(zfd);
358	>	fclose(pfp);
359	>	return;
360	>	}
361	>	/* allocate scanlines */
362	>	scanin = (COLR )malloc(scanlen(&tresolu)sizeof(COLR));
363	>	plast = (struct position *)calloc(scanlen(&tresolu),
364	>	sizeof(struct position));
365	>	if (scanin == NULL \| plast == NULL)
366	>	syserror(progname);
367	>	/* skip to starting point */
368	>	for (y = 0; y < ylim.min; y++)
369		if (freadcolrs(scanin, scanlen(&tresolu), pfp) < 0) {
370		fprintf(stderr, "%s: read error\n", pfile);
371		exit(1);
372		}
373	<	if (zfd != -1 && read(zfd,(char *)zin,
374	<	scanlen(&tresolu)*sizeof(float))
375	<	< scanlen(&tresolu)*sizeof(float)) {
376	<	fprintf(stderr, "%s: read error\n", zspec);
373	>	if (zfd != -1 && lseek(zfd,
374	>	(long)ylim.minscanlen(&tresolu)sizeof(float), 0) < 0)
375	>	syserror(zspec);
376	>	/* load image */
377	>	for (y = ylim.min; y <= ylim.max; y++) {
378	>	if (freadcolrs(scanin, scanlen(&tresolu), pfp) < 0) {
379	>	fprintf(stderr, "%s: read error\n", pfile);
380		exit(1);
381		}
382	<	addscanline(y, scanin, zin, plast);
382	>	if (zfd != -1 && read(zfd, (char *)zin,
383	>	scanlen(&tresolu)*sizeof(float))
384	>	< scanlen(&tresolu)*sizeof(float))
385	>	syserror(zspec);
386	>	addscanline(xlim+y, y, scanin, zin, plast);
387		}
388		/* clean up */
389	+	free((char *)xlim);
390		free((char *)scanin);
391		free((char *)zin);
392		free((char *)plast);
#	Line 336 \| Line 397 \| *char pfile, zspec;*
397
398
399		pixform(xfmat, vw1, vw2) /* compute view1 to view2 matrix */
400	<	register double xfmat[4][4];
400	>	register MAT4 xfmat;
401		register VIEW vw1, vw2;
402		{
403		double m4t[4][4];
#	Line 376 \| Line 437 \| *register VIEW vw1, vw2;*
437		}
438
439
440	<	addscanline(y, pline, zline, lasty) /* add scanline to output */
440	>	addscanline(xl, y, pline, zline, lasty) /* add scanline to output */
441	>	struct bound *xl;
442		int y;
443		COLR *pline;
444		float *zline;
#	Line 384 \| Line 446 \| *struct position lasty; /* input/output /*
446		{
447		FVECT pos;
448		struct position lastx, newpos;
449	+	double wt;
450		register int x;
451
452		lastx.z = 0;
453	<	for (x = scanlen(&tresolu); x-- > 0; ) {
453	>	for (x = xl->max; x >= xl->min; x--) {
454		pix2loc(pos, &tresolu, x, y);
455		pos[2] = zline[x];
456	<	if (movepixel(pos) < 0) {
456	>	if ((wt = movepixel(pos)) <= FTINY) {
457		lasty[x].z = lastx.z = 0; /* mark invalid */
458		continue;
459		}
460	+	/* add pixel to our image */
461		newpos.x = pos[0] * hresolu;
462		newpos.y = pos[1] * vresolu;
463		newpos.z = zline[x];
464	<	/* add pixel to our image */
465	<	if (pos[0] >= 0 && newpos.x < hresolu
466	<	&& pos[1] >= 0 && newpos.y < vresolu) {
467	<	addpixel(&newpos, &lastx, &lasty[x], pline[x], pos[2]);
404	<	lasty[x].x = lastx.x = newpos.x;
405	<	lasty[x].y = lastx.y = newpos.y;
406	<	lasty[x].z = lastx.z = newpos.z;
407	<	} else
408	<	lasty[x].z = lastx.z = 0; /* mark invalid */
464	>	addpixel(&newpos, &lastx, &lasty[x], pline[x], wt, pos[2]);
465	>	lasty[x].x = lastx.x = newpos.x;
466	>	lasty[x].y = lastx.y = newpos.y;
467	>	lasty[x].z = lastx.z = newpos.z;
468		}
469		}
470
471
472	<	addpixel(p0, p1, p2, pix, z) /* fill in pixel parallelogram */
472	>	addpixel(p0, p1, p2, pix, w, z) /* fill in pixel parallelogram */
473		struct position p0, p1, *p2;
474		COLR pix;
475	+	double w;
476		double z;
477		{
478		double zt = 2.zepsp0->z; /* threshold */
479	+	COLOR pval; /* converted+weighted pixel */
480		int s1x, s1y, s2x, s2y; /* step sizes */
481		int l1, l2, c1, c2; /* side lengths and counters */
482		int p1isy; /* p0p1 along y? */
#	Line 429 \| Line 490 \| double z;
490		l1 = ABS(s1x);
491		if (p1isy = (ABS(s1y) > l1))
492		l1 = ABS(s1y);
493	+	else if (l1 < 1)
494	+	l1 = 1;
495		} else {
496		l1 = s1x = s1y = 1;
497		p1isy = -1;
#	Line 444 \| Line 507 \| double z;
507		if (p1isy != 0 && ABS(s2x) > l2)
508		l2 = ABS(s2x);
509		}
510	+	if (l2 < 1)
511	+	l2 = 1;
512		} else
513		l2 = s2x = s2y = 1;
514		/* fill the parallelogram */
515	+	if (averaging) {
516	+	colr_color(pval, pix);
517	+	scalecolor(pval, w);
518	+	}
519		for (c1 = l1; c1-- > 0; ) {
520		x1 = p0->x + c1*s1x/l1;
521		y1 = p0->y + c1*s1y/l1;
#	Line 457 \| Line 526 \| double z;
526		y = y1 + c2*s2y/l2;
527		if (y < 0 \|\| y >= vresolu)
528		continue;
529	<	if (zscan(y)[x] <= 0 \|\| zscan(y)[x]-z
529	>	if (averaging) {
530	>	if (zscan(y)[x] <= 0 \|\| zscan(y)[x]-z
531		> zeps*zscan(y)[x]) {
532	<	zscan(y)[x] = z;
532	>	copycolor(sscan(y)[x], pval);
533	>	wscan(y)[x] = w;
534	>	zscan(y)[x] = z;
535	>	} else if (z-zscan(y)[x] <= zeps*zscan(y)[x]) {
536	>	addcolor(sscan(y)[x], pval);
537	>	wscan(y)[x] += w;
538	>	}
539	>	} else if (zscan(y)[x] <= 0 \|\| zscan(y)[x]-z
540	>	> zeps*zscan(y)[x]) {
541		copycolr(pscan(y)[x], pix);
542	+	zscan(y)[x] = z;
543		}
544		}
545		}
546		}
547
548
549	+	double
550		movepixel(pos) /* reposition image point */
551	<	FVECT pos;
551	>	register FVECT pos;
552		{
553	<	double d0, d1;
554	<	FVECT pt, direc;
553	>	FVECT pt, tdir, odir;
554	>	double d;
555	>	register int i;
556
557		if (pos[2] <= 0) /* empty pixel */
558	<	return(-1);
559	<	if (normdist && theirview.type == VT_PER) { /* adjust distance */
479	<	d0 = pos[0] + theirview.hoff - .5;
480	<	d1 = pos[1] + theirview.voff - .5;
481	<	pos[2] /= sqrt(1. + d0d0theirview.hn2 + d1d1theirview.vn2);
482	<	}
483	<	if (hasmatrix) {
558	>	return(0);
559	>	if (!averaging && hasmatrix) {
560		pos[0] += theirview.hoff - .5;
561		pos[1] += theirview.voff - .5;
562		if (theirview.type == VT_PER) {
563	+	if (normdist) /* adjust distance */
564	+	pos[2] /= sqrt(1. + pos[0]pos[0]theirview.hn2
565	+	+ pos[1]pos[1]theirview.vn2);
566		pos[0] *= pos[2];
567		pos[1] *= pos[2];
568		}
569		multp3(pos, pos, theirs2ours);
570		if (pos[2] <= 0)
571	<	return(-1);
571	>	return(0);
572		if (ourview.type == VT_PER) {
573		pos[0] /= pos[2];
574		pos[1] /= pos[2];
575		}
576		pos[0] += .5 - ourview.hoff;
577		pos[1] += .5 - ourview.voff;
578	+	} else {
579	+	if (viewray(pt, tdir, &theirview, pos[0], pos[1]) < -FTINY)
580	+	return(0);
581	+	if (!normdist && theirview.type == VT_PER) /* adjust */
582	+	pos[2] = sqrt(1. + pos[0]pos[0]*theirview.hn2
583	+	+ pos[1]pos[1]theirview.vn2);
584	+	pt[0] += tdir[0]*pos[2];
585	+	pt[1] += tdir[1]*pos[2];
586	+	pt[2] += tdir[2]*pos[2];
587	+	viewloc(pos, &ourview, pt);
588	+	if (pos[2] <= 0)
589	+	return(0);
590	+	}
591	+	if (pos[0] < 0 \|\| pos[0] >= 1-FTINY \|\| pos[1] < 0 \|\| pos[1] >= 1-FTINY)
592		return(0);
593	+	if (!averaging)
594	+	return(1);
595	+	if (ourview.type == VT_PAR) /* compute our direction */
596	+	VCOPY(odir, ourview.vdir);
597	+	else
598	+	for (i = 0; i < 3; i++)
599	+	odir[i] = (pt[i] - ourview.vp[i])/pos[2];
600	+	d = DOT(odir,tdir); /* compute pixel weight */
601	+	if (d >= 1.-1./MAXWT/MAXWT)
602	+	return(MAXWT); /* clip to maximum weight */
603	+	return(1./sqrt(1.-d));
604	+	}
605	+
606	+
607	+	getperim(xl, yl, zline, zfd) /* compute overlapping image area */
608	+	register struct bound *xl;
609	+	struct bound *yl;
610	+	float *zline;
611	+	int zfd;
612	+	{
613	+	int step;
614	+	FVECT pos;
615	+	register int x, y;
616	+	/* set up step size */
617	+	if (scanlen(&tresolu) < numscans(&tresolu))
618	+	step = scanlen(&tresolu)/NSTEPS;
619	+	else
620	+	step = numscans(&tresolu)/NSTEPS;
621	+	if (step < MINSTEP) { /* not worth cropping? */
622	+	yl->min = 0;
623	+	yl->max = numscans(&tresolu) - 1;
624	+	x = scanlen(&tresolu) - 1;
625	+	for (y = numscans(&tresolu); y--; ) {
626	+	xl[y].min = 0;
627	+	xl[y].max = x;
628	+	}
629	+	return(1);
630		}
631	<	if (viewray(pt, direc, &theirview, pos[0], pos[1]) < -FTINY)
632	<	return(-1);
633	<	pt[0] += direc[0]*pos[2];
634	<	pt[1] += direc[1]*pos[2];
635	<	pt[2] += direc[2]*pos[2];
636	<	viewloc(pos, &ourview, pt);
637	<	if (pos[2] <= 0)
638	<	return(-1);
639	<	return(0);
631	>	yl->min = 32000; yl->max = 0; /* search for points on image */
632	>	for (y = step - 1; y < numscans(&tresolu); y += step) {
633	>	if (zfd != -1) {
634	>	if (lseek(zfd, (long)yscanlen(&tresolu)sizeof(float),
635	>	0) < 0)
636	>	syserror("lseek");
637	>	if (read(zfd, (char *)zline,
638	>	scanlen(&tresolu)*sizeof(float))
639	>	< scanlen(&tresolu)*sizeof(float))
640	>	syserror("read");
641	>	}
642	>	xl[y].min = 32000; xl[y].max = 0; /* x max */
643	>	for (x = scanlen(&tresolu); (x -= step) > 0; ) {
644	>	pix2loc(pos, &tresolu, x, y);
645	>	pos[2] = zline[x];
646	>	if (movepixel(pos) > FTINY) {
647	>	xl[y].max = x + step - 1;
648	>	xl[y].min = x - step + 1; /* x min */
649	>	if (xl[y].min < 0)
650	>	xl[y].min = 0;
651	>	for (x = step - 1; x < xl[y].max; x += step) {
652	>	pix2loc(pos, &tresolu, x, y);
653	>	pos[2] = zline[x];
654	>	if (movepixel(pos) > FTINY) {
655	>	xl[y].min = x - step + 1;
656	>	break;
657	>	}
658	>	}
659	>	if (y < yl->min) /* y limits */
660	>	yl->min = y - step + 1;
661	>	yl->max = y + step - 1;
662	>	break;
663	>	}
664	>	}
665	>	/* fill in between */
666	>	if (y < step) {
667	>	xl[y-1].min = xl[y].min;
668	>	xl[y-1].max = xl[y].max;
669	>	} else {
670	>	if (xl[y].min < xl[y-step].min)
671	>	xl[y-1].min = xl[y].min;
672	>	else
673	>	xl[y-1].min = xl[y-step].min;
674	>	if (xl[y].max > xl[y-step].max)
675	>	xl[y-1].max = xl[y].max;
676	>	else
677	>	xl[y-1].max = xl[y-step].max;
678	>	}
679	>	for (x = 2; x < step; x++)
680	>	copystruct(xl+y-x, xl+y-1);
681	>	}
682	>	if (yl->max >= numscans(&tresolu))
683	>	yl->max = numscans(&tresolu) - 1;
684	>	y -= step;
685	>	for (x = numscans(&tresolu) - 1; x > y; x--) /* fill bottom rows */
686	>	copystruct(xl+x, xl+y);
687	>	return(yl->max >= yl->min);
688		}
689
690
#	Line 580 \| Line 758 \| int samp;
758		< zscan(y)[xback] ) ) {
759		if (samp > 0 && ABS(x-xback) >= samp)
760		goto fillit;
761	<	copycolr(pscan(y)[x],pscan(y)[xback]);
761	>	if (averaging) {
762	>	copycolor(sscan(y)[x],
763	>	sscan(y)[xback]);
764	>	wscan(y)[x] = wscan(y)[xback];
765	>	} else
766	>	copycolr(pscan(y)[x],
767	>	pscan(y)[xback]);
768		zscan(y)[x] = zscan(y)[xback];
769		} else {
770		if (samp > 0 && ABS(y-yback[x]) > samp)
771		goto fillit;
772	<	copycolr(pscan(y)[x],pscan(yback[x])[x]);
772	>	if (averaging) {
773	>	copycolor(sscan(y)[x],
774	>	sscan(yback[x])[x]);
775	>	wscan(y)[x] =
776	>	wscan(yback[x])[x];
777	>	} else
778	>	copycolr(pscan(y)[x],
779	>	pscan(yback[x])[x]);
780		zscan(y)[x] = zscan(yback[x])[x];
781		}
782		continue;
#	Line 625 \| Line 816 \| *clipaft() / perform aft clipping as indicated /*
816
817		if (ourview.vaft <= FTINY)
818		return;
819	<	tstdist = ourview.vaft;
819	>	tstdist = ourview.vaft - ourview.vfore;
820		for (y = 0; y < vresolu; y++) {
821		if (ourview.type == VT_PER) { /* adjust distance */
822		yzn2 = (y+.5)/vresolu + ourview.voff - .5;
823		yzn2 = 1. + yzn2yzn2ourview.vn2;
824	<	tstdist = ourview.vaft * sqrt(yzn2);
824	>	tstdist = (ourview.vaft - ourview.vfore)*sqrt(yzn2);
825		}
826		for (x = 0; x < hresolu; x++)
827		if (zscan(y)[x] > tstdist) {
828		if (ourview.type == VT_PER) {
829		vx = (x+.5)/hresolu + ourview.hoff - .5;
830	<	if (zscan(y)[x] <= ourview.vaft *
830	>	if (zscan(y)[x] <= (ourview.vaft -
831	>	ourview.vfore) *
832		sqrt(vxvxourview.hn2 + yzn2))
833		continue;
834		}
835	<	bzero(pscan(y)[x], sizeof(COLR));
835	>	if (averaging)
836	>	bzero(sscan(y)[x], sizeof(COLOR));
837	>	else
838	>	bzero(pscan(y)[x], sizeof(COLR));
839		zscan(y)[x] = 0.0;
840		}
841		}
#	Line 650 \| Line 845 \| *clipaft() / perform aft clipping as indicated /*
845		writepicture() /* write out picture */
846		{
847		int y;
848	+	register int x;
849	+	double d;
850
851		fprtresolu(hresolu, vresolu, stdout);
852		for (y = vresolu-1; y >= 0; y--)
853	<	if (fwritecolrs(pscan(y), hresolu, stdout) < 0)
853	>	if (averaging) {
854	>	for (x = 0; x < hresolu; x++) { /* average pixels */
855	>	d = 1./wscan(y)[x];
856	>	scalecolor(sscan(y)[x], d);
857	>	wscan(y)[x] = 1;
858	>	}
859	>	if (fwritescan(sscan(y), hresolu, stdout) < 0)
860	>	syserror(progname);
861	>	} else if (fwritecolrs(pscan(y), hresolu, stdout) < 0)
862		syserror(progname);
863		}
864
#	Line 694 \| Line 899 \| *char fname;**
899		}
900
901
697	–	isfloat(s) /* see if string is floating number */
698	–	register char *s;
699	–	{
700	–	for ( ; *s; s++)
701	–	if ((s < '0' \|\| s > '9') && s != '.' && s != '-'
702	–	&& s != 'e' && s != 'E' && *s != '+')
703	–	return(0);
704	–	return(1);
705	–	}
706	–
707	–
902		backfill(x, y) /* fill pixel with background */
903		int x, y;
904		{
905	<	register BYTE *dest = pscan(y)[x];
906	<
907	<	copycolr(dest, backcolr);
905	>	if (averaging) {
906	>	copycolor(sscan(y)[x], backcolor);
907	>	wscan(y)[x] = 1;
908	>	} else
909	>	copycolr(pscan(y)[x], backcolr);
910		zscan(y)[x] = backz;
911		}
912
#	Line 810 \| Line 1006 \| *clearqueue() / process queue /*
1006		fbp[1] *= ourexp;
1007		fbp[2] *= ourexp;
1008		}
1009	<	setcolr(pscan(queue[i][1])[queue[i][0]],
1010	<	fbp[0], fbp[1], fbp[2]);
1009	>	if (averaging) {
1010	>	setcolor(sscan(queue[i][1])[queue[i][0]],
1011	>	fbp[0], fbp[1], fbp[2]);
1012	>	wscan(queue[i][1])[queue[i][0]] = 1;
1013	>	} else
1014	>	setcolr(pscan(queue[i][1])[queue[i][0]],
1015	>	fbp[0], fbp[1], fbp[2]);
1016		zscan(queue[i][1])[queue[i][0]] = fbp[3];
1017		fbp += 4;
1018		}

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Comparing ray/src/px/pinterp.c (file contents): Revision 2.15 by greg, Thu Dec 22 19:11:01 1994 UTC vs. Revision 2.20 by greg, Mon Dec 26 19:57:22 1994 UTC

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Comparing ray/src/px/pinterp.c (file contents):
Revision 2.15 by greg, Thu Dec 22 19:11:01 1994 UTC vs.
Revision 2.20 by greg, Mon Dec 26 19:57:22 1994 UTC