[ViewVC] Diff of: radiance/ray/src/util/ranimove1.c

Comparing ray/src/util/ranimove1.c (file contents):
Revision 3.9 by greg, Thu May 13 15:45:43 2004 UTC vs.
Revision 3.20 by greg, Tue Oct 2 21:56:20 2012 UTC

#	Line 4 \| Line 4 \| static const char RCSid[] = "$Id$";
4		/*
5		* ranimove1.c
6		*
7	<	* Basic frame rendering routines for ranimate(1).
7	>	* Basic frame rendering routines for ranimove(1).
8		*
9		* Created by Gregory Ward on Wed Jan 08 2003.
10		*/
#	Line 30 \| Line 30 \| *float zbuffer; /* depth at each pixel /*
30		OBJECT obuffer; / object id at each pixel */
31		short xmbuffer; / x motion at each pixel */
32		short ymbuffer; / y motion at each pixel */
33	<	BYTE abuffer; / accuracy at each pixel */
34	<	BYTE sbuffer; / sample count per pixel */
33	>	uby8 abuffer; / accuracy at each pixel */
34	>	uby8 sbuffer; / sample count per pixel */
35
36		VIEW vwprev; /* last frame's view */
37		COLOR cprev; / last frame colors */
38		float zprev; / last frame depth */
39		OBJECT oprev; / last frame objects */
40	<	BYTE aprev; / last frame accuracy */
40	>	uby8 aprev; / last frame accuracy */
41
42		float cerrmap; / conspicuous error map */
43		COLOR val2map; / value-squared map for variance */
#	Line 48 \| Line 48 \| *double hlsmax; / maximum high-level saliency this f**
48
49
50		static void next_frame(void);
51	<	static int sample_here(int x, int y);
52	<	static int offset_cmp(const void p1, const void p2);
53	<	static void setmotion(int n, FVECT wpos);
51	>	static int sample_here(int x, int y);
52	>	static int offset_cmp(const void p1, const void p2);
53	>	static void setmotion(int n, FVECT wpos);
54		static void init_frame_sample(void);
55
56
57	<	extern void
57	>	#if 0
58	>	void
59		write_map( /* write out float map (debugging) */
60		float *mp,
61		char *fn
#	Line 79 \| Line 80 \| *write_map( / write out float map (debugging) /*
80		}
81		fclose(fp);
82		}
83	+	#endif
84
85
86		static void
#	Line 105 \| Line 107 \| *next_frame(void) / prepare next frame buffer /*
107		error(USER, errmsg);
108		}
109		if (cbuffer == NULL) {
110	+	int n;
111		/* compute resolution and allocate */
112		switch (sscanf(vval(RESOLUTION), "%d %d %lf",
113		&hres, &vres, &pixaspect)) {
#	Line 128 \| Line 131 \| *next_frame(void) / prepare next frame buffer /*
131		obuffer = (OBJECT )malloc(sizeof(OBJECT)hres*vres);
132		xmbuffer = (short )malloc(sizeof(short)hres*vres);
133		ymbuffer = (short )malloc(sizeof(short)hres*vres);
134	<	abuffer = (BYTE )calloc(hresvres, sizeof(BYTE));
135	<	sbuffer = (BYTE )calloc(hresvres, sizeof(BYTE));
134	>	abuffer = (uby8 )calloc(hresvres, sizeof(uby8));
135	>	sbuffer = (uby8 )calloc(hresvres, sizeof(uby8));
136		cprev = (COLOR )malloc(sizeof(COLOR)hres*vres);
137		zprev = (float )malloc(sizeof(float)hres*vres);
138		oprev = (OBJECT )malloc(sizeof(OBJECT)hres*vres);
139	<	aprev = (BYTE )malloc(sizeof(BYTE)hres*vres);
139	>	aprev = (uby8 )malloc(sizeof(uby8)hres*vres);
140		if ((cbuffer==NULL) \| (zbuffer==NULL) \| (obuffer==NULL) \|
141		(xmbuffer==NULL) \| (ymbuffer==NULL) \|
142		(abuffer==NULL) \| (sbuffer==NULL) \|
143		(cprev==NULL) \| (zprev == NULL) \|
144		(oprev==NULL) \| (aprev==NULL))
145		error(SYSTEM, "out of memory in init_frame");
146	+	for (n = hres*vres; n--; ) {
147	+	zprev[n] = -1.f;
148	+	oprev[n] = OVOID;
149	+	}
150		frm_stop = getTime() + rtperfrm;
151		} else {
152		COLOR cp; / else just swap buffers */
153		float *fp;
154		OBJECT *op;
155	<	BYTE *bp;
155	>	uby8 *bp;
156		cp = cprev; cprev = cbuffer; cbuffer = cp;
157		fp = zprev; zprev = zbuffer; zbuffer = fp;
158		op = oprev; oprev = obuffer; obuffer = op;
159		bp = aprev; aprev = abuffer; abuffer = bp;
160	<	memset(abuffer, '\0', sizeof(BYTE)hresvres);
161	<	memset(sbuffer, '\0', sizeof(BYTE)hresvres);
160	>	memset(abuffer, '\0', sizeof(uby8)hresvres);
161	>	memset(sbuffer, '\0', sizeof(uby8)hresvres);
162		frm_stop += rtperfrm;
163		}
164		cerrmap = NULL;
#	Line 165 \| Line 172 \| *next_frame(void) / prepare next frame buffer /*
172
173		static int
174		sample_here( /* 4x4 quincunx sample at this pixel? */
175	<	register int x,
176	<	register int y
175	>	int x,
176	>	int y
177		)
178		{
179		if (y & 0x1) /* every other row has samples */
#	Line 177 \| Line 184 \| *sample_here( / 4x4 quincunx sample at this pixel? /*
184		}
185
186
187	<	extern void
187	>	void
188		sample_pos( /* compute jittered sample position */
189		double hv[2],
190		int x,
#	Line 194 \| Line 201 \| *sample_pos( / compute jittered sample position /*
201		}
202
203
204	<	extern double
204	>	double
205		sample_wt( /* compute interpolant sample weight */
206		int xo,
207		int yo
#	Line 228 \| Line 235 \| *offset_cmp( / compare offset distances /*
235		}
236
237
238	<	extern int
238	>	int
239		getclosest( /* get nc closest neighbors on same object */
240		int *iarr,
241		int nc,
#	Line 241 \| Line 248 \| *getclosest( / get nc closest neighbors on same object**
248		static int ioffs[NSCHECK];
249		OBJECT myobj;
250		int i0, nf;
251	<	register int i, j;
251	>	int i, j;
252		/* get our object number */
253		myobj = obuffer[fndx(x, y)];
254		/* special case for borders */
#	Line 305 \| Line 312 \| *getclosest( / get nc closest neighbors on same object**
312
313		static void
314		setmotion( /* compute motion vector for this pixel */
315	<	register int n,
315	>	int n,
316		FVECT wpos
317		)
318		{
#	Line 344 \| Line 351 \| init_frame_sample(void) /* sample our initial frame *
351		{
352		RAY ir;
353		int x, y;
354	<	register int n;
354	>	int n;
355
356		if (!silent) {
357		printf("\tComputing initial samples...");
#	Line 355 \| Line 362 \| init_frame_sample(void) /* sample our initial frame *
362		for (x = hres; x--; ) {
363		double hv[2];
364		n = fndx(x, y);
365	<	xmbuffer[n] = MO_UNK;
359	<	ymbuffer[n] = MO_UNK;
365	>	xmbuffer[n] = ymbuffer[n] = MO_UNK;
366		sample_pos(hv, x, y, 0);
367		ir.rmax = viewray(ir.rorg, ir.rdir, &vw, hv[0], hv[1]);
368		if (ir.rmax < -FTINY) {
#	Line 367 \| Line 373 \| init_frame_sample(void) /* sample our initial frame *
373		continue;
374		}
375		if (!sample_here(x, y)) { /* just cast */
376	<	rayorigin(&ir, NULL, PRIMARY, 1.0);
376	>	rayorigin(&ir, PRIMARY, NULL, NULL);
377		if (!localhit(&ir, &thescene)) {
378	<	if (ir.ro != &Aftplane)
379	<	sourcehit(&ir);
378	>	if (ir.ro != &Aftplane && sourcehit(&ir)) {
379	>	rayshade(&ir, ir.ro->omod);
380	>	rayparticipate(&ir);
381	>	}
382		copycolor(cbuffer[n], ir.rcol);
383		zbuffer[n] = ir.rot;
384		obuffer[n] = ir.robj;
#	Line 385 \| Line 393 \| init_frame_sample(void) /* sample our initial frame *
393		}
394		if (nprocs > 1) { /* get sample */
395		int rval;
396	<	rayorigin(&ir, NULL, PRIMARY, 1.0);
396	>	rayorigin(&ir, PRIMARY, NULL, NULL);
397		ir.rno = n;
398		rval = ray_pqueue(&ir);
399		if (!rval)
#	Line 399 \| Line 407 \| init_frame_sample(void) /* sample our initial frame *
407		zbuffer[n] = ir.rot;
408		obuffer[n] = ir.robj;
409		sbuffer[n] = 1;
410	<	if (ir.rot >= FHUGE)
410	>	if (ir.rot >= 0.99*FHUGE)
411		abuffer[n] = ADISTANT;
412		else {
413		abuffer[n] = ALOWQ;
#	Line 442 \| Line 450 \| init_frame_sample(void) /* sample our initial frame *
450		}
451
452
453	<	extern int
453	>	int
454		getambcolor( /* get ambient color for object if we can */
455		COLOR clr,
456		int obj
457		)
458		{
459	<	register OBJREC *op;
459	>	OBJREC *op;
460
461		if (obj == OVOID)
462		return(0);
463	<	op = objptr(obj);
464	<	if ((op->otype == OBJ_INSTANCE) & (op->omod == OVOID))
463	>	op = objptr(obj); /* search for material */
464	>	if (op->omod == OVOID)
465		return(0);
466	<	/* search for material */
467	<	do {
468	<	if (op->omod == OVOID \|\| ofun[op->otype].flags & T_X)
461	<	return(0);
462	<	op = objptr(op->omod);
463	<	} while (!ismaterial(op->otype));
466	>	op = findmaterial(objptr(op->omod));
467	>	if (op == NULL)
468	>	return(0);
469		/*
470		* Since this routine is called to compute the difference
471		* from rendering with and without interreflections,
#	Line 474 \| Line 479 \| *getambcolor( / get ambient color for object if we ca**
479		if (lv[0] == op->oname[0] &&
480		!strcmp(lv+1, op->oname+1))
481		break;
482	<	if ((lv != NULL) != hirendparams.ambincl)
482	>	if ((lv != NULL) ^ hirendparams.ambincl)
483		return(0);
484		}
485		switch (op->otype) {
#	Line 513 \| Line 518 \| *getambcolor( / get ambient color for object if we ca**
518		}
519
520
521	<	extern double
521	>	double
522		estimaterr( /* estimate relative error from samples */
523		COLOR cs,
524		COLOR cs2,
#	Line 539 \| Line 544 \| estimaterr( /* estimate relative error from samples *
544		}
545
546
547	<	extern double
547	>	double
548		comperr( /* estimate relative error in neighborhood */
549		int *neigh,
550		int nc,
#	Line 550 \| Line 555 \| comperr( /* estimate relative error in neighborhood *
555		COLOR ctmp;
556		int i;
557		int ns;
558	<	register int n;
558	>	int n;
559		/* add together samples */
560		setcolor(csum, 0., 0., 0.);
561		setcolor(csum2, 0., 0., 0.);
#	Line 575 \| Line 580 \| comperr( /* estimate relative error in neighborhood *
580		}
581
582
583	<	extern void
583	>	void
584		comp_frame_error(void) /* initialize frame error values */
585		{
586	<	BYTE *edone = NULL;
586	>	uby8 *edone = NULL;
587		COLOR objamb;
588		double eest;
589		int neigh[NSAMPOK];
590		int nc;
591		int x, y, i;
592	<	register int n;
592	>	int n;
593
594		if (!silent) {
595		printf("\tComputing error map\n");
#	Line 602 \| Line 607 \| *comp_frame_error(void) / initialize frame error valu**
607		* error should be less than the ambient value divided
608		* by the returned ray value -- we take half of this.
609		*/
610	<	edone = (BYTE )calloc(hresvres, sizeof(BYTE));
611	<	for (y = vres; y--; )
607	<	for (x = hres; x--; ) {
608	<	n = fndx(x, y);
610	>	edone = (uby8 )calloc(hresvres, sizeof(uby8));
611	>	for (n = hres*vres; n--; ) {
612		if ((abuffer[n] != ALOWQ) \| (obuffer[n] == OVOID))
613		continue;
614		if (!getambcolor(objamb, obuffer[n]))
#	Line 622 \| Line 625 \| *comp_frame_error(void) / initialize frame error valu**
625		else if (i >= ADISTANT/2) i = ADISTANT/2-1;
626		abuffer[n] = i;
627		edone[n] = 1;
628	<	}
628	>	}
629		}
630		/* final statistical estimate */
631		for (y = vres; y--; )
#	Line 654 \| Line 657 \| *comp_frame_error(void) / initialize frame error valu**
657		}
658
659
660	<	extern void
660	>	void
661		init_frame(void) /* render base (low quality) frame */
662		{
663		int restart;
661	–
664		/* allocate/swap buffers */
665		next_frame();
666		/* check rendering status */
667		restart = (!nobjects \|\| vdef(MOVE));
668		if (!restart && curparams != &lorendparams && nprocs > 1)
669		restart = -1;
668	–	if (restart > 0) {
669	–	if (nprocs > 1)
670	–	ray_pdone(1);
671	–	else
672	–	ray_done(1);
673	–	}
670		/* post low quality parameters */
671		if (curparams != &lorendparams)
672		ray_restore(curparams = &lorendparams);
#	Line 702 \| Line 698 \| *init_frame(void) / render base (low quality) frame**
698		init_frame_sample();
699		/* initialize frame error */
700		comp_frame_error();
701	<	return;
701	>	#if 0
702		{
703		float ebuf = (float )malloc(sizeof(float)hresvres);
704		char fnm[256];
705	<	register int n;
705	>	int n;
706		for (n = hres*vres; n--; )
707		ebuf[n] = acctab[abuffer[n]];
708		sprintf(fnm, vval(BASENAME), fcur);
#	Line 714 \| Line 710 \| return;
710		write_map(ebuf, fnm);
711		free((void *)ebuf);
712		}
713	+	#endif
714		}
715
716
717	<	extern void
717	>	void
718		filter_frame(void) /* interpolation, motion-blur, and exposure */
719		{
720	<	double expval = expspec_val(getexp(fcur));
721	<	int x, y;
722	<	int neigh[NPINTERP];
723	<	int nc;
724	<	COLOR cval;
725	<	double w, wsum;
726	<	register int n;
720	>	const double expval = expspec_val(getexp(fcur));
721	>	int x, y;
722	>	int neigh[NPINTERP];
723	>	int nc;
724	>	COLOR cval;
725	>	double w, wsum;
726	>	int n;
727
728		#if 0
729		/* XXX TEMPORARY!! */
#	Line 740 \| Line 737 \| *filter_frame(void) / interpolation, motion-blur, an**
737		free((void *)ebuf);
738		}
739		#endif
743	–
740		if (!silent) {
741		printf("\tFiltering frame\n");
742		fflush(stdout);
743		}
744		/* normalize samples */
745	<	for (y = vres; y--; )
750	<	for (x = hres; x--; ) {
751	<	n = fndx(x, y);
745	>	for (n = hres*vres; n--; ) {
746		if (sbuffer[n] <= 1)
747		continue;
748		w = 1.0/(double)sbuffer[n];
749		scalecolor(cbuffer[n], w);
750	<	}
750	>	}
751		/* interpolate samples */
752		for (y = vres; y--; )
753		for (x = hres; x--; ) {
#	Line 762 \| Line 756 \| *filter_frame(void) / interpolation, motion-blur, an**
756		continue;
757		nc = getclosest(neigh, NPINTERP, x, y);
758		setcolor(cbuffer[n], 0., 0., 0.);
759	+	if (nc <= 0) { /* no acceptable neighbors */
760	+	if (y < vres-1)
761	+	nc = fndx(x, y+1);
762	+	else if (x < hres-1)
763	+	nc = fndx(x+1, y);
764	+	else
765	+	continue;
766	+	copycolor(cbuffer[n], cbuffer[nc]);
767	+	continue;
768	+	}
769		wsum = 0.;
770		while (nc-- > 0) {
771		copycolor(cval, cbuffer[neigh[nc]]);
#	Line 771 \| Line 775 \| *filter_frame(void) / interpolation, motion-blur, an**
775		addcolor(cbuffer[n], cval);
776		wsum += w;
777		}
778	<	if (wsum > FTINY) {
779	<	w = 1.0/wsum;
776	<	scalecolor(cbuffer[n], w);
777	<	}
778	>	w = 1.0/wsum;
779	>	scalecolor(cbuffer[n], w);
780		}
781		/* motion blur if requested */
782		if (mblur > .02) {
#	Line 852 \| Line 854 \| *filter_frame(void) / interpolation, motion-blur, an**
854		}
855		}
856		/* compute final results */
857	<	for (y = vres; y--; )
856	<	for (x = hres; x--; ) {
857	<	n = fndx(x, y);
857	>	for (n = hres*vres; n--; ) {
858		if (wbuffer[n] <= FTINY)
859		continue;
860	<	w = 1./wbuffer[n];
860	>	w = expval/wbuffer[n];
861		scalecolor(outbuffer[n], w);
862	<	}
863	<	} else
864	<	for (n = hres*vres; n--; )
865	<	copycolor(outbuffer[n], cbuffer[n]);
862	>	}
863	>	} else { /* no blur -- just exposure */
864	>	memcpy(outbuffer, cbuffer, sizeof(COLOR)hresvres);
865	>	for (n = ((expval < 0.99) \| (expval > 1.01))hresvres; n--; )
866	>	scalecolor(outbuffer[n], expval);
867	>	}
868		/*
869		for (n = hres*vres; n--; )
870		if (!sbuffer[n])
871		setcolor(outbuffer[n], 0., 0., 0.);
872		*/
871	–	/* adjust exposure */
872	–	if ((expval < 0.99) \| (expval > 1.01))
873	–	for (n = hres*vres; n--; )
874	–	scalecolor(outbuffer[n], expval);
873		#if 0
874		{
875		float sbuf = (float )malloc(sizeof(float)hresvres);
#	Line 887 \| Line 885 \| *filter_frame(void) / interpolation, motion-blur, an**
885		}
886
887
888	<	extern void
888	>	void
889		send_frame(void) /* send frame to destination */
890		{
891	<	char pfname[1024];
891	>	char fname[1024];
892		double d;
893		FILE *fp;
894		int y;
895		/* open output picture */
896	<	sprintf(pfname, vval(BASENAME), fcur);
897	<	strcat(pfname, ".pic");
898	<	fp = fopen(pfname, "w");
896	>	sprintf(fname, vval(BASENAME), fcur);
897	>	strcat(fname, ".hdr");
898	>	fp = fopen(fname, "w");
899		if (fp == NULL) {
900	<	sprintf(errmsg, "cannot open output frame \"%s\"", pfname);
900	>	sprintf(errmsg, "cannot open output frame \"%s\"", fname);
901		error(SYSTEM, errmsg);
902		}
903		SET_FILE_BINARY(fp);
904		if (!silent) {
905	<	printf("\tWriting to \"%s\"\n", pfname);
905	>	printf("\tWriting to \"%s\"\n", fname);
906		fflush(stdout);
907		}
908		/* write header */
#	Line 933 \| Line 931 \| *send_frame(void) / send frame to destination /*
931		goto writerr;
932		if (fclose(fp) == EOF)
933		goto writerr;
934	+	if (vdef(ZNAME)) { /* output z-buffer */
935	+	sprintf(fname, vval(ZNAME), fcur);
936	+	strcat(fname, ".zbf");
937	+	fp = fopen(fname, "w");
938	+	if (fp == NULL) {
939	+	sprintf(errmsg, "cannot open z-file \"%s\"\n", fname);
940	+	error(SYSTEM, errmsg);
941	+	}
942	+	SET_FILE_BINARY(fp);
943	+	if (!silent) {
944	+	printf("\tWriting depths to \"%s\"\n", fname);
945	+	fflush(stdout);
946	+	}
947	+	for (y = vres; y--; )
948	+	if (fwrite(zbuffer+y*hres, sizeof(float),
949	+	hres, fp) != hres)
950	+	goto writerr;
951	+	if (fclose(fp) == EOF)
952	+	goto writerr;
953	+	}
954	+	if (vdef(MNAME)) { /* output motion buffer */
955	+	unsigned short mbuffer = (unsigned short )malloc(
956	+	sizeof(unsigned short)3hres);
957	+	int x, n;
958	+	if (mbuffer == NULL)
959	+	error(SYSTEM, "out of memory in send_frame");
960	+	sprintf(fname, vval(MNAME), fcur);
961	+	strcat(fname, ".mvo");
962	+	fp = fopen(fname, "w");
963	+	if (fp == NULL) {
964	+	sprintf(errmsg, "cannot open motion file \"%s\"\n",
965	+	fname);
966	+	error(SYSTEM, errmsg);
967	+	}
968	+	SET_FILE_BINARY(fp);
969	+	if (!silent) {
970	+	printf("\tWriting motion vectors to \"%s\"\n", fname);
971	+	fflush(stdout);
972	+	}
973	+	for (y = vres; y--; ) {
974	+	for (x = hres; x--; ) {
975	+	n = fndx(x,y);
976	+	mbuffer[3*x] = xmbuffer[n] + 0x8000;
977	+	mbuffer[3*x+1] = ymbuffer[n] + 0x8000;
978	+	mbuffer[3x+2] = (oprev[n]!=OVOID)0x8000;
979	+	}
980	+	if (fwrite(mbuffer, sizeof(*mbuffer),
981	+	3hres, fp) != 3hres)
982	+	goto writerr;
983	+	}
984	+	free((void *)mbuffer);
985	+	if (fclose(fp) == EOF)
986	+	goto writerr;
987	+	}
988		return; /* all is well */
989		writerr:
990	<	sprintf(errmsg, "error writing frame \"%s\"", pfname);
990	>	sprintf(errmsg, "error writing file \"%s\"", fname);
991		error(SYSTEM, errmsg);
992		}
993
994
995	<	extern void
995	>	void
996		free_frame(void) /* free frame allocation */
997		{
998		if (cbuffer == NULL)

Diff Legend

-–
+Removed lines
-+
+Added lines
-<
+Changed lines
->
+Changed lines

Comparing ray/src/util/ranimove1.c (file contents): Revision 3.9 by greg, Thu May 13 15:45:43 2004 UTC vs. Revision 3.20 by greg, Tue Oct 2 21:56:20 2012 UTC

Diff Legend

Comparing ray/src/util/ranimove1.c (file contents):
Revision 3.9 by greg, Thu May 13 15:45:43 2004 UTC vs.
Revision 3.20 by greg, Tue Oct 2 21:56:20 2012 UTC