[ViewVC] Diff of: radiance/ray/src/cv/obj2rad.c

Comparing ray/src/cv/obj2rad.c (file contents):
Revision 2.11 by greg, Wed Jun 15 12:50:37 1994 UTC vs.
Revision 2.31 by greg, Tue Jan 28 21:18:02 2020 UTC

#	Line 1 \| Line 1
1	–	/* Copyright (c) 1994 Regents of the University of California */
2	–
1		#ifndef lint
2	<	static char SCCSid[] = "$SunId$ LBL";
2	>	static const char RCSid[] = "$Id$";
3		#endif
6	–
4		/*
5	<	* Convert a Wavefront .obj file to Radiance format.
5	>	* Convert a Wavefront .OBJ file to Radiance format.
6		*
7		* Currently, we support only polygonal geometry. Non-planar
8		* faces are broken rather haphazardly into triangles.
#	Line 13 \| Line 10 \| static char SCCSid[] = "$SunId$ LBL";
10		* I'm not sure they work correctly. (Taken out -- see TEXMAPS defines.)
11		*/
12
13	<	#include "standard.h"
13	>	#include <stdlib.h>
14	>	#include <ctype.h>
15
16	+	#include "rtmath.h"
17	+	#include "rtio.h"
18	+	#include "resolu.h"
19		#include "trans.h"
20	+	#include "tmesh.h"
21
20	–	#include <ctype.h>
22
22	–	#define TCALNAME "tmesh.cal" /* triangle interp. file */
23		#define PATNAME "M-pat" /* mesh pattern name (reused) */
24		#define TEXNAME "M-nor" /* mesh texture name (reused) */
25		#define DEFOBJ "unnamed" /* default object name */
26		#define DEFMAT "white" /* default material name */
27
28	<	#define ABS(x) ((x)>=0 ? (x) : -(x))
28	>	#define pvect(v) printf(" %18.12g %18.12g %18.12g\n",(v)[0],(v)[1],(v)[2])
29
30	–	#define pvect(v) printf("%18.12g %18.12g %18.12g\n",(v)[0],(v)[1],(v)[2])
31	–
30		FVECT vlist; / our vertex list */
31		int nvs; /* number of vertices in our list */
32		FVECT vnlist; / vertex normal list */
33		int nvns;
34	<	FLOAT (vtlist)[2]; / map vertex list */
34	>	RREAL (vtlist)[2]; / map vertex list */
35		int nvts;
36
37	<	typedef struct {
38	<	int ax; /* major axis */
41	<	FLOAT tm[2][3]; /* transformation */
42	<	} BARYCCM;
37	>	int ndegen = 0; /* count of degenerate faces */
38	>	int n0norm = 0; /* count of zero normals */
39
40		typedef int VNDX[3]; /* vertex index (point,map,normal) */
41
42	<	#define CHUNKSIZ 256 /* vertex allocation chunk size */
42	>	#define CHUNKSIZ 1024 /* vertex allocation chunk size */
43
44	<	#define MAXARG 64 /* maximum # arguments in a statement */
44	>	#define MAXARG 512 /* maximum # arguments in a statement */
45
46		/* qualifiers */
47		#define Q_MTL 0
#	Line 74 \| Line 70 \| *char defobj = DEFOBJ; /* default (starting) object na**
70
71		int flatten = 0; /* discard surface normal information */
72
73	<	char getmtl(), getonm();
74	<
75	<	char mapname[128]; /* current picture file */
76	<	char matname[64]; /* current material name */
81	<	char group[16][32]; /* current group names */
82	<	char objname[128]; /* current object name */
73	>	char mapname[256]; /* current picture file */
74	>	char matname[256]; /* current material name */
75	>	char group[8][256]; /* current group name(s) */
76	>	char objname[256]; /* current object name */
77		char inpfile; / input file name */
78		int lineno; /* current line number */
79		int faceno; /* current face number */
80
81	+	static void getnames(FILE *fp);
82	+	static void convert(FILE *fp);
83	+	static int getstmt(char av[MAXARG], FILE fp);
84	+	static char * getmtl(void);
85	+	static char * getonm(void);
86	+	static int matchrule(RULEHD *rp);
87	+	static int cvtndx(VNDX vi, char *vs);
88	+	static int nonplanar(int ac, char **av);
89	+	static int putface(int ac, char **av);
90	+	static int puttri(char v1, char v2, char *v3);
91	+	static void freeverts(void);
92	+	static int newv(double x, double y, double z);
93	+	static int newvn(double x, double y, double z);
94	+	static int newvt(double x, double y);
95	+	static void syntax(char *er);
96
97	<	main(argc, argv) /* read in .obj file and convert */
98	<	int argc;
99	<	char *argv[];
97	>
98	>	int
99	>	main( /* read in .OBJ file and convert */
100	>	int argc,
101	>	char *argv[]
102	>	)
103		{
104		int donames = 0;
105		int i;
#	Line 109 \| Line 121 \| *char argv[];**
121		default:
122		goto userr;
123		}
124	<	if (i > argc \| i < argc-1)
124	>	if ((i > argc) \| (i < argc-1))
125		goto userr;
126		if (i == argc)
127		inpfile = "<stdin>";
#	Line 130 \| Line 142 \| *char argv[];**
142		printargs(argc, argv, stdout);
143		convert(stdin);
144		}
145	+	if (ndegen)
146	+	printf("# %d degenerate faces\n", ndegen);
147	+	if (n0norm)
148	+	printf("# %d invalid (zero) normals\n", n0norm);
149		exit(0);
150		userr:
151		fprintf(stderr, "Usage: %s [-o obj][-m mapping][-n][-f] [file.obj]\n",
#	Line 138 \| Line 154 \| userr:
154		}
155
156
157	<	getnames(fp) /* get valid qualifier names */
158	<	FILE *fp;
157	>	void
158	>	getnames( /* get valid qualifier names */
159	>	FILE *fp
160	>	)
161		{
162		char *argv[MAXARG];
163		int argc;
164		ID tmpid;
165	<	register int i;
165	>	int i;
166
167	<	while (argc = getstmt(argv, fp))
167	>	while ( (argc = getstmt(argv, fp)) )
168		switch (argv[0][0]) {
169		case 'f': /* face */
170		if (!argv[0][1])
#	Line 187 \| Line 205 \| *FILE fp;**
205		}
206
207
208	<	convert(fp) /* convert a T-mesh */
209	<	FILE *fp;
208	>	void
209	>	convert( /* convert an OBJ stream */
210	>	FILE *fp
211	>	)
212		{
213		char *argv[MAXARG];
214		int argc;
215		int nstats, nunknown;
216	<	register int i;
216	>	int i;
217
218		nstats = nunknown = 0;
219		/* scan until EOF */
220	<	while (argc = getstmt(argv, fp)) {
220	>	while ( (argc = getstmt(argv, fp)) ) {
221		switch (argv[0][0]) {
222		case 'v': /* vertex */
223		switch (argv[0][1]) {
#	Line 256 \| Line 276 \| *FILE fp;**
276		if (!strcmp(argv[1], "off"))
277		mapname[0] = '\0';
278		else
279	<	sprintf(mapname, "%s.pic", argv[1]);
279	>	sprintf(mapname, "%s.hdr", argv[1]);
280		} else
281		goto unknown;
282		break;
#	Line 272 \| Line 292 \| *FILE fp;**
292		goto unknown;
293		for (i = 1; i < argc; i++)
294		strcpy(group[i-1], argv[i]);
295	<	group[i-1][0] = '\0';
295	>	group[argc-1][0] = '\0';
296		break;
297		case '#': /* comment */
298		printargs(argc, argv, stdout);
#	Line 291 \| Line 311 \| *FILE fp;**
311
312
313		int
314	<	getstmt(av, fp) /* read the next statement from fp */
315	<	register char *av[MAXARG];
316	<	FILE *fp;
314	>	getstmt( /* read the next statement from fp */
315	>	char *av[MAXARG],
316	>	FILE *fp
317	>	)
318		{
319	<	extern char *fgetline();
320	<	static char sbuf[MAXARG*10];
321	<	register char *cp;
301	<	register int i;
319	>	static char sbuf[MAXARG*16];
320	>	char *cp;
321	>	int i;
322
323		do {
324		if (fgetline(cp=sbuf, sizeof(sbuf), fp) == NULL)
#	Line 310 \| Line 330 \| *FILE fp;**
330		lineno++;
331		*cp++ = '\0';
332		}
333	<	if (!*cp \|\| i >= MAXARG-1)
333	>	if (!*cp)
334		break;
335	+	if (i >= MAXARG-1) {
336	+	fprintf(stderr,
337	+	"warning: line %d: too many arguments (limit %d)\n",
338	+	lineno+1, MAXARG-1);
339	+	break;
340	+	}
341		av[i++] = cp;
342		while (++cp && !isspace(cp))
343		;
#	Line 325 \| Line 351 \| *FILE fp;**
351
352
353		char *
354	<	getmtl() /* figure material for this face */
354	>	getmtl(void) /* figure material for this face */
355		{
356	<	register RULEHD *rp = ourmapping;
356	>	RULEHD *rp = ourmapping;
357
358		if (rp == NULL) { /* no rule set */
359		if (matname[0])
#	Line 351 \| Line 377 \| *getmtl() / figure material for this face /*
377
378
379		char *
380	<	getonm() /* invent a good name for object */
380	>	getonm(void) /* invent a good name for object */
381		{
382		static char name[64];
383	<	register char cp1, cp2;
384	<	register int i;
383	>	char cp1, cp2;
384	>	int i;
385		/* check for preset */
386		if (objname[0])
387		return(objname);
#	Line 366 \| Line 392 \| *getonm() / invent a good name for object /*
392		cp2 = group[i];
393		if (cp1 > name)
394		*cp1++ = '.';
395	<	while (cp1 = cp2++)
395	>	while ( (cp1 = cp2++) )
396		if (++cp1 >= name+sizeof(name)-2) {
397		*cp1 = '\0';
398		return(name);
#	Line 376 \| Line 402 \| *getonm() / invent a good name for object /*
402		}
403
404
405	<	matchrule(rp) /* check for a match on this rule */
406	<	register RULEHD *rp;
405	>	int
406	>	matchrule( /* check for a match on this rule */
407	>	RULEHD *rp
408	>	)
409		{
410		ID tmpid;
411		int gotmatch;
412	<	register int i;
412	>	int i;
413
414		if (rp->qflg & FL(Q_MTL)) {
415		if (!matname[0])
#	Line 427 \| Line 455 \| *register RULEHD rp;**
455		}
456
457
458	<	cvtndx(vi, vs) /* convert vertex string to index */
459	<	register VNDX vi;
460	<	register char *vs;
458	>	int
459	>	cvtndx( /* convert vertex string to index */
460	>	VNDX vi,
461	>	char *vs
462	>	)
463		{
464		/* get point */
465		vi[0] = atoi(vs);
#	Line 470 \| Line 500 \| *register char vs;**
500		return(0);
501		} else
502		vi[2] = -1;
503	+	/* zero normal is not normal */
504	+	if (vi[2] >= 0 && DOT(vnlist[vi[2]],vnlist[vi[2]]) <= FTINY)
505	+	vi[2] = -1;
506		return(1);
507		}
508
509
510	<	nonplanar(ac, av) /* are vertices non-planar? */
511	<	register int ac;
512	<	register char **av;
510	>	int
511	>	nonplanar( /* are vertices non-planar? */
512	>	int ac,
513	>	char **av
514	>	)
515		{
516		VNDX vi;
517	<	FLOAT p0, p1;
517	>	RREAL p0, p1;
518		FVECT v1, v2, nsum, newn;
519		double d;
520	<	register int i;
520	>	int i;
521
522		if (!cvtndx(vi, av[0]))
523		return(0);
524	<	if (vi[2] >= 0)
524	>	if (!flatten && vi[2] >= 0)
525		return(1); /* has interpolated normals */
526		if (ac < 4)
527		return(0); /* it's a triangle! */
#	Line 525 \| Line 560 \| register char av;**
560		}
561
562
563	<	putface(ac, av) /* put out an N-sided polygon */
564	<	int ac;
565	<	register char **av;
563	>	int
564	>	putface( /* put out an N-sided polygon */
565	>	int ac,
566	>	char **av
567	>	)
568		{
569		VNDX vi;
570		char *cp;
571	<	register int i;
571	>	int i;
572
573		if (nonplanar(ac, av)) { /* break into triangles */
574		while (ac > 2) {
#	Line 558 \| Line 595 \| register char av;**
595		}
596
597
598	<	puttri(v1, v2, v3) /* put out a triangle */
599	<	char v1, v2, *v3;
598	>	int
599	>	puttri( /* put out a triangle */
600	>	char *v1,
601	>	char *v2,
602	>	char *v3
603	>	)
604		{
605		char *mod;
606		VNDX v1i, v2i, v3i;
607		BARYCCM bvecs;
608	<	int texOK, patOK;
608	>	RREAL bcoor[3][3];
609	>	int texOK = 0, patOK;
610	>	int flatness;
611	>	int i;
612
613		if ((mod = getmtl()) == NULL)
614		return(-1);
#	Line 572 \| Line 616 \| *char v1, v2, v3;**
616		if (!cvtndx(v1i, v1) \|\| !cvtndx(v2i, v2) \|\| !cvtndx(v3i, v3))
617		return(0);
618		/* compute barycentric coordinates */
619	<	texOK = !flatten && (v1i[2]>=0 && v2i[2]>=0 && v3i[2]>=0);
619	>	if (v1i[2]>=0 && v2i[2]>=0 && v3i[2]>=0)
620	>	flatness = flat_tri(vlist[v1i[0]], vlist[v2i[0]], vlist[v3i[0]],
621	>	vnlist[v1i[2]], vnlist[v2i[2]], vnlist[v3i[2]]);
622	>	else
623	>	flatness = ISFLAT;
624	>
625	>	switch (flatness) {
626	>	case DEGEN: /* zero area */
627	>	ndegen++;
628	>	return(-1);
629	>	case RVFLAT: /* reversed normals, but flat */
630	>	case ISFLAT: /* smoothing unnecessary */
631	>	texOK = 0;
632	>	break;
633	>	case RVBENT: /* reversed normals with smoothing */
634	>	case ISBENT: /* proper smoothing */
635	>	texOK = 1;
636	>	break;
637	>	}
638	>	if (flatten)
639	>	texOK = 0;
640		#ifdef TEXMAPS
641		patOK = mapname[0] && (v1i[1]>=0 && v2i[1]>=0 && v3i[1]>=0);
642		#else
#	Line 581 \| Line 645 \| *char v1, v2, v3;**
645		if (texOK \| patOK)
646		if (comp_baryc(&bvecs, vlist[v1i[0]], vlist[v2i[0]],
647		vlist[v3i[0]]) < 0)
648	<	return(-1);
648	>	texOK = patOK = 0;
649		/* put out texture (if any) */
650		if (texOK) {
651		printf("\n%s texfunc %s\n", mod, TEXNAME);
652		mod = TEXNAME;
653		printf("4 dx dy dz %s\n", TCALNAME);
654	<	printf("0\n16 ");
655	<	put_baryc(&bvecs);
656	<	printf("\t%14.12g %14.12g %14.12g\n",
657	<	vnlist[v1i[2]][0], vnlist[v2i[2]][0],
658	<	vnlist[v3i[2]][0]);
659	<	printf("\t%14.12g %14.12g %14.12g\n",
660	<	vnlist[v1i[2]][1], vnlist[v2i[2]][1],
597	<	vnlist[v3i[2]][1]);
598	<	printf("\t%14.12g %14.12g %14.12g\n",
599	<	vnlist[v1i[2]][2], vnlist[v2i[2]][2],
600	<	vnlist[v3i[2]][2]);
654	>	printf("0\n");
655	>	for (i = 0; i < 3; i++) {
656	>	bcoor[i][0] = vnlist[v1i[2]][i];
657	>	bcoor[i][1] = vnlist[v2i[2]][i];
658	>	bcoor[i][2] = vnlist[v3i[2]][i];
659	>	}
660	>	put_baryc(&bvecs, bcoor, 3);
661		}
662		#ifdef TEXMAPS
663		/* put out pattern (if any) */
#	Line 605 \| Line 665 \| *char v1, v2, v3;**
665		printf("\n%s colorpict %s\n", mod, PATNAME);
666		mod = PATNAME;
667		printf("7 noneg noneg noneg %s %s u v\n", mapname, TCALNAME);
668	<	printf("0\n13 ");
669	<	put_baryc(&bvecs);
670	<	printf("\t%f %f %f\n", vtlist[v1i[1]][0],
671	<	vtlist[v2i[1]][0], vtlist[v3i[1]][0]);
672	<	printf("\t%f %f %f\n", vtlist[v1i[1]][1],
673	<	vtlist[v2i[1]][1], vtlist[v3i[1]][1]);
668	>	printf("0\n");
669	>	for (i = 0; i < 2; i++) {
670	>	bcoor[i][0] = vtlist[v1i[1]][i];
671	>	bcoor[i][1] = vtlist[v2i[1]][i];
672	>	bcoor[i][2] = vtlist[v3i[1]][i];
673	>	}
674	>	put_baryc(&bvecs, bcoor, 2);
675		}
676		#endif
677	<	/* put out triangle */
677	>	/* put out (reversed) triangle */
678		printf("\n%s polygon %s.%d\n", mod, getonm(), faceno);
679		printf("0\n0\n9\n");
680	<	pvect(vlist[v1i[0]]);
681	<	pvect(vlist[v2i[0]]);
682	<	pvect(vlist[v3i[0]]);
683	<
680	>	if (flatness == RVFLAT \|\| flatness == RVBENT) {
681	>	pvect(vlist[v3i[0]]);
682	>	pvect(vlist[v2i[0]]);
683	>	pvect(vlist[v1i[0]]);
684	>	} else {
685	>	pvect(vlist[v1i[0]]);
686	>	pvect(vlist[v2i[0]]);
687	>	pvect(vlist[v3i[0]]);
688	>	}
689		return(1);
690		}
691
692
693	<	int
694	<	comp_baryc(bcm, v1, v2, v3) /* compute barycentric vectors */
629	<	register BARYCCM *bcm;
630	<	FLOAT v1, v2, *v3;
693	>	void
694	>	freeverts(void) /* free all vertices */
695		{
632	–	FLOAT *vt;
633	–	FVECT va, vab, vcb;
634	–	double d;
635	–	int ax0, ax1;
636	–	register int i, j;
637	–	/* compute major axis */
638	–	for (i = 0; i < 3; i++) {
639	–	vab[i] = v1[i] - v2[i];
640	–	vcb[i] = v3[i] - v2[i];
641	–	}
642	–	fcross(va, vab, vcb);
643	–	bcm->ax = ABS(va[0]) > ABS(va[1]) ? 0 : 1;
644	–	bcm->ax = ABS(va[bcm->ax]) > ABS(va[2]) ? bcm->ax : 2;
645	–	ax0 = (bcm->ax + 1) % 3;
646	–	ax1 = (bcm->ax + 2) % 3;
647	–	for (j = 0; j < 2; j++) {
648	–	vab[0] = v1[ax0] - v2[ax0];
649	–	vcb[0] = v3[ax0] - v2[ax0];
650	–	vab[1] = v1[ax1] - v2[ax1];
651	–	vcb[1] = v3[ax1] - v2[ax1];
652	–	d = vcb[0]vcb[0] + vcb[1]vcb[1];
653	–	if (d <= FTINY)
654	–	return(-1);
655	–	d = (vcb[0]vab[0]+vcb[1]vab[1])/d;
656	–	va[0] = vab[0] - vcb[0]*d;
657	–	va[1] = vab[1] - vcb[1]*d;
658	–	d = va[0]va[0] + va[1]va[1];
659	–	if (d <= FTINY)
660	–	return(-1);
661	–	bcm->tm[j][0] = va[0] /= d;
662	–	bcm->tm[j][1] = va[1] /= d;
663	–	bcm->tm[j][2] = -(v2[ax0]va[0]+v2[ax1]va[1]);
664	–	/* rotate vertices */
665	–	vt = v1;
666	–	v1 = v2;
667	–	v2 = v3;
668	–	v3 = vt;
669	–	}
670	–	return(0);
671	–	}
672	–
673	–
674	–	put_baryc(bcm) /* put barycentric coord. vectors */
675	–	register BARYCCM *bcm;
676	–	{
677	–	printf("\t%d\n", bcm->ax);
678	–	printf("%14.8f %14.8f %14.8f\n",
679	–	bcm->tm[0][0], bcm->tm[0][1], bcm->tm[0][2]);
680	–	printf("%14.8f %14.8f %14.8f\n",
681	–	bcm->tm[1][0], bcm->tm[1][1], bcm->tm[1][2]);
682	–	}
683	–
684	–
685	–	freeverts() /* free all vertices */
686	–	{
696		if (nvs) {
697	<	free((char *)vlist);
697	>	free((void *)vlist);
698		nvs = 0;
699		}
700		if (nvts) {
701	<	free((char *)vtlist);
701	>	free((void *)vtlist);
702		nvts = 0;
703		}
704		if (nvns) {
705	<	free((char *)vnlist);
705	>	free((void *)vnlist);
706		nvns = 0;
707		}
708		}
709
710
711		int
712	<	newv(x, y, z) /* create a new vertex */
713	<	double x, y, z;
712	>	newv( /* create a new vertex */
713	>	double x,
714	>	double y,
715	>	double z
716	>	)
717		{
718		if (!(nvs%CHUNKSIZ)) { /* allocate next block */
719		if (nvs == 0)
720		vlist = (FVECT )malloc(CHUNKSIZsizeof(FVECT));
721		else
722	<	vlist = (FVECT )realloc((char )vlist,
722	>	vlist = (FVECT )realloc((void )vlist,
723		(nvs+CHUNKSIZ)*sizeof(FVECT));
724		if (vlist == NULL) {
725		fprintf(stderr,
#	Line 724 \| Line 736 \| double x, y, z;
736
737
738		int
739	<	newvn(x, y, z) /* create a new vertex normal */
740	<	double x, y, z;
739	>	newvn( /* create a new vertex normal */
740	>	double x,
741	>	double y,
742	>	double z
743	>	)
744		{
745		if (!(nvns%CHUNKSIZ)) { /* allocate next block */
746		if (nvns == 0)
747		vnlist = (FVECT )malloc(CHUNKSIZsizeof(FVECT));
748		else
749	<	vnlist = (FVECT )realloc((char )vnlist,
749	>	vnlist = (FVECT )realloc((void )vnlist,
750		(nvns+CHUNKSIZ)*sizeof(FVECT));
751		if (vnlist == NULL) {
752		fprintf(stderr,
#	Line 743 \| Line 758 \| double x, y, z;
758		vnlist[nvns][0] = x;
759		vnlist[nvns][1] = y;
760		vnlist[nvns][2] = z;
761	<	if (normalize(vnlist[nvns]) == 0.0)
747	<	return(0);
761	>	n0norm += (normalize(vnlist[nvns]) == 0.0);
762		return(++nvns);
763		}
764
765
766		int
767	<	newvt(x, y) /* create a new texture map vertex */
768	<	double x, y;
767	>	newvt( /* create a new texture map vertex */
768	>	double x,
769	>	double y
770	>	)
771		{
772		if (!(nvts%CHUNKSIZ)) { /* allocate next block */
773		if (nvts == 0)
774	<	vtlist = (FLOAT ()[2])malloc(CHUNKSIZ2*sizeof(FLOAT));
774	>	vtlist = (RREAL ()[2])malloc(CHUNKSIZ2*sizeof(RREAL));
775		else
776	<	vtlist = (FLOAT ()[2])realloc((char )vtlist,
777	<	(nvts+CHUNKSIZ)2sizeof(FLOAT));
776	>	vtlist = (RREAL ()[2])realloc((void )vtlist,
777	>	(nvts+CHUNKSIZ)2sizeof(RREAL));
778		if (vtlist == NULL) {
779		fprintf(stderr,
780		"Out of memory while allocating texture vertex %d\n",
#	Line 773 \| Line 789 \| double x, y;
789		}
790
791
792	<	syntax(er) /* report syntax error and exit */
793	<	char *er;
792	>	void
793	>	syntax( /* report syntax error and exit */
794	>	char *er
795	>	)
796		{
797		fprintf(stderr, "%s: Wavefront syntax error near line %d: %s\n",
798		inpfile, lineno, er);

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Comparing ray/src/cv/obj2rad.c (file contents): Revision 2.11 by greg, Wed Jun 15 12:50:37 1994 UTC vs. Revision 2.31 by greg, Tue Jan 28 21:18:02 2020 UTC

Diff Legend

Comparing ray/src/cv/obj2rad.c (file contents):
Revision 2.11 by greg, Wed Jun 15 12:50:37 1994 UTC vs.
Revision 2.31 by greg, Tue Jan 28 21:18:02 2020 UTC