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

Comparing ray/src/util/rmtxop.c (file contents):
Revision 2.14 by greg, Mon Aug 12 02:26:46 2019 UTC vs.
Revision 2.30 by greg, Fri Dec 8 00:12:31 2023 UTC

#	Line 5 \| Line 5 \| static const char RCSid[] = "$Id$";
5		* General component matrix operations.
6		*/
7
8	–	#include <stdio.h>
9	–	#include <stdlib.h>
8		#include <errno.h>
9		#include "rtio.h"
10		#include "resolu.h"
11		#include "rmatrix.h"
12		#include "platform.h"
13
14	<	#define MAXCOMP 16 /* #components we support */
14	>	#define MAXCOMP MAXCSAMP /* #components we support */
15
16	<	static const char stdin_name[] = "<stdin>";
19	<
20	<	/* unary matrix operation(s) */
16	>	/* Unary matrix operation(s) */
17		typedef struct {
22	–	double sca[MAXCOMP]; /* scalar coefficients */
18		double cmat[MAXCOMPMAXCOMP]; / component transformation */
19	<	short nsf; /* number of scalars */
19	>	double sca[MAXCOMP]; /* scalar coefficients */
20	>	const char csym; / symbolic coefs or file */
21		short clen; /* number of coefficients */
22	+	short nsf; /* number of scalars */
23		short transpose; /* do transpose? */
24		} RUNARYOP;
25
26	<	/* matrix input source and requested operation(s) */
26	>	/* Matrix input source and requested operation(s) */
27		typedef struct {
28		const char inspec; / input specification */
29	+	RMPref rmp; /* matrix preference */
30		RUNARYOP preop; /* unary operation(s) */
31		RMATRIX mtx; / original matrix if loaded */
32		int binop; /* binary op with next (or 0) */
#	Line 40 \| Line 38 \| *int verbose = 0; / verbose reporting? /*
38		static int
39		loadmatrix(ROPMAT *rop)
40		{
41	<	if (rop->mtx != NULL)
41	>	if (rop->mtx != NULL) /* already loaded? */
42		return(0);
43
44	<	rop->mtx = rmx_load(rop->inspec == stdin_name ?
45	<	(const char *)NULL : rop->inspec);
46	<	if (rop->mtx == NULL) {
47	<	fputs(rop->inspec, stderr);
48	<	fputs(": cannot load matrix\n", stderr);
44	>	rop->mtx = rmx_load(rop->inspec, rop->rmp);
45	>
46	>	return(!rop->mtx ? -1 : 1);
47	>	}
48	>
49	>	static int checksymbolic(ROPMAT *rop);
50	>
51	>	/* Check/set transform based on a reference input file */
52	>	static int
53	>	checkreffile(ROPMAT *rop)
54	>	{
55	>	static const char *curRF = NULL;
56	>	static RMATRIX refm;
57	>	const int nc = rop->mtx->ncomp;
58	>	int i;
59	>
60	>	if (!curRF \|\| strcmp(rop->preop.csym, curRF)) {
61	>	FILE *fp = fopen(rop->preop.csym, "rb");
62	>	if (!rmx_load_header(&refm, fp)) {
63	>	fprintf(stderr, "%s: cannot read info header\n",
64	>	rop->preop.csym);
65	>	curRF = NULL;
66	>	if (fp) fclose(fp);
67	>	return(-1);
68	>	}
69	>	fclose(fp);
70	>	curRF = rop->preop.csym;
71	>	}
72	>	if (refm.ncomp == 3) {
73	>	rop->preop.csym = (refm.dtype == DTxyze) ? "XYZ" : "RGB";
74	>	return(checksymbolic(rop));
75	>	}
76	>	if (refm.ncomp == 2) {
77	>	fprintf(stderr, "%s: cannot convert to 2 components\n",
78	>	curRF);
79		return(-1);
80		}
81	<	return(1);
81	>	if (refm.ncomp == 1) {
82	>	rop->preop.csym = "Y"; /* XXX big assumption */
83	>	return(checksymbolic(rop));
84	>	}
85	>	if (refm.ncomp == nc &&
86	>	!memcmp(refm.wlpart, rop->mtx->wlpart, sizeof(refm.wlpart)))
87	>	return(0); /* nothing to do */
88	>
89	>	if ((nc <= 3) \| (nc > MAXCSAMP) \| (refm.ncomp > MAXCSAMP)) {
90	>	fprintf(stderr, "%s: cannot resample from %d to %d components\n",
91	>	curRF, nc, refm.ncomp);
92	>	return(-1);
93	>	}
94	>	rop->preop.clen = refm.ncomp * nc; /* compute spec to ref */
95	>
96	>	for (i = 0; i < nc; i++) {
97	>	SCOLOR scstim, scresp;
98	>	int j;
99	>	memset(scstim, 0, sizeof(COLORV)*nc);
100	>	scstim[i] = 1.f;
101	>	convertscolor(scresp, refm.ncomp, refm.wlpart[0], refm.wlpart[3],
102	>	scstim, nc, rop->mtx->wlpart[0], rop->mtx->wlpart[3]);
103	>	for (j = refm.ncomp; j-- > 0; )
104	>	rop->preop.cmat[j*nc + i] = scresp[j];
105	>	}
106	>	memcpy(rop->mtx->wlpart, refm.wlpart, sizeof(rop->mtx->wlpart));
107	>	return(0);
108		}
109
110	+	/* Compute conversion row from spectrum to one channel of RGB */
111	+	static void
112	+	rgbrow(ROPMAT *rop, int r, int p)
113	+	{
114	+	const int nc = rop->mtx->ncomp;
115	+	const float * wlp = rop->mtx->wlpart;
116	+	int i;
117	+
118	+	for (i = nc; i--; ) {
119	+	int nmEnd = wlp[0] + (wlp[3] - wlp[0])*i/nc;
120	+	int nmStart = wlp[0] + (wlp[3] - wlp[0])*(i+1)/nc;
121	+	COLOR crgb;
122	+	spec_rgb(crgb, nmStart, nmEnd);
123	+	rop->preop.cmat[r*nc+i] = crgb[p];
124	+	}
125	+	}
126	+
127	+	/* Compute conversion row from spectrum to one channel of XYZ */
128	+	static void
129	+	xyzrow(ROPMAT *rop, int r, int p)
130	+	{
131	+	const int nc = rop->mtx->ncomp;
132	+	const float * wlp = rop->mtx->wlpart;
133	+	int i;
134	+
135	+	for (i = nc; i--; ) {
136	+	int nmEnd = wlp[0] + (wlp[3] - wlp[0])*i/nc;
137	+	int nmStart = wlp[0] + (wlp[3] - wlp[0])*(i+1)/nc;
138	+	COLOR cxyz;
139	+	spec_cie(cxyz, nmStart, nmEnd);
140	+	rop->preop.cmat[r*nc+i] = cxyz[p];
141	+	}
142	+	}
143	+
144	+	/* Use the spectral sensitivity function to compute matrix coefficients */
145	+	static void
146	+	sensrow(ROPMAT rop, int r, double (sf)(SCOLOR sc, int ncs, const float wlpt[4]))
147	+	{
148	+	const int nc = rop->mtx->ncomp;
149	+	int i;
150	+
151	+	for (i = nc; i--; ) {
152	+	SCOLOR sclr;
153	+	memset(sclr, 0, sizeof(COLORV)*nc);
154	+	sclr[i] = 1.f;
155	+	rop->preop.cmat[rnc+i] = (sf)(sclr, nc, rop->mtx->wlpart);
156	+	}
157	+	}
158	+
159	+	/* Check/set symbolic transform */
160	+	static int
161	+	checksymbolic(ROPMAT *rop)
162	+	{
163	+	const int nc = rop->mtx->ncomp;
164	+	const int dt = rop->mtx->dtype;
165	+	int i, j;
166	+	/* check suffix => reference file */
167	+	if (strchr(rop->preop.csym, '.') > rop->preop.csym)
168	+	return(checkreffile(rop));
169	+
170	+	if (nc < 3) {
171	+	fprintf(stderr, "%s: -c '%s' requires at least 3 components\n",
172	+	rop->inspec, rop->preop.csym);
173	+	return(-1);
174	+	}
175	+	rop->preop.clen = strlen(rop->preop.csym) * nc;
176	+	if (rop->preop.clen > MAXCOMP*MAXCOMP) {
177	+	fprintf(stderr, "%s: -c '%s' results in too many components\n",
178	+	rop->inspec, rop->preop.csym);
179	+	return(-1);
180	+	}
181	+	for (j = 0; rop->preop.csym[j]; j++) {
182	+	int comp = 0;
183	+	switch (rop->preop.csym[j]) {
184	+	case 'B':
185	+	++comp;
186	+	/* fall through */
187	+	case 'G':
188	+	++comp;
189	+	/* fall through */
190	+	case 'R':
191	+	if (dt == DTxyze) {
192	+	for (i = 3; i--; )
193	+	rop->preop.cmat[jnc+i] = 1./WHTEFFICACY
194	+	xyz2rgbmat[comp][i];
195	+	} else if (nc == 3)
196	+	rop->preop.cmat[j*nc+comp] = 1.;
197	+	else
198	+	rgbrow(rop, j, comp);
199	+	break;
200	+	case 'Z':
201	+	++comp;
202	+	/* fall through */
203	+	case 'Y':
204	+	++comp;
205	+	/* fall through */
206	+	case 'X':
207	+	if (dt == DTxyze) {
208	+	rop->preop.cmat[j*nc+comp] = 1.;
209	+	} else if (nc == 3) {
210	+	for (i = 3; i--; )
211	+	rop->preop.cmat[j*nc+i] =
212	+	rgb2xyzmat[comp][i];
213	+	} else if (comp == CIEY)
214	+	sensrow(rop, j, scolor2photopic);
215	+	else
216	+	xyzrow(rop, j, comp);
217	+
218	+	for (i = nc*(dt != DTxyze); i--; )
219	+	rop->preop.cmat[jnc+i] = WHTEFFICACY;
220	+	break;
221	+	case 'S': /* scotopic (il)luminance */
222	+	sensrow(rop, j, scolor2scotopic);
223	+	for (i = nc; i--; )
224	+	rop->preop.cmat[jnc+i] = WHTSCOTOPIC;
225	+	break;
226	+	case 'M': /* melanopic (il)luminance */
227	+	sensrow(rop, j, scolor2melanopic);
228	+	for (i = nc; i--; )
229	+	rop->preop.cmat[jnc+i] = WHTMELANOPIC;
230	+	break;
231	+	case 'A': /* average component */
232	+	for (i = nc; i--; )
233	+	rop->preop.cmat[j*nc+i] = 1./(double)nc;
234	+	break;
235	+	default:
236	+	fprintf(stderr, "%s: -c '%c' unsupported\n",
237	+	rop->inspec, rop->preop.csym[j]);
238	+	return(-1);
239	+	}
240	+	}
241	+	/* return recommended output type */
242	+	if (!strcmp(rop->preop.csym, "XYZ")) {
243	+	if (dt <= DTspec)
244	+	return(DTxyze);
245	+	} else if (!strcmp(rop->preop.csym, "RGB")) {
246	+	if (dt <= DTspec)
247	+	return(DTrgbe);
248	+	} else if (dt == DTspec)
249	+	return(DTfloat); /* probably not actual spectrum */
250	+	return(0);
251	+	}
252	+
253		/* Get matrix and perform unary operations */
254		static RMATRIX *
255		loadop(ROPMAT *rop)
256		{
257	+	int outtype = 0;
258		RMATRIX *mres;
259	<	int i;
259	>	int i, j;
260
261		if (loadmatrix(rop) < 0) /* make sure we're loaded */
262		return(NULL);
263
264	<	if (rop->preop.nsf > 0) { /* apply scalar(s) */
265	<	if (rop->preop.clen > 0) {
266	<	fputs("Options -s and -c are exclusive\n", stderr);
264	>	if (rop->preop.csym && /* symbolic transform? */
265	>	(outtype = checksymbolic(rop)) < 0)
266	>	goto failure;
267	>	if (rop->preop.clen > 0) { /* apply component transform? */
268	>	if (rop->preop.clen % rop->mtx->ncomp) {
269	>	fprintf(stderr, "%s: -c must have N x %d coefficients\n",
270	>	rop->inspec, rop->mtx->ncomp);
271		goto failure;
272		}
273	+	if (rop->preop.nsf > 0) { /* scale transform, first */
274	+	if (rop->preop.nsf == 1) {
275	+	for (i = rop->preop.clen; i--; )
276	+	rop->preop.cmat[i] *= rop->preop.sca[0];
277	+	} else if (rop->preop.nsf*rop->mtx->ncomp != rop->preop.clen) {
278	+	fprintf(stderr, "%s: -s must have one or %d factors\n",
279	+	rop->inspec,
280	+	rop->preop.clen/rop->mtx->ncomp);
281	+	goto failure;
282	+	} else {
283	+	for (i = rop->preop.nsf; i--; )
284	+	for (j = rop->mtx->ncomp; j--; )
285	+	rop->preop.cmat[i*rop->mtx->ncomp+j]
286	+	*= rop->preop.sca[i];
287	+	}
288	+	}
289	+	mres = rmx_transform(rop->mtx, rop->preop.clen/rop->mtx->ncomp,
290	+	rop->preop.cmat);
291	+	if (mres == NULL) {
292	+	fprintf(stderr, "%s: matrix transform failed\n",
293	+	rop->inspec);
294	+	goto failure;
295	+	}
296	+	if (verbose)
297	+	fprintf(stderr, "%s: applied %d x %d transform%s\n",
298	+	rop->inspec, mres->ncomp,
299	+	rop->mtx->ncomp,
300	+	rop->preop.nsf ? " (* scalar)" : "");
301	+	rop->preop.nsf = 0; /* now folded in */
302	+	if ((mres->ncomp > 3) & (mres->dtype <= DTspec))
303	+	outtype = DTfloat; /* probably not actual spectrum */
304	+	rmx_free(rop->mtx);
305	+	rop->mtx = mres;
306	+	}
307	+	if (rop->preop.nsf > 0) { /* apply scalar(s)? */
308		if (rop->preop.nsf == 1) {
309		for (i = rop->mtx->ncomp; --i; )
310		rop->preop.sca[i] = rop->preop.sca[0];
#	Line 89 \| Line 326 \| *loadop(ROPMAT rop)**
326		fputs(" )\n", stderr);
327		}
328		}
329	<	if (rop->preop.clen > 0) { /* apply transform */
93	<	if (rop->preop.clen % rop->mtx->ncomp) {
94	<	fprintf(stderr, "%s: -c must have N x %d coefficients\n",
95	<	rop->inspec, rop->mtx->ncomp);
96	<	goto failure;
97	<	}
98	<	mres = rmx_transform(rop->mtx, rop->preop.clen/rop->mtx->ncomp,
99	<	rop->preop.cmat);
100	<	if (mres == NULL) {
101	<	fprintf(stderr, "%s: matrix transform failed\n",
102	<	rop->inspec);
103	<	goto failure;
104	<	}
105	<	if (verbose)
106	<	fprintf(stderr, "%s: applied %d x %d transform\n",
107	<	rop->inspec, mres->ncomp,
108	<	rop->mtx->ncomp);
109	<	rmx_free(rop->mtx);
110	<	rop->mtx = mres;
111	<	}
112	<	if (rop->preop.transpose) { /* transpose matrix? */
329	>	if (rop->preop.transpose) { /* transpose matrix? */
330		mres = rmx_transpose(rop->mtx);
331		if (mres == NULL) {
332		fputs(rop->inspec, stderr);
#	Line 125 \| Line 342 \| *loadop(ROPMAT rop)**
342		}
343		mres = rop->mtx;
344		rop->mtx = NULL;
345	+	if (outtype)
346	+	mres->dtype = outtype;
347		return(mres);
348		failure:
349		rmx_free(rop->mtx);
#	Line 140 \| Line 359 \| *binaryop(const char inspec, RMATRIX mleft, int op, R*
359
360		if ((mleft == NULL) \| (mright == NULL))
361		return(NULL);
143	–
362		switch (op) {
363		case '.': /* concatenate */
364	<	mres = rmx_multiply(mleft, mright);
364	>	if (mleft->ncomp != mright->ncomp) {
365	>	fputs(inspec, stderr);
366	>	fputs(": # components do not match\n", stderr);
367	>	} else if (mleft->ncols != mright->nrows) {
368	>	fputs(inspec, stderr);
369	>	fputs(": mismatched dimensions\n",
370	>	stderr);
371	>	} else
372	>	mres = rmx_multiply(mleft, mright);
373		rmx_free(mleft);
374		rmx_free(mright);
375		if (mres == NULL) {
376		fputs(inspec, stderr);
377	<	if (mleft->ncols != mright->nrows)
152	<	fputs(": mismatched dimensions for multiply\n",
153	<	stderr);
154	<	else
155	<	fputs(": concatenation failed\n", stderr);
377	>	fputs(": concatenation failed\n", stderr);
378		return(NULL);
379		}
380		if (verbose) {
#	Line 239 \| Line 461 \| *op_right2left(ROPMAT mop)**
461		while (rpos-- > 0) {
462		if (mright == NULL)
463		break;
464	<	mright = binaryop(mop[rpos].inspec,
464	>	mright = binaryop(mop[rpos+1].inspec,
465		loadop(mop+rpos), mop[rpos].binop, mright);
466		}
467		return(mright);
#	Line 289 \| Line 511 \| *get_factors(double da[], int n, char av[])**
511		}
512
513		static ROPMAT *
514	<	grow_moparray(ROPMAT *mop, int n2alloc)
514	>	resize_moparr(ROPMAT *mop, int n2alloc)
515		{
516		int nmats = 0;
517	+	int i;
518
519		while (mop[nmats++].binop)
520		;
521	+	for (i = nmats; i > n2alloc; i--)
522	+	rmx_free(mop[i].mtx);
523		mop = (ROPMAT )realloc(mop, n2allocsizeof(ROPMAT));
524		if (mop == NULL) {
525	<	fputs("Out of memory in grow_moparray()\n", stderr);
525	>	fputs("Out of memory in resize_moparr()\n", stderr);
526		exit(1);
527		}
528		if (n2alloc > nmats)
#	Line 309 \| Line 534 \| *grow_moparray(ROPMAT mop, int n2alloc)**
534		int
535		main(int argc, char *argv[])
536		{
537	<	int outfmt = DTfromHeader;
538	<	int nall = 2;
539	<	ROPMAT mop = (ROPMAT )calloc(nall, sizeof(ROPMAT));
540	<	int nmats = 0;
541	<	RMATRIX *mres = NULL;
542	<	int stdin_used = 0;
543	<	int i;
537	>	int outfmt = DTfromHeader;
538	>	const char *defCsym = NULL;
539	>	int nall = 2;
540	>	ROPMAT mop = (ROPMAT )calloc(nall, sizeof(ROPMAT));
541	>	int nmats = 0;
542	>	RMATRIX *mres = NULL;
543	>	int stdin_used = 0;
544	>	int i;
545		/* get options and arguments */
546		for (i = 1; i < argc; i++) {
547		if (argv[i][0] && !argv[i][1] &&
548		strchr(".+*/", argv[i][0]) != NULL) {
549	<	if (mop[nmats].inspec == NULL \|\| mop[nmats].binop) {
549	>	if (!nmats \|\| mop[nmats-1].binop) {
550		fprintf(stderr,
551	<	"%s: missing matrix argument for '%c' operation\n",
551	>	"%s: missing matrix argument before '%c' operation\n",
552		argv[0], argv[i][0]);
553		return(1);
554		}
555	<	mop[nmats++].binop = argv[i][0];
555	>	mop[nmats-1].binop = argv[i][0];
556		} else if (argv[i][0] != '-' \|\| !argv[i][1]) {
557		if (argv[i][0] == '-') {
558		if (stdin_used++) {
#	Line 338 \| Line 564 \| *main(int argc, char argv[])**
564		mop[nmats].inspec = stdin_name;
565		} else
566		mop[nmats].inspec = argv[i];
567	+	if (!mop[nmats].preop.csym)
568	+	mop[nmats].preop.csym = defCsym;
569		if (nmats > 0 && !mop[nmats-1].binop)
570		mop[nmats-1].binop = '.';
571		nmats++;
#	Line 373 \| Line 601 \| *main(int argc, char argv[])**
601		i += mop[nmats].preop.nsf =
602		get_factors(mop[nmats].preop.sca,
603		n, argv+i+1);
604	+	if (mop[nmats].preop.nsf <= 0) {
605	+	fprintf(stderr, "%s: -s missing arguments\n",
606	+	argv[0]);
607	+	goto userr;
608	+	}
609		break;
610	+	case 'C':
611	+	if (!n \|\| isflt(argv[i+1]))
612	+	goto userr;
613	+	defCsym = mop[nmats].preop.csym = argv[++i];
614	+	mop[nmats].preop.clen = 0;
615	+	break;
616		case 'c':
617	+	if (n && !isflt(argv[i+1])) {
618	+	mop[nmats].preop.csym = argv[++i];
619	+	mop[nmats].preop.clen = 0;
620	+	break;
621	+	}
622		if (n > MAXCOMPMAXCOMP) n = MAXCOMPMAXCOMP;
623		i += mop[nmats].preop.clen =
624		get_factors(mop[nmats].preop.cmat,
625		n, argv+i+1);
626	+	if (mop[nmats].preop.clen <= 0) {
627	+	fprintf(stderr, "%s: -c missing arguments\n",
628	+	argv[0]);
629	+	goto userr;
630	+	}
631	+	mop[nmats].preop.csym = NULL;
632		break;
633	+	case 'r':
634	+	if (argv[i][2] == 'f')
635	+	mop[nmats].rmp = RMPreflF;
636	+	else if (argv[i][2] == 'b')
637	+	mop[nmats].rmp = RMPreflB;
638	+	else
639	+	goto userr;
640	+	break;
641		default:
642		fprintf(stderr, "%s: unknown operation '%s'\n",
643		argv[0], argv[i]);
#	Line 387 \| Line 645 \| *main(int argc, char argv[])**
645		}
646		}
647		if (nmats >= nall)
648	<	mop = grow_moparray(mop, nall += 2);
648	>	mop = resize_moparr(mop, nall += 2);
649		}
650		if (mop[0].inspec == NULL) /* nothing to do? */
651		goto userr;
652	+	if (mop[nmats-1].binop) {
653	+	fprintf(stderr,
654	+	"%s: missing matrix argument after '%c' operation\n",
655	+	argv[0], mop[nmats-1].binop);
656	+	return(1);
657	+	}
658		/* favor quicker concatenation */
659		mop[nmats].mtx = prefer_right2left(mop) ? op_right2left(mop)
660		: op_left2right(mop);
#	Line 401 \| Line 665 \| *main(int argc, char argv[])**
665		mres = loadop(mop+nmats);
666		if (mres == NULL)
667		return(1);
668	<	/* write result to stdout */
405	<	if (outfmt == DTfromHeader)
668	>	if (outfmt == DTfromHeader) /* check data type */
669		outfmt = mres->dtype;
670	<	if (outfmt != DTascii)
671	<	SET_FILE_BINARY(stdout);
672	<	newheader("RADIANCE", stdout);
673	<	printargs(argc, argv, stdout);
674	<	if (!rmx_write(mres, outfmt, stdout)) {
412	<	fprintf(stderr, "%s: error writing result matrix\n", argv[0]);
413	<	return(1);
670	>	if (outfmt == DTrgbe) {
671	>	if (mres->ncomp > 3)
672	>	outfmt = DTspec;
673	>	else if (mres->dtype == DTxyze)
674	>	outfmt = DTxyze;
675		}
676	<	/* rmx_free(mres); free(mop); */
677	<	return(0);
676	>	newheader("RADIANCE", stdout); /* write result to stdout */
677	>	printargs(argc, argv, stdout);
678	>	return(rmx_write(mres, outfmt, stdout) ? 0 : 1);
679		userr:
680		fprintf(stderr,
681	<	"Usage: %s [-v][-f[adfc][-t][-s sf .. \| -c ce ..] m1 [.+*/] .. > mres\n",
681	>	"Usage: %s [-v][-f{adfc}][-t][-s sf .. \| -c ce ..][-rf\|-rb] m1 [.+*/] .. > mres\n",
682		argv[0]);
683		return(1);
684		}

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Comparing ray/src/util/rmtxop.c (file contents): Revision 2.14 by greg, Mon Aug 12 02:26:46 2019 UTC vs. Revision 2.30 by greg, Fri Dec 8 00:12:31 2023 UTC

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Comparing ray/src/util/rmtxop.c (file contents):
Revision 2.14 by greg, Mon Aug 12 02:26:46 2019 UTC vs.
Revision 2.30 by greg, Fri Dec 8 00:12:31 2023 UTC