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

Comparing ray/src/util/glarendx.c (file contents):
Revision 2.6 by gwlarson, Tue Oct 27 08:47:17 1998 UTC vs.
Revision 2.17 by greg, Tue Jun 3 21:31:51 2025 UTC

#	Line 1 \| Line 1
1	–	/* Copyright (c) 1991 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		* Compute Glare Index given by program name or -t option:
6		*
#	Line 21 \| Line 18 \| static char SCCSid[] = "$SunId$ LBL";
18		* 12 April 1991 Greg Ward EPFL
19		* 19 April 1993 R. Compagnon EPFL (added dgi, brs_gi, ugr)
20		*/
21	<
21	>
22	>	#include <string.h>
23	>
24		#include "standard.h"
25	+	#include "paths.h"
26		#include "view.h"
27	<
28	<
29	<	double posindex();
30	<
31	<	double direct(), guth_dgr(), guth_vcp(), cie_cgi(),
32	<	indirect(), total(), dgi(), brs_gi(), ugr();
33	<
27	>
28	>
29	>	struct glare_src {
30	>	FVECT dir; /* source direction */
31	>	double dom; /* solid angle */
32	>	double lum; /* average luminance */
33	>	struct glare_src *next;
34	>	} *all_srcs = NULL;
35	>
36	>	struct glare_dir {
37	>	double ang; /* angle (in radians) */
38	>	double indirect; /* indirect illuminance */
39	>	struct glare_dir *next;
40	>	} *all_dirs = NULL;
41	>
42	>	typedef double gdfun(struct glare_dir *gd);
43	>
44	>	static gdfun dgi;
45	>	static gdfun brs_gi;
46	>	static gdfun ugr;
47	>	static gdfun guth_dgr;
48	>	static gdfun guth_vcp;
49	>	static gdfun cie_cgi;
50	>	static gdfun direct;
51	>	static gdfun indirect;
52	>	static gdfun total;
53	>
54	>	static gethfunc headline;
55	>	static void init(void);
56	>	static void read_input(void);
57	>	static void print_values(gdfun *func);
58	>	static double posindex(FVECT sd, FVECT vd, FVECT vu);
59	>
60	>
61		struct named_func {
62		char *name;
63	<	double (*func)();
63	>	gdfun *func;
64		char *descrip;
65		} all_funcs[] = {
66		{"dgi", dgi, "Daylight Glare Index"},
#	Line 47 \| Line 74 \| struct named_func {
74		{"vert_ind", indirect, "Indirect Vertical Illuminance"},
75		{NULL}
76		};
77	<
51	<	struct glare_src {
52	<	FVECT dir; /* source direction */
53	<	double dom; /* solid angle */
54	<	double lum; /* average luminance */
55	<	struct glare_src *next;
56	<	} *all_srcs = NULL;
57	<
58	<	struct glare_dir {
59	<	double ang; /* angle (in radians) */
60	<	double indirect; /* indirect illuminance */
61	<	struct glare_dir *next;
62	<	} *all_dirs = NULL;
63	<
77	>
78		#define newp(type) (type *)malloc(sizeof(type))
79	<
66	<	char *progname;
79	>
80		int print_header = 1;
81	<
81	>
82		VIEW midview = STDVIEW;
83	<
83	>
84		int wrongformat = 0;
85	<
86	<
87	<	main(argc, argv)
88	<	int argc;
89	<	char *argv[];
85	>
86	>
87	>	int
88	>	main(
89	>	int argc,
90	>	char *argv[]
91	>	)
92		{
78	–	extern char *rindex();
93		struct named_func *funp;
80	–	char *progtail;
94		int i;
95		/* get program name */
96	<	progname = argv[0];
84	<	progtail = rindex(progname, '/'); /* final component */
85	<	if (progtail == NULL)
86	<	progtail = progname;
87	<	else
88	<	progtail++;
96	>	progname = fixargv0(argv[0]);
97		/* get options */
98		for (i = 1; i < argc && argv[i][0] == '-'; i++)
99		switch (argv[i][1]) {
100		case 't':
101	<	progtail = argv[++i];
101	>	progname = argv[++i];
102		break;
103		case 'h':
104		print_header = 0;
#	Line 107 \| Line 115 \| *char argv[];**
115		}
116		/* find and run calculation */
117		for (funp = all_funcs; funp->name != NULL; funp++)
118	<	if (!strcmp(funp->name, progtail)) {
118	>	if (!strcmp(funp->name, progname)) {
119		init();
120		read_input();
121		if (print_header) {
#	Line 125 \| Line 133 \| userr:
133		fprintf(stderr, "\t%12s\t%s\n", funp->name, funp->descrip);
134		exit(1);
135		}
136	<
137	<
138	<	int
139	<	headline(s) /* get line from header */
140	<	char *s;
136	>
137	>
138	>	static int
139	>	headline( /* get line from header */
140	>	char *s,
141	>	void *p
142	>	)
143		{
144	<	char fmt[32];
145	<
144	>	char fmt[MAXFMTLEN];
145	>
146		if (print_header) /* copy to output */
147		fputs(s, stdout);
148		if (isview(s))
#	Line 143 \| Line 153 \| *char s;**
153		}
154		return(0);
155		}
156	<
157	<
158	<	init() /* initialize calculation */
156	>
157	>
158	>	static void
159	>	init(void) /* initialize calculation */
160		{
161	+	char *err;
162		/* read header */
163		getheader(stdin, headline, NULL);
164		if (wrongformat) {
#	Line 154 \| Line 166 \| *init() / initialize calculation /*
166		exit(1);
167		}
168		/* set view */
169	<	if (setview(&midview) != NULL) {
170	<	fprintf(stderr, "%s: bad view information in input\n",
169	>	if ((err = setview(&midview)) != NULL) {
170	>	fprintf(stderr, "%s: %s\n",
171	>	progname, err);
172	>	exit(1);
173	>	}
174	>	if (fabs(DOT(midview.vdir, midview.vup)) > 1e-4) {
175	>	fprintf(stderr,
176	>	"%s: Input view direction not perpendicular to up vector\n",
177		progname);
178		exit(1);
179		}
180		}
181	<
182	<
183	<	read_input() /* read glare sources from stdin */
181	>
182	>
183	>	static void
184	>	read_input(void) /* read glare sources from stdin */
185		{
186		#define S_SEARCH 0
187		#define S_SOURCE 1
188		#define S_DIREC 2
189		int state = S_SEARCH;
190		char buf[128];
191	<	register struct glare_src *gs;
192	<	register struct glare_dir *gd;
193	<
191	>	struct glare_src *gs;
192	>	struct glare_dir *gd;
193	>
194		while (fgets(buf, sizeof(buf), stdin) != NULL)
195		switch (state) {
196		case S_SEARCH:
#	Line 187 \| Line 206 \| *read_input() / read glare sources from stdin /*
206		}
207		if ((gs = newp(struct glare_src)) == NULL)
208		goto memerr;
209	<	if (sscanf(buf, "%lf %lf %lf %lf %lf",
210	<	&gs->dir[0], &gs->dir[1], &gs->dir[2],
211	<	&gs->dom, &gs->lum) != 5)
209	>	if (sscanf(buf, FVFORMAT, &gs->dir[0], &gs->dir[1],
210	>	&gs->dir[2]) != 3 \|\|
211	>	sscanf(sskip2(buf, 3), "%lf %lf",
212	>	&gs->dom, &gs->lum) != 2)
213		goto readerr;
214		normalize(gs->dir);
215		gs->next = all_srcs;
#	Line 221 \| Line 241 \| readerr:
241		#undef S_SOURCE
242		#undef S_DIREC
243		}
244	<
245	<
246	<	print_values(funp) /* print out calculations */
247	<	double (*funp)();
244	>
245	>
246	>	static void
247	>	print_values( /* print out calculations */
248	>	gdfun *func
249	>	)
250		{
251	<	register struct glare_dir *gd;
252	<
251	>	struct glare_dir *gd;
252	>
253		for (gd = all_dirs; gd != NULL; gd = gd->next)
254	<	printf("%f\t%f\n", gd->ang(180.0/PI), (funp)(gd));
254	>	printf("%f\t%f\n", gd->ang(180.0/PI), (func)(gd));
255		}
256	<
257	<
258	<	double
259	<	direct(gd) /* compute direct vertical illuminance */
260	<	struct glare_dir *gd;
256	>
257	>
258	>	static double
259	>	direct( /* compute direct vertical illuminance */
260	>	struct glare_dir *gd
261	>	)
262		{
263		FVECT mydir;
264		double d, dval;
265	<	register struct glare_src *gs;
266	<
265	>	struct glare_src *gs;
266	>
267		spinvector(mydir, midview.vdir, midview.vup, gd->ang);
268		dval = 0.0;
269		for (gs = all_srcs; gs != NULL; gs = gs->next) {
#	Line 250 \| Line 273 \| *struct glare_dir gd;**
273		}
274		return(dval);
275		}
276	<
277	<
278	<	double
279	<	indirect(gd) /* return indirect vertical illuminance */
280	<	struct glare_dir *gd;
276	>
277	>
278	>	static double
279	>	indirect( /* return indirect vertical illuminance */
280	>	struct glare_dir *gd
281	>	)
282		{
283		return(gd->indirect);
284		}
285	<
286	<
287	<	double
288	<	total(gd) /* return total vertical illuminance */
289	<	struct glare_dir *gd;
285	>
286	>
287	>	static double
288	>	total( /* return total vertical illuminance */
289	>	struct glare_dir *gd
290	>	)
291		{
292		return(direct(gd)+gd->indirect);
293		}
294	<
295	<
294	>
295	>
296		/*
297		* posindex - compute glare position index from:
298		*
#	Line 281 \| Line 306 \| *struct glare_dir gd;**
306		* This calculation presumes the view direction and up vectors perpendicular.
307		* We return a value less than zero for improper positions.
308		*/
309	<
310	<	double
311	<	posindex(sd, vd, vu) /* compute position index */
312	<	FVECT sd, vd, vu;
309	>
310	>	static double
311	>	posindex( /* compute position index */
312	>	FVECT sd,
313	>	FVECT vd,
314	>	FVECT vu
315	>	)
316		{
317		double sigma, tau;
318		double d;
319	<
319	>
320		d = DOT(sd,vd);
321		if (d <= 0.0)
322		return(-1.0);
323	<	if (d >= 1.0)
323	>	if (d >= 1.0-FTINY)
324		return(1.0);
325		sigma = acos(d) * (180./PI);
326		d = fabs(DOT(sd,vu)/sqrt(1.0-d*d));
327	<	if (d >= 1.0)
300	<	tau = 0.0;
301	<	else
302	<	tau = acos(d) * (180./PI);
327	>	tau = Acos(d) * (180./PI);
328		return( exp( sigma( (35.2 - tau.31889 - 1.22exp(-.22222tau))*1e-3
329		+ sigma(21. + tau(.26667 + tau-.002963))1e-5 )
330		) );
331		}
332	<
333	<
334	<	double
335	<	dgi(gd) /* compute Daylight Glare Index */
336	<	struct glare_dir *gd;
332	>
333	>
334	>	static double
335	>	dgi( /* compute Daylight Glare Index */
336	>	struct glare_dir *gd
337	>	)
338		{
339	<	register struct glare_src *gs;
339	>	struct glare_src *gs;
340		FVECT mydir,testdir[7],vhor;
341	<	double r,omega,p[7],sum;
342	<	int i,n;
343	<
341	>	double r,posn,omega,p[7],sum;
342	>	int i;
343	>
344		spinvector(mydir, midview.vdir, midview.vup, gd->ang);
345	<	sum = 0.0; n = 0;
345	>	sum = 0.0;
346		for (gs = all_srcs; gs != NULL; gs = gs->next) {
347
348		/* compute 1/p^2 weighted solid angle of the source */
349	<	r = sqrt(1 - pow(1.-gs->dom/2./PI,2.));
349	>	r = 1. - gs->dom*(.5/PI);
350	>	r = sqrt(1. - r*r);
351		fcross(vhor,gs->dir,midview.vup);
352	<	normalize(vhor);
352	>	if (normalize(vhor) == 0.)
353	>	continue;
354		VCOPY(testdir[0],gs->dir);
355		fvsum(testdir[1],gs->dir,vhor,r);
356		fvsum(testdir[2],gs->dir,vhor,0.5*r);
#	Line 333 \| Line 361 \| *struct glare_dir gd;**
361		fvsum(testdir[6],testdir[4],midview.vup,0.866*r);
362		fvsum(testdir[4],testdir[4],midview.vup,-0.866*r);
363		for (i = 0; i < 7; i++) {
364	<	normalize(testdir[i]);
365	<	p[i] = pow(posindex(testdir[i],mydir,midview.vup),-2.0);
366	<	if (p[i] <= FTINY) p[i] = 0.0;
364	>	p[i] = 0.0;
365	>	if (normalize(testdir[i]) == 0.)
366	>	continue;
367	>	posn = posindex(testdir[i],mydir,midview.vup);
368	>	if (posn > FTINY)
369	>	p[i] = 1./(posn*posn);
370		}
371	<	r = 1-gs->dom/2./PI;
371	>	r = 1. - gs->dom*(.5/PI);
372		omega = gs->dom*p[0];
373	<	omega += (rPI(1+1/r/r)-2PI)(-p[0]+(p[1]+p[2])*0.5);
374	<	omega += (2PI-rPI(1+1/r/r))(-p[0]-0.1667*(p[1]+p[3])
373	>	omega += (rPI(1.+1./(rr))-2.PI)(-p[0]+(p[1]+p[2])0.5);
374	>	omega += (2.PI-rPI(1.+1./(rr)))(-p[0]-0.1667(p[1]+p[3])
375		+0.3334*(p[2]+p[4]+p[5]+p[6]));
376	<
377	<	sum += pow(gs->lum,1.6) * pow(omega,0.8) /
378	<	(gd->indirect/PI + 0.07sqrt(gs->dom)gs->lum);
379	<	n++;
376	>	if (omega <= 0.)
377	>	continue;
378	>	sum += pow(gs->lum,1.6) * pow(omega,0.8) /
379	>	(gd->indirect(1./PI) + 0.07sqrt(gs->dom)*gs->lum);
380		}
381	<	if (n == 0)
381	>	if (sum <= FTINY)
382		return(0.0);
383	<	return( 10log10(0.478sum) );
383	>	return( 10.log10(0.478sum) );
384		}
354	–
385
386	<	double
387	<	brs_gi(gd) /* compute BRS Glare Index */
388	<	struct glare_dir *gd;
386	>
387	>	static double
388	>	brs_gi( /* compute BRS Glare Index */
389	>	struct glare_dir *gd
390	>	)
391		{
392	<	register struct glare_src *gs;
392	>	struct glare_src *gs;
393		FVECT mydir;
394		double p;
395		double sum;
396	<
396	>
397		spinvector(mydir, midview.vdir, midview.vup, gd->ang);
398		sum = 0.0;
399		for (gs = all_srcs; gs != NULL; gs = gs->next) {
#	Line 372 \| Line 404 \| *struct glare_dir gd;**
404		}
405		if (sum <= FTINY)
406		return(0.0);
407	<	sum /= gd->indirect/PI;
407	>	sum *= PI/gd->indirect;
408		return(10log10(0.478sum));
409		}
410
411
412	<	double
413	<	guth_dgr(gd) /* compute Guth discomfort glare rating */
414	<	struct glare_dir *gd;
412	>	static double
413	>	guth_dgr( /* compute Guth discomfort glare rating */
414	>	struct glare_dir *gd
415	>	)
416		{
417		#define q(w) (20.4w+1.52pow(w,.2)-.075)
418	<	register struct glare_src *gs;
418	>	struct glare_src *gs;
419		FVECT mydir;
420		double p;
421		double sum;
422		double wtot, brsum;
423		int n;
424	<
424	>
425		spinvector(mydir, midview.vdir, midview.vup, gd->ang);
426		sum = wtot = brsum = 0.0; n = 0;
427		for (gs = all_srcs; gs != NULL; gs = gs->next) {
#	Line 406 \| Line 439 \| *struct glare_dir gd;**
439		pow((double)n, -.0914) ) );
440		#undef q
441		}
442	<
443	<
442	>
443	>
444		#ifndef M_SQRT2
445		#define M_SQRT2 1.41421356237309504880
446		#endif
447	<
447	>
448		#define norm_integral(z) (1.-.5*erfc((z)/M_SQRT2))
449	<
450	<
451	<	double
452	<	guth_vcp(gd) /* compute Guth visual comfort probability */
453	<	struct glare_dir *gd;
449	>
450	>
451	>	static double
452	>	guth_vcp( /* compute Guth visual comfort probability */
453	>	struct glare_dir *gd
454	>	)
455		{
456		extern double erfc();
457		double dgr;
458	<
458	>
459		dgr = guth_dgr(gd);
460		if (dgr <= FTINY)
461		return(100.0);
462		return(100.norm_integral(6.374-1.3227log(dgr)));
463		}
464	<
465	<
466	<	double
467	<	cie_cgi(gd) /* compute CIE Glare Index */
468	<	struct glare_dir *gd;
464	>
465	>
466	>	static double
467	>	cie_cgi( /* compute CIE Glare Index */
468	>	struct glare_dir *gd
469	>	)
470		{
471	<	register struct glare_src *gs;
471	>	struct glare_src *gs;
472		FVECT mydir;
473		double dillum;
474		double p;
475		double sum;
476	<
476	>
477		spinvector(mydir, midview.vdir, midview.vup, gd->ang);
478		sum = 0.0;
479		for (gs = all_srcs; gs != NULL; gs = gs->next) {
#	Line 454 \| Line 489 \| *struct glare_dir gd;**
489		}
490
491
492	<	double
493	<	ugr(gd) /* compute Unified Glare Rating */
494	<	struct glare_dir *gd;
492	>	static double
493	>	ugr( /* compute Unified Glare Rating */
494	>	struct glare_dir *gd
495	>	)
496		{
497	<	register struct glare_src *gs;
497	>	struct glare_src *gs;
498		FVECT mydir;
499		double p;
500		double sum;
501	<
501	>
502		spinvector(mydir, midview.vdir, midview.vup, gd->ang);
503		sum = 0.0;
504		for (gs = all_srcs; gs != NULL; gs = gs->next) {

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Comparing ray/src/util/glarendx.c (file contents): Revision 2.6 by gwlarson, Tue Oct 27 08:47:17 1998 UTC vs. Revision 2.17 by greg, Tue Jun 3 21:31:51 2025 UTC

Diff Legend

Comparing ray/src/util/glarendx.c (file contents):
Revision 2.6 by gwlarson, Tue Oct 27 08:47:17 1998 UTC vs.
Revision 2.17 by greg, Tue Jun 3 21:31:51 2025 UTC