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root/Development/ray/src/util/rfluxmtx.c

Comparing ray/src/util/rfluxmtx.c (file contents):
Revision 2.26 by greg, Fri Mar 27 18:58:06 2015 UTC vs.
Revision 2.62 by greg, Mon Oct 20 18:55:19 2025 UTC

#	Line 18 | Line 18 | static const char RCSid[] = "$Id$";
18		#include "triangulate.h"
19		#include "platform.h"
20
21	<	#ifdef getc_unlocked            /* avoid horrendous overhead of flockfile */
22	<	#undef getc
23	<	#define getc    getc_unlocked
21	>	#ifndef MAXRCARG
22	>	#define MAXRCARG        10000
23		#endif
24
25	<	#ifdef _WIN32
26	<	#define SPECIALS        " \t\"$*?"
28	<	#define QUOTCHAR        '"'
29	<	#else
30	<	#define SPECIALS        " \t\n'\"()${}*?[];|&"
31	<	#define QUOTCHAR        '\''
32	<	#define ALTQUOT         '"'
33	<	#endif
25	>	#define         NOWARN          1
26	>	#define         VERBO           2
27
28	<	#define MAXRCARG        512
28	>	int             verbose = 0;            /* verbose/warning mode */
29
37	–	char            *progname;              /* global argv[0] */
38	–
39	–	int             verbose = 0;            /* verbose mode (< 0 no warnings) */
40	–
30		char            *rcarg[MAXRCARG+1] = {"rcontrib", "-fo+"};
31		int             nrcargs = 2;
32
#	Line 53 | Line 42 | char           *shirchiufn = "disk2square.cal";
42		char            *kfullfn = "klems_full.cal";
43		char            *khalffn = "klems_half.cal";
44		char            *kquarterfn = "klems_quarter.cal";
45	+	char            *ciefn = "cieskyscan.cal";
46
47		/* string indicating parameters */
48	<	const char      PARAMSTART[] = "@rfluxmtx";
48	>	#define PARAMSTART      "@rfluxmtx"
49
50		/* surface type IDs */
51		#define ST_NONE         0
#	Line 78 | Line 68 | typedef struct {
68		FVECT   uva[2];                 /* tangent axes */
69		int     ntris;                  /* number of triangles */
70		struct ptri {
71	<	float   afrac;                  /* fraction of total area */
71	>	double  afrac;                  /* fraction of total area */
72		short   vndx[3];                /* vertex indices */
73		}       tri[1];                 /* triangle array (extends struct) */
74		} POLYTRIS;                     /* triangulated polygon */
#	Line 120 | Line 110 | clear_params(PARAMS *p, int reset_only)
110		free(sdel);
111		}
112		if (reset_only) {
113	+	p->slist = NULL;
114		p->nsurfs = 0;
115		memset(p->nrm, 0, sizeof(FVECT));
116		memset(p->vup, 0, sizeof(FVECT));
#	Line 152 | Line 143 | oconv_command(int ac, char *av[])
143
144		if (ac-- <= 0)
145		return(NULL);
146	<	while (ac-- > 0) {
147	<	strcpy(cp, *av++);
148	<	while (*cp) cp++;
158	<	*cp++ = ' ';
159	<	if (cp >= oconvbuf+(sizeof(oconvbuf)-32)) {
160	<	fputs(progname, stderr);
161	<	fputs(": too many file arguments!\n", stderr);
162	<	exit(1);
163	<	}
146	>	if (verbose & NOWARN) { /* warnings off? */
147	>	strcpy(cp, "-w ");
148	>	cp += 3;
149		}
150	<	strcpy(cp, recv);       /* receiver goes last */
151	<	return(oconvbuf);
152	<	}
153	<
154	<	/* Check if any of the characters in str2 are found in str1 */
155	<	static int
156	<	matchany(const char *str1, const char *str2)
157	<	{
158	<	while (*str1) {
174	<	const char      *cp = str2;
175	<	while (*cp)
176	<	if (*cp++ == *str1)
177	<	return(*str1);
178	<	++str1;
179	<	}
180	<	return(0);
181	<	}
182	<
183	<
184	<	/* Convert a set of arguments into a command line for pipe() or system() */
185	<	static char *
186	<	convert_commandline(char *cmd, const int len, char *av[])
187	<	{
188	<	int     match;
189	<	char    *cp;
190	<
191	<	for (cp = cmd; *av != NULL; av++) {
192	<	const int       n = strlen(*av);
193	<	if (cp+n >= cmd+(len-3)) {
194	<	fputs(progname, stderr);
195	<	return(NULL);
196	<	}
197	<	if ((match = matchany(*av, SPECIALS))) {
198	<	const int       quote =
199	<	#ifdef ALTQUOT
200	<	(match == QUOTCHAR) ? ALTQUOT :
201	<	#endif
202	<	QUOTCHAR;
203	<	*cp++ = quote;
204	<	strcpy(cp, *av);
205	<	cp += n;
206	<	*cp++ = quote;
150	>	while (ac-- > 0) {      /* copy each argument */
151	>	int     len = strlen(*av);
152	>	if (cp+len+4 >= oconvbuf+sizeof(oconvbuf))
153	>	goto overrun;
154	>	if (matchany(*av, SPECIALS)) {
155	>	*cp++ = QUOTCHAR;
156	>	strcpy(cp, *av++);
157	>	cp += len;
158	>	*cp++ = QUOTCHAR;
159		} else {
160	<	strcpy(cp, *av);
161	<	cp += n;
160	>	strcpy(cp, *av++);
161	>	cp += len;
162		}
163		*cp++ = ' ';
164		}
165	<	if (cp <= cmd)
166	<	return(NULL);
167	<	*--cp = '\0';
168	<	return(cmd);
165	>	/* receiver goes last */
166	>	if (matchany(recv, SPECIALS)) {
167	>	*cp++ = QUOTCHAR;
168	>	while (*recv) {
169	>	if (cp >= oconvbuf+(sizeof(oconvbuf)-3))
170	>	goto overrun;
171	>	*cp++ = *recv++;
172	>	}
173	>	*cp++ = QUOTCHAR;
174	>	*cp = '\0';
175	>	} else
176	>	strcpy(cp, recv);
177	>	return(oconvbuf);
178	>	overrun:
179	>	fputs(progname, stderr);
180	>	fputs(": too many file arguments!\n", stderr);
181	>	exit(1);
182		}
183
184	+	#if defined(_WIN32) || defined(_WIN64)
185	+
186		/* Open a pipe to/from a command given as an argument list */
187		static FILE *
188		popen_arglist(char *av[], char *mode)
#	Line 227 | Line 194 | popen_arglist(char *av[], char *mode)
194		fputs(": command line too long in popen_arglist()\n", stderr);
195		return(NULL);
196		}
197	<	if (verbose > 0)
197	>	if (verbose & VERBO)
198		fprintf(stderr, "%s: opening pipe %s: %s\n",
199		progname, (*mode=='w') ? "to" : "from", cmd);
200		return(popen(cmd, mode));
201		}
202
203	<	#ifdef _WIN32
203	>	#define pclose_al       pclose
204	>
205		/* Execute system command (Windows version) */
206		static int
207		my_exec(char *av[])
#	Line 245 | Line 213 | my_exec(char *av[])
213		fputs(": command line too long in my_exec()\n", stderr);
214		return(1);
215		}
216	<	if (verbose > 0)
216	>	if (verbose & VERBO)
217		fprintf(stderr, "%s: running: %s\n", progname, cmd);
218		return(system(cmd));
219		}
220	<	#else
220	>
221	>	#else   /* UNIX */
222	>
223	>	static SUBPROC  rt_proc = SP_INACTIVE;  /* we only support one of these */
224	>
225	>	/* Open a pipe to a command using an argument list */
226	>	static FILE *
227	>	popen_arglist(char *av[], char *mode)
228	>	{
229	>	int     fd;
230	>
231	>	if (rt_proc.pid > 0) {
232	>	fprintf(stderr, "%s: only one i/o pipe at a time!\n", progname);
233	>	return(NULL);
234	>	}
235	>	if (verbose & VERBO) {
236	>	char    cmd[4096];
237	>	if (!convert_commandline(cmd, sizeof(cmd), av))
238	>	strcpy(cmd, "COMMAND TOO LONG TO SHOW");
239	>	fprintf(stderr, "%s: opening pipe %s: %s\n",
240	>	progname, (*mode=='w') ? "to" : "from", cmd);
241	>	}
242	>	if (*mode == 'w') {
243	>	fd = rt_proc.w = dup(fileno(stdout));
244	>	rt_proc.flags |= PF_FILT_OUT;
245	>	} else if (*mode == 'r') {
246	>	fd = rt_proc.r = dup(fileno(stdin));
247	>	rt_proc.flags |= PF_FILT_INP;
248	>	}
249	>	if (fd < 0 || open_process(&rt_proc, av) <= 0) {
250	>	perror(av[0]);
251	>	return(NULL);
252	>	}
253	>	return(fdopen(fd, mode));
254	>	}
255	>
256	>	/* Close command pipe (returns -1 on error to match pclose) */
257	>	static int
258	>	pclose_al(FILE *fp)
259	>	{
260	>	int     prob = (fclose(fp) == EOF);
261	>
262	>	if (rt_proc.pid <= 0)
263	>	return(-1);
264	>
265	>	prob |= (close_process(&rt_proc) != 0);
266	>
267	>	return(-prob);
268	>	}
269	>
270		/* Execute system command in our stead (Unix version) */
271		static int
272		my_exec(char *av[])
#	Line 260 | Line 277 | my_exec(char *av[])
277		fprintf(stderr, "%s: cannot locate %s\n", progname, av[0]);
278		return(1);
279		}
280	<	if (verbose > 0) {
280	>	if (verbose & VERBO) {
281		char    cmd[4096];
282		if (!convert_commandline(cmd, sizeof(cmd), av))
283		strcpy(cmd, "COMMAND TOO LONG TO SHOW");
#	Line 270 | Line 287 | my_exec(char *av[])
287		perror(compath);
288		return(1);
289		}
290	+
291		#endif
292
293		/* Get normalized direction vector from string specification */
#	Line 318 | Line 336 | parse_params(PARAMS *p, char *pargs)
336		{
337		char    *cp = pargs;
338		int     nparams = 0;
339	+	int     quot;
340		int     i;
341
342		for ( ; ; ) {
#	Line 354 | Line 373 | parse_params(PARAMS *p, char *pargs)
373		case 'o':
374		if (*cp++ != '=')
375		break;
376	+	quot = 0;
377	+	if ((*cp == '"') | (*cp == '\''))
378	+	quot = *cp++;
379		i = 0;
380	<	while (*cp && !isspace(*cp++))
381	<	i++;
380	>	while (*cp && (quot ? (*cp != quot) : !isspace(*cp))) {
381	>	i++; cp++;
382	>	}
383		if (!i)
384		break;
385	<	*--cp = '\0';
385	>	if (!*cp) {
386	>	if (quot)
387	>	break;
388	>	cp[1] = '\0';
389	>	}
390	>	*cp = '\0';
391		p->outfn = savqstr(cp-i);
392	<	*cp++ = ' ';
392	>	*cp++ = quot ? quot : ' ';
393		++nparams;
394		continue;
395		case ' ':
#	Line 421 | Line 449 | finish_receiver(void)
449		curparams.vup[1] = 1;
450		}
451		/* determine sample type/bin */
452	<	if (tolower(curparams.hemis[0]) == 'u' | curparams.hemis[0] == '1') {
452	>	if ((tolower(curparams.hemis[0]) == 'u') | (curparams.hemis[0] == '1')) {
453		sprintf(sbuf, "if(-Dx*%g-Dy*%g-Dz*%g,0,-1)",
454		curparams.nrm[0], curparams.nrm[1], curparams.nrm[2]);
455		binv = savqstr(sbuf);
#	Line 474 | Line 502 | finish_receiver(void)
502		calfn = kquarterfn; kquarterfn = NULL;
503		binf = "kqbin";
504		nbins = "Nkqbins";
505	+	} else if (!strcasecmp(curparams.hemis, "cie")) {
506	+	calfn = ciefn; ciefn = NULL;
507	+	sprintf(sbuf, "rNx=%g,rNy=%g,rNz=%g,Ux=%g,Uy=%g,Uz=%g,RHS=%c1",
508	+	curparams.nrm[0], curparams.nrm[1], curparams.nrm[2],
509	+	curparams.vup[0], curparams.vup[1], curparams.vup[2],
510	+	curparams.sign);
511	+	params = savqstr(sbuf);
512	+	binv = "cbin";
513	+	nbins = "Ncbins";
514		} else {
515		fprintf(stderr, "%s: unrecognized hemisphere sampling: h=%s\n",
516		progname, curparams.hemis);
#	Line 483 | Line 520 | finish_receiver(void)
520		sprintf(sbuf, "RHS=%c1", curparams.sign);
521		params = savqstr(sbuf);
522		}
523	<	if (!uniform & (curparams.slist->styp == ST_SOURCE)) {
523	>	if (!uniform) {
524		SURF    *sp;
525		for (sp = curparams.slist; sp != NULL; sp = sp->next)
526	<	if (fabs(sp->area - PI) > 1e-3) {
526	>	if (sp->styp == ST_SOURCE && fabs(sp->area - PI) > 1e-3) {
527		fprintf(stderr, "%s: source '%s' must be 180-degrees\n",
528		progname, sp->sname);
529		exit(1);
#	Line 530 | Line 567 | make_axes(FVECT uva[2], const FVECT nrm)
567		{
568		int     i;
569
570	<	if (!getperpendicular(uva[0], nrm)) {
570	>	if (!getperpendicular(uva[0], nrm, 1)) {
571		fputs(progname, stderr);
572		fputs(": bad surface normal in make_axes!\n", stderr);
573		exit(1);
#	Line 644 | Line 681 | ssamp_poly(FVECT orig, SURF *sp, double x)
681		sp->priv = (void *)ptp;
682		}
683		/* pick triangle by partial area */
684	<	for (i = 0; i < ptp->ntris && x > ptp->tri[i].afrac; i++)
684	>	for (i = 0; i < ptp->ntris-1 && x > ptp->tri[i].afrac; i++)
685		x -= ptp->tri[i].afrac;
686		SDmultiSamp(samp2, 2, x/ptp->tri[i].afrac);
687		samp2[0] *= samp2[1] = sqrt(samp2[1]);
#	Line 674 | Line 711 | sample_origin(PARAMS *p, FVECT orig, const FVECT rdir,
711		/* special case for lone surface */
712		if (p->nsurfs == 1) {
713		sp = p->slist;
714	<	if (DOT(sp->snrm, rdir) >= -FTINY) {
714	>	if (DOT(sp->snrm, rdir) >= FTINY) {
715		fprintf(stderr,
716		"%s: internal - sample behind sender '%s'\n",
717		progname, sp->sname);
#	Line 685 | Line 722 | sample_origin(PARAMS *p, FVECT orig, const FVECT rdir,
722		if (p->nsurfs > nall) {         /* (re)allocate surface area cache */
723		if (projsa) free(projsa);
724		projsa = (double *)malloc(sizeof(double)*p->nsurfs);
725	<	if (!projsa) return(0);
725	>	if (projsa == NULL) {
726	>	fputs(progname, stderr);
727	>	fputs(": out of memory in sample_origin!\n", stderr);
728	>	exit(1);
729	>	}
730		nall = p->nsurfs;
731		}
732		/* compute projected areas */
733		for (i = 0, sp = p->slist; sp != NULL; i++, sp = sp->next) {
734		projsa[i] = -DOT(sp->snrm, rdir) * sp->area;
735	<	tarea += projsa[i] *= (double)(projsa[i] > FTINY);
735	>	tarea += projsa[i] *= (double)(projsa[i] > 0);
736		}
737	<	if (tarea <= FTINY) {           /* wrong side of sender? */
737	>	if (tarea < FTINY*FTINY) {      /* wrong side of sender? */
738		fputs(progname, stderr);
739		fputs(": internal - sample behind all sender elements!\n",
740		stderr);
#	Line 711 | Line 752 | sample_uniform(PARAMS *p, int b, FILE *fp)
752		{
753		int     n = sampcnt;
754		double  samp3[3];
755	<	double  duvw[3];
715	<	FVECT   orig_dir[2];
755	>	FVECT   duvw, orig_dir[2];
756		int     i;
757
758		if (fp == NULL)                 /* just requesting number of bins? */
#	Line 720 | Line 760 | sample_uniform(PARAMS *p, int b, FILE *fp)
760
761		while (n--) {                   /* stratified hemisphere sampling */
762		SDmultiSamp(samp3, 3, (n+frandom())/sampcnt);
763	<	SDsquare2disk(duvw, samp3[1], samp3[2]);
763	>	square2disk(duvw, samp3[1], samp3[2]);
764		duvw[2] = -sqrt(1. - duvw[0]*duvw[0] - duvw[1]*duvw[1]);
765		for (i = 3; i--; )
766		orig_dir[1][i] = duvw[0]*p->udir[i] +
#	Line 728 | Line 768 | sample_uniform(PARAMS *p, int b, FILE *fp)
768		duvw[2]*p->nrm[i] ;
769		if (!sample_origin(p, orig_dir[0], orig_dir[1], samp3[0]))
770		return(0);
771	<	if (fwrite(orig_dir, sizeof(FVECT), 2, fp) != 2)
771	>	if (putbinary(orig_dir, sizeof(FVECT), 2, fp) != 2)
772		return(0);
773		}
774		return(1);
#	Line 740 | Line 780 | sample_shirchiu(PARAMS *p, int b, FILE *fp)
780		{
781		int     n = sampcnt;
782		double  samp3[3];
783	<	double  duvw[3];
744	<	FVECT   orig_dir[2];
783	>	FVECT   duvw, orig_dir[2];
784		int     i;
785
786		if (fp == NULL)                 /* just requesting number of bins? */
#	Line 749 | Line 788 | sample_shirchiu(PARAMS *p, int b, FILE *fp)
788
789		while (n--) {                   /* stratified sampling */
790		SDmultiSamp(samp3, 3, (n+frandom())/sampcnt);
791	<	SDsquare2disk(duvw, (b/p->hsiz + samp3[1])/curparams.hsiz,
791	>	square2disk(duvw, (b/p->hsiz + samp3[1])/curparams.hsiz,
792		(b%p->hsiz + samp3[2])/curparams.hsiz);
793		duvw[2] = sqrt(1. - duvw[0]*duvw[0] - duvw[1]*duvw[1]);
794		for (i = 3; i--; )
#	Line 758 | Line 797 | sample_shirchiu(PARAMS *p, int b, FILE *fp)
797		duvw[2]*p->nrm[i] ;
798		if (!sample_origin(p, orig_dir[0], orig_dir[1], samp3[0]))
799		return(0);
800	<	if (fwrite(orig_dir, sizeof(FVECT), 2, fp) != 2)
800	>	if (putbinary(orig_dir, sizeof(FVECT), 2, fp) != 2)
801		return(0);
802		}
803		return(1);
#	Line 794 | Line 833 | sample_reinhart(PARAMS *p, int b, FILE *fp)
833		}
834		while (n--) {                   /* stratified sampling */
835		SDmultiSamp(samp3, 3, (n+frandom())/sampcnt);
836	+	if (row >= RowMax-1)    /* avoid crowding at zenith */
837	+	samp3[1] *= samp3[1];
838		alt = (row+samp3[1])*RAH;
839		azi = (2.*PI)*(col+samp3[2]-.5)/rnaz(row);
840		duvw[2] = cos(alt);     /* measured from horizon */
841		duvw[0] = tsin(azi)*duvw[2];
842	<	duvw[1] = tcos(azi)*duvw[2];
842	>	duvw[1] = -tcos(azi)*duvw[2];
843		duvw[2] = sqrt(1. - duvw[2]*duvw[2]);
844		for (i = 3; i--; )
845		orig_dir[1][i] = -duvw[0]*p->udir[i] -
#	Line 806 | Line 847 | sample_reinhart(PARAMS *p, int b, FILE *fp)
847		duvw[2]*p->nrm[i] ;
848		if (!sample_origin(p, orig_dir[0], orig_dir[1], samp3[0]))
849		return(0);
850	<	if (fwrite(orig_dir, sizeof(FVECT), 2, fp) != 2)
850	>	if (putbinary(orig_dir, sizeof(FVECT), 2, fp) != 2)
851		return(0);
852		}
853		return(1);
#	Line 849 | Line 890 | sample_klems(PARAMS *p, int b, FILE *fp)
890
891		while (n--) {                   /* stratified sampling */
892		SDmultiSamp(samp2, 2, (n+frandom())/sampcnt);
893	<	if (!fi_getvec(duvw, b+samp2[1], kbasis[bi]))
893	>	if (!fo_getvec(duvw, b+samp2[1], kbasis[bi]))
894		return(0);
895		for (i = 3; i--; )
896		orig_dir[1][i] = -duvw[0]*p->udir[i] -
#	Line 857 | Line 898 | sample_klems(PARAMS *p, int b, FILE *fp)
898		duvw[2]*p->nrm[i] ;
899		if (!sample_origin(p, orig_dir[0], orig_dir[1], samp2[0]))
900		return(0);
901	<	if (fwrite(orig_dir, sizeof(FVECT), 2, fp) != 2)
901	>	if (putbinary(orig_dir, sizeof(FVECT), 2, fp) != 2)
902		return(0);
903		}
904		return(1);
#	Line 865 | Line 906 | sample_klems(PARAMS *p, int b, FILE *fp)
906
907		/* Prepare hemisphere basis sampler that will send rays to rcontrib */
908		static int
909	<	prepare_sampler(void)
909	>	prepare_sampler(PARAMS *p)
910		{
911	<	if (curparams.slist == NULL) {  /* missing sample surface! */
912	<	fputs(progname, stderr);
872	<	fputs(": no sender surface!\n", stderr);
911	>	if (p->slist == NULL) {         /* missing sample surface! */
912	>	error(USER, "no sender surface");
913		return(-1);
914		}
915		/* misplaced output file spec. */
916	<	if ((curparams.outfn != NULL) & (verbose >= 0))
917	<	fprintf(stderr, "%s: warning - ignoring output file in sender ('%s')\n",
918	<	progname, curparams.outfn);
916	>	if (p->outfn[0]) {
917	>	sprintf(errmsg, "ignoring output file in sender ('%s')",
918	>	p->outfn);
919	>	error(WARNING, errmsg);
920	>	}
921		/* check/set basis hemisphere */
922	<	if (!curparams.hemis[0]) {
923	<	fputs(progname, stderr);
882	<	fputs(": missing sender sampling type!\n", stderr);
922	>	if (!p->hemis[0]) {
923	>	error(USER, "missing sender sampling type");
924		return(-1);
925		}
926	<	if (normalize(curparams.nrm) == 0) {
927	<	fputs(progname, stderr);
887	<	fputs(": undefined normal for sender sampling\n", stderr);
926	>	if (normalize(p->nrm) == 0) {
927	>	error(USER, "undefined normal for sender sampling");
928		return(-1);
929		}
930	<	if (normalize(curparams.vup) == 0) {
931	<	if (fabs(curparams.nrm[2]) < .7)
932	<	curparams.vup[2] = 1;
930	>	if (normalize(p->vup) == 0) {
931	>	if (fabs(p->nrm[2]) < .7)
932	>	p->vup[2] = 1;
933		else
934	<	curparams.vup[1] = 1;
934	>	p->vup[1] = 1;
935		}
936	<	fcross(curparams.udir, curparams.vup, curparams.nrm);
937	<	if (normalize(curparams.udir) == 0) {
938	<	fputs(progname, stderr);
899	<	fputs(": up vector coincides with sender normal\n", stderr);
936	>	fcross(p->udir, p->vup, p->nrm);
937	>	if (normalize(p->udir) == 0) {
938	>	error(USER, "up vector coincides with sender normal");
939		return(-1);
940		}
941	<	fcross(curparams.vdir, curparams.nrm, curparams.udir);
942	<	if (curparams.sign == '-') {    /* left-handed coordinate system? */
943	<	curparams.udir[0] *= -1.;
944	<	curparams.udir[1] *= -1.;
945	<	curparams.udir[2] *= -1.;
941	>	fcross(p->vdir, p->nrm, p->udir);
942	>	if (p->sign == '-') {           /* left-handed coordinate system? */
943	>	p->udir[0] *= -1.;
944	>	p->udir[1] *= -1.;
945	>	p->udir[2] *= -1.;
946		}
947	<	if (tolower(curparams.hemis[0]) == 'u' | curparams.hemis[0] == '1')
948	<	curparams.sample_basis = sample_uniform;
949	<	else if (tolower(curparams.hemis[0]) == 's' &&
950	<	tolower(curparams.hemis[1]) == 'c')
951	<	curparams.sample_basis = sample_shirchiu;
952	<	else if ((tolower(curparams.hemis[0]) == 'r') |
953	<	(tolower(curparams.hemis[0]) == 't'))
954	<	curparams.sample_basis = sample_reinhart;
955	<	else if (tolower(curparams.hemis[0]) == 'k') {
956	<	switch (curparams.hemis[1]) {
947	>	if ((tolower(p->hemis[0]) == 'u') | (p->hemis[0] == '1'))
948	>	p->sample_basis = sample_uniform;
949	>	else if (tolower(p->hemis[0]) == 's' &&
950	>	tolower(p->hemis[1]) == 'c')
951	>	p->sample_basis = sample_shirchiu;
952	>	else if ((tolower(p->hemis[0]) == 'r') |
953	>	(tolower(p->hemis[0]) == 't'))
954	>	p->sample_basis = sample_reinhart;
955	>	else if (tolower(p->hemis[0]) == 'k') {
956	>	switch (p->hemis[1]) {
957		case '1':
958		case '2':
959		case '4':
#	Line 922 | Line 961 | prepare_sampler(void)
961		case 'f':
962		case 'F':
963		case '\0':
964	<	curparams.hemis[1] = '1';
964	>	p->hemis[1] = '1';
965		break;
966		case 'h':
967		case 'H':
968	<	curparams.hemis[1] = '2';
968	>	p->hemis[1] = '2';
969		break;
970		case 'q':
971		case 'Q':
972	<	curparams.hemis[1] = '4';
972	>	p->hemis[1] = '4';
973		break;
974		default:
975		goto unrecognized;
976		}
977	<	curparams.hemis[2] = '\0';
978	<	curparams.sample_basis = sample_klems;
977	>	p->hemis[2] = '\0';
978	>	p->sample_basis = sample_klems;
979		} else
980		goto unrecognized;
981		/* return number of bins */
982	<	return((*curparams.sample_basis)(&curparams,0,NULL));
982	>	return((*p->sample_basis)(p,0,NULL));
983		unrecognized:
984		fprintf(stderr, "%s: unrecognized sender sampling: h=%s\n",
985	<	progname, curparams.hemis);
985	>	progname, p->hemis);
986		return(-1);
987		}
988
#	Line 966 | Line 1005 | finish_polygon(SURF *p)
1005		VCOPY(e1, e2);
1006		}
1007		p->area = normalize(p->snrm)*0.5;
1008	<	return(p->area > FTINY);
1008	>	return(p->area > FTINY*FTINY);
1009		}
1010
1011		/* Add a surface to our current parameters */
#	Line 984 | Line 1023 | add_surface(int st, const char *oname, FILE *fp)
1023		snew = (SURF *)malloc(sizeof(SURF) + sizeof(double)*(n-1));
1024		if (snew == NULL) {
1025		fputs(progname, stderr);
1026	<	fputs(": out of memory!\n", stderr);
1026	>	fputs(": out of memory in add_surface!\n", stderr);
1027		exit(1);
1028		}
1029		strncpy(snew->sname, oname, sizeof(snew->sname)-1);
#	Line 1029 | Line 1068 | add_surface(int st, const char *oname, FILE *fp)
1068		snew->area *= PI*snew->area;
1069		break;
1070		}
1071	<	if ((snew->area <= FTINY) & (verbose >= 0)) {
1071	>	if ((snew->area <= FTINY*FTINY) & !(verbose & NOWARN)) {
1072		fprintf(stderr, "%s: warning - zero area for surface '%s'\n",
1073		progname, oname);
1074		free(snew);
#	Line 1066 | Line 1105 | add_recv_object(FILE *fp)
1105		}
1106		/* is it a new receiver? */
1107		if ((st = surf_type(otype)) != ST_NONE) {
1069	–	if (curparams.slist != NULL && (st == ST_SOURCE) ^
1070	–	(curparams.slist->styp == ST_SOURCE)) {
1071	–	fputs(progname, stderr);
1072	–	fputs(": cannot mix source/non-source receivers!\n", stderr);
1073	–	return(-1);
1074	–	}
1108		if (strcmp(thismod, curmod)) {
1109		if (curmod[0]) {        /* output last receiver? */
1110		finish_receiver();
#	Line 1207 | Line 1240 | main(int argc, char *argv[])
1240		FILE    *rcfp;
1241		int     nsbins;
1242		int     a, i;
1243	+	/* set global progname */
1244	+	fixargv0(argv[0]);
1245		/* screen rcontrib options */
1211	–	progname = argv[0];
1246		for (a = 1; a < argc-2; a++) {
1247		int     na;
1248		/* check for argument expansion */
#	Line 1224 | Line 1258 | main(int argc, char *argv[])
1258		na = 1;
1259		switch (argv[a][1]) {   /* !! Keep consistent !! */
1260		case 'v':               /* verbose mode */
1261	<	verbose = 1;
1261	>	verbose ^= VERBO;
1262		na = 0;
1263		continue;
1264		case 'f':               /* special case for -fo, -ff, etc. */
#	Line 1254 | Line 1288 | main(int argc, char *argv[])
1288		yrs = argv[++a];
1289		na = 0;
1290		continue;
1291	<	case 'c':               /* number of samples */
1292	<	sampcnt = atoi(argv[++a]);
1293	<	if (sampcnt <= 0)
1294	<	goto userr;
1295	<	na = 0;         /* we re-add this later */
1296	<	continue;
1291	>	case 'c':               /* spectral sampling or count */
1292	>	switch (argv[a][2]) {
1293	>	case 's':
1294	>	na = 2;
1295	>	break;
1296	>	case 'w':
1297	>	na = 3;
1298	>	break;
1299	>	case '\0':
1300	>	sampcnt = atoi(argv[++a]);
1301	>	if (sampcnt <= 0)
1302	>	goto userr;
1303	>	na = 0;         /* we re-add this later */
1304	>	continue;
1305	>	}
1306	>	break;
1307		case 'I':               /* only for pass-through mode */
1308		case 'i':
1309		iropt = argv[a];
1310		na = 0;
1311		continue;
1312		case 'w':               /* options without arguments */
1313	<	if (argv[a][2] != '+') verbose = -1;
1313	>	if (!argv[a][2])
1314	>	verbose ^= NOWARN;
1315	>	else if (strchr("+1tTyY", argv[a][2]) != NULL)
1316	>	verbose &= ~NOWARN;
1317	>	else
1318	>	verbose |= NOWARN;
1319	>	break;
1320		case 'V':
1321		case 'u':
1322		case 'h':
#	Line 1275 | Line 1325 | main(int argc, char *argv[])
1325		case 'n':               /* options with 1 argument */
1326		case 's':
1327		case 'o':
1328	+	case 't':
1329		na = 2;
1330		break;
1331		case 'b':               /* special case */
#	Line 1292 | Line 1343 | main(int argc, char *argv[])
1343		if (argv[a][2] != 'v') na = 2;
1344		break;
1345		case 'a':               /* special case */
1346	<	na = (argv[a][2] == 'v') ? 4 : 2;
1346	>	if (argv[a][2] == 'p') {
1347	>	na = 2; /* photon map [+ bandwidth(s)] */
1348	>	if (a < argc-3 && atoi(argv[a+1]) > 0)
1349	>	na += 1 + (a < argc-4 && atoi(argv[a+2]) > 0);
1350	>	} else
1351	>	na = (argv[a][2] == 'v') ? 4 : 2;
1352		break;
1353		case 'm':               /* special case */
1354		if (!argv[a][2]) goto userr;
#	Line 1338 | Line 1394 | main(int argc, char *argv[])
1394		fputs(": -i, -I supported for pass-through only\n", stderr);
1395		return(1);
1396		}
1397	<	fmtopt[2] = (sizeof(RREAL)==sizeof(double)) ? 'd' : 'f';
1397	>	#ifdef SMLFLT
1398	>	fmtopt[2] = 'f';
1399	>	#else
1400	>	fmtopt[2] = 'd';
1401	>	#endif
1402		if (sampcnt <= 0) sampcnt = 10000;
1403		}
1404		sprintf(sampcntbuf, "%d", sampcnt);
#	Line 1360 | Line 1420 | main(int argc, char *argv[])
1420		curmod[0] = '\0';
1421		if (load_scene(sendfn, add_send_object) < 0)
1422		return(1);
1423	<	if ((nsbins = prepare_sampler()) <= 0)
1423	>	if ((nsbins = prepare_sampler(&curparams)) <= 0)
1424		return(1);
1425		CHECKARGC(3);                   /* add row count and octree */
1426		rcarg[nrcargs++] = "-y";
#	Line 1375 | Line 1435 | main(int argc, char *argv[])
1435		#ifdef getc_unlocked
1436		flockfile(rcfp);
1437		#endif
1438	<	if (verbose > 0) {
1438	>	if (verbose & VERBO) {
1439		fprintf(stderr, "%s: sampling %d directions", progname, nsbins);
1440		if (curparams.nsurfs > 1)
1441		fprintf(stderr, " (%d elements)\n", curparams.nsurfs);
#	Line 1385 | Line 1445 | main(int argc, char *argv[])
1445		for (i = 0; i < nsbins; i++)    /* send rcontrib ray samples */
1446		if (!(*curparams.sample_basis)(&curparams, i, rcfp))
1447		return(1);
1448	<	return(pclose(rcfp) < 0);       /* all finished! */
1448	>	return(pclose_al(rcfp) < 0);    /* all finished! */
1449		userr:
1450		if (a < argc-2)
1451		fprintf(stderr, "%s: unsupported option '%s'", progname, argv[a]);

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