src/rt/renderopts.c

#ifndef lint
static const char       RCSid[] = "$Id: renderopts.c,v 2.24 2023/11/18 18:14:26 greg Exp $";
#endif
/*
 *  renderopts.c - process common rendering options
 *
 *  External symbols declared in ray.h
 */

#include "copyright.h"

#include  "ray.h"
#include  "paths.h"
#include  "pmapopt.h"

extern char     *progname;      /* global argv[0] */

char    RFeatureList[2048] =    /* newline-separated feature list */
                "VirtualSources\nSecondarySources\nSourceSubsampling\n"
                "SourceVisibility\nAmbientModifierSelection\n"
                "PathTracing\nRussianRoulette\nLowDiscrepancySeq\n"
                "SpecularSampling\nMaterialMixtures\nAntimatter\nBackFaceVisibility\n"
                "ScatteringModels=WGMD,Ashikhmin-Shirley\n"
                "TabulatedBSDFs=DataFile,KlemsXML,TensorTreeXML,+ViewPeakExtraction\n"
                "Instancing=Octree,TriangleMesh\nAliases\n"
#if MAXCSAMP>3
                "Hyperspectral\n"
#endif
#if !defined(SHADCACHE) || SHADCACHE > 0
                "ShadowCache\n"
#endif
#ifdef  DISPERSE
                "DielectricDispersion\n"
#endif
/*              PMAP_FEATURES   XXX @Roland: need to define this in pmapopt.h */
;


static char *
get_feature(            /* find a specific feature (with optional sublist) */
        const char *feat
)
{
        char    *cp = RFeatureList;
        int     n = 0;

        while ((feat[n] != '\0') & (feat[n] != '='))
                n++;
        if (!n)
                return(NULL);
        while (*cp) {
                if (!strncmp(cp, feat, n) && (cp[n] == '\n') | !feat[n] | (cp[n] == feat[n]))
                        return(cp);
                while (*cp++ != '\n')
                        ;
        }
        return(NULL);
}


static int
match_subfeatures(      /* check if subfeatures are supported */
        char *mysublist,
        char *reqs
)
{
        if (mysublist)
                mysublist = strchr(mysublist, '=');
        if (!mysublist++ | !reqs)
                return(0);              /* not a feature list */
        while (*reqs) {                 /* check each of their subfeature requests */
                char    subfeat[64];
                char    *cp = subfeat;
                int     n;
                while (*reqs && (*cp = *reqs++) != ',')
                        cp++;
                *cp = '\0';
                n = cp - subfeat;
                for (cp = mysublist; (cp = strstr(cp, subfeat)) != NULL; cp++)
                        if ((cp[-1] == ',') | (cp[-1] == '=') &&
                                        (cp[n] == ',') | (cp[n] == '\n'))
                                break;  /* match */
                if (!cp)
                        return(0);      /* missing this one! */
        }
        return(1);                      /* matched them all */
}


int
feature_status(         /* report active feature list / check specifics */
        int  ac,
        char  *av[]
)
{
        if (ac <= 0)                    /* report entire list? */
                fputs(RFeatureList, stdout);

        for ( ; ac-- > 0; av++) {       /* check each argument */
                char    *cp;
                if (!*av[0]) continue;
                if ((cp = strchr(av[0], '=')) != NULL) {
                        if (!match_subfeatures(get_feature(av[0]), cp+1))
                                goto missing_feature;
                } else if ((cp = get_feature(av[0])) != NULL) {
                        char    *tp = strchr(cp, '=');
                        if (tp && tp < strchr(cp, '\n'))
                                do
                                        fputc(*cp, stdout);
                                while (*cp++ != '\n');
                } else
                        goto missing_feature;
        }
        return(0);                      /* return satisfactory status */
missing_feature:                        /* or report error */
        fprintf(stderr, "%s: missing feature - %s\n", progname, av[0]);
        return(1);
}


int
getrenderopt(           /* get next render option */
        int  ac,
        char  *av[]
)
{
#define  check(ol,al)           if (av[0][ol] || \
                                badarg(ac-1,av+1,al)) \
                                return(-1)
#define  check_bool(olen,var)           switch (av[0][olen]) { \
                                case '\0': var = !var; break; \
                                case 'y': case 'Y': case 't': case 'T': \
                                case '+': case '1': var = 1; break; \
                                case 'n': case 'N': case 'f': case 'F': \
                                case '-': case '0': var = 0; break; \
                                default: return(-1); }
        static char  **amblp;           /* pointer to build ambient list */
        int     rval;
                                        /* is it even an option? */
        if (ac < 1 || av[0] == NULL || av[0][0] != '-')
                return(-1);
                                        /* check if it's one we know */
        switch (av[0][1]) {
        case 'u':                               /* uncorrelated sampling */
                check_bool(2,rand_samp);
                return(0);
        case 'b':                               /* back face vis. */
                if (av[0][2] == 'v') {
                        check_bool(3,backvis);
                        return(0);
                }
                break;
        case 'd':                               /* direct */
                switch (av[0][2]) {
                case 't':                               /* threshold */
                        check(3,"f");
                        shadthresh = atof(av[1]);
                        return(1);
                case 'c':                               /* certainty */
                        check(3,"f");
                        shadcert = atof(av[1]);
                        return(1);
                case 'j':                               /* jitter */
                        check(3,"f");
                        dstrsrc = atof(av[1]);
                        return(1);
                case 'r':                               /* relays */
                        check(3,"i");
                        directrelay = atoi(av[1]);
                        return(1);
                case 'p':                               /* pretest */
                        check(3,"i");
                        vspretest = atoi(av[1]);
                        return(1);
                case 'v':                               /* visibility */
                        check_bool(3,directvis);
                        return(0);
                case 's':                               /* size */
                        check(3,"f");
                        srcsizerat = atof(av[1]);
                        return(1);
                }
                break;
        case 's':                               /* specular */
                switch (av[0][2]) {
                case 't':                               /* threshold */
                        check(3,"f");
                        specthresh = atof(av[1]);
                        return(1);
                case 's':                               /* sampling */
                        check(3,"f");
                        specjitter = atof(av[1]);
                        return(1);
                }
                break;
        case 'l':                               /* limit */
                switch (av[0][2]) {
                case 'r':                               /* recursion */
                        check(3,"i");
                        maxdepth = atoi(av[1]);
                        return(1);
                case 'w':                               /* weight */
                        check(3,"f");
                        minweight = atof(av[1]);
                        return(1);
                }
                break;
        case 'i':                               /* irradiance */
                check_bool(2,do_irrad);
                return(0);
        case 'a':                               /* ambient */
                switch (av[0][2]) {
                case 'v':                               /* value */
                        check(3,"fff");
                        setcolor(ambval, atof(av[1]),
                                        atof(av[2]),
                                        atof(av[3]));
                        return(3);
                case 'w':                               /* weight */
                        check(3,"i");
                        ambvwt = atoi(av[1]);
                        return(1);
                case 'a':                               /* accuracy */
                        check(3,"f");
                        ambacc = atof(av[1]);
                        return(1);
                case 'r':                               /* resolution */
                        check(3,"i");
                        ambres = atoi(av[1]);
                        return(1);
                case 'd':                               /* divisions */
                        check(3,"i");
                        ambdiv = atoi(av[1]);
                        return(1);
                case 's':                               /* super-samp */
                        check(3,"i");
                        ambssamp = atoi(av[1]);
                        return(1);
                case 'b':                               /* bounces */
                        check(3,"i");
                        ambounce = atoi(av[1]);
                        return(1);
                case 'i':                               /* include */
                case 'I':
                        check(3,"s");
                        if (ambincl != 1) {
                                ambincl = 1;
                                amblp = amblist;
                        }
                        if (av[0][2] == 'I') {  /* file */
                                rval = wordfile(amblp, AMBLLEN-(amblp-amblist),
                                        getpath(av[1],getrlibpath(),R_OK));
                                if (rval < 0) {
                                        sprintf(errmsg,
                        "cannot open ambient include file \"%s\"", av[1]);
                                        error(SYSTEM, errmsg);
                                }
                                amblp += rval;
                        } else {
                                *amblp++ = savqstr(av[1]);
                                *amblp = NULL;
                        }
                        return(1);
                case 'e':                               /* exclude */
                case 'E':
                        check(3,"s");
                        if (ambincl != 0) {
                                ambincl = 0;
                                amblp = amblist;
                        }
                        if (av[0][2] == 'E') {  /* file */
                                rval = wordfile(amblp, AMBLLEN-(amblp-amblist),
                                        getpath(av[1],getrlibpath(),R_OK));
                                if (rval < 0) {
                                        sprintf(errmsg,
                        "cannot open ambient exclude file \"%s\"", av[1]);
                                        error(SYSTEM, errmsg);
                                }
                                amblp += rval;
                        } else {
                                *amblp++ = savqstr(av[1]);
                                *amblp = NULL;
                        }
                        return(1);
                case 'f':                               /* file */
                        check(3,"s");
                        ambfile = savqstr(av[1]);
                        return(1);
                }
                break;
        case 'm':                               /* medium */
                switch (av[0][2]) {
                case 'e':                               /* extinction */
                        check(3,"fff");
                        setcolor(cextinction, atof(av[1]),
                                        atof(av[2]),
                                        atof(av[3]));
                        return(3);
                case 'a':                               /* albedo */
                        check(3,"fff");
                        setcolor(salbedo, atof(av[1]),
                                        atof(av[2]),
                                        atof(av[3]));
                        return(3);
                case 'g':                               /* eccentr. */
                        check(3,"f");
                        seccg = atof(av[1]);
                        return(1);
                case 's':                               /* sampling */
                        check(3,"f");
                        ssampdist = atof(av[1]);
                        return(1);
                }
                break;
#if MAXCSAMP>3
        case 'c':                               /* spectral sampling */
                switch (av[0][2]) {
                case 's':                       /* spectral bin count */
                        check(3,"i");
                        NCSAMP = atoi(av[1]);
                        return(1);
                case 'w':                       /* wavelength extrema */
                        check(3,"ff");
                        WLPART[0] = atof(av[1]);
                        WLPART[3] = atof(av[2]);
                        return(2);
                }
                break;
#endif
        }
        
        /* PMAP: Parse photon mapping options */
        return(getPmapRenderOpt(ac, av));
        
/*      return(-1); */          /* unknown option */

#undef  check
#undef  check_bool
}


void
print_rdefaults(void)           /* print default render values to stdout */
{
        printf(do_irrad ? "-i+\t\t\t\t# irradiance calculation on\n" :
                        "-i-\t\t\t\t# irradiance calculation off\n");
        printf(rand_samp ? "-u+\t\t\t\t# uncorrelated Monte Carlo sampling\n" :
                        "-u-\t\t\t\t# correlated quasi-Monte Carlo sampling\n");
        printf(backvis ? "-bv+\t\t\t\t# back face visibility on\n" :
                        "-bv-\t\t\t\t# back face visibility off\n");
        printf("-dt %f\t\t\t# direct threshold\n", shadthresh);
        printf("-dc %f\t\t\t# direct certainty\n", shadcert);
        printf("-dj %f\t\t\t# direct jitter\n", dstrsrc);
        printf("-ds %f\t\t\t# direct sampling\n", srcsizerat);
        printf("-dr %-9d\t\t\t# direct relays\n", directrelay);
        printf("-dp %-9d\t\t\t# direct pretest density\n", vspretest);
        printf(directvis ? "-dv+\t\t\t\t# direct visibility on\n" :
                        "-dv-\t\t\t\t# direct visibility off\n");
        printf("-ss %f\t\t\t# specular sampling\n", specjitter);
        printf("-st %f\t\t\t# specular threshold\n", specthresh);
        printf("-av %f %f %f\t# ambient value\n", colval(ambval,RED),
                        colval(ambval,GRN), colval(ambval, BLU));
        printf("-aw %-9d\t\t\t# ambient value weight\n", ambvwt);
        printf("-ab %-9d\t\t\t# ambient bounces\n", ambounce);
        printf("-aa %f\t\t\t# ambient accuracy\n", ambacc);
        printf("-ar %-9d\t\t\t# ambient resolution\n", ambres);
        printf("-ad %-9d\t\t\t# ambient divisions\n", ambdiv);
        printf("-as %-9d\t\t\t# ambient super-samples\n", ambssamp);
        printf("-me %.2e %.2e %.2e\t# mist extinction coefficient\n",
                        colval(cextinction,RED),
                        colval(cextinction,GRN),
                        colval(cextinction,BLU));
        printf("-ma %f %f %f\t# mist scattering albedo\n", colval(salbedo,RED),
                        colval(salbedo,GRN), colval(salbedo,BLU));
        printf("-mg %f\t\t\t# mist scattering eccentricity\n", seccg);
        printf("-ms %f\t\t\t# mist sampling distance\n", ssampdist);
        if (NCSAMP > 3) {
                printf("-cs %-2d\t\t\t\t# number of spectral bins\n", NCSAMP);
                printf("-cw %3.0f %3.0f\t\t\t# wavelength limits (nm)\n",
                                WLPART[3], WLPART[0]);
        }
        printf("-lr %-9d\t\t\t# limit reflection%s\n", maxdepth,
                        maxdepth<=0 ? " (Russian roulette)" : "");
        printf("-lw %.2e\t\t\t# limit weight\n", minweight);
        
        /* PMAP: output photon map defaults */
        printPmapDefaults();
}
Revision:	2.25
Committed:	Fri Apr 5 17:52:20 2024 UTC (6 weeks, 1 day ago) by greg
Content type:	text/plain
Branch:	MAIN
Changes since 2.24:	+6 -4 lines
Log Message:	fix(rpict,rtrace,rcontrib,rvu): Fixed bug in feature sublist check
#	User	Rev	Content
1	greg	2.1	#ifndef lint
2	greg	2.25	static const char RCSid[] = "$Id: renderopts.c,v 2.24 2023/11/18 18:14:26 greg Exp $";
3	greg	2.1	#endif
4			/*
5			* renderopts.c - process common rendering options
6			*
7			* External symbols declared in ray.h
8			*/
9
10	greg	2.2	#include "copyright.h"
11	greg	2.1
12			#include "ray.h"
13	greg	2.5	#include "paths.h"
14	greg	2.16	#include "pmapopt.h"
15	greg	2.1
16	greg	2.19	extern char progname; / global argv[0] */
17
18			char RFeatureList[2048] = /* newline-separated feature list */
19	greg	2.20	"VirtualSources\nSecondarySources\nSourceSubsampling\n"
20			"SourceVisibility\nAmbientModifierSelection\n"
21			"PathTracing\nRussianRoulette\nLowDiscrepancySeq\n"
22			"SpecularSampling\nMaterialMixtures\nAntimatter\nBackFaceVisibility\n"
23	greg	2.22	"ScatteringModels=WGMD,Ashikhmin-Shirley\n"
24	greg	2.19	"TabulatedBSDFs=DataFile,KlemsXML,TensorTreeXML,+ViewPeakExtraction\n"
25			"Instancing=Octree,TriangleMesh\nAliases\n"
26	greg	2.23	#if MAXCSAMP>3
27			"Hyperspectral\n"
28			#endif
29	greg	2.19	#if !defined(SHADCACHE) \|\| SHADCACHE > 0
30			"ShadowCache\n"
31			#endif
32			#ifdef DISPERSE
33			"DielectricDispersion\n"
34			#endif
35			/* PMAP_FEATURES XXX @Roland: need to define this in pmapopt.h */
36			;
37
38
39			static char *
40			get_feature( /* find a specific feature (with optional sublist) */
41			const char *feat
42			)
43			{
44			char *cp = RFeatureList;
45			int n = 0;
46
47			while ((feat[n] != '\0') & (feat[n] != '='))
48			n++;
49			if (!n)
50			return(NULL);
51			while (*cp) {
52			if (!strncmp(cp, feat, n) && (cp[n] == '\n') \| !feat[n] \| (cp[n] == feat[n]))
53			return(cp);
54			while (*cp++ != '\n')
55			;
56			}
57			return(NULL);
58			}
59
60
61			static int
62			match_subfeatures( /* check if subfeatures are supported */
63			char *mysublist,
64			char *reqs
65			)
66			{
67			if (mysublist)
68			mysublist = strchr(mysublist, '=');
69			if (!mysublist++ \| !reqs)
70			return(0); /* not a feature list */
71			while (reqs) { / check each of their subfeature requests */
72			char subfeat[64];
73			char *cp = subfeat;
74			int n;
75			while (reqs && (cp = *reqs++) != ',')
76			cp++;
77			*cp = '\0';
78			n = cp - subfeat;
79	greg	2.25	for (cp = mysublist; (cp = strstr(cp, subfeat)) != NULL; cp++)
80			if ((cp[-1] == ',') \| (cp[-1] == '=') &&
81			(cp[n] == ',') \| (cp[n] == '\n'))
82			break; /* match */
83			if (!cp)
84	greg	2.19	return(0); /* missing this one! */
85			}
86			return(1); /* matched them all */
87			}
88
89
90			int
91			feature_status( /* report active feature list / check specifics */
92			int ac,
93			char *av[]
94			)
95			{
96			if (ac <= 0) /* report entire list? */
97			fputs(RFeatureList, stdout);
98
99			for ( ; ac-- > 0; av++) { /* check each argument */
100			char *cp;
101			if (!*av[0]) continue;
102			if ((cp = strchr(av[0], '=')) != NULL) {
103			if (!match_subfeatures(get_feature(av[0]), cp+1))
104			goto missing_feature;
105			} else if ((cp = get_feature(av[0])) != NULL) {
106			char *tp = strchr(cp, '=');
107			if (tp && tp < strchr(cp, '\n'))
108			do
109			fputc(*cp, stdout);
110			while (*cp++ != '\n');
111			} else
112			goto missing_feature;
113			}
114			return(0); /* return satisfactory status */
115			missing_feature: /* or report error */
116			fprintf(stderr, "%s: missing feature - %s\n", progname, av[0]);
117			return(1);
118			}
119
120	greg	2.1
121	greg	2.15	int
122	schorsch	2.4	getrenderopt( /* get next render option */
123			int ac,
124			char *av[]
125			)
126	greg	2.1	{
127			#define check(ol,al) if (av[0][ol] \|\| \
128			badarg(ac-1,av+1,al)) \
129			return(-1)
130	schorsch	2.17	#define check_bool(olen,var) switch (av[0][olen]) { \
131	greg	2.1	case '\0': var = !var; break; \
132			case 'y': case 'Y': case 't': case 'T': \
133			case '+': case '1': var = 1; break; \
134			case 'n': case 'N': case 'f': case 'F': \
135			case '-': case '0': var = 0; break; \
136			default: return(-1); }
137			static char *amblp; / pointer to build ambient list */
138			int rval;
139			/* is it even an option? */
140			if (ac < 1 \|\| av[0] == NULL \|\| av[0][0] != '-')
141			return(-1);
142			/* check if it's one we know */
143			switch (av[0][1]) {
144	greg	2.10	case 'u': /* uncorrelated sampling */
145	schorsch	2.17	check_bool(2,rand_samp);
146	greg	2.9	return(0);
147	greg	2.1	case 'b': /* back face vis. */
148			if (av[0][2] == 'v') {
149	schorsch	2.17	check_bool(3,backvis);
150	greg	2.1	return(0);
151			}
152			break;
153			case 'd': /* direct */
154			switch (av[0][2]) {
155			case 't': /* threshold */
156			check(3,"f");
157			shadthresh = atof(av[1]);
158			return(1);
159			case 'c': /* certainty */
160			check(3,"f");
161			shadcert = atof(av[1]);
162			return(1);
163			case 'j': /* jitter */
164			check(3,"f");
165			dstrsrc = atof(av[1]);
166			return(1);
167			case 'r': /* relays */
168			check(3,"i");
169			directrelay = atoi(av[1]);
170			return(1);
171			case 'p': /* pretest */
172			check(3,"i");
173			vspretest = atoi(av[1]);
174			return(1);
175			case 'v': /* visibility */
176	schorsch	2.17	check_bool(3,directvis);
177	greg	2.1	return(0);
178			case 's': /* size */
179			check(3,"f");
180			srcsizerat = atof(av[1]);
181			return(1);
182			}
183			break;
184			case 's': /* specular */
185			switch (av[0][2]) {
186			case 't': /* threshold */
187			check(3,"f");
188			specthresh = atof(av[1]);
189			return(1);
190	greg	2.14	case 's': /* sampling */
191	greg	2.1	check(3,"f");
192			specjitter = atof(av[1]);
193			return(1);
194			}
195			break;
196			case 'l': /* limit */
197			switch (av[0][2]) {
198			case 'r': /* recursion */
199			check(3,"i");
200			maxdepth = atoi(av[1]);
201			return(1);
202			case 'w': /* weight */
203			check(3,"f");
204			minweight = atof(av[1]);
205			return(1);
206			}
207			break;
208			case 'i': /* irradiance */
209	schorsch	2.17	check_bool(2,do_irrad);
210	greg	2.1	return(0);
211			case 'a': /* ambient */
212			switch (av[0][2]) {
213			case 'v': /* value */
214			check(3,"fff");
215			setcolor(ambval, atof(av[1]),
216			atof(av[2]),
217			atof(av[3]));
218			return(3);
219			case 'w': /* weight */
220			check(3,"i");
221			ambvwt = atoi(av[1]);
222			return(1);
223			case 'a': /* accuracy */
224			check(3,"f");
225			ambacc = atof(av[1]);
226			return(1);
227			case 'r': /* resolution */
228			check(3,"i");
229			ambres = atoi(av[1]);
230			return(1);
231			case 'd': /* divisions */
232			check(3,"i");
233			ambdiv = atoi(av[1]);
234			return(1);
235			case 's': /* super-samp */
236			check(3,"i");
237			ambssamp = atoi(av[1]);
238			return(1);
239			case 'b': /* bounces */
240			check(3,"i");
241			ambounce = atoi(av[1]);
242			return(1);
243			case 'i': /* include */
244			case 'I':
245			check(3,"s");
246			if (ambincl != 1) {
247			ambincl = 1;
248			amblp = amblist;
249			}
250			if (av[0][2] == 'I') { /* file */
251	greg	2.18	rval = wordfile(amblp, AMBLLEN-(amblp-amblist),
252	greg	2.3	getpath(av[1],getrlibpath(),R_OK));
253	greg	2.1	if (rval < 0) {
254			sprintf(errmsg,
255	greg	2.7	"cannot open ambient include file \"%s\"", av[1]);
256	greg	2.1	error(SYSTEM, errmsg);
257			}
258			amblp += rval;
259			} else {
260	greg	2.6	*amblp++ = savqstr(av[1]);
261	greg	2.1	*amblp = NULL;
262			}
263			return(1);
264			case 'e': /* exclude */
265			case 'E':
266			check(3,"s");
267			if (ambincl != 0) {
268			ambincl = 0;
269			amblp = amblist;
270			}
271			if (av[0][2] == 'E') { /* file */
272	greg	2.18	rval = wordfile(amblp, AMBLLEN-(amblp-amblist),
273	greg	2.3	getpath(av[1],getrlibpath(),R_OK));
274	greg	2.1	if (rval < 0) {
275			sprintf(errmsg,
276	greg	2.7	"cannot open ambient exclude file \"%s\"", av[1]);
277	greg	2.1	error(SYSTEM, errmsg);
278			}
279			amblp += rval;
280			} else {
281	greg	2.6	*amblp++ = savqstr(av[1]);
282	greg	2.1	*amblp = NULL;
283			}
284			return(1);
285			case 'f': /* file */
286			check(3,"s");
287	greg	2.6	ambfile = savqstr(av[1]);
288	greg	2.1	return(1);
289			}
290			break;
291			case 'm': /* medium */
292			switch (av[0][2]) {
293			case 'e': /* extinction */
294			check(3,"fff");
295			setcolor(cextinction, atof(av[1]),
296			atof(av[2]),
297			atof(av[3]));
298			return(3);
299			case 'a': /* albedo */
300			check(3,"fff");
301			setcolor(salbedo, atof(av[1]),
302			atof(av[2]),
303			atof(av[3]));
304			return(3);
305			case 'g': /* eccentr. */
306			check(3,"f");
307			seccg = atof(av[1]);
308			return(1);
309			case 's': /* sampling */
310			check(3,"f");
311			ssampdist = atof(av[1]);
312			return(1);
313			}
314			break;
315	greg	2.23	#if MAXCSAMP>3
316			case 'c': /* spectral sampling */
317			switch (av[0][2]) {
318			case 's': /* spectral bin count */
319			check(3,"i");
320			NCSAMP = atoi(av[1]);
321			return(1);
322			case 'w': /* wavelength extrema */
323			check(3,"ff");
324			WLPART[0] = atof(av[1]);
325			WLPART[3] = atof(av[2]);
326	greg	2.24	return(2);
327	greg	2.23	}
328			break;
329			#endif
330	greg	2.1	}
331	greg	2.16
332			/* PMAP: Parse photon mapping options */
333			return(getPmapRenderOpt(ac, av));
334
335			/* return(-1); / / unknown option */
336	greg	2.1
337			#undef check
338	schorsch	2.17	#undef check_bool
339	greg	2.1	}
340
341
342	greg	2.15	void
343	schorsch	2.4	print_rdefaults(void) /* print default render values to stdout */
344	greg	2.1	{
345			printf(do_irrad ? "-i+\t\t\t\t# irradiance calculation on\n" :
346			"-i-\t\t\t\t# irradiance calculation off\n");
347	greg	2.11	printf(rand_samp ? "-u+\t\t\t\t# uncorrelated Monte Carlo sampling\n" :
348	greg	2.12	"-u-\t\t\t\t# correlated quasi-Monte Carlo sampling\n");
349	greg	2.1	printf(backvis ? "-bv+\t\t\t\t# back face visibility on\n" :
350			"-bv-\t\t\t\t# back face visibility off\n");
351			printf("-dt %f\t\t\t# direct threshold\n", shadthresh);
352			printf("-dc %f\t\t\t# direct certainty\n", shadcert);
353			printf("-dj %f\t\t\t# direct jitter\n", dstrsrc);
354			printf("-ds %f\t\t\t# direct sampling\n", srcsizerat);
355			printf("-dr %-9d\t\t\t# direct relays\n", directrelay);
356			printf("-dp %-9d\t\t\t# direct pretest density\n", vspretest);
357			printf(directvis ? "-dv+\t\t\t\t# direct visibility on\n" :
358			"-dv-\t\t\t\t# direct visibility off\n");
359	greg	2.14	printf("-ss %f\t\t\t# specular sampling\n", specjitter);
360	greg	2.1	printf("-st %f\t\t\t# specular threshold\n", specthresh);
361			printf("-av %f %f %f\t# ambient value\n", colval(ambval,RED),
362			colval(ambval,GRN), colval(ambval, BLU));
363			printf("-aw %-9d\t\t\t# ambient value weight\n", ambvwt);
364			printf("-ab %-9d\t\t\t# ambient bounces\n", ambounce);
365			printf("-aa %f\t\t\t# ambient accuracy\n", ambacc);
366			printf("-ar %-9d\t\t\t# ambient resolution\n", ambres);
367			printf("-ad %-9d\t\t\t# ambient divisions\n", ambdiv);
368			printf("-as %-9d\t\t\t# ambient super-samples\n", ambssamp);
369			printf("-me %.2e %.2e %.2e\t# mist extinction coefficient\n",
370			colval(cextinction,RED),
371			colval(cextinction,GRN),
372			colval(cextinction,BLU));
373			printf("-ma %f %f %f\t# mist scattering albedo\n", colval(salbedo,RED),
374			colval(salbedo,GRN), colval(salbedo,BLU));
375			printf("-mg %f\t\t\t# mist scattering eccentricity\n", seccg);
376			printf("-ms %f\t\t\t# mist sampling distance\n", ssampdist);
377	greg	2.23	if (NCSAMP > 3) {
378			printf("-cs %-2d\t\t\t\t# number of spectral bins\n", NCSAMP);
379			printf("-cw %3.0f %3.0f\t\t\t# wavelength limits (nm)\n",
380			WLPART[3], WLPART[0]);
381			}
382	greg	2.8	printf("-lr %-9d\t\t\t# limit reflection%s\n", maxdepth,
383			maxdepth<=0 ? " (Russian roulette)" : "");
384	greg	2.13	printf("-lw %.2e\t\t\t# limit weight\n", minweight);
385	greg	2.16
386			/* PMAP: output photon map defaults */
387			printPmapDefaults();
388	greg	2.1	}