[ViewVC] Diff of: radiance/ray/src/common/testBSDF.c

Comparing ray/src/common/testBSDF.c (file contents):
Revision 1.1 by greg, Fri Jun 5 17:55:18 2015 UTC vs.
Revision 1.12 by greg, Mon May 15 22:15:40 2017 UTC

#	Line 20 \| Line 20 \| *Usage(const char prog)**
20		{
21		printf("Usage: %s [bsdf_directory]\n", prog);
22		printf("Input commands:\n");
23	<	printf(" l bsdf.xml\t\t\t Load (make active) given BSDF input file\n");
24	<	printf(" q theta_i phi_i theta_o phi_o\t Query BSDF for given path\n");
25	<	printf(" s N theta phi\t\t\t Generate N ray directions at given incidence\n");
26	<	printf(" h theta phi\t\t\t Report hemispherical total at given incidence\n");
27	<	printf(" r theta phi\t\t\t Report hemispherical reflection at given incidence\n");
28	<	printf(" t theta phi\t\t\t Report hemispherical transmission at given incidence\n");
23	>	printf(" L bsdf.xml\t\t\t Load (make active) given BSDF input file\n");
24	>	printf(" i\t\t\t\t Report general information (metadata)\n");
25	>	printf(" c\t\t\t\t Report diffuse and specular components\n");
26	>	printf(" q theta_i phi_i theta_o phi_o\t Query BSDF for given path (CIE-XYZ)\n");
27	>	printf(" s[r\|t][s\|d] N theta phi\t Generate N ray directions & colors at given incidence\n");
28	>	printf(" h[s\|d] theta phi\t\t Report hemispherical scattering at given incidence\n");
29	>	printf(" r[s\|d] theta phi\t\t Report hemispherical reflection at given incidence\n");
30	>	printf(" t[s\|d] theta phi\t\t Report hemispherical transmission at given incidence\n");
31		printf(" a theta phi [t2 p2]\t\t Report resolution (in proj. steradians) for given direction(s)\n");
32		printf(" ^D\t\t\t\t Quit program\n");
33		}
#	Line 42 \| Line 44 \| vec_from_deg(FVECT v, double theta, double phi)
44		v[2] = cos(theta);
45		}
46
47	+	static void
48	+	printXYZ(const char intro, const SDValue vp)
49	+	{
50	+	if (vp->cieY <= 1e-9) {
51	+	printf("%s0 0 0\n", intro);
52	+	return;
53	+	}
54	+	printf("%s%.3e %.3e %.3e\n", intro,
55	+	vp->spec.cx/vp->spec.cy*vp->cieY,
56	+	vp->cieY,
57	+	(1.-vp->spec.cx-vp->spec.cy)/
58	+	vp->spec.cy*vp->cieY);
59	+	}
60	+
61		int
62		main(int argc, char *argv[])
63		{
64	<	const char *directory = "";
64	>	const char *directory = NULL;
65		char inp[512], path[512];
66		const SDData *bsdf = NULL;
67
#	Line 56 \| Line 72 \| *main(int argc, char argv[])**
72		if (argc == 2)
73		directory = argv[1];
74
75	<	SDretainSet = SDretainBSDFs; /* keep BSDFs loaded */
75	>	SDretainSet = SDretainBSDFs; /* keep BSDFs in memory */
76
77		/* loop on command */
78	<	while (fgets(inp, sizeof(inp), stdin) != NULL) {
78	>	while (fgets(inp, sizeof(inp), stdin)) {
79		int sflags = SDsampAll;
80		char *cp = inp;
81		char *cp2;
82		FVECT vin, vout;
83		double proja[2];
84	<	int n;
84	>	int n, i;
85		SDValue val;
86
87		while (isspace(*cp)) cp++;
88
89	<	switch (*cp) {
74	<	case 'l':
89	>	switch (toupper(*cp)) {
90		case 'L': /* load/activate BSDF input */
91		cp2 = cp = sskip2(cp, 1);
92		if (!*cp)
93		break;
94		while (*cp) cp++;
95		while (isspace(--cp)) cp = '\0';
96	<	if (directory[0])
96	>	if (directory)
97		sprintf(path, "%s/%s", directory, cp2);
98		else
99		strcpy(path, cp2);
100	+	if (bsdf)
101	+	SDfreeCache(bsdf);
102		bsdf = SDcacheFile(path);
103		continue;
104	<	case 'q':
104	>	case 'I': /* report general info. */
105	>	if (!bsdf)
106	>	goto noBSDFerr;
107	>	printf("Material: '%s'\n", bsdf->matn);
108	>	printf("Manufacturer: '%s'\n", bsdf->makr);
109	>	printf("Width, Height, Thickness (m): %.4e, %.4e, %.4e\n",
110	>	bsdf->dim[0], bsdf->dim[1], bsdf->dim[2]);
111	>	printf("Has geometry: %s\n", bsdf->mgf ? "yes" : "no");
112	>	continue;
113	>	case 'C': /* report constant values */
114	>	if (!bsdf)
115	>	goto noBSDFerr;
116	>	if (bsdf->rf)
117	>	printf("Peak front hemispherical reflectance: %.3e\n",
118	>	bsdf->rLambFront.cieY +
119	>	bsdf->rf->maxHemi);
120	>	if (bsdf->rb)
121	>	printf("Peak back hemispherical reflectance: %.3e\n",
122	>	bsdf->rLambBack.cieY +
123	>	bsdf->rb->maxHemi);
124	>	if (bsdf->tf)
125	>	printf("Peak front hemispherical transmittance: %.3e\n",
126	>	bsdf->tLamb.cieY + bsdf->tf->maxHemi);
127	>	if (bsdf->tb)
128	>	printf("Peak back hemispherical transmittance: %.3e\n",
129	>	bsdf->tLamb.cieY + bsdf->tb->maxHemi);
130	>	printXYZ("Diffuse Front Reflectance: ", &bsdf->rLambFront);
131	>	printXYZ("Diffuse Back Reflectance: ", &bsdf->rLambBack);
132	>	printXYZ("Diffuse Transmittance: ", &bsdf->tLamb);
133	>	continue;
134		case 'Q': /* query BSDF value */
135	<	if (bsdf == NULL)
135	>	if (!bsdf)
136		goto noBSDFerr;
137		if (!*sskip2(cp,4))
138		break;
139		vec_from_deg(vin, atof(sskip2(cp,1)), atof(sskip2(cp,2)));
140		vec_from_deg(vout, atof(sskip2(cp,3)), atof(sskip2(cp,4)));
141		if (!SDreportError(SDevalBSDF(&val, vout, vin, bsdf), stderr))
142	<	printf("%.3e\n", val.cieY);
142	>	printXYZ("", &val);
143		continue;
98	–	case 's':
144		case 'S': /* sample BSDF */
145	<	if (bsdf == NULL)
145	>	if (!bsdf)
146		goto noBSDFerr;
147		if (!*sskip2(cp,3))
148		break;
149	<	n = atoi(sskip2(cp,1));
149	>	if (toupper(cp[1]) == 'R') {
150	>	sflags &= ~SDsampT;
151	>	++cp;
152	>	} else if (toupper(cp[1]) == 'T') {
153	>	sflags &= ~SDsampR;
154	>	++cp;
155	>	}
156	>	if (toupper(cp[1]) == 'S')
157	>	sflags &= ~SDsampDf;
158	>	else if (toupper(cp[1]) == 'D')
159	>	sflags &= ~SDsampSp;
160	>	i = n = atoi(sskip2(cp,1));
161		vec_from_deg(vin, atof(sskip2(cp,2)), atof(sskip2(cp,3)));
162	<	while (n-- > 0) {
163	<	if (SDreportError(SDsampBSDF(&val, vin,
164	<	rand()*(1./(RAND_MAX+.5)),
162	>	while (i-- > 0) {
163	>	VCOPY(vout, vin);
164	>	if (SDreportError(SDsampBSDF(&val, vout,
165	>	(i+rand()*(1./(RAND_MAX+.5)))/(double)n,
166		sflags, bsdf), stderr))
167		break;
168	<	printf("%.8f %.8f %.8f\n", vin[0], vin[1], vin[2]);
168	>	printf("%.8f %.8f %.8f ", vout[0], vout[1], vout[2]);
169	>	printXYZ("", &val);
170		}
171		continue;
172	<	case 'h':
115	<	case 'H': /* hemispherical totals */
116	<	case 'r':
172	>	case 'H': /* hemispherical values */
173		case 'R':
118	–	case 't':
174		case 'T':
175	<	if (bsdf == NULL)
175	>	if (!bsdf)
176		goto noBSDFerr;
177		if (!*sskip2(cp,2))
178		break;
179	<	if (tolower(*cp) == 'r')
180	<	sflags ^= SDsampT;
181	<	else if (tolower(*cp) == 't')
182	<	sflags ^= SDsampR;
179	>	if (toupper(cp[0]) == 'R')
180	>	sflags &= ~SDsampT;
181	>	else if (toupper(cp[0]) == 'T')
182	>	sflags &= ~SDsampR;
183	>	if (toupper(cp[1]) == 'S')
184	>	sflags &= ~SDsampDf;
185	>	else if (toupper(cp[1]) == 'D')
186	>	sflags &= ~SDsampSp;
187		vec_from_deg(vin, atof(sskip2(cp,1)), atof(sskip2(cp,2)));
188		printf("%.4e\n", SDdirectHemi(vin, sflags, bsdf));
189		continue;
190	<	case 'a':
191	<	case 'A': /* resolution in degrees */
133	<	if (bsdf == NULL)
190	>	case 'A': /* resolution in proj. steradians */
191	>	if (!bsdf)
192		goto noBSDFerr;
193		if (!*sskip2(cp,2))
194		break;
195		vec_from_deg(vin, atof(sskip2(cp,1)), atof(sskip2(cp,2)));
196		if (*sskip2(cp,4)) {
197		vec_from_deg(vout, atof(sskip2(cp,3)), atof(sskip2(cp,4)));
198	<	if (SDreportError(SDsizeBSDF(proja, vin, vout,
198	>	if (SDreportError(SDsizeBSDF(proja, vout, vin,
199		SDqueryMin+SDqueryMax, bsdf), stderr))
200		continue;
201		} else if (SDreportError(SDsizeBSDF(proja, vin, NULL,
#	Line 149 \| Line 207 \| *main(int argc, char argv[])**
207		Usage(argv[0]);
208		continue;
209		noBSDFerr:
210	<	fprintf(stderr, "%s: need to use 'l' command to load BSDF\n", argv[0]);
210	>	fprintf(stderr, "%s: First, use 'L' command to load BSDF\n", argv[0]);
211		}
212		return 0;
213		}

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Comparing ray/src/common/testBSDF.c (file contents): Revision 1.1 by greg, Fri Jun 5 17:55:18 2015 UTC vs. Revision 1.12 by greg, Mon May 15 22:15:40 2017 UTC

Diff Legend

Comparing ray/src/common/testBSDF.c (file contents):
Revision 1.1 by greg, Fri Jun 5 17:55:18 2015 UTC vs.
Revision 1.12 by greg, Mon May 15 22:15:40 2017 UTC