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

Comparing ray/src/util/wrapBSDF.c (file contents):
Revision 2.1 by greg, Wed Feb 11 18:08:10 2015 UTC vs.
Revision 2.11 by greg, Fri Feb 20 18:07:10 2015 UTC

#	Line 2 \| Line 2
2		static const char RCSid[] = "$Id$";
3		#endif
4		/*
5	<	* Wrap BSDF data in valid WINDOW XML wrapper
5	>	* Wrap BSDF data in valid WINDOW XML file
6		*
7	<	* G. Ward January 2015
7	>	* G. Ward February 2015
8		*/
9
10		#include <ctype.h>
#	Line 15 \| Line 15 \| static const char RCSid[] = "$Id$";
15		#include "bsdf_m.h"
16		/* XML template file names */
17		const char def_template[] = "minimalBSDFt.xml";
18	<	const char win6_template[] = "window6BSDFt.xml";
18	>	const char win6_template[] = "WINDOW6BSDFt.xml";
19
20		const char stdin_name[] = "<stdin>";
21	–
21		/* input files (can be stdin_name) */
22		const char *xml_input = NULL;
23		/* unit for materials & geometry */
24	<	const char *attr_unit = "millimeter";
24	>	const char *attr_unit = "meter";
25		const char legal_units[] = "meter\|foot\|inch\|centimeter\|millimeter";
26		/* system materials & geometry */
27		const char *mgf_geometry = NULL;
28
29	<	/* angle basis */
29	>	/* angle bases */
30		enum { ABdefault=-1, ABklemsFull=0, ABklemsHalf, ABklemsQuarter,
31		ABtensorTree3, ABtensorTree4, ABend };
32
33		int angle_basis = ABdefault;
34
35	+	int correct_solid_angle = 0;
36	+
37	+	const char *klems_basis_name[] = {
38	+	"LBNL/Klems Full",
39	+	"LBNL/Klems Half",
40	+	"LBNL/Klems Quarter",
41	+	};
42		/* field IDs and nicknames */
43		struct s_fieldID {
44		char nickName[4];
45	<	int has_unit;
45	>	short has_unit;
46	>	short win_need;
47		const char *fullName;
48		} XMLfieldID[] = {
49	<	{"m", 0, "Manufacturer"},
50	<	{"n", 0, "Name"},
51	<	{"c", 0, "ThermalConductivity"},
52	<	{"ef", 0, "EmissivityFront"},
53	<	{"eb", 0, "EmissivityBack"},
54	<	{"tir", 0, "TIR"},
55	<	{"eo", 0, "EffectiveOpennessFraction"},
56	<	{"t", 1, "Thickness"},
57	<	{"h", 1, "Height"},
58	<	{"w", 1, "Width"},
59	<	{"\0", -1, NULL} /* terminator */
49	>	{"m", 0, 1, "Manufacturer"},
50	>	{"n", 0, 1, "Name"},
51	>	{"c", 0, 0, "ThermalConductivity"},
52	>	{"ef", 0, 0, "EmissivityFront"},
53	>	{"eb", 0, 0, "EmissivityBack"},
54	>	{"tir", 0, 0, "TIR"},
55	>	{"eo", 0, 0, "EffectiveOpennessFraction"},
56	>	{"t", 1, 1, "Thickness"},
57	>	{"h", 1, 0, "Height"},
58	>	{"w", 1, 0, "Width"},
59	>	{"\0", 0, 0, NULL} /* terminator */
60		};
61		/* field assignments */
62		#define MAXASSIGN 12
63		const char *field_assignment[MAXASSIGN];
64		int nfield_assign = 0;
65		#define FASEP ';'
59	–
66		/* data file(s) & spectra */
67		enum { DTtransForward, DTtransBackward, DTreflForward, DTreflBackward };
68
69	<	enum { DSsolar=-1, DSnir=-2, DSxbar31=-3, DSvisible=-4, DSzbar31=-5 };
69	>	enum { DSsolar=-1, DSnir=-2, DSxbar31=-3, DSvisible=-4, DSzbar31=-5,
70	>	DSuprime=-6, DSvprime=-7 };
71
72		#define MAXFILES 20
73
#	Line 76 \| Line 83 \| *const char spectr_file[MAXFILES]; /* custom spectral**
83
84		const char top_level_name[] = "WindowElement";
85
86	<	static char *basis_definition[] = {
86	>	static char basis_definition[][256] = {
87
88	+	"\t<DataDefinition>\n"
89		"\t\t<IncidentDataStructure>Columns</IncidentDataStructure>\n"
90		"\t\t<AngleBasis>\n"
91		"\t\t\t<AngleBasisName>LBNL/Klems Full</AngleBasisName>\n"
92	<	"\t\t</AngleBasis>\n",
92	>	"\t\t\t</AngleBasis>\n"
93	>	"\t</DataDefinition>\n",
94
95	+	"\t<DataDefinition>\n"
96		"\t\t<IncidentDataStructure>Columns</IncidentDataStructure>\n"
97		"\t\t<AngleBasis>\n"
98		"\t\t\t<AngleBasisName>LBNL/Klems Half</AngleBasisName>\n"
99	<	"\t\t</AngleBasis>\n",
99	>	"\t\t\t</AngleBasis>\n"
100	>	"\t</DataDefinition>\n",
101
102	+	"\t<DataDefinition>\n"
103		"\t\t<IncidentDataStructure>Columns</IncidentDataStructure>\n"
104		"\t\t<AngleBasis>\n"
105		"\t\t\t<AngleBasisName>LBNL/Klems Quarter</AngleBasisName>\n"
106	<	"\t\t</AngleBasis>\n",
106	>	"\t\t\t</AngleBasis>\n"
107	>	"\t</DataDefinition>\n",
108
109	<	"\t\t<IncidentDataStructure>TensorTree3</IncidentDataStructure>\n",
109	>	"\t<DataDefinition>\n"
110	>	"\t\t<IncidentDataStructure>TensorTree3</IncidentDataStructure>\n"
111	>	"\t</DataDefinition>\n",
112
113	<	"\t\t<IncidentDataStructure>TensorTree4</IncidentDataStructure>\n",
113	>	"\t<DataDefinition>\n"
114	>	"\t\t<IncidentDataStructure>TensorTree4</IncidentDataStructure>\n"
115	>	"\t</DataDefinition>\n",
116		};
117
118		/* Copy data from file descriptor to stdout and close */
#	Line 130 \| Line 147 \| *input2str(const char inpspec)**
147		return "";
148		if (inpspec == stdin_name) { /* read from stdin */
149		fp = stdin;
150	<	} else if (inpspec == '!') { / read from command */
150	>	} else if (inpspec[0] == '!') { /* read from command */
151		fp = popen(inpspec+1, "r");
152		if (fp == NULL) {
153		fprintf(stderr, "Cannot start process '%s'\n",
154	<	inpspec+1);
154	>	inpspec);
155		return "";
156		}
157		} else { /* else load file */
#	Line 144 \| Line 161 \| *input2str(const char inpspec)**
161		return "";
162		}
163		len = lseek(fd, 0L, SEEK_END);
164	<	if (len < 0) {
165	<	fprintf(stderr, "%s: seek error\n", inpspec);
164	>	if (len > 0) {
165	>	lseek(fd, 0L, SEEK_SET);
166	>	str = (char *)malloc(len+1);
167	>	if (str == NULL) {
168	>	close(fd);
169	>	goto memerr;
170	>	}
171	>	if (read(fd, str, len) != len) {
172	>	fprintf(stderr, "%s: read error\n", inpspec);
173	>	free(str);
174	>	close(fd);
175	>	return "";
176	>	}
177	>	str[len] = '\0';
178		close(fd);
179	<	return "";
179	>	return str;
180		}
181	<	lseek(fd, 0L, SEEK_SET);
153	<	str = (char *)malloc(len+1);
154	<	if (str == NULL) {
155	<	close(fd);
156	<	goto memerr;
157	<	}
158	<	if (read(fd, str, len) != len) {
159	<	fprintf(stderr, "%s: read error\n", inpspec);
160	<	free(str);
161	<	close(fd);
162	<	return "";
163	<	}
164	<	str[len] = '\0';
165	<	close(fd);
166	<	return str;
181	>	fp = fdopen(fd, "r"); /* not a regular file */
182		}
183		/* reading from stream */
184		str = (char *)malloc((len=8192)+1);
#	Line 186 \| Line 201 \| *input2str(const char inpspec)**
201		if (str == NULL)
202		goto memerr;
203		}
204	<	if (*inpspec != '!')
204	>	if (inpspec[0] != '!')
205		fclose(fp);
206		else if (pclose(fp))
207	<	fprintf(stderr, "Error running command '%s'\n", inpspec+1);
207	>	fprintf(stderr, "Error running command '%s'\n", inpspec);
208		return str;
209		memerr:
210		fprintf(stderr, "%s: error allocating memory\n", inpspec);
211		if (fp != NULL)
212	<	(*inpspec == '!') ? pclose(fp) : fclose(fp);
212	>	(inpspec[0] == '!') ? pclose(fp) : fclose(fp);
213		return "";
214		}
215
#	Line 204 \| Line 219 \| *mat_assignments(const char caller, const char fn, ez*
219		{
220		int i;
221
207	–	if (!nfield_assign)
208	–	return 1;
222		wtl = ezxml_child(wtl, "Material");
223		if (wtl == NULL) {
224		fprintf(stderr, "%s: missing <Material> tag\n", fn);
#	Line 214 \| Line 227 \| *mat_assignments(const char caller, const char fn, ez*
227		for (i = 0; i < nfield_assign; i++) {
228		const char *fnext = field_assignment[i];
229		for ( ; ; ) {
230	+	int added = 0;
231		ezxml_t fld;
232		char sbuf[512];
233		int j;
#	Line 222 \| Line 236 \| *mat_assignments(const char caller, const char fn, ez*
236		++fnext;
237		if (!*fnext)
238		break;
239	<	for (j = 0; (fnext != '=') & !isspace(fnext); ) {
239	>	for (j = 0; fnext != '=' && !isspace(fnext); ) {
240		if (!fnext \| (fnext == FASEP) \|
241		(j >= sizeof(sbuf)-1)) {
242		fprintf(stderr,
#	Line 232 \| Line 246 \| *mat_assignments(const char caller, const char fn, ez*
246		}
247		sbuf[j++] = *fnext++;
248		}
249	<	sbuf[j] = '\0'; /* check nick-names */
249	>	sbuf[j] = '\0'; /* check known field */
250		for (j = 0; XMLfieldID[j].nickName[0]; j++)
251	<	if (!strcasecmp(sbuf, XMLfieldID[j].nickName)) {
251	>	if (!strcasecmp(sbuf, XMLfieldID[j].nickName) \|\|
252	>	!strcasecmp(sbuf, XMLfieldID[j].fullName)) {
253		strcpy(sbuf, XMLfieldID[j].fullName);
254		break;
255		}
256		/* check if tag exists */
257		fld = ezxml_child(wtl, sbuf);
258		if (fld == NULL) { /* otherwise, create one */
259	<	fprintf(stderr, "%s: warning - adding tag <%s>\n",
260	<	fn, sbuf);
259	>	if (!XMLfieldID[j].nickName[0])
260	>	fprintf(stderr,
261	>	"%s: warning - adding tag <%s>\n",
262	>	fn, sbuf);
263	>	ezxml_add_txt(wtl, "\t");
264		fld = ezxml_add_child_d(wtl, sbuf, strlen(wtl->txt));
265	+	++added;
266		}
267		if (XMLfieldID[j].has_unit)
268		ezxml_set_attr(fld, "unit", attr_unit);
269	+	XMLfieldID[j].win_need = 0;
270		while (isspace(*fnext))
271		++fnext;
272		if (*fnext++ != '=') {
#	Line 255 \| Line 275 \| *mat_assignments(const char caller, const char fn, ez*
275		caller, field_assignment[i]);
276		return 0;
277		}
278	<	for (j = 0; fnext & (fnext != FASEP); ) {
278	>	for (j = 0; fnext && fnext != FASEP; ) {
279		if (j >= sizeof(sbuf)-1) {
280		fprintf(stderr,
281		"%s: field too long in '%s'\n",
#	Line 266 \| Line 286 \| *mat_assignments(const char caller, const char fn, ez*
286		}
287		sbuf[j] = '\0';
288		ezxml_set_txt_d(fld, sbuf);
289	+	if (added)
290	+	ezxml_add_txt(wtl, "\n\t");
291		fnext += (*fnext == FASEP);
292		}
293		}
294	<	return 1; /* no errors */
294	>	/* check required WINDOW settings */
295	>	if (xml_input == win6_template)
296	>	for (i = 0; XMLfieldID[i].nickName[0]; i++)
297	>	if (XMLfieldID[i].win_need &&
298	>	!ezxml_txt(ezxml_child(wtl,XMLfieldID[i].fullName))[0])
299	>	fprintf(stderr,
300	>	"%s: warning - missing '%s' assignment for WINDOW <%s>\n",
301	>	caller, XMLfieldID[i].nickName,
302	>	XMLfieldID[i].fullName);
303	>	return 1;
304		}
305
306		/* Complete angle basis specification */
#	Line 297 \| Line 328 \| finish_angle_basis(ezxml_t ab)
328		sprintf(buf, "%g", i ?
329		.5*(abase_list[n].lat[i].tmin + abase_list[n].lat[i+1].tmin) :
330		.0);
331	+	ezxml_add_txt(abb, "\n\t\t\t\t");
332		ezxml_set_txt_d(ezxml_add_child(abb,"Theta",strlen(abb->txt)), buf);
333		sprintf(buf, "%d", abase_list[n].lat[i].nphis);
334	+	ezxml_add_txt(abb, "\n\t\t\t\t");
335		ezxml_set_txt_d(ezxml_add_child(abb,"nPhis",strlen(abb->txt)), buf);
336	+	ezxml_add_txt(abb, "\n\t\t\t\t");
337		tb = ezxml_add_child(abb, "ThetaBounds", strlen(abb->txt));
338	+	ezxml_add_txt(tb, "\n\t\t\t\t\t");
339		sprintf(buf, "%g", abase_list[n].lat[i].tmin);
340	<	ezxml_set_txt(ezxml_add_child(tb,"LowerTheta",strlen(tb->txt)), buf);
340	>	ezxml_set_txt_d(ezxml_add_child(tb,"LowerTheta",strlen(tb->txt)), buf);
341	>	ezxml_add_txt(tb, "\n\t\t\t\t\t");
342		sprintf(buf, "%g", abase_list[n].lat[i+1].tmin);
343	<	ezxml_set_txt(ezxml_add_child(tb,"UpperTheta",strlen(tb->txt)), buf);
343	>	ezxml_set_txt_d(ezxml_add_child(tb,"UpperTheta",strlen(tb->txt)), buf);
344	>	ezxml_add_txt(tb, "\n\t\t\t\t");
345	>	ezxml_add_txt(abb, "\n\t\t\t");
346	>	ezxml_add_txt(ab, "\n\t\t\t");
347		}
348		return 1;
349		}
#	Line 320 \| Line 359 \| *determine_angle_basis(const char fn, ezxml_t wtl)**
359		if (wtl == NULL)
360		return -1;
361		ids = ezxml_txt(ezxml_child(wtl, "IncidentDataStructure"));
362	<	if (ids == NULL)
362	>	if (!ids[0])
363		return -1;
364		for (i = 0; i < ABend; i++) {
365		ezxml_t parsed = ezxml_parse_str(basis_definition[i],
#	Line 343 \| Line 382 \| *determine_angle_basis(const char fn, ezxml_t wtl)**
382		return -1;
383		}
384
385	+	/* Filter Klems angle basis, factoring out incident projected solid angle */
386	+	static int
387	+	filter_klems_matrix(FILE *fp)
388	+	{
389	+	#define MAX_COLUMNS 145
390	+	const char *bn = klems_basis_name[angle_basis];
391	+	float col_corr[MAX_COLUMNS];
392	+	int i, j, n = nabases;
393	+	/* get angle basis */
394	+	while (n-- > 0)
395	+	if (!strcasecmp(bn, abase_list[n].name))
396	+	break;
397	+	if (n < 0)
398	+	return 0;
399	+	if (abase_list[n].nangles > MAX_COLUMNS) {
400	+	fputs("Internal error - too many Klems columns!\n", stderr);
401	+	return 0;
402	+	}
403	+	/* get correction factors */
404	+	for (j = abase_list[n].nangles; j--; )
405	+	col_corr[j] = 1.f / io_getohm(j, &abase_list[n]);
406	+	/* read/correct/write matrix */
407	+	for (i = 0; i < abase_list[n].nangles; i++) {
408	+	for (j = 0; j < abase_list[n].nangles; j++) {
409	+	double d;
410	+	if (fscanf(fp, "%lf", &d) != 1)
411	+	return 0;
412	+	if (d < -1e-3) {
413	+	fputs("Negative BSDF data!\n", stderr);
414	+	return 0;
415	+	}
416	+	printf(" %.3e", dcol_corr[j](d > 0));
417	+	}
418	+	fputc('\n', stdout);
419	+	}
420	+	while ((i = getc(fp)) != EOF)
421	+	if (!isspace(i)) {
422	+	fputs("Unexpected data past EOF\n", stderr);
423	+	return 0;
424	+	}
425	+	return 1; /* all is good */
426	+	#undef MAX_COLUMNS
427	+	}
428	+
429		/* Write out BSDF data block with surrounding tags */
430		static int
431		writeBSDFblock(const char caller, struct s_dfile df)
432		{
433	+	int correct_klems = correct_solid_angle;
434		char *cp;
435
436		puts("\t<WavelengthData>");
#	Line 354 \| Line 438 \| *writeBSDFblock(const char caller, struct s_dfile df)*
438		switch (df->spectrum) {
439		case DSvisible:
440		puts("\t\t<Wavelength unit=\"Integral\">Visible</Wavelength>");
441	<	puts("\t\tSourceSpectrum>CIE Illuminant D65 1nm.ssp</SourceSpectrum>");
441	>	puts("\t\t<SourceSpectrum>CIE Illuminant D65 1nm.ssp</SourceSpectrum>");
442		puts("\t\t<DetectorSpectrum>ASTM E308 1931 Y.dsp</DetectorSpectrum>");
443		break;
444		case DSxbar31:
#	Line 367 \| Line 451 \| *writeBSDFblock(const char caller, struct s_dfile df)*
451		puts("\t\tSourceSpectrum>CIE Illuminant D65 1nm.ssp</SourceSpectrum>");
452		puts("\t\t<DetectorSpectrum>ASTM E308 1931 Z.dsp</DetectorSpectrum>");
453		break;
454	+	case DSuprime:
455	+	puts("\t\t<Wavelength unit=\"Integral\">CIE-Z</Wavelength>");
456	+	puts("\t\tSourceSpectrum>CIE Illuminant D65 1nm.ssp</SourceSpectrum>");
457	+	puts("\t\t<DetectorSpectrum>ASTM E308 1931 u.dsp</DetectorSpectrum>");
458	+	break;
459	+	case DSvprime:
460	+	puts("\t\t<Wavelength unit=\"Integral\">CIE-Z</Wavelength>");
461	+	puts("\t\tSourceSpectrum>CIE Illuminant D65 1nm.ssp</SourceSpectrum>");
462	+	puts("\t\t<DetectorSpectrum>ASTM E308 1931 v.dsp</DetectorSpectrum>");
463	+	break;
464		case DSsolar:
465		puts("\t\t<Wavelength unit=\"Integral\">Solar</Wavelength>");
466		puts("\t\tSourceSpectrum>CIE Illuminant D65 1nm.ssp</SourceSpectrum>");
#	Line 412 \| Line 506 \| *writeBSDFblock(const char caller, struct s_dfile df)*
506		puts("</WavelengthDataDirection>");
507		switch (angle_basis) {
508		case ABklemsFull:
415	–	puts("\t\t\t<ColumnAngleBasis>LBNL/Klems Full</ColumnAngleBasis>");
416	–	break;
509		case ABklemsHalf:
418	–	puts("\t\t\t<ColumnAngleBasis>LBNL/Klems Half</ColumnAngleBasis>");
419	–	break;
510		case ABklemsQuarter:
511	<	puts("\t\t\t<ColumnAngleBasis>LBNL/Klems Quarter</ColumnAngleBasis>");
511	>	fputs("\t\t\t<ColumnAngleBasis>", stdout);
512	>	fputs(klems_basis_name[angle_basis], stdout);
513	>	puts("</ColumnAngleBasis>");
514	>	fputs("\t\t\t<RowAngleBasis>", stdout);
515	>	fputs(klems_basis_name[angle_basis], stdout);
516	>	puts("</RowAngleBasis>");
517		break;
518		case ABtensorTree3:
519		case ABtensorTree4:
520		puts("\t\t\t<AngleBasis>LBNL/Shirley-Chiu</AngleBasis>");
521	+	correct_klems = 0;
522		break;
523		default:
524		fprintf(stderr, "%s: bad angle basis (%d)\n", caller, angle_basis);
#	Line 431 \| Line 527 \| *writeBSDFblock(const char caller, struct s_dfile df)*
527		puts("\t\t\t<ScatteringDataType>BTDF</ScatteringDataType>");
528		puts("\t\t\t<ScatteringData>");
529		fflush(stdout);
530	<	if (df->fname == stdin_name) {
530	>	if (correct_klems) { /* correct Klems matrix data */
531	>	FILE *fp = stdin;
532	>	if (df->fname[0] == '!')
533	>	fp = popen(df->fname+1, "r");
534	>	else if (df->fname != stdin_name)
535	>	fp = fopen(df->fname, "r");
536	>	if (fp == NULL) {
537	>	fprintf(stderr, "%s: cannot open '%s'\n",
538	>	caller, df->fname);
539	>	return 0;
540	>	}
541	>	if (!filter_klems_matrix(fp)) {
542	>	fprintf(stderr, "%s: Klems data error from '%s'\n",
543	>	caller, df->fname);
544	>	return 0;
545	>	}
546	>	if (df->fname[0] != '!') {
547	>	fclose(fp);
548	>	} else if (pclose(fp)) {
549	>	fprintf(stderr, "%s: error running '%s'\n",
550	>	caller, df->fname);
551	>	return 0;
552	>	}
553	>	} else if (df->fname == stdin_name) {
554		copy_and_close(fileno(stdin));
555	<	} else if (*df->fname != '!') {
555	>	} else if (df->fname[0] != '!') {
556		if (!copy_and_close(open(df->fname, O_RDONLY))) {
557		fprintf(stderr, "%s: error reading from '%s'\n",
558		caller, df->fname);
559		return 0;
560		}
561		} else if (system(df->fname+1)) {
562	<	fprintf(stderr, "%s: error running '%s'\n", caller, df->fname+1);
562	>	fprintf(stderr, "%s: error running '%s'\n", caller, df->fname);
563		return 0;
564		}
565		puts("\t\t\t</ScatteringData>");
#	Line 453 \| Line 572 \| *writeBSDFblock(const char caller, struct s_dfile df)*
572		static int
573		writeBSDF(const char *caller, ezxml_t fl)
574		{
575	<	char *xml = ezxml_toxml(fl);
575	>	char xml = ezxml_toxml(fl); / store XML in string */
576		int ei, i;
577		/* locate trailer */
578		for (ei = strlen(xml)-strlen("</Layer></Optical></WindowElement>");
#	Line 477 \| Line 596 \| *writeBSDF(const char caller, ezxml_t fl)**
596		return 0;
597		}
598		fputs(xml+ei, stdout); /* write trailer */
599	<	free(xml);
599	>	free(xml); /* free string */
600	>	fputc('\n', stdout);
601		return (fflush(stdout) == 0);
602		}
603
#	Line 485 \| Line 605 \| *writeBSDF(const char caller, ezxml_t fl)**
605		static int
606		wrapBSDF(const char *caller)
607		{
608	<	const char xml_path = getpath((char )xml_input, getrlibpath(), R_OK);
608	>	const char *xml_path = xml_input;
609		ezxml_t fl, wtl;
610		/* load previous XML/template */
611	<	if (xml_path == NULL) {
612	<	fprintf(stderr, "%s: cannot find XML file named '%s'\n",
613	<	caller, xml_input==NULL ? "NULL" : xml_input);
614	<	return 0;
611	>	if (xml_input == stdin_name) {
612	>	fl = ezxml_parse_fp(stdin);
613	>	} else if (xml_input[0] == '!') {
614	>	FILE *pfp = popen(xml_input+1, "r");
615	>	if (pfp == NULL) {
616	>	fprintf(stderr, "%s: cannot start process '%s'\n",
617	>	caller, xml_input);
618	>	return 0;
619	>	}
620	>	fl = ezxml_parse_fp(pfp);
621	>	if (pclose(pfp)) {
622	>	fprintf(stderr, "%s: error running '%s'\n",
623	>	caller, xml_input);
624	>	return 0;
625	>	}
626	>	} else {
627	>	xml_path = getpath((char *)xml_input, getrlibpath(), R_OK);
628	>	if (xml_path == NULL) {
629	>	fprintf(stderr, "%s: cannot find XML file named '%s'\n",
630	>	caller, xml_input==NULL ? "NULL" : xml_input);
631	>	return 0;
632	>	}
633	>	fl = ezxml_parse_file(xml_path);
634		}
496	–	fl = ezxml_parse_file(xml_path);
635		if (fl == NULL) {
636	<	fprintf(stderr, "%s: cannot open XML path '%s'\n",
499	<	caller, xml_path);
636	>	fprintf(stderr, "%s: cannot load XML '%s'\n", caller, xml_path);
637		return 0;
638		}
639		if (ezxml_error(fl)[0]) {
640	<	fprintf(stderr, "%s: error in XML %s: %s\n", caller, xml_path,
640	>	fprintf(stderr, "%s: error in XML '%s': %s\n", caller, xml_path,
641		ezxml_error(fl));
642		goto failure;
643		}
#	Line 522 \| Line 659 \| *wrapBSDF(const char caller)**
659		goto failure;
660		}
661		/* make material assignments */
662	<	if (!mat_assignments(caller, xml_path, wtl)) {
662	>	if (!mat_assignments(caller, xml_path, wtl))
663		goto failure;
527	–	}
664		if (mgf_geometry != NULL) { /* add geometry if specified */
665		ezxml_t geom = ezxml_child(wtl, "Geometry");
666		if (geom == NULL)
667	<	geom = ezxml_add_child(wtl, "Geometry", 0);
667	>	geom = ezxml_add_child(wtl, "Geometry", strlen(wtl->txt));
668		ezxml_set_attr(geom, "format", "MGF");
669		geom = ezxml_child(geom, "MGFblock");
670		if (geom == NULL) {
671		geom = ezxml_child(wtl, "Geometry");
672	<	geom = ezxml_add_child(geom, "MGFblock", strlen(geom->txt));
672	>	geom = ezxml_add_child(geom, "MGFblock", 0);
673		}
674		ezxml_set_attr(geom, "unit", attr_unit);
675		ezxml_set_txt(geom, input2str(mgf_geometry));
#	Line 542 \| Line 678 \| *wrapBSDF(const char caller)**
678		}
679		/* check basis */
680		if (angle_basis != ABdefault) {
681	+	size_t offset = 0;
682		ezxml_t ab, dd = ezxml_child(wtl, "DataDefinition");
683	<	if (dd == NULL) {
684	<	dd = ezxml_add_child(wtl, "DataDefinition", 0);
685	<	} else {
549	<	if (ezxml_child(dd, "DataDefinition") != NULL)
683	>	if (dd != NULL) {
684	>	offset = dd->off;
685	>	if (dd->child != NULL)
686		fprintf(stderr,
687		"%s: warning - replacing existing <DataDefinition> in '%s'\n",
688		caller, xml_path);
689	<	while (dd->child != NULL)
690	<	ezxml_remove(dd->child);
691	<	}
692	<	ezxml_insert(ezxml_parse_str(basis_definition[angle_basis],
689	>	ezxml_remove(dd);
690	>	} else
691	>	offset = strlen(wtl->txt);
692	>	dd = ezxml_insert(ezxml_parse_str(basis_definition[angle_basis],
693		strlen(basis_definition[angle_basis])),
694	<	dd, 0);
694	>	wtl, offset);
695		if ((ab = ezxml_child(dd, "AngleBasis")) != NULL &&
696		!finish_angle_basis(ab))
697		goto failure;
#	Line 580 \| Line 716 \| *UsageExit(const char pname)**
716		{
717		fputs("Usage: ", stderr);
718		fputs(pname, stderr);
719	<	fputs(" [options] [input.xml]\n", stderr);
719	>	fputs(" [-W][-c][-a {kf\|kh\|kq\|t3\|t4}][-u unit][-g geom][-f 'x=string;y=string']", stderr);
720	>	fputs(" [-s spectr][-tb inp][-tf inp][-rb inp][-rf inp]", stderr);
721	>	fputs(" [input.xml]\n", stderr);
722		exit(1);
723		}
724
#	Line 617 \| Line 755 \| *main(int argc, char argv[])**
755		argv[0]);
756		return 1;
757		}
758	<	if (strstr(argv[i], legal_units) == NULL) {
759	<	fprintf(stderr, "%s: unit must be one of (%s)\n",
758	>	if (strstr(legal_units, argv[i]) == NULL) {
759	>	fprintf(stderr, "%s: -u unit must be one of (%s)\n",
760		argv[0], legal_units);
761		return 1;
762		}
#	Line 645 \| Line 783 \| *main(int argc, char argv[])**
783		else
784		UsageExit(argv[0]);
785		continue;
786	+	case 'c': /* correct solid angle */
787	+	correct_solid_angle = 1;
788	+	continue;
789		case 't': /* transmission */
790		if (i >= argc-1)
791		UsageExit(argv[0]);
#	Line 686 \| Line 827 \| *main(int argc, char argv[])**
827		argv[i] = (char *)stdin_name;
828		}
829		data_file[ndataf].fname = argv[i];
830	<	data_file[ndataf++].spectrum = cur_spectrum;
830	>	data_file[ndataf].spectrum = cur_spectrum;
831	>	ndataf++;
832		continue;
833		case 's': /* spectrum name or input file */
834		if (++i >= argc)
#	Line 700 \| Line 842 \| *main(int argc, char argv[])**
842		cur_spectrum = DSxbar31;
843		else if (!strcasecmp(argv[i], "CIE-Z"))
844		cur_spectrum = DSzbar31;
845	+	else if (!strcasecmp(argv[i], "CIE-u"))
846	+	cur_spectrum = DSuprime;
847	+	else if (!strcasecmp(argv[i], "CIE-v"))
848	+	cur_spectrum = DSvprime;
849		else if (!strcasecmp(argv[i], "NIR"))
850		cur_spectrum = DSnir;
851		else {
#	Line 748 \| Line 894 \| *doneOptions: / get XML input /*
894		} else {
895		xml_input = argv[i];
896		}
751	–	if ((xml_input == win6_template) & (angle_basis == ABdefault))
752	–	angle_basis = ABklemsFull;
897		/* wrap it! */
898		return !wrapBSDF(argv[0]);
899		}

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Comparing ray/src/util/wrapBSDF.c (file contents): Revision 2.1 by greg, Wed Feb 11 18:08:10 2015 UTC vs. Revision 2.11 by greg, Fri Feb 20 18:07:10 2015 UTC

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Comparing ray/src/util/wrapBSDF.c (file contents):
Revision 2.1 by greg, Wed Feb 11 18:08:10 2015 UTC vs.
Revision 2.11 by greg, Fri Feb 20 18:07:10 2015 UTC