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source: GTP/trunk/Lib/Vis/Preprocessing/src/Environment.cpp @ 2011

Revision 2011, 71.5 KB checked in by bittner, 17 years ago (diff)
mutation strategy updated, importance depending on rsuccess

Line
1	// ================================================================
2	// $Id: environ.cpp,v 1.1 2004/02/16 14:45:59 bittner Exp $
3	//
4	// environ.cpp
5	// Implementation of the environment operations, ie. reading
6	// environment file, reading command line parameters etc.
7	//
8
9	//#define _DEBUG_PARAMS
10
11	#include <math.h>
12	#include <stdlib.h>
13	#include <stdio.h>
14	#include <string.h>
15	#include <fstream>
16
17	#include "gzstream.h"
18	#include "common.h"
19	#include "Environment.h"
20	#include "Vector3.h"
21
22	using namespace std;
23
24	namespace GtpVisibilityPreprocessor {
25
26
27	Environment *Environment::sEnvironment = NULL;
28
29
30	Environment *Environment::GetSingleton()
31	{
32	if (!sEnvironment)
33	{
34	sEnvironment = new Environment();
35	}
36
37	return sEnvironment;
38	}
39
40
41	void Environment::DelSingleton()
42	{
43	DEL_PTR(sEnvironment);
44	}
45
46
47	Environment::~Environment()
48	{
49	int i, j;
50
51	// delete the params structure
52	for (i = 0; i < numParams; i++) {
53	for (j = 0; j < paramRows; j++)
54	if (params[i][j] != NULL)
55	delete[] params[i][j];
56	if (params[i] != NULL)
57	delete[] params[i];
58	}
59
60	if (params != NULL)
61	delete[] params;
62
63	// delete the options structure
64	if (options != NULL)
65	delete[] options;
66
67	if (optionalParams != NULL)
68	DEL_PTR(optionalParams);
69	}
70
71	bool
72	Environment::CheckForSwitch(const int argc,
73	char **argv,
74	const char swtch) const
75	{
76	for (int i = 1; i < argc; i++)
77	if ((argv[i][0] == '-') && (argv[i][1] == swtch))
78	return true;
79	return false;
80	}
81
82	bool
83	Environment::CheckType(const char *value,
84	const EOptType type) const
85	{
86	char s, t, *u;
87
88	switch (type) {
89	case optInt: {
90	strtol(value, &t, 10);
91	if (value + strlen(value) != t)
92	return false;
93	else
94	return true;
95	}
96	case optFloat: {
97	strtod(value, &t);
98	if (value + strlen(value) != t)
99	return false;
100	else
101	return true;
102	}
103	case optBool: {
104	if (!strcasecmp(value, "true") \|\|
105	!strcasecmp(value, "false") \|\|
106	!strcasecmp(value, "YES") \|\|
107	!strcasecmp(value, "NO") \|\|
108	!strcmp(value, "+") \|\|
109	!strcmp(value, "-") \|\|
110	!strcasecmp(value, "ON") \|\|
111	!strcasecmp(value, "OFF"))
112	return true;
113	return false;
114	}
115	case optVector:{
116	strtod(value, &s);
117	if (s == ' ' \|\| s == '\t') {
118	while (s == ' ' \|\| s == '\t')
119	s++;
120	if (*s != ',')
121	s--;
122	}
123	if ((s != ',' && s != ' ' && *s != '\t') \|\| value == s)
124	return false;
125	t = s;
126	strtod(s + 1, &u);
127	if (u == ' ' \|\| u == '\t') {
128	while (u == ' ' \|\| u == '\t')
129	u++;
130	if (*u != ',')
131	u--;
132	}
133	if ((u != ',' && s != ' ' && *s != '\t') \|\| t == u)
134	return false;
135	t = u;
136	strtod(u + 1, &s);
137	if (t == s \|\| value + strlen(value) != s)
138	return false;
139	return true;
140	}
141	case optString: {
142	return true;
143	}
144	default: {
145	Debug << "Internal error: Unknown type of option.\n" << flush;
146	exit(1);
147	}
148	}
149	return false;
150	}
151
152	void
153	Environment::ReadCmdlineParams(const int argc,
154	char **argv,
155	const char *optParams)
156	{
157	int i;
158
159	// Make sure we are called for the first time
160	if (optionalParams != NULL)
161	return;
162
163	numParams = (int)strlen(optParams) + 1;
164	optionalParams = new char[numParams];
165	strcpy(optionalParams, optParams);
166
167	// First, count all non-optional parameters on the command line
168	for (i = 1; i < argc; i++)
169	if (argv[i][0] != '-')
170	paramRows++;
171
172	// if there is no non-optional parameter add a default one...
173	if (paramRows == 0)
174	paramRows = 1;
175
176	// allocate and initialize the table for parameters
177	params = new char **[numParams];
178	for (i = 0; i < numParams; i++) {
179	params[i] = new char *[paramRows];
180	for (int j = 0; j < paramRows; j++)
181	params[i][j] = NULL;
182	}
183	// Now read all non-optional and optional parameters into the table
184	curRow = -1;
185	for (i = 1; i < argc; i++) {
186	if (argv[i][0] != '-') {
187	// non-optional parameter encountered
188	curRow++;
189	params[0][curRow] = new char[strlen(argv[i]) + 1];
190	strcpy(params[0][curRow], argv[i]);
191	}
192	else {
193	// option encountered
194	char *t = strchr(optionalParams, argv[i][1]);
195	if (t != NULL) {
196	// this option is optional parameter
197	int index = t - optionalParams + 1;
198	if (curRow < 0) {
199	// it's a global parameter
200	for (int j = 0; j < paramRows; j++) {
201	params[index][j] = new char[strlen(argv[i] + 2) + 1];
202	strcpy(params[index][j], argv[i] + 2);
203	}
204	}
205	else {
206	// it's a scene parameter
207	if (params[index][curRow] != NULL) {
208	delete[] params[index][curRow];
209	}
210	params[index][curRow] = new char[strlen(argv[i] + 2) + 1];
211	strcpy(params[index][curRow], argv[i] + 2);
212	}
213	}
214	}
215	}
216	curRow = 0;
217
218	#ifdef _DEBUG_PARAMS
219	// write out the parameter table
220	cerr << "Parameter table for " << numParams << " columns and "
221	<< paramRows << " rows:\n";
222	for (int j = 0; j < paramRows; j++) {
223	for (i = 0; i < numParams; i++) {
224	if (params[i][j] != NULL)
225	cerr << params[i][j];
226	else
227	cerr << "NULL";
228	cerr << "\t";
229	}
230	cerr << "\n";
231	}
232	cerr << "Params done.\n" << flush;
233	#endif // _DEBUG_PARAMS
234	}
235
236	bool
237	Environment::GetParam(const char name,
238	const int index,
239	char *value) const
240	{
241	int column;
242
243	if (index >= paramRows \|\| index < 0)
244	return false;
245	if (name == ' ')
246	column = 0;
247	else {
248	char *t = strchr(optionalParams, name);
249
250	if (t == NULL)
251	return false;
252	column = t - optionalParams + 1;
253	}
254
255	if (params[column][index] == NULL)
256	return false;
257	// value = new char[strlen(params[column][index]) + 1];
258	strcpy(value, params[column][index]);
259	return true;
260	}
261
262	void
263	Environment::RegisterOption(const char *name,
264	const EOptType type,
265	const char *abbrev,
266	const char *defValue)
267	{
268	int i;
269
270	// make sure this option was not yet registered
271	for (i = 0; i < numOptions; i++)
272	if (!strcmp(name, options[i].name)) {
273	Debug << "Error: Option " << name << " registered twice.\n";
274	exit(1);
275	}
276	// make sure we have enough room in memory
277	if (numOptions >= maxOptions) {
278	Debug << "Error: Too many options. Try enlarge the maxOptions "
279	<< "definition.\n";
280	exit(1);
281	}
282
283	// make sure the abbreviation doesn't start with 'D'
284	if (abbrev != NULL && (abbrev[0] == 'D' )) {
285	Debug << "Internal error: reserved switch " << abbrev
286	<< " used as an abbreviation.\n";
287	exit(1);
288	}
289	// new option
290	options[numOptions].type = type;
291	options[numOptions].name = ::strdup(name);
292	// assign abbreviation, if requested
293	if (abbrev != NULL) {
294	options[numOptions].abbrev = ::strdup(abbrev);
295	}
296	// assign default value, if requested
297	if (defValue != NULL) {
298	options[numOptions].defaultValue = ::strdup(defValue);
299	if (!CheckType(defValue, type)) {
300	Debug << "Internal error: Inconsistent type and default value in option "
301	<< name << ".\n";
302	exit(1);
303	}
304	}
305	// new option registered
306	numOptions++;
307	}
308
309	bool
310	Environment::OptionPresent(const char *name) const
311	{
312	bool found = false;
313	int i;
314
315	for (i = 0; i < numOptions; i++)
316	if (!strcmp(options[i].name, name)) {
317	found = true;
318	break;
319	}
320	if (!found) {
321	Debug << "Internal error: Option " << name << " not registered.\n" << flush;
322	exit(1);
323	}
324	if (options[i].value != NULL \|\| options[i].defaultValue != NULL)
325	return true;
326	else
327	return false;
328	}
329
330	int
331	Environment::FindOption(const char *name, const bool isFatal) const
332	{
333	int i;
334	bool found = false;
335	// is this option registered ?
336	for (i = 0; i < numOptions; i++)
337	if (!strcmp(options[i].name, name)) {
338	found = true;
339	break;
340	}
341	if (!found) {
342	// no registration found
343	Debug << "Internal error: Required option " << name
344	<< " not registered.\n" << flush;
345	exit(1);
346	}
347	if (options[i].value == NULL && options[i].defaultValue == NULL)
348	// this option was not initialised to some value
349	if (isFatal) {
350	Debug << "Error: Required option " << name << " not found.\n" << flush;
351	exit(1);
352	}
353	else {
354	Debug << "Error: Required option " << name << " not found.\n" << flush;
355	return -1;
356	}
357	return i;
358	}
359
360	bool
361	Environment::GetIntValue(const char *name,
362	int &value,
363	const bool isFatal) const
364	{
365	int i = FindOption(name, isFatal);
366
367	if (i<0)
368	return false;
369
370	if (options[i].value != NULL) {
371	// option was explicitly specified
372	value = strtol(options[i].value, NULL, 10);
373	} else {
374	// option was not read, so use the default
375	value = strtol(options[i].defaultValue, NULL, 10);
376	}
377
378	return true;
379	}
380
381	bool
382	Environment::GetDoubleValue(const char *name,
383	double &value,
384	const bool isFatal) const
385	{
386	int i = FindOption(name, isFatal);
387
388	if (i<0)
389	return false;
390
391	if (options[i].value != NULL) {
392	// option was explicitly specified
393	value = strtod(options[i].value, NULL);
394	} else {
395	// option was not read, so use the default
396	value = strtod(options[i].defaultValue, NULL);
397	}
398	return true;
399	}
400
401	bool
402	Environment::GetRealValue(const char *name,
403	Real &value,
404	const bool isFatal) const
405	{
406	int i = FindOption(name, isFatal);
407
408	if (i<0)
409	return false;
410
411	if (options[i].value != NULL) {
412	// option was explicitly specified
413	value = (Real)strtod(options[i].value, NULL);
414	} else {
415	// option was not read, so use the default
416	value = (Real)strtod(options[i].defaultValue, NULL);
417	}
418	return true;
419	}
420
421	bool
422	Environment::GetFloatValue(const char *name,
423	float &value,
424	const bool isFatal) const
425	{
426	int i = FindOption(name, isFatal);
427
428	if (i<0)
429	return false;
430
431	if (options[i].value != NULL) {
432	// option was explicitly specified
433	value = (float)strtod(options[i].value, NULL);
434	} else {
435	// option was not read, so use the default
436	value = (float)strtod(options[i].defaultValue, NULL);
437	}
438	return true;
439	}
440
441	bool
442	Environment::GetBool(const char *name,
443	const bool isFatal) const
444	{
445	bool ret;
446	if (GetBoolValue(name, ret, isFatal))
447	return ret;
448	else
449	return false;
450	}
451
452	bool
453	Environment::ParseBool(const char *name) const
454	{
455
456	bool value = true;
457
458	if (!strcasecmp(name, "false") \|\|
459	!strcasecmp(name, "NO") \|\|
460	!strcmp(name, "-") \|\|
461	!strcasecmp(name, "OFF"))
462	value = false;
463
464	return value;
465	}
466
467	void
468	Environment::ParseVector(const char *name, Vector3 &v) const
469	{
470	// option was not read, so use the default
471	char s, t;
472
473	v.x = (Real)strtod(name, &s);
474	v.y = (Real)strtod(s + 1, &t);
475	v.z = (Real)strtod(t + 1, NULL);
476
477	}
478
479	bool
480	Environment::GetBoolValue(const char *name,
481	bool &value,
482	const bool isFatal) const
483	{
484	int i = FindOption(name, isFatal);
485
486	if (i<0)
487	return false;
488
489
490	if (options[i].value != NULL)
491	value = ParseBool(options[i].value);
492	else
493	value = ParseBool(options[i].defaultValue);
494
495	return true;
496	}
497
498	bool
499	Environment::GetVectorValue(const char *name,
500	Vector3 &v,
501	const bool isFatal) const
502	{
503	int i = FindOption(name, isFatal);
504	if (i<0)
505	return false;
506
507	if (options[i].value != NULL)
508
509
510	if (options[i].value != NULL) {
511	ParseVector(options[i].value, v);
512	}
513	else {
514	ParseVector(options[i].defaultValue, v);
515	}
516	return true;
517	}
518
519	bool
520	Environment::GetStringValue(const char *name,
521	char *value,
522	const bool isFatal) const
523	{
524	int i = FindOption(name, isFatal);
525
526	if (i<0)
527	return false;
528
529
530	if (options[i].value != NULL) {
531	// option was not read, so use the default
532	strcpy(value, options[i].value);
533	}
534	else {
535	// option was explicitly specified
536	strcpy(value, options[i].defaultValue);
537	}
538	return true;
539	}
540
541	void
542	Environment::SetInt(const char *name, const int value)
543	{
544
545	int i = FindOption(name);
546	if (i<0)
547	return;
548
549	if (options[i].type == optInt) {
550	delete options[i].value;
551	options[i].value = new char[16];
552	sprintf(options[i].value, "%.15d", value);
553	}
554	else {
555	Debug << "Internal error: Trying to set non-integer option " << name
556	<< " to integral value.\n" << flush;
557	exit(1);
558	}
559	}
560
561	void
562	Environment::SetFloat(const char *name, const Real value)
563	{
564	int i = FindOption(name);
565	if (i<0)
566	return;
567
568	if (options[i].type == optFloat) {
569	delete options[i].value;
570	options[i].value = new char[25];
571	sprintf(options[i].value, "%.15e", value);
572	}
573	else {
574	Debug << "Internal error: Trying to set non-Real option " << name
575	<< " to Real value.\n" << flush;
576	exit(1);
577	}
578	}
579
580	void
581	Environment::SetBool(const char *name, const bool value)
582	{
583	int i = FindOption(name);
584	if (i<0)
585	return;
586
587	if (options[i].type == optBool) {
588	delete options[i].value;
589	options[i].value = new char[6];
590	if (value)
591	sprintf(options[i].value, "true");
592	else
593	sprintf(options[i].value, "false");
594	}
595	else {
596	Debug << "Internal error: Trying to set non-bool option " << name
597	<< " to boolean value.\n" << flush;
598	exit(1);
599	}
600	}
601
602	void
603	Environment::SetVector(const char *name,
604	const Vector3 &v)
605	{
606	int i = FindOption(name);
607	if (i<0)
608	return;
609
610	if (options[i].type == optVector) {
611	delete options[i].value;
612	options[i].value = new char[128];
613	sprintf(options[i].value, "%.15e,%.15e,%.15e", v.x, v.y, v.z);
614	}
615	else {
616	Debug << "Internal error: Trying to set non-vector option " << name
617	<< " to vector value.\n" << flush;
618	exit(1);
619	}
620	}
621
622	void
623	Environment::SetString(const char name, const char value)
624	{
625	int i = FindOption(name);
626	if (i<0)
627	return;
628
629	if (options[i].type == optString) {
630	delete options[i].value;
631	options[i].value = ::strdup(value);
632	}
633	else {
634	Debug << "Internal error: Trying to set non-string option " << name
635	<< " to string value.\n" << flush;
636	exit(1);
637	}
638	}
639
640	void
641	Environment::ParseCmdline(const int argc,
642	char **argv,
643	const int index)
644	{
645	int curIndex = -1;
646
647	for (int i = 1; i < argc; i++) {
648	// if this parameter is non-optional, skip it and increment the counter
649	if (argv[i][0] != '-') {
650	curIndex++;
651	continue;
652	}
653	// make sure to skip all non-optional parameters
654	char *t = strchr(optionalParams, argv[i][1]);
655	if (t != NULL)
656	continue;
657
658	// if we are in the scope of the current parameter, parse it
659	if (curIndex == -1 \|\| curIndex == index) {
660	if (argv[i][1] == 'D') {
661	// it's a full name definition
662	bool found = false;
663	int j;
664
665	char *t = strchr(argv[i] + 2, '=');
666	if (t == NULL) {
667	Debug << "Error: Missing '=' in option. "
668	<< "Syntax is -D<name>=<value>.\n" << flush;
669	exit(1);
670	}
671	for (j = 0; j < numOptions; j++)
672	if (!strncmp(options[j].name, argv[i] + 2, t - argv[i] - 2) &&
673	(unsigned)(t - argv[i] - 2) == strlen(options[j].name)) {
674	found = true;
675	break;
676	}
677	if (!found) {
678	Debug << "Warning: Unregistered option " << argv[i] << ".\n" << flush;
679	// exit(1);
680	}
681	if (found) {
682	if (!CheckType(t + 1, options[j].type)) {
683	Debug << "Error: invalid type of value " << t + 1 << " in option "
684	<< options[j].name << ".\n";
685	exit(1);
686	}
687	if (options[j].value != NULL)
688	delete options[j].value;
689	options[j].value = strdup(t + 1);
690	}
691	}
692	else {
693	// it's an abbreviation
694	bool found = false;
695	int j;
696
697	for (j = 0; j < numOptions; j++)
698	if (options[j].abbrev != NULL &&
699	!strncmp(options[j].abbrev, argv[i] + 1, strlen(options[j].abbrev))) {
700	found = true;
701	break;
702	}
703	if (!found) {
704	Debug << "Warning: Unregistered option " << argv[i] << ".\n" << flush;
705	// exit(1);
706	}
707	if (found) {
708	if (!CheckType(argv[i] + 1 + strlen(options[j].abbrev), options[j].type)) {
709	Debug << "Error: invalid type of value "
710	<< argv[i] + 1 + strlen(options[j].abbrev) << "in option "
711	<< options[j].name << ".\n";
712	exit(1);
713	}
714	if (options[j].value != NULL)
715	delete options[j].value;
716	options[j].value = strdup(argv[i] + 1 + strlen(options[j].abbrev));
717	}
718	}
719	}
720	}
721	#ifdef _DEBUG_PARAMS
722	// write out the options table
723	cerr << "Options table for " << numOptions << " options:\n";
724	for (int j = 0; j < numOptions; j++) {
725	cerr << options[j];
726	cerr << "\n";
727	}
728	cerr << "Options done.\n" << flush;
729	#endif // _DEBUG_PARAMS
730	}
731
732
733	char *
734	Environment::ParseString(char buffer, char string) const
735	{
736	char *s = buffer;
737	char *t = string + strlen(string);
738
739	// skip leading whitespaces
740	while (s == ' ' \|\| s == '\t')
741	s++;
742	if (*s == '\0')
743	return NULL;
744	while ((s >= 'a' && s <= 'z') \|\|
745	(s >= 'A' && s <= 'Z') \|\|
746	(s >= '0' && s <= '9') \|\|
747	*s == '_')
748	t++ = s++;
749	*t = '\0';
750	// skip trailing whitespaces
751	while (s == ' ' \|\| s == '\t')
752	s++;
753	return s;
754	}
755
756	const char code[] = "JIDHipewhfdhyd74387hHO&{WK:DOKQEIDKJPQH#@USX:#FWCQEJMQAHPQP(@G#RD";
757
758	void
759	Environment::DecodeString(char *buff, int max)
760	{
761	buff[max] = 0;
762	char *p = buff;
763	const char *cp = code;
764	for (; *p; p++) {
765	if (*p != '\n')
766	p = p ^ *cp;
767	++cp;
768	if (*cp == 0)
769	cp = code;
770	}
771	}
772
773	void
774	Environment::CodeString(char *buff, int max)
775	{
776	buff[max] = 0;
777	char *p = buff;
778	const char *cp = code;
779	for (; *p; p++) {
780	if (*p != '\n')
781	p = p ^ *cp;
782	++cp;
783	if (*cp == 0)
784	cp = code;
785	}
786	}
787
788	void
789	Environment::SaveCodedFile(char *filenameText,
790	char *filenameCoded)
791	{
792	ifstream envStream(filenameText);
793
794	// some error had occured
795	if (envStream.fail()) {
796	cerr << "Error: Can't open file " << filenameText << " for reading (err. "
797	<< envStream.rdstate() << ").\n";
798	return;
799	}
800
801	char buff[256];
802	envStream.getline(buff, 255);
803	buff[8] = 0;
804	if (strcmp(buff, "CGX_CF10") == 0)
805	return;
806
807	ofstream cStream(filenameCoded);
808	cStream<<"CGX_CF10";
809
810	// main loop
811	for (;;) {
812	// read in one line
813	envStream.getline(buff, 255);
814	if (!envStream)
815	break;
816	CodeString(buff, 255);
817	cStream<<buff;
818	}
819
820	}
821
822	bool
823	Environment::ReadEnvFile(const char *envFilename)
824	{
825	char buff[MaxStringLength], name[MaxStringLength];
826	char s, t;
827	int i, line = 0;
828	bool found;
829	igzstream envStream(envFilename);
830
831	// some error had occured
832	if (envStream.fail()) {
833	cerr << "Error: Can't open file " << envFilename << " for reading (err. "
834	<< envStream.rdstate() << ").\n";
835	return false;
836	}
837
838	name[0] = '\0';
839
840	// bool coded;
841	// envStream.getline(buff, 255);
842	// buff[8] = 0;
843	// if (strcmp(buff, "CGX_CF10") == 0)
844	// coded = true;
845	// else {
846	// coded = false;
847	// envStream.Rewind();
848	// }
849
850	// main loop
851	for (;;) {
852	// read in one line
853	envStream.getline(buff, MaxStringLength-1);
854
855	if (!envStream)
856	break;
857
858	// if (coded)
859	// DecodeString(buff, 255);
860
861	line++;
862	// get rid of comments
863	s = strchr(buff, '#');
864	if (s != NULL)
865	*s = '\0';
866
867	// get one identifier
868	s = ParseString(buff, name);
869	// parse line
870	while (s != NULL) {
871	// it's a group name - make the full name
872	if (*s == '{') {
873	strcat(name, ".");
874	s++;
875	s = ParseString(s, name);
876	continue;
877	}
878	// end of group
879	if (*s == '}') {
880	if (strlen(name) == 0) {
881	cerr << "Error: unpaired } in " << envFilename << " (line "
882	<< line << ").\n";
883	envStream.close();
884	return false;
885	}
886	name[strlen(name) - 1] = '\0';
887	t = strrchr(name, '.');
888	if (t == NULL)
889	name[0] = '\0';
890	else
891	*(t + 1) = '\0';
892	s++;
893	s = ParseString(s, name);
894	continue;
895	}
896	// find variable name in the table
897	found = false;
898	for (i = 0; i < numOptions; i++)
899	if (!strcmp(name, options[i].name)) {
900	found = true;
901	break;
902	}
903	if (!found) {
904	cerr << "Warning: unknown option " << name << " in environment file "
905	<< envFilename << " (line " << line << ").\n";
906	} else
907	switch (options[i].type) {
908	case optInt: {
909	strtol(s, &t, 10);
910	if (t == s \|\| (t != ' ' && t != '\t' &&
911	t != '\0' && t != '}')) {
912	cerr << "Error: Mismatch in int variable " << name << " in "
913	<< "environment file " << envFilename << " (line "
914	<< line << ").\n";
915	envStream.close();
916	return false;
917	}
918	if (options[i].value != NULL)
919	delete options[i].value;
920	options[i].value = new char[t - s + 1];
921	strncpy(options[i].value, s, t - s);
922	options[i].value[t - s] = '\0';
923	s = t;
924	break;
925	}
926	case optFloat: {
927	strtod(s, &t);
928	if (t == s \|\| (t != ' ' && t != '\t' &&
929	t != '\0' && t != '}')) {
930	cerr << "Error: Mismatch in Real variable " << name << " in "
931	<< "environment file " << envFilename << " (line "
932	<< line << ").\n";
933	envStream.close();
934	return false;
935	}
936	if (options[i].value != NULL)
937	delete options[i].value;
938	options[i].value = new char[t - s + 1];
939	strncpy(options[i].value, s, t - s);
940	options[i].value[t - s] = '\0';
941	s = t;
942	break;
943	}
944	case optBool: {
945	t = s;
946	while ((t >= 'a' && t <= 'z') \|\|
947	(t >= 'A' && t <= 'Z') \|\|
948	t == '+' \|\| t == '-')
949	t++;
950	if (((!strncasecmp(s, "true", t - s) && t - s == 4) \|\|
951	(!strncasecmp(s, "false", t - s) && t - s == 5) \|\|
952	(!strncasecmp(s, "YES", t -s) && t - s == 3) \|\|
953	(!strncasecmp(s, "NO", t - s) && t - s == 2) \|\|
954	(!strncasecmp(s, "ON", t - s) && t - s == 2) \|\|
955	(!strncasecmp(s, "OFF", t - s) && t - s == 3) \|\|
956	(t - s == 1 && (s == '+' \|\| s == '-'))) &&
957	(t == ' ' \|\| t == '\t' \|\| t == '\0' \|\| t == '}')) {
958	if (options[i].value != NULL)
959	delete options[i].value;
960	options[i].value = new char[t - s + 1];
961	strncpy(options[i].value, s, t - s);
962	options[i].value[t - s] = '\0';
963	s = t;
964	}
965	else {
966	cerr << "Error: Mismatch in bool variable " << name << " in "
967	<< "environment file " << envFilename << " (line "
968	<< line << ").\n";
969	envStream.close();
970	return false;
971	}
972	break;
973	}
974	case optVector:{
975	strtod(s, &t);
976	if (t == ' ' \|\| t == '\t') {
977	while (t == ' ' \|\| t == '\t')
978	t++;
979	if (*t != ',')
980	t--;
981	}
982	if (t == s \|\| (t != ' ' && t != '\t' && *t != ',')) {
983	cerr << "Error: Mismatch in vector variable " << name << " in "
984	<< "environment file " << envFilename << " (line "
985	<< line << ").\n";
986	envStream.close();
987	return false;
988	}
989	char *u;
990	strtod(t, &u);
991	t = u;
992	if (t == ' ' \|\| t == '\t') {
993	while (t == ' ' \|\| t == '\t')
994	t++;
995	if (*t != ',')
996	t--;
997	}
998	if (t == s \|\| (t != ' ' && t != '\t' && *t != ',')) {
999	cerr << "Error: Mismatch in vector variable " << name << " in "
1000	<< "environment file " << envFilename << " (line "
1001	<< line << ").\n";
1002	envStream.close();
1003	return false;
1004	}
1005	strtod(t, &u);
1006	t = u;
1007	if (t == s \|\| (t != ' ' && t != '\t' &&
1008	t != '\0' && t != '}')) {
1009	cerr << "Error: Mismatch in vector variable " << name << " in "
1010	<< "environment file " << envFilename << " (line "
1011	<< line << ").\n";
1012	envStream.close();
1013	return false;
1014	}
1015	if (options[i].value != NULL)
1016	delete options[i].value;
1017	options[i].value = new char[t - s + 1];
1018	strncpy(options[i].value, s, t - s);
1019	options[i].value[t - s] = '\0';
1020	s = t;
1021	break;
1022	}
1023	case optString: {
1024	if (options[i].value != NULL)
1025	delete options[i].value;
1026	options[i].value = new char[strlen(s) + 1];
1027	strcpy(options[i].value, s);
1028	s += strlen(s);
1029	break;
1030	}
1031	default: {
1032	Debug << "Internal error: Unknown type of option.\n" << flush;
1033	exit(1);
1034	}
1035	}
1036	// prepare the variable name for next pass
1037	t = strrchr(name, '.');
1038	if (t == NULL)
1039	name[0] = '\0';
1040	else
1041	*(t + 1) = '\0';
1042	// get next identifier
1043	s = ParseString(s, name);
1044	}
1045	}
1046	envStream.close();
1047	return true;
1048	}
1049
1050	void
1051	Environment::PrintUsage(ostream &s) const
1052	{
1053	// Print out all environment variable names
1054	s << "Registered options:\n";
1055	for (int j = 0; j < numOptions; j++)
1056	s << options[j] << "\n";
1057	s << flush;
1058	}
1059
1060	/**
1061	Input scene filename. Currently simplified X3D (.x3d), Unigraphics (.dat),
1062	and UNC (.ply) formats are supported.
1063	*/
1064
1065	Environment::Environment()
1066	{
1067	optionalParams = NULL;
1068	paramRows = 0;
1069	numParams = 0;
1070	params = NULL;
1071	maxOptions = 500;
1072
1073
1074	// this is maximal nuber of options.
1075	numOptions = 0;
1076
1077	options = new COption[maxOptions];
1078
1079	if (options == NULL ) {
1080	Debug << "Error: Memory allocation failed.\n";
1081	exit(1);
1082	}
1083
1084	// register all basic options
1085
1086	RegisterOption("Limits.threshold", optFloat, NULL, "0.01");
1087	RegisterOption("Limits.small", optFloat, NULL, "1e-6");
1088	RegisterOption("Limits.infinity", optFloat, NULL, "1e6");
1089
1090	RegisterOption("Scene.filename",
1091	optString,
1092	"scene_filename=",
1093	"atlanta2.x3d");
1094
1095	RegisterOption("Unigraphics.meshGrouping",
1096	optInt,
1097	"unigraphics_mesh_grouping=",
1098	"0");
1099
1100	RegisterOption("ObjParser.meshGrouping",
1101	optInt,
1102	"objparser_mesh_grouping=",
1103	"0");
1104
1105	RegisterOption("KdTree.Termination.minCost",
1106	optInt,
1107	"kd_term_min_cost=",
1108	"10");
1109
1110	RegisterOption("KdTree.Termination.maxNodes",
1111	optInt,
1112	"kd_term_max_nodes=",
1113	"200000");
1114
1115	RegisterOption("KdTree.Termination.maxDepth",
1116	optInt,
1117	"kd_term_max_depth=",
1118	"20");
1119
1120	RegisterOption("KdTree.Termination.maxCostRatio",
1121	optFloat,
1122	"kd_term_max_cost_ratio=",
1123	"1.5");
1124
1125	RegisterOption("KdTree.Termination.ct_div_ci",
1126	optFloat,
1127	"kd_term_ct_div_ci=",
1128	"1.0");
1129
1130	RegisterOption("KdTree.splitMethod",
1131	optString,
1132	"kd_split_method=",
1133	"spatialMedian");
1134
1135	RegisterOption("KdTree.splitBorder",
1136	optFloat,
1137	"kd_split_border=",
1138	"0.1");
1139
1140	RegisterOption("KdTree.sahUseFaces",
1141	optBool,
1142	"kd_sah_use_faces=",
1143	"true");
1144
1145	RegisterOption("MeshKdTree.Termination.minCost",
1146	optInt,
1147	"kd_term_min_cost=",
1148	"10");
1149
1150	RegisterOption("MeshKdTree.Termination.maxDepth",
1151	optInt,
1152	"kd_term_max_depth=",
1153	"20");
1154
1155	RegisterOption("MeshKdTree.Termination.maxCostRatio",
1156	optFloat,
1157	"kd_term_max_cost_ratio=",
1158	"1.5");
1159
1160	RegisterOption("MeshKdTree.Termination.ct_div_ci",
1161	optFloat,
1162	"kd_term_ct_div_ci=",
1163	"1.0");
1164
1165	RegisterOption("MeshKdTree.splitMethod",
1166	optString,
1167	"kd_split_method=",
1168	"spatialMedian");
1169
1170	RegisterOption("MeshKdTree.splitBorder",
1171	optFloat,
1172	"kd_split_border=",
1173	"0.1");
1174
1175	RegisterOption("Preprocessor.totalSamples",
1176	optInt,
1177	"total_samples=",
1178	"10000000");
1179
1180	RegisterOption("Preprocessor.samplesPerPass",
1181	optInt,
1182	"samples_per_pass=",
1183	"100000");
1184
1185	RegisterOption("Preprocessor.samplesPerEvaluation",
1186	optInt,
1187	"samples_per_evaluation=",
1188	"1000000");
1189
1190	RegisterOption("Preprocessor.useHwGlobalLines",
1191	optBool,
1192	"preprocessor_use_hw_global_lines=",
1193	"false");
1194
1195	RegisterOption("Preprocessor.HwGlobalLines.texHeight",
1196	optInt,
1197	"preprocessor_hw_global_lines_texheight=",
1198	"128");
1199
1200	RegisterOption("Preprocessor.HwGlobalLines.texWidth",
1201	optInt,
1202	"preprocessor_hw_global_lines_texwidth=",
1203	"128");
1204
1205	RegisterOption("Preprocessor.HwGlobalLines.stepSize",
1206	optFloat,
1207	"preprocessor_hw_global_lines_stepsize=",
1208	"0.0001");
1209
1210	RegisterOption("Preprocessor.HwGlobalLines.maxDepth",
1211	optInt,
1212	"preprocessor_hw_global_lines_max_depth=",
1213	"50");
1214
1215	RegisterOption("Preprocessor.HwGlobalLines.sampleReverse",
1216	optBool,
1217	"preprocessor_hw_global_lines_sample_reverse=",
1218	"true");
1219
1220	RegisterOption("RenderSampler.samples",
1221	optInt,
1222	"render_sampler_samples=",
1223	"1000");
1224
1225	RegisterOption("RenderSampler.visibleThreshold",
1226	optInt,
1227	"render_sampler_visible_threshold=",
1228	"0");
1229
1230	RegisterOption("RenderSampler.useOcclusionQueries",
1231	optBool,
1232	"render_sampler_use_occlusion_queries=",
1233	"true");
1234
1235	// RegisterOption("VssPreprocessor.initialSamples",
1236	// optInt,
1237	// "vss_initial_samples=",
1238	// "100000");
1239
1240	RegisterOption("VssPreprocessor.testBeamSampling",
1241	optBool,
1242	"vss_beam_sampling=",
1243	"false");
1244
1245	// RegisterOption("VssPreprocessor.vssSamples",
1246	// optInt,
1247	// "vss_samples=",
1248	// "1000000");
1249
1250	// RegisterOption("VssPreprocessor.vssSamplesPerPass",
1251	// optInt,
1252	// "vss_samples_per_pass=",
1253	// "1000");
1254
1255	// RegisterOption("VssPreprocessor.samplesPerPass",
1256	// optInt,
1257	// "vss_samples_per_pass=",
1258	// "100000");
1259
1260	RegisterOption("VssPreprocessor.useImportanceSampling",
1261	optBool,
1262	"vss_use_importance=",
1263	"true");
1264
1265
1266	RegisterOption("VssPreprocessor.enlargeViewSpace",
1267	optBool,
1268	"vss_enlarge_viewspace=",
1269	"false");
1270
1271	RegisterOption("VssPreprocessor.loadInitialSamples",
1272	optBool,
1273	"vss_load_loadInitialSamples=",
1274	"false");
1275
1276	RegisterOption("VssPreprocessor.storeInitialSamples",
1277	optBool,
1278	"vss_store_storedInitialSamples=",
1279	"false");
1280
1281
1282
1283	/*************************************************************************/
1284	/* GvsPrerpocessor related options */
1285	/*************************************************************************/
1286
1287
1288	RegisterOption("GvsPreprocessor.totalSamples",
1289	optInt,
1290	"gvs_total_samples=",
1291	"1000000");
1292
1293	RegisterOption("GvsPreprocessor.samplesPerPass",
1294	optInt,
1295	"gvs_samples_per_pass=",
1296	"100000");
1297
1298	RegisterOption("GvsPreprocessor.initialSamples",
1299	optInt,
1300	"gvs_initial_samples=",
1301	"256");
1302
1303	RegisterOption("GvsPreprocessor.epsilon",
1304	optFloat,
1305	"gvs_epsilon=",
1306	"0.00001");
1307
1308	RegisterOption("GvsPreprocessor.threshold",
1309	optFloat,
1310	"gvs_threshold=",
1311	"1.5");
1312
1313	RegisterOption("GvsPreprocessor.perViewCell",
1314	optBool,
1315	"gvs_per_viewcell=",
1316	"false");
1317
1318	RegisterOption("GvsPreprocessor.stats",
1319	optString,
1320	"gvs_stats=",
1321	"gvsStats.log");
1322
1323	RegisterOption("GvsPreprocessor.minContribution",
1324	optInt,
1325	"gvs_min_contribution=",
1326	"50");
1327
1328	RegisterOption("GvsPreprocessor.maxViewCells",
1329	optInt,
1330	"gvs_max_viewcells=",
1331	"5");
1332
1333
1334	/**********************************************************************/
1335	/* View cells related options */
1336	/**********************************************************************/
1337
1338
1339	RegisterOption("ViewCells.type",
1340	optString,
1341	"view_cells_type=",
1342	"vspBspTree");
1343
1344	RegisterOption("ViewCells.samplingType",
1345	optString,
1346	"view_cells_sampling_type=",
1347	"box");
1348
1349	RegisterOption("ViewCells.mergeStats",
1350	optString,
1351	"view_cells_merge_stats=",
1352	"mergeStats.log");
1353
1354	RegisterOption("ViewCells.Evaluation.statsPrefix",
1355	optString,
1356	"view_cells_evaluation_stats_prefix=",
1357	"viewCells");
1358
1359	RegisterOption("ViewCells.Evaluation.histogram",
1360	optBool,
1361	"view_cells_evaluation_histogram=",
1362	"false");
1363
1364	RegisterOption("ViewCells.Evaluation.histoStepSize",
1365	optInt,
1366	"view_cells_evaluation_histo_step_size=",
1367	"5000");
1368
1369	RegisterOption("ViewCells.Evaluation.histoMem",
1370	optInt,
1371	"view_cells_evaluation_histo_mem=",
1372	"50");
1373
1374	RegisterOption("ViewCells.renderCostEvaluationType",
1375	optString,
1376	"view_cells_render_cost_evaluation=",
1377	"perobject");
1378
1379	RegisterOption("ViewCells.active",
1380	optInt,
1381	"view_cells_active=",
1382	"1000");
1383
1384	RegisterOption("ViewCells.Construction.samples",
1385	optInt,
1386	"view_cells_construction_samples=",
1387	"0");
1388
1389	RegisterOption("ViewCells.Construction.samplesPerPass",
1390	optInt,
1391	"view_cells_construction_samples_per_pass=",
1392	"500000");
1393
1394	RegisterOption("ViewCells.PostProcess.samples",
1395	optInt,
1396	"view_cells_post_process_samples=",
1397	"0");
1398
1399	RegisterOption("ViewCells.Visualization.samples",
1400	optInt,
1401	"view_cells_visualization_samples=",
1402	"0");
1403
1404	RegisterOption("ViewCells.Visualization.maxOutput",
1405	optInt,
1406	"view_cells_visualization_max_output=",
1407	"20");
1408
1409	RegisterOption("ViewCells.Filter.maxSize",
1410	optInt,
1411	"view_cells_filter_max_size=",
1412	"4");
1413
1414	RegisterOption("ViewCells.Filter.width",
1415	optFloat,
1416	"view_cells_filter_width=",
1417	"200.0");
1418
1419	RegisterOption("ViewCells.loadFromFile",
1420	optBool,
1421	"view_cells_load_from_file=",
1422	"false");
1423
1424	RegisterOption("ViewCells.PostProcess.refine",
1425	optBool,
1426	"view_cells_refine=",
1427	"false");
1428
1429	RegisterOption("ViewCells.PostProcess.compress",
1430	optBool,
1431	"view_cells_post_process_compress=",
1432	"false");
1433
1434	RegisterOption("ViewCells.Evaluation.samples",
1435	optInt,
1436	"view_cells_evaluation_samples=",
1437	"8000000");
1438
1439	RegisterOption("ViewCells.Evaluation.samplingType",
1440	optString,
1441	"view_cells_evaluation_sampling_type=",
1442	"box");
1443
1444	RegisterOption("ViewCells.Evaluation.samplesPerPass",
1445	optInt,
1446	"view_cells_evaluation_samples_per_pass=",
1447	"300000");
1448
1449	RegisterOption("ViewCells.Evaluation.samplesForStats",
1450	optInt,
1451	"view_cells_evaluation_samples_for_stats=",
1452	"300000");
1453
1454	RegisterOption("ViewCells.exportToFile",
1455	optBool,
1456	"view_cells_export_to_file=",
1457	"false");
1458
1459	RegisterOption("ViewCells.exportPvs",
1460	optBool,
1461	"view_cells_export_pvs=",
1462	"false");
1463
1464	RegisterOption("ViewCells.exportBboxesForPvs",
1465	optBool,
1466	"view_cells_export_bounding_boxes=",
1467	"true");
1468
1469	RegisterOption("ViewCells.boxesFilename",
1470	optString,
1471	"view_cells_boxes_filename=",
1472	"boxes.out");
1473
1474	RegisterOption("ViewCells.evaluateViewCells",
1475	optBool,
1476	"view_cells_evaluate=",
1477	"false");
1478
1479	RegisterOption("ViewCells.maxViewCells",
1480	optInt,
1481	"view_cells_max_view_cells=",
1482	"0");
1483
1484	RegisterOption("ViewCells.Evaluation.stepSize",
1485	optInt,
1486	"view_cells_evaluation_step_size=",
1487	"100");
1488
1489	RegisterOption("ViewCells.maxPvsRatio",
1490	optFloat,
1491	"view_cells_max_pvs_ratio=",
1492	"0.1");
1493
1494	RegisterOption("ViewCells.filename",
1495	optString,
1496	"view_cells_filename=",
1497	"atlanta_viewcells_large.x3d");
1498
1499	RegisterOption("ViewCells.height",
1500	optFloat,
1501	"view_cells_height=",
1502	"5.0");
1503
1504	RegisterOption("ViewCells.Visualization.colorCode",
1505	optString,
1506	"view_cells_visualization_color_code=",
1507	"PVS");
1508
1509	RegisterOption("ViewCells.Visualization.clipPlanePos",
1510	optFloat,
1511	"view_cells_visualization_clip_plane_pos=",
1512	"0.35");
1513
1514	RegisterOption("ViewCells.Visualization.exportGeometry",
1515	optBool,
1516	"view_cells_visualization_export_geometry=",
1517	"false");
1518
1519	RegisterOption("ViewCells.Visualization.exportRays",
1520	optBool,
1521	"view_cells_visualization_export_rays=",
1522	"false");
1523
1524	RegisterOption("ViewCells.processOnlyValidViewCells",
1525	optBool,
1526	"view_cells_process_only_valid_view_cells",
1527	"false");
1528
1529	RegisterOption("ViewCells.PostProcess.maxCostRatio",
1530	optFloat,
1531	"view_cells_post_process_max_cost_ratio=",
1532	"0.9");
1533
1534	RegisterOption("ViewCells.PostProcess.renderCostWeight",
1535	optFloat,
1536	"view_cells_post_process_render_cost_weight",
1537	"0.5");
1538
1539	RegisterOption("ViewCells.PostProcess.avgCostMaxDeviation",
1540	optFloat,
1541	"view_cells_avgcost_max_deviations",
1542	"0.5");
1543
1544	RegisterOption("ViewCells.PostProcess.maxMergesPerPass",
1545	optInt,
1546	"view_cells_post_process_max_merges_per_pass=",
1547	"500");
1548
1549	RegisterOption("ViewCells.PostProcess.minViewCells",
1550	optInt,
1551	"view_cells_post_process_min_view_cells=",
1552	"1000");
1553
1554	RegisterOption("ViewCells.PostProcess.useRaysForMerge",
1555	optBool,
1556	"view_cells_post_process_use_rays_for_merge=",
1557	"false");
1558
1559	RegisterOption("ViewCells.PostProcess.merge",
1560	optBool,
1561	"view_cells_post_process_merge=",
1562	"true");
1563
1564	RegisterOption("ViewCells.Visualization.exportMergedViewCells",
1565	optBool,
1566	"view_cells_viz_export_merged_viewcells=",
1567	"false");
1568
1569	RegisterOption("ViewCells.maxStaticMemory",
1570	optFloat,
1571	"view_cells_max_static_mem=",
1572	"8.0");
1573
1574	RegisterOption("ViewCells.Visualization.useClipPlane",
1575	optBool,
1576	"view_cells_viz_use_clip_plane=",
1577	"false");
1578
1579	RegisterOption("ViewCells.showVisualization",
1580	optBool,
1581	"view_cells_show_visualization=",
1582	"false");
1583
1584	RegisterOption("ViewCells.Visualization.clipPlaneAxis",
1585	optInt,
1586	"view_cells_viz_clip_plane_axis=",
1587	"0");
1588
1589	RegisterOption("ViewCells.loadGeometry",
1590	optBool,
1591	"view_cells_load_geometry=",
1592	"false");
1593
1594	RegisterOption("ViewCells.geometryFilename",
1595	optString,
1596	"view_cells_geometry_filename=",
1597	"viewCellsGeometry.x3d");
1598
1599	RegisterOption("ViewCells.useBaseTrianglesAsGeometry",
1600	optBool,
1601	"view_cells_use_base_triangles_as_geometry=",
1602	"false");
1603
1604	RegisterOption("ViewCells.compressObjects",
1605	optBool,
1606	"view_cells_compress_objects=",
1607	"false");
1608
1609
1610	RegisterOption("ViewCells.useKdPvs",
1611	optBool,
1612	"view_cells_use_kd_pvs",
1613	"false");
1614
1615
1616	RegisterOption("ViewCells.useKdPvsAfterFiltering",
1617	optBool,
1618	"af_use_kd_pvs",
1619	"false");
1620
1621
1622
1623	/****************************************************************************/
1624	/* Render simulation related options */
1625	/****************************************************************************/
1626
1627
1628	RegisterOption("Simulation.objRenderCost",
1629	optFloat,
1630	"simulation_obj_render_cost",
1631	"1.0");
1632
1633	RegisterOption("Simulation.vcOverhead",
1634	optFloat,
1635	"simulation_vc_overhead",
1636	"0.05");
1637
1638	RegisterOption("Simulation.moveSpeed",
1639	optFloat,
1640	"simulation_moveSpeed",
1641	"1.0");
1642
1643
1644
1645	/******************************************************************/
1646	/* Bsp tree related options */
1647	/******************************************************************/
1648
1649
1650	RegisterOption("BspTree.Construction.input",
1651	optString,
1652	"bsp_construction_input=",
1653	"fromViewCells");
1654
1655	RegisterOption("BspTree.subdivisionStats",
1656	optString,
1657	"bsp_subdivision_stats=",
1658	"bspSubdivisionStats.log");
1659
1660	RegisterOption("BspTree.Construction.samples",
1661	optInt,
1662	"bsp_construction_samples=",
1663	"100000");
1664
1665	RegisterOption("BspTree.Construction.epsilon",
1666	optFloat,
1667	"bsp_construction_epsilon=",
1668	"0.002");
1669
1670	RegisterOption("BspTree.Termination.minPolygons",
1671	optInt,
1672	"bsp_term_min_polygons=",
1673	"5");
1674
1675	RegisterOption("BspTree.Termination.minPvs",
1676	optInt,
1677	"bsp_term_min_pvs=",
1678	"20");
1679
1680	RegisterOption("BspTree.Termination.minProbability",
1681	optFloat,
1682	"bsp_term_min_probability=",
1683	"0.001");
1684
1685	RegisterOption("BspTree.Termination.maxRayContribution",
1686	optFloat,
1687	"bsp_term_ray_contribution=",
1688	"0.005");
1689
1690	RegisterOption("BspTree.Termination.minAccRayLenght",
1691	optFloat,
1692	"bsp_term_min_acc_ray_length=",
1693	"50");
1694
1695	RegisterOption("BspTree.Termination.minRays",
1696	optInt,
1697	"bsp_term_min_rays=",
1698	"-1");
1699
1700	RegisterOption("BspTree.Termination.ct_div_ci",
1701	optFloat,
1702	"bsp_term_ct_div_ci=",
1703	"0.0");
1704
1705	RegisterOption("BspTree.Termination.maxDepth",
1706	optInt,
1707	"bsp_term_max_depth=",
1708	"100");
1709
1710	RegisterOption("BspTree.Termination.maxCostRatio",
1711	optFloat,
1712	"bsp_term_axis_aligned_max_cost_ratio=",
1713	"1.5");
1714
1715	RegisterOption("BspTree.Termination.AxisAligned.ct_div_ci",
1716	optFloat,
1717	"bsp_term_axis_aligned_ct_div_ci=",
1718	"0.5");
1719
1720	RegisterOption("BspTree.AxisAligned.splitBorder",
1721	optFloat,
1722	"bsp__axis_aligned_split_border=",
1723	"0.1");
1724
1725	RegisterOption("BspTree.Termination.AxisAligned.minPolys",
1726	optInt,
1727	"bsp_term_axis_aligned_max_polygons=",
1728	"50");
1729
1730	RegisterOption("BspTree.Termination.AxisAligned.minObjects",
1731	optInt,
1732	"bsp_term_min_objects=",
1733	"3");
1734
1735	RegisterOption("BspTree.Termination.AxisAligned.minRays",
1736	optInt,
1737	"bsp_term_axis_aligned_min_rays=",
1738	"-1");
1739
1740	RegisterOption("BspTree.splitPlaneStrategy",
1741	optString,
1742	"bsp_split_method=",
1743	"leastSplits");
1744
1745	RegisterOption("BspTree.maxPolyCandidates",
1746	optInt,
1747	"bsp_max_poly_candidates=",
1748	"20");
1749
1750	RegisterOption("BspTree.maxRayCandidates",
1751	optInt,
1752	"bsp_max_plane_candidates=",
1753	"20");
1754
1755	RegisterOption("BspTree.maxTests",
1756	optInt,
1757	"bsp_max_tests=",
1758	"5000");
1759
1760	RegisterOption("BspTree.Termination.maxViewCells",
1761	optInt,
1762	"bsp_max_view_cells=",
1763	"5000");
1764
1765	RegisterOption("BspTree.Visualization.exportSplits",
1766	optBool,
1767	"bsp_visualization.export_splits=",
1768	"false");
1769
1770	RegisterOption("BspTree.Factor.verticalSplits", optFloat, "bsp_factor_vertical=", "1.0");
1771	RegisterOption("BspTree.Factor.largestPolyArea", optFloat, "bsp_factor_largest_poly=", "1.0");
1772	RegisterOption("BspTree.Factor.blockedRays", optFloat, "bsp_factor_blocked=", "1.0");
1773	RegisterOption("BspTree.Factor.leastSplits", optFloat, "bsp_factor_least_splits=", "1.0");
1774	RegisterOption("BspTree.Factor.balancedPolys", optFloat, "bsp_factor_balanced_polys=", "1.0");
1775	RegisterOption("BspTree.Factor.balancedViewCells", optFloat, "bsp_factor_balanced_view_cells=", "1.0");
1776	RegisterOption("BspTree.Factor.leastRaySplits", optFloat, "bsp_factor_least_ray_splits=", "1.0");
1777	RegisterOption("BspTree.Factor.balancedRays", optFloat, "bsp_factor_balanced_rays=", "1.0");
1778	RegisterOption("BspTree.Factor.pvs", optFloat, "bsp_factor_pvs=", "1.0");
1779
1780	/************************************************************************************/
1781	/* Preprocessor related options */
1782	/************************************************************************************/
1783
1784	RegisterOption("Preprocessor.type",
1785	optString,
1786	"preprocessor=",
1787	"sampling");
1788
1789	RegisterOption("Preprocessor.stats",
1790	optString,
1791	"preprocessor_stats=",
1792	"stats.log");
1793
1794	RegisterOption("Preprocessor.samplesFilename",
1795	optString,
1796	"preprocessor_samples_filename=",
1797	"rays.out");
1798
1799	RegisterOption("Preprocessor.loadMeshes",
1800	optBool,
1801	"preprocessor_load_meshes",
1802	"true");
1803
1804	RegisterOption("Preprocessor.evaluateFilter",
1805	optBool,
1806	"preprocessor_evaluate_filter",
1807	"false");
1808
1809	RegisterOption("Preprocessor.delayVisibilityComputation",
1810	optBool,
1811	"preprocessor_delay_computation",
1812	"true");
1813
1814	RegisterOption("Preprocessor.pvsRenderErrorSamples",
1815	optInt,
1816	"preprocessor_pvs_rendererror_samples=",
1817	"10000");
1818
1819	RegisterOption("Preprocessor.useGlRenderer",
1820	optBool,
1821	"preprocessor_use_gl_renderer",
1822	"false");
1823
1824	RegisterOption("Preprocessor.useGlDebugger",
1825	optBool,
1826	"preprocessor_use_gl_debugger",
1827	"false");
1828
1829	RegisterOption("Preprocessor.detectEmptyViewSpace",
1830	optBool,
1831	"preprocessor_detect_empty_viewspace",
1832	"false");
1833
1834	RegisterOption("Preprocessor.quitOnFinish",
1835	optBool,
1836	"preprocessor_quit_on_finish",
1837	"true");
1838
1839	RegisterOption("Preprocessor.computeVisibility",
1840	optBool,
1841	"preprocessor_compute_visibility",
1842	"true");
1843
1844	RegisterOption("Preprocessor.exportVisibility",
1845	optBool,
1846	"preprocessor_export_visibility",
1847	"true");
1848
1849	RegisterOption("Preprocessor.visibilityFile",
1850	optString,
1851	"preprocessor_visibility_file=",
1852	"visibility.xml");
1853
1854	RegisterOption("Preprocessor.applyVisibilityFilter",
1855	optBool,
1856	"preprocessor_apply_filter",
1857	"false");
1858
1859	RegisterOption("Preprocessor.applyVisibilitySpatialFilter",
1860	optBool,
1861	"preprocessor_apply_spatial_filter",
1862	"false");
1863
1864	RegisterOption("Preprocessor.visibilityFilterWidth",
1865	optFloat,
1866	"preprocessor_visibility_filter_width=",
1867	"0.02");
1868
1869	RegisterOption("Preprocessor.histogram.maxValue",
1870	optInt,
1871	"preprocessor_histogram_max_value=",
1872	"1000");
1873
1874	RegisterOption("Preprocessor.rayCastMethod",
1875	optInt,
1876	"preprocessor_ray_cast_method=",
1877	"0");
1878
1879	RegisterOption("Preprocessor.histogram.intervals",
1880	optInt,
1881	"preprocessor_histogram_intervals=",
1882	"20");
1883
1884	RegisterOption("Preprocessor.histogram.file",
1885	optString,
1886	"preprocessor_histogram_file=",
1887	"histogram.log");
1888
1889	RegisterOption("Preprocessor.exportKdTree",
1890	optBool,
1891	"preprocessor_export_kd_tree=",
1892	"false");
1893
1894	RegisterOption("Preprocessor.loadKdTree",
1895	optBool,
1896	"preprocessor_load_kd_tree=",
1897	"false");
1898
1899	RegisterOption("Preprocessor.kdTreeFilename",
1900	optString,
1901	"preprocessor_kd_tree_filename=",
1902	"vienna_kdtree.bin.gz");
1903
1904	RegisterOption("Preprocessor.exportObj",
1905	optBool,
1906	"preprocessor_export_obj=",
1907	"false");
1908
1909	RegisterOption("Preprocessor.useViewSpaceBox",
1910	optBool,
1911	"preprocessor_use_viewspace_box=",
1912	"false");
1913
1914	RegisterOption("Preprocessor.Export.rays", optBool, "export_rays", "false");
1915	RegisterOption("Preprocessor.Export.animation", optBool, "export_animation", "false");
1916	RegisterOption("Preprocessor.Export.numRays", optInt, "export_num_rays=", "5000");
1917
1918	/*************************************************************************/
1919	/* VSS Preprocessor cells related options */
1920	/*************************************************************************/
1921
1922	RegisterOption("VssTree.maxDepth", optInt, "kd_depth=", "12");
1923	RegisterOption("VssTree.minPvs", optInt, "kd_minpvs=", "1");
1924	RegisterOption("VssTree.minRays", optInt, "kd_minrays=", "10");
1925	RegisterOption("VssTree.maxCostRatio", optFloat, "maxcost=", "0.95");
1926	RegisterOption("VssTree.maxRayContribution", optFloat, "maxraycontrib=", "0.5");
1927
1928	RegisterOption("VssTree.epsilon", optFloat, "kd_eps=", "1e-6");
1929	RegisterOption("VssTree.ct_div_ci", optFloat, "kd_ctdivci=", "1.0");
1930	RegisterOption("VssTree.randomize", optBool, "randomize", "false");
1931	RegisterOption("VssTree.splitType", optString, "split=", "queries");
1932	RegisterOption("VssTree.splitUseOnlyDrivingAxis", optBool, "splitdriving=", "false");
1933	RegisterOption("VssTree.useRss", optBool, "rss=", "false");
1934	RegisterOption("VssTree.numberOfEndPointDomains", optInt, "endpoints=", "10000");
1935
1936	RegisterOption("VssTree.minSize", optFloat, "minsize=", "0.001");
1937
1938	RegisterOption("VssTree.maxTotalMemory", optFloat, "mem=", "60.0");
1939	RegisterOption("VssTree.maxStaticMemory", optFloat, "statmem=", "8.0");
1940
1941	RegisterOption("VssTree.queryType", optString, "qtype=", "static");
1942
1943
1944
1945	RegisterOption("VssTree.queryPosWeight", optFloat, "qposweight=", "0.0");
1946	RegisterOption("VssTree.useRefDirSplits", optBool, "refdir=", "false");
1947	RegisterOption("VssTree.refDirAngle", optFloat, "refangle=", "10");
1948	RegisterOption("VssTree.refDirBoxMaxSize", optFloat, "refboxsize=", "0.1");
1949	RegisterOption("VssTree.accessTimeThreshold", optInt, "accesstime=", "1000");
1950	RegisterOption("VssTree.minCollapseDepth", optInt, "colldepth=", "4");
1951
1952	RegisterOption("VssTree.interleaveDirSplits", optBool, "interleavedirsplits", "true");
1953	RegisterOption("VssTree.dirSplitDepth", optInt, "dirsplidepth=", "10");
1954
1955
1956	// RegisterOption("RssPreprocessor.initialSamples",
1957	// optInt,
1958	// "rss_initial_samples=",
1959	// "100000");
1960
1961	// RegisterOption("RssPreprocessor.vssSamples",
1962	// optInt,
1963	// "rss_vss_samples=",
1964	// "1000000");
1965
1966	// RegisterOption("RssPreprocessor.vssSamplesPerPass",
1967	// optInt,
1968	// "rss_vss_samples_per_pass=",
1969	// "1000");
1970
1971	// RegisterOption("RssPreprocessor.samplesPerPass",
1972	// optInt,
1973	// "rss_samples_per_pass=",
1974	// "100000");
1975
1976	RegisterOption("RssPreprocessor.useImportanceSampling",
1977	optBool,
1978	"rss_use_importance",
1979	"true");
1980
1981	RegisterOption("RssPreprocessor.useRssTree",
1982	optBool,
1983	"rss_use_rss_tree",
1984	"true");
1985
1986	RegisterOption("RssPreprocessor.objectBasedSampling",
1987	optBool,
1988	"rss_object_based_sampling",
1989	"true");
1990
1991	RegisterOption("RssPreprocessor.directionalSampling",
1992	optBool,
1993	"rss_directional_sampling",
1994	"false");
1995
1996	RegisterOption("RssPreprocessor.distributions",
1997	optString,
1998	"rss_distributions=",
1999	"rss+spatial+object");
2000
2001	RegisterOption("RssTree.hybridDepth", optInt, "hybrid_depth=", "10");
2002	RegisterOption("RssTree.maxDepth", optInt, "kd_depth=", "12");
2003	RegisterOption("RssTree.minPvs", optInt, "kd_minpvs=", "1");
2004	RegisterOption("RssTree.minRays", optInt, "kd_minrays=", "10");
2005	RegisterOption("RssTree.maxCostRatio", optFloat, "maxcost=", "0.95");
2006	RegisterOption("RssTree.maxRayContribution", optFloat, "maxraycontrib=", "0.5");
2007
2008	RegisterOption("RssTree.epsilon", optFloat, "kd_eps=", "1e-6");
2009	RegisterOption("RssTree.ct_div_ci", optFloat, "kd_ctdivci=", "1.0");
2010	RegisterOption("RssTree.randomize", optBool, "randomize=", "false");
2011	RegisterOption("RssTree.splitType", optString, "rss_split=", "queries");
2012	RegisterOption("RssTree.splitUseOnlyDrivingAxis", optBool, "splitdriving=", "false");
2013
2014	RegisterOption("RssTree.numberOfEndPointDomains", optInt, "endpoints=", "10000");
2015
2016	RegisterOption("RssTree.minSize", optFloat, "minsize=", "0.001");
2017
2018	RegisterOption("RssTree.maxTotalMemory", optFloat, "mem=", "60.0");
2019	RegisterOption("RssTree.maxStaticMemory", optFloat, "statmem=", "8.0");
2020
2021	RegisterOption("RssTree.queryType", optString, "qtype=", "static");
2022
2023	RegisterOption("RssTree.queryPosWeight", optFloat, "qposweight=", "0.0");
2024	RegisterOption("RssTree.useRefDirSplits", optBool, "refdir", "false");
2025	RegisterOption("RssTree.refDirAngle", optFloat, "refangle=", "10");
2026	RegisterOption("RssTree.refDirBoxMaxSize", optFloat, "refboxsize=", "0.1");
2027	RegisterOption("RssTree.accessTimeThreshold", optInt, "accesstime=", "1000");
2028	RegisterOption("RssTree.minCollapseDepth", optInt, "colldepth=", "4");
2029
2030	RegisterOption("RssTree.interleaveDirSplits", optBool, "interleavedirsplits=", "true");
2031	RegisterOption("RssTree.dirSplitDepth", optInt, "dirsplidepth=", "10");
2032	RegisterOption("RssTree.importanceBasedCost", optBool, "importance_based_cost=", "true");
2033	RegisterOption("RssTree.maxRays", optInt, "rss_max_rays=", "2000000");
2034
2035	RegisterOption("RssTree.perObjectTree", optBool, "rss_per_object_tree", "false");
2036
2037	RegisterOption("RssPreprocessor.Export.pvs", optBool, "rss_export_pvs=", "false");
2038	RegisterOption("RssPreprocessor.Export.rssTree", optBool, "rss_export_rss_tree=", "false");
2039
2040	RegisterOption("RssPreprocessor.useViewcells", optBool, "rss_use_viewcells=", "false");
2041	RegisterOption("RssPreprocessor.updateSubdivision",
2042	optBool,
2043	"rss_update_subdivision=",
2044	"false");
2045
2046
2047	/************************************************************************************/
2048	/* Rss preprocessor related options */
2049	/************************************************************************************/
2050
2051
2052	RegisterOption("RssPreprocessor.loadInitialSamples",
2053	optBool,
2054	"vss_load_loadInitialSamples=",
2055	"false");
2056
2057	RegisterOption("RssPreprocessor.storeInitialSamples",
2058	optBool,
2059	"vss_store_storeInitialSamples=",
2060	"false");
2061
2062
2063	/************************************************************************************/
2064	/* View space partition BSP tree related options */
2065	/************************************************************************************/
2066
2067	RegisterOption("VspBspTree.Termination.minGlobalCostRatio",
2068	optFloat,
2069	"vsp_bsp_term_min_global_cost_ratio=",
2070	"0.0001");
2071
2072	RegisterOption("VspBspTree.useSplitCostQueue",
2073	optBool,
2074	"vsp_bsp_use_split_cost_queue=",
2075	"true");
2076
2077	RegisterOption("VspBspTree.Termination.globalCostMissTolerance",
2078	optInt,
2079	"vsp_bsp_term_global_cost_miss_tolerance=",
2080	"4");
2081
2082	RegisterOption("VspBspTree.Termination.minPolygons",
2083	optInt,
2084	"vsp_bsp_term_min_polygons=",
2085	"-1");
2086
2087	RegisterOption("VspBspTree.Termination.minPvs",
2088	optInt,
2089	"vsp_bsp_term_min_pvs=",
2090	"20");
2091
2092	RegisterOption("VspBspTree.Termination.minProbability",
2093	optFloat,
2094	"vsp_bsp_term_min_probability=",
2095	"0.001");
2096
2097	RegisterOption("VspBspTree.subdivisionStats",
2098	optString,
2099	"vsp_bsp_subdivision_stats=",
2100	"vspBspSubdivisionStats.log");
2101
2102	RegisterOption("VspBspTree.Termination.maxRayContribution",
2103	optFloat,
2104	"vsp_bsp_term_ray_contribution=",
2105	"2");
2106
2107	RegisterOption("VspBspTree.Termination.minAccRayLenght",
2108	optFloat,
2109	"vsp_bsp_term_min_acc_ray_length=",
2110	"50");
2111
2112	RegisterOption("VspBspTree.Termination.minRays",
2113	optInt,
2114	"vsp_bsp_term_min_rays=",
2115	"-1");
2116
2117	RegisterOption("VspBspTree.Termination.ct_div_ci",
2118	optFloat,
2119	"vsp_bsp_term_ct_div_ci=",
2120	"0.0");
2121
2122	RegisterOption("VspBspTree.Termination.maxDepth",
2123	optInt,
2124	"vsp_bsp_term_max_depth=",
2125	"50");
2126
2127	RegisterOption("VspBspTree.Termination.AxisAligned.maxCostRatio",
2128	optFloat,
2129	"vsp_bsp_term_axis_aligned_max_cost_ratio=",
2130	"1.5");
2131
2132	RegisterOption("VspBspTree.useCostHeuristics",
2133	optBool,
2134	"vsp_bsp_use_cost_heuristics=",
2135	"false");
2136
2137	RegisterOption("VspBspTree.Termination.maxViewCells",
2138	optInt,
2139	"vsp_bsp_term_max_view_cells=",
2140	"10000");
2141
2142	RegisterOption("VspBspTree.Termination.maxCostRatio",
2143	optFloat,
2144	"vsp_bsp_term_max_cost_ratio=",
2145	"1.5");
2146
2147	RegisterOption("VspBspTree.Termination.missTolerance",
2148	optInt,
2149	"vsp_bsp_term_miss_tolerance=",
2150	"4");
2151
2152	RegisterOption("VspBspTree.splitPlaneStrategy",
2153	optInt,
2154	"vsp_bsp_split_method=",
2155	"1026");
2156
2157	RegisterOption("VspBspTree.maxPolyCandidates",
2158	optInt,
2159	"vsp_bsp_max_poly_candidates=",
2160	"20");
2161
2162	RegisterOption("VspBspTree.maxRayCandidates",
2163	optInt,
2164	"vsp_bsp_max_plane_candidates=",
2165	"20");
2166
2167	RegisterOption("VspBspTree.maxTests",
2168	optInt,
2169	"vsp_bsp_max_tests=",
2170	"5000");
2171
2172	RegisterOption("VspBspTree.Construction.samples",
2173	optInt,
2174	"vsp_bsp_construction_samples=",
2175	"100000");
2176
2177	RegisterOption("VspBspTree.Construction.minBand",
2178	optFloat,
2179	"vsp_bsp_construction_min_band=",
2180	"0.01");
2181
2182	RegisterOption("VspBspTree.Construction.maxBand",
2183	optFloat,
2184	"vsp_bsp_construction_max_band=",
2185	"0.99");
2186
2187	RegisterOption("VspBspTree.Construction.useDrivingAxisForMaxCost",
2188	optBool,
2189	"vsp_bsp_construction_use_drivingaxis_for_maxcost=",
2190	"false");
2191
2192	RegisterOption("VspBspTree.Construction.epsilon",
2193	optFloat,
2194	"vsp_bsp_construction_epsilon=",
2195	"0.002");
2196
2197	RegisterOption("VspBspTree.Visualization.exportSplits",
2198	optBool,
2199	"vsp_bsp_visualization.export_splits",
2200	"false");
2201
2202	RegisterOption("VspBspTree.splitUseOnlyDrivingAxis",
2203	optBool,
2204	"vsp_bsp_split_only_driving_axis=",
2205	"false");
2206
2207	RegisterOption("VspBspTree.usePolygonSplitIfAvailable",
2208	optBool,
2209	"vsp_bsp_usePolygonSplitIfAvailable=",
2210	"false");
2211
2212	RegisterOption("VspBspTree.Termination.AxisAligned.minRays",
2213	optInt,
2214	"bsp_term_axis_aligned_min_rays=",
2215	"0");
2216
2217	RegisterOption("VspBspTree.Termination.AxisAligned.maxRayContribution",
2218	optFloat,
2219	"bsp_term_axis_aligned_min_rays=",
2220	"2");
2221
2222	RegisterOption("VspBspTree.Factor.leastRaySplits",
2223	optFloat,
2224	"vsp_bsp_factor_least_ray_splits=",
2225	"1.0");
2226
2227	RegisterOption("VspBspTree.Factor.balancedRays",
2228	optFloat,
2229	"vsp_bsp_factor_balanced_rays=",
2230	"1.0");
2231
2232	RegisterOption("VspBspTree.Factor.pvs",
2233	optFloat,
2234	"vsp_bsp_factor_pvs=",
2235	"1.0");
2236
2237	RegisterOption("VspBspTree.Construction.renderCostWeight",
2238	optFloat,
2239	"vsp_bsp_post_process_render_cost_weight=",
2240	"1.0");
2241
2242	RegisterOption("VspBspTree.Construction.renderCostDecreaseWeight",
2243	optFloat,
2244	"vsp_bsp_construction_render_cost_decrease_weight=",
2245	"0.99");
2246
2247	RegisterOption("VspBspTree.Construction.randomize",
2248	optBool,
2249	"vsp_bsp_construction_randomize=",
2250	"false");
2251
2252	RegisterOption("VspBspTree.simulateOctree",
2253	optBool,
2254	"vsp_bsp_simulate_octree=",
2255	"false");
2256
2257	RegisterOption("VspBspTree.nodePriorityQueueType",
2258	optInt,
2259	"vsp_bsp_node_queue_type=",
2260	"0");
2261
2262	RegisterOption("VspBspTree.useRandomAxis",
2263	optBool,
2264	"-vsp_bsp_use_random_axis=",
2265	"false");
2266
2267	RegisterOption("VspBspTree.maxTotalMemory",
2268	optFloat,
2269	"vsp_bsp_max_total_mem=",
2270	"60.0");
2271
2272	RegisterOption("VspBspTree.maxStaticMemory",
2273	optFloat,
2274	"vsp_bsp_max_static_mem=",
2275	"8.0");
2276
2277
2278
2279	/***************************************************************************/
2280	/* View space partition tree related options */
2281	/***************************************************************************/
2282
2283
2284	RegisterOption("VspTree.Construction.samples",
2285	optInt,
2286	"vsp_construction_samples=",
2287	"10000");
2288
2289	RegisterOption("VspTree.Construction.renderCostDecreaseWeight",
2290	optFloat,
2291	"vsp_construction_render_cost_decrease_weight=",
2292	"0.99");
2293
2294	RegisterOption("VspTree.Termination.maxDepth",
2295	optInt,
2296	"vsp_term_max_depth=",
2297	"100");
2298
2299	RegisterOption("VspTree.Termination.minRays",
2300	optInt,
2301	"vsp_term_min_rays=",
2302	"-1");
2303
2304
2305	RegisterOption("VspTree.Termination.minPvs",
2306	optInt,
2307	"vsp_term_min_pvs=",
2308	"20");
2309
2310	RegisterOption("VspTree.Termination.minProbability",
2311	optFloat,
2312	"vsp_term_min_probability=",
2313	"0.0000001");
2314
2315	RegisterOption("VspTree.Termination.maxRayContribution",
2316	optFloat,
2317	"vsp_term_ray_contribution=",
2318	"0.9");
2319
2320	RegisterOption("VspTree.Termination.maxCostRatio",
2321	optFloat,
2322	"vsp_term_max_cost_ratio=",
2323	"1.5");
2324
2325	RegisterOption("VspTree.Termination.maxViewCells",
2326	optInt,
2327	"vsp_term_max_view_cells=",
2328	"10000");
2329
2330
2331	RegisterOption("VspTree.Termination.missTolerance",
2332	optInt,
2333	"vsp_term_miss_tolerance=",
2334	"4");
2335
2336	RegisterOption("VspTree.Termination.minGlobalCostRatio",
2337	optFloat,
2338	"vsp_term_min_global_cost_ratio=",
2339	"0.0001");
2340
2341	RegisterOption("VspTree.Termination.globalCostMissTolerance",
2342	optInt,
2343	"vsp_term_global_cost_miss_tolerance=",
2344	"4");
2345
2346	RegisterOption("VspTree.Termination.ct_div_ci",
2347	optFloat,
2348	"vsp_term_ct_div_ci=",
2349	"0.0");
2350
2351	RegisterOption("VspTree.Construction.epsilon",
2352	optFloat,
2353	"vsp_construction_epsilon=",
2354	"0.002");
2355
2356	RegisterOption("VspTree.splitUseOnlyDrivingAxis",
2357	optBool,
2358	"vsp_split_only_driving_axis=",
2359	"false");
2360
2361	RegisterOption("VspTree.maxStaticMemory",
2362	optFloat,
2363	"vsp_max_static_mem=",
2364	"8.0");
2365
2366	RegisterOption("VspTree.useCostHeuristics",
2367	optBool,
2368	"vsp_use_cost_heuristics=",
2369	"false");
2370
2371	RegisterOption("VspTree.simulateOctree",
2372	optBool,
2373	"vsp_simulate_octree=",
2374	"false");
2375
2376	RegisterOption("VspTree.Construction.randomize",
2377	optBool,
2378	"vsp_construction_randomize=",
2379	"false");
2380
2381	RegisterOption("VspTree.subdivisionStats",
2382	optString,
2383	"vsp_subdivision_stats=",
2384	"vspSubdivisionStats.log");
2385
2386	RegisterOption("VspTree.Construction.minBand",
2387	optFloat,
2388	"vsp_construction_min_band=",
2389	"0.01");
2390
2391	RegisterOption("VspTree.Construction.maxBand",
2392	optFloat,
2393	"vsp_construction_max_band=",
2394	"0.99");
2395
2396	RegisterOption("VspTree.maxTests",
2397	optInt,
2398	"vsp_max_tests=",
2399	"5000");
2400
2401
2402
2403	/***********************************************************************/
2404	/* Object space partition tree related options */
2405	/***********************************************************************/
2406
2407
2408	RegisterOption("OspTree.Construction.randomize",
2409	optBool,
2410	"osp_construction_randomize=",
2411	"false");
2412
2413	RegisterOption("OspTree.Termination.maxDepth",
2414	optInt,
2415	"osp_term_max_depth=",
2416	"30");
2417
2418	RegisterOption("OspTree.Termination.maxLeaves",
2419	optInt,
2420	"osp_term_max_leaves=",
2421	"1000");
2422
2423	RegisterOption("OspTree.Termination.minObjects",
2424	optInt,
2425	"osp_term_min_objects=",
2426	"1");
2427
2428	RegisterOption("OspTree.Termination.minProbability",
2429	optFloat,
2430	"osp_term_min_objects=",
2431	"0.00001");
2432
2433	RegisterOption("OspTree.Termination.missTolerance",
2434	optInt,
2435	"osp_term_miss_tolerance=",
2436	"8");
2437
2438	RegisterOption("OspTree.Termination.maxCostRatio",
2439	optFloat,
2440	"osp_term_max_cost_ratio=",
2441	"0.99");
2442
2443	RegisterOption("OspTree.Termination.minGlobalCostRatio",
2444	optFloat,
2445	"osp_term_min_global_cost_ratio=",
2446	"0.00001");
2447
2448	RegisterOption("OspTree.Termination.globalCostMissTolerance",
2449	optInt,
2450	"osp_term_global_cost_miss_tolerance=",
2451	"4");
2452
2453	RegisterOption("OspTree.Termination.ct_div_ci",
2454	optFloat,
2455	"osp_term_ct_div_ci=",
2456	"0");
2457
2458	RegisterOption("OspTree.Construction.epsilon",
2459	optFloat,
2460	"osp_construction_epsilon=",
2461	"0.00001");
2462
2463	// if only the driving axis is used for axis aligned split
2464	RegisterOption("OspTree.splitUseOnlyDrivingAxis",
2465	optBool,
2466	"osp_split_only_driving_axis=",
2467	"false");
2468
2469	RegisterOption("OspTree.maxStaticMemory",
2470	optFloat,
2471	"osp_max_static_mem=",
2472	"8.0");
2473
2474	RegisterOption("OspTree.useCostHeuristics",
2475	optBool,
2476	"osp_use_cost_heuristics=",
2477	"true");
2478
2479	RegisterOption("OspTree.subdivisionStats",
2480	optString,
2481	"osp_subdivision_stats=",
2482	"ospSubdivisionStats.log");
2483
2484	RegisterOption("OspTree.Construction.splitBorder",
2485	optFloat,
2486	"osp_construction_split_border=",
2487	"0.01");
2488
2489	RegisterOption("OspTree.Construction.renderCostDecreaseWeight",
2490	optFloat,
2491	"osp_construction_render_cost_decrease_weight=",
2492	"0.99");
2493
2494
2495
2496	/**********************************************************************/
2497	/* Bounding Volume Hierarchy related options */
2498	/**********************************************************************/
2499
2500	RegisterOption("BvHierarchy.Construction.randomize",
2501	optBool,
2502	"bvh_construction_randomize=",
2503	"false");
2504
2505	RegisterOption("BvHierarchy.Termination.maxDepth",
2506	optInt,
2507	"bvh_term_max_depth=",
2508	"30");
2509
2510	RegisterOption("BvHierarchy.Termination.maxLeaves",
2511	optInt,
2512	"bvh_term_max_leaves=",
2513	"1000");
2514
2515	RegisterOption("BvHierarchy.Termination.minObjects",
2516	optInt,
2517	"bvh_term_min_objects=",
2518	"1");
2519
2520	RegisterOption("BvHierarchy.Termination.minProbability",
2521	optFloat,
2522	"bvh_term_min_objects=",
2523	"0.0000001");
2524
2525	RegisterOption("BvHierarchy.Termination.minRays",
2526	optInt,
2527	"bvh_term_min_rays=",
2528	"0");
2529
2530	RegisterOption("BvHierarchy.Termination.missTolerance",
2531	optInt,
2532	"osp_term_miss_tolerance=",
2533	"8");
2534
2535	RegisterOption("BvHierarchy.Termination.maxCostRatio",
2536	optFloat,
2537	"bvh_term_max_cost_ratio=",
2538	"0.99");
2539
2540	RegisterOption("BvHierarchy.Termination.minGlobalCostRatio",
2541	optFloat,
2542	"bvh_term_min_global_cost_ratio=",
2543	"0.00001");
2544
2545	RegisterOption("BvHierarchy.Termination.globalCostMissTolerance",
2546	optInt,
2547	"bvh_term_global_cost_miss_tolerance=",
2548	"4");
2549
2550	// if only the driving axis is used for axis aligned split
2551	RegisterOption("BvHierarchy.splitUseOnlyDrivingAxis",
2552	optBool,
2553	"bvh_split_only_driving_axis=",
2554	"false");
2555
2556	RegisterOption("BvHierarchy.maxStaticMemory",
2557	optFloat,
2558	"bvh_max_static_mem=",
2559	"8.0");
2560
2561	RegisterOption("BvHierarchy.useCostHeuristics",
2562	optBool,
2563	"bvh_use_cost_heuristics=",
2564	"true");
2565
2566	RegisterOption("BvHierarchy.useSah",
2567	optBool,
2568	"bvh_use_sah=",
2569	"false");
2570
2571	RegisterOption("BvHierarchy.subdivisionStats",
2572	optString,
2573	"bvh_subdivision_stats=",
2574	"bvhSubdivisionStats.log");
2575
2576	RegisterOption("BvHierarchy.Construction.renderCostDecreaseWeight",
2577	optFloat,
2578	"bvh_construction_render_cost_decrease_weight=",
2579	"0.99");
2580
2581	RegisterOption("BvHierarchy.Construction.useGlobalSorting",
2582	optBool,
2583	"bvh_construction_use_global_sorting=",
2584	"true");
2585
2586	RegisterOption("BvHierarchy.Construction.useInitialSubdivision",
2587	optBool,
2588	"bvh_construction_use_initial_subdivision=",
2589	"false");
2590
2591	RegisterOption("BvHierarchy.Construction.Initial.minObjects",
2592	optInt,
2593	"bvh_construction_use_initial_min_objects=",
2594	"100000");
2595
2596	RegisterOption("BvHierarchy.Construction.Initial.minArea",
2597	optFloat,
2598	"bvh_construction_use_initial_min_area=",
2599	"0.0001");
2600
2601	RegisterOption("BvHierarchy.Construction.Initial.maxAreaRatio",
2602	optFloat,
2603	"bvh_construction_use_initial_max_area_ratio=",
2604	"0.9");
2605
2606	RegisterOption("BvHierarchy.minRaysForVisibility",
2607	optInt,
2608	"bvh_min_rays_for_vis=",
2609	"0");
2610
2611	RegisterOption("BvHierarchy.maxTests",
2612	optInt,
2613	"bvh_max_tests=",
2614	"50000");
2615
2616
2617	/*******************************************************************/
2618	/* Hierarchy Manager related options */
2619	/*******************************************************************/
2620
2621	RegisterOption("Hierarchy.Construction.samples",
2622	optInt,
2623	"hierarchy_construction_samples=",
2624	"100000");
2625
2626	RegisterOption("Hierarchy.subdivisionStats",
2627	optString,
2628	"hierarchy_subdivision_stats=",
2629	"hierarchySubdivisionStats.log");
2630
2631	RegisterOption("Hierarchy.type",
2632	optString,
2633	"hierarchy_type=",
2634	"bvh");
2635
2636	RegisterOption("Hierarchy.Termination.minGlobalCostRatio",
2637	optFloat,
2638	"hierarchy_term_min_global_cost_ratio=",
2639	"0.000000001");
2640
2641	RegisterOption("Hierarchy.Termination.globalCostMissTolerance",
2642	optInt,
2643	"hierarchy_term_global_cost_miss_tolerance=",
2644	"4");
2645
2646	RegisterOption("Hierarchy.Termination.maxLeaves",
2647	optInt,
2648	"hierarchy_term_max_leaves=",
2649	"1000");
2650
2651	RegisterOption("Hierarchy.Construction.type",
2652	optInt,
2653	"hierarchy_construction_type=",
2654	"0");
2655
2656	RegisterOption("Hierarchy.Construction.minDepthForOsp",
2657	optInt,
2658	"hierarchy_construction_min_depth_for_osp=",
2659	"-1");
2660
2661	RegisterOption("Hierarchy.Construction.startWithObjectSpace",
2662	optBool,
2663	"hierarchy_construction_start_with_osp=",
2664	"true");
2665
2666	RegisterOption("Hierarchy.Construction.considerMemory",
2667	optBool,
2668	"hierarchy_construction_consider_memory=",
2669	"true");
2670
2671	RegisterOption("Hierarchy.Construction.repairQueue",
2672	optBool,
2673	"hierarchy_construction_repair_queue=",
2674	"true");
2675
2676	RegisterOption("Hierarchy.Construction.minDepthForVsp",
2677	optInt,
2678	"hierarchy_construction_min_depth_for_vsp=",
2679	"-1");
2680
2681	RegisterOption("Hierarchy.Termination.maxMemory",
2682	optFloat,
2683	"hierarchy_term_max_memory=",
2684	"1");
2685
2686	RegisterOption("Hierarchy.Termination.memoryConst",
2687	optFloat,
2688	"hierarchy_term_memory_const=",
2689	"1.0");
2690
2691	RegisterOption("Hierarchy.Construction.useMultiLevel",
2692	optBool,
2693	"hierarchy_construction_multilevel=",
2694	"false");
2695
2696	RegisterOption("Hierarchy.Construction.levels",
2697	optInt,
2698	"hierarchy_construction_levels=",
2699	"4");
2700
2701	RegisterOption("Hierarchy.Construction.maxRepairs",
2702	optInt,
2703	"hierarchy_construction_max_repairs=",
2704	"1000");
2705
2706	RegisterOption("Hierarchy.Construction.minStepsOfSameType",
2707	optInt,
2708	"hierarchy_construction_min_steps_same_type=",
2709	"200");
2710
2711	RegisterOption("Hierarchy.Construction.maxStepsOfSameType",
2712	optInt,
2713	"hierarchy_construction_max_steps_same_type=",
2714	"700");
2715
2716	RegisterOption("Hierarchy.Construction.recomputeSplitPlaneOnRepair",
2717	optBool,
2718	"hierarchy_construction_recompute_split_on_repair=",
2719	"true");
2720
2721	RegisterOption("Hierarchy.Construction.maxAvgRayContri",
2722	optFloat,
2723	"hierarchy_construction_max_avg_raycontri=",
2724	"99999.0");
2725
2726	RegisterOption("Hierarchy.Construction.minAvgRayContri",
2727	optFloat,
2728	"hierarchy_construction_min_avg_raycontri=",
2729	"99990.0");
2730
2731	/////////////////////////////////////////////////////////////////
2732
2733	}
2734
2735	void
2736	Environment::SetStaticOptions()
2737	{
2738
2739	// get Global option values
2740	GetRealValue("Limits.threshold", Limits::Threshold);
2741	GetRealValue("Limits.small", Limits::Small);
2742	GetRealValue("Limits.infinity", Limits::Infinity);
2743
2744
2745	}
2746
2747	bool
2748	Environment::Parse(const int argc, char **argv, bool useExePath)
2749	{
2750	bool result = true;
2751	// Read the names of the scene, environment and output files
2752	ReadCmdlineParams(argc, argv, "");
2753
2754	char *envFilename = new char[128];
2755
2756	char filename[64];
2757
2758	// Get the environment file name
2759	if (!GetParam(' ', 0, filename)) {
2760	// user didn't specified environment file explicitly, so
2761	strcpy(filename, "default.env");
2762	}
2763
2764
2765	if (useExePath) {
2766	char *path = GetPath(argv[0]);
2767	if (*path != 0)
2768	sprintf(envFilename, "%s/%s", path, filename);
2769	else
2770	strcpy(envFilename, filename);
2771
2772	delete path;
2773	}
2774	else
2775	strcpy(envFilename, filename);
2776
2777
2778	// Now it's time to read in environment file.
2779	if (!ReadEnvFile(envFilename)) {
2780	// error - bad input file name specified ?
2781	cerr<<"Error parsing environment file "<<envFilename<<endl;
2782	result = false;
2783	}
2784	delete envFilename;
2785
2786	// Parse the command line; options given on the command line subsume
2787	// stuff specified in the input environment file.
2788	ParseCmdline(argc, argv, 0);
2789
2790	SetStaticOptions();
2791
2792	// Check for request for help
2793	if (CheckForSwitch(argc, argv, '?')) {
2794	PrintUsage(cout);
2795	exit(0);
2796	}
2797
2798	return true;
2799	}
2800
2801	}

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