[ViewVC] Diff of: group/trunk/OOPSE/libBASS/Globals.cpp

Comparing trunk/OOPSE/libBASS/Globals.cpp (file contents):
Revision 1091 by tim, Tue Mar 16 19:22:56 2004 UTC vs.
Revision 1260 by gezelter, Fri Jun 11 14:13:54 2004 UTC

#	Line 35 \| Line 35
35		#define G_BOXZ 14
36		#define G_SAMPLETIME 15
37		#define G_STATUSTIME 16
38	<	#define G_ECR 17
39	<	#define G_DIELECTRIC 18
40	<	#define G_TEMPSET 19
41	<	#define G_THERMALTIME 20
42	<	#define G_USEPBC 21
43	<	#define G_MIXINGRULE 22
44	<	#define G_EST 23
38	>	#define G_RCUT 17
39	>	#define G_RSW 18
40	>	#define G_DIELECTRIC 19
41	>	#define G_TEMPSET 20
42	>	#define G_THERMALTIME 21
43	>	#define G_USEPBC 22
44	>	#define G_MIXINGRULE 23
45		#define G_USERF 24
46		#define G_TARGETPRESSURE 25
47		#define G_TAUTHERMOSTAT 26
#	Line 55 \| Line 55
55		#define G_USEINITTIME 34
56		#define G_USEINIT_XS_STATE 35
57		#define G_ORTHOBOXTOLERANCE 36
58	<	#define G_LJRCUT 37
59	<	#define G_MINIMIZER 38
60	<	#define G_MIN_MAXITER 39
61	<	#define G_MIN_WRITEFRQ 40
62	<	#define G_MIN_STEPSIZE 41
63	<	#define G_MIN_FTOL 42
64	<	#define G_MIN_GTOL 43
65	<	#define G_MIN_LSTOL 44
66	<	#define G_MIN_LSMAXITER 45
67	<	#define G_ZCONSGAP 46
68	<	#define G_ZCONSFIXTIME 47
58	>	#define G_MINIMIZER 37
59	>	#define G_MIN_MAXITER 38
60	>	#define G_MIN_WRITEFRQ 39
61	>	#define G_MIN_STEPSIZE 40
62	>	#define G_MIN_FTOL 41
63	>	#define G_MIN_GTOL 42
64	>	#define G_MIN_LSTOL 43
65	>	#define G_MIN_LSMAXITER 44
66	>	#define G_ZCONSGAP 45
67	>	#define G_ZCONSFIXTIME 46
68	>	#define G_ZCONSUSINGSMD 47
69	>	#define G_USE_SOLID_THERM_INT 48
70	>	#define G_USE_LIQUID_THERM_INT 49
71	>	#define G_THERM_INT_LAMBDA 50
72	>	#define G_THERM_INT_K 51
73	>	#define G_FORCEFIELD_VARIANT 52
74
75		Globals::Globals(){
76
#	Line 98 \| Line 103 \| Globals::Globals(){
103		addHash( "sampleTime", G_SAMPLETIME );
104		addHash( "resetTime", G_RESETTIME );
105		addHash( "statusTime", G_STATUSTIME );
106	<	addHash( "electrostaticCutoffRadius", G_ECR );
106	>	addHash( "cutoffRadius", G_RCUT );
107	>	addHash( "switchingRadius", G_RSW );
108		addHash( "dielectric", G_DIELECTRIC );
109		addHash( "tempSet", G_TEMPSET );
110		addHash( "thermalTime", G_THERMALTIME );
111		addHash( "mixingRule", G_MIXINGRULE);
112		addHash( "usePeriodicBoundaryConditions", G_USEPBC);
107	–	addHash( "electrostaticSkinThickness", G_EST );
113		addHash( "useReactionField", G_USERF );
114		addHash( "targetPressure", G_TARGETPRESSURE);
115		addHash( "tauThermostat", G_TAUTHERMOSTAT);
#	Line 117 \| Line 122 \| Globals::Globals(){
122		addHash( "useInitialTime", G_USEINITTIME);
123		addHash( "useInitialExtendedSystemState", G_USEINIT_XS_STATE);
124		addHash( "orthoBoxTolerance", G_ORTHOBOXTOLERANCE);
125	<	addHash( "LJrcut", G_LJRCUT);
126	<	addHash( "minimizer", G_MINIMIZER);
127	<	addHash( "minMaxIter", G_MIN_MAXITER);
128	<	addHash( "minWriteFrq", G_MIN_WRITEFRQ);
129	<	addHash( "minStepSize", G_MIN_STEPSIZE);
130	<	addHash( "minFTol", G_MIN_FTOL);
131	<	addHash( "minGTol", G_MIN_GTOL);
132	<	addHash( "minLSTol", G_MIN_LSTOL);
133	<	addHash( "minLSMaxIter", G_MIN_LSMAXITER);
134	<	addHash( "zconsGap", G_ZCONSGAP);
135	<	addHash( "zconsFixtime", G_ZCONSFIXTIME);
125	>	addHash( "minimizer", G_MINIMIZER);
126	>	addHash( "minMaxIter", G_MIN_MAXITER);
127	>	addHash( "minWriteFrq", G_MIN_WRITEFRQ);
128	>	addHash( "minStepSize", G_MIN_STEPSIZE);
129	>	addHash( "minFTol", G_MIN_FTOL);
130	>	addHash( "minGTol", G_MIN_GTOL);
131	>	addHash( "minLSTol", G_MIN_LSTOL);
132	>	addHash( "minLSMaxIter", G_MIN_LSMAXITER);
133	>	addHash( "zconsGap", G_ZCONSGAP);
134	>	addHash( "zconsFixtime", G_ZCONSFIXTIME);
135	>	addHash( "zconsUsingSMD", G_ZCONSUSINGSMD);
136	>	addHash( "useSolidThermInt", G_USE_SOLID_THERM_INT);
137	>	addHash( "useLiquidThermInt", G_USE_LIQUID_THERM_INT);
138	>	addHash( "thermodynamicIntegrationLambda", G_THERM_INT_LAMBDA);
139	>	addHash( "thermodynamicIntegrationK", G_THERM_INT_K);
140	>	addHash( "forceFieldVariant", G_FORCEFIELD_VARIANT);
141
142		strcpy( mixingRule,"standard"); //default mixing rules to standard.
143		usePBC = 1; //default periodic boundry conditions to on
144		useRF = 0;
145	<	useInitTime = 1; // default to pull init time from the init file
146	<	useInitXSstate = 1; // default to pull the extended state from the init file
145	>	useInitTime = 0; // default to pull init time from the init file
146	>	useInitXSstate = 0; // default to pull the extended state from the init file
147		orthoBoxTolerance = 1E-6;
148	+	useSolidThermInt = 0; // default solid-state thermodynamic integration to off
149	+	useLiquidThermInt = 0; // default liquid thermodynamic integration to off
150
151		have_force_field = 0;
152		have_n_components = 0;
#	Line 156 \| Line 168 \| Globals::Globals(){
168		have_status_time = 0;
169		have_reset_time = 0;
170		have_thermal_time = 0;
171	<	have_ecr = 0;
171	>	have_rcut = 0;
172	>	have_rsw = 0;
173		have_dielectric = 0;
174		have_tempSet = 0;
162	–	have_est = 0;
175		have_target_pressure =0;
176		have_q_mass = 0;
177		have_tau_thermostat = 0;
#	Line 168 \| Line 180 \| Globals::Globals(){
180		have_n_zConstraints = 0;
181		have_zConstraints = 0;
182		have_zcons_tol = 0;
183	+	have_zcons_gap = 0;
184	+	have_zcons_fixtime = 0;
185	+	have_zcons_using_smd = 0;
186		have_seed = 0;
187	<	have_ljrcut = 0;
187	>	have_minimizer = 0;
188	>	have_minimizer_maxiteration = 0;
189	>	have_minimizer_writefrq = 0;
190	>	have_minimizer_stepsize = 0;
191	>	have_minimizer_ftol = 0;
192	>	have_minimizer_gtol = 0;
193	>	have_minimizer_ls_tol = 0;
194	>	have_minimizer_ls_maxiteration = 0;
195	>	have_thermodynamic_integration_lambda = 0;
196	>	have_thermodynamic_integration_k = 0;
197	>	have_forcefield_variant = 0;
198
199		}
200
#	Line 847 \| Line 872 \| *int Globals::globalAssign( event the_event ){**
872		break;
873		}
874		break;
850	–
851	–	case G_LJRCUT:
852	–	switch( the_type ){
853	–
854	–	case STRING:
855	–	the_event->err_msg =
856	–	strdup( "Global error. LJrcut is not a double or int.\n" );
857	–	return 0;
858	–	break;
859	–
860	–	case DOUBLE:
861	–	LJrcut = the_event->evt.asmt.rhs.dval;
862	–	have_ljrcut = 1;
863	–	return 1;
864	–	break;
865	–
866	–	case INT:
867	–	LJrcut = (double)the_event->evt.asmt.rhs.ival;
868	–	have_ljrcut = 1;
869	–	return 1;
870	–	break;
871	–
872	–	default:
873	–	the_event->err_msg =
874	–	strdup( "Global error. LJrcut unrecognized.\n" );
875	–	return 0;
876	–	break;
877	–	}
878	–	break;
875
876	<	case G_ECR:
876	>	case G_RCUT:
877		switch( the_type ){
878
879		case STRING:
880		the_event->err_msg =
881	<	strdup( "Global error. electrostaticCutoffRadius is not a double or int.\n" );
881	>	strdup( "Global error. cutoffRadius is not a double or int.\n" );
882		return 0;
883		break;
884
885		case DOUBLE:
886	<	ecr = the_event->evt.asmt.rhs.dval;
887	<	have_ecr = 1;
886	>	rcut = the_event->evt.asmt.rhs.dval;
887	>	have_rcut = 1;
888		return 1;
889		break;
890
891		case INT:
892	<	ecr = (double)the_event->evt.asmt.rhs.ival;
893	<	have_ecr = 1;
892	>	rcut = (double)the_event->evt.asmt.rhs.ival;
893	>	have_rcut = 1;
894		return 1;
895		break;
896
897		default:
898		the_event->err_msg =
899	<	strdup( "Global error. electrostaticCutoffRadius unrecognized.\n" );
899	>	strdup( "Global error. cutoffRadius unrecognized.\n" );
900		return 0;
901		break;
902		}
903		break;
904
905	<	case G_EST:
905	>	case G_RSW:
906		switch( the_type ){
907
908		case STRING:
909		the_event->err_msg =
910	<	strdup( "Global error. electrostaticSkinThickness is not a double or int.\n" );
910	>	strdup( "Global error. switchingRadius is not a double or int.\n" );
911		return 0;
912		break;
913
914		case DOUBLE:
915	<	est = the_event->evt.asmt.rhs.dval;
916	<	have_est = 1;
915	>	rsw = the_event->evt.asmt.rhs.dval;
916	>	have_rsw = 1;
917		return 1;
918		break;
919
920		case INT:
921	<	est = (double)the_event->evt.asmt.rhs.ival;
922	<	have_est = 1;
921	>	rsw = (double)the_event->evt.asmt.rhs.ival;
922	>	have_rsw = 1;
923		return 1;
924		break;
925
926		default:
927		the_event->err_msg =
928	<	strdup( "Global error. electrostaticSkinThickness unrecognized.\n" );
928	>	strdup( "Global error. switchingRadius unrecognized.\n" );
929		return 0;
930		break;
931		}
#	Line 1289 \| Line 1285 \| *int Globals::globalAssign( event the_event ){**
1285		default:
1286		the_event->err_msg =
1287		strdup( "Global error. zcons_fixtime unrecognized.\n" );
1288	+	return 0;
1289	+	break;
1290	+	}
1291	+	break;
1292	+
1293	+	case G_ZCONSUSINGSMD:
1294	+	switch( the_type ){
1295	+
1296	+	case STRING:
1297	+	the_event->err_msg =
1298	+	strdup( "Global error. zcons_fixtime is not an int.\n" );
1299	+	return 0;
1300	+	break;
1301	+
1302	+	case DOUBLE:
1303	+	the_event->err_msg =
1304	+	strdup( "Global error. zcons_fixtime is not an int.\n" );
1305		return 0;
1306		break;
1307	+
1308	+	case INT:
1309	+	zcons_using_smd= the_event->evt.asmt.rhs.ival;
1310	+	have_zcons_using_smd= 1;
1311	+	return 1;
1312	+	break;
1313	+
1314	+	default:
1315	+	the_event->err_msg =
1316	+	strdup( "Global error. zcons_usingsmd unrecognized.\n" );
1317	+	return 0;
1318	+	break;
1319		}
1320		break;
1321
#	Line 1337 \| Line 1362 \| *int Globals::globalAssign( event the_event ){**
1362		break;
1363
1364		case DOUBLE:
1365	<	minimizer_maxiteration = the_event->evt.asmt.rhs.dval;
1365	>	minimizer_maxiteration = (int)the_event->evt.asmt.rhs.dval;
1366		have_minimizer_maxiteration = 1;
1367		return 1;
1368		break;
#	Line 1560 \| Line 1585 \| *int Globals::globalAssign( event the_event ){**
1585		break;
1586		}
1587		break;
1588	<	// add more token cases here.
1588	>
1589	>	case G_USE_SOLID_THERM_INT:
1590	>	if( the_type == STRING ){
1591	>
1592	>	if( !strcasecmp( "true", the_event->evt.asmt.rhs.sval )) useSolidThermInt = 1;
1593	>	else if( !strcasecmp( "false", the_event->evt.asmt.rhs.sval )) useSolidThermInt = 0;
1594	>	else{
1595	>	the_event->err_msg =
1596	>	strdup( "Global error. useSolidThermInt was not \"true\" or \"false\".\n" );
1597	>	return 0;
1598	>	}
1599	>	return 1;
1600	>	}
1601	>
1602	>	the_event->err_msg =
1603	>	strdup( "Global error. useSolidThermInt was not \"true\" or \"false\".\n" );
1604	>	return 0;
1605	>	break;
1606	>
1607	>	case G_USE_LIQUID_THERM_INT:
1608	>	if( the_type == STRING ){
1609	>
1610	>	if( !strcasecmp( "true", the_event->evt.asmt.rhs.sval )) useLiquidThermInt = 1;
1611	>	else if( !strcasecmp( "false", the_event->evt.asmt.rhs.sval )) useLiquidThermInt = 0;
1612	>	else{
1613	>	the_event->err_msg =
1614	>	strdup( "Global error. useLiquidThermInt was not \"true\" or \"false\".\n" );
1615	>	return 0;
1616	>	}
1617	>	return 1;
1618	>	}
1619	>
1620	>	the_event->err_msg =
1621	>	strdup( "Global error. useLiquidThermInt was not \"true\" or \"false\".\n" );
1622	>	return 0;
1623	>	break;
1624
1625	+	case G_THERM_INT_LAMBDA:
1626	+	switch( the_type ){
1627	+
1628	+	case STRING:
1629	+	the_event->err_msg =
1630	+	strdup( "Global error. thermodynamicIntegrationLambda is not a double or int.\n" );
1631	+	return 1;
1632	+	break;
1633	+
1634	+	case DOUBLE:
1635	+	thermodynamic_integration_lambda = the_event->evt.asmt.rhs.dval;
1636	+	have_thermodynamic_integration_lambda = 1;
1637	+	return 1;
1638	+	break;
1639	+
1640	+	case INT:
1641	+	thermodynamic_integration_lambda = (double)the_event->evt.asmt.rhs.dval;
1642	+	have_thermodynamic_integration_lambda = 1;
1643	+	return 1;
1644	+	break;
1645	+
1646	+	default:
1647	+	the_event->err_msg =
1648	+	strdup( "Global error. thermodynamicIntegrationLambda unrecognized.\n" );
1649	+	return 0;
1650	+	break;
1651	+	}
1652	+	break;
1653	+
1654	+	case G_THERM_INT_K:
1655	+	switch( the_type ){
1656	+
1657	+	case STRING:
1658	+	the_event->err_msg =
1659	+	strdup( "Global error. thermodynamicIntegrationK is not a double or int.\n" );
1660	+	return 1;
1661	+	break;
1662	+
1663	+	case DOUBLE:
1664	+	thermodynamic_integration_k = the_event->evt.asmt.rhs.dval;
1665	+	have_thermodynamic_integration_k = 1;
1666	+	return 1;
1667	+	break;
1668	+
1669	+	case INT:
1670	+	thermodynamic_integration_k = (double)the_event->evt.asmt.rhs.dval;
1671	+	have_thermodynamic_integration_k = 1;
1672	+	return 1;
1673	+	break;
1674	+
1675	+	default:
1676	+	the_event->err_msg =
1677	+	strdup( "Global error. thermodynamicIntegrationK unrecognized.\n" );
1678	+	return 0;
1679	+	break;
1680	+	}
1681	+	break;
1682	+	case G_FORCEFIELD_VARIANT:
1683	+	if( the_type == STRING ){
1684	+	strcpy( forcefield_variant, the_event->evt.asmt.rhs.sval );
1685	+	have_forcefield_variant = 1;
1686	+	return 1;
1687	+	}
1688	+
1689	+	the_event->err_msg =
1690	+	strdup( "Global error. forceFieldVariant was not a string assignment.\n" );
1691	+	return 0;
1692	+	break;
1693	+	// add more token cases here.
1694		}
1695		}
1696
#	Line 1621 \| Line 1750 \| *char Globals::checkMe( void ){**
1750		strcat( err, "\t->targetTemp\n" );
1751		have_err= 1;
1752		}
1624	–
1753
1754		if(!have_minimizer)
1755		if( !have_ensemble ){

Diff Legend

-–
+Removed lines
-+
+Added lines
-<
+Changed lines
->
+Changed lines

Comparing trunk/OOPSE/libBASS/Globals.cpp (file contents): Revision 1091 by tim, Tue Mar 16 19:22:56 2004 UTC vs. Revision 1260 by gezelter, Fri Jun 11 14:13:54 2004 UTC

Diff Legend

Comparing trunk/OOPSE/libBASS/Globals.cpp (file contents):
Revision 1091 by tim, Tue Mar 16 19:22:56 2004 UTC vs.
Revision 1260 by gezelter, Fri Jun 11 14:13:54 2004 UTC