[ViewVC] Diff of: group/trunk/OOPSE/libmdtools/Verlet.cpp

Comparing trunk/OOPSE/libmdtools/Verlet.cpp (file contents):
Revision 378 by mmeineke, Fri Mar 21 17:42:12 2003 UTC vs.
Revision 475 by gezelter, Tue Apr 8 12:44:18 2003 UTC

#	Line 7 \| Line 7
7		#include "SimInfo.hpp"
8		#include "Thermo.hpp"
9		#include "ReadWrite.hpp"
10	+	#include "ExtendedSystem.hpp"
11
12		extern "C"{
13
#	Line 29 \| Line 30 \| extern "C"{
30		}
31
32
33	<	Verlet::Verlet( SimInfo &info, ForceFields* the_ff ){
33	>	Verlet::Verlet( SimInfo &info, ForceFields* the_ff, ExtendedSystem* the_es ){
34
35		// get what information we need from the SimInfo object
36
37		entry_plug = &info;
38		myFF = the_ff;
39	<
40	<
39	>	myES = the_es;
40	>
41		c_natoms = info.n_atoms;
42		c_atoms = info.atoms;
43	<	c_sr_interactions = info.sr_interactions;
44	<	c_n_SRI = info.n_SRI;
43	>	nMols = info.n_mol;
44	>	molecules = info.molecules;
45		c_is_constrained = 0;
46		c_box_x = info.box_x;
47		c_box_y = info.box_y;
#	Line 67 \| Line 68 \| *Verlet::Verlet( SimInfo &info, ForceFields the_ff ){**
68
69		Constraint *temp_con;
70		Constraint *dummy_plug;
71	<	temp_con = new Constraint[c_n_SRI];
71	>	temp_con = new Constraint[info.n_SRI];
72
73		c_n_constrained = 0;
74		int constrained = 0;
75	<
76	<	for(int i = 0; i < c_n_SRI; i++){
75	>	SRI** theArray;
76	>	for(int i = 0; i < nMols; i++){
77
78	<	constrained = c_sr_interactions[i]->is_constrained();
78	>	theArray = (SRI**) molecules[i].getMyBonds();
79	>	for(int j=0; j<molecules[i].getNBonds(); j++){
80	>
81	>	constrained = theArray[j]->is_constrained();
82	>
83	>	if(constrained){
84	>
85	>	dummy_plug = theArray[j]->get_constraint();
86	>	temp_con[c_n_constrained].set_a( dummy_plug->get_a() );
87	>	temp_con[c_n_constrained].set_b( dummy_plug->get_b() );
88	>	temp_con[c_n_constrained].set_dsqr( dummy_plug->get_dsqr() );
89	>
90	>	c_n_constrained++;
91	>	constrained = 0;
92	>	}
93	>	}
94
95	<	if(constrained){
95	>	theArray = (SRI**) molecules[i].getMyBends();
96	>	for(int j=0; j<molecules[i].getNBends(); j++){
97
98	<	dummy_plug = c_sr_interactions[i]->get_constraint();
99	<	temp_con[c_n_constrained].set_a( dummy_plug->get_a() );
100	<	temp_con[c_n_constrained].set_b( dummy_plug->get_b() );
101	<	temp_con[c_n_constrained].set_dsqr( dummy_plug->get_dsqr() );
98	>	constrained = theArray[j]->is_constrained();
99	>
100	>	if(constrained){
101	>
102	>	dummy_plug = theArray[j]->get_constraint();
103	>	temp_con[c_n_constrained].set_a( dummy_plug->get_a() );
104	>	temp_con[c_n_constrained].set_b( dummy_plug->get_b() );
105	>	temp_con[c_n_constrained].set_dsqr( dummy_plug->get_dsqr() );
106	>
107	>	c_n_constrained++;
108	>	constrained = 0;
109	>	}
110	>	}
111
112	<	c_n_constrained++;
113	<	constrained = 0;
112	>	theArray = (SRI**) molecules[i].getMyTorsions();
113	>	for(int j=0; j<molecules[i].getNTorsions(); j++){
114	>
115	>	constrained = theArray[j]->is_constrained();
116	>
117	>	if(constrained){
118	>
119	>	dummy_plug = theArray[j]->get_constraint();
120	>	temp_con[c_n_constrained].set_a( dummy_plug->get_a() );
121	>	temp_con[c_n_constrained].set_b( dummy_plug->get_b() );
122	>	temp_con[c_n_constrained].set_dsqr( dummy_plug->get_dsqr() );
123	>
124	>	c_n_constrained++;
125	>	constrained = 0;
126	>	}
127		}
128	+
129	+
130		}
131
132		if(c_n_constrained > 0){
#	Line 94 \| Line 135 \| *Verlet::Verlet( SimInfo &info, ForceFields the_ff ){**
135		c_constrained_i = new int[c_n_constrained];
136		c_constrained_j = new int[c_n_constrained];
137		c_constrained_dsqr = new double[c_n_constrained];
138	<
138	>
139		for( int i = 0; i < c_n_constrained; i++){
140
141		/* add 1 to the index for the fortran arrays. */
142	<
142	>
143		c_constrained_i[i] = temp_con[i].get_a() + 1;
144		c_constrained_j[i] = temp_con[i].get_b() + 1;
145		c_constrained_dsqr[i] = temp_con[i].get_dsqr();
#	Line 126 \| Line 167 \| void Verlet::integrate( void ){
167		void Verlet::integrate( void ){
168
169		int i, j; /* loop counters */
170	<	int calcPot;
170	>	int calcPot, calcStress;
171
172		double kE;
173
#	Line 163 \| Line 204 \| void Verlet::integrate( void ){
204		// the first time integrate is called, the forces need to be initialized
205
206
207	<	myFF->doForces(1,0);
207	>	myFF->doForces(1,1);
208
209		if( entry_plug->setTemp ){
210		tStats->velocitize();
#	Line 175 \| Line 216 \| void Verlet::integrate( void ){
216
217		calcPot = 0;
218
219	+	if (!strcasecmp( entry_plug->ensemble, "NPT")) {
220	+	calcStress = 1;
221	+	} else {
222	+	calcStress = 0;
223	+	}
224	+
225		if( c_is_constrained ){
226		for(i = 0; i < n_loops; i++){
227
228	+	if (!strcasecmp( entry_plug->ensemble, "NVT"))
229	+	myES->NoseHooverNVT( dt , tStats->getKinetic() );
230	+
231		// fill R, V, and F arrays and RATTLE in fortran
232
233		for( j=0; j<c_natoms; j++ ){
#	Line 215 \| Line 265 \| void Verlet::integrate( void ){
265
266		// calculate the forces
267
268	<	myFF->doForces(calcPot,0);
268	>	myFF->doForces(calcPot,calcStress);
269
270		// finish the constrain move ( same as above. )
271
#	Line 234 \| Line 284 \| void Verlet::integrate( void ){
284		Fz[j] = c_atoms[j]->getFz();
285		}
286
287	+
288		v_constrain_b_( dt, c_natoms, c_mass, Rx, Ry, Rz, Vx, Vy, Vz,
289		Fx, Fy, Fz,
290		kE, c_n_constrained, c_constrained_dsqr,
#	Line 251 \| Line 302 \| void Verlet::integrate( void ){
302		c_atoms[j]->set_vz(Vz[j]);
303		}
304
305	+	if (!strcasecmp( entry_plug->ensemble, "NVT"))
306	+	myES->NoseHooverNVT( dt , tStats->getKinetic() );
307	+
308	+	if (!strcasecmp( entry_plug->ensemble, "NPT") )
309	+	myES->NoseHooverAndersonNPT( dt,
310	+	tStats->getKinetic(),
311	+	tStats->getPressure());
312	+
313		time = i + 1;
314
315		if( entry_plug->setTemp ){
316		if( !(time % vel_n) ) tStats->velocitize();
317		}
318		if( !(time % sample_n) ) dump_out->writeDump( time * dt );
319	<	if( !((time+1) % status_n) ) calcPot = 1;
320	<	if( !(time % status_n) ){ e_out->writeStat( time * dt ); calcPot = 0; }
319	>	if( !((time+1) % status_n) ) {
320	>	calcPot = 1;
321	>	// bitwise masking in case we need it for NPT
322	>	calcStress = (!strcasecmp(entry_plug->ensemble,"NPT")) && 1;
323	>	}
324	>	if( !(time % status_n) ){
325	>	e_out->writeStat( time * dt );
326	>	calcPot = 0;
327	>	// bitwise masking in case we need it for NPT
328	>	calcStress = (!strcasecmp(entry_plug->ensemble,"NPT")) && 0;
329	>	}
330		}
331		}
332		else{
333		for(i = 0; i < n_loops; i++){
334	<
334	>
335	>	if (!strcasecmp( entry_plug->ensemble, "NVT"))
336	>	myES->NoseHooverNVT( dt , tStats->getKinetic() );
337	>
338		move_a( dt );
339
340		// calculate the forces
341
342	<	myFF->doForces(calcPot,0);
342	>	myFF->doForces(calcPot,calcStress);
343
344		// complete the verlet move
345
346		move_b( dt );
347
348	+	if (!strcasecmp( entry_plug->ensemble, "NVT"))
349	+	myES->NoseHooverNVT( dt , tStats->getKinetic() );
350	+
351	+	if (!strcasecmp( entry_plug->ensemble, "NPT") )
352	+	myES->NoseHooverAndersonNPT( dt,
353	+	tStats->getKinetic(),
354	+	tStats->getPressure());
355	+
356		time = i + 1;
357
358		if( entry_plug->setTemp ){
359		if( !(time % vel_n) ) tStats->velocitize();
360		}
361		if( !(time % sample_n) ) dump_out->writeDump( time * dt );
362	<	if( !((time+1) % status_n) ) calcPot = 1;
363	<	if( !(time % status_n) ){ e_out->writeStat( time * dt ); calcPot = 0; }
362	>	if( !((time+1) % status_n) ) {
363	>	calcPot = 1;
364	>	// bitwise masking in case we need it for NPT
365	>	calcStress = (!strcasecmp(entry_plug->ensemble,"NPT")) && 1;
366	>	}
367	>	if( !(time % status_n) ){
368	>	e_out->writeStat( time * dt );
369	>	calcPot = 0;
370	>	// bitwise masking in case we need it for NPT
371	>	calcStress = (!strcasecmp(entry_plug->ensemble,"NPT")) && 0;
372	>	}
373		}
374		}
375

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Comparing trunk/OOPSE/libmdtools/Verlet.cpp (file contents): Revision 378 by mmeineke, Fri Mar 21 17:42:12 2003 UTC vs. Revision 475 by gezelter, Tue Apr 8 12:44:18 2003 UTC

Diff Legend

Comparing trunk/OOPSE/libmdtools/Verlet.cpp (file contents):
Revision 378 by mmeineke, Fri Mar 21 17:42:12 2003 UTC vs.
Revision 475 by gezelter, Tue Apr 8 12:44:18 2003 UTC