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

Comparing trunk/OOPSE/libmdtools/Symplectic.cpp (file contents):
Revision 466 by gezelter, Mon Apr 7 14:30:36 2003 UTC vs.
Revision 482 by chuckv, Tue Apr 8 22:38:43 2003 UTC

#	Line 38 \| Line 38 \| *Symplectic::Symplectic( SimInfo the_entry_plug, Force**
38		myES = the_es;
39		isFirst = 1;
40
41	+	std::cerr<< "calling symplectic constructor\n";
42	+
43		molecules = entry_plug->molecules;
44		nMols = entry_plug->n_mol;
45
#	Line 162 \| Line 164 \| void Symplectic::integrate( void ){
164		double dt2; // half the dt
165
166		double vx, vy, vz; // the velocities
167	<	// double vx2, vy2, vz2; // the square of the velocities
167	>	double vx2, vy2, vz2; // the square of the velocities
168		double rx, ry, rz; // the postitions
169
170		double ji[3]; // the body frame angular momentum
#	Line 184 \| Line 186 \| void Symplectic::integrate( void ){
186		int status_n = (int)( statusTime / dt );
187		int vel_n = (int)( thermalTime / dt );
188
189	<	int calcPot;
189	>	int calcPot, calcStress;
190
191	<	Thermo *tStats = new Thermo( entry_plug );
191	>	Thermo *tStats;
192	>	StatWriter* e_out;
193	>	DumpWriter* dump_out;
194
195	<	StatWriter* e_out = new StatWriter( entry_plug );
192	<	DumpWriter* dump_out = new DumpWriter( entry_plug );
195	>	std::cerr << "about to call new thermo\n";
196
197	+	tStats = new Thermo( entry_plug );
198	+	e_out = new StatWriter( entry_plug );
199	+
200	+	std::cerr << "calling dumpWriter \n";
201	+	dump_out = new DumpWriter( entry_plug );
202	+	std::cerr << "called dumpWriter \n";
203	+
204		Atom** atoms = entry_plug->atoms;
205		DirectionalAtom* dAtom;
206		dt2 = 0.5 * dt;
207
208		// initialize the forces the before the first step
209
210	<	myFF->doForces(1,0);
210	>	myFF->doForces(1,1);
211
212		if( entry_plug->setTemp ){
213
#	Line 208 \| Line 218 \| void Symplectic::integrate( void ){
218		e_out->writeStat( 0.0 );
219
220		calcPot = 0;
221	+
222	+	if (!strcasecmp( entry_plug->ensemble, "NPT")) {
223	+	calcStress = 1;
224	+	} else {
225	+	calcStress = 0;
226	+	}
227
228		if( n_constrained ){
229
#	Line 225 \| Line 241 \| void Symplectic::integrate( void ){
241
242
243		for( tl=0; tl < n_loops; tl++ ){
244	+
245	+	if (!strcasecmp( entry_plug->ensemble, "NVT"))
246	+	myES->NoseHooverNVT( dt / 2.0 , tStats->getKinetic() );
247
248		for( j=0; j<nAtoms; j++ ){
249
#	Line 325 \| Line 344 \| void Symplectic::integrate( void ){
344
345		// calculate the forces
346
347	<	myFF->doForces(calcPot, 0);
347	>	myFF->doForces(calcPot, calcStress);
348
349		// move b
350
#	Line 390 \| Line 409 \| void Symplectic::integrate( void ){
409		}
410		}
411
412	+
413	+	if (!strcasecmp( entry_plug->ensemble, "NVT"))
414	+	myES->NoseHooverNVT( dt / 2.0, tStats->getKinetic() );
415	+
416	+	if (!strcasecmp( entry_plug->ensemble, "NPT") )
417	+	myES->NoseHooverAndersonNPT( dt,
418	+	tStats->getKinetic(),
419	+	tStats->getPressure());
420	+
421		time = tl + 1;
422
423		if( entry_plug->setTemp ){
424		if( !(time % vel_n) ) tStats->velocitize();
425		}
426		if( !(time % sample_n) ) dump_out->writeDump( time * dt );
427	<	if( !((time+1) % status_n) ) calcPot = 1;
428	<	if( !(time % status_n) ){ e_out->writeStat( time * dt ); calcPot = 0; }
427	>	if( !((time+1) % status_n) ) {
428	>	calcPot = 1;
429	>	// bitwise masking in case we need it for NPT
430	>	calcStress = (!strcasecmp(entry_plug->ensemble,"NPT")) && 1;
431	>	}
432	>	if( !(time % status_n) ){
433	>	e_out->writeStat( time * dt );
434	>	calcPot = 0;
435	>	// bitwise masking in case we need it for NPT
436	>	calcStress = (!strcasecmp(entry_plug->ensemble,"NPT")) && 0;
437	>	}
438		}
439		}
440		else{
#	Line 407 \| Line 444 \| void Symplectic::integrate( void ){
444		kE = 0.0;
445		rot_kE= 0.0;
446		trans_kE = 0.0;
447	+
448	+	if (!strcasecmp( entry_plug->ensemble, "NVT"))
449	+	myES->NoseHooverNVT( dt / 2.0, tStats->getKinetic() );
450
451		for( i=0; i<nAtoms; i++ ){
452
#	Line 495 \| Line 535 \| void Symplectic::integrate( void ){
535
536		// calculate the forces
537
538	<	myFF->doForces(calcPot,0);
538	>	myFF->doForces(calcPot,calcStress);
539
540		for( i=0; i< nAtoms; i++ ){
541
#	Line 512 \| Line 552 \| void Symplectic::integrate( void ){
552		atoms[i]->set_vy( vy );
553		atoms[i]->set_vz( vz );
554
555	<	// vx2 = vx * vx;
556	<	// vy2 = vy * vy;
557	<	// vz2 = vz * vz;
555	>	vx2 = vx * vx;
556	>	vy2 = vy * vy;
557	>	vz2 = vz * vz;
558
559		if( atoms[i]->isDirectional() ){
560
#	Line 545 \| Line 585 \| void Symplectic::integrate( void ){
585		dAtom->setJx( ji[0] );
586		dAtom->setJy( ji[1] );
587		dAtom->setJz( ji[2] );
588	<	}
588	>	}
589		}
590	<
590	>
591	>	if (!strcasecmp( entry_plug->ensemble, "NVT"))
592	>	myES->NoseHooverNVT( dt / 2.0, tStats->getKinetic() );
593	>
594	>	if (!strcasecmp( entry_plug->ensemble, "NPT") )
595	>	myES->NoseHooverAndersonNPT( dt,
596	>	tStats->getKinetic(),
597	>	tStats->getPressure());
598	>
599		time = tl + 1;
600
601		if( entry_plug->setTemp ){
602		if( !(time % vel_n) ) tStats->velocitize();
603		}
604		if( !(time % sample_n) ) dump_out->writeDump( time * dt );
605	<	if( !((time+1) % status_n) ) calcPot = 1;
606	<	if( !(time % status_n) ){ e_out->writeStat( time * dt ); calcPot = 0; }
605	>	if( !((time+1) % status_n) ) {
606	>	calcPot = 1;
607	>	// bitwise masking in case we need it for NPT
608	>	calcStress = (!strcasecmp(entry_plug->ensemble,"NPT")) && 1;
609	>	}
610	>	if( !(time % status_n) ){
611	>	e_out->writeStat( time * dt );
612	>	calcPot = 0;
613	>	// bitwise masking in case we need it for NPT
614	>	calcStress = (!strcasecmp(entry_plug->ensemble,"NPT")) && 0;
615	>	}
616		}
617		}
618

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Comparing trunk/OOPSE/libmdtools/Symplectic.cpp (file contents): Revision 466 by gezelter, Mon Apr 7 14:30:36 2003 UTC vs. Revision 482 by chuckv, Tue Apr 8 22:38:43 2003 UTC

Diff Legend

Comparing trunk/OOPSE/libmdtools/Symplectic.cpp (file contents):
Revision 466 by gezelter, Mon Apr 7 14:30:36 2003 UTC vs.
Revision 482 by chuckv, Tue Apr 8 22:38:43 2003 UTC