[ViewVC] Diff of: OpenMD/branches/development/src/brains/ForceManager.cpp

Comparing branches/development/src/brains/ForceManager.cpp (file contents):
Revision 1587 by gezelter, Fri Jul 8 20:25:32 2011 UTC vs.
Revision 1756 by gezelter, Mon Jun 18 18:23:20 2012 UTC

#	Line 36 \| Line 36
36		* [1] Meineke, et al., J. Comp. Chem. 26, 252-271 (2005).
37		* [2] Fennell & Gezelter, J. Chem. Phys. 124, 234104 (2006).
38		* [3] Sun, Lin & Gezelter, J. Chem. Phys. 128, 24107 (2008).
39	<	* [4] Vardeman & Gezelter, in progress (2009).
39	>	* [4] Kuang & Gezelter, J. Chem. Phys. 133, 164101 (2010).
40	>	* [5] Vardeman, Stocker & Gezelter, J. Chem. Theory Comput. 7, 834 (2011).
41		*/
42
43		/**
#	Line 86 \| Line 87 \| namespace OpenMD {
87		* simulation for suggested cutoff values (e.g. 2.5 * sigma).
88		* Use the maximum suggested value that was found.
89		*
90	<	* cutoffMethod : (one of HARD, SWITCHED, SHIFTED_FORCE, SHIFTED_POTENTIAL)
90	>	* cutoffMethod : (one of HARD, SWITCHED, SHIFTED_FORCE,
91	>	* or SHIFTED_POTENTIAL)
92		* If cutoffMethod was explicitly set, use that choice.
93		* If cutoffMethod was not explicitly set, use SHIFTED_FORCE
94		*
#	Line 107 \| Line 109 \| namespace OpenMD {
109
110		Globals* simParams_ = info_->getSimParams();
111		ForceFieldOptions& forceFieldOptions_ = forceField_->getForceFieldOptions();
112	+	int mdFileVersion;
113	+	rCut_ = 0.0; //Needs a value for a later max() call;
114
115	+	if (simParams_->haveMDfileVersion())
116	+	mdFileVersion = simParams_->getMDfileVersion();
117	+	else
118	+	mdFileVersion = 0;
119	+
120		if (simParams_->haveCutoffRadius()) {
121		rCut_ = simParams_->getCutoffRadius();
122		} else {
#	Line 165 \| Line 174 \| namespace OpenMD {
174		cutoffMethod_ = i->second;
175		}
176		} else {
177	<	sprintf(painCave.errMsg,
178	<	"ForceManager::setupCutoffs: No value was set for the cutoffMethod.\n"
179	<	"\tOpenMD will use SHIFTED_FORCE.\n");
180	<	painCave.isFatal = 0;
181	<	painCave.severity = OPENMD_INFO;
182	<	simError();
183	<	cutoffMethod_ = SHIFTED_FORCE;
177	>	if (mdFileVersion > 1) {
178	>	sprintf(painCave.errMsg,
179	>	"ForceManager::setupCutoffs: No value was set for the cutoffMethod.\n"
180	>	"\tOpenMD will use SHIFTED_FORCE.\n");
181	>	painCave.isFatal = 0;
182	>	painCave.severity = OPENMD_INFO;
183	>	simError();
184	>	cutoffMethod_ = SHIFTED_FORCE;
185	>	} else {
186	>	// handle the case where the old file version was in play
187	>	// (there should be no cutoffMethod, so we have to deduce it
188	>	// from other data).
189	>
190	>	sprintf(painCave.errMsg,
191	>	"ForceManager::setupCutoffs : DEPRECATED FILE FORMAT!\n"
192	>	"\tOpenMD found a file which does not set a cutoffMethod.\n"
193	>	"\tOpenMD will attempt to deduce a cutoffMethod using the\n"
194	>	"\tbehavior of the older (version 1) code. To remove this\n"
195	>	"\twarning, add an explicit cutoffMethod and change the top\n"
196	>	"\tof the file so that it begins with <OpenMD version=2>\n");
197	>	painCave.isFatal = 0;
198	>	painCave.severity = OPENMD_WARNING;
199	>	simError();
200	>
201	>	// The old file version tethered the shifting behavior to the
202	>	// electrostaticSummationMethod keyword.
203	>
204	>	if (simParams_->haveElectrostaticSummationMethod()) {
205	>	string myMethod = simParams_->getElectrostaticSummationMethod();
206	>	toUpper(myMethod);
207	>
208	>	if (myMethod == "SHIFTED_POTENTIAL") {
209	>	cutoffMethod_ = SHIFTED_POTENTIAL;
210	>	} else if (myMethod == "SHIFTED_FORCE") {
211	>	cutoffMethod_ = SHIFTED_FORCE;
212	>	}
213	>
214	>	if (simParams_->haveSwitchingRadius())
215	>	rSwitch_ = simParams_->getSwitchingRadius();
216	>
217	>	if (myMethod == "SHIFTED_POTENTIAL" \|\| myMethod == "SHIFTED_FORCE") {
218	>	if (simParams_->haveSwitchingRadius()){
219	>	sprintf(painCave.errMsg,
220	>	"ForceManager::setupCutoffs : DEPRECATED ERROR MESSAGE\n"
221	>	"\tA value was set for the switchingRadius\n"
222	>	"\teven though the electrostaticSummationMethod was\n"
223	>	"\tset to %s\n", myMethod.c_str());
224	>	painCave.severity = OPENMD_WARNING;
225	>	painCave.isFatal = 1;
226	>	simError();
227	>	}
228	>	}
229	>	if (abs(rCut_ - rSwitch_) < 0.0001) {
230	>	if (cutoffMethod_ == SHIFTED_FORCE) {
231	>	sprintf(painCave.errMsg,
232	>	"ForceManager::setupCutoffs : DEPRECATED BEHAVIOR\n"
233	>	"\tcutoffRadius and switchingRadius are set to the\n"
234	>	"\tsame value. OpenMD will use shifted force\n"
235	>	"\tpotentials instead of switching functions.\n");
236	>	painCave.isFatal = 0;
237	>	painCave.severity = OPENMD_WARNING;
238	>	simError();
239	>	} else {
240	>	cutoffMethod_ = SHIFTED_POTENTIAL;
241	>	sprintf(painCave.errMsg,
242	>	"ForceManager::setupCutoffs : DEPRECATED BEHAVIOR\n"
243	>	"\tcutoffRadius and switchingRadius are set to the\n"
244	>	"\tsame value. OpenMD will use shifted potentials\n"
245	>	"\tinstead of switching functions.\n");
246	>	painCave.isFatal = 0;
247	>	painCave.severity = OPENMD_WARNING;
248	>	simError();
249	>	}
250	>	}
251	>	}
252	>	}
253		}
254
255		map<string, CutoffPolicy> stringToCutoffPolicy;
#	Line 179 \| Line 257 \| namespace OpenMD {
257		stringToCutoffPolicy["MAX"] = MAX;
258		stringToCutoffPolicy["TRADITIONAL"] = TRADITIONAL;
259
260	<	std::string cutPolicy;
260	>	string cutPolicy;
261		if (forceFieldOptions_.haveCutoffPolicy()){
262		cutPolicy = forceFieldOptions_.getCutoffPolicy();
263		}else if (simParams_->haveCutoffPolicy()) {
#	Line 241 \| Line 319 \| namespace OpenMD {
319		simError();
320		}
321		} else {
322	<	if (simParams_->haveSwitchingRadius()) {
323	<	map<string, CutoffMethod>::const_iterator it;
324	<	string theMeth;
325	<	for (it = stringToCutoffMethod.begin();
326	<	it != stringToCutoffMethod.end(); ++it) {
327	<	if (it->second == cutoffMethod_) {
328	<	theMeth = it->first;
329	<	break;
322	>	if (mdFileVersion > 1) {
323	>	// throw an error if we define a switching radius and don't need one.
324	>	// older file versions should not do this.
325	>	if (simParams_->haveSwitchingRadius()) {
326	>	map<string, CutoffMethod>::const_iterator it;
327	>	string theMeth;
328	>	for (it = stringToCutoffMethod.begin();
329	>	it != stringToCutoffMethod.end(); ++it) {
330	>	if (it->second == cutoffMethod_) {
331	>	theMeth = it->first;
332	>	break;
333	>	}
334		}
335	+	sprintf(painCave.errMsg,
336	+	"ForceManager::setupCutoffs: the cutoffMethod (%s)\n"
337	+	"\tis not set to SWITCHED, so switchingRadius value\n"
338	+	"\twill be ignored for this simulation\n", theMeth.c_str());
339	+	painCave.isFatal = 0;
340	+	painCave.severity = OPENMD_WARNING;
341	+	simError();
342		}
254	–	sprintf(painCave.errMsg,
255	–	"ForceManager::setupCutoffs: the cutoffMethod (%s)\n"
256	–	"\tis not set to SWITCHED, so switchingRadius value\n"
257	–	"\twill be ignored for this simulation\n", theMeth.c_str());
258	–	painCave.isFatal = 0;
259	–	painCave.severity = OPENMD_WARNING;
260	–	simError();
343		}
262	–
344		rSwitch_ = rCut_;
345		}
346
#	Line 290 \| Line 371 \| namespace OpenMD {
371		switcher_->setSwitch(rSwitch_, rCut_);
372		interactionMan_->setSwitchingRadius(rSwitch_);
373		}
374	+
375	+
376	+
377
378		void ForceManager::initialize() {
379
380		if (!info_->isTopologyDone()) {
381	+
382		info_->update();
383		interactionMan_->setSimInfo(info_);
384		interactionMan_->initialize();
#	Line 301 \| Line 386 \| namespace OpenMD {
386		// We want to delay the cutoffs until after the interaction
387		// manager has set up the atom-atom interactions so that we can
388		// query them for suggested cutoff values
304	–
389		setupCutoffs();
390
391		info_->prepareTopology();
392	+
393	+	doParticlePot_ = info_->getSimParams()->getOutputParticlePotential();
394	+	doHeatFlux_ = info_->getSimParams()->getPrintHeatFlux();
395	+	if (doHeatFlux_) doParticlePot_ = true;
396	+
397		}
398
399		ForceFieldOptions& fopts = forceField_->getForceFieldOptions();
400
401	<	// Force fields can set options on how to scale van der Waals and electrostatic
402	<	// interactions for atoms connected via bonds, bends and torsions
403	<	// in this case the topological distance between atoms is:
401	>	// Force fields can set options on how to scale van der Waals and
402	>	// electrostatic interactions for atoms connected via bonds, bends
403	>	// and torsions in this case the topological distance between
404	>	// atoms is:
405		// 0 = topologically unconnected
406		// 1 = bonded together
407		// 2 = connected via a bend
#	Line 363 \| Line 453 \| namespace OpenMD {
453
454		for (mol = info_->beginMolecule(mi); mol != NULL;
455		mol = info_->nextMolecule(mi)) {
456	<	for(atom = mol->beginAtom(ai); atom != NULL; atom = mol->nextAtom(ai)) {
456	>	for(atom = mol->beginAtom(ai); atom != NULL;
457	>	atom = mol->nextAtom(ai)) {
458		atom->zeroForcesAndTorques();
459		}
460	<
460	>
461		//change the positions of atoms which belong to the rigidbodies
462		for (rb = mol->beginRigidBody(rbIter); rb != NULL;
463		rb = mol->nextRigidBody(rbIter)) {
464		rb->zeroForcesAndTorques();
465		}
466	<
466	>
467		if(info_->getNGlobalCutoffGroups() != info_->getNGlobalAtoms()){
468		for(cg = mol->beginCutoffGroup(ci); cg != NULL;
469		cg = mol->nextCutoffGroup(ci)) {
#	Line 381 \| Line 472 \| namespace OpenMD {
472		}
473		}
474		}
384	–
385	–	// Zero out the stress tensor
386	–	tau *= 0.0;
475
476	+	// Zero out the stress tensor
477	+	stressTensor *= 0.0;
478	+	// Zero out the heatFlux
479	+	fDecomp_->setHeatFlux( Vector3d(0.0) );
480		}
481
482		void ForceManager::shortRangeInteractions() {
#	Line 417 \| Line 509 \| namespace OpenMD {
509
510		for (bond = mol->beginBond(bondIter); bond != NULL;
511		bond = mol->nextBond(bondIter)) {
512	<	bond->calcForce();
512	>	bond->calcForce(doParticlePot_);
513		bondPotential += bond->getPotential();
514		}
515
#	Line 425 \| Line 517 \| namespace OpenMD {
517		bend = mol->nextBend(bendIter)) {
518
519		RealType angle;
520	<	bend->calcForce(angle);
520	>	bend->calcForce(angle, doParticlePot_);
521		RealType currBendPot = bend->getPotential();
522
523		bendPotential += bend->getPotential();
#	Line 435 \| Line 527 \| namespace OpenMD {
527		dataSet.prev.angle = dataSet.curr.angle = angle;
528		dataSet.prev.potential = dataSet.curr.potential = currBendPot;
529		dataSet.deltaV = 0.0;
530	<	bendDataSets.insert(map<Bend*, BendDataSet>::value_type(bend, dataSet));
530	>	bendDataSets.insert(map<Bend*, BendDataSet>::value_type(bend,
531	>	dataSet));
532		}else {
533		i->second.prev.angle = i->second.curr.angle;
534		i->second.prev.potential = i->second.curr.potential;
#	Line 449 \| Line 542 \| namespace OpenMD {
542		for (torsion = mol->beginTorsion(torsionIter); torsion != NULL;
543		torsion = mol->nextTorsion(torsionIter)) {
544		RealType angle;
545	<	torsion->calcForce(angle);
545	>	torsion->calcForce(angle, doParticlePot_);
546		RealType currTorsionPot = torsion->getPotential();
547		torsionPotential += torsion->getPotential();
548		map<Torsion*, TorsionDataSet>::iterator i = torsionDataSets.find(torsion);
#	Line 473 \| Line 566 \| namespace OpenMD {
566		inversion != NULL;
567		inversion = mol->nextInversion(inversionIter)) {
568		RealType angle;
569	<	inversion->calcForce(angle);
569	>	inversion->calcForce(angle, doParticlePot_);
570		RealType currInversionPot = inversion->getPotential();
571		inversionPotential += inversion->getPotential();
572		map<Inversion*, InversionDataSet>::iterator i = inversionDataSets.find(inversion);
#	Line 506 \| Line 599 \| namespace OpenMD {
599
600		void ForceManager::longRangeInteractions() {
601
602	+
603		Snapshot* curSnapshot = info_->getSnapshotManager()->getCurrentSnapshot();
604		DataStorage* config = &(curSnapshot->atomData);
605		DataStorage* cgConfig = &(curSnapshot->cgData);
#	Line 529 \| Line 623 \| namespace OpenMD {
623		// center of mass of the group is the same as position of the atom
624		// if cutoff group does not exist
625		cgConfig->position = config->position;
626	+	cgConfig->velocity = config->velocity;
627		}
628
629		fDecomp_->zeroWorkArrays();
630		fDecomp_->distributeData();
631
632		int cg1, cg2, atom1, atom2, topoDist;
633	<	Vector3d d_grp, dag, d;
633	>	Vector3d d_grp, dag, d, gvel2, vel2;
634		RealType rgrpsq, rgrp, r2, r;
635		RealType electroMult, vdwMult;
636		RealType vij;
#	Line 550 \| Line 645 \| namespace OpenMD {
645		RealType mf;
646		RealType lrPot;
647		RealType vpair;
648	+	RealType dVdFQ1(0.0);
649	+	RealType dVdFQ2(0.0);
650		potVec longRangePotential(0.0);
651		potVec workPot(0.0);
652	+	vector<int>::iterator ia, jb;
653
654		int loopStart, loopEnd;
655
#	Line 560 \| Line 658 \| namespace OpenMD {
658		idat.pot = &workPot;
659		sdat.pot = fDecomp_->getEmbeddingPotential();
660		idat.vpair = &vpair;
661	+	idat.dVdFQ1 = &dVdFQ1;
662	+	idat.dVdFQ2 = &dVdFQ2;
663		idat.f1 = &f1;
664		idat.sw = &sw;
665		idat.shiftedPot = (cutoffMethod_ == SHIFTED_POTENTIAL) ? true : false;
666		idat.shiftedForce = (cutoffMethod_ == SHIFTED_FORCE) ? true : false;
667	+	idat.doParticlePot = doParticlePot_;
668	+	sdat.doParticlePot = doParticlePot_;
669
670		loopEnd = PAIR_LOOP;
671		if (info_->requiresPrepair() ) {
#	Line 571 \| Line 673 \| namespace OpenMD {
673		} else {
674		loopStart = PAIR_LOOP;
675		}
574	–
676		for (int iLoop = loopStart; iLoop <= loopEnd; iLoop++) {
677
678		if (iLoop == loopStart) {
679		bool update_nlist = fDecomp_->checkNeighborList();
680		if (update_nlist)
681		neighborList = fDecomp_->buildNeighborList();
682	<	}
683	<
682	>	}
683	>
684		for (vector<pair<int, int> >::iterator it = neighborList.begin();
685		it != neighborList.end(); ++it) {
686
#	Line 589 \| Line 690 \| namespace OpenMD {
690		cuts = fDecomp_->getGroupCutoffs(cg1, cg2);
691
692		d_grp = fDecomp_->getIntergroupVector(cg1, cg2);
693	+
694		curSnapshot->wrapVector(d_grp);
695		rgrpsq = d_grp.lengthSquare();
594	–
696		rCutSq = cuts.second;
697
698		if (rgrpsq < rCutSq) {
#	Line 603 \| Line 704 \| namespace OpenMD {
704
705		in_switching_region = switcher_->getSwitch(rgrpsq, sw, dswdr,
706		rgrp);
707	<
707	>
708		atomListRow = fDecomp_->getAtomsInGroupRow(cg1);
709		atomListColumn = fDecomp_->getAtomsInGroupColumn(cg2);
710
711	<	for (vector<int>::iterator ia = atomListRow.begin();
711	>	if (doHeatFlux_)
712	>	gvel2 = fDecomp_->getGroupVelocityColumn(cg2);
713	>
714	>	for (ia = atomListRow.begin();
715		ia != atomListRow.end(); ++ia) {
716		atom1 = (*ia);
717	<
718	<	for (vector<int>::iterator jb = atomListColumn.begin();
717	>
718	>	for (jb = atomListColumn.begin();
719		jb != atomListColumn.end(); ++jb) {
720		atom2 = (*jb);
721	<
722	<	if (!fDecomp_->skipAtomPair(atom1, atom2)) {
721	>
722	>	if (!fDecomp_->skipAtomPair(atom1, atom2, cg1, cg2)) {
723	>
724		vpair = 0.0;
725		workPot = 0.0;
726		f1 = V3Zero;
727	+	dVdFQ1 = 0.0;
728	+	dVdFQ2 = 0.0;
729
730		fDecomp_->fillInteractionData(idat, atom1, atom2);
731	<
731	>
732		topoDist = fDecomp_->getTopologicalDistance(atom1, atom2);
733		vdwMult = vdwScale_[topoDist];
734		electroMult = electrostaticScale_[topoDist];
#	Line 629 \| Line 736 \| namespace OpenMD {
736		if (atomListRow.size() == 1 && atomListColumn.size() == 1) {
737		idat.d = &d_grp;
738		idat.r2 = &rgrpsq;
739	+	if (doHeatFlux_)
740	+	vel2 = gvel2;
741		} else {
742		d = fDecomp_->getInteratomicVector(atom1, atom2);
743		curSnapshot->wrapVector( d );
744		r2 = d.lengthSquare();
745		idat.d = &d;
746		idat.r2 = &r2;
747	+	if (doHeatFlux_)
748	+	vel2 = fDecomp_->getAtomVelocityColumn(atom2);
749		}
750	<
750	>
751		r = sqrt( *(idat.r2) );
752		idat.rij = &r;
753
#	Line 647 \| Line 758 \| namespace OpenMD {
758		fDecomp_->unpackInteractionData(idat, atom1, atom2);
759		vij += vpair;
760		fij += f1;
761	<	tau -= outProduct( *(idat.d), f1);
761	>	stressTensor -= outProduct( *(idat.d), f1);
762	>	if (doHeatFlux_)
763	>	fDecomp_->addToHeatFlux((idat.d) dot(f1, vel2));
764		}
765		}
766		}
#	Line 660 \| Line 773 \| namespace OpenMD {
773		fij += fg;
774
775		if (atomListRow.size() == 1 && atomListColumn.size() == 1) {
776	<	tau -= outProduct( *(idat.d), fg);
776	>	stressTensor -= outProduct( *(idat.d), fg);
777	>	if (doHeatFlux_)
778	>	fDecomp_->addToHeatFlux((idat.d) dot(fg, vel2));
779	>
780		}
781
782	<	for (vector<int>::iterator ia = atomListRow.begin();
782	>	for (ia = atomListRow.begin();
783		ia != atomListRow.end(); ++ia) {
784		atom1 = (*ia);
785		mf = fDecomp_->getMassFactorRow(atom1);
#	Line 671 \| Line 787 \| namespace OpenMD {
787		// presence in switching region
788		fg = swderiv * d_grp * mf;
789		fDecomp_->addForceToAtomRow(atom1, fg);
674	–
790		if (atomListRow.size() > 1) {
791		if (info_->usesAtomicVirial()) {
792		// find the distance between the atom
793		// and the center of the cutoff group:
794		dag = fDecomp_->getAtomToGroupVectorRow(atom1, cg1);
795	<	tau -= outProduct(dag, fg);
795	>	stressTensor -= outProduct(dag, fg);
796	>	if (doHeatFlux_)
797	>	fDecomp_->addToHeatFlux( dag * dot(fg, vel2));
798		}
799		}
800		}
801	<	for (vector<int>::iterator jb = atomListColumn.begin();
801	>	for (jb = atomListColumn.begin();
802		jb != atomListColumn.end(); ++jb) {
803		atom2 = (*jb);
804		mf = fDecomp_->getMassFactorColumn(atom2);
#	Line 695 \| Line 812 \| namespace OpenMD {
812		// find the distance between the atom
813		// and the center of the cutoff group:
814		dag = fDecomp_->getAtomToGroupVectorColumn(atom2, cg2);
815	<	tau -= outProduct(dag, fg);
815	>	stressTensor -= outProduct(dag, fg);
816	>	if (doHeatFlux_)
817	>	fDecomp_->addToHeatFlux( dag * dot(fg, vel2));
818		}
819		}
820		}
821		}
822	<	//if (!SIM_uses_AtomicVirial) {
823	<	// tau -= outProduct(d_grp, fij);
822	>	//if (!info_->usesAtomicVirial()) {
823	>	// stressTensor -= outProduct(d_grp, fij);
824	>	// if (doHeatFlux_)
825	>	// fDecomp_->addToHeatFlux( d_grp * dot(fij, vel2));
826		//}
827		}
828		}
829		}
830
831		if (iLoop == PREPAIR_LOOP) {
832	<	if (info_->requiresPrepair()) {
832	>	if (info_->requiresPrepair()) {
833	>
834		fDecomp_->collectIntermediateData();
835
836		for (int atom1 = 0; atom1 < info_->getNAtoms(); atom1++) {
837		fDecomp_->fillSelfData(sdat, atom1);
838		interactionMan_->doPreForce(sdat);
839		}
840	<
841	<
842	<	fDecomp_->distributeIntermediateData();
840	>
841	>	fDecomp_->distributeIntermediateData();
842	>
843		}
844		}
723	–
845		}
846
847	+	// collects pairwise information
848		fDecomp_->collectData();
849
850		if (info_->requiresSelfCorrection()) {
851	<
730	<	for (int atom1 = 0; atom1 < info_->getNAtoms(); atom1++) {
851	>	for (int atom1 = 0; atom1 < info_->getNAtoms(); atom1++) {
852		fDecomp_->fillSelfData(sdat, atom1);
853		interactionMan_->doSelfCorrection(sdat);
854		}
734	–
855		}
856
857	+	// collects single-atom information
858	+	fDecomp_->collectSelfData();
859	+
860		longRangePotential = *(fDecomp_->getEmbeddingPotential()) +
861		*(fDecomp_->getPairwisePotential());
862
863		lrPot = longRangePotential.sum();
864
865	<	//store the tau and long range potential
865	>	//store the stressTensor and long range potential
866		curSnapshot->statData[Stats::LONG_RANGE_POTENTIAL] = lrPot;
867		curSnapshot->statData[Stats::VANDERWAALS_POTENTIAL] = longRangePotential[VANDERWAALS_FAMILY];
868		curSnapshot->statData[Stats::ELECTROSTATIC_POTENTIAL] = longRangePotential[ELECTROSTATIC_FAMILY];
#	Line 760 \| Line 883 \| namespace OpenMD {
883		for (rb = mol->beginRigidBody(rbIter); rb != NULL;
884		rb = mol->nextRigidBody(rbIter)) {
885		Mat3x3d rbTau = rb->calcForcesAndTorquesAndVirial();
886	<	tau += rbTau;
886	>	stressTensor += rbTau;
887		}
888		}
889
890		#ifdef IS_MPI
891	<	Mat3x3d tmpTau(tau);
892	<	MPI_Allreduce(tmpTau.getArrayPointer(), tau.getArrayPointer(),
770	<	9, MPI_REALTYPE, MPI_SUM, MPI_COMM_WORLD);
891	>	MPI::COMM_WORLD.Allreduce(MPI::IN_PLACE, stressTensor.getArrayPointer(), 9,
892	>	MPI::REALTYPE, MPI::SUM);
893		#endif
894	<	curSnapshot->statData.setTau(tau);
894	>	curSnapshot->setStressTensor(stressTensor);
895	>
896		}
897
898		} //end namespace OpenMD

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Comparing branches/development/src/brains/ForceManager.cpp (file contents): Revision 1587 by gezelter, Fri Jul 8 20:25:32 2011 UTC vs. Revision 1756 by gezelter, Mon Jun 18 18:23:20 2012 UTC

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Comparing branches/development/src/brains/ForceManager.cpp (file contents):
Revision 1587 by gezelter, Fri Jul 8 20:25:32 2011 UTC vs.
Revision 1756 by gezelter, Mon Jun 18 18:23:20 2012 UTC