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

Comparing branches/development/src/brains/ForceManager.cpp (file contents):
Revision 1711 by gezelter, Sat May 19 02:58:35 2012 UTC vs.
Revision 1755 by gezelter, Thu Jun 14 01:58:35 2012 UTC

#	Line 110 \| Line 110 \| namespace OpenMD {
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();
#	Line 390 \| Line 391 \| namespace OpenMD {
391		info_->prepareTopology();
392
393		doParticlePot_ = info_->getSimParams()->getOutputParticlePotential();
394	<	cerr << "dPP = " << doParticlePot_ << "\n";
394	>	doHeatFlux_ = info_->getSimParams()->getPrintHeatFlux();
395	>	if (doHeatFlux_) doParticlePot_ = true;
396
397		}
398
#	Line 472 \| Line 474 \| namespace OpenMD {
474		}
475
476		// Zero out the stress tensor
477	<	tau *= 0.0;
478	<
477	>	stressTensor *= 0.0;
478	>	// Zero out the heatFlux
479	>	fDecomp_->setHeatFlux( Vector3d(0.0) );
480		}
481
482		void ForceManager::shortRangeInteractions() {
#	Line 506 \| 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 514 \| 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 539 \| 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 563 \| 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 596 \| 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 619 \| 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 640 \| 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 650 \| 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;
#	Line 663 \| Line 673 \| namespace OpenMD {
673		} else {
674		loopStart = PAIR_LOOP;
675		}
666	–
676		for (int iLoop = loopStart; iLoop <= loopEnd; iLoop++) {
677
678		if (iLoop == loopStart) {
#	Line 695 \| Line 704 \| namespace OpenMD {
704
705		in_switching_region = switcher_->getSwitch(rgrpsq, sw, dswdr,
706		rgrp);
698	–
707		atomListRow = fDecomp_->getAtomsInGroupRow(cg1);
708		atomListColumn = fDecomp_->getAtomsInGroupColumn(cg2);
709
710	<	for (vector<int>::iterator ia = atomListRow.begin();
710	>	if (doHeatFlux_)
711	>	gvel2 = fDecomp_->getGroupVelocityColumn(cg2);
712	>
713	>	for (ia = atomListRow.begin();
714		ia != atomListRow.end(); ++ia) {
715		atom1 = (*ia);
716	<
717	<	for (vector<int>::iterator jb = atomListColumn.begin();
716	>
717	>	for (jb = atomListColumn.begin();
718		jb != atomListColumn.end(); ++jb) {
719		atom2 = (*jb);
720
#	Line 711 \| Line 722 \| namespace OpenMD {
722		vpair = 0.0;
723		workPot = 0.0;
724		f1 = V3Zero;
725	+	dVdFQ1 = 0.0;
726	+	dVdFQ2 = 0.0;
727
728		fDecomp_->fillInteractionData(idat, atom1, atom2);
729	<
729	>
730		topoDist = fDecomp_->getTopologicalDistance(atom1, atom2);
731		vdwMult = vdwScale_[topoDist];
732		electroMult = electrostaticScale_[topoDist];
#	Line 721 \| Line 734 \| namespace OpenMD {
734		if (atomListRow.size() == 1 && atomListColumn.size() == 1) {
735		idat.d = &d_grp;
736		idat.r2 = &rgrpsq;
737	+	if (doHeatFlux_)
738	+	vel2 = gvel2;
739		} else {
740		d = fDecomp_->getInteratomicVector(atom1, atom2);
741		curSnapshot->wrapVector( d );
742		r2 = d.lengthSquare();
743		idat.d = &d;
744		idat.r2 = &r2;
745	+	if (doHeatFlux_)
746	+	vel2 = fDecomp_->getAtomVelocityColumn(atom2);
747		}
748
749		r = sqrt( *(idat.r2) );
#	Line 739 \| Line 756 \| namespace OpenMD {
756		fDecomp_->unpackInteractionData(idat, atom1, atom2);
757		vij += vpair;
758		fij += f1;
759	<	tau -= outProduct( *(idat.d), f1);
759	>	stressTensor -= outProduct( *(idat.d), f1);
760	>	if (doHeatFlux_)
761	>	fDecomp_->addToHeatFlux((idat.d) dot(f1, vel2));
762		}
763		}
764		}
#	Line 752 \| Line 771 \| namespace OpenMD {
771		fij += fg;
772
773		if (atomListRow.size() == 1 && atomListColumn.size() == 1) {
774	<	tau -= outProduct( *(idat.d), fg);
774	>	stressTensor -= outProduct( *(idat.d), fg);
775	>	if (doHeatFlux_)
776	>	fDecomp_->addToHeatFlux((idat.d) dot(fg, vel2));
777	>
778		}
779
780	<	for (vector<int>::iterator ia = atomListRow.begin();
780	>	for (ia = atomListRow.begin();
781		ia != atomListRow.end(); ++ia) {
782		atom1 = (*ia);
783		mf = fDecomp_->getMassFactorRow(atom1);
#	Line 768 \| Line 790 \| namespace OpenMD {
790		// find the distance between the atom
791		// and the center of the cutoff group:
792		dag = fDecomp_->getAtomToGroupVectorRow(atom1, cg1);
793	<	tau -= outProduct(dag, fg);
793	>	stressTensor -= outProduct(dag, fg);
794	>	if (doHeatFlux_)
795	>	fDecomp_->addToHeatFlux( dag * dot(fg, vel2));
796		}
797		}
798		}
799	<	for (vector<int>::iterator jb = atomListColumn.begin();
799	>	for (jb = atomListColumn.begin();
800		jb != atomListColumn.end(); ++jb) {
801		atom2 = (*jb);
802		mf = fDecomp_->getMassFactorColumn(atom2);
#	Line 786 \| Line 810 \| namespace OpenMD {
810		// find the distance between the atom
811		// and the center of the cutoff group:
812		dag = fDecomp_->getAtomToGroupVectorColumn(atom2, cg2);
813	<	tau -= outProduct(dag, fg);
813	>	stressTensor -= outProduct(dag, fg);
814	>	if (doHeatFlux_)
815	>	fDecomp_->addToHeatFlux( dag * dot(fg, vel2));
816		}
817		}
818		}
819		}
820		//if (!info_->usesAtomicVirial()) {
821	<	// tau -= outProduct(d_grp, fij);
821	>	// stressTensor -= outProduct(d_grp, fij);
822	>	// if (doHeatFlux_)
823	>	// fDecomp_->addToHeatFlux( d_grp * dot(fij, vel2));
824		//}
825		}
826		}
#	Line 830 \| Line 858 \| namespace OpenMD {
858
859		lrPot = longRangePotential.sum();
860
861	<	//store the tau and long range potential
861	>	//store the stressTensor and long range potential
862		curSnapshot->statData[Stats::LONG_RANGE_POTENTIAL] = lrPot;
863		curSnapshot->statData[Stats::VANDERWAALS_POTENTIAL] = longRangePotential[VANDERWAALS_FAMILY];
864		curSnapshot->statData[Stats::ELECTROSTATIC_POTENTIAL] = longRangePotential[ELECTROSTATIC_FAMILY];
#	Line 851 \| Line 879 \| namespace OpenMD {
879		for (rb = mol->beginRigidBody(rbIter); rb != NULL;
880		rb = mol->nextRigidBody(rbIter)) {
881		Mat3x3d rbTau = rb->calcForcesAndTorquesAndVirial();
882	<	tau += rbTau;
882	>	stressTensor += rbTau;
883		}
884		}
885
886		#ifdef IS_MPI
887	<	Mat3x3d tmpTau(tau);
888	<	MPI_Allreduce(tmpTau.getArrayPointer(), tau.getArrayPointer(),
889	<	9, MPI_REALTYPE, MPI_SUM, MPI_COMM_WORLD);
887	>
888	>	MPI::COMM_WORLD.Allreduce(MPI::IN_PLACE, stressTensor.getArrayPointer(), 9,
889	>	MPI::REALTYPE, MPI::SUM);
890		#endif
891	<	curSnapshot->setTau(tau);
891	>	curSnapshot->setStressTensor(stressTensor);
892	>
893		}
894
895		} //end namespace OpenMD

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Comparing branches/development/src/brains/ForceManager.cpp (file contents): Revision 1711 by gezelter, Sat May 19 02:58:35 2012 UTC vs. Revision 1755 by gezelter, Thu Jun 14 01:58:35 2012 UTC

Diff Legend

Comparing branches/development/src/brains/ForceManager.cpp (file contents):
Revision 1711 by gezelter, Sat May 19 02:58:35 2012 UTC vs.
Revision 1755 by gezelter, Thu Jun 14 01:58:35 2012 UTC