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

Comparing trunk/src/brains/ForceManager.cpp (file contents):
Revision 1879 by gezelter, Sun Jun 16 15:15:42 2013 UTC vs.
Revision 2047 by gezelter, Thu Dec 11 16:16:43 2014 UTC

#	Line 57 \| Line 57
57		#include "primitives/Torsion.hpp"
58		#include "primitives/Inversion.hpp"
59		#include "nonbonded/NonBondedInteraction.hpp"
60	<	#include "perturbations/ElectricField.hpp"
60	>	#include "perturbations/UniformField.hpp"
61	>	#include "perturbations/UniformGradient.hpp"
62		#include "parallel/ForceMatrixDecomposition.hpp"
63
64		#include <cstdio>
#	Line 99 \| Line 100 \| namespace OpenMD {
100		* Use the maximum suggested value that was found.
101		*
102		* cutoffMethod : (one of HARD, SWITCHED, SHIFTED_FORCE, TAYLOR_SHIFTED,
103	<	* or SHIFTED_POTENTIAL)
103	>	* SHIFTED_POTENTIAL, or EWALD_FULL)
104		* If cutoffMethod was explicitly set, use that choice.
105		* If cutoffMethod was not explicitly set, use SHIFTED_FORCE
106		*
#	Line 172 \| Line 173 \| namespace OpenMD {
173		stringToCutoffMethod["SHIFTED_POTENTIAL"] = SHIFTED_POTENTIAL;
174		stringToCutoffMethod["SHIFTED_FORCE"] = SHIFTED_FORCE;
175		stringToCutoffMethod["TAYLOR_SHIFTED"] = TAYLOR_SHIFTED;
176	+	stringToCutoffMethod["EWALD_FULL"] = EWALD_FULL;
177
178		if (simParams_->haveCutoffMethod()) {
179		string cutMeth = toUpperCopy(simParams_->getCutoffMethod());
#	Line 182 \| Line 184 \| namespace OpenMD {
184		"ForceManager::setupCutoffs: Could not find chosen cutoffMethod %s\n"
185		"\tShould be one of: "
186		"HARD, SWITCHED, SHIFTED_POTENTIAL, TAYLOR_SHIFTED,\n"
187	<	"\tor SHIFTED_FORCE\n",
187	>	"\tSHIFTED_FORCE, or EWALD_FULL\n",
188		cutMeth.c_str());
189		painCave.isFatal = 1;
190		painCave.severity = OPENMD_ERROR;
#	Line 228 \| Line 230 \| namespace OpenMD {
230		cutoffMethod_ = SHIFTED_FORCE;
231		} else if (myMethod == "TAYLOR_SHIFTED") {
232		cutoffMethod_ = TAYLOR_SHIFTED;
233	+	} else if (myMethod == "EWALD_FULL") {
234	+	cutoffMethod_ = EWALD_FULL;
235		}
236
237		if (simParams_->haveSwitchingRadius())
238		rSwitch_ = simParams_->getSwitchingRadius();
239
240		if (myMethod == "SHIFTED_POTENTIAL" \|\| myMethod == "SHIFTED_FORCE" \|\|
241	<	myMethod == "TAYLOR_SHIFTED") {
241	>	myMethod == "TAYLOR_SHIFTED" \|\| myMethod == "EWALD_FULL") {
242		if (simParams_->haveSwitchingRadius()){
243		sprintf(painCave.errMsg,
244		"ForceManager::setupCutoffs : DEPRECATED ERROR MESSAGE\n"
#	Line 391 \| Line 395 \| namespace OpenMD {
395		switcher_->setSwitch(rSwitch_, rCut_);
396		}
397
394	–
395	–
396	–
398		void ForceManager::initialize() {
399
400		if (!info_->isTopologyDone()) {
#	Line 402 \| Line 403 \| namespace OpenMD {
403		interactionMan_->setSimInfo(info_);
404		interactionMan_->initialize();
405
406	<	// We want to delay the cutoffs until after the interaction
407	<	// manager has set up the atom-atom interactions so that we can
408	<	// query them for suggested cutoff values
406	>	//! We want to delay the cutoffs until after the interaction
407	>	//! manager has set up the atom-atom interactions so that we can
408	>	//! query them for suggested cutoff values
409		setupCutoffs();
410
411		info_->prepareTopology();
#	Line 414 \| Line 415 \| namespace OpenMD {
415		if (doHeatFlux_) doParticlePot_ = true;
416
417		doElectricField_ = info_->getSimParams()->getOutputElectricField();
418	+	doSitePotential_ = info_->getSimParams()->getOutputSitePotential();
419
420		}
421
422		ForceFieldOptions& fopts = forceField_->getForceFieldOptions();
423
424	<	// Force fields can set options on how to scale van der Waals and
425	<	// electrostatic interactions for atoms connected via bonds, bends
426	<	// and torsions in this case the topological distance between
427	<	// atoms is:
428	<	// 0 = topologically unconnected
429	<	// 1 = bonded together
430	<	// 2 = connected via a bend
431	<	// 3 = connected via a torsion
424	>	//! Force fields can set options on how to scale van der Waals and
425	>	//! electrostatic interactions for atoms connected via bonds, bends
426	>	//! and torsions in this case the topological distance between
427	>	//! atoms is:
428	>	//! 0 = topologically unconnected
429	>	//! 1 = bonded together
430	>	//! 2 = connected via a bend
431	>	//! 3 = connected via a torsion
432
433		vdwScale_.reserve(4);
434		fill(vdwScale_.begin(), vdwScale_.end(), 0.0);
#	Line 444 \| Line 446 \| namespace OpenMD {
446		electrostaticScale_[2] = fopts.getelectrostatic13scale();
447		electrostaticScale_[3] = fopts.getelectrostatic14scale();
448
449	<	if (info_->getSimParams()->haveElectricField()) {
450	<	ElectricField* eField = new ElectricField(info_);
449	>	if (info_->getSimParams()->haveUniformField()) {
450	>	UniformField* eField = new UniformField(info_);
451		perturbations_.push_back(eField);
452		}
453	<
453	>	if (info_->getSimParams()->haveUniformGradientStrength() \|\|
454	>	info_->getSimParams()->haveUniformGradientDirection1() \|\|
455	>	info_->getSimParams()->haveUniformGradientDirection2() ) {
456	>	UniformGradient* eGrad = new UniformGradient(info_);
457	>	perturbations_.push_back(eGrad);
458	>	}
459	>
460		usePeriodicBoundaryConditions_ = info_->getSimParams()->getUsePeriodicBoundaryConditions();
461
462		fDecomp_->distributeInitialData();
#	Line 634 \| Line 642 \| namespace OpenMD {
642		// Collect from all nodes. This should eventually be moved into a
643		// SystemDecomposition, but this is a better place than in
644		// Thermo to do the collection.
645	<	MPI::COMM_WORLD.Allreduce(MPI::IN_PLACE, &bondPotential, 1, MPI::REALTYPE,
646	<	MPI::SUM);
647	<	MPI::COMM_WORLD.Allreduce(MPI::IN_PLACE, &bendPotential, 1, MPI::REALTYPE,
648	<	MPI::SUM);
649	<	MPI::COMM_WORLD.Allreduce(MPI::IN_PLACE, &torsionPotential, 1,
650	<	MPI::REALTYPE, MPI::SUM);
651	<	MPI::COMM_WORLD.Allreduce(MPI::IN_PLACE, &inversionPotential, 1,
652	<	MPI::REALTYPE, MPI::SUM);
645	>
646	>	MPI_Allreduce(MPI_IN_PLACE, &bondPotential, 1, MPI_REALTYPE,
647	>	MPI_SUM, MPI_COMM_WORLD);
648	>	MPI_Allreduce(MPI_IN_PLACE, &bendPotential, 1, MPI_REALTYPE,
649	>	MPI_SUM, MPI_COMM_WORLD);
650	>	MPI_Allreduce(MPI_IN_PLACE, &torsionPotential, 1,
651	>	MPI_REALTYPE, MPI_SUM, MPI_COMM_WORLD);
652	>	MPI_Allreduce(MPI_IN_PLACE, &inversionPotential, 1,
653	>	MPI_REALTYPE, MPI_SUM, MPI_COMM_WORLD);
654		#endif
655
656		Snapshot* curSnapshot = info_->getSnapshotManager()->getCurrentSnapshot();
#	Line 662 \| Line 671 \| namespace OpenMD {
671		Snapshot* curSnapshot = info_->getSnapshotManager()->getCurrentSnapshot();
672		DataStorage* config = &(curSnapshot->atomData);
673		DataStorage* cgConfig = &(curSnapshot->cgData);
674	+
675
676		//calculate the center of mass of cutoff group
677
#	Line 695 \| Line 705 \| namespace OpenMD {
705		RealType vij;
706		Vector3d fij, fg, f1;
707		tuple3<RealType, RealType, RealType> cuts;
708	<	RealType rCutSq;
708	>	RealType rCut, rCutSq, rListSq;
709		bool in_switching_region;
710		RealType sw, dswdr, swderiv;
711		vector<int> atomListColumn, atomListRow;
#	Line 705 \| Line 715 \| namespace OpenMD {
715		RealType vpair;
716		RealType dVdFQ1(0.0);
717		RealType dVdFQ2(0.0);
708	–	Vector3d eField1(0.0);
709	–	Vector3d eField2(0.0);
718		potVec longRangePotential(0.0);
719	+	RealType reciprocalPotential(0.0);
720		potVec workPot(0.0);
721		potVec exPot(0.0);
722	+	Vector3d eField1(0.0);
723	+	Vector3d eField2(0.0);
724	+	RealType sPot1(0.0);
725	+	RealType sPot2(0.0);
726	+
727		vector<int>::iterator ia, jb;
728
729		int loopStart, loopEnd;
730	<
730	>
731	>	idat.rcut = &rCut;
732		idat.vdwMult = &vdwMult;
733		idat.electroMult = &electroMult;
734		idat.pot = &workPot;
#	Line 724 \| Line 739 \| namespace OpenMD {
739		idat.dVdFQ1 = &dVdFQ1;
740		idat.dVdFQ2 = &dVdFQ2;
741		idat.eField1 = &eField1;
742	<	idat.eField2 = &eField2;
742	>	idat.eField2 = &eField2;
743	>	idat.sPot1 = &sPot1;
744	>	idat.sPot2 = &sPot2;
745		idat.f1 = &f1;
746		idat.sw = &sw;
747		idat.shiftedPot = (cutoffMethod_ == SHIFTED_POTENTIAL) ? true : false;
748	<	idat.shiftedForce = (cutoffMethod_ == SHIFTED_FORCE \|\| cutoffMethod_ == TAYLOR_SHIFTED) ? true : false;
748	>	idat.shiftedForce = (cutoffMethod_ == SHIFTED_FORCE \|\|
749	>	cutoffMethod_ == TAYLOR_SHIFTED) ? true : false;
750		idat.doParticlePot = doParticlePot_;
751		idat.doElectricField = doElectricField_;
752	+	idat.doSitePotential = doSitePotential_;
753		sdat.doParticlePot = doParticlePot_;
754
755		loopEnd = PAIR_LOOP;
#	Line 746 \| Line 765 \| namespace OpenMD {
765		if (update_nlist) {
766		if (!usePeriodicBoundaryConditions_)
767		Mat3x3d bbox = thermo->getBoundingBox();
768	<	neighborList = fDecomp_->buildNeighborList();
768	>	fDecomp_->buildNeighborList(neighborList_);
769		}
770		}
771
772	<	for (vector<pair<int, int> >::iterator it = neighborList.begin();
773	<	it != neighborList.end(); ++it) {
772	>	for (vector<pair<int, int> >::iterator it = neighborList_.begin();
773	>	it != neighborList_.end(); ++it) {
774
775		cg1 = (*it).first;
776		cg2 = (*it).second;
777
778	<	cuts = fDecomp_->getGroupCutoffs(cg1, cg2);
778	>	fDecomp_->getGroupCutoffs(cg1, cg2, rCut, rCutSq, rListSq);
779
780		d_grp = fDecomp_->getIntergroupVector(cg1, cg2);
781
782	<	curSnapshot->wrapVector(d_grp);
782	>	// already wrapped in the getIntergroupVector call:
783	>	// curSnapshot->wrapVector(d_grp);
784		rgrpsq = d_grp.lengthSquare();
765	–	rCutSq = cuts.second;
785
786		if (rgrpsq < rCutSq) {
768	–	idat.rcut = &cuts.first;
787		if (iLoop == PAIR_LOOP) {
788		vij = 0.0;
789		fij.zero();
790		eField1.zero();
791		eField2.zero();
792	+	sPot1 = 0.0;
793	+	sPot2 = 0.0;
794		}
795
796		in_switching_region = switcher_->getSwitch(rgrpsq, sw, dswdr,
#	Line 822 \| Line 842 \| namespace OpenMD {
842
843		r = sqrt( *(idat.r2) );
844		idat.rij = &r;
845	<
845	>
846		if (iLoop == PREPAIR_LOOP) {
847		interactionMan_->doPrePair(idat);
848		} else {
#	Line 918 \| Line 938 \| namespace OpenMD {
938		}
939		}
940		}
941	<
941	>
942		// collects pairwise information
943		fDecomp_->collectData();
944	+	if (cutoffMethod_ == EWALD_FULL) {
945	+	interactionMan_->doReciprocalSpaceSum(reciprocalPotential);
946	+
947	+	curSnapshot->setReciprocalPotential(reciprocalPotential);
948	+	}
949
950		if (info_->requiresSelfCorrection()) {
951		for (unsigned int atom1 = 0; atom1 < info_->getNAtoms(); atom1++) {
#	Line 938 \| Line 963 \| namespace OpenMD {
963		curSnapshot->setLongRangePotential(longRangePotential);
964
965		curSnapshot->setExcludedPotentials(*(fDecomp_->getExcludedSelfPotential()) +
966	<	*(fDecomp_->getExcludedPotential()));
966	>	*(fDecomp_->getExcludedPotential()));
967
968		}
969
945	–
970		void ForceManager::postCalculation() {
971
972		vector<Perturbation*>::iterator pi;
#	Line 968 \| Line 992 \| namespace OpenMD {
992		}
993
994		#ifdef IS_MPI
995	<	MPI::COMM_WORLD.Allreduce(MPI::IN_PLACE, stressTensor.getArrayPointer(), 9,
996	<	MPI::REALTYPE, MPI::SUM);
995	>	MPI_Allreduce(MPI_IN_PLACE, stressTensor.getArrayPointer(), 9,
996	>	MPI_REALTYPE, MPI_SUM, MPI_COMM_WORLD);
997		#endif
998		curSnapshot->setStressTensor(stressTensor);
999
1000		if (info_->getSimParams()->getUseLongRangeCorrections()) {
1001		/*
1002	<	RealType vol = curSnapshot->getVolume();
1003	<	RealType Elrc(0.0);
1004	<	RealType Wlrc(0.0);
1002	>	RealType vol = curSnapshot->getVolume();
1003	>	RealType Elrc(0.0);
1004	>	RealType Wlrc(0.0);
1005
1006	<	set<AtomType*>::iterator i;
1007	<	set<AtomType*>::iterator j;
1006	>	set<AtomType*>::iterator i;
1007	>	set<AtomType*>::iterator j;
1008
1009	<	RealType n_i, n_j;
1010	<	RealType rho_i, rho_j;
1011	<	pair<RealType, RealType> LRI;
1009	>	RealType n_i, n_j;
1010	>	RealType rho_i, rho_j;
1011	>	pair<RealType, RealType> LRI;
1012
1013	<	for (i = atomTypes_.begin(); i != atomTypes_.end(); ++i) {
1013	>	for (i = atomTypes_.begin(); i != atomTypes_.end(); ++i) {
1014		n_i = RealType(info_->getGlobalCountOfType(*i));
1015		rho_i = n_i / vol;
1016		for (j = atomTypes_.begin(); j != atomTypes_.end(); ++j) {
1017	<	n_j = RealType(info_->getGlobalCountOfType(*j));
1018	<	rho_j = n_j / vol;
1017	>	n_j = RealType(info_->getGlobalCountOfType(*j));
1018	>	rho_j = n_j / vol;
1019
1020	<	LRI = interactionMan_->getLongRangeIntegrals( (i), (j) );
1020	>	LRI = interactionMan_->getLongRangeIntegrals( (i), (j) );
1021
1022	<	Elrc += n_i * rho_j * LRI.first;
1023	<	Wlrc -= rho_i * rho_j * LRI.second;
1022	>	Elrc += n_i * rho_j * LRI.first;
1023	>	Wlrc -= rho_i * rho_j * LRI.second;
1024		}
1025	<	}
1026	<	Elrc = 2.0 NumericConstant::PI;
1027	<	Wlrc = 2.0 NumericConstant::PI;
1025	>	}
1026	>	Elrc = 2.0 NumericConstant::PI;
1027	>	Wlrc = 2.0 NumericConstant::PI;
1028
1029	<	RealType lrp = curSnapshot->getLongRangePotential();
1030	<	curSnapshot->setLongRangePotential(lrp + Elrc);
1031	<	stressTensor += Wlrc * SquareMatrix3<RealType>::identity();
1032	<	curSnapshot->setStressTensor(stressTensor);
1029	>	RealType lrp = curSnapshot->getLongRangePotential();
1030	>	curSnapshot->setLongRangePotential(lrp + Elrc);
1031	>	stressTensor += Wlrc * SquareMatrix3<RealType>::identity();
1032	>	curSnapshot->setStressTensor(stressTensor);
1033		*/
1034
1035		}

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Comparing trunk/src/brains/ForceManager.cpp (file contents): Revision 1879 by gezelter, Sun Jun 16 15:15:42 2013 UTC vs. Revision 2047 by gezelter, Thu Dec 11 16:16:43 2014 UTC

Diff Legend

Comparing trunk/src/brains/ForceManager.cpp (file contents):
Revision 1879 by gezelter, Sun Jun 16 15:15:42 2013 UTC vs.
Revision 2047 by gezelter, Thu Dec 11 16:16:43 2014 UTC