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tim |
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/* |
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* Copyright (C) 2000-2004 Object Oriented Parallel Simulation Engine (OOPSE) project |
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* |
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* Contact: oopse@oopse.org |
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* |
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* This program is free software; you can redistribute it and/or |
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* modify it under the terms of the GNU Lesser General Public License |
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* as published by the Free Software Foundation; either version 2.1 |
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* of the License, or (at your option) any later version. |
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* All we ask is that proper credit is given for our work, which includes |
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* - but is not limited to - adding the above copyright notice to the beginning |
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* of your source code files, and to any copyright notice that you may distribute |
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* with programs based on this work. |
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* |
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* This program is distributed in the hope that it will be useful, |
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* but WITHOUT ANY WARRANTY; without even the implied warranty of |
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the |
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* GNU Lesser General Public License for more details. |
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* |
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* You should have received a copy of the GNU Lesser General Public License |
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* along with this program; if not, write to the Free Software |
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* Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. |
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* |
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*/ |
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gezelter |
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tim |
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/** |
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* @file SimInfo.cpp |
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* @author tlin |
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* @date 11/02/2004 |
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* @version 1.0 |
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*/ |
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gezelter |
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#include <algorithm> |
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#include "brains/SimInfo.hpp" |
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#include "utils/MemoryUtils.hpp" |
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gezelter |
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|
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namespace oopse { |
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gezelter |
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SimInfo::SimInfo(const std::vector<std::pair<MoleculeStamp*, int> >& molStampPairs, |
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ForceField* ff, Globals* globals) : |
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forceField_(ff), globals_(globals), nAtoms_(0), nBonds_(0), |
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nBends_(0), nTorsions_(0), nRigidBodies_(0), nIntegrableObjects_(0), |
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nCutoffGroups_(0), nConstraints_(0), nZConstraint_(0), sman_(NULL), |
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fortranInitialized_(false) { |
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gezelter |
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std::vector<std::pair<MoleculeStamp*, int> >::iterator i; |
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int nCutoffAtoms; // number of atoms belong to cutoff groups |
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int ngroups; //total cutoff groups defined in meta-data file |
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MoleculeStamp* molStamp; |
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int nMolWithSameStamp; |
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CutoffGroupStamp* cgStamp; |
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int nAtomsIngroups; |
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int nCutoffGroupsInStamp; |
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nGlobalAtoms_ = 0; |
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ngroups = 0; |
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for (i = molStampPairs.begin(); i !=molStampPairs.end(); ++i) { |
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molStamp = i->first; |
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nMolWithSameStamp = i->second; |
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addMoleculeStamp(molStamp, nMolWithSameStamp); |
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nGlobalAtoms_ += molStamp->getNAtoms() *nMolWithSameStamp; |
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nAtomsIngroups = 0; |
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nCutoffGroupsInStamp = molStamp->getNCutoffGroups(); |
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for (int j=0; j < nCutoffGroupsInStamp; j++) { |
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cgStamp = molStamp->getCutoffGroup(j); |
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nAtomsIngroups += cgStamp->getNMembers(); |
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} |
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ngroups += *nMolWithSameStamp; |
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nCutoffAtoms += nAtomsIngroups * nMolWithSameStamp; |
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} |
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//every free atom (atom does not belong to cutoff groups) is a cutoff group |
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//therefore the total number of cutoff groups in the system is equal to |
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//the total number of atoms minus number of atoms belong to cutoff group defined in meta-data |
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//file plus the number of cutoff groups defined in meta-data file |
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nGlobalCutoffGroups_ = nGlobalAtoms_ - nCutoffAtoms + ngroups; |
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//initialize globalGroupMembership_, every element of this array will be 0 |
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globalGroupMembership_.insert(globalGroupMembership_.end(), nGlobalAtoms_, 0); |
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nGlobalMols_ = molStampIds_.size(); |
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#ifdef IS_MPI |
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molToProcMap_.resize(nGlobalMols_); |
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#endif |
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} |
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SimInfo::~SimInfo() { |
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//MemoryUtils::deleteVectorOfPointer(molecules_); |
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|
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MemoryUtils::deleteVectorOfPointer(moleculeStamps_); |
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delete sman_; |
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delete globals_; |
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delete forceField_; |
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} |
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bool SimInfo::addMolecule(Molecule* mol) { |
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MoleculeIterator i; |
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i = molecules_.find(mol->getGlobalIndex()); |
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if (i != molecules_.end() ) { |
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molecules_.insert(make_pair(mol->getGlobalIndex(), mol)); |
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nAtoms_ += mol->getNAtoms(); |
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nBonds_ += mol->getNBonds(); |
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nBends_ += mol->getNBends(); |
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nTorsions_ += mol->getNTorsions(); |
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nRigidBodies_ += mol->getNRigidBodies(); |
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nIntegrableObjects_ += mol->getNIntegrableObjects(); |
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nCutoffGroups_ += mol->getNCutoffGroups(); |
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nConstraints_ += mol->getNConstraints(); |
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gezelter |
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return true; |
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} else { |
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return false; |
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} |
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} |
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bool SimInfo::removeMolecule(Molecule* mol) { |
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MoleculeIterator i; |
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i = molecules_.find(mol->getGlobalIndex()); |
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if (i != molecules_.end() ) { |
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assert(mol == i->second); |
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nAtoms_ -= mol->getNAtoms(); |
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nBonds_ -= mol->getNBonds(); |
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nBends_ -= mol->getNBends(); |
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nTorsions_ -= mol->getNTorsions(); |
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nRigidBodies_ -= mol->getNRigidBodies(); |
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nIntegrableObjects_ -= mol->getNIntegrableObjects(); |
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nCutoffGroups_ -= mol->getNCutoffGroups(); |
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nConstraints_ -= mol->getNConstraints(); |
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gezelter |
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molecules_.erase(mol->getGlobalIndex()); |
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delete mol; |
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return true; |
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} else { |
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return false; |
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gezelter |
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} |
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} |
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gezelter |
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Molecule* SimInfo::beginMolecule(MoleculeIterator& i) { |
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i = molecules_.begin(); |
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return i == molecules_.end() ? NULL : i->second; |
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} |
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gezelter |
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Molecule* SimInfo::nextMolecule(MoleculeIterator& i) { |
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++i; |
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return i == molecules_.end() ? NULL : i->second; |
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} |
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void SimInfo::calcNdf() { |
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int ndf_local; |
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MoleculeIterator i; |
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std::vector<StuntDouble*>::iterator j; |
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Molecule* mol; |
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StuntDouble* integrableObject; |
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gezelter |
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ndf_local = 0; |
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gezelter |
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for (mol = beginMolecule(i); mol != NULL; mol = nextMolecule(i)) { |
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for (integrableObject = mol->beginIntegrableObject(j); integrableObject != NULL; |
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integrableObject = mol->nextIntegrableObject(j)) { |
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gezelter |
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ndf_local += 3; |
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gezelter |
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if (integrableObject->isDirectional()) { |
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if (integrableObject->isLinear()) { |
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ndf_local += 2; |
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} else { |
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ndf_local += 3; |
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} |
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} |
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}//end for (integrableObject) |
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}// end for (mol) |
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gezelter |
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// n_constraints is local, so subtract them on each processor |
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ndf_local -= nConstraints_; |
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#ifdef IS_MPI |
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MPI_Allreduce(&ndf_local,&ndf_,1,MPI_INT,MPI_SUM, MPI_COMM_WORLD); |
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#else |
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ndf_ = ndf_local; |
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#endif |
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// nZconstraints_ is global, as are the 3 COM translations for the |
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// entire system: |
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ndf_ = ndf_ - 3 - nZconstraints_; |
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} |
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void SimInfo::calcNdfRaw() { |
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int ndfRaw_local; |
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MoleculeIterator i; |
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std::vector<StuntDouble*>::iterator j; |
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Molecule* mol; |
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StuntDouble* integrableObject; |
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gezelter |
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// Raw degrees of freedom that we have to set |
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ndfRaw_local = 0; |
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for (mol = beginMolecule(i); mol != NULL; mol = nextMolecule(i)) { |
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for (integrableObject = mol->beginIntegrableObject(j); integrableObject != NULL; |
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integrableObject = mol->nextIntegrableObject(j)) { |
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ndfRaw_local += 3; |
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if (integrableObject->isDirectional()) { |
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if (integrableObject->isLinear()) { |
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ndfRaw_local += 2; |
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} else { |
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ndfRaw_local += 3; |
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} |
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} |
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} |
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} |
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#ifdef IS_MPI |
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MPI_Allreduce(&ndfRaw_local,&ndfRaw_,1,MPI_INT,MPI_SUM, MPI_COMM_WORLD); |
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#else |
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ndfRaw_ = ndfRaw_local; |
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#endif |
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} |
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void SimInfo::calcNdfTrans() { |
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int ndfTrans_local; |
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ndfTrans_local = 3 * nIntegrableObjects_ - nConstraints_; |
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#ifdef IS_MPI |
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MPI_Allreduce(&ndfTrans_local,&ndfTrans_,1,MPI_INT,MPI_SUM, MPI_COMM_WORLD); |
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#else |
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ndfTrans_ = ndfTrans_local; |
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#endif |
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ndfTrans_ = ndfTrans_ - 3 - nZconstraints_; |
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} |
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void SimInfo::addExcludePairs(Molecule* mol) { |
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std::vector<Bond*>::iterator bondIter; |
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std::vector<Bend*>::iterator bendIter; |
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std::vector<Torsion*>::iterator torsionIter; |
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Bond* bond; |
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Bend* bend; |
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Torsion* torsion; |
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int a; |
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int b; |
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int c; |
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int d; |
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for (bond= mol->beginBond(bondIter); bond != NULL; bond = mol->nextBond(bondIter)) { |
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a = bond->getAtomA()->getGlobalIndex(); |
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b = bond->getAtomB()->getGlobalIndex(); |
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exclude_.addPair(a, b); |
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} |
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for (bend= mol->beginBend(bendIter); bend != NULL; bend = mol->nextBend(bendIter)) { |
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a = bend->getAtomA()->getGlobalIndex(); |
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b = bend->getAtomB()->getGlobalIndex(); |
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c = bend->getAtomC()->getGlobalIndex(); |
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exclude_.addPair(a, b); |
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exclude_.addPair(a, c); |
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exclude_.addPair(b, c); |
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} |
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for (torsion= mol->beginTorsion(torsionIter); torsion != NULL; torsion = mol->nextBond(torsionIter)) { |
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a = torsion->getAtomA()->getGlobalIndex(); |
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b = torsion->getAtomB()->getGlobalIndex(); |
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c = torsion->getAtomC()->getGlobalIndex(); |
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d = torsion->getAtomD()->getGlobalIndex(); |
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exclude_.addPair(a, b); |
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exclude_.addPair(a, c); |
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exclude_.addPair(a, d); |
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exclude_.addPair(b, c); |
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exclude_.addPair(b, d); |
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exclude_.addPair(c, d); |
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} |
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} |
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void SimInfo::removeExcludePairs(Molecule* mol) { |
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std::vector<Bond*>::iterator bondIter; |
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std::vector<Bend*>::iterator bendIter; |
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std::vector<Torsion*>::iterator torsionIter; |
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Bond* bond; |
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Bend* bend; |
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Torsion* torsion; |
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int a; |
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int b; |
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int c; |
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int d; |
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for (bond= mol->beginBond(bondIter); bond != NULL; bond = mol->nextBond(bondIter)) { |
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a = bond->getAtomA()->getGlobalIndex(); |
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b = bond->getAtomB()->getGlobalIndex(); |
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exclude_.removePair(a, b); |
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} |
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for (bend= mol->beginBend(bendIter); bend != NULL; bend = mol->nextBend(bendIter)) { |
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a = bend->getAtomA()->getGlobalIndex(); |
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b = bend->getAtomB()->getGlobalIndex(); |
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c = bend->getAtomC()->getGlobalIndex(); |
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exclude_.removePair(a, b); |
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exclude_.removePair(a, c); |
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exclude_.removePair(b, c); |
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} |
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for (torsion= mol->beginTorsion(torsionIter); torsion != NULL; torsion = mol->nextBond(torsionIter)) { |
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a = torsion->getAtomA()->getGlobalIndex(); |
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b = torsion->getAtomB()->getGlobalIndex(); |
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c = torsion->getAtomC()->getGlobalIndex(); |
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d = torsion->getAtomD()->getGlobalIndex(); |
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exclude_.removePair(a, b); |
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exclude_.removePair(a, c); |
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exclude_.removePair(a, d); |
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exclude_.removePair(b, c); |
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exclude_.removePair(b, d); |
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exclude_.removePair(c, d); |
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} |
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} |
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tim |
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void SimInfo::addMoleculeStamp(MoleculeStamp* molStamp, int nmol) { |
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int curStampId; |
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//index from 0 |
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curStampId = molStampIds_.size(); |
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moleculeStamps_.push_back(molStamp); |
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molStampIds_.insert(molStampIds_.end(), nmol, curStampId) |
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} |
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tim |
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void SimInfo::update() { |
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tim |
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setupSimType(); |
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#ifdef IS_MPI |
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setupFortranParallel(); |
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#endif |
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tim |
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setupFortranSim(); |
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setupCutoff(); |
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|
|
//notify fortran whether reaction field is used or not. It is deprecated now |
377 |
|
|
//int isError = 0; |
378 |
|
|
//initFortranFF( &useReactionField, &isError ); |
379 |
|
|
|
380 |
|
|
//if(isError){ |
381 |
|
|
// sprintf( painCave.errMsg, |
382 |
|
|
// "SimCreator::initFortran() error: There was an error initializing the forceField in fortran.\n" ); |
383 |
|
|
// painCave.isFatal = 1; |
384 |
|
|
// simError(); |
385 |
|
|
//} |
386 |
|
|
|
387 |
tim |
1733 |
calcNdf(); |
388 |
|
|
calcNdfRaw(); |
389 |
|
|
calcNdfTrans(); |
390 |
tim |
1738 |
|
391 |
|
|
fortranInitialized_ = true; |
392 |
tim |
1733 |
} |
393 |
|
|
|
394 |
|
|
std::set<AtomType*> SimInfo::getUniqueAtomTypes() { |
395 |
|
|
typename SimInfo::MoleculeIterator mi; |
396 |
|
|
Molecule* mol; |
397 |
|
|
typename Molecule::AtomIterator ai; |
398 |
|
|
Atom* atom; |
399 |
|
|
std::set<AtomType*> atomTypes; |
400 |
|
|
|
401 |
|
|
for(mol = beginMolecule(mi); mol != NULL; mol = nextMolecule(mi)) { |
402 |
|
|
|
403 |
|
|
for(atom = mol->beginAtom(ai); atom != NULL; atom = mol->nextAtom(ai)) { |
404 |
|
|
atomTypes.insert(atom->getAtomType()); |
405 |
|
|
} |
406 |
|
|
|
407 |
|
|
} |
408 |
|
|
|
409 |
|
|
return atomTypes; |
410 |
|
|
} |
411 |
|
|
|
412 |
|
|
void SimInfo::setupSimType() { |
413 |
|
|
std::set<AtomType*>::iterator i; |
414 |
|
|
std::set<AtomType*> atomTypes; |
415 |
|
|
atomTypes = getUniqueAtomTypes(); |
416 |
tim |
1727 |
|
417 |
tim |
1733 |
int useLennardJones = 0; |
418 |
|
|
int useElectrostatic = 0; |
419 |
|
|
int useEAM = 0; |
420 |
|
|
int useCharge = 0; |
421 |
|
|
int useDirectional = 0; |
422 |
|
|
int useDipole = 0; |
423 |
|
|
int useGayBerne = 0; |
424 |
|
|
int useSticky = 0; |
425 |
|
|
int useShape = 0; |
426 |
|
|
int useFLARB = 0; //it is not in AtomType yet |
427 |
|
|
int useDirectionalAtom = 0; |
428 |
|
|
int useElectrostatics = 0; |
429 |
|
|
//usePBC and useRF are from globals |
430 |
|
|
bool usePBC = globals_->getPBC(); |
431 |
|
|
bool useRF = globals_->getUseRF(); |
432 |
|
|
|
433 |
|
|
//loop over all of the atom types |
434 |
|
|
for (i = atomTypes.begin(); i != atomTypes.end(); ++i) { |
435 |
|
|
useLennardJones |= i->isLennardJones(); |
436 |
|
|
useElectrostatic |= i->isElectrostatic(); |
437 |
|
|
useEAM |= i->isEAM(); |
438 |
|
|
useCharge |= i->isCharge(); |
439 |
|
|
useDirectional |= i->isDirectional(); |
440 |
|
|
useDipole |= i->isDipole(); |
441 |
|
|
useGayBerne |= i->isGayBerne(); |
442 |
|
|
useSticky |= i->isSticky(); |
443 |
|
|
useShape |= i->isShape(); |
444 |
|
|
} |
445 |
|
|
|
446 |
|
|
if (useSticky || useDipole || useGayBerne || useShape) { |
447 |
|
|
useDirectionalAtom = 1; |
448 |
|
|
} |
449 |
|
|
|
450 |
|
|
if (useCharge || useDipole) { |
451 |
|
|
useElectrostatics = 1; |
452 |
|
|
} |
453 |
|
|
|
454 |
|
|
#ifdef IS_MPI |
455 |
|
|
int temp; |
456 |
|
|
|
457 |
|
|
temp = usePBC; |
458 |
|
|
MPI_Allreduce(&temp, &usePBC, 1, MPI_INT, MPI_LOR, MPI_COMM_WORLD); |
459 |
|
|
|
460 |
|
|
temp = useDirectionalAtom; |
461 |
|
|
MPI_Allreduce(&temp, &useDirectionalAtom, 1, MPI_INT, MPI_LOR, MPI_COMM_WORLD); |
462 |
|
|
|
463 |
|
|
temp = useLennardJones; |
464 |
|
|
MPI_Allreduce(&temp, &useLennardJones, 1, MPI_INT, MPI_LOR, MPI_COMM_WORLD); |
465 |
|
|
|
466 |
|
|
temp = useElectrostatics; |
467 |
|
|
MPI_Allreduce(&temp, &useElectrostatics, 1, MPI_INT, MPI_LOR, MPI_COMM_WORLD); |
468 |
|
|
|
469 |
|
|
temp = useCharge; |
470 |
|
|
MPI_Allreduce(&temp, &useCharge, 1, MPI_INT, MPI_LOR, MPI_COMM_WORLD); |
471 |
|
|
|
472 |
|
|
temp = useDipole; |
473 |
|
|
MPI_Allreduce(&temp, &useDipole, 1, MPI_INT, MPI_LOR, MPI_COMM_WORLD); |
474 |
|
|
|
475 |
|
|
temp = useSticky; |
476 |
|
|
MPI_Allreduce(&temp, &useSticky, 1, MPI_INT, MPI_LOR, MPI_COMM_WORLD); |
477 |
|
|
|
478 |
|
|
temp = useGayBerne; |
479 |
|
|
MPI_Allreduce(&temp, &useGayBerne, 1, MPI_INT, MPI_LOR, MPI_COMM_WORLD); |
480 |
|
|
|
481 |
|
|
temp = useEAM; |
482 |
|
|
MPI_Allreduce(&temp, &useEAM, 1, MPI_INT, MPI_LOR, MPI_COMM_WORLD); |
483 |
|
|
|
484 |
|
|
temp = useShape; |
485 |
|
|
MPI_Allreduce(&temp, &useShape, 1, MPI_INT, MPI_LOR, MPI_COMM_WORLD); |
486 |
|
|
|
487 |
|
|
temp = useFLARB; |
488 |
|
|
MPI_Allreduce(&temp, &useFLARB, 1, MPI_INT, MPI_LOR, MPI_COMM_WORLD); |
489 |
|
|
|
490 |
|
|
temp = useRF; |
491 |
|
|
MPI_Allreduce(&temp, &useRF, 1, MPI_INT, MPI_LOR, MPI_COMM_WORLD); |
492 |
|
|
|
493 |
|
|
#endif |
494 |
|
|
|
495 |
|
|
fInfo_.SIM_uses_PBC = usePBC; |
496 |
|
|
fInfo_.SIM_uses_DirectionalAtoms = useDirectionalAtom; |
497 |
|
|
fInfo_.SIM_uses_LennardJones = useLennardJones; |
498 |
|
|
fInfo_.SIM_uses_Electrostatics = useElectrostatics; |
499 |
|
|
fInfo_.SIM_uses_Charges = useCharge; |
500 |
|
|
fInfo_.SIM_uses_Dipoles = useDipole; |
501 |
|
|
fInfo_.SIM_uses_Sticky = useSticky; |
502 |
|
|
fInfo_.SIM_uses_GayBerne = useGayBerne; |
503 |
|
|
fInfo_.SIM_uses_EAM = useEAM; |
504 |
|
|
fInfo_.SIM_uses_Shapes = useShape; |
505 |
|
|
fInfo_.SIM_uses_FLARB = useFLARB; |
506 |
|
|
fInfo_.SIM_uses_RF = useRF; |
507 |
|
|
|
508 |
|
|
if( fInfo_.SIM_uses_Dipoles && fInfo_.SIM_uses_RF) { |
509 |
|
|
fInfo_.dielect = dielectric; |
510 |
|
|
} else { |
511 |
|
|
fInfo_.dielect = 0.0; |
512 |
|
|
} |
513 |
|
|
|
514 |
|
|
} |
515 |
|
|
|
516 |
|
|
void SimInfo::setupFortranSim() { |
517 |
|
|
int isError; |
518 |
|
|
int nExclude; |
519 |
|
|
std::vector<int> fortranGlobalGroupMembership; |
520 |
|
|
|
521 |
|
|
nExclude = exclude_.getSize(); |
522 |
|
|
isError = 0; |
523 |
|
|
|
524 |
|
|
//globalGroupMembership_ is filled by SimCreator |
525 |
|
|
for (int i = 0; i < nGlobalAtoms_; i++) { |
526 |
|
|
fortranGlobalGroupMembership.push_back(globalGroupMembership_[i] + 1); |
527 |
|
|
} |
528 |
|
|
|
529 |
|
|
//calculate mass ratio of cutoff group |
530 |
|
|
std::vector<double> mfact; |
531 |
|
|
typename SimInfo::MoleculeIterator mi; |
532 |
|
|
Molecule* mol; |
533 |
|
|
typename Molecule::CutoffGroupIterator ci; |
534 |
|
|
CutoffGroup* cg; |
535 |
|
|
typename Molecule::AtomIterator ai; |
536 |
|
|
Atom* atom; |
537 |
|
|
double totalMass; |
538 |
|
|
|
539 |
|
|
//to avoid memory reallocation, reserve enough space for mfact |
540 |
|
|
mfact.reserve(getNCutoffGroups()); |
541 |
|
|
|
542 |
|
|
for(mol = beginMolecule(mi); mol != NULL; mol = nextMolecule(mi)) { |
543 |
|
|
for (cg = mol->beginCutoffGroup(ci); cg != NULL; cg = mol->nextCutoffGroup(ci)) { |
544 |
|
|
|
545 |
|
|
totalMass = cg->getMass(); |
546 |
|
|
for(atom = cg->beginAtom(ai); atom != NULL; atom = cg->nextAtom(ai)) { |
547 |
|
|
mfact.push_back(atom->getMass()/totalMass); |
548 |
|
|
} |
549 |
|
|
|
550 |
|
|
} |
551 |
|
|
} |
552 |
|
|
|
553 |
|
|
//fill ident array of local atoms (it is actually ident of AtomType, it is so confusing !!!) |
554 |
|
|
std::vector<int> identArray; |
555 |
|
|
|
556 |
|
|
//to avoid memory reallocation, reserve enough space identArray |
557 |
|
|
identArray.reserve(getNAtoms()); |
558 |
|
|
|
559 |
|
|
for(mol = beginMolecule(mi); mol != NULL; mol = nextMolecule(mi)) { |
560 |
|
|
for(atom = mol->beginAtom(ai); atom != NULL; atom = mol->nextAtom(ai)) { |
561 |
|
|
identArray.push_back(atom->getIdent()); |
562 |
|
|
} |
563 |
|
|
} |
564 |
|
|
|
565 |
tim |
1735 |
//fill molMembershipArray |
566 |
|
|
//molMembershipArray is filled by SimCreator |
567 |
|
|
std::vector<int> molMembershipArray(nGlobalAtoms_); |
568 |
|
|
for (int i = 0; i < nGlobalAtoms_; i++) { |
569 |
|
|
molMembershipArray.push_back(globalMolMembership_[i] + 1); |
570 |
|
|
} |
571 |
|
|
|
572 |
tim |
1733 |
//setup fortran simulation |
573 |
|
|
//gloalExcludes and molMembershipArray should go away (They are never used) |
574 |
|
|
//why the hell fortran need to know molecule? |
575 |
|
|
//OOPSE = Object-Obfuscated Parallel Simulation Engine |
576 |
|
|
|
577 |
|
|
setFortranSim( &fInfo_, &nGlobalAtoms_, &nAtoms_, &identArray[0], &nExclude, exclude_->getExcludeList(), |
578 |
|
|
&nGlobalExcludes, globalExcludes, molMembershipArray, |
579 |
|
|
&mfact[0], &nCutoffGroups_, &fortranGlobalGroupMembership[0], &isError); |
580 |
|
|
|
581 |
|
|
if( isError ){ |
582 |
|
|
|
583 |
|
|
sprintf( painCave.errMsg, |
584 |
|
|
"There was an error setting the simulation information in fortran.\n" ); |
585 |
|
|
painCave.isFatal = 1; |
586 |
|
|
painCave.severity = OOPSE_ERROR; |
587 |
|
|
simError(); |
588 |
|
|
} |
589 |
|
|
|
590 |
|
|
#ifdef IS_MPI |
591 |
|
|
sprintf( checkPointMsg, |
592 |
|
|
"succesfully sent the simulation information to fortran.\n"); |
593 |
|
|
MPIcheckPoint(); |
594 |
|
|
#endif // is_mpi |
595 |
|
|
} |
596 |
|
|
|
597 |
|
|
|
598 |
|
|
#ifdef IS_MPI |
599 |
|
|
void SimInfo::setupFortranParallel() { |
600 |
|
|
|
601 |
tim |
1727 |
//SimInfo is responsible for creating localToGlobalAtomIndex and localToGlobalGroupIndex |
602 |
|
|
std::vector<int> localToGlobalAtomIndex(getNAtoms(), 0); |
603 |
|
|
std::vector<int> localToGlobalCutoffGroupIndex; |
604 |
|
|
typename SimInfo::MoleculeIterator mi; |
605 |
|
|
typename Molecule::AtomIterator ai; |
606 |
|
|
typename Molecule::CutoffGroupIterator ci; |
607 |
|
|
Molecule* mol; |
608 |
|
|
Atom* atom; |
609 |
|
|
CutoffGroup* cg; |
610 |
|
|
mpiSimData parallelData; |
611 |
|
|
int isError; |
612 |
|
|
|
613 |
|
|
for (mol = beginMolecule(mi); mol != NULL; mol = nextMolecule(mi)) { |
614 |
|
|
|
615 |
|
|
//local index(index in DataStorge) of atom is important |
616 |
|
|
for (atom = mol->beginAtom(ai); atom != NULL; atom = mol->nextAtom(ai)) { |
617 |
|
|
localToGlobalAtomIndex[atom->getLocalIndex()] = atom->getGlobalIndex() + 1; |
618 |
|
|
} |
619 |
|
|
|
620 |
|
|
//local index of cutoff group is trivial, it only depends on the order of travesing |
621 |
|
|
for (cg = mol->beginCutoffGroup(ci); cg != NULL; cg = mol->nextCutoffGroup(ci)) { |
622 |
|
|
localToGlobalCutoffGroupIndex.push_back(cg->getGlobalIndex() + 1); |
623 |
|
|
} |
624 |
|
|
|
625 |
|
|
} |
626 |
|
|
|
627 |
tim |
1733 |
//fill up mpiSimData struct |
628 |
|
|
parallelData.nMolGlobal = getNGlobalMolecules(); |
629 |
|
|
parallelData.nMolLocal = getNMolecules(); |
630 |
|
|
parallelData.nAtomsGlobal = getNGlobalAtoms(); |
631 |
|
|
parallelData.nAtomsLocal = getNAtoms(); |
632 |
|
|
parallelData.nGroupsGlobal = getNGlobalCutoffGroups(); |
633 |
|
|
parallelData.nGroupsLocal = getNCutoffGroups(); |
634 |
tim |
1727 |
parallelData.myNode = worldRank; |
635 |
|
|
MPI_Comm_size(MPI_COMM_WORLD, &(parallelData->nProcessors)); |
636 |
tim |
1733 |
|
637 |
|
|
//pass mpiSimData struct and index arrays to fortran |
638 |
|
|
setFsimParallel(parallelData, &(parallelData->nAtomsLocal), |
639 |
tim |
1727 |
&localToGlobalAtomIndex[0], &(parallelData->nGroupsLocal), |
640 |
|
|
&localToGlobalCutoffGroupIndex[0], &isError); |
641 |
|
|
|
642 |
|
|
if (isError) { |
643 |
|
|
sprintf(painCave.errMsg, |
644 |
|
|
"mpiRefresh errror: fortran didn't like something we gave it.\n"); |
645 |
|
|
painCave.isFatal = 1; |
646 |
|
|
simError(); |
647 |
|
|
} |
648 |
|
|
|
649 |
|
|
sprintf(checkPointMsg, " mpiRefresh successful.\n"); |
650 |
|
|
MPIcheckPoint(); |
651 |
|
|
|
652 |
|
|
|
653 |
|
|
} |
654 |
|
|
|
655 |
tim |
1733 |
#endif |
656 |
|
|
|
657 |
tim |
1735 |
double SimInfo::calcMaxCutoffRadius() { |
658 |
|
|
|
659 |
|
|
|
660 |
|
|
std::vector<AtomType*> atomTypes; |
661 |
|
|
std::vector<AtomType*>::iterator i; |
662 |
|
|
std::vector<double> cutoffRadius; |
663 |
|
|
|
664 |
|
|
//get the unique atom types |
665 |
|
|
atomTypes = getUniqueAtomTypes(); |
666 |
|
|
|
667 |
|
|
//query the max cutoff radius among these atom types |
668 |
|
|
for (i = atomTypes.begin(); i != atomTypes.end(); ++i) { |
669 |
|
|
cutoffRadius.push_back(forceField_->getRcutFromAtomType(*i)); |
670 |
|
|
} |
671 |
|
|
|
672 |
|
|
double maxCutoffRadius = std::max_element(cutoffRadius.begin(), cutoffRadius.end()); |
673 |
|
|
#ifdef IS_MPI |
674 |
|
|
//pick the max cutoff radius among the processors |
675 |
|
|
#endif |
676 |
|
|
|
677 |
|
|
return maxCutoffRadius; |
678 |
|
|
} |
679 |
|
|
|
680 |
tim |
1738 |
void SimInfo::setupCutoff() { |
681 |
|
|
double rcut_; //cutoff radius |
682 |
|
|
double rsw_; //switching radius |
683 |
|
|
|
684 |
|
|
if (fInfo_.SIM_uses_Charges | fInfo_.SIM_uses_Dipoles | fInfo_.SIM_uses_RF) { |
685 |
|
|
|
686 |
|
|
if (!globals_->haveRcut()){ |
687 |
|
|
sprintf(painCave.errMsg, |
688 |
|
|
"SimCreator Warning: No value was set for the cutoffRadius.\n" |
689 |
|
|
"\tOOPSE will use a default value of 15.0 angstroms" |
690 |
|
|
"\tfor the cutoffRadius.\n"); |
691 |
|
|
painCave.isFatal = 0; |
692 |
|
|
simError(); |
693 |
|
|
rcut_ = 15.0; |
694 |
|
|
} else{ |
695 |
|
|
rcut_ = globals_->getRcut(); |
696 |
|
|
} |
697 |
|
|
|
698 |
|
|
if (!globals_->haveRsw()){ |
699 |
|
|
sprintf(painCave.errMsg, |
700 |
|
|
"SimCreator Warning: No value was set for switchingRadius.\n" |
701 |
|
|
"\tOOPSE will use a default value of\n" |
702 |
|
|
"\t0.95 * cutoffRadius for the switchingRadius\n"); |
703 |
|
|
painCave.isFatal = 0; |
704 |
|
|
simError(); |
705 |
|
|
rsw_ = 0.95 * rcut_; |
706 |
|
|
} else{ |
707 |
|
|
rsw_ = globals_->getRsw(); |
708 |
|
|
} |
709 |
|
|
|
710 |
|
|
} else { |
711 |
|
|
// if charge, dipole or reaction field is not used and the cutofff radius is not specified in |
712 |
|
|
//meta-data file, the maximum cutoff radius calculated from forcefiled will be used |
713 |
|
|
|
714 |
|
|
if (globals_->haveRcut()) { |
715 |
|
|
rcut_ = globals_->getRcut(); |
716 |
|
|
} else { |
717 |
|
|
//set cutoff radius to the maximum cutoff radius based on atom types in the whole system |
718 |
|
|
rcut_ = calcMaxCutoffRadius(); |
719 |
|
|
} |
720 |
|
|
|
721 |
|
|
if (globals_->haveRsw()) { |
722 |
|
|
rsw_ = globals_->getRsw() |
723 |
|
|
} else { |
724 |
|
|
rsw_ = rcut_; |
725 |
|
|
} |
726 |
|
|
|
727 |
|
|
} |
728 |
|
|
|
729 |
|
|
double rnblist = rcut_ + 1; // skin of neighbor list |
730 |
|
|
|
731 |
|
|
//Pass these cutoff radius etc. to fortran. This function should be called once and only once |
732 |
|
|
notifyFortranCutoffs(&rcut_, &rsw_, &rnblist); |
733 |
|
|
} |
734 |
|
|
|
735 |
tim |
1733 |
void SimInfo::addProperty(GenericData* genData) { |
736 |
|
|
properties_.addProperty(genData); |
737 |
|
|
} |
738 |
|
|
|
739 |
|
|
void SimInfo::removeProperty(const std::string& propName) { |
740 |
|
|
properties_.removeProperty(propName); |
741 |
|
|
} |
742 |
|
|
|
743 |
|
|
void SimInfo::clearProperties() { |
744 |
|
|
properties_.clearProperties(); |
745 |
|
|
} |
746 |
|
|
|
747 |
|
|
std::vector<std::string> SimInfo::getPropertyNames() { |
748 |
|
|
return properties_.getPropertyNames(); |
749 |
|
|
} |
750 |
|
|
|
751 |
|
|
std::vector<GenericData*> SimInfo::getProperties() { |
752 |
|
|
return properties_.getProperties(); |
753 |
|
|
} |
754 |
|
|
|
755 |
|
|
GenericData* SimInfo::getPropertyByName(const std::string& propName) { |
756 |
|
|
return properties_.getPropertyByName(propName); |
757 |
|
|
} |
758 |
|
|
|
759 |
|
|
|
760 |
tim |
1725 |
std::ostream& operator <<(ostream& o, SimInfo& info) { |
761 |
|
|
|
762 |
|
|
return o; |
763 |
|
|
} |
764 |
|
|
|
765 |
tim |
1710 |
}//end namespace oopse |