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#include "brains/ForceManager.hpp" |
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#include "primitives/Molecule.hpp" |
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#include "UseTheForce/doForces_interface.h" |
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#define __C |
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#include "UseTheForce/DarkSide/fInteractionMap.h" |
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#include "utils/simError.h" |
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#include "primitives/Bond.hpp" |
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#include "primitives/Bend.hpp" |
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namespace oopse { |
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void ForceManager::calcForces(bool needPotential, bool needStress) { |
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if (!info_->isFortranInitialized()) { |
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info_->update(); |
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} |
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preCalculation(); |
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calcShortRangeInteraction(); |
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calcLongRangeInteraction(needPotential, needStress); |
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postCalculation(); |
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postCalculation(needStress); |
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} |
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void ForceManager::preCalculation() { |
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SimInfo::MoleculeIterator mi; |
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Molecule* mol; |
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// forces are zeroed here, before any are accumulated. |
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// NOTE: do not rezero the forces in Fortran. |
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for (mol = info_->beginMolecule(mi); mol != NULL; mol = info_->nextMolecule(mi)) { |
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|
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for (mol = info_->beginMolecule(mi); mol != NULL; |
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mol = info_->nextMolecule(mi)) { |
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for(atom = mol->beginAtom(ai); atom != NULL; atom = mol->nextAtom(ai)) { |
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atom->zeroForcesAndTorques(); |
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} |
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|
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//change the positions of atoms which belong to the rigidbodies |
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for (rb = mol->beginRigidBody(rbIter); rb != NULL; rb = mol->nextRigidBody(rbIter)) { |
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for (rb = mol->beginRigidBody(rbIter); rb != NULL; |
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rb = mol->nextRigidBody(rbIter)) { |
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rb->zeroForcesAndTorques(); |
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} |
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} |
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// Zero out the stress tensor |
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tau *= 0.0; |
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|
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} |
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void ForceManager::calcShortRangeInteraction() { |
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Molecule* mol; |
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RigidBody* rb; |
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Molecule::BondIterator bondIter;; |
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Molecule::BendIterator bendIter; |
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Molecule::TorsionIterator torsionIter; |
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RealType bondPotential = 0.0; |
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RealType bendPotential = 0.0; |
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RealType torsionPotential = 0.0; |
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|
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//calculate short range interactions |
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for (mol = info_->beginMolecule(mi); mol != NULL; mol = info_->nextMolecule(mi)) { |
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for (mol = info_->beginMolecule(mi); mol != NULL; |
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mol = info_->nextMolecule(mi)) { |
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|
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//change the positions of atoms which belong to the rigidbodies |
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for (rb = mol->beginRigidBody(rbIter); rb != NULL; rb = mol->nextRigidBody(rbIter)) { |
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rb->updateAtoms(); |
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for (rb = mol->beginRigidBody(rbIter); rb != NULL; |
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rb = mol->nextRigidBody(rbIter)) { |
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rb->updateAtoms(); |
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} |
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for (bond = mol->beginBond(bondIter); bond != NULL; bond = mol->nextBond(bondIter)) { |
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bond->calcForce(); |
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for (bond = mol->beginBond(bondIter); bond != NULL; |
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bond = mol->nextBond(bondIter)) { |
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bond->calcForce(); |
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bondPotential += bond->getPotential(); |
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} |
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for (bend = mol->beginBend(bendIter); bend != NULL; bend = mol->nextBend(bendIter)) { |
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bend->calcForce(); |
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for (bend = mol->beginBend(bendIter); bend != NULL; |
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bend = mol->nextBend(bendIter)) { |
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|
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RealType angle; |
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bend->calcForce(angle); |
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RealType currBendPot = bend->getPotential(); |
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bendPotential += bend->getPotential(); |
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std::map<Bend*, BendDataSet>::iterator i = bendDataSets.find(bend); |
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if (i == bendDataSets.end()) { |
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BendDataSet dataSet; |
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dataSet.prev.angle = dataSet.curr.angle = angle; |
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dataSet.prev.potential = dataSet.curr.potential = currBendPot; |
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dataSet.deltaV = 0.0; |
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bendDataSets.insert(std::map<Bend*, BendDataSet>::value_type(bend, dataSet)); |
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}else { |
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i->second.prev.angle = i->second.curr.angle; |
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i->second.prev.potential = i->second.curr.potential; |
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i->second.curr.angle = angle; |
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i->second.curr.potential = currBendPot; |
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i->second.deltaV = fabs(i->second.curr.potential - |
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i->second.prev.potential); |
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} |
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} |
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for (torsion = mol->beginTorsion(torsionIter); torsion != NULL; torsion = mol->nextTorsion(torsionIter)) { |
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torsion->calcForce(); |
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} |
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for (torsion = mol->beginTorsion(torsionIter); torsion != NULL; |
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torsion = mol->nextTorsion(torsionIter)) { |
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RealType angle; |
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torsion->calcForce(angle); |
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RealType currTorsionPot = torsion->getPotential(); |
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torsionPotential += torsion->getPotential(); |
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std::map<Torsion*, TorsionDataSet>::iterator i = torsionDataSets.find(torsion); |
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if (i == torsionDataSets.end()) { |
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TorsionDataSet dataSet; |
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dataSet.prev.angle = dataSet.curr.angle = angle; |
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dataSet.prev.potential = dataSet.curr.potential = currTorsionPot; |
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dataSet.deltaV = 0.0; |
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torsionDataSets.insert(std::map<Torsion*, TorsionDataSet>::value_type(torsion, dataSet)); |
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}else { |
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i->second.prev.angle = i->second.curr.angle; |
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i->second.prev.potential = i->second.curr.potential; |
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i->second.curr.angle = angle; |
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i->second.curr.potential = currTorsionPot; |
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i->second.deltaV = fabs(i->second.curr.potential - |
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i->second.prev.potential); |
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} |
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} |
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} |
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double shortRangePotential = 0.0; |
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for (mol = info_->beginMolecule(mi); mol != NULL; mol = info_->nextMolecule(mi)) { |
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shortRangePotential += mol->getPotential(); |
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} |
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RealType shortRangePotential = bondPotential + bendPotential + |
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torsionPotential; |
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Snapshot* curSnapshot = info_->getSnapshotManager()->getCurrentSnapshot(); |
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curSnapshot->statData[Stats::SHORT_RANGE_POTENTIAL] = shortRangePotential; |
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curSnapshot->statData[Stats::BOND_POTENTIAL] = bondPotential; |
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curSnapshot->statData[Stats::BEND_POTENTIAL] = bendPotential; |
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curSnapshot->statData[Stats::DIHEDRAL_POTENTIAL] = torsionPotential; |
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|
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} |
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void ForceManager::calcLongRangeInteraction(bool needPotential, bool needStress) { |
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void ForceManager::calcLongRangeInteraction(bool needPotential, |
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bool needStress) { |
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Snapshot* curSnapshot; |
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DataStorage* config; |
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double* frc; |
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double* pos; |
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double* trq; |
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double* A; |
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double* electroFrame; |
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double* rc; |
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RealType* frc; |
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RealType* pos; |
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RealType* trq; |
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RealType* A; |
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RealType* electroFrame; |
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RealType* rc; |
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//get current snapshot from SimInfo |
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curSnapshot = info_->getSnapshotManager()->getCurrentSnapshot(); |
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//get array pointers |
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config = &(curSnapshot->atomData); |
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frc = config->getArrayPointer(DataStorage::dslForce); |
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CutoffGroup* cg; |
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Vector3d com; |
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std::vector<Vector3d> rcGroup; |
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if(info_->getNCutoffGroups() > 0){ |
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for (mol = info_->beginMolecule(mi); mol != NULL; mol = info_->nextMolecule(mi)) { |
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for(cg = mol->beginCutoffGroup(ci); cg != NULL; cg = mol->nextCutoffGroup(ci)) { |
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|
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for (mol = info_->beginMolecule(mi); mol != NULL; |
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mol = info_->nextMolecule(mi)) { |
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for(cg = mol->beginCutoffGroup(ci); cg != NULL; |
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cg = mol->nextCutoffGroup(ci)) { |
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cg->getCOM(com); |
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rcGroup.push_back(com); |
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} |
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rc = rcGroup[0].getArrayPointer(); |
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} else { |
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// center of mass of the group is the same as position of the atom if cutoff group does not exist |
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// center of mass of the group is the same as position of the atom |
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// if cutoff group does not exist |
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rc = pos; |
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} |
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|
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//initialize data before passing to fortran |
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double longRangePotential = 0.0; |
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Mat3x3d tau; |
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RealType longRangePotential[LR_POT_TYPES]; |
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RealType lrPot = 0.0; |
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Vector3d totalDipole; |
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short int passedCalcPot = needPotential; |
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short int passedCalcStress = needStress; |
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int isError = 0; |
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|
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doForceLoop( pos, |
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rc, |
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A, |
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electroFrame, |
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frc, |
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trq, |
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tau.getArrayPointer(), |
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&longRangePotential, |
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&passedCalcPot, |
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&passedCalcStress, |
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&isError ); |
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|
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for (int i=0; i<LR_POT_TYPES;i++){ |
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longRangePotential[i]=0.0; //Initialize array |
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} |
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> |
|
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doForceLoop(pos, |
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rc, |
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A, |
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electroFrame, |
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frc, |
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trq, |
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tau.getArrayPointer(), |
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longRangePotential, |
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&passedCalcPot, |
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&passedCalcStress, |
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&isError ); |
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|
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if( isError ){ |
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sprintf( painCave.errMsg, |
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"Error returned from the fortran force calculation.\n" ); |
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painCave.isFatal = 1; |
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simError(); |
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} |
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|
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for (int i=0; i<LR_POT_TYPES;i++){ |
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lrPot += longRangePotential[i]; //Quick hack |
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} |
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> |
|
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// grab the simulation box dipole moment if specified |
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if (info_->getCalcBoxDipole()){ |
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getAccumulatedBoxDipole(totalDipole.getArrayPointer()); |
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> |
|
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curSnapshot->statData[Stats::BOX_DIPOLE_X] = totalDipole(0); |
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curSnapshot->statData[Stats::BOX_DIPOLE_Y] = totalDipole(1); |
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curSnapshot->statData[Stats::BOX_DIPOLE_Z] = totalDipole(2); |
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} |
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|
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//store the tau and long range potential |
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curSnapshot->statData[Stats::LONG_RANGE_POTENTIAL] = longRangePotential; |
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curSnapshot->statData.setTau(tau); |
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curSnapshot->statData[Stats::LONG_RANGE_POTENTIAL] = lrPot; |
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curSnapshot->statData[Stats::VANDERWAALS_POTENTIAL] = longRangePotential[VDW_POT]; |
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curSnapshot->statData[Stats::ELECTROSTATIC_POTENTIAL] = longRangePotential[ELECTROSTATIC_POT]; |
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} |
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|
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< |
|
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< |
void ForceManager::postCalculation() { |
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> |
|
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> |
void ForceManager::postCalculation(bool needStress) { |
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SimInfo::MoleculeIterator mi; |
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Molecule* mol; |
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Molecule::RigidBodyIterator rbIter; |
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RigidBody* rb; |
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+ |
Snapshot* curSnapshot = info_->getSnapshotManager()->getCurrentSnapshot(); |
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|
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// collect the atomic forces onto rigid bodies |
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< |
for (mol = info_->beginMolecule(mi); mol != NULL; mol = info_->nextMolecule(mi)) { |
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< |
for (rb = mol->beginRigidBody(rbIter); rb != NULL; rb = mol->nextRigidBody(rbIter)) { |
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< |
rb->calcForcesAndTorques(); |
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> |
|
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> |
for (mol = info_->beginMolecule(mi); mol != NULL; |
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> |
mol = info_->nextMolecule(mi)) { |
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> |
for (rb = mol->beginRigidBody(rbIter); rb != NULL; |
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> |
rb = mol->nextRigidBody(rbIter)) { |
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> |
if (needStress) { |
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Mat3x3d rbTau = rb->calcForcesAndTorquesAndVirial(); |
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> |
tau += rbTau; |
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> |
} else{ |
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> |
rb->calcForcesAndTorques(); |
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> |
} |
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} |
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} |
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|
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if (needStress) { |
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#ifdef IS_MPI |
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Mat3x3d tmpTau(tau); |
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+ |
MPI_Allreduce(tmpTau.getArrayPointer(), tau.getArrayPointer(), |
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9, MPI_REALTYPE, MPI_SUM, MPI_COMM_WORLD); |
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#endif |
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curSnapshot->statData.setTau(tau); |
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+ |
} |
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} |
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|
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} //end namespace oopse |
