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#include "utils/OOPSEConstant.hpp" |
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#include "hydrodynamics/Sphere.hpp" |
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#include "hydrodynamics/Ellipsoid.hpp" |
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#include "openbabel/mol.hpp" |
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#include "utils/ElementsTable.hpp" |
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using namespace OpenBabel; |
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namespace oopse { |
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LDForceManager::LDForceManager(SimInfo* info) : ForceManager(info){ |
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integrableObject != NULL; |
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integrableObject = mol->nextIntegrableObject(j)) { |
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Shape* currShape = NULL; |
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if (integrableObject->isDirectionalAtom()) { |
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DirectionalAtom* dAtom = static_cast<DirectionalAtom*>(integrableObject); |
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AtomType* atomType = dAtom->getAtomType(); |
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|
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if (integrableObject->isAtom()){ |
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Atom* atom = static_cast<Atom*>(integrableObject); |
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AtomType* atomType = atom->getAtomType(); |
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if (atomType->isGayBerne()) { |
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DirectionalAtomType* dAtomType = dynamic_cast<DirectionalAtomType*>(atomType); |
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DirectionalAtomType* dAtomType = dynamic_cast<DirectionalAtomType*>(atomType); |
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GenericData* data = dAtomType->getPropertyByName("GayBerne"); |
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if (data != NULL) { |
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GayBerneParamGenericData* gayBerneData = dynamic_cast<GayBerneParamGenericData*>(data); |
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if (gayBerneData != NULL) { |
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GayBerneParam gayBerneParam = gayBerneData->getData(); |
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currShape = new Ellipsoid(V3Zero, |
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gayBerneParam.GB_d / 2.0, |
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gayBerneParam.GB_l / 2.0, |
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gayBerneParam.GB_d / 2.0, |
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Mat3x3d::identity()); |
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} else { |
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sprintf( painCave.errMsg, |
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painCave.isFatal = 1; |
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simError(); |
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} |
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} |
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} else { |
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Atom* atom = static_cast<Atom*>(integrableObject); |
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AtomType* atomType = atom->getAtomType(); |
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if (atomType->isLennardJones()){ |
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GenericData* data = atomType->getPropertyByName("LennardJones"); |
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if (data != NULL) { |
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LJParamGenericData* ljData = dynamic_cast<LJParamGenericData*>(data); |
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if (ljData != NULL) { |
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LJParam ljParam = ljData->getData(); |
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currShape = new Sphere(atom->getPos(), ljParam.sigma/2.0); |
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} else { |
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if (atomType->isLennardJones()){ |
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GenericData* data = atomType->getPropertyByName("LennardJones"); |
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if (data != NULL) { |
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LJParamGenericData* ljData = dynamic_cast<LJParamGenericData*>(data); |
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if (ljData != NULL) { |
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LJParam ljParam = ljData->getData(); |
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currShape = new Sphere(atom->getPos(), ljParam.sigma/2.0); |
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} else { |
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sprintf( painCave.errMsg, |
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"Can not cast GenericData to LJParam\n"); |
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painCave.severity = OOPSE_ERROR; |
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painCave.isFatal = 1; |
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simError(); |
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} |
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} |
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} else { |
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int obanum = etab.GetAtomicNum((atom->getType()).c_str()); |
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if (obanum != 0) { |
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currShape = new Sphere(atom->getPos(), etab.GetVdwRad(obanum)); |
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} else { |
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sprintf( painCave.errMsg, |
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"Can not cast GenericData to LJParam\n"); |
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"Could not find atom type in default element.txt\n"); |
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painCave.severity = OOPSE_ERROR; |
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painCave.isFatal = 1; |
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simError(); |
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} |
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} |
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} |
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} else { |
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int obanum = etab.GetAtomicNum((atom->getType()).c_str()); |
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if (obanum != 0) { |
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currShape = new Sphere(atom->getPos(), etab.GetVdwRad(obanum)); |
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} else { |
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sprintf( painCave.errMsg, |
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"Could not find atom type in default element.txt\n"); |
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painCave.severity = OOPSE_ERROR; |
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painCave.isFatal = 1; |
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simError(); |
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} |
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} |
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} |
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HydroProp* currHydroProp = currShape->getHydroProp(simParams->getViscosity(),simParams->getTargetTemp()); |
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return props; |
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} |
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void LDForceManager::postCalculation() { |
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void LDForceManager::postCalculation(bool needStress){ |
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SimInfo::MoleculeIterator i; |
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Molecule::IntegrableObjectIterator j; |
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Molecule* mol; |
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StuntDouble* integrableObject; |
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RealType mass; |
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Vector3d vel; |
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Vector3d pos; |
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Vector3d frc; |
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Mat3x3d Atrans; |
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Vector3d Tb; |
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Vector3d ji; |
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RealType mass; |
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unsigned int index = 0; |
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bool doLangevinForces; |
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bool freezeMolecule; |
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int fdf; |
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int nIntegrated; |
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int nFrozen; |
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fdf = 0; |
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for (mol = info_->beginMolecule(i); mol != NULL; mol = info_->nextMolecule(i)) { |
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if (doLangevinForces) { |
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vel =integrableObject->getVel(); |
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mass = integrableObject->getMass(); |
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if (integrableObject->isDirectional()){ |
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//calculate angular velocity in lab frame |
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Mat3x3d I = integrableObject->getI(); |
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Vector3d angMom = integrableObject->getJ(); |
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Vector3d omega; |
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A = integrableObject->getA(); |
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Atrans = A.transpose(); |
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Vector3d omegaBody; |
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if (integrableObject->isLinear()) { |
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int linearAxis = integrableObject->linearAxis(); |
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int l = (linearAxis +1 )%3; |
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int m = (linearAxis +2 )%3; |
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omega[l] = angMom[l] /I(l, l); |
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omega[m] = angMom[m] /I(m, m); |
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omegaBody[l] = angMom[l] /I(l, l); |
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omegaBody[m] = angMom[m] /I(m, m); |
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} else { |
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omega[0] = angMom[0] /I(0, 0); |
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omega[1] = angMom[1] /I(1, 1); |
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omega[2] = angMom[2] /I(2, 2); |
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omegaBody[0] = angMom[0] /I(0, 0); |
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omegaBody[1] = angMom[1] /I(1, 1); |
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omegaBody[2] = angMom[2] /I(2, 2); |
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} |
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< |
|
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< |
//apply friction force and torque at center of resistance |
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A = integrableObject->getA(); |
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Atrans = A.transpose(); |
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< |
Vector3d rcr = Atrans * hydroProps_[index]->getCOR(); |
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< |
Vector3d vcdLab = vel + cross(omega, rcr); |
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Vector3d vcdBody = A* vcdLab; |
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Vector3d frictionForceBody = -(hydroProps_[index]->getXitt() * vcdBody + hydroProps_[index]->getXirt() * omega); |
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< |
Vector3d frictionForceLab = Atrans*frictionForceBody; |
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> |
|
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> |
Vector3d omegaLab = Atrans * omegaBody; |
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> |
|
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> |
// apply friction force and torque at center of resistance |
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> |
|
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> |
Vector3d rcrLab = Atrans * hydroProps_[index]->getCOR(); |
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> |
Vector3d vcdLab = vel + cross(omegaLab, rcrLab); |
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> |
|
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> |
Vector3d vcdBody = A * vcdLab; |
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> |
Vector3d frictionForceBody = -(hydroProps_[index]->getXitt() * vcdBody + hydroProps_[index]->getXirt() * omegaBody); |
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> |
|
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> |
Vector3d frictionForceLab = Atrans * frictionForceBody; |
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integrableObject->addFrc(frictionForceLab); |
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Vector3d frictionTorqueBody = - (hydroProps_[index]->getXitr() * vcdBody + hydroProps_[index]->getXirr() * omega); |
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< |
Vector3d frictionTorqueLab = Atrans*frictionTorqueBody; |
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< |
integrableObject->addTrq(frictionTorqueLab+ cross(rcr, frictionForceLab)); |
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< |
|
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> |
Vector3d frictionTorqueBody = -(hydroProps_[index]->getXitr() * vcdBody + hydroProps_[index]->getXirr() * omegaBody); |
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> |
Vector3d frictionTorqueLab = Atrans * frictionTorqueBody; |
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> |
integrableObject->addTrq(frictionTorqueLab + cross(rcrLab, frictionForceLab)); |
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> |
|
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//apply random force and torque at center of resistance |
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Vector3d randomForceBody; |
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Vector3d randomTorqueBody; |
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genRandomForceAndTorque(randomForceBody, randomTorqueBody, index, variance_); |
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< |
Vector3d randomForceLab = Atrans*randomForceBody; |
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< |
Vector3d randomTorqueLab = Atrans* randomTorqueBody; |
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> |
Vector3d randomForceLab = Atrans * randomForceBody; |
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> |
Vector3d randomTorqueLab = Atrans * randomTorqueBody; |
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integrableObject->addFrc(randomForceLab); |
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< |
integrableObject->addTrq(randomTorqueLab + cross(rcr, randomForceLab )); |
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> |
integrableObject->addTrq(randomTorqueLab + cross(rcrLab, randomForceLab )); |
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} else { |
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//spherical atom |
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if(!simParams->getUsePeriodicBoundaryConditions()) |
| 365 |
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veloMunge->removeAngularDrift(); |
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|
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< |
ForceManager::postCalculation(); |
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> |
ForceManager::postCalculation(needStress); |
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} |
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void LDForceManager::genRandomForceAndTorque(Vector3d& force, Vector3d& torque, unsigned int index, RealType variance) { |
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| 373 |
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Vector<RealType, 6> Z; |
| 374 |
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Vector<RealType, 6> generalForce; |
| 373 |
– |
|
| 375 |
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| 376 |
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Z[0] = randNumGen_.randNorm(0, variance); |
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Z[1] = randNumGen_.randNorm(0, variance); |
| 380 |
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Z[4] = randNumGen_.randNorm(0, variance); |
| 381 |
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Z[5] = randNumGen_.randNorm(0, variance); |
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|
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– |
|
| 383 |
|
generalForce = hydroProps_[index]->getS()*Z; |
| 384 |
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|
| 385 |
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force[0] = generalForce[0]; |
| 389 |
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torque[1] = generalForce[4]; |
| 390 |
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torque[2] = generalForce[5]; |
| 391 |
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|
| 392 |
< |
} |
| 392 |
> |
} |
| 393 |
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| 394 |
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} |
