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#include "UseTheForce/DarkSide/fElectrostaticScreeningMethod.h" |
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#include "UseTheForce/DarkSide/fSwitchingFunctionType.h" |
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#include "UseTheForce/doForces_interface.h" |
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+ |
#include "UseTheForce/DarkSide/neighborLists_interface.h" |
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#include "UseTheForce/DarkSide/electrostatic_interface.h" |
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#include "UseTheForce/DarkSide/switcheroo_interface.h" |
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#include "utils/MemoryUtils.hpp" |
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#include "io/ForceFieldOptions.hpp" |
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#include "UseTheForce/ForceField.hpp" |
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|
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|
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#ifdef IS_MPI |
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#include "UseTheForce/mpiComponentPlan.h" |
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#include "UseTheForce/DarkSide/simParallel_interface.h" |
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nGlobalIntegrableObjects_(0), nGlobalRigidBodies_(0), |
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nAtoms_(0), nBonds_(0), nBends_(0), nTorsions_(0), nRigidBodies_(0), |
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nIntegrableObjects_(0), nCutoffGroups_(0), nConstraints_(0), |
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< |
sman_(NULL), fortranInitialized_(false), calcBoxDipole_(false) { |
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> |
sman_(NULL), fortranInitialized_(false), calcBoxDipole_(false), |
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> |
useAtomicVirial_(true) { |
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|
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MoleculeStamp* molStamp; |
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int nMolWithSameStamp; |
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int useSF; |
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int useSP; |
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int useBoxDipole; |
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|
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std::string myMethod; |
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|
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// set the useRF logical |
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if (simParams_->haveAccumulateBoxDipole()) |
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if (simParams_->getAccumulateBoxDipole()) |
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useBoxDipole = 1; |
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|
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useAtomicVirial_ = simParams_->getUseAtomicVirial(); |
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|
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//loop over all of the atom types |
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for (i = atomTypes.begin(); i != atomTypes.end(); ++i) { |
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temp = useBoxDipole; |
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MPI_Allreduce(&temp, &useBoxDipole, 1, MPI_INT, MPI_LOR, MPI_COMM_WORLD); |
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|
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temp = useAtomicVirial_; |
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MPI_Allreduce(&temp, &useAtomicVirial_, 1, MPI_INT, MPI_LOR, MPI_COMM_WORLD); |
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|
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#endif |
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|
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fInfo_.SIM_uses_PBC = usePBC; |
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fInfo_.SIM_uses_SF = useSF; |
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fInfo_.SIM_uses_SP = useSP; |
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fInfo_.SIM_uses_BoxDipole = useBoxDipole; |
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fInfo_.SIM_uses_AtomicVirial = useAtomicVirial_; |
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} |
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|
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void SimInfo::setupFortranSim() { |
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"succesfully sent the simulation information to fortran.\n"); |
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MPIcheckPoint(); |
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#endif // is_mpi |
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|
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// Setup number of neighbors in neighbor list if present |
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if (simParams_->haveNeighborListNeighbors()) { |
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int nlistNeighbors = simParams_->getNeighborListNeighbors(); |
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setNeighbors(&nlistNeighbors); |
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} |
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|
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|
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} |
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|
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|
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IOIndexToIntegrableObject= v; |
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} |
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|
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/* Returns the Volume of the simulation based on a ellipsoid with semi-axes |
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based on the radius of gyration V=4/3*Pi*R_1*R_2*R_3 |
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where R_i are related to the principle inertia moments R_i = sqrt(C*I_i/N), this reduces to |
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V = 4/3*Pi*(C/N)^3/2*sqrt(det(I)). See S.E. Baltazar et. al. Comp. Mat. Sci. 37 (2006) 526-536. |
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*/ |
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void SimInfo::getGyrationalVolume(RealType &volume){ |
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Mat3x3d intTensor; |
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RealType det; |
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Vector3d dummyAngMom; |
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RealType sysconstants; |
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RealType geomCnst; |
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|
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geomCnst = 3.0/2.0; |
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/* Get the inertial tensor and angular momentum for free*/ |
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getInertiaTensor(intTensor,dummyAngMom); |
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+ |
|
| 1483 |
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det = intTensor.determinant(); |
| 1484 |
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sysconstants = geomCnst/(RealType)nGlobalIntegrableObjects_; |
| 1485 |
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volume = 4.0/3.0*NumericConstant::PI*pow(sysconstants,3.0/2.0)*sqrt(det); |
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return; |
| 1487 |
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} |
| 1488 |
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|
| 1489 |
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void SimInfo::getGyrationalVolume(RealType &volume, RealType &detI){ |
| 1490 |
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Mat3x3d intTensor; |
| 1491 |
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Vector3d dummyAngMom; |
| 1492 |
+ |
RealType sysconstants; |
| 1493 |
+ |
RealType geomCnst; |
| 1494 |
+ |
|
| 1495 |
+ |
geomCnst = 3.0/2.0; |
| 1496 |
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/* Get the inertial tensor and angular momentum for free*/ |
| 1497 |
+ |
getInertiaTensor(intTensor,dummyAngMom); |
| 1498 |
+ |
|
| 1499 |
+ |
detI = intTensor.determinant(); |
| 1500 |
+ |
sysconstants = geomCnst/(RealType)nGlobalIntegrableObjects_; |
| 1501 |
+ |
volume = 4.0/3.0*NumericConstant::PI*pow(sysconstants,3.0/2.0)*sqrt(detI); |
| 1502 |
+ |
return; |
| 1503 |
+ |
} |
| 1504 |
|
/* |
| 1505 |
|
void SimInfo::setStuntDoubleFromGlobalIndex(std::vector<StuntDouble*> v) { |
| 1506 |
|
assert( v.size() == nAtoms_ + nRigidBodies_); |
