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#include "brains/SimInfo.hpp" |
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#include "math/Vector3.hpp" |
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#include "primitives/Molecule.hpp" |
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#include "UseTheForce/fCutoffPolicy.h" |
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#include "UseTheForce/DarkSide/fElectrostaticSummationMethod.h" |
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#include "UseTheForce/doForces_interface.h" |
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#include "UseTheForce/DarkSide/electrostatic_interface.h" |
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#include "UseTheForce/notifyCutoffs_interface.h" |
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#include "utils/MemoryUtils.hpp" |
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#include "utils/simError.h" |
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MoleculeStamp* molStamp; |
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int nMolWithSameStamp; |
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int nCutoffAtoms = 0; // number of atoms belong to cutoff groups |
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int nGroups = 0; //total cutoff groups defined in meta-data file |
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int nGroups = 0; //total cutoff groups defined in meta-data file |
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CutoffGroupStamp* cgStamp; |
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RigidBodyStamp* rbStamp; |
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int nRigidAtoms = 0; |
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} |
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|
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nGroups += nCutoffGroupsInStamp * nMolWithSameStamp; |
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|
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nCutoffAtoms += nAtomsInGroups * nMolWithSameStamp; |
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|
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//calculate atoms in rigid bodies |
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|
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} |
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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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//every free atom (atom does not belong to cutoff groups) is a cutoff |
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//group therefore the total number of cutoff groups in the system is |
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//equal to the total number of atoms minus number of atoms belong to |
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//cutoff group defined in meta-data file plus the number of cutoff |
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//groups defined in meta-data file |
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nGlobalCutoffGroups_ = nGlobalAtoms_ - nCutoffAtoms + nGroups; |
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|
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//every free atom (atom does not belong to rigid bodies) is an integrable object |
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//therefore the total number of integrable objects in the system is equal to |
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//the total number of atoms minus number of atoms belong to rigid body defined in meta-data |
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//file plus the number of rigid bodies defined in meta-data file |
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nGlobalIntegrableObjects_ = nGlobalAtoms_ - nRigidAtoms + nGlobalRigidBodies_; |
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|
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//every free atom (atom does not belong to rigid bodies) is an |
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//integrable object therefore the total number of integrable objects |
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//in the system is equal to the total number of atoms minus number of |
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//atoms belong to rigid body defined in meta-data file plus the number |
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//of rigid bodies defined in meta-data file |
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nGlobalIntegrableObjects_ = nGlobalAtoms_ - nRigidAtoms |
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+ nGlobalRigidBodies_; |
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|
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nGlobalMols_ = molStampIds_.size(); |
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|
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#ifdef IS_MPI |
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//setup fortran force field |
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/** @deprecate */ |
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int isError = 0; |
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initFortranFF( &fInfo_.SIM_uses_RF , &isError ); |
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|
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setupElectrostaticSummationMethod( isError ); |
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|
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if(isError){ |
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sprintf( painCave.errMsg, |
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"ForceField error: There was an error initializing the forceField in fortran.\n" ); |
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int useDirectionalAtom = 0; |
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int useElectrostatics = 0; |
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//usePBC and useRF are from simParams |
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int usePBC = simParams_->getPBC(); |
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int useRF = simParams_->getUseRF(); |
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int usePBC = simParams_->getUsePeriodicBoundaryConditions(); |
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int useRF; |
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int useDW; |
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std::string myMethod; |
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|
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// set the useRF logical |
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useRF = 0; |
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useDW = 0; |
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|
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|
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if (simParams_->haveElectrostaticSummationMethod()) { |
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std::string myMethod = simParams_->getElectrostaticSummationMethod(); |
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toUpper(myMethod); |
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if (myMethod == "REACTION_FIELD") { |
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useRF=1; |
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} else { |
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if (myMethod == "DAMPED_WOLF") { |
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useDW = 1; |
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} |
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} |
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} |
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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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useLennardJones |= (*i)->isLennardJones(); |
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|
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temp = useRF; |
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MPI_Allreduce(&temp, &useRF, 1, MPI_INT, MPI_LOR, MPI_COMM_WORLD); |
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|
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|
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temp = useDW; |
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MPI_Allreduce(&temp, &useDW, 1, MPI_INT, MPI_LOR, MPI_COMM_WORLD); |
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|
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#endif |
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fInfo_.SIM_uses_PBC = usePBC; |
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fInfo_.SIM_uses_Shapes = useShape; |
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fInfo_.SIM_uses_FLARB = useFLARB; |
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fInfo_.SIM_uses_RF = useRF; |
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fInfo_.SIM_uses_DampedWolf = useDW; |
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|
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if( fInfo_.SIM_uses_Dipoles && fInfo_.SIM_uses_RF) { |
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|
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if( myMethod == "REACTION_FIELD") { |
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|
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if (simParams_->haveDielectric()) { |
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fInfo_.dielect = simParams_->getDielectric(); |
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} else { |
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"\tsetting a dielectric constant!\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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} else { |
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fInfo_.dielect = 0.0; |
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} |
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} |
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|
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} |
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|
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totalMass = cg->getMass(); |
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for(atom = cg->beginAtom(ai); atom != NULL; atom = cg->nextAtom(ai)) { |
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mfact.push_back(atom->getMass()/totalMass); |
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// Check for massless groups - set mfact to 1 if true |
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if (totalMass != 0) |
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mfact.push_back(atom->getMass()/totalMass); |
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else |
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mfact.push_back( 1.0 ); |
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} |
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|
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} |
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if (fInfo_.SIM_uses_Charges | fInfo_.SIM_uses_Dipoles | fInfo_.SIM_uses_RF) { |
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|
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if (!simParams_->haveRcut()){ |
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if (!simParams_->haveCutoffRadius()){ |
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sprintf(painCave.errMsg, |
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"SimCreator Warning: No value was set for the cutoffRadius.\n" |
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"\tOOPSE will use a default value of 15.0 angstroms" |
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simError(); |
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rcut = 15.0; |
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} else{ |
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rcut = simParams_->getRcut(); |
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rcut = simParams_->getCutoffRadius(); |
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} |
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|
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if (!simParams_->haveRsw()){ |
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if (!simParams_->haveSwitchingRadius()){ |
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sprintf(painCave.errMsg, |
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"SimCreator Warning: No value was set for switchingRadius.\n" |
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"\tOOPSE will use a default value of\n" |
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"\t0.95 * cutoffRadius for the switchingRadius\n"); |
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"\t0.85 * cutoffRadius for the switchingRadius\n"); |
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painCave.isFatal = 0; |
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simError(); |
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rsw = 0.95 * rcut; |
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rsw = 0.85 * rcut; |
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} else{ |
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rsw = simParams_->getRsw(); |
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rsw = simParams_->getSwitchingRadius(); |
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} |
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|
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} else { |
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// if charge, dipole or reaction field is not used and the cutofff radius is not specified in |
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//meta-data file, the maximum cutoff radius calculated from forcefiled will be used |
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|
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if (simParams_->haveRcut()) { |
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rcut = simParams_->getRcut(); |
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if (simParams_->haveCutoffRadius()) { |
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rcut = simParams_->getCutoffRadius(); |
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} else { |
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//set cutoff radius to the maximum cutoff radius based on atom types in the whole system |
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rcut = calcMaxCutoffRadius(); |
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} |
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|
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if (simParams_->haveRsw()) { |
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rsw = simParams_->getRsw(); |
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if (simParams_->haveSwitchingRadius()) { |
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rsw = simParams_->getSwitchingRadius(); |
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} else { |
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rsw = rcut; |
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} |
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} |
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} |
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|
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void SimInfo::setupCutoff() { |
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void SimInfo::setupCutoff() { |
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getCutoff(rcut_, rsw_); |
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double rnblist = rcut_ + 1; // skin of neighbor list |
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|
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//Pass these cutoff radius etc. to fortran. This function should be called once and only once |
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notifyFortranCutoffs(&rcut_, &rsw_, &rnblist); |
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|
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int cp = TRADITIONAL_CUTOFF_POLICY; |
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if (simParams_->haveCutoffPolicy()) { |
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std::string myPolicy = simParams_->getCutoffPolicy(); |
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toUpper(myPolicy); |
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if (myPolicy == "MIX") { |
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cp = MIX_CUTOFF_POLICY; |
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} else { |
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if (myPolicy == "MAX") { |
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cp = MAX_CUTOFF_POLICY; |
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} else { |
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if (myPolicy == "TRADITIONAL") { |
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cp = TRADITIONAL_CUTOFF_POLICY; |
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} else { |
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// throw error |
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sprintf( painCave.errMsg, |
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"SimInfo error: Unknown cutoffPolicy. (Input file specified %s .)\n\tcutoffPolicy must be one of: \"Mix\", \"Max\", or \"Traditional\".", myPolicy.c_str() ); |
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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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} |
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> |
|
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> |
|
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> |
if (simParams_->haveSkinThickness()) { |
| 897 |
> |
double skinThickness = simParams_->getSkinThickness(); |
| 898 |
> |
} |
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> |
|
| 900 |
> |
notifyFortranCutoffs(&rcut_, &rsw_, &rnblist, &cp); |
| 901 |
> |
// also send cutoff notification to electrostatics |
| 902 |
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setElectrostaticCutoffRadius(&rcut_, &rsw_); |
| 903 |
> |
} |
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> |
|
| 905 |
> |
void SimInfo::setupElectrostaticSummationMethod( int isError ) { |
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> |
|
| 907 |
> |
int errorOut; |
| 908 |
> |
int esm = NONE; |
| 909 |
> |
double alphaVal; |
| 910 |
> |
double dielectric; |
| 911 |
> |
|
| 912 |
> |
errorOut = isError; |
| 913 |
> |
alphaVal = simParams_->getDampingAlpha(); |
| 914 |
> |
dielectric = simParams_->getDielectric(); |
| 915 |
> |
|
| 916 |
> |
if (simParams_->haveElectrostaticSummationMethod()) { |
| 917 |
> |
std::string myMethod = simParams_->getElectrostaticSummationMethod(); |
| 918 |
> |
toUpper(myMethod); |
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> |
if (myMethod == "NONE") { |
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> |
esm = NONE; |
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> |
} else { |
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> |
if (myMethod == "UNDAMPED_WOLF") { |
| 923 |
> |
esm = UNDAMPED_WOLF; |
| 924 |
> |
} else { |
| 925 |
> |
if (myMethod == "DAMPED_WOLF") { |
| 926 |
> |
esm = DAMPED_WOLF; |
| 927 |
> |
if (!simParams_->haveDampingAlpha()) { |
| 928 |
> |
//throw error |
| 929 |
> |
sprintf( painCave.errMsg, |
| 930 |
> |
"SimInfo warning: dampingAlpha was not specified in the input file. A default value of %f (1/ang) will be used for the Damped Wolf Method.", alphaVal); |
| 931 |
> |
painCave.isFatal = 0; |
| 932 |
> |
simError(); |
| 933 |
> |
} |
| 934 |
> |
} else { |
| 935 |
> |
if (myMethod == "REACTION_FIELD") { |
| 936 |
> |
esm = REACTION_FIELD; |
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> |
} else { |
| 938 |
> |
// throw error |
| 939 |
> |
sprintf( painCave.errMsg, |
| 940 |
> |
"SimInfo error: Unknown electrostaticSummationMethod. (Input file specified %s .)\n\telectrostaticSummationMethod must be one of: \"none\", \"undamped_wolf\", \"damped_wolf\", or \"reaction_field\".", myMethod.c_str() ); |
| 941 |
> |
painCave.isFatal = 1; |
| 942 |
> |
simError(); |
| 943 |
> |
} |
| 944 |
> |
} |
| 945 |
> |
} |
| 946 |
> |
} |
| 947 |
> |
} |
| 948 |
> |
// let's pass some summation method variables to fortran |
| 949 |
> |
setElectrostaticSummationMethod( &esm ); |
| 950 |
> |
setDampedWolfAlpha( &alphaVal ); |
| 951 |
> |
setReactionFieldDielectric( &dielectric ); |
| 952 |
> |
initFortranFF( &esm, &errorOut ); |
| 953 |
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} |
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|
| 955 |
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void SimInfo::addProperty(GenericData* genData) { |
