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Comparing branches/development/src/brains/ForceManager.cpp (file contents):
Revision 1780 by jmarr, Mon Aug 20 18:28:22 2012 UTC vs.
Revision 1866 by gezelter, Thu Apr 25 14:32:56 2013 UTC

# Line 35 | Line 35
35   *                                                                      
36   * [1]  Meineke, et al., J. Comp. Chem. 26, 252-271 (2005).            
37   * [2]  Fennell & Gezelter, J. Chem. Phys. 124, 234104 (2006).          
38 < * [3]  Sun, Lin & Gezelter, J. Chem. Phys. 128, 24107 (2008).          
38 > * [3]  Sun, Lin & Gezelter, J. Chem. Phys. 128, 234107 (2008).          
39   * [4]  Kuang & Gezelter,  J. Chem. Phys. 133, 164101 (2010).
40   * [5]  Vardeman, Stocker & Gezelter, J. Chem. Theory Comput. 7, 834 (2011).
41   */
# Line 44 | Line 44
44   * @file ForceManager.cpp
45   * @author tlin
46   * @date 11/09/2004
47 * @time 10:39am
47   * @version 1.0
48   */
49  
# Line 72 | Line 71 | namespace OpenMD {
71      forceField_ = info_->getForceField();
72      interactionMan_ = new InteractionManager();
73      fDecomp_ = new ForceMatrixDecomposition(info_, interactionMan_);
74 +    thermo = new Thermo(info_);
75    }
76  
77    /**
# Line 118 | Line 118 | namespace OpenMD {
118      else
119        mdFileVersion = 0;
120    
121 +    // We need the list of simulated atom types to figure out cutoffs
122 +    // as well as long range corrections.
123 +
124 +    set<AtomType*>::iterator i;
125 +    set<AtomType*> atomTypes_;
126 +    atomTypes_ = info_->getSimulatedAtomTypes();
127 +
128      if (simParams_->haveCutoffRadius()) {
129        rCut_ = simParams_->getCutoffRadius();
130      } else {      
# Line 132 | Line 139 | namespace OpenMD {
139          rCut_ = 12.0;
140        } else {
141          RealType thisCut;
142 <        set<AtomType*>::iterator i;
136 <        set<AtomType*> atomTypes;
137 <        atomTypes = info_->getSimulatedAtomTypes();        
138 <        for (i = atomTypes.begin(); i != atomTypes.end(); ++i) {
142 >        for (i = atomTypes_.begin(); i != atomTypes_.end(); ++i) {
143            thisCut = interactionMan_->getSuggestedCutoffRadius((*i));
144            rCut_ = max(thisCut, rCut_);
145          }
# Line 370 | Line 374 | namespace OpenMD {
374      }
375      switcher_->setSwitchType(sft_);
376      switcher_->setSwitch(rSwitch_, rCut_);
373    interactionMan_->setSwitchingRadius(rSwitch_);
377    }
378  
379  
# Line 394 | Line 397 | namespace OpenMD {
397        doParticlePot_ = info_->getSimParams()->getOutputParticlePotential();
398        doHeatFlux_ = info_->getSimParams()->getPrintHeatFlux();
399        if (doHeatFlux_) doParticlePot_ = true;
400 +
401 +      doElectricField_ = info_->getSimParams()->getOutputElectricField();
402    
403      }
404  
# Line 429 | Line 434 | namespace OpenMD {
434        perturbations_.push_back(eField);
435      }
436  
437 +    usePeriodicBoundaryConditions_ = info_->getSimParams()->getUsePeriodicBoundaryConditions();
438 +    
439      fDecomp_->distributeInitialData();
440 <
440 >    
441      initialized_ = true;
442 <
442 >    
443    }
444 <
444 >  
445    void ForceManager::calcForces() {
446      
447      if (!initialized_) initialize();
448 <
448 >    
449      preCalculation();  
450      shortRangeInteractions();
451      longRangeInteractions();
# Line 687 | Line 694 | namespace OpenMD {
694      potVec longRangePotential(0.0);
695      potVec workPot(0.0);
696      potVec exPot(0.0);
697 +    Vector3d eField1(0.0);
698 +    Vector3d eField2(0.0);
699      vector<int>::iterator ia, jb;
700  
701      int loopStart, loopEnd;
# Line 700 | Line 709 | namespace OpenMD {
709      idat.vpair = &vpair;
710      idat.dVdFQ1 = &dVdFQ1;
711      idat.dVdFQ2 = &dVdFQ2;
712 +    idat.eField1 = &eField1;
713 +    idat.eField2 = &eField2;  
714      idat.f1 = &f1;
715      idat.sw = &sw;
716      idat.shiftedPot = (cutoffMethod_ == SHIFTED_POTENTIAL) ? true : false;
717      idat.shiftedForce = (cutoffMethod_ == SHIFTED_FORCE) ? true : false;
718      idat.doParticlePot = doParticlePot_;
719 +    idat.doElectricField = doElectricField_;
720      sdat.doParticlePot = doParticlePot_;
721      
722      loopEnd = PAIR_LOOP;
# Line 717 | Line 729 | namespace OpenMD {
729      
730        if (iLoop == loopStart) {
731          bool update_nlist = fDecomp_->checkNeighborList();
732 <        if (update_nlist)
732 >        if (update_nlist) {
733 >          if (!usePeriodicBoundaryConditions_)
734 >            Mat3x3d bbox = thermo->getBoundingBox();
735            neighborList = fDecomp_->buildNeighborList();
736 <      }            
736 >        }
737 >      }
738  
739        for (vector<pair<int, int> >::iterator it = neighborList.begin();
740               it != neighborList.end(); ++it) {
# Line 740 | Line 755 | namespace OpenMD {
755            if (iLoop == PAIR_LOOP) {
756              vij = 0.0;
757              fij = V3Zero;
758 +            eField1 = V3Zero;
759 +            eField2 = V3Zero;
760            }
761            
762            in_switching_region = switcher_->getSwitch(rgrpsq, sw, dswdr,
# Line 814 | Line 831 | namespace OpenMD {
831                fij += fg;
832  
833                if (atomListRow.size() == 1 && atomListColumn.size() == 1) {
834 <                stressTensor -= outProduct( *(idat.d), fg);
835 <                if (doHeatFlux_)
836 <                  fDecomp_->addToHeatFlux(*(idat.d) * dot(fg, vel2));
837 <                
834 >                if (!fDecomp_->skipAtomPair(atomListRow[0],
835 >                                            atomListColumn[0],
836 >                                            cg1, cg2)) {
837 >                  stressTensor -= outProduct( *(idat.d), fg);
838 >                  if (doHeatFlux_)
839 >                    fDecomp_->addToHeatFlux(*(idat.d) * dot(fg, vel2));
840 >                }                
841                }
842            
843                for (ia = atomListRow.begin();
# Line 939 | Line 959 | namespace OpenMD {
959   #endif
960      curSnapshot->setStressTensor(stressTensor);
961      
962 +    if (info_->getSimParams()->getUseLongRangeCorrections()) {
963 +      /*
964 +      RealType vol = curSnapshot->getVolume();
965 +      RealType Elrc(0.0);
966 +      RealType Wlrc(0.0);
967 +
968 +      set<AtomType*>::iterator i;
969 +      set<AtomType*>::iterator j;
970 +    
971 +      RealType n_i, n_j;
972 +      RealType rho_i, rho_j;
973 +      pair<RealType, RealType> LRI;
974 +      
975 +      for (i = atomTypes_.begin(); i != atomTypes_.end(); ++i) {
976 +        n_i = RealType(info_->getGlobalCountOfType(*i));
977 +        rho_i = n_i /  vol;
978 +        for (j = atomTypes_.begin(); j != atomTypes_.end(); ++j) {
979 +          n_j = RealType(info_->getGlobalCountOfType(*j));
980 +          rho_j = n_j / vol;
981 +          
982 +          LRI = interactionMan_->getLongRangeIntegrals( (*i), (*j) );
983 +
984 +          Elrc += n_i   * rho_j * LRI.first;
985 +          Wlrc -= rho_i * rho_j * LRI.second;
986 +        }
987 +      }
988 +      Elrc *= 2.0 * NumericConstant::PI;
989 +      Wlrc *= 2.0 * NumericConstant::PI;
990 +
991 +      RealType lrp = curSnapshot->getLongRangePotential();
992 +      curSnapshot->setLongRangePotential(lrp + Elrc);
993 +      stressTensor += Wlrc * SquareMatrix3<RealType>::identity();
994 +      curSnapshot->setStressTensor(stressTensor);
995 +      */
996 +    
997 +    }
998    }
999 < } //end namespace OpenMD
999 > }

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