src/nonbonded/InteractionManager.cpp

/*
 * Copyright (c) 2005 The University of Notre Dame. All Rights Reserved.
 *
 * The University of Notre Dame grants you ("Licensee") a
 * non-exclusive, royalty free, license to use, modify and
 * redistribute this software in source and binary code form, provided
 * that the following conditions are met:
 *
 * 1. Redistributions of source code must retain the above copyright
 *    notice, this list of conditions and the following disclaimer.
 *
 * 2. Redistributions in binary form must reproduce the above copyright
 *    notice, this list of conditions and the following disclaimer in the
 *    documentation and/or other materials provided with the
 *    distribution.
 *
 * This software is provided "AS IS," without a warranty of any
 * kind. All express or implied conditions, representations and
 * warranties, including any implied warranty of merchantability,
 * fitness for a particular purpose or non-infringement, are hereby
 * excluded.  The University of Notre Dame and its licensors shall not
 * be liable for any damages suffered by licensee as a result of
 * using, modifying or distributing the software or its
 * derivatives. In no event will the University of Notre Dame or its
 * licensors be liable for any lost revenue, profit or data, or for
 * direct, indirect, special, consequential, incidental or punitive
 * damages, however caused and regardless of the theory of liability,
 * arising out of the use of or inability to use software, even if the
 * University of Notre Dame has been advised of the possibility of
 * such damages.
 *
 * SUPPORT OPEN SCIENCE!  If you use OpenMD or its source code in your
 * research, please cite the appropriate papers when you publish your
 * work.  Good starting points are:
 *                                                                      
 * [1]  Meineke, et al., J. Comp. Chem. 26, 252-271 (2005).             
 * [2]  Fennell & Gezelter, J. Chem. Phys. 124, 234104 (2006).          
 * [3]  Sun, Lin & Gezelter, J. Chem. Phys. 128, 234107 (2008).          
 * [4]  Kuang & Gezelter,  J. Chem. Phys. 133, 164101 (2010).
 * [5]  Vardeman, Stocker & Gezelter, J. Chem. Theory Comput. 7, 834 (2011).
 */
 
#include "nonbonded/InteractionManager.hpp"

namespace OpenMD {

  InteractionManager::InteractionManager() {

    initialized_ = false;
        
    lj_ = new LJ();
    gb_ = new GB();
    sticky_ = new Sticky();
    morse_ = new Morse();
    repulsivePower_ = new RepulsivePower();
    eam_ = new EAM();
    sc_ = new SC();
    electrostatic_ = new Electrostatic();
    maw_ = new MAW();
  }

  InteractionManager::~InteractionManager() {
    delete lj_;
    delete gb_;
    delete sticky_;
    delete morse_;
    delete repulsivePower_;
    delete eam_;
    delete sc_;
    delete electrostatic_;
    delete maw_;
  }

  void InteractionManager::initialize() {

    if (initialized_) return; 

    ForceField* forceField_ = info_->getForceField();
    
    lj_->setForceField(forceField_);
    gb_->setForceField(forceField_);
    sticky_->setForceField(forceField_);
    eam_->setForceField(forceField_);
    sc_->setForceField(forceField_);
    morse_->setForceField(forceField_);
    electrostatic_->setSimInfo(info_);
    electrostatic_->setForceField(forceField_);
    maw_->setForceField(forceField_);
    repulsivePower_->setForceField(forceField_);

    ForceField::AtomTypeContainer* atomTypes = forceField_->getAtomTypes();
    int nTypes = atomTypes->size();
    sHash_.resize(nTypes);
    iHash_.resize(nTypes);
    interactions_.resize(nTypes);
    ForceField::AtomTypeContainer::MapTypeIterator i1, i2;
    AtomType* atype1;
    AtomType* atype2;
    int atid1, atid2;

    // We only need to worry about the types that are actually in the simulation:

    set<AtomType*> atypes = info_->getSimulatedAtomTypes();

    lj_->setSimulatedAtomTypes(atypes);
    gb_->setSimulatedAtomTypes(atypes);
    sticky_->setSimulatedAtomTypes(atypes);
    eam_->setSimulatedAtomTypes(atypes);
    sc_->setSimulatedAtomTypes(atypes);
    morse_->setSimulatedAtomTypes(atypes);
    electrostatic_->setSimInfo(info_);
    electrostatic_->setSimulatedAtomTypes(atypes);
    maw_->setSimulatedAtomTypes(atypes);
    repulsivePower_->setSimulatedAtomTypes(atypes);

    set<AtomType*>::iterator at;

    for (at = atypes.begin(); at != atypes.end(); ++at) {
          
      atype1 = *at;
      atid1 = atype1->getIdent();
      iHash_[atid1].resize(nTypes);
      interactions_[atid1].resize(nTypes);

      // add it to the map:      
      pair<map<int,AtomType*>::iterator,bool> ret;    
      ret = typeMap_.insert( pair<int, AtomType*>(atid1, atype1) );
      if (ret.second == false) {
        sprintf( painCave.errMsg,
                 "InteractionManager already had a previous entry with ident %d\n",
                 atype1->getIdent());
        painCave.severity = OPENMD_INFO;
        painCave.isFatal = 0;
        simError();                 
      }
          
      if (atype1->isLennardJones()) {
        sHash_[atid1] |= LJ_INTERACTION;
      }
      if (atype1->isElectrostatic()) {
        sHash_[atid1] |= ELECTROSTATIC_INTERACTION;
      }
      if (atype1->isSticky()) {
        sHash_[atid1] |= STICKY_INTERACTION;
      }
      if (atype1->isStickyPower()) {
        sHash_[atid1] |= STICKY_INTERACTION;
      }
      if (atype1->isEAM()) {      
        sHash_[atid1] |= EAM_INTERACTION;
      }
      if (atype1->isSC()) {
        sHash_[atid1] |= SC_INTERACTION;
      }
      if (atype1->isGayBerne()) {
        sHash_[atid1] |= GB_INTERACTION;
      }
    }
    // Now, iterate over all known types and add to the interaction map:
    
    map<int, AtomType*>::iterator it1, it2;
    for (it1 = typeMap_.begin(); it1 != typeMap_.end(); ++it1) {
      atype1 = (*it1).second;
      atid1 = atype1->getIdent();

      for( it2 = typeMap_.begin(); it2 != typeMap_.end(); ++it2) {        
        atype2 = (*it2).second;
        atid2 = atype2->getIdent();
                               
        iHash_[atid1][atid2] = 0;
        
        if (atype1->isLennardJones() && atype2->isLennardJones()) {
          interactions_[atid1][atid2].insert(lj_);
          iHash_[atid1][atid2] |= LJ_INTERACTION;
        }
        if (atype1->isElectrostatic() && atype2->isElectrostatic() ) {
          interactions_[atid1][atid2].insert(electrostatic_);
          iHash_[atid1][atid2] |= ELECTROSTATIC_INTERACTION;
        }
        if (atype1->isSticky() && atype2->isSticky() ) {
          interactions_[atid1][atid2].insert(sticky_);
          iHash_[atid1][atid2] |= STICKY_INTERACTION;
        }
        if (atype1->isStickyPower() && atype2->isStickyPower() ) {
          interactions_[atid1][atid2].insert(sticky_);
          iHash_[atid1][atid2] |= STICKY_INTERACTION;
        }
        if (atype1->isEAM() && atype2->isEAM() ) {
          interactions_[atid1][atid2].insert(eam_);
          iHash_[atid1][atid2] |= EAM_INTERACTION;
        }
        if (atype1->isSC() && atype2->isSC() ) {
          interactions_[atid1][atid2].insert(sc_);
          iHash_[atid1][atid2] |= SC_INTERACTION;
        }
        if (atype1->isGayBerne() && atype2->isGayBerne() ) {
          interactions_[atid1][atid2].insert(gb_);
          iHash_[atid1][atid2] |= GB_INTERACTION;
        }
        if ((atype1->isGayBerne() && atype2->isLennardJones())
            || (atype1->isLennardJones() && atype2->isGayBerne())) {
          interactions_[atid1][atid2].insert(gb_);
          iHash_[atid1][atid2] |= GB_INTERACTION;
        } 
        
        // look for an explicitly-set non-bonded interaction type using the 
        // two atom types.
        NonBondedInteractionType* nbiType = forceField_->getNonBondedInteractionType(atype1->getName(), atype2->getName());
        
        if (nbiType != NULL) {

          bool vdwExplicit = false;
          bool metExplicit = false;
          // bool hbExplicit = false;

          if (nbiType->isLennardJones()) {
            // We found an explicit Lennard-Jones interaction.  
            // override all other vdw entries for this pair of atom types:
            set<NonBondedInteraction*>::iterator it;
            for (it = interactions_[atid1][atid2].begin(); 
                 it != interactions_[atid1][atid2].end(); ++it) {
              InteractionFamily ifam = (*it)->getFamily();
              if (ifam == VANDERWAALS_FAMILY) {
                interactions_[atid1][atid2].erase(*it);
                iHash_[atid1][atid2] ^= (*it)->getHash();
              }
            }
            interactions_[atid1][atid2].insert(lj_);
            iHash_[atid1][atid2] |= LJ_INTERACTION;
            vdwExplicit = true;
          }
          
          if (nbiType->isMorse()) {
            if (vdwExplicit) {
              sprintf( painCave.errMsg,
                       "InteractionManager::initialize found more than one "
                       "explicit \n"
                       "\tvan der Waals interaction for atom types %s - %s\n",
                       atype1->getName().c_str(), atype2->getName().c_str());
              painCave.severity = OPENMD_ERROR;
              painCave.isFatal = 1;
              simError();
            }
            // We found an explicit Morse interaction.  
            // override all other vdw entries for this pair of atom types:
            set<NonBondedInteraction*>::iterator it;
            for (it = interactions_[atid1][atid2].begin(); 
                 it != interactions_[atid1][atid2].end(); ++it) {
              InteractionFamily ifam = (*it)->getFamily();
              if (ifam == VANDERWAALS_FAMILY) {
                interactions_[atid1][atid2].erase(*it);
                iHash_[atid1][atid2] ^= (*it)->getHash();
              }
            }
            interactions_[atid1][atid2].insert(morse_);
            iHash_[atid1][atid2] |= MORSE_INTERACTION;
            vdwExplicit = true;
          }

          if (nbiType->isRepulsivePower()) {
            if (vdwExplicit) {
              sprintf( painCave.errMsg,
                       "InteractionManager::initialize found more than one "
                       "explicit \n"
                       "\tvan der Waals interaction for atom types %s - %s\n",
                       atype1->getName().c_str(), atype2->getName().c_str());
              painCave.severity = OPENMD_ERROR;
              painCave.isFatal = 1;
              simError();
            }
            // We found an explicit RepulsivePower interaction.  
            // override all other vdw entries for this pair of atom types:
            set<NonBondedInteraction*>::iterator it;
            for (it = interactions_[atid1][atid2].begin(); 
                 it != interactions_[atid1][atid2].end(); ++it) {
              InteractionFamily ifam = (*it)->getFamily();
              if (ifam == VANDERWAALS_FAMILY) {
                interactions_[atid1][atid2].erase(*it);
                iHash_[atid1][atid2] ^= (*it)->getHash();
              }
            }
            interactions_[atid1][atid2].insert(repulsivePower_);
            iHash_[atid1][atid2] |= REPULSIVEPOWER_INTERACTION;
            vdwExplicit = true;
          }
          
          
          if (nbiType->isEAM()) {
            // We found an explicit EAM interaction.  
            // override all other metallic entries for this pair of atom types:
            set<NonBondedInteraction*>::iterator it;
            for (it = interactions_[atid1][atid2].begin(); 
                 it != interactions_[atid1][atid2].end(); ++it) {
              InteractionFamily ifam = (*it)->getFamily();
              if (ifam == METALLIC_FAMILY) {
                interactions_[atid1][atid2].erase(*it);
                iHash_[atid1][atid2] ^= (*it)->getHash();
              }
            }
            interactions_[atid1][atid2].insert(eam_);
            iHash_[atid1][atid2] |= EAM_INTERACTION;
            metExplicit = true;
          }
          
          if (nbiType->isSC()) {
            if (metExplicit) {
              sprintf( painCave.errMsg,
                       "InteractionManager::initialize found more than one "
                       "explicit\n"
                       "\tmetallic interaction for atom types %s - %s\n",
                       atype1->getName().c_str(), atype2->getName().c_str());
              painCave.severity = OPENMD_ERROR;
              painCave.isFatal = 1;
              simError();
            }
            // We found an explicit Sutton-Chen interaction.  
            // override all other metallic entries for this pair of atom types:
            set<NonBondedInteraction*>::iterator it;
            for (it = interactions_[atid1][atid2].begin(); 
                 it != interactions_[atid1][atid2].end(); ++it) {
              InteractionFamily ifam = (*it)->getFamily();
              if (ifam == METALLIC_FAMILY) {
                interactions_[atid1][atid2].erase(*it);
                iHash_[atid1][atid2] ^= (*it)->getHash();
              }
            }
            interactions_[atid1][atid2].insert(sc_);
            iHash_[atid1][atid2] |= SC_INTERACTION;
            metExplicit = true;
          }
          
          if (nbiType->isMAW()) {
            if (vdwExplicit) {
              sprintf( painCave.errMsg,
                       "InteractionManager::initialize found more than one "
                       "explicit\n"
                       "\tvan der Waals interaction for atom types %s - %s\n",
                       atype1->getName().c_str(), atype2->getName().c_str());
              painCave.severity = OPENMD_ERROR;
              painCave.isFatal = 1;
              simError();
            }
            // We found an explicit MAW interaction.  
            // override all other vdw entries for this pair of atom types:
            set<NonBondedInteraction*>::iterator it;
            for (it = interactions_[atid1][atid2].begin(); 
                 it != interactions_[atid1][atid2].end(); ++it) {
              InteractionFamily ifam = (*it)->getFamily();
              if (ifam == VANDERWAALS_FAMILY) {
                interactions_[atid1][atid2].erase(*it);
                iHash_[atid1][atid2] ^= (*it)->getHash();
              }
            }
            interactions_[atid1][atid2].insert(maw_);
            iHash_[atid1][atid2] |= MAW_INTERACTION;
            vdwExplicit = true;
          }        
        }
      }
    }
    
    
    // Make sure every pair of atom types in this simulation has a
    // non-bonded interaction.  If not, just inform the user.

    set<AtomType*> simTypes = info_->getSimulatedAtomTypes();
    set<AtomType*>::iterator it, jt;

    for (it = simTypes.begin(); it != simTypes.end(); ++it) {
      atype1 = (*it);
      atid1 = atype1->getIdent();
      for (jt = it; jt != simTypes.end(); ++jt) {
        atype2 = (*jt);
        atid1 = atype1->getIdent();
        
        if (interactions_[atid1][atid2].size() == 0) {
          sprintf( painCave.errMsg,
                   "InteractionManager could not find a matching non-bonded\n"
                   "\tinteraction for atom types %s - %s\n"
                   "\tProceeding without this interaction.\n",
                   atype1->getName().c_str(), atype2->getName().c_str());
          painCave.severity = OPENMD_INFO;
          painCave.isFatal = 0;
          simError();
        }
      }
    }

    initialized_ = true;
  }

  void InteractionManager::setCutoffRadius(RealType rcut) {
    
    electrostatic_->setCutoffRadius(rcut);
    eam_->setCutoffRadius(rcut);
  }

  void InteractionManager::doPrePair(InteractionData &idat){
    
    if (!initialized_) initialize();
         
    // excluded interaction, so just return
    if (idat.excluded) return;

    int& iHash = iHash_[idat.atid1][idat.atid2];

    if ((iHash & EAM_INTERACTION) != 0) eam_->calcDensity(idat);
    if ((iHash & SC_INTERACTION) != 0)  sc_->calcDensity(idat);

    // set<NonBondedInteraction*>::iterator it;

    // for (it = interactions_[ idat.atypes ].begin(); 
    //      it != interactions_[ idat.atypes ].end(); ++it){
    //   if ((*it)->getFamily() == METALLIC_FAMILY) {
    //     dynamic_cast<MetallicInteraction*>(*it)->calcDensity(idat);
    //   }
    // }
    
    return;    
  }
  
  void InteractionManager::doPreForce(SelfData &sdat){

    if (!initialized_) initialize();
    
    int& sHash = sHash_[sdat.atid];

    if ((sHash & EAM_INTERACTION) != 0) eam_->calcFunctional(sdat);
    if ((sHash & SC_INTERACTION) != 0)  sc_->calcFunctional(sdat);

    // set<NonBondedInteraction*>::iterator it;
    
    // for (it = interactions_[atid1][atid2].begin(); it != interactions_[atid1][atid2].end(); ++it){
    //   if ((*it)->getFamily() == METALLIC_FAMILY) {
    //     dynamic_cast<MetallicInteraction*>(*it)->calcFunctional(sdat);
    //   }
    // }
    
    return;    
  }

  void InteractionManager::doPair(InteractionData &idat){
    
    if (!initialized_) initialize();

    int& iHash = iHash_[idat.atid1][idat.atid2];

    if ((iHash & ELECTROSTATIC_INTERACTION) != 0) electrostatic_->calcForce(idat);
       
    // electrostatics still has to worry about indirect
    // contributions from excluded pairs of atoms, but nothing else does:

    if (idat.excluded) return; 

    if ((iHash & LJ_INTERACTION) != 0)             lj_->calcForce(idat);
    if ((iHash & GB_INTERACTION) != 0)             gb_->calcForce(idat);
    if ((iHash & STICKY_INTERACTION) != 0)         sticky_->calcForce(idat);
    if ((iHash & MORSE_INTERACTION) != 0)          morse_->calcForce(idat);
    if ((iHash & REPULSIVEPOWER_INTERACTION) != 0) repulsivePower_->calcForce(idat);
    if ((iHash & EAM_INTERACTION) != 0)            eam_->calcForce(idat);
    if ((iHash & SC_INTERACTION) != 0)             sc_->calcForce(idat);
    if ((iHash & MAW_INTERACTION) != 0)            maw_->calcForce(idat);

    // set<NonBondedInteraction*>::iterator it;

    // for (it = interactions_[ idat.atypes ].begin(); 
    //      it != interactions_[ idat.atypes ].end(); ++it) {

    //   // electrostatics still has to worry about indirect
    //   // contributions from excluded pairs of atoms:

    //   if (!idat.excluded || (*it)->getFamily() == ELECTROSTATIC_FAMILY) {
    //     (*it)->calcForce(idat);
    //   }
    // }
    
    return;    
  }

  void InteractionManager::doSelfCorrection(SelfData &sdat){

    if (!initialized_) initialize();
    
    int& sHash = sHash_[sdat.atid];

    if ((sHash & ELECTROSTATIC_INTERACTION) != 0) electrostatic_->calcSelfCorrection(sdat);

    // set<NonBondedInteraction*>::iterator it;

    // for (it = interactions_[atid1][atid2].begin(); it != interactions_[atid1][atid2].end(); ++it){
    //   if ((*it)->getFamily() == ELECTROSTATIC_FAMILY) {
    //     dynamic_cast<ElectrostaticInteraction*>(*it)->calcSelfCorrection(sdat);
    //   }
    // }
      
    return;    
  }

  void InteractionManager::doReciprocalSpaceSum(RealType &pot){
    if (!initialized_) initialize();
    electrostatic_->ReciprocalSpaceSum(pot);
  }

  RealType InteractionManager::getSuggestedCutoffRadius(int *atid) {
    if (!initialized_) initialize();

    AtomType* atype = typeMap_[*atid];

    set<NonBondedInteraction*>::iterator it;
    RealType cutoff = 0.0;
    
    for (it = interactions_[*atid][*atid].begin(); 
         it != interactions_[*atid][*atid].end();
         ++it)
      cutoff = max(cutoff, (*it)->getSuggestedCutoffRadius(make_pair(atype, atype)));   
    return cutoff;    
  }

  RealType InteractionManager::getSuggestedCutoffRadius(AtomType* atype) {
    if (!initialized_) initialize();
    
    int atid = atype->getIdent();

    set<NonBondedInteraction*>::iterator it;
    RealType cutoff = 0.0;
    
    for (it = interactions_[atid][atid].begin(); 
         it != interactions_[atid][atid].end(); ++it)
      cutoff = max(cutoff, (*it)->getSuggestedCutoffRadius(make_pair(atype, atype)));   
    return cutoff;    
  }
} //end namespace OpenMD
Revision:	1935
Committed:	Tue Sep 24 13:52:54 2013 UTC (11 years, 7 months ago) by gezelter
File size:	19963 byte(s)
Log Message:	Fixed a bug in building the self Hash
#	Content
1	/*
2	* Copyright (c) 2005 The University of Notre Dame. All Rights Reserved.
3	*
4	* The University of Notre Dame grants you ("Licensee") a
5	* non-exclusive, royalty free, license to use, modify and
6	* redistribute this software in source and binary code form, provided
7	* that the following conditions are met:
8	*
9	* 1. Redistributions of source code must retain the above copyright
10	* notice, this list of conditions and the following disclaimer.
11	*
12	* 2. Redistributions in binary form must reproduce the above copyright
13	* notice, this list of conditions and the following disclaimer in the
14	* documentation and/or other materials provided with the
15	* distribution.
16	*
17	* This software is provided "AS IS," without a warranty of any
18	* kind. All express or implied conditions, representations and
19	* warranties, including any implied warranty of merchantability,
20	* fitness for a particular purpose or non-infringement, are hereby
21	* excluded. The University of Notre Dame and its licensors shall not
22	* be liable for any damages suffered by licensee as a result of
23	* using, modifying or distributing the software or its
24	* derivatives. In no event will the University of Notre Dame or its
25	* licensors be liable for any lost revenue, profit or data, or for
26	* direct, indirect, special, consequential, incidental or punitive
27	* damages, however caused and regardless of the theory of liability,
28	* arising out of the use of or inability to use software, even if the
29	* University of Notre Dame has been advised of the possibility of
30	* such damages.
31	*
32	* SUPPORT OPEN SCIENCE! If you use OpenMD or its source code in your
33	* research, please cite the appropriate papers when you publish your
34	* work. Good starting points are:
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, 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	*/
42
43	#include "nonbonded/InteractionManager.hpp"
44
45	namespace OpenMD {
46
47	InteractionManager::InteractionManager() {
48
49	initialized_ = false;
50
51	lj_ = new LJ();
52	gb_ = new GB();
53	sticky_ = new Sticky();
54	morse_ = new Morse();
55	repulsivePower_ = new RepulsivePower();
56	eam_ = new EAM();
57	sc_ = new SC();
58	electrostatic_ = new Electrostatic();
59	maw_ = new MAW();
60	}
61
62	InteractionManager::~InteractionManager() {
63	delete lj_;
64	delete gb_;
65	delete sticky_;
66	delete morse_;
67	delete repulsivePower_;
68	delete eam_;
69	delete sc_;
70	delete electrostatic_;
71	delete maw_;
72	}
73
74	void InteractionManager::initialize() {
75
76	if (initialized_) return;
77
78	ForceField* forceField_ = info_->getForceField();
79
80	lj_->setForceField(forceField_);
81	gb_->setForceField(forceField_);
82	sticky_->setForceField(forceField_);
83	eam_->setForceField(forceField_);
84	sc_->setForceField(forceField_);
85	morse_->setForceField(forceField_);
86	electrostatic_->setSimInfo(info_);
87	electrostatic_->setForceField(forceField_);
88	maw_->setForceField(forceField_);
89	repulsivePower_->setForceField(forceField_);
90
91	ForceField::AtomTypeContainer* atomTypes = forceField_->getAtomTypes();
92	int nTypes = atomTypes->size();
93	sHash_.resize(nTypes);
94	iHash_.resize(nTypes);
95	interactions_.resize(nTypes);
96	ForceField::AtomTypeContainer::MapTypeIterator i1, i2;
97	AtomType* atype1;
98	AtomType* atype2;
99	int atid1, atid2;
100
101	// We only need to worry about the types that are actually in the simulation:
102
103	set<AtomType*> atypes = info_->getSimulatedAtomTypes();
104
105	lj_->setSimulatedAtomTypes(atypes);
106	gb_->setSimulatedAtomTypes(atypes);
107	sticky_->setSimulatedAtomTypes(atypes);
108	eam_->setSimulatedAtomTypes(atypes);
109	sc_->setSimulatedAtomTypes(atypes);
110	morse_->setSimulatedAtomTypes(atypes);
111	electrostatic_->setSimInfo(info_);
112	electrostatic_->setSimulatedAtomTypes(atypes);
113	maw_->setSimulatedAtomTypes(atypes);
114	repulsivePower_->setSimulatedAtomTypes(atypes);
115
116	set<AtomType*>::iterator at;
117
118	for (at = atypes.begin(); at != atypes.end(); ++at) {
119
120	atype1 = *at;
121	atid1 = atype1->getIdent();
122	iHash_[atid1].resize(nTypes);
123	interactions_[atid1].resize(nTypes);
124
125	// add it to the map:
126	pair<map<int,AtomType*>::iterator,bool> ret;
127	ret = typeMap_.insert( pair<int, AtomType*>(atid1, atype1) );
128	if (ret.second == false) {
129	sprintf( painCave.errMsg,
130	"InteractionManager already had a previous entry with ident %d\n",
131	atype1->getIdent());
132	painCave.severity = OPENMD_INFO;
133	painCave.isFatal = 0;
134	simError();
135	}
136
137	if (atype1->isLennardJones()) {
138	sHash_[atid1] \|= LJ_INTERACTION;
139	}
140	if (atype1->isElectrostatic()) {
141	sHash_[atid1] \|= ELECTROSTATIC_INTERACTION;
142	}
143	if (atype1->isSticky()) {
144	sHash_[atid1] \|= STICKY_INTERACTION;
145	}
146	if (atype1->isStickyPower()) {
147	sHash_[atid1] \|= STICKY_INTERACTION;
148	}
149	if (atype1->isEAM()) {
150	sHash_[atid1] \|= EAM_INTERACTION;
151	}
152	if (atype1->isSC()) {
153	sHash_[atid1] \|= SC_INTERACTION;
154	}
155	if (atype1->isGayBerne()) {
156	sHash_[atid1] \|= GB_INTERACTION;
157	}
158	}
159	// Now, iterate over all known types and add to the interaction map:
160
161	map<int, AtomType*>::iterator it1, it2;
162	for (it1 = typeMap_.begin(); it1 != typeMap_.end(); ++it1) {
163	atype1 = (*it1).second;
164	atid1 = atype1->getIdent();
165
166	for( it2 = typeMap_.begin(); it2 != typeMap_.end(); ++it2) {
167	atype2 = (*it2).second;
168	atid2 = atype2->getIdent();
169
170	iHash_[atid1][atid2] = 0;
171
172	if (atype1->isLennardJones() && atype2->isLennardJones()) {
173	interactions_[atid1][atid2].insert(lj_);
174	iHash_[atid1][atid2] \|= LJ_INTERACTION;
175	}
176	if (atype1->isElectrostatic() && atype2->isElectrostatic() ) {
177	interactions_[atid1][atid2].insert(electrostatic_);
178	iHash_[atid1][atid2] \|= ELECTROSTATIC_INTERACTION;
179	}
180	if (atype1->isSticky() && atype2->isSticky() ) {
181	interactions_[atid1][atid2].insert(sticky_);
182	iHash_[atid1][atid2] \|= STICKY_INTERACTION;
183	}
184	if (atype1->isStickyPower() && atype2->isStickyPower() ) {
185	interactions_[atid1][atid2].insert(sticky_);
186	iHash_[atid1][atid2] \|= STICKY_INTERACTION;
187	}
188	if (atype1->isEAM() && atype2->isEAM() ) {
189	interactions_[atid1][atid2].insert(eam_);
190	iHash_[atid1][atid2] \|= EAM_INTERACTION;
191	}
192	if (atype1->isSC() && atype2->isSC() ) {
193	interactions_[atid1][atid2].insert(sc_);
194	iHash_[atid1][atid2] \|= SC_INTERACTION;
195	}
196	if (atype1->isGayBerne() && atype2->isGayBerne() ) {
197	interactions_[atid1][atid2].insert(gb_);
198	iHash_[atid1][atid2] \|= GB_INTERACTION;
199	}
200	if ((atype1->isGayBerne() && atype2->isLennardJones())
201	\|\| (atype1->isLennardJones() && atype2->isGayBerne())) {
202	interactions_[atid1][atid2].insert(gb_);
203	iHash_[atid1][atid2] \|= GB_INTERACTION;
204	}
205
206	// look for an explicitly-set non-bonded interaction type using the
207	// two atom types.
208	NonBondedInteractionType* nbiType = forceField_->getNonBondedInteractionType(atype1->getName(), atype2->getName());
209
210	if (nbiType != NULL) {
211
212	bool vdwExplicit = false;
213	bool metExplicit = false;
214	// bool hbExplicit = false;
215
216	if (nbiType->isLennardJones()) {
217	// We found an explicit Lennard-Jones interaction.
218	// override all other vdw entries for this pair of atom types:
219	set<NonBondedInteraction*>::iterator it;
220	for (it = interactions_[atid1][atid2].begin();
221	it != interactions_[atid1][atid2].end(); ++it) {
222	InteractionFamily ifam = (*it)->getFamily();
223	if (ifam == VANDERWAALS_FAMILY) {
224	interactions_[atid1][atid2].erase(*it);
225	iHash_[atid1][atid2] ^= (*it)->getHash();
226	}
227	}
228	interactions_[atid1][atid2].insert(lj_);
229	iHash_[atid1][atid2] \|= LJ_INTERACTION;
230	vdwExplicit = true;
231	}
232
233	if (nbiType->isMorse()) {
234	if (vdwExplicit) {
235	sprintf( painCave.errMsg,
236	"InteractionManager::initialize found more than one "
237	"explicit \n"
238	"\tvan der Waals interaction for atom types %s - %s\n",
239	atype1->getName().c_str(), atype2->getName().c_str());
240	painCave.severity = OPENMD_ERROR;
241	painCave.isFatal = 1;
242	simError();
243	}
244	// We found an explicit Morse interaction.
245	// override all other vdw entries for this pair of atom types:
246	set<NonBondedInteraction*>::iterator it;
247	for (it = interactions_[atid1][atid2].begin();
248	it != interactions_[atid1][atid2].end(); ++it) {
249	InteractionFamily ifam = (*it)->getFamily();
250	if (ifam == VANDERWAALS_FAMILY) {
251	interactions_[atid1][atid2].erase(*it);
252	iHash_[atid1][atid2] ^= (*it)->getHash();
253	}
254	}
255	interactions_[atid1][atid2].insert(morse_);
256	iHash_[atid1][atid2] \|= MORSE_INTERACTION;
257	vdwExplicit = true;
258	}
259
260	if (nbiType->isRepulsivePower()) {
261	if (vdwExplicit) {
262	sprintf( painCave.errMsg,
263	"InteractionManager::initialize found more than one "
264	"explicit \n"
265	"\tvan der Waals interaction for atom types %s - %s\n",
266	atype1->getName().c_str(), atype2->getName().c_str());
267	painCave.severity = OPENMD_ERROR;
268	painCave.isFatal = 1;
269	simError();
270	}
271	// We found an explicit RepulsivePower interaction.
272	// override all other vdw entries for this pair of atom types:
273	set<NonBondedInteraction*>::iterator it;
274	for (it = interactions_[atid1][atid2].begin();
275	it != interactions_[atid1][atid2].end(); ++it) {
276	InteractionFamily ifam = (*it)->getFamily();
277	if (ifam == VANDERWAALS_FAMILY) {
278	interactions_[atid1][atid2].erase(*it);
279	iHash_[atid1][atid2] ^= (*it)->getHash();
280	}
281	}
282	interactions_[atid1][atid2].insert(repulsivePower_);
283	iHash_[atid1][atid2] \|= REPULSIVEPOWER_INTERACTION;
284	vdwExplicit = true;
285	}
286
287
288	if (nbiType->isEAM()) {
289	// We found an explicit EAM interaction.
290	// override all other metallic entries for this pair of atom types:
291	set<NonBondedInteraction*>::iterator it;
292	for (it = interactions_[atid1][atid2].begin();
293	it != interactions_[atid1][atid2].end(); ++it) {
294	InteractionFamily ifam = (*it)->getFamily();
295	if (ifam == METALLIC_FAMILY) {
296	interactions_[atid1][atid2].erase(*it);
297	iHash_[atid1][atid2] ^= (*it)->getHash();
298	}
299	}
300	interactions_[atid1][atid2].insert(eam_);
301	iHash_[atid1][atid2] \|= EAM_INTERACTION;
302	metExplicit = true;
303	}
304
305	if (nbiType->isSC()) {
306	if (metExplicit) {
307	sprintf( painCave.errMsg,
308	"InteractionManager::initialize found more than one "
309	"explicit\n"
310	"\tmetallic interaction for atom types %s - %s\n",
311	atype1->getName().c_str(), atype2->getName().c_str());
312	painCave.severity = OPENMD_ERROR;
313	painCave.isFatal = 1;
314	simError();
315	}
316	// We found an explicit Sutton-Chen interaction.
317	// override all other metallic entries for this pair of atom types:
318	set<NonBondedInteraction*>::iterator it;
319	for (it = interactions_[atid1][atid2].begin();
320	it != interactions_[atid1][atid2].end(); ++it) {
321	InteractionFamily ifam = (*it)->getFamily();
322	if (ifam == METALLIC_FAMILY) {
323	interactions_[atid1][atid2].erase(*it);
324	iHash_[atid1][atid2] ^= (*it)->getHash();
325	}
326	}
327	interactions_[atid1][atid2].insert(sc_);
328	iHash_[atid1][atid2] \|= SC_INTERACTION;
329	metExplicit = true;
330	}
331
332	if (nbiType->isMAW()) {
333	if (vdwExplicit) {
334	sprintf( painCave.errMsg,
335	"InteractionManager::initialize found more than one "
336	"explicit\n"
337	"\tvan der Waals interaction for atom types %s - %s\n",
338	atype1->getName().c_str(), atype2->getName().c_str());
339	painCave.severity = OPENMD_ERROR;
340	painCave.isFatal = 1;
341	simError();
342	}
343	// We found an explicit MAW interaction.
344	// override all other vdw entries for this pair of atom types:
345	set<NonBondedInteraction*>::iterator it;
346	for (it = interactions_[atid1][atid2].begin();
347	it != interactions_[atid1][atid2].end(); ++it) {
348	InteractionFamily ifam = (*it)->getFamily();
349	if (ifam == VANDERWAALS_FAMILY) {
350	interactions_[atid1][atid2].erase(*it);
351	iHash_[atid1][atid2] ^= (*it)->getHash();
352	}
353	}
354	interactions_[atid1][atid2].insert(maw_);
355	iHash_[atid1][atid2] \|= MAW_INTERACTION;
356	vdwExplicit = true;
357	}
358	}
359	}
360	}
361
362
363	// Make sure every pair of atom types in this simulation has a
364	// non-bonded interaction. If not, just inform the user.
365
366	set<AtomType*> simTypes = info_->getSimulatedAtomTypes();
367	set<AtomType*>::iterator it, jt;
368
369	for (it = simTypes.begin(); it != simTypes.end(); ++it) {
370	atype1 = (*it);
371	atid1 = atype1->getIdent();
372	for (jt = it; jt != simTypes.end(); ++jt) {
373	atype2 = (*jt);
374	atid1 = atype1->getIdent();
375
376	if (interactions_[atid1][atid2].size() == 0) {
377	sprintf( painCave.errMsg,
378	"InteractionManager could not find a matching non-bonded\n"
379	"\tinteraction for atom types %s - %s\n"
380	"\tProceeding without this interaction.\n",
381	atype1->getName().c_str(), atype2->getName().c_str());
382	painCave.severity = OPENMD_INFO;
383	painCave.isFatal = 0;
384	simError();
385	}
386	}
387	}
388
389	initialized_ = true;
390	}
391
392	void InteractionManager::setCutoffRadius(RealType rcut) {
393
394	electrostatic_->setCutoffRadius(rcut);
395	eam_->setCutoffRadius(rcut);
396	}
397
398	void InteractionManager::doPrePair(InteractionData &idat){
399
400	if (!initialized_) initialize();
401
402	// excluded interaction, so just return
403	if (idat.excluded) return;
404
405	int& iHash = iHash_[idat.atid1][idat.atid2];
406
407	if ((iHash & EAM_INTERACTION) != 0) eam_->calcDensity(idat);
408	if ((iHash & SC_INTERACTION) != 0) sc_->calcDensity(idat);
409
410	// set<NonBondedInteraction*>::iterator it;
411
412	// for (it = interactions_[ idat.atypes ].begin();
413	// it != interactions_[ idat.atypes ].end(); ++it){
414	// if ((*it)->getFamily() == METALLIC_FAMILY) {
415	// dynamic_cast<MetallicInteraction>(it)->calcDensity(idat);
416	// }
417	// }
418
419	return;
420	}
421
422	void InteractionManager::doPreForce(SelfData &sdat){
423
424	if (!initialized_) initialize();
425
426	int& sHash = sHash_[sdat.atid];
427
428	if ((sHash & EAM_INTERACTION) != 0) eam_->calcFunctional(sdat);
429	if ((sHash & SC_INTERACTION) != 0) sc_->calcFunctional(sdat);
430
431	// set<NonBondedInteraction*>::iterator it;
432
433	// for (it = interactions_[atid1][atid2].begin(); it != interactions_[atid1][atid2].end(); ++it){
434	// if ((*it)->getFamily() == METALLIC_FAMILY) {
435	// dynamic_cast<MetallicInteraction>(it)->calcFunctional(sdat);
436	// }
437	// }
438
439	return;
440	}
441
442	void InteractionManager::doPair(InteractionData &idat){
443
444	if (!initialized_) initialize();
445
446	int& iHash = iHash_[idat.atid1][idat.atid2];
447
448	if ((iHash & ELECTROSTATIC_INTERACTION) != 0) electrostatic_->calcForce(idat);
449
450	// electrostatics still has to worry about indirect
451	// contributions from excluded pairs of atoms, but nothing else does:
452
453	if (idat.excluded) return;
454
455	if ((iHash & LJ_INTERACTION) != 0) lj_->calcForce(idat);
456	if ((iHash & GB_INTERACTION) != 0) gb_->calcForce(idat);
457	if ((iHash & STICKY_INTERACTION) != 0) sticky_->calcForce(idat);
458	if ((iHash & MORSE_INTERACTION) != 0) morse_->calcForce(idat);
459	if ((iHash & REPULSIVEPOWER_INTERACTION) != 0) repulsivePower_->calcForce(idat);
460	if ((iHash & EAM_INTERACTION) != 0) eam_->calcForce(idat);
461	if ((iHash & SC_INTERACTION) != 0) sc_->calcForce(idat);
462	if ((iHash & MAW_INTERACTION) != 0) maw_->calcForce(idat);
463
464	// set<NonBondedInteraction*>::iterator it;
465
466	// for (it = interactions_[ idat.atypes ].begin();
467	// it != interactions_[ idat.atypes ].end(); ++it) {
468
469	// // electrostatics still has to worry about indirect
470	// // contributions from excluded pairs of atoms:
471
472	// if (!idat.excluded \|\| (*it)->getFamily() == ELECTROSTATIC_FAMILY) {
473	// (*it)->calcForce(idat);
474	// }
475	// }
476
477	return;
478	}
479
480	void InteractionManager::doSelfCorrection(SelfData &sdat){
481
482	if (!initialized_) initialize();
483
484	int& sHash = sHash_[sdat.atid];
485
486	if ((sHash & ELECTROSTATIC_INTERACTION) != 0) electrostatic_->calcSelfCorrection(sdat);
487
488	// set<NonBondedInteraction*>::iterator it;
489
490	// for (it = interactions_[atid1][atid2].begin(); it != interactions_[atid1][atid2].end(); ++it){
491	// if ((*it)->getFamily() == ELECTROSTATIC_FAMILY) {
492	// dynamic_cast<ElectrostaticInteraction>(it)->calcSelfCorrection(sdat);
493	// }
494	// }
495
496	return;
497	}
498
499	void InteractionManager::doReciprocalSpaceSum(RealType &pot){
500	if (!initialized_) initialize();
501	electrostatic_->ReciprocalSpaceSum(pot);
502	}
503
504	RealType InteractionManager::getSuggestedCutoffRadius(int *atid) {
505	if (!initialized_) initialize();
506
507	AtomType* atype = typeMap_[*atid];
508
509	set<NonBondedInteraction*>::iterator it;
510	RealType cutoff = 0.0;
511
512	for (it = interactions_[atid][atid].begin();
513	it != interactions_[atid][atid].end();
514	++it)
515	cutoff = max(cutoff, (*it)->getSuggestedCutoffRadius(make_pair(atype, atype)));
516	return cutoff;
517	}
518
519	RealType InteractionManager::getSuggestedCutoffRadius(AtomType* atype) {
520	if (!initialized_) initialize();
521
522	int atid = atype->getIdent();
523
524	set<NonBondedInteraction*>::iterator it;
525	RealType cutoff = 0.0;
526
527	for (it = interactions_[atid][atid].begin();
528	it != interactions_[atid][atid].end(); ++it)
529	cutoff = max(cutoff, (*it)->getSuggestedCutoffRadius(make_pair(atype, atype)));
530	return cutoff;
531	}
532	} //end namespace OpenMD