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root/OpenMD/trunk/src/applications/staticProps/GofRAngle.cpp
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Comparing trunk/src/applications/staticProps/GofRAngle.cpp (file contents):
Revision 1782 by gezelter, Wed Aug 22 02:28:28 2012 UTC vs.
Revision 1968 by gezelter, Thu Feb 20 16:27:30 2014 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 43 | Line 43
43   #include <algorithm>
44   #include <fstream>
45   #include "applications/staticProps/GofRAngle.hpp"
46 + #include "primitives/Atom.hpp"
47 + #include "types/MultipoleAdapter.hpp"
48   #include "utils/simError.h"
49  
50   namespace OpenMD {
# Line 68 | Line 70 | namespace OpenMD {
70      }
71    }
72  
73 <  void GofRAngle::initalizeHistogram() {
73 >  void GofRAngle::initializeHistogram() {
74      npairs_ = 0;
75      for (unsigned int i = 0; i < histogram_.size(); ++i){
76        std::fill(histogram_[i].begin(), histogram_[i].end(), 0);
# Line 107 | Line 109 | namespace OpenMD {
109        currentSnapshot_->wrapVector(r12);
110  
111      RealType distance = r12.length();
112 <    int whichRBin = distance / deltaR_;
112 >    int whichRBin = int(distance / deltaR_);
113  
114      if (distance <= len_) {
115  
116        RealType cosAngle = evaluateAngle(sd1, sd2);
117        RealType halfBin = (nAngleBins_ - 1) * 0.5;
118 <      int whichThetaBin = halfBin * (cosAngle + 1.0);
118 >      int whichThetaBin = int(halfBin * (cosAngle + 1.0));
119        ++histogram_[whichRBin][whichThetaBin];
120          
121        ++npairs_;
# Line 129 | Line 131 | namespace OpenMD {
131        rdfStream << "#nRBins = " << nRBins_ << "\t maxLen = " << len_ << "deltaR = " << deltaR_ <<"\n";
132        rdfStream << "#nAngleBins =" << nAngleBins_ << "deltaCosAngle = " << deltaCosAngle_ << "\n";
133        for (unsigned int i = 0; i < avgGofr_.size(); ++i) {
134 <        RealType r = deltaR_ * (i + 0.5);
134 >        // RealType r = deltaR_ * (i + 0.5);
135  
136          for(unsigned int j = 0; j < avgGofr_[i].size(); ++j) {
137 <          RealType cosAngle = -1.0 + (j + 0.5)*deltaCosAngle_;
137 >          // RealType cosAngle = -1.0 + (j + 0.5)*deltaCosAngle_;
138            rdfStream << avgGofr_[i][j]/nProcessed_ << "\t";
139          }
140  
# Line 157 | Line 159 | namespace OpenMD {
159        currentSnapshot_->wrapVector(r12);
160  
161      r12.normalize();
162 <    Vector3d dipole = sd1->getElectroFrame().getColumn(2);
163 <    dipole.normalize();    
164 <    return dot(r12, dipole);
162 >
163 >    Vector3d vec;    
164 >    
165 >    if (sd1->isAtom()) {
166 >      AtomType* atype1 = static_cast<Atom*>(sd1)->getAtomType();
167 >      MultipoleAdapter ma1 = MultipoleAdapter(atype1);
168 >      
169 >      if (ma1.isDipole() )
170 >        vec = sd1->getDipole();
171 >      else
172 >        vec = sd1->getA().transpose() * V3Z;
173 >    } else {
174 >      vec = sd1->getA().transpose() * V3Z;
175 >    }
176 >
177 >    vec.normalize();    
178 >      
179 >    return dot(r12, vec);
180    }
181  
182    RealType GofROmega::evaluateAngle(StuntDouble* sd1, StuntDouble* sd2) {
183 <    Vector3d v1 = sd1->getElectroFrame().getColumn(2);
184 <    Vector3d v2 = sd2->getElectroFrame().getColumn(2);    
183 >    Vector3d v1, v2;
184 >
185 >    if (sd1->isAtom()){
186 >      AtomType* atype1 = static_cast<Atom*>(sd1)->getAtomType();
187 >      MultipoleAdapter ma1 = MultipoleAdapter(atype1);
188 >      if (ma1.isDipole() )
189 >        v1 = sd1->getDipole();
190 >      else
191 >        v1 = sd1->getA().transpose() * V3Z;
192 >    } else {
193 >      v1 = sd1->getA().transpose() * V3Z;
194 >    }
195 >    
196 >    if (sd2->isAtom()) {
197 >      AtomType* atype2 = static_cast<Atom*>(sd2)->getAtomType();
198 >      MultipoleAdapter ma2 = MultipoleAdapter(atype2);
199 >          
200 >      if (ma2.isDipole() )
201 >        v2 = sd2->getDipole();
202 >      else
203 >        v2 = sd2->getA().transpose() * V3Z;
204 >    } else {
205 >      v2 = sd2->getA().transpose() * V3Z;
206 >    }
207 >      
208      v1.normalize();
209      v2.normalize();
210      return dot(v1, v2);

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