1 | /*
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2 | * Project: MoleCuilder
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3 | * Description: creates and alters molecular systems
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4 | * Copyright (C) 2013 Frederik Heber. All rights reserved.
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5 | *
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6 | *
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7 | * This file is part of MoleCuilder.
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8 | *
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9 | * MoleCuilder is free software: you can redistribute it and/or modify
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10 | * it under the terms of the GNU General Public License as published by
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11 | * the Free Software Foundation, either version 2 of the License, or
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12 | * (at your option) any later version.
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13 | *
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14 | * MoleCuilder is distributed in the hope that it will be useful,
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15 | * but WITHOUT ANY WARRANTY; without even the implied warranty of
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16 | * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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17 | * GNU General Public License for more details.
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18 | *
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19 | * You should have received a copy of the GNU General Public License
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20 | * along with MoleCuilder. If not, see <http://www.gnu.org/licenses/>.
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21 | */
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22 |
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23 | /*
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24 | * FitPartialChargesAction.cpp
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25 | *
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26 | * Created on: Jul 03, 2013
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27 | * Author: heber
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28 | */
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29 |
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30 | // include config.h
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31 | #ifdef HAVE_CONFIG_H
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32 | #include <config.h>
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33 | #endif
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34 |
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35 | // needs to come before MemDebug due to placement new
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36 | #include <boost/archive/text_iarchive.hpp>
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37 |
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38 | #include "CodePatterns/MemDebug.hpp"
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39 |
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40 | #include "Atom/atom.hpp"
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41 | #include "CodePatterns/Log.hpp"
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42 | #include "Fragmentation/Exporters/ExportGraph_ToFiles.hpp"
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43 | #include "Fragmentation/Graph.hpp"
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44 | #include "World.hpp"
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45 |
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46 | #include <boost/bimap.hpp>
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47 | #include <boost/bimap/multiset_of.hpp>
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48 | #include <boost/bind.hpp>
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49 | #include <boost/filesystem.hpp>
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50 | #include <boost/foreach.hpp>
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51 | #include <algorithm>
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52 | #include <functional>
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53 | #include <iostream>
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54 | #include <string>
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55 |
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56 | #include "Actions/PotentialAction/FitPartialChargesAction.hpp"
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57 |
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58 | #include "Potentials/PartialNucleiChargeFitter.hpp"
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59 |
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60 | #include "AtomIdSet.hpp"
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61 | #include "Descriptors/AtomIdDescriptor.hpp"
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62 | #include "Element/element.hpp"
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63 | #include "Element/periodentafel.hpp"
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64 | #include "Fragmentation/Homology/AtomFragmentsMap.hpp"
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65 | #include "Fragmentation/Homology/HomologyContainer.hpp"
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66 | #include "Fragmentation/Homology/HomologyGraph.hpp"
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67 | #include "Fragmentation/Summation/SetValues/SamplingGrid.hpp"
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68 | #include "FunctionApproximation/Extractors.hpp"
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69 | #include "Potentials/PartialNucleiChargeFitter.hpp"
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70 | #include "Potentials/Particles/ParticleFactory.hpp"
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71 | #include "Potentials/Particles/ParticleRegistry.hpp"
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72 | #include "Potentials/SerializablePotential.hpp"
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73 | #include "World.hpp"
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74 |
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75 | using namespace MoleCuilder;
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76 |
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77 | // and construct the stuff
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78 | #include "FitPartialChargesAction.def"
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79 | #include "Action_impl_pre.hpp"
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80 | /** =========== define the function ====================== */
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81 |
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82 | namespace detail {
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83 | typedef std::map<KeySet, HomologyGraph> KeysetsToGraph_t;
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84 |
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85 | typedef std::map<HomologyGraph, PartialNucleiChargeFitter::charges_t> GraphFittedChargeMap_t;
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86 |
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87 | typedef std::map<atomId_t, double> fitted_charges_t;
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88 |
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89 | typedef std::map<HomologyGraph, size_t> GraphIndex_t;
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90 |
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91 | typedef std::set<size_t> AtomsGraphIndices_t;
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92 | typedef boost::bimaps::bimap<
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93 | boost::bimaps::multiset_of<AtomsGraphIndices_t>,
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94 | atomId_t > GraphIndices_t;
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95 |
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96 | typedef std::map<std::set<size_t>, std::map<atomicNumber_t, std::string> > AtomParticleNames_t;
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97 |
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98 | typedef std::map<std::set<size_t>, std::string> GraphToNameMap_t;
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99 | };
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100 |
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101 | static void enforceZeroTotalCharge(
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102 | PartialNucleiChargeFitter::charges_t &_averaged_charges)
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103 | {
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104 | double charge_sum = 0.;
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105 | charge_sum = std::accumulate(_averaged_charges.begin(), _averaged_charges.end(), charge_sum);
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106 | if (fabs(charge_sum) > MYEPSILON) {
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107 | std::transform(
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108 | _averaged_charges.begin(), _averaged_charges.end(),
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109 | _averaged_charges.begin(),
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110 | boost::bind(std::minus<double>(), _1, charge_sum/_averaged_charges.size()));
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111 | }
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112 | charge_sum = 0.;
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113 | charge_sum = std::accumulate(_averaged_charges.begin(), _averaged_charges.end(), charge_sum);
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114 | ASSERT( fabs(charge_sum) < MYEPSILON,
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115 | "enforceZeroTotalCharge() - enforcing neutral net charge failed, "
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116 | +toString(charge_sum)+" is the remaining net charge.");
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117 |
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118 | LOG(2, "DEBUG: final charges with net zero charge are " << _averaged_charges);
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119 | }
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120 |
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121 | static size_t obtainAverageChargesOverFragments(
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122 | PartialNucleiChargeFitter::charges_t &_average_charges,
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123 | const std::pair<
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124 | HomologyContainer::const_iterator,
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125 | HomologyContainer::const_iterator> &_range,
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126 | const double _radius
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127 | )
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128 | {
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129 | HomologyContainer::const_iterator iter = _range.first;
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130 | if (!iter->second.containsGrids) {
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131 | ELOG(1, "This HomologyGraph does not contain sampled grids.");
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132 | return 0;
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133 | }
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134 | _average_charges.resize(iter->second.fragment.getCharges().size(), 0.);
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135 | size_t NoFragments = 0;
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136 | for (;
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137 | iter != _range.second; ++iter, ++NoFragments) {
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138 | if (!iter->second.containsGrids) {
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139 | ELOG(2, "This HomologyGraph does not contain sampled grids,\ndid you forget to add '--store-grids 1' to AnalyseFragmentResults.");
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140 | return 0;
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141 | }
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142 | const Fragment &fragment = iter->second.fragment;
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143 | // const double &energy = iter->second.energy;
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144 | // const SamplingGrid &charge = iter->second.charge_distribution;
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145 | const SamplingGrid &potential = iter->second.potential_distribution;
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146 | if ((potential.level == 0)
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147 | || ((potential.begin[0] == potential.end[0])
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148 | && (potential.begin[1] == potential.end[1])
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149 | && (potential.begin[2] == potential.end[2]))) {
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150 | ELOG(1, "Sampled grid contains grid made of zero points.");
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151 | return 0;
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152 | }
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153 |
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154 | // then we extract positions from fragment
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155 | PartialNucleiChargeFitter::positions_t positions;
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156 | Fragment::positions_t fragmentpositions = fragment.getPositions();
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157 | positions.reserve(fragmentpositions.size());
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158 | BOOST_FOREACH( Fragment::position_t pos, fragmentpositions) {
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159 | positions.push_back( Vector(pos[0], pos[1], pos[2]) );
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160 | }
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161 | PartialNucleiChargeFitter fitter(potential, positions, _radius);
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162 | fitter();
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163 | PartialNucleiChargeFitter::charges_t return_charges = fitter.getSolutionAsCharges_t();
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164 | LOG(2, "DEBUG: fitted charges are " << return_charges);
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165 | std::transform(
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166 | return_charges.begin(), return_charges.end(),
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167 | _average_charges.begin(),
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168 | _average_charges.begin(),
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169 | std::plus<PartialNucleiChargeFitter::charge_t>());
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170 | }
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171 | if (NoFragments != 0)
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172 | std::transform(_average_charges.begin(), _average_charges.end(),
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173 | _average_charges.begin(),
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174 | std::bind1st(std::multiplies<PartialNucleiChargeFitter::charge_t>(),1./(double)NoFragments)
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175 | );
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176 | LOG(2, "DEBUG: final averaged charges are " << _average_charges);
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177 |
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178 | return NoFragments;
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179 | }
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180 |
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181 | inline SerializablePotential::ParticleTypes_t
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182 | getParticleTypesForAtomIdSet(const AtomIdSet &_atoms)
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183 | {
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184 | SerializablePotential::ParticleTypes_t particletypes;
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185 | particletypes.resize(_atoms.size());
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186 | std::transform(
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187 | _atoms.begin(), _atoms.end(),
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188 | particletypes.begin(),
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189 | boost::bind(&atom::getElementNo, _1));
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190 | return particletypes;
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191 | }
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192 |
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193 | static
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194 | std::set<KeySet> accumulateKeySetsForAtoms(
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195 | const AtomFragmentsMap::AtomFragmentsMap_t &_atommap,
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196 | const std::vector<const atom *> &_selected_atoms)
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197 | {
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198 | std::set<KeySet> fragments;
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199 | for (std::vector<const atom *>::const_iterator iter = _selected_atoms.begin();
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200 | iter != _selected_atoms.end(); ++iter) {
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201 | const atomId_t atomid = (*iter)->getId();
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202 | const AtomFragmentsMap::AtomFragmentsMap_t::const_iterator atomiter =
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203 | _atommap.find(atomid);
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204 | if ((*iter)->getElementNo() != 1) {
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205 | if (atomiter == _atommap.end()) {
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206 | ELOG(2, "There are no fragments associated to " << atomid << ".");
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207 | continue;
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208 | }
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209 | const AtomFragmentsMap::keysets_t &keysets = atomiter->second;
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210 | LOG(2, "DEBUG: atom " << atomid << " has " << keysets.size() << " fragments.");
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211 | fragments.insert( keysets.begin(), keysets.end() );
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212 | } else {
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213 | LOG(3, "DEBUG: Skipping atom " << atomid << " as it's hydrogen.");
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214 | }
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215 | }
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216 | return fragments;
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217 | }
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218 |
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219 | static
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220 | void getKeySetsToGraphMapping(
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221 | detail::KeysetsToGraph_t &_keyset_graphs,
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222 | detail::GraphFittedChargeMap_t &_fittedcharges_per_fragment,
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223 | const std::set<KeySet> &_fragments,
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224 | const AtomFragmentsMap &_atomfragments)
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225 | {
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226 | for (std::set<KeySet>::const_iterator fragmentiter = _fragments.begin();
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227 | fragmentiter != _fragments.end(); ++fragmentiter) {
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228 | const KeySet &keyset = *fragmentiter;
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229 | const AtomFragmentsMap::indices_t &forceindices = _atomfragments.getFullKeyset(keyset);
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230 | ASSERT( !forceindices.empty(),
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231 | "getKeySetsToGraphMapping() - force keyset to "+toString(keyset)+" is empty.");
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232 | KeySet forcekeyset;
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233 | forcekeyset.insert(forceindices.begin(), forceindices.end());
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234 | forcekeyset.erase(-1);
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235 | const HomologyGraph graph(forcekeyset);
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236 | LOG(2, "DEBUG: Associating keyset " << forcekeyset << " with graph " << graph);
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237 | _keyset_graphs.insert( std::make_pair(keyset, graph) );
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238 | _fittedcharges_per_fragment.insert( std::make_pair(graph, PartialNucleiChargeFitter::charges_t()) );
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239 | }
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240 | }
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241 |
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242 | static
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243 | bool getPartialChargesForAllGraphs(
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244 | detail::GraphFittedChargeMap_t &_fittedcharges_per_fragment,
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245 | const HomologyContainer &_homologies,
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246 | const double _mask_radius,
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247 | const bool enforceZeroCharge)
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248 | {
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249 | for (detail::GraphFittedChargeMap_t::iterator graphiter = _fittedcharges_per_fragment.begin();
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250 | graphiter != _fittedcharges_per_fragment.end(); ++graphiter) {
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251 | const HomologyGraph &graph = graphiter->first;
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252 | LOG(2, "DEBUG: Now fitting charges to graph " << graph);
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253 | const HomologyContainer::range_t range = _homologies.getHomologousGraphs(graph);
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254 | if (range.first == range.second) {
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255 | ELOG(0, "HomologyContainer does not contain specified fragment.");
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256 | return false;
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257 | }
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258 |
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259 | // fit and average partial charges over all homologous fragments
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260 | PartialNucleiChargeFitter::charges_t &averaged_charges = graphiter->second;
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261 | const size_t NoFragments =
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262 | obtainAverageChargesOverFragments(averaged_charges, range, _mask_radius);
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263 | if ((NoFragments == 0) && (range.first != range.second)) {
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264 | ELOG(0, "Fitting for fragment "+toString(*graphiter)+" failed.");
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265 | return false;
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266 | }
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267 |
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268 | // make sum of charges zero if desired
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269 | if (enforceZeroCharge)
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270 | enforceZeroTotalCharge(averaged_charges);
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271 |
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272 | // output status info fitted charges
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273 | LOG(2, "DEBUG: For fragment " << *graphiter << " we have fitted the following charges "
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274 | << averaged_charges << ", averaged over " << NoFragments << " fragments.");
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275 | }
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276 | return true;
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277 | }
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278 |
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279 | const atom * getNonHydrogenSurrogate(const atom * const _walker)
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280 | {
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281 | const atom * surrogate = _walker;
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282 | if (surrogate->getElementNo() == 1) {
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283 | // it's hydrogen, check its bonding and use its bond partner instead to request
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284 | // keysets
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285 | const BondList &ListOfBonds = surrogate->getListOfBonds();
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286 | if ( ListOfBonds.size() != 1) {
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287 | ELOG(1, "Solitary hydrogen in atom " << surrogate->getId() << " detected.");
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288 | return _walker;
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289 | }
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290 | surrogate = (*ListOfBonds.begin())->GetOtherAtom(surrogate);
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291 | }
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292 | return surrogate;
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293 | }
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294 |
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295 | double fitAverageChargeToAtom(
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296 | const atom * const _walker,
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297 | const AtomFragmentsMap &_atomfragments,
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298 | const detail::KeysetsToGraph_t &_keyset_graphs,
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299 | const detail::GraphFittedChargeMap_t &_fittedcharges_per_fragment)
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300 | {
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301 | const atom * const surrogate = getNonHydrogenSurrogate(_walker);
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302 | const atomId_t walkerid = surrogate->getId();
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303 | const AtomFragmentsMap::AtomFragmentsMap_t &atommap = _atomfragments.getMap();
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304 | const AtomFragmentsMap::AtomFragmentsMap_t::const_iterator keysetsiter =
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305 | atommap.find(walkerid);
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306 | ASSERT(keysetsiter != atommap.end(),
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307 | "fitAverageChargeToAtom() - we checked already that "+toString(walkerid)
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308 | +" should be present!");
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309 | const AtomFragmentsMap::keysets_t & keysets = keysetsiter->second;
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310 |
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311 | double average_charge = 0.;
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312 | size_t NoFragments = 0;
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313 | // go over all fragments associated to this atom
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314 | for (AtomFragmentsMap::keysets_t::const_iterator keysetsiter = keysets.begin();
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315 | keysetsiter != keysets.end(); ++keysetsiter) {
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316 | const KeySet &keyset = *keysetsiter;
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317 |
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318 | const AtomFragmentsMap::indices_t &forcekeyset = _atomfragments.getFullKeyset(keyset);
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319 | ASSERT( !forcekeyset.empty(),
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320 | "fitAverageChargeToAtom() - force keyset to "+toString(keyset)+" is empty.");
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321 |
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322 | // find the associated charge in the charge vector
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323 | const std::map<KeySet, HomologyGraph>::const_iterator keysetgraphiter =
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324 | _keyset_graphs.find(keyset);
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325 | ASSERT( keysetgraphiter != _keyset_graphs.end(),
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326 | "fitAverageChargeToAtom() - keyset "+toString(keyset)
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327 | +" not contained in keyset_graphs.");
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328 | const HomologyGraph &graph = keysetgraphiter->second;
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329 | const detail::GraphFittedChargeMap_t::const_iterator chargesiter =
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330 | _fittedcharges_per_fragment.find(graph);
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331 | ASSERT(chargesiter != _fittedcharges_per_fragment.end(),
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332 | "fitAverageChargeToAtom() - no charge to "+toString(keyset)
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333 | +" any longer present in fittedcharges_per_fragment?");
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334 | const PartialNucleiChargeFitter::charges_t &charges = chargesiter->second;
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335 | ASSERT( charges.size() == forcekeyset.size(),
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336 | "fitAverageChargeToAtom() - charges "+toString(charges.size())+" and keyset "
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337 | +toString(forcekeyset.size())+" do not have the same length?");
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338 | PartialNucleiChargeFitter::charges_t::const_iterator chargeiter =
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339 | charges.begin();
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340 | const AtomFragmentsMap::indices_t::const_iterator forcekeysetiter =
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341 | std::find(forcekeyset.begin(), forcekeyset.end(), _walker->getId());
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342 | ASSERT( forcekeysetiter != forcekeyset.end(),
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343 | "fitAverageChargeToAtom() - atom "+toString(_walker->getId())
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344 | +" not contained in force keyset "+toString(forcekeyset));
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345 | std::advance(chargeiter, std::distance(forcekeyset.begin(), forcekeysetiter));
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346 |
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347 | // and add onto charge sum
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348 | const double & charge_in_fragment = *chargeiter;
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349 | average_charge += charge_in_fragment;
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350 | ++NoFragments;
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351 | }
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352 | // average to obtain final partial charge for this atom
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353 | average_charge *= 1./(double)NoFragments;
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354 |
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355 | return average_charge;
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356 | }
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357 |
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358 | void addToParticleRegistry(
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359 | const ParticleFactory &factory,
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360 | const periodentafel &periode,
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361 | const detail::fitted_charges_t &_fitted_charges,
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362 | const detail::GraphIndices_t &_GraphIndices,
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363 | detail::AtomParticleNames_t &_atom_particlenames)
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364 | {
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365 | for (detail::fitted_charges_t::const_iterator chargeiter = _fitted_charges.begin();
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366 | chargeiter != _fitted_charges.end(); ++chargeiter) {
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367 | const atomId_t &atomid = chargeiter->first;
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368 | const atom * const walker = World::getInstance().getAtom(AtomById(atomid));
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369 | ASSERT( walker != NULL,
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370 | "addToParticleRegistry() - atom "+toString(atomid)
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371 | +" not present in the World?");
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372 | const detail::GraphIndices_t::right_const_iterator graphiter =
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373 | _GraphIndices.right.find(atomid);
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374 | ASSERT(graphiter != _GraphIndices.right.end(),
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375 | "addToParticleRegistry() - atom #"+toString(atomid)
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376 | +" not contained in GraphIndices.");
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377 | const detail::AtomParticleNames_t::iterator nameiter =
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378 | _atom_particlenames.find(graphiter->second);
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379 | const atomicNumber_t elementno = walker->getElementNo();
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380 | std::string name;
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381 | if ((nameiter != _atom_particlenames.end()) && (nameiter->second.count(elementno))) {
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382 | name = (nameiter->second)[elementno];
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383 | } else {
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384 | if (nameiter == _atom_particlenames.end())
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385 | _atom_particlenames.insert(
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386 | std::make_pair(graphiter->second, std::map<atomicNumber_t, std::string>()) );
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387 | const double &charge = chargeiter->second;
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388 | name = Particle::findFreeName(periode, elementno);
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389 | _atom_particlenames[graphiter->second][elementno] = name;
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390 | LOG(1, "INFO: Adding particle " << name << " for atom "
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391 | << *walker << " with element " << elementno << ", charge " << charge);
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392 | factory.createInstance(name, elementno, charge);
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393 | }
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394 | }
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395 | }
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396 |
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397 | bool isNotHydrogen(const atom * const _atom)
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398 | {
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399 | return (_atom->getElementNo() != (atomicNumber_t) 1);
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400 | }
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401 |
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402 | ActionState::ptr PotentialFitPartialChargesAction::performCall()
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403 | {
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404 | // check for selected atoms
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405 | const World &world = const_cast<const World &>(World::getInstance());
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406 | const std::vector<const atom *> selected_atoms = world.getSelectedAtoms();
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407 | if (selected_atoms.empty()) {
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408 | STATUS("There are no atoms selected for fitting partial charges to.");
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409 | return Action::failure;
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410 | }
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411 |
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412 | /// obtain possible fragments to each selected atom
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413 | const AtomFragmentsMap &atomfragments = AtomFragmentsMap::getConstInstance();
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414 | if (!atomfragments.checkCompleteness()) {
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415 | ELOG(0, "AtomFragmentsMap failed internal consistency check, missing forcekeysets?");
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416 | return Action::failure;
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417 | }
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418 | const std::set<KeySet> fragments =
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419 | accumulateKeySetsForAtoms( atomfragments.getMap(), selected_atoms);
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420 | const size_t NoNonHydrogens =
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---|
421 | std::count_if(selected_atoms.begin(), selected_atoms.end(), isNotHydrogen);
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422 | if (fragments.size() < NoNonHydrogens) {
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423 | ELOG(0, "Obtained fewer fragments than there are atoms, has AtomFragments been loaded?");
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424 | return Action::failure;
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425 | }
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426 |
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427 | // reduce given fragments to homologous graphs to avoid multiple fittings
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428 | detail::KeysetsToGraph_t keyset_graphs;
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429 | detail::GraphFittedChargeMap_t fittedcharges_per_fragment;
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430 | getKeySetsToGraphMapping(keyset_graphs, fittedcharges_per_fragment, fragments, atomfragments);
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431 |
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432 | /// then go through all fragments and get partial charges for each
|
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433 | const HomologyContainer &homologies = World::getInstance().getHomologies();
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434 | const bool status = getPartialChargesForAllGraphs(
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435 | fittedcharges_per_fragment,
|
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436 | homologies,
|
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437 | params.radius.get(),
|
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438 | params.enforceZeroCharge.get());
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439 | if (!status)
|
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440 | return Action::failure;
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441 |
|
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442 | /// obtain average charge for each atom the fitted charges over all its fragments
|
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443 | detail::fitted_charges_t fitted_charges;
|
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444 | for (std::vector<const atom *>::const_iterator atomiter = selected_atoms.begin();
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445 | atomiter != selected_atoms.end(); ++atomiter) {
|
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446 | const atomId_t walkerid = (*atomiter)->getId();
|
---|
447 | const double average_charge = fitAverageChargeToAtom(
|
---|
448 | *atomiter, atomfragments, keyset_graphs, fittedcharges_per_fragment);
|
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449 |
|
---|
450 | if (average_charge != 0.) {
|
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451 | LOG(2, "DEBUG: For atom " << *atomiter << " we have an average charge of "
|
---|
452 | << average_charge);
|
---|
453 |
|
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454 | fitted_charges.insert( std::make_pair(walkerid, average_charge) );
|
---|
455 | }
|
---|
456 | }
|
---|
457 |
|
---|
458 | /// make Particles be used for every atom that was fitted on the same number of graphs
|
---|
459 | detail::GraphIndex_t GraphIndex;
|
---|
460 | size_t index = 0;
|
---|
461 | for (HomologyContainer::const_key_iterator iter = homologies.key_begin();
|
---|
462 | iter != homologies.key_end(); iter = homologies.getNextKey(iter)) {
|
---|
463 | GraphIndex.insert( std::make_pair( *iter, index++));
|
---|
464 | }
|
---|
465 | LOG(2, "DEBUG: There are " << index << " unique graphs in the homology container.");
|
---|
466 |
|
---|
467 | // go through every non-hydrogen atom, get all graphs, convert to GraphIndex and store
|
---|
468 | detail::GraphIndices_t GraphIndices;
|
---|
469 | const AtomFragmentsMap::AtomFragmentsMap_t &atommap = atomfragments.getMap();
|
---|
470 | for (std::vector<const atom *>::const_iterator atomiter = selected_atoms.begin();
|
---|
471 | atomiter != selected_atoms.end(); ++atomiter) {
|
---|
472 | // use the non-hydrogen here
|
---|
473 | const atomId_t walkerid = (*atomiter)->getId();
|
---|
474 | const atomId_t surrogateid = getNonHydrogenSurrogate(*atomiter)->getId();
|
---|
475 | if (surrogateid != walkerid)
|
---|
476 | continue;
|
---|
477 | const AtomFragmentsMap::AtomFragmentsMap_t::const_iterator keysetsiter =
|
---|
478 | atommap.find(walkerid);
|
---|
479 | ASSERT(keysetsiter != atommap.end(),
|
---|
480 | "PotentialFitPartialChargesAction::performCall() - we checked already that "
|
---|
481 | +toString(surrogateid)+" should be present!");
|
---|
482 | const AtomFragmentsMap::keysets_t & keysets = keysetsiter->second;
|
---|
483 |
|
---|
484 | // go over all fragments associated to this atom
|
---|
485 | detail::AtomsGraphIndices_t AtomsGraphIndices;
|
---|
486 | for (AtomFragmentsMap::keysets_t::const_iterator keysetsiter = keysets.begin();
|
---|
487 | keysetsiter != keysets.end(); ++keysetsiter) {
|
---|
488 | const KeySet &keyset = *keysetsiter;
|
---|
489 | const std::map<KeySet, HomologyGraph>::const_iterator keysetgraphiter =
|
---|
490 | keyset_graphs.find(keyset);
|
---|
491 | ASSERT( keysetgraphiter != keyset_graphs.end(),
|
---|
492 | "PotentialFitPartialChargesAction::performCall() - keyset "+toString(keyset)
|
---|
493 | +" not contained in keyset_graphs.");
|
---|
494 | const HomologyGraph &graph = keysetgraphiter->second;
|
---|
495 | const detail::GraphIndex_t::const_iterator indexiter = GraphIndex.find(graph);
|
---|
496 | ASSERT( indexiter != GraphIndex.end(),
|
---|
497 | "PotentialFitPartialChargesAction::performCall() - graph "+toString(graph)
|
---|
498 | +" not contained in GraphIndex.");
|
---|
499 | AtomsGraphIndices.insert( indexiter->second );
|
---|
500 | }
|
---|
501 |
|
---|
502 | GraphIndices.insert( detail::GraphIndices_t::value_type(AtomsGraphIndices, walkerid) );
|
---|
503 |
|
---|
504 | LOG(2, "DEBUG: Atom #" << walkerid << "," << *atomiter << ". has graph indices "
|
---|
505 | << AtomsGraphIndices);
|
---|
506 | }
|
---|
507 | // then graphs from non-hydrogen bond partner for all hydrogens
|
---|
508 | for (std::vector<const atom *>::const_iterator atomiter = selected_atoms.begin();
|
---|
509 | atomiter != selected_atoms.end(); ++atomiter) {
|
---|
510 | // use the non-hydrogen here
|
---|
511 | const atomId_t walkerid = (*atomiter)->getId();
|
---|
512 | const atomId_t surrogateid = getNonHydrogenSurrogate((*atomiter))->getId();
|
---|
513 | if (surrogateid == walkerid)
|
---|
514 | continue;
|
---|
515 | detail::GraphIndices_t::right_const_iterator graphiter = GraphIndices.right.find(surrogateid);
|
---|
516 | ASSERT( graphiter != GraphIndices.right.end(),
|
---|
517 | "PotentialFitPartialChargesAction::performCall() - atom #"+toString(surrogateid)
|
---|
518 | +" not contained in GraphIndices.");
|
---|
519 | const detail::AtomsGraphIndices_t &AtomsGraphIndices = graphiter->second;
|
---|
520 | GraphIndices.insert( detail::GraphIndices_t::value_type(AtomsGraphIndices, walkerid) );
|
---|
521 | LOG(2, "DEBUG: Hydrogen #" << walkerid << ", " << *atomiter
|
---|
522 | << ", has graph indices " << AtomsGraphIndices);
|
---|
523 | }
|
---|
524 |
|
---|
525 | /// place all fitted charges into ParticleRegistry
|
---|
526 | detail::AtomParticleNames_t atom_particlenames;
|
---|
527 | addToParticleRegistry(
|
---|
528 | ParticleFactory::getConstInstance(),
|
---|
529 | *World::getInstance().getPeriode(),
|
---|
530 | fitted_charges,
|
---|
531 | GraphIndices,
|
---|
532 | atom_particlenames);
|
---|
533 | for (std::vector<const atom *>::const_iterator atomiter = selected_atoms.begin();
|
---|
534 | atomiter != selected_atoms.end(); ++atomiter) {
|
---|
535 | const atom * const walker = *atomiter;
|
---|
536 | const atomId_t walkerid = walker->getId();
|
---|
537 | const detail::GraphIndices_t::right_const_iterator graphiter =
|
---|
538 | GraphIndices.right.find(walkerid);
|
---|
539 | ASSERT( graphiter != GraphIndices.right.end(),
|
---|
540 | "PotentialFitPartialChargesAction::performCall() - cannot find "
|
---|
541 | +toString(walkerid)+" in GraphIndices.");
|
---|
542 | const detail::AtomsGraphIndices_t &graphindex = graphiter->second;
|
---|
543 | const detail::AtomParticleNames_t::const_iterator particlesetiter =
|
---|
544 | atom_particlenames.find(graphindex);
|
---|
545 | ASSERT( particlesetiter != atom_particlenames.end(),
|
---|
546 | "PotentialFitPartialChargesAction::performCall() - cannot find "
|
---|
547 | +toString(graphindex)+" in atom_particlenames.");
|
---|
548 | const std::map<atomicNumber_t, std::string>::const_iterator nameiter =
|
---|
549 | particlesetiter->second.find(walker->getElementNo());
|
---|
550 | ASSERT( nameiter != particlesetiter->second.end(),
|
---|
551 | "PotentialFitPartialChargesAction::performCall() - ");
|
---|
552 | LOG(1, "INFO: atom " << *walker << " received the following particle "
|
---|
553 | << nameiter->second);
|
---|
554 | }
|
---|
555 |
|
---|
556 | return Action::success;
|
---|
557 | }
|
---|
558 |
|
---|
559 | ActionState::ptr PotentialFitPartialChargesAction::performUndo(ActionState::ptr _state) {
|
---|
560 | return Action::success;
|
---|
561 | }
|
---|
562 |
|
---|
563 | ActionState::ptr PotentialFitPartialChargesAction::performRedo(ActionState::ptr _state){
|
---|
564 | return Action::success;
|
---|
565 | }
|
---|
566 |
|
---|
567 | bool PotentialFitPartialChargesAction::canUndo() {
|
---|
568 | return false;
|
---|
569 | }
|
---|
570 |
|
---|
571 | bool PotentialFitPartialChargesAction::shouldUndo() {
|
---|
572 | return false;
|
---|
573 | }
|
---|
574 | /** =========== end of function ====================== */
|
---|