1 | /*
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2 | * bondgraph.hpp
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3 | *
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4 | * Created on: Oct 29, 2009
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5 | * Author: heber
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6 | */
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7 |
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8 | #ifndef BONDGRAPH_HPP_
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9 | #define BONDGRAPH_HPP_
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10 |
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11 | using namespace std;
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12 |
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13 | /*********************************************** includes ***********************************/
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14 |
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15 | // include config.h
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16 | #ifdef HAVE_CONFIG_H
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17 | #include <config.h>
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18 | #endif
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19 |
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20 | #include <iosfwd>
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21 |
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22 | #include "AtomSet.hpp"
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23 | #include "Bond/bond.hpp"
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24 | #include "CodePatterns/Assert.hpp"
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25 | #include "CodePatterns/Log.hpp"
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26 | #include "CodePatterns/Range.hpp"
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27 | #include "CodePatterns/Verbose.hpp"
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28 | #include "element.hpp"
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29 | #include "linkedcell.hpp"
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30 | #include "IPointCloud.hpp"
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31 | #include "PointCloudAdaptor.hpp"
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32 | #include "WorldTime.hpp"
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33 |
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34 | /****************************************** forward declarations *****************************/
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35 |
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36 | class molecule;
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37 | class BondedParticle;
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38 | class MatrixContainer;
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39 |
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40 | /********************************************** definitions *********************************/
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41 |
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42 | /********************************************** declarations *******************************/
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43 |
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44 |
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45 | class BondGraph {
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46 | //!> analysis bonds unit test should be friend to access private parts.
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47 | friend class AnalysisBondsTest;
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48 | //!> own bond graph unit test should be friend to access private parts.
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49 | friend class BondGraphTest;
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50 | public:
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51 | /** Constructor of class BondGraph.
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52 | * This classes contains typical bond lengths and thus may be used to construct a bond graph for a given molecule.
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53 | */
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54 | BondGraph(bool IsA);
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55 |
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56 | /** Destructor of class BondGraph.
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57 | */
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58 | ~BondGraph();
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59 |
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60 | /** Parses the bond lengths in a given file and puts them int a matrix form.
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61 | * Allocates \a MatrixContainer for BondGraph::BondLengthMatrix, using MatrixContainer::ParseMatrix(),
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62 | * but only if parsing is successful. Otherwise variable is left as NULL.
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63 | * \param &input input stream to parse table from
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64 | * \return true - success in parsing file, false - failed to parse the file
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65 | */
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66 | bool LoadBondLengthTable(std::istream &input);
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67 |
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68 | /** Determines the maximum of all element::CovalentRadius for elements present in \a &Set.
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69 | *
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70 | * I.e. the function returns a sensible cutoff criteria for bond recognition,
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71 | * e.g. to be used for LinkedCell or others.
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72 | *
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73 | * \param &Set AtomSetMixin with all particles to consider
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74 | */
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75 | template <class container_type,
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76 | class iterator_type,
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77 | class const_iterator_type>
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78 | double getMaxPossibleBondDistance(
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79 | const AtomSetMixin<container_type,iterator_type,const_iterator_type> &Set) const
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80 | {
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81 | double max_distance = 0.;
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82 | // get all elements
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83 | std::set< const element *> PresentElements;
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84 | for(const_iterator_type AtomRunner = Set.begin(); AtomRunner != Set.end(); ++AtomRunner) {
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85 | PresentElements.insert( (*AtomRunner)->getType() );
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86 | }
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87 | // create all element combinations
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88 | for (std::set< const element *>::const_iterator iter = PresentElements.begin();
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89 | iter != PresentElements.end();
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90 | ++iter) {
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91 | for (std::set< const element *>::const_iterator otheriter = iter;
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92 | otheriter != PresentElements.end();
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93 | ++otheriter) {
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94 | const range<double> MinMaxDistance(getMinMaxDistance((*iter),(*otheriter)));
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95 | if (MinMaxDistance.last > max_distance)
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96 | max_distance = MinMaxDistance.last;
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97 | }
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98 | }
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99 | return max_distance;
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100 | }
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101 |
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102 | /** Returns bond criterion for given pair based on a bond length matrix.
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103 | * This calls element-version of getMinMaxDistance().
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104 | * \param *Walker first BondedParticle
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105 | * \param *OtherWalker second BondedParticle
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106 | * \return Range with bond interval
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107 | */
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108 | range<double> getMinMaxDistance(
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109 | const BondedParticle * const Walker,
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110 | const BondedParticle * const OtherWalker) const;
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111 |
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112 | /** Returns SQUARED bond criterion for given pair based on a bond length matrix.
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113 | * This calls element-version of getMinMaxDistance() and squares the values
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114 | * of either interval end.
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115 | * \param *Walker first BondedParticle
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116 | * \param *OtherWalker second BondedParticle
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117 | * \return Range with bond interval
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118 | */
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119 | range<double> getMinMaxDistanceSquared(
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120 | const BondedParticle * const Walker,
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121 | const BondedParticle * const OtherWalker) const;
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122 |
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123 | /** Creates the adjacency list for a given \a Range of iterable atoms.
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124 | *
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125 | * @param Set Range with begin and end iterator
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126 | */
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127 | template <class container_type,
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128 | class iterator_type,
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129 | class const_iterator_type>
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130 | void CreateAdjacency(
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131 | AtomSetMixin<container_type,iterator_type,const_iterator_type> &Set) const
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132 | {
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133 | LOG(1, "STATUS: Removing all present bonds.");
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134 | cleanAdjacencyList(Set);
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135 |
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136 | // count atoms in molecule = dimension of matrix (also give each unique name and continuous numbering)
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137 | const unsigned int counter = Set.size();
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138 | if (counter > 1) {
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139 | LOG(1, "STATUS: Setting max bond distance.");
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140 | const double max_distance = getMaxPossibleBondDistance(Set);
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141 |
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142 | LOG(1, "STATUS: Creating LinkedCell structure for given " << counter << " atoms.");
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143 | PointCloudAdaptor< AtomSetMixin<container_type,iterator_type> > cloud(&Set, "SetOfAtoms");
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144 | LinkedCell *LC = new LinkedCell(cloud, max_distance);
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145 |
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146 | CreateAdjacency(*LC);
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147 | delete (LC);
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148 |
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149 | // correct bond degree by comparing valence and bond degree
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150 | LOG(1, "STATUS: Correcting bond degree.");
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151 | CorrectBondDegree(Set);
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152 |
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153 | // output bonds for debugging (if bond chain list was correctly installed)
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154 | LOG(2, "STATUS: Printing list of created bonds.");
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155 | std::stringstream output;
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156 | for(const_iterator_type AtomRunner = Set.begin(); AtomRunner != Set.end(); ++AtomRunner) {
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157 | (*AtomRunner)->OutputBondOfAtom(output);
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158 | output << std::endl << "\t\t";
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159 | }
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160 | LOG(2, output.str());
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161 | } else {
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162 | LOG(1, "REJECT: AtomCount is " << counter << ", thus no bonds, no connections.");
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163 | }
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164 | }
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165 |
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166 | /** Creates an adjacency list of the given \a Set of atoms.
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167 | *
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168 | * Note that the input stream is required to refer to the same number of
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169 | * atoms also contained in \a Set.
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170 | *
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171 | * \param &Set container with atoms
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172 | * \param *input input stream to parse
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173 | * \param skiplines how many header lines to skip
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174 | * \param id_offset is base id compared to World startin at 0
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175 | */
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176 | template <class container_type,
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177 | class iterator_type,
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178 | class const_iterator_type>
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179 | void CreateAdjacencyListFromDbondFile(
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180 | AtomSetMixin<container_type,iterator_type,const_iterator_type> &Set,
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181 | ifstream *input,
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182 | unsigned int skiplines,
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183 | int id_offset) const
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184 | {
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185 | char line[MAXSTRINGSIZE];
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186 |
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187 | // check input stream
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188 | if (input->fail()) {
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189 | ELOG(0, "Opening of bond file failed \n");
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190 | return;
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191 | };
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192 | // skip headers
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193 | unsigned int bondcount = 0;
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194 | for (unsigned int i=0;i<skiplines;i++)
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195 | input->getline(line,MAXSTRINGSIZE);
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196 |
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197 | // create lookup map
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198 | LOG(1, "STATUS: Creating lookup map.");
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199 | std::map< unsigned int, atom *> AtomLookup;
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200 | unsigned int counter = id_offset; // if ids do not start at 0
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201 | for (iterator_type iter = Set.begin(); iter != Set.end(); ++iter) {
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202 | AtomLookup.insert( make_pair( counter++, *iter) );
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203 | }
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204 | LOG(2, "INFO: There are " << counter << " atoms in the given set.");
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205 |
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206 | LOG(1, "STATUS: Scanning file.");
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207 | unsigned int atom1, atom2;
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208 | unsigned int bondcounter = 0;
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209 | while (!input->eof()) // Check whether we read everything already
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210 | {
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211 | input->getline(line,MAXSTRINGSIZE);
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212 | stringstream zeile(line);
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213 | if (zeile.str().empty())
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214 | continue;
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215 | zeile >> atom1;
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216 | zeile >> atom2;
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217 |
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218 | LOG(4, "INFO: Looking for atoms " << atom1 << " and " << atom2 << ".");
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219 | if (atom2 < atom1) //Sort indices of atoms in order
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220 | std::swap(atom1, atom2);
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221 | ASSERT(atom2 < counter,
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222 | "BondGraph::CreateAdjacencyListFromDbondFile() - ID "
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223 | +toString(atom2)+" exceeds number of present atoms "+toString(counter)+".");
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224 | ASSERT(AtomLookup.count(atom1),
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225 | "BondGraph::CreateAdjacencyListFromDbondFile() - Could not find an atom with the ID given in dbond file");
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226 | ASSERT(AtomLookup.count(atom2),
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227 | "BondGraph::CreateAdjacencyListFromDbondFile() - Could not find an atom with the ID given in dbond file");
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228 | atom * const Walker = AtomLookup[atom1];
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229 | atom * const OtherWalker = AtomLookup[atom2];
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230 |
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231 | LOG(3, "INFO: Creating bond between atoms " << atom1 << " and " << atom2 << ".");
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232 | //const bond * Binder =
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233 | Walker->addBond(WorldTime::getTime(), OtherWalker);
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234 | bondcounter++;
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235 | }
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236 | LOG(1, "STATUS: "<< bondcounter << " bonds have been parsed.");
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237 | }
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238 |
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239 | /** Creates an adjacency list of the molecule.
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240 | * Generally, we use the CSD approach to bond recognition, that is the the distance
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241 | * between two atoms A and B must be within [Rcov(A)+Rcov(B)-t,Rcov(A)+Rcov(B)+t] with
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242 | * a threshold t = 0.4 Angstroem.
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243 | * To make it O(N log N) the function uses the linked-cell technique as follows:
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244 | * The procedure is step-wise:
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245 | * -# Remove every bond in list
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246 | * -# Count the atoms in the molecule with CountAtoms()
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247 | * -# partition cell into smaller linked cells of size \a bonddistance
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248 | * -# put each atom into its corresponding cell
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249 | * -# go through every cell, check the atoms therein against all possible bond partners in the 27 adjacent cells, add bond if true
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250 | * -# correct the bond degree iteratively (single->double->triple bond)
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251 | * -# finally print the bond list to \a *out if desired
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252 | * \param &LC Linked Cell Container with all atoms
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253 | */
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254 | void CreateAdjacency(LinkedCell &LC) const;
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255 |
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256 | /** Removes all bonds within the given set of iterable atoms.
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257 | *
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258 | * @param Set Range with atoms
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259 | */
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260 | template <class container_type,
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261 | class iterator_type,
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262 | class const_iterator_type>
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263 | void cleanAdjacencyList(
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264 | AtomSetMixin<container_type,iterator_type,const_iterator_type> &Set) const
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265 | {
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266 | // remove every bond from the list
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267 | for(iterator_type AtomRunner = Set.begin(); AtomRunner != Set.end(); ++AtomRunner) {
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268 | (*AtomRunner)->removeAllBonds();
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269 | // BondList& ListOfBonds = (*AtomRunner)->getListOfBonds();
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270 | // for(BondList::iterator BondRunner = ListOfBonds.begin();
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271 | // !ListOfBonds.empty();
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272 | // BondRunner = ListOfBonds.begin()) {
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273 | // ASSERT((*BondRunner)->Contains(*AtomRunner),
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274 | // "BondGraph::cleanAdjacencyList() - "+
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275 | // toString(*BondRunner)+" does not contain "+
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276 | // toString(*AtomRunner)+".");
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277 | // delete((*BondRunner));
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278 | // }
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279 | }
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280 | }
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281 |
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282 | /** correct bond degree by comparing valence and bond degree.
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283 | * correct Bond degree of each bond by checking both bond partners for a mismatch between valence and current sum of bond degrees,
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284 | * iteratively increase the one first where the other bond partner has the fewest number of bonds (i.e. in general bonds oxygene
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285 | * preferred over carbon bonds). Beforehand, we had picked the first mismatching partner, which lead to oxygenes with single instead of
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286 | * double bonds as was expected.
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287 | * @param Set Range with atoms
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288 | * \return number of bonds that could not be corrected
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289 | */
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290 | template <class container_type,
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291 | class iterator_type,
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292 | class const_iterator_type>
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293 | int CorrectBondDegree(
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294 | AtomSetMixin<container_type,iterator_type,const_iterator_type> &Set) const
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295 | {
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296 | // reset
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297 | resetBondDegree(Set);
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298 | // re-calculate
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299 | return calculateBondDegree(Set);
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300 | }
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301 |
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302 | private:
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303 | static const double BondThreshold;
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304 |
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305 | /** Returns the BondLengthMatrix entry for a given index pair.
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306 | * \param firstelement index/atom number of first element (row index)
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307 | * \param secondelement index/atom number of second element (column index)
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308 | * \note matrix is of course symmetric.
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309 | */
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310 | double GetBondLength(
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311 | int firstelement,
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312 | int secondelement) const;
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313 |
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314 | /** Returns bond criterion for given pair based on a bond length matrix.
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315 | * This calls either the covalent or the bond matrix criterion.
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316 | * \param *Walker first BondedParticle
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317 | * \param *OtherWalker second BondedParticle
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318 | * \return Range with bond interval
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319 | */
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320 | range<double> getMinMaxDistance(
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321 | const element * const Walker,
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322 | const element * const OtherWalker) const;
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323 |
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324 | /** Returns bond criterion for given pair of elements based on a bond length matrix.
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325 | * The matrix should be contained in \a this BondGraph and contain an element-
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326 | * to-element length.
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327 | * \param *Walker first element
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328 | * \param *OtherWalker second element
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329 | * \return Range with bond interval
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330 | */
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331 | range<double> BondLengthMatrixMinMaxDistance(
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332 | const element * const Walker,
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333 | const element * const OtherWalker) const;
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334 |
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335 | /** Returns bond criterion for given pair of elements based on covalent radius.
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336 | * \param *Walker first element
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337 | * \param *OtherWalker second element
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338 | * \return Range with bond interval
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339 | */
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340 | range<double> CovalentMinMaxDistance(
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341 | const element * const Walker,
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342 | const element * const OtherWalker) const;
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343 |
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344 |
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345 | /** Resets the bond::BondDegree of all atoms in the set to 1.
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346 | *
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347 | * @param Set Range with atoms
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348 | */
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349 | template <class container_type,
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350 | class iterator_type,
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351 | class const_iterator_type>
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352 | void resetBondDegree(
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353 | AtomSetMixin<container_type,iterator_type,const_iterator_type> &Set) const
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354 | {
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355 | // reset bond degrees
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356 | for(iterator_type AtomRunner = Set.begin(); AtomRunner != Set.end(); ++AtomRunner) {
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357 | (*AtomRunner)->resetBondDegree();
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358 | }
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359 | }
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360 |
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361 | /** Calculates the bond degree for each atom on the set.
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362 | *
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363 | * @param Set Range with atoms
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364 | * @return number of non-matching bonds
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365 | */
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366 | template <class container_type,
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367 | class iterator_type,
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368 | class const_iterator_type>
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369 | int calculateBondDegree(
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370 | AtomSetMixin<container_type,iterator_type,const_iterator_type> &Set) const
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371 | {
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372 | //DoLog(1) && (Log() << Verbose(1) << "Correcting Bond degree of each bond ... " << endl);
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373 | int No = 0, OldNo = -1;
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374 | do {
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375 | OldNo = No;
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376 | No=0;
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377 | for(iterator_type AtomRunner = Set.begin(); AtomRunner != Set.end(); ++AtomRunner) {
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378 | No+=(*AtomRunner)->CorrectBondDegree();
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379 | }
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380 | } while (OldNo != No);
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381 | //DoLog(0) && (Log() << Verbose(0) << " done." << endl);
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382 | return No;
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383 | }
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384 |
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385 | //!> Matrix with bond lenth per two elements
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386 | MatrixContainer *BondLengthMatrix;
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387 | //!> distance units are angstroem (true), bohr radii (false)
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388 | bool IsAngstroem;
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389 | };
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390 |
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391 | #endif /* BONDGRAPH_HPP_ */
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