1 | #ifndef __FASTJET_NNFJN2PLAIN_HH__
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2 | #define __FASTJET_NNFJN2PLAIN_HH__
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3 |
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4 | //FJSTARTHEADER
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5 | // $Id: NNFJN2Plain.hh 4058 2016-03-03 15:39:40Z salam $
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6 | //
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7 | // Copyright (c) 2016, Matteo Cacciari, Gavin P. Salam and Gregory Soyez
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8 | //
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9 | //----------------------------------------------------------------------
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10 | // This file is part of FastJet.
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11 | //
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12 | // FastJet is free software; you can redistribute it and/or modify
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13 | // it under the terms of the GNU General Public License as published by
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14 | // the Free Software Foundation; either version 2 of the License, or
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15 | // (at your option) any later version.
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16 | //
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17 | // The algorithms that underlie FastJet have required considerable
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18 | // development. They are described in the original FastJet paper,
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19 | // hep-ph/0512210 and in the manual, arXiv:1111.6097. If you use
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20 | // FastJet as part of work towards a scientific publication, please
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21 | // quote the version you use and include a citation to the manual and
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22 | // optionally also to hep-ph/0512210.
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23 | //
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24 | // FastJet is distributed in the hope that it will be useful,
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25 | // but WITHOUT ANY WARRANTY; without even the implied warranty of
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26 | // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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27 | // GNU General Public License for more details.
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28 | //
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29 | // You should have received a copy of the GNU General Public License
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30 | // along with FastJet. If not, see <http://www.gnu.org/licenses/>.
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31 | //----------------------------------------------------------------------
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32 | //FJENDHEADER
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33 |
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34 | #include <fastjet/NNBase.hh>
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35 |
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36 | FASTJET_BEGIN_NAMESPACE // defined in fastjet/internal/base.hh
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37 |
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38 | //----------------------------------------------------------------------
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39 | /// @ingroup advanced_usage
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40 | /// \class NNFJN2Plain
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41 | ///
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42 | /// Helps solve closest pair problems with factorised interparticle
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43 | /// and beam distances (ie satisfying the FastJet lemma)
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44 | ///
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45 | /// (see NNBase.hh for an introductory description)
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46 | ///
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47 | /// This variant provides an implementation based on the N2Plain
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48 | /// clustering strategy in FastJet. The interparticle and beam
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49 | /// distances should be of the form
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50 | ///
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51 | /// \code
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52 | /// dij = min(mom_factor(i), mom_factor(j)) * geometrical_distance(i,j)
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53 | /// diB = mom_factor(i) * geometrical_beam_distance(i)
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54 | /// \endcode
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55 | ///
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56 | /// The class is templated with a BJ (brief jet) class and can be used
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57 | /// with or without an extra "Information" template,
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58 | /// i.e. NNFJN2Plain<BJ> or NNFJN2Plain<BJ,I>
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59 | ///
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60 | /// For the NNH_N2Plain<BJ> version of the class to function, BJ must
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61 | /// provide four member functions
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62 | ///
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63 | /// \code
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64 | /// void BJ::init(const PseudoJet & jet); // initialise with a PseudoJet
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65 | /// double BJ::geometrical_distance(const BJ * other_bj_jet); // distance between this and other_bj_jet (geometrical part)
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66 | /// double BJ::geometrical_beam_distance(); // distance to the beam (geometrical part)
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67 | /// double BJ::momentum_factor(); // extra momentum factor
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68 | /// \endcode
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69 | ///
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70 | /// For the NNH_N2Plain<BJ,I> version to function, the BJ::init(...)
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71 | /// member must accept an extra argument
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72 | ///
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73 | /// \code
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74 | /// void BJ::init(const PseudoJet & jet, I * info); // initialise with a PseudoJet + info
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75 | /// \endcode
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76 | ///
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77 | /// NOTE: THE DISTANCE MUST BE SYMMETRIC I.E. SATISFY
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78 | /// \code
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79 | /// a.geometrical_distance(b) == b.geometrical_distance(a)
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80 | /// \endcode
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81 | ///
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82 | /// Note that you are strongly advised to add the following lines to
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83 | /// your BJ class to allow it to be used also with NNH:
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84 | ///
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85 | /// \code
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86 | /// /// make this BJ class compatible with the use of NNH
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87 | /// double BJ::distance(const BJ * other_bj_jet){
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88 | /// double mom1 = momentum_factor();
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89 | /// double mom2 = other_bj_jet->momentum_factor();
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90 | /// return (mom1<mom2 ? mom1 : mom2) * geometrical_distance(other_bj_jet);
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91 | /// }
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92 | /// double BJ::beam_distance(){
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93 | /// return momentum_factor() * geometrical_beam_distance();
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94 | /// }
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95 | /// \endcode
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96 | ///
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97 | template<class BJ, class I = _NoInfo> class NNFJN2Plain : public NNBase<I> {
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98 | public:
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99 |
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100 | /// constructor with an initial set of jets (which will be assigned indices
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101 | /// `0...jets.size()-1`)
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102 | NNFJN2Plain(const std::vector<PseudoJet> & jets) : NNBase<I>() {start(jets);}
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103 | NNFJN2Plain(const std::vector<PseudoJet> & jets, I * info) : NNBase<I>(info) {start(jets);}
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104 |
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105 | /// initialisation from a given list of particles
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106 | virtual void start(const std::vector<PseudoJet> & jets);
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107 |
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108 | /// returns the dij_min and indices iA, iB, for the corresponding jets.
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109 | /// If iB < 0 then iA recombines with the beam
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110 | double dij_min(int & iA, int & iB);
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111 |
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112 | /// removes the jet pointed to by index iA
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113 | void remove_jet(int iA);
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114 |
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115 | /// merges the jets pointed to by indices A and B and replace them with
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116 | /// jet, assigning it an index jet_index.
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117 | void merge_jets(int iA, int iB, const PseudoJet & jet, int jet_index);
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118 |
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119 | /// a destructor
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120 | ~NNFJN2Plain() {
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121 | delete[] briefjets;
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122 | delete[] diJ;
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123 | }
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124 |
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125 | private:
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126 | class NNBJ; // forward declaration
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127 |
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128 | // return the full distance of a particle to its NN
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129 | inline double compute_diJ(const NNBJ * const jet) const {
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130 | double mom_fact = jet->momentum_factor();
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131 | if (jet->NN != NULL) {
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132 | double other_mom_fact = jet->NN->momentum_factor();
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133 | if (other_mom_fact < mom_fact) {mom_fact = other_mom_fact;}
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134 | }
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135 | return jet->NN_dist * mom_fact;
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136 | }
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137 |
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138 | /// establish the nearest neighbour for jet, and cross check consistency
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139 | /// of distances for the other jets that are encountered. Assumes
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140 | /// jet not contained within begin...end
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141 | void set_NN_crosscheck(NNBJ * jet, NNBJ * begin, NNBJ * end);
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142 |
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143 | /// establish the nearest neighbour for jet; don't cross check other jets'
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144 | /// distances and allow jet to be contained within begin...end
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145 | void set_NN_nocross (NNBJ * jet, NNBJ * begin, NNBJ * end);
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146 |
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147 | /// contains the briefjets
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148 | NNBJ * briefjets;
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149 |
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150 | /// semaphores for the current extent of our structure
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151 | NNBJ * head, * tail;
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152 |
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153 | /// currently active number of jets
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154 | int n;
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155 |
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156 | /// where_is[i] contains a pointer to the jet with index i
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157 | std::vector<NNBJ *> where_is;
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158 |
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159 | /// a table containing all the (full) distances to each object's NN
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160 | double * diJ;
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161 |
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162 | /// a class that wraps around the BJ, supplementing it with extra information
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163 | /// such as pointers to neighbours, etc.
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164 | class NNBJ : public BJ {
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165 | public:
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166 | void init(const PseudoJet & jet, int index_in) {
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167 | BJ::init(jet);
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168 | other_init(index_in);
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169 | }
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170 | void init(const PseudoJet & jet, int index_in, I * info) {
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171 | BJ::init(jet, info);
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172 | other_init(index_in);
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173 | }
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174 | void other_init(int index_in) {
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175 | _index = index_in;
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176 | NN_dist = BJ::geometrical_beam_distance();
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177 | NN = NULL;
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178 | }
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179 | int index() const {return _index;}
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180 |
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181 | double NN_dist;
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182 | NNBJ * NN;
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183 |
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184 | private:
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185 | int _index;
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186 | };
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187 |
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188 | };
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189 |
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190 |
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191 |
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192 | //----------------------------------------------------------------------
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193 | template<class BJ, class I> void NNFJN2Plain<BJ,I>::start(const std::vector<PseudoJet> & jets) {
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194 | n = jets.size();
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195 | briefjets = new NNBJ[n];
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196 | where_is.resize(2*n);
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197 |
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198 | NNBJ * jetA = briefjets;
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199 |
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200 | // initialise the basic jet info
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201 | for (int i = 0; i< n; i++) {
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202 | // the this-> in the next line is required by standard compiler
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203 | // see e.g. http://stackoverflow.com/questions/10639053/name-lookups-in-c-templates
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204 | this->init_jet(jetA, jets[i], i);
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205 | where_is[i] = jetA;
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206 | jetA++; // move on to next entry of briefjets
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207 | }
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208 | tail = jetA; // a semaphore for the end of briefjets
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209 | head = briefjets; // a nicer way of naming start
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210 |
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211 | // now initialise the NN distances: jetA will run from 1..n-1; and
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212 | // jetB from 0..jetA-1
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213 | for (jetA = head + 1; jetA != tail; jetA++) {
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214 | // set NN info for jetA based on jets running from head..jetA-1,
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215 | // checking in the process whether jetA itself is an undiscovered
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216 | // NN of one of those jets.
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217 | set_NN_crosscheck(jetA, head, jetA);
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218 | }
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219 |
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220 | // now create the diJ (where J is i's NN) table -- remember that
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221 | // we differ from standard normalisation here by a factor of R2
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222 | diJ = new double[n];
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223 | jetA = head;
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224 | for (int i = 0; i < n; i++) {
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225 | diJ[i] = compute_diJ(jetA);
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226 | jetA++; // have jetA follow i
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227 | }
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228 | }
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229 |
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230 |
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231 | //----------------------------------------------------------------------
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232 | template<class BJ, class I> double NNFJN2Plain<BJ,I>::dij_min(int & iA, int & iB) {
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233 | // find the minimum of the diJ on this round
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234 | double diJ_min = diJ[0];
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235 | int diJ_min_jet = 0;
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236 | for (int i = 1; i < n; i++) {
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237 | if (diJ[i] < diJ_min) {
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238 | diJ_min_jet = i;
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239 | diJ_min = diJ[i];
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240 | }
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241 | }
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242 |
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243 | // return information to user about recombination
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244 | NNBJ * jetA = & briefjets[diJ_min_jet];
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245 | //std::cout << jetA - briefjets << std::endl;
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246 | iA = jetA->index();
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247 | iB = jetA->NN ? jetA->NN->index() : -1;
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248 | return diJ_min;
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249 | }
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250 |
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251 |
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252 | //----------------------------------------------------------------------
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253 | // remove jetA from the list
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254 | template<class BJ, class I> void NNFJN2Plain<BJ,I>::remove_jet(int iA) {
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255 | NNBJ * jetA = where_is[iA];
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256 | // now update our nearest neighbour info and diJ table
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257 | // first reduce size of table
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258 | tail--; n--;
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259 | // Copy last jet contents and diJ info into position of jetA
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260 | *jetA = *tail;
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261 | // update the info on where the given index is stored
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262 | where_is[jetA->index()] = jetA;
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263 | diJ[jetA - head] = diJ[tail-head];
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264 |
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265 | // updating NN infos. 2 cases to watch for (see below)
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266 | for (NNBJ * jetI = head; jetI != tail; jetI++) {
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267 | // see if jetI had jetA as a NN -- if so recalculate the NN
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268 | if (jetI->NN == jetA) {
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269 | set_NN_nocross(jetI, head, tail);
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270 | diJ[jetI-head] = compute_diJ(jetI); // update diJ
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271 | }
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272 | // if jetI's NN is the new tail then relabel it so that it becomes jetA
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273 | if (jetI->NN == tail) {jetI->NN = jetA;}
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274 | }
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275 | }
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276 |
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277 |
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278 | //----------------------------------------------------------------------
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279 | template<class BJ, class I> void NNFJN2Plain<BJ,I>::merge_jets(int iA, int iB,
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280 | const PseudoJet & jet, int index) {
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281 |
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282 | NNBJ * jetA = where_is[iA];
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283 | NNBJ * jetB = where_is[iB];
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284 |
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285 | // If necessary relabel A & B to ensure jetB < jetA, that way if
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286 | // the larger of them == newtail then that ends up being jetA and
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287 | // the new jet that is added as jetB is inserted in a position that
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288 | // has a future!
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289 | if (jetA < jetB) std::swap(jetA,jetB);
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290 |
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291 | // initialise jetB based on the new jet
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292 | this->init_jet(jetB, jet, index);
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293 | // and record its position (making sure we have the space)
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294 | if (index >= int(where_is.size())) where_is.resize(2*index);
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295 | where_is[jetB->index()] = jetB;
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296 |
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297 | // now update our nearest neighbour info
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298 | // first reduce size of table
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299 | tail--; n--;
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300 | // Copy last jet contents into position of jetA
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301 | *jetA = *tail;
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302 | // update the info on where the tail's index is stored
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303 | where_is[jetA->index()] = jetA;
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304 | diJ[jetA - head] = diJ[tail-head];
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305 |
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306 | // initialise jetB NN's distance and update NN infos
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307 | for (NNBJ * jetI = head; jetI != tail; jetI++) {
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308 | // see if jetI had jetA or jetB as a NN -- if so recalculate the NN
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309 | if (jetI->NN == jetA || jetI->NN == jetB) {
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310 | set_NN_nocross(jetI, head, tail);
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311 | diJ[jetI-head] = compute_diJ(jetI); // update diJ
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312 | }
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313 |
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314 | // check whether new jetB is closer than jetI's current NN and
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315 | // if need be update things
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316 | double dist = jetI->geometrical_distance(jetB);
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317 | if (dist < jetI->NN_dist) { // we need to update I
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318 | if (jetI != jetB) {
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319 | jetI->NN_dist = dist;
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320 | jetI->NN = jetB;
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321 | diJ[jetI-head] = compute_diJ(jetI); // update diJ...
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322 | }
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323 | }
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324 | if (dist < jetB->NN_dist) { // we need to update B
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325 | if (jetI != jetB) {
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326 | jetB->NN_dist = dist;
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327 | jetB->NN = jetI;
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328 | }
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329 | }
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330 |
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331 | // if jetI's NN is the new tail then relabel it so that it becomes jetA
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332 | if (jetI->NN == tail) {jetI->NN = jetA;}
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333 | }
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334 |
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335 | // update info for jetB
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336 | diJ[jetB-head] = compute_diJ(jetB);
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337 | }
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338 |
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339 |
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340 | //----------------------------------------------------------------------
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341 | // this function assumes that jet is not contained within begin...end
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342 | template <class BJ, class I> void NNFJN2Plain<BJ,I>::set_NN_crosscheck(NNBJ * jet,
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343 | NNBJ * begin, NNBJ * end) {
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344 | double NN_dist = jet->geometrical_beam_distance();
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345 | NNBJ * NN = NULL;
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346 | for (NNBJ * jetB = begin; jetB != end; jetB++) {
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347 | double dist = jet->geometrical_distance(jetB);
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348 | if (dist < NN_dist) {
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349 | NN_dist = dist;
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350 | NN = jetB;
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351 | }
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352 | if (dist < jetB->NN_dist) {
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353 | jetB->NN_dist = dist;
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354 | jetB->NN = jet;
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355 | }
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356 | }
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357 | jet->NN = NN;
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358 | jet->NN_dist = NN_dist;
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359 | }
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360 |
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361 |
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362 | //----------------------------------------------------------------------
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363 | // set the NN for jet without checking whether in the process you might
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364 | // have discovered a new nearest neighbour for another jet
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365 | template <class BJ, class I> void NNFJN2Plain<BJ,I>::set_NN_nocross(
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366 | NNBJ * jet, NNBJ * begin, NNBJ * end) {
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367 | double NN_dist = jet->geometrical_beam_distance();
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368 | NNBJ * NN = NULL;
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369 | // if (head < jet) {
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370 | // for (NNBJ * jetB = head; jetB != jet; jetB++) {
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371 | if (begin < jet) {
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372 | for (NNBJ * jetB = begin; jetB != jet; jetB++) {
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373 | double dist = jet->geometrical_distance(jetB);
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374 | if (dist < NN_dist) {
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375 | NN_dist = dist;
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376 | NN = jetB;
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377 | }
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378 | }
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379 | }
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380 | // if (tail > jet) {
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381 | // for (NNBJ * jetB = jet+1; jetB != tail; jetB++) {
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382 | if (end > jet) {
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383 | for (NNBJ * jetB = jet+1; jetB != end; jetB++) {
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384 | double dist = jet->geometrical_distance(jetB);
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385 | if (dist < NN_dist) {
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386 | NN_dist = dist;
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387 | NN = jetB;
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388 | }
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389 | }
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390 | }
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391 | jet->NN = NN;
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392 | jet->NN_dist = NN_dist;
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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 |
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398 | FASTJET_END_NAMESPACE // defined in fastjet/internal/base.hh
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399 |
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400 |
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401 | #endif // __FASTJET_NNFJN2PLAIN_HH__
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