1 | #ifndef __FASTJET_CLUSTERSEQUENCE_HH__
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2 | #define __FASTJET_CLUSTERSEQUENCE_HH__
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3 |
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4 | //FJSTARTHEADER
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5 | // $Id: ClusterSequence.hh 3911 2015-07-02 12:09:58Z salam $
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6 | //
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7 | // Copyright (c) 2005-2014, 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 |
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35 | #include<vector>
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36 | #include<map>
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37 | #include "fastjet/PseudoJet.hh"
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38 | #include<memory>
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39 | #include<cassert>
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40 | #include<iostream>
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41 | #include<string>
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42 | #include<set>
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43 | #include<cmath> // needed to get double std::abs(double)
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44 | #include "fastjet/Error.hh"
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45 | #include "fastjet/JetDefinition.hh"
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46 | #include "fastjet/SharedPtr.hh"
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47 | #include "fastjet/LimitedWarning.hh"
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48 | #include "fastjet/FunctionOfPseudoJet.hh"
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49 | #include "fastjet/ClusterSequenceStructure.hh"
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50 |
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51 | FASTJET_BEGIN_NAMESPACE // defined in fastjet/internal/base.hh
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52 |
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53 |
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54 | // forward declarations
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55 | class ClusterSequenceStructure;
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56 | class DynamicNearestNeighbours;
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57 |
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58 | /// @ingroup basic_classes
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59 | /// \class ClusterSequence
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60 | /// deals with clustering
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61 | class ClusterSequence {
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62 |
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63 |
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64 | public:
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65 |
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66 | /// default constructor
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67 | ClusterSequence () : _deletes_self_when_unused(false) {}
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68 |
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69 | /// create a ClusterSequence, starting from the supplied set
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70 | /// of PseudoJets and clustering them with jet definition specified
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71 | /// by jet_def (which also specifies the clustering strategy)
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72 | template<class L> ClusterSequence (
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73 | const std::vector<L> & pseudojets,
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74 | const JetDefinition & jet_def,
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75 | const bool & writeout_combinations = false);
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76 |
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77 | /// copy constructor for a ClusterSequence
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78 | ClusterSequence (const ClusterSequence & cs) : _deletes_self_when_unused(false) {
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79 | transfer_from_sequence(cs);
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80 | }
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81 |
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82 | // virtual ClusterSequence destructor, in case any derived class
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83 | // thinks of needing a destructor at some point
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84 | virtual ~ClusterSequence (); //{}
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85 |
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86 | // NB: in the routines that follow, for extracting lists of jets, a
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87 | // list structure might be more efficient, if sometimes a little
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88 | // more awkward to use (at least for old fortran hands).
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89 |
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90 | /// return a vector of all jets (in the sense of the inclusive
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91 | /// algorithm) with pt >= ptmin. Time taken should be of the order
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92 | /// of the number of jets returned.
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93 | std::vector<PseudoJet> inclusive_jets (const double ptmin = 0.0) const;
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94 |
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95 | /// return the number of jets (in the sense of the exclusive
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96 | /// algorithm) that would be obtained when running the algorithm
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97 | /// with the given dcut.
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98 | int n_exclusive_jets (const double dcut) const;
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99 |
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100 | /// return a vector of all jets (in the sense of the exclusive
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101 | /// algorithm) that would be obtained when running the algorithm
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102 | /// with the given dcut.
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103 | std::vector<PseudoJet> exclusive_jets (const double dcut) const;
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104 |
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105 | /// return a vector of all jets when the event is clustered (in the
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106 | /// exclusive sense) to exactly njets.
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107 | ///
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108 | /// If there are fewer than njets particles in the ClusterSequence
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109 | /// an error is thrown
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110 | std::vector<PseudoJet> exclusive_jets (const int njets) const;
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111 |
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112 | /// return a vector of all jets when the event is clustered (in the
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113 | /// exclusive sense) to exactly njets.
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114 | ///
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115 | /// If there are fewer than njets particles in the ClusterSequence
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116 | /// the function just returns however many particles there were.
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117 | std::vector<PseudoJet> exclusive_jets_up_to (const int njets) const;
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118 |
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119 | /// return the dmin corresponding to the recombination that went
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120 | /// from n+1 to n jets (sometimes known as d_{n n+1}). If the number
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121 | /// of particles in the event is <= njets, the function returns 0.
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122 | double exclusive_dmerge (const int njets) const;
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123 |
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124 | /// return the maximum of the dmin encountered during all recombinations
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125 | /// up to the one that led to an n-jet final state; identical to
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126 | /// exclusive_dmerge, except in cases where the dmin do not increase
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127 | /// monotonically.
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128 | double exclusive_dmerge_max (const int njets) const;
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129 |
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130 | /// return the ymin corresponding to the recombination that went from
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131 | /// n+1 to n jets (sometimes known as y_{n n+1}).
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132 | double exclusive_ymerge (int njets) const {return exclusive_dmerge(njets) / Q2();}
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133 |
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134 | /// same as exclusive_dmerge_max, but normalised to squared total energy
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135 | double exclusive_ymerge_max (int njets) const {return exclusive_dmerge_max(njets)/Q2();}
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136 |
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137 | /// the number of exclusive jets at the given ycut
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138 | int n_exclusive_jets_ycut (double ycut) const {return n_exclusive_jets(ycut*Q2());}
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139 |
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140 | /// the exclusive jets obtained at the given ycut
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141 | std::vector<PseudoJet> exclusive_jets_ycut (double ycut) const {
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142 | int njets = n_exclusive_jets_ycut(ycut);
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143 | return exclusive_jets(njets);
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144 | }
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145 |
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146 |
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147 | //int n_exclusive_jets (const PseudoJet & jet, const double dcut) const;
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148 |
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149 | /// return a vector of all subjets of the current jet (in the sense
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150 | /// of the exclusive algorithm) that would be obtained when running
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151 | /// the algorithm with the given dcut.
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152 | ///
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153 | /// Time taken is O(m ln m), where m is the number of subjets that
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154 | /// are found. If m gets to be of order of the total number of
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155 | /// constituents in the jet, this could be substantially slower than
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156 | /// just getting that list of constituents.
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157 | std::vector<PseudoJet> exclusive_subjets (const PseudoJet & jet,
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158 | const double dcut) const;
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159 |
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160 | /// return the size of exclusive_subjets(...); still n ln n with same
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161 | /// coefficient, but marginally more efficient than manually taking
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162 | /// exclusive_subjets.size()
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163 | int n_exclusive_subjets(const PseudoJet & jet,
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164 | const double dcut) const;
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165 |
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166 | /// return the list of subjets obtained by unclustering the supplied
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167 | /// jet down to nsub subjets. Throws an error if there are fewer than
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168 | /// nsub particles in the jet.
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169 | ///
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170 | /// This requires nsub ln nsub time
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171 | std::vector<PseudoJet> exclusive_subjets (const PseudoJet & jet,
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172 | int nsub) const;
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173 |
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174 | /// return the list of subjets obtained by unclustering the supplied
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175 | /// jet down to nsub subjets (or all constituents if there are fewer
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176 | /// than nsub).
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177 | ///
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178 | /// This requires nsub ln nsub time
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179 | std::vector<PseudoJet> exclusive_subjets_up_to (const PseudoJet & jet,
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180 | int nsub) const;
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181 |
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182 | /// returns the dij that was present in the merging nsub+1 -> nsub
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183 | /// subjets inside this jet.
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184 | ///
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185 | /// Returns 0 if there were nsub or fewer constituents in the jet.
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186 | double exclusive_subdmerge(const PseudoJet & jet, int nsub) const;
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187 |
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188 | /// returns the maximum dij that occurred in the whole event at the
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189 | /// stage that the nsub+1 -> nsub merge of subjets occurred inside
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190 | /// this jet.
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191 | ///
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192 | /// Returns 0 if there were nsub or fewer constituents in the jet.
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193 | double exclusive_subdmerge_max(const PseudoJet & jet, int nsub) const;
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194 |
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195 | //std::vector<PseudoJet> exclusive_jets (const PseudoJet & jet,
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196 | // const int njets) const;
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197 | //double exclusive_dmerge (const PseudoJet & jet, const int njets) const;
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198 |
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199 | /// returns the sum of all energies in the event (relevant mainly for e+e-)
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200 | double Q() const {return _Qtot;}
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201 | /// return Q()^2
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202 | double Q2() const {return _Qtot*_Qtot;}
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203 |
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204 | /// returns true iff the object is included in the jet.
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205 | ///
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206 | /// NB: this is only sensible if the object is already registered
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207 | /// within the cluster sequence, so you cannot use it with an input
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208 | /// particle to the CS (since the particle won't have the history
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209 | /// index set properly).
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210 | ///
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211 | /// For nice clustering structures it should run in O(ln(N)) time
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212 | /// but in worst cases (certain cone plugins) it can take O(n) time,
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213 | /// where n is the number of particles in the jet.
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214 | bool object_in_jet(const PseudoJet & object, const PseudoJet & jet) const;
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215 |
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216 | /// if the jet has parents in the clustering, it returns true
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217 | /// and sets parent1 and parent2 equal to them.
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218 | ///
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219 | /// if it has no parents it returns false and sets parent1 and
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220 | /// parent2 to zero
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221 | bool has_parents(const PseudoJet & jet, PseudoJet & parent1,
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222 | PseudoJet & parent2) const;
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223 |
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224 | /// if the jet has a child then return true and give the child jet
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225 | /// otherwise return false and set the child to zero
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226 | bool has_child(const PseudoJet & jet, PseudoJet & child) const;
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227 |
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228 | /// Version of has_child that sets a pointer to the child if the child
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229 | /// exists;
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230 | bool has_child(const PseudoJet & jet, const PseudoJet * & childp) const;
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231 |
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232 | /// if this jet has a child (and so a partner) return true
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233 | /// and give the partner, otherwise return false and set the
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234 | /// partner to zero
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235 | bool has_partner(const PseudoJet & jet, PseudoJet & partner) const;
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236 |
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237 |
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238 | /// return a vector of the particles that make up jet
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239 | std::vector<PseudoJet> constituents (const PseudoJet & jet) const;
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240 |
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241 |
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242 | /// output the supplied vector of jets in a format that can be read
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243 | /// by an appropriate root script; the format is:
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244 | /// jet-n jet-px jet-py jet-pz jet-E
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245 | /// particle-n particle-rap particle-phi particle-pt
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246 | /// particle-n particle-rap particle-phi particle-pt
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247 | /// ...
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248 | /// #END
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249 | /// ... [i.e. above repeated]
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250 | void print_jets_for_root(const std::vector<PseudoJet> & jets,
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251 | std::ostream & ostr = std::cout) const;
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252 |
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253 | /// print jets for root to the file labelled filename, with an
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254 | /// optional comment at the beginning
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255 | void print_jets_for_root(const std::vector<PseudoJet> & jets,
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256 | const std::string & filename,
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257 | const std::string & comment = "") const;
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258 |
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259 | // Not yet. Perhaps in a future release.
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260 | // /// print out all inclusive jets with pt > ptmin
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261 | // virtual void print_jets (const double ptmin=0.0) const;
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262 |
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263 | /// add on to subjet_vector the constituents of jet (for internal use mainly)
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264 | void add_constituents (const PseudoJet & jet,
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265 | std::vector<PseudoJet> & subjet_vector) const;
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266 |
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267 | /// return the enum value of the strategy used to cluster the event
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268 | inline Strategy strategy_used () const {return _strategy;}
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269 |
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270 | /// return the name of the strategy used to cluster the event
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271 | std::string strategy_string () const {return strategy_string(_strategy);}
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272 |
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273 | /// return the name of the strategy associated with the enum strategy_in
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274 | std::string strategy_string (Strategy strategy_in) const;
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275 |
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276 |
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277 | /// return a reference to the jet definition
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278 | const JetDefinition & jet_def() const {return _jet_def;}
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279 |
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280 | /// by calling this routine you tell the ClusterSequence to delete
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281 | /// itself when all the Pseudojets associated with it have gone out
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282 | /// of scope.
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283 | ///
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284 | /// At the time you call this, there must be at least one jet or
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285 | /// other object outside the CS that is associated with the CS
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286 | /// (e.g. the result of inclusive_jets()).
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287 | ///
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288 | /// NB: after having made this call, the user is still allowed to
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289 | /// delete the CS. Jets associated with it will then simply not be
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290 | /// able to access their substructure after that point.
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291 | void delete_self_when_unused();
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292 |
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293 | /// return true if the object has been told to delete itself
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294 | /// when unused
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295 | bool will_delete_self_when_unused() const {return _deletes_self_when_unused;}
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296 |
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297 | /// tell the ClusterSequence it's about to be self deleted (internal use only)
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298 | void signal_imminent_self_deletion() const;
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299 |
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300 | /// returns the scale associated with a jet as required for this
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301 | /// clustering algorithm (kt^2 for the kt-algorithm, 1 for the
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302 | /// Cambridge algorithm). Intended mainly for internal use and not
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303 | /// valid for plugin algorithms.
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304 | double jet_scale_for_algorithm(const PseudoJet & jet) const;
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305 |
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306 | ///
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307 |
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308 | //----- next follow functions designed specifically for plugins, which
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309 | // may only be called when plugin_activated() returns true
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310 |
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311 | /// record the fact that there has been a recombination between
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312 | /// jets()[jet_i] and jets()[jet_k], with the specified dij, and
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313 | /// return the index (newjet_k) allocated to the new jet, whose
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314 | /// momentum is assumed to be the 4-vector sum of that of jet_i and
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315 | /// jet_j
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316 | void plugin_record_ij_recombination(int jet_i, int jet_j, double dij,
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317 | int & newjet_k) {
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318 | assert(plugin_activated());
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319 | _do_ij_recombination_step(jet_i, jet_j, dij, newjet_k);
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320 | }
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321 |
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322 | /// as for the simpler variant of plugin_record_ij_recombination,
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323 | /// except that the new jet is attributed the momentum and
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324 | /// user_index of newjet
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325 | void plugin_record_ij_recombination(int jet_i, int jet_j, double dij,
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326 | const PseudoJet & newjet,
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327 | int & newjet_k);
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328 |
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329 | /// record the fact that there has been a recombination between
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330 | /// jets()[jet_i] and the beam, with the specified diB; when looking
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331 | /// for inclusive jets, any iB recombination will returned to the user
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332 | /// as a jet.
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333 | void plugin_record_iB_recombination(int jet_i, double diB) {
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334 | assert(plugin_activated());
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335 | _do_iB_recombination_step(jet_i, diB);
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336 | }
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337 |
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338 | /// @ingroup extra_info
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339 | /// \class Extras
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340 | /// base class to store extra information that plugins may provide
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341 | ///
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342 | /// a class intended to serve as a base in case a plugin needs to
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343 | /// associate extra information with a ClusterSequence (see
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344 | /// SISConePlugin.* for an example).
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345 | class Extras {
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346 | public:
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347 | virtual ~Extras() {}
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348 | virtual std::string description() const {return "This is a dummy extras class that contains no extra information! Derive from it if you want to use it to provide extra information from a plugin jet finder";}
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349 | };
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350 |
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351 | /// the plugin can associate some extra information with the
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352 | /// ClusterSequence object by calling this function. The
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353 | /// ClusterSequence takes ownership of the pointer (and
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354 | /// responsibility for deleting it when the CS gets deleted).
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355 | inline void plugin_associate_extras(Extras * extras_in) {
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356 | _extras.reset(extras_in);
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357 | }
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358 |
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359 | /// the plugin can associate some extra information with the
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360 | /// ClusterSequence object by calling this function
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361 | ///
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362 | /// As of FJ v3.1, this is deprecated, in line with the deprecation
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363 | /// of auto_ptr in C++11
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364 | inline void plugin_associate_extras(std::auto_ptr<Extras> extras_in) {
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365 | _extras.reset(extras_in.release());
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366 | }
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367 |
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368 | /// returns true when the plugin is allowed to run the show.
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369 | inline bool plugin_activated() const {return _plugin_activated;}
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370 |
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371 | /// returns a pointer to the extras object (may be null)
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372 | const Extras * extras() const {return _extras.get();}
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373 |
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374 | /// allows a plugin to run a templated clustering (nearest-neighbour heuristic)
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375 | ///
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376 | /// This has N^2 behaviour on "good" distance, but a worst case behaviour
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377 | /// of N^3 (and many algs trigger the worst case behaviour)
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378 | ///
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379 | ///
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380 | /// For more details on how this works, see GenBriefJet below
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381 | template<class GBJ> void plugin_simple_N2_cluster () {
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382 | assert(plugin_activated());
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383 | _simple_N2_cluster<GBJ>();
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384 | }
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385 |
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386 |
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387 | public:
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388 | //DEP /// set the default (static) jet finder across all current and future
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389 | //DEP /// ClusterSequence objects -- deprecated and obsolescent (i.e. may be
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390 | //DEP /// suppressed in a future release).
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391 | //DEP static void set_jet_algorithm (JetAlgorithm jet_algorithm) {_default_jet_algorithm = jet_algorithm;}
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392 | //DEP /// same as above for backward compatibility
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393 | //DEP static void set_jet_finder (JetAlgorithm jet_algorithm) {_default_jet_algorithm = jet_algorithm;}
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394 |
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395 |
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396 | /// \ingroup extra_info
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397 | /// \struct history_element
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398 | /// a single element in the clustering history
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399 | ///
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400 | /// (see vector _history below).
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401 | struct history_element{
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402 | int parent1; /// index in _history where first parent of this jet
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403 | /// was created (InexistentParent if this jet is an
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404 | /// original particle)
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405 |
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406 | int parent2; /// index in _history where second parent of this jet
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407 | /// was created (InexistentParent if this jet is an
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408 | /// original particle); BeamJet if this history entry
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409 | /// just labels the fact that the jet has recombined
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410 | /// with the beam)
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411 |
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412 | int child; /// index in _history where the current jet is
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413 | /// recombined with another jet to form its child. It
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414 | /// is Invalid if this jet does not further
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415 | /// recombine.
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416 |
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417 | int jetp_index; /// index in the _jets vector where we will find the
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418 | /// PseudoJet object corresponding to this jet
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419 | /// (i.e. the jet created at this entry of the
|
---|
420 | /// history). NB: if this element of the history
|
---|
421 | /// corresponds to a beam recombination, then
|
---|
422 | /// jetp_index=Invalid.
|
---|
423 |
|
---|
424 | double dij; /// the distance corresponding to the recombination
|
---|
425 | /// at this stage of the clustering.
|
---|
426 |
|
---|
427 | double max_dij_so_far; /// the largest recombination distance seen
|
---|
428 | /// so far in the clustering history.
|
---|
429 | };
|
---|
430 |
|
---|
431 | enum JetType {Invalid=-3, InexistentParent = -2, BeamJet = -1};
|
---|
432 |
|
---|
433 | /// allow the user to access the internally stored _jets() array,
|
---|
434 | /// which contains both the initial particles and the various
|
---|
435 | /// intermediate and final stages of recombination.
|
---|
436 | ///
|
---|
437 | /// The first n_particles() entries are the original particles,
|
---|
438 | /// in the order in which they were supplied to the ClusterSequence
|
---|
439 | /// constructor. It can be useful to access them for example when
|
---|
440 | /// examining whether a given input object is part of a specific
|
---|
441 | /// jet, via the objects_in_jet(...) member function (which only takes
|
---|
442 | /// PseudoJets that are registered in the ClusterSequence).
|
---|
443 | ///
|
---|
444 | /// One of the other (internal uses) is related to the fact
|
---|
445 | /// because we don't seem to be able to access protected elements of
|
---|
446 | /// the class for an object that is not "this" (at least in case where
|
---|
447 | /// "this" is of a slightly different kind from the object, both
|
---|
448 | /// derived from ClusterSequence).
|
---|
449 | const std::vector<PseudoJet> & jets() const;
|
---|
450 |
|
---|
451 | /// allow the user to access the raw internal history.
|
---|
452 | ///
|
---|
453 | /// This is present (as for jets()) in part so that protected
|
---|
454 | /// derived classes can access this information about other
|
---|
455 | /// ClusterSequences.
|
---|
456 | ///
|
---|
457 | /// A user who wishes to follow the details of the ClusterSequence
|
---|
458 | /// can also make use of this information (and should consult the
|
---|
459 | /// history_element documentation for more information), but should
|
---|
460 | /// be aware that these internal structures may evolve in future
|
---|
461 | /// FastJet versions.
|
---|
462 | const std::vector<history_element> & history() const;
|
---|
463 |
|
---|
464 | /// returns the number of particles that were provided to the
|
---|
465 | /// clustering algorithm (helps the user find their way around the
|
---|
466 | /// history and jets objects if they weren't paying attention
|
---|
467 | /// beforehand).
|
---|
468 | unsigned int n_particles() const;
|
---|
469 |
|
---|
470 | /// returns a vector of size n_particles() which indicates, for
|
---|
471 | /// each of the initial particles (in the order in which they were
|
---|
472 | /// supplied), which of the supplied jets it belongs to; if it does
|
---|
473 | /// not belong to any of the supplied jets, the index is set to -1;
|
---|
474 | std::vector<int> particle_jet_indices(const std::vector<PseudoJet> &) const;
|
---|
475 |
|
---|
476 | /// routine that returns an order in which to read the history
|
---|
477 | /// such that clusterings that lead to identical jet compositions
|
---|
478 | /// but different histories (because of degeneracies in the
|
---|
479 | /// clustering order) will have matching constituents for each
|
---|
480 | /// matching entry in the unique_history_order.
|
---|
481 | ///
|
---|
482 | /// The order has the property that an entry's parents will always
|
---|
483 | /// appear prior to that entry itself.
|
---|
484 | ///
|
---|
485 | /// Roughly speaking the order is such that we first provide all
|
---|
486 | /// steps that lead to the final jet containing particle 1; then we
|
---|
487 | /// have the steps that lead to reconstruction of the jet containing
|
---|
488 | /// the next-lowest-numbered unclustered particle, etc...
|
---|
489 | /// [see GPS CCN28-12 for more info -- of course a full explanation
|
---|
490 | /// here would be better...]
|
---|
491 | std::vector<int> unique_history_order() const;
|
---|
492 |
|
---|
493 | /// return the set of particles that have not been clustered. For
|
---|
494 | /// kt and cam/aachen algorithms this should always be null, but for
|
---|
495 | /// cone type algorithms it can be non-null;
|
---|
496 | std::vector<PseudoJet> unclustered_particles() const;
|
---|
497 |
|
---|
498 | /// Return the list of pseudojets in the ClusterSequence that do not
|
---|
499 | /// have children (and are not among the inclusive jets). They may
|
---|
500 | /// result from a clustering step or may be one of the pseudojets
|
---|
501 | /// returned by unclustered_particles().
|
---|
502 | std::vector<PseudoJet> childless_pseudojets() const;
|
---|
503 |
|
---|
504 | /// returns true if the object (jet or particle) is contained by (ie
|
---|
505 | /// belongs to) this cluster sequence.
|
---|
506 | ///
|
---|
507 | /// Tests performed: if thejet's interface is this cluster sequence
|
---|
508 | /// and its cluster history index is in a consistent range.
|
---|
509 | bool contains(const PseudoJet & object) const;
|
---|
510 |
|
---|
511 | /// transfer the sequence contained in other_seq into our own;
|
---|
512 | /// any plugin "extras" contained in the from_seq will be lost
|
---|
513 | /// from there.
|
---|
514 | ///
|
---|
515 | /// It also sets the ClusterSequence pointers of the PseudoJets in
|
---|
516 | /// the history to point to this ClusterSequence
|
---|
517 | ///
|
---|
518 | /// When specified, the second argument is an action that will be
|
---|
519 | /// applied on every jets in the resulting ClusterSequence
|
---|
520 | void transfer_from_sequence(const ClusterSequence & from_seq,
|
---|
521 | const FunctionOfPseudoJet<PseudoJet> * action_on_jets = 0);
|
---|
522 |
|
---|
523 | /// retrieve a shared pointer to the wrapper to this ClusterSequence
|
---|
524 | ///
|
---|
525 | /// this may turn useful if you want to track when this
|
---|
526 | /// ClusterSequence goes out of scope
|
---|
527 | const SharedPtr<PseudoJetStructureBase> & structure_shared_ptr() const{
|
---|
528 | return _structure_shared_ptr;
|
---|
529 | }
|
---|
530 |
|
---|
531 | /// the structure type associated with a jet belonging to a ClusterSequence
|
---|
532 | typedef ClusterSequenceStructure StructureType;
|
---|
533 |
|
---|
534 | /// This is the function that is automatically called during
|
---|
535 | /// clustering to print the FastJet banner. Only the first call to
|
---|
536 | /// this function will result in the printout of the banner. Users
|
---|
537 | /// may wish to call this function themselves, during the
|
---|
538 | /// initialization phase of their program, in order to ensure that
|
---|
539 | /// the banner appears before other output. This call will not
|
---|
540 | /// affect 3rd-party banners, e.g. those from plugins.
|
---|
541 | static void print_banner();
|
---|
542 |
|
---|
543 | /// \cond internal_doc
|
---|
544 | // [this line must be left as is to hide the doxygen comment]
|
---|
545 | /// A call to this function modifies the stream used to print
|
---|
546 | /// banners (by default cout). If a null pointer is passed, banner
|
---|
547 | /// printout is suppressed. This affects all banners, including
|
---|
548 | /// those from plugins.
|
---|
549 | ///
|
---|
550 | /// Please note that if you distribute 3rd party code
|
---|
551 | /// that links with FastJet, that 3rd party code must not
|
---|
552 | /// use this call turn off the printing of FastJet banners
|
---|
553 | /// by default. This requirement reflects the spirit of
|
---|
554 | /// clause 2c of the GNU Public License (v2), under which
|
---|
555 | /// FastJet and its plugins are distributed.
|
---|
556 | static void set_fastjet_banner_stream(std::ostream * ostr) {_fastjet_banner_ostr = ostr;}
|
---|
557 | // [this line must be left as is to hide the doxygen comment]
|
---|
558 | /// \endcond
|
---|
559 |
|
---|
560 | /// returns a pointer to the stream to be used to print banners
|
---|
561 | /// (cout by default). This function is used by plugins to determine
|
---|
562 | /// where to direct their banners. Plugins should properly handle
|
---|
563 | /// the case where the pointer is null.
|
---|
564 | static std::ostream * fastjet_banner_stream() {return _fastjet_banner_ostr;}
|
---|
565 |
|
---|
566 | private:
|
---|
567 | /// \cond internal_doc
|
---|
568 |
|
---|
569 | /// contains the actual stream to use for banners
|
---|
570 | static std::ostream * _fastjet_banner_ostr;
|
---|
571 |
|
---|
572 | /// \endcond
|
---|
573 |
|
---|
574 | protected:
|
---|
575 | //DEP static JetAlgorithm _default_jet_algorithm;
|
---|
576 | JetDefinition _jet_def;
|
---|
577 |
|
---|
578 | /// transfer the vector<L> of input jets into our own vector<PseudoJet>
|
---|
579 | /// _jets (with some reserved space for future growth).
|
---|
580 | template<class L> void _transfer_input_jets(
|
---|
581 | const std::vector<L> & pseudojets);
|
---|
582 |
|
---|
583 | /// This is what is called to do all the initialisation and
|
---|
584 | /// then run the clustering (may be called by various constructors).
|
---|
585 | /// It assumes _jets contains the momenta to be clustered.
|
---|
586 | void _initialise_and_run (const JetDefinition & jet_def,
|
---|
587 | const bool & writeout_combinations);
|
---|
588 |
|
---|
589 | //// this performs the initialisation, minus the option-decanting
|
---|
590 | //// stage; for low multiplicity, initialising a few things in the
|
---|
591 | //// constructor, calling the decant_options_partial() and then this
|
---|
592 | //// is faster than going through _initialise_and_run.
|
---|
593 | void _initialise_and_run_no_decant();
|
---|
594 |
|
---|
595 | //DEP /// This is an alternative routine for initialising and running the
|
---|
596 | //DEP /// clustering, provided for legacy purposes. The jet finder is that
|
---|
597 | //DEP /// specified in the static member _default_jet_algorithm.
|
---|
598 | //DEP void _initialise_and_run (const double R,
|
---|
599 | //DEP const Strategy & strategy,
|
---|
600 | //DEP const bool & writeout_combinations);
|
---|
601 |
|
---|
602 | /// fills in the various member variables with "decanted" options from
|
---|
603 | /// the jet_definition and writeout_combinations variables
|
---|
604 | void _decant_options(const JetDefinition & jet_def,
|
---|
605 | const bool & writeout_combinations);
|
---|
606 |
|
---|
607 | /// assuming that the jet definition, writeout_combinations and
|
---|
608 | /// _structure_shared_ptr have been set (e.g. in an initialiser list
|
---|
609 | /// in the constructor), it handles the remaining decanting of
|
---|
610 | /// options.
|
---|
611 | void _decant_options_partial();
|
---|
612 |
|
---|
613 | /// fill out the history (and jet cross refs) related to the initial
|
---|
614 | /// set of jets (assumed already to have been "transferred"),
|
---|
615 | /// without any clustering
|
---|
616 | void _fill_initial_history();
|
---|
617 |
|
---|
618 | /// carry out the recombination between the jets numbered jet_i and
|
---|
619 | /// jet_j, at distance scale dij; return the index newjet_k of the
|
---|
620 | /// result of the recombination of i and j.
|
---|
621 | void _do_ij_recombination_step(const int jet_i, const int jet_j,
|
---|
622 | const double dij, int & newjet_k);
|
---|
623 |
|
---|
624 | /// carry out an recombination step in which _jets[jet_i] merges with
|
---|
625 | /// the beam,
|
---|
626 | void _do_iB_recombination_step(const int jet_i, const double diB);
|
---|
627 |
|
---|
628 | /// every time a jet is added internally during clustering, this
|
---|
629 | /// should be called to set the jet's structure shared ptr to point
|
---|
630 | /// to the CS (and the count of internally associated objects is
|
---|
631 | /// also updated). This should not be called outside construction of
|
---|
632 | /// a CS object.
|
---|
633 | void _set_structure_shared_ptr(PseudoJet & j);
|
---|
634 |
|
---|
635 | /// make sure that the CS's internal tally of the use count matches
|
---|
636 | /// that of the _structure_shared_ptr
|
---|
637 | void _update_structure_use_count();
|
---|
638 |
|
---|
639 | /// returns a suggestion for the best strategy to use on event
|
---|
640 | /// multiplicity, algorithm, R, etc.
|
---|
641 | Strategy _best_strategy() const;
|
---|
642 |
|
---|
643 | /// \if internal_doc
|
---|
644 | /// \class _Parabola
|
---|
645 | /// returns c*(a*R**2 + b*R + 1);
|
---|
646 | /// Written as a class in case we want to give names to different
|
---|
647 | /// parabolas
|
---|
648 | /// \endif
|
---|
649 | class _Parabola {
|
---|
650 | public:
|
---|
651 | _Parabola(double a, double b, double c) : _a(a), _b(b), _c(c) {}
|
---|
652 | inline double operator()(const double R) const {return _c*(_a*R*R + _b*R + 1);}
|
---|
653 | private:
|
---|
654 | double _a, _b, _c;
|
---|
655 | };
|
---|
656 |
|
---|
657 | /// \if internal_doc
|
---|
658 | /// \class _Line
|
---|
659 | /// operator()(R) returns a*R+b;
|
---|
660 | /// \endif
|
---|
661 | class _Line {
|
---|
662 | public:
|
---|
663 | _Line(double a, double b) : _a(a), _b(b) {}
|
---|
664 | inline double operator()(const double R) const {return _a*R + _b;}
|
---|
665 | private:
|
---|
666 | double _a, _b;
|
---|
667 | };
|
---|
668 |
|
---|
669 | /// This contains the physical PseudoJets; for each PseudoJet one
|
---|
670 | /// can find the corresponding position in the _history by looking
|
---|
671 | /// at _jets[i].cluster_hist_index().
|
---|
672 | std::vector<PseudoJet> _jets;
|
---|
673 |
|
---|
674 |
|
---|
675 | /// this vector will contain the branching history; for each stage,
|
---|
676 | /// _history[i].jetp_index indicates where to look in the _jets
|
---|
677 | /// vector to get the physical PseudoJet.
|
---|
678 | std::vector<history_element> _history;
|
---|
679 |
|
---|
680 | /// set subhist to be a set pointers to history entries corresponding to the
|
---|
681 | /// subjets of this jet; one stops going working down through the
|
---|
682 | /// subjets either when
|
---|
683 | /// - there is no further to go
|
---|
684 | /// - one has found maxjet entries
|
---|
685 | /// - max_dij_so_far <= dcut
|
---|
686 | /// By setting maxjet=0 one can use just dcut; by setting dcut<0
|
---|
687 | /// one can use jet maxjet
|
---|
688 | void get_subhist_set(std::set<const history_element*> & subhist,
|
---|
689 | const PseudoJet & jet, double dcut, int maxjet) const;
|
---|
690 |
|
---|
691 | bool _writeout_combinations;
|
---|
692 | int _initial_n;
|
---|
693 | double _Rparam, _R2, _invR2;
|
---|
694 | double _Qtot;
|
---|
695 | Strategy _strategy;
|
---|
696 | JetAlgorithm _jet_algorithm;
|
---|
697 |
|
---|
698 | SharedPtr<PseudoJetStructureBase> _structure_shared_ptr; //< will actually be of type ClusterSequenceStructure
|
---|
699 | int _structure_use_count_after_construction; //< info of use when CS handles its own memory
|
---|
700 | /// if true then the CS will delete itself when the last external
|
---|
701 | /// object referring to it disappears. It is mutable so as to ensure
|
---|
702 | /// that signal_imminent_self_deletion() [const] can make relevant
|
---|
703 | /// changes.
|
---|
704 | mutable bool _deletes_self_when_unused;
|
---|
705 |
|
---|
706 | private:
|
---|
707 |
|
---|
708 | bool _plugin_activated;
|
---|
709 | SharedPtr<Extras> _extras; // things the plugin might want to add
|
---|
710 |
|
---|
711 | void _really_dumb_cluster ();
|
---|
712 | void _delaunay_cluster ();
|
---|
713 | //void _simple_N2_cluster ();
|
---|
714 | template<class BJ> void _simple_N2_cluster ();
|
---|
715 | void _tiled_N2_cluster ();
|
---|
716 | void _faster_tiled_N2_cluster ();
|
---|
717 |
|
---|
718 | //
|
---|
719 | void _minheap_faster_tiled_N2_cluster();
|
---|
720 |
|
---|
721 | // things needed specifically for Cambridge with Chan's 2D closest
|
---|
722 | // pairs method
|
---|
723 | void _CP2DChan_cluster();
|
---|
724 | void _CP2DChan_cluster_2pi2R ();
|
---|
725 | void _CP2DChan_cluster_2piMultD ();
|
---|
726 | void _CP2DChan_limited_cluster(double D);
|
---|
727 | void _do_Cambridge_inclusive_jets();
|
---|
728 |
|
---|
729 | // NSqrtN method for C/A
|
---|
730 | void _fast_NsqrtN_cluster();
|
---|
731 |
|
---|
732 | void _add_step_to_history(const int step_number, const int parent1,
|
---|
733 | const int parent2, const int jetp_index,
|
---|
734 | const double dij);
|
---|
735 |
|
---|
736 | /// internal routine associated with the construction of the unique
|
---|
737 | /// history order (following children in the tree)
|
---|
738 | void _extract_tree_children(int pos, std::valarray<bool> &,
|
---|
739 | const std::valarray<int> &, std::vector<int> &) const;
|
---|
740 |
|
---|
741 | /// internal routine associated with the construction of the unique
|
---|
742 | /// history order (following parents in the tree)
|
---|
743 | void _extract_tree_parents (int pos, std::valarray<bool> &,
|
---|
744 | const std::valarray<int> &, std::vector<int> &) const;
|
---|
745 |
|
---|
746 |
|
---|
747 | // these will be useful shorthands in the Voronoi-based code
|
---|
748 | typedef std::pair<int,int> TwoVertices;
|
---|
749 | typedef std::pair<double,TwoVertices> DijEntry;
|
---|
750 | typedef std::multimap<double,TwoVertices> DistMap;
|
---|
751 |
|
---|
752 | /// currently used only in the Voronoi based code
|
---|
753 | void _add_ktdistance_to_map(const int ii,
|
---|
754 | DistMap & DijMap,
|
---|
755 | const DynamicNearestNeighbours * DNN);
|
---|
756 |
|
---|
757 |
|
---|
758 | /// will be set by default to be true for the first run
|
---|
759 | static bool _first_time;
|
---|
760 |
|
---|
761 | /// manage warnings related to exclusive jets access
|
---|
762 | static LimitedWarning _exclusive_warnings;
|
---|
763 |
|
---|
764 | /// the limited warning member for notification of user that
|
---|
765 | /// their requested strategy has been overridden (usually because
|
---|
766 | /// they have R>2pi and not all strategies work then)
|
---|
767 | static LimitedWarning _changed_strategy_warning;
|
---|
768 |
|
---|
769 | //----------------------------------------------------------------------
|
---|
770 | /// the fundamental structure which contains the minimal info about
|
---|
771 | /// a jet, as needed for our plain N^2 algorithm -- the idea is to
|
---|
772 | /// put all info that will be accessed N^2 times into an array of
|
---|
773 | /// BriefJets...
|
---|
774 | struct BriefJet {
|
---|
775 | double eta, phi, kt2, NN_dist;
|
---|
776 | BriefJet * NN;
|
---|
777 | int _jets_index;
|
---|
778 | };
|
---|
779 |
|
---|
780 | /// structure analogous to BriefJet, but with the extra information
|
---|
781 | /// needed for dealing with tiles
|
---|
782 | class TiledJet {
|
---|
783 | public:
|
---|
784 | double eta, phi, kt2, NN_dist;
|
---|
785 | TiledJet * NN, *previous, * next;
|
---|
786 | int _jets_index, tile_index, diJ_posn;
|
---|
787 | // routines that are useful in the minheap version of tiled
|
---|
788 | // clustering ("misuse" the otherwise unused diJ_posn, so as
|
---|
789 | // to indicate whether jets need to have their minheap entries
|
---|
790 | // updated).
|
---|
791 | inline void label_minheap_update_needed() {diJ_posn = 1;}
|
---|
792 | inline void label_minheap_update_done() {diJ_posn = 0;}
|
---|
793 | inline bool minheap_update_needed() const {return diJ_posn==1;}
|
---|
794 | };
|
---|
795 |
|
---|
796 | //-- some of the functions that follow are templates and will work
|
---|
797 | //as well for briefjet and tiled jets
|
---|
798 |
|
---|
799 | /// set the kinematic and labelling info for jeta so that it corresponds
|
---|
800 | /// to _jets[_jets_index]
|
---|
801 | template <class J> void _bj_set_jetinfo( J * const jet,
|
---|
802 | const int _jets_index) const;
|
---|
803 |
|
---|
804 | /// "remove" this jet, which implies updating links of neighbours and
|
---|
805 | /// perhaps modifying the tile structure
|
---|
806 | void _bj_remove_from_tiles( TiledJet * const jet) const;
|
---|
807 |
|
---|
808 | /// return the distance between two BriefJet objects
|
---|
809 | template <class J> double _bj_dist(const J * const jeta,
|
---|
810 | const J * const jetb) const;
|
---|
811 |
|
---|
812 | // return the diJ (multiplied by _R2) for this jet assuming its NN
|
---|
813 | // info is correct
|
---|
814 | template <class J> double _bj_diJ(const J * const jeta) const;
|
---|
815 |
|
---|
816 | /// for testing purposes only: if in the range head--tail-1 there is a
|
---|
817 | /// a jet which corresponds to hist_index in the history, then
|
---|
818 | /// return a pointer to that jet; otherwise return tail.
|
---|
819 | template <class J> inline J * _bj_of_hindex(
|
---|
820 | const int hist_index,
|
---|
821 | J * const head, J * const tail)
|
---|
822 | const {
|
---|
823 | J * res;
|
---|
824 | for(res = head; res<tail; res++) {
|
---|
825 | if (_jets[res->_jets_index].cluster_hist_index() == hist_index) {break;}
|
---|
826 | }
|
---|
827 | return res;
|
---|
828 | }
|
---|
829 |
|
---|
830 |
|
---|
831 | //-- remaining functions are different in various cases, so we
|
---|
832 | // will use templates but are not sure if they're useful...
|
---|
833 |
|
---|
834 | /// updates (only towards smaller distances) the NN for jeta without checking
|
---|
835 | /// whether in the process jeta itself might be a new NN of one of
|
---|
836 | /// the jets being scanned -- span the range head to tail-1 with
|
---|
837 | /// assumption that jeta is not contained in that range
|
---|
838 | template <class J> void _bj_set_NN_nocross(J * const jeta,
|
---|
839 | J * const head, const J * const tail) const;
|
---|
840 |
|
---|
841 | /// reset the NN for jeta and DO check whether in the process jeta
|
---|
842 | /// itself might be a new NN of one of the jets being scanned --
|
---|
843 | /// span the range head to tail-1 with assumption that jeta is not
|
---|
844 | /// contained in that range
|
---|
845 | template <class J> void _bj_set_NN_crosscheck(J * const jeta,
|
---|
846 | J * const head, const J * const tail) const;
|
---|
847 |
|
---|
848 |
|
---|
849 |
|
---|
850 | /// number of neighbours that a tile will have (rectangular geometry
|
---|
851 | /// gives 9 neighbours).
|
---|
852 | static const int n_tile_neighbours = 9;
|
---|
853 | //----------------------------------------------------------------------
|
---|
854 | /// The fundamental structures to be used for the tiled N^2 algorithm
|
---|
855 | /// (see CCN27-44 for some discussion of pattern of tiling)
|
---|
856 | struct Tile {
|
---|
857 | /// pointers to neighbouring tiles, including self
|
---|
858 | Tile * begin_tiles[n_tile_neighbours];
|
---|
859 | /// neighbouring tiles, excluding self
|
---|
860 | Tile ** surrounding_tiles;
|
---|
861 | /// half of neighbouring tiles, no self
|
---|
862 | Tile ** RH_tiles;
|
---|
863 | /// just beyond end of tiles
|
---|
864 | Tile ** end_tiles;
|
---|
865 | /// start of list of BriefJets contained in this tile
|
---|
866 | TiledJet * head;
|
---|
867 | /// sometimes useful to be able to tag a tile
|
---|
868 | bool tagged;
|
---|
869 | };
|
---|
870 | std::vector<Tile> _tiles;
|
---|
871 | double _tiles_eta_min, _tiles_eta_max;
|
---|
872 | double _tile_size_eta, _tile_size_phi;
|
---|
873 | int _n_tiles_phi,_tiles_ieta_min,_tiles_ieta_max;
|
---|
874 |
|
---|
875 | // reasonably robust return of tile index given ieta and iphi, in particular
|
---|
876 | // it works even if iphi is negative
|
---|
877 | inline int _tile_index (int ieta, int iphi) const {
|
---|
878 | // note that (-1)%n = -1 so that we have to add _n_tiles_phi
|
---|
879 | // before performing modulo operation
|
---|
880 | return (ieta-_tiles_ieta_min)*_n_tiles_phi
|
---|
881 | + (iphi+_n_tiles_phi) % _n_tiles_phi;
|
---|
882 | }
|
---|
883 |
|
---|
884 | // routines for tiled case, including some overloads of the plain
|
---|
885 | // BriefJet cases
|
---|
886 | int _tile_index(const double eta, const double phi) const;
|
---|
887 | void _tj_set_jetinfo ( TiledJet * const jet, const int _jets_index);
|
---|
888 | void _bj_remove_from_tiles(TiledJet * const jet);
|
---|
889 | void _initialise_tiles();
|
---|
890 | void _print_tiles(TiledJet * briefjets ) const;
|
---|
891 | void _add_neighbours_to_tile_union(const int tile_index,
|
---|
892 | std::vector<int> & tile_union, int & n_near_tiles) const;
|
---|
893 | void _add_untagged_neighbours_to_tile_union(const int tile_index,
|
---|
894 | std::vector<int> & tile_union, int & n_near_tiles);
|
---|
895 |
|
---|
896 | //----------------------------------------------------------------------
|
---|
897 | /// fundamental structure for e+e- clustering
|
---|
898 | struct EEBriefJet {
|
---|
899 | double NN_dist; // obligatorily present
|
---|
900 | double kt2; // obligatorily present == E^2 in general
|
---|
901 | EEBriefJet * NN; // must be present too
|
---|
902 | int _jets_index; // must also be present!
|
---|
903 | //...........................................................
|
---|
904 | double nx, ny, nz; // our internal storage for fast distance calcs
|
---|
905 | };
|
---|
906 |
|
---|
907 | /// to help instantiation (fj 2.4.0; did not quite work on gcc 33 and os x 10.3?)
|
---|
908 | //void _dummy_N2_cluster_instantiation();
|
---|
909 |
|
---|
910 |
|
---|
911 | /// to avoid issues with template instantiation (OS X 10.3, gcc 3.3)
|
---|
912 | void _simple_N2_cluster_BriefJet();
|
---|
913 | /// to avoid issues with template instantiation (OS X 10.3, gcc 3.3)
|
---|
914 | void _simple_N2_cluster_EEBriefJet();
|
---|
915 | };
|
---|
916 |
|
---|
917 |
|
---|
918 | //**********************************************************************
|
---|
919 | //************** START OF INLINE MATERIAL ******************
|
---|
920 | //**********************************************************************
|
---|
921 |
|
---|
922 |
|
---|
923 | //----------------------------------------------------------------------
|
---|
924 | // Transfer the initial jets into our internal structure
|
---|
925 | template<class L> void ClusterSequence::_transfer_input_jets(
|
---|
926 | const std::vector<L> & pseudojets) {
|
---|
927 |
|
---|
928 | // this will ensure that we can point to jets without difficulties
|
---|
929 | // arising.
|
---|
930 | _jets.reserve(pseudojets.size()*2);
|
---|
931 |
|
---|
932 | // insert initial jets this way so that any type L that can be
|
---|
933 | // converted to a pseudojet will work fine (basically PseudoJet
|
---|
934 | // and any type that has [] subscript access to the momentum
|
---|
935 | // components, such as CLHEP HepLorentzVector).
|
---|
936 | for (unsigned int i = 0; i < pseudojets.size(); i++) {
|
---|
937 | _jets.push_back(pseudojets[i]);}
|
---|
938 |
|
---|
939 | }
|
---|
940 |
|
---|
941 | // //----------------------------------------------------------------------
|
---|
942 | // // initialise from some generic type... Has to be made available
|
---|
943 | // // here in order for it the template aspect of it to work...
|
---|
944 | // template<class L> ClusterSequence::ClusterSequence (
|
---|
945 | // const std::vector<L> & pseudojets,
|
---|
946 | // const double R,
|
---|
947 | // const Strategy & strategy,
|
---|
948 | // const bool & writeout_combinations) {
|
---|
949 | //
|
---|
950 | // // transfer the initial jets (type L) into our own array
|
---|
951 | // _transfer_input_jets(pseudojets);
|
---|
952 | //
|
---|
953 | // // run the clustering
|
---|
954 | // _initialise_and_run(R,strategy,writeout_combinations);
|
---|
955 | // }
|
---|
956 |
|
---|
957 |
|
---|
958 | //----------------------------------------------------------------------
|
---|
959 | /// constructor of a jet-clustering sequence from a vector of
|
---|
960 | /// four-momenta, with the jet definition specified by jet_def
|
---|
961 | template<class L> ClusterSequence::ClusterSequence (
|
---|
962 | const std::vector<L> & pseudojets,
|
---|
963 | const JetDefinition & jet_def_in,
|
---|
964 | const bool & writeout_combinations) :
|
---|
965 | _jet_def(jet_def_in), _writeout_combinations(writeout_combinations),
|
---|
966 | _structure_shared_ptr(new ClusterSequenceStructure(this))
|
---|
967 | {
|
---|
968 |
|
---|
969 | // transfer the initial jets (type L) into our own array
|
---|
970 | _transfer_input_jets(pseudojets);
|
---|
971 |
|
---|
972 | // transfer the remaining options
|
---|
973 | _decant_options_partial();
|
---|
974 |
|
---|
975 | // run the clustering
|
---|
976 | _initialise_and_run_no_decant();
|
---|
977 | }
|
---|
978 |
|
---|
979 |
|
---|
980 | inline const std::vector<PseudoJet> & ClusterSequence::jets () const {
|
---|
981 | return _jets;
|
---|
982 | }
|
---|
983 |
|
---|
984 | inline const std::vector<ClusterSequence::history_element> & ClusterSequence::history () const {
|
---|
985 | return _history;
|
---|
986 | }
|
---|
987 |
|
---|
988 | inline unsigned int ClusterSequence::n_particles() const {return _initial_n;}
|
---|
989 |
|
---|
990 | //----------------------------------------------------------------------
|
---|
991 | // implementation of JetDefinition::operator() is here to avoid nasty
|
---|
992 | // issues of order of implementations and includes
|
---|
993 | #ifndef __CINT__
|
---|
994 | template<class L>
|
---|
995 | std::vector<PseudoJet> JetDefinition::operator()(const std::vector<L> & particles) const {
|
---|
996 | // create a new cluster sequence
|
---|
997 | ClusterSequence * cs = new ClusterSequence(particles, *this);
|
---|
998 |
|
---|
999 | // get the jets, and sort them according to whether the algorithm
|
---|
1000 | // is spherical or not
|
---|
1001 | std::vector<PseudoJet> jets;
|
---|
1002 | if (is_spherical()) {
|
---|
1003 | jets = sorted_by_E(cs->inclusive_jets());
|
---|
1004 | } else {
|
---|
1005 | jets = sorted_by_pt(cs->inclusive_jets());
|
---|
1006 | }
|
---|
1007 |
|
---|
1008 | // make sure the ClusterSequence gets deleted once it's no longer
|
---|
1009 | // needed
|
---|
1010 | if (jets.size() != 0) {
|
---|
1011 | cs->delete_self_when_unused();
|
---|
1012 | } else {
|
---|
1013 | delete cs;
|
---|
1014 | }
|
---|
1015 |
|
---|
1016 | return jets;
|
---|
1017 | }
|
---|
1018 | #endif // __CINT__
|
---|
1019 |
|
---|
1020 |
|
---|
1021 | //----------------------------------------------------------------------
|
---|
1022 | template <class J> inline void ClusterSequence::_bj_set_jetinfo(
|
---|
1023 | J * const jetA, const int _jets_index) const {
|
---|
1024 | jetA->eta = _jets[_jets_index].rap();
|
---|
1025 | jetA->phi = _jets[_jets_index].phi_02pi();
|
---|
1026 | jetA->kt2 = jet_scale_for_algorithm(_jets[_jets_index]);
|
---|
1027 | jetA->_jets_index = _jets_index;
|
---|
1028 | // initialise NN info as well
|
---|
1029 | jetA->NN_dist = _R2;
|
---|
1030 | jetA->NN = NULL;
|
---|
1031 | }
|
---|
1032 |
|
---|
1033 |
|
---|
1034 |
|
---|
1035 |
|
---|
1036 | //----------------------------------------------------------------------
|
---|
1037 | template <class J> inline double ClusterSequence::_bj_dist(
|
---|
1038 | const J * const jetA, const J * const jetB) const {
|
---|
1039 | double dphi = std::abs(jetA->phi - jetB->phi);
|
---|
1040 | double deta = (jetA->eta - jetB->eta);
|
---|
1041 | if (dphi > pi) {dphi = twopi - dphi;}
|
---|
1042 | return dphi*dphi + deta*deta;
|
---|
1043 | }
|
---|
1044 |
|
---|
1045 | //----------------------------------------------------------------------
|
---|
1046 | template <class J> inline double ClusterSequence::_bj_diJ(const J * const jet) const {
|
---|
1047 | double kt2 = jet->kt2;
|
---|
1048 | if (jet->NN != NULL) {if (jet->NN->kt2 < kt2) {kt2 = jet->NN->kt2;}}
|
---|
1049 | return jet->NN_dist * kt2;
|
---|
1050 | }
|
---|
1051 |
|
---|
1052 |
|
---|
1053 | //----------------------------------------------------------------------
|
---|
1054 | // set the NN for jet without checking whether in the process you might
|
---|
1055 | // have discovered a new nearest neighbour for another jet
|
---|
1056 | template <class J> inline void ClusterSequence::_bj_set_NN_nocross(
|
---|
1057 | J * const jet, J * const head, const J * const tail) const {
|
---|
1058 | double NN_dist = _R2;
|
---|
1059 | J * NN = NULL;
|
---|
1060 | if (head < jet) {
|
---|
1061 | for (J * jetB = head; jetB != jet; jetB++) {
|
---|
1062 | double dist = _bj_dist(jet,jetB);
|
---|
1063 | if (dist < NN_dist) {
|
---|
1064 | NN_dist = dist;
|
---|
1065 | NN = jetB;
|
---|
1066 | }
|
---|
1067 | }
|
---|
1068 | }
|
---|
1069 | if (tail > jet) {
|
---|
1070 | for (J * jetB = jet+1; jetB != tail; jetB++) {
|
---|
1071 | double dist = _bj_dist(jet,jetB);
|
---|
1072 | if (dist < NN_dist) {
|
---|
1073 | NN_dist = dist;
|
---|
1074 | NN = jetB;
|
---|
1075 | }
|
---|
1076 | }
|
---|
1077 | }
|
---|
1078 | jet->NN = NN;
|
---|
1079 | jet->NN_dist = NN_dist;
|
---|
1080 | }
|
---|
1081 |
|
---|
1082 |
|
---|
1083 | //----------------------------------------------------------------------
|
---|
1084 | template <class J> inline void ClusterSequence::_bj_set_NN_crosscheck(J * const jet,
|
---|
1085 | J * const head, const J * const tail) const {
|
---|
1086 | double NN_dist = _R2;
|
---|
1087 | J * NN = NULL;
|
---|
1088 | for (J * jetB = head; jetB != tail; jetB++) {
|
---|
1089 | double dist = _bj_dist(jet,jetB);
|
---|
1090 | if (dist < NN_dist) {
|
---|
1091 | NN_dist = dist;
|
---|
1092 | NN = jetB;
|
---|
1093 | }
|
---|
1094 | if (dist < jetB->NN_dist) {
|
---|
1095 | jetB->NN_dist = dist;
|
---|
1096 | jetB->NN = jet;
|
---|
1097 | }
|
---|
1098 | }
|
---|
1099 | jet->NN = NN;
|
---|
1100 | jet->NN_dist = NN_dist;
|
---|
1101 | }
|
---|
1102 |
|
---|
1103 | FASTJET_END_NAMESPACE
|
---|
1104 |
|
---|
1105 | #endif // __FASTJET_CLUSTERSEQUENCE_HH__
|
---|