[35cdc46] | 1 | //FJSTARTHEADER
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[cb80e6f] | 2 | // $Id: ClusterSequenceActiveArea.cc 4442 2020-05-05 07:50:11Z soyez $
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[d7d2da3] | 3 | //
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[cb80e6f] | 4 | // Copyright (c) 2005-2020, Matteo Cacciari, Gavin P. Salam and Gregory Soyez
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[d7d2da3] | 5 | //
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| 6 | //----------------------------------------------------------------------
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| 7 | // This file is part of FastJet.
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| 8 | //
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| 9 | // FastJet is free software; you can redistribute it and/or modify
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| 10 | // it under the terms of the GNU General Public License as published by
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| 11 | // the Free Software Foundation; either version 2 of the License, or
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| 12 | // (at your option) any later version.
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| 13 | //
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| 14 | // The algorithms that underlie FastJet have required considerable
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[35cdc46] | 15 | // development. They are described in the original FastJet paper,
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| 16 | // hep-ph/0512210 and in the manual, arXiv:1111.6097. If you use
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[d7d2da3] | 17 | // FastJet as part of work towards a scientific publication, please
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[35cdc46] | 18 | // quote the version you use and include a citation to the manual and
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| 19 | // optionally also to hep-ph/0512210.
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[d7d2da3] | 20 | //
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| 21 | // FastJet is distributed in the hope that it will be useful,
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| 22 | // but WITHOUT ANY WARRANTY; without even the implied warranty of
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| 23 | // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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| 24 | // GNU General Public License for more details.
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| 25 | //
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| 26 | // You should have received a copy of the GNU General Public License
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| 27 | // along with FastJet. If not, see <http://www.gnu.org/licenses/>.
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| 28 | //----------------------------------------------------------------------
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[35cdc46] | 29 | //FJENDHEADER
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[d7d2da3] | 30 |
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| 31 | #include "fastjet/PseudoJet.hh"
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| 32 | #include "fastjet/ClusterSequence.hh"
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| 33 | #include "fastjet/ClusterSequenceActiveArea.hh"
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| 34 | #include "fastjet/ClusterSequenceActiveAreaExplicitGhosts.hh"
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| 35 | #include<iostream>
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| 36 | #include<vector>
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| 37 | #include<sstream>
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| 38 | #include<algorithm>
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| 39 | #include<cmath>
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| 40 | #include<valarray>
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| 41 |
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| 42 | FASTJET_BEGIN_NAMESPACE // defined in fastjet/internal/base.hh
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| 43 |
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| 44 |
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| 45 | using namespace std;
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| 46 |
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| 47 |
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| 48 | //int ClusterSequenceActiveArea::_n_seed_warnings = 0;
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| 49 | //const int _max_seed_warnings = 10;
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| 50 |
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| 51 | //----------------------------------------------------------------------
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| 52 | /// global routine for running active area
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| 53 | void ClusterSequenceActiveArea::_initialise_and_run_AA (
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| 54 | const JetDefinition & jet_def_in,
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| 55 | const GhostedAreaSpec & ghost_spec,
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| 56 | const bool & writeout_combinations) {
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| 57 |
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| 58 | bool continue_running;
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| 59 | _initialise_AA(jet_def_in, ghost_spec, writeout_combinations, continue_running);
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| 60 | if (continue_running) {
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| 61 | _run_AA(ghost_spec);
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| 62 | _postprocess_AA(ghost_spec);
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| 63 | }
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| 64 | }
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| 65 |
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| 66 | //----------------------------------------------------------------------
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| 67 | void ClusterSequenceActiveArea::_resize_and_zero_AA () {
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| 68 | // initialize our local area information
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| 69 | _average_area.resize(2*_jets.size()); _average_area = 0.0;
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| 70 | _average_area2.resize(2*_jets.size()); _average_area2 = 0.0;
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| 71 | _average_area_4vector.resize(2*_jets.size());
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| 72 | _average_area_4vector = PseudoJet(0.0,0.0,0.0,0.0);
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| 73 | _non_jet_area = 0.0; _non_jet_area2 = 0.0; _non_jet_number=0.0;
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| 74 | }
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| 75 |
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| 76 | //---------------------------------a-------------------------------------
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| 77 | void ClusterSequenceActiveArea::_initialise_AA (
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| 78 | const JetDefinition & jet_def_in,
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| 79 | const GhostedAreaSpec & ghost_spec,
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| 80 | const bool & writeout_combinations,
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| 81 | bool & continue_running)
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| 82 | {
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| 83 |
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| 84 | // store this for future use
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| 85 | _ghost_spec_repeat = ghost_spec.repeat();
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| 86 |
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| 87 | // make sure placeholders are there & zeroed
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| 88 | _resize_and_zero_AA();
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| 89 |
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| 90 | // for future reference...
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| 91 | _maxrap_for_area = ghost_spec.ghost_maxrap();
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| 92 | _safe_rap_for_area = _maxrap_for_area - jet_def_in.R();
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| 93 |
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| 94 | // Make sure we'll have at least one repetition -- then we can
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| 95 | // deduce the unghosted clustering sequence from one of the ghosted
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| 96 | // sequences. If we do not have any repetitions, then get the
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| 97 | // unghosted sequence from the plain unghosted clustering.
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| 98 | //
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| 99 | // NB: all decanting and filling of initial history will then
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| 100 | // be carried out by base-class routine
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| 101 | if (ghost_spec.repeat() <= 0) {
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| 102 | _initialise_and_run(jet_def_in, writeout_combinations);
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| 103 | continue_running = false;
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| 104 | return;
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| 105 | }
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| 106 |
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| 107 | // transfer all relevant info into internal variables
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| 108 | _decant_options(jet_def_in, writeout_combinations);
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| 109 |
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| 110 | // set up the history entries for the initial particles (those
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| 111 | // currently in _jets)
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| 112 | _fill_initial_history();
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| 113 |
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| 114 | // by default it does not...
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| 115 | _has_dangerous_particles = false;
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| 116 |
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| 117 | continue_running = true;
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| 118 | }
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| 119 |
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| 120 |
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| 121 | //----------------------------------------------------------------------
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| 122 | void ClusterSequenceActiveArea::_run_AA (const GhostedAreaSpec & ghost_spec) {
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| 123 | // record the input jets as they are currently
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| 124 | vector<PseudoJet> input_jets(_jets);
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| 125 |
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| 126 | // code for testing the unique tree
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| 127 | vector<int> unique_tree;
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| 128 |
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| 129 | // run the clustering multiple times so as to get areas of all the jets
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| 130 | for (int irepeat = 0; irepeat < ghost_spec.repeat(); irepeat++) {
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| 131 |
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| 132 | ClusterSequenceActiveAreaExplicitGhosts clust_seq(input_jets,
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| 133 | jet_def(), ghost_spec);
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| 134 |
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| 135 | _has_dangerous_particles |= clust_seq.has_dangerous_particles();
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| 136 | if (irepeat == 0) {
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| 137 | // take the non-ghost part of the history and put into our own
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| 138 | // history.
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| 139 | _transfer_ghost_free_history(clust_seq);
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| 140 | // get the "unique" order that will be used for transferring all areas.
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| 141 | unique_tree = unique_history_order();
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| 142 | }
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| 143 |
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| 144 | // transfer areas from clust_seq into our object
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| 145 | _transfer_areas(unique_tree, clust_seq);
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| 146 | }
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| 147 | }
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| 148 |
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| 149 |
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| 150 | //----------------------------------------------------------------------
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| 151 | /// run the postprocessing for the active area (and derived classes)
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| 152 | void ClusterSequenceActiveArea::_postprocess_AA (const GhostedAreaSpec & ghost_spec) {
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| 153 | _average_area /= ghost_spec.repeat();
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| 154 | _average_area2 /= ghost_spec.repeat();
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| 155 | if (ghost_spec.repeat() > 1) {
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| 156 | // the VC compiler complains if one puts everything on a single line.
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| 157 | // An alternative solution would be to use -1.0 (+single line)
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| 158 | const double tmp = ghost_spec.repeat()-1;
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| 159 | _average_area2 = sqrt(abs(_average_area2 - _average_area*_average_area)/tmp);
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| 160 | } else {
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| 161 | _average_area2 = 0.0;
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| 162 | }
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| 163 |
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| 164 | _non_jet_area /= ghost_spec.repeat();
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| 165 | _non_jet_area2 /= ghost_spec.repeat();
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| 166 | _non_jet_area2 = sqrt(abs(_non_jet_area2 - _non_jet_area*_non_jet_area)/
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| 167 | ghost_spec.repeat());
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| 168 | _non_jet_number /= ghost_spec.repeat();
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| 169 |
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| 170 | // following bizarre way of writing things is related to
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| 171 | // poverty of operations on PseudoJet objects (as well as some confusion
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| 172 | // in one or two places)
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| 173 | for (unsigned i = 0; i < _average_area_4vector.size(); i++) {
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| 174 | _average_area_4vector[i] = (1.0/ghost_spec.repeat()) * _average_area_4vector[i];
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| 175 | }
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| 176 | //cerr << "Non-jet area = " << _non_jet_area << " +- " << _non_jet_area2<<endl;
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| 177 | }
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| 178 |
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| 179 |
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| 180 | // //----------------------------------------------------------------------
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| 181 | // void ClusterSequenceActiveArea::_initialise_and_run_AA (
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| 182 | // const JetDefinition & jet_def,
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| 183 | // const GhostedAreaSpec & ghost_spec,
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| 184 | // const bool & writeout_combinations)
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| 185 | // {
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| 186 | //
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| 187 | // // store this for future use
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| 188 | // _ghost_spec_repeat = ghost_spec.repeat();
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| 189 | //
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| 190 | // // initialize our local area information
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| 191 | // _average_area.resize(2*_jets.size()); _average_area = 0.0;
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| 192 | // _average_area2.resize(2*_jets.size()); _average_area2 = 0.0;
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| 193 | // _average_area_4vector.resize(2*_jets.size());
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| 194 | // _average_area_4vector = PseudoJet(0.0,0.0,0.0,0.0);
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| 195 | // _non_jet_area = 0.0; _non_jet_area2 = 0.0; _non_jet_number=0.0;
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| 196 | //
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| 197 | // // for future reference...
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| 198 | // _maxrap_for_area = ghost_spec.ghost_maxrap();
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| 199 | // _safe_rap_for_area = _maxrap_for_area - jet_def.R();
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| 200 | //
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| 201 | // // Make sure we'll have at least one repetition -- then we can
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| 202 | // // deduce the unghosted clustering sequence from one of the ghosted
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| 203 | // // sequences. If we do not have any repetitions, then get the
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| 204 | // // unghosted sequence from the plain unghosted clustering.
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| 205 | // //
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| 206 | // // NB: all decanting and filling of initial history will then
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| 207 | // // be carried out by base-class routine
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| 208 | // if (ghost_spec.repeat() <= 0) {
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| 209 | // _initialise_and_run(jet_def, writeout_combinations);
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| 210 | // return;
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| 211 | // }
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| 212 | //
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| 213 | // // transfer all relevant info into internal variables
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| 214 | // _decant_options(jet_def, writeout_combinations);
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| 215 | //
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| 216 | // // set up the history entries for the initial particles (those
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| 217 | // // currently in _jets)
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| 218 | // _fill_initial_history();
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| 219 | //
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| 220 | // // record the input jets as they are currently
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| 221 | // vector<PseudoJet> input_jets(_jets);
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| 222 | //
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| 223 | // // code for testing the unique tree
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| 224 | // vector<int> unique_tree;
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| 225 | //
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| 226 | //
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| 227 | //
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| 228 | //
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| 229 | // // run the clustering multiple times so as to get areas of all the jets
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| 230 | // for (int irepeat = 0; irepeat < ghost_spec.repeat(); irepeat++) {
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| 231 | //
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| 232 | // ClusterSequenceActiveAreaExplicitGhosts clust_seq(input_jets,
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| 233 | // jet_def, ghost_spec);
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| 234 | //
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| 235 | // if (irepeat == 0) {
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| 236 | // // take the non-ghost part of the history and put into our own
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| 237 | // // history.
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| 238 | // _transfer_ghost_free_history(clust_seq);
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| 239 | // // get the "unique" order that will be used for transferring all areas.
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| 240 | // unique_tree = unique_history_order();
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| 241 | // }
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| 242 | //
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| 243 | // // transfer areas from clust_seq into our object
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| 244 | // _transfer_areas(unique_tree, clust_seq);
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| 245 | // }
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| 246 | //
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| 247 | // _average_area /= ghost_spec.repeat();
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| 248 | // _average_area2 /= ghost_spec.repeat();
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| 249 | // if (ghost_spec.repeat() > 1) {
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| 250 | // _average_area2 = sqrt(abs(_average_area2 - _average_area*_average_area)/
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| 251 | // (ghost_spec.repeat()-1));
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| 252 | // } else {
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| 253 | // _average_area2 = 0.0;
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| 254 | // }
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| 255 | //
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| 256 | // _non_jet_area /= ghost_spec.repeat();
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| 257 | // _non_jet_area2 /= ghost_spec.repeat();
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| 258 | // _non_jet_area2 = sqrt(abs(_non_jet_area2 - _non_jet_area*_non_jet_area)/
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| 259 | // ghost_spec.repeat());
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| 260 | // _non_jet_number /= ghost_spec.repeat();
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| 261 | //
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| 262 | // // following bizarre way of writing things is related to
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| 263 | // // poverty of operations on PseudoJet objects (as well as some confusion
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| 264 | // // in one or two places)
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| 265 | // for (unsigned i = 0; i < _average_area_4vector.size(); i++) {
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| 266 | // _average_area_4vector[i] = (1.0/ghost_spec.repeat()) * _average_area_4vector[i];
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| 267 | // }
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| 268 | // //cerr << "Non-jet area = " << _non_jet_area << " +- " << _non_jet_area2<<endl;
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| 269 | //
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| 270 | //
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| 271 | // }
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| 272 | //
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| 273 |
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| 274 |
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| 275 | //----------------------------------------------------------------------
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| 276 | double ClusterSequenceActiveArea::pt_per_unit_area(
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| 277 | mean_pt_strategies strat, double range) const {
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| 278 |
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| 279 | vector<PseudoJet> incl_jets = inclusive_jets();
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| 280 | vector<double> pt_over_areas;
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| 281 |
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| 282 | for (unsigned i = 0; i < incl_jets.size(); i++) {
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| 283 | if (abs(incl_jets[i].rap()) < _safe_rap_for_area) {
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| 284 | double this_area;
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| 285 | if ( strat == median_4vector ) {
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| 286 | this_area = area_4vector(incl_jets[i]).perp();
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| 287 | } else {
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| 288 | this_area = area(incl_jets[i]);
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| 289 | }
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| 290 | pt_over_areas.push_back(incl_jets[i].perp()/this_area);
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| 291 | }
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| 292 | }
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| 293 |
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| 294 | // there is nothing inside our region, so answer will always be zero
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| 295 | if (pt_over_areas.size() == 0) {return 0.0;}
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| 296 |
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| 297 | // get median (pt/area) [this is the "old" median definition. It considers
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| 298 | // only the "real" jets in calculating the median, i.e. excluding the
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| 299 | // only-ghost ones]
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| 300 | sort(pt_over_areas.begin(), pt_over_areas.end());
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| 301 | double non_ghost_median_ratio = pt_over_areas[pt_over_areas.size()/2];
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| 302 |
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| 303 | // new median definition that takes into account non-jet area (i.e.
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| 304 | // jets composed only of ghosts), and for fractional median position
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| 305 | // interpolates between the corresponding entries in the pt_over_areas array
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| 306 | double nj_median_pos = (pt_over_areas.size()-1 - _non_jet_number)/2.0;
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| 307 | double nj_median_ratio;
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| 308 | if (nj_median_pos >= 0 && pt_over_areas.size() > 1) {
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| 309 | int int_nj_median = int(nj_median_pos);
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| 310 | nj_median_ratio =
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| 311 | pt_over_areas[int_nj_median] * (int_nj_median+1-nj_median_pos)
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| 312 | + pt_over_areas[int_nj_median+1] * (nj_median_pos - int_nj_median);
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| 313 | } else {
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| 314 | nj_median_ratio = 0.0;
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| 315 | }
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| 316 |
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| 317 |
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| 318 | // get various forms of mean (pt/area)
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| 319 | double pt_sum = 0.0, pt_sum_with_cut = 0.0;
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| 320 | double area_sum = _non_jet_area, area_sum_with_cut = _non_jet_area;
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| 321 | double ratio_sum = 0.0;
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| 322 | double ratio_n = _non_jet_number;
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| 323 | for (unsigned i = 0; i < incl_jets.size(); i++) {
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| 324 | if (abs(incl_jets[i].rap()) < _safe_rap_for_area) {
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| 325 | double this_area;
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| 326 | if ( strat == median_4vector ) {
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| 327 | this_area = area_4vector(incl_jets[i]).perp();
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| 328 | } else {
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| 329 | this_area = area(incl_jets[i]);
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| 330 | }
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| 331 | pt_sum += incl_jets[i].perp();
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| 332 | area_sum += this_area;
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| 333 | double ratio = incl_jets[i].perp()/this_area;
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| 334 | if (ratio < range*nj_median_ratio) {
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| 335 | pt_sum_with_cut += incl_jets[i].perp();
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| 336 | area_sum_with_cut += this_area;
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| 337 | ratio_sum += ratio; ratio_n++;
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| 338 | }
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| 339 | }
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| 340 | }
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| 341 |
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| 342 | if (strat == play) {
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| 343 | double trunc_sum = 0, trunc_sumsqr = 0;
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| 344 | vector<double> means(pt_over_areas.size()), sd(pt_over_areas.size());
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| 345 | for (unsigned i = 0; i < pt_over_areas.size() ; i++ ) {
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| 346 | double ratio = pt_over_areas[i];
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| 347 | trunc_sum += ratio;
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| 348 | trunc_sumsqr += ratio*ratio;
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| 349 | means[i] = trunc_sum / (i+1);
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| 350 | sd[i] = sqrt(abs(means[i]*means[i] - trunc_sumsqr/(i+1)));
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| 351 | cerr << "i, means, sd: " <<i<<", "<< means[i] <<", "<<sd[i]<<", "<<
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| 352 | sd[i]/sqrt(i+1.0)<<endl;
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| 353 | }
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| 354 | cout << "-----------------------------------"<<endl;
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| 355 | for (unsigned i = 0; i <= pt_over_areas.size()/2 ; i++ ) {
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| 356 | cout << "Median "<< i <<" = " << pt_over_areas[i]<<endl;
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| 357 | }
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| 358 | cout << "Number of non-jets: "<<_non_jet_number<<endl;
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| 359 | cout << "Area of non-jets: "<<_non_jet_area<<endl;
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| 360 | cout << "Default median position: " << (pt_over_areas.size()-1)/2.0<<endl;
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| 361 | cout << "NJ median position: " << nj_median_pos <<endl;
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| 362 | cout << "NJ median value: " << nj_median_ratio <<endl;
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| 363 | return 0.0;
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| 364 | }
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| 365 |
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| 366 | switch(strat) {
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| 367 | case median:
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| 368 | case median_4vector:
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| 369 | return nj_median_ratio;
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| 370 | case non_ghost_median:
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| 371 | return non_ghost_median_ratio;
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| 372 | case pttot_over_areatot:
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| 373 | return pt_sum / area_sum;
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| 374 | case pttot_over_areatot_cut:
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| 375 | return pt_sum_with_cut / area_sum_with_cut;
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| 376 | case mean_ratio_cut:
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| 377 | return ratio_sum/ratio_n;
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| 378 | default:
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| 379 | return nj_median_ratio;
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| 380 | }
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| 381 |
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| 382 | }
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| 383 |
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| 384 |
|
---|
| 385 | // The following functionality is now provided by the base class
|
---|
| 386 | // //----------------------------------------------------------------------
|
---|
| 387 | // // fit a parabola to pt/area as a function of rapidity, using the
|
---|
| 388 | // // formulae of CCN28-36 (which actually fits f = a+b*x^2)
|
---|
| 389 | // void ClusterSequenceActiveArea::parabolic_pt_per_unit_area(
|
---|
| 390 | // double & a, double & b, double raprange, double exclude_above,
|
---|
| 391 | // bool use_area_4vector) const {
|
---|
| 392 | //
|
---|
| 393 | // double this_raprange;
|
---|
| 394 | // if (raprange <= 0) {this_raprange = _safe_rap_for_area;}
|
---|
| 395 | // else {this_raprange = raprange;}
|
---|
| 396 | //
|
---|
| 397 | // int n=0;
|
---|
| 398 | // int n_excluded = 0;
|
---|
| 399 | // double mean_f=0, mean_x2=0, mean_x4=0, mean_fx2=0;
|
---|
| 400 | //
|
---|
| 401 | // vector<PseudoJet> incl_jets = inclusive_jets();
|
---|
| 402 | //
|
---|
| 403 | // for (unsigned i = 0; i < incl_jets.size(); i++) {
|
---|
| 404 | // if (abs(incl_jets[i].rap()) < this_raprange) {
|
---|
| 405 | // double this_area;
|
---|
| 406 | // if ( use_area_4vector ) {
|
---|
| 407 | // this_area = area_4vector(incl_jets[i]).perp();
|
---|
| 408 | // } else {
|
---|
| 409 | // this_area = area(incl_jets[i]);
|
---|
| 410 | // }
|
---|
| 411 | // double f = incl_jets[i].perp()/this_area;
|
---|
| 412 | // if (exclude_above <= 0.0 || f < exclude_above) {
|
---|
| 413 | // double x = incl_jets[i].rap(); double x2 = x*x;
|
---|
| 414 | // mean_f += f;
|
---|
| 415 | // mean_x2 += x2;
|
---|
| 416 | // mean_x4 += x2*x2;
|
---|
| 417 | // mean_fx2 += f*x2;
|
---|
| 418 | // n++;
|
---|
| 419 | // } else {
|
---|
| 420 | // n_excluded++;
|
---|
| 421 | // }
|
---|
| 422 | // }
|
---|
| 423 | // }
|
---|
| 424 | //
|
---|
| 425 | // if (n <= 1) {
|
---|
| 426 | // // meaningful results require at least two jets inside the
|
---|
| 427 | // // area -- mind you if there are empty jets we should be in
|
---|
| 428 | // // any case doing something special...
|
---|
| 429 | // a = 0.0;
|
---|
| 430 | // b = 0.0;
|
---|
| 431 | // } else {
|
---|
| 432 | // mean_f /= n;
|
---|
| 433 | // mean_x2 /= n;
|
---|
| 434 | // mean_x4 /= n;
|
---|
| 435 | // mean_fx2 /= n;
|
---|
| 436 | //
|
---|
| 437 | // b = (mean_f*mean_x2 - mean_fx2)/(mean_x2*mean_x2 - mean_x4);
|
---|
| 438 | // a = mean_f - b*mean_x2;
|
---|
| 439 | // }
|
---|
| 440 | // //cerr << "n_excluded = "<< n_excluded << endl;
|
---|
| 441 | // }
|
---|
| 442 |
|
---|
| 443 |
|
---|
| 444 | //----------------------------------------------------------------------
|
---|
| 445 | double ClusterSequenceActiveArea::empty_area(const Selector & selector) const {
|
---|
| 446 | // make sure that the selector applies jet by jet
|
---|
| 447 | if (! selector.applies_jet_by_jet()){
|
---|
| 448 | throw Error("ClusterSequenceActiveArea: empty area can only be computed from selectors applying jet by jet");
|
---|
| 449 | }
|
---|
| 450 |
|
---|
| 451 | double empty = 0.0;
|
---|
| 452 | // first deal with ghost jets
|
---|
| 453 | for (unsigned i = 0; i < _ghost_jets.size(); i++) {
|
---|
| 454 | if (selector.pass(_ghost_jets[i])) {
|
---|
| 455 | empty += _ghost_jets[i].area;
|
---|
| 456 | }
|
---|
| 457 | }
|
---|
| 458 | // then deal with unclustered ghosts
|
---|
| 459 | for (unsigned i = 0; i < _unclustered_ghosts.size(); i++) {
|
---|
| 460 | if (selector.pass(_unclustered_ghosts[i])) {
|
---|
| 461 | empty += _unclustered_ghosts[i].area;
|
---|
| 462 | }
|
---|
| 463 | }
|
---|
| 464 | empty /= _ghost_spec_repeat;
|
---|
| 465 | return empty;
|
---|
| 466 | }
|
---|
| 467 |
|
---|
| 468 | //----------------------------------------------------------------------
|
---|
| 469 | double ClusterSequenceActiveArea::n_empty_jets(const Selector & selector) const {
|
---|
| 470 | _check_selector_good_for_median(selector);
|
---|
| 471 |
|
---|
| 472 | double inrange = 0;
|
---|
| 473 | for (unsigned i = 0; i < _ghost_jets.size(); i++) {
|
---|
| 474 | if (selector.pass(_ghost_jets[i])) inrange++;
|
---|
| 475 | }
|
---|
| 476 | inrange /= _ghost_spec_repeat;
|
---|
| 477 | return inrange;
|
---|
| 478 | }
|
---|
| 479 |
|
---|
| 480 | //----------------------------------------------------------------------
|
---|
| 481 | /// transfer the history (and jet-momenta) from clust_seq to our
|
---|
| 482 | /// own internal structure while removing ghosts
|
---|
| 483 | void ClusterSequenceActiveArea::_transfer_ghost_free_history(
|
---|
| 484 | const ClusterSequenceActiveAreaExplicitGhosts & ghosted_seq) {
|
---|
| 485 |
|
---|
| 486 | const vector<history_element> & gs_history = ghosted_seq.history();
|
---|
| 487 | vector<int> gs2self_hist_map(gs_history.size());
|
---|
| 488 |
|
---|
| 489 | // first transfer info about strategy used (which isn't necessarily
|
---|
| 490 | // always the one that got asked for...)
|
---|
| 491 | _strategy = ghosted_seq.strategy_used();
|
---|
| 492 |
|
---|
| 493 | // work our way through to first non-trivial combination
|
---|
| 494 | unsigned igs = 0;
|
---|
| 495 | unsigned iself = 0;
|
---|
| 496 | while (igs < gs_history.size() && gs_history[igs].parent1 == InexistentParent) {
|
---|
| 497 | // record correspondence
|
---|
| 498 | if (!ghosted_seq.is_pure_ghost(igs)) {
|
---|
| 499 | gs2self_hist_map[igs] = iself++;
|
---|
| 500 | } else {
|
---|
| 501 | gs2self_hist_map[igs] = Invalid;
|
---|
| 502 | }
|
---|
| 503 | igs++;
|
---|
| 504 | };
|
---|
| 505 |
|
---|
| 506 | // make sure the count of non-ghost initial jets is equal to
|
---|
| 507 | // what we already have in terms of initial jets
|
---|
| 508 | assert(iself == _history.size());
|
---|
| 509 |
|
---|
| 510 | // if there was no clustering in this event (e.g. SISCone passive
|
---|
| 511 | // area with zero input particles, or with a pt cut on stable cones
|
---|
| 512 | // that kills all jets), then don't bother with the rest (which
|
---|
| 513 | // would crash!)
|
---|
| 514 | if (igs == gs_history.size()) return;
|
---|
| 515 |
|
---|
| 516 | // now actually transfer things
|
---|
| 517 | do {
|
---|
| 518 | // if we are a pure ghost, then go on to next round
|
---|
| 519 | if (ghosted_seq.is_pure_ghost(igs)) {
|
---|
| 520 | gs2self_hist_map[igs] = Invalid;
|
---|
| 521 | continue;
|
---|
| 522 | }
|
---|
| 523 |
|
---|
| 524 | const history_element & gs_hist_el = gs_history[igs];
|
---|
| 525 |
|
---|
| 526 | bool parent1_is_ghost = ghosted_seq.is_pure_ghost(gs_hist_el.parent1);
|
---|
| 527 | bool parent2_is_ghost = ghosted_seq.is_pure_ghost(gs_hist_el.parent2);
|
---|
| 528 |
|
---|
| 529 | // if exactly one parent is a ghost then maintain info about the
|
---|
| 530 | // non-ghost correspondence for this jet, and then go on to next
|
---|
| 531 | // recombination in the ghosted sequence
|
---|
| 532 | if (parent1_is_ghost && !parent2_is_ghost && gs_hist_el.parent2 >= 0) {
|
---|
| 533 | gs2self_hist_map[igs] = gs2self_hist_map[gs_hist_el.parent2];
|
---|
| 534 | continue;
|
---|
| 535 | }
|
---|
| 536 | if (!parent1_is_ghost && parent2_is_ghost) {
|
---|
| 537 | gs2self_hist_map[igs] = gs2self_hist_map[gs_hist_el.parent1];
|
---|
| 538 | continue;
|
---|
| 539 | }
|
---|
| 540 |
|
---|
| 541 | // no parents are ghosts...
|
---|
| 542 | if (gs_hist_el.parent2 >= 0) {
|
---|
| 543 | // recombination of two non-ghosts
|
---|
| 544 | gs2self_hist_map[igs] = _history.size();
|
---|
| 545 | // record the recombination in our own sequence
|
---|
| 546 | int newjet_k; // dummy var -- not used
|
---|
| 547 | int jet_i = _history[gs2self_hist_map[gs_hist_el.parent1]].jetp_index;
|
---|
| 548 | int jet_j = _history[gs2self_hist_map[gs_hist_el.parent2]].jetp_index;
|
---|
| 549 | //cerr << "recombining "<< jet_i << " and "<< jet_j << endl;
|
---|
| 550 | _do_ij_recombination_step(jet_i, jet_j, gs_hist_el.dij, newjet_k);
|
---|
| 551 | } else {
|
---|
| 552 | // we have a non-ghost that has become a beam-jet
|
---|
| 553 | assert(gs_history[igs].parent2 == BeamJet);
|
---|
| 554 | // record position
|
---|
| 555 | gs2self_hist_map[igs] = _history.size();
|
---|
| 556 | // record the recombination in our own sequence
|
---|
| 557 | _do_iB_recombination_step(
|
---|
| 558 | _history[gs2self_hist_map[gs_hist_el.parent1]].jetp_index,
|
---|
| 559 | gs_hist_el.dij);
|
---|
| 560 | }
|
---|
| 561 | } while (++igs < gs_history.size());
|
---|
| 562 |
|
---|
| 563 | }
|
---|
| 564 |
|
---|
| 565 | //----------------------------------------------------------------------
|
---|
| 566 | void ClusterSequenceActiveArea::_transfer_areas(
|
---|
| 567 | const vector<int> & unique_hist_order,
|
---|
| 568 | const ClusterSequenceActiveAreaExplicitGhosts & ghosted_seq ) {
|
---|
| 569 |
|
---|
| 570 | const vector<history_element> & gs_history = ghosted_seq.history();
|
---|
| 571 | const vector<PseudoJet> & gs_jets = ghosted_seq.jets();
|
---|
| 572 | vector<int> gs_unique_hist_order = ghosted_seq.unique_history_order();
|
---|
| 573 |
|
---|
| 574 | const double tolerance = 1e-11; // to decide when two jets are the same
|
---|
| 575 |
|
---|
| 576 | int j = -1;
|
---|
| 577 | int hist_index = -1;
|
---|
| 578 |
|
---|
| 579 | valarray<double> our_areas(_history.size());
|
---|
| 580 | our_areas = 0.0;
|
---|
| 581 |
|
---|
| 582 | valarray<PseudoJet> our_area_4vectors(_history.size());
|
---|
| 583 | our_area_4vectors = PseudoJet(0.0,0.0,0.0,0.0);
|
---|
| 584 |
|
---|
| 585 | for (unsigned i = 0; i < gs_history.size(); i++) {
|
---|
| 586 | // only consider composite particles
|
---|
| 587 | unsigned gs_hist_index = gs_unique_hist_order[i];
|
---|
| 588 | if (gs_hist_index < ghosted_seq.n_particles()) continue;
|
---|
| 589 | const history_element & gs_hist = gs_history[gs_unique_hist_order[i]];
|
---|
| 590 | int parent1 = gs_hist.parent1;
|
---|
| 591 | int parent2 = gs_hist.parent2;
|
---|
| 592 |
|
---|
| 593 | if (parent2 == BeamJet) {
|
---|
| 594 | // need to look at parent to get the actual jet
|
---|
| 595 | const PseudoJet & jet =
|
---|
| 596 | gs_jets[gs_history[parent1].jetp_index];
|
---|
| 597 | double area_local = ghosted_seq.area(jet);
|
---|
| 598 | PseudoJet ext_area = ghosted_seq.area_4vector(jet);
|
---|
| 599 |
|
---|
| 600 | if (ghosted_seq.is_pure_ghost(parent1)) {
|
---|
| 601 | // record the existence of the pure ghost jet for future use
|
---|
| 602 | _ghost_jets.push_back(GhostJet(jet,area_local));
|
---|
| 603 | if (abs(jet.rap()) < _safe_rap_for_area) {
|
---|
| 604 | _non_jet_area += area_local;
|
---|
| 605 | _non_jet_area2 += area_local*area_local;
|
---|
| 606 | _non_jet_number += 1;
|
---|
| 607 | }
|
---|
| 608 | } else {
|
---|
| 609 |
|
---|
| 610 | // get next "combined-particle" index in our own history
|
---|
| 611 | // making sure we don't go beyond its bounds (if we do
|
---|
| 612 | // then we're in big trouble anyway...)
|
---|
| 613 | while (++j < int(_history.size())) {
|
---|
| 614 | hist_index = unique_hist_order[j];
|
---|
| 615 | if (hist_index >= _initial_n) break;}
|
---|
| 616 |
|
---|
| 617 | // sanity checking -- do not overrun
|
---|
| 618 | if (j >= int(_history.size())) throw Error("ClusterSequenceActiveArea: overran reference array in diB matching");
|
---|
| 619 |
|
---|
| 620 | // sanity check -- make sure we are taking about the same
|
---|
| 621 | // jet in reference and new sequences
|
---|
| 622 | int refjet_index = _history[_history[hist_index].parent1].jetp_index;
|
---|
| 623 | assert(refjet_index >= 0 && refjet_index < int(_jets.size()));
|
---|
| 624 | const PseudoJet & refjet = _jets[refjet_index];
|
---|
| 625 |
|
---|
| 626 | //cerr << "Inclusive" << endl;
|
---|
| 627 | //cerr << gs_history[parent1].jetp_index << " " << gs_jets.size() << endl;
|
---|
| 628 | //cerr << _history[_history[hist_index].parent1].jetp_index << " " << _jets.size() << endl;
|
---|
| 629 |
|
---|
| 630 | // If pt disagrees check E; if they both disagree there's a
|
---|
| 631 | // problem here... NB: a massive particle with zero pt may
|
---|
| 632 | // have its pt changed when a ghost is added -- this is why we
|
---|
| 633 | // also require the energy to be wrong before complaining
|
---|
| 634 | _throw_unless_jets_have_same_perp_or_E(jet, refjet, tolerance,
|
---|
| 635 | ghosted_seq);
|
---|
| 636 |
|
---|
| 637 | // set the area at this clustering stage
|
---|
| 638 | our_areas[hist_index] = area_local;
|
---|
| 639 | our_area_4vectors[hist_index] = ext_area;
|
---|
| 640 |
|
---|
| 641 | // update the parent as well -- that way its area is the area
|
---|
| 642 | // immediately before clustering (i.e. resolve an ambiguity in
|
---|
| 643 | // the Cambridge case and ensure in the kt case that the original
|
---|
| 644 | // particles get a correct area)
|
---|
| 645 | our_areas[_history[hist_index].parent1] = area_local;
|
---|
| 646 | our_area_4vectors[_history[hist_index].parent1] = ext_area;
|
---|
| 647 |
|
---|
| 648 | }
|
---|
| 649 | }
|
---|
| 650 | else if (!ghosted_seq.is_pure_ghost(parent1) &&
|
---|
| 651 | !ghosted_seq.is_pure_ghost(parent2)) {
|
---|
| 652 |
|
---|
| 653 | // get next "combined-particle" index in our own history
|
---|
| 654 | while (++j < int(_history.size())) {
|
---|
| 655 | hist_index = unique_hist_order[j];
|
---|
| 656 | if (hist_index >= _initial_n) break;}
|
---|
| 657 |
|
---|
| 658 | // sanity checking -- do not overrun
|
---|
| 659 | if (j >= int(_history.size())) throw Error("ClusterSequenceActiveArea: overran reference array in dij matching");
|
---|
| 660 |
|
---|
| 661 | // make sure that our reference history entry is also for
|
---|
| 662 | // an exclusive (dij) clustering (otherwise the comparison jet
|
---|
| 663 | // will not exist)
|
---|
| 664 | if (_history[hist_index].parent2 == BeamJet) throw Error("ClusterSequenceActiveArea: could not match clustering sequences (encountered dij matched with diB)");
|
---|
| 665 |
|
---|
| 666 | //cerr << "Exclusive: hist_index,hist_size: " << hist_index << " " << _history.size()<< endl;
|
---|
| 667 | //cerr << gs_hist.jetp_index << " " << gs_jets.size() << endl;
|
---|
| 668 | //cerr << _history[hist_index].jetp_index << " " << _jets.size() << endl;
|
---|
| 669 |
|
---|
| 670 | const PseudoJet & jet = gs_jets[gs_hist.jetp_index];
|
---|
| 671 | const PseudoJet & refjet = _jets[_history[hist_index].jetp_index];
|
---|
| 672 |
|
---|
| 673 | // run sanity check
|
---|
| 674 | _throw_unless_jets_have_same_perp_or_E(jet, refjet, tolerance,
|
---|
| 675 | ghosted_seq);
|
---|
| 676 |
|
---|
| 677 | // update area and our local index (maybe redundant since later
|
---|
| 678 | // the descendants will reupdate it?)
|
---|
| 679 | double area_local = ghosted_seq.area(jet);
|
---|
| 680 | our_areas[hist_index] += area_local;
|
---|
| 681 |
|
---|
| 682 | PseudoJet ext_area = ghosted_seq.area_4vector(jet);
|
---|
| 683 |
|
---|
| 684 | // GPS TMP debugging (jetclu) -----------------------
|
---|
| 685 | //ext_area = PseudoJet(1e-100,1e-100,1e-100,4e-100);
|
---|
| 686 | //our_area_4vectors[hist_index] = ext_area;
|
---|
| 687 | //cout << "aa "
|
---|
| 688 | // << our_area_4vectors[hist_index].px() << " "
|
---|
| 689 | // << our_area_4vectors[hist_index].py() << " "
|
---|
| 690 | // << our_area_4vectors[hist_index].pz() << " "
|
---|
| 691 | // << our_area_4vectors[hist_index].E() << endl;
|
---|
| 692 | //cout << "bb "
|
---|
| 693 | // << ext_area.px() << " "
|
---|
| 694 | // << ext_area.py() << " "
|
---|
| 695 | // << ext_area.pz() << " "
|
---|
| 696 | // << ext_area.E() << endl;
|
---|
| 697 | //---------------------------------------------------
|
---|
| 698 |
|
---|
| 699 | _jet_def.recombiner()->plus_equal(our_area_4vectors[hist_index], ext_area);
|
---|
| 700 |
|
---|
| 701 | // now update areas of parents (so that they becomes areas
|
---|
| 702 | // immediately before clustering occurred). This is of use
|
---|
| 703 | // because it allows us to set the areas of the original hard
|
---|
| 704 | // particles in the kt algorithm; for the Cambridge case it
|
---|
| 705 | // means a jet's area will be the area just before it clusters
|
---|
| 706 | // with another hard jet.
|
---|
| 707 | const PseudoJet & jet1 = gs_jets[gs_history[parent1].jetp_index];
|
---|
| 708 | int our_parent1 = _history[hist_index].parent1;
|
---|
| 709 | our_areas[our_parent1] = ghosted_seq.area(jet1);
|
---|
| 710 | our_area_4vectors[our_parent1] = ghosted_seq.area_4vector(jet1);
|
---|
| 711 |
|
---|
| 712 | const PseudoJet & jet2 = gs_jets[gs_history[parent2].jetp_index];
|
---|
| 713 | int our_parent2 = _history[hist_index].parent2;
|
---|
| 714 | our_areas[our_parent2] = ghosted_seq.area(jet2);
|
---|
| 715 | our_area_4vectors[our_parent2] = ghosted_seq.area_4vector(jet2);
|
---|
| 716 | }
|
---|
| 717 |
|
---|
| 718 | }
|
---|
| 719 |
|
---|
| 720 | // now add unclustered ghosts to the relevant list so that we can
|
---|
| 721 | // calculate empty area later.
|
---|
| 722 | vector<PseudoJet> unclust = ghosted_seq.unclustered_particles();
|
---|
| 723 | for (unsigned iu = 0; iu < unclust.size(); iu++) {
|
---|
| 724 | if (ghosted_seq.is_pure_ghost(unclust[iu])) {
|
---|
| 725 | double area_local = ghosted_seq.area(unclust[iu]);
|
---|
| 726 | _unclustered_ghosts.push_back(GhostJet(unclust[iu],area_local));
|
---|
| 727 | }
|
---|
| 728 | }
|
---|
| 729 |
|
---|
| 730 | /*
|
---|
| 731 | * WARNING:
|
---|
| 732 | * _average_area has explicitly been sized initially to 2*jets().size()
|
---|
| 733 | * which can be bigger than our_areas (of size _history.size()
|
---|
| 734 | * if there are some unclustered particles.
|
---|
| 735 | * So we must take care about boundaries
|
---|
| 736 | */
|
---|
| 737 |
|
---|
| 738 | for (unsigned int area_index = 0; area_index<our_areas.size(); area_index++){
|
---|
| 739 | _average_area[area_index] += our_areas[area_index];
|
---|
| 740 | _average_area2[area_index] += our_areas[area_index]*our_areas[area_index];
|
---|
| 741 | }
|
---|
| 742 |
|
---|
| 743 | //_average_area_4vector += our_area_4vectors;
|
---|
| 744 | // Use the proper recombination scheme when averaging the area_4vectors
|
---|
| 745 | // over multiple ghost runs (i.e. the repeat stage);
|
---|
| 746 | for (unsigned i = 0; i < our_area_4vectors.size(); i++) {
|
---|
| 747 | _jet_def.recombiner()->plus_equal(_average_area_4vector[i],
|
---|
| 748 | our_area_4vectors[i]);
|
---|
| 749 | }
|
---|
| 750 | }
|
---|
| 751 |
|
---|
| 752 |
|
---|
| 753 | /// check if two jets have the same momentum to within the
|
---|
| 754 | /// tolerance (and if pt's are not the same we're forgiving and
|
---|
| 755 | /// look to see if the energy is the same)
|
---|
| 756 | void ClusterSequenceActiveArea::_throw_unless_jets_have_same_perp_or_E(
|
---|
| 757 | const PseudoJet & jet,
|
---|
| 758 | const PseudoJet & refjet,
|
---|
| 759 | double tolerance,
|
---|
| 760 | const ClusterSequenceActiveAreaExplicitGhosts & jets_ghosted_seq
|
---|
| 761 | ) const {
|
---|
| 762 |
|
---|
| 763 | if (abs(jet.perp2()-refjet.perp2()) >
|
---|
| 764 | tolerance*max(jet.perp2(),refjet.perp2())
|
---|
| 765 | && abs(jet.E()-refjet.E()) > tolerance*max(jet.E(),refjet.E())) {
|
---|
| 766 | ostringstream ostr;
|
---|
| 767 | ostr << "Could not match clustering sequence for an inclusive/exclusive jet when reconstructing areas. See FAQ for possible explanations." << endl;
|
---|
| 768 | ostr << " Ref-Jet: "
|
---|
| 769 | << refjet.px() << " "
|
---|
| 770 | << refjet.py() << " "
|
---|
| 771 | << refjet.pz() << " "
|
---|
| 772 | << refjet.E() << endl;
|
---|
| 773 | ostr << " New-Jet: "
|
---|
| 774 | << jet.px() << " "
|
---|
| 775 | << jet.py() << " "
|
---|
| 776 | << jet.pz() << " "
|
---|
| 777 | << jet.E() << endl;
|
---|
| 778 | if (jets_ghosted_seq.has_dangerous_particles()) {
|
---|
| 779 | ostr << " NB: some particles have pt too low wrt ghosts -- this may be the cause" << endl;}
|
---|
| 780 | //ostr << jet.perp() << " " << refjet.perp() << " "
|
---|
| 781 | // << jet.perp() - refjet.perp() << endl;
|
---|
| 782 | throw Error(ostr.str());
|
---|
| 783 | }
|
---|
| 784 | }
|
---|
| 785 |
|
---|
| 786 | FASTJET_END_NAMESPACE
|
---|
| 787 |
|
---|