[35cdc46] | 1 | #ifndef __FASTJET_LAZYTILING9ALT_HH__
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| 2 | #define __FASTJET_LAZYTILING9ALT_HH__
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| 3 |
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| 4 | //FJSTARTHEADER
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[cb80e6f] | 5 | // $Id: LazyTiling9Alt.hh 4442 2020-05-05 07:50:11Z soyez $
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[35cdc46] | 6 | //
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[cb80e6f] | 7 | // Copyright (c) 2005-2020, Matteo Cacciari, Gavin P. Salam and Gregory Soyez
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[35cdc46] | 8 | //
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| 9 | //----------------------------------------------------------------------
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| 10 | // This file is part of FastJet.
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| 11 | //
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| 12 | // FastJet is free software; you can redistribute it and/or modify
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| 13 | // it under the terms of the GNU General Public License as published by
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| 14 | // the Free Software Foundation; either version 2 of the License, or
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| 15 | // (at your option) any later version.
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| 16 | //
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| 17 | // The algorithms that underlie FastJet have required considerable
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| 18 | // development. They are described in the original FastJet paper,
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| 19 | // hep-ph/0512210 and in the manual, arXiv:1111.6097. If you use
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| 20 | // FastJet as part of work towards a scientific publication, please
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| 21 | // quote the version you use and include a citation to the manual and
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| 22 | // optionally also to hep-ph/0512210.
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| 23 | //
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| 24 | // FastJet is distributed in the hope that it will be useful,
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| 25 | // but WITHOUT ANY WARRANTY; without even the implied warranty of
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| 26 | // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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| 27 | // GNU General Public License for more details.
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| 28 | //
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| 29 | // You should have received a copy of the GNU General Public License
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| 30 | // along with FastJet. If not, see <http://www.gnu.org/licenses/>.
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| 31 | //----------------------------------------------------------------------
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| 32 | //FJENDHEADER
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| 33 |
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| 34 | //#include "fastjet/PseudoJet.hh"
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| 35 | #include "fastjet/internal/MinHeap.hh"
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| 36 | #include "fastjet/ClusterSequence.hh"
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| 37 |
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| 38 | FASTJET_BEGIN_NAMESPACE // defined in fastjet/internal/base.hh
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| 39 |
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[10e33bc] | 40 | /// Rounding errors in the Lazy strategies may cause the following
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| 41 | /// problem: when browsing tiles in the vicinity of the particles
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| 42 | /// being clustered in order to decide which of these tiles may
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| 43 | /// contain particles that need to be updated (because theit NN is one
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| 44 | /// of the particles that are currently clustered), we discard tiles
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| 45 | /// that are deemed "too far from the cell" by the "max_NN_dist"
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| 46 | /// criterion. Because of rounding error, this condition can sometimes
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| 47 | /// miss cases where an update is needed.
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| 48 | ///
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| 49 | /// An example of this happens if a particle '1' is, say, at the lower
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| 50 | /// edge of the rapidity of a given tile, with a particle '2' in the
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| 51 | /// tile directly on its left at the same rapidity. Assume also that
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| 52 | /// max_NN_dist in 2's tile corresponds to the distance between 2 and
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| 53 | /// teh tile of 1. If 2 is 1's NN then in case 2 gets clustered, 1's
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| 54 | /// NN needs to be updated. However, rounding errors in the
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| 55 | /// calculation of the distance between 1 and 2 may result is
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| 56 | /// something slightly larger than the max_NN_dist in 2's tile.
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| 57 | ///
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| 58 | /// This situation corresponds to the bug reported by Jochen Olt on
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| 59 | /// February 12 2015 [see issue-tracker/2015-02-infinite-loop],
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| 60 | /// causing an infinite loop.
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| 61 | ///
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| 62 | /// To prevent this, the simplest solution is, when looking at tiles
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| 63 | /// to browse for updateds, to add a margin of security close to the
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| 64 | /// edges of the cell, i.e. instead of updating only tiles for which
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| 65 | /// distance<=max_NN_dist, we will update tiles for which
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| 66 | /// distance<=max_NN_dist+tile_edge_security_margin.
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| 67 | ///
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| 68 | /// Note that this does not need to be done when computing nearest
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| 69 | /// neighbours [rounding errors are tolerated there] but it is
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| 70 | /// critical when tracking points that have to be updated.
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| 71 | const double tile_edge_security_margin=1.0e-7;
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| 72 |
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[35cdc46] | 73 | /// structure analogous to BriefJet, but with the extra information
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| 74 | /// needed for dealing with tiles
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| 75 | class TiledJet {
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| 76 | public:
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| 77 | double eta, phi, kt2, NN_dist;
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| 78 | TiledJet * NN, *previous, * next;
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| 79 | int _jets_index, tile_index;
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| 80 | bool _minheap_update_needed;
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| 81 |
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| 82 | // indicate whether jets need to have their minheap entries
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| 83 | // updated).
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| 84 | inline void label_minheap_update_needed() {_minheap_update_needed = true;}
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| 85 | inline void label_minheap_update_done() {_minheap_update_needed = false;}
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| 86 | inline bool minheap_update_needed() const {return _minheap_update_needed;}
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| 87 | };
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| 88 |
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| 89 | const int n_tile_neighbours = 9;
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| 90 |
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| 91 | class Tile {
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| 92 | public:
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| 93 | typedef double (Tile::*DistToTileFn)(const TiledJet*) const;
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| 94 | typedef std::pair<Tile *, DistToTileFn> TileFnPair;
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| 95 | /// pointers to neighbouring tiles, including self
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| 96 | TileFnPair begin_tiles[n_tile_neighbours];
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| 97 | /// neighbouring tiles, excluding self
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| 98 | TileFnPair * surrounding_tiles;
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| 99 | /// half of neighbouring tiles, no self
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| 100 | TileFnPair * RH_tiles;
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| 101 | /// just beyond end of tiles
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| 102 | TileFnPair * end_tiles;
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| 103 | /// start of list of BriefJets contained in this tile
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| 104 | TiledJet * head;
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| 105 | /// sometimes useful to be able to tag a tile
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| 106 | bool tagged;
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| 107 | /// true for tiles where the delta phi calculation needs
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| 108 | /// potentially to account for periodicity in phi
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| 109 | bool use_periodic_delta_phi;
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| 110 | /// for all particles in the tile, this stores the largest of the
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| 111 | /// (squared) nearest-neighbour distances.
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| 112 | double max_NN_dist;
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| 113 | double eta_min, eta_max, phi_min, phi_max;
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| 114 |
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| 115 | double distance_to_centre(const TiledJet *) const {return 0;}
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| 116 | double distance_to_left(const TiledJet * jet) const {
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| 117 | double deta = jet->eta - eta_min;
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| 118 | return deta*deta;
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| 119 | }
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| 120 | double distance_to_right(const TiledJet * jet) const {
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| 121 | double deta = jet->eta - eta_max;
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| 122 | return deta*deta;
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| 123 | }
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| 124 | double distance_to_bottom(const TiledJet * jet) const {
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| 125 | double dphi = jet->phi - phi_min;
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| 126 | return dphi*dphi;
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| 127 | }
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| 128 | double distance_to_top(const TiledJet * jet) const {
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| 129 | double dphi = jet->phi - phi_max;
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| 130 | return dphi*dphi;
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| 131 | }
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| 132 |
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| 133 | double distance_to_left_top(const TiledJet * jet) const {
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| 134 | double deta = jet->eta - eta_min;
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| 135 | double dphi = jet->phi - phi_max;
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| 136 | return deta*deta + dphi*dphi;
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| 137 | }
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| 138 | double distance_to_left_bottom(const TiledJet * jet) const {
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| 139 | double deta = jet->eta - eta_min;
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| 140 | double dphi = jet->phi - phi_min;
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| 141 | return deta*deta + dphi*dphi;
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| 142 | }
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| 143 | double distance_to_right_top(const TiledJet * jet) const {
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| 144 | double deta = jet->eta - eta_max;
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| 145 | double dphi = jet->phi - phi_max;
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| 146 | return deta*deta + dphi*dphi;
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| 147 | }
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| 148 | double distance_to_right_bottom(const TiledJet * jet) const {
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| 149 | double deta = jet->eta - eta_max;
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| 150 | double dphi = jet->phi - phi_min;
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| 151 | return deta*deta + dphi*dphi;
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| 152 | }
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| 153 |
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| 154 |
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| 155 | };
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| 156 |
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| 157 | //----------------------------------------------------------------------
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| 158 | class LazyTiling9Alt {
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| 159 | public:
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| 160 | LazyTiling9Alt(ClusterSequence & cs);
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| 161 |
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| 162 | void run();
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| 163 |
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| 164 | //void get_next_clustering(int & jetA_index, int & jetB_index, double & dij);
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| 165 |
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| 166 |
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| 167 | protected:
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| 168 | ClusterSequence & _cs;
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| 169 | const std::vector<PseudoJet> & _jets;
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| 170 | std::vector<Tile> _tiles;
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| 171 |
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| 172 |
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| 173 | double _Rparam, _R2, _invR2;
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| 174 | double _tiles_eta_min, _tiles_eta_max;
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| 175 | double _tile_size_eta, _tile_size_phi;
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| 176 | double _tile_half_size_eta, _tile_half_size_phi;
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| 177 | int _n_tiles_phi,_tiles_ieta_min,_tiles_ieta_max;
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| 178 |
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| 179 | std::vector<TiledJet *> _jets_for_minheap;
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| 180 |
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| 181 | //MinHeap _minheap;
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| 182 |
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| 183 | void _initialise_tiles();
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| 184 |
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| 185 | // reasonably robust return of tile index given ieta and iphi, in particular
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| 186 | // it works even if iphi is negative
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| 187 | inline int _tile_index (int ieta, int iphi) const {
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| 188 | // note that (-1)%n = -1 so that we have to add _n_tiles_phi
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| 189 | // before performing modulo operation
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| 190 | return (ieta-_tiles_ieta_min)*_n_tiles_phi
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| 191 | + (iphi+_n_tiles_phi) % _n_tiles_phi;
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| 192 | }
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| 193 |
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| 194 | void _bj_remove_from_tiles(TiledJet * const jet);
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| 195 |
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| 196 | /// returns the tile index given the eta and phi values of a jet
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| 197 | int _tile_index(const double eta, const double phi) const;
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| 198 |
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| 199 | // sets up information regarding the tiling of the given jet
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| 200 | void _tj_set_jetinfo(TiledJet * const jet, const int _jets_index);
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| 201 |
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| 202 | void _print_tiles(TiledJet * briefjets ) const;
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| 203 | void _add_neighbours_to_tile_union(const int tile_index,
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| 204 | std::vector<int> & tile_union, int & n_near_tiles) const;
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| 205 | void _add_untagged_neighbours_to_tile_union(const int tile_index,
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| 206 | std::vector<int> & tile_union, int & n_near_tiles);
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| 207 | void _add_untagged_neighbours_to_tile_union_using_max_info(const TiledJet * const jet,
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| 208 | std::vector<int> & tile_union, int & n_near_tiles);
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| 209 | //double _distance_to_tile(const TiledJet * bj, const Tile *) const;
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| 210 | void _update_jetX_jetI_NN(TiledJet * jetX, TiledJet * jetI, std::vector<TiledJet *> & jets_for_minheap);
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| 211 |
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| 212 | void _set_NN(TiledJet * jetI, std::vector<TiledJet *> & jets_for_minheap);
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| 213 |
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| 214 | // return the diJ (multiplied by _R2) for this jet assuming its NN
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| 215 | // info is correct
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| 216 | template <class J> double _bj_diJ(const J * const jet) const {
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| 217 | double kt2 = jet->kt2;
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| 218 | if (jet->NN != NULL) {if (jet->NN->kt2 < kt2) {kt2 = jet->NN->kt2;}}
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| 219 | return jet->NN_dist * kt2;
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| 220 | }
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| 221 |
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| 222 |
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| 223 | //----------------------------------------------------------------------
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| 224 | template <class J> inline void _bj_set_jetinfo(
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| 225 | J * const jetA, const int _jets_index) const {
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| 226 | jetA->eta = _jets[_jets_index].rap();
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| 227 | jetA->phi = _jets[_jets_index].phi_02pi();
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| 228 | jetA->kt2 = _cs.jet_scale_for_algorithm(_jets[_jets_index]);
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| 229 | jetA->_jets_index = _jets_index;
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| 230 | // initialise NN info as well
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| 231 | jetA->NN_dist = _R2;
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| 232 | jetA->NN = NULL;
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| 233 | }
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| 234 |
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| 235 |
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| 236 | //----------------------------------------------------------------------
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| 237 | template <class J> inline double _bj_dist(
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| 238 | const J * const jetA, const J * const jetB) const {
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| 239 | double dphi = std::abs(jetA->phi - jetB->phi);
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| 240 | double deta = (jetA->eta - jetB->eta);
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| 241 | if (dphi > pi) {dphi = twopi - dphi;}
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| 242 | return dphi*dphi + deta*deta;
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| 243 | }
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| 244 |
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| 245 |
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| 246 | //----------------------------------------------------------------------
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| 247 | template <class J> inline double _bj_dist_not_periodic(
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| 248 | const J * const jetA, const J * const jetB) const {
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| 249 | double dphi = jetA->phi - jetB->phi;
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| 250 | double deta = (jetA->eta - jetB->eta);
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| 251 | return dphi*dphi + deta*deta;
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| 252 | }
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| 253 |
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| 254 | };
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| 255 |
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| 256 |
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| 257 | FASTJET_END_NAMESPACE
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| 258 |
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| 259 | #endif // __FASTJET_LAZYTILING9ALT_HH__
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