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source: git/external/fastjet/tools/GridMedianBackgroundEstimator.hh@ a0236d5

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Last change on this file since a0236d5 was 554babf, checked in by Pavel Demin <pavel.demin@…>, 10 years ago

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[d7d2da3]1#ifndef __GRID_MEDIAN_BACKGROUND_ESTIMATOR_HH__
2#define __GRID_MEDIAN_BACKGROUND_ESTIMATOR_HH__
3
[35cdc46]4//FJSTARTHEADER
[554babf]5// $Id: GridMedianBackgroundEstimator.hh 3778 2014-12-24 09:28:09Z salam $
[d7d2da3]6//
[35cdc46]7// Copyright (c) 2005-2014, Matteo Cacciari, Gavin P. Salam and Gregory Soyez
[d7d2da3]8//
9//----------------------------------------------------------------------
10// This file is part of FastJet.
11//
12// FastJet is free software; you can redistribute it and/or modify
13// it under the terms of the GNU General Public License as published by
14// the Free Software Foundation; either version 2 of the License, or
15// (at your option) any later version.
16//
17// The algorithms that underlie FastJet have required considerable
[35cdc46]18// development. They are described in the original FastJet paper,
19// hep-ph/0512210 and in the manual, arXiv:1111.6097. If you use
[d7d2da3]20// FastJet as part of work towards a scientific publication, please
[35cdc46]21// quote the version you use and include a citation to the manual and
22// optionally also to hep-ph/0512210.
[d7d2da3]23//
24// FastJet is distributed in the hope that it will be useful,
25// but WITHOUT ANY WARRANTY; without even the implied warranty of
26// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
27// GNU General Public License for more details.
28//
29// You should have received a copy of the GNU General Public License
30// along with FastJet. If not, see <http://www.gnu.org/licenses/>.
31//----------------------------------------------------------------------
[35cdc46]32//FJENDHEADER
[d7d2da3]33
34
35#include "fastjet/tools/BackgroundEstimatorBase.hh"
36
[35cdc46]37// if defined then we'll use the RectangularGrid class
38//
39// (For FastJet 3.2, maybe remove the symbol and simply clean up the
40// code below to use exclusively the RectangularGrid)
41#define FASTJET_GMBGE_USEFJGRID
42
43#ifdef FASTJET_GMBGE_USEFJGRID
44#include "fastjet/RectangularGrid.hh"
45#endif
46
47
48
[d7d2da3]49FASTJET_BEGIN_NAMESPACE // defined in fastjet/internal/base.hh
50
51/// @ingroup tools_background
52/// \class GridMedianBackgroundEstimator
53///
54/// Background Estimator based on the median pt/area of a set of grid
55/// cells.
56///
57/// Description of the method:
58/// This background estimator works by projecting the event onto a
59/// grid in rapidity and azimuth. In each grid cell, the scalar pt
60/// sum of the particles in the cell is computed. The background
61/// density is then estimated by the median of (scalar pt sum/cell
62/// area) for all cells.
63///
64/// Parameters:
65/// The class takes 2 arguments: the absolute rapidity extent of the
66/// cells and the size of the grid cells. Note that the size of the cell
67/// will be adjusted in azimuth to satisfy the 2pi periodicity and
68/// in rapidity to match the requested rapidity extent.
69///
70/// Rescaling:
71/// It is possible to use a rescaling profile. In this case, the
72/// profile needs to be set before setting the particles and it will
73/// be applied to each particle (i.e. not to each cell).
74/// Note also that in this case one needs to call rho(jet) instead of
75/// rho() [Without rescaling, they are identical]
76///
[35cdc46]77class GridMedianBackgroundEstimator : public BackgroundEstimatorBase
78#ifdef FASTJET_GMBGE_USEFJGRID
[554babf]79 , public RectangularGrid
[35cdc46]80#endif
81{
82
[d7d2da3]83public:
84 /// @name constructors and destructors
85 //\{
[35cdc46]86#ifdef FASTJET_GMBGE_USEFJGRID
[d7d2da3]87 //----------------------------------------------------------------
88 /// \param ymax maximal absolute rapidity extent of the grid
89 /// \param requested_grid_spacing size of the grid cell. The
90 /// "real" cell size could differ due e.g. to the 2pi
91 /// periodicity in azimuthal angle (size, not area)
[35cdc46]92 GridMedianBackgroundEstimator(double ymax, double requested_grid_spacing) :
93 RectangularGrid(ymax, requested_grid_spacing),
94 _has_particles(false), _enable_rho_m(true) {}
95
[554babf]96 //----------------------------------------------------------------
97 /// Constructor based on a user's fully specified RectangularGrid
98 GridMedianBackgroundEstimator(const RectangularGrid & grid) :
99 RectangularGrid(grid),
100 _has_particles(false), _enable_rho_m(true) {
101 if (!RectangularGrid::is_initialised())
102 throw Error("attempt to construct GridMedianBackgroundEstimator with uninitialised RectangularGrid");
103 }
104
105 //----------------------------------------------------------------
106 /// Constructor with the explicit parameters for the underlying
107 /// RectangularGrid
108 ///
[406b698]109 /// \param rapmin the minimum rapidity extent of the grid
110 /// \param rapmax the maximum rapidity extent of the grid
111 /// \param drap the grid spacing in rapidity
112 /// \param dphi the grid spacing in azimuth
[554babf]113 /// \param tile_selector optional (geometric) selector to specify
[406b698]114 /// which tiles are good; a tile is good if
115 /// a massless 4-vector at the center of the tile passes
116 /// the selection
117 GridMedianBackgroundEstimator(double rapmin_in, double rapmax_in, double drap_in, double dphi_in,
118 Selector tile_selector = Selector()) :
119 RectangularGrid(rapmin_in, rapmax_in, drap_in, dphi_in, tile_selector),
120 _has_particles(false), _enable_rho_m(true) {}
121
[35cdc46]122#else // alternative in old framework where we didn't have the rectangular grid
[d7d2da3]123 GridMedianBackgroundEstimator(double ymax, double requested_grid_spacing) :
124 _ymin(-ymax), _ymax(ymax),
125 _requested_grid_spacing(requested_grid_spacing),
[35cdc46]126 _has_particles(false), _enable_rho_m(true)
127 {
128 setup_grid();
129 }
130#endif // FASTJET_GMBGE_USEFJGRID
131
[d7d2da3]132 //\}
133
134
135 /// @name setting a new event
136 //\{
137 //----------------------------------------------------------------
138
139 /// tell the background estimator that it has a new event, composed
140 /// of the specified particles.
141 void set_particles(const std::vector<PseudoJet> & particles);
142
[35cdc46]143 /// determine whether the automatic calculation of rho_m and sigma_m
144 /// is enabled (by default true)
145 void set_compute_rho_m(bool enable){ _enable_rho_m = enable;}
146
[d7d2da3]147 //\}
148
149 /// @name retrieving fundamental information
150 //\{
151 //----------------------------------------------------------------
152
153 /// returns rho, the median background density per unit area
154 double rho() const;
155
156 /// returns sigma, the background fluctuations per unit area; must be
157 /// multipled by sqrt(area) to get fluctuations for a region of a
158 /// given area.
159 double sigma() const;
160
161 /// returns rho, the background density per unit area, locally at the
162 /// position of a given jet. Note that this is not const, because a
163 /// user may then wish to query other aspects of the background that
164 /// could depend on the position of the jet last used for a rho(jet)
165 /// determination.
166 double rho(const PseudoJet & jet);
167
168 /// returns sigma, the background fluctuations per unit area, locally at
169 /// the position of a given jet. As for rho(jet), it is non-const.
170 double sigma(const PseudoJet & jet);
171
172 /// returns true if this background estimator has support for
173 /// determination of sigma
174 bool has_sigma() {return true;}
175
[35cdc46]176 //-----------------------------------------------------------------
177 /// Returns rho_m, the purely longitudinal, particle-mass-induced
178 /// component of the background density per unit area
179 double rho_m() const;
180
181 /// returns sigma_m, a measure of the fluctuations in the purely
182 /// longitudinal, particle-mass-induced component of the background
183 /// density per unit area; must be multipled by sqrt(area) to get
184 /// fluctuations for a region of a given area.
185 double sigma_m() const;
186
187 /// Returns rho_m locally at the jet position. As for rho(jet), it is non-const.
188 double rho_m(const PseudoJet & jet);
189
190 /// Returns sigma_m locally at the jet position. As for rho(jet), it is non-const.
191 double sigma_m(const PseudoJet & jet);
192
193 /// Returns true if this background estimator has support for
194 /// determination of rho_m.
195 ///
196 /// Note that support for sigma_m is automatic is one has sigma and
197 /// rho_m support.
198 bool has_rho_m() const {return _enable_rho_m;}
199
200
[d7d2da3]201 /// returns the area of the grid cells (all identical, but
202 /// referred to as "mean" area for uniformity with JetMedianBGE).
[35cdc46]203 double mean_area() const {return mean_tile_area();}
[d7d2da3]204 //\}
205
206 /// @name configuring the behaviour
207 //\{
208 //----------------------------------------------------------------
209
210 /// Set a pointer to a class that calculates the rescaling factor as
211 /// a function of the jet (position). Note that the rescaling factor
212 /// is used both in the determination of the "global" rho (the pt/A
213 /// of each jet is divided by this factor) and when asking for a
214 /// local rho (the result is multiplied by this factor).
215 ///
216 /// The BackgroundRescalingYPolynomial class can be used to get a
217 /// rescaling that depends just on rapidity.
218 ///
219 /// Note that this has to be called BEFORE any attempt to do an
220 /// actual computation
[35cdc46]221 ///
222 /// The same profile will be used for both pt and mt (this is
223 /// probabaly a good approximation since the particle density
224 /// changes is what dominates the rapidity profile)
[d7d2da3]225 virtual void set_rescaling_class(const FunctionOfPseudoJet<double> * rescaling_class);
226
227 //\}
228
229 /// @name description
230 //\{
231 //----------------------------------------------------------------
232
233 /// returns a textual description of the background estimator
234 std::string description() const;
235
236 //\}
237
238
239private:
[35cdc46]240
241#ifndef FASTJET_GMBGE_USEFJGRID
242
[d7d2da3]243 /// configure the grid
244 void setup_grid();
245
246 /// retrieve the grid cell index for a given PseudoJet
[35cdc46]247 int tile_index(const PseudoJet & p) const;
[d7d2da3]248
249 // information about the grid
[35cdc46]250 double _ymin, _ymax, _dy, _dphi, _requested_grid_spacing, _tile_area;
[d7d2da3]251 int _ny, _nphi, _ntotal;
252
[35cdc46]253 int n_tiles() const {return _ntotal;}
254 int n_good_tiles() const {return n_tiles();}
255 int tile_is_good(int /* itile */) const {return true;}
256
257 double mean_tile_area() const {return _tile_area;}
258#endif // FASTJET_GMBGE_USEFJGRID
259
260
261 /// verify that particles have been set and throw an error if not
262 void verify_particles_set() const;
263
[d7d2da3]264 // information abotu the event
[35cdc46]265 //std::vector<double> _scalar_pt;
266 double _rho, _sigma, _rho_m, _sigma_m;
[d7d2da3]267 bool _has_particles;
[35cdc46]268 bool _enable_rho_m;
[d7d2da3]269
[35cdc46]270 // various warnings to inform people of potential dangers
[d7d2da3]271 LimitedWarning _warning_rho_of_jet;
272 LimitedWarning _warning_rescaling;
273};
274
275FASTJET_END_NAMESPACE // defined in fastjet/internal/base.hh
276
277#endif // __GRID_MEDIAN_BACKGROUND_ESTIMATOR_HH__
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