FastJet  3.3.2
ClusterSequenceAreaBase.hh
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30 
31 #ifndef __FASTJET_CLUSTERSEQUENCEAREABASE_HH__
32 #define __FASTJET_CLUSTERSEQUENCEAREABASE_HH__
33 
34 #include "fastjet/ClusterSequence.hh"
35 #include "fastjet/LimitedWarning.hh"
36 #include "fastjet/Selector.hh"
37 #include "fastjet/internal/deprecated.hh"
38 
39 FASTJET_BEGIN_NAMESPACE
40 
41 /// @ingroup area_classes
42 /// \class ClusterSequenceAreaBase
43 /// base class that sets interface for extensions of ClusterSequence
44 /// that provide information about the area of each jet
45 ///
46 /// the virtual functions here all return 0, since no area determination
47 /// is implemented.
49 public:
50 
51  /// a constructor which just carries out the construction of the
52  /// parent class
53  template<class L> ClusterSequenceAreaBase
54  (const std::vector<L> & pseudojets,
55  const JetDefinition & jet_def_in,
56  const bool & writeout_combinations = false) :
57  ClusterSequence(pseudojets, jet_def_in, writeout_combinations) {}
58 
59 
60  /// default constructor
62 
63 
64  /// destructor
66 
67 
68  /// return the area associated with the given jet; this base class
69  /// returns 0.
70  virtual double area (const PseudoJet & ) const {return 0.0;}
71 
72  /// return the error (uncertainty) associated with the determination
73  /// of the area of this jet; this base class returns 0.
74  virtual double area_error (const PseudoJet & ) const {return 0.0;}
75 
76  /// return a PseudoJet whose 4-vector is defined by the following integral
77  ///
78  /// \int drap d\phi PseudoJet("rap,phi,pt=one") *
79  /// * Theta("rap,phi inside jet boundary")
80  ///
81  /// where PseudoJet("rap,phi,pt=one") is a 4-vector with the given
82  /// rapidity (rap), azimuth (phi) and pt=1, while Theta("rap,phi
83  /// inside jet boundary") is a function that is 1 when rap,phi
84  /// define a direction inside the jet boundary and 0 otherwise.
85  ///
86  /// This base class returns a null 4-vector.
87  virtual PseudoJet area_4vector(const PseudoJet & ) const {
88  return PseudoJet(0.0,0.0,0.0,0.0);}
89 
90  /// true if a jet is made exclusively of ghosts
91  ///
92  /// NB: most area classes do not give any explicit ghost jets, but
93  /// some do, and they should replace this function with their own
94  /// version.
95  virtual bool is_pure_ghost(const PseudoJet & ) const {
96  return false;
97  }
98 
99  /// returns true if ghosts are explicitly included within
100  /// jets for this ClusterSequence;
101  ///
102  /// Derived classes that do include explicit ghosts should provide
103  /// an alternative version of this routine and set it properly.
104  virtual bool has_explicit_ghosts() const {
105  return false;
106  }
107 
108  /// return the total area, corresponding to the given Selector, that
109  /// is free of jets, in general based on the inclusive jets.
110  ///
111  /// The selector passed as an argument has to have a finite area and
112  /// apply jet-by-jet (see the BackgroundEstimator and Subtractor
113  /// tools for more generic usages)
114  virtual double empty_area(const Selector & selector) const;
115 
116  /// return the total area, corresponding to the given Selector, that
117  /// is free of jets, based on the supplied all_jets
118  ///
119  /// The selector passed as an argument has to have a finite area and
120  /// apply jet-by-jet (see the BackgroundEstimator and Subtractor
121  /// tools for more generic usages)
122  double empty_area_from_jets(const std::vector<PseudoJet> & all_jets,
123  const Selector & selector) const;
124 
125  /// return something similar to the number of pure ghost jets
126  /// in the given selector's range in an active area case.
127  /// For the local implementation we return empty_area/(0.55 pi R^2),
128  /// based on measured properties of ghost jets with kt and cam
129  /// (cf arXiv:0802.1188).
130  ///
131  /// Note that the number returned is a double.
132  ///
133  /// The selector passed as an argument has to have a finite area and
134  /// apply jet-by-jet (see the BackgroundEstimator and Subtractor
135  /// tools for more generic usages)
136  virtual double n_empty_jets(const Selector & selector) const {
137  double R = jet_def().R();
138  return empty_area(selector)/(0.55*pi*R*R);
139  }
140 
141  /// the median of (pt/area) for jets contained within the selector
142  /// range, making use also of the info on n_empty_jets
143  ///
144  /// The selector passed as an argument has to have a finite area and
145  /// apply jet-by-jet (see the BackgroundEstimator and Subtractor
146  /// tools for more generic usages)
147  FASTJET_DEPRECATED_MSG("ClusterSequenceAreaBase::median_pt_per_unit_area(...) is deprecated since FastJet 3.0. Use the BackgroundEstimator series of tools instead")
148  double median_pt_per_unit_area(const Selector & selector) const;
149 
150  /// the median of (pt/area_4vector) for jets contained within the
151  /// selector range, making use also of the info on n_empty_jets
152  ///
153  /// The selector passed as an argument has to have a finite area and
154  /// apply jet-by-jet
155  FASTJET_DEPRECATED_MSG("ClusterSequenceAreaBase::median_pt_per_unit_area_4vector(...) is deprecated since FastJet 3.0. Use the BackgroundEstimator series of tools instead")
156  double median_pt_per_unit_area_4vector(const Selector & selector) const;
157 
158  /// the function that does the work for median_pt_per_unit_area and
159  /// median_pt_per_unit_area_4vector:
160  /// - something_is_area_4vect = false -> use plain area
161  /// - something_is_area_4vect = true -> use 4-vector area
162  FASTJET_DEPRECATED_MSG("ClusterSequenceAreaBase::median_pt_per_unit_something(...) is deprecated since FastJet 3.0. Use the BackgroundEstimator series of tools instead")
163  double median_pt_per_unit_something(const Selector & selector,
164  bool use_area_4vector) const;
165 
166  /// using jets withing the selector range (and with 4-vector areas if
167  /// use_area_4vector), calculate the median pt/area, as well as an
168  /// "error" (uncertainty), which is defined as the 1-sigma
169  /// half-width of the distribution of pt/A, obtained by looking for
170  /// the point below which we have (1-0.6827)/2 of the jets
171  /// (including empty jets).
172  ///
173  /// The subtraction for a jet with uncorrected pt pt^U and area A is
174  ///
175  /// pt^S = pt^U - median*A +- sigma*sqrt(A)
176  ///
177  /// where the error is only that associated with the fluctuations
178  /// in the noise and not that associated with the noise having
179  /// caused changes in the hard-particle content of the jet.
180  ///
181  /// The selector passed as an argument has to have a finite area and
182  /// apply jet-by-jet (see the BackgroundEstimator and Subtractor
183  /// tools for more generic usages)
184  ///
185  /// NB: subtraction may also be done with 4-vector area of course,
186  /// and this is recommended for jets with larger values of R, as
187  /// long as rho has also been determined with a 4-vector area;
188  /// using a scalar area causes one to neglect terms of relative
189  /// order $R^2/8$ in the jet $p_t$.
190  //FASTJET_DEPRECATED_MSG("ClusterSequenceAreaBase::get_median_rho_and_sigma(...) is deprecated since FastJet 3.0. Use the BackgroundEstimator series of tools instead")
191  virtual void get_median_rho_and_sigma(const Selector & selector,
192  bool use_area_4vector,
193  double & median, double & sigma,
194  double & mean_area) const;
195 
196  /// a more advanced version of get_median_rho_and_sigma, which allows
197  /// one to use any "view" of the event containing all jets (so that,
198  /// e.g. one might use Cam on a different resolution scale without
199  /// have to rerun the algorithm).
200  ///
201  /// By default it will assume that "all" are not inclusive jets,
202  /// so that in dealing with empty area it has to calculate
203  /// the number of empty jets based on the empty area and the
204  /// the observed <area> of jets rather than a surmised area
205  ///
206  /// Note that for small effective radii, this can cause problems
207  /// because the harder jets get an area >> <ghost-jet-area>
208  /// and so the estimate comes out all wrong. In these situations
209  /// it is highly advisable to use an area with explicit ghosts, since
210  /// then the "empty" jets are actually visible.
211  ///
212  /// The selector passed as an argument has to have a finite area and
213  /// apply jet-by-jet (see the BackgroundEstimator and Subtractor
214  /// tools for more generic usages)
215  //FASTJET_DEPRECATED_MSG("ClusterSequenceAreaBase::get_median_rho_and_sigma(...) is deprecated since FastJet 3.0. Use the BackgroundEstimator series of tools instead")
216  virtual void get_median_rho_and_sigma(const std::vector<PseudoJet> & all_jets,
217  const Selector & selector,
218  bool use_area_4vector,
219  double & median, double & sigma,
220  double & mean_area,
221  bool all_are_inclusive = false) const;
222 
223  /// same as the full version of get_median_rho_and_error, but without
224  /// access to the mean_area
225  ///
226  /// The selector passed as an argument has to have a finite area and
227  /// apply jet-by-jet (see the BackgroundEstimator and Subtractor
228  /// tools for more generic usages)
229  //FASTJET_DEPRECATED_MSG("ClusterSequenceAreaBase::get_median_rho_and_sigma(...) is deprecated since FastJet 3.0. Use the BackgroundEstimator series of tools instead")
230  virtual void get_median_rho_and_sigma(const Selector & selector,
231  bool use_area_4vector,
232  double & median, double & sigma) const{
233  return _get_median_rho_and_sigma(selector, use_area_4vector, median, sigma);
234  }
235 
236 
237  /// fits a form pt_per_unit_area(y) = a + b*y^2 in the selector range.
238  /// exclude_above allows one to exclude large values of pt/area from fit.
239  /// (if negative, the cut is discarded)
240  /// use_area_4vector = true uses the 4vector areas.
241  ///
242  /// The selector passed as an argument has to have a finite area and
243  /// apply jet-by-jet (see the BackgroundEstimator and Subtractor
244  /// tools for more generic usages)
245  //FASTJET_DEPRECATED_MSG("ClusterSequenceAreaBase::parabolic_pt_per_unit_area(...) is deprecated since FastJet 3.0. Use the BackgroundEstimator series of tools instead")
246  virtual void parabolic_pt_per_unit_area(double & a, double & b,
247  const Selector & selector,
248  double exclude_above=-1.0,
249  bool use_area_4vector=false) const;
250 
251  /// return a vector of all subtracted jets, using area_4vector, given rho.
252  /// Only inclusive_jets above ptmin are subtracted and returned.
253  /// the ordering is the same as that of sorted_by_pt(cs.inclusive_jets()),
254  /// i.e. not necessarily ordered in pt once subtracted
255  FASTJET_DEPRECATED_MSG("ClusterSequenceAreaBase::subtracted_jets(...) is deprecated since FastJet 3.0. Use the Subtractor tool (with the BackgroundEstimator series of tools) instead")
256  std::vector<PseudoJet> subtracted_jets(const double rho,
257  const double ptmin=0.0) const;
258 
259  /// return a vector of subtracted jets, using area_4vector.
260  /// Only inclusive_jets above ptmin are subtracted and returned.
261  /// the ordering is the same as that of sorted_by_pt(cs.inclusive_jets()),
262  /// i.e. not necessarily ordered in pt once subtracted
263  ///
264  /// The selector passed as an argument has to have a finite area and
265  /// apply jet-by-jet (see the BackgroundEstimator and Subtractor
266  /// tools for more generic usages)
267  FASTJET_DEPRECATED_MSG("ClusterSequenceAreaBase::subtracted_jets(...) is deprecated since FastJet 3.0. Use the Subtractor tool (with the BackgroundEstimator series of tools) instead")
268  std::vector<PseudoJet> subtracted_jets(const Selector & selector,
269  const double ptmin=0.0) const;
270 
271  /// return a subtracted jet, using area_4vector, given rho
272  FASTJET_DEPRECATED_MSG("ClusterSequenceAreaBase::subtracted_jet(...) is deprecated since FastJet 3.0. Use the Subtractor tool (with the BackgroundEstimator series of tools) instead")
273  PseudoJet subtracted_jet(const PseudoJet & jet,
274  const double rho) const;
275 
276  /// return a subtracted jet, using area_4vector; note
277  /// that this is potentially inefficient if repeatedly used for many
278  /// different jets, because rho will be recalculated each time
279  /// around.
280  ///
281  /// The selector passed as an argument has to have a finite area and
282  /// apply jet-by-jet (see the BackgroundEstimator and Subtractor
283  /// tools for more generic usages)
284  FASTJET_DEPRECATED_MSG("ClusterSequenceAreaBase::subtracted_jet(...) is deprecated since FastJet 3.0. Use the Subtractor tool (with the BackgroundEstimator series of tools) instead")
285  PseudoJet subtracted_jet(const PseudoJet & jet,
286  const Selector & selector) const;
287 
288  /// return the subtracted pt, given rho
289  FASTJET_DEPRECATED_MSG("ClusterSequenceAreaBase::subtracted_pt(...) is deprecated since FastJet 3.0. Use the Subtractor tool (with the BackgroundEstimator series of tools) instead")
290  double subtracted_pt(const PseudoJet & jet,
291  const double rho,
292  bool use_area_4vector=false) const;
293 
294  /// return the subtracted pt; note that this is
295  /// potentially inefficient if repeatedly used for many different
296  /// jets, because rho will be recalculated each time around.
297  ///
298  /// The selector passed as an argument has to have a finite area and
299  /// apply jet-by-jet (see the BackgroundEstimator and Subtractor
300  /// tools for more generic usages)
301  FASTJET_DEPRECATED_MSG("ClusterSequenceAreaBase::subtracted_pt(...) is deprecated since FastJet 3.0. Use the Subtractor tool (with the BackgroundEstimator series of tools) instead")
302  double subtracted_pt(const PseudoJet & jet,
303  const Selector & selector,
304  bool use_area_4vector=false) const;
305 
306 protected:
307  /// check the selector is suited for the computations i.e. applies jet by jet and has a finite area
308  void _check_selector_good_for_median(const Selector &selector) const;
309 
310  // the following set of protected methods are all deprecated. Their
311  // role is simply to hide the corresponding methods (without the
312  // first underscore) from the public interface so that they can be
313  // used internally until all the deprecated methods are removed.
314  // DO NOT USE ANY OF THESE METHODS: THEY ARE DEPRECATED AND WILL BE
315  // REMOVED.
316  virtual void _get_median_rho_and_sigma(const Selector & selector,
317  bool use_area_4vector,
318  double & median, double & sigma,
319  double & mean_area) const;
320  virtual void _get_median_rho_and_sigma(const std::vector<PseudoJet> & all_jets,
321  const Selector & selector,
322  bool use_area_4vector,
323  double & median, double & sigma,
324  double & mean_area,
325  bool all_are_inclusive = false) const;
326  virtual void _get_median_rho_and_sigma(const Selector & selector,
327  bool use_area_4vector,
328  double & median, double & sigma) const {
329  double mean_area;
330  _get_median_rho_and_sigma(selector, use_area_4vector,
331  median, sigma, mean_area);
332  }
333  virtual void _parabolic_pt_per_unit_area(double & a, double & b,
334  const Selector & selector,
335  double exclude_above=-1.0,
336  bool use_area_4vector=false) const;
337 
338 private:
339  /// handle warning messages
340  static LimitedWarning _warnings;
341  static LimitedWarning _warnings_zero_area;
342  static LimitedWarning _warnings_empty_area;
343 
344  /// check the jet algorithm is suitable (and if not issue a warning)
345  void _check_jet_alg_good_for_median() const;
346 
347  // the following set of private methods are all deprecated. Their
348  // role is simply to hide the corresponding methods (without the
349  // first underscore) from the public interface so that they can be
350  // used internally until all the deprecated methods are removed.
351  // DO NOT USE ANY OF THESE METHODS: THEY ARE DEPRECATED AND WILL BE
352  // REMOVED.
353  double _median_pt_per_unit_area(const Selector & selector) const;
354  double _median_pt_per_unit_area_4vector(const Selector & selector) const;
355  double _median_pt_per_unit_something(const Selector & selector,
356  bool use_area_4vector) const;
357  std::vector<PseudoJet> _subtracted_jets(const double rho,
358  const double ptmin=0.0) const;
359  PseudoJet _subtracted_jet(const PseudoJet & jet,
360  const double rho) const;
361  PseudoJet _subtracted_jet(const PseudoJet & jet,
362  const Selector & selector) const;
363  double _subtracted_pt(const PseudoJet & jet,
364  const double rho,
365  bool use_area_4vector=false) const;
366 };
367 
368 
369 
370 FASTJET_END_NAMESPACE
371 
372 #endif // __FASTJET_CLUSTERSEQUENCEAREABASE_HH__
deals with clustering
virtual double n_empty_jets(const Selector &selector) const
return something similar to the number of pure ghost jets in the given selector&#39;s range in an active ...
virtual double area(const PseudoJet &) const
return the area associated with the given jet; this base class returns 0.
class to provide facilities for giving warnings up to some maximum number of times and to provide glo...
virtual PseudoJet area_4vector(const PseudoJet &) const
return a PseudoJet whose 4-vector is defined by the following integral
base class that sets interface for extensions of ClusterSequence that provide information about the a...
virtual bool has_explicit_ghosts() const
returns true if ghosts are explicitly included within jets for this ClusterSequence; ...
Class that encodes information about cuts and other selection criteria that can be applied to PseudoJ...
Definition: Selector.hh:149
virtual double area_error(const PseudoJet &) const
return the error (uncertainty) associated with the determination of the area of this jet; this base c...
virtual void get_median_rho_and_sigma(const Selector &selector, bool use_area_4vector, double &median, double &sigma) const
same as the full version of get_median_rho_and_error, but without access to the mean_area ...
Class to contain pseudojets, including minimal information of use to jet-clustering routines...
Definition: PseudoJet.hh:67
class that is intended to hold a full definition of the jet clusterer
virtual bool is_pure_ghost(const PseudoJet &) const
true if a jet is made exclusively of ghosts