source: git/external/fastjet/contribs/RecursiveTools/RecursiveSymmetryCutBase.hh@ f7f33af

// $Id: RecursiveSymmetryCutBase.hh 700 2014-07-07 12:50:05Z gsoyez $
//
// Copyright (c) 2014-, Gavin P. Salam, Gregory Soyez, Jesse Thaler
//
//----------------------------------------------------------------------
// This file is part of FastJet contrib.
//
// It is free software; you can redistribute it and/or modify it under
// the terms of the GNU General Public License as published by the
// Free Software Foundation; either version 2 of the License, or (at
// your option) any later version.
//
// It is distributed in the hope that it will be useful, but WITHOUT
// ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
// or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public
// License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this code. If not, see <http://www.gnu.org/licenses/>.
//----------------------------------------------------------------------

#ifndef __FASTJET_CONTRIB_RECURSIVESYMMETRYCUTBASE_HH__
#define __FASTJET_CONTRIB_RECURSIVESYMMETRYCUTBASE_HH__

#include <limits>
#include <fastjet/internal/base.hh>
#include "fastjet/tools/Transformer.hh"
#include "fastjet/WrappedStructure.hh"

#include "Recluster.hh"

/** \mainpage RecursiveTools contrib 

    The aims RecursiveTools contrib to provide a set of tools for
    recursive investigation of the substructure of jets.

    Currently it includes:
    - fastjet::contrib::ModifiedMassDropTagger
    - fastjet::contrib::SoftDrop
    - the two above classes derive from fastjet::contrib::RecursiveSymmetryCutBase
    - fastjet::contrib::Recluster provides a reclustering transformer
    - example*.cc provides a usage examples
 */


FASTJET_BEGIN_NAMESPACE      // defined in fastjet/internal/base.hh

namespace contrib{

//------------------------------------------------------------------------
/// \class RecursiveSymmetryCutBase
/// A base class for all the tools that de-cluster a jet until a
/// sufficiently symmetric configuration if found.
///
/// Derived classes (so far, ModifiedMassDropTagger and SoftDrop) have to
/// implement the symmetry cut and its description
///
/// Note that by default, the jet will be reculstered with
/// Cambridge/Aachen before applying the de-clustering procedure. This
/// behaviour can be changed using set_clustering (see below).
///
/// By default, this class behaves as a tagger, i.e. returns an empty
/// PseudoJet if no substructure is found.  While the derived
/// ModifiedMassDropTagger is a tagger, the derived SoftDrop is a groomer
/// (i.e. it returns a non-zero jet even if no substructure is found).
///
/// This class provides support for
///  - an optional mass-drop cut (see ctor)
///  - options to select which symmetry measure should be used (see ctor)
///  - options to select how the recursion proceeds (see ctor)
///  - options for reclustering the jet before running the de-clustering
///    (see set_reclustering)
///  - an optional subtractor (see ctor and other methods below)
class RecursiveSymmetryCutBase : public Transformer {
public:
  // ctors and dtors
  //----------------------------------------------------------------------

  /// an enum of the different (a)symmetry measures that can be used
  enum SymmetryMeasure{scalar_z, ///< \f$ \min(p_{ti}, p_{tj})/(p_{ti} + p_{tj}) \f$
                       vector_z, ///< \f$ \min(p_{ti}, p_{tj})/p_{t(i+j)} \f$
                       y         ///  \f$ \min(p_{ti}^2,p_{tj}^2) \Delta R_{ij}^2 / m_{ij}^2 \f$
                       
  };

  /// an enum for the options of how to choose which of two subjets to recurse into
  enum RecursionChoice{larger_pt, ///< choose the subjet with larger \f$ p_t \f$
                       larger_mt, ///< choose the subjet with larger \f$ m_t \equiv (m^2+p_t^2)^{\frac12}] \f$
                       larger_m   ///  choose the subjet with larger mass (deprecated)
  }; 

  /// Full constructor, which takes the following parameters:
  ///
  /// \param symmetry_measure   the choice of measure to use to estimate the symmetry
  /// \param mu_cut             the maximal allowed value of mass drop variable mu = m_heavy/m_parent 
  /// \param recursion_choice   the strategy used to decide which subjet to recurse into
  /// \param subtractor         an optional pointer to a pileup subtractor (ignored if zero)
  ///
  /// If the (optional) pileup subtractor is supplied, then, by
  /// default, the input jet is assumed unsubtracted and the
  /// RecursiveSymmetryCutBase returns a subtracted 4-vector. [see
  /// also the set_input_jet_is_subtracted() member function].
  ///
  RecursiveSymmetryCutBase(SymmetryMeasure  symmetry_measure = scalar_z,
                           double           mu_cut = std::numeric_limits<double>::infinity(), 
                           RecursionChoice  recursion_choice = larger_pt,
                           const FunctionOfPseudoJet<PseudoJet> * subtractor = 0
                           ) : 
    _symmetry_measure(symmetry_measure),
    _mu_cut(mu_cut),
    _recursion_choice(recursion_choice),
    _subtractor(subtractor), _input_jet_is_subtracted(false),
    _do_reclustering(true), _recluster(0),
    _grooming_mode(false),
    _verbose_structure(false) // by default, don't story verbose information
  {}
    
  /// default destructor
  virtual ~RecursiveSymmetryCutBase(){}

  // internal subtraction configuration
  //----------------------------------------------------------------------

  /// This tells the tagger whether to assume that the input jet has
  /// already been subtracted. This is relevant only if a non-null
  /// subtractor pointer has been supplied, and the default assymption
  /// is that the input jet is passed unsubtracted.
  /// 
  /// Note: given that subtractors usually change the momentum of the
  /// main jet, but not that of the subjets, subjets will continue to
  /// have subtraction applied to them.
  void set_input_jet_is_subtracted(bool is_subtracted) {_input_jet_is_subtracted = is_subtracted;}

  /// returns a bool to indicate if the input jet is assumed already subtracted
  bool input_jet_is_subtracted() const {return _input_jet_is_subtracted;}

  /// an alternative way to set the subtractor
  ///
  /// Note that when a subtractor is provided, the result of the
  /// RecursiveSymmetryCutBase will be a subtracted jet.
  void set_subtractor(const FunctionOfPseudoJet<PseudoJet> * subtractor_) {_subtractor = subtractor_;}

  /// returns a pointer to the subtractor
  const FunctionOfPseudoJet<PseudoJet> * subtractor() const {return _subtractor;}

  // reclustering behaviour
  //----------------------------------------------------------------------

  /// configure the reclustering prior to the SoftDrop de-clustering
  ///  \param do_reclustering   recluster the jet or not?
  ///  \param recluster         how to recluster the jet 
  ///                           (only if do_recluster is true; 
  ///                           Cambridge/Aachen used if NULL)
  ///
  /// Note that the ModifiedMassDropTagger and SoftDrop are designed
  /// to work with a Cambridge/Aachen clustering. Use any other option
  /// at your own risk!
  void set_reclustering(bool do_reclustering=true, const Recluster *recluster=0){
    _do_reclustering = do_reclustering;
    _recluster = recluster;
  }

  // what to do when no substructure is found
  //----------------------------------------------------------------------
  /// specify the behaviour adopted when no substructure is found
  ///  - in tagging  mode, an empty PseudoJet will be returned
  ///  - in grooming mode, a single particle is returned
  /// for clarity, we provide both function although they are redundant
  void set_grooming_mode(bool enable=true){ _grooming_mode = enable;}
  void set_tagging_mode(bool enable=true){ _grooming_mode = !enable;}

  
  /// Allows access to verbose information about recursive declustering,
  /// in particular values of symmetry, delta_R, and mu of dropped branches
  void set_verbose_structure(bool enable=true) { _verbose_structure = enable; }
  
  
  // inherited from the Transformer base
  //----------------------------------------------------------------------

  /// the function that carries out the tagging; if a subtractor is
  /// being used, then this function assumes that input jet is
  /// unsubtracted (unless set_input_jet_is_subtracted(true) has been
  /// explicitly called before) and the result of the MMDT will be a
  /// subtracted jet.
  virtual PseudoJet result(const PseudoJet & j) const;

  /// description of the tool
  virtual std::string description() const;

  /// the type of the associated structure
  //typedef RecursiveSymmetryCutBaseStructure StructureType;  

  class StructureType;

  /// for testing 
  static bool _verbose;

protected:
  // the methods below have to be defined by deerived classes
  //----------------------------------------------------------------------
  /// the cut on the symmetry measure (typically z) that one need to
  /// apply for a given pair of subjets p1 and p2
  virtual double symmetry_cut_fn(const PseudoJet & /* p1 */, 
                                 const PseudoJet & /* p2 */) const = 0;
  /// the associated dwescription
  virtual std::string symmetry_cut_description() const = 0;

private:
  SymmetryMeasure  _symmetry_measure;
  double           _mu_cut;
  RecursionChoice  _recursion_choice;
  const FunctionOfPseudoJet<PseudoJet> * _subtractor;
  bool             _input_jet_is_subtracted;

  bool _do_reclustering;       ///< start with a reclustering
  const Recluster *_recluster; ///< how to recluster the jet

  bool _grooming_mode;  ///< grooming or tagging mode

  static LimitedWarning   _negative_mass_warning;
  static LimitedWarning   _mu2_gt1_warning;
  //static LimitedWarning   _nonca_warning;
  static LimitedWarning   _explicit_ghost_warning;

  // additional verbose structure information
  bool _verbose_structure;
  
  /// decide what to return when no substructure has been found
  PseudoJet _result_no_substructure(const PseudoJet &last_parent) const;
};

  
  
//----------------------------------------------------------------------
/// class to hold the structure of a jet tagged by RecursiveSymmetryCutBase.
class RecursiveSymmetryCutBase::StructureType : public WrappedStructure {
public:
  StructureType(const PseudoJet & j) :
    WrappedStructure(j.structure_shared_ptr()),
    _has_verbose(false) // by default, do not store verbose structure
  {}
  
  // information about kept branch
  double delta_R()  const {return _delta_R;};
  double symmetry() const {return _symmetry;};
  double mu()       const {return _mu;};
  
  // additional verbose information about dropped branches
  bool has_verbose() const { return _has_verbose;}
  
  // number of dropped branches
  int dropped_count() const {
    if (!_has_verbose) throw Error("RecursiveSymmetryCutBase::StructureType: Verbose structure must be turned on to get dropped_count() values.");
    return _dropped_delta_R.size();
  }
  
  // delta_R of dropped branches
  std::vector<double> dropped_delta_R() const {
    if (!_has_verbose) throw Error("RecursiveSymmetryCutBase::StructureType: Verbose structure must be turned on to get dropped_delta_R() values.");
    return _dropped_delta_R;
  }

  // symmetry values of dropped branches
  std::vector<double> dropped_symmetry() const {
    if (!_has_verbose) throw Error("RecursiveSymmetryCutBase::StructureType: Verbose structure must be turned on to get dropped_symmetry() values.");
    return _dropped_symmetry;
  }

  // mass drop values of dropped branches
  std::vector<double> dropped_mu() const {
    if (!_has_verbose) throw Error("RecursiveSymmetryCutBase::StructureType: Verbose structure must be turned on to get dropped_mu() values.");
    return _dropped_mu;
  }
  
  // maximum symmetry value dropped
  double max_dropped_symmetry() const {
    if (!_has_verbose) throw Error("RecursiveSymmetryCutBase::StructureType: Verbose structure must be turned on to get max_dropped_symmetry().");
    if (_dropped_symmetry.size() == 0) return 0.0;
    return *std::max_element(_dropped_symmetry.begin(),_dropped_symmetry.end());
  }
  
private:
  double _delta_R, _symmetry, _mu;
  friend class RecursiveSymmetryCutBase;

  // additional verbose information
  bool _has_verbose;
  // information about dropped values
  std::vector<double> _dropped_delta_R;
  std::vector<double> _dropped_symmetry;
  std::vector<double> _dropped_mu;
  
};

} // namespace contrib

FASTJET_END_NAMESPACE

#endif  // __FASTJET_CONTRIB_RECURSIVESYMMETRYCUTBASE_HH__