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PDEFoamDecisionTreeDensity.cxx
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1// @(#)root/tmva $Id$
2// Author: Alexander Voigt
3
4/**********************************************************************************
5 * Project: TMVA - a Root-integrated toolkit for multivariate data analysis *
6 * Package: TMVA *
7 * Classes: PDEFoamDecisionTreeDensity *
8 * Web : http://tmva.sourceforge.net *
9 * *
10 * Description: *
11 * This class provides an interface between the Binary search tree *
12 * and the PDEFoam object. In order to build-up the foam one needs to *
13 * calculate the density of events at a given point (sampling during *
14 * Foam build-up). The function PDEFoamDecisionTreeDensity::Density() *
15 * does this job. It uses a binary search tree, filled with training *
16 * events, in order to provide this density. *
17 * *
18 * Authors (alphabetical): *
19 * Tancredi Carli - CERN, Switzerland *
20 * Dominik Dannheim - CERN, Switzerland *
21 * S. Jadach - Institute of Nuclear Physics, Cracow, Poland *
22 * Alexander Voigt - TU Dresden, Germany *
23 * Peter Speckmayer - CERN, Switzerland *
24 * *
25 * Copyright (c) 2010: *
26 * CERN, Switzerland *
27 * MPI-K Heidelberg, Germany *
28 * *
29 * Redistribution and use in source and binary forms, with or without *
30 * modification, are permitted according to the terms listed in LICENSE *
31 * (http://tmva.sourceforge.net/LICENSE) *
32 **********************************************************************************/
33
34/*! \class TMVA::PDEFoamDecisionTreeDensity
35\ingroup TMVA
36
37This is a concrete implementation of PDEFoam. The Density(...)
38function returns allways 0. The function FillHistograms() is
39added, which returns all events in a given TMVA::Volume.
40*/
41
43
45#include "TMVA/MethodPDERS.h"
46#include "TMVA/MsgLogger.h"
48#include "TMVA/Types.h"
49#include "TMVA/Volume.h"
50
51#include "RtypesCore.h"
52#include "TH1D.h"
53
54#include <limits>
55
57
58////////////////////////////////////////////////////////////////////////////////
59
62 , fClass(0)
63{}
64
65////////////////////////////////////////////////////////////////////////////////
66/// User constructor:
67///
68/// Parameters:
69///
70/// - box - size of the range-searching box (n-dimensional
71/// std::vector)
72///
73/// - cls - event class used for the range-searching
74
77 , fClass(cls)
78{
79}
80
81////////////////////////////////////////////////////////////////////////////////
82/// Copy constructor
83
85 : PDEFoamDensityBase(distr)
86 , fClass(distr.fClass)
87{
88}
89
90////////////////////////////////////////////////////////////////////////////////
91/// This function is not used in the decision tree like PDEFoam,
92/// instead FillHist() is used.
93
94Double_t TMVA::PDEFoamDecisionTreeDensity::Density(std::vector<Double_t>& /* Xarg */,
95 Double_t& /* event_density */)
96{
97 return 0;
98}
99
100////////////////////////////////////////////////////////////////////////////////
101/// Fill the given histograms with signal and background events,
102/// which are found in the volume.
103///
104/// Parameters:
105///
106/// - volume - volume box to search in
107///
108/// - hsig, hbkg, hsig_unw, hbkg_unw - histograms with weighted and
109/// unweighted signal and background events
110
112 std::vector<TH1D*> &hbkg, std::vector<TH1D*> &hsig_unw,
113 std::vector<TH1D*> &hbkg_unw)
114{
115 // sanity check
116 if (hsig.size() != volume.fLower->size()
117 || hbkg.size() != volume.fLower->size()
118 || hsig_unw.size() != volume.fLower->size()
119 || hbkg_unw.size() != volume.fLower->size())
120 Log() << kFATAL << "<PDEFoamDistr::FillHistograms> Edge histograms have wrong size!" << Endl;
121
122 // check histograms
123 for (UInt_t idim = 0; idim < hsig.size(); ++idim) {
124 if (!hsig.at(idim) || !hbkg.at(idim) ||
125 !hsig_unw.at(idim) || !hbkg_unw.at(idim))
126 Log() << kFATAL << "<PDEFoamDistr::FillHist> Histograms not initialized!" << Endl;
127 }
128
129 // BST nodes found in volume
130 std::vector<const TMVA::BinarySearchTreeNode*> nodes;
131
132 // do range searching
133 fBst->SearchVolume(&volume, &nodes);
134
135 // calc xmin and xmax of events found in cell
136 std::vector<Float_t> xmin(volume.fLower->size(), std::numeric_limits<float>::max());
137 std::vector<Float_t> xmax(volume.fLower->size(), -std::numeric_limits<float>::max());
138 for (std::vector<const TMVA::BinarySearchTreeNode*>::const_iterator it = nodes.begin();
139 it != nodes.end(); ++it) {
140 std::vector<Float_t> ev = (*it)->GetEventV();
141 for (UInt_t idim = 0; idim < xmin.size(); ++idim) {
142 if (ev.at(idim) < xmin.at(idim)) xmin.at(idim) = ev.at(idim);
143 if (ev.at(idim) > xmax.at(idim)) xmax.at(idim) = ev.at(idim);
144 }
145 }
146
147 // reset histogram ranges to xmin, xmax found in volume
148 for (UInt_t idim = 0; idim < hsig.size(); ++idim) {
149 hsig.at(idim)->GetXaxis()->SetLimits(xmin.at(idim), xmax.at(idim));
150 hbkg.at(idim)->GetXaxis()->SetLimits(xmin.at(idim), xmax.at(idim));
151 hsig_unw.at(idim)->GetXaxis()->SetLimits(xmin.at(idim), xmax.at(idim));
152 hbkg_unw.at(idim)->GetXaxis()->SetLimits(xmin.at(idim), xmax.at(idim));
153 hsig.at(idim)->Reset();
154 hbkg.at(idim)->Reset();
155 hsig_unw.at(idim)->Reset();
156 hbkg_unw.at(idim)->Reset();
157 }
158
159 // fill histograms with events found
160 for (std::vector<const TMVA::BinarySearchTreeNode*>::const_iterator it = nodes.begin();
161 it != nodes.end(); ++it) {
162 std::vector<Float_t> ev = (*it)->GetEventV();
163 Float_t wt = (*it)->GetWeight();
164 for (UInt_t idim = 0; idim < ev.size(); ++idim) {
165 if ((*it)->GetClass() == fClass) {
166 hsig.at(idim)->Fill(ev.at(idim), wt);
167 hsig_unw.at(idim)->Fill(ev.at(idim), 1);
168 } else {
169 hbkg.at(idim)->Fill(ev.at(idim), wt);
170 hbkg_unw.at(idim)->Fill(ev.at(idim), 1);
171 }
172 }
173 }
174}
Cppyy::TCppType_t fClass
double Double_t
Definition RtypesCore.h:59
float Float_t
Definition RtypesCore.h:57
#define ClassImp(name)
Definition Rtypes.h:364
float xmin
float xmax
This is a concrete implementation of PDEFoam.
virtual Double_t Density(std::vector< Double_t > &Xarg, Double_t &event_density)
This function is not used in the decision tree like PDEFoam, instead FillHist() is used.
virtual void FillHistograms(TMVA::Volume &, std::vector< TH1D * > &, std::vector< TH1D * > &, std::vector< TH1D * > &, std::vector< TH1D * > &)
Fill the given histograms with signal and background events, which are found in the volume.
This is an abstract class, which provides an interface for a PDEFoam density estimator.
Volume for BinarySearchTree.
Definition Volume.h:47
std::vector< Double_t > * fLower
Definition Volume.h:75
void box(Int_t pat, Double_t x1, Double_t y1, Double_t x2, Double_t y2)
Definition fillpatterns.C:1
MsgLogger & Endl(MsgLogger &ml)
Definition MsgLogger.h:148