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TUnfoldBinning.h
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1// Author: Stefan Schmitt
2// DESY, 10/08/11
3
4// Version 17.5, in parallel to changes in TUnfold
5//
6// History:
7// Version 17.4, bug fix with error handling
8// Version 17.3, bug fix with underflow/overflow bins
9// Version 17.2, new option isPeriodic
10// Version 17.1, in parallel to TUnfold
11// Version 17.0, initial version, numbered in parallel to TUnfold
12
13#ifndef ROOT_TUnfoldBinning
14#define ROOT_TUnfoldBinning
15
16
17//////////////////////////////////////////////////////////////////////////
18// //
19// //
20// TUnfoldBinning, an auxillary class to provide //
21// complex binning schemes as input to TUnfoldDensity //
22// //
23// Citation: S.Schmitt, JINST 7 (2012) T10003 [arXiv:1205.6201] //
24// //
25//////////////////////////////////////////////////////////////////////////
26
27/*
28 This file is part of TUnfold.
29
30 TUnfold is free software: you can redistribute it and/or modify
31 it under the terms of the GNU General Public License as published by
32 the Free Software Foundation, either version 3 of the License, or
33 (at your option) any later version.
34
35 TUnfold is distributed in the hope that it will be useful,
36 but WITHOUT ANY WARRANTY; without even the implied warranty of
37 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
38 GNU General Public License for more details.
39
40 You should have received a copy of the GNU General Public License
41 along with TUnfold. If not, see <http://www.gnu.org/licenses/>.
42*/
43
44#include "TUnfold.h"
45#include <iostream>
46#include <TNamed.h>
47#include <TObjArray.h>
48#include <TObjString.h>
49#include <TAxis.h>
50#include <TF1.h>
51
52
53class TUnfoldBinning : public TNamed {
54 protected:
55 /// mother node
57 /// first daughter node
59 /// next sister
61 /// previous sister
63 /// for each axis the bin borders (TVectorD)
65 /// for each axis its name (TObjString), or names of unconnected bins
67 /// bit fields indicating whether there are underflow bins on the axes
69 /// bit fields indicating whether there are overflow bins on the axes
71 /// number of bins in this node's distribution
73 /// global bin number of the first bin
75 /// global bin number of the last(+1) bin, including daughters
77 /// function to calculate a scale factor from bin centres (may be a TF1 or a TVectorD
79 /// common scale factor for all bins of this node
81 public:
82 /********************* setup **************************/
83 enum {
84 /// maximum numner of axes per distribution
85 MAXDIM=32
86 };
87 TUnfoldBinning(const char *name=0,Int_t nBins=0,const char *binNames=0); // create a new root node with a given number of unconnected bins
88 TUnfoldBinning(const TAxis &axis,Int_t includeUnderflow,Int_t includeOverflow); // create a binning scheme with one axis
90 (TUnfoldBinning *binning); // add a new node to the TUnfoldBinning tree
91 TUnfoldBinning *AddBinning(const char *name,Int_t nBins=0,const char *binNames=0); // add a new node to the TUnfoldBinning tree
92 Bool_t AddAxis(const char *name,Int_t nBins,const Double_t *binBorders,
93 Bool_t hasUnderflow,Bool_t hasOverflow); // add an axis (variable bins) to the distribution associated with this node
94 Bool_t AddAxis(const char *name,Int_t nBins,Double_t xMin,Double_t xMax,
95 Bool_t hasUnderflow,Bool_t hasOverflow); // add an axis (equidistant bins) to the distribution associated with this node
96 Bool_t AddAxis(const TAxis &axis,Bool_t includeUnderflow,Bool_t includeOverflow); // add an axis (from TAxis instance) to the distribution associated with this node
97 virtual ~TUnfoldBinning(void);
98 void PrintStream(std::ostream &out,Int_t indent=0,int debug=0) const;
99 void SetBinFactorFunction(Double_t normalisation,TF1 *userFunc=0); // define function to calculate bin factor. Note: the function is not owned by this class
100
101 /********************* Navigation **********************/
102 /// first daughter node
103 inline TUnfoldBinning const *GetChildNode(void) const { return childNode; }
104 /// previous sister node
105 inline TUnfoldBinning const *GetPrevNode(void) const { return prevNode; }
106 /// next sister node
107 inline TUnfoldBinning const *GetNextNode(void) const { return nextNode; }
108 /// mother node
109 inline TUnfoldBinning const *GetParentNode(void) const { return parentNode; }
110 TUnfoldBinning const *FindNode(char const *name) const; // find node by name
111 /// return root node of the binnig scheme
112 TUnfoldBinning const *GetRootNode(void) const;
113
114 /********************* Create THxx histograms **********/
115 Int_t GetTH1xNumberOfBins(Bool_t originalAxisBinning=kTRUE,const char *axisSteering=0) const; // get number of bins of a one-dimensional histogram TH1
116 TH1 *CreateHistogram(const char *histogramName,Bool_t originalAxisBinning=kFALSE,Int_t **binMap=0,const char *histogramTitle=0,const char *axisSteering=0) const; // create histogram and bin map for this node
117 TH2D *CreateErrorMatrixHistogram(const char *histogramName,Bool_t originalAxisBinning,Int_t **binMap=0,const char *histogramTitle=0,const char *axisSteering=0) const; // create histogram and bin map for this node
119 TUnfoldBinning const *yAxis,
120 char const *histogramName,
121 Bool_t originalXAxisBinning=kFALSE,
122 Bool_t originalYAxisBinning=kFALSE,
123 char const *histogramTitle=0); // create 2D histogram with one binning on the x axis and the other binning on the y axis
124 TH1 *ExtractHistogram(const char *histogramName,const TH1 *globalBins,const TH2 *globalBinsEmatrix=0,Bool_t originalAxisBinning=kTRUE,const char *axisSteering=0) const; // extract a distribution from the given set of global bins
125 /********************* Create and manipulate bin map ****/
126 Int_t *CreateEmptyBinMap(void) const; // create empty bin map
127 void SetBinMapEntry(Int_t *binMap,Int_t globalBin,Int_t destBin) const; // change mapping for a given global bin
128 Int_t FillBinMap1D(Int_t *binMap,const char *axisSteering,
129 Int_t firstBinX) const; // map bins from this distribution to destHist
130 /********************* Calculate global bin number ******/
131 Int_t GetGlobalBinNumber(Double_t x) const; // get bin number 1-dim distribution
132 Int_t GetGlobalBinNumber(Double_t x,Double_t y) const; // get bin number 2-dim distribution
133 Int_t GetGlobalBinNumber(Double_t x,Double_t y,Double_t z) const; // get bin number 3-dim distribution
134 Int_t GetGlobalBinNumber(Double_t x0,Double_t x1,Double_t x2,Double_t x3) const; // get bin number four-dimensional binning
135 Int_t GetGlobalBinNumber(Double_t x0,Double_t x1,Double_t x2,Double_t x3,Double_t x4) const; // get bin number five-dimensional binning
136 Int_t GetGlobalBinNumber(Double_t x0,Double_t x1,Double_t x2,Double_t x3,Double_t x4,Double_t x5) const; // get bin number six-dimensional binning
137 Int_t GetGlobalBinNumber(const Double_t *x,Int_t *isBelow=0,Int_t *isAbove=0) const; // get bin number, up to 32 dimensional binning
138 /// first bin of this node
139 inline Int_t GetStartBin(void) const { return fFirstBin; }
140 /// last+1 bin of this node (includes children)
141 inline Int_t GetEndBin(void) const { return fLastBin; }
142 virtual Bool_t IsBinFactorGlobal(void) const; // check whether global or local bin factor must be used
143 Double_t GetGlobalFactor(void) const; // return global factor
144
145 /********************* access by global bin number ******/
146 TString GetBinName(Int_t iBin) const; // return bin name
147 Double_t GetBinSize(Int_t iBin) const; // return bin size (in N dimensions)
148 virtual Double_t GetBinFactor(Int_t iBin) const; // return user factor
149 void GetBinUnderflowOverflowStatus(Int_t iBin,Int_t *uStatus,Int_t *oStatus) const; // return bit map indicating underflow and overflow status
150 Int_t GetBinNeighbours(Int_t globalBin,Int_t axis,
151 Int_t *prev,Double_t *distPrev,
152 Int_t *next,Double_t *distNext,
153 Bool_t isPeriodic=kFALSE) const; // get neighbour bins along an axis
154 /********************** access distribution properties *************/
155 /// number of bins in the distribution possibly including under/overflow
157 /// query dimension of this node's distribution
158 inline Int_t GetDistributionDimension(void) const { return fAxisList->GetEntriesFast(); }
159 virtual Double_t GetDistributionAverageBinSize(Int_t axis,Bool_t includeUnderflow, Bool_t includeOverflow) const; // get average bin size
160 /// get vector of bin borders for one axis
161 inline TVectorD const *GetDistributionBinning(Int_t axis) const {
162 return (TVectorD const *)fAxisList->At(axis); }
163 /// get name of an axis
165 return ((TObjString const *)fAxisLabelList->At(axis))->GetString(); }
166
167 virtual Double_t GetDistributionUnderflowBinWidth(Int_t axis) const; // width of underflow bin on the given axis
168 virtual Double_t GetDistributionOverflowBinWidth(Int_t axis) const; // width of overflow bin on the given axis
169 virtual Double_t GetDistributionBinCenter(Int_t axis,Int_t bin) const; // position of bin center on the given axis
170 Bool_t HasUnconnectedBins(void) const; // check whether this node has bins without axis
171 const TObjString *GetUnconnectedBinName(Int_t bin) const; // return bin name (if any)
172 /// check whether an axis has an underflow bin
173 Bool_t HasUnderflow(int axis) const { return fHasUnderflow & (1<<axis); }
174 /// check whether the axis has an overflow bin
175 Bool_t HasOverflow(int axis) const { return fHasOverflow & (1<<axis); }
176 void DecodeAxisSteering(const char *axisSteering,const char *options,
177 Int_t *isOptionGiven) const; // decode axis steering options
178 protected:
179 /// return root node
181 void Initialize(Int_t nBins);
182 Int_t UpdateFirstLastBin(Bool_t startWithRootNode=kTRUE); // update fFirstBin and fLastBin
183 TUnfoldBinning const *ToAxisBins(Int_t globalBin,Int_t *axisBins) const; // return distribution in which the bin is located
184 Int_t ToGlobalBin(Int_t const *axisBins,Int_t *isBelow=0,Int_t *isAbove=0) const; // return -1 if not inside distribution
185 TString BuildHistogramTitle(const char *histogramName,const char *histogramTitle,
186 Int_t const *axisList) const; // construct histogram title
187 TString BuildHistogramTitle2D(const char *histogramName,const char *histogramTitle,
188 Int_t xAxis,const TUnfoldBinning *yAxisBinning,Int_t yAxis) const; // construct histogram title
189 Int_t GetTHxxBinning(Int_t maxDim,Int_t *axisBins,Int_t *axisList,const char *axisSteering) const; // get binning information for creating a THxx
190 Int_t GetTHxxBinningSingleNode(Int_t maxDim,Int_t *axisBins,Int_t *axisList,const char *axisSteering) const; // get binning information for creating a THxx
191 Int_t GetTHxxBinsRecursive(const char *axisSteering) const; // get binning information for creating a THxx
192 const TUnfoldBinning *GetNonemptyNode(void) const; // get the only nodes with non-empty distributions if there are multiple nodes, return 0
193 Int_t *CreateBinMap(const TH1 *hist,Int_t nDim,const Int_t *axisList,const char *axisSteering) const; // create mapping from global bins to a histogram
194 Int_t FillBinMapRecursive(Int_t startBin,const char *axisSteering,
195 Int_t *binMap) const; // fill bin map recursively
196 Int_t FillBinMapSingleNode(const TH1 *hist,Int_t startBin,Int_t nDim,const Int_t *axisList,const char *axisSteering,Int_t *binMap) const; // fill bin map for a single node
197 void SetBinFactor(Double_t normalisation,TObject *factors); // define function to calculate bin factor. Note: the object is owned by this class, unless it is a function
198
199 ClassDef(TUnfoldBinning, TUnfold_CLASS_VERSION) //Complex binning schemes for TUnfoldDensity
200};
201
202#endif
static const double x2[5]
static const double x4[22]
static const double x1[5]
static const double x3[11]
int Int_t
Definition RtypesCore.h:45
const Bool_t kFALSE
Definition RtypesCore.h:92
bool Bool_t
Definition RtypesCore.h:63
double Double_t
Definition RtypesCore.h:59
const Bool_t kTRUE
Definition RtypesCore.h:91
#define ClassDef(name, id)
Definition Rtypes.h:325
static void indent(ostringstream &buf, int indent_level)
char name[80]
Definition TGX11.cxx:110
#define TUnfold_CLASS_VERSION
Definition TUnfold.h:100
Class to manage histogram axis.
Definition TAxis.h:30
1-Dim function class
Definition TF1.h:213
TH1 is the base class of all histogram classes in ROOT.
Definition TH1.h:58
2-D histogram with a double per channel (see TH1 documentation)}
Definition TH2.h:292
Service class for 2-Dim histogram classes.
Definition TH2.h:30
The TNamed class is the base class for all named ROOT classes.
Definition TNamed.h:29
An array of TObjects.
Definition TObjArray.h:37
Int_t GetEntriesFast() const
Definition TObjArray.h:64
TObject * At(Int_t idx) const
Definition TObjArray.h:166
Collectable string class.
Definition TObjString.h:28
Mother of all ROOT objects.
Definition TObject.h:37
Basic string class.
Definition TString.h:136
Binning schemes for use with the unfolding algorithm TUnfoldDensity.
void PrintStream(std::ostream &out, Int_t indent=0, int debug=0) const
Print some information about this binning tree.
Bool_t HasOverflow(int axis) const
check whether the axis has an overflow bin
Int_t GetTH1xNumberOfBins(Bool_t originalAxisBinning=kTRUE, const char *axisSteering=0) const
Return the number of histogram bins required when storing this binning in a one-dimensional histogram...
Int_t FillBinMapSingleNode(const TH1 *hist, Int_t startBin, Int_t nDim, const Int_t *axisList, const char *axisSteering, Int_t *binMap) const
Fill bin map for a single node.
virtual Double_t GetDistributionOverflowBinWidth(Int_t axis) const
Return bin width assigned to the overflow bin.
TH1 * CreateHistogram(const char *histogramName, Bool_t originalAxisBinning=kFALSE, Int_t **binMap=0, const char *histogramTitle=0, const char *axisSteering=0) const
Create a THxx histogram capable to hold the bins of this binning node and its children.
TH1 * ExtractHistogram(const char *histogramName, const TH1 *globalBins, const TH2 *globalBinsEmatrix=0, Bool_t originalAxisBinning=kTRUE, const char *axisSteering=0) const
Extract a distribution from the given set of global bins.
Int_t fFirstBin
global bin number of the first bin
virtual ~TUnfoldBinning(void)
Int_t UpdateFirstLastBin(Bool_t startWithRootNode=kTRUE)
Update fFirstBin and fLastBin members of this node and its children.
TString BuildHistogramTitle(const char *histogramName, const char *histogramTitle, Int_t const *axisList) const
Construct a title.
Int_t FillBinMapRecursive(Int_t startBin, const char *axisSteering, Int_t *binMap) const
Recursively fill bin map.
Int_t FillBinMap1D(Int_t *binMap, const char *axisSteering, Int_t firstBinX) const
Map all global bins referenced by this node to the one-dimensional histogram destHist,...
TUnfoldBinning * parentNode
mother node
Int_t GetDistributionDimension(void) const
query dimension of this node's distribution
TUnfoldBinning const * GetPrevNode(void) const
previous sister node
void SetBinFactor(Double_t normalisation, TObject *factors)
Set normalisation factors which are used in calls to GetBinFactor().
TUnfoldBinning * childNode
first daughter node
TString GetBinName(Int_t iBin) const
Get the name of a bin.
virtual Double_t GetDistributionUnderflowBinWidth(Int_t axis) const
Return bin width assigned to the underflow bin.
Double_t GetBinSize(Int_t iBin) const
Get N-dimensional bin size.
Int_t GetDistributionNumberOfBins(void) const
number of bins in the distribution possibly including under/overflow
Double_t GetGlobalFactor(void) const
Return global scaling factor for this node.
Int_t GetGlobalBinNumber(Double_t x) const
Locate a bin in a one-dimensional distribution.
Bool_t HasUnconnectedBins(void) const
Check whether there are bins but no axis.
void SetBinFactorFunction(Double_t normalisation, TF1 *userFunc=0)
Set normalisation factor and function which are used in calls to GetBinFactor().
virtual Double_t GetBinFactor(Int_t iBin) const
Return scaling factor for the given global bin number.
TUnfoldBinning * nextNode
next sister
TObject * fBinFactorFunction
function to calculate a scale factor from bin centres (may be a TF1 or a TVectorD
Int_t GetTHxxBinning(Int_t maxDim, Int_t *axisBins, Int_t *axisList, const char *axisSteering) const
Calculate properties of a THxx histogram to store this binning.
Int_t fHasUnderflow
bit fields indicating whether there are underflow bins on the axes
Int_t GetEndBin(void) const
last+1 bin of this node (includes children)
TObjArray * fAxisLabelList
for each axis its name (TObjString), or names of unconnected bins
Double_t fBinFactorConstant
common scale factor for all bins of this node
TUnfoldBinning const * GetNextNode(void) const
next sister node
Bool_t HasUnderflow(int axis) const
check whether an axis has an underflow bin
Int_t ToGlobalBin(Int_t const *axisBins, Int_t *isBelow=0, Int_t *isAbove=0) const
Get global bin number, given axis bin numbers.
Int_t * CreateEmptyBinMap(void) const
Create an empty bin map, useful together with the getter methods of class TUnfold and TUnfoldSys.
static TH2D * CreateHistogramOfMigrations(TUnfoldBinning const *xAxis, TUnfoldBinning const *yAxis, char const *histogramName, Bool_t originalXAxisBinning=kFALSE, Bool_t originalYAxisBinning=kFALSE, char const *histogramTitle=0)
Create a TH2D histogram capable to hold the bins of the two input binning schemes on the x and y axes...
TUnfoldBinning const * GetParentNode(void) const
mother node
TObjArray * fAxisList
for each axis the bin borders (TVectorD)
Int_t fLastBin
global bin number of the last(+1) bin, including daughters
void GetBinUnderflowOverflowStatus(Int_t iBin, Int_t *uStatus, Int_t *oStatus) const
Return bit maps indicating underflow and overflow status.
virtual Double_t GetDistributionBinCenter(Int_t axis, Int_t bin) const
return bin center for a given axis and bin number
Int_t fDistributionSize
number of bins in this node's distribution
Int_t fHasOverflow
bit fields indicating whether there are overflow bins on the axes
const TUnfoldBinning * GetNonemptyNode(void) const
Find a node which has non-empty distributions if there is none or if there are many,...
void Initialize(Int_t nBins)
Initialize variables for a given number of bins.
void SetBinMapEntry(Int_t *binMap, Int_t globalBin, Int_t destBin) const
Set one entry in a bin map.
virtual Double_t GetDistributionAverageBinSize(Int_t axis, Bool_t includeUnderflow, Bool_t includeOverflow) const
Get average bin size on the specified axis.
void DecodeAxisSteering(const char *axisSteering, const char *options, Int_t *isOptionGiven) const
Decode axis steering.
virtual Bool_t IsBinFactorGlobal(void) const
Check whether there is only a global scaling factor for this node.
TString GetDistributionAxisLabel(Int_t axis) const
get name of an axis
TH2D * CreateErrorMatrixHistogram(const char *histogramName, Bool_t originalAxisBinning, Int_t **binMap=0, const char *histogramTitle=0, const char *axisSteering=0) const
Create a TH2D histogram capable to hold a covariance matrix.
@ MAXDIM
maximum numner of axes per distribution
TUnfoldBinning * AddBinning(TUnfoldBinning *binning)
Add a TUnfoldBinning as the last child of this node.
const TObjString * GetUnconnectedBinName(Int_t bin) const
Return the bin names of unconnected bins.
Int_t GetBinNeighbours(Int_t globalBin, Int_t axis, Int_t *prev, Double_t *distPrev, Int_t *next, Double_t *distNext, Bool_t isPeriodic=kFALSE) const
Get neighbour bins along the specified axis.
TVectorD const * GetDistributionBinning(Int_t axis) const
get vector of bin borders for one axis
Int_t * CreateBinMap(const TH1 *hist, Int_t nDim, const Int_t *axisList, const char *axisSteering) const
Create mapping from global bin number to a histogram for this node.
Bool_t AddAxis(const char *name, Int_t nBins, const Double_t *binBorders, Bool_t hasUnderflow, Bool_t hasOverflow)
Add an axis with the specified bin borders.
TUnfoldBinning * prevNode
previous sister
TUnfoldBinning const * GetRootNode(void) const
return root node of the binnig scheme
Int_t GetStartBin(void) const
first bin of this node
TUnfoldBinning const * ToAxisBins(Int_t globalBin, Int_t *axisBins) const
Return distribution in which the bin is located and bin numbers on the corresponding axes.
TUnfoldBinning const * FindNode(char const *name) const
Traverse the tree and return the first node which matches the given name.
Int_t GetTHxxBinsRecursive(const char *axisSteering) const
Calculate number of bins required to store this binning with the given axisSteering.
TUnfoldBinning const * GetChildNode(void) const
first daughter node
Int_t GetTHxxBinningSingleNode(Int_t maxDim, Int_t *axisBins, Int_t *axisList, const char *axisSteering) const
Get the properties of a histogram capable to hold the distribution attached to this node.
TString BuildHistogramTitle2D(const char *histogramName, const char *histogramTitle, Int_t xAxis, const TUnfoldBinning *yAxisBinning, Int_t yAxis) const
Construct a histogram title for a 2D histogram with different binning schemes on x and y axis.
Double_t y[n]
Definition legend1.C:17
Double_t x[n]
Definition legend1.C:17