1 | /* ======================================================================== *\
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2 | !
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3 | ! *
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4 | ! * This file is part of MARS, the MAGIC Analysis and Reconstruction
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5 | ! * Software. It is distributed to you in the hope that it can be a useful
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6 | ! * and timesaving tool in analysing Data of imaging Cerenkov telescopes.
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7 | ! * It is distributed WITHOUT ANY WARRANTY.
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8 | ! *
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9 | ! * Permission to use, copy, modify and distribute this software and its
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10 | ! * documentation for any purpose is hereby granted without fee,
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11 | ! * provided that the above copyright notice appear in all copies and
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12 | ! * that both that copyright notice and this permission notice appear
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13 | ! * in supporting documentation. It is provided "as is" without express
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14 | ! * or implied warranty.
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15 | ! *
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16 | !
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17 | !
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18 | ! Author(s): Thomas Bretz 07/2001 <mailto:tbretz@astro.uni-wuerzburg.de>
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19 | !
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20 | ! Copyright: MAGIC Software Development, 2000-2002
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21 | !
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22 | !
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23 | \* ======================================================================== */
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24 |
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25 | //////////////////////////////////////////////////////////////////////////////
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26 | // //
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27 | // MH //
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28 | // //
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29 | // This is a base tasks for mars histograms. It defines a common interface //
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30 | // for filling the histograms with events (MH::Fill) which is used by a //
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31 | // common 'filler' And a SetupFill member function which may be used //
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32 | // by MFillH. The idea is: //
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33 | // 1) If your Histogram can become filled by one single container //
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34 | // (like MHHillas) you overload MH::Fill and it gets called with //
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35 | // a pointer to the container with which it should be filled. //
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36 | // //
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37 | // 2) You histogram needs several containers to get filled. Than you //
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38 | // have to overload MH::SetupFill and get the necessary objects from //
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39 | // the parameter list. Use this objects in Fill to fill your //
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40 | // histogram. //
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41 | // //
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42 | // If you want to create your own histogram class the new class must be //
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43 | // derived from MH (instead of the base MParContainer) and you must //
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44 | // the fill function of MH. This is the function which is called to fill //
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45 | // the histogram(s) by the data of a corresponding parameter container. //
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46 | // //
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47 | // Remark: the static member function (eg MakeDefCanvas) can be called //
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48 | // from everywhere using: MH::MakeDefCanvas(...) //
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49 | // //
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50 | //////////////////////////////////////////////////////////////////////////////
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51 |
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52 | #include "MH.h"
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53 |
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54 | #include <TH1.h>
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55 | #include <TH2.h>
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56 | #include <TH3.h>
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57 | #include <TStyle.h> // TStyle::GetScreenFactor
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58 | #include <TGaxis.h>
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59 | #include <TCanvas.h>
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60 | #include <TLegend.h>
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61 | #include <TPaveStats.h>
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62 | #include <TBaseClass.h>
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63 | #if ROOT_VERSION_CODE > ROOT_VERSION(3,04,01)
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64 | #include <THLimitsFinder.h>
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65 | #endif
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66 |
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67 | #include "MLog.h"
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68 | #include "MLogManip.h"
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69 |
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70 | #include "MParList.h"
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71 | #include "MParContainer.h"
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72 |
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73 | #include "MBinning.h"
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74 |
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75 | #include "MArrayD.h"
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76 | #include "MArrayF.h"
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77 |
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78 | ClassImp(MH);
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79 |
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80 | using namespace std;
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81 |
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82 | // --------------------------------------------------------------------------
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83 | //
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84 | // Default Constructor. It sets name and title only. Typically you won't
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85 | // need to change this.
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86 | //
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87 | MH::MH(const char *name, const char *title)
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88 | : fSerialNumber(0), fNumExecutions(0)
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89 |
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90 | {
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91 | //
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92 | // set the name and title of this object
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93 | //
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94 | fName = name ? name : "MH";
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95 | fTitle = title ? title : "Base class for Mars histograms";
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96 | }
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97 |
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98 | // --------------------------------------------------------------------------
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99 | //
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100 | // If you want to use the automatic filling of your derived class you
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101 | // must overload this function. If it is not overloaded you cannot use
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102 | // FillH with this class. The argument is a pointer to a container
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103 | // in your paremeter list which is specified in the MFillH constructor.
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104 | // If you are not going to use it you should at least add
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105 | // Bool_t MH::Fill(const MParContainer *) { return kTRUE; }
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106 | // to your class definition.
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107 | //
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108 | Bool_t MH::Fill(const MParContainer *par, const Stat_t w)
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109 | {
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110 | *fLog << warn << GetDescriptor() << ": Fill not overloaded! Can't be used!" << endl;
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111 | return kFALSE;
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112 | }
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113 |
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114 | // --------------------------------------------------------------------------
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115 | //
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116 | // This virtual function is ment as a generalized interface to retrieve
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117 | // a pointer to a root histogram from the MH-derived class.
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118 | //
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119 | TH1 *MH::GetHistByName(const TString name) const
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120 | {
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121 | *fLog << warn << GetDescriptor() << ": GetHistByName not overloaded! Can't be used!" << endl;
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122 | return NULL;
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123 | }
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124 |
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125 | // --------------------------------------------------------------------------
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126 | //
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127 | // This is a function which should replace the creation of default
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128 | // canvases like root does. Because this is inconvinient in some aspects.
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129 | // need to change this.
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130 | // You can specify a name for the default canvas and a title. Also
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131 | // width and height can be given.
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132 | // MakeDefCanvas looks for a canvas with the given name. If now name is
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133 | // given the DefCanvasName of root is used. If no such canvas is existing
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134 | // it is created and returned. If such a canvas already exists a new canvas
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135 | // with a name plus anumber is created (the number is calculated by the
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136 | // number of all existing canvases plus one)
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137 | //
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138 | // Normally the canvas size is scaled with gStyle->GetScreenFactor() so
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139 | // that on all screens it looks like the same part of the screen.
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140 | // To suppress this scaling use usescreenfactor=kFALSE. In this case
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141 | // you specify directly the size of the embedded pad.
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142 | //
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143 | TCanvas *MH::MakeDefCanvas(TString name, const char *title,
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144 | UInt_t w, UInt_t h, Bool_t usescreenfactor)
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145 | {
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146 | const TList *list = (TList*)gROOT->GetListOfCanvases();
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147 |
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148 | if (name.IsNull())
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149 | name = gROOT->GetDefCanvasName();
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150 |
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151 | if (list->FindObject(name))
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152 | name += Form(" <%d>", list->GetSize()+1);
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153 |
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154 | if (!usescreenfactor)
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155 | {
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156 | const Float_t cx = gStyle->GetScreenFactor();
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157 | w += 4;
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158 | h += 28;
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159 | w = (int)(w/cx+1);
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160 | h = (int)(h/cx+1);
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161 | }
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162 |
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163 | return new TCanvas(name, title, w, h);
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164 | }
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165 |
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166 | // --------------------------------------------------------------------------
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167 | //
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168 | // This function works like MakeDefCanvas(name, title, w, h) but name
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169 | // and title are retrieved from the given TObject.
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170 | //
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171 | // Normally the canvas size is scaled with gStyle->GetScreenFactor() so
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172 | // that on all screens it looks like the same part of the screen.
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173 | // To suppress this scaling use usescreenfactor=kFALSE. In this case
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174 | // you specify directly the size of the embedded pad.
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175 | //
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176 | TCanvas *MH::MakeDefCanvas(const TObject *obj,
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177 | UInt_t w, UInt_t h, Bool_t usescreenfactor)
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178 | {
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179 | if (!usescreenfactor)
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180 | {
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181 | const Float_t cx = gStyle->GetScreenFactor();
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182 | w += 4;
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183 | h += 28;
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184 | h = (int)(h/cx+1);
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185 | w = (int)(w/cx+1);
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186 | }
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187 |
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188 | return MakeDefCanvas(obj->GetName(), obj->GetTitle(), w, h);
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189 | }
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190 |
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191 | // --------------------------------------------------------------------------
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192 | //
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193 | // Search in gPad for all objects with the name name and remove all of them
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194 | // (TList::Remove)
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195 | //
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196 | void MH::RemoveFromPad(const char *name)
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197 | {
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198 | if (!gPad)
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199 | return;
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200 |
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201 | TList *list = gPad->GetListOfPrimitives();
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202 | if (!list)
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203 | return;
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204 |
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205 | TObject *obj = 0;
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206 | while ((obj = gPad->FindObject(name)))
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207 | list->Remove(obj);
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208 | }
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209 |
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210 | // --------------------------------------------------------------------------
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211 | //
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212 | // Applies a given binning to a 1D-histogram
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213 | //
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214 | void MH::SetBinning(TH1 *h, const MBinning *binsx)
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215 | {
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216 | //
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217 | // Another strange behaviour: TAxis::Set deletes the axis title!
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218 | //
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219 | TAxis &x = *h->GetXaxis();
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220 |
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221 | #if ROOT_VERSION_CODE < ROOT_VERSION(3,03,03)
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222 | TString xtitle = x.GetTitle();
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223 | #endif
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224 |
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225 | // All this is reset by TAxis::Set
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226 | const TAttAxis att(x);
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227 | const Bool_t tm(x.GetTimeDisplay());
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228 | const TString tf(x.GetTimeFormat());
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229 |
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230 | //
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231 | // This is a necessary workaround if one wants to set
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232 | // non-equidistant bins after the initialization
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233 | // TH1D::fNcells must be set correctly.
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234 | //
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235 | h->SetBins(binsx->GetNumBins(), 0, 1);
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236 |
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237 | //
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238 | // Set the binning of the current histogram to the binning
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239 | // in one of the two given histograms
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240 | //
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241 | x.Set(binsx->GetNumBins(), binsx->GetEdges());
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242 |
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243 | // All this is reset by TAxis::Set
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244 | att.Copy(x);
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245 | x.SetTimeDisplay(tm);
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246 | x.SetTimeFormat(tf);
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247 |
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248 | #if ROOT_VERSION_CODE < ROOT_VERSION(3,03,03)
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249 | x.SetTitle(xtitle);
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250 | #endif
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251 | }
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252 |
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253 | // --------------------------------------------------------------------------
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254 | //
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255 | // Applies given binnings to the two axis of a 2D-histogram
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256 | //
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257 | void MH::SetBinning(TH2 *h, const MBinning *binsx, const MBinning *binsy)
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258 | {
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259 | TAxis &x = *h->GetXaxis();
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260 | TAxis &y = *h->GetYaxis();
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261 |
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262 | //
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263 | // Another strange behaviour: TAxis::Set deletes the axis title!
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264 | //
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265 | #if ROOT_VERSION_CODE < ROOT_VERSION(3,03,03)
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266 | TString xtitle = x.GetTitle();
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267 | TString ytitle = y.GetTitle();
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268 | #endif
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269 |
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270 | // All this is reset by TAxis::Set
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271 | const TAttAxis attx(x);
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272 | const TAttAxis atty(y);
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273 | const Bool_t tmx(x.GetTimeDisplay());
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274 | const Bool_t tmy(y.GetTimeDisplay());
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275 | const TString tfx(x.GetTimeFormat());
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276 | const TString tfy(y.GetTimeFormat());
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277 |
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278 | //
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279 | // This is a necessary workaround if one wants to set
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280 | // non-equidistant bins after the initialization
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281 | // TH1D::fNcells must be set correctly.
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282 | //
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283 | h->SetBins(binsx->GetNumBins(), 0, 1,
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284 | binsy->GetNumBins(), 0, 1);
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285 |
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286 | //
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287 | // Set the binning of the current histogram to the binning
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288 | // in one of the two given histograms
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289 | //
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290 | x.Set(binsx->GetNumBins(), binsx->GetEdges());
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291 | y.Set(binsy->GetNumBins(), binsy->GetEdges());
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292 |
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293 | // All this is reset by TAxis::Set
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294 | attx.Copy(x);
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295 | atty.Copy(y);
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296 | x.SetTimeDisplay(tmx);
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297 | y.SetTimeDisplay(tmy);
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298 | x.SetTimeFormat(tfx);
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299 | y.SetTimeFormat(tfy);
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300 |
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301 | #if ROOT_VERSION_CODE < ROOT_VERSION(3,03,03)
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302 | x.SetTitle(xtitle);
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303 | y.SetTitle(ytitle);
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304 | #endif
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305 | }
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306 |
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307 | // --------------------------------------------------------------------------
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308 | //
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309 | // Applies given binnings to the three axis of a 3D-histogram
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310 | //
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311 | void MH::SetBinning(TH3 *h, const MBinning *binsx, const MBinning *binsy, const MBinning *binsz)
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312 | {
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313 | //
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314 | // Another strange behaviour: TAxis::Set deletes the axis title!
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315 | //
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316 | TAxis &x = *h->GetXaxis();
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317 | TAxis &y = *h->GetYaxis();
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318 | TAxis &z = *h->GetZaxis();
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319 |
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320 | #if ROOT_VERSION_CODE < ROOT_VERSION(3,03,03)
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321 | TString xtitle = x.GetTitle();
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322 | TString ytitle = y.GetTitle();
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323 | TString ztitle = z.GetTitle();
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324 | #endif
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325 |
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326 | // All this is reset by TAxis::Set
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327 | const TAttAxis attx(x);
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328 | const TAttAxis atty(y);
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329 | const TAttAxis attz(z);
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330 | const Bool_t tmx(x.GetTimeDisplay());
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331 | const Bool_t tmy(y.GetTimeDisplay());
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332 | const Bool_t tmz(z.GetTimeDisplay());
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333 | const TString tfx(x.GetTimeFormat());
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334 | const TString tfy(y.GetTimeFormat());
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335 | const TString tfz(z.GetTimeFormat());
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336 |
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337 | //
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338 | // This is a necessary workaround if one wants to set
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339 | // non-equidistant bins after the initialization
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340 | // TH1D::fNcells must be set correctly.
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341 | //
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342 | h->SetBins(binsx->GetNumBins(), 0, 1,
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343 | binsy->GetNumBins(), 0, 1,
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344 | binsz->GetNumBins(), 0, 1);
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345 |
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346 | //
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347 | // Set the binning of the current histogram to the binning
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348 | // in one of the two given histograms
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349 | //
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350 | x.Set(binsx->GetNumBins(), binsx->GetEdges());
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351 | y.Set(binsy->GetNumBins(), binsy->GetEdges());
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352 | z.Set(binsz->GetNumBins(), binsz->GetEdges());
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353 |
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354 | // All this is reset by TAxis::Set
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355 | attx.Copy(x);
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356 | atty.Copy(y);
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357 | attz.Copy(z);
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358 | x.SetTimeDisplay(tmx);
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359 | y.SetTimeDisplay(tmy);
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360 | z.SetTimeDisplay(tmz);
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361 | x.SetTimeFormat(tfx);
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362 | y.SetTimeFormat(tfy);
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363 | z.SetTimeFormat(tfz);
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364 |
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365 | #if ROOT_VERSION_CODE < ROOT_VERSION(3,03,03)
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366 | x.SetTitle(xtitle);
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367 | y.SetTitle(ytitle);
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368 | z.SetTitle(ztitle);
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369 | #endif
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370 | }
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371 |
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372 | // --------------------------------------------------------------------------
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373 | //
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374 | // Applies given binning (the n+1 edges) to the axis of a 1D-histogram
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375 | //
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376 | void MH::SetBinning(TH1 *h, const TArrayD &binsx)
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377 | {
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378 | MBinning bx;
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379 | bx.SetEdges(binsx);
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380 | SetBinning(h, &bx);
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381 | }
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382 |
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383 | // --------------------------------------------------------------------------
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384 | //
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385 | // Applies given binning (the n+1 edges) to the two axis of a
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386 | // 2D-histogram
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387 | //
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388 | void MH::SetBinning(TH2 *h, const TArrayD &binsx, const TArrayD &binsy)
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389 | {
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390 | MBinning bx;
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391 | MBinning by;
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392 | bx.SetEdges(binsx);
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393 | by.SetEdges(binsy);
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394 | SetBinning(h, &bx, &by);
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395 | }
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396 |
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397 | // --------------------------------------------------------------------------
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398 | //
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399 | // Applies given binning (the n+1 edges) to the three axis of a
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400 | // 3D-histogram
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401 | //
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402 | void MH::SetBinning(TH3 *h, const TArrayD &binsx, const TArrayD &binsy, const TArrayD &binsz)
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403 | {
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404 | MBinning bx;
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405 | MBinning by;
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406 | MBinning bz;
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407 | bx.SetEdges(binsx);
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408 | by.SetEdges(binsy);
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409 | bz.SetEdges(binsz);
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410 | SetBinning(h, &bx, &by, &bz);
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411 | }
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412 |
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413 | // --------------------------------------------------------------------------
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414 | //
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415 | // Applies the binning of a TAxis (eg from a root histogram) to the axis
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416 | // of a 1D-histogram
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417 | //
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418 | void MH::SetBinning(TH1 *h, const TAxis *binsx)
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419 | {
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420 | const Int_t nx = binsx->GetNbins();
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421 |
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422 | TArrayD bx(nx+1);
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423 | for (int i=0; i<nx; i++) bx[i] = binsx->GetBinLowEdge(i+1);
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424 | bx[nx] = binsx->GetXmax();
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425 |
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426 | SetBinning(h, bx);
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427 | }
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428 |
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429 | // --------------------------------------------------------------------------
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430 | //
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431 | // Applies the binnings of the TAxis' (eg from a root histogram) to the
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432 | // two axis' of a 2D-histogram
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433 | //
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434 | void MH::SetBinning(TH2 *h, const TAxis *binsx, const TAxis *binsy)
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435 | {
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436 | const Int_t nx = binsx->GetNbins();
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437 | const Int_t ny = binsy->GetNbins();
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438 |
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439 | TArrayD bx(nx+1);
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440 | TArrayD by(ny+1);
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441 | for (int i=0; i<nx; i++) bx[i] = binsx->GetBinLowEdge(i+1);
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442 | for (int i=0; i<ny; i++) by[i] = binsy->GetBinLowEdge(i+1);
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443 | bx[nx] = binsx->GetXmax();
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444 | by[ny] = binsy->GetXmax();
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445 |
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446 | SetBinning(h, bx, by);
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447 | }
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448 |
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449 | // --------------------------------------------------------------------------
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450 | //
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451 | // Applies the binnings of the TAxis' (eg from a root histogram) to the
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452 | // three axis' of a 3D-histogram
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453 | //
|
---|
454 | void MH::SetBinning(TH3 *h, const TAxis *binsx, const TAxis *binsy, const TAxis *binsz)
|
---|
455 | {
|
---|
456 | const Int_t nx = binsx->GetNbins();
|
---|
457 | const Int_t ny = binsy->GetNbins();
|
---|
458 | const Int_t nz = binsz->GetNbins();
|
---|
459 |
|
---|
460 | TArrayD bx(nx+1);
|
---|
461 | TArrayD by(ny+1);
|
---|
462 | TArrayD bz(nz+1);
|
---|
463 | for (int i=0; i<nx; i++) bx[i] = binsx->GetBinLowEdge(i+1);
|
---|
464 | for (int i=0; i<ny; i++) by[i] = binsy->GetBinLowEdge(i+1);
|
---|
465 | for (int i=0; i<nz; i++) bz[i] = binsz->GetBinLowEdge(i+1);
|
---|
466 | bx[nx] = binsx->GetXmax();
|
---|
467 | by[ny] = binsy->GetXmax();
|
---|
468 | bz[nz] = binsz->GetXmax();
|
---|
469 |
|
---|
470 | SetBinning(h, bx, by, bz);
|
---|
471 | }
|
---|
472 |
|
---|
473 | // --------------------------------------------------------------------------
|
---|
474 | //
|
---|
475 | // Applies the binnings of one root-histogram x to another one h
|
---|
476 | // Both histograms must be of the same type: TH1, TH2 or TH3
|
---|
477 | //
|
---|
478 | void MH::SetBinning(TH1 *h, const TH1 *x)
|
---|
479 | {
|
---|
480 | if (h->InheritsFrom(TH3::Class()) && x->InheritsFrom(TH3::Class()))
|
---|
481 | {
|
---|
482 | SetBinning((TH3*)h, ((TH1*)x)->GetXaxis(), ((TH1*)x)->GetYaxis(), ((TH1*)x)->GetZaxis());
|
---|
483 | return;
|
---|
484 | }
|
---|
485 | if (h->InheritsFrom(TH3::Class()) || x->InheritsFrom(TH3::Class()))
|
---|
486 | return;
|
---|
487 | if (h->InheritsFrom(TH2::Class()) && x->InheritsFrom(TH2::Class()))
|
---|
488 | {
|
---|
489 | SetBinning((TH2*)h, ((TH1*)x)->GetXaxis(), ((TH1*)x)->GetYaxis());
|
---|
490 | return;
|
---|
491 | }
|
---|
492 | if (h->InheritsFrom(TH2::Class()) || x->InheritsFrom(TH2::Class()))
|
---|
493 | return;
|
---|
494 | if (h->InheritsFrom(TH1::Class()) && x->InheritsFrom(TH1::Class()))
|
---|
495 | {
|
---|
496 | SetBinning(h, ((TH1*)x)->GetXaxis());
|
---|
497 | return;
|
---|
498 | }
|
---|
499 | }
|
---|
500 |
|
---|
501 | void MH::RemoveFirstBin(TH1 &h)
|
---|
502 | {
|
---|
503 | if (h.InheritsFrom(TH2::Class()) || h.InheritsFrom(TH3::Class()))
|
---|
504 | return;
|
---|
505 |
|
---|
506 | const Bool_t haserr = h.GetSumw2N()>0;
|
---|
507 |
|
---|
508 | const Int_t n0 = h.GetNbinsX();
|
---|
509 | if (n0<2)
|
---|
510 | return;
|
---|
511 |
|
---|
512 | TArrayD val(n0-1);
|
---|
513 | TArrayD err(haserr ? n0-1 : 0);
|
---|
514 | for (int i=1; i<n0; i++)
|
---|
515 | {
|
---|
516 | val[i-1] = h.GetBinContent(i+1);
|
---|
517 | if (haserr)
|
---|
518 | err[i-1] = h.GetBinError(i+1);
|
---|
519 | }
|
---|
520 |
|
---|
521 | MBinning bins;
|
---|
522 | bins.SetEdges(h, 'x');
|
---|
523 | bins.RemoveFirstEdge();
|
---|
524 | bins.Apply(h);
|
---|
525 |
|
---|
526 | h.Reset();
|
---|
527 |
|
---|
528 | for (int i=1; i<n0; i++)
|
---|
529 | {
|
---|
530 | h.SetBinContent(i, val[i-1]);
|
---|
531 | if (haserr)
|
---|
532 | h.SetBinError(i, err[i-1]);
|
---|
533 | }
|
---|
534 | }
|
---|
535 |
|
---|
536 | // --------------------------------------------------------------------------
|
---|
537 | //
|
---|
538 | // Multiplies all entries in a TArrayD by a float f
|
---|
539 | //
|
---|
540 | void MH::ScaleArray(TArrayD &bins, Double_t f)
|
---|
541 | {
|
---|
542 | for (int i=0; i<bins.GetSize(); i++)
|
---|
543 | bins[i] *= f;
|
---|
544 | }
|
---|
545 |
|
---|
546 | // --------------------------------------------------------------------------
|
---|
547 | //
|
---|
548 | // Scales the binning of a TAxis by a float f
|
---|
549 | //
|
---|
550 | TArrayD MH::ScaleAxis(TAxis &axe, Double_t f)
|
---|
551 | {
|
---|
552 | TArrayD arr(axe.GetNbins()+1);
|
---|
553 |
|
---|
554 | for (int i=1; i<=axe.GetNbins()+1; i++)
|
---|
555 | arr[i-1] = axe.GetBinLowEdge(i);
|
---|
556 |
|
---|
557 | ScaleArray(arr, f);
|
---|
558 |
|
---|
559 | return arr;
|
---|
560 | }
|
---|
561 |
|
---|
562 | // --------------------------------------------------------------------------
|
---|
563 | //
|
---|
564 | // Scales the binning of one, two or three axis of a histogram by a float f
|
---|
565 | //
|
---|
566 | void MH::ScaleAxis(TH1 *h, Double_t fx, Double_t fy, Double_t fz)
|
---|
567 | {
|
---|
568 | if (h->InheritsFrom(TH3::Class()))
|
---|
569 | {
|
---|
570 | SetBinning((TH3*)h,
|
---|
571 | ScaleAxis(*h->GetXaxis(), fx),
|
---|
572 | ScaleAxis(*h->GetYaxis(), fy),
|
---|
573 | ScaleAxis(*h->GetZaxis(), fz));
|
---|
574 | return;
|
---|
575 | }
|
---|
576 |
|
---|
577 | if (h->InheritsFrom(TH2::Class()))
|
---|
578 | {
|
---|
579 | SetBinning((TH2*)h,
|
---|
580 | ScaleAxis(*h->GetXaxis(), fx),
|
---|
581 | ScaleAxis(*h->GetYaxis(), fy));
|
---|
582 | return;
|
---|
583 | }
|
---|
584 |
|
---|
585 | if (h->InheritsFrom(TH1::Class()))
|
---|
586 | SetBinning(h, ScaleAxis(*h->GetXaxis(), fx));
|
---|
587 | }
|
---|
588 |
|
---|
589 | // --------------------------------------------------------------------------
|
---|
590 | //
|
---|
591 | // Tries to find a MBinning container with the name "Binning"+name
|
---|
592 | // in the given parameter list. If it was found it is applied to the
|
---|
593 | // given histogram. This is only valid for 1D-histograms.
|
---|
594 | // If the binning is found, but it IsDefault() kTRUE is returned, but
|
---|
595 | // no binning is applied.
|
---|
596 | //
|
---|
597 | Bool_t MH::ApplyBinning(const MParList &plist, TString name, TH1 *h)
|
---|
598 | {
|
---|
599 | if (h->InheritsFrom(TH2::Class()) || h->InheritsFrom(TH3::Class()))
|
---|
600 | {
|
---|
601 | gLog << warn << "MH::ApplyBinning: '" << h->GetName() << "' is not a basic TH1 object... no binning applied." << endl;
|
---|
602 | return kFALSE;
|
---|
603 | }
|
---|
604 |
|
---|
605 | const MBinning *bins = (MBinning*)plist.FindObject("Binning"+name);
|
---|
606 | if (!bins)
|
---|
607 | {
|
---|
608 | gLog << inf << "Object 'Binning" << name << "' [MBinning] not found... no binning applied." << endl;
|
---|
609 | return kFALSE;
|
---|
610 | }
|
---|
611 |
|
---|
612 | if (bins->IsDefault())
|
---|
613 | return kTRUE;
|
---|
614 |
|
---|
615 | SetBinning(h, bins);
|
---|
616 | return kTRUE;
|
---|
617 | }
|
---|
618 |
|
---|
619 | void MH::FindGoodLimits(Int_t nbins, Int_t &newbins, Double_t &xmin, Double_t &xmax, Bool_t isInteger)
|
---|
620 | {
|
---|
621 | #if ROOT_VERSION_CODE > ROOT_VERSION(3,04,01)
|
---|
622 | THLimitsFinder::OptimizeLimits(nbins, newbins, xmin, xmax, isInteger);
|
---|
623 | #else
|
---|
624 | //*-*-*-*-*-*-*-*-*Find reasonable bin values*-*-*-*-*-*-*-*-*-*-*-*-*-*-*
|
---|
625 | //*-* ==========================
|
---|
626 |
|
---|
627 | Double_t dx = 0.1*(xmax-xmin);
|
---|
628 | Double_t umin = xmin - dx;
|
---|
629 | Double_t umax = xmax + dx;
|
---|
630 |
|
---|
631 | if (umin < 0 && xmin >= 0)
|
---|
632 | umin = 0;
|
---|
633 |
|
---|
634 | if (umax > 0 && xmax <= 0)
|
---|
635 | umax = 0;
|
---|
636 |
|
---|
637 | Double_t binlow =0;
|
---|
638 | Double_t binhigh =0;
|
---|
639 | Double_t binwidth=0;
|
---|
640 |
|
---|
641 | TGaxis::Optimize(umin, umax, nbins, binlow, binhigh, nbins, binwidth, "");
|
---|
642 |
|
---|
643 | if (binwidth <= 0 || binwidth > 1.e+39)
|
---|
644 | {
|
---|
645 | xmin = -1;
|
---|
646 | xmax = 1;
|
---|
647 | }
|
---|
648 | else
|
---|
649 | {
|
---|
650 | xmin = binlow;
|
---|
651 | xmax = binhigh;
|
---|
652 | }
|
---|
653 |
|
---|
654 | if (isInteger)
|
---|
655 | {
|
---|
656 | Int_t ixmin = (Int_t)xmin;
|
---|
657 | Int_t ixmax = (Int_t)xmax;
|
---|
658 | Double_t dxmin = (Double_t)ixmin;
|
---|
659 | Double_t dxmax = (Double_t)ixmax;
|
---|
660 |
|
---|
661 | xmin = xmin<0 && xmin!=dxmin ? dxmin - 1 : dxmin;
|
---|
662 | xmax = xmax>0 && xmax!=dxmax ? dxmax + 1 : dxmax;
|
---|
663 |
|
---|
664 | if (xmin>=xmax)
|
---|
665 | xmax = xmin+1;
|
---|
666 |
|
---|
667 | Int_t bw = 1 + (Int_t)((xmax-xmin)/nbins);
|
---|
668 |
|
---|
669 | nbins = (Int_t)((xmax-xmin)/bw);
|
---|
670 |
|
---|
671 | if (xmin+nbins*bw < xmax)
|
---|
672 | {
|
---|
673 | nbins++;
|
---|
674 | xmax = xmin +nbins*bw;
|
---|
675 | }
|
---|
676 | }
|
---|
677 |
|
---|
678 | newbins = nbins;
|
---|
679 | #endif
|
---|
680 | }
|
---|
681 |
|
---|
682 | // --------------------------------------------------------------------------
|
---|
683 | //
|
---|
684 | // Returns the lowest entry in a histogram which is greater than gt (eg >0)
|
---|
685 | //
|
---|
686 | Double_t MH::GetMinimumGT(const TH1 &h, Double_t gt)
|
---|
687 | {
|
---|
688 | Double_t min = FLT_MAX;
|
---|
689 |
|
---|
690 | const Int_t nx = h.GetXaxis()->GetNbins();
|
---|
691 | const Int_t ny = h.GetYaxis()->GetNbins();
|
---|
692 | const Int_t nz = h.GetZaxis()->GetNbins();
|
---|
693 |
|
---|
694 | for (int iz=1; iz<=nz; iz++)
|
---|
695 | for (int iy=1; iy<=ny; iy++)
|
---|
696 | for (int ix=1; ix<=nx; ix++)
|
---|
697 | {
|
---|
698 | const Double_t v = h.GetBinContent(h.GetBin(ix, iy, iz));
|
---|
699 | if (gt<v && v<min)
|
---|
700 | min = v;
|
---|
701 | }
|
---|
702 | return min;
|
---|
703 | }
|
---|
704 |
|
---|
705 | // --------------------------------------------------------------------------
|
---|
706 | //
|
---|
707 | // Returns the bin center in a logarithmic scale. If the given bin
|
---|
708 | // number is <1 it is set to 1. If it is =GetNbins() it is set to
|
---|
709 | // GetNbins()
|
---|
710 | //
|
---|
711 | Double_t MH::GetBinCenterLog(const TAxis &axe, Int_t nbin)
|
---|
712 | {
|
---|
713 | if (nbin>axe.GetNbins())
|
---|
714 | nbin = axe.GetNbins();
|
---|
715 |
|
---|
716 | if (nbin<1)
|
---|
717 | nbin = 1;
|
---|
718 |
|
---|
719 | const Double_t lo = axe.GetBinLowEdge(nbin);
|
---|
720 | const Double_t hi = axe.GetBinUpEdge(nbin);
|
---|
721 |
|
---|
722 | const Double_t val = log10(lo) + log10(hi);
|
---|
723 |
|
---|
724 | return pow(10, val/2);
|
---|
725 | }
|
---|
726 |
|
---|
727 | // --------------------------------------------------------------------------
|
---|
728 | //
|
---|
729 | // Draws a copy of the two given histograms. Uses title as the pad title.
|
---|
730 | // Also layout the two statistic boxes and a legend.
|
---|
731 | //
|
---|
732 | void MH::DrawSameCopy(const TH1 &hist1, const TH1 &hist2, const TString title)
|
---|
733 | {
|
---|
734 | //
|
---|
735 | // Draw first histogram
|
---|
736 | //
|
---|
737 | TH1 *h1 = ((TH1&)hist1).DrawCopy();
|
---|
738 | gPad->SetBorderMode(0);
|
---|
739 | gPad->Update();
|
---|
740 |
|
---|
741 | // FIXME: Also align max/min with set Maximum/Minimum
|
---|
742 | const Double_t maxbin1 = hist1.GetBinContent(hist1.GetMaximumBin());
|
---|
743 | const Double_t maxbin2 = hist2.GetBinContent(hist2.GetMaximumBin());
|
---|
744 | const Double_t minbin1 = hist1.GetBinContent(hist1.GetMinimumBin());
|
---|
745 | const Double_t minbin2 = hist2.GetBinContent(hist2.GetMinimumBin());
|
---|
746 |
|
---|
747 | const Double_t max = TMath::Max(maxbin1, maxbin2);
|
---|
748 | const Double_t min = TMath::Min(minbin1, minbin2);
|
---|
749 |
|
---|
750 | h1->SetMaximum(max>0?max*1.05:max*0.95);
|
---|
751 | h1->SetMinimum(max>0?min*0.95:min*1.05);
|
---|
752 |
|
---|
753 | TPaveText *t = (TPaveText*)gPad->FindObject("title");
|
---|
754 | if (t)
|
---|
755 | {
|
---|
756 | t->SetName((TString)"MHTitle"); // rename object
|
---|
757 | t->Clear(); // clear old lines
|
---|
758 | t->AddText((TString)" "+title+" "); // add the new title
|
---|
759 | t->SetBit(kCanDelete); // make sure object is deleted
|
---|
760 |
|
---|
761 | //
|
---|
762 | // FIXME: This is a stupid workaround to hide the redrawn
|
---|
763 | // (see THistPainter::PaintTitle) title
|
---|
764 | //
|
---|
765 | gPad->Modified(); // indicates a change
|
---|
766 | gPad->Update(); // recreates the original title
|
---|
767 | t->Pop(); // bring our title on top
|
---|
768 | }
|
---|
769 |
|
---|
770 | //
|
---|
771 | // Rename first statistics box
|
---|
772 | //
|
---|
773 | TPaveStats *s1 = dynamic_cast<TPaveStats*>(gPad->FindObject("stats"));
|
---|
774 | if (!s1)
|
---|
775 | s1 = dynamic_cast<TPaveStats*>(hist1.GetListOfFunctions()->FindObject("stats"));
|
---|
776 | else
|
---|
777 | s1->SetName((TString)"Stat"+hist1.GetTitle());
|
---|
778 |
|
---|
779 | if (s1 && s1->GetX2NDC()>0.95)
|
---|
780 | {
|
---|
781 | const Double_t x1 = s1->GetX1NDC()-0.01;
|
---|
782 | s1->SetX1NDC(x1-(s1->GetX2NDC()-s1->GetX1NDC()));
|
---|
783 | s1->SetX2NDC(x1);
|
---|
784 | }
|
---|
785 |
|
---|
786 | //
|
---|
787 | // Draw second histogram
|
---|
788 | //
|
---|
789 | TH1 *h2 = ((TH1&)hist2).DrawCopy("sames");
|
---|
790 | gPad->Update();
|
---|
791 |
|
---|
792 | //
|
---|
793 | // Draw Legend
|
---|
794 | //
|
---|
795 | TPaveStats *s2 = dynamic_cast<TPaveStats*>(gPad->FindObject("stats"));
|
---|
796 | if (!s2)
|
---|
797 | s2 = dynamic_cast<TPaveStats*>(hist2.GetListOfFunctions()->FindObject("stats"));
|
---|
798 |
|
---|
799 | if (s2)
|
---|
800 | {
|
---|
801 | TLegend &l = *new TLegend(s2->GetX1NDC(),
|
---|
802 | s2->GetY1NDC()-0.015-(s2->GetY2NDC()-s2->GetY1NDC())/2,
|
---|
803 | s2->GetX2NDC(),
|
---|
804 | s2->GetY1NDC()-0.01
|
---|
805 | );
|
---|
806 | l.AddEntry(h1, h1->GetTitle());
|
---|
807 | l.AddEntry(h2, h2->GetTitle());
|
---|
808 | l.SetTextSize(s2->GetTextSize());
|
---|
809 | l.SetTextFont(s2->GetTextFont());
|
---|
810 | l.SetBorderSize(s2->GetBorderSize());
|
---|
811 | l.SetBit(kCanDelete);
|
---|
812 | l.Draw();
|
---|
813 | }
|
---|
814 | }
|
---|
815 |
|
---|
816 | // --------------------------------------------------------------------------
|
---|
817 | //
|
---|
818 | // Draws the two given histograms. Uses title as the pad title.
|
---|
819 | // Also layout the two statistic boxes and a legend.
|
---|
820 | //
|
---|
821 | void MH::DrawSame(TH1 &hist1, TH1 &hist2, const TString title, Bool_t same)
|
---|
822 | {
|
---|
823 | //
|
---|
824 | // Draw first histogram
|
---|
825 | //
|
---|
826 | hist1.Draw(same?"same":"");
|
---|
827 | gPad->SetBorderMode(0);
|
---|
828 | gPad->Update();
|
---|
829 |
|
---|
830 | if (hist1.GetEntries()>0 && hist2.GetEntries()>0)
|
---|
831 | {
|
---|
832 | const Double_t maxbin1 = hist1.GetBinContent(hist1.GetMaximumBin());
|
---|
833 | const Double_t maxbin2 = hist2.GetBinContent(hist2.GetMaximumBin());
|
---|
834 | const Double_t minbin1 = hist1.GetBinContent(hist1.GetMinimumBin());
|
---|
835 | const Double_t minbin2 = hist2.GetBinContent(hist2.GetMinimumBin());
|
---|
836 |
|
---|
837 | const Double_t max = TMath::Max(maxbin1, maxbin2);
|
---|
838 | const Double_t min = TMath::Min(minbin1, minbin2);
|
---|
839 |
|
---|
840 | if (max!=min)
|
---|
841 | {
|
---|
842 | hist1.SetMaximum(max>0?max*1.05:max*0.95);
|
---|
843 | hist1.SetMinimum(max>0?min*0.95:min*1.05);
|
---|
844 | }
|
---|
845 | }
|
---|
846 |
|
---|
847 | TPaveText *t = (TPaveText*)gPad->FindObject("title");
|
---|
848 | if (t)
|
---|
849 | {
|
---|
850 | t->SetName((TString)"MHTitle"); // rename object
|
---|
851 | t->Clear(); // clear old lines
|
---|
852 | t->AddText((TString)" "+title+" "); // add the new title
|
---|
853 | t->SetBit(kCanDelete); // make sure object is deleted
|
---|
854 |
|
---|
855 | //
|
---|
856 | // FIXME: This is a stupid workaround to hide the redrawn
|
---|
857 | // (see THistPainter::PaintTitle) title
|
---|
858 | //
|
---|
859 | gPad->Modified(); // indicates a change
|
---|
860 | gPad->Update(); // recreates the original title
|
---|
861 | t->Pop(); // bring our title on top
|
---|
862 | }
|
---|
863 |
|
---|
864 | //
|
---|
865 | // Rename first statistics box
|
---|
866 | //
|
---|
867 | // Where to get the TPaveStats depends on the root version
|
---|
868 | TPaveStats *s1 = dynamic_cast<TPaveStats*>(gPad->FindObject("stats"));
|
---|
869 | if (!s1)
|
---|
870 | s1 = dynamic_cast<TPaveStats*>(hist1.GetListOfFunctions()->FindObject("stats"));
|
---|
871 | else
|
---|
872 | s1->SetName((TString)"Stat"+hist1.GetTitle());
|
---|
873 |
|
---|
874 | if (s1 && s1->GetX2NDC()>0.95)
|
---|
875 | {
|
---|
876 | const Double_t x1 = s1->GetX1NDC()-0.01;
|
---|
877 | s1->SetX1NDC(x1-(s1->GetX2NDC()-s1->GetX1NDC()));
|
---|
878 | s1->SetX2NDC(x1);
|
---|
879 | }
|
---|
880 |
|
---|
881 | //
|
---|
882 | // Draw second histogram
|
---|
883 | //
|
---|
884 | hist2.Draw("sames");
|
---|
885 | gPad->Update();
|
---|
886 |
|
---|
887 | //
|
---|
888 | // Draw Legend
|
---|
889 | //
|
---|
890 | // Where to get the TPaveStats depends on the root version
|
---|
891 | TPaveStats *s2 = dynamic_cast<TPaveStats*>(gPad->FindObject("stats"));
|
---|
892 | if (!s2)
|
---|
893 | s2 = dynamic_cast<TPaveStats*>(hist2.GetListOfFunctions()->FindObject("stats"));
|
---|
894 |
|
---|
895 | if (s2)
|
---|
896 | {
|
---|
897 | TLegend &l = *new TLegend(s2->GetX1NDC(),
|
---|
898 | s2->GetY1NDC()-0.015-(s2->GetY2NDC()-s2->GetY1NDC())/2,
|
---|
899 | s2->GetX2NDC(),
|
---|
900 | s2->GetY1NDC()-0.01
|
---|
901 | );
|
---|
902 | l.AddEntry(&hist1, hist1.GetTitle());
|
---|
903 | l.AddEntry(&hist2, hist2.GetTitle());
|
---|
904 | l.SetTextSize(s2->GetTextSize());
|
---|
905 | l.SetTextFont(s2->GetTextFont());
|
---|
906 | l.SetBorderSize(s2->GetBorderSize());
|
---|
907 | l.SetBit(kCanDelete);
|
---|
908 | l.Draw();
|
---|
909 | }
|
---|
910 | }
|
---|
911 |
|
---|
912 | // --------------------------------------------------------------------------
|
---|
913 | //
|
---|
914 | // If the opt string contains 'nonew' or gPad is not given NULL is returned.
|
---|
915 | // Otherwise the present gPad is returned.
|
---|
916 | //
|
---|
917 | TVirtualPad *MH::GetNewPad(TString &opt)
|
---|
918 | {
|
---|
919 | opt.ToLower();
|
---|
920 |
|
---|
921 | if (!opt.Contains("nonew"))
|
---|
922 | return NULL;
|
---|
923 |
|
---|
924 | opt.ReplaceAll("nonew", "");
|
---|
925 |
|
---|
926 | return gPad;
|
---|
927 | }
|
---|
928 |
|
---|
929 | // --------------------------------------------------------------------------
|
---|
930 | //
|
---|
931 | // Encapsulate the TObject::Clone such, that a cloned TH1 (or derived)
|
---|
932 | // object is not added to the current directory, when cloned.
|
---|
933 | //
|
---|
934 | TObject *MH::Clone(const char *name) const
|
---|
935 | {
|
---|
936 | const Bool_t store = TH1::AddDirectoryStatus();
|
---|
937 |
|
---|
938 | TH1::AddDirectory(kFALSE);
|
---|
939 | TObject *o = MParContainer::Clone(name);
|
---|
940 | TH1::AddDirectory(store);
|
---|
941 |
|
---|
942 | return o;
|
---|
943 | }
|
---|
944 |
|
---|
945 | // --------------------------------------------------------------------------
|
---|
946 | //
|
---|
947 | // If the opt string contains 'nonew' or gPad is not given a new canvas
|
---|
948 | // with size w/h is created. Otherwise the object is cloned and drawn
|
---|
949 | // to the present pad. The kCanDelete bit is set for the clone.
|
---|
950 | //
|
---|
951 | TObject *MH::DrawClone(Option_t *opt, Int_t w, Int_t h) const
|
---|
952 | {
|
---|
953 | TString option(opt);
|
---|
954 |
|
---|
955 | TVirtualPad *p = GetNewPad(option);
|
---|
956 | if (!p)
|
---|
957 | p = MakeDefCanvas(this, w, h);
|
---|
958 | else
|
---|
959 | if (!option.Contains("same", TString::kIgnoreCase))
|
---|
960 | p->Clear();
|
---|
961 |
|
---|
962 | gROOT->SetSelectedPad(NULL);
|
---|
963 |
|
---|
964 | TObject *o = MParContainer::DrawClone(option);
|
---|
965 | o->SetBit(kCanDelete);
|
---|
966 | return o;
|
---|
967 | }
|
---|
968 |
|
---|
969 | // --------------------------------------------------------------------------
|
---|
970 | //
|
---|
971 | // Check whether a class inheriting from MH overwrites the Draw function
|
---|
972 | //
|
---|
973 | Bool_t MH::OverwritesDraw(TClass *cls) const
|
---|
974 | {
|
---|
975 | if (!cls)
|
---|
976 | cls = IsA();
|
---|
977 |
|
---|
978 | //
|
---|
979 | // Check whether we reached the base class MTask
|
---|
980 | //
|
---|
981 | if (TString(cls->GetName())=="MH")
|
---|
982 | return kFALSE;
|
---|
983 |
|
---|
984 | //
|
---|
985 | // Check whether the class cls overwrites Draw
|
---|
986 | //
|
---|
987 | if (cls->GetMethodAny("Draw"))
|
---|
988 | return kTRUE;
|
---|
989 |
|
---|
990 | //
|
---|
991 | // If the class itself doesn't overload it check all it's base classes
|
---|
992 | //
|
---|
993 | TBaseClass *base=NULL;
|
---|
994 | TIter NextBase(cls->GetListOfBases());
|
---|
995 | while ((base=(TBaseClass*)NextBase()))
|
---|
996 | {
|
---|
997 | if (OverwritesDraw(base->GetClassPointer()))
|
---|
998 | return kTRUE;
|
---|
999 | }
|
---|
1000 |
|
---|
1001 | return kFALSE;
|
---|
1002 | }
|
---|
1003 |
|
---|
1004 | // --------------------------------------------------------------------------
|
---|
1005 | //
|
---|
1006 | // Cuts the bins containing only zeros at the edges.
|
---|
1007 | //
|
---|
1008 | // A new number of bins can be defined with nbins != 0
|
---|
1009 | // In the case of nbins == 0, no rebinning will take place
|
---|
1010 | //
|
---|
1011 | // Returns the new (real) number of bins
|
---|
1012 | //
|
---|
1013 | Int_t MH::StripZeros(TH1 *h, Int_t nbins)
|
---|
1014 | {
|
---|
1015 | TAxis &axe = *h->GetXaxis();
|
---|
1016 |
|
---|
1017 | const Int_t min1 = axe.GetFirst();
|
---|
1018 | const Int_t max1 = axe.GetLast();
|
---|
1019 | const Int_t range1 = max1-min1;
|
---|
1020 |
|
---|
1021 | //
|
---|
1022 | // Check for useless zeros
|
---|
1023 | //
|
---|
1024 | if (range1 == 0)
|
---|
1025 | return 0;
|
---|
1026 |
|
---|
1027 | Int_t min2 = 0;
|
---|
1028 | for (int i=min1; i<=max1; i++)
|
---|
1029 | if (h->GetBinContent(i) != 0)
|
---|
1030 | {
|
---|
1031 | min2 = i;
|
---|
1032 | break;
|
---|
1033 | }
|
---|
1034 |
|
---|
1035 | //
|
---|
1036 | // If the histogram consists of zeros only
|
---|
1037 | //
|
---|
1038 | if (min2 == max1)
|
---|
1039 | return 0;
|
---|
1040 |
|
---|
1041 | Int_t max2 = 0;
|
---|
1042 | for (int i=max1; i>=min2; i--)
|
---|
1043 | if (h->GetBinContent(i) != 0)
|
---|
1044 | {
|
---|
1045 | max2 = i;
|
---|
1046 | break;
|
---|
1047 | }
|
---|
1048 |
|
---|
1049 | //
|
---|
1050 | // Appying TAxis->SetRange before ReBin does not work ...
|
---|
1051 | // But this workaround helps quite fine
|
---|
1052 | //
|
---|
1053 | Axis_t min = h->GetBinLowEdge(min2);
|
---|
1054 | Axis_t max = h->GetBinLowEdge(max2)+h->GetBinWidth(max2);
|
---|
1055 |
|
---|
1056 | Int_t nbins2 = max2-min2;
|
---|
1057 | //
|
---|
1058 | // Check for rebinning
|
---|
1059 | //
|
---|
1060 | if (nbins > 0)
|
---|
1061 | {
|
---|
1062 | const Int_t ngroup = (Int_t)(nbins2*h->GetNbinsX()/nbins/(max1-min1));
|
---|
1063 | if (ngroup > 1)
|
---|
1064 | {
|
---|
1065 | h->Rebin(ngroup);
|
---|
1066 | nbins2 /= ngroup;
|
---|
1067 | }
|
---|
1068 | }
|
---|
1069 |
|
---|
1070 | Int_t newbins = 0;
|
---|
1071 | FindGoodLimits(nbins2, newbins, min, max, kFALSE);
|
---|
1072 | axe.SetRangeUser(min,max);
|
---|
1073 | return axe.GetLast()-axe.GetFirst();
|
---|
1074 | }
|
---|
1075 |
|
---|
1076 | void MH::ProjectionX(TH1D &dest, const TH2 &src, Int_t firstybin, Int_t lastybin)
|
---|
1077 | {
|
---|
1078 | //*-*-*-*-*Project a 2-D histogram into a 1-D histogram along X*-*-*-*-*-*-*
|
---|
1079 | //*-* ====================================================
|
---|
1080 | //
|
---|
1081 | // The projection dest is always of the type TH1D.
|
---|
1082 | // The projection is made from the channels along the Y axis
|
---|
1083 | // ranging from firstybin to lastybin included.
|
---|
1084 | // By default, bins 1 to ny are included
|
---|
1085 | // When all bins are included, the number of entries in the projection
|
---|
1086 | // is set to the number of entries of the 2-D histogram, otherwise
|
---|
1087 | // the number of entries is incremented by 1 for all non empty cells.
|
---|
1088 | //
|
---|
1089 | // if Sumw2() was called for dest, the errors are computed.
|
---|
1090 | //
|
---|
1091 | TAxis &axex = *((TH2&)src).GetXaxis();
|
---|
1092 | TAxis &axey = *((TH2&)src).GetYaxis();
|
---|
1093 |
|
---|
1094 | const Int_t nx = axex.GetNbins();
|
---|
1095 | const Int_t ny = axey.GetNbins();
|
---|
1096 | if (firstybin < 0)
|
---|
1097 | firstybin = 1;
|
---|
1098 | if (lastybin > ny)
|
---|
1099 | lastybin = ny;
|
---|
1100 |
|
---|
1101 | dest.Reset();
|
---|
1102 | SetBinning(&dest, &axex);
|
---|
1103 |
|
---|
1104 | // Create the projection histogram
|
---|
1105 | const Bool_t computeErrors = dest.GetSumw2N() ? 1 : 0;
|
---|
1106 |
|
---|
1107 | // Fill the projected histogram
|
---|
1108 | for (Int_t binx=0; binx<=nx+1; binx++)
|
---|
1109 | {
|
---|
1110 | Double_t err2 = 0;
|
---|
1111 | for (Int_t biny=firstybin; biny<=lastybin; biny++)
|
---|
1112 | {
|
---|
1113 | const Double_t cont = src.GetCellContent(binx,biny);
|
---|
1114 | const Double_t err1 = src.GetCellError(binx,biny);
|
---|
1115 | err2 += err1*err1;
|
---|
1116 | if (cont)
|
---|
1117 | dest.Fill(axex.GetBinCenter(binx), cont);
|
---|
1118 | }
|
---|
1119 | if (computeErrors)
|
---|
1120 | dest.SetBinError(binx, TMath::Sqrt(err2));
|
---|
1121 | }
|
---|
1122 | if (firstybin <=1 && lastybin >= ny)
|
---|
1123 | dest.SetEntries(src.GetEntries());
|
---|
1124 | }
|
---|
1125 |
|
---|
1126 | void MH::ProjectionY(TH1D &dest, const TH2 &src, Int_t firstxbin, Int_t lastxbin)
|
---|
1127 | {
|
---|
1128 | //*-*-*-*-*Project a 2-D histogram into a 1-D histogram along X*-*-*-*-*-*-*
|
---|
1129 | //*-* ====================================================
|
---|
1130 | //
|
---|
1131 | // The projection dest is always of the type TH1D.
|
---|
1132 | // The projection is made from the channels along the Y axis
|
---|
1133 | // ranging from firstybin to lastybin included.
|
---|
1134 | // By default, bins 1 to ny are included
|
---|
1135 | // When all bins are included, the number of entries in the projection
|
---|
1136 | // is set to the number of entries of the 2-D histogram, otherwise
|
---|
1137 | // the number of entries is incremented by 1 for all non empty cells.
|
---|
1138 | //
|
---|
1139 | // if Sumw2() was called for dest, the errors are computed.
|
---|
1140 | //
|
---|
1141 | TAxis &axex = *((TH2&)src).GetXaxis();
|
---|
1142 | TAxis &axey = *((TH2&)src).GetYaxis();
|
---|
1143 |
|
---|
1144 | const Int_t nx = axex.GetNbins();
|
---|
1145 | const Int_t ny = axey.GetNbins();
|
---|
1146 | if (firstxbin < 0)
|
---|
1147 | firstxbin = 1;
|
---|
1148 | if (lastxbin > nx)
|
---|
1149 | lastxbin = nx;
|
---|
1150 |
|
---|
1151 | dest.Reset();
|
---|
1152 | SetBinning(&dest, &axey);
|
---|
1153 |
|
---|
1154 | // Create the projection histogram
|
---|
1155 | const Bool_t computeErrors = dest.GetSumw2N() ? 1 : 0;
|
---|
1156 |
|
---|
1157 | // Fill the projected histogram
|
---|
1158 | for (Int_t biny=0; biny<=ny+1; biny++)
|
---|
1159 | {
|
---|
1160 | Double_t err2 = 0;
|
---|
1161 | for (Int_t binx=firstxbin; binx<=lastxbin; binx++)
|
---|
1162 | {
|
---|
1163 | const Double_t cont = src.GetCellContent(binx,biny);
|
---|
1164 | const Double_t err1 = src.GetCellError(binx,biny);
|
---|
1165 | err2 += err1*err1;
|
---|
1166 | if (cont)
|
---|
1167 | dest.Fill(axey.GetBinCenter(biny), cont);
|
---|
1168 | }
|
---|
1169 | if (computeErrors)
|
---|
1170 | dest.SetBinError(biny, TMath::Sqrt(err2));
|
---|
1171 | }
|
---|
1172 | if (firstxbin <=1 && lastxbin >= nx)
|
---|
1173 | dest.SetEntries(src.GetEntries());
|
---|
1174 | }
|
---|
1175 |
|
---|
1176 | // --------------------------------------------------------------------------
|
---|
1177 | //
|
---|
1178 | // In contradiction to TPad::FindObject this function searches recursively
|
---|
1179 | // in a pad for an object. gPad is the default.
|
---|
1180 | //
|
---|
1181 | TObject *MH::FindObjectInPad(const char *name, TVirtualPad *pad)
|
---|
1182 | {
|
---|
1183 | if (!pad)
|
---|
1184 | pad = gPad;
|
---|
1185 |
|
---|
1186 | if (!pad)
|
---|
1187 | return NULL;
|
---|
1188 |
|
---|
1189 | TObject *o;
|
---|
1190 |
|
---|
1191 | TIter Next(pad->GetListOfPrimitives());
|
---|
1192 | while ((o=Next()))
|
---|
1193 | {
|
---|
1194 | if (!strcmp(o->GetName(), name))
|
---|
1195 | return o;
|
---|
1196 |
|
---|
1197 | if (o->InheritsFrom("TPad"))
|
---|
1198 | if ((o = FindObjectInPad(name, (TVirtualPad*)o)))
|
---|
1199 | return o;
|
---|
1200 | }
|
---|
1201 | return NULL;
|
---|
1202 | }
|
---|
1203 |
|
---|
1204 | // --------------------------------------------------------------------------
|
---|
1205 | //
|
---|
1206 | //
|
---|
1207 | //
|
---|
1208 | TH1I* MH::ProjectArray(const TArrayF &array, Int_t nbins,
|
---|
1209 | const char* name, const char* title)
|
---|
1210 | {
|
---|
1211 | const Int_t size = array.GetSize();
|
---|
1212 |
|
---|
1213 | TH1I *h1=0;
|
---|
1214 |
|
---|
1215 | //check if histogram with identical name exist
|
---|
1216 | TObject *h1obj = gROOT->FindObject(name);
|
---|
1217 | if (h1obj && h1obj->InheritsFrom("TH1I"))
|
---|
1218 | {
|
---|
1219 | h1 = (TH1I*)h1obj;
|
---|
1220 | h1->Reset();
|
---|
1221 | }
|
---|
1222 |
|
---|
1223 | Double_t min = size>0 ? array[0] : 0;
|
---|
1224 | Double_t max = size>0 ? array[0] : 1;
|
---|
1225 |
|
---|
1226 | // first loop over array to find the min and max
|
---|
1227 | for (Int_t i=1; i<size;i++)
|
---|
1228 | {
|
---|
1229 | max = TMath::Max((Double_t)array[i], max);
|
---|
1230 | min = TMath::Min((Double_t)array[i], min);
|
---|
1231 | }
|
---|
1232 |
|
---|
1233 | Int_t newbins = 0;
|
---|
1234 | FindGoodLimits(nbins, newbins, min, max, kFALSE);
|
---|
1235 |
|
---|
1236 | if (!h1)
|
---|
1237 | {
|
---|
1238 | h1 = new TH1I(name, title, nbins, min, max);
|
---|
1239 | h1->SetXTitle("");
|
---|
1240 | h1->SetYTitle("Counts");
|
---|
1241 | h1->SetDirectory(NULL);
|
---|
1242 | }
|
---|
1243 |
|
---|
1244 | // Second loop to fill the histogram
|
---|
1245 | for (Int_t i=0;i<size;i++)
|
---|
1246 | h1->Fill(array[i]);
|
---|
1247 |
|
---|
1248 | return h1;
|
---|
1249 | }
|
---|
1250 |
|
---|
1251 | // --------------------------------------------------------------------------
|
---|
1252 | //
|
---|
1253 | //
|
---|
1254 | //
|
---|
1255 | TH1I* MH::ProjectArray(const TArrayD &array, Int_t nbins, const char* name, const char* title)
|
---|
1256 | {
|
---|
1257 | const Int_t size = array.GetSize();
|
---|
1258 |
|
---|
1259 | Double_t min = size>0 ? array[0] : 0;
|
---|
1260 | Double_t max = size>0 ? array[0] : 1;
|
---|
1261 |
|
---|
1262 | TH1I *h1=0;
|
---|
1263 |
|
---|
1264 | //check if histogram with identical name exist
|
---|
1265 | TObject *h1obj = gROOT->FindObject(name);
|
---|
1266 | if (h1obj && h1obj->InheritsFrom("TH1I"))
|
---|
1267 | {
|
---|
1268 | h1 = (TH1I*)h1obj;
|
---|
1269 | h1->Reset();
|
---|
1270 | }
|
---|
1271 |
|
---|
1272 | // first loop over array to find the min and max
|
---|
1273 | for (Int_t i=1; i<size;i++)
|
---|
1274 | {
|
---|
1275 | max = TMath::Max(array[i], max);
|
---|
1276 | min = TMath::Min(array[i], min);
|
---|
1277 | }
|
---|
1278 |
|
---|
1279 | Int_t newbins = 0;
|
---|
1280 | FindGoodLimits(nbins, newbins, min, max, kFALSE);
|
---|
1281 |
|
---|
1282 | if (!h1)
|
---|
1283 | {
|
---|
1284 | h1 = new TH1I(name, title, newbins, min, max);
|
---|
1285 | h1->SetXTitle("");
|
---|
1286 | h1->SetYTitle("Counts");
|
---|
1287 | h1->SetDirectory(NULL);
|
---|
1288 | }
|
---|
1289 |
|
---|
1290 | // Second loop to fill the histogram
|
---|
1291 | for (Int_t i=0;i<size;i++)
|
---|
1292 | h1->Fill(array[i]);
|
---|
1293 |
|
---|
1294 | return h1;
|
---|
1295 | }
|
---|
1296 |
|
---|
1297 | // --------------------------------------------------------------------------
|
---|
1298 | //
|
---|
1299 | //
|
---|
1300 | //
|
---|
1301 | TH1I* MH::ProjectArray(const MArrayF &array, Int_t nbins,
|
---|
1302 | const char* name, const char* title)
|
---|
1303 | {
|
---|
1304 | return ProjectArray(TArrayF(array.GetSize(),array.GetArray()), nbins, name, title);
|
---|
1305 | }
|
---|
1306 |
|
---|
1307 | // --------------------------------------------------------------------------
|
---|
1308 | //
|
---|
1309 | //
|
---|
1310 | //
|
---|
1311 | TH1I* MH::ProjectArray(const MArrayD &array, Int_t nbins, const char* name, const char* title)
|
---|
1312 | {
|
---|
1313 | return ProjectArray(TArrayD(array.GetSize(),array.GetArray()), nbins, name, title);
|
---|
1314 | }
|
---|
1315 |
|
---|
1316 | // --------------------------------------------------------------------------
|
---|
1317 | //
|
---|
1318 | // This is a workaround for rrot-version <5.13/04 to get correct
|
---|
1319 | // binomial errors even if weights have been used, do:
|
---|
1320 | // h->Divide(h1, h2, 5, 2, "b");
|
---|
1321 | // MH::SetBinomialErrors(*h, *h1, *h2, 5, 2);
|
---|
1322 | //
|
---|
1323 | // see http://root.cern.ch/phpBB2/viewtopic.php?p=14818
|
---|
1324 | //
|
---|
1325 | void MH::SetBinomialErrors(TH1 &hres, const TH1 &h1, const TH1 &h2, Double_t c1, Double_t c2)
|
---|
1326 | {
|
---|
1327 | for (Int_t binx=0; binx<=hres.GetNbinsX()+1; binx++)
|
---|
1328 | {
|
---|
1329 | const Double_t b1 = h1.GetBinContent(binx);
|
---|
1330 | const Double_t b2 = h2.GetBinContent(binx);
|
---|
1331 | const Double_t w = c2*b2 ? (c1*b1)/(c2*b2) : 0;
|
---|
1332 | const Double_t e1 = h2.GetBinError(binx);
|
---|
1333 | const Double_t e2 = h1.GetBinError(binx);
|
---|
1334 |
|
---|
1335 | const Double_t rc = ((1-2*w)*e1*e1+w*w*e2*e2)/(b2*b2);
|
---|
1336 |
|
---|
1337 | hres.SetBinError(binx, TMath::Sqrt(TMath::Abs(rc)));
|
---|
1338 | }
|
---|
1339 | }
|
---|
1340 |
|
---|
1341 | // --------------------------------------------------------------------------
|
---|
1342 | //
|
---|
1343 | // See MTask::PrintSkipped
|
---|
1344 | //
|
---|
1345 | void MH::PrintSkipped(UInt_t n, const char *str)
|
---|
1346 | {
|
---|
1347 | *fLog << " " << setw(7) << n << " (";
|
---|
1348 | *fLog << Form("%5.1f", 100.*n/GetNumExecutions());
|
---|
1349 | *fLog << "%) Evts skipped: " << str << endl;
|
---|
1350 | }
|
---|
1351 |
|
---|
1352 | // --------------------------------------------------------------------------
|
---|
1353 | //
|
---|
1354 | // Calls gStyle->SetPalette. Allowed palettes are:
|
---|
1355 | // pretty
|
---|
1356 | // deepblue: darkblue -> lightblue
|
---|
1357 | // lightblue: black -> blue -> white
|
---|
1358 | // greyscale: black -> white
|
---|
1359 | // glow1: black -> darkred -> orange -> yellow -> white
|
---|
1360 | // glow2:
|
---|
1361 | // glowsym: lightblue -> blue -> black -> darkred -> orange -> yellow -> white
|
---|
1362 | // redish: darkred -> lightred
|
---|
1363 | // bluish: darkblue -> lightblue
|
---|
1364 | // small1:
|
---|
1365 | //
|
---|
1366 | // If the palette name contains 'inv' the order of the colors is inverted.
|
---|
1367 | //
|
---|
1368 | // The second argument determines the number of colors for the palette.
|
---|
1369 | // The default is 50. 'pretty' always has 50 colors.
|
---|
1370 | //
|
---|
1371 | // (Remark: Drawing 3D object like TH2D with surf3 allows a maximum
|
---|
1372 | // of 99 colors)
|
---|
1373 | //
|
---|
1374 | void MH::SetPalette(TString paletteName, Int_t ncol)
|
---|
1375 | {
|
---|
1376 | Bool_t found=kFALSE;
|
---|
1377 |
|
---|
1378 | paletteName.ToLower();
|
---|
1379 |
|
---|
1380 | const Bool_t inverse = paletteName.Contains("inv");
|
---|
1381 |
|
---|
1382 | if (paletteName.Contains("pretty"))
|
---|
1383 | {
|
---|
1384 | gStyle->SetPalette(1, 0);
|
---|
1385 | ncol=50;
|
---|
1386 | found=kTRUE;
|
---|
1387 | }
|
---|
1388 |
|
---|
1389 | if (paletteName.Contains("deepblue"))
|
---|
1390 | {
|
---|
1391 | Double_t s[5] = { 0.00, 0.34, 0.61, 0.84, 1.00 };
|
---|
1392 | Double_t r[5] = { 0.00, 0.09, 0.18, 0.09, 0.00 };
|
---|
1393 | Double_t g[5] = { 0.01, 0.02, 0.39, 0.68, 0.97 };
|
---|
1394 | Double_t b[5] = { 0.17, 0.39, 0.62, 0.79, 0.97 };
|
---|
1395 | gStyle->CreateGradientColorTable(5, s, r, g, b, ncol);
|
---|
1396 | found=kTRUE;
|
---|
1397 | }
|
---|
1398 |
|
---|
1399 | if (paletteName.Contains("lightblue"))
|
---|
1400 | {
|
---|
1401 | Double_t s[5] = { 0.00, 0.34, 0.61, 0.84, 1.00 };
|
---|
1402 | Double_t r[5] = { 0.00, 0.09, 0.18, 0.09, 0.00 };
|
---|
1403 | Double_t g[5] = { 0.00, 0.02, 0.40, 0.70, 1.00 };
|
---|
1404 | Double_t b[5] = { 0.00, 0.27, 0.51, 0.81, 1.00 };
|
---|
1405 | gStyle->CreateGradientColorTable(5, s, r, g, b, ncol);
|
---|
1406 | found=kTRUE;
|
---|
1407 | }
|
---|
1408 |
|
---|
1409 | if (paletteName.Contains("greyscale"))
|
---|
1410 | {
|
---|
1411 | double s[2] = {0.00, 1.00};
|
---|
1412 | double r[2] = {0.00, 1.00};
|
---|
1413 | double g[2] = {0.00, 1.00};
|
---|
1414 | double b[2] = {0.00, 1.00};
|
---|
1415 | gStyle->CreateGradientColorTable(2, s, r, g, b, ncol);
|
---|
1416 | found=kTRUE;
|
---|
1417 | }
|
---|
1418 |
|
---|
1419 | if (paletteName.Contains("glow1"))
|
---|
1420 | {
|
---|
1421 | double s[5] = {0., 0.10, 0.45, 0.75, 1.00};
|
---|
1422 | double r[5] = {0., 0.35, 0.85, 1.00, 1.00};
|
---|
1423 | double g[5] = {0., 0.10, 0.20, 0.73, 1.00};
|
---|
1424 | double b[5] = {0., 0.03, 0.06, 0.00, 1.00};
|
---|
1425 | gStyle->CreateGradientColorTable(5, s, r, g, b, ncol);
|
---|
1426 | found=kTRUE;
|
---|
1427 | }
|
---|
1428 |
|
---|
1429 | if (paletteName.Contains("glow2"))
|
---|
1430 | {
|
---|
1431 | double s[4] = {0.00, 0.50, 0.75, 1.00};
|
---|
1432 | double r[4] = {0.24, 0.67, 1.00, 1.00};
|
---|
1433 | double g[4] = {0.03, 0.04, 0.80, 1.00};
|
---|
1434 | double b[4] = {0.03, 0.04, 0.00, 1.00};
|
---|
1435 | gStyle->CreateGradientColorTable(4, s, r, g, b, ncol);
|
---|
1436 | found=kTRUE;
|
---|
1437 | }
|
---|
1438 |
|
---|
1439 | if (paletteName.Contains("glowsym"))
|
---|
1440 | {
|
---|
1441 | double s[8] = {0.00, 0.17, 0.39, 0.50, 0.55, 0.72, 0.88, 1.00};
|
---|
1442 | double r[8] = {0.09, 0.18, 0.09, 0.00, 0.35, 0.85, 1.00, 1.00};
|
---|
1443 | double g[8] = {0.70, 0.40, 0.02, 0.00, 0.10, 0.20, 0.73, 1.00};
|
---|
1444 | double b[8] = {0.81, 0.51, 0.27, 0.00, 0.03, 0.06, 0.00, 1.00};
|
---|
1445 | gStyle->CreateGradientColorTable(8, s, r, g, b, ncol);
|
---|
1446 | found=kTRUE;
|
---|
1447 | }
|
---|
1448 |
|
---|
1449 | if (paletteName.Contains("redish"))
|
---|
1450 | {
|
---|
1451 | double s[3] = {0., 0.5, 1.};
|
---|
1452 | double r[3] = {0., 1.0, 1.};
|
---|
1453 | double g[3] = {0., 0.0, 1.};
|
---|
1454 | double b[3] = {0., 0.0, 1.};
|
---|
1455 | gStyle->CreateGradientColorTable(3, s, r, g, b, ncol);
|
---|
1456 | found=kTRUE;
|
---|
1457 | }
|
---|
1458 |
|
---|
1459 | if (paletteName.Contains("bluish"))
|
---|
1460 | {
|
---|
1461 | double s[3] = {0., 0.5, 1.};
|
---|
1462 | double r[3] = {0., 0.0, 1.};
|
---|
1463 | double g[3] = {0., 0.0, 1.};
|
---|
1464 | double b[3] = {0., 1.0, 1.};
|
---|
1465 | gStyle->CreateGradientColorTable(3, s, r, g, b, ncol);
|
---|
1466 | found=kTRUE;
|
---|
1467 | }
|
---|
1468 |
|
---|
1469 | if (paletteName.Contains("small1"))
|
---|
1470 | {
|
---|
1471 | double s[4] = {0.00, 0.50, 0.95, 1.};
|
---|
1472 | double r[4] = {0.04, 0.28, 0.98, 1.};
|
---|
1473 | double g[4] = {0.28, 0.93, 0.03, 1.};
|
---|
1474 | double b[4] = {0.79, 0.11, 0.03, 1.};
|
---|
1475 | gStyle->CreateGradientColorTable(4, s, r, g, b, ncol);
|
---|
1476 | found=kTRUE;
|
---|
1477 | }
|
---|
1478 | if (paletteName.Contains("pepe"))
|
---|
1479 | {
|
---|
1480 | double s[5] = {0.0, 0.6, 0.7, 0.9, 1.0 };
|
---|
1481 | double r[5] = {0.1, 0.1, 1.0, 1.0, 1.0 };
|
---|
1482 | double g[5] = {0.1, 0.1, 0.0, 1.0, 1.0 };
|
---|
1483 | double b[5] = {0.2, 0.7, 0.0, 0.3, 0.9 };
|
---|
1484 | gStyle->CreateGradientColorTable(5, s, r, g, b, ncol);
|
---|
1485 | found=kTRUE;
|
---|
1486 | }
|
---|
1487 |
|
---|
1488 | if (inverse)
|
---|
1489 | {
|
---|
1490 | TArrayI c(ncol);
|
---|
1491 | for (int i=0; i<ncol; i++)
|
---|
1492 | c[ncol-i-1] = gStyle->GetColorPalette(i);
|
---|
1493 | gStyle->SetPalette(ncol, c.GetArray());
|
---|
1494 | }
|
---|
1495 |
|
---|
1496 | if (!found)
|
---|
1497 | gLog << warn << "MH::SetPalette: Palette " << paletteName << " unknown... ignored." << endl;
|
---|
1498 | }
|
---|