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Monitoring.h
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1#pragma once
2
3#include "TCanvas.h"
4#include "TSystem.h"
5#include "TStyle.h"
6#include "TH1.h"
7#include "TH1F.h"
8#include "TH2F.h"
9
10// FIXME: We should not rely on std::cout but on the ROOT printing facilities or
11// MsgLogger!
12#include <iostream> // for std::cout
13#include <map>
14#include <string>
15
16namespace TMVA
17{
19 {
20
21 public:
22 /* Monitoring (int argc, char* /\*argv[]*\/) */
23 /* { */
24 /* } */
25
27 : fCanvas (nullptr)
28 {
29 }
30
32 {
33 delete fCanvas;
34 // delete fApplication;
35 }
36
37 void Start ()
38 {
39 /* std::cout << "start monitoring" << std::endl; */
40 /* std::cout << " new tapp " << std::endl; */
41 /* fApplication = new TApplication ("TMVA Monitoring", 0, 0); */
42 /* std::cout << " set return from run" << std::endl; */
43 /* // fApplication->SetReturnFromRun (true); */
44
45 std::cout << " new tcanvas" << std::endl;
46 fCanvas = new TCanvas ("TMVA Monitoring", "Monitoring", 1000, 500);
47 std::cout << " draw" << std::endl;
48 fCanvas->Draw ();
49 std::cout << " update" << std::endl;
50 GetCanvas ()->Update();
51 std::cout << " process events" << std::endl;
52 gSystem->ProcessEvents(); //canvas can be edited during the loop
53 std::cout << " run app" << std::endl;
54 // fApplication->Run ();
55 std::cout << " run app executed" << std::endl;
56
57 gStyle->SetOptStat (0);
58 }
59
60
62 {
63 GetCanvas ()->Modified();
64 GetCanvas ()->Update();
65 gSystem->ProcessEvents(); //canvas can be edited during the loop
66 }
67
68 TCanvas* GetCanvas () { return fCanvas; }
69
70 void pads (int numPads);
71 void create (std::string histoName, int bins, double min, double max);
72 void create (std::string histoName, int bins, double min, double max, int bins2, double min2, double max2);
73 void addPoint (std::string histoName, double x);
74 void addPoint (std::string histoName, double x, double y);
75 void plot (std::string histoName, std::string options = "L", int pad = 0, EColor color = kBlue);
76 void clear (std::string histoName);
77 bool exists (std::string histoName);
78 bool exists (TH1F* dummy, std::string histoName);
79 bool exists (TH2F* dummy, std::string histoName);
80
81 protected:
82
83 TH1F* getHistogram (const TH1F* dummy, std::string histoName, int bins = 0, double min = 0, double max = 0);
84 TH2F* getHistogram (const TH2F* dummy, std::string histoName, int bins = 0, double min = 0, double max = 0, int bins2 = 0, double min2 = 0, double max2 = 0);
85
86
87 private:
89
90 // TApplication* fApplication;
91
92
93 std::map<std::string, TH1F*> m_histos1D;
94 std::map<std::string, TH2F*> m_histos2D;
95 };
96
97
98
99 inline bool Monitoring::exists (TH1F* /*dummy*/, std::string histoName)
100 {
101 auto it = m_histos1D.find (histoName);
102 if (it != m_histos1D.end ())
103 return true;
104 return false;
105 }
106
107 inline bool Monitoring::exists (TH2F* /*dummy*/, std::string histoName)
108 {
109 auto it2 = m_histos2D.find (histoName);
110 if (it2 != m_histos2D.end ())
111 return true;
112 return false;
113 }
114
115
116 inline bool Monitoring::exists (std::string histoName)
117 {
118 TH1F* dummy1D = nullptr;
119 TH2F* dummy2D = nullptr;
120 return exists (dummy1D, histoName) || exists (dummy2D, histoName);
121 }
122
123 inline void Monitoring::pads (int numPads)
124 {
125 TCanvas* canvas = GetCanvas ();
126 canvas->Clear ();
127 std::cout << "divide canvas " << canvas << " into " << numPads << "numPads" << std::endl;
128 GetCanvas ()->DivideSquare (numPads);
129 }
130
131
132 inline void Monitoring::create (std::string histoName, int bins, double min, double max)
133 {
134 TH1F* dummy = nullptr;
135 getHistogram (dummy, histoName, bins, min, max);
136 }
137
138 inline void Monitoring::create (std::string histoName, int bins, double min, double max, int bins2, double min2, double max2)
139 {
140 TH2F* dummy = nullptr;
141 getHistogram (dummy, histoName, bins, min, max, bins2, min2, max2);
142 }
143
144
145
146 inline TH1F* Monitoring::getHistogram (const TH1F* /*dummy*/, std::string histoName, int bins, double min, double max)
147 {
148 auto it = m_histos1D.find (histoName);
149 if (it != m_histos1D.end ())
150 return it->second;
151 std::cout << "new 1D histogram " << histoName << std::endl;
152 TH1F* histogram = m_histos1D.insert (std::make_pair (histoName, new TH1F (histoName.c_str (), histoName.c_str (), bins, min, max))).first->second;
153 // int numPads = m_histos1D.size () + m_histos2D.size ();
154 return histogram;
155 }
156
157 inline TH2F* Monitoring::getHistogram (const TH2F* /*dummy*/, std::string histoName, int bins, double min, double max, int bins2, double min2, double max2)
158 {
159 // 2D histogram
160 auto it = m_histos2D.find (histoName);
161 if (it != m_histos2D.end ())
162 return it->second;
163 std::cout << "new 2D histogram " << histoName << std::endl;
164 TH2F* histogram = m_histos2D.insert (std::make_pair (histoName, new TH2F (histoName.c_str (), histoName.c_str (), bins, min, max, bins2, min2, max2))).first->second;
165 // int numPads = m_histos1D.size () + m_histos2D.size ();
166 return histogram;
167 }
168
169 inline void Monitoring::addPoint (std::string histoName, double x)
170 {
171 TH1F* dummy = nullptr;
172 TH1F* hist = getHistogram (dummy, histoName, 100, 0, 1);
173 hist->Fill (x);
174 }
175
176 inline void Monitoring::addPoint (std::string histoName, double x, double y)
177 {
178 TH2F* dummy = nullptr;
179 TH2F* hist = getHistogram (dummy, histoName, 100, 0, 1, 100, 0, 1);
180 hist->Fill (x, y);
181 }
182
183 inline void Monitoring::clear (std::string histoName)
184 {
185 // std::cout << "clear histo " << histoName << std::endl;
186 if (!exists (histoName))
187 return;
188
189 // std::cout << "clear histo which exists " << histoName << std::endl;
190 TH1F* hist1D = nullptr;
191 TH2F* hist2D = nullptr;
192 if (exists (hist1D, histoName))
193 {
194 hist1D = getHistogram (hist1D, histoName, 100, 0,1);
195 hist1D->Reset ();
196 return;
197 }
198
199 if (exists (hist2D, histoName))
200 {
201 hist2D = getHistogram (hist2D, histoName, 100, 0,1,100,0,1);
202 hist2D->Reset ();
203 }
204 }
205
206
207 inline void Monitoring::plot (std::string histoName, std::string options, int pad, EColor color)
208 {
209 TCanvas* canvas = GetCanvas ();
210 canvas->cd (pad);
211 auto it1D = m_histos1D.find (histoName);
212 if (it1D != m_histos1D.end ())
213 {
214 TH1F* dummy = nullptr;
215 TH1F* histogram = getHistogram (dummy, histoName);
216 // histogram->SetBit (TH1::kCanRebin);
217 histogram->SetLineColor (color);
218 histogram->SetMarkerColor (color);
219 // std::cout << "draw " << histoName << " 1D on canvas " << canvas << " on pad " << pad << " with options " << options << std::endl;
220 histogram->Draw (options.c_str ());
221 canvas->Modified ();
222 canvas->Update ();
223 return;
224 }
225 auto it2D = m_histos2D.find (histoName);
226 if (it2D != m_histos2D.end ())
227 {
228 TH2F* dummy = nullptr;
229 TH2F* histogram = getHistogram (dummy, histoName);
230 // histogram->SetBit (TH1::kCanRebin);
231 histogram->SetLineColor (color);
232 histogram->SetMarkerColor (color);
233 // std::cout << "draw " << histoName << " 2D on canvas " << canvas << " on pad " << pad << " with options " << options << std::endl;
234 histogram->Draw (options.c_str ());
235 canvas->Modified ();
236 canvas->Update ();
237 }
238 }
239
240
241
242} // namespace TMVA
EColor
Definition Rtypes.h:65
@ kBlue
Definition Rtypes.h:66
winID h TVirtualViewer3D TVirtualGLPainter char TVirtualGLPainter plot
R__EXTERN TStyle * gStyle
Definition TStyle.h:414
R__EXTERN TSystem * gSystem
Definition TSystem.h:560
virtual void SetLineColor(Color_t lcolor)
Set the line color.
Definition TAttLine.h:40
virtual void SetMarkerColor(Color_t mcolor=1)
Set the marker color.
Definition TAttMarker.h:38
The Canvas class.
Definition TCanvas.h:23
void Draw(Option_t *option="") override
Draw a canvas.
Definition TCanvas.cxx:850
void Clear(Option_t *option="") override
Remove all primitives from the canvas.
Definition TCanvas.cxx:733
TVirtualPad * cd(Int_t subpadnumber=0) override
Set current canvas & pad.
Definition TCanvas.cxx:714
void Update() override
Update canvas pad buffers.
Definition TCanvas.cxx:2468
1-D histogram with a float per channel (see TH1 documentation)}
Definition TH1.h:577
void Reset(Option_t *option="") override
Reset.
Definition TH1.cxx:9979
virtual Int_t Fill(Double_t x)
Increment bin with abscissa X by 1.
Definition TH1.cxx:3338
void Draw(Option_t *option="") override
Draw this histogram with options.
Definition TH1.cxx:3060
2-D histogram with a float per channel (see TH1 documentation)}
Definition TH2.h:257
void Reset(Option_t *option="") override
Reset this histogram: contents, errors, etc.
Definition TH2.cxx:3656
Int_t Fill(Double_t) override
Invalid Fill method.
Definition TH2.cxx:347
void addPoint(std::string histoName, double x)
Definition Monitoring.h:169
TH1F * getHistogram(const TH1F *dummy, std::string histoName, int bins=0, double min=0, double max=0)
Definition Monitoring.h:146
TCanvas * GetCanvas()
Definition Monitoring.h:68
void ProcessEvents()
Definition Monitoring.h:61
void create(std::string histoName, int bins, double min, double max)
Definition Monitoring.h:132
std::map< std::string, TH1F * > m_histos1D
Definition Monitoring.h:93
bool exists(std::string histoName)
Definition Monitoring.h:116
void plot(std::string histoName, std::string options="L", int pad=0, EColor color=kBlue)
Definition Monitoring.h:207
void pads(int numPads)
Definition Monitoring.h:123
void clear(std::string histoName)
Definition Monitoring.h:183
std::map< std::string, TH2F * > m_histos2D
Definition Monitoring.h:94
TCanvas * fCanvas
Definition Monitoring.h:88
virtual void DivideSquare(Int_t n, Float_t xmargin=0.01, Float_t ymargin=0.01, Int_t color=0)
"n" is the total number of sub-pads.
Definition TPad.cxx:1245
void Modified(Bool_t flag=1) override
Definition TPad.h:417
void SetOptStat(Int_t stat=1)
The type of information printed in the histogram statistics box can be selected via the parameter mod...
Definition TStyle.cxx:1589
virtual Bool_t ProcessEvents()
Process pending events (GUI, timers, sockets).
Definition TSystem.cxx:419
Double_t y[n]
Definition legend1.C:17
Double_t x[n]
Definition legend1.C:17
create variable transformations