Flexible pt range for the efficiency histogramming
[u/mrichter/AliRoot.git] / T0 / AliT0CalibLaserData.cxx
1 /**************************************************************************
2  * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
3  *                                                                        *
4  * Author: The ALICE Off-line Project.                                    *
5  * Contributors are mentioned in the code where appropriate.              *
6  *                                                                        *
7  * Permission to use, copy, modify and distribute this software and its   *
8  * documentation strictly for non-commercial purposes is hereby granted   *
9  * without fee, provided that the above copyright notice appears in all   *
10  * copies and that both the copyright notice and this permission notice   *
11  * appear in the supporting documentation. The authors make no claims     *
12  * about the suitability of this software for any purpose. It is          *
13  * provided "as is" without express or implied warranty.                  *
14  **************************************************************************/
15
16 /* $Id:  */
17
18 //____________________________________________________________________
19 //                                                                          
20 // T0 - T0. 
21 //
22 // This class privides GIU service for reading RAW data from Laser
23 // during electronics test 
24 //                                                       
25 #include "TH1F.h"
26 #include "TH2F.h"
27 #include "TMap.h"
28 #include "TFile.h"
29 #include "TTree.h"
30 #include "TBranch.h"
31 #include "AliT0RawReader.h"
32 #include "TGLabel.h"
33 #include "TGFileDialog.h"
34 #include <iostream>
35
36 #include "AliT0CalibLaserData.h"
37
38 #include "AliCDBManager.h"
39 #include "AliRawReader.h"
40 #include "AliRawReaderRoot.h"
41 #include "AliT0LookUpValue.h"
42 #include "AliT0LookUpKey.h"
43 #include "AliT0Parameters.h"
44 #include "AliT0RawReader.h"
45
46 ClassImp(AliT0CalibLaserData)
47   //const char *fFileName;
48 AliT0CalibLaserData::AliT0CalibLaserData() : TObject(),
49                                              fTEntry(0),
50                                              fFileName(" ")
51   
52 {
53 //
54 for ( int i=0; i<30; i++ ) { fEntries[i] = NULL; fHistLimits[i] = 0.0;}
55 }
56 /*
57 //________________________________________________________________
58
59 AliT0CalibLaserData::AliT0CalibLaserData(const AliT0CalibLaserData& calibda) : TObject(),
60                                          fRunNumber(905)
61 {
62 //copy constructor
63   
64 }
65 //________________________________________________________________
66
67 AliT0CalibLaserData &AliT0CalibLaserData::operator =(const AliT0CalibLaserData& calibda)
68 {
69 // assignment operator
70
71   return *this;
72 }
73 //________________________________________________________________
74 AliT0CalibLaserData::~AliT0CalibLaserData()
75 {
76   //
77 }
78 */
79 //________________________________________________________________
80
81 void AliT0CalibLaserData::ReadHistSize()
82 {
83   //build GUI frame for reading:
84   // - run number
85   // - histograms rates
86
87     
88     TGMainFrame* fMain = new TGMainFrame(0,1500,1500);
89     fMain->SetLayoutManager( new TGMatrixLayout(fMain,10,7) );
90  
91     fMain->AddFrame( new TGLabel(fMain, " Histogram") );
92     fMain->AddFrame( new TGLabel(fMain, "X min") );
93     fMain->AddFrame( new TGLabel(fMain, "X max") );
94     fMain->AddFrame( new TGLabel(fMain, "X N# channels") );
95   
96     fMain->AddFrame( new TGLabel(fMain, "Y min") );
97     fMain->AddFrame( new TGLabel(fMain, "Y max") );
98     fMain->AddFrame( new TGLabel(fMain, "Y N# channels") );
99
100     fMain->AddFrame( new TGLabel(fMain, "QTC" ) );
101     fEntries[0] = new TGNumberEntry(fMain, 0);
102     fMain->AddFrame(fEntries[0]);
103     fEntries[1] = new TGNumberEntry(fMain, 10000);
104     fMain->AddFrame(fEntries[1]);
105     fEntries[2] = new TGNumberEntry(fMain, 2500);
106     fMain->AddFrame(fEntries[2]);
107     fMain->AddFrame( new TGLabel(fMain, " ") );
108     fMain->AddFrame( new TGLabel(fMain, " ") );
109     fMain->AddFrame( new TGLabel(fMain, " ") );
110   
111     fMain->AddFrame( new TGLabel(fMain, "LED - CFD" ) );
112     fEntries[3] = new TGNumberEntry(fMain, 0);
113     fMain->AddFrame(fEntries[3]);
114     fEntries[4] = new TGNumberEntry(fMain, 1000);
115     fMain->AddFrame(fEntries[4]);
116     fEntries[5] = new TGNumberEntry(fMain, 1000);
117     fMain->AddFrame(fEntries[5]);
118     fMain->AddFrame( new TGLabel(fMain, " ") );
119     fMain->AddFrame( new TGLabel(fMain, " ") );
120     fMain->AddFrame( new TGLabel(fMain, " ") );
121     fMain->AddFrame( new TGLabel(fMain, "CFD vs QTC " ) );
122  // QTC axis X
123     fEntries[6] = new TGNumberEntry(fMain, 0.);
124     fMain->AddFrame(fEntries[6]);
125     fEntries[7] = new TGNumberEntry(fMain, 8000);
126     fMain->AddFrame(fEntries[7]);
127     fEntries[8] = new TGNumberEntry(fMain, 800);
128     fMain->AddFrame(fEntries[8]);
129 // CFD axis Y 
130    fEntries[9] = new TGNumberEntry(fMain, 0);
131     fMain->AddFrame(fEntries[9]);
132     fEntries[10] = new TGNumberEntry(fMain, 5000);
133     fMain->AddFrame(fEntries[10]);
134     fEntries[11] = new TGNumberEntry(fMain, 5000);
135     fMain->AddFrame(fEntries[11]);
136 //
137     fMain->AddFrame( new TGLabel(fMain, "CFD vs LED-CFD " ) );
138 //LED-CFD axis X
139     fEntries[12] = new TGNumberEntry(fMain, 0);
140     fMain->AddFrame(fEntries[12]);
141     fEntries[13] = new TGNumberEntry(fMain, 1000);
142     fMain->AddFrame(fEntries[13]);
143     fEntries[14] = new TGNumberEntry(fMain, 1000);
144     fMain->AddFrame(fEntries[14]);
145 // CFD axis Y
146     fEntries[15] = new TGNumberEntry(fMain, 1000);
147     fMain->AddFrame(fEntries[15]);
148     fEntries[16] = new TGNumberEntry(fMain, 5000);
149     fMain->AddFrame(fEntries[16]);
150     fEntries[17] = new TGNumberEntry(fMain, 4000);
151     fMain->AddFrame(fEntries[17]);
152  
153    fMain->AddFrame( new TGLabel(fMain, "CFD C " ) );
154 //CFD side C
155     fEntries[18] = new TGNumberEntry(fMain, 0);
156     fMain->AddFrame(fEntries[18]);
157     fEntries[19] = new TGNumberEntry(fMain, 5000);
158     fMain->AddFrame(fEntries[19]);
159     fEntries[20] = new TGNumberEntry(fMain, 5000);
160     fMain->AddFrame(fEntries[20]);
161  
162     fMain->AddFrame( new TGLabel(fMain, "") );
163     fMain->AddFrame( new TGLabel(fMain, "") );
164     fMain->AddFrame( new TGLabel(fMain, "") );
165
166     fMain->AddFrame( new TGLabel(fMain, "CFD A " ) );
167 //CFD side A
168     fEntries[21] = new TGNumberEntry(fMain,0);
169     fMain->AddFrame(fEntries[21]);
170     fEntries[22] = new TGNumberEntry(fMain, 5000);
171     fMain->AddFrame(fEntries[22]);
172     fEntries[23] = new TGNumberEntry(fMain, 5000);
173     fMain->AddFrame(fEntries[23]);
174
175     fMain->AddFrame( new TGLabel(fMain, "") );
176     fMain->AddFrame( new TGLabel(fMain, "") );
177     fMain->AddFrame( new TGLabel(fMain, "") );
178
179
180     fMain->AddFrame( new TGLabel(fMain, "LED C " ) );
181 //LED axis X
182     fEntries[24] = new TGNumberEntry(fMain, 0);
183     fMain->AddFrame(fEntries[24]);
184     fEntries[25] = new TGNumberEntry(fMain, 5000);
185     fMain->AddFrame(fEntries[25]);
186     fEntries[26] = new TGNumberEntry(fMain, 5000);
187     fMain->AddFrame(fEntries[26]);
188
189    
190    for ( int i=0; i<27; i++ ) fEntries[i]->SetWidth(70);
191    fMain->AddFrame( new TGLabel(fMain, " File name") );
192    fTEntry = new TGTextEntry(fMain,"");
193    fMain->AddFrame(fTEntry);
194    fTEntry->SetWidth(80);
195     //    printf( "Max Length %d\n", fEntries[0]->GetMaxWidth() );
196
197     TGTextButton *fOk = new TGTextButton(fMain, "OK");
198     fOk->Connect("Clicked()","AliT0CalibLaserData",this,"DoOk()");
199     //    fOk->SetCommand(".q");
200     fMain->AddFrame(fOk);
201     
202     fMain->MapSubwindows();
203     fMain->Resize();
204     fMain->SetWindowName("Dialog");
205     fMain->MapWindow();
206 }
207     
208 void AliT0CalibLaserData::DoOk()
209 {
210   
211   fFileName = (fTEntry->GetText());
212   //OpenFile();
213   printf(" DoOK >>  File %s\n",fFileName);
214   for( int i=0; i<27; i++ ) 
215     fHistLimits[i] = fEntries[i]->GetNumber();
216   
217   ReadData();
218 }
219
220 void AliT0CalibLaserData::ReadData()
221 {
222   // reading RAW data from test LCS
223   // filling histograms
224   // fillinf tree
225   
226   
227   TH1I *hChannel[105];  TH1I *hQTC[24];  
228   TH2F *hCFDvsQTC[24]; TH2F *hCFDvsLED[24]; TH1I *h1CFDminLED[24];
229
230   Int_t allData[110][50];
231   Int_t numberOfHits[105];
232   
233   Int_t channels[106];
234   
235   TString names[106], type;
236   AliT0LookUpKey* lookkey;//= new AliT0LookUpKey();
237   AliT0LookUpValue*  lookvalue;//= new AliT0LookUpValue();
238   AliCDBManager::Instance()->SetDefaultStorage("local://$ALICE_ROOT/OCDB");
239   AliCDBManager::Instance()->SetRun(0);
240   AliT0Parameters *fParam = AliT0Parameters::Instance();
241   fParam->Init();
242   TMap *lookup = fParam->GetMapLookup();
243   TMapIter *iter = new TMapIter(lookup);
244   
245   for( Int_t iline=0; iline<106; iline++)
246     {
247       lookvalue = ( AliT0LookUpValue*) iter->Next();
248       lookkey = (AliT0LookUpKey*) lookup->GetValue((TObject*)lookvalue);
249       if(lookkey){
250         Int_t key=lookkey->GetKey();
251         names[key]=lookkey->GetChannelName();
252         //      if(names[key].Contains("QT0"))
253         //  hChannel[key] = new TH1F(names[key].Data(),names[key].Data(),1000,3000,5000);
254         //      else
255           hChannel[key] = new TH1I(names[key].Data(),names[key].Data(),Int_t(fHistLimits[20]),fHistLimits[18],fHistLimits[19]);
256         if(key >0 && key<13)
257           hChannel[key] = new TH1I(names[key].Data(),names[key].Data(),Int_t(fHistLimits[20]),fHistLimits[18],fHistLimits[19]);
258         if(key >13 && key<25)
259           hChannel[key] = new TH1I(names[key].Data(),names[key].Data(),Int_t(fHistLimits[26]),fHistLimits[24],fHistLimits[25]);
260         
261         if(key >57 && key<69)
262           hChannel[key] = new TH1I(names[key].Data(),names[key].Data(),Int_t (fHistLimits[23]),fHistLimits[21],fHistLimits[22]);
263         //      hitsname="xHits" + names[key];
264         //      hNumHits[key] = new TH1F(hitsname.Data(),hitsname.Data(),50,-0.25,24.25);
265       }
266       else
267         {printf(" no such value %i \n", iline);}
268       
269     } 
270   for(Int_t ic=0; ic<24; ic++) {
271     {
272      
273       hQTC[ic] = new TH1I(Form("QTC%i",ic+1),"QTC",(Int_t)fHistLimits[2],fHistLimits[0],fHistLimits[1]);
274       h1CFDminLED[ic] = new TH1I(Form("LEDminCFD%i",ic+1),"LED - CFD",(Int_t)fHistLimits[5],fHistLimits[3],fHistLimits[4]);
275       
276       hCFDvsQTC[ic] = new TH2F(Form("CFDvsQTC%i",ic+1),"CFD vs  QTC",
277                                (Int_t)fHistLimits[8],fHistLimits[6],fHistLimits[7],
278                                (Int_t)fHistLimits[11],fHistLimits[9],fHistLimits[10]);
279       hCFDvsLED[ic] = new TH2F(Form("CFDvsLED%i",ic+1),"CFD vs LED-CFD",
280                                (Int_t)fHistLimits[14],fHistLimits[12],fHistLimits[13],
281                                (Int_t)fHistLimits[17],fHistLimits[15],fHistLimits[16]);
282
283       
284     }
285
286
287   }
288   
289   TH1F*hEffCFD= new TH1F("hEffCFD","Effeciency",50,-0.25,24.25);
290   TH1F*hEffLED= new TH1F("hEffLED","Effeciency",50,-0.25,24.25);
291   TH1F*hEffQT0= new TH1F("hEffQT0","Effeciency",50,-0.25,24.25);
292   TH1F*hEffQT1= new TH1F("hEffQT1","Effeciency",50,-0.25,24.25);
293
294       
295      // Char_t filename[80];
296   //     sprintf(filename,"t0%i.raw",fRunNumber);
297   AliRawReader *reader = new AliRawReaderRoot(fFileName);
298    reader->LoadEquipmentIdsMap("T0map.txt");
299   //    reader->RequireHeader(kFALSE);
300   reader->RequireHeader(kTRUE);
301   AliT0RawReader *start = new AliT0RawReader(reader);
302   //  start->SetNumberOfTRM(1);
303   for (Int_t i0=0; i0<105; i0++)
304     {
305       for (Int_t j0=0; j0<5; j0++) allData[i0][j0]=0;   
306       numberOfHits[i0]=0;
307     }
308   Int_t event=0;
309   
310   while (reader->NextEvent()) {
311     start->Next();
312     for (Int_t i=0; i<105; i++) {
313       for (Int_t iHit=0; iHit<5; iHit++) 
314         {
315           allData[i][iHit]= start->GetData(i,iHit);
316           //      if( allData[i][iHit]>0)         cout<<i<<" "<<iHit<<" "<<allData[i][iHit]<<endl;
317         }
318     }
319     
320      if(event%1000 == 0) 
321     printf("Event:%d\n",event);
322     
323      //   if(event > 100000) break;
324     
325     for (Int_t it = 0; it<24; it=it+2)
326       {
327         Int_t cc=it/2;
328         for (Int_t iHit=0; iHit<5; iHit++)
329           {
330             if(allData[it+25][iHit] != 0 && allData[it+26][iHit] !=0)
331               {
332                 hQTC[cc]->Fill(allData[it+25][iHit]-allData[it+26][iHit]);
333                 if(allData[cc+1][iHit] != 0 ) 
334                   hCFDvsQTC[cc]->Fill(allData[it+25][iHit]-allData[it+26][iHit],
335                                       allData[cc+1][iHit]-allData[0][0]+5000.);
336               }
337             if(allData[cc+1][iHit] != 0 && allData[cc+13][iHit]!=0 ) 
338               {
339                 hCFDvsLED[cc]->Fill(allData[cc+13][iHit]-allData[cc+1][iHit],
340                                     allData[cc+1][iHit]-allData[0][0]+5000.);  
341                 h1CFDminLED[cc]->Fill(allData[cc+13][iHit]-allData[cc+1][iHit]);
342               }
343             
344           }
345       }
346     for (Int_t it = 24; it<48; it=it+2)
347       {
348         Int_t cc=(Int_t)(it/2);
349         for (Int_t iHit=0; iHit<5; iHit++)
350           {
351             if(allData[it+57][iHit] != 0 && allData[it+58][iHit] !=0)
352               {
353                 hQTC[cc]->Fill(allData[it+57][iHit]-allData[it+58][iHit]);
354                 //                  hmpd[cc]->Fill(allData[it+26][iHit]-allData[it+25][iHit]);
355                 if(allData[cc+1][iHit] != 0 ) 
356                   hCFDvsQTC[cc]->Fill(allData[it+57][iHit]-allData[it+58][iHit],
357                                       allData[cc+45][iHit]-allData[0][0]+5000);
358               }
359             if(allData[cc+57][iHit] != 0 && allData[cc+45][iHit]!=0 ) 
360               {
361                 hCFDvsLED[cc]->Fill(allData[cc+57][iHit]-allData[cc+45][iHit],
362                                     allData[cc+1][iHit]-allData[0][0]+5000);  
363                 h1CFDminLED[cc]->Fill(allData[cc+57][iHit]-allData[cc+45][iHit]);
364               }
365               
366         }
367       }
368     
369     
370     for (Int_t iHit=0; iHit<5; iHit++) 
371       {
372         
373         for(Int_t ik=1; ik<105; ik++)
374           { 
375             channels[ik] = -100;
376             if((allData[ik][iHit] - allData[0][0] +5000) != 0 &&   //!!!!! Uncomment it !!!!! and comment next line
377                //      if((allData[ik][iHit] - allData[1][0] ) != 0 &&     
378                  allData[ik][iHit] >0 ) 
379               {  
380                 numberOfHits[ik]++;
381                 //              hChannel[ik] -> Fill(allData[ik][iHit] - allData[1][0]);            //Comment this line !!!
382                 hChannel[ik] -> Fill(allData[ik][iHit] - allData[0][0]+5000);
383                 //      cout<<" zpis'>> "<<iHit<<" "<<ik<<" "<<allData[ik][iHit] - allData[0][0]<<endl;
384                 //      hChannel[ik] -> Fill(allData[0][0]-allData[ik][iHit] );
385                 //              channels[ik] = allData[ik][iHit] - allData[0][0];
386               }
387           }
388         //            digitsTree->Fill();   
389       }
390
391     event++;
392     
393   } //event
394
395
396   if (event>1)
397     {
398       printf("efficiency for %i events \n",event);
399       for (Int_t i0=1; i0<13;  i0++)
400         {
401           printf("%s  %f  %s  %f %s  %f  %s  %f \n ",
402                  names[i0].Data(), Float_t(numberOfHits[i0])/Float_t(event),
403                  names[i0+12].Data(),Float_t(numberOfHits[i0+12])/Float_t(event),
404                  names[i0+56].Data(),Float_t(numberOfHits[i0+56])/Float_t(event),
405                  names[i0+68].Data(),Float_t(numberOfHits[i0+68])/Float_t(event));
406           
407           hEffCFD->Fill(i0,Float_t(numberOfHits[i0])  / Float_t(event));
408           hEffLED->Fill(i0,Float_t(numberOfHits[i0+12]) / Float_t(event));
409           hEffCFD->Fill(i0+12,Float_t(numberOfHits[i0+56]) /Float_t(event));
410           hEffLED->Fill(i0+12,Float_t(numberOfHits[i0+68]) /Float_t(event));
411         }
412       printf("\n");      
413       for (Int_t i0=0; i0<24;  i0=i0+2)
414         {
415           hEffQT1->Fill(i0, Float_t (numberOfHits[i0+25]) / Float_t(event));
416           hEffQT0->Fill(i0, Float_t (numberOfHits[i0]+26) / Float_t(event));
417           hEffQT1->Fill((i0+12), Float_t (numberOfHits[i0]+81) /  Float_t(event));
418           hEffQT0->Fill((i0+12), Float_t (numberOfHits[i0]+82) /  Float_t(event));
419
420           printf("%s  %f  %s  %f %s  %f  %s  %f \n",
421                  names[i0+25].Data(), Float_t(numberOfHits[i0+25])/Float_t(event),
422                  names[i0+26].Data(),Float_t(numberOfHits[i0+26])/Float_t(event),
423                  names[i0+81].Data(),Float_t(numberOfHits[i0+81])/Float_t(event),
424                  names[i0+82].Data(),Float_t(numberOfHits[i0+82])/Float_t(event));
425         }
426     }         
427   
428   
429   TString filehist = Form("t0tree%s",fFileName);; 
430   // sprintf(filehist,"t0treeDA%s",fFileName);
431   //  sprintf(filehist,"t0tree%s",fFileName);
432   printf("\n Wrote data in %s !!\n",filehist.Data());
433   TFile *hist = new TFile(filehist.Data(),"RECREATE");
434   hist->cd();
435   //  digitsTree->Write("",TObject::kOverwrite);
436      
437   hEffCFD->Write();
438   hEffLED->Write();
439   hEffQT0->Write();
440   hEffQT1->Write();
441   
442   for(Int_t ik=0; ik<105; ik++) hChannel[ik] ->Write();
443   
444       for (Int_t i=0; i<24; i++)
445         {
446           hQTC[i]->Write();
447           hCFDvsQTC[i]->Write();
448           hCFDvsLED[i]->Write();
449           h1CFDminLED[i]->Write();
450         }
451       
452 }
453
454 void AliT0CalibLaserData::OpenFile()
455 {
456
457 const char *ft[]={"T0 raw files","*.root","All files","*",0,0};
458   TString dir(".");
459   TGFileInfo fi; fi.fFileTypes=ft; fi.fIniDir=StrDup(dir);
460   new TGFileDialog(gClient->GetRoot(), 0x0, kFDOpen, &fi);
461   if(!fi.fFilename) return;
462   // fFileName =*( fi.fFilename);
463   fFileName = fi.fFilename;
464   printf(" AliT0CalibLaserData::OpenFile %s %s\n",fi.fFilename, fFileName );
465   //  if(gFile){ gFile->Close(); gFile=0;}
466
467   // gFile=TFile::Open(fi.fFilename);
468
469 }
470