tof/src/TofScan.cpp

/**
* TOFScan
* Author  Nagni
* Version 1.2
* Modified by G.De Rosa
* Date 27 Apr 2006
*
* Description:
* Describe the performance of the TOF.
*
* Parameters:
*       TString base            - the path to the root directory for the specific Pamela unpack session 
*       TString outDirectory    - the path where to save the output image (Default = base) 
*       TString format          - the format which will be used fo rsave the produced images (Default = "gif") 
*/

#include <TString.h>
#include <TObjString.h>
#include <TTree.h>
#include <TBranch.h>
#include <TGraph.h>
#include <TStyle.h>
#include <TH2S.h>
#include <TPaveText.h>
#include <TCanvas.h>
#include <physics/tof/TofEvent.h>


#include <iostream>
using namespace std;

void TofScan(TString base, TString outDirectory = "", TString format = ""){
   
   std::stringstream sst;
   if (outDirectory == "") outDirectory = base.Data();
   TString filename = ((TObjString*)base.Tokenize('/')->Last())->GetString();

   TFile *file  =new TFile(base.Data()) ;
   if (!file){
    printf("file not Found \n");
    return;
   }

   TTree *PhysicsTr = (TTree*)file->Get("Physics");
   TBranch *TofBr = PhysicsTr->GetBranch("Tof");
   pamela::tof::TofEvent *tofEvent = 0;
   PhysicsTr->SetBranchAddress("Tof", &tofEvent);
   
   Long64_t nevents    = TofBr->GetEntries();
   if (nevents <= 0) {
     printf("nevents = %llu \n", nevents);
     file->Close();
     return;
   }
   
   TH2S *tdcHisto      = new TH2S("tdcHisto", sst.str().c_str(), 409, 0, 4096, 48, 0, 48);
   TH2S *adcHisto      = new TH2S("adcHisto", sst.str().c_str(), 409, 0, 4096, 48, 0, 48);
   

   /*
    * Array to convert hdc/adc to the real Photomultiplier
    * The array rows definitions are:
    * tof[0][] = chxxA (strip or channel xxA)
    * tof[1][] = hbxxA (halfboard xxA)
    * tof[2][] = chxxB (strip or channel xxB)
    * tof[3][] = hbxxB (halfboard xxB)
    *
    * Each single row is a sequence of photomultipliers in this shape
    * - The elements from  0 to  7  correspond to S11_1->S11_8
    * - The elements from  8 to 13  correspond to S12_1->S12_6
    * - The elements from 14 to 15  correspond to S21_1->S21_2
    * - The elements from 16 to 17  correspond to S22_1->S22_2
    * - The elements from 18 to 20  correspond to S31_1->S31_3
    * - The elements from 21 to 23  correspond to S32_1->S32_3
    * 
    * Example: 
    * -------> the tdc of the S12_3B photomultiplier correspond to tdc[(tof[2][10])][(tof[3][10])] 
    * -------> the tdc of the S31_3A photomultiplier correspond to tdc[(tof[0][20])][(tof[1][20])] 
    */
   short tof[4][24] = {
     {4, 4,  4,  4,  1,  1, 2, 2,  3,  3, 3, 3,  3,  3, 1, 1,  1,  1, 2, 3,  3, 3, 3,  4},
     {1, 3,  5,  7, 10, 12, 2, 4,  2,  4, 6, 8, 10, 12, 1, 5,  3,  9, 7, 9, 11, 1, 5,  9},
     {2, 2,  2,  2,  1,  1, 1, 1,  4,  4, 4, 4,  4,  4, 2, 1,  2,  1, 2, 2,  2, 3, 3,  4},
     {6, 8, 12, 10,  8,  6, 4, 2, 12, 10, 8, 6,  4,  2, 9, 7, 11, 11, 5, 3,  1, 3, 7, 11}
   };
   
   TString photoS[48] = {
     "S11_1A", "S11_1B", "S11_2A", "S11_2B", "S11_3A", "S11_3B", "S11_4A", "S11_4B", 
     "S11_5A", "S11_5B", "S11_6A", "S11_6B", "S11_7A", "S11_7B", "S11_8A", "S11_8B", 
     "S12_1A", "S12_1B", "S12_2A", "S12_2B", "S12_3A", "S12_3B", "S12_4A", "S12_4B", "S12_5A",  "S12_5B", "S12_6A", "S12_6B",
     "S21_1A", "S21_1B", "S21_2A", "S21_2B", 
     "S22_1A", "S22_1B", "S22_2A", "S22_2B",
     "S31_1A", "S31_1B", "S31_2A", "S31_2B", "S31_3A", "S31_3B", 
     "S32_1A", "S32_1B", "S32_2A", "S32_2B", "S32_3A", "S32_3B"
   };
   
   int i  = 0;
   int j  = 0;
   int k  = 0;
   int z  = 0;
   int ch = 0;
   int hb = 0;
   
   while(i < nevents){
     TofBr->GetEntry(i);
     k = 0;
     while (k < 24){
       j = 0;
       while (j < 2){
         ch = tof[2*j][k]     - 1;
         hb = tof[2*j + 1][k] - 1;
         tdcHisto->Fill(tofEvent->tdc[ch][hb], 2*k + j);
         adcHisto->Fill(tofEvent->adc[ch][hb], 2*k + j);
         j++;
       }
       k++;
     }
     i++;
   }
      
   TH1D       *tpADC = 0;
   TH1D       *tpTDC = 0;
   TH1D       *tpADCall = 0;
   TH1D       *tpTDCall = 0;
   
   float *X       = new float[48];
   float *means   = new float[48];
   float *entries = new float[48];
   int *entriestdc = new int[48];
   int *entriesadc = new int[48];

   const char *saveas = format;

   // all range ADC/TDC
   
   j = 0;
   while (j < 12){ 
     k = 0;
     z = 0; 
     
     while(k < 4){
       if (k > 1) z = 2;
       i = j*4 + k;
       X[i] = i;
       
       tpTDCall = tdcHisto->ProjectionX(" ", i+1, i+1);
       tpTDCall->SetAxisRange(0,4095);
       entriestdc[i] = (Int_t)tpTDCall->Integral();
       
       tpADCall = adcHisto->ProjectionX(" ", i+1, i+1);
       tpADCall->SetAxisRange(0,4095);
       entriesadc[i] = (Int_t)tpADCall->Integral();

       k++;
     }
     
     j++;
     
   }
   
   gStyle->SetStatW(0.4);
   gStyle->SetStatH(0.4);
   gStyle->SetOptStat("nmri");
   gStyle->SetTitleH(0.10);
   gStyle->SetTitleW(0.96);
   
   TCanvas *SCanvas = new TCanvas("SCanvas","SCanvas", 1280, 1024);
   SCanvas->Divide(4,2);
   j = 0;
   while (j < 12){
     k = 0;
     z = 0;
     if (gROOT->IsBatch()) {
       SCanvas = new TCanvas("SCanvas","SCanvas", 1280, 1024);
       SCanvas->Divide(4,2);
     } else {
       if (j > 0) SCanvas->DrawClone();
     }
     
     
     while(k < 4){
       if (k > 1) z = 2;
       i = j*4 + k;
       X[i] = i;
       
       SCanvas->cd(k+3+z);
       tpTDC = tdcHisto->ProjectionX(" ", i+1, i+1);
       sst.str("");
       sst << "TDC - " << photoS[i].Data() << " (Nev < 4096 = " << entriestdc[i] << ")";
       tpTDC->SetTitle(sst.str().c_str());
       tpTDC->SetTitleSize(10);
       tpTDC->SetAxisRange(690,1510);
       tpTDC->DrawCopy();
       tpTDC->ComputeIntegral();
       entries[i] = tpTDC->Integral();
       
       SCanvas->cd(k+1+z);       
       tpADC = adcHisto->ProjectionX(" ", i+1, i+1);
       sst.str("");
       sst << "ADC - " << photoS[i].Data() << " (Nev < 4096 = " << entriesadc[i] << ")";
       tpADC->SetTitle(sst.str().c_str());
       tpADC->SetAxisRange(-10,710); 
       tpADC->DrawCopy();
       means[i]   = tpADC->GetMean();
       
       k++;
     }
     if ( !strcmp(saveas,"ps") ) {
       sst.str("");
       sst << outDirectory.Data() << filename.Data() << "TOFScan.ps(";
       SCanvas->Print(sst.str().c_str());
     } else {
       sst.str("");
       sst << outDirectory.Data() << filename.Data() << "TOFScan" << j+1 << "." << saveas;
       SCanvas->SaveAs(sst.str().c_str());
       
     }
     j++;
   }
   if (gROOT->IsBatch()) SCanvas->Close();
   
   /*
    * This Canvas will represent a summary of the performances for TOF TDC/ADC channels
    */
   TCanvas *performanceCanvas = new TCanvas("performanceCanvas","performanceCanvas", 1280, 1024);
   performanceCanvas->Divide(1,2);
   
   gStyle->SetTitleW(.9);

   performanceCanvas->cd(1);
   TGraph *adcMeans   = new TGraph(48, X, means);
   sst.str("");
   sst << "ADCMean"  << " - Data in " << base.Data() << " - Nevents in the run = " << nevents;
   adcMeans->SetTitle(sst.str().c_str());
   adcMeans->SetFillColor(35);
   adcMeans->GetXaxis()->SetTitle("Photomultipliers");
   adcMeans->GetXaxis()->CenterTitle();
   adcMeans->GetXaxis()->SetLimits(-0.5, 47.5);
   adcMeans->GetYaxis()->SetTitle("ADCMean");
   adcMeans->GetYaxis()->CenterTitle(); 
   adcMeans->Draw("AB");
   
   performanceCanvas->cd(2);
   TGraph *tdcEntries = new TGraph(48, X, entries);
   sst.str("");
   sst << "TDCEntries"  << " - Data in " << base.Data() << " - Nevents in the run = " << nevents;
   tdcEntries->SetTitle(sst.str().c_str());
   tdcEntries->SetFillColor(35);
   tdcEntries->GetXaxis()->SetTitle("Photomultipliers");
   tdcEntries->GetXaxis()->CenterTitle();
   tdcEntries->GetXaxis()->SetLimits(-0.5, 47.5);
   tdcEntries->GetYaxis()->SetTitle("TDCIntegral");
   tdcEntries->GetYaxis()->CenterTitle();       
   tdcEntries->Draw("AB");
   
   //------print the ps

   if ( !strcmp(saveas,"ps") ) {
     sst.str("");
     sst << outDirectory.Data() << filename.Data() << "TOFScan.ps)";
     performanceCanvas->Print(sst.str().c_str());
     
   } else {
     sst.str("");
     sst << outDirectory.Data() << filename.Data() << "TOFScan13." << saveas;
     performanceCanvas->SaveAs(sst.str().c_str());
   }
   if (gROOT->IsBatch()) {
     SCanvas->Close();
     performanceCanvas->Close();
   }

}

int main(int argc, char* argv[]){
  TString path;
  TString outDir        ="./";
  TString format        ="ps";
    
 if (argc < 2){
    printf("You have to insert at least the file to analyze \n");
    printf("Try '--help' for more information. \n");
    exit(1);
  }  

  if (!strcmp(argv[1], "--help")){
        printf( "Usage: TofScan FILE [OPTION] \n");
        printf( "\t --help                  Print this help and exit \n");      
        printf( "\t -outDir[path]           Path where to put the output [default ./] \n");
        printf( "\t -format[ps]             Format for output files [default 'ps'] \n");
        exit(1);
  }


  path=argv[1];

   for (int i = 2; i < argc; i++){

     if (!strcmp(argv[i], "-outDir")){
       if (++i >= argc){
         printf( "-outDir needs arguments. \n");
         printf( "Try '--help' for more information. \n");
         exit(1);
        } 
       else{
         outDir = argv[i];
         continue;
       }
     }
     
     
     if (!strcmp(argv[i], "-format")){
       if (++i >= argc){
         printf( "-format needs arguments. \n");
         printf( "Try '--help' for more information. \n");
         exit(1);
       } 
       else{
         format = argv[i];
         continue;
       }
     }
  }

   TofScan(argv[1], outDir, format);

}
1	/**
2	* TOFScan
3	* Author Nagni
4	* Version 1.2
5	* Modified by G.De Rosa
6	* Date 27 Apr 2006
7	*
8	* Description:
9	* Describe the performance of the TOF.
10	*
11	* Parameters:
12	* TString base - the path to the root directory for the specific Pamela unpack session
13	* TString outDirectory - the path where to save the output image (Default = base)
14	* TString format - the format which will be used fo rsave the produced images (Default = "gif")
15	*/
16
17	#include <TString.h>
18	#include <TObjString.h>
19	#include <TTree.h>
20	#include <TBranch.h>
21	#include <TGraph.h>
22	#include <TStyle.h>
23	#include <TH2S.h>
24	#include <TPaveText.h>
25	#include <TCanvas.h>
26	#include <physics/tof/TofEvent.h>
27
28
29	#include <iostream>
30	using namespace std;
31
32	void TofScan(TString base, TString outDirectory = "", TString format = ""){
33
34	std::stringstream sst;
35	if (outDirectory == "") outDirectory = base.Data();
36	TString filename = ((TObjString*)base.Tokenize('/')->Last())->GetString();
37
38	TFile *file =new TFile(base.Data()) ;
39	if (!file){
40	printf("file not Found \n");
41	return;
42	}
43
44	TTree PhysicsTr = (TTree)file->Get("Physics");
45	TBranch *TofBr = PhysicsTr->GetBranch("Tof");
46	pamela::tof::TofEvent *tofEvent = 0;
47	PhysicsTr->SetBranchAddress("Tof", &tofEvent);
48
49	Long64_t nevents = TofBr->GetEntries();
50	if (nevents <= 0) {
51	printf("nevents = %llu \n", nevents);
52	file->Close();
53	return;
54	}
55
56	TH2S *tdcHisto = new TH2S("tdcHisto", sst.str().c_str(), 409, 0, 4096, 48, 0, 48);
57	TH2S *adcHisto = new TH2S("adcHisto", sst.str().c_str(), 409, 0, 4096, 48, 0, 48);
58
59
60	/*
61	* Array to convert hdc/adc to the real Photomultiplier
62	* The array rows definitions are:
63	* tof[0][] = chxxA (strip or channel xxA)
64	* tof[1][] = hbxxA (halfboard xxA)
65	* tof[2][] = chxxB (strip or channel xxB)
66	* tof[3][] = hbxxB (halfboard xxB)
67	*
68	* Each single row is a sequence of photomultipliers in this shape
69	* - The elements from 0 to 7 correspond to S11_1->S11_8
70	* - The elements from 8 to 13 correspond to S12_1->S12_6
71	* - The elements from 14 to 15 correspond to S21_1->S21_2
72	* - The elements from 16 to 17 correspond to S22_1->S22_2
73	* - The elements from 18 to 20 correspond to S31_1->S31_3
74	* - The elements from 21 to 23 correspond to S32_1->S32_3
75	*
76	* Example:
77	* -------> the tdc of the S12_3B photomultiplier correspond to tdc[(tof[2][10])][(tof[3][10])]
78	* -------> the tdc of the S31_3A photomultiplier correspond to tdc[(tof[0][20])][(tof[1][20])]
79	*/
80	short tof[4][24] = {
81	{4, 4, 4, 4, 1, 1, 2, 2, 3, 3, 3, 3, 3, 3, 1, 1, 1, 1, 2, 3, 3, 3, 3, 4},
82	{1, 3, 5, 7, 10, 12, 2, 4, 2, 4, 6, 8, 10, 12, 1, 5, 3, 9, 7, 9, 11, 1, 5, 9},
83	{2, 2, 2, 2, 1, 1, 1, 1, 4, 4, 4, 4, 4, 4, 2, 1, 2, 1, 2, 2, 2, 3, 3, 4},
84	{6, 8, 12, 10, 8, 6, 4, 2, 12, 10, 8, 6, 4, 2, 9, 7, 11, 11, 5, 3, 1, 3, 7, 11}
85	};
86
87	TString photoS[48] = {
88	"S11_1A", "S11_1B", "S11_2A", "S11_2B", "S11_3A", "S11_3B", "S11_4A", "S11_4B",
89	"S11_5A", "S11_5B", "S11_6A", "S11_6B", "S11_7A", "S11_7B", "S11_8A", "S11_8B",
90	"S12_1A", "S12_1B", "S12_2A", "S12_2B", "S12_3A", "S12_3B", "S12_4A", "S12_4B", "S12_5A", "S12_5B", "S12_6A", "S12_6B",
91	"S21_1A", "S21_1B", "S21_2A", "S21_2B",
92	"S22_1A", "S22_1B", "S22_2A", "S22_2B",
93	"S31_1A", "S31_1B", "S31_2A", "S31_2B", "S31_3A", "S31_3B",
94	"S32_1A", "S32_1B", "S32_2A", "S32_2B", "S32_3A", "S32_3B"
95	};
96
97	int i = 0;
98	int j = 0;
99	int k = 0;
100	int z = 0;
101	int ch = 0;
102	int hb = 0;
103
104	while(i < nevents){
105	TofBr->GetEntry(i);
106	k = 0;
107	while (k < 24){
108	j = 0;
109	while (j < 2){
110	ch = tof[2*j][k] - 1;
111	hb = tof[2*j + 1][k] - 1;
112	tdcHisto->Fill(tofEvent->tdc[ch][hb], 2*k + j);
113	adcHisto->Fill(tofEvent->adc[ch][hb], 2*k + j);
114	j++;
115	}
116	k++;
117	}
118	i++;
119	}
120
121	TH1D *tpADC = 0;
122	TH1D *tpTDC = 0;
123	TH1D *tpADCall = 0;
124	TH1D *tpTDCall = 0;
125
126	float *X = new float[48];
127	float *means = new float[48];
128	float *entries = new float[48];
129	int *entriestdc = new int[48];
130	int *entriesadc = new int[48];
131
132	const char *saveas = format;
133
134	// all range ADC/TDC
135
136	j = 0;
137	while (j < 12){
138	k = 0;
139	z = 0;
140
141	while(k < 4){
142	if (k > 1) z = 2;
143	i = j*4 + k;
144	X[i] = i;
145
146	tpTDCall = tdcHisto->ProjectionX(" ", i+1, i+1);
147	tpTDCall->SetAxisRange(0,4095);
148	entriestdc[i] = (Int_t)tpTDCall->Integral();
149
150	tpADCall = adcHisto->ProjectionX(" ", i+1, i+1);
151	tpADCall->SetAxisRange(0,4095);
152	entriesadc[i] = (Int_t)tpADCall->Integral();
153
154	k++;
155	}
156
157	j++;
158
159	}
160
161	gStyle->SetStatW(0.4);
162	gStyle->SetStatH(0.4);
163	gStyle->SetOptStat("nmri");
164	gStyle->SetTitleH(0.10);
165	gStyle->SetTitleW(0.96);
166
167	TCanvas *SCanvas = new TCanvas("SCanvas","SCanvas", 1280, 1024);
168	SCanvas->Divide(4,2);
169	j = 0;
170	while (j < 12){
171	k = 0;
172	z = 0;
173	if (gROOT->IsBatch()) {
174	SCanvas = new TCanvas("SCanvas","SCanvas", 1280, 1024);
175	SCanvas->Divide(4,2);
176	} else {
177	if (j > 0) SCanvas->DrawClone();
178	}
179
180
181	while(k < 4){
182	if (k > 1) z = 2;
183	i = j*4 + k;
184	X[i] = i;
185
186	SCanvas->cd(k+3+z);
187	tpTDC = tdcHisto->ProjectionX(" ", i+1, i+1);
188	sst.str("");
189	sst << "TDC - " << photoS[i].Data() << " (Nev < 4096 = " << entriestdc[i] << ")";
190	tpTDC->SetTitle(sst.str().c_str());
191	tpTDC->SetTitleSize(10);
192	tpTDC->SetAxisRange(690,1510);
193	tpTDC->DrawCopy();
194	tpTDC->ComputeIntegral();
195	entries[i] = tpTDC->Integral();
196
197	SCanvas->cd(k+1+z);
198	tpADC = adcHisto->ProjectionX(" ", i+1, i+1);
199	sst.str("");
200	sst << "ADC - " << photoS[i].Data() << " (Nev < 4096 = " << entriesadc[i] << ")";
201	tpADC->SetTitle(sst.str().c_str());
202	tpADC->SetAxisRange(-10,710);
203	tpADC->DrawCopy();
204	means[i] = tpADC->GetMean();
205
206	k++;
207	}
208	if ( !strcmp(saveas,"ps") ) {
209	sst.str("");
210	sst << outDirectory.Data() << filename.Data() << "TOFScan.ps(";
211	SCanvas->Print(sst.str().c_str());
212	} else {
213	sst.str("");
214	sst << outDirectory.Data() << filename.Data() << "TOFScan" << j+1 << "." << saveas;
215	SCanvas->SaveAs(sst.str().c_str());
216
217	}
218	j++;
219	}
220	if (gROOT->IsBatch()) SCanvas->Close();
221
222	/*
223	* This Canvas will represent a summary of the performances for TOF TDC/ADC channels
224	*/
225	TCanvas *performanceCanvas = new TCanvas("performanceCanvas","performanceCanvas", 1280, 1024);
226	performanceCanvas->Divide(1,2);
227
228	gStyle->SetTitleW(.9);
229
230	performanceCanvas->cd(1);
231	TGraph *adcMeans = new TGraph(48, X, means);
232	sst.str("");
233	sst << "ADCMean" << " - Data in " << base.Data() << " - Nevents in the run = " << nevents;
234	adcMeans->SetTitle(sst.str().c_str());
235	adcMeans->SetFillColor(35);
236	adcMeans->GetXaxis()->SetTitle("Photomultipliers");
237	adcMeans->GetXaxis()->CenterTitle();
238	adcMeans->GetXaxis()->SetLimits(-0.5, 47.5);
239	adcMeans->GetYaxis()->SetTitle("ADCMean");
240	adcMeans->GetYaxis()->CenterTitle();
241	adcMeans->Draw("AB");
242
243	performanceCanvas->cd(2);
244	TGraph *tdcEntries = new TGraph(48, X, entries);
245	sst.str("");
246	sst << "TDCEntries" << " - Data in " << base.Data() << " - Nevents in the run = " << nevents;
247	tdcEntries->SetTitle(sst.str().c_str());
248	tdcEntries->SetFillColor(35);
249	tdcEntries->GetXaxis()->SetTitle("Photomultipliers");
250	tdcEntries->GetXaxis()->CenterTitle();
251	tdcEntries->GetXaxis()->SetLimits(-0.5, 47.5);
252	tdcEntries->GetYaxis()->SetTitle("TDCIntegral");
253	tdcEntries->GetYaxis()->CenterTitle();
254	tdcEntries->Draw("AB");
255
256	//------print the ps
257
258	if ( !strcmp(saveas,"ps") ) {
259	sst.str("");
260	sst << outDirectory.Data() << filename.Data() << "TOFScan.ps)";
261	performanceCanvas->Print(sst.str().c_str());
262
263	} else {
264	sst.str("");
265	sst << outDirectory.Data() << filename.Data() << "TOFScan13." << saveas;
266	performanceCanvas->SaveAs(sst.str().c_str());
267	}
268	if (gROOT->IsBatch()) {
269	SCanvas->Close();
270	performanceCanvas->Close();
271	}
272
273	}
274
275	int main(int argc, char* argv[]){
276	TString path;
277	TString outDir ="./";
278	TString format ="ps";
279
280	if (argc < 2){
281	printf("You have to insert at least the file to analyze \n");
282	printf("Try '--help' for more information. \n");
283	exit(1);
284	}
285
286	if (!strcmp(argv[1], "--help")){
287	printf( "Usage: TofScan FILE [OPTION] \n");
288	printf( "\t --help Print this help and exit \n");
289	printf( "\t -outDir[path] Path where to put the output [default ./] \n");
290	printf( "\t -format[ps] Format for output files [default 'ps'] \n");
291	exit(1);
292	}
293
294
295	path=argv[1];
296
297	for (int i = 2; i < argc; i++){
298
299	if (!strcmp(argv[i], "-outDir")){
300	if (++i >= argc){
301	printf( "-outDir needs arguments. \n");
302	printf( "Try '--help' for more information. \n");
303	exit(1);
304	}
305	else{
306	outDir = argv[i];
307	continue;
308	}
309	}
310
311
312
313	if (!strcmp(argv[i], "-format")){
314	if (++i >= argc){
315	printf( "-format needs arguments. \n");
316	printf( "Try '--help' for more information. \n");
317	exit(1);
318	}
319	else{
320	format = argv[i];
321	continue;
322	}
323	}
324	}
325
326	TofScan(argv[1], outDir, format);
327
328	}