quicklook/QLflightS4_ND/ND_QL.cpp

/*****
*
* Neutron Detector Quick Look
* author  Marcelli-Malvezzi
* Version 1.00 - March 2006
*
* Not only new release of NeutronDetectorScan.c; all is changed and a new name is requested!
*
*
* Description: The aim of Neutron Detector QL software is to keep under control the time bahaviour of this detector. 
*              It creates three output canvases: the first and the second are relative to Background channels, 
*              while the third one is relative to trigger events ("events" channel) instead.
*              Each output relates to one PAMELA marshroot. See documentation for a more detailed description of the output. 
*
*
* Parameters:
*       TSTring base          - the path to the root directory for the specific Pamela unpack session
*                               There is no default value, without this input the program will not run
*       TString outDir        - the path where to save the output image (Default = ./) 
*       TString format        - the format which will be used fo rsave the produced images (Default = "jpg") 
*       Float_t DeltaT        - the time interval in ms for ND records colection used for histograms ND_QL_1 plotting (Default = 1000 ms)
*       Float_t DeltaTevtime  - the time interval in minute for calculation of average ND count rate per minute, 
*                               see ND_QL_2 and ND_QL_3 plots (Default = 1 minute)
* Version 1.1 - June 2006
*
* Fixed bugs: for a large namber of events is not possible to initialize vectors, so all graphs have been converted in histograms
*
*/

#include <iostream>
#include <string>
#include <sstream>
#include <math.h>
#include "TStyle.h"
#include "TLatex.h"
#include "TFile.h"
#include "TList.h"
#include "TTree.h"
#include "TObjString.h"
#include "TCanvas.h"
#include "TGraph.h"
#include "TLegend.h"
#include "TH1F.h"
#include "TF1.h"
#include "TGaxis.h"
#include "TString.h"
#include "TPaveText.h"
#include "EventHeader.h"
#include "PscuHeader.h"
#include "TMultiGraph.h"
#include "physics/neutronDetector/NeutronEvent.h"
#include "physics/neutronDetector/NeutronRecord.h"


using namespace std;

void ND_QL(TString base, TString outDir, TString format, ULong_t DeltaT, Double_t DeltaTevtime){ // DeltaT in ms, DeltaTevtime in minute
  
  //---------------- Variables initialization --------------------------//
  Int_t    tmpSize=0;
  Int_t    yTrig=0; 
  Int_t    yUpperBackground=0; 
  Int_t    yBottomBackground=0;
  ULong_t  lastime=0, firstime=0;
  Double_t scale= 1./DeltaTevtime;
  stringstream title, title1;
  double obt;  
  stringstream oss, noentries;
  stringstream oss1, oss2, oss3;

  //------- load root file --------------
  TFile  *file  = new TFile(base.Data()) ;

  TString filename = ((TObjString*)base.Tokenize('/')->Last())->GetString();
  filename = ((TObjString*)filename.Tokenize('.')->First())->GetString();

  if ( outDir == "" ) outDir = ".";
  if (!file){
    printf("No such file in the directory has been found");
    return;
  }

  //------------------- Takes the tree of ND  ---------------------------//
  TTree *phystr = (TTree*)file->Get("Physics");
  TBranch *ndBr = phystr->GetBranch("Neutron");
  TBranch *headBr = phystr->GetBranch("Header");
  
  //PAMELA classes      
  pamela::neutron::NeutronEvent  *ne=0;
  pamela::neutron::NeutronRecord *nr=0; 
  pamela::EventHeader *eh=0;
  pamela::PscuHeader *ph=0;

  phystr->SetBranchAddress("Neutron", &ne);
  phystr->SetBranchAddress("Header", &eh);
  
  Long64_t nevents = phystr->GetEntries();
  const Int_t size = nevents;

  //--------------- output if there are 0 or <0  entries ---------------------------------------//
  if (nevents<=0){
    cout<<"WARNING: No Entries, RETURN"<<"\n";

    TCanvas *canvas4 = new TCanvas("No entries", "No entries ", 400, 200);
    canvas4->SetFillColor(10);
    canvas4->cd();

    TLatex *l = new TLatex();
    l->SetTextAlign(12);
    l->SetTextSize(0.15);
    l->SetTextColor(2);
    noentries.str("");
    noentries<< "ND_QL:";
    l->DrawLatex(0.05, 0.7, noentries.str().c_str()); 
    noentries.str("");
    noentries<< "No entries for this files";
    l->DrawLatex(0.05, 0.5, noentries.str().c_str()); 

    if (outDir == "./") {
      oss.str("");
      oss << filename.Data() << "ND_QL." << format.Data();
    } else {
      oss.str("");
      oss << outDir.Data() << filename.Data() << "_ND_QL." << format.Data();
    }
  
    canvas4->Update();
    canvas4->SaveAs(oss.str().c_str());
 
    return;
  }

  //------------ first and last  events ->  nbin ---------------------------------//
  headBr->GetEntry(0);
  ph = eh->GetPscuHeader();
  firstime = ph->GetOrbitalTime();
  
  for (Int_t i = 0; i < nevents; i++){
    headBr->GetEntry(i);
    ph = eh->GetPscuHeader();
    if((ph->GetOrbitalTime()) <= firstime) firstime=ph->GetOrbitalTime();
    if((ph->GetOrbitalTime()) >= lastime) lastime=ph->GetOrbitalTime();
   }

   const Double_t nint=((lastime-firstime)/(DeltaTevtime*60000));
   const Double_t nint1=((lastime-firstime)/(DeltaT));//
   const Double_t nint2=lastime-firstime;
   int nbin=(int)nint;
   int nbin1=(int)nint1;
   int nbin2=(int)nint2;
   double obmin=firstime;
   double obmax=lastime; 
   
  //************************** HISTOGRAMS ***************************************************//
  //---------------------------- First histograms -----------------------------------------//
  oss.str("");
  oss <<"Distribution of Bottom Background Neutrons collected in DeltaT = " << DeltaT << " ms";
  oss1.str("");
  oss1 <<"Distribution of Upper Background Neutrons collected in DeltaT = " << DeltaT << " ms";
  TH1F *h1 = new TH1F (filename.Data(), oss.str().c_str(), nbin1,obmin,obmax);
  TH1F *h3 = new TH1F (filename.Data(), oss1.str().c_str(), nbin1,obmin,obmax);
  //---------------------------- Second histograms -----------------------------------------//
  title.str("");
  title<<filename<<":  Bottom Background & Upper Background: Time Evolution (DT="<<DeltaTevtime<<" min)";
  title1.str("");
  title1<<filename<<". Ratio: UpperBackground / BottomBackground: Time Evolution (DT="<<DeltaTevtime<<" min)";
  TH1F *histo1= new TH1F(title.str().c_str(),title.str().c_str(),nbin,obmin,obmax);
  TH1F *histo1bis= new TH1F(title1.str().c_str(),title1.str().c_str(),nbin,obmin,obmax);
  TH1F *histo2= new TH1F(title.str().c_str(),title.str().c_str(),nbin,obmin,obmax);
  //---------------------------- Third histograms -----------------------------------------//

  oss.str("");
  oss << filename.Data() << ":  " << "Trigger events: Time Evolution"; 
  oss1.str("");
  oss1 <<filename.Data()  << ":  " << "Trigger counting: Time Evolution (DT= "<<DeltaTevtime<<" min)";
  oss2.str("");
  oss2 << filename.Data() << ":  " << "Trigger counting (events with more than 10 n): Time Evolution  (DT= "<<DeltaTevtime<<" min)";

  TH1F *Trig = new TH1F(oss.str().c_str(), oss.str().c_str(),nbin2,obmin,obmax);
  TH1F *Trigger = new TH1F(oss1.str().c_str(), oss1.str().c_str(),nbin,obmin,obmax);
  TH1F *Triggercut = new TH1F(oss2.str().c_str(), oss2.str().c_str(),nbin,obmin,obmax); 

  //-------------------------- Fill histograms from root-ple -----------------------------//
  for (Int_t i = 0; i < nevents; i++){
    ndBr->GetEntry(i);
    headBr->GetEntry(i);
    tmpSize = ne->Records->GetEntries();
    if (ne->unpackError == 1) continue;    //Check if NeutronEvent is corrupted   
    ph = eh->GetPscuHeader();
    obt= ph->GetOrbitalTime();
    for (Int_t j = 0; j < tmpSize; j++){
      nr = (pamela::neutron::NeutronRecord*)ne->Records->At(j);
      yTrig             = yTrig            + (int)nr->trigPhysics;
      yUpperBackground  = yUpperBackground  + (int)nr->upperBack;
      yBottomBackground = yBottomBackground + (int)nr->bottomBack;
    }
    histo1->Fill(ph->GetOrbitalTime(), yUpperBackground);
    histo1bis->Fill(ph->GetOrbitalTime(), yUpperBackground);
    histo2->Fill(ph->GetOrbitalTime(), yBottomBackground);
    h1->Fill(ph->GetOrbitalTime(), yBottomBackground);
    h3->Fill(ph->GetOrbitalTime(), yUpperBackground);
    Trig->Fill(ph->GetOrbitalTime(), yTrig);
    Trigger->Fill(ph->GetOrbitalTime(), yTrig);
    if(yTrig >=10)    
      Triggercut->Fill(ph->GetOrbitalTime(), yTrig);
    yUpperBackground=0;
    yBottomBackground=0;
    yTrig=0;
  }


  Int_t newBin1=(int)((h1->GetMaximum())-(h1->GetMinimum()));
  Int_t newBin3=(int)((h3->GetMaximum())-(h3->GetMinimum()));
  oss.str("");
  oss <<"Distribution of Bottom Background Neutrons collected in DeltaT = " << DeltaT << " ms";
  oss1.str("");
  oss1 <<"Distribution of Upper Background Neutrons collected in DeltaT = " << DeltaT << " ms";
  TH1F *h1bis = new TH1F (filename.Data(), oss.str().c_str(), newBin1, h1->GetMinimum(), h1->GetMaximum());
  TH1F *h3bis = new TH1F (filename.Data(), oss1.str().c_str(), newBin3, h3->GetMinimum(), h3->GetMaximum());
  for (Int_t i = 0; i < nbin1; i++){ 
    h1bis->Fill(h1->GetBinContent(i));
    h3bis->Fill(h3->GetBinContent(i));
    }

  //********************************* CANVASES ************************************************//
  //--------------------------------- First canvas --------------------------------------------// 
  TCanvas *histoCanv = new TCanvas("ND_QL_1", base.Data(), 1280, 1024);
  histoCanv->SetFillColor(10);
  histoCanv->Divide(1,2);

  histoCanv->cd(1);
  h1bis->SetLineColor(kRed);
  h1bis->SetFillStyle(3004);
  h1bis->SetFillColor(kRed);
  h1bis->GetXaxis()->SetTitle("Number of neutrons");
  h1bis->GetXaxis()->CenterTitle();
  h1bis->GetYaxis()->SetTitle("Number of events");
  h1bis->GetYaxis()->CenterTitle();
  h1bis->Draw();

  histoCanv->cd(2);
  h3bis->SetLineColor(kBlue);
  h3bis->SetFillStyle(3004);
  h3bis->SetFillColor(kBlue);
  h3bis->GetXaxis()->SetTitle("Number of neutrons");
  h3bis->GetXaxis()->CenterTitle();
  h3bis->GetYaxis()->SetTitle("Number of events");
  h3bis->GetYaxis()->CenterTitle();
  h3bis->Draw();
  
  //---------------------------------- Second Canvas -----------------------------------------//
  TCanvas *finalCanv = new TCanvas("ND_QL_2", base.Data(), 1280, 1024);
  finalCanv->SetFillColor(10);
  finalCanv->Divide(1,2);

  finalCanv->cd(1);
  histo1->SetStats(kFALSE);
  histo1->GetYaxis()->SetTitle("Number of recorded Neutrons / DT   (min^-1) ");
  histo1->GetYaxis()->SetTitleSize(0.04);
  histo1->GetYaxis()->SetTitleOffset(1);
  histo1->GetYaxis()->CenterTitle(); 
  histo1->GetYaxis()->SetLabelSize(0.03);
  histo1->GetXaxis()->CenterTitle();
  histo1->GetXaxis()->SetTitleSize(0.04);
  histo1->GetXaxis()->SetTitleOffset(1);
  histo1->GetXaxis()->SetLabelSize(0.03);
  histo1->GetXaxis()->SetTitle("OBT   (ms)");
  histo1->SetMarkerSize(.5);
  histo1->SetMarkerStyle(21);
  histo1->SetMarkerColor(3);
  histo1->Scale(scale);
  histo1->SetMinimum(0.8);
  histo1->Draw("9p0");

  histo2->SetStats(kFALSE);
  histo2->SetMarkerSize(.5);
  histo2->SetMarkerStyle(21);
  histo2->SetMarkerColor(2);
  histo2->Scale(scale);
  histo2->SetMinimum(0.8);
  histo2->Draw("9p0same");

  TLegend *leg = new TLegend(.91,.65, .99, .81);
  leg->AddEntry(histo2,"Bottom");
  leg->AddEntry(histo1,"Upper");
  leg->Draw();

  finalCanv->cd(2);
  histo1bis->SetMarkerSize(.5);
  histo1bis->SetStats(kFALSE);
  histo1bis->SetMarkerStyle(21);
  histo1bis->SetMarkerColor(4);
  histo1bis->GetXaxis()->SetTitle("OBT   (ms)");
  histo1bis->GetXaxis()->SetTitleSize(0.04);
  histo1bis->GetXaxis()->CenterTitle();
  histo1bis->GetXaxis()->SetLabelSize(0.03);
  histo1bis->GetYaxis()->SetTitle("Upper / Bottom Background");
  histo1bis->GetYaxis()->CenterTitle();
  histo1bis->GetYaxis()->SetTitleSize(0.04);
  histo1bis->GetYaxis()->SetTitleOffset(0.5);
  histo1bis->GetYaxis()->SetLabelSize(0.03);
  histo1bis->Scale(scale);
  histo1bis->Divide(histo2);
  histo1bis->SetMinimum(0.);
  if(histo1bis->GetMaximum()<2)
    histo1bis->SetMaximum(2.0);
  histo1bis->Draw("9p0");
  TF1 *func1 = new TF1("func1", "1.4");
  func1->SetRange(firstime, lastime);
  func1->SetLineColor(3);
  func1->SetLineStyle(1);
  func1->SetLineWidth(3);
  func1->Draw("same");
  TF1 *func2 = new TF1("func2", "0.6");
  func2->SetRange(firstime, lastime);
  func2->SetLineColor(3);
  func2->SetLineStyle(1);
  func2->SetLineWidth(3);
  func2->Draw("same");
  
  //---------------------------------- Third Canvas -----------------------------------------//
  TCanvas *triggerCanv = new TCanvas("ND_QL_3", base.Data(), 1280, 1024);
  triggerCanv->SetFillColor(10);
  triggerCanv->Divide(1,3);

  triggerCanv->cd(1);
  Trig->SetStats(kFALSE);
  Trig->SetMarkerStyle(21);
  Trig->SetMarkerSize(.7);
  Trig->SetMarkerColor(2);
  Trig->GetXaxis()->SetTitle("OBT (ms)");
  Trig->GetXaxis()->CenterTitle();
  Trig->GetXaxis()->SetTitleSize(0.05);
  Trig->GetXaxis()->SetLabelSize(0.05);
  Trig->GetYaxis()->SetTitle("Number of Neutrons");
  Trig->GetYaxis()->CenterTitle();
  Trig->GetYaxis()->SetTitleSize(0.06);
  Trig->GetYaxis()->SetTitleOffset(0.5);
  Trig->GetYaxis()->SetLabelSize(0.05);
  Trig->Draw("9p0");

  triggerCanv->cd(2);
  Trigger->SetStats(kFALSE);
  Trigger->SetMarkerStyle(21);
  Trigger->SetMarkerSize(.7);
  Trigger->SetMarkerColor(4);
  Trigger->GetYaxis()->SetTitle("Number of Neutrons");
  Trigger->GetYaxis()->SetTitleSize(0.06);
  Trigger->GetYaxis()->SetTitleOffset(0.5);
  Trigger->GetYaxis()->CenterTitle(); 
  Trigger->GetYaxis()->SetLabelSize(0.05);
  Trigger->GetXaxis()->CenterTitle();
  Trigger->GetXaxis()->SetTitleSize(0.05);
  Trigger->GetXaxis()->SetLabelSize(0.05);
  Trigger->GetXaxis()->SetTitle("OBT (ms)");
  Trigger->SetMinimum(0.);
  Trigger->Draw("9p0");

  triggerCanv->cd(3);
  Triggercut->SetStats(kFALSE);
  Triggercut->SetMarkerStyle(21); 
  Triggercut->SetMarkerSize(.7);
  Triggercut->SetMarkerColor(4);
  Triggercut->GetYaxis()->SetTitle("Number of Neutrons");
  Triggercut->GetYaxis()->SetTitleSize(0.06);
  Triggercut->GetYaxis()->SetTitleOffset(.5);
  Triggercut->GetYaxis()->CenterTitle(); 
  Triggercut->GetYaxis()->SetLabelSize(0.05);
  Triggercut->GetXaxis()->CenterTitle();
  Triggercut->GetXaxis()->SetTitleSize(0.05);
  Triggercut->GetXaxis()->SetTitleOffset(1);
  Triggercut->GetXaxis()->SetLabelSize(0.05);
  Triggercut->GetXaxis()->SetTitle("OBT (ms)");
  Triggercut->Draw("9p");
 
  //************************** to save canvas ******************************************//

 if (outDir == "") {
    oss1.str("");
    oss2.str(""); 
    oss3.str("");
    oss1 << filename.Data() << "." << format.Data();
    oss2 << filename.Data() << "." << format.Data(); 
    oss3 << filename.Data() << "." << format.Data();
  } else {
    oss1.str("");
    oss2.str("");
    oss3.str("");
    oss1 << outDir.Data() << filename.Data() << "_ND_QL_1." << format.Data();
    oss2 << outDir.Data() << filename.Data() << "_ND_QL_2." << format.Data(); 
    oss3 << outDir.Data() << filename.Data() << "_ND_QL_3." << format.Data();
    }

  finalCanv->SaveAs(oss2.str().c_str()); 
  histoCanv->SaveAs(oss1.str().c_str());
  triggerCanv->SaveAs(oss3.str().c_str());

  file->Close();
 
}

int main(int argc, char* argv[]){
  TString path;
  TString outDir        ="./";
  TString format        ="jpg";
  ULong_t DeltaT        =1000;//era 1000
  Double_t DeltaTevtime  =5;
    
 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: ND_QL 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[jpg|gif|ps]     Format for output files [default 'jpg'] \n");
        printf( "\t -DeltaT                 Time interval to bin histograms in ms [default = 1000ms] \n");
        printf( "\t -DeltaTevtime           Time interval to control time evolution of acquired data in minute [default = 5 min.] \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;
       }
     }
     if (!strcmp(argv[i], "-DeltaT")){
       if (++i >= argc){
         printf( "-DeltaT needs arguments. \n");
         printf( "Try '--help' for more information. \n");
         exit(1);
       } 
       else{
         DeltaT = atol(argv[i]);
         continue;
       }
     } 
     if (!strcmp(argv[i], "-DeltaTevtime")){
       if (++i >= argc){
         printf( "-DeltaTevtime needs arguments. \n");
         printf( "Try '--help' for more information. \n");
         exit(1);
       }
       else{
         DeltaTevtime = atof(argv[i]);
         continue;
       }
     }
   }
   
   ND_QL(argv[1], outDir, format, DeltaT, DeltaTevtime);
}


1	/*****
2	*
3	* Neutron Detector Quick Look
4	* author Marcelli-Malvezzi
5	* Version 1.00 - March 2006
6	*
7	* Not only new release of NeutronDetectorScan.c; all is changed and a new name is requested!
8	*
9	*
10	* Description: The aim of Neutron Detector QL software is to keep under control the time bahaviour of this detector.
11	* It creates three output canvases: the first and the second are relative to Background channels,
12	* while the third one is relative to trigger events ("events" channel) instead.
13	* Each output relates to one PAMELA marshroot. See documentation for a more detailed description of the output.
14	*
15	*
16	* Parameters:
17	* TSTring base - the path to the root directory for the specific Pamela unpack session
18	* There is no default value, without this input the program will not run
19	* TString outDir - the path where to save the output image (Default = ./)
20	* TString format - the format which will be used fo rsave the produced images (Default = "jpg")
21	* Float_t DeltaT - the time interval in ms for ND records colection used for histograms ND_QL_1 plotting (Default = 1000 ms)
22	* Float_t DeltaTevtime - the time interval in minute for calculation of average ND count rate per minute,
23	* see ND_QL_2 and ND_QL_3 plots (Default = 1 minute)
24	* Version 1.1 - June 2006
25	*
26	* Fixed bugs: for a large namber of events is not possible to initialize vectors, so all graphs have been converted in histograms
27	*
28	*/
29
30	#include <iostream>
31	#include <string>
32	#include <sstream>
33	#include <math.h>
34	#include "TStyle.h"
35	#include "TLatex.h"
36	#include "TFile.h"
37	#include "TList.h"
38	#include "TTree.h"
39	#include "TObjString.h"
40	#include "TCanvas.h"
41	#include "TGraph.h"
42	#include "TLegend.h"
43	#include "TH1F.h"
44	#include "TF1.h"
45	#include "TGaxis.h"
46	#include "TString.h"
47	#include "TPaveText.h"
48	#include "EventHeader.h"
49	#include "PscuHeader.h"
50	#include "TMultiGraph.h"
51	#include "physics/neutronDetector/NeutronEvent.h"
52	#include "physics/neutronDetector/NeutronRecord.h"
53
54
55	using namespace std;
56
57	void ND_QL(TString base, TString outDir, TString format, ULong_t DeltaT, Double_t DeltaTevtime){ // DeltaT in ms, DeltaTevtime in minute
58
59	//---------------- Variables initialization --------------------------//
60	Int_t tmpSize=0;
61	Int_t yTrig=0;
62	Int_t yUpperBackground=0;
63	Int_t yBottomBackground=0;
64	ULong_t lastime=0, firstime=0;
65	Double_t scale= 1./DeltaTevtime;
66	stringstream title, title1;
67	double obt;
68	stringstream oss, noentries;
69	stringstream oss1, oss2, oss3;
70
71	//------- load root file --------------
72	TFile *file = new TFile(base.Data()) ;
73
74	TString filename = ((TObjString*)base.Tokenize('/')->Last())->GetString();
75	filename = ((TObjString*)filename.Tokenize('.')->First())->GetString();
76
77	if ( outDir == "" ) outDir = ".";
78	if (!file){
79	printf("No such file in the directory has been found");
80	return;
81	}
82
83	//------------------- Takes the tree of ND ---------------------------//
84	TTree phystr = (TTree)file->Get("Physics");
85	TBranch *ndBr = phystr->GetBranch("Neutron");
86	TBranch *headBr = phystr->GetBranch("Header");
87
88	//PAMELA classes
89	pamela::neutron::NeutronEvent *ne=0;
90	pamela::neutron::NeutronRecord *nr=0;
91	pamela::EventHeader *eh=0;
92	pamela::PscuHeader *ph=0;
93
94	phystr->SetBranchAddress("Neutron", &ne);
95	phystr->SetBranchAddress("Header", &eh);
96
97	Long64_t nevents = phystr->GetEntries();
98	const Int_t size = nevents;
99
100	//--------------- output if there are 0 or <0 entries ---------------------------------------//
101	if (nevents<=0){
102	cout<<"WARNING: No Entries, RETURN"<<"\n";
103
104	TCanvas *canvas4 = new TCanvas("No entries", "No entries ", 400, 200);
105	canvas4->SetFillColor(10);
106	canvas4->cd();
107
108	TLatex *l = new TLatex();
109	l->SetTextAlign(12);
110	l->SetTextSize(0.15);
111	l->SetTextColor(2);
112	noentries.str("");
113	noentries<< "ND_QL:";
114	l->DrawLatex(0.05, 0.7, noentries.str().c_str());
115	noentries.str("");
116	noentries<< "No entries for this files";
117	l->DrawLatex(0.05, 0.5, noentries.str().c_str());
118
119	if (outDir == "./") {
120	oss.str("");
121	oss << filename.Data() << "ND_QL." << format.Data();
122	} else {
123	oss.str("");
124	oss << outDir.Data() << filename.Data() << "_ND_QL." << format.Data();
125	}
126
127	canvas4->Update();
128	canvas4->SaveAs(oss.str().c_str());
129
130	return;
131	}
132
133	//------------ first and last events -> nbin ---------------------------------//
134	headBr->GetEntry(0);
135	ph = eh->GetPscuHeader();
136	firstime = ph->GetOrbitalTime();
137
138	for (Int_t i = 0; i < nevents; i++){
139	headBr->GetEntry(i);
140	ph = eh->GetPscuHeader();
141	if((ph->GetOrbitalTime()) <= firstime) firstime=ph->GetOrbitalTime();
142	if((ph->GetOrbitalTime()) >= lastime) lastime=ph->GetOrbitalTime();
143	}
144
145	const Double_t nint=((lastime-firstime)/(DeltaTevtime*60000));
146	const Double_t nint1=((lastime-firstime)/(DeltaT));//
147	const Double_t nint2=lastime-firstime;
148	int nbin=(int)nint;
149	int nbin1=(int)nint1;
150	int nbin2=(int)nint2;
151	double obmin=firstime;
152	double obmax=lastime;
153
154	//************************ HISTOGRAMS *************************************************//
155	//---------------------------- First histograms -----------------------------------------//
156	oss.str("");
157	oss <<"Distribution of Bottom Background Neutrons collected in DeltaT = " << DeltaT << " ms";
158	oss1.str("");
159	oss1 <<"Distribution of Upper Background Neutrons collected in DeltaT = " << DeltaT << " ms";
160	TH1F *h1 = new TH1F (filename.Data(), oss.str().c_str(), nbin1,obmin,obmax);
161	TH1F *h3 = new TH1F (filename.Data(), oss1.str().c_str(), nbin1,obmin,obmax);
162	//---------------------------- Second histograms -----------------------------------------//
163	title.str("");
164	title<<filename<<": Bottom Background & Upper Background: Time Evolution (DT="<<DeltaTevtime<<" min)";
165	title1.str("");
166	title1<<filename<<". Ratio: UpperBackground / BottomBackground: Time Evolution (DT="<<DeltaTevtime<<" min)";
167	TH1F *histo1= new TH1F(title.str().c_str(),title.str().c_str(),nbin,obmin,obmax);
168	TH1F *histo1bis= new TH1F(title1.str().c_str(),title1.str().c_str(),nbin,obmin,obmax);
169	TH1F *histo2= new TH1F(title.str().c_str(),title.str().c_str(),nbin,obmin,obmax);
170	//---------------------------- Third histograms -----------------------------------------//
171
172	oss.str("");
173	oss << filename.Data() << ": " << "Trigger events: Time Evolution";
174	oss1.str("");
175	oss1 <<filename.Data() << ": " << "Trigger counting: Time Evolution (DT= "<<DeltaTevtime<<" min)";
176	oss2.str("");
177	oss2 << filename.Data() << ": " << "Trigger counting (events with more than 10 n): Time Evolution (DT= "<<DeltaTevtime<<" min)";
178
179	TH1F *Trig = new TH1F(oss.str().c_str(), oss.str().c_str(),nbin2,obmin,obmax);
180	TH1F *Trigger = new TH1F(oss1.str().c_str(), oss1.str().c_str(),nbin,obmin,obmax);
181	TH1F *Triggercut = new TH1F(oss2.str().c_str(), oss2.str().c_str(),nbin,obmin,obmax);
182
183	//-------------------------- Fill histograms from root-ple -----------------------------//
184	for (Int_t i = 0; i < nevents; i++){
185	ndBr->GetEntry(i);
186	headBr->GetEntry(i);
187	tmpSize = ne->Records->GetEntries();
188	if (ne->unpackError == 1) continue; //Check if NeutronEvent is corrupted
189	ph = eh->GetPscuHeader();
190	obt= ph->GetOrbitalTime();
191	for (Int_t j = 0; j < tmpSize; j++){
192	nr = (pamela::neutron::NeutronRecord*)ne->Records->At(j);
193	yTrig = yTrig + (int)nr->trigPhysics;
194	yUpperBackground = yUpperBackground + (int)nr->upperBack;
195	yBottomBackground = yBottomBackground + (int)nr->bottomBack;
196	}
197	histo1->Fill(ph->GetOrbitalTime(), yUpperBackground);
198	histo1bis->Fill(ph->GetOrbitalTime(), yUpperBackground);
199	histo2->Fill(ph->GetOrbitalTime(), yBottomBackground);
200	h1->Fill(ph->GetOrbitalTime(), yBottomBackground);
201	h3->Fill(ph->GetOrbitalTime(), yUpperBackground);
202	Trig->Fill(ph->GetOrbitalTime(), yTrig);
203	Trigger->Fill(ph->GetOrbitalTime(), yTrig);
204	if(yTrig >=10)
205	Triggercut->Fill(ph->GetOrbitalTime(), yTrig);
206	yUpperBackground=0;
207	yBottomBackground=0;
208	yTrig=0;
209	}
210
211
212	Int_t newBin1=(int)((h1->GetMaximum())-(h1->GetMinimum()));
213	Int_t newBin3=(int)((h3->GetMaximum())-(h3->GetMinimum()));
214	oss.str("");
215	oss <<"Distribution of Bottom Background Neutrons collected in DeltaT = " << DeltaT << " ms";
216	oss1.str("");
217	oss1 <<"Distribution of Upper Background Neutrons collected in DeltaT = " << DeltaT << " ms";
218	TH1F *h1bis = new TH1F (filename.Data(), oss.str().c_str(), newBin1, h1->GetMinimum(), h1->GetMaximum());
219	TH1F *h3bis = new TH1F (filename.Data(), oss1.str().c_str(), newBin3, h3->GetMinimum(), h3->GetMaximum());
220	for (Int_t i = 0; i < nbin1; i++){
221	h1bis->Fill(h1->GetBinContent(i));
222	h3bis->Fill(h3->GetBinContent(i));
223	}
224
225	//******************************* CANVASES **********************************************//
226	//--------------------------------- First canvas --------------------------------------------//
227	TCanvas *histoCanv = new TCanvas("ND_QL_1", base.Data(), 1280, 1024);
228	histoCanv->SetFillColor(10);
229	histoCanv->Divide(1,2);
230
231	histoCanv->cd(1);
232	h1bis->SetLineColor(kRed);
233	h1bis->SetFillStyle(3004);
234	h1bis->SetFillColor(kRed);
235	h1bis->GetXaxis()->SetTitle("Number of neutrons");
236	h1bis->GetXaxis()->CenterTitle();
237	h1bis->GetYaxis()->SetTitle("Number of events");
238	h1bis->GetYaxis()->CenterTitle();
239	h1bis->Draw();
240
241	histoCanv->cd(2);
242	h3bis->SetLineColor(kBlue);
243	h3bis->SetFillStyle(3004);
244	h3bis->SetFillColor(kBlue);
245	h3bis->GetXaxis()->SetTitle("Number of neutrons");
246	h3bis->GetXaxis()->CenterTitle();
247	h3bis->GetYaxis()->SetTitle("Number of events");
248	h3bis->GetYaxis()->CenterTitle();
249	h3bis->Draw();
250
251	//---------------------------------- Second Canvas -----------------------------------------//
252	TCanvas *finalCanv = new TCanvas("ND_QL_2", base.Data(), 1280, 1024);
253	finalCanv->SetFillColor(10);
254	finalCanv->Divide(1,2);
255
256	finalCanv->cd(1);
257	histo1->SetStats(kFALSE);
258	histo1->GetYaxis()->SetTitle("Number of recorded Neutrons / DT (min^-1) ");
259	histo1->GetYaxis()->SetTitleSize(0.04);
260	histo1->GetYaxis()->SetTitleOffset(1);
261	histo1->GetYaxis()->CenterTitle();
262	histo1->GetYaxis()->SetLabelSize(0.03);
263	histo1->GetXaxis()->CenterTitle();
264	histo1->GetXaxis()->SetTitleSize(0.04);
265	histo1->GetXaxis()->SetTitleOffset(1);
266	histo1->GetXaxis()->SetLabelSize(0.03);
267	histo1->GetXaxis()->SetTitle("OBT (ms)");
268	histo1->SetMarkerSize(.5);
269	histo1->SetMarkerStyle(21);
270	histo1->SetMarkerColor(3);
271	histo1->Scale(scale);
272	histo1->SetMinimum(0.8);
273	histo1->Draw("9p0");
274
275	histo2->SetStats(kFALSE);
276	histo2->SetMarkerSize(.5);
277	histo2->SetMarkerStyle(21);
278	histo2->SetMarkerColor(2);
279	histo2->Scale(scale);
280	histo2->SetMinimum(0.8);
281	histo2->Draw("9p0same");
282
283	TLegend *leg = new TLegend(.91,.65, .99, .81);
284	leg->AddEntry(histo2,"Bottom");
285	leg->AddEntry(histo1,"Upper");
286	leg->Draw();
287
288	finalCanv->cd(2);
289	histo1bis->SetMarkerSize(.5);
290	histo1bis->SetStats(kFALSE);
291	histo1bis->SetMarkerStyle(21);
292	histo1bis->SetMarkerColor(4);
293	histo1bis->GetXaxis()->SetTitle("OBT (ms)");
294	histo1bis->GetXaxis()->SetTitleSize(0.04);
295	histo1bis->GetXaxis()->CenterTitle();
296	histo1bis->GetXaxis()->SetLabelSize(0.03);
297	histo1bis->GetYaxis()->SetTitle("Upper / Bottom Background");
298	histo1bis->GetYaxis()->CenterTitle();
299	histo1bis->GetYaxis()->SetTitleSize(0.04);
300	histo1bis->GetYaxis()->SetTitleOffset(0.5);
301	histo1bis->GetYaxis()->SetLabelSize(0.03);
302	histo1bis->Scale(scale);
303	histo1bis->Divide(histo2);
304	histo1bis->SetMinimum(0.);
305	if(histo1bis->GetMaximum()<2)
306	histo1bis->SetMaximum(2.0);
307	histo1bis->Draw("9p0");
308	TF1 *func1 = new TF1("func1", "1.4");
309	func1->SetRange(firstime, lastime);
310	func1->SetLineColor(3);
311	func1->SetLineStyle(1);
312	func1->SetLineWidth(3);
313	func1->Draw("same");
314	TF1 *func2 = new TF1("func2", "0.6");
315	func2->SetRange(firstime, lastime);
316	func2->SetLineColor(3);
317	func2->SetLineStyle(1);
318	func2->SetLineWidth(3);
319	func2->Draw("same");
320
321	//---------------------------------- Third Canvas -----------------------------------------//
322	TCanvas *triggerCanv = new TCanvas("ND_QL_3", base.Data(), 1280, 1024);
323	triggerCanv->SetFillColor(10);
324	triggerCanv->Divide(1,3);
325
326	triggerCanv->cd(1);
327	Trig->SetStats(kFALSE);
328	Trig->SetMarkerStyle(21);
329	Trig->SetMarkerSize(.7);
330	Trig->SetMarkerColor(2);
331	Trig->GetXaxis()->SetTitle("OBT (ms)");
332	Trig->GetXaxis()->CenterTitle();
333	Trig->GetXaxis()->SetTitleSize(0.05);
334	Trig->GetXaxis()->SetLabelSize(0.05);
335	Trig->GetYaxis()->SetTitle("Number of Neutrons");
336	Trig->GetYaxis()->CenterTitle();
337	Trig->GetYaxis()->SetTitleSize(0.06);
338	Trig->GetYaxis()->SetTitleOffset(0.5);
339	Trig->GetYaxis()->SetLabelSize(0.05);
340	Trig->Draw("9p0");
341
342	triggerCanv->cd(2);
343	Trigger->SetStats(kFALSE);
344	Trigger->SetMarkerStyle(21);
345	Trigger->SetMarkerSize(.7);
346	Trigger->SetMarkerColor(4);
347	Trigger->GetYaxis()->SetTitle("Number of Neutrons");
348	Trigger->GetYaxis()->SetTitleSize(0.06);
349	Trigger->GetYaxis()->SetTitleOffset(0.5);
350	Trigger->GetYaxis()->CenterTitle();
351	Trigger->GetYaxis()->SetLabelSize(0.05);
352	Trigger->GetXaxis()->CenterTitle();
353	Trigger->GetXaxis()->SetTitleSize(0.05);
354	Trigger->GetXaxis()->SetLabelSize(0.05);
355	Trigger->GetXaxis()->SetTitle("OBT (ms)");
356	Trigger->SetMinimum(0.);
357	Trigger->Draw("9p0");
358
359	triggerCanv->cd(3);
360	Triggercut->SetStats(kFALSE);
361	Triggercut->SetMarkerStyle(21);
362	Triggercut->SetMarkerSize(.7);
363	Triggercut->SetMarkerColor(4);
364	Triggercut->GetYaxis()->SetTitle("Number of Neutrons");
365	Triggercut->GetYaxis()->SetTitleSize(0.06);
366	Triggercut->GetYaxis()->SetTitleOffset(.5);
367	Triggercut->GetYaxis()->CenterTitle();
368	Triggercut->GetYaxis()->SetLabelSize(0.05);
369	Triggercut->GetXaxis()->CenterTitle();
370	Triggercut->GetXaxis()->SetTitleSize(0.05);
371	Triggercut->GetXaxis()->SetTitleOffset(1);
372	Triggercut->GetXaxis()->SetLabelSize(0.05);
373	Triggercut->GetXaxis()->SetTitle("OBT (ms)");
374	Triggercut->Draw("9p");
375
376	//************************ to save canvas ****************************************//
377
378	if (outDir == "") {
379	oss1.str("");
380	oss2.str("");
381	oss3.str("");
382	oss1 << filename.Data() << "." << format.Data();
383	oss2 << filename.Data() << "." << format.Data();
384	oss3 << filename.Data() << "." << format.Data();
385	} else {
386	oss1.str("");
387	oss2.str("");
388	oss3.str("");
389	oss1 << outDir.Data() << filename.Data() << "_ND_QL_1." << format.Data();
390	oss2 << outDir.Data() << filename.Data() << "_ND_QL_2." << format.Data();
391	oss3 << outDir.Data() << filename.Data() << "_ND_QL_3." << format.Data();
392	}
393
394	finalCanv->SaveAs(oss2.str().c_str());
395	histoCanv->SaveAs(oss1.str().c_str());
396	triggerCanv->SaveAs(oss3.str().c_str());
397
398	file->Close();
399
400	}
401
402	int main(int argc, char* argv[]){
403	TString path;
404	TString outDir ="./";
405	TString format ="jpg";
406	ULong_t DeltaT =1000;//era 1000
407	Double_t DeltaTevtime =5;
408
409	if (argc < 2){
410	printf("You have to insert at least the file to analyze \n");
411	printf("Try '--help' for more information. \n");
412	exit(1);
413	}
414	if (!strcmp(argv[1], "--help")){
415	printf( "Usage: ND_QL FILE [OPTION] \n");
416	printf( "\t --help Print this help and exit \n");
417	printf( "\t -outDir[path] Path where to put the output [default ./] \n");
418	printf( "\t -format[jpg\|gif\|ps] Format for output files [default 'jpg'] \n");
419	printf( "\t -DeltaT Time interval to bin histograms in ms [default = 1000ms] \n");
420	printf( "\t -DeltaTevtime Time interval to control time evolution of acquired data in minute [default = 5 min.] \n");
421	exit(1);
422	}
423	path=argv[1];
424	for (int i = 2; i < argc; i++){
425	if (!strcmp(argv[i], "-outDir")){
426	if (++i >= argc){
427	printf( "-outDir needs arguments. \n");
428	printf( "Try '--help' for more information. \n");
429	exit(1);
430	}
431	else{
432	outDir = argv[i];
433	continue;
434	}
435	}
436	if (!strcmp(argv[i], "-format")){
437	if (++i >= argc){
438	printf( "-format needs arguments. \n");
439	printf( "Try '--help' for more information. \n");
440	exit(1);
441	}
442	else{
443	format = argv[i];
444	continue;
445	}
446	}
447	if (!strcmp(argv[i], "-DeltaT")){
448	if (++i >= argc){
449	printf( "-DeltaT needs arguments. \n");
450	printf( "Try '--help' for more information. \n");
451	exit(1);
452	}
453	else{
454	DeltaT = atol(argv[i]);
455	continue;
456	}
457	}
458	if (!strcmp(argv[i], "-DeltaTevtime")){
459	if (++i >= argc){
460	printf( "-DeltaTevtime needs arguments. \n");
461	printf( "Try '--help' for more information. \n");
462	exit(1);
463	}
464	else{
465	DeltaTevtime = atof(argv[i]);
466	continue;
467	}
468	}
469	}
470
471	ND_QL(argv[1], outDir, format, DeltaT, DeltaTevtime);
472	}
473
474