void TPTiming ()
{
    TAxis * ax = TPMatchEmul2D->GetZaxis() ;
    ax->SetRangeUser(-1,6) ;

    TCanvas* canv = new TCanvas("canv", "canv") ;
    canv->SetLogz(0) ;
    gStyle->SetOptStat(10) ;
    int color[10]= {1,10,3,4,5,6,7,8,9,2} ;
    gStyle->SetPalette(7, color) ;
    TPMatchEmul2D->GetXaxis()->SetTitle("Phi index");
    TPMatchEmul2D->GetYaxis()->SetTitle("Eta index");
    TPMatchEmul2D->Draw("colz") ;

    TH2I * label = new TH2I("label", "",72, 1, 73, 38, -19, 19) ;
    label->SetMarkerSize(0.6);
    label->SetBit(kCanDelete);
    for (int x=3 ; x<73 ; x+=4) {
        for (int y=21; y<=37; y++) {
            int towernb = 4*(y-21)+1 ;
            label->SetBinContent(x-1, y, towernb) ; //EB+
            label->SetBinContent(x, 40-y, towernb) ; //EB-
        }
    }
    label->Draw("same text") ;

    TLatex txt;
    txt.SetTextSize(0.02);
    TLine line;
    line.SetLineColor(1) ;
    line.SetLineStyle(1) ;
    line.SetLineWidth(1) ;
    TAxis* xAxis = TPMatchEmul2D->GetXaxis();
    TAxis* yAxis = TPMatchEmul2D->GetYaxis();

    // draw SM borders and numbers
    float sm ;
    for (int i=0; i<36 ; i++ ) {
        if (i<18) {
            sm = 4*i+3 ;
            line.DrawLine(sm, 1, sm, 18) ;
            txt.SetTextAlign(32);
            txt.DrawText(sm-1+0.3, -17.7, Form("-%d",i+1));
        }
        else {
            sm = 4*(i-18)+3 ;
            line.DrawLine(sm, 0, sm, -17) ;
            txt.SetTextAlign(12);
            txt.DrawText(sm-2+0.3, 18.5, Form("+%d",i-17));
        }
    }
    line.DrawLine(1, 0, 73, 0) ;
    line.DrawLine(1, -17, 73, -17) ;
    line.DrawLine(1, 1, 73, 1) ;
    line.DrawLine(1, 18, 73, 18) ;

}
Ejemplo n.º 2
0
void frameViewer(char* arg) {
	//Take the arguments and save them into respective strings
	std::string infileName;
	std::string inF;
	std::string inPrefix;
	std::string runs, layers;
	std::string runCount;
	std::istringstream stm(arg);

	inPrefix = "/home/p180f/Do_Jo_Ol_Ma/Analysis/MainProcedure/testMain/rawRoot/";

	while (true) {	
		if (std::getline(stm, layers, ' ')) {

			//load the input root files
			TChain *chain = new TChain("fourChamTree");

			for (int i=0; ; i++) {
				runCount = std::to_string(i);
				inF = "run" + runCount + "_" + layers + "layers.root";
				infileName = inPrefix + inF;
				ifstream fin;
				fin.open(infileName.c_str());
				if (!fin.fail()) {
					fin.close();
					chain->Add(infileName.c_str());
					std::cout << "Got " << inF << std::endl;
				} else break;
			}

			const int width=480;	//width of the raw image
			const int height=640;	//height of the raw image


			int x=-10;	//x from file
			int y=-10;	//y from file
			int intensity=-10;	//pixle intensity from file
			int pNum=0;//a counter of the order in which the frame was processed

			//the 2d array which will store each frame of image data.
			int frame[480][640]={0};

			//variables
			int UNIXtime=0;
			float tdc[2]={-10,-10};


			//TTree *T = new TTree("T","TTree of muplus data");
			//add the 'branches' to the tree we will now read in
			chain->SetBranchAddress("pNum",&pNum);	//branch for the frame number
			chain->SetBranchAddress("frame",&frame);	//branch for frame data

			TH2I *frameHisto = new TH2I("Single 4 Spark Event","",width,0,width,height,0,height);	//histogram for the stacked images

			TH1I *chamber1 = new TH1I("chamber1","Chamber 1",width,0,width);//histogram for chamber 1 (the top one)
			TH1I *chamber2 = new TH1I("chamber2","Chamber 2",width,0,width);//histogram for chamber 2
			TH1I *chamber3 = new TH1I("chamber3","Chamber 3",width,0,width);//histogram for chamber 3
			TH1I *chamber4 = new TH1I("chamber4","Chamber 4",width,0,width);//histogram for chamber 4 (the bottom one)
			
			TH1I *chamber1y = new TH1I("chamber1y","Chamber 1",height,0,height);//histogram for chamber 1 (the top one)
			TH1I *chamber2y = new TH1I("chamber2y","Chamber 2",height,0,height);//histogram for chamber 2
			TH1I *chamber3y = new TH1I("chamber3y","Chamber 3",height,0,height);//histogram for chamber 3
			TH1I *chamber4y = new TH1I("chamber4y","Chamber 4",height,0,height);//histogram for chamber 4 (the bottom one)

			//output the plot of the stacked images
		
			TCanvas *fH2 = new TCanvas("fH2", "Single 4 Spark Event", 0, 0, 800, 800);
			fH2->cd();
			frameHisto->Draw();
			frameHisto->GetXaxis()->SetTitle("X position (px)");
			frameHisto->GetXaxis()->CenterTitle();

			frameHisto->GetYaxis()->SetTitle("Intensity");
			frameHisto->GetYaxis()->SetTitleOffset(1.4);
			frameHisto->GetYaxis()->CenterTitle();

			TCanvas *pc2 = new TCanvas("pc2","Frame",0,0,800,800);
			
			pc2->Divide(2,2);
			
			pc2->cd(1);
			chamber1->Draw();
			chamber1->GetXaxis()->SetTitle("X position (px)");
			chamber1->GetXaxis()->CenterTitle();

			chamber1->GetYaxis()->SetTitle("Intensity");
			chamber1->GetYaxis()->SetTitleOffset(1.4);
			chamber1->GetYaxis()->CenterTitle();

			pc2->cd(2);
			chamber2->Draw();
			chamber2->GetXaxis()->SetTitle("X position (px)");
			chamber2->GetXaxis()->CenterTitle();

			chamber2->GetYaxis()->SetTitle("Intensity");
			chamber2->GetYaxis()->SetTitleOffset(1.4);
			chamber2->GetYaxis()->CenterTitle();

			pc2->cd(3);
			chamber3->Draw();
			chamber3->GetXaxis()->SetTitle("X position (px)");
			chamber3->GetXaxis()->CenterTitle();

			chamber3->GetYaxis()->SetTitle("Intensity");
			chamber3->GetYaxis()->SetTitleOffset(1.4);
			chamber3->GetYaxis()->CenterTitle();

			pc2->cd(4);
			chamber4->Draw();
			chamber4->GetXaxis()->SetTitle("X position (px)");
			chamber4->GetXaxis()->CenterTitle();

			chamber4->GetYaxis()->SetTitle("Intensity");
			chamber4->GetYaxis()->SetTitleOffset(1.4);
			chamber4->GetYaxis()->CenterTitle();

			//TFile myF("trackTree.root","RECREATE");
			

			//loop over all data in chain
			Int_t nevent = chain->GetEntries();	//get the number of entries in the TChain
			for (Int_t i=0;i<nevent;i++) {
				chain->GetEntry(i);

				//put the frame data into the histogram for this event
				for(int x=0;x<width;x++){
					for(int y=0;y<height;y++){
						if(frame[x][y]>0){
							frameHisto->Fill(x,y,frame[x][y]);
							if(y>580 && y<610){
								chamber1->Fill(x,frame[x][y]);
								chamber1y->Fill(y,frame[x][y]);
							}
							else if(y>400 && y<440){
								chamber2->Fill(x,frame[x][y]);
								chamber2y->Fill(y,frame[x][y]);
							}
							else if(y>240 && y<280){
								chamber3->Fill(x,frame[x][y]);
								chamber3y->Fill(y,frame[x][y]);
							}
							else if(y>50 && y<100){
								chamber4->Fill(x,frame[x][y]);
								chamber4y->Fill(y,frame[x][y]);
							}
						}	
					}
				}

				double x12[2];
				double y12[2];
				double x34[2];
				double y34[2];

				x12[0] = chamber1->GetMean();
				y12[0] = chamber1y->GetMean();			//593.3;
				x12[1] = chamber2->GetMean();
				y12[1] = chamber2y->GetMean();			//424.7;
				x34[0] = chamber3->GetMean();
				y34[0] = chamber3y->GetMean();			//262.5;
				x34[1] = chamber4->GetMean();
				y34[1] = chamber4y->GetMean();			//69.33;

				cout << "Chamber1x: " << chamber1->GetMean() << endl;
				cout << "Chamber1y: " << chamber1y->GetMean() << endl;
				cout << "Chamber2x: " << chamber2->GetMean() << endl;
				cout << "Chamber2y: " << chamber2y->GetMean() << endl;
				cout << "Chamber3x: " << chamber3->GetMean() << endl;
				cout << "Chamber3y: " << chamber3y->GetMean() << endl;
				cout << "Chamber4x: " << chamber4->GetMean() << endl;
				cout << "Chamber4y: " << chamber4y->GetMean() << endl;

				pc2->cd(1);
				chamber1->Draw();
				gPad->Update();
				
				pc2->cd(2);
				chamber2->Draw();
				gPad->Update();
				
				pc2->cd(3);
				chamber3->Draw();
				gPad->Update();
				
				pc2->cd(4);
				chamber4->Draw();
				gPad->Update();
				
				fH2->cd();
				frameHisto->Draw();
				gPad->Update();

				//wait for user input to advance to next event
				cout << "Frame Number=" << pNum<<endl;
				cout << "Press enter to advance to the next frame" << endl;
				cin.ignore();
				
				//clear the old frame from the histogram
				frameHisto->Reset();
				chamber1->Reset();
				chamber2->Reset();
				chamber3->Reset();
				chamber4->Reset();
			}
		} else break;
	}
}
Ejemplo n.º 3
0
void CsIProj()
{
  TFile *file = new TFile("../root/NZ_55_New.root");
  TFile *gates = new TFile("../gates/zlines.root");
  TFile *gates2 = new TFile("../gates/zlines_new.root");

  ofstream ofile("CsI_55A_New.dat");
  
  TCanvas *mycan = (TCanvas*)gROOT->FindObjectAny("mycan");
  if(!mycan)
    {
      mycan = new TCanvas("mycan","mycan");
      mycan->Divide(1,2);
    }
  
  
  ostringstream outstring;
  string name;
  int p1= 30, p2=50; //+- fit limits up to 2 peaks. May be different.
  int const num_par = 5; //number of peaks times 2(pol1)+3(gaus).
  
  for(int ic =0;ic<56;ic++)
    {
      
      outstring.str("");
      outstring << "dEE/dEE_" << ic;
      name = outstring.str();
      
      mycan->cd(1);
      TH2I *hist = (TH2I*)file->Get(name.c_str());
      hist->Draw("col");  
      hist->GetXaxis()->SetRangeUser(200.,1800.); 
      hist->GetYaxis()->SetRangeUser(5.,50.); 
   
      
      if(ic <16 || ic > 31)
	TCutG *mycut = (TCutG*)gates->Get(Form("Zline_%i_2_4",ic));
      else 
	TCutG *mycut = (TCutG*)gates2->Get(Form("Zline_%i_2_4",ic));
      mycut->Draw();

      file->cd();
      outstring.str("");
      outstring << "CsI/CsIGate/ECsI_" << ic << "_Gate";
      name = outstring.str();
      gPad->SetLogz();

      mycan->cd(2);
      TH1I * proj = (TH1I*)file->Get(name.c_str());
      proj->Draw();
      proj->Rebin(4);
      proj->GetXaxis()->SetRangeUser(700.,1800.);

      mycan->Modified();
      mycan->Update();

      TMarker * mark;
      mark=(TMarker*)mycan->WaitPrimitive("TMarker"); //Get the Background limits
      int bkg_lo = mark->GetX();
      delete mark;  
      mark=(TMarker*)mycan->WaitPrimitive("TMarker");
      int bkg_hi = mark->GetX();
      delete mark;
      mark=(TMarker*)mycan->WaitPrimitive("TMarker"); // Get the 1st peak initial guess
      int peak1 = mark->GetX();
      delete mark;
      
      
      double par[num_par] = {0.};
      double out[num_par] = {0.}; 
      int peak1_lo = peak1 - p1, peak1_hi = peak1 + p1; // Peak center and limits
      
      
      TF1 *l1 = new TF1("l1", "pol1", bkg_lo, bkg_hi);
      TF1 *g1 = new TF1("g1", "gaus", peak1_lo,peak1_hi);
      
      TF1 *total = new TF1("total", "pol1(0)+gaus(2)", bkg_lo,bkg_hi);
      
      proj->Fit(l1,"R");
      proj->Fit(g1,"R+");
      
      l1->GetParameters(&par[0]);
      g1->GetParameters(&par[2]);
      
      total->SetParameters(par);
      proj->Fit(total,"R");
      total->GetParameters(out);
      
      
      ofile << ic << " " << out[3] << endl;
      
      outstring.str("");
      outstring << "55A_" << ic;
      name = outstring.str();
      total->SetName(name.c_str());
      total->Draw("same");
      mycan->Modified();
      mycan->Update();
      
      bool IsGood = 0;

      cout << "Good fit?" << endl;
      cin >> IsGood;
  

      if(IsGood)
	{
      ofile << ic << " " << out[3] << endl;
	}      
      else
	ofile << ic << " " << -1 << endl;      

   

    }
  
  
  return;
}
Ejemplo n.º 4
0
int frameStack2_Mall(char* arg){
	//Take the arguments and save them into respective strings
	std::string infileName, outfileName0, outAllfileName0, outfileName1, outAllfileName1;
	std::string inF, outF0, outF1, outAll0, outAll1;
	std::string inPrefix, outPrefix;
	std::string runs, layers;
	std::string runCount;
	std::istringstream stm(arg);

	inPrefix = "/home/p180f/Do_Jo_Ol_Ma/Analysis/MainProcedure/testMain/rawRoot/";
	outPrefix = "/home/p180f/Do_Jo_Ol_Ma/Analysis/MainProcedure/testMain/images/";

	outAll0 = "sliceXCuts_allLayers.png";
	outAllfileName0 = outPrefix + outAll0;
	std::cout << outAll0 << " created\n";
	outAll1 = "projYCuts_allLayers.png";
	outAllfileName1 = outPrefix + outAll1;
	std::cout << outAll1 << " created\n";

	const int width=480;	//width of the raw image
	const int height=640;	//height of the raw image
	
	TH2I *frameHistoAll = new TH2I("frameHistoAll","Stacked Frames After Edge Cuts",width/4,0,width,height/4,0,height);	//histogram for the stacked images
	TH1I *chamber1All = new TH1I("chamber1All","Chamber 1 After Edge Cuts",width/4,0,width);//histogram for chamber 1 (the top one)
	TH1I *chamber2All = new TH1I("chamber2All","Chamber 2 After Edge Cuts",width/4,0,width);//histogram for chamber 2
	TH1I *chamber3All = new TH1I("chamber3All","Chamber 3 After Edge Cuts",width/4,0,width);//histogram for chamber 3
	TH1I *chamber4All = new TH1I("chamber4All","Chamber 4 After Edge Cuts",width/4,0,width);//histogram for chamber 4 (the bottom one)

	TCanvas *projCAll = new TCanvas("projCAll","",0,0,800,600);
	TCanvas *pc2All = new TCanvas("pc2All", "Stack of 4 Layer Runs", 0, 0, 800, 600);
	
	while (true) {	
		if (std::getline(stm, layers, ' ')) {

			//create the output root file
			outF0 = "sliceXCuts_" + layers + "layers.png";
			outfileName0 = outPrefix + outF0;
			std::cout << outF0 << " created\n";
			outF1 = "projYCuts_" + layers + "layers.png";
			outfileName1 = outPrefix + outF1;
			std::cout << outF1 << " created\n";
			
			//load the input root files
			TChain *chain = new TChain("fourChamTree");

			for (int i=0; ; i++) {
				runCount = std::to_string(i);
				inF = "run" + runCount + "_" + layers + "layers.root";
				infileName = inPrefix + inF;
				ifstream fin;
				fin.open(infileName.c_str());
				if (!fin.fail()) {
					fin.close();
					chain->Add(infileName.c_str());
					std::cout << "Got " << inF << std::endl;
				} else break;
			}


			int x=-10;	//x from file
			int y=-10;	//y from file
			int intensity=-10;	//pixle intensity from file
			int pNum=0;//the order in which the frame was processed

			//the 2d array which will store each frame of image data.
			int frame[480][640]={0};

			//variables
			int UNIXtime=0;
			float tdc[2]={-10,-10};

			//TTree *T = new TTree("T","TTree of muplus data");
			//add the 'branches' to the tree we will now read in
			chain->SetBranchAddress("pNum",&pNum);	//branch for the frame number
			chain->SetBranchAddress("frame",&frame);	//branch for frame data


			TH2I *frameHisto = new TH2I("frameHisto","Stacked Frames After Edge Cuts",width/4,0,width,height/4,0,height);	//histogram for the stacked images
			TH1I *chamber1 = new TH1I("chamber1","Chamber 1 After Edge Cuts",width/4,0,width);//histogram for chamber 1 (the top one)
			TH1I *chamber2 = new TH1I("chamber2","Chamber 2 After Edge Cuts",width/4,0,width);//histogram for chamber 2
			TH1I *chamber3 = new TH1I("chamber3","Chamber 3 After Edge Cuts",width/4,0,width);//histogram for chamber 3
			TH1I *chamber4 = new TH1I("chamber4","Chamber 4 After Edge Cuts",width/4,0,width);//histogram for chamber 4 (the bottom one)

			//loop over all data in chain
			Int_t nevent = chain->GetEntries();	//get the number of entries in the TChain
			for (Int_t i=0;i<nevent;i++) {
				chain->GetEntry(i);
				for(int x=0;x<width;x++){
					for(int y=0;y<height;y++){
						if(frame[x][y]>0){
							frameHisto->Fill(x,y,frame[x][y]);
							frameHistoAll->Fill(x,y,frame[x][y]);
							if(y>580 && y<610){
								chamber1->Fill(x,frame[x][y]);
								chamber1All->Fill(x,frame[x][y]);
							}
							else if(y>400 && y<440){
								chamber2->Fill(x,frame[x][y]);
								chamber2All->Fill(x,frame[x][y]);
							}
							else if(y>240 && y<280){
								chamber3->Fill(x,frame[x][y]);
								chamber3All->Fill(x,frame[x][y]);
							}
							else if(y>50 && y<100){
								chamber4->Fill(x,frame[x][y]);
								chamber4All->Fill(x,frame[x][y]);
							}

						}

					}
				}
				cout << "Stacking frame number " << pNum << "\r";//this overwrites the line every time
			}
			cout << endl;

			//output the plot of the stacked images
			TCanvas *pc2 = new TCanvas("pc2","Stacked Frames",0,0,600,800);
			pc2->cd();
			frameHisto->SetStats(false);
			frameHisto->Draw("colz");
			frameHisto->GetXaxis()->SetTitle("X position (px)");
			//frameHisto->GetXaxis()->SetTitleSize(0.055);
			//frameHisto->GetXaxis()->SetTitleOffset(1.0);
			//frameHisto->GetXaxis()->SetLabelSize(0.055);
			frameHisto->GetXaxis()->CenterTitle();

			frameHisto->GetYaxis()->SetTitle("Y position (px)");
			//frameHisto->GetYaxis()->SetTitleSize(0.055);
			//frameHisto->GetYaxis()->SetTitleOffset(0.9);
			//frameHisto->GetYaxis()->SetLabelSize(0.055);
			frameHisto->GetYaxis()->CenterTitle();
			gPad->Update();
//			pc2->Print("chamberStack.png");//output to a graphics file 

			//plot the projection onto the Y axis (so we can find our cuts in Y to select each chamber)
			TCanvas *projC = new TCanvas("projC","",0,0,800,600);
			projC->cd();
			TH1D *ydist = frameHisto->ProjectionY("ydist");
			ydist->Draw();
			ydist->GetYaxis()->SetTitle("Entries");
			ydist->GetYaxis()->CenterTitle();

			TCanvas *sliceX = new TCanvas("sliceX","",0,0,800,600);

			sliceX->Divide(2,2);
			
			sliceX->cd(1);
			chamber1->Draw();
			chamber1->GetXaxis()->SetTitle("X position (px)");
			chamber1->GetXaxis()->CenterTitle();
			chamber1->GetYaxis()->SetTitle("Y position (px)");
			chamber1->GetYaxis()->CenterTitle();
		//	chamber1->GetYaxis()->SetMaxDigits(2);
			
			sliceX->cd(2);
			chamber2->Draw();
			chamber2->GetXaxis()->SetTitle("X position (px)");
			chamber2->GetXaxis()->CenterTitle();
			chamber2->GetYaxis()->SetTitle("Y position (px)");
			chamber2->GetYaxis()->CenterTitle();
		//	chamber2->GetYaxis()->SetMaxDigits(2);
			
			sliceX->cd(3);
			chamber3->Draw();
			chamber3->GetXaxis()->SetTitle("X position (px)");
			chamber3->GetXaxis()->CenterTitle();
			chamber3->GetYaxis()->SetTitle("Y position (px)");
			chamber3->GetYaxis()->CenterTitle();
		//	chamber3->GetYaxis()->SetMaxDigits(2);
			
			sliceX->cd(4);
			chamber4->Draw();
			chamber4->GetXaxis()->SetTitle("X position (px)");
			chamber4->GetXaxis()->CenterTitle();
			chamber4->GetYaxis()->SetTitle("Y position (px)");
			chamber4->GetYaxis()->CenterTitle();
		//	chamber4->GetYaxis()->SetMaxDigits(2);

			gPad->Update();
			
			projC->Print(outfileName1.c_str());
			sliceX->Print(outfileName0.c_str());

			frameHisto->Reset();	
			chamber1->Reset();
			chamber2->Reset();
			chamber3->Reset();
			chamber4->Reset();
		} else break;
	}
	
	projCAll->cd();
	TH1D *ydistAll = frameHistoAll->ProjectionY("ydist");
	ydistAll->Draw();
	ydistAll->GetYaxis()->SetTitle("Entries");
	ydistAll->GetYaxis()->CenterTitle();
	
	TCanvas *sliceXAll = new TCanvas("sliceXAll","",0,0,800,600);

	sliceXAll->Divide(2,2);
	
	sliceXAll->cd(1);
	chamber1All->Draw();
	chamber1All->GetXaxis()->SetTitle("X position (px)");
	chamber1All->GetXaxis()->CenterTitle();
	chamber1All->GetYaxis()->SetTitle("Y position (px)");
	chamber1All->GetYaxis()->CenterTitle();
//	chamber1->GetYaxis()->SetMaxDigits(2);
	
	sliceXAll->cd(2);
	chamber2All->Draw();
	chamber2All->GetXaxis()->SetTitle("X position (px)");
	chamber2All->GetXaxis()->CenterTitle();
	chamber2All->GetYaxis()->SetTitle("Y position (px)");
	chamber2All->GetYaxis()->CenterTitle();
//	chamber2->GetYaxis()->SetMaxDigits(2);
	
	sliceXAll->cd(3);
	chamber3All->Draw();
	chamber3All->GetXaxis()->SetTitle("X position (px)");
	chamber3All->GetXaxis()->CenterTitle();
	chamber3All->GetYaxis()->SetTitle("Y position (px)");
	chamber3All->GetYaxis()->CenterTitle();
//	chamber3->GetYaxis()->SetMaxDigits(2);
	
	sliceXAll->cd(4);
	chamber4All->Draw();
	chamber4All->GetXaxis()->SetTitle("X position (px)");
	chamber4All->GetXaxis()->CenterTitle();
	chamber4All->GetYaxis()->SetTitle("Y position (px)");
	chamber4All->GetYaxis()->CenterTitle();
//	chamber4->GetYaxis()->SetMaxDigits(2);

	gPad->Update();
	
	projCAll->Print(outAllfileName1.c_str());
	sliceXAll->Print(outAllfileName0.c_str());
	
	pc2All->cd();
	frameHistoAll->SetStats(false);
	frameHistoAll->Draw("colz");
	frameHistoAll->GetXaxis()->SetTitle("X position (px)");
	//frameHisto->GetXaxis()->SetTitleSize(0.055);
	//frameHisto->GetXaxis()->SetTitleOffset(1.0);
	//frameHisto->GetXaxis()->SetLabelSize(0.055);
	frameHistoAll->GetXaxis()->CenterTitle();

	frameHistoAll->GetYaxis()->SetTitle("Y position (px)");
	//frameHisto->GetYaxis()->SetTitleSize(0.055);
	//frameHisto->GetYaxis()->SetTitleOffset(0.9);
	//frameHisto->GetYaxis()->SetLabelSize(0.055);
	frameHistoAll->GetYaxis()->CenterTitle();
	gPad->Update();

	return 0;  
}
Ejemplo n.º 5
0
void* Monitoring::MonitorThread(void* arg){
  
  //std::cout<<"d1"<<std::endl;
  monitor_thread_args* args= static_cast<monitor_thread_args*>(arg);  

  std::string outpath=args->outputpath;
  zmq::socket_t Ireceive (*(args->context), ZMQ_PAIR);
  Ireceive.connect("inproc://MonitorThread");
  
  //  std::vector<CardData*> carddata;

  std::map<int,std::vector<TH1F> > PedTime;
  std::map<int,std::vector<TH1F> > PedRMSTime;
  std::vector<TH1F> rates;
  std::vector<TH1F> averagesize;

  std::vector<TH1I> tfreqplots;
  std::map<int,std::vector<std::vector<float > > > pedpars;
  TCanvas c1("c1","c1",600,400);
  
  
  bool running=true;
  bool init=true;    

  std::vector<PMT> PMTInfo;
  /////////////////// Connect to sql ///////////////////////
//std::cout<<"d2"<<std::endl;

  pqxx::connection *C;
  std::stringstream tmp;
  tmp<<"dbname=annie"<<" hostaddr=127.0.0.1"<<" port=5432" ;
  C=new pqxx::connection(tmp.str().c_str());
  if (C->is_open()) {
    // std::cout << "Opened database successfully: " << C->dbname() << std::endl;
  }
  else {
    std::cout << "Can't open database" << std::endl;
    return false;
  }

  tmp.str("");

  pqxx::nontransaction N(*C);

  tmp<<"select gx,gy,gz,vmecard,vmechannel from pmtconnections order by channel; ";


  /* Execute SQL query */
  pqxx::result R( N.exec( tmp.str().c_str() ));

  //pqxx::result::const_iterator c = R.begin();


  ///////// Fill PMT Info//////////////// 
  for ( pqxx::result::const_iterator c = R.begin(); c != R.end(); ++c) {

    PMT tmp;
    tmp.gx= c[0].as<int>();
    tmp.gy= c[1].as<int>();
    tmp.gz= c[2].as<int>();
    tmp.card= c[3].as<int>();
    tmp.channel= c[4].as<int>()-1;
    PMTInfo.push_back(tmp);
  }

//std::cout<<"d3"<<std::endl;

  
  while (running){
    //std::cout<<"d4"<<std::endl;

    
    zmq::message_t comm;
    Ireceive.recv(&comm);
	
    std::istringstream iss(static_cast<char*>(comm.data()));
    std::string arg1="";
    iss>>arg1;

    //std::cout<<"d5"<<std::endl;
    

    if(arg1=="Data"){

      ////////// Setting up plots/////////
      std::vector<TGraph2D*> mg;
      TH2I EventDisplay ("Event Display", "Event Display", 10, -1, 8, 10, -1, 8);
      TH2I RMSDisplay ("RMS Display", "RMS Display", 10, -1, 8, 10, -1, 8);
      std::vector<TH1F> temporalplots;
      std::vector<TH1I> freqplots;
      CardData* carddata;
      int size=0;
      iss>>size;  
      
      //freqplots.clear();
  //std::cout<<"d6"<<std::endl;
  
      for(int i=0;i<size;i++){
	//std::cout<<"d7"<<std::endl;

	long long unsigned int pointer;
	iss>>std::hex>>pointer;
	
	carddata=(reinterpret_cast<CardData *>(pointer));
	
	if(init){ ////make initial freq  plot and ped vector ped time and ped rms////
	  for(int j=0;j<carddata->channels;j++){
	    std::stringstream tmp;
	    tmp<<"Channel "<<(i*4)+j<<" frequency";
	    TH1I tmpfreq(tmp.str().c_str(),tmp.str().c_str(),10,0,9);
	    tfreqplots.push_back(tmpfreq);

	    tmp.str("");
	    tmp<<"Channel "<<(i*4)+j<<" Pedistal";
	    TH1F tmppedtime(tmp.str().c_str(),tmp.str().c_str(),100,0,99);
	    PedTime[carddata->CardID].push_back(tmppedtime);

	    tmp.str("");
	    tmp<<"Channel "<<(i*4)+j<<" Pedistal RMS";
	    TH1F tmppedrmstime(tmp.str().c_str(),tmp.str().c_str(),100,0,99);
	    PedRMSTime[carddata->CardID].push_back(tmppedrmstime);
	    std::vector<float> tmppedpars;
	    tmppedpars.push_back(0);
	    tmppedpars.push_back(0);
	    pedpars[carddata->CardID].push_back(tmppedpars);
	  }
	  if(i==size-1)init=false;
	}

	//std::cout<<"d8"<<std::endl;

	//	std::cout<<"d1"<<std::endl;

	///////Make temporal plot //////////
	for(int j=0;j<carddata->channels;j++){
	  std::stringstream tmp;
	  tmp<<"Channel "<<(i*4)+j<<" temporal";
	  
	  TH1F temporal(tmp.str().c_str(),tmp.str().c_str(),carddata->buffersize,0,carddata->buffersize-1);
	  long sum=0;

	  //////////Make freq plot///////////////
	  tmp.str("");
	  tmp<<"Channel "<<(i*4)+j<<" frequency";
	  TH1I freq(tmp.str().c_str(),tmp.str().c_str(),200,200,399);

	
	  //  std::cout<<"d2"<<std::endl;

	  //std::cout<<"d9"<<std::endl;

	
	  ///// Calculate sum for event dispkay and fill freq plots /////////


	for(int k=0;k<carddata->buffersize;k++){
	  //std::cout<<"d10"<<std::endl;

	  //	  std::cout<<"i="<<i<<" j="<<j<<std::endl;
	  //std::cout<<"d2.5 "<<(i*4)+j<<" feqplot.size = "<<freqplots.size()<<std::endl;
	  if(carddata->Data[(j*carddata->buffersize)+k]>pedpars[carddata->CardID].at(j).at(0)+(pedpars[carddata->CardID].at(j).at(1)*5))sum+=carddata->Data[(j*carddata->buffersize)+k];  
	  freq.Fill(carddata->Data[(j*carddata->buffersize)+k]);

	  //temporal.SetBinContent(k,carddata->Data[(j*carddata->buffersize)+k]);	      
	}

	freqplots.push_back(freq);
	//////// find pedistall fill ped temporals//////////
	freq.Fit("gaus");
	TF1 *gaus = freq.GetFunction("gaus");
        pedpars[carddata->CardID].at(j).at(0)=(gaus->GetParameter(1));
        pedpars[carddata->CardID].at(j).at(1)=(gaus->GetParameter(2));
	gaus->SetLineColor(j+1);
       
	//std::cout<<"d11"<<std::endl;

	for(int bin=99;bin>0;bin--){
	  PedTime[carddata->CardID].at(j).SetBinContent(bin,PedTime[carddata->CardID].at(j).GetBinContent(bin-1));
	  PedRMSTime[carddata->CardID].at(j).SetBinContent(bin,PedRMSTime[carddata->CardID].at(j).GetBinContent(bin-1));
	}
	PedTime[carddata->CardID].at(j).SetBinContent(0, pedpars[carddata->CardID].at(j).at(0));
	PedRMSTime[carddata->CardID].at(j).SetBinContent(0, pedpars[carddata->CardID].at(j).at(1));

	//////// fill temporal plot/////////
	for(int k=0;k<carddata->buffersize/4;k++){
	  //std::cout<<"d12"<<std::endl;

          //std::cout<<"j*4 = "<<j*4<<std::endl;
          //std::cout<<"(i*BufferSize)+(j*4) = "<<(i*BufferSize)+(j*4)<<std::endl;
          //std::cout<<"i*BufferSize)+(j*4)+(BufferSize/2) = "<<(i*BufferSize)+(j*4)+(BufferSize/2)<<std::endl;
          //std::cout<<"(i*BufferSize)+(j*4)+(BufferSize/2)+1 = "<<(i*BufferSize)+(j*4)+(BufferSize/2)+1<<std::endl;
	  int offset=pedpars[carddata->CardID].at(j).at(0);
          double conversion=2.415/pow(2.0, 12.0);
	  temporal.SetBinContent(k*4,(carddata->Data[(j*carddata->buffersize)+(k*2)]-offset)*conversion);
	  temporal.SetBinContent((k*4)+1,(carddata->Data[(j*carddata->buffersize)+(k*2)+1]-offset)*conversion);
	  temporal.SetBinContent((k*4)+2,(carddata->Data[(j*carddata->buffersize)+(k*2)+(carddata->buffersize/2)]-offset)*conversion);
	  temporal.SetBinContent((k*4)+3,(carddata->Data[(j*carddata->buffersize)+(k*2)+(carddata->buffersize/2)+1]-offset)*conversion);

        }

	//std::cout<<"d13"<<std::endl;

	//std::cout<<"d3"<<std::endl;
	
	temporalplots.push_back(temporal);


	////// find x,y,z fill event display /////////
	int x=-10;
	int z=-10;
	int y=-10;
	for(int pmt=0;pmt<PMTInfo.size();pmt++){
	  //std::cout<<"d4"<<std::endl;

	  if(PMTInfo.at(pmt).card==carddata->CardID && PMTInfo.at(pmt).channel==j){
	    x=PMTInfo.at(pmt).gx;
	    z=PMTInfo.at(pmt).gz;
	    y=PMTInfo.at(pmt).gy;
	    //std::cout<<"d15"<<std::endl;
	  
}
	}

	/*
	int x=(((i*4)+j)%8);
	int y=(floor(((i*4)+j)/8.0));
	if(x==0 && y==0){x=-10;y=-10;}
	if(x==7 && y==0){x=-10;y=-10;}
	if(x==0 && y==7){x=-10;y=-10;}
	if(x==7 && y==7){x=-10;y=-10;}
	if (y>7){x=-10;y=-10;}
	std::cout<<"i="<<i<<" j="<<j<<" (i*4)+j)="<<((i*4)+j)<<" x="<<x<<" y="<<y<<" sum="<<sum<<std::endl;
	EventDisplay.SetBinContent(x+1,y+1,sum);
	//EventDisplay.SetBinContent(((i*4)+j),sum);
	*/
	//std::cout<<"d16"<<std::endl;

	if(x!=-10 && z!=-10){
	  //std::cout<<"d17"<<std::endl;

	  //std::cout<<"gx = "<<x<<" , gz="<<z<<std::endl;
	  EventDisplay.SetBinContent(x+2,z+2,sum);
	  RMSDisplay.SetBinContent(x+2,z+2,gaus->GetParameter(2)*100);

	  //// Attempted 2ne event display ///
	  TGraph2D *dt=new TGraph2D(1);
	  dt->SetPoint(0,x,z,z);
	  dt->SetMarkerStyle(20);
	  //dt->GetXaxis()->SetRangeUser(-1,8);
	  // dt->GetYaxis()->SetRangeUser(-1,8);
	  //dt->GetZaxis()->SetRangeUser(-1,8);
	  mg.push_back(dt);
	}	
	
	}
	
	//std::cout<<"d18"<<std::endl;

	

	///////Find max freq for scaling//////////

	int maxplot=0;
	long maxvalue=0;
	
	//std::cout<<"i="<<i<<" (i*4)="<<(i*4)<<" (i*4)+4="<<(i*4)+4<<" size="<<freqplots.size()<<std::endl;
	for(int j=(i*4);j<(i*4)+4;j++){
	  if (freqplots.at(j).GetMaximum()>maxvalue){
	    //std::cout<<"d19"<<std::endl;
	 
   maxvalue=freqplots.at(j).GetMaximum();
	    maxplot=j;
	  }
	}
	

	//std::cout<<"d20"<<std::endl;

	////////Find current time and plot frewuency plot

	time_t t = time(0);   // get time now
	struct tm * now = localtime( & t );
	std::stringstream title;
	title<<"Card "<<carddata->CardID<<" frequency: "<<(now->tm_year + 1900) << '-' << (now->tm_mon + 1) << '-' <<  now->tm_mday<<','<<now->tm_hour<<':'<<now->tm_min<<':'<<now->tm_sec;
	//std::cout<<"d21"<<std::endl;
	freqplots.at(maxplot).SetTitle(title.str().c_str());
	freqplots.at(maxplot).GetXaxis()->SetTitle("ADC Value");
	freqplots.at(maxplot).GetYaxis()->SetTitle("Frequency");	
	freqplots.at(maxplot).SetLineColor((maxplot%4)+1);
	freqplots.at(maxplot).Draw();
	TLegend leg(0.8,0.4,1.0,0.7);
	//leg.SetHeader("The Legend Title");
	
	//std::cout<<"d22"<<std::endl;
for(int j=(i*4);j<(i*4)+4;j++){
  //std::cout<<"d23"<<std::endl;
	  std::stringstream legend;
	  legend<<"Channel "<<j-(i*4);
	  leg.AddEntry(&freqplots.at(j),legend.str().c_str(),"l");	  
	  freqplots.at(j).SetLineColor((j%4)+1);
	  if(j==maxplot){;}//freqplots.at(i).Draw();                                  
	  else freqplots.at(j).Draw("same");
	  
	}
	leg.Draw();
	//std::cout<<"d24"<<std::endl;
	std::stringstream tmp;
	tmp<<outpath<<carddata->CardID<<"freq.jpg";
	c1.SaveAs(tmp.str().c_str());


	//std::cout<<"d25"<<std::endl;



	///////find max tmporal plot for scaling
	
	///temporal
	maxplot=0;
	maxvalue=0;

	//std::cout<<"i="<<i<<" (i*4)="<<(i*4)<<" (i*4)+4="<<(i*4)+4<<" size="<<freqplots.size()<<std::endl;
        for(int j=(i*4);j<(i*4)+4;j++){
	  //std::cout<<"d26"<<std::endl;
          if (temporalplots.at(j).GetMaximum()>maxvalue){
            maxvalue=temporalplots.at(j).GetMaximum();
            maxplot=j;
          }
        }

	//std::cout<<"d27"<<std::endl;


	//////// Find time and plot temporal plot

	t = time(0);   // get time now
        now = localtime( & t );
	std::stringstream title2;
        title2<<"Card "<<carddata->CardID<<" Temporal: "<<(now->tm_year + 1900) << '-' << (now->tm_mon + 1) << '-' <<  now->tm_mday<<','<<now->tm_hour<<':'<<now->tm_min<<':'<<now->tm_sec;
	//std::cout<<"d28"<<std::endl;
        temporalplots.at(maxplot).SetTitle(title2.str().c_str());
	temporalplots.at(maxplot).GetXaxis()->SetTitle("Samples");
	temporalplots.at(maxplot).GetYaxis()->SetTitle("Volate (V)");
        temporalplots.at(maxplot).SetLineColor((maxplot%4)+1);
        temporalplots.at(maxplot).Draw();
	TLegend leg2(0.8,0.4,1.0,0.7);
	//std::cout<<"d29"<<std::endl;
	for(int j=(i*4);j<(i*4)+4;j++){
	  //std::cout<<"d30"<<std::endl;
	  std::stringstream legend;
	  legend<<"Channel "<<j-(i*4);	  
	  leg2.AddEntry(&temporalplots.at(j),legend.str().c_str(),"l");
	  temporalplots.at(j).SetLineColor((j%4)+1);
	  if(j==0){;}
	  else temporalplots.at(j).Draw("same");

	}
	//std::cout<<"d31"<<std::endl;
	leg2.Draw();
	//std::cout<<"d6"<<std::endl;

	std::stringstream tmp2;
	tmp2<<outpath<<carddata->CardID<<"temporal.jpg";
	c1.SaveAs(tmp2.str().c_str());
	//std::cout<<"d32"<<std::endl;


	///////plotting PED time and ped rms time //////
        maxplot=0;
        maxvalue=0;

      
        for(int j=0;j<4;j++){
          //std::cout<<"d26"<<std::endl;
          if ( PedTime[carddata->CardID].at(j).GetMaximum()>maxvalue){
            maxvalue=PedTime[carddata->CardID].at(j).GetMaximum();
            maxplot=j;
          }
        }

	t = time(0);   // get time now
        now = localtime( & t );
	title2.str("");
        title2<<"Card "<<carddata->CardID<<" Pedistal Variation: "<<(now->tm_year + 1900) << '-' << (now->tm_mon + 1) << '-' <<  now->tm_mday<<','<<now->tm_hour<<':'<<now->tm_min<<':'<<now->tm_sec;
        //std::cout<<"d28"<<std::endl;
        PedTime[carddata->CardID].at(maxplot).SetTitle(title2.str().c_str());
	PedTime[carddata->CardID].at(maxplot).GetXaxis()->SetTitle("Samples");
	PedTime[carddata->CardID].at(maxplot).GetYaxis()->SetTitle("ADC Value");
	PedTime[carddata->CardID].at(maxplot).SetLineColor((maxplot%4)+1);
	PedTime[carddata->CardID].at(maxplot).Draw();
        TLegend leg3(0.8,0.4,1.0,0.7);
        //std::cout<<"d29"<<std::endl;
	for(int j=0;j<4;j++){
          //std::cout<<"d30"<<std::endl;
	  std::stringstream legend;
          legend<<"Channel "<<j;
          leg3.AddEntry(&PedTime[carddata->CardID].at(j),legend.str().c_str(),"l");
	  PedTime[carddata->CardID].at(j).SetLineColor((j%4)+1);
          PedTime[carddata->CardID].at(j).Draw("same");

        }
        //std::cout<<"d31"<<std::endl;
        leg3.Draw();
        //std::cout<<"d6"<<std::endl;

	tmp2.str("");
	tmp2<<outpath<<"plots2/"<<carddata->CardID<<"PedTime.jpg";
	c1.SaveAs(tmp2.str().c_str());



	PedRMSTime[carddata->CardID].at(0).Draw();
	for (int channel=1;channel<4;channel++){
	  PedRMSTime[carddata->CardID].at(channel).Draw("same");
	}
	tmp2.str("");
	tmp2<<outpath<<"plots2/"<<carddata->CardID<<"PedRMSTime.jpg";
	c1.SaveAs(tmp2.str().c_str());

	delete carddata;

	
      } /// size i
      
      /*
      //std::cout<<"d4"<<std::endl;

      int maxplot=0;
      long maxvalue=0;
      for(int i=0;i<freqplots.size();i++){
	if (freqplots.at(i).GetMaximum()>maxvalue){
	  maxvalue=freqplots.at(i).GetMaximum();
	  maxplot=i;
	}
      }

      freqplots.at(maxplot).SetLineColor(maxplot+1);
      freqplots.at(maxplot).Draw();
      for(int i=0;i<freqplots.size();i++){

	//	Double_t scale = 1/freqplots.at(i).GetMaximum();
	//	freqplots.at(i).Scale(scale);
	freqplots.at(i).SetLineColor(i+1);
	if(i==maxplot);//freqplots.at(i).Draw();
	else freqplots.at(i).Draw("same");

	//freqplots.at(i).Scale((1.0/scale));
      }
      std::cout<<"d5"<<std::endl;

      std::stringstream tmp;
      tmp<<outpath<<"freq.jpg";
      c1.SaveAs(tmp.str().c_str());
      
      for(int i=0;i<temporalplots.size();i++){
	temporalplots.at(i).SetLineColor(i+1);
	if(i==0)temporalplots.at(i).Draw();
	else temporalplots.at(i).Draw("same");
	
      }	  

      std::cout<<"d6"<<std::endl;

      std::stringstream tmp2;
      tmp2<<outpath<<"temporal.jpg";
      c1.SaveAs(tmp2.str().c_str());
      */
      //std::cout<<"d33"<<std::endl;


      /////////plot event display /////////

      EventDisplay.Draw("COLZ");
      std::stringstream tmp3;
      tmp3<<outpath<<"0EventDisplay.jpg";
      c1.SaveAs(tmp3.str().c_str());
      

      //std::cout<<"d34 ="<<mg.size()<<std::endl;

/////////plot RMS display /////////
      RMSDisplay.Draw("COLZ");
      tmp3.str("");
      tmp3<<outpath<<"0RMSDisplay.jpg";
      c1.SaveAs(tmp3.str().c_str());

      ///plot  atempted 3d event display///////

      tmp3.str("");
      if(mg.size()>0)      mg.at(0)->Draw();
      for(int plots=1;plots<mg.size();plots++){
	mg.at(plots)->Draw("same");
	//std::cout<<"d35"<<std::endl;
      }
      tmp3<<outpath<<"0EventDisplay3D.jpg";
      //c1.SaveAs(tmp3.str().c_str());





    }
    
    
    
    else if(arg1=="Quit"){
Ejemplo n.º 6
0
Archivo: Zlumi.C Proyecto: cms-ts/Histo
void Zlumi::Loop()
{
//   In a ROOT session, you can do:
//      Root > .L Zlumi.C
//      Root > Zlumi t
//      Root > t.GetEntry(12); // Fill t data members with entry number 12
//      Root > t.Show();       // Show values of entry 12
//      Root > t.Show(16);     // Read and show values of entry 16
//      Root > t.Loop();       // Loop on all entries
//

//     This is the loop skeleton where:
//    jentry is the global entry number in the chain
//    ientry is the entry number in the current Tree
//  Note that the argument to GetEntry must be:
//    jentry for TChain::GetEntry
//    ientry for TTree::GetEntry and TBranch::GetEntry
//
//       To read only selected branches, Insert statements like:
// METHOD1:
//    fChain->SetBranchStatus("*",0);  // disable all branches
//    fChain->SetBranchStatus("branchname",1);  // activate branchname
// METHOD2: replace line
//    fChain->GetEntry(jentry);       //read all branches
//by  b_branchname->GetEntry(ientry); //read only this branch
 
 gROOT->ForceStyle();
        tdrStyle();

  if (fChain == 0) return;

int minRun=0;
int maxRun=0;
int maxLS=0;
bool forminRun=true;


//TH2I * LumiSRun = new TH2I("LumiSRun", "LS vs Run", 3000, 0., 3000., 20000, 160000., 180000.);
//TH1I * test2 = new TH1I("test2","test2", 3000,0, 3000);


Long64_t nentries = fChain->GetEntriesFast();

Long64_t nbytes = 0, nb = 0;
for (Long64_t jentry=0; jentry<nentries;jentry++) {
	Long64_t ientry = LoadTree(jentry);
	if (ientry < 0) break;
	nb = fChain->GetEntry(jentry);   nbytes += nb;


	if(forminRun && (Run!=0)){minRun=Run; forminRun=false;}
	if((Run!=0) && (Run>maxRun)){maxRun=Run;}
	if((LS!=0) && (LS>maxLS)){maxLS=LS;}
	//printf("run %i ls %i \n",Run,LS);
}
cout << nentries << " nentries \n";

TH2I *LumiSRun = new TH2I("LumiSRun", "LS vs Run", maxLS, 0, maxLS, maxRun-minRun+2, minRun-1, maxRun+1);
TH1I *Runs = new TH1I("Runs","Run", maxRun-minRun+2, minRun-1, maxRun+1);
 Runs->Sumw2();
nbytes = 0; nb = 0;
for (Long64_t jentry=0; jentry<nentries;jentry++) {
	Long64_t ientry = LoadTree(jentry);
	if (ientry < 0) break;
	nb = fChain->GetEntry(jentry);   nbytes += nb;

	LumiSRun->Fill(LS,Run);
	//printf("run %i ls %i \n",Run,LS);
	Runs->Fill(Run);
	//test2->Fill(LS);
}
	printf("minRun %i maxRun %i \n",minRun,maxRun);
LumiSRun->Draw();
 for (int h=0;h<Runs->GetNbinsX();h++){
   Runs->SetBinError(h+1,sqrt(Runs->GetBinContent(h+1)) );
 }
Runs->Draw();
//test->Draw();
//test2->Draw();

TH1F *FileRuns = new TH1F("FileRuns","Run from Lumicalc", maxRun-minRun+2, minRun-1, maxRun+1);
TH1D *XsecDistro = new TH1D("XsecDistro","X sec distribution", 60, 0., 0.6);
//-------------
   const Int_t mpt = maxRun-minRun;
   int fileRun[mpt];
   double Lumi[mpt];

   int npt = 0;
   // read data file
   ifstream file;
   //file.open("./2011-run-lumi.txt");
   file.open("./LumiAeB-dav.txt");
   while (1) {

	   file >> fileRun[npt] >> Lumi[npt];
	   if ( ! file.good() ) break;
	   cout << "x = " << fileRun[npt] << " y = " << Lumi[npt] << endl;
	   
	   FileRuns->SetBinContent((fileRun[npt]-minRun+2),0.2);
	   npt++;
   }

   file.close();
   printf("found %d Runs in file \n", npt);

bool flaggg=1;
TH1D *LumiRuns = new TH1D("LumiRuns","Zyield vs Run", maxRun-minRun+2, minRun-1, maxRun+1);
 LumiRuns->Sumw2();
for(int i=0; i<npt;i++){
	for(int j=0;j<maxRun;j++){
		if(fileRun[i]==(minRun+j)){
		  cout << fileRun[i]-minRun+1 <<" "<< ((float)Runs->GetBinContent(j+1))/Lumi[i] <<" "<< Lumi[i] << " matched run \n";
		if(Lumi[i]>0.&&Runs->GetBinContent(j+2)>0.){
			LumiRuns->SetBinContent(fileRun[i]-minRun+2,(((double)Runs->GetBinContent(j+2))/Lumi[i])*1000);
			LumiRuns->SetBinError(fileRun[i]-minRun+2,((TMath::Sqrt((double)Runs->GetBinContent(j+2)))/Lumi[i])*1000);
			XsecDistro->Fill((((double)Runs->GetBinContent(j+2))/Lumi[i])*1000);
		flaggg=false;
		}
		}
		else if(fileRun[i]==(minRun+j) && (Runs->GetBinContent(j+2+1)>0. || Runs->GetBinContent(j+2-1)>0.)) cout << "Son cazzi " << fileRun[i]<<"\n";
	}
	if(flaggg) {
	//cout << " ---------------- \n";
	cout << fileRun[i] << " Run not matched! \n";
	//cout << Runs->GetBinContent(i) <<" " << Runs->GetBinContent(i+1) <<" " << Runs->GetBinContent(i+2) <<" "<< Lumi[i] << " probably not empty \n";
	//if(Lumi[i]>1.e+06) cout << "ALERT THIS ONE IS GOOD \n";
	}
	flaggg=true;
}

TCanvas * Canv = (TCanvas*)gDirectory->GetList()->FindObject("Canv");
if (Canv) delete Canv;
Canv = new TCanvas("Canv","Canv",0,0,800,600);
Canv->cd();
LumiRuns->SetXTitle("Run");
LumiRuns->SetYTitle("#sigma (nb)");
LumiRuns->SetLineColor(kBlack);
LumiRuns->Draw("E1");
Runs->SetLineColor(kRed);
//Runs->Draw("SAMES");
FileRuns->SetLineColor(kBlue);
//FileRuns->Draw("SAMES");
//LumiRuns->Draw("E1 SAMES");
Canv->Print("ratio_zlumi.eps");

TCanvas * Another = (TCanvas*)gDirectory->GetList()->FindObject("Another");
if (Another) delete Another;
Another = new TCanvas("Another","Another",0,0,800,600);
Another->cd();
XsecDistro->SetXTitle("#sigma (nb)");
XsecDistro->SetLineColor(kBlack);
XsecDistro->Draw();
Another->Print("distrib_zsigma.eps");

/*
  //-------------
  // per il momento tengo le due sezioni separate... solo per debuggare meglio...
  //-------------
   const Int_t rpt = 120000;
   int lsRun[rpt];
   float LuSec[rpt];

   npt = 0;
   // read data file
   ifstream in;
   in.open("./2011-LS.txt");
   while (1) {

	   in >> lsRun[npt] >> LuSec[npt];
	   if ( ! in.good() ) break;
	   //cout << "x = " << fileRun[npt] << " y = " << Lumi[npt] << endl;
	   npt++;
   }

   in.close();
   printf("found %d LS\n", npt);
*/
}