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  1. #include "TROOT.h"
  2. #include "TFile.h"
  3. #include "TBenchmark.h"
  4. #include "TH1F.h"
  5. #include "TH2F.h"
  6. #include "TCanvas.h"
  7. #include "TStyle.h"
  8. #include "TPad.h"
  9. #include "TF1.h"
  10. #include "TGraph.h"
  11. #include "TSpectrum.h"
  12. #include "stdio.h"
  13.  
  14. #include "include/RTUtil.h"
  15.  
  16. double getNoise(TH2F*, int, int);
  17.  
  18. int sipm(char filename[256] = "test", char plopt[256]="all", int chXstart=0, int chXend=7, int chYstart=0, int chYend=7, bool debug = false)
  19. {
  20.   const int c_nChannels = 64;
  21.   const double c_xOffset = 0; // mm
  22.   const double c_yOffset = 0;
  23.  
  24.   int map[8][8]={{32,34,53,55,40,42,61,63},
  25.                  {48,50,37,39,56,58,45,47},
  26.                  {33,35,52,54,41,43,60,62},
  27.                  {49,51,36,38,57,59,44,46},
  28.                  {17,19,4,6,25,27,12,14},
  29.                  {1,3,20,22,9,11,28,30},
  30.                  {16,18,5,7,24,26,13,15},
  31.                  {0,2,21,23,8,10,29,31}
  32.                 };
  33.  
  34.   char fnameroot[256];
  35.   TFile* rootfile;
  36.         sprintf(fnameroot, "root/%s.root", filename);
  37.         rootfile = (TFile *) gROOT->FindObject(filename);
  38.         if(rootfile==NULL) rootfile = new TFile(fnameroot);
  39.         if(rootfile==NULL) {
  40.           printf("Cannot open root file %s!!!\n",fnameroot);
  41.           return(0);
  42.         }
  43.  
  44.         // set draw style
  45.         RTSetStyle(gStyle);
  46.  
  47.   if( strstr(plopt, "all") != NULL ) {
  48.     TCanvas *canvas2 = new TCanvas("canvas2","Hits x;;",2000,2000);
  49.     TCanvas *canvas3 = new TCanvas("canvas3","Hits y;;",2000,2000);
  50.     canvas2->Divide(8,8);
  51.     canvas3->Divide(8,8);
  52.     TH1F* h_hitsx;
  53.     TH1F* h_hitsy;
  54.     for(int i=0; i<c_nChannels; i++) {
  55.       canvas2->cd(i+1);
  56.       char hname[128];
  57.       sprintf(hname, "hnhitsx%d", i);
  58.       h_hitsx = (TH1F*)rootfile->Get(hname);
  59.       h_hitsx->Draw();
  60.       canvas3->cd(i+1);
  61.       sprintf(hname, "hnhitsy%d", i);
  62.       h_hitsy = (TH1F*)rootfile->Get(hname);
  63.       h_hitsy->Draw();  
  64.     }
  65.   }
  66.  
  67.   if( strstr(plopt, "x") != NULL ) {
  68.     TCanvas *canvas10 = new TCanvas("canvas10","Ch x;;",500,500);
  69.     TH1F* h_hitsx;
  70.     canvas10->cd();
  71.     char hname[128];
  72.     sprintf(hname, "hnhitsx%d", chXstart);
  73.     h_hitsx = (TH1F*)rootfile->Get(hname);
  74.     h_hitsx->Draw();
  75.   }
  76.  
  77.   if( strstr(plopt, "y") != NULL ) {
  78.     TCanvas *canvas11 = new TCanvas("canvas11","Ch x;;",500,500);
  79.     TH1F* h_hitsy;
  80.     canvas11->cd();
  81.     char hname[128];
  82.     sprintf(hname, "hnhitsy%d", chXstart);
  83.     h_hitsy = (TH1F*)rootfile->Get(hname);
  84.     h_hitsy->Draw();
  85.   }
  86.  
  87.   if( strstr(plopt, "share") != NULL ) {
  88.    /*TCanvas *canvas4 = new TCanvas("canvas1","canvas1",1000,1000);
  89.    int nChannels = chYend-chYstart+1;
  90.    int ncols = nChannels/2;
  91.    printf("nch %d nch\\2 %d\n", nChannels, ncols);
  92.    canvas4->Divide(2,ncols);
  93.    TH1F* h_hitsy;
  94.    for(int i=chYstart; i<=chYend; i++){
  95.      canvas4->cd(i-chYstart+1);
  96.      char hname[128];
  97.      int chPosition = map[0][i];
  98.      sprintf(hname, "hnhitsy%d", chPosition);
  99.      h_hitsy = (TH1F*)rootfile->Get(hname);
  100.      h_hitsy->Draw();
  101.    }*/
  102.    
  103.    TCanvas *canvas4 = new TCanvas("canvas4","canvas4",500,500);
  104.    canvas4->cd();
  105.    for(int i=chXstart; i<=chXend; i++) {
  106.      TH1F* h_hitsx;
  107.      char hname[128];
  108.      int chPosition = map[i][chYstart];
  109.      sprintf(hname, "hnhitsx%d", chPosition);
  110.      h_hitsx = (TH1F*)rootfile->Get(hname);
  111.      h_hitsx->SetTitle("Scan X;x [mm]; Entries");
  112.      h_hitsx->GetYaxis()->SetTitleOffset(1.3);
  113.      h_hitsx->SetStats(0);
  114.      if (i == chXstart)
  115.       h_hitsx->Draw();
  116.      else {
  117.       h_hitsx->SetLineColor(i+1);
  118.       h_hitsx->Draw("same");
  119.      }
  120.    }
  121.    //sprintf(fullname, "ps/%s_Yshare.eps", filename);
  122.          //canvas4->SaveAs(fullname);
  123.    
  124.    TCanvas *canvas5 = new TCanvas("canvas5","canvas5",500,500);
  125.    canvas5->cd();
  126.    for(int i=chYstart; i<=chYend; i++) {
  127.      TH1F* h_hitsy;
  128.      char hname[128];
  129.      int chPosition = map[chXstart][i];
  130.      sprintf(hname, "hnhitsy%d", chPosition);
  131.      h_hitsy = (TH1F*)rootfile->Get(hname);
  132.      h_hitsy->SetTitle("Scan Y;y [mm]; Entries");
  133.      h_hitsy->GetYaxis()->SetTitleOffset(1.3);
  134.      h_hitsy->SetStats(0);
  135.      if (i == chYstart)
  136.       h_hitsy->Draw();
  137.      else {
  138.       h_hitsy->SetLineColor(i+1);
  139.       h_hitsy->Draw("same");
  140.      }
  141.    }
  142.    //sprintf(fullname, "ps/%s_Yshare.eps", filename);
  143.          //canvas5->SaveAs(fullname);
  144.   }
  145.  
  146.   /** Draw one channel in x and y
  147.     * Without and with the noise subtraction
  148.     */
  149.   if (strstr(plopt, "noise") != NULL) {
  150.     TCanvas *canvas51 = new TCanvas("canvas51","canvas51",500,500);
  151.     canvas51->cd();
  152.    
  153.     // Get the filled histogram from scan
  154.     TH1F* h_x;
  155.     char name[32];
  156.     sprintf(name, "hnhitsx%d", chXstart);
  157.     h_x = (TH1F*)rootfile->Get(name);
  158.     h_x->DrawCopy();
  159.    
  160.     TH1F* h_y;
  161.     sprintf(name, "hnhitsy%d", chXstart);
  162.     h_y = (TH1F*)rootfile->Get(name);
  163.    
  164.     // Create and fill corrected histogram
  165.     Int_t binsX = h_x->GetXaxis()->GetNbins();
  166.     if(debug) printf("nBins: %d\n", binsX);
  167.     //Double_t xLowUser  = h_x->GetXaxis()->GetBinLowEdge(1);
  168.     //Double_t xUpUser = h_x->GetXaxis()->GetBinUpEdge(binsX);
  169.     Double_t xLowUser = h_x->GetXaxis()->GetXmin();
  170.     Double_t xUpUser = h_x->GetXaxis()->GetXmax();
  171.     TH1F* h_xCorrected = new TH1F("h_xCorrected",";;",binsX, xLowUser, xUpUser);
  172.     if (debug) printf("xLow %f xUp %f\n",xLowUser,xUpUser);
  173.     double noise = h_x->GetBinContent(2);
  174.     for (int jk = 0; jk < binsX; jk++) {
  175.       double signal = h_x->GetBinContent(jk+1);
  176.       signal -= noise;
  177.       double x = h_x->GetXaxis()->GetBinCenter(jk+1);
  178.       h_xCorrected->Fill(x, signal);
  179.     }
  180.     h_xCorrected->SetLineColor(2);
  181.     h_xCorrected->DrawCopy("same");
  182.    
  183.     //Create and fill corrected histogram
  184.     Int_t binsY = h_y->GetXaxis()->GetNbins();
  185.     Double_t yLowUser = h_y->GetXaxis()->GetXmin();
  186.     Double_t yUpUser = h_y->GetXaxis()->GetXmax();
  187.     TH1F* h_yCorrected = new TH1F("h_yCorrected",";;",binsY, yLowUser, yUpUser);
  188.     noise = h_y->GetBinContent(2);
  189.     for (int jk = 0; jk < binsY; jk++) {
  190.       double signal = h_y->GetBinContent(jk+1);
  191.       signal -= noise;
  192.       double x = h_y->GetXaxis()->GetBinCenter(jk+1);
  193.       h_yCorrected->Fill(x, signal);
  194.     }
  195.     TCanvas *canvas52 = new TCanvas("canvas52","canvas52",500,500);
  196.     canvas52->cd();
  197.     h_y->DrawCopy();
  198.     h_yCorrected->SetLineColor(2);
  199.     h_yCorrected->DrawCopy("same");
  200.   }
  201.  
  202.   /** Draws the signal from 8 channels in x-row
  203.     * for one specific y bin, so the background and cross-talk
  204.     * can be estimated.
  205.     * Draws also a 2d scan of these channels.
  206.     */
  207.   if (strstr(plopt, "line") != NULL) {
  208.     TCanvas* canvas6 = new TCanvas("canvas6","canvas6",500,500);
  209.     canvas6->cd(0);
  210.     gStyle->SetOptStat(0);
  211.    
  212.     TH2F* h0 = (TH2F*) rootfile->Get("h2d0");
  213.           Int_t binsX = h0->GetXaxis()->GetNbins();
  214.     Int_t minX  = h0->GetXaxis()->GetFirst();
  215.     Int_t maxX  = h0->GetXaxis()->GetLast()+1;
  216.     Int_t binsY = h0->GetYaxis()->GetNbins();
  217.     Int_t minY  = h0->GetYaxis()->GetFirst();
  218.     Int_t maxY  = h0->GetYaxis()->GetLast()+1;
  219.     Double_t xLowUser  = h0->GetXaxis()->GetBinLowEdge(minX);
  220.     Double_t xUpUser = h0->GetXaxis()->GetBinUpEdge(maxX);
  221.     Double_t yLowUser  = h0->GetYaxis()->GetBinLowEdge(minY);
  222.     Double_t yUpUser = h0->GetYaxis()->GetBinUpEdge(maxY);
  223.     if (debug) printf("xLow %f xUp %f\n",xLowUser,xUpUser);
  224.    
  225.     //! 1-dimension position in x vs. hits
  226.     TH2F* h[8];
  227.     TH1F* h_line[8];
  228.     for(int j=0; j<8; j++) {
  229.       h_line[j] = new TH1F("h_line", "h_line", binsX, xLowUser, xUpUser);
  230.     }
  231.    
  232.     for(int j=chXstart; j<=chXend; j++) {
  233.       int chPosition = map[j][chYstart];
  234.       char hname[128];
  235.       sprintf(hname, "h2d%d", chPosition);  
  236.       int histogram = j;
  237.       h[histogram] = (TH2F *) rootfile->Get(hname);
  238.       int noise = getNoise(h[histogram], 1, 160);
  239.       for(int k=minX; k<=maxX; k++) {
  240.         int l=chYstart*20+12;
  241.         //for(int l=12; l<=16; l++) {
  242.           double signal = h[histogram]->GetBinContent(k,l);
  243.           //signal -= noise;
  244.           //signal /= 5*10000.0;
  245.           double eta = -log(1 - signal);
  246.           double x = xLowUser + k*(xUpUser-xLowUser)/double(binsX);
  247.           //double y = l*(yUpUser-yLowUser)/double(binsY);
  248.           h_line[j]->Fill(x-c_xOffset, signal);
  249.         //}
  250.       }
  251.       if (j == chXstart) {
  252.         h_line[j]->SetTitle("SiPM#2 w/o noise subtraction;x[mm];Hits");
  253.         //h_line[j]->GetYaxis()->SetRangeUser(-0.05, 0.3);
  254.         //h_line[j]->GetYaxis()->SetRangeUser(-50, 2500);
  255.         h_line[j]->Draw("");
  256.       }
  257.       else {
  258.         h_line[j]->SetLineColor(j+1);
  259.         h_line[j]->Draw("same");
  260.       }
  261.     }
  262.    
  263.    
  264.     //! 2d scan
  265.     TCanvas* canvas61 = new TCanvas("canvas61","canvas61",8*200,300);
  266.     canvas61->cd();
  267.     TH2F* h_corrected = new TH2F("h_corrected","h_corrected",binsX,xLowUser,xUpUser, binsY,yLowUser,yUpUser);
  268.     for(int i=chXstart; i<=chXend; i++) {
  269.       //int canvasPosition = nX*(i-chYstart)+(j-chXstart)+1;
  270.       //int canvasPosition = nX*(chYend-i)+chXstart+1;
  271.       //if (debug) printf("canvas %d\n",canvasPosition);
  272.         int chPosition = map[i][chYstart];
  273.         char hname[128];
  274.               sprintf(hname, "h2d%d", chPosition);  
  275.               int histogram = i;
  276.               h[histogram] = (TH2F *) rootfile->Get(hname);
  277.               int noise = getNoise(h[histogram], 1, 100);
  278.              
  279.               for(int k=minX; k<=maxX; k++) {
  280.           for(int l=minY; l<=maxY; l++) {
  281.             int signal = h[histogram]->GetBinContent(k,l); // detected
  282.             //p /= 10000.;
  283.             //double p0 = 1.0 - p; // events with zero photons
  284.             //double eta = (-log(p0) * p0 ) / (1-p0-0.00001);
  285.             //double eta = -log(p0);
  286.             //printf("p=%f p0=%f log(p0)=%f eta=%f\n",p,p0,log(p0),eta);      
  287.             //double signal = ((p - noise) > 0.1) ? (p-noise) : 0.1;
  288.             double p = signal - noise;
  289.             p /= 10000.0;
  290.             double eta = -log(1 - p);
  291.             //double x = k*(xUpUser-xLowUser)/double(binsX);
  292.             //double y = l*(yUpUser-yLowUser)/double(binsY);
  293.             double x = h[histogram]->GetXaxis()->GetBinCenter(k);
  294.             double y = h[histogram]->GetYaxis()->GetBinCenter(l);
  295.             h_corrected->Fill(x-c_xOffset, y-c_yOffset, eta);
  296.           }
  297.         }
  298.     }
  299.     h_corrected->SetTitle("SiPM#2 n_pe = - ln(P0);x[mm];y[mm]");
  300.     h_corrected->GetZaxis()->SetRangeUser(-0.05,0.30);
  301.     h_corrected->Draw("colz");
  302.    
  303.   }
  304.  
  305.   /** Draws the sum of the channels
  306.     * Each channel is a 2d plot
  307.     * Intended for the study of 1 channel
  308.     *
  309.     * Input: scanned channel coordinates (x,y)
  310.     */
  311.   if (strstr(plopt, "2d") != NULL) {
  312.    
  313.     int nX = 3;
  314.     int nY = 3;
  315.     TCanvas* canvas7 = new TCanvas("canvas7","canvas7", nX*400,nY*400);
  316.     printf("nx %d ny %d\n",nX,nY);
  317.     canvas7->Divide(nX,nY);
  318.     for(int i=chXend-1; i<=chXend+1; i++) {
  319.       for(int j=chXstart-1; j<=chXstart+1; j++) {
  320.       //int canvasPosition = nX*(i-chYstart)+(j-chXstart)+1;
  321.       int canvasPosition = nX*(chXend+1-i) + (j-chXstart+1) +1;
  322.       if (debug) printf("canvas %d\n",canvasPosition);
  323.         canvas7->cd(canvasPosition);
  324.         char hname[128];
  325.         int chPosition = map[j][i];
  326.         sprintf(hname, "h2d%d", chPosition);
  327.         TH2F* h_2d = (TH2F*)rootfile->Get(hname);
  328.         h_2d->Draw("colz");
  329.       } //x
  330.     }
  331.    
  332.     // Number of photoelectrons - Poissonian correction
  333.     TCanvas* canvas8 = new TCanvas("canvas8","canvas8", 1000,1000);
  334.     canvas8->cd();
  335.     gStyle->SetOptStat(0);
  336.       char hname[128];
  337.       int chPosition = map[chXstart][chXend];
  338.       sprintf(hname, "h2d%d", chPosition);
  339.       TH2F* h_2d = (TH2F*)rootfile->Get(hname);
  340.  
  341.       Int_t binsX = h_2d->GetXaxis()->GetNbins();
  342.       Int_t minX  = h_2d->GetXaxis()->GetFirst();
  343.       Int_t maxX  = h_2d->GetXaxis()->GetLast()+1;
  344.       Int_t binsY = h_2d->GetYaxis()->GetNbins();
  345.       Int_t minY  = h_2d->GetYaxis()->GetFirst();
  346.       Int_t maxY  = h_2d->GetYaxis()->GetLast()+1;
  347.       Double_t xLowUser  = h_2d->GetXaxis()->GetXmin();
  348.       Double_t xUpUser   = h_2d->GetXaxis()->GetXmax();
  349.       Double_t yLowUser  = h_2d->GetYaxis()->GetXmin();
  350.       Double_t yUpUser =   h_2d->GetYaxis()->GetXmax();
  351.       if (debug) printf("xLow %f xUp %f\n",xLowUser,xUpUser);
  352.       TH2F* h_corrected = new TH2F("h_corrected","h_corrected",binsX, xLowUser, xUpUser, binsY, yLowUser, yUpUser);
  353.       //TH2F* h_corrected = new TH2F("h_corrected","h_corrected",binsX, minX, maxX, binsY, minY, maxY);
  354.      
  355.       double noise = getNoise(h_2d, 1, 70);
  356.       if(debug) printf("Noise = %f\n", noise);
  357.       for(int k=minX; k<=maxX; k++) {
  358.         for(int j=minY; j<=maxY; j++) {
  359.           double signal = h_2d->GetBinContent(k,j); // detected
  360.           //double p = ((signal - noise) > 1) ? (signal-noise) : 1;
  361.           double p = signal - noise;
  362.           p /= 10000.;
  363.           double p0 = 1.0 - p; // events with zero photons
  364.           //double eta = (-log(p0) * p0 ) / (1-p0-0.00001);
  365.           double eta = -log(p0); // constant of the poissonian statistics
  366.           if (debug) printf("p=%f p0=%f log(p0)=%f eta=%f\n",p,p0,log(p0),eta);
  367.           //double x = xLowUser + k*(xUpUser - xLowUser) / double(binsX);
  368.           double x = h_2d->GetXaxis()->GetBinCenter(k);
  369.           //double y = yLowUser + j*(yUpUser-yLowUser)/double(binsY);
  370.           double y = h_2d->GetYaxis()->GetBinCenter(j);
  371.           if (debug) printf("x=%f y=%f\n", x, y);
  372.           h_corrected->Fill(x + c_xOffset, y + c_yOffset, eta);
  373.         }
  374.        }
  375.       //h_corrected->SetTitle("n_pe = - ln P(0);x[mm];y[mm]");
  376.       h_corrected->SetTitle(";x[mm];y[mm]");
  377.       h_corrected->GetZaxis()->SetRangeUser(-0.01,0.5);
  378.       h_corrected->SetContour(50);
  379.       h_corrected->Draw("colz");
  380.      
  381.       // collection efficiency
  382.       int nPoints =0;
  383.       double efficiency=0;
  384.       for (int i=18; i<=58; i++) {
  385.         for (int j=19; j<=59; j++) {
  386.           double signal = h_corrected->GetBinContent(i,j);
  387.           if(debug) printf("signal %f\n",signal);
  388.           efficiency += signal;
  389.           nPoints++;
  390.         }
  391.       }  
  392.     printf("Signal sum = %f\n   # of points = %d\n",efficiency,nPoints);
  393.   }
  394.  
  395.   /** Draws the sum of channel signals
  396.     * Each channel is a 2d ('h2d') histogram
  397.     * Suitable for 8x8 chs scan
  398.     */
  399.   if( strstr(plopt, "sum") != NULL ) {
  400.     int nX = chXend - chXstart + 1;
  401.     int nY = chYend - chYstart + 1;
  402.           TCanvas* canvas12 = new TCanvas("canvas12","c2",8*200, 8*200);
  403.           canvas12->cd();
  404.           gStyle->SetOptStat(0);
  405.  
  406.     // final histogram parameters
  407.     TH2F* h0 = (TH2F*) rootfile->Get("h2d0");
  408.           Int_t binsX = h0->GetXaxis()->GetNbins();
  409.     Int_t minX  = h0->GetXaxis()->GetFirst();
  410.     Int_t maxX  = h0->GetXaxis()->GetLast()+1;
  411.     Int_t binsY = h0->GetYaxis()->GetNbins();
  412.     Int_t minY  = h0->GetYaxis()->GetFirst();
  413.     Int_t maxY  = h0->GetYaxis()->GetLast()+1;
  414.     Double_t xLowUser  = h0->GetXaxis()->GetBinLowEdge(minX);
  415.     Double_t xUpUser = h0->GetXaxis()->GetBinUpEdge(maxX);
  416.     Double_t yLowUser  = h0->GetYaxis()->GetBinLowEdge(minY);
  417.     Double_t yUpUser = h0->GetYaxis()->GetBinUpEdge(maxY);
  418.     if (debug) printf("xLow %f xUp %f\n",xLowUser,xUpUser);
  419.     TH2F* h_corrected = new TH2F("h_corrected","h_corrected",binsX,xLowUser,xUpUser, binsY,yLowUser,yUpUser);
  420.     TH2F* h[nX*nY];
  421.    
  422.     // 2d histogram noise subtraction and poisson scaling
  423.     for(int i=chYstart; i<=chYend; i++) {
  424.       for(int j=chXstart; j<=chXend; j++) {
  425.         int chPosition = map[j][i];
  426.         char hname[128];
  427.               sprintf(hname, "h2d%d", chPosition);  
  428.               int histogram = nX*(i-chYstart)+(j-chXstart);
  429.               h[histogram] = (TH2F *) rootfile->Get(hname);
  430.               int noise = getNoise(h[histogram], 1, 170);
  431.               if (debug) printf("noise: %d\n",noise);
  432.               for(int k=minX; k<=maxX; k++) {
  433.           for(int l=minY; l<=maxY; l++) {
  434.             int signal = h[histogram]->GetBinContent(k,l); // detected
  435.             //double p = ((signal - noise) > 0.1) ? (signal-noise) : 0.1;
  436.             double p = signal - noise;
  437.             p /= 10000.;
  438.             double p0 = 1.0 - p; // events with zero photons
  439.             //double eta = (-log(p0) * p0 ) / (1-p0-0.00001);
  440.             double eta = -log(p0);
  441.             //printf("p=%f p0=%f log(p0)=%f eta=%f\n",p,p0,log(p0),eta);
  442.             double x = k*(xUpUser-xLowUser)/double(binsX);
  443.             double y = l*(yUpUser-yLowUser)/double(binsY);
  444.             h_corrected->Fill(x-c_xOffset, y-c_yOffset, eta);
  445.           }
  446.         }    
  447.      
  448.       }
  449.     }
  450.  
  451.     h_corrected->SetTitle("SiPM#2 n_p.e.;x[mm];y[mm]");
  452.     h_corrected->GetZaxis()->SetRangeUser(-0.05,.30);
  453.     h_corrected->Draw("colz");
  454.    
  455.     TCanvas* canvas13 = new TCanvas("canvas13","canvas13",600,300);
  456.     canvas13->Divide(2);
  457.     canvas13->cd(1);
  458.     h[16]->Draw("colz");
  459.     canvas13->cd(2);
  460.     h[8]->Draw("colz");
  461.   }
  462.  
  463.   /** Draws the beam profile and fits it with error function
  464.     * on some background function
  465.     */
  466.   if (strstr(plopt, "beam") != NULL) {
  467.  
  468.   TCanvas* canvas9 = new TCanvas("canvas9","canvas9", 500,500);
  469.   canvas9->cd();
  470.   char hname[128];
  471.   sprintf(hname, "hnhitsx%d", 36);
  472.   TH1F* h_laser = (TH1F*)rootfile->Get(hname);
  473.   h_laser->Draw();
  474.   h_laser->SetStats(1);
  475.  
  476.   TF1* err = new TF1("err","[0]+[1]*TMath::Erf((x-[2])/[3])",17.02,17.30);
  477.   err->SetParameter(0,2500);
  478.   err->SetParameter(1, h_laser->GetMaximum());
  479.   err->SetParameter(2, h_laser->GetBinCenter(h_laser->GetMaximumBin()));
  480.   err->SetParameter(3, 0.001);
  481.   h_laser->Fit(err,"qr");
  482.   h_laser->Fit(err,"lr");
  483.   double sigma = err->GetParameter(3);
  484.   printf("sigma = %2.0f um,     FWHM = %2.0f um\n", sigma*1000, 2.35*sigma*1000);
  485.   }
  486.  
  487.   if (strstr(plopt, "map") != NULL) {
  488.     TCanvas* canvas1 = new TCanvas("canvas1","canvas1",1000,1000);
  489.     canvas1->cd();
  490.     TH2I* h_map = new TH2I("h_map","h_map",8,-0.5,7.5,8,-0.5,7.5);
  491.     for (int i=7; i>=0; i--) {
  492.       //for (int j=7; j>=0; j--) printf("(%d, %d) ", j,i);
  493.       for (int j=7; j>=0; j--) {
  494.         printf("%2d (%d %d)\n", map[j][i], j*10080+5040, i*10080+5040);
  495.         h_map->Fill(j,i, map[j][i]);
  496.       }
  497.       printf("\n");
  498.     }
  499.     gStyle->SetOptStat(0);
  500.     h_map->Draw("text");  
  501.   }
  502.    
  503.   return(0);
  504. }
  505.  
  506. /** Function calculates the noise from one channel
  507.   * it runs through the bins along x and returns the average value
  508.   */
  509. double getNoise(TH2F* histogram, int yStart, int yEnd)
  510. {
  511.   double noise=0;
  512.   int count=0;
  513.   for(int j=yStart; j<yEnd; j++) {
  514.     double value = histogram->GetBinContent(j,2);
  515.     //if (noise < value) noise = value;
  516.     noise += value;
  517.     count++;
  518.     }
  519.   return (noise/double(count));
  520. }
  521.  
  522.