JFCalibration/JFMC_DirectBeamScan.cpp

#include "/afs/psi.ch/project/mythen/sophie/sls_detector_calibration/jungfrauCommonHeader.h"
#include "/afs/psi.ch/project/mythen/sophie/sls_detector_calibration/jungfrauCommonFunctions.h"

#include "/afs/psi.ch/project/mythen/sophie/sls_detector_calibration/jungfrauFile.C"
#include "/afs/psi.ch/project/mythen/sophie/sls_detector_calibration/jungfrauPixelMask.C"
#include "/afs/psi.ch/project/mythen/sophie/sls_detector_calibration/jungfrauPedestal.C"

#include "TGraph.h"
#include "TGraphErrors.h"
#include "TF1.h"
#include "TFile.h"

int main(int argc, char* argv[]) {
  jungfrauStyle();

  if (argc != 5) {
    cout << "Correct usage:" << endl;
    cout << "arg 1: specify module number" << endl;
    cout << "arg 2: specify data location" << endl;
    cout << "arg 3: specify pede file" << endl;
    cout << "arg 4: specify data file" << endl;
    cout << "eg: ./JFMC_DirectBeamScan 006 /data_pool/Module_006_161116 100us_500Hz_QS_allgain_pede_1055 100us_500Hz_QS_beam_scan_a" << endl;
    cout << " " << endl;
    exit(1);
  }

  string module_str = argv[1];
  string data_loc = argv[2];
  string pede_file = argv[3];
  string data_file = argv[4];

  jungfrauFile *thisfile = new jungfrauFile();

  jungfrauPixelMask *pixelMaskObject = new jungfrauPixelMask();
  static int pixel_mask [NCH];

  jungfrauPedestal *pedestalObject = new jungfrauPedestal();
  pedestalObject->pedestalSetNFrames(1000); // using 1000 frames, rolling window

  TH2F* pedestalsG0 = new TH2F("pedestalsG0","",NC,-0.5,NC-0.5,NR,-0.5,NR-0.5);
  TH2F* pedestalsG1 = new TH2F("pedestalsG1","",NC,-0.5,NC-0.5,NR,-0.5,NR-0.5);
  TH2F* pedestalsG2 = new TH2F("pedestalsG2","",NC,-0.5,NC-0.5,NR,-0.5,NR-0.5);

  TH2F* pedeRMSG0 = new TH2F("pedeRMSG0","",NC,-0.5,NC-0.5,NR,-0.5,NR-0.5);
  TH2F* pedeRMSG1 = new TH2F("pedeRMSG1","",NC,-0.5,NC-0.5,NR,-0.5,NR-0.5);
  TH2F* pedeRMSG2 = new TH2F("pedeRMSG2","",NC,-0.5,NC-0.5,NR,-0.5,NR-0.5);

  char savename[128];

  int createHistoFile = 0;

  // open pede file
  sprintf(savename,"%s/%s_%%6.6d.dat", data_loc.c_str(), pede_file.c_str());
  thisfile->open((char*)savename, 0);

  // calculate pixel mask
  pixelMaskObject->initialisePixelMask(pixel_mask);
  if (module_str == "028") {
    pixelMaskObject->maskChip(1, pixel_mask);
    pixelMaskObject->maskChip(2, pixel_mask);
    pixelMaskObject->maskChip(5, pixel_mask);
    pixelMaskObject->maskChip(6, pixel_mask);
  } else if (module_str == "006") {
    pixelMaskObject->maskChip(6, pixel_mask);
    pixelMaskObject->maskSupercolumn(4,1, pixel_mask);
    pixelMaskObject->maskSupercolumn(4,2, pixel_mask);
  }

  int nevents = 0;
  while (thisfile->readNextFrame()) {
    nevents++;
  }
  thisfile->rewind();
  cout << "read " << nevents << " events" << endl;

  for (int i = 0; i < 1000; i++) {
    thisfile->readNextFrame();
    pixelMaskObject->maskIfGainNot(0, thisfile->getFrameDataHandle(), (int*)(&pixel_mask));
  }
  for (int i = 0; i < 1000; i++) {
    thisfile->readNextFrame();
    pixelMaskObject->maskIfGainNot(1, thisfile->getFrameDataHandle(), (int*)(&pixel_mask));
  }
  for (int i = 0; i < 999; i++) {
    thisfile->readNextFrame();
    pixelMaskObject->maskIfGainNot(3, thisfile->getFrameDataHandle(), (int*)(&pixel_mask));
  }
  thisfile->rewind();

  sprintf(savename,"plots/M%s/DirectBeam/pixelmask.png", module_str.c_str());
  pixelMaskObject->plotPixelMask(pixel_mask,savename);
  cout << "after chip mask, n masked pixels is " << pixelMaskObject->getNMasked(pixel_mask) << endl;

  // caluclate pedestals
  for (int i = 0; i < 1000; i++) {
    thisfile->readNextFrame();
    pedestalObject->addFrameToPedestalCalculation(thisfile->getFrameDataHandle());
  }
  for (int i = 0; i < NCH; i++) {
    if (pixel_mask[i] == 1) {
      pedestalsG0->Fill(i%NC,i/NC,pedestalObject->pedestalOfChannel(i));
      pedeRMSG0->Fill(i%NC,i/NC,pedestalObject->rmsOfChannel(i));
    }
  }
  pedestalObject->pedestalClear();

  for (int i = 0; i < 1000; i++) {
    thisfile->readNextFrame();
    pedestalObject->addFrameToPedestalCalculation(thisfile->getFrameDataHandle());
  }
  for (int i = 0; i < NCH; i++) {
    if (pixel_mask[i] == 1) {
      pedestalsG1->Fill(i%NC,i/NC,pedestalObject->pedestalOfChannel(i));
      pedeRMSG1->Fill(i%NC,i/NC,pedestalObject->rmsOfChannel(i));
    }
  }
  pedestalObject->pedestalClear();

  for (int i = 0; i < 999; i++) {
    thisfile->readNextFrame();
    pedestalObject->addFrameToPedestalCalculation(thisfile->getFrameDataHandle());
  }
  for (int i = 0; i < NCH; i++) {
    if (pixel_mask[i] == 1) {
      pedestalsG2->Fill(i%NC,i/NC,pedestalObject->pedestalOfChannel(i));
      pedeRMSG2->Fill(i%NC,i/NC,pedestalObject->rmsOfChannel(i));
    }
  }
  pedestalObject->pedestalClear();

  thisfile->close();
  
  TCanvas *mapcanvas = new TCanvas("mapcanvas","",150,10,800,400);
  mapcanvas->SetLeftMargin(0.1);
  mapcanvas->SetRightMargin(0.13);
  mapcanvas->SetTopMargin(0.08);
  mapcanvas->SetBottomMargin(0.15);

  pedestalsG0->GetXaxis()->SetTitle("Column");
  pedestalsG0->GetYaxis()->SetTitle("Row");
  pedestalsG0->GetYaxis()->SetTitleOffset(0.7);
  pedestalsG0->Draw("colz");
  sprintf(savename,"plots/M%s/DirectBeam/pedeG0.png", module_str.c_str());
  mapcanvas->SaveAs((const char *)(savename));

  pedestalsG1->GetXaxis()->SetTitle("Column");
  pedestalsG1->GetYaxis()->SetTitle("Row");
  pedestalsG1->GetYaxis()->SetTitleOffset(0.7);
  pedestalsG1->Draw("colz");
  sprintf(savename,"plots/M%s/DirectBeam/pedeG1.png", module_str.c_str());
  mapcanvas->SaveAs((const char *)(savename));

  pedestalsG2->GetXaxis()->SetTitle("Column");
  pedestalsG2->GetYaxis()->SetTitle("Row");
  pedestalsG2->GetYaxis()->SetTitleOffset(0.7);
  pedestalsG2->Draw("colz");
  sprintf(savename,"plots/M%s/DirectBeam/pedeG2.png", module_str.c_str());
  mapcanvas->SaveAs((const char *)(savename));

  pedeRMSG0->GetXaxis()->SetTitle("Column");
  pedeRMSG0->GetYaxis()->SetTitle("Row");
  pedeRMSG0->GetYaxis()->SetTitleOffset(0.7);
  pedeRMSG0->GetZaxis()->SetRangeUser(0,25);
  pedeRMSG0->Draw("colz");
  sprintf(savename,"plots/M%s/DirectBeam/pedeRMSG0.png", module_str.c_str());
  mapcanvas->SaveAs((const char *)(savename));

  pedeRMSG1->GetXaxis()->SetTitle("Column");
  pedeRMSG1->GetYaxis()->SetTitle("Row");
  pedeRMSG1->GetYaxis()->SetTitleOffset(0.7);
  pedeRMSG1->GetZaxis()->SetRangeUser(0,15);
  pedeRMSG1->Draw("colz");
  sprintf(savename,"plots/M%s/DirectBeam/pedeRMSG1.png", module_str.c_str());
  mapcanvas->SaveAs((const char *)(savename));

  pedeRMSG2->GetXaxis()->SetTitle("Column");
  pedeRMSG2->GetYaxis()->SetTitle("Row");
  pedeRMSG2->GetYaxis()->SetTitleOffset(0.7);
  pedeRMSG2->GetZaxis()->SetRangeUser(0,15);
  pedeRMSG2->Draw("colz");
  sprintf(savename,"plots/M%s/DirectBeam/pedeRMSG2.png", module_str.c_str());
  mapcanvas->SaveAs((const char *)(savename));

  int npoints = 40; // 2 to 80 in steps of 2

  jungfrauPedestal *pedestalObjectG0 = new jungfrauPedestal();
  pedestalObjectG0->pedestalSetNFrames(1000); // using 1000 frames, rolling window

  jungfrauPedestal *pedestalObjectG1 = new jungfrauPedestal();
  pedestalObjectG1->pedestalSetNFrames(1000); // using 1000 frames, rolling window

  // 2D hist for every point, to save 
  // mean, error and number of fills
  // can be loaded from a file
  TH2F* avg_adc_g0_map [npoints];
  TH2F* avg_adc_g1_map [npoints];
  TH2F* avg_adcer_g0_map [npoints];
  TH2F* avg_adcer_g1_map [npoints];

  // creating the histograms
  if (createHistoFile) {

    for (int j = 0; j < npoints; j++) {
      sprintf(savename,"avg_adc_g0_map_%d", j);
      avg_adc_g0_map[j] = new TH2F(savename,"",NC,-0.5,NC-0.5,NR,-0.5,NR-0.5);
      sprintf(savename,"avg_adc_g1_map_%d", j);
      avg_adc_g1_map[j] = new TH2F(savename,"",NC,-0.5,NC-0.5,NR,-0.5,NR-0.5);
      
      sprintf(savename,"avg_adcer_g0_map_%d", j);
      avg_adcer_g0_map[j] = new TH2F(savename,"",NC,-0.5,NC-0.5,NR,-0.5,NR-0.5);
      sprintf(savename,"avg_adcer_g1_map_%d", j);
      avg_adcer_g1_map[j] = new TH2F(savename,"",NC,-0.5,NC-0.5,NR,-0.5,NR-0.5);
    }

    int nfiles = 4;
    int nframes = 0;
    for (int filei = 0; filei < nfiles; filei++) {
      
      // open data file
      sprintf(savename,"%s/%s_%%6.6d.dat", data_loc.c_str(), data_file.c_str());
      thisfile->open((char*)savename, filei);

      while (thisfile->readNextFrame()) {

	if (module_str == "028") {
	  if (nframes%1000 < 100) { // shutter skip
	    nframes++;
	    continue;
	  }
	}

	pedestalObjectG0->addG0FrameToPedestalCalculation(thisfile->getFrameDataHandle());
	pedestalObjectG1->addG1FrameToPedestalCalculation(thisfile->getFrameDataHandle());

	nframes++;

	if (nframes%1000 == 0) {
	  
	  for (int i = 0; i < NCH; i++) {
	    if (pixel_mask[i] == 1) {
	      
	      avg_adc_g0_map[nframes/1000 -1]->SetBinContent((i%NC)+1,(i/NC)+1,pedestalObjectG0->pedestalOfChannel(i));
	      avg_adcer_g0_map[nframes/1000 -1]->SetBinContent((i%NC)+1,(i/NC)+1,pedestalObjectG0->semOfChannel(i));
	      avg_adc_g1_map[nframes/1000 -1]->SetBinContent((i%NC)+1,(i/NC)+1,pedestalObjectG1->pedestalOfChannel(i));
	      avg_adcer_g1_map[nframes/1000 -1]->SetBinContent((i%NC)+1,(i/NC)+1,pedestalObjectG1->semOfChannel(i));
	      
	    }
	  }
	  
	  pedestalObjectG0->pedestalClear();
	  pedestalObjectG1->pedestalClear();

	  avg_adc_g0_map[nframes/1000 -1]->GetXaxis()->SetTitle("Column");
	  avg_adc_g0_map[nframes/1000 -1]->GetYaxis()->SetTitle("Row");
	  avg_adc_g0_map[nframes/1000 -1]->GetYaxis()->SetTitleOffset(0.7);
	  avg_adc_g0_map[nframes/1000 -1]->Draw("colz");
	  avg_adc_g0_map[nframes/1000 -1]->SetMinimum(0);
	  sprintf(savename,"plots/M%s/DirectBeam/avg_adc_g0_map_%d.png", module_str.c_str(), ((nframes/1000 -1)+1)*2);
	  mapcanvas->SaveAs((const char *)(savename));
    
	  avg_adc_g1_map[nframes/1000 -1]->GetXaxis()->SetTitle("Column");
	  avg_adc_g1_map[nframes/1000 -1]->GetYaxis()->SetTitle("Row");
	  avg_adc_g1_map[nframes/1000 -1]->GetYaxis()->SetTitleOffset(0.7);
	  avg_adc_g1_map[nframes/1000 -1]->Draw("colz");
	  avg_adc_g1_map[nframes/1000 -1]->SetMinimum(0);
	  sprintf(savename,"plots/M%s/DirectBeam/avg_adc_g1_map_%d.png", module_str.c_str(), ((nframes/1000 -1)+1)*2);
	  mapcanvas->SaveAs((const char *)(savename));

	  avg_adcer_g0_map[nframes/1000 -1]->GetXaxis()->SetTitle("Column");
	  avg_adcer_g0_map[nframes/1000 -1]->GetYaxis()->SetTitle("Row");
	  avg_adcer_g0_map[nframes/1000 -1]->GetYaxis()->SetTitleOffset(0.7);
	  avg_adcer_g0_map[nframes/1000 -1]->Draw("colz");
	  avg_adcer_g0_map[nframes/1000 -1]->SetMinimum(0);
	  sprintf(savename,"plots/M%s/DirectBeam/avg_adcer_g0_map_%d.png", module_str.c_str(), ((nframes/1000 -1)+1)*2);
	  mapcanvas->SaveAs((const char *)(savename));
	  
	  avg_adcer_g1_map[nframes/1000 -1]->GetXaxis()->SetTitle("Column");
	  avg_adcer_g1_map[nframes/1000 -1]->GetYaxis()->SetTitle("Row");
	  avg_adcer_g1_map[nframes/1000 -1]->GetYaxis()->SetTitleOffset(0.7);
	  avg_adcer_g1_map[nframes/1000 -1]->Draw("colz");
	  avg_adcer_g1_map[nframes/1000 -1]->SetMinimum(0);
	  sprintf(savename,"plots/M%s/DirectBeam/avg_adcer_g1_map_%d.png", module_str.c_str(), ((nframes/1000 -1)+1)*2);
	  mapcanvas->SaveAs((const char *)(savename));

	}

      }

      thisfile->close();
    } // end of files


    // save histograms
    sprintf(savename,"/mnt/pcmoench_jungfrau_data/jungfrau_ana_sophie/M%s_CalibAna/DB_histos_M%s.root", module_str.c_str(), module_str.c_str());
    TFile* saved_file = new TFile((const char *)(savename),"RECREATE");

    for (int i = 0; i < npoints; i++) {
      avg_adc_g0_map[i]->Write();
      avg_adc_g1_map[i]->Write();
      avg_adcer_g0_map[i]->Write();
      avg_adcer_g1_map[i]->Write();
    }
    saved_file->Close();
  } else {
    // load histos
    cout << "LOADING HISTOS" << endl;
    sprintf(savename,"/mnt/pcmoench_jungfrau_data/jungfrau_ana_sophie/M%s_CalibAna/DB_histos_M%s.root", module_str.c_str(), module_str.c_str());
    TFile* saved_file = new TFile((const char *)(savename),"READ");

    for (int i = 0; i < npoints; i++) {
      sprintf(savename,"avg_adc_g0_map_%d", i);
      avg_adc_g0_map[i] = (TH2F*)saved_file->Get((const char *)(savename));
      sprintf(savename,"avg_adc_g1_map_%d", i);
      avg_adc_g1_map[i] = (TH2F*)saved_file->Get((const char *)(savename));

      sprintf(savename,"avg_adcer_g0_map_%d", i);
      avg_adcer_g0_map[i] = (TH2F*)saved_file->Get((const char *)(savename));
      sprintf(savename,"avg_adcer_g1_map_%d", i);
      avg_adcer_g1_map[i] = (TH2F*)saved_file->Get((const char *)(savename));
    }
  }

  TH1F* g0overg1hist = new TH1F("g0overg1hist","",100,-34,-24);
  TH2F* g0map = new TH2F("g0map","",NC,-0.5,NC-0.5,NR,-0.5,NR-0.5);
  TH2F* g1map = new TH2F("g1map","",NC,-0.5,NC-0.5,NR,-0.5,NR-0.5);
  TH2F* g0overg1map = new TH2F("g0overg1map","",NC,-0.5,NC-0.5,NR,-0.5,NR-0.5);
  TH2F* g0ermap = new TH2F("g0ermap","",NC,-0.5,NC-0.5,NR,-0.5,NR-0.5);
  TH2F* g1ermap = new TH2F("g1ermap","",NC,-0.5,NC-0.5,NR,-0.5,NR-0.5);
  TH1F* g0overg1erhist = new TH1F("g0overg1erhist","",100,0,2);
  TH2F* g0overg1ermap = new TH2F("g0overg1ermap","",NC,-0.5,NC-0.5,NR,-0.5,NR-0.5);

  for (int i = 0; i < NCH; i++) {
    if (pixel_mask[i] == 1) {

      vector<double> r0_adc;
      vector<double> r0_adcer;
      vector<double> r0_filter;
      vector<double> r0_filterer;
      vector<double> r1_adc;
      vector<double> r1_adcer;
      vector<double> r1_filter;
      vector<double> r1_filterer;
      vector<double> r2_adc;
      vector<double> r2_adcer;
      vector<double> r2_filter;
      vector<double> r2_filterer;

      r0_filter.push_back(0);
      r0_filterer.push_back(0);
      r0_adc.push_back(pedestalsG0->GetBinContent((i%NC)+1,(i/NC)+1));
      r0_adcer.push_back(pedeRMSG0->GetBinContent((i%NC)+1,(i/NC)+1));
      r1_filter.push_back(0);
      r1_filterer.push_back(0);
      r1_adc.push_back(pedestalsG1->GetBinContent((i%NC)+1,(i/NC)+1));
      r1_adcer.push_back(pedeRMSG1->GetBinContent((i%NC)+1,(i/NC)+1));
      r2_filter.push_back(0);
      r2_filterer.push_back(0);
      r2_adc.push_back(pedestalsG2->GetBinContent((i%NC)+1,(i/NC)+1));
      r2_adcer.push_back(pedeRMSG2->GetBinContent((i%NC)+1,(i/NC)+1));

      for (int j = 0; j < npoints; j++) {
	int current = (j+1)*2;

	double this_g0avg = avg_adc_g0_map[j]->GetBinContent((i%NC)+1,(i/NC)+1);
	double this_g1avg = avg_adc_g1_map[j]->GetBinContent((i%NC)+1,(i/NC)+1);
	double this_g0avger = avg_adcer_g0_map[j]->GetBinContent((i%NC)+1,(i/NC)+1);
	double this_g1avger = avg_adcer_g1_map[j]->GetBinContent((i%NC)+1,(i/NC)+1);

	if (this_g0avg != 0) {
	  r0_filter.push_back(current);
	  r0_filterer.push_back(0);
	  r0_adc.push_back(this_g0avg);
	  r0_adcer.push_back(this_g0avger);
	}
	if (this_g1avg != 0) {
	  r1_filter.push_back(current);
	  r1_filterer.push_back(0);
	  r1_adc.push_back(this_g1avg);
	  r1_adcer.push_back(this_g1avger);
	}

      }

      TGraphErrors *grap_g0 = new TGraphErrors(r0_adc.size(),&(r0_filter[0]),&(r0_adc[0]),&(r0_filterer[0]),&(r0_adcer[0]));
      TGraphErrors *grap_g1 = new TGraphErrors(r1_adc.size(),&(r1_filter[0]),&(r1_adc[0]),&(r1_filterer[0]),&(r1_adcer[0]));
      TGraphErrors *grap_g2 = new TGraphErrors(r2_adc.size(),&(r2_filter[0]),&(r2_adc[0]),&(r2_filterer[0]),&(r2_adcer[0]));

      grap_g0->SetMarkerStyle(20);
      grap_g1->SetMarkerStyle(20);
      grap_g2->SetMarkerStyle(20);
      grap_g0->SetMarkerColor(kBlue);
      grap_g0->SetLineColor(kBlue);
      grap_g1->SetMarkerColor(kGreen+2);
      grap_g1->SetLineColor(kGreen+2);
      grap_g2->SetMarkerColor(kRed);
      grap_g2->SetLineColor(kRed);

      TF1 *fit1;
      TF1 *fit2;
      TF1 *fit1_e;
      TF1 *fit2_e;

      if (r0_adc.size() > 1) {
	if (module_str == "028") {
	  fit1 = new TF1("fit1","[0]+[1]*x",2,10);
	} else if (module_str == "021" || module_str == "022") {
	  fit1 = new TF1("fit1","[0]+[1]*x",2,8);
	} else if (module_str == "006") {
	  fit1 = new TF1("fit1","[0]+[1]*x",4,14);
	} else if (module_str == "008") {
	  fit1 = new TF1("fit1","[0]+[1]*x",2,20);
	} else if (module_str == "044") {
	  fit1 = new TF1("fit1","[0]+[1]*x",2,20);
	}
	fit1->SetParameter(0, 100.);
	fit1->SetParameter(1, 1);
	fit1->SetLineColor(kBlue);
	grap_g0->Fit(fit1,"QR","");

	g0map->Fill(i%NC,i/NC,fit1->GetParameter(1));
	g0ermap->Fill(i%NC,i/NC,fit1->GetParError(1));

	fit1_e = new TF1("fit1_e","[0]+[1]*x",0,40);
	fit1_e->SetParameters(fit1->GetParameter(0),fit1->GetParameter(1));
	fit1_e->SetLineColor(kBlue);
	fit1_e->SetLineStyle(2);
      }
      if (r1_adc.size() > 1) {
	if (module_str == "028" || module_str == "021" || module_str == "022") {
	  fit2 = new TF1("fit2","[0]+[1]*x",40,80);
	} else if (module_str == "006") {
	  fit2 = new TF1("fit2","[0]+[1]*x",60,80);
	} else if (module_str == "008") {
	  fit2 = new TF1("fit2","[0]+[1]*x",60,80);
	} else if (module_str == "044") {
	  fit2 = new TF1("fit2","[0]+[1]*x",60,80);
	}
	fit2->SetParameter(0, 1000.);
	fit2->SetParameter(1, -0.1);
	fit2->SetLineColor(kGreen+2);
	grap_g1->Fit(fit2,"QR","");

	g1map->Fill(i%NC,i/NC,fit2->GetParameter(1));
	g1ermap->Fill(i%NC,i/NC,fit2->GetParError(1));

	fit2_e = new TF1("fit2_e","[0]+[1]*x",0,80);
	fit2_e->SetParameters(fit2->GetParameter(0),fit2->GetParameter(1));
	fit2_e->SetLineColor(kGreen+2);
	fit2_e->SetLineStyle(2);
      }
      if (r0_adc.size() > 1 && r1_adc.size() > 1) {
	g0overg1map->Fill(i%NC,i/NC,fit1->GetParameter(1)/fit2->GetParameter(1));
	g0overg1hist->Fill(fit1->GetParameter(1)/fit2->GetParameter(1));
	g0overg1ermap->Fill(i%NC,i/NC,abs(fit1->GetParameter(1)/fit2->GetParameter(1))*sqrt(pow((fit1->GetParError(1)/fit1->GetParameter(1)),2) + pow((fit2->GetParError(1)/fit2->GetParameter(1)),2)));
	g0overg1erhist->Fill(abs(fit1->GetParameter(1)/fit2->GetParameter(1))*sqrt(pow((fit1->GetParError(1)/fit1->GetParameter(1)),2) + pow((fit2->GetParError(1)/fit2->GetParameter(1)),2)));
      }

      grap_g0->GetXaxis()->SetTitle("Current [mA]");
      grap_g0->GetYaxis()->SetTitle("Average ADC [ADU]");
      grap_g0->GetXaxis()->SetLimits(0,50);
      grap_g0->Draw("AP");
      if (r0_adc.size() > 1) {
	fit1->Draw("same");
	fit1_e->Draw("same");
      }
      if ((i > 51900 && i < 51910) || (i > 52150 && i < 52160) || (i > 513000 && i < 513010)) {
	sprintf(savename,"plots/M%s/DirectBeam/grap0_%d.png", module_str.c_str(), i);
	mapcanvas->SaveAs((const char *)(savename));
      }

      grap_g1->GetXaxis()->SetTitle("Current [mA]");
      grap_g1->GetYaxis()->SetTitle("Average ADC [ADU]");
      grap_g1->GetXaxis()->SetLimits(0,85);
      grap_g1->Draw("AP");
      if (r1_adc.size() > 1) {
	fit2->Draw("same");
	fit2_e->Draw("same");
      }
      if ((i > 51900 && i < 51910) || (i > 52150 && i < 52160) || (i > 513000 && i < 513010)) {
	sprintf(savename,"plots/M%s/DirectBeam/grap1_%d.png", module_str.c_str(), i);
	mapcanvas->SaveAs((const char *)(savename));
      }

      grap_g1->SetMinimum(0);
      grap_g1->SetMaximum(17000);
      grap_g1->Draw("AP");
      if (r1_adc.size() > 1) {
	fit2->Draw("same");
	fit2_e->Draw("same");
      }
      if (r0_adc.size() > 0) {
	grap_g0->Draw("P");
	if (r0_adc.size() > 1) {
	  fit1->Draw("same");
	  fit1_e->Draw("same");
	}
      }
      if (r2_adc.size() > 0) {
	grap_g2->Draw("P");
      }
      
      if ((i > 51900 && i < 51910) || (i > 52150 && i < 52160) || (i > 123880 && i < 123890) || (i > 513000 && i < 513010)) {
	sprintf(savename,"plots/M%s/DirectBeam/graps_%d.png", module_str.c_str(), i);
	mapcanvas->SaveAs((const char *)(savename));
      }

      if (r0_adc.size() > 1) {
	delete fit1;
	delete fit1_e;
      }
      if (r1_adc.size() > 1) {
	delete fit2;
	delete fit2_e;
      }
      
    }
  }

  g1map->GetXaxis()->SetTitle("Column");
  g1map->GetYaxis()->SetTitle("Row");
  g1map->GetYaxis()->SetTitleOffset(0.7);
  g1map->Draw("colz");
  g1map->GetZaxis()->SetRangeUser(-40,0);
  sprintf(savename,"plots/M%s/DirectBeam/g1map.png", module_str.c_str());
  mapcanvas->SaveAs((const char *)(savename));

  g0map->GetXaxis()->SetTitle("Column");
  g0map->GetYaxis()->SetTitle("Row");
  g0map->GetYaxis()->SetTitleOffset(0.7);
  g0map->Draw("colz");
  g0map->GetZaxis()->SetRangeUser(200,800);
  sprintf(savename,"plots/M%s/DirectBeam/g0map.png", module_str.c_str());
  mapcanvas->SaveAs((const char *)(savename));

  g1ermap->GetXaxis()->SetTitle("Column");
  g1ermap->GetYaxis()->SetTitle("Row");
  g1ermap->GetYaxis()->SetTitleOffset(0.7);
  g1ermap->Draw("colz");
  g1ermap->GetZaxis()->SetRangeUser(0,0.7);
  sprintf(savename,"plots/M%s/DirectBeam/g1ermap.png", module_str.c_str());
  mapcanvas->SaveAs((const char *)(savename));

  g0ermap->GetXaxis()->SetTitle("Column");
  g0ermap->GetYaxis()->SetTitle("Row");
  g0ermap->GetYaxis()->SetTitleOffset(0.7);
  g0ermap->Draw("colz");
  g0ermap->GetZaxis()->SetRangeUser(2,8);
  sprintf(savename,"plots/M%s/DirectBeam/g0ermap.png", module_str.c_str());
  mapcanvas->SaveAs((const char *)(savename));

  g0overg1map->GetXaxis()->SetTitle("Column");
  g0overg1map->GetYaxis()->SetTitle("Row");
  g0overg1map->GetYaxis()->SetTitleOffset(0.7);
  g0overg1map->Draw("colz");
  g0overg1map->GetZaxis()->SetRangeUser(-35,-20);
  sprintf(savename,"plots/M%s/DirectBeam/g0overg1map.png", module_str.c_str());
  mapcanvas->SaveAs((const char *)(savename));

  g0overg1ermap->GetXaxis()->SetTitle("Column");
  g0overg1ermap->GetYaxis()->SetTitle("Row");
  g0overg1ermap->GetYaxis()->SetTitleOffset(0.7);
  g0overg1ermap->Draw("colz");
  g0overg1ermap->GetZaxis()->SetRangeUser(0,1);
  sprintf(savename,"plots/M%s/DirectBeam/g0overg1ermap.png", module_str.c_str());
  mapcanvas->SaveAs((const char *)(savename));

  TCanvas* c1 = new TCanvas("c1","");

  g0overg1hist->GetXaxis()->SetTitle("G0 / G1");
  g0overg1hist->Draw();
  sprintf(savename,"plots/M%s/DirectBeam/g0overg1hist.png", module_str.c_str());
  c1->SaveAs((const char *)(savename));

  g0overg1erhist->GetXaxis()->SetTitle("G0 / G1 uncert");
  g0overg1erhist->Draw();
  sprintf(savename,"plots/M%s/DirectBeam/g0overg1erhist.png", module_str.c_str());
  c1->SaveAs((const char *)(savename));

  sprintf(savename,"data/M%s/DB_ratio_M%s.root", module_str.c_str(), module_str.c_str());
  TFile* saved_file2 = new TFile((const char *)(savename),"RECREATE");
  g0overg1map->Write();
  g0overg1ermap->Write();
  saved_file2->Close();

}