114,7 → 114,7 |
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// ======================================================================================================= |
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void plots2(char *fname="480", char *plopt="d", double fitcenter = 1190., double fitw = 70., double comhi_range_hi = 2100., int batch_q=0) |
void plots2(char *fname="480", char *plopt="d", int chich=0, double fitcenter = 1190., double fitw = 70., double comhi_range_hi = 2100., int batch_q=0) |
{ |
char sbuff[256]; |
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192,1995 → 192,152 |
gStyle->SetOptStat(0); |
gStyle->SetOptFit(0); |
|
c[++cc] = new TCanvas("a", "a", 0, 0, 1200, 700); |
c[++cc] = new TCanvas("a", "a", 0, 0, 1600, 900); |
c[cc]->Divide(2,2); |
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int draw_cuts = 1; |
int rebin_tdcs = 0; |
|
int ccccdi = 0; |
int ich; |
|
// -------------------------- qdc 0 ---------------------------------- |
ich = 0; |
(c[cc]->cd(++ccccdi))->SetLogy(1); |
sprintf(hname, "hadc%d", ich); |
int draw_cuts = 0; |
int chmap[] = {0,1,2,31}; |
|
for(int ich = 0;ich<4;ich++) { |
(c[cc]->cd(ich+1))->SetLogy(1); |
sprintf(hname, "hadc%d", chmap[ich]); |
hp1d = DrTH1F(dir, hname, ""); |
hp1d->SetTitle("MPPC 1;Charge [200 fC/bin]"); |
hp1d->GetXaxis()->SetRangeUser(0,2000); |
sprintf(htitle, "ADC%d;ADC;Count", chmap[ich]); hp1d->SetTitle(htitle); |
//~ hp1d->GetXaxis()->SetRangeUser(0,2000); |
//~ hp1d->GetYaxis()->SetRangeUser(0.9,hp1d->GetMaximum()*1.1); |
hp1d->SetLineColor(kBlack); |
hp1d->DrawClone(); |
|
if(draw_cuts) { |
sprintf(hname, "hadc_cut%d", ich); |
sprintf(hname, "hadc_cut%d", chmap[ich]); |
hp1dcut = DrTH1F(dir, hname, ""); |
hp1dcut->SetLineColor(kRed); |
hp1dcut->DrawClone("SAME"); |
|
//~ sprintf(hname, "hadc_cut_2%d", ich); |
//~ hp1dcut = DrTH1F(dir, hname, ""); |
//~ hp1dcut->SetLineColor(kGreen); |
//~ hp1dcut->DrawClone("SAME"); |
} |
|
// -------------------------- TDC 0 ---------------------------------- |
(c[cc]->cd(++ccccdi))->SetLogy(1); |
sprintf(hname, "htdc%d", ich); |
hp1d = DrTH1F(dir, hname, ""); |
hp1d->SetTitle("MPPC 1;Time [ns]"); |
if(rebin_tdcs) hp1d->Rebin(rebin_tdcs); |
//~ hp1d->GetXaxis()->SetRangeUser(0,22); |
hp1d->GetXaxis()->SetRangeUser(20,34); |
//~ hp1d->GetYaxis()->SetRangeUser(0.9,hp1d->GetMaximum()*1.1); |
hp1d->SetLineColor(kBlack); |
hp1d->DrawClone(); |
|
if(draw_cuts) { |
sprintf(hname, "htdc_cut%d", ich); |
hp1dcut = DrTH1F(dir, hname, ""); |
if(rebin_tdcs) hp1dcut->Rebin(rebin_tdcs); |
hp1dcut->SetLineColor(kRed); |
hp1dcut->DrawClone("SAME"); |
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//~ sprintf(hname, "htdc_cut_2%d", ich); |
//~ hp1dcut = DrTH1F(dir, hname, ""); |
//~ if(rebin_tdcs) hp1dcut->Rebin(rebin_tdcs); |
//~ hp1dcut->SetLineColor(kGreen); |
//~ hp1dcut->DrawClone("SAME"); |
} |
|
// -------------------------- qdc 1 ---------------------------------- |
ich = 1; |
(c[cc]->cd(++ccccdi))->SetLogy(1); |
sprintf(hname, "hadc%d", ich); |
hp1d = DrTH1F(dir, hname, ""); |
hp1d->SetTitle("MPPC 2;Charge [200 fC/bin]"); |
hp1d->GetXaxis()->SetRangeUser(0,2000); |
//~ hp1d->GetYaxis()->SetRangeUser(0.9,hp1d->GetMaximum()*1.1); |
hp1d->SetLineColor(kBlack); |
hp1d->DrawClone(); |
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if(draw_cuts) { |
sprintf(hname, "hadc_cut%d", ich); |
hp1dcut = DrTH1F(dir, hname, ""); |
hp1dcut->SetLineColor(kRed); |
hp1dcut->DrawClone("SAME"); |
|
//~ sprintf(hname, "hadc_cut_2%d", ich); |
//~ hp1dcut = DrTH1F(dir, hname, ""); |
//~ hp1dcut->SetLineColor(kGreen); |
//~ hp1dcut->DrawClone("SAME"); |
} |
|
// -------------------------- TDC 1 ---------------------------------- |
(c[cc]->cd(++ccccdi))->SetLogy(1); |
sprintf(hname, "htdc%d", ich); |
hp1d = DrTH1F(dir, hname, ""); |
hp1d->SetTitle("MPPC 2;Time [ns]"); |
if(rebin_tdcs) hp1d->Rebin(rebin_tdcs); |
//~ hp1d->GetXaxis()->SetRangeUser(0,22); |
hp1d->GetXaxis()->SetRangeUser(20,34); |
//~ hp1d->GetYaxis()->SetRangeUser(0.9,hp1d->GetMaximum()*1.1); |
hp1d->SetLineColor(kBlack); |
hp1d->DrawClone(); |
|
if(draw_cuts) { |
sprintf(hname, "htdc_cut%d", ich); |
hp1dcut = DrTH1F(dir, hname, ""); |
if(rebin_tdcs) hp1dcut->Rebin(rebin_tdcs); |
hp1dcut->SetLineColor(kRed); |
hp1dcut->DrawClone("SAME"); |
|
//~ sprintf(hname, "htdc_cut_2%d", ich); |
//~ hp1dcut = DrTH1F(dir, hname, ""); |
//~ if(rebin_tdcs) hp1dcut->Rebin(rebin_tdcs); |
//~ hp1dcut->SetLineColor(kGreen); |
//~ hp1dcut->DrawClone("SAME"); |
} |
} |
|
sprintf(fullname, "gif/a_%s.gif", fname); c[cc]->SaveAs(fullname); |
sprintf(fullname, "gif/%s_a.gif", fname); c[cc]->SaveAs(fullname); |
} |
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// ------------------------------------------------------------------- |
|
if( strchr(plopt, 'q') != NULL ) { |
if( strchr(plopt, 't') != NULL ) { |
|
gStyle->SetOptStat(1111); |
//~ gStyle->SetOptStat(0); |
gStyle->SetOptFit(0); |
|
c[++cc] = new TCanvas("q", "q", 0, 0, 1200, 700); |
c[cc]->Divide(3,2); |
c[++cc] = new TCanvas("t", "t", 0, 0, 1600, 900); |
c[cc]->Divide(2,2); |
|
int draw_cuts = 1; |
int rebin_tdcs = 1; |
|
int ccccdi = 0; |
int ich; |
/* |
ich = 2; |
// -------------------------- qdc ref ---------------------------------- |
(c[cc]->cd(++ccccdi))->SetLogy(1); |
sprintf(hname, "hadc%d", ich); |
int draw_cuts = 0; |
int chmap[] = {0,1,2,31}; |
|
for(int ich = 0;ich<4;ich++) { |
(c[cc]->cd(ich+1))->SetLogy(1); |
sprintf(hname, "htdc%d", chmap[ich]); |
hp1d = DrTH1F(dir, hname, ""); |
//~ hp1d->GetXaxis()->SetRangeUser(0,100); |
hp1d->GetYaxis()->SetRangeUser(0.9,hp1d->GetMaximum()*1.1); |
hp1d->DrawClone(); |
|
sprintf(hname, "hadc_cut%d", ich); |
hp1dcut = DrTH1F(dir, hname, ""); |
hp1dcut->SetLineColor(kRed); |
hp1dcut->DrawClone("SAME"); |
|
sprintf(hname, "hadc_cut_2%d", ich); |
hp1dcut = DrTH1F(dir, hname, ""); |
hp1dcut->SetLineColor(kGreen); |
hp1dcut->DrawClone("SAME"); |
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// -------------------------- TDC ref ---------------------------------- |
(c[cc]->cd(++ccccdi))->SetLogy(1); |
sprintf(hname, "htdc%d", ich); |
hp1d = DrTH1F(dir, hname, ""); |
hp1d->Rebin(8); |
hp1d->GetXaxis()->SetRangeUser(5,105); |
hp1d->GetYaxis()->SetRangeUser(0.9,hp1d->GetMaximum()*1.1); |
hp1d->DrawClone(); |
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sprintf(hname, "htdc_cut%d", ich); |
hp1dcut = DrTH1F(dir, hname, ""); |
hp1dcut->Rebin(8); |
hp1dcut->SetLineColor(kRed); |
hp1dcut->DrawClone("SAME"); |
|
sprintf(hname, "htdc_cut_2%d", ich); |
hp1dcut = DrTH1F(dir, hname, ""); |
hp1dcut->Rebin(8); |
hp1dcut->SetLineColor(kGreen); |
hp1dcut->DrawClone("SAME"); |
*/ |
|
// -------------------------- TDC DIFF ---------------------------------- |
(c[cc]->cd(++ccccdi))->SetLogy(0); |
sprintf(hname, "htdcdiff"); |
hp1d = DrTH1F(dir, hname, ""); |
hp1d->Rebin(rebin_tdcs); |
hp1d->GetXaxis()->SetRangeUser(-15,15); |
//~ hp1d->GetYaxis()->SetRangeUser(0.9,hp1d->GetMaximum()*2); |
hp1d->GetYaxis()->SetRangeUser(0.,hp1d->GetMaximum()*1.1); |
hp1d->DrawClone(); |
|
if(draw_cuts) { |
sprintf(hname, "htdcdiff_cut"); |
hp1dcut = DrTH1F(dir, hname, ""); |
hp1dcut->Rebin(rebin_tdcs); |
hp1dcut->SetLineColor(kRed); |
hp1dcut->DrawClone("SAME"); |
|
sprintf(hname, "htdcdiff_cut_2"); |
hp1dcut = DrTH1F(dir, hname, ""); |
hp1dcut->Rebin(rebin_tdcs); |
hp1dcut->SetLineColor(kGreen); |
hp1dcut->DrawClone("SAME"); |
} |
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// -------------------------- qdc MPPC ---------------------------------- |
ich = 0; |
(c[cc]->cd(++ccccdi))->SetLogy(1); |
sprintf(hname, "hadc%d", ich); |
hp1d = DrTH1F(dir, hname, ""); |
hp1d->GetXaxis()->SetRangeUser(0,1500); |
sprintf(htitle, "TDC%d - TRIGGER;Time [ns];Count", chmap[ich]); hp1d->SetTitle(htitle); |
hp1d->GetXaxis()->SetRangeUser(-50,50); |
//~ hp1d->GetYaxis()->SetRangeUser(0.9,hp1d->GetMaximum()*1.1); |
hp1d->SetLineColor(kBlack); |
hp1d->DrawClone(); |
|
if(draw_cuts) { |
sprintf(hname, "hadc_cut%d", ich); |
sprintf(hname, "htdc_cut%d", chmap[ich]); |
hp1dcut = DrTH1F(dir, hname, ""); |
hp1dcut->SetLineColor(kRed); |
hp1dcut->DrawClone("SAME"); |
|
sprintf(hname, "hadc_cut_2%d", ich); |
hp1dcut = DrTH1F(dir, hname, ""); |
hp1dcut->SetLineColor(kGreen); |
hp1dcut->DrawClone("SAME"); |
} |
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// -------------------------- TDC MPPC ---------------------------------- |
(c[cc]->cd(++ccccdi))->SetLogy(1); |
sprintf(hname, "htdc%d", ich); |
hp1d = DrTH1F(dir, hname, ""); |
hp1d->Rebin(rebin_tdcs); |
hp1d->GetXaxis()->SetRangeUser(0,20); |
hp1d->GetYaxis()->SetRangeUser(0.9,hp1d->GetMaximum()*1.1); |
hp1d->DrawClone(); |
|
if(draw_cuts) { |
sprintf(hname, "htdc_cut%d", ich); |
hp1dcut = DrTH1F(dir, hname, ""); |
hp1dcut->Rebin(rebin_tdcs); |
hp1dcut->SetLineColor(kRed); |
hp1dcut->DrawClone("SAME"); |
|
sprintf(hname, "htdc_cut_2%d", ich); |
hp1dcut = DrTH1F(dir, hname, ""); |
hp1dcut->Rebin(rebin_tdcs); |
hp1dcut->SetLineColor(kGreen); |
hp1dcut->DrawClone("SAME"); |
} |
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// -------------------------- qdc MPPC ---------------------------------- |
ich = 1; |
ccccdi++; |
(c[cc]->cd(++ccccdi))->SetLogy(1); |
sprintf(hname, "hadc%d", ich); |
hp1d = DrTH1F(dir, hname, ""); |
hp1d->GetXaxis()->SetRangeUser(0,1500); |
//~ hp1d->GetYaxis()->SetRangeUser(0.9,hp1d->GetMaximum()*1.1); |
hp1d->DrawClone(); |
|
if(draw_cuts) { |
sprintf(hname, "hadc_cut%d", ich); |
hp1dcut = DrTH1F(dir, hname, ""); |
hp1dcut->SetLineColor(kRed); |
hp1dcut->DrawClone("SAME"); |
|
sprintf(hname, "hadc_cut_2%d", ich); |
hp1dcut = DrTH1F(dir, hname, ""); |
hp1dcut->SetLineColor(kGreen); |
hp1dcut->DrawClone("SAME"); |
} |
|
// -------------------------- TDC MPPC ---------------------------------- |
(c[cc]->cd(++ccccdi))->SetLogy(1); |
sprintf(hname, "htdc%d", ich); |
hp1d = DrTH1F(dir, hname, ""); |
hp1d->Rebin(rebin_tdcs); |
hp1d->GetXaxis()->SetRangeUser(0,20); |
hp1d->GetYaxis()->SetRangeUser(0.9,hp1d->GetMaximum()*1.1); |
hp1d->DrawClone(); |
|
if(draw_cuts) { |
sprintf(hname, "htdc_cut%d", ich); |
hp1dcut = DrTH1F(dir, hname, ""); |
hp1dcut->Rebin(rebin_tdcs); |
hp1dcut->SetLineColor(kRed); |
hp1dcut->DrawClone("SAME"); |
|
sprintf(hname, "htdc_cut_2%d", ich); |
hp1dcut = DrTH1F(dir, hname, ""); |
hp1dcut->Rebin(rebin_tdcs); |
hp1dcut->SetLineColor(kGreen); |
hp1dcut->DrawClone("SAME"); |
} |
} |
|
sprintf(fullname, "gif/q_%s.gif", fname); c[cc]->SaveAs(fullname); |
//~ sprintf(fullname, "%s_j2.eps", fname); c[cc]->SaveAs(fullname); |
|
if(batch_q) gSystem->Exit(1); |
sprintf(fullname, "gif/%s_t.gif", fname); c[cc]->SaveAs(fullname); |
} |
|
// ------------------------------------------------------------------- |
|
if( strchr(plopt, 'n') != NULL ) { |
if( strchr(plopt, 'f') != NULL ) { |
|
gStyle->SetOptStat("e"); |
//~ gStyle->SetOptFit(1); |
gStyle->SetOptStat(1111); |
//~ gStyle->SetOptStat(0); |
gStyle->SetOptFit(0); |
|
c[++cc] = new TCanvas("d", "d", 0, 0, 900, 600); |
//~ c[cc]->Divide(2,2); |
c[++cc] = new TCanvas("f", "f", 0, 0, 1600, 900); |
c[cc]->Divide(2,2); |
|
int draw_cuts = 0; |
int rebin_tdcs = 1; |
|
double drawmin = -17; |
double drawmax = +17; |
double fitmin = -10; |
double fitmax = 10; |
double fitcenter = 0.0; |
double HalfMax, MinHalfMax, MaxHalfMax, FWHM, FWHMc; |
|
int ccccdi = 0; |
int ich = 0; |
|
TF1 *f_fit; |
|
TF1 *fcg = new TF1("fcg", "pol0(0)+gaus(1)"); fcg->SetNpx(300); |
fcg->SetParName(0,"Const"); fcg->SetParName(1,"G_Const"); |
fcg->SetParName(2,"G_Mean" ); fcg->SetParName(3,"G_Sigma" ); |
|
TF1 *fcgg = new TF1("fcgg", "pol0(0)+gaus(1)+gaus(4)"); fcgg->SetNpx(300); |
fcgg->SetParName(0,"Const"); |
fcgg->SetParName(1,"G1_Const"); fcgg->SetParName(2,"G1_Mean" ); fcgg->SetParName(3,"G1_Sigma" ); |
fcgg->SetParName(4,"G2_Const"); fcgg->SetParName(5,"G2_Mean" ); fcgg->SetParName(6,"G2_Sigma" ); |
|
(c[cc]->cd(++ccccdi))->SetLogy(0); |
sprintf(hname, "htdcdiff"); |
hp1d = DrTH1F(dir, hname, ""); |
//~ hp1d->Rebin(rebin_tdcs); |
hp1d->SetLineColor(kBlack); |
hp1d->GetXaxis()->SetRangeUser(drawmin,drawmax); |
hp1d->GetYaxis()->SetRangeUser(0.0,hp1d->GetMaximum()*1.1); |
hp1d->SetTitle(";Coincidence Time [ns];Counts"); |
|
|
f_fit = fcgg; |
f_fit->SetParameters(hp1d->GetMaximum()*0.25, |
hp1d->GetMaximum()*0.7, 0, 0.4, |
hp1d->GetMaximum()*0.05, 0, 0.05); |
f_fit->SetParLimits(0, 0, hp1d->GetMaximum()); |
f_fit->SetParLimits(1, 0, hp1d->GetMaximum()); |
f_fit->SetParLimits(2, fitmin,fitmax); |
f_fit->SetParLimits(3, 0.2, 1); |
f_fit->SetParLimits(4, 0, hp1d->GetMaximum()); |
f_fit->SetParLimits(5, fitmin,fitmax); |
f_fit->SetParLimits(6, 0.02, 0.3); |
|
//~ f_fit = fcgg; |
//~ f_fit->SetParameters(hp1d->GetMaximum()*0.1, |
//~ hp1d->GetMaximum()*0.5, 0, 0.05, |
//~ hp1d->GetMaximum()*0.4, 0, 0.5); |
|
//~ f_fit = fcg; |
//~ f_fit->SetParameters(hp1d->GetMaximum()*0.1, |
//~ hp1d->GetMaximum()*0.9, 0, 0.05); |
|
f_fit->SetRange(fitmin,fitmax); |
f_fit->SetLineWidth(1); |
hp1d->Fit(f_fit, "Q", "", fitmin,fitmax); |
|
|
HalfMax = f_fit->GetMaximum(fitmin, fitmax)/2.0; |
MinHalfMax = f_fit->GetX(HalfMax, fitmin, fitcenter); |
MaxHalfMax = f_fit->GetX(HalfMax, fitcenter, fitmax); |
FWHM = MaxHalfMax - MinHalfMax; |
|
HalfMax = (f_fit->GetMaximum(fitmin, fitmax) + f_fit->GetParameter(0))/2.0; |
MinHalfMax = f_fit->GetX(HalfMax, fitmin, fitcenter); |
MaxHalfMax = f_fit->GetX(HalfMax, fitcenter, fitmax); |
FWHMc = MaxHalfMax - MinHalfMax; |
|
//~ printf("FWHM = %lf ns | FWHMc = %lf ns\n", FWHM, FWHMc); |
printf("FWHM (peak only) = %.3lf ns\n", FWHMc); |
|
|
leg[++legi] = new TLegend(0.122768, 0.740418, 0.420759, 0.878049); |
leg[legi]->SetFillColor(0); leg[legi]->SetBorderSize(1); leg[legi]->SetTextSize(0.03); leg[legi]->SetTextAlign(22); |
|
|
for(int i=0; i<6; i++) fgg->SetParameter(i, f_fit->GetParameter(i+1)); |
//~ fgg->SetRange(drawmin, drawmax); fgg->SetNpx(300); fgg->SetLineColor(kBlue); fgg->SetLineWidth(1); fgg->DrawClone("LSAME"); |
double Icherenkovs = fgg->Integral(drawmin, drawmax); |
|
double Iall = f_fit->Integral(fitmin, fitmax); |
double Rsn = Icherenkovs/(Iall-Icherenkovs); |
|
double Ientr = hp1d->GetEntries()*hp1d->GetBinWidth(1); |
double Rsne = Icherenkovs/(Ientr-Icherenkovs); |
|
double Ihist = hp1d->Integral(1, hp1d->GetNbinsX()-1)*hp1d->GetBinWidth(1); |
double Rsnh = Icherenkovs/(Ihist-Icherenkovs); |
|
//~ printf("ICherenkov = %lf | IAll = %lf | Ientr = %lf | Ihist = %lf\n", Icherenkovs, Iall, Ientr, Ihist); |
//~ printf("TF1 -> S/N = %lf || TH1F(e) -> S/N = %lf || TH1F(i) -> S/N = %lf\n", Rsn, Rsne, Rsnh); |
printf("S/N (vs. All) = %lf\n", Rsnh); |
|
if(draw_cuts) { |
sprintf(hname, "htdcdiff_cut"); |
hp1dcut = DrTH1F(dir, hname, ""); |
hp1dcut->Rebin(rebin_tdcs); |
hp1dcut->SetLineColor(kRed); |
hp1dcut->DrawClone("SAME"); |
|
sprintf(hname, "htdcdiff_cut_2"); |
hp1dcut = DrTH1F(dir, hname, ""); |
hp1dcut->Rebin(rebin_tdcs); |
hp1dcut->SetLineColor(kGreen); |
hp1dcut->DrawClone("SAME"); |
} |
|
//~ #define USE_NOISE_FILE |
|
#ifdef USE_NOISE_FILE |
//get ROOT file with histograms |
char fnameroot[1024]; |
TFile * rootfile2; |
TDirectory *dir2; |
|
sprintf(fname, "run054"); |
sprintf(fnameroot, "root/%s.root", fname); |
rootfile2 = (TFile *) gROOT->FindObject(fname); |
if(rootfile2==NULL) rootfile2 = new TFile(fnameroot); |
if(rootfile2==NULL) { |
printf("Cannot open root file 2 %s!!!\n",fnameroot); |
return; |
} |
dir2 = (TDirectory*) rootfile2; |
|
sprintf(hname, "htdcdiff"); |
hp1dcut = DrTH1F(dir2, hname, ""); |
hp1dcut->SetLineColor(kMagenta); |
hp1dcut->DrawClone("SAME"); |
|
leg[legi]->AddEntry((TH1F*)hp1d->Clone(), "With source (30 min)", "L"); |
leg[legi]->AddEntry((TH1F*)hp1dcut->Clone(), "W/o source (30 min)", "L"); |
sprintf(fullname, "Fit FWHM = %.3lf ns", FWHMc); |
leg[legi]->AddEntry((TF1*)f_fit->Clone(), fullname, "L"); |
leg[legi]->Draw(); |
#endif |
|
sprintf(fullname, "gif/n_%s.gif", fname); c[cc]->SaveAs(fullname); |
|
if(batch_q) gSystem->Exit(1); |
} |
// ------------------------------------------------------------------- |
|
if( strchr(plopt, 'f') != NULL ) { |
|
DrSetDrawStyle(0.05); |
|
gStyle->SetOptStat("e"); |
//~ gStyle->SetOptFit(1); |
|
gStyle->SetPadRightMargin(0.03); |
gStyle->SetPadTopMargin(0.05); |
gStyle->SetPadBottomMargin(0.12); |
gStyle->SetStatFontSize(0.05); |
gStyle->SetStatX(0.97); |
gStyle->SetStatY(0.95); |
|
c[++cc] = new TCanvas("f", "f", 0, 460, 720, 400); |
//~ c[cc]->Divide(2,2); |
|
int draw_cuts = 0; |
int rebin_tdcs = 1; |
|
double drawmin = -10; |
double drawmax = +10; |
//~ double fitmin = inmin; |
//~ double fitmax = inmax; |
double fitmin = -10; |
double fitmax = 10; |
double fitcenter = 0.0; |
double HalfMax, MinHalfMax, MaxHalfMax, FWHM, FWHMc; |
|
int ccccdi = 0; |
int ich = 0; |
|
TF1 *f_fit; |
TF1 *f_integrate; |
|
TF1 *fc = new TF1("fc", "pol0(0)"); |
|
TF1 *fcg = new TF1("fcg", "pol0(0)+gaus(1)"); fcg->SetNpx(300); |
fcg->SetParName(0,"Const"); fcg->SetParName(1,"G_Const"); |
fcg->SetParName(2,"G_Mean" ); fcg->SetParName(3,"G_Sigma" ); |
|
TF1 *fcgg = new TF1("fcgg", "pol0(0)+gaus(1)+gaus(4)"); fcgg->SetNpx(300); |
fcgg->SetParName(0,"Const"); |
fcgg->SetParName(1,"G1_Const"); fcgg->SetParName(2,"G1_Mean" ); fcgg->SetParName(3,"G1_Sigma" ); |
fcgg->SetParName(4,"G2_Const"); fcgg->SetParName(5,"G2_Mean" ); fcgg->SetParName(6,"G2_Sigma" ); |
|
TF1 *fcggg = new TF1("fcggg", "pol0(0)+gaus(1)+gaus(4)+gaus(7)"); fcggg->SetNpx(300); |
fcggg->SetParName(0,"Const"); |
fcggg->SetParName(1,"G1_Const"); fcggg->SetParName(2,"G1_Mean" ); fcggg->SetParName(3,"G1_Sigma" ); |
fcggg->SetParName(4,"G2_Const"); fcggg->SetParName(5,"G2_Mean" ); fcggg->SetParName(6,"G2_Sigma" ); |
fcggg->SetParName(7,"G3_Const"); fcggg->SetParName(8,"G3_Mean" ); fcggg->SetParName(9,"G3_Sigma" ); |
|
//~ TF1 *f_nocrystal = new TF1("f_nocrystal", "[0]*exp(-0.5*((x-[1])/(sqrt(2)*[2]))**2)+[3]*exp(-0.5*((x-[4])/(sqrt(2)*[5]))**2)+[6]*exp(-1*((x-[7])**2)/(2*(([2])**2+([5])**2)))+[8]*exp(-1*(((x-[9])**2)/(2*(([2])**2+([5])**2))))+[10]"); |
TF1 *f_nocrystal = new TF1("f_nocrystal", "[0]*([1]**2*TMath::Gaus(x,[2],sqrt(2)*[3],1)+(1-[1])**2*TMath::Gaus(x,[4],sqrt(2)*[5],1)+[1]*(1-[1])*TMath::Gaus(x,[6],sqrt([3]**2+[5]**2),1)+[1]*(1-[1])*TMath::Gaus(x,[7],sqrt([3]**2+[5]**2),1))+[8]"); |
f_nocrystal->SetParName(0, "const"); |
f_nocrystal->SetParName(1, "ratio"); |
f_nocrystal->SetParName(2, "WW_mean"); |
f_nocrystal->SetParName(3, "Window_sigma"); |
f_nocrystal->SetParName(4, "MM_mean"); |
f_nocrystal->SetParName(5, "MCP_sigma"); |
f_nocrystal->SetParName(6, "WM1_mean"); |
f_nocrystal->SetParName(7, "WM2_mean"); |
f_nocrystal->SetParName(8, "Constant"); |
|
//~ TF1 *f_crystal = new TF1("f_crystal", "[0]+[1]*([2]**2*(TMath::Gaus(x,[3],sqrt(2)*[4],1))+([5])**2*(TMath::Gaus(x,[6],sqrt(2)*[7],1))+(4*[5]/6)**2*(TMath::Gaus(x,[8],sqrt(2)*[9],1))+[2]*[5]*(TMath::Gaus(x,[10],sqrt([2]**2+[5]**2),1))+[5]*[2]*(TMath::Gaus(x,[11],sqrt([2]**2+[5]**2),1))+[2]*(4/6*[5])*(TMath::Gaus(x,[12],sqrt([2]**2+(4/6*[5])**2),1))+[2]*(4/6*[5])*(TMath::Gaus(x,[13],sqrt([2]**2+(4/6*[5])**2),1))+[5]*(4/6*[5])*(TMath::Gaus(x,[14],sqrt([5]**2+(4/6*[5])**2),1))+[5]*(4/6*[5])*(TMath::Gaus(x,[15],sqrt([5]**2+(4/6*[5])**2),1)))"); |
TF1 *f_crystal = new TF1("f_crystal", "[0]+[1]*([2]**2*(TMath::Gaus(x,[3],sqrt(2)*[4],1))+([5])**2*(TMath::Gaus(x,[6],sqrt(2)*[7],1))+(4*[5]/6)**2*(TMath::Gaus(x,[8],sqrt(2)*[9],1))+[2]*[5]*(TMath::Gaus(x,[10],sqrt([4]**2+[7]**2),1))+[5]*[2]*(TMath::Gaus(x,[11],sqrt([4]**2+[7]**2),1))+[2]*(4/6*[5])*(TMath::Gaus(x,[12],sqrt([4]**2+[9]**2),1))+[2]*(4/6*[5])*(TMath::Gaus(x,[13],sqrt([4]**2+[9]**2),1))+[5]*(4/6*[5])*(TMath::Gaus(x,[14],sqrt([7]**2+[9]**2),1))+[5]*(4/6*[5])*(TMath::Gaus(x,[15],sqrt([7]**2+[9]**2),1)))"); |
f_crystal->SetParName(0, "dark"); |
f_crystal->SetParName(1, "const"); |
f_crystal->SetParName(2, "Prob_Crystal"); |
f_crystal->SetParName(3, "CC_mean"); |
f_crystal->SetParName(4, "Crystal_sigma"); |
f_crystal->SetParName(5, "Prob_window"); |
f_crystal->SetParName(6, "WW_mean"); |
f_crystal->SetParName(7, "WW_sigma"); |
f_crystal->SetParName(8, "MM_mean"); |
f_crystal->SetParName(9, "MM_sigma"); |
f_crystal->SetParName(10, "CW1_mean"); |
f_crystal->SetParName(11, "CW2_mean"); |
f_crystal->SetParName(12, "CM1_mean"); |
f_crystal->SetParName(13, "CM2_mean"); |
f_crystal->SetParName(14, "WM1_mean"); |
f_crystal->SetParName(15, "WM2_mean"); |
int chmap[] = {0,1,2,31}; |
|
//~ TF1 *f_crystal1 = new TF1("f_crystal1", "[0]+[1]*([2]**2*TMath::Gaus(x,[3],sqrt(2)*[4],1)+(1.-5./3*[2])**2*TMath::Gaus(x,[5],sqrt(2)*[6],1)+(4.*[2]/6.)**2*TMath::Gaus(x,[7],sqrt(2)*[8],1)+[2]*(1.-(5./3)*[2])*TMath::Gaus(x,[9],sqrt([4]**2+[6]**2),1)+(1.-(5./3)*[2])*[2]*TMath::Gaus(x,[10],sqrt([4]**2+[6]**2),1)+[2]*4./6.*[2]*TMath::Gaus(x,[11],sqrt([4]**2+[8]**2),1)+[2]*4/6.*[2]*TMath::Gaus(x,[12],sqrt([4]**2+[8]**2),1)+4./6*[2]*(1.-5./3*[2])*TMath::Gaus(x,[13],sqrt([6]**2+[8]**2),1)+(1.-5./3*[2])*4./6*[2]*TMath::Gaus(x,[14],sqrt([8]**2+[6]**2),1))"); |
TF1 *f_crystal1 = new TF1("f_crystal1", "[0]+[1]*([2]**2*TMath::Gaus(x,[3],sqrt(2)*[4],1)+(1.-(1.+[15])*[2])**2*TMath::Gaus(x,[5],sqrt(2)*[6],1)+([15]*[2])**2*TMath::Gaus(x,[7],sqrt(2)*[8],1)+[16]**2*[2]*(1.-(1+[15])*[2])*TMath::Gaus(x,[9],sqrt([4]**2+[6]**2),1)+[16]**2*(1.-(1+[15])*[2])*[2]*TMath::Gaus(x,[10],sqrt([4]**2+[6]**2),1)+[2]*[15]*[2]*TMath::Gaus(x,[11],sqrt([4]**2+[8]**2),1)+[2]*[15]*[2]*TMath::Gaus(x,[12],sqrt([4]**2+[8]**2),1)+[15]*[2]*(1.-(1+[15])*[2])*TMath::Gaus(x,[13],sqrt([6]**2+[8]**2),1)+(1.-(1.+[15])*[2])*[15]*[2]*TMath::Gaus(x,[14],sqrt([8]**2+[6]**2),1))"); |
f_crystal1->SetParName(0, "dark"); |
f_crystal1->SetParName(1, "const"); |
f_crystal1->SetParName(2, "Prob_Window"); |
f_crystal1->SetParName(3, "WW_mean"); |
f_crystal1->SetParName(4, "Window_sigma"); |
f_crystal1->SetParName(5, "CC_mean"); |
f_crystal1->SetParName(6, "Crystal_sigma"); |
f_crystal1->SetParName(7, "MM_mean"); |
f_crystal1->SetParName(8, "MCP_sigma"); |
f_crystal1->SetParName(9, "CW1_mean"); |
f_crystal1->SetParName(10, "CW2_mean"); |
f_crystal1->SetParName(11, "WM1_mean"); |
f_crystal1->SetParName(12, "WM2_mean"); |
f_crystal1->SetParName(13, "CM1_mean"); |
f_crystal1->SetParName(14, "CM2_mean"); |
f_crystal1->SetParName(15, "ratio_mcp/window"); |
f_crystal1->SetParName(16, "Sup._CW"); |
|
double ratio_r=0; |
|
(c[cc]->cd(++ccccdi))->SetLogy(0); |
sprintf(hname, "htdcdiff_cut"); |
for(int ich = 0;ich<4;ich++) { |
(c[cc]->cd(ich+1))->SetLogy(1); |
sprintf(hname, "hctdc%d", chmap[ich]); |
hp1d = DrTH1F(dir, hname, ""); |
//~ hp1d->Rebin(rebin_tdcs); |
sprintf(htitle, "corTDC%d - TRIGGER;Time [ns];Count", chmap[ich]); hp1d->SetTitle(htitle); |
hp1d->GetXaxis()->SetRangeUser(-30,30); |
//~ hp1d->GetYaxis()->SetRangeUser(0.9,hp1d->GetMaximum()*1.1); |
hp1d->SetLineColor(kBlack); |
hp1d->GetXaxis()->SetRangeUser(drawmin,drawmax); |
hp1d->GetYaxis()->SetRangeUser(0.0,hp1d->GetMaximum()*1.1); |
sprintf(fullname, ";Coincidence Time [ns];Counts"); |
hp1d->SetTitle(fullname); |
hp1d->DrawClone(); |
|
if( strcmp(fitopt, "cgg")==0 ) { |
f_fit = fcgg; |
f_fit->SetParameters(hp1d->GetMaximum()*0.1, |
hp1d->GetMaximum()*0.4, 0, 0.8, |
hp1d->GetMaximum()*0.5, 0, 0.05); |
f_fit->SetParLimits(0, 0, hp1d->GetMaximum()); |
f_fit->SetParLimits(1, 0, hp1d->GetMaximum()); |
f_fit->SetParLimits(2, fitmin,fitmax); |
f_fit->SetParLimits(3, 0.05, 1); |
f_fit->SetParLimits(4, 0, hp1d->GetMaximum()); |
f_fit->SetParLimits(5, fitmin,fitmax); |
f_fit->SetParLimits(6, 0.01, 1); |
} else if(strcmp(fitopt, "cggg")==0) { |
f_fit = fcggg; |
f_fit->SetParameters(hp1d->GetMaximum()*0.1, |
hp1d->GetMaximum()*0.4, 0, 0.4, |
hp1d->GetMaximum()*0.4, 0, 0.2, |
hp1d->GetMaximum()*0.1, 0, 0.05); |
f_fit->SetParLimits(0, 0, hp1d->GetMaximum()); |
f_fit->SetParLimits(1, 0, hp1d->GetMaximum()); |
f_fit->SetParLimits(2, fitmin,fitmax); |
f_fit->SetParLimits(3, 0.01, 1); |
f_fit->SetParLimits(4, 0, hp1d->GetMaximum()); |
f_fit->SetParLimits(5, fitmin,fitmax); |
f_fit->SetParLimits(6, 0.05, 1); |
f_fit->SetParLimits(7, 0, hp1d->GetMaximum()); |
f_fit->SetParLimits(8, fitmin,fitmax); |
f_fit->SetParLimits(9, 0.2, 1); |
} else if(strcmp(fitopt, "nocrystal")==0) |
{ f_fit = f_nocrystal; |
|
//~ f_fit->SetParameters(4000,0.87,0.03,0.03,0.28,0.1,200,200,0.01); |
f_fit->SetParameters(200,0.8,0.0,0.03,0.0,0.1,-0.13,0.13,10.16); |
f_fit->SetParLimits(0,0,10000); |
f_fit->SetParLimits(1,0,1); |
f_fit->SetParLimits(2,-0.02,0.02); |
f_fit->SetParLimits(3,0.01,0.3); |
f_fit->SetParLimits(4,-0.02,0.02); |
f_fit->SetParLimits(5,0,0.8); |
f_fit->SetParLimits(6,-0.5,0.0); |
f_fit->SetParLimits(7,0.0,0.5); |
f_fit->SetParLimits(8,0.00,9000.5); |
//~ f_fit->FixParameter(6, 100); |
//~ f_fit->FixParameter(7, 100); |
//~ |
|
} else if(strcmp(fitopt, "crystal")==0) |
{ |
f_fit = f_crystal; |
//~ f_fit->SetParameters(0.1,300,0.8,0,0.07,0.01,0,0.028,0,0.15,0,0,-0.2,0.2,-0.2,0.2); |
f_fit->SetParameter(0, 0.1); |
f_fit->SetParameter(1, 300); |
f_fit->SetParameter(2, 0.8); |
f_fit->SetParameter(3, 0.); |
f_fit->SetParameter(4, 0.07); |
f_fit->SetParameter(5, 0.01); |
f_fit->SetParameter(6, 0.0); |
f_fit->SetParameter(7, 0.028); |
f_fit->SetParameter(8, 0.0); |
f_fit->SetParameter(9, 0.15); |
f_fit->SetParameter(10, 0.0); |
f_fit->SetParameter(11, 0.0); |
f_fit->SetParameter(12, -0.2); |
f_fit->SetParameter(13, 0.2); |
f_fit->SetParameter(14, -0.2); |
f_fit->SetParameter(15, 0.2); |
f_fit->SetParameter(15, 0.2); |
|
f_fit->SetParLimits(0, 0, 10); |
f_fit->SetParLimits(1, 0, 1000); |
f_fit->SetParLimits(2, 0, 1); |
f_fit->SetParLimits(3, -0.02, 0.02); f_fit->SetParLimits(4, 0, 0.3); |
f_fit->SetParLimits(5, 0, 1); f_fit->SetParLimits(6, -0.02, 0.02); |
f_fit->SetParLimits(7, 0, 0.035); |
f_fit->SetParLimits(8, -0.02, 0.02); |
f_fit->SetParLimits(9, 0, 0.2); |
f_fit->SetParLimits(10, -0.02, 0.02); |
f_fit->SetParLimits(11, -0.02, 0.02); |
f_fit->SetParLimits(12, -0.04, 0); |
f_fit->SetParLimits(13, 0, 0.04); |
f_fit->SetParLimits(14, -0.04, 0); |
f_fit->SetParLimits(15, 0, 0.04); |
|
} else if(strcmp(fitopt, "crystal1")==0) |
{ |
f_fit = f_crystal1; |
//~ f_fit->SetParameters(0.1,300,0.8,0,0.07,0.01,0,0.028,0,0.15,0,0,-0.2,0.2,-0.2,0.2); |
f_fit->SetParameter(0, 100.1); |
f_fit->SetParameter(1, 1); |
f_fit->SetParameter(2, 0.2); //prob. window |
f_fit->SetParameter(3, 0.0); |
f_fit->SetParameter(4, 0.02); // window sigma |
f_fit->SetParameter(5, 0.0); |
f_fit->SetParameter(6, 120/3.3/1000); //crystal sigma |
f_fit->SetParameter(7, 0.0); |
f_fit->SetParameter(8, 0.15); // mcp sigma |
f_fit->SetParameter(9, -0.1825); //cw |
f_fit->SetParameter(10, 0.1825); |
f_fit->SetParameter(11, -0.2); //wm |
f_fit->SetParameter(12, 0.2); |
f_fit->SetParameter(13, -0.3); //cm |
f_fit->SetParameter(14, 0.3); |
f_fit->SetParameter(15, 1/0.6795 -1.); |
f_fit->SetParameter(16, 0.1); |
f_fit->SetParameter(1, hp1d->GetMaximum()/(f_fit->Eval(0)-f_fit->GetParameter(0))); |
|
|
f_fit->SetParLimits(0, 0, 400); |
f_fit->SetParLimits(1, 0, 100000); |
f_fit->SetParLimits(2, 0, 1.); |
f_fit->SetParLimits(3, -0.025, 0.025); |
f_fit->SetParLimits(4, 0.02, 0.08); |
f_fit->SetParLimits(5, -0.025, 0.025); |
f_fit->SetParLimits(6, 0.01, 0.2); |
f_fit->SetParLimits(7, -0.025, 0.025); |
f_fit->SetParLimits(8, 0, 0.5); |
f_fit->SetParLimits(9, -0.6, 0.02); |
f_fit->SetParLimits(10, -0.02, 0.6); |
f_fit->SetParLimits(11, -0.3, -0.1); |
f_fit->SetParLimits(12, 0.1, 0.3); |
f_fit->SetParLimits(13, -0.7, -0.1); |
f_fit->SetParLimits(14, 0.1, 0.7); |
f_fit->SetParLimits(15, 0, 0.999); |
f_fit->SetParLimits(16, 0, 1); |
f_fit->FixParameter(4,0.02668); |
//~ f_fit->FixParameter(6,0.048); |
f_fit->FixParameter(8,0.0877); |
f_fit->FixParameter(11,-0.19); |
f_fit->FixParameter(12,0.19); |
//~ |
ratio_r = 1/0.6795 -1.; |
//~ ratio_r = 1/0.8089 -1.; |
f_fit->FixParameter(15,ratio_r); |
//~ f_fit->FixParameter(16,1); |
//~ f_fit->FixParameter(2,0.52); |
//~ f_fit->FixParameter(6,170/3.3/1000); |
//~ f_fit->FixParameter(3,0); |
//~ f_fit->FixParameter(5,0); |
//~ f_fit->FixParameter(7,0); |
|
//~ cout<<"hogeeeeeeeeeeee "<<f_fit->GetParameter(1)*((1.-5./3.*(f_fit->GetParameter(2)))*(4./6.*(f_fit->GetParameter(2))))<<endl; |
} |
//~ f_fit->SetRange(fitmin,fitmax); |
f_fit->SetRange(-10,10); |
f_fit->SetLineWidth(1); f_fit->SetLineStyle(2); |
f_fit->SetNpx(300); |
//~ hp1d->Fit(f_fit, "QWW", "", fitmin,fitmax); |
//~ hp1d->Fit(f_fit, "ILM+", "", -0.4,0.4); |
//~ |
hp1d->Fit(f_fit, "LM+", "", -.5,.5); |
//~ hp1d->Draw(); |
//~ f_fit->Draw("same"); //f_fit->SetLineColor(6); |
|
f_fit->SetLineColor(1); |
hp1d->GetXaxis()->SetRangeUser(-1.5,2); |
|
gStyle->SetOptFit(1111); |
double wmsigma = sqrt(f_fit->GetParameter(3)**2 + f_fit->GetParameter(5)**2); |
|
double cm1sigma = sqrt(f_fit->GetParameter(6)**2 + f_fit->GetParameter(8)**2); |
double wm1sigma = sqrt(f_fit->GetParameter(4)**2 + f_fit->GetParameter(8)**2); |
double cw1sigma = sqrt(f_fit->GetParameter(6)**2 + f_fit->GetParameter(4)**2); |
|
|
//kobayashi |
TPaveStats* st1 = (TPaveStats*) hp1d->FindObject("stats"); |
st1->SetX1NDC(0.63); st1->SetX2NDC(0.99); |
st1->SetY1NDC(0.24); st1->SetY2NDC(0.99); |
|
double pw = f_fit->GetParameter(2); |
double pm = f_fit->GetParameter(15)*f_fit->GetParameter(2); |
double pc = 1-pw - pm; |
|
double rate = pw**2 + pm**2 + 2*pw*pm; |
double sumrate = pw**2+pm**2+pc**2+2*pw*pm+2*pm*pc+2*pc*pw*f_fit->GetParameter(16)**2; |
|
cout<<"pw = "<<pw<<" pm = "<<pm<<" pc = "<<pc<<endl; |
cout<<"rate = "<<rate<<" sumrate = "<<sumrate<<" rate/sumrate = "<<rate/sumrate<<endl; |
cout<<" FWHM_sim = "<<f_fit->GetParameter(6)*sqrt(2)*2.35<<endl; |
|
if(strcmp(fitopt, "nocrystal")==0) |
{ |
//~ TF1 *fg_WW = new TF1("fg_WW","[0]*exp(-(x-[1])**2/2/([3]**2))/sqrt(2*3.141592*[2]*[2])"); |
//~ TF1 *fg_MM = new TF1("fg_MM","[0]*exp(-(x-[1])**2/2/([3]**2))/sqrt(2*3.141592*[2]*[2])"); |
//~ TF1 *fg_WM1 = new TF1("fg_WM1","[0]*exp(-(x-[1])**2/2/([3]**2))/sqrt(2*3.141592*[2]*[2])"); |
//~ TF1 *fg_WM2 = new TF1("fg_WM2","[0]*exp(-(x-[1])**2/2/([3]**2))/sqrt(2*3.141592*[2]*[2])"); |
TF1 *fg_WW = new TF1("fg_WW","[0]*TMath::Gaus(x,[1],[2],1)");fg_WW->SetNpx(300); |
TF1 *fg_MM = new TF1("fg_MM","[0]*TMath::Gaus(x,[1],[2],1)");fg_MM->SetNpx(300); |
TF1 *fg_WM1 = new TF1("fg_WM1","[0]*TMath::Gaus(x,[1],[2],1)"); fg_WM1->SetNpx(300); |
TF1 *fg_WM2 = new TF1("fg_WM2","[0]*TMath::Gaus(x,[1],[2],1)"); fg_WM2->SetNpx(300); |
fg_WW -> SetParameters(f_fit->GetParameter(1)**2*f_fit->GetParameter(0),f_fit->GetParameter(2),sqrt(2)*f_fit->GetParameter(3)); |
fg_MM -> SetParameters((1-f_fit->GetParameter(1))**2*f_fit->GetParameter(0),f_fit->GetParameter(4),sqrt(2)*f_fit->GetParameter(5)); |
fg_WM1 -> SetParameters(f_fit->GetParameter(0)*(1-f_fit->GetParameter(1))*f_fit->GetParameter(1),f_fit->GetParameter(6),wmsigma); |
fg_WM2 -> SetParameters(f_fit->GetParameter(0)*(1-f_fit->GetParameter(1))*f_fit->GetParameter(1),f_fit->GetParameter(7),wmsigma); |
|
fg_WW->Draw("sames"); fg_WW->SetLineColor(kYellow+1); fg_WW->SetRange(-10,10); |
fg_MM->Draw("sames"); fg_MM->SetLineColor(kMagenta-7); fg_MM->SetRange(-10,10); |
fg_WM1->Draw("sames"); fg_WM1->SetLineColor(kRed-4); fg_WM1->SetRange(-10,10); |
fg_WM2->Draw("sames"); fg_WM2->SetLineColor(kRed-4); fg_WM2->SetRange(-10,10); |
|
double integ_WW, integ_MM, integ_WM1, integ_WM2; |
integ_WW = fg_WW->Integral(-4,4); |
} |
if(strcmp(fitopt, "crystal1")==0) |
{ |
TF1 *fg_CC = new TF1("fg_CC","[0]*TMath::Gaus(x,[1],[2],1)"); fg_CC->SetNpx(300); |
TF1 *fg_WW = new TF1("fg_WW","[0]*TMath::Gaus(x,[1],[2],1)"); fg_WW->SetNpx(300); |
TF1 *fg_MM = new TF1("fg_MM","[0]*TMath::Gaus(x,[1],[2],1)"); fg_MM->SetNpx(300); |
TF1 *fg_WM1 = new TF1("fg_WM1","[0]*TMath::Gaus(x,[1],[2],1)"); fg_WM1->SetNpx(300); |
TF1 *fg_WM2 = new TF1("fg_WM2","[0]*TMath::Gaus(x,[1],[2],1)"); fg_WM2->SetNpx(300); |
TF1 *fg_CW1 = new TF1("fg_CW1","[0]*TMath::Gaus(x,[1],[2],1)"); fg_CW1->SetNpx(300); |
TF1 *fg_CW2 = new TF1("fg_CW2","[0]*TMath::Gaus(x,[1],[2],1)"); fg_CW2->SetNpx(300); |
TF1 *fg_CM1 = new TF1("fg_CM1","[0]*TMath::Gaus(x,[1],[2],1)"); fg_CM1->SetNpx(300); |
TF1 *fg_CM2 = new TF1("fg_CM2","[0]*TMath::Gaus(x,[1],[2],1)"); fg_CM2->SetNpx(300); |
|
|
// normalize |
fg_CC -> SetParameters((1.-(1+f_fit->GetParameter(15))*f_fit->GetParameter(2))**2*f_fit->GetParameter(1),f_fit->GetParameter(5),sqrt(2)*f_fit->GetParameter(6)); |
fg_WW -> SetParameters(f_fit->GetParameter(2)**2*f_fit->GetParameter(1),f_fit->GetParameter(3),sqrt(2)*f_fit->GetParameter(4)); |
fg_MM -> SetParameters((f_fit->GetParameter(15)*f_fit->GetParameter(2))**2*f_fit->GetParameter(1),f_fit->GetParameter(7),sqrt(2)*f_fit->GetParameter(8)); |
fg_WM1 -> SetParameters(f_fit->GetParameter(1)*(f_fit->GetParameter(15)*f_fit->GetParameter(2))*f_fit->GetParameter(2),f_fit->GetParameter(11),wm1sigma); |
fg_WM2 -> SetParameters(f_fit->GetParameter(1)*(f_fit->GetParameter(15)*f_fit->GetParameter(2))*f_fit->GetParameter(2),f_fit->GetParameter(12),wm1sigma); |
fg_CW1 -> SetParameters(f_fit->GetParameter(1)*f_fit->GetParameter(16)*(1.-(1+f_fit->GetParameter(15))*f_fit->GetParameter(2))*f_fit->GetParameter(2),f_fit->GetParameter(9),cw1sigma); |
fg_CW2 -> SetParameters(f_fit->GetParameter(1)*f_fit->GetParameter(16)*(1.-(1+f_fit->GetParameter(15))*f_fit->GetParameter(2))*f_fit->GetParameter(2),f_fit->GetParameter(10),cw1sigma); |
fg_CM1 -> SetParameters(f_fit->GetParameter(1)*(ratio_r*f_fit->GetParameter(2))*(1.-(1+f_fit->GetParameter(15))*f_fit->GetParameter(2)),f_fit->GetParameter(13),cm1sigma); |
fg_CM2 -> SetParameters(f_fit->GetParameter(1)*(ratio_r*f_fit->GetParameter(2))*(1.-(1+f_fit->GetParameter(15))*f_fit->GetParameter(2)),f_fit->GetParameter(14),cm1sigma); |
|
//non normalize |
//~ fg_CC -> SetParameters((1.-5./3.*f_fit->GetParameter(2))**2*f_fit->GetParameter(1),f_fit->GetParameter(5),sqrt(2)*f_fit->GetParameter(6)); |
//~ fg_WW -> SetParameters(f_fit->GetParameter(2)**2*f_fit->GetParameter(1),f_fit->GetParameter(3),sqrt(2)*f_fit->GetParameter(4)); |
//~ fg_MM -> SetParameters((4./6.*f_fit->GetParameter(2))**2*f_fit->GetParameter(1),f_fit->GetParameter(7),sqrt(2)*f_fit->GetParameter(8)); |
//~ fg_WM1 -> SetParameters(f_fit->GetParameter(1)*(4./6.*f_fit->GetParameter(2))*f_fit->GetParameter(2),f_fit->GetParameter(11),wm1sigma); |
//~ fg_WM2 -> SetParameters(f_fit->GetParameter(1)*(4./6.*f_fit->GetParameter(2))*f_fit->GetParameter(2),f_fit->GetParameter(12),wm1sigma); |
//~ fg_CW1 -> SetParameters(f_fit->GetParameter(1)*(1.-5./3*f_fit->GetParameter(2))*f_fit->GetParameter(2),f_fit->GetParameter(9),cw1sigma); |
//~ fg_CW2 -> SetParameters(f_fit->GetParameter(1)*(1.-5./3*f_fit->GetParameter(2))*f_fit->GetParameter(2),f_fit->GetParameter(10),cw1sigma); |
//~ fg_CM1 -> SetParameters(f_fit->GetParameter(1)*(4./6.*f_fit->GetParameter(2))*(1.-5./3*f_fit->GetParameter(2)),f_fit->GetParameter(13),cm1sigma); |
//~ fg_CM2 -> SetParameters(f_fit->GetParameter(1)*(4./6.*f_fit->GetParameter(2))*(1.-5./3*f_fit->GetParameter(2)),f_fit->GetParameter(14),cm1sigma); |
|
|
fg_CC->Draw("sames"); fg_CC->SetLineColor(kCyan-5); fg_CC->SetRange(-10,10); |
fg_WW->Draw("sames"); fg_WW->SetLineColor(kYellow+1); fg_WW->SetRange(-10,10); |
fg_MM->Draw("sames"); fg_MM->SetLineColor(kMagenta-7); fg_MM->SetRange(-10,10); |
fg_CW1->Draw("sames"); fg_CW1->SetLineColor(kGreen+2); fg_CW1->SetRange(-10,10); |
fg_CW2->Draw("sames"); fg_CW2->SetLineColor(kGreen+2); fg_CW2->SetRange(-10,10); |
fg_WM1->Draw("sames"); fg_WM1->SetLineColor(kRed-4); fg_WM1->SetRange(-10,10); |
fg_WM2->Draw("sames"); fg_WM2->SetLineColor(kRed-4); fg_WM2->SetRange(-10,10); |
fg_CM1->Draw("sames"); fg_CM1->SetLineColor(kBlue+2); fg_CM1->SetRange(-10,10); |
fg_CM2->Draw("sames"); fg_CM2->SetLineColor(kBlue+2); fg_CM2->SetRange(-10,10); |
} |
|
HalfMax = f_fit->GetMaximum(fitmin, fitmax)/2.0; |
MinHalfMax = f_fit->GetX(HalfMax, fitmin, fitcenter); |
MaxHalfMax = f_fit->GetX(HalfMax, fitcenter, fitmax); |
FWHM = MaxHalfMax - MinHalfMax; |
|
HalfMax = (f_fit->GetMaximum(fitmin, fitmax) + f_fit->GetParameter(0))/2.0; |
MinHalfMax = f_fit->GetX(HalfMax, fitmin, f_fit->GetMaximumX(fitmin, fitmax)); |
MaxHalfMax = f_fit->GetX(HalfMax, f_fit->GetMaximumX(fitmin, fitmax), fitmax); |
FWHMc = MaxHalfMax - MinHalfMax; |
|
printf("(f) HalfMax = %.3lf ns | MinHalfMax = %.3lf ns | MaxHalfMax = %.3lf ns\n", HalfMax, MinHalfMax, MaxHalfMax); |
printf("(f) FWHM (peak only) = %.3lf ns\n", FWHMc); |
|
f_integrate = fgg; |
for(int i=0; i<6; i++) f_integrate->SetParameter(i, f_fit->GetParameter(i+1)); |
//~ for(int i=0; i<9; i++) f_integrate->SetParameter(i, f_fit->GetParameter(i+1)); |
//~ fgg->SetRange(drawmin, drawmax); fgg->SetNpx(300); fgg->SetLineColor(kBlue); fgg->SetLineWidth(1); fgg->DrawClone("LSAME"); |
double Icherenkovs = f_integrate->Integral(drawmin, drawmax)/hp1d->GetBinWidth(1); |
|
double Iall = f_fit->Integral(fitmin, fitmax)/hp1d->GetBinWidth(1); |
double Rsn = Icherenkovs/(Iall-Icherenkovs); |
|
//~ double Ientr = hp1d->GetEntries()*hp1d->GetBinWidth(1); |
double Ientr = hp1d->GetEntries(); |
double Rsne = Icherenkovs/(Ientr-Icherenkovs); |
|
//~ double Ihist = hp1d->Integral(1, hp1d->GetNbinsX()-1)*hp1d->GetBinWidth(1); |
double Ihist = hp1d->Integral(1, hp1d->GetNbinsX()-1); |
double Rsnh = Icherenkovs/(Ihist-Icherenkovs); |
|
double Icherenkovs_10ns = f_integrate->Integral(-10, 10)/hp1d->GetBinWidth(1); |
fc->SetParameter(0, f_fit->GetParameter(0)); |
double Inoise_10ns = fc->Integral(-10, 10)/hp1d->GetBinWidth(1); |
double R10ns = Icherenkovs_10ns/Inoise_10ns; |
|
double Icherenkovs_4ns = f_integrate->Integral(-4, 4)/hp1d->GetBinWidth(1); |
fc->SetParameter(0, f_fit->GetParameter(0)); |
double Inoise_4ns = fc->Integral(-4, 4)/hp1d->GetBinWidth(1); |
double R4ns = Icherenkovs_4ns/Inoise_4ns; |
|
double Icherenkovs_2ns = f_integrate->Integral(-2, 2)/hp1d->GetBinWidth(1); |
fc->SetParameter(0, f_fit->GetParameter(0)); |
double Inoise_2ns = fc->Integral(-2, 2)/hp1d->GetBinWidth(1); |
double R2ns = Icherenkovs_2ns/Inoise_2ns; |
|
//~ printf("ICherenkov = %lf | IAll = %lf | Ientr = %lf | Ihist = %lf\n", Icherenkovs, Iall, Ientr, Ihist); |
printf("Icherenkovs_4ns = %.0lf\n", Icherenkovs_4ns); |
//~ printf("TF1 -> S/N = %lf || TH1F(e) -> S/N = %lf || TH1F(i) -> S/N = %lf\n", Rsn, Rsne, Rsnh); |
//~ printf("S/N (All) = %lf\n", Rsnh); |
printf("S/N (10ns) = %.2lf\n", R10ns); |
printf("S/N (4 ns) = %.2lf\n", R4ns); |
printf("S/N (2 ns) = %.2lf\n", R2ns); |
|
leg[++legi] = new TLegend(0.12,0.4,0.43,0.925); |
leg[legi]->SetFillColor(0); leg[legi]->SetBorderSize(1); leg[legi]->SetTextSize(0.05); leg[legi]->SetTextAlign(12); |
|
sprintf(fullname, "FWHM_fit = %.0lf ps", 1000*FWHMc); |
//~ leg[legi]->AddEntry((TF1*)f_fit->Clone(), fullname, "L"); |
leg[legi]->AddEntry((TF1*)f_fit->Clone(), fullname, ""); |
|
sprintf(fullname, "FWHM_c = %.0lf ps", 1000*f_fit->GetParameter(6)*2.35*sqrt(2)); |
leg[legi]->AddEntry((TF1*)f_fit->Clone(), fullname, ""); |
|
//~ sprintf(fullname, "S/N (#pm10ns) = %.1lf", R10ns); |
//~ leg[legi]->AddEntry((TF1*)f_fit->Clone(), fullname, ""); |
//~ sprintf(fullname, "S/N (#pm 4ns) = %.1lf", R4ns); |
//~ leg[legi]->AddEntry((TF1*)f_fit->Clone(), fullname, ""); |
//~ sprintf(fullname, "S/N (#pm 2ns) = %.1lf", R2ns); |
//~ leg[legi]->AddEntry((TF1*)f_fit->Clone(), fullname, ""); |
|
//kobayashi |
sprintf(fullname, "R_w = %.2f" , pw); |
leg[legi]->AddEntry((TF1*)f_fit->Clone(), fullname, ""); |
sprintf(fullname, "R_m = %.2f" , pm); |
leg[legi]->AddEntry((TF1*)f_fit->Clone(), fullname, ""); |
sprintf(fullname, "R_c = %.2f" , pc); |
leg[legi]->AddEntry((TF1*)f_fit->Clone(), fullname, ""); |
sprintf(fullname, "R_w&m = %.2f" , rate); |
leg[legi]->AddEntry((TF1*)f_fit->Clone(), fullname, ""); |
sprintf(fullname, "R_sum = %.2f" , sumrate); |
leg[legi]->AddEntry((TF1*)f_fit->Clone(), fullname, ""); |
sprintf(fullname, "R_w&m/sum = %.2f" , rate/sumrate); |
leg[legi]->AddEntry((TF1*)f_fit->Clone(), fullname, ""); |
|
|
leg[legi]->Draw(); |
|
if(draw_cuts) { |
sprintf(hname, "htdcdiff_cut"); |
sprintf(hname, "hctdc_cut%d", chmap[ich]); |
hp1dcut = DrTH1F(dir, hname, ""); |
hp1dcut->Rebin(rebin_tdcs); |
hp1dcut->SetLineColor(kRed); |
hp1dcut->DrawClone("SAME"); |
|
sprintf(hname, "htdcdiff_cut_2"); |
hp1dcut = DrTH1F(dir, hname, ""); |
hp1dcut->Rebin(rebin_tdcs); |
hp1dcut->SetLineColor(kGreen); |
hp1dcut->DrawClone("SAME"); |
} |
|
sprintf(fullname, "gif/f_%s.gif", fname); c[cc]->SaveAs(fullname); |
sprintf(fullname, "eps/f_%s.eps", fname); c[cc]->SaveAs(fullname); |
cout<< "maximum x value = " << hp1d->GetXaxis()->GetBinCenter( hp1d->GetMaximumBin())<<endl; |
if(batch_q) gSystem->Exit(1); |
} |
|
sprintf(fullname, "gif/%s_f.gif", fname); c[cc]->SaveAs(fullname); |
} |
|
// ------------------------------------------------------------------- |
|
if( strchr(plopt, 'd') != NULL ) { |
|
DrSetDrawStyle(0.05); |
|
gStyle->SetOptStat("e"); |
//~ gStyle->SetOptStat(0); |
gStyle->SetOptFit(1); |
//~ gStyle->SetOptFit(0); |
|
gStyle->SetPadRightMargin(0.03); |
gStyle->SetPadTopMargin(0.05); |
gStyle->SetPadBottomMargin(0.12); |
gStyle->SetStatFontSize(0.05); |
gStyle->SetStatX(0.97); |
gStyle->SetStatY(0.95); |
|
c[++cc] = new TCanvas("d", "d", 0, 0, 720, 400); |
//~ c[cc]->Divide(2,2); |
|
int draw_cuts = 0; |
int rebin_tdcs = 1; |
|
double drawmin = -10; |
double drawmax = +10; |
//~ double fitmin = inmin; |
//~ double fitmax = inmax; |
double fitmin = -10; |
double fitmax = 10; |
double fitcenter = 0.0; |
double HalfMax, MinHalfMax, MaxHalfMax, FWHM, FWHMc; |
|
int ccccdi = 0; |
int ich = 0; |
|
TF1 *f_fit; |
TF1 *f_integrate; |
|
TF1 *fc = new TF1("fc", "pol0(0)"); |
|
TF1 *fcg = new TF1("fcg", "pol0(0)+gaus(1)"); fcg->SetNpx(300); |
fcg->SetParName(0,"Const"); fcg->SetParName(1,"G_Const"); |
fcg->SetParName(2,"G_Mean" ); fcg->SetParName(3,"G_Sigma" ); |
|
TF1 *fcgg = new TF1("fcgg", "pol0(0)+gaus(1)+gaus(4)"); fcgg->SetNpx(300); |
fcgg->SetParName(0,"Const"); |
fcgg->SetParName(1,"G1_Const"); fcgg->SetParName(2,"G1_Mean" ); fcgg->SetParName(3,"G1_Sigma" ); |
fcgg->SetParName(4,"G2_Const"); fcgg->SetParName(5,"G2_Mean" ); fcgg->SetParName(6,"G2_Sigma" ); |
|
TF1 *fcggg = new TF1("fcggg", "pol0(0)+gaus(1)+gaus(4)+gaus(7)"); fcggg->SetNpx(300); |
fcggg->SetParName(0,"Const"); |
fcggg->SetParName(1,"G1_Const"); fcggg->SetParName(2,"G1_Mean" ); fcggg->SetParName(3,"G1_Sigma" ); |
fcggg->SetParName(4,"G2_Const"); fcggg->SetParName(5,"G2_Mean" ); fcggg->SetParName(6,"G2_Sigma" ); |
fcggg->SetParName(7,"G3_Const"); fcggg->SetParName(8,"G3_Mean" ); fcggg->SetParName(9,"G3_Sigma" ); |
|
(c[cc]->cd(++ccccdi))->SetLogy(0); |
//~ sprintf(hname, "htdcdiff"); |
sprintf(hname, "htdcdiff_cut"); |
hp1d = DrTH1F(dir, hname, ""); |
//~ hp1d->Rebin(rebin_tdcs); |
hp1d->SetLineColor(kBlack); |
hp1d->GetXaxis()->SetRangeUser(drawmin,drawmax); |
hp1d->GetYaxis()->SetRangeUser(0.0,hp1d->GetMaximum()*1.1); |
//~ hp1d->GetYaxis()->SetRangeUser(0.0,hp1d->GetMaximum()*2); |
sprintf(fullname, ";Coincidence Time [ns];Counts"); |
hp1d->SetTitle(fullname); |
|
//kobayashi |
//~ fitmin = hp1d->GetXaxis()->GetBinCenter(hp1d->GetMaximumBin()) - hp1d->GetRMS()/15; |
//~ fitmax = hp1d->GetXaxis()->GetBinCenter(hp1d->GetMaximumBin()) + hp1d->GetRMS()/15; |
|
//~ if( strcmp(fname, "run000")==0 ) { |
//~ f_fit = fcg; |
//~ f_fit->SetParameters(hp1d->GetMaximum()*0.1, |
//~ hp1d->GetMaximum()*0.9, 0, 0.05); |
//~ } else if( strcmp(fname, "run061")==0 || |
//~ strcmp(fname, "run062")==0 || |
//~ strcmp(fname, "run063")==0 || |
//~ strcmp(fname, "run064")==0 || |
//~ strcmp(fname, "run065")==0) { |
//~ f_fit = fcgg; |
//~ f_fit->SetParameters(hp1d->GetMaximum()*0.1, |
//~ hp1d->GetMaximum()*0.5, 0, 0.05, |
//~ hp1d->GetMaximum()*0.4, 0, 0.5); |
//~ } else { |
//~ f_fit = fcgg; |
//~ f_fit->SetParameters(hp1d->GetMaximum()*0.25, |
//~ hp1d->GetMaximum()*0.7, 0, 0.4, |
//~ hp1d->GetMaximum()*0.05, 0, 0.05); |
//~ f_fit->SetParLimits(0, 0, hp1d->GetMaximum()); |
//~ f_fit->SetParLimits(1, 0, hp1d->GetMaximum()); |
//~ f_fit->SetParLimits(2, fitmin,fitmax); |
//~ f_fit->SetParLimits(3, 0.2, 1); |
//~ f_fit->SetParLimits(4, 0, hp1d->GetMaximum()); |
//~ f_fit->SetParLimits(5, fitmin,fitmax); |
//~ if( strcmp(fname, "run059")==0 || |
//~ strcmp(fname, "run060")==0) |
//~ f_fit->SetParLimits(6, 0.02, 0.3); |
//~ else |
//~ f_fit->SetParLimits(6, 0.02, 0.2); |
//~ |
//~ } |
|
if( strcmp(fitopt, "cgg")==0 ) { |
f_fit = fcgg; |
f_fit->SetParameters(hp1d->GetMaximum()*0.1, |
hp1d->GetMaximum()*0.4, 0, 0.9, |
hp1d->GetMaximum()*0.5, 0, 0.05); |
f_fit->SetParLimits(0, 0, hp1d->GetMaximum()); |
f_fit->SetParLimits(1, hp1d->GetMaximum()*0.01, hp1d->GetMaximum()); |
f_fit->SetParLimits(2, fitmin,fitmax); |
f_fit->SetParLimits(3, 0.05, 1); |
f_fit->SetParLimits(4, hp1d->GetMaximum()*0.01, hp1d->GetMaximum()); |
f_fit->SetParLimits(5, fitmin,fitmax); |
f_fit->SetParLimits(6, 0.01, 1); |
} else if(strcmp(fitopt, "cggg")==0) { |
f_fit = fcggg; |
//original |
//~ f_fit->SetParameters(hp1d->GetMaximum()*0.01, |
//~ hp1d->GetMaximum()*0.4, 0, 0.4, |
//~ hp1d->GetMaximum()*0.4, 0, 0.2, |
//~ hp1d->GetMaximum()*0.1, 0, 0.05); |
//kobayashi |
double init_mean = hp1d->GetXaxis()->GetBinCenter(hp1d->GetMaximumBin()); |
f_fit->SetParameters(hp1d->GetMaximum()*0.0001, |
hp1d->GetMaximum()*0.01, init_mean , 0.04, |
hp1d->GetMaximum()*0.01, init_mean + 0.2, 0.03, |
hp1d->GetMaximum()*0.01, init_mean - 0.2, 0.03); |
f_fit->SetParLimits(0, 0, hp1d->GetMaximum()); |
f_fit->SetParLimits(1, 0, hp1d->GetMaximum()); |
f_fit->SetParLimits(2, fitmin,fitmax); |
f_fit->SetParLimits(3, 0.001, 1); |
f_fit->SetParLimits(4, hp1d->GetMaximum()*0.1, hp1d->GetMaximum()); |
f_fit->SetParLimits(5, fitmin,fitmax); |
f_fit->SetParLimits(6, 0.005, 3); |
f_fit->SetParLimits(7, hp1d->GetMaximum()*0.1, hp1d->GetMaximum()); |
f_fit->SetParLimits(8, fitmin,fitmax); |
f_fit->SetParLimits(9, 0.02, 5); |
} else if(strcmp(fitopt, "gg")==0) { |
f_fit = fgg; |
f_fit->SetParameters(hp1d->GetMaximum()*0.4, 0, 0.9, |
hp1d->GetMaximum()*0.5, 0, 0.05); |
f_fit->SetParLimits(0, hp1d->GetMaximum()*0.01, hp1d->GetMaximum()); |
f_fit->SetParLimits(1, fitmin,fitmax); |
f_fit->SetParLimits(2, 0.05, 1); |
f_fit->SetParLimits(3, hp1d->GetMaximum()*0.01, hp1d->GetMaximum()); |
f_fit->SetParLimits(4, fitmin,fitmax); |
f_fit->SetParLimits(5, 0.01, 1); |
} |
|
f_fit->SetRange(fitmin,fitmax); |
f_fit->SetLineWidth(1); f_fit->SetLineStyle(9); |
hp1d->Fit(f_fit, "QWW", "", fitmin,fitmax); |
//~ hp1d->Fit(f_fit, "QWW", "", -0.5,+0.5); |
|
//~ fg->SetRange(fitmin,fitmax); fg->SetLineWidth(1.0); |
//~ fg->SetParameters(f_fit->GetParameter(0+1), f_fit->GetParameter(1+1), f_fit->GetParameter(2+1)); fg->SetLineColor(kMagenta); fg->DrawCopy("LSAME"); |
//~ fg->SetParameters(f_fit->GetParameter(0+4), f_fit->GetParameter(1+4), f_fit->GetParameter(2+4)); fg->SetLineColor(kGreen); fg->DrawCopy("LSAME"); |
//~ fg->SetParameters(f_fit->GetParameter(0+7), f_fit->GetParameter(1+7), f_fit->GetParameter(2+7)); fg->SetLineColor(kYellow); fg->DrawCopy("LSAME"); |
|
|
HalfMax = f_fit->GetMaximum(fitmin, fitmax)/2.0; |
MinHalfMax = f_fit->GetX(HalfMax, fitmin, fitcenter); |
MaxHalfMax = f_fit->GetX(HalfMax, fitcenter, fitmax); |
FWHM = MaxHalfMax - MinHalfMax; |
|
HalfMax = (f_fit->GetMaximum(fitmin, fitmax) + f_fit->GetParameter(0))/2.0; |
MinHalfMax = f_fit->GetX(HalfMax, fitmin, f_fit->GetMaximumX(fitmin, fitmax)); |
MaxHalfMax = f_fit->GetX(HalfMax, f_fit->GetMaximumX(fitmin, fitmax), fitmax); |
FWHMc = MaxHalfMax - MinHalfMax; |
|
//~ printf("FWHM = %lf ns | FWHMc = %lf ns\n", FWHM, FWHMc); |
printf("(d) FWHM (peak only) = %.3lf ns\n", FWHMc); |
|
f_integrate = fgg; |
for(int i=0; i<6; i++) f_integrate->SetParameter(i, f_fit->GetParameter(i+1)); |
//~ for(int i=0; i<9; i++) f_integrate->SetParameter(i, f_fit->GetParameter(i+1)); |
//~ fgg->SetRange(drawmin, drawmax); fgg->SetNpx(300); fgg->SetLineColor(kBlue); fgg->SetLineWidth(1); fgg->DrawClone("LSAME"); |
double Icherenkovs = f_integrate->Integral(drawmin, drawmax)/hp1d->GetBinWidth(1); |
|
double Iall = f_fit->Integral(fitmin, fitmax)/hp1d->GetBinWidth(1); |
double Rsn = Icherenkovs/(Iall-Icherenkovs); |
|
//~ double Ientr = hp1d->GetEntries()*hp1d->GetBinWidth(1); |
double Ientr = hp1d->GetEntries(); |
double Rsne = Icherenkovs/(Ientr-Icherenkovs); |
|
//~ double Ihist = hp1d->Integral(1, hp1d->GetNbinsX()-1)*hp1d->GetBinWidth(1); |
double Ihist = hp1d->Integral(1, hp1d->GetNbinsX()-1); |
double Rsnh = Icherenkovs/(Ihist-Icherenkovs); |
|
double Icherenkovs_10ns = f_integrate->Integral(-10, 10)/hp1d->GetBinWidth(1); |
fc->SetParameter(0, f_fit->GetParameter(0)); |
double Inoise_10ns = fc->Integral(-10, 10)/hp1d->GetBinWidth(1); |
double R10ns = Icherenkovs_10ns/Inoise_10ns; |
|
double Icherenkovs_4ns = f_integrate->Integral(-4, 4)/hp1d->GetBinWidth(1); |
fc->SetParameter(0, f_fit->GetParameter(0)); |
double Inoise_4ns = fc->Integral(-4, 4)/hp1d->GetBinWidth(1); |
double R4ns = Icherenkovs_4ns/Inoise_4ns; |
|
double Icherenkovs_2ns = f_integrate->Integral(-2, 2)/hp1d->GetBinWidth(1); |
fc->SetParameter(0, f_fit->GetParameter(0)); |
double Inoise_2ns = fc->Integral(-2, 2)/hp1d->GetBinWidth(1); |
double R2ns = Icherenkovs_2ns/Inoise_2ns; |
|
//~ printf("ICherenkov = %lf | IAll = %lf | Ientr = %lf | Ihist = %lf\n", Icherenkovs, Iall, Ientr, Ihist); |
printf("Icherenkovs_4ns = %.0lf\n", Icherenkovs_4ns); |
//~ printf("TF1 -> S/N = %lf || TH1F(e) -> S/N = %lf || TH1F(i) -> S/N = %lf\n", Rsn, Rsne, Rsnh); |
//~ printf("S/N (All) = %lf\n", Rsnh); |
printf("S/N (10ns) = %.2lf\n", R10ns); |
printf("S/N (4 ns) = %.2lf\n", R4ns); |
printf("S/N (2 ns) = %.2lf\n", R2ns); |
|
//~ #define USE_NOISE_FILE |
|
#ifdef USE_NOISE_FILE |
//get ROOT file with histograms |
char fnameroot[1024]; |
TFile * rootfile2; |
TDirectory *dir2; |
|
//~ sprintf(fname, "run054"); |
sprintf(fname, "run_309"); |
sprintf(fnameroot, "root/%s.root", fname); |
rootfile2 = (TFile *) gROOT->FindObject(fname); |
if(rootfile2==NULL) rootfile2 = new TFile(fnameroot); |
if(rootfile2==NULL) { |
printf("Cannot open root file 2 %s!!!\n",fnameroot); |
return; |
} |
dir2 = (TDirectory*) rootfile2; |
|
sprintf(hname, "htdcdiff"); |
hp1dcut = DrTH1F(dir2, hname, ""); |
hp1dcut->SetLineColor(40); |
hp1dcut->SetLineStyle(2); |
hp1dcut->DrawClone("SAME"); |
|
leg[++legi] = new TLegend(0.125,0.5,0.425,0.925); |
leg[legi]->SetFillColor(0); leg[legi]->SetBorderSize(1); leg[legi]->SetTextSize(0.05); leg[legi]->SetTextAlign(12); |
|
leg[legi]->AddEntry((TH1F*)hp1d->Clone(), "With source", "L"); |
leg[legi]->AddEntry((TH1F*)hp1dcut->Clone(), "W/o source", "L"); |
#else |
leg[++legi] = new TLegend(0.125,0.625,0.425,0.925); |
leg[legi]->SetFillColor(0); leg[legi]->SetBorderSize(1); leg[legi]->SetTextSize(0.05); leg[legi]->SetTextAlign(12); |
#endif |
|
sprintf(fullname, "FWHM = %.0lf ps", 1000*FWHMc); |
leg[legi]->AddEntry((TF1*)f_fit->Clone(), fullname, "L"); |
sprintf(fullname, "S/N (#pm10ns) = %.1lf", R10ns); |
leg[legi]->AddEntry((TF1*)f_fit->Clone(), fullname, ""); |
sprintf(fullname, "S/N (#pm 4ns) = %.1lf", R4ns); |
leg[legi]->AddEntry((TF1*)f_fit->Clone(), fullname, ""); |
sprintf(fullname, "S/N (#pm 2ns) = %.1lf", R2ns); |
leg[legi]->AddEntry((TF1*)f_fit->Clone(), fullname, ""); |
leg[legi]->Draw(); |
|
if(draw_cuts) { |
sprintf(hname, "htdcdiff_cut"); |
hp1dcut = DrTH1F(dir, hname, ""); |
hp1dcut->Rebin(rebin_tdcs); |
hp1dcut->SetLineColor(kRed); |
hp1dcut->DrawClone("SAME"); |
|
sprintf(hname, "htdcdiff_cut_2"); |
hp1dcut = DrTH1F(dir, hname, ""); |
hp1dcut->Rebin(rebin_tdcs); |
hp1dcut->SetLineColor(kGreen); |
hp1dcut->DrawClone("SAME"); |
} |
|
sprintf(fullname, "gif/d_%s.gif", fname); c[cc]->SaveAs(fullname); |
sprintf(fullname, "eps/d_%s.eps", fname); c[cc]->SaveAs(fullname); |
|
if(batch_q) gSystem->Exit(1); |
} |
|
// ------------------------------------------------------------------- |
|
if( strchr(plopt, 'c') != NULL ) { |
|
//~ gStyle->SetOptStat(1111); |
//~ gStyle->SetOptFit(0); |
//gStyle->SetOptStat(1111); |
gStyle->SetOptStat(0); |
gStyle->SetOptFit(0); |
|
c[++cc] = new TCanvas("c", "c", 0, 0, 900, 700); |
//~ c[cc]->Divide(2,2); |
c[++cc] = new TCanvas("c", "c", 0, 0, 1600, 900); |
c[cc]->Divide(2,2); |
|
int ccccdi = 0; |
|
(c[cc]->cd(++ccccdi))->SetLogz(1); |
sprintf(hname, "htdccor"); |
int draw_cuts = 0; |
int chmap[] = {0,1,2,31}; |
|
for(int ich = 0;ich<4;ich++) { |
(c[cc]->cd(ich+1))->SetLogz(1); |
sprintf(hname, "hcor%d", chmap[ich]); |
hp2d = DrTH2F(dir, hname, ""); |
//~ hp2d->GetYaxis()->SetRangeUser(0,1500); |
//~ sprintf(fullname, "%s;QDC Reference 1275 keV; QDC Reference Coincidence", fname); |
//~ hp2d->SetTitle(fullname); |
sprintf(htitle, "TDC%d - TRIGGER;ADC;Time [ns];Count", chmap[ich]); hp2d->SetTitle(htitle); |
hp2d->GetXaxis()->SetRangeUser(0,2048); |
hp2d->DrawClone("COLZ"); |
|
//~ (c[cc]->cd(++ccccdi))->SetLogz(1); |
//~ sprintf(hname, "hcor%d",0); |
//~ hp2d = DrTH2F(dir, hname, ""); |
//~ hp2d->DrawClone("COLZ"); |
//~ |
//~ (c[cc]->cd(++ccccdi))->SetLogz(1); |
//~ sprintf(hname, "hcor%d",1); |
//~ hp2d = DrTH2F(dir, hname, ""); |
//~ hp2d->DrawClone("COLZ"); |
//~ |
//~ |
//~ (c[cc]->cd(++ccccdi))->SetLogz(1); |
//~ sprintf(hname, "hdiffcor_%d_%d",0,1); |
//~ hp2d = DrTH2F(dir, hname, ""); |
//~ hp2d->DrawClone("COLZ"); |
//~ |
//~ (c[cc]->cd(++ccccdi))->SetLogz(1); |
//~ sprintf(hname, "hdiffcor_%d_%d",1,0); |
//~ hp2d = DrTH2F(dir, hname, ""); |
//~ hp2d->DrawClone("COLZ"); |
|
sprintf(fullname, "gif/c_%s.gif", fname); c[cc]->SaveAs(fullname); |
} |
|
sprintf(fullname, "gif/%s_c.gif", fname); c[cc]->SaveAs(fullname); |
} |
|
// ------------------------------------------------------------------------------- |
// ------------------------------------------------------------------- |
//~ // ------------------------------------------------------------------- |
|
if( strchr(plopt, 't') != NULL ) { |
//~ if( strchr(plopt, 'c') != NULL ) { |
|
gStyle->SetOptStat(1111); |
//~ gStyle->SetOptStat(0); |
//~ gStyle->SetOptFit(0); |
|
c[++cc] = new TCanvas("c", "c", 0, 0, 700, 400); |
//~ c[cc]->Divide(2,2); |
//~ c[++cc] = new TCanvas("c", "c", 0, 0, 1600, 900); |
|
double drawmin = -1; |
double drawmax = 2; |
double fitmin = -1; |
double fitmax = 0.75; |
double fitcenter = 0.0; |
double HalfMax, MinHalfMax, MaxHalfMax, FWHM; |
|
int ccccdi = 0; |
|
//~ (c[cc]->cd(++ccccdi))->SetLogy(1); |
sprintf(hname, "hctdc%d", 0); |
hp1d = DrTH1F(dir, hname, ""); |
hp1d->SetTitle("Vov = 1.5V; Time [ns];"); |
hp1d->GetXaxis()->SetRangeUser(drawmin,drawmax); |
|
f_fit = fgg; |
f_fit->SetParameters(hp1d->GetMaximum()*0.9, 0, 0.1, |
hp1d->GetMaximum()*0.1, 0, 0.5); |
//~ f_fit->SetParLimits(1, 0, hp1d->GetMaximum()); |
//~ f_fit->SetParLimits(2, fitmin,fitmax); |
//~ f_fit->SetParLimits(3, 0.2, 1); |
//~ f_fit->SetParLimits(4, 0, hp1d->GetMaximum()); |
//~ f_fit->SetParLimits(5, fitmin,fitmax); |
|
f_fit->SetRange(fitmin,fitmax); |
f_fit->SetLineWidth(1); |
hp1d->Fit(f_fit, "Q", "", fitmin,fitmax); |
|
|
HalfMax = f_fit->GetMaximum(fitmin, fitmax)/2.0; |
MinHalfMax = f_fit->GetX(HalfMax, fitmin, fitcenter); |
MaxHalfMax = f_fit->GetX(HalfMax, fitcenter, fitmax); |
FWHM = MaxHalfMax - MinHalfMax; |
printf("FWHM = %.3lf ns\n", FWHM); |
|
fg->SetRange(-2,5); fg->SetLineWidth(1.0); |
fg->SetParameters(f_fit->GetParameter(0), f_fit->GetParameter(1), f_fit->GetParameter(2)); |
fg->SetLineColor(kGreen); fg->DrawClone("LSAME"); |
fg->SetParameters(f_fit->GetParameter(0+3), f_fit->GetParameter(1+3), f_fit->GetParameter(2+3)); |
fg->SetLineColor(kMagenta); fg->DrawClone("LSAME"); |
|
sprintf(fullname, "gif/t_%s.gif", fname); c[cc]->SaveAs(fullname); |
sprintf(fullname, "eps/t_%s.eps", fname); c[cc]->SaveAs(fullname); |
} |
|
// ------------------------------------------------------------------------------- |
// ------------------------------------------------------------------- |
|
if( strchr(plopt, 'e') != NULL ) { |
|
|
DrSetDrawStyle(0.05); |
|
gStyle->SetOptStat("e"); |
gStyle->SetOptFit(0); |
|
gStyle->SetPadRightMargin(0.03); |
gStyle->SetPadTopMargin(0.05); |
gStyle->SetPadBottomMargin(0.12); |
gStyle->SetStatFontSize(0.05); |
gStyle->SetStatX(0.97); |
gStyle->SetStatY(0.95); |
|
c[++cc] = new TCanvas("e_ref", "e_ref", 0, 0, 720, 400); |
|
|
int spectra_rebin = 0; |
int yaxis_max = 0; |
//~ int yaxis_max = 1200; |
//~ int xaxis_max = 2500; |
int xaxis_max = 3000; |
|
//~ double fitcenter = 1190.; |
//~ double fitw = 70.; |
//~ double Cher_min = 10; |
//~ double Cher_max = 16; |
double Cher_min = -120; |
double Cher_max = -110; |
//~ double const_min = 20; |
//~ double const_max = 80; |
double const_min = -250; |
double const_max = -200; |
int ccccdi = 0; |
|
if( strcmp(fname, "eff003")==0) {fitcenter=760.; fitw=100.;} |
if( strcmp(fname, "eff004")==0) {fitcenter=1220.; fitw=150.; spectra_rebin=8; yaxis_max=3300;} |
if( strcmp(fname, "eff005")==0) {fitcenter=1140.; fitw=60.;} |
if( strcmp(fname, "eff006")==0) {fitcenter=2050.; fitw=60.; xaxis_max=4000;} |
|
if( strcmp(fname, "eff012")==0) {Cher_min=13; Cher_max=15;} |
if( strcmp(fname, "eff013")==0) {Cher_min=12; Cher_max=14;} |
if( strcmp(fname, "eff014")==0) {Cher_min=12; Cher_max=14;} |
if( strcmp(fname, "eff015")==0) {Cher_min=12; Cher_max=14;} |
if( strcmp(fname, "eff016")==0) {Cher_min=12; Cher_max=14;} |
if( strcmp(fname, "eff017")==0) {Cher_min=12; Cher_max=14;} |
if( strcmp(fname, "eff018")==0) {Cher_min=12; Cher_max=14;} |
|
sprintf(hname, "hadc%d", 0); |
hp1d = DrTH1F(dir, hname, ""); |
hp1d->SetTitle("; Charge [200 fC/bin];Counts"); |
if(spectra_rebin) hp1d->Rebin(spectra_rebin); |
hp1d->SetLineColor(kBlack); |
hp1d->GetXaxis()->SetRangeUser(0,xaxis_max); |
if(yaxis_max) hp1d->GetYaxis()->SetRangeUser(0,yaxis_max); |
hp1d->Draw(); |
|
//~ printf("Photofraction ~ %lf\n", hp1d->Integral(1300,1700)/hp1d->Integral(0,1300)); |
|
f_fit = fg; |
f_fit->SetParameters(hp1d->GetMaximum()*0.1, fitcenter, fitw); |
|
f_fit->SetRange(fitcenter-fitw, fitcenter+fitw); |
f_fit->SetLineWidth(3); |
hp1d->Fit(f_fit, "0Q", "", fitcenter-fitw, fitcenter+fitw); |
f_fit->DrawClone("LSAME"); |
|
double PP_1sigma_min = f_fit->GetParameter(1)-f_fit->GetParameter(2); |
double PP_1sigma_max = f_fit->GetParameter(1)+f_fit->GetParameter(2); |
printf("PPcenter, PPwidth = %.0lf, %.0lf\n", f_fit->GetParameter(1), f_fit->GetParameter(2)); |
printf("PP+/-1sigma = [%.0lf, %.0lf]\n", PP_1sigma_min, PP_1sigma_max); |
printf("PP resolution = %.1lf\%% (FWHM = %.1lf\%%)\n", 100*f_fit->GetParameter(2)/f_fit->GetParameter(1), 235*f_fit->GetParameter(2)/f_fit->GetParameter(1)); |
|
// -------- 1275keV Compton estimation -------- |
|
// COMPTON EDGE |
//~ TF1 *fcompt = new TF1("fcompt", "[2]*(1 - ConstantStep(((x-[0])/[1]) - (1275.*(2*1275./511./(1+2*1275./511.)))))*(2 + (((x-[0])/[1])/1275.)^2/((1275./511.)^2*(1 - (((x-[0])/[1])/1275.))^2) + (((x-[0])/[1])/1275.)*((((x-[0])/[1])/1275.) - 2/(1275./511.))/(1 - (((x-[0])/[1])/1275.)))/(1275./511.)^2"); |
//~ TF1 *fcomhi = new TF1("fcomhi", "gaus(0)+fcompt"); |
//~ fcomhi->SetNpx(500); fcomhi->SetLineWidth(1); fcomhi->SetLineColor(6); |
//~ double comhi_range_low = 1670.; |
//~ //double comhi_range_hi = 2130.; |
//~ double comhi_range_hi = 2070.; |
//~ fcomhi->SetParameters(2000., 1710., 50., 100, 2, 200); |
//~ fcomhi->SetRange(comhi_range_low, comhi_range_hi); |
//~ hp1d->Fit(fcomhi, "0QR"); |
//~ //fcomhi->DrawClone("LSAME"); |
//~ |
//~ fcompt->SetNpx(300); fcompt->SetLineWidth(1); fcompt->SetLineColor(kBlue); fcompt->SetLineStyle(9); |
//~ fcompt->SetParameter(0, fcomhi->GetParameter(3)); |
//~ fcompt->SetParameter(1, fcomhi->GetParameter(4)); |
//~ fcompt->SetParameter(2, fcomhi->GetParameter(5)); |
//~ fcompt->SetRange(0, comhi_range_hi); |
//~ fcompt->DrawClone("LSAME"); |
//~ |
//~ double IComHi = fcompt->Integral(PP_1sigma_min, PP_1sigma_max)/hp1d->GetBinWidth(1); |
//~ printf("IComHi = %.0lf\n", IComHi); |
|
// G LINEAR G |
//~ TF1 *fcomhi = new TF1("fcomhi", "gaus(0)+pol0(3)+gaus(4)"); |
//~ fcomhi->SetNpx(500); fcomhi->SetLineWidth(1); fcomhi->SetLineColor(kBlue); |
//~ double comhi_range_low = 1700.; |
//~ double comhi_range_hi = 2150.; |
//~ fcomhi->SetParameters(2000., 1710., 50., |
//~ 150., |
//~ 200., 2150., 100.); |
//~ fcomhi->SetRange(comhi_range_low, comhi_range_hi); |
//~ hp1d->Fit(fcomhi, "0QR"); |
//~ fcomhi->DrawClone("LSAME"); |
//~ |
//~ TF1 *fcom_lin = new TF1("fcom_lin", "pol0(0)"); |
//~ fcom_lin->SetNpx(300); fcom_lin->SetLineWidth(1); fcom_lin->SetLineColor(6); |
//~ fcom_lin->SetParameter(0, fcomhi->GetParameter(3)); |
//~ fcom_lin->SetRange(0, 4000); |
//~ fcom_lin->DrawClone("LSAME"); |
//~ |
//~ double IComHi = fcom_lin->Integral(PP_1sigma_min, PP_1sigma_max)/hp1d->GetBinWidth(1); |
// G LINEAR EXP |
TF1 *fcomhi = new TF1("fcomhi", "gaus(0) + [3] + [4]*TMath::Exp((x-[5])/[6])"); |
fcomhi->SetNpx(500); fcomhi->SetLineWidth(1); fcomhi->SetLineColor(6); |
//double comhi_range_low = 1250.; |
double comhi_range_low = fitcenter - 1.5*fitw; |
//double comhi_range_hi = 2100.; |
//~ fcomhi->SetParameters(2000., fitcenter, fitw, |
//~ 170., |
//~ 85., 2000., 100.); |
fcomhi->SetParameters(800., fitcenter, fitw, |
40., |
5., comhi_range_hi, 100.); |
|
//~ fcomhi->SetParLimits(2, 50., 2000.); |
fcomhi->SetRange(comhi_range_low, comhi_range_hi); |
hp1d->Fit(fcomhi, "0QR"); |
//~ fcomhi->SetRange(0, 4000); |
fcomhi->DrawClone("LSAME"); |
|
TF1 *fcompt = new TF1("fcompt", "[0] + [1]*TMath::Exp((x-[2])/[3])"); |
fcompt->SetNpx(300); fcompt->SetLineWidth(1); fcompt->SetLineColor(kBlue); fcompt->SetLineStyle(9); |
fcompt->SetParameter(0, fcomhi->GetParameter(3)); |
fcompt->SetParameter(1, fcomhi->GetParameter(4)); |
fcompt->SetParameter(2, fcomhi->GetParameter(5)); |
fcompt->SetParameter(3, fcomhi->GetParameter(6)); |
//~ fcompt->SetRange(1000, comhi_range_hi); |
fcompt->SetRange(400, comhi_range_hi); |
fcompt->DrawClone("LSAME"); |
//~ |
double IComHi = fcompt->Integral(PP_1sigma_min, PP_1sigma_max)/hp1d->GetBinWidth(1); |
printf("IComHi = %.0lf\n", IComHi); |
//~ |
//~ // EXP |
//~ TF1 *fcomhi = new TF1("fcomhi", "[0] + [1]*TMath::Exp((x-[2])/[3])"); |
//~ fcomhi->SetNpx(500); fcomhi->SetLineWidth(1); fcomhi->SetLineColor(6); |
//~ double comhi_range_low = 1800.; |
//~ double comhi_range_hi = 2000.; |
//~ fcomhi->SetParameters(150., 1., 2000.,1.); |
//~ fcomhi->SetRange(comhi_range_low, comhi_range_hi); |
//~ hp1d->Fit(fcomhi, "R"); |
//~ fcomhi->SetRange(0, 4000); |
//~ fcomhi->DrawClone("LSAME"); |
//~ |
//~ double IComHi = fcomhi->Integral(PP_1sigma_min, PP_1sigma_max)/hp1d->GetBinWidth(1); |
//~ printf("IComHi = %.0lf\n", IComHi); |
// LIN |
//~ TF1 *fcomhi = new TF1("fcomhi", "pol0"); |
//~ fcomhi->SetNpx(500); fcomhi->SetLineWidth(1); fcomhi->SetLineColor(6); |
//~ double comhi_range_low = 1800.; |
//~ double comhi_range_hi = 1900.; |
//~ fcomhi->SetParameter(0,150); |
//~ fcomhi->SetRange(comhi_range_low, comhi_range_hi); |
//~ hp1d->Fit(fcomhi, "QR"); |
//~ fcomhi->SetRange(0, 4000); |
//~ fcomhi->DrawClone("LSAME"); |
//~ |
//~ double IComHi = fcomhi->Integral(PP_1sigma_min, PP_1sigma_max)/hp1d->GetBinWidth(1); |
//~ printf("IComHi = %.0lf\n", IComHi); |
|
// -------- 1275keV Compton estimation -------- |
|
sprintf(hname, "hadc_cut%d", 0); |
hp1dcut = DrTH1F(dir, hname, ""); |
if(spectra_rebin) hp1dcut->Rebin(spectra_rebin); |
hp1dcut->SetLineColor(kRed); |
|
hp1dcut->SetLineColor(40); |
hp1dcut->SetLineStyle(2); |
hp1dcut->DrawClone("SAME"); |
double N511 = hp1dcut->GetEntries(); |
//~ double N511 = hp1dcut->Integral(PP_1sigma_min-10, PP_1sigma_max+10); |
|
leg[++legi] = new TLegend(0.124302, 0.65, 0.6, 0.925134); |
leg[legi]->SetFillColor(0); leg[legi]->SetBorderSize(1); leg[legi]->SetTextSize(0.05); leg[legi]->SetTextAlign(22); |
leg[legi]->AddEntry((TH1F*)hp1d->Clone(), "Measurement", "L"); |
leg[legi]->AddEntry((TH1F*)hp1dcut->Clone(), "#pm1 #sigma Photopeak Cut", "L"); |
leg[legi]->AddEntry((TF1*)fcompt->Clone(), "1275 keV Compton Estimate", "L"); |
|
//~ leg[legi]->Draw(); |
|
//~ sprintf(hname, "hadc_cut_2%d", 0); |
//~ hp1d = DrTH1F(dir, hname, ""); |
//~ hp1d->SetLineColor(kGreen); |
//~ hp1d->DrawClone("SAME"); |
|
|
sprintf(fullname, "gif/e_%s.gif", fname); c[cc]->SaveAs(fullname); |
sprintf(fullname, "eps/e_%s.eps", fname); c[cc]->SaveAs(fullname); |
|
|
|
c[++cc] = new TCanvas("e_sipm", "e_sipm", 0, 470, 720, 300); |
int ch_Sprttype = 8; |
//~ int draw_cuts = 0; |
|
(c[cc]->cd(1))->SetLogy(1); |
sprintf(hname, "htdc%d", ch_Sprttype); |
hp1d = DrTH1F(dir, hname, ""); |
hp1d->SetTitle("; Time [ns];Counts"); |
//~ hp1d->Rebin(4); |
hp1d->SetLineColor(kBlack); |
//~ hp1d->GetXaxis()->SetRangeUser(0,80);//original |
hp1d->GetXaxis()->SetRangeUser(-400,50); |
hp1d->GetYaxis()->SetRangeUser(0.1,hp1d->GetMaximum()*2); |
hp1d->DrawClone(); |
|
sprintf(hname, "htdc_cut%d", ch_Sprttype); |
hp1d = DrTH1F(dir, hname, ""); |
//~ hp1d->Rebin(4); |
hp1d->SetLineColor(kRed); |
|
TF1 *fc = new TF1("fc", "pol0"); fc->SetNpx(300); |
fc->SetParameter(0,1); |
//~ fc->SetParameter(1,-0.1); |
fc->SetRange(const_min,const_max); |
hp1d->Fit(fc, "0QWWR"); |
|
hp1d->DrawClone("SAME"); |
fc->SetLineColor(kBlue); |
fc->DrawClone("LSAME"); |
|
double Ntdc = hp1d->Integral(hp1d->FindBin(Cher_min), hp1d->FindBin(Cher_max)); |
double Nbckg = fc->Integral(Cher_min,Cher_max)/hp1d->GetBinWidth(1); |
printf("fc par(0) = %lf | Nbckg = %.0lf\n", fc->GetParameter(0), Nbckg); |
|
|
//~ sprintf(hname, "htdc_cut_2%d", 1); |
//~ hp1d = DrTH1F(dir, hname, ""); |
//~ hp1d->SetLineColor(kGreen); |
//~ hp1d->DrawClone("SAME"); |
|
printf("N511 = %.0lf | Ntdc = %.0lf | R = %.2lf \%% | R_1 = %.2lf \%% | R_2 = %.2lf \%%\n", N511, Ntdc, 100*Ntdc/N511, 100*(Ntdc-Nbckg)/N511, 100*(Ntdc-Nbckg)/(N511-IComHi)); |
|
sprintf(fullname, "gif/e2_%s.gif", fname); c[cc]->SaveAs(fullname); |
sprintf(fullname, "eps/e2_%s.eps", fname); c[cc]->SaveAs(fullname); |
|
int kobayashi =1; |
if(kobayashi){ |
double Nnohit = hp1d->Integral(hp1d->FindBin(-715), hp1d->FindBin(-685)); |
|
printf("N511 = %.0lf | Nnohit = %.0lf | R = %.2lf \%% | R_1 = %.2lf \%% | R_2 = %.2lf \%%\n", N511, Nnohit, 100*(N511-Nnohit)/N511, 100*((N511-Nnohit)-Nbckg)/N511, 100*((N511-Nnohit)-Nbckg)/(N511-IComHi)); |
|
} |
|
//~ (c[cc]->cd(++ccccdi))->SetLogy(1); |
//~ sprintf(hname, "hadc%d", 1); |
//~ hp1d = DrTH1F(dir, hname, ""); |
//~ hp1d->SetLineColor(kBlack); |
//~ hp1d->GetXaxis()->SetRangeUser(0,2000); |
//~ hp1d->DrawClone(); |
//~ |
//~ sprintf(hname, "hadc_cut%d", 1); |
//~ hp1d = DrTH1F(dir, hname, ""); |
//~ hp1d->SetLineColor(kRed); |
//~ hp1d->DrawClone("SAME"); |
//~ |
//~ sprintf(hname, "hadc_cut_2%d", 1); |
//~ hp1d = DrTH1F(dir, hname, ""); |
//~ hp1d->SetLineColor(kGreen); |
//~ hp1d->DrawClone("SAME"); |
|
//~ sprintf(fullname, "gif/e_%s.gif", fname); c[cc]->SaveAs(fullname); |
//~ sprintf(fullname, "eps/e_%s.eps", fname); c[cc]->SaveAs(fullname); |
} |
// ------------------------------------------------------------------- |
|
if( strchr(plopt, 'r') != NULL ) { |
|
//~ gStyle->SetOptStat(1111); |
gStyle->SetOptStat(0); |
gStyle->SetOptFit(0); |
|
c[++cc] = new TCanvas("e", "e", 0, 0, 1200, 450); |
c[cc]->Divide(3,1); |
//~ int ich = chich; |
//~ (c[cc]->cd(1))->SetLogz(1); |
//~ sprintf(hname, "hcor%d", ich); |
//~ hp2d = DrTH2F(dir, hname, ""); |
//~ sprintf(htitle, "TDC%d - TRIGGER;ADC;Time [ns];Count", ich); hp2d->SetTitle(htitle); |
//~ hp2d->GetXaxis()->SetRangeUser(512,2048); |
//~ hp2d->GetYaxis()->SetRangeUser(-10,20); |
//~ hp2d->DrawClone("COLZ"); |
|
int spectra_rebin = 0; |
int yaxis_max = 0; |
int xaxis_max = 3000; |
|
double fitcenter = 700.; |
double fitw = 60.; |
double Cher_min = 4; |
double Cher_max = 16; |
double const_min = Cher_max; |
double const_max = 80; |
int ccccdi = 0; |
|
if( strcmp(fname, "eff003")==0) {fitcenter=760.; fitw=100.;} |
if( strcmp(fname, "eff004")==0) {fitcenter=1220.; fitw=150.; spectra_rebin=8; yaxis_max=3300;} |
if( strcmp(fname, "eff005")==0) {fitcenter=1140.; fitw=60.;} |
if( strcmp(fname, "eff006")==0) {fitcenter=2050.; fitw=60.; xaxis_max=4000;} |
if( strcmp(fname, "eff007")==0) {fitcenter=710.; fitw=50.;} |
if( strcmp(fname, "eff009")==0) {fitcenter=900.; fitw=60.; xaxis_max=2000;} |
|
(c[cc]->cd(++ccccdi))->SetLogy(1); |
sprintf(hname, "hadc%d", 0); |
hp1d = DrTH1F(dir, hname, ""); |
hp1d->SetTitle("Reference Coincidence; Charge [200 fC/bin];"); |
if(spectra_rebin) hp1d->Rebin(spectra_rebin); |
hp1d->SetLineColor(kBlack); |
hp1d->GetXaxis()->SetRangeUser(0,xaxis_max); |
if(yaxis_max) hp1d->GetYaxis()->SetRangeUser(0.5,yaxis_max); |
|
f_fit = fg; |
f_fit->SetParameters(hp1d->GetMaximum()*0.1, fitcenter, fitw); |
|
f_fit->SetRange(fitcenter-fitw, fitcenter+fitw); |
f_fit->SetLineWidth(1); |
hp1d->Fit(f_fit, "Q", "", fitcenter-fitw, fitcenter+fitw); |
|
printf("PP+/-1sigma = [%.0lf, %.0lf]\n", f_fit->GetParameter(1)-f_fit->GetParameter(2), f_fit->GetParameter(1)+f_fit->GetParameter(2)); |
printf("PP resolution = %.1lf\%% (FWHM = %.1lf\%%)\n", 100*f_fit->GetParameter(2)/f_fit->GetParameter(1), 235*f_fit->GetParameter(2)/f_fit->GetParameter(1)); |
|
sprintf(hname, "hadc_cut%d", 0); |
hp1d = DrTH1F(dir, hname, ""); |
if(spectra_rebin) hp1d->Rebin(spectra_rebin); |
hp1d->SetLineColor(kRed); |
hp1d->DrawClone("SAME"); |
double N511 = hp1d->GetEntries(); |
|
sprintf(hname, "hadc_cut_2%d", 0); |
hp1d = DrTH1F(dir, hname, ""); |
hp1d->SetLineColor(kGreen); |
hp1d->DrawClone("SAME"); |
|
//----------------------------------------------------------------------- |
|
(c[cc]->cd(++ccccdi))->SetLogy(1); |
sprintf(hname, "hadc%d", 2); |
hp1d = DrTH1F(dir, hname, ""); |
hp1d->SetTitle("Reference 1275 keV; Charge [200 fC/bin];"); |
//~ if(spectra_rebin) hp1d->Rebin(spectra_rebin); |
hp1d->SetLineColor(kBlack); |
//~ hp1d->GetXaxis()->SetRangeUser(0,xaxis_max); |
//~ if(yaxis_max) hp1d->GetYaxis()->SetRangeUser(0,yaxis_max); |
hp1d->DrawClone(); |
|
sprintf(hname, "hadc_cut%d", 2); |
hp1d = DrTH1F(dir, hname, ""); |
if(spectra_rebin) hp1d->Rebin(spectra_rebin); |
hp1d->SetLineColor(kRed); |
hp1d->DrawClone("SAME"); |
|
sprintf(hname, "hadc_cut_2%d", 2); |
hp1d = DrTH1F(dir, hname, ""); |
hp1d->SetLineColor(kGreen); |
hp1d->DrawClone("SAME"); |
|
//----------------------------------------------------------------------- |
|
(c[cc]->cd(++ccccdi))->SetLogy(1); |
sprintf(hname, "htdc%d", 1); |
hp1d = DrTH1F(dir, hname, ""); |
hp1d->SetTitle("MPPC Cherenkov; Time [ns];"); |
//~ hp1d->Rebin(4); |
hp1d->SetLineColor(kBlack); |
hp1d->GetXaxis()->SetRangeUser(0,80); |
hp1d->GetYaxis()->SetRangeUser(0.1,hp1d->GetMaximum()*2); |
hp1d->DrawClone(); |
|
sprintf(hname, "htdc_cut%d", 1); |
hp1d = DrTH1F(dir, hname, ""); |
//~ hp1d->Rebin(4); |
hp1d->SetLineColor(kRed); |
|
TF1 *fc = new TF1("fc", "pol0"); fc->SetNpx(300); |
fc->SetParameter(0,1); |
fc->SetRange(const_min,const_max); |
hp1d->Fit(fc, "0QWWR"); |
|
hp1d->DrawClone("SAME"); |
fc->SetLineColor(kBlue); |
fc->DrawClone("LSAME"); |
|
double Ntdc = hp1d->Integral(hp1d->FindBin(Cher_min), hp1d->FindBin(Cher_max)); |
double Nbckg = fc->Integral(Cher_min,Cher_max)/hp1d->GetBinWidth(1); |
printf("fc par(0) = %lf | Nbckg = %.0lf\n", fc->GetParameter(0), Nbckg); |
|
|
sprintf(hname, "htdc_cut_2%d", 1); |
hp1d = DrTH1F(dir, hname, ""); |
hp1d->SetLineColor(kGreen); |
hp1d->DrawClone("SAME"); |
|
printf("N511 = %.0lf | Ntdc = %.0lf | R = %lf\n", N511, Ntdc, Ntdc/N511); |
|
printf("R_1 = %lf\n", (Ntdc-Nbckg)/N511); |
|
//~ (c[cc]->cd(++ccccdi))->SetLogy(1); |
//~ sprintf(hname, "hadc%d", 1); |
//~ hp1d = DrTH1F(dir, hname, ""); |
//~ hp1d->SetLineColor(kBlack); |
//~ hp1d->GetXaxis()->SetRangeUser(0,2000); |
//~ hp1d->DrawClone(); |
//~ |
//~ sprintf(hname, "hadc_cut%d", 1); |
//~ hp1d = DrTH1F(dir, hname, ""); |
//~ hp1d->SetLineColor(kRed); |
//~ hp1d->DrawClone("SAME"); |
//~ |
//~ sprintf(hname, "hadc_cut_2%d", 1); |
//~ hp1d = DrTH1F(dir, hname, ""); |
//~ hp1d->SetLineColor(kGreen); |
//~ hp1d->DrawClone("SAME"); |
|
sprintf(fullname, "gif/e_%s.gif", fname); c[cc]->SaveAs(fullname); |
sprintf(fullname, "eps/e_%s.eps", fname); c[cc]->SaveAs(fullname); |
} |
|
// ------------------------------------------------------------------------------- |
// ------------------------------------------------------------------- |
|
if( strchr(plopt, 'p') != NULL ) { |
|
|
DrSetDrawStyle(0.05); |
|
gStyle->SetOptStat("e"); |
gStyle->SetOptFit(0); |
|
gStyle->SetPadRightMargin(0.03); |
gStyle->SetPadTopMargin(0.05); |
gStyle->SetPadBottomMargin(0.12); |
gStyle->SetStatFontSize(0.05); |
gStyle->SetStatX(0.97); |
gStyle->SetStatY(0.95); |
|
c[++cc] = new TCanvas("Print", "Print", 0, 0, 720, 400); |
|
|
int spectra_rebin = 0; |
int yaxis_max = 1000; |
int xaxis_max = 1200; |
|
|
double Cher_min = 10; |
double Cher_max = 16; |
double const_min = 20; |
double const_max = 80; |
int ccccdi = 0; |
|
sprintf(hname, "hadc%d", 0); |
hp1d = DrTH1F(dir, hname, ""); |
hp1d->SetTitle("; Charge [200 fC/bin];Counts"); |
if(spectra_rebin) hp1d->Rebin(spectra_rebin); |
hp1d->SetLineColor(kBlack); |
hp1d->GetXaxis()->SetRangeUser(0,xaxis_max); |
if(yaxis_max) hp1d->GetYaxis()->SetRangeUser(0,yaxis_max); |
hp1d->Draw(); |
|
sprintf(hname, "hadc_cut%d", 0); |
hp1dcut = DrTH1F(dir, hname, ""); |
if(spectra_rebin) hp1dcut->Rebin(spectra_rebin); |
hp1dcut->SetLineColor(kRed); |
hp1dcut->Draw("SAME"); |
|
sprintf(fullname, "gif/p_%s.gif", fname); c[cc]->SaveAs(fullname); |
sprintf(fullname, "eps/p_%s.eps", fname); c[cc]->SaveAs(fullname); |
} |
|
// ------------------------------------------------------------------- |
|
if( strchr(plopt, 'b') != NULL ) { |
gStyle->SetOptStat(0); |
gStyle->SetOptFit(0); |
|
c[++cc] = new TCanvas("b", "b", 0, 0, 1200, 700); |
c[cc]->Divide(2,2); |
|
int ccccdi = 0; |
int ich; |
/* |
// ------------------------------------------------------------ |
ich = 0; |
(c[cc]->cd(++ccccdi))->SetLogy(1); |
sprintf(hname, "htdc%d", ich); |
hp1d = DrTH1F(dir, hname, ""); |
hp1d->SetTitle(hname); |
//~ hp1d->GetXaxis()->SetRangeUser(0,2000); |
//~ hp1d->GetYaxis()->SetRangeUser(0.9,hp1d->GetMaximum()*1.1); |
hp1d->SetLineColor(kBlack); |
hp1d->DrawClone(); |
|
// ------------------------------------------------------------ |
ich = 1; |
(c[cc]->cd(++ccccdi))->SetLogy(1); |
sprintf(hname, "htdc%d", ich); |
hp1d = DrTH1F(dir, hname, ""); |
hp1d->SetTitle(hname); |
//~ hp1d->GetXaxis()->SetRangeUser(0,2000); |
//~ hp1d->GetYaxis()->SetRangeUser(0.9,hp1d->GetMaximum()*1.1); |
hp1d->SetLineColor(kBlack); |
hp1d->DrawClone(); |
*/ |
// -------------------------- qdc 0 ---------------------------------- |
ich = 0; |
(c[cc]->cd(++ccccdi))->SetLogy(1); |
/* |
sprintf(hname, "hadc%d", ich); |
hp1d = DrTH1F(dir, hname, ""); |
hp1d->SetTitle("SiPM;Charge [200 fC/bin]"); |
hp1d->GetXaxis()->SetRangeUser(0,1000); |
//~ hp1d->GetYaxis()->SetRangeUser(0.9,hp1d->GetMaximum()*1.1); |
hp1d->SetLineColor(kBlack); |
hp1d->DrawClone(); |
*/ |
|
TLegend *leg0 = new TLegend(0.57,0.66,0.88,0.88); |
leg0->SetFillColor(0); |
leg0->SetBorderSize(1); |
leg0->SetTextSize(0.05); |
leg0->SetTextAlign(22); |
|
sprintf(hname, "hadc%d", ich); |
TH1F* hADC = DrTH1F(dir, hname, ""); |
|
hADC->SetTitle("SiPM;Charge [200 fC/bin]"); |
hADC->GetXaxis()->SetRangeUser(0,1000); |
hADC->SetLineColor(kBlack); |
hADC->DrawClone(); |
|
int dbgprint=1; |
const int nPeaks=3; |
double pSigma=10; |
double pThr=0.005; |
|
TSpectrum *sADC = new TSpectrum(nPeaks,0.3); |
sADC->Search(hADC, pSigma,"",pThr); |
int foundNPeaks = sADC->GetNPeaks(); |
float *foundPeakX = sADC->GetPositionX(); |
float *foundPeakY = sADC->GetPositionY(); |
|
if(1 < foundNPeaks) { |
//void Sort(Int_t n1, const Float_t *a, Int_t *index, Bool_t down) |
int sortedPeakIndex[nPeaks]; |
TMath::Sort(foundNPeaks, foundPeakX, sortedPeakIndex, 0); |
if(dbgprint) { |
printf("foundNPeaks = %d\n",foundNPeaks); |
for(int i=0; i<foundNPeaks; i++) printf("Peak[%d] = %f\n",i, foundPeakX[sortedPeakIndex[i]]); |
} |
float peakMidpointX[nPeaks+1]; |
float peakMidpointY[nPeaks+1]; |
|
peakMidpointX[0] = 0; peakMidpointY[0] = 1; |
for(int i=1; i<foundNPeaks; i++) { |
peakMidpointX[i] = (foundPeakX[sortedPeakIndex[i]] + foundPeakX[sortedPeakIndex[i-1]])/2.0; |
peakMidpointY[i] = 1; |
|
if(dbgprint) printf("peakMidpointX[%d] = %f\n",i, peakMidpointX[i]); |
|
} |
peakMidpointX[foundNPeaks] = 1120; peakMidpointY[foundNPeaks] = 1; |
|
if(dbgprint) printf("peakMidpointX[%d] = %f\n",foundNPeaks, peakMidpointX[foundNPeaks]); |
|
TPolyMarker *pmMidpoints = new TPolyMarker(nPeaks+1, peakMidpointX, peakMidpointY); |
pmMidpoints->SetMarkerStyle(33); pmMidpoints->SetMarkerColor(9); pmMidpoints->SetMarkerSize(2); |
pmMidpoints->Draw("SAME"); |
|
//~ fprintf(fp,"peakEvents:\n"); |
|
double peakEvents[nPeaks]; |
for(int i=0; i<foundNPeaks-1; i++) { |
peakEvents[i] = hADC->Integral(hADC->FindBin(peakMidpointX[i]), hADC->FindBin(peakMidpointX[i+1])); |
|
if(dbgprint) printf("I(%.1f, %.1f) = %.1lf\n", peakMidpointX[i], peakMidpointX[i+1], peakEvents[i]); |
//~ fprintf(fp,"%lf\n", peakEvents[i]); |
|
} |
peakEvents[foundNPeaks-1] = hADC->Integral(hADC->FindBin(peakMidpointX[foundNPeaks-1]), hADC->FindBin(1130.)); |
|
if(dbgprint) printf("I(%.1f, %.1f) = %.1lf\n", peakMidpointX[foundNPeaks-1], 1130., peakEvents[foundNPeaks-1]); |
//~ fprintf(fp,"%lf\n", peakEvents[foundNPeaks-1]); |
|
double N0all = -TMath::Log(peakEvents[0]/hADC->GetEntries()); |
double N01 = peakEvents[1]/peakEvents[0]; |
double N02 = 2*peakEvents[2]/peakEvents[1]; |
|
if(dbgprint) printf("Poisson <N>: N0all -> %.3lf | N01 -> %.3lf | N12 -> %.3lf\n", N0all, N01, N02); |
|
|
|
sprintf(sbuff, "<N> = %.3lf", N0all); |
leg0->AddEntry((TH1F*)hADC->Clone(),sbuff, ""); |
sprintf(sbuff, "1 CPH = %.0lf", foundPeakX[sortedPeakIndex[1]]); |
leg0->AddEntry((TH1F*)hADC->Clone(),sbuff, ""); |
leg0->Draw(); |
} |
|
double N_adc_integral = hADC->Integral(hADC->FindBin(peakMidpointX[1]), hADC->FindBin(1000.)); |
double N_poisson = (1 - TMath::Exp(-N0all))*hADC->GetEntries(); |
printf("hADC->GetEntries() = %.0lf\n", hADC->GetEntries()); |
printf("N_adc_integral = %.0lf | N_poisson = %.0lf\n", N_adc_integral, N_poisson); |
|
sprintf(hname, "hadc_cut%d", ich); |
hp1d = DrTH1F(dir, hname, ""); |
hp1d->SetLineColor(kRed); |
hp1d->DrawClone("SAME"); |
|
// -------------------------- TDC 0 ---------------------------------- |
(c[cc]->cd(++ccccdi))->SetLogy(1); |
sprintf(hname, "htdc%d", ich); |
hp1d = DrTH1F(dir, hname, ""); |
hp1d->SetTitle("SiPM;Time [ns]"); |
hp1d->GetXaxis()->SetRangeUser(-5,5); |
//~ hp1d->GetYaxis()->SetRangeUser(0.9,hp1d->GetMaximum()*1.1); |
hp1d->SetLineColor(kBlack); |
hp1d->DrawClone(); |
|
printf("hTDC->GetEntries() = %.0lf\n", hp1d->GetEntries()); |
double N_tdc_integral = hp1d->Integral(hp1d->FindBin(-10), hp1d->FindBin(10)); |
printf("N_tdc_integral = %.0lf\n", N_tdc_integral); |
|
// ----------------------------------------------------------- |
|
(c[cc]->cd(++ccccdi))->SetLogy(0); |
sprintf(hname, "hcor%d", ich); |
hp2d = DrTH2F(dir, hname, ""); |
hp2d->SetTitle(";Charge [200 fC/bin];cTime [ns]"); |
//~ hp1d->GetXaxis()->SetRangeUser(0,2000); |
//~ hp1d->GetYaxis()->SetRangeUser(0.9,hp1d->GetMaximum()*1.1); |
//~ hp1d->SetLineColor(kBlack); |
hp2d->DrawClone("COLZ"); |
|
// -------------------------- cTDC 0 ---------------------------------- |
(c[cc]->cd(++ccccdi))->SetLogy(0); |
sprintf(hname, "hctdc%d", ich); |
hp1d = DrTH1F(dir, hname, ""); |
//~ hp1d->SetTitle("SiPM;cTime [ns]"); |
//~ hp1d->GetXaxis()->SetRangeUser(-5,5); |
//~ //hp1d->GetYaxis()->SetRangeUser(0.9,hp1d->GetMaximum()*1.1); |
hp1d->SetLineColor(kBlack); |
//~ hp1d->DrawClone(); |
|
plotCorTDC(hp1d, "SiPM;cTime [ns]", -0.5, 0.45, -1., 2); |
|
printf("hcTDC->GetEntries() = %.0lf\n", hp1d->GetEntries()); |
double N_ctdc_integral = hp1d->Integral(hp1d->FindBin(-2), hp1d->FindBin(2)); |
printf("N_ctdc_integral = %.0lf\n", N_ctdc_integral); |
|
printf("N_ctdc_integral/N_poisson = %.3lf\n", N_ctdc_integral/N_poisson); |
printf("N_adc_integral/N_poisson = %.3lf\n", N_adc_integral/N_poisson); |
printf("N_ctdc_integral/N_adc_integral = %.3lf\n", N_ctdc_integral/N_adc_integral); |
|
//~ sprintf(hname, "htdc_cut%d", ich); |
//~ hp1d = DrTH1F(dir, hname, ""); |
//~ hp1d->SetLineColor(kRed); |
//~ hp1d->DrawClone("SAME"); |
|
sprintf(fullname, "gif/b_%s.gif", fname); c[cc]->SaveAs(fullname); |
} |
|
|
//~ sprintf(fullname, "gif/%s_c.gif", fname); c[cc]->SaveAs(fullname); |
//~ } |
|
// ------------------------------------------------------------------- |
|
if( strchr(plopt, 'g') != NULL ) { |
gStyle->SetOptStat(0); |
gStyle->SetOptFit(0); |
|
c[++cc] = new TCanvas("g", "g", 640, 0, 640, 360); |
|
int ccccdi = 0; |
int ich = 15; |
|
(c[cc]->cd(++ccccdi))->SetLogy(0); |
sprintf(hname, "htdc%d", ich); |
hp1d = DrTH1F(dir, hname, ""); |
//~ hp1d->SetTitle("SiPM;cTime [ns]"); |
//~ hp1d->GetXaxis()->SetRangeUser(-5,5); |
//~ //hp1d->GetYaxis()->SetRangeUser(0.9,hp1d->GetMaximum()*1.1); |
hp1d->SetLineColor(kBlack); |
|
//~ hp1d->DrawClone(); |
|
sprintf(hname, "Trigger(ch.%d)-Trigger(ch.31);Time [ns]", ich); |
plotCorTDC(hp1d, hname, -0.25, 0.25, -0.5, 0.5); |
|
sprintf(fullname, "gif/g_%s.gif", fname); c[cc]->SaveAs(fullname); |
} |
// ------------------------------------------------------------------------------- |
} |