+
+ fhAsyPi0LocMax1[i][j] = new TH2F(Form("hAsyPi0LocMax1%s%s",pname[i].Data(),sMatched[j].Data()),
+ Form("Asymmetry vs E for mass range [%2.2f-%2.2f] MeV/c^{2} %s, for N Local max = 1",
+ GetCaloPID()->GetPi0MinMass(),GetCaloPID()->GetPi0MaxMass(),ptype[i].Data()),
+ nptbins,ptmin,ptmax,mbins,mmin,mmax);
+ fhAsyPi0LocMax1[i][j] ->SetYTitle("Asymmetry");
+ fhAsyPi0LocMax1[i][j] ->SetXTitle("E (GeV)");
+ outputContainer->Add(fhAsyPi0LocMax1[i][j]) ;
+
+ fhAsyEtaLocMax1[i][j] = new TH2F(Form("hAsyEtaLocMax1%s%s",pname[i].Data(),sMatched[j].Data()),
+ Form("Asymmetry vs E for mass range [%2.2f-%2.2f] MeV/c^{2}, %s, for N Local max = 1",
+ GetCaloPID()->GetEtaMinMass(),GetCaloPID()->GetEtaMaxMass(),ptype[i].Data()),
+ nptbins,ptmin,ptmax,mbins,mmin,mmax);
+ fhAsyEtaLocMax1[i][j] ->SetYTitle("Asymmetry");
+ fhAsyEtaLocMax1[i][j] ->SetXTitle("E (GeV)");
+ outputContainer->Add(fhAsyEtaLocMax1[i][j]) ;
+
+ fhAsyConLocMax1[i][j] = new TH2F(Form("hAsyConLocMax1%s%s",pname[i].Data(),sMatched[j].Data()),
+ Form("Asymmetry vs E for mass range [%2.2f-%2.2f] MeV/c^{2}, %s, for N Local max = 1",
+ GetCaloPID()->GetPhotonMinMass(),GetCaloPID()->GetPhotonMaxMass(),ptype[i].Data()),
+ nptbins,ptmin,ptmax,mbins,mmin,mmax);
+ fhAsyConLocMax1[i][j] ->SetYTitle("Asymmetry");
+ fhAsyConLocMax1[i][j] ->SetXTitle("E (GeV)");
+ outputContainer->Add(fhAsyConLocMax1[i][j]) ;
+
+ fhAsyPi0LocMax2[i][j] = new TH2F(Form("hAsyPi0LocMax2%s%s",pname[i].Data(),sMatched[j].Data()),
+ Form("Asymmetry vs E for mass range [%2.2f-%2.2f] MeV/c^{2} %s, for N Local max = 2",
+ GetCaloPID()->GetPi0MinMass(),GetCaloPID()->GetPi0MaxMass(),ptype[i].Data()),
+ nptbins,ptmin,ptmax,mbins,mmin,mmax);
+ fhAsyPi0LocMax2[i][j] ->SetYTitle("Asymmetry");
+ fhAsyPi0LocMax2[i][j] ->SetXTitle("E (GeV)");
+ outputContainer->Add(fhAsyPi0LocMax2[i][j]) ;
+
+ fhAsyEtaLocMax2[i][j] = new TH2F(Form("hAsyEtaLocMax2%s%s",pname[i].Data(),sMatched[j].Data()),
+ Form("Asymmetry vs E for mass range [%2.2f-%2.2f] MeV/c^{2}, %s, for N Local max = 2",
+ GetCaloPID()->GetEtaMinMass(),GetCaloPID()->GetEtaMaxMass(),ptype[i].Data()),
+ nptbins,ptmin,ptmax,mbins,mmin,mmax);
+ fhAsyEtaLocMax2[i][j] ->SetYTitle("Asymmetry");
+ fhAsyEtaLocMax2[i][j] ->SetXTitle("E (GeV)");
+ outputContainer->Add(fhAsyEtaLocMax2[i][j]) ;
+
+ fhAsyConLocMax2[i][j] = new TH2F(Form("hAsyConLocMax2%s%s",pname[i].Data(),sMatched[j].Data()),
+ Form("Asymmetry vs E for mass range [%2.2f-%2.2f] MeV/c^{2}, %s, for N Local max = 2",
+ GetCaloPID()->GetPhotonMinMass(),GetCaloPID()->GetPhotonMaxMass(),ptype[i].Data()),
+ nptbins,ptmin,ptmax,mbins,mmin,mmax);
+ fhAsyConLocMax2[i][j] ->SetYTitle("Asymmetry");
+ fhAsyConLocMax2[i][j] ->SetXTitle("E (GeV)");
+ outputContainer->Add(fhAsyConLocMax2[i][j]) ;
+
+ fhAsyPi0LocMaxN[i][j] = new TH2F(Form("hAsyPi0LocMaxN%s%s",pname[i].Data(),sMatched[j].Data()),
+ Form("Asymmetry vs E for mass range [%2.2f-%2.2f] MeV/c^{2} %s, for N Local max > 2",
+ GetCaloPID()->GetPi0MinMass(),GetCaloPID()->GetPi0MaxMass(),ptype[i].Data()),
+ nptbins,ptmin,ptmax,mbins,mmin,mmax);
+ fhAsyPi0LocMaxN[i][j] ->SetYTitle("Asymmetry");
+ fhAsyPi0LocMaxN[i][j] ->SetXTitle("E (GeV)");
+ outputContainer->Add(fhAsyPi0LocMaxN[i][j]) ;
+
+ fhAsyEtaLocMaxN[i][j] = new TH2F(Form("hAsyEtaLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()),
+ Form("Asymmetry vs E for mass range [%2.2f-%2.2f] MeV/c^{2}, %s, for N Local max > 2",
+ GetCaloPID()->GetEtaMinMass(),GetCaloPID()->GetEtaMaxMass(),ptype[i].Data()),
+ nptbins,ptmin,ptmax,mbins,mmin,mmax);
+ fhAsyEtaLocMaxN[i][j] ->SetYTitle("Asymmetry");
+ fhAsyEtaLocMaxN[i][j] ->SetXTitle("E (GeV)");
+ outputContainer->Add(fhAsyEtaLocMaxN[i][j]) ;
+
+ fhAsyConLocMaxN[i][j] = new TH2F(Form("hAsyConLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()),
+ Form("Asymmetry vs E for mass range [%2.2f-%2.2f], %s, for N Local max > 2",
+ GetCaloPID()->GetPhotonMinMass(),GetCaloPID()->GetPhotonMaxMass(),ptype[i].Data()),
+ nptbins,ptmin,ptmax,mbins,mmin,mmax);
+ fhAsyConLocMaxN[i][j] ->SetYTitle("Asymmetry");
+ fhAsyConLocMaxN[i][j] ->SetXTitle("E (GeV)");
+ outputContainer->Add(fhAsyConLocMaxN[i][j]) ;
+