is_first_shybfit = False
                print shybfit.title

        print '%6.2f +/- %4.2f' % ( ws1.var('#Deltas').getVal(),
                                    ws1.var('#Deltas').getError() ),

        if 'srecofit' in vars() and srecofit.title in plot.title:
            print plot.title[len(srecofit.title)+2:],
        elif 'struefit' in vars() and struefit.title in plot.title:
            print plot.title[len(struefit.title)+2:],
        elif 'sgenfit' in vars() and sgenfit.title in plot.title:
            print plot.title[len(sgenfit.title)+2:],
        elif 'shybfit' in vars() and shybfit.title in plot.title:
            print plot.title[len(shybfit.title)+2:],
        else:
            print plot.title,

        print  i, "%.3g" % plot.chi2s[i]
## <-- loop over plots

# ws1.writeToFile('test.root')
# ws1.writeToFile('mc_mmMass80_EB_lowR9_PhoEt_mmgMass87.2-95.2_cbShape.root')
ws1.writeToFile('mc_sreco_FitRange%d.root' % int(fitrange))
# ws1.writeToFile('mc_mmMass85_EB_lowR9_PhoEt15-20.root')
# ws1.writeToFile('mc_mmMass85_EB_lowR9_PhoEt20-25.root')
# ws1.writeToFile('mc_mmMass85_EB_lowR9_PhoEt25-30.root')
# ws1.writeToFile('mc_mmMass85_EB_lowR9_PhoEt30-100.root')

if __name__ == "__main__":
    import user
                is_first_sgenfit = False
                print sgenfit.title
        elif 'shybfit' in vars() and shybfit.title in plot.title:
            if is_first_shybfit:
                is_first_shybfit = False
                print shybfit.title

        print '%6.2f +/- %4.2f' % ( ws1.var('#Deltas').getVal(),
                                    ws1.var('#Deltas').getError() ),

        if 'srecofit' in vars() and srecofit.title in plot.title:
            print plot.title[len(srecofit.title)+2:],
        elif 'struefit' in vars() and struefit.title in plot.title:
            print plot.title[len(struefit.title)+2:],
        elif 'sgenfit' in vars() and sgenfit.title in plot.title:
            print plot.title[len(sgenfit.title)+2:],
        elif 'shybfit' in vars() and shybfit.title in plot.title:
            print plot.title[len(shybfit.title)+2:],
        else:
            print plot.title,

        print  i, "%.3g" % plot.chi2s[i]
## <-- loop over plots

#ws1.writeToFile('test.root')
#ws1.writeToFile('strue_FitRange71.root')
ws1.writeToFile('strue_InitialValueFitSystematics10.root')

if __name__ == "__main__":
    import user
Exemplo n.º 3
0
    m = re.search('(.*_iter)\d+', plot.name)
    if m:
        bareName = 'sFit_' + m.groups()[0]
    else:
        raise RuntimeError, "Failed to parse fit name `%s'" % plot.name
    for i in range(plot.niter - 1, plot.niter):
        ws1.loadSnapshot(bareName + '%d' % i)
        report.append([
            '%6.2f +/- %4.2f' %
            (ws1.var('#Deltas').getVal(), ws1.var('#Deltas').getError()),
            plot.title,
            str(i),
            "%.3g" % plot.chi2s[i]
        ])

for line in report:
    print ', '.join(line)

## <-- loop over plots

# ws1.writeToFile('test.root')
# ws1.writeToFile('mc_mmMass80_EB_lowR9_PhoEt_mmgMass87.2-95.2_cbShape.root')
ws1.writeToFile('geant_versions.root')
# ws1.writeToFile('mc_mmMass85_EB_lowR9_PhoEt15-20.root')
# ws1.writeToFile('mc_mmMass85_EB_lowR9_PhoEt20-25.root')
# ws1.writeToFile('mc_mmMass85_EB_lowR9_PhoEt25-30.root')
# ws1.writeToFile('mc_mmMass85_EB_lowR9_PhoEt30-100.root')

if __name__ == "__main__":
    import user
Exemplo n.º 4
0
                is_first_shybfit = False
                print shybfit.title

        print '%6.2f +/- %4.2f' % ( ws1.var('#Deltas').getVal(),
                                    ws1.var('#Deltas').getError() ),

        if 'srecofit' in vars() and srecofit.title in plot.title:
            print plot.title[len(srecofit.title)+2:],
        elif 'struefit' in vars() and struefit.title in plot.title:
            print plot.title[len(struefit.title)+2:],
        elif 'sgenfit' in vars() and sgenfit.title in plot.title:
            print plot.title[len(sgenfit.title)+2:],
        elif 'shybfit' in vars() and shybfit.title in plot.title:
            print plot.title[len(shybfit.title)+2:],
        else:
            print plot.title,

        print  i, "%.3g" % plot.chi2s[i]
## <-- loop over plots

# ws1.writeToFile('test.root')
# ws1.writeToFile('mc_mmMass80_EB_lowR9_PhoEt_mmgMass87.2-95.2_cbShape.root')
ws1.writeToFile('mc_sreco_strue_Baseline_Susan.root')
# ws1.writeToFile('mc_mmMass85_EB_lowR9_PhoEt15-20.root')
# ws1.writeToFile('mc_mmMass85_EB_lowR9_PhoEt20-25.root')
# ws1.writeToFile('mc_mmMass85_EB_lowR9_PhoEt25-30.root')
# ws1.writeToFile('mc_mmMass85_EB_lowR9_PhoEt30-100.root')

if __name__ == "__main__":
    import user
Exemplo n.º 5
0
                is_first_shybfit = False
                print shybfit.title

        print '%6.2f +/- %4.2f' % ( ws1.var('#Deltas').getVal(),
                                    ws1.var('#Deltas').getError() ),

        if 'srecofit' in vars() and srecofit.title in plot.title:
            print plot.title[len(srecofit.title)+2:],
        elif 'struefit' in vars() and struefit.title in plot.title:
            print plot.title[len(struefit.title)+2:],
        elif 'sgenfit' in vars() and sgenfit.title in plot.title:
            print plot.title[len(sgenfit.title)+2:],
        elif 'shybfit' in vars() and shybfit.title in plot.title:
            print plot.title[len(shybfit.title)+2:],
        else:
            print plot.title,

        print  i, "%.3g" % plot.chi2s[i]
## <-- loop over plots

# ws1.writeToFile('test.root')
# ws1.writeToFile('mc_mmMass80_EB_lowR9_PhoEt_mmgMass87.2-95.2_cbShape.root')
ws1.writeToFile('mc_sreco_strue_Baseline_mod3.root')
# ws1.writeToFile('mc_mmMass85_EB_lowR9_PhoEt15-20.root')
# ws1.writeToFile('mc_mmMass85_EB_lowR9_PhoEt20-25.root')
# ws1.writeToFile('mc_mmMass85_EB_lowR9_PhoEt25-30.root')
# ws1.writeToFile('mc_mmMass85_EB_lowR9_PhoEt30-100.root')

if __name__ == "__main__":
    import user
Exemplo n.º 6
0
            if is_first_shybfit:
                is_first_shybfit = False
                print shybfit.title

        print "%6.2f +/- %4.2f" % (ws1.var("#Deltas").getVal(), ws1.var("#Deltas").getError()),

        if "srecofit" in vars() and srecofit.title in plot.title:
            print plot.title[len(srecofit.title) + 2 :],
        elif "struefit" in vars() and struefit.title in plot.title:
            print plot.title[len(struefit.title) + 2 :],
        elif "sgenfit" in vars() and sgenfit.title in plot.title:
            print plot.title[len(sgenfit.title) + 2 :],
        elif "shybfit" in vars() and shybfit.title in plot.title:
            print plot.title[len(shybfit.title) + 2 :],
        else:
            print plot.title,

        print i, "%.3g" % plot.chi2s[i]
## <-- loop over plots

# ws1.writeToFile('test.root')
# ws1.writeToFile('mc_mmMass80_EB_lowR9_PhoEt_mmgMass87.2-95.2_cbShape.root')
ws1.writeToFile("mc_mmMass80_EB_highR9_PhoEt_mmgMass87.2-95.2_cbShape.root")
# ws1.writeToFile('mc_mmMass85_EB_lowR9_PhoEt15-20.root')
# ws1.writeToFile('mc_mmMass85_EB_lowR9_PhoEt20-25.root')
# ws1.writeToFile('mc_mmMass85_EB_lowR9_PhoEt25-30.root')
# ws1.writeToFile('mc_mmMass85_EB_lowR9_PhoEt30-100.root')

if __name__ == "__main__":
    import user
Exemplo n.º 7
0
        varname = "#Deltas"
        if plot.pdf in ["gauss_an", "cbShape_an"]:
            varname = "#mu"
        print "%6.2f +/- %4.2f" % (ws1.var(varname).getVal(), ws1.var(varname).getError()),

        if "srecofit" in vars() and srecofit.title in plot.title:
            print plot.title[len(srecofit.title) + 2 :],
        elif "struefit" in vars() and struefit.title in plot.title:
            print plot.title[len(struefit.title) + 2 :],
        elif "sgenfit" in vars() and sgenfit.title in plot.title:
            print plot.title[len(sgenfit.title) + 2 :],
        elif "shybfit" in vars() and shybfit.title in plot.title:
            print plot.title[len(shybfit.title) + 2 :],
        else:
            print plot.title,

        print i, "%.3g" % plot.chi2s[i]
## <-- loop over plots

# ws1.writeToFile('test.root')
# ws1.writeToFile('mc_mmMass80_EB_lowR9_PhoEt_mmgMass87.2-95.2_cbShape.root')
ws1.writeToFile("an_mc_sreco_strue_Baseline.root")
# ws1.writeToFile('mc_mmMass85_EB_lowR9_PhoEt15-20.root')
# ws1.writeToFile('mc_mmMass85_EB_lowR9_PhoEt20-25.root')
# ws1.writeToFile('mc_mmMass85_EB_lowR9_PhoEt25-30.root')
# ws1.writeToFile('mc_mmMass85_EB_lowR9_PhoEt30-100.root')

if __name__ == "__main__":
    import user
Exemplo n.º 8
0
    if m:
        bareName = 'sFit_' + m.groups()[0]
    else:
        raise RuntimeError, "Failed to parse fit name `%s'" % plot.name
    for i in range (plot.niter-1, plot.niter):
        ws1.loadSnapshot(bareName + '%d' % i)
        report.append([
            '%6.2f +/- %4.2f' % ( ws1.var('#Deltas').getVal(),
                                  ws1.var('#Deltas').getError() ),

            plot.title,
            str(i),
            "%.3g" % plot.chi2s[i]
            ])

for line in report:
    print ', '.join(line)

## <-- loop over plots

# ws1.writeToFile('test.root')
# ws1.writeToFile('mc_mmMass80_EB_lowR9_PhoEt_mmgMass87.2-95.2_cbShape.root')
ws1.writeToFile('geant_versions.root')
# ws1.writeToFile('mc_mmMass85_EB_lowR9_PhoEt15-20.root')
# ws1.writeToFile('mc_mmMass85_EB_lowR9_PhoEt20-25.root')
# ws1.writeToFile('mc_mmMass85_EB_lowR9_PhoEt25-30.root')
# ws1.writeToFile('mc_mmMass85_EB_lowR9_PhoEt30-100.root')

if __name__ == "__main__":
    import user
Exemplo n.º 9
0
                is_first_shybfit = False
                print shybfit.title

        print '%6.2f +/- %4.2f' % ( ws1.var('#Deltas').getVal(),
                                    ws1.var('#Deltas').getError() ),

        if 'srecofit' in vars() and srecofit.title in plot.title:
            print plot.title[len(srecofit.title)+2:],
        elif 'struefit' in vars() and struefit.title in plot.title:
            print plot.title[len(struefit.title)+2:],
        elif 'sgenfit' in vars() and sgenfit.title in plot.title:
            print plot.title[len(sgenfit.title)+2:],
        elif 'shybfit' in vars() and shybfit.title in plot.title:
            print plot.title[len(shybfit.title)+2:],
        else:
            print plot.title,

        print  i, "%.3g" % plot.chi2s[i]
## <-- loop over plots

# ws1.writeToFile('test.root')
# ws1.writeToFile('mc_mmMass80_EB_lowR9_PhoEt_mmgMass87.2-95.2_cbShape.root')
ws1.writeToFile('an_mc_sreco_strue_Baseline.root')
# ws1.writeToFile('mc_mmMass85_EB_lowR9_PhoEt15-20.root')
# ws1.writeToFile('mc_mmMass85_EB_lowR9_PhoEt20-25.root')
# ws1.writeToFile('mc_mmMass85_EB_lowR9_PhoEt25-30.root')
# ws1.writeToFile('mc_mmMass85_EB_lowR9_PhoEt30-100.root')

if __name__ == "__main__":
    import user