示例#1
0
def showRatios(ratios, outUrl):
    """shows the ratio plots"""

    ROOT.gStyle.SetOptTitle(0)
    ROOT.gStyle.SetOptStat(0)
    ROOT.gROOT.SetBatch(True)

    os.system('rm %s' % outUrl)
    outDir = os.path.dirname(outUrl)

    COLOURS = [1, '#f4a582', '#bababa', '#abdda4']
    for key in ratios:
        p = Plot(key + '_ratio', com='13 TeV')
        p.doPoissonErrorBars = False
        p.ratiorange = (0.68, 1.34)
        p.spimposeWithErrors = True
        ic = 0
        for h in ratios[key]:
            p.add(h=h,
                  title=h.GetTitle(),
                  color=COLOURS[ic],
                  isData=False,
                  spImpose=True,
                  isSyst=False)
            ic += 1
        p.show(outDir=outDir,
               lumi=41400,
               noStack=False,
               saveTeX=False,
               noRatio=True)
        p.appendTo(outUrl)
        p.reset()
示例#2
0
          isSyst=False)

    totalBkgf0 = hdy.Clone('totalbkgf0')
    p.add(h=totalBkgf0,
          title='DY',
          color=ROOT.kRed + 1,
          isData=False,
          spImpose=False,
          isSyst=False)

    totalBkg = hdy.Clone('totalbkg')
    totalBkg.Scale(1 - f * dilFactorBkg)
    totalBkg.Add(fhsigmix)
    totalBkg.Scale(totalBkgf0.Integral() / totalBkg.Integral())
    p.add(h=totalBkg,
          title='DY+mix.signal',
          color=ROOT.kAzure + 1,
          isData=True,
          spImpose=False,
          isSyst=False)

    extraText = '%d #murad\\m_{X}=%d GeV\\signal fraction: %3.2f\\' % (xangle,
                                                                       mass, f)
    p.show(outDir='./',
           lumi=lumi,
           noStack=True,
           saveTeX=False,
           noRatio=False,
           extraText=extraText)
    p.reset()
示例#3
0
def main(args):

    parser = argparse.ArgumentParser(description='usage: %prog [options]')
    parser.add_argument(
        '-i',
        '--input',
        dest='input',
        default=
        '/eos/cms/store/cmst3/user/psilva/ExclusiveAna/final/ab05162/analysis_0p04/',
        help='input directory with the files [default: %default]')
    parser.add_argument(
        '--sig',
        dest='sig',
        default=
        '{boson}_m_X_{mass}_xangle_{xangle}_2017_preTS2_opt_v1_simu_reco.root',
        help='signal point [%default]')
    parser.add_argument('--massList',
                        dest='massList',
                        default='800,1000,1200',
                        help='signal mass list (CSV) [%default]')
    parser.add_argument(
        '--selCuts',
        dest='selCuts',
        default='bosonpt>40 && l1pt>30 && l2pt>20',
        help='preselection for Z categories [default: %default]')
    parser.add_argument('--doPerAngle',
                        dest='doPerAngle',
                        default=False,
                        help='do per crossing angle [default: %default]',
                        action='store_true')
    parser.add_argument('--lumi',
                        dest='lumi',
                        default=37500.,
                        type=float,
                        help='integrated luminosity [default: %default]')
    parser.add_argument('-o',
                        '--output',
                        dest='output',
                        default='analysis/bkg',
                        help='Output directory [default: %default]')
    opt = parser.parse_args(args)

    ROOT.gROOT.SetBatch(True)
    ROOT.gStyle.SetOptTitle(0)
    ROOT.gStyle.SetOptStat(0)

    os.system('mkdir -p %s' % opt.output)

    selCuts = [(opt.selCuts, '', 'e#mu')]
    if opt.doPerAngle:
        for xangle in VALIDLHCXANGLES:
            selCuts.append((opt.selCuts + ' && xangle==%d' % xangle,
                            '_%d' % xangle, 'e#mu, %d #murad' % xangle))
    for cuts, pfix, catTitle in selCuts:

        os.system('rm %s/plotter_%s.root' % (opt.output, pfix))

        data = fillShapes(inputDir=opt.input, selCuts=cuts, proc='MuonEG')

        #sigs={}
        #for m in opt.massList.split():
        #    if not m in sigs: sigs[m]={}
        #    for xangle in VALIDLHCXANGLES:
        #        newSigs=fillShapes(inputDir=opt.input,selCuts=opt.selCuts,tag=opt.sig.format(mass=m,xangle=xangle))
        #        for dist in newSigs:
        #            if not dist in sigs[m]:
        #                sigs[m]=newSigs[dist]['data'].Clone('{0}_{1}'.format(dist,m))
        #            #FIXME scale me according to xsec
        #FIXME plot me

        for dist in data:

            pname = dist + pfix
            for c in [':', ',', '>', '=', '(', ')', '-', '<', '?']:
                pname = pname.replace(c, '')

            p = Plot(pname)
            p.doChi2 = True
            p.nominalDistForSystsName = 'background'

            #if dist=='mmiss':
            #    newBins=range(0,1000,40)+[1000,1100,1200,1500,2000]
            #    print 'Rebinning',dist,'to',newBins
            #    for k in data[dist]:
            #        data[dist][k]=rebinUnequalBinSize(data[dist][k],newBins)

            #main distributions
            #doDivideByBinWidth=True if dist=='mmiss' or dist=='(bosony>=0?mmiss:-mmiss)' else False
            #if doDivideByBinWidth:
            #    p.doPoissonErrorBars=False

            p.add(data[dist]['data'],
                  title='data',
                  color=ROOT.kBlack,
                  isData=True,
                  spImpose=False,
                  isSyst=False)  #,doDivideByBinWidth=doDivideByBinWidth)
            p.add(data[dist]['bkg'],
                  title='background',
                  color=ROOT.TColor.GetColor('#1f78b4'),
                  isData=False,
                  spImpose=False,
                  isSyst=False)  #,doDivideByBinWidth=doDivideByBinWidth)

            #background systematics
            for syst in [
                    '{0}_bkgshape_MuonEG_obsUp', '{0}_bkgshape_MuonEG_obsDown',
                    '{0}_bkgsinglediff_MuonEG_obsDown',
                    '{0}_bkgsinglediff_MuonEG_obsUp'
            ]:
                p.add(data[dist][syst.format(dist)],
                      title=syst,
                      color=ROOT.TColor.GetColor('#1f78b4'),
                      isData=False,
                      spImpose=False,
                      isSyst=True)
                #doDivideByBinWidth=doDivideByBinWidth)

            #p.ratiorange=[0.78,1.22]
            #p.ratiorange=[0.58,1.42]
            p.ratiorange = [0., 2.]
            p.show(opt.output, opt.lumi, extraText=catTitle)
            p.appendTo('%s/plotter_%s.root' % (opt.output, pfix))
            p.reset()
def main(args):

    parser = argparse.ArgumentParser(description='usage: %prog [options]')
    parser.add_argument(
        '-i',
        '--input',
        dest='input',
        default=
        '/eos/cms/store/cmst3/user/psilva/ExclusiveAna/final/ab05162/analysis_0p04/',
        help='input directory with the files [default: %default]')
    parser.add_argument(
        '--selCuts',
        dest='selCuts',
        default='bosonpt>40 && l1pt>30 && l2pt>20',
        help='preselection for Z categories [default: %default]')
    parser.add_argument('--doPerNch',
                        dest='doPerNch',
                        default=False,
                        action='store_true',
                        help='break-down per Nch [default: %default]')
    parser.add_argument('--doPerEra',
                        dest='doPerEra',
                        default=False,
                        action='store_true',
                        help='break-down per era [default: %default]')
    parser.add_argument(
        '--doPerPU',
        dest='doPerPU',
        default=False,
        action='store_true',
        help='break-down per pileup category [default: %default]')
    parser.add_argument('--doPerAngle',
                        dest='doPerAngle',
                        default=False,
                        action='store_true',
                        help='break-down per angle [default: %default]')
    parser.add_argument('--lumi',
                        dest='lumi',
                        default=37500.,
                        type=float,
                        help='integrated luminosity [default: %default]')
    parser.add_argument('-o',
                        '--output',
                        dest='output',
                        default='analysis/bkg',
                        help='Output directory [default: %default]')
    opt = parser.parse_args(args)

    ROOT.gROOT.SetBatch(True)
    ROOT.gStyle.SetOptTitle(0)
    ROOT.gStyle.SetOptStat(0)

    os.system('mkdir -p %s' % opt.output)

    #do all possible combinations of these categories
    baseCats = ['protonCat==%d' % (i + 1) for i in range(4)]
    subCats = ['']
    if opt.doPerEra: subCats += ['era==%d' % int(ord(x)) for x in 'BCDEF']
    if opt.doPerPU: subCats += ['nvtx<20', 'nvtx>=20']
    if opt.doPerAngle:
        subCats += ['xangle==%d' % i for i in [120, 130, 140, 150]]
    if opt.doPerNch: subCats += ['nch<15', 'nch>=15']
    catList = list(itertools.product(baseCats, subCats))

    outF = '%s/plotter_embkg.root' % opt.output
    os.system('rm %s' % outF)

    print '[doBackgroundValidation] with %d variations to test' % len(catList)
    print '\t output will be available in', outF
    for i, cat in enumerate(catList):

        selCut = ''
        for c in cat:
            if len(c) == 0: continue
            selCut += '%s&&' % c
        selCut += opt.selCuts
        titleCut = parseTitleFromCut(selCut)
        print '\t', i, selCut

        data = fillShapes(inputDir=opt.input, selCuts=selCut, proc='MuonEG')

        for dist in data:

            pname = '%s_%d' % (dist, i)
            for c in [':', ',', '>', '=', '(', ')', '-', '<', '?']:
                pname = pname.replace(c, '')
            p = Plot(pname)
            p.doChi2 = False  #True
            p.nominalDistForSystsName = 'background'

            #if dist=='mmiss':
            #    newBins=range(0,1000,40)+[1000,1100,1200,1500,2000]
            #    print 'Rebinning',dist,'to',newBins
            #    for k in data[dist]:
            #        data[dist][k]=rebinUnequalBinSize(data[dist][k],newBins)

            p.add(data[dist]['data'],
                  title='data',
                  color=ROOT.kBlack,
                  isData=True,
                  spImpose=False,
                  isSyst=False)
            p.add(data[dist]['bkg'],
                  title='background',
                  color=ROOT.kCyan - 6,
                  isData=False,
                  spImpose=False,
                  isSyst=False)

            #background systematics
            ci = 1
            for syst in [
                    '{0}_bkgshape_MuonEG_obsUp',
                    '{0}_bkgshape_MuonEG_obsDown',
                    '{0}_bkgsinglediffUp_MuonEG_obs',
                    '{0}_bkgsinglediffDown_MuonEG_obs',
            ]:
                ci = ci + 1
                p.add(
                    data[dist][syst.format(dist)],
                    title=syst,
                    color=ROOT.kCyan - 6,  #ci
                    isData=False,
                    spImpose=False,  #True,
                    isSyst=True)  #False)

            #p.ratiorange=[0.78,1.22]
            p.ratiorange = [0.58, 1.43]
            p.show(opt.output, opt.lumi, extraText='\\'.join(titleCut))
            p.appendTo(outF)
            p.reset()