Пример #1
0
def argus(opts, args, figname):
    '''
    ARGUS funcion:

    a(m; m0, xi, p) = A*m*(1- m^2/m0^2)^p * exp(xi*(1-m^2/m0^2))

    '''
    canvas = TCanvas("aCanvas", "Canvas", 600, 600)

    m0 = parse_opts_set(opts.set, 'm0')
    xi = parse_opts_set(opts.set, 'xi')
    p = parse_opts_set(opts.set, 'p')

    fun = 'x*TMath::Power((1-x**2/[0]**2),[2])*exp([1]*(1-x**2/[0]**2))'

    f1 = TF1('argus', fun, 1.83, 1.86)
    f1.SetParName(0, 'Resonance mass')
    f1.SetParName(1, 'Slope parameter')
    f1.SetParName(2, 'Power')

    f1.SetParameter(0, m0)
    f1.SetParameter(1, xi)
    f1.SetParameter(2, p)
    f1.Draw()
    canvas_output(canvas, figname, opts.test)
Пример #2
0
Файл: var.py Проект: xshi/dhad
def momentum_pi(opts, args, figname):
    parsed = parse_args(args)
    datatype = parsed[0]
    tag = parsed[1]
    modes = parsed[2]
    label = parsed[3]

    if len(modes) > 1:
        raise ValueError(modes, 'Only handle one mode at this time!')

    mode = modes[0]
    modekey, sign = get_modekey_sign(mode)
    modename = attr.modes[modekey]['uname']
    rootfile = get_rootfile(datatype, mode, label)
    pt = add_rootfile(rootfile, debug=opts.debug)
    canvas  =  ROOT.TCanvas("aCanvas", "Canvas", 600, 600)
    hist = ROOT.TH1F('pip', '#pi momentum in %s' %modename, 100, 0, 1) 
    num = 0
    for pte in pt:
        if opts.test and num >1000:
            break

        d =chooseD(modekey, pte, sign)
        if d != None:
            num += 1
            npi = pte.ddau2[d]
            pipx = pte.trpipx[npi]
            pipy = pte.trpipy[npi]
            pipz = pte.trpipz[npi]
            pip = sqrt(pipx**2 + pipy**2 + pipz**2) 
            hist.Fill(pip)

    hist.Draw()
    canvas_output(canvas, figname, opts.test)
    hist.Delete()
Пример #3
0
Файл: fun.py Проект: xshi/dhad
def argus(opts, args, figname):
    '''
    ARGUS funcion:

    a(m; m0, xi, p) = A*m*(1- m^2/m0^2)^p * exp(xi*(1-m^2/m0^2))

    '''
    canvas = TCanvas("aCanvas", "Canvas", 600, 600)

    m0 = parse_opts_set(opts.set, 'm0')
    xi = parse_opts_set(opts.set, 'xi')
    p = parse_opts_set(opts.set, 'p')

    fun = 'x*TMath::Power((1-x**2/[0]**2),[2])*exp([1]*(1-x**2/[0]**2))'

    f1 = TF1('argus', fun, 1.83, 1.86)
    f1.SetParName(0, 'Resonance mass')
    f1.SetParName(1, 'Slope parameter')
    f1.SetParName(2, 'Power')

    f1.SetParameter(0, m0)
    f1.SetParameter(1, xi)
    f1.SetParameter(2, p)
    f1.Draw()
    canvas_output(canvas, figname, opts.test)
Пример #4
0
Файл: var.py Проект: xshi/dhad
def deltae(opts, args, figname):
    parsed = parse_args(args)
    datatype = parsed[0]
    tag = parsed[1]
    modes = parsed[2]
    label = parsed[3]

    alt_deltae = {'decutl': -1, 'decuth': 1}

    canvas = ROOT.TCanvas("aCanvas", "Canvas", 1000, 1000)
    canvas.Divide(3,3)

    deltae_hist = {}
    
    hist = ROOT.TH1F('deltae', 'DeltaE', 100, -0.1, 0.1) 
    pad = 1
    for mode in modes:
        frametitle = tools.get_mode_root_name(mode)
        canvas.cd(pad)
        pad += 1
        
        modekey, sign = get_modekey_sign(mode)
        deltae_hist[modekey] = ROOT.TH1F('deltae-%s' % modekey,
                                         frametitle, 100, -0.1, 0.1) 

        rootfile = get_rootfile(datatype, mode, label)
        pt = add_rootfile(rootfile, debug=opts.debug)

        for pte in pt:
            d =chooseD(modekey, pte, sign, alt_deltae=alt_deltae)
            if d != None:
                deltae_hist[modekey].Fill(pte.ddeltae[d])
        deltae_hist[modekey].Draw()
    canvas_output(canvas, figname, opts.test)
Пример #5
0
Файл: var.py Проект: xshi/dhad
def mbc(opts, args, figname):
    parsed = parse_args(args)
    datatype = parsed[0]
    tag = parsed[1]
    modes = parsed[2]
    label = parsed[3]

    if len(modes) > 1:
        raise ValueError(modes)

    labels = [label]
    if ',' in label:
        labels = label.split(',')

    figname = shorten_figname(figname)
    mode = modes[0]
    modekey, sign = get_modekey_sign(mode)
    modename = attr.modes[modekey]['uname']
    frametitle = modename

    hnames = parse_opts_set(opts.set, 'legend')
    if hnames:
        hist_names = hnames.split(',')
    else:
        hist_names = labels

    nBins = 100
    Xmin = 1.83
    Xmax = 1.89
    
    hist_list = []
    for label, hist_name in zip(labels, hist_names):
        hist_title = frametitle
        hist = ROOT.TH1D(hist_name, hist_title, nBins, Xmin, Xmax)
        rootfile = get_rootfile(datatype, mode, label)
        pt = add_rootfile(rootfile, debug=opts.debug)

        ntotal = 0
        nselected = 0 
        for pte in pt:
            ntotal += 1
            d =chooseD(modekey, pte, sign, opt=label)
            if d != None:
                hist.Fill(pte.dmbc[d])
                nselected += 1
        sys.stdout.write('Selected %s out of %s. \n' %(nselected, ntotal))
        hist_list.append(hist)

    xtitle = 'mBC (GeV)' 
    legend = ROOT.TLegend(0.66, 0.8, 0.9, 0.9)
    canvas = draw_hist(hist_list, xtitle, legend)

    Logy = parse_opts_set(opts.set, 'SetLogy')
    if Logy != None:
        canvas.SetLogy(Logy)

    canvas_output(canvas, figname, opts.test)
    hist.Delete()
Пример #6
0
def kpimass0(opts, args, figname):
    parsed = parse_args(args)
    datatype = parsed[0]
    tag = parsed[1]
    modes = parsed[2]
    label = parsed[3]

    mode = modes[0]
    modekey = tools.get_modekey(mode)

    binbase = parse_opts_set(opts.set, 'binbase')
    binwidth = parse_opts_set(opts.set, 'binwidth')
    numbins = parse_opts_set(opts.set, 'numbins')

    dbfile = os.path.join(attr.figpath, label, figname + '.db')

    fullrangedata, fullrangemc = get_fullrange_data_mc(opts, dbfile, label,
                                                       'kpimass', modekey, tag,
                                                       binbase, binwidth,
                                                       numbins)

    scaledict(fullrangedata, 1 / sumdict(fullrangedata))

    scaledict(fullrangemc, 1 / sumdict(fullrangemc))

    gdata = TGraph(len(fullrangedata['x']), getarray('x', fullrangedata),
                   getarray('y', fullrangedata))

    gmc = TGraph(len(fullrangemc['x']), getarray('x', fullrangemc),
                 getarray('y', fullrangemc))

    c1 = TCanvas('c', 'kpi', 600, 600)
    c1.SetLeftMargin(0.15)
    c1.SetRightMargin(0.05)
    c1.SetBottomMargin(0.15)
    c1.SetTopMargin(0.05)
    hr = c1.DrawFrame(0.5, 0.0, 1.5, 0.04)
    hr.GetYaxis().SetTitle('Yield (arbitrary units)')
    hr.GetXaxis().SetTitle('M(K^{-} #pi^{+}) (GeV/#font[72]{c}^{2})')
    hr.GetYaxis().SetTitleOffset(1.4)
    hr.GetYaxis().SetTitleSize(0.05)
    hr.GetXaxis().SetTitleOffset(1.3)
    hr.GetXaxis().SetTitleSize(0.05)
    gmc.SetMarkerStyle(21)
    gmc.SetMarkerColor(kRed)
    gmc.SetMarkerSize(0.6)
    gmc.SetLineColor(kRed)
    gmc.Draw("PL")
    gdata.SetMarkerStyle(20)
    gdata.SetMarkerColor(kBlue)
    gdata.SetMarkerSize(0.6)
    gdata.Draw("P")
    leg = TLegend(0.6, 0.75, 0.95, 0.95)
    leg.AddEntry(gdata, 'Data', 'pl')
    leg.AddEntry(gmc, 'MC', 'pl')
    leg.Draw()
    canvas_output(c1, figname, label, opts.test)
Пример #7
0
def kpimass0(opts, args, figname):
    parsed = parse_args(args)
    datatype  = parsed[0]
    tag       = parsed[1]
    modes     = parsed[2]
    label     = parsed[3]

    mode = modes[0]
    modekey = tools.get_modekey(mode)

    binbase = parse_opts_set(opts.set, 'binbase')
    binwidth =  parse_opts_set(opts.set, 'binwidth')
    numbins = parse_opts_set(opts.set, 'numbins')

    dbfile = os.path.join(attr.figpath, label, figname+'.db')

    fullrangedata, fullrangemc = get_fullrange_data_mc(
        opts, dbfile, label, 'kpimass',  modekey, tag, binbase, binwidth, numbins)

    scaledict(fullrangedata, 1/sumdict(fullrangedata))
    
    scaledict(fullrangemc, 1/sumdict(fullrangemc))

    gdata = TGraph(len(fullrangedata['x']),
                   getarray('x', fullrangedata),
                   getarray('y', fullrangedata))

    gmc = TGraph(len(fullrangemc['x']),
                 getarray('x', fullrangemc),
                 getarray('y', fullrangemc))

    c1 = TCanvas('c','kpi', 600, 600)
    c1.SetLeftMargin(0.15)
    c1.SetRightMargin(0.05)
    c1.SetBottomMargin(0.15)
    c1.SetTopMargin(0.05)
    hr = c1.DrawFrame(0.5, 0.0, 1.5, 0.04)
    hr.GetYaxis().SetTitle('Yield (arbitrary units)')
    hr.GetXaxis().SetTitle('M(K^{-} #pi^{+}) (GeV/#font[72]{c}^{2})')
    hr.GetYaxis().SetTitleOffset(1.4)
    hr.GetYaxis().SetTitleSize(0.05)
    hr.GetXaxis().SetTitleOffset(1.3)
    hr.GetXaxis().SetTitleSize(0.05)
    gmc.SetMarkerStyle(21)
    gmc.SetMarkerColor(kRed)
    gmc.SetMarkerSize(0.6)
    gmc.SetLineColor(kRed)
    gmc.Draw("PL")
    gdata.SetMarkerStyle(20)
    gdata.SetMarkerColor(kBlue)
    gdata.SetMarkerSize(0.6)
    gdata.Draw("P")
    leg = TLegend(0.6, 0.75, 0.95, 0.95)
    leg.AddEntry(gdata, 'Data', 'pl')
    leg.AddEntry(gmc, 'MC', 'pl')
    leg.Draw()
    canvas_output(c1, figname, label, opts.test)
Пример #8
0
def kpimass(opts, args, figname):
    var = 'kpimass'
    parsed = parse_args(args)
    datatype = parsed[0]
    tag = parsed[1]
    modes = parsed[2]
    label = parsed[3]

    if len(modes) > 1:
        raise ValueError(modes, 'Only handle one mode at this time!')

    mode = modes[0]

    if ',' in datatype:
        datatypes = datatype.split(',')
    else:
        datatypes = [datatype]

    hist_list = []
    nBins = 100
    Xmin = 0.5
    Xmax = 1.5

    labels = [label, label]
    hist_names = ['Signal MC', 'Data']

    modekey, sign = get_modekey_sign(mode)
    modename = attr.modes[modekey]['uname']
    hist_title = 'K^{-} #pi^{+} mass in %s' % modename
    for datatype, hist_name in zip(datatypes, hist_names):
        hist = ROOT.TH1D(hist_name, hist_title, nBins, Xmin, Xmax)
        evtfile = get_evtfile_kkmass(datatype,
                                     mode,
                                     label,
                                     var,
                                     test=opts.test)
        f = open(evtfile, 'r')

        for line in f:
            kpimass = float(line.split()[2])
            hist.Fill(kpimass)

        hist_list.append(hist)

    xtitle = 'M(K^{+}#pi^{-}) (GeV/c^{2})'

    legend = ROOT.TLegend(0.1, 0.8, 0.3, 0.9)
    canvas = tools.draw_hist(hist_list, xtitle, legend, reverse=True)

    canvas_output(canvas, figname, label, opts.test, outputhtml=False)
    hist.Delete()
Пример #9
0
Файл: var.py Проект: xshi/dhad
def momentum_pi0(opts, args, figname):
    parsed = parse_args(args)
    datatype = parsed[0]
    tag = parsed[1]
    modes = parsed[2]
    label = parsed[3]


    if len(modes) > 1:
        raise ValueError(modes, 'Only handle one mode at this time!')

    mode = modes[0]
    modekey, sign = get_modekey_sign(mode)
    modename = attr.modes[modekey]['uname']

    rootfile = get_rootfile(datatype, mode, label)
    pt = add_rootfile(rootfile, debug=opts.debug)
    #canvas  =  ROOT.TCanvas("aCanvas", "Canvas", 900, 900)

    var = 'pi0p'
    title = modename
    unit = 'GeV'
    nBins = 100
    Xmin = 0.
    Xmax = 1.
    xtitle = '#pi^{0} momentum (GeV)'
    ytitle = 'Events / (%s %s)' % ((Xmax-Xmin)/nBins, unit)

    hist = ROOT.TH1F(var, title, nBins, Xmin, Xmax)

    num = 0
    for pte in pt:
        if opts.test and num >1000:
            break

        d =chooseD(modekey, pte, sign)
        if d != None:
            num += 1
            if modekey == 1 or modekey == 203:
                npi0 = pte.ddau3[d]
            if modekey == 201:
                npi0 = pte.ddau4[d]

            pi0px = pte.pi0px[npi0]
            pi0py = pte.pi0py[npi0]
            pi0pz = pte.pi0pz[npi0]
            pi0p = sqrt(pi0px**2 + pi0py**2 + pi0pz**2) 
            hist.Fill(pi0p)

    canvas = draw_hist(hist, xtitle, ytitle)
    canvas_output(canvas, figname, label, test=opts.test)
Пример #10
0
Файл: var.py Проект: xshi/dhad
def ksmass(opts, args, figname):
    parsed = parse_args(args)
    datatype = parsed[0]
    tag = parsed[1]
    modes = parsed[2]
    label = parsed[3]

    var = 'ksmass'
    varname = 'K_{S} mass'
    unit = 'GeV'
    nBins = 100
    Xmin = 0.45
    Xmax = 0.55

    if len(modes) > 1:
        raise ValueError(modes, 'Only handle one mode at this time!')

    mode = modes[0]
    modekey, sign = get_modekey_sign(mode)
    
    modename = attr.modes[modekey]['uname']
    histname = '%s in %s' %(varname, modename)
    rootfile = get_rootfile(datatype, mode, label)
    pt = add_rootfile(rootfile, debug=opts.debug)
    canvas  =  ROOT.TCanvas("aCanvas", "Canvas", 600, 600)
    hist = ROOT.TH1F(var, histname, nBins, Xmin, Xmax)

    ntotal = 0
    nselected = 0
    def alt_checkVetoes(mode, pte, index, opt='', sign=None):
        return True

    if modekey not in (202, 203, 204):
        raise ValueError(modekey)
    
    for pte in pt:
        ntotal += 1
        if opts.test and ntotal >1000:
            break
        
        d =chooseD(modekey, pte, sign, checkVetoes=alt_checkVetoes)
        if d != None:
            nselected += 1
            ksmass = pte.ksmass[pte.ddau1[d]]
            hist.Fill(ksmass)

    hist.Draw()
    canvas_output(canvas, figname, opts.test)
    hist.Delete()
    sys.stdout.write(' selected %s out of %s.\n' % (nselected, ntotal))
Пример #11
0
Файл: var.py Проект: xshi/dhad
def pi0mass(opts, args, figname):
    var = 'pi0mass'
    varname = '#pi^{0} mass'
    unit = 'GeV'
    nBins = 100
    Xmin = 0.115
    Xmax = 0.16

    parsed = parse_args(args)
    datatype  = parsed[0]
    tag       = parsed[1]
    modes     = parsed[2]
    label     = parsed[3]

    figname = shorten_figname(figname)
    mode = modes[0]

    modekey = get_modekey(mode)
    modename = attr.modes[modekey]['uname']
    frametitle = '#pi^{0} mass in %s' % modename

    labels = [label]
    if ',' in label:
        labels = label.split(',')

    hnames = parse_opts_set(opts.set, 'legend')
    if hnames:
        hist_names = hnames.split(',')
    else:
        hist_names = labels
        
    hist_list = []
    for label, hist_name in zip(labels, hist_names):
        hist_title = frametitle
        hist = ROOT.TH1D(hist_name, hist_title, nBins, Xmin, Xmax)
        evtfile = get_evtfile(datatype, mode, label, var, test=False)
        hist = tools.fill_hist_evtfile(hist, evtfile)
        hist_list.append(hist)

    xtitle = '%s (%s)' %(varname, unit)
    legend = ROOT.TLegend(0.66, 0.8, 0.9, 0.9)
    canvas = draw_hist(hist_list, xtitle, legend)
    canvas_output(canvas, figname, test=opts.test)
Пример #12
0
Файл: var.py Проект: xshi/dhad
def mass_kk(opts, args, figname):
    parsed = parse_args(args)
    datatype = parsed[0]
    tag = parsed[1]
    modes = parsed[2]
    label = parsed[3]

    if len(modes) > 1:
        raise ValueError(modes, 'Only handle one mode at this time!')

    mode = modes[0]
    modekey, sign = get_modekey_sign(mode)
    modename = attr.modes[modekey]['uname']
    rootfile = get_rootfile(datatype, mode, label)

    pt = add_rootfile(rootfile, debug=opts.debug)
    canvas  =  ROOT.TCanvas("aCanvas", "Canvas", 600, 600)
    hist = ROOT.TH1F('kkmass', 'KK mass in %s' %modename, 100, 0, 2)
    hist.SetXTitle('M(K^{+}K^{-}) (GeV/c^{2})')
    num = 0
    for pte in pt:
        if opts.test and num >10000:
            break

        d =chooseD(modekey, pte, sign)
        if modekey != 205:
            raise NameError(modekey)
        
        if d != None:
            num += 1
            kaons = [pte.ddau1[d], pte.ddau2[d]]

            fourvecs = []
            for index in kaons:
                fourvecs.append([pte.trke[index], pte.trkpy[index],
                                 pte.trkpy[index], pte.trkpz[index]])

            kkmass = invmass(fourvecs[0], fourvecs[1])
            hist.Fill(kkmass)

    hist.Draw()
    canvas_output(canvas, figname, label, opts.test, outputroot=True)
    hist.Delete()
Пример #13
0
Файл: var.py Проект: xshi/dhad
def momentum_K(opts, args, figname):
    parsed = parse_args(args)
    datatype = parsed[0]
    tag = parsed[1]
    modes = parsed[2]
    label = parsed[3]

    if len(modes) > 1:
        raise ValueError(modes, 'Only handle one mode at this time!')

    mode = modes[0]
    modekey, sign = get_modekey_sign(mode)
    modename = attr.modes[modekey]['uname']
    rootfile = get_rootfile(datatype, mode, label)
    pt = add_rootfile(rootfile, debug=opts.debug)
    canvas  =  ROOT.TCanvas("aCanvas", "Canvas")

    pmax = 1
    if modekey == 0:
        pmax = 1.5 
    
    hist = ROOT.TH1F('K', 'K momentum in %s' %modename, 100, 0, pmax) 
    num = 0
    for pte in pt:
        if opts.test and num >1000:
            break

        d =chooseD(modekey, pte, sign)
        if d != None:
            num += 1
            nK = pte.ddau1[d]            

            Kpx = pte.trkpx[nK]
            Kpy = pte.trkpy[nK]
            Kpz = pte.trkpz[nK]
            Kp = sqrt(Kpx**2 + Kpy**2 + Kpz**2) 
            hist.Fill(Kp)

    hist.Draw()
    canvas_output(canvas, figname, opts.test)
    hist.Delete()
Пример #14
0
Файл: var.py Проект: xshi/dhad
def mass_pi0(opts, args, figname):
    parsed = parse_args(args)
    datatype = parsed[0]
    tag = parsed[1]
    modes = parsed[2]
    label = parsed[3]

    if len(modes) > 1:
        raise ValueError(modes, 'Only handle one mode at this time!')

    mode = modes[0]
    modekey, sign = get_modekey_sign(mode)
    modename = attr.modes[modekey]['uname']
    rootfile = get_rootfile(datatype, mode, label)
    print rootfile, label
    sys.exit()
    pt = add_rootfile(rootfile, debug=opts.debug)
    canvas  =  ROOT.TCanvas("aCanvas", "Canvas")
    hist = ROOT.TH1F('pi0mass', '#pi^{0} mass in %s' %modename, 100, 0.1, 0.2) 
    num = 0
    for pte in pt:
        if opts.test and num >1000:
            break

        d =chooseD(modekey, pte, sign)
        if d != None:
            num += 1
            if modekey == 1 or modekey == 203:
                npi0 = pte.ddau3[d]
            if modekey == 201:
                npi0 = pte.ddau4[d]

            pi0mass = pte.pi0mass[npi0]
            hist.Fill(pi0mass)

    hist.Draw()
    canvas_output(canvas, figname, opts.test)
    hist.Delete()
Пример #15
0
def kkmass1(opts, args, figname):
    parsed = parse_args(args)
    datatype  = parsed[0]
    tag       = parsed[1]
    modes     = parsed[2]
    label     = parsed[3]

    mode = modes[0]
    modekey = tools.get_modekey(mode)

    binbase = parse_opts_set(opts.set, 'binbase')
    binwidth =  parse_opts_set(opts.set, 'binwidth')
    numbins = parse_opts_set(opts.set, 'numbins')
    nohtml = parse_opts_set(opts.set, 'nohtml')

    if nohtml == None:
        outputhtml = True
    else:
        outputhtml = False

    dbfile = os.path.join(attr.figpath, label, figname+'.db')

    alldata, fullrangemc = get_fullrange_data_mc(
        opts, dbfile, label, 'kkmass', modekey, tag, binbase, binwidth, numbins)

    fullrangedata = {}
    init_dict(fullrangedata)

    evtpath = os.path.join(attr.datpath, 'sel', label, 'kkmass')
    evtfilemc = tools.set_file('evt', 'signal', modekey, tag,  prefix='',
                               forceCombine=1, extbase=evtpath)

    for i in xrange(numbins):
        lowmass = binbase+i*binwidth
        highmass = binbase+(i+1)*binwidth
        prefix = 'dir_%s/kkmass/%s_%s' % (label, lowmass, highmass)
        datafile = tools.set_file('txt', 'data', modekey, tag,
                                  prefix=prefix, extbase=attr.fitpath)

        if os.access(datafile, os.F_OK):
            parsefile(datafile, lowmass, highmass, fullrangedata)
            
        else:
            sys.stdout.write('Skipped %s %s ...\n' % (lowmass, highmass))

    scaledict(fullrangedata, 1/sumdict(fullrangedata))
    
    scaledict(fullrangemc, 1/sumdict(fullrangemc))

    gdata = TGraphAsymmErrors(len(fullrangedata['x']),
                              getarray('x', fullrangedata),
                              getarray('y', fullrangedata),
                              getarray('exl', fullrangedata),
                              getarray('exh', fullrangedata),
                              getarray('eyl', fullrangedata),
                              getarray('eyh', fullrangedata))

    gmc = TGraph(len(fullrangemc['x']),
                 getarray('x', fullrangemc),
                 getarray('y', fullrangemc))

    c1 = TCanvas('c','kk', 600, 600)
    c1.SetLeftMargin(0.15)
    c1.SetRightMargin(0.05)
    c1.SetBottomMargin(0.15)
    c1.SetTopMargin(0.05)
    #hr = c1.DrawFrame(0.5, 0.0, 1.5, 0.04)
    hr = c1.DrawFrame(0.9, 0.0, 1.8, 0.1)
    hr.GetYaxis().SetTitle('Yield (arbitrary units)')
    hr.GetXaxis().SetTitle('M(K^{-} #pi^{+}) (GeV/#font[72]{c}^{2})')
    hr.GetYaxis().SetTitleOffset(1.4)
    hr.GetYaxis().SetTitleSize(0.05)
    hr.GetXaxis().SetTitleOffset(1.3)
    hr.GetXaxis().SetTitleSize(0.05)
    gmc.SetMarkerStyle(21); gmc.SetMarkerColor(kRed); gmc.SetMarkerSize(0.6)
    gmc.SetLineColor(kRed)
    gmc.Draw("PL")
    gdata.SetMarkerStyle(20); gdata.SetMarkerColor(kBlue); gdata.SetMarkerSize(0.6)
    gdata.Draw("P")
    leg = TLegend(0.6, 0.75, 0.92, 0.92)
    leg.AddEntry(gdata, 'Data', 'pl')
    leg.AddEntry(gmc, 'MC', 'pl')
    leg.SetFillColor(0)
    leg.SetBorderSize(0)
    leg.Draw()
    canvas_output(c1, figname, label, opts.test, outputhtml=outputhtml)
Пример #16
0
Файл: var.py Проект: xshi/dhad
def momentum_pim_KS(opts, args, figname):
    parsed = parse_args(args)
    datatype = parsed[0]
    tag = parsed[1]
    modes = parsed[2]
    label = parsed[3]

    if len(modes) > 1:
        raise ValueError(modes, 'Only handle one mode at this time!')

    labels = [label]
    if ',' in label:
        labels = label.split(',')

    figname = shorten_figname(figname)
    mode = modes[0]
    modekey, sign = get_modekey_sign(mode)
    modename = attr.modes[modekey]['uname']
    frametitle = modename

    if modekey not in (202, 203, 204):
        raise ValueError(modekey)
    
    hnames = parse_opts_set(opts.set, 'legend')
    if hnames:
        hist_names = hnames.split(',')
    else:
        hist_names = labels

    nBins = 100
    Xmin = 0
    Xmax = 1
    xtitle = '#pi^{-} (K_{S}) momentum (GeV)' 
    legend = ROOT.TLegend(0.75, 0.8, 0.95, 0.9)
   
    hist_list = []
    for label, hist_name in zip(labels, hist_names):
        hist_title = frametitle
        hist = ROOT.TH1D(hist_name, hist_title, nBins, Xmin, Xmax)
        rootfile = get_rootfile(datatype, mode, label)
        pt = add_rootfile(rootfile, debug=opts.debug)

        ntotal = 0
        nselected = 0 
        for pte in pt:
            ntotal += 1
            if opts.test and ntotal >80000:
                break

            d =chooseD(modekey, pte, sign, opt=label)
            if d != None:
                nks = pte.ddau1[d]
                npi = pte.ksdau2[nks]
                
                pipx = pte.trpipx[npi]
                pipy = pte.trpipy[npi]
                pipz = pte.trpipz[npi]
                pip = sqrt(pipx**2 + pipy**2 + pipz**2) 
                hist.Fill(pip)
                nselected += 1
        sys.stdout.write('%s: Selected %s out of %s. \n' %(
            label,nselected, ntotal))
        hist_list.append(hist)

    canvas = draw_hist(hist_list, xtitle, legend)

    canvas_output(canvas, figname, opts.test)
    hist.Delete()
Пример #17
0
def kkmass1(opts, args, figname):
    parsed = parse_args(args)
    datatype = parsed[0]
    tag = parsed[1]
    modes = parsed[2]
    label = parsed[3]

    mode = modes[0]
    modekey = tools.get_modekey(mode)

    binbase = parse_opts_set(opts.set, 'binbase')
    binwidth = parse_opts_set(opts.set, 'binwidth')
    numbins = parse_opts_set(opts.set, 'numbins')
    nohtml = parse_opts_set(opts.set, 'nohtml')

    if nohtml == None:
        outputhtml = True
    else:
        outputhtml = False

    dbfile = os.path.join(attr.figpath, label, figname + '.db')

    alldata, fullrangemc = get_fullrange_data_mc(opts, dbfile, label, 'kkmass',
                                                 modekey, tag, binbase,
                                                 binwidth, numbins)

    fullrangedata = {}
    init_dict(fullrangedata)

    evtpath = os.path.join(attr.datpath, 'sel', label, 'kkmass')
    evtfilemc = tools.set_file('evt',
                               'signal',
                               modekey,
                               tag,
                               prefix='',
                               forceCombine=1,
                               extbase=evtpath)

    for i in xrange(numbins):
        lowmass = binbase + i * binwidth
        highmass = binbase + (i + 1) * binwidth
        prefix = 'dir_%s/kkmass/%s_%s' % (label, lowmass, highmass)
        datafile = tools.set_file('txt',
                                  'data',
                                  modekey,
                                  tag,
                                  prefix=prefix,
                                  extbase=attr.fitpath)

        if os.access(datafile, os.F_OK):
            parsefile(datafile, lowmass, highmass, fullrangedata)

        else:
            sys.stdout.write('Skipped %s %s ...\n' % (lowmass, highmass))

    scaledict(fullrangedata, 1 / sumdict(fullrangedata))

    scaledict(fullrangemc, 1 / sumdict(fullrangemc))

    gdata = TGraphAsymmErrors(len(fullrangedata['x']),
                              getarray('x', fullrangedata),
                              getarray('y', fullrangedata),
                              getarray('exl', fullrangedata),
                              getarray('exh', fullrangedata),
                              getarray('eyl', fullrangedata),
                              getarray('eyh', fullrangedata))

    gmc = TGraph(len(fullrangemc['x']), getarray('x', fullrangemc),
                 getarray('y', fullrangemc))

    c1 = TCanvas('c', 'kk', 600, 600)
    c1.SetLeftMargin(0.15)
    c1.SetRightMargin(0.05)
    c1.SetBottomMargin(0.15)
    c1.SetTopMargin(0.05)
    #hr = c1.DrawFrame(0.5, 0.0, 1.5, 0.04)
    hr = c1.DrawFrame(0.9, 0.0, 1.8, 0.1)
    hr.GetYaxis().SetTitle('Yield (arbitrary units)')
    hr.GetXaxis().SetTitle('M(K^{-} #pi^{+}) (GeV/#font[72]{c}^{2})')
    hr.GetYaxis().SetTitleOffset(1.4)
    hr.GetYaxis().SetTitleSize(0.05)
    hr.GetXaxis().SetTitleOffset(1.3)
    hr.GetXaxis().SetTitleSize(0.05)
    gmc.SetMarkerStyle(21)
    gmc.SetMarkerColor(kRed)
    gmc.SetMarkerSize(0.6)
    gmc.SetLineColor(kRed)
    gmc.Draw("PL")
    gdata.SetMarkerStyle(20)
    gdata.SetMarkerColor(kBlue)
    gdata.SetMarkerSize(0.6)
    gdata.Draw("P")
    leg = TLegend(0.6, 0.75, 0.92, 0.92)
    leg.AddEntry(gdata, 'Data', 'pl')
    leg.AddEntry(gmc, 'MC', 'pl')
    leg.SetFillColor(0)
    leg.SetBorderSize(0)
    leg.Draw()
    canvas_output(c1, figname, label, opts.test, outputhtml=outputhtml)