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tableFid.py
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tableFid.py
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import sys, os, string, re, pwd, commands, ast, optparse, shlex, time, copy
import numpy as np
from subprocess import *
sys.path.append('./inputs')
sys.path.append('./LHScans')
from plotUtils import *
def parseOptions():
global opt, args, runAllSteps
usage = ('usage: %prog [options]\n'
+ '%prog -h for help')
parser = optparse.OptionParser(usage)
# input options
parser.add_option('', '--obsName', dest='OBSNAME', type='string',default='', help='Name of the observable, supported: "inclusive", "pT4l", "eta4l", "massZ2", "nJets"')
parser.add_option('', '--obsBins', dest='OBSBINS', type='string',default='', help='Bin boundaries for the diff. measurement separated by "|", e.g. as "|0|50|100|", use the defalut if empty string')
parser.add_option('', '--year', dest='YEAR', type='string',default='', help='Year -> 2016 or 2017 or 2018 or Full')
parser.add_option('', '--verbose', action='store_true', dest='VERBOSE', default=False, help='print values')
# store options and arguments as global variables
global opt, args
(opt, args) = parser.parse_args()
if (opt.OBSBINS=='' and opt.OBSNAME!='inclusive'):
parser.error('Bin boundaries not specified for differential measurement. Exiting...')
sys.exit()
# Define function for processing of os command
def processCmd(cmd, quiet = 0):
output = '\n'
p = Popen(cmd, shell=True, stdout=PIPE, stderr=STDOUT, bufsize=-1)
for line in iter(p.stdout.readline, ''):
output=output+str(line)
print line,
p.stdout.close()
if p.wait() != 0:
raise RuntimeError("%r failed, exit status: %d" % (cmd, p.returncode))
return output
# parse the arguments and options
global opt, args, runAllSteps
parseOptions()
def writeline(obs, bins, sigma, delta, stat, syst, doubleDiff):
fr_dn = str(round(delta[0]/sigma * 100, 0))
fr_up = str(round(delta[1]/sigma * 100, 0))
sigma = str(round(sigma, 2))
if not doubleDiff:
dn = str(round(bins[0], 2))
up = str(round(bins[1], 2))
else:
obs_1 = obs[0]; obs_2 = obs[1]
dn_1 = str(round(bins[0][0], 2))
up_1 = str(round(bins[0][1], 2))
dn_2 = str(round(bins[1][0], 2))
up_2 = str(round(bins[1][1], 2))
e_dn = str(round(delta[0], 2))
e_up = str(round(delta[1], 2))
st_dn = str(round(stat[0], 2))
st_up = str(round(stat[1], 2))
sy_dn = str(round(syst[0], 2))
sy_up = str(round(syst[1], 2))
if not doubleDiff:
line = "$%s < %s < %s$ & $%s$ & $_{%s}^{+%s}$ & $_{%s}^{+%s}$ & $_{%s}^{+%s}$ & $_{-%s}^{+%s}$" %(dn, obs, up, sigma, e_dn, e_up, fr_dn, fr_up, st_dn, st_up, sy_dn, sy_dn)
else:
# line = "Bin %s & $%s$ & $_{%s}^{+%s}$ & $_{%s}^{+%s}$ & $_{%s}^{+%s}$ & $_{-%s}^{+%s}$" %(dn, sigma, e_dn, e_up, fr_dn, fr_up, st_dn, st_up, sy_dn, sy_dn)
line = "$%s < %s < %s$, $%s < %s < %s$ & $%s$ & $_{%s}^{+%s}$ & $_{%s}^{+%s}$ & $_{%s}^{+%s}$ & $_{-%s}^{+%s}$" %(dn_1, obs_1, up_1, dn_2, obs_2, up_2, sigma, e_dn, e_up, fr_dn, fr_up, st_dn, st_up, sy_dn, sy_dn)
return line
def table(results, obsLabel, doubleDiff):
print("\\begin{table}[hb]")
print("\\centering")
print("\\renewcommand{\\arraystretch}{1.5}")
print("\\begin{tabular}{ |c||c|c|c|c|c| }") #{ |p{3cm}||p{3cm}|p{3cm}|p{3cm}|p{3cm}| }")
print("\\hline")
if not doubleDiff:
print("\\multicolumn{6}{|c|}{HZZ4L $\sigma_{\\text{fid}}$, $%s$} \\\\[5pt]" %obsLabel)
else:
print("\\multicolumn{6}{|c|}{HZZ4L $\sigma_{\\text{fid}}$, $%s$ vs $%s$} \\\\[5pt]" %(obsLabel[0], obsLabel[1]))
print("\\hline")
print("Bin range & $d\sigma_{fid}$ (fb) & $\Delta_{tot}$ (fb) & $\delta_{rel}$ (\% fb) & $\Delta_{stat}$ (fb) & $\Delta_{syst}$ (fb)\\\\[5pt]")
print("\\hline")
for line in results:
print("%s \\\\[5pt]" %line)
print("\\hline")
print("\\end{tabular}")
print("\\end{table}")
obsName = opt.OBSNAME
obsLabel = obsName
obsName, doubleDiff = getObsName(obsName)
if doubleDiff:
obsFirst = getMath(obsLabel.split(' vs ')[0])
obsSecond = getMath(obsLabel.split(' vs ')[1])
obsBins = parseBins(opt.OBSBINS)
if doubleDiff: bound_1st, bound_2nd = binBoundaries(obsBins)
label = getMath(obsName)
if doubleDiff: label = [obsFirst, obsSecond]
_temp = __import__('resultsXS_LHScan_expected_'+obsName+'_v3', globals(), locals(), ['resultsXS'], -1)
resultsXS = _temp.resultsXS
lines = []
nBins=len(obsBins)
if not doubleDiff: nBins = nBins -1
obs_reco_high = obsBins[1]
for _bin in range(nBins):
if not doubleDiff:
obs_reco_low = obsBins[_bin]
obs_reco_high = obsBins[_bin+1]
else:
down = bound_1st[_bin]
up = bound_2nd[_bin]
binName = 'SM_125_%s_genbin%i' %(obsName, _bin)
e_dn = resultsXS[binName]['uncerDn']
e_up = resultsXS[binName]['uncerUp']
sigma = resultsXS[binName]['central']
binName = 'SM_125_%s_genbin%i_statOnly' %(obsName, _bin)
st_dn = resultsXS[binName]['uncerDn']
st_up = resultsXS[binName]['uncerUp']
sy_dn = np.sqrt(e_dn**2 - st_dn**2)
sy_up = np.sqrt(e_up**2 - st_up**2)
if not doubleDiff:
lines.append(writeline(label, [obs_reco_low, obs_reco_high], sigma, [e_dn, e_up], [st_dn, st_up], [sy_dn, sy_up], doubleDiff))
else:
lines.append(writeline([obsFirst, obsSecond], [down, up], sigma, [e_dn, e_up], [st_dn, st_up], [sy_dn, sy_up], doubleDiff))
table(lines, label, doubleDiff)