def setUp(self):
f = File("test.root", "recreate")
f.mkdir("TTbar_plus_X_analysis/EPlusJets/Ref selection", recurse=True)
f.cd("TTbar_plus_X_analysis/EPlusJets/Ref selection")
tree = create_test_tree()
h = create_test_hist()
h.write()
tree.write()
f.write()
f.Close()
def setUp(self):
f = File('test.root', 'recreate')
f.mkdir('TTbar_plus_X_analysis/EPlusJets/Ref selection', recurse=True)
f.cd('TTbar_plus_X_analysis/EPlusJets/Ref selection')
tree = create_test_tree()
h = create_test_hist()
h.write()
tree.write()
f.write()
f.Close()
def create_new_trees(input_file, suffix = ''):
tree1_name = 'TTbar_plus_X_analysis/MuPlusJets/QCD non iso mu+jets/FitVariables' + suffix
tree2_name = 'TTbar_plus_X_analysis/MuPlusJets/QCD non iso mu+jets/Muon/Muons' + suffix
s_cr1 = 'relIso_04_deltaBeta <= 0.3 && relIso_04_deltaBeta > 0.12'
s_cr2 = 'relIso_04_deltaBeta > 0.3'
cr1 = 'TTbar_plus_X_analysis/MuPlusJets/QCD 0.12 < iso <= 0.3'
cr2 = 'TTbar_plus_X_analysis/MuPlusJets/QCD iso > 0.3'
with root_open(input_file) as file:
t1 = file.Get(tree1_name)
t2 = file.Get(tree2_name)
t1.AddFriend(t2)
# h1 = t1.Draw('MET', 'relIso_04_deltaBeta > 0.3')
# h2 = t1.Draw(
# 'MET', 'relIso_04_deltaBeta <= 0.3 && relIso_04_deltaBeta > 0.12')
# h3 = t1.Draw('MET', 'relIso_04_deltaBeta > 0.12')
# h4 = t2.Draw('relIso_04_deltaBeta', 'relIso_04_deltaBeta > 0.12')
# print h1.integral()
# print h2.integral()
# print h3.integral(), h1.integral() + h2.integral()
output = File('test.root', 'recreate')
output.mkdir(cr1, recurse=True)
output.mkdir(cr2, recurse=True)
output.cd(cr2)
new_tree1 = t1.CopyTree(s_cr2)
new_tree1.Write()
output.cd(cr1)
new_tree2 = t1.CopyTree(s_cr1)
new_tree2.Write()
output.close()
new_tree1 = None
new_tree2 = None
f_out = File(input_file, 'update')
root_mkdir(f_out, cr1)
root_mkdir(f_out, cr2)
with root_open('test.root') as f_in:
f_out.cd(cr1)
new_tree1 = f_in.Get(cr1 + '/FitVariables' + suffix).CloneTree()
f_out.cd(cr2)
new_tree2 = f_in.Get(cr2 + '/FitVariables' + suffix).CloneTree()
def create_new_trees(input_file, suffix=''):
tree1_name = 'TTbar_plus_X_analysis/MuPlusJets/QCD non iso mu+jets/FitVariables' + suffix
tree2_name = 'TTbar_plus_X_analysis/MuPlusJets/QCD non iso mu+jets/Muon/Muons' + suffix
s_cr1 = 'relIso_04_deltaBeta <= 0.3 && relIso_04_deltaBeta > 0.12'
s_cr2 = 'relIso_04_deltaBeta > 0.3'
cr1 = 'TTbar_plus_X_analysis/MuPlusJets/QCD 0.12 < iso <= 0.3'
cr2 = 'TTbar_plus_X_analysis/MuPlusJets/QCD iso > 0.3'
with root_open(input_file) as file:
t1 = file.Get(tree1_name)
t2 = file.Get(tree2_name)
t1.AddFriend(t2)
# h1 = t1.Draw('MET', 'relIso_04_deltaBeta > 0.3')
# h2 = t1.Draw(
# 'MET', 'relIso_04_deltaBeta <= 0.3 && relIso_04_deltaBeta > 0.12')
# h3 = t1.Draw('MET', 'relIso_04_deltaBeta > 0.12')
# h4 = t2.Draw('relIso_04_deltaBeta', 'relIso_04_deltaBeta > 0.12')
# print h1.integral()
# print h2.integral()
# print h3.integral(), h1.integral() + h2.integral()
output = File('test.root', 'recreate')
output.mkdir(cr1, recurse=True)
output.mkdir(cr2, recurse=True)
output.cd(cr2)
new_tree1 = t1.CopyTree(s_cr2)
new_tree1.Write()
output.cd(cr1)
new_tree2 = t1.CopyTree(s_cr1)
new_tree2.Write()
output.close()
new_tree1 = None
new_tree2 = None
f_out = File(input_file, 'update')
root_mkdir(f_out, cr1)
root_mkdir(f_out, cr2)
with root_open('test.root') as f_in:
f_out.cd(cr1)
new_tree1 = f_in.Get(cr1 + '/FitVariables' + suffix).CloneTree()
f_out.cd(cr2)
new_tree2 = f_in.Get(cr2 + '/FitVariables' + suffix).CloneTree()