14 import modularAnalysis
as ma
15 from vertex
import treeFit
17 from ROOT
import TFile
21 """The unit test case for TreeFitter"""
24 """Run the test fit"""
26 testFile = tempfile.NamedTemporaryFile()
30 basf2.conditions.disable_globaltag_replay()
32 main = basf2.create_path()
36 ma.fillParticleList(
'pi+:a',
'pionID > 0.5', path=main)
38 ma.fillParticleList(
'gamma:a',
'', path=main)
39 ma.reconstructDecay(
'pi0:a -> gamma:a gamma:a',
'0.125 < InvM < 0.145', 0, path=main)
41 ma.reconstructDecay(
'B0:rec -> pi-:a pi+:a pi0:a',
'', 0, path=main)
42 ma.matchMCTruth(
'B0:rec', path=main)
44 treeFit(
'B0:rec', conf_level=-1, ipConstraint=
False, updateAllDaughters=
True, path=main)
46 ntupler = basf2.register_module(
'VariablesToNtuple')
47 ntupler.param(
'fileName', testFile.name)
48 ntupler.param(
'variables', [
'chiProb',
'M',
'isSignal'])
49 ntupler.param(
'particleList',
'B0:rec')
50 main.add_module(ntupler)
54 ntuplefile = TFile(testFile.name)
55 ntuple = ntuplefile.Get(
'ntuple')
57 self.assertFalse(ntuple.GetEntries() == 0,
"Ntuple is empty.")
59 allBkg = ntuple.GetEntries(
"isSignal == 0")
60 allSig = ntuple.GetEntries(
"isSignal > 0")
62 truePositives = ntuple.GetEntries(
"(chiProb > 0) && (isSignal > 0)")
63 falsePositives = ntuple.GetEntries(
"(chiProb > 0) && (isSignal == 0)")
65 print(f
"True fit survivors: {truePositives} out of {allSig} true candidates")
66 print(f
"False fit survivors: {falsePositives} out of {allBkg} false candidates")
68 self.assertTrue(truePositives > 32, f
"Signal rejection too high. True positives: {truePositives}")
70 self.assertTrue(falsePositives < 2129, f
"Background rejection got worse. False positives: {falsePositives}")
72 print(
"Test passed, cleaning up.")
75 if __name__ ==
'__main__':
def require_file(filename, data_type="", py_case=None)
1.9.1