def setUp(self):
e1 = Electron(50, 0.8)
e2 = Electron(30, 0.001)
e3 = Electron(23, 0.001)
self.e1, self.e2, self.e3 = e1, e2, e3
self.event1 = Event(1, 13700, [e1, e2, e3])
self.event2 = Event(2000, 64000, [e1, e3])
self.electrons = NTupleCollection(
'electrons',
source=lambda event: event.electrons,
help_doc='extract some info from event.electrons',
variables=[
NTupleVariable('pt',
vtype='float',
extract_function=lambda e: e.pt),
NTupleVariable('hoE',
vtype='float',
extract_function=lambda e: e.hadronicOverEm),
])
self.nice_electrons = NTupleCollection(
'electrons',
source=lambda event: event.nice_electrons(),
help_doc='extract some info from event.electrons',
variables=[
NTupleVariable('pt',
vtype='float',
extract_function=lambda e: e.pt),
NTupleVariable('hoE',
vtype='float',
extract_function=lambda e: e.hadronicOverEm),
])
def setUp(self):
e1 = Electron(50, 0.8)
e2 = Electron(30, 0.001)
e3 = Electron(23, 0.001)
self.e1, self.e2, self.e3 = e1, e2, e3
self.event1 = Event(1, 13700, [e1, e2, e3])
self.event2 = Event(2000, 64000, [e1, e3])
self.electrons = NTupleCollection(
'electrons', source=lambda event: event.electrons,
help_doc='extract some info from event.electrons',
variables=[
NTupleVariable('pt', vtype='float',
extract_function=lambda e: e.pt),
NTupleVariable('hoE', vtype='float',
extract_function=lambda e: e.hadronicOverEm),
])
self.nice_electrons = NTupleCollection(
'electrons', source=lambda event: event.nice_electrons(),
help_doc='extract some info from event.electrons',
variables=[
NTupleVariable('pt', vtype='float',
extract_function=lambda e: e.pt),
NTupleVariable('hoE', vtype='float',
extract_function=lambda e: e.hadronicOverEm),
])
def setUp(self):
e1 = Electron(50, 0.8)
e2 = Electron(30, 0.001)
e3 = Electron(23, 0.001)
self.e1, self.e2, self.e3 = e1, e2, e3
self.event1 = Event(1, 13700, [e1, e2, e3])
self.event2 = Event(2000, 64000, [e1, e3])
self.electrons = NTupleCollection(
'electrons',
source=lambda event: event.electrons,
help_doc='extract some info from event.electrons',
variables=[
NTupleVariable('pt',
vtype='float',
extract_function=lambda e: e.pt),
NTupleVariable('hoE',
vtype='float',
extract_function=lambda e: e.hadronicOverEm),
])
self.run_number = NTupleVariable(
'run_number',
vtype='uint',
extract_function=lambda event: event.getRun())
self.event_number = NTupleVariable(
'event_number',
vtype='uint',
extract_function=lambda event: event.id())
self.DATA_ROOT = tempfile.mkdtemp()
self.output_file = self.DATA_ROOT + '/TestNTupleContent.root'
self.content = NTupleContent('events', self.output_file)
self.content.add_collection(self.electrons)
self.content.add_variable(self.run_number)
self.content.add_variable(self.event_number)
map(self.content.fill, [self.event1, self.event2])
self.content.save()
class TestNTupleCollection(unittest.TestCase):
def setUp(self):
e1 = Electron(50, 0.8)
e2 = Electron(30, 0.001)
e3 = Electron(23, 0.001)
self.e1, self.e2, self.e3 = e1, e2, e3
self.event1 = Event(1, 13700, [e1, e2, e3])
self.event2 = Event(2000, 64000, [e1, e3])
self.electrons = NTupleCollection(
'electrons',
source=lambda event: event.electrons,
help_doc='extract some info from event.electrons',
variables=[
NTupleVariable('pt',
vtype='float',
extract_function=lambda e: e.pt),
NTupleVariable('hoE',
vtype='float',
extract_function=lambda e: e.hadronicOverEm),
])
self.nice_electrons = NTupleCollection(
'electrons',
source=lambda event: event.nice_electrons(),
help_doc='extract some info from event.electrons',
variables=[
NTupleVariable('pt',
vtype='float',
extract_function=lambda e: e.pt),
NTupleVariable('hoE',
vtype='float',
extract_function=lambda e: e.hadronicOverEm),
])
def __compare_electrons__(self, eles1, eles2):
self.assertEqual(len(eles1), 3)
self.assertEqual(len(eles2), 2)
e1, e2, e3 = eles1
self.assertEqual(e1['electrons.pt'], self.e1.pt)
self.assertEqual(e2['electrons.pt'], self.e2.pt)
self.assertEqual(e3['electrons.pt'], self.e3.pt)
self.assertEqual(e1['electrons.hoE'], self.e1.hadronicOverEm)
self.assertEqual(e2['electrons.hoE'], self.e2.hadronicOverEm)
self.assertEqual(e3['electrons.hoE'], self.e3.hadronicOverEm)
def test_collection(self):
eles1 = self.electrons.extract(self.event1)
eles2 = self.electrons.extract(self.event2)
self.__compare_electrons__(eles1, eles2)
def test_collection_from_function(self):
eles1 = self.nice_electrons.extract(self.event1)
eles2 = self.nice_electrons.extract(self.event2)
self.__compare_electrons__(eles1, eles2)
def test_branches(self):
branches = {'electrons.pt': 'vec:float', 'electrons.hoE': 'vec:float'}
e_branches = self.electrons.branches
self.assertDictEqual(e_branches, branches)
def tearDown(self):
pass
class TestNTupleCollection(unittest.TestCase):
def setUp(self):
e1 = Electron(50, 0.8)
e2 = Electron(30, 0.001)
e3 = Electron(23, 0.001)
self.e1, self.e2, self.e3 = e1, e2, e3
self.event1 = Event(1, 13700, [e1, e2, e3])
self.event2 = Event(2000, 64000, [e1, e3])
self.electrons = NTupleCollection(
'electrons', source=lambda event: event.electrons,
help_doc='extract some info from event.electrons',
variables=[
NTupleVariable('pt', vtype='float',
extract_function=lambda e: e.pt),
NTupleVariable('hoE', vtype='float',
extract_function=lambda e: e.hadronicOverEm),
])
self.nice_electrons = NTupleCollection(
'electrons', source=lambda event: event.nice_electrons(),
help_doc='extract some info from event.electrons',
variables=[
NTupleVariable('pt', vtype='float',
extract_function=lambda e: e.pt),
NTupleVariable('hoE', vtype='float',
extract_function=lambda e: e.hadronicOverEm),
])
def __compare_electrons__(self, eles1, eles2):
self.assertEqual(len(eles1), 3)
self.assertEqual(len(eles2), 2)
e1, e2, e3 = eles1
self.assertEqual(e1['electrons.pt'], self.e1.pt)
self.assertEqual(e2['electrons.pt'], self.e2.pt)
self.assertEqual(e3['electrons.pt'], self.e3.pt)
self.assertEqual(e1['electrons.hoE'], self.e1.hadronicOverEm)
self.assertEqual(e2['electrons.hoE'], self.e2.hadronicOverEm)
self.assertEqual(e3['electrons.hoE'], self.e3.hadronicOverEm)
def test_collection(self):
eles1 = self.electrons.extract(self.event1)
eles2 = self.electrons.extract(self.event2)
self.__compare_electrons__(eles1, eles2)
def test_collection_from_function(self):
eles1 = self.nice_electrons.extract(self.event1)
eles2 = self.nice_electrons.extract(self.event2)
self.__compare_electrons__(eles1, eles2)
def test_branches(self):
branches = {'electrons.pt': 'vec:float', 'electrons.hoE': 'vec:float'}
e_branches = self.electrons.branches
self.assertDictEqual(e_branches, branches)
def tearDown(self):
pass
