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dataLoader.py
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1 from __future__ import print_function
2 import itertools
3 import ROOT
4 try:
5  ROOT.BTagEntry
6 except AttributeError:
7  ROOT.gROOT.ProcessLine('.L BTagCalibrationStandalone.cpp+')
8 
9 try:
10  ROOT.BTagEntry
11 except AttributeError:
12  print('ROOT.BTagEntry is needed! Please copy ' \
13  'BTagCalibrationStandalone.[h|cpp] to the working directory. Exit.')
14  exit(-1)
15 
16 separate_by_op = False
17 separate_by_flav = False
18 
19 
21  def __init__(self, csv_data, measurement_type, operating_point, flavour):
22  self.meas_type = measurement_type
23  self.op = operating_point
24  self.flav = flavour
25 
26  # list of entries
27  ens = []
28  for l in csv_data:
29  if not l.strip():
30  continue # skip empty lines
31  try:
32  e = ROOT.BTagEntry(l)
33  if (e.params.measurementType == measurement_type
34  and ((not separate_by_op)
35  or e.params.operatingPoint == operating_point)
36  and ((not separate_by_flav)
37  or e.params.jetFlavor == flavour)
38  ):
39  ens.append(e)
40  except TypeError:
41  raise RuntimeError("Error: can not interpret line: " + l)
42  self.entries = ens
43 
44  if not ens:
45  return
46 
47  # fixed data
48  self.ops = set(e.params.operatingPoint for e in ens)
49  self.flavs = set(e.params.jetFlavor for e in ens)
50  self.syss = set(e.params.sysType for e in ens)
51  self.etas = set((e.params.etaMin, e.params.etaMax) for e in ens)
52  self.pts = set((e.params.ptMin, e.params.ptMax) for e in ens)
53  self.discrs = set((e.params.discrMin, e.params.discrMax)
54  for e in ens
55  if e.params.operatingPoint == 3)
56 
57  self.ETA_MIN = -2.4
58  self.ETA_MAX = 2.4
59  self.PT_MIN = min(e.params.ptMin for e in ens)
60  self.PT_MAX = max(e.params.ptMax for e in ens)
61  if any(e.params.operatingPoint == 3 for e in ens):
62  self.DISCR_MIN = min(
63  e.params.discrMin
64  for e in ens
65  if e.params.operatingPoint == 3
66  )
67  self.DISCR_MAX = max(
68  e.params.discrMax
69  for e in ens
70  if e.params.operatingPoint == 3
71  )
72  else:
73  self.DISCR_MIN = 0.
74  self.DISCR_MAX = 1.
75 
76  # test points for variable data (using bound +- epsilon)
77  eps = 1e-4
78  eta_test_points = list(itertools.ifilter(
79  lambda x: self.ETA_MIN < x < self.ETA_MAX,
80  itertools.chain(
81  (a + eps for a, _ in self.etas),
82  (a - eps for a, _ in self.etas),
83  (b + eps for _, b in self.etas),
84  (b - eps for _, b in self.etas),
85  (self.ETA_MIN + eps, self.ETA_MAX - eps),
86  )
87  ))
88  abseta_test_points = list(itertools.ifilter(
89  lambda x: 0. < x < self.ETA_MAX,
90  itertools.chain(
91  (a + eps for a, _ in self.etas),
92  (a - eps for a, _ in self.etas),
93  (b + eps for _, b in self.etas),
94  (b - eps for _, b in self.etas),
95  (eps, self.ETA_MAX - eps),
96  )
97  ))
98  pt_test_points = list(itertools.ifilter(
99  lambda x: self.PT_MIN < x < self.PT_MAX,
100  itertools.chain(
101  (a + eps for a, _ in self.pts),
102  (a - eps for a, _ in self.pts),
103  (b + eps for _, b in self.pts),
104  (b - eps for _, b in self.pts),
105  (self.PT_MIN + eps, self.PT_MAX - eps),
106  )
107  ))
108  discr_test_points = list(itertools.ifilter(
109  lambda x: self.DISCR_MIN < x < self.DISCR_MAX,
110  itertools.chain(
111  (a + eps for a, _ in self.discrs),
112  (a - eps for a, _ in self.discrs),
113  (b + eps for _, b in self.discrs),
114  (b - eps for _, b in self.discrs),
115  (self.DISCR_MIN + eps, self.DISCR_MAX - eps),
116  )
117  ))
118  # use sets
119  self.eta_test_points = set(round(f, 5) for f in eta_test_points)
120  self.abseta_test_points = set(round(f, 5) for f in abseta_test_points)
121  self.pt_test_points = set(round(f, 5) for f in pt_test_points)
122  self.discr_test_points = set(round(f, 5) for f in discr_test_points)
123 
124  def print_data(self):
125  print("\nFound operating points:")
126  print(self.ops)
127 
128  print("\nFound jet flavors:")
129  print(self.flavs)
130 
131  print("\nFound sys types (need at least 'central', 'up', 'down'; " \
132  "also 'up_SYS'/'down_SYS' compatibility is checked):")
133  print(self.syss)
134 
135  print("\nFound eta ranges: (need everything covered from %g or 0. " \
136  "up to %g):" % (self.ETA_MIN, self.ETA_MAX))
137  print(self.etas)
138 
139  print("\nFound pt ranges: (need everything covered from %g " \
140  "to %g):" % (self.PT_MIN, self.PT_MAX))
141  print(self.pts)
142 
143  print("\nFound discr ranges: (only needed for operatingPoint==3, " \
144  "covered from %g to %g):" % (self.DISCR_MIN, self.DISCR_MAX))
145  print(self.discrs)
146 
147  print("\nTest points for eta (bounds +- epsilon):")
148  print(self.eta_test_points)
149 
150  print("\nTest points for pt (bounds +- epsilon):")
151  print(self.pt_test_points)
152 
153  print("\nTest points for discr (bounds +- epsilon):")
155  print("")
156 
157 
158 def get_data_csv(csv_data):
159  # grab measurement types
160  meas_types = set(
161  l.split(',')[1].strip()
162  for l in csv_data
163  if len(l.split()) == 11
164  )
165 
166  # grab operating points
167  ops = set(
168  int(l.split(',')[0])
169  for l in csv_data
170  if len(l.split()) == 11
171  ) if separate_by_op else ['all']
172 
173  # grab flavors
174  flavs = set(
175  int(l.split(',')[3])
176  for l in csv_data
177  if len(l.split()) == 11
178  ) if separate_by_flav else ['all']
179 
180  # make loaders and filter empty ones
181  lds = list(
182  DataLoader(csv_data, mt, op, fl)
183  for mt in meas_types
184  for op in ops
185  for fl in flavs
186  )
187  lds = [d for d in lds if d.entries]
188  return lds
189 
190 
191 def get_data(filename):
192  with open(filename) as f:
193  csv_data = f.readlines()
194  if not (csv_data and "OperatingPoint" in csv_data[0]):
195  print("Data file does not contain typical header: %s. Exit" % filename)
196  return False
197  csv_data.pop(0) # remove header
198  return get_data_csv(csv_data)
def __init__(self, csv_data, measurement_type, operating_point, flavour)
Definition: dataLoader.py:21
bool any(const std::vector< T > &v, const T &what)
Definition: ECalSD.cc:40
S & print(S &os, JobReport::InputFile const &f)
Definition: JobReport.cc:66
def get_data_csv(csv_data)
Definition: dataLoader.py:158
T min(T a, T b)
Definition: MathUtil.h:58
def get_data(filename)
Definition: dataLoader.py:191
How EventSelector::AcceptEvent() decides whether to accept an event for output otherwise it is excluding the probing of A single or multiple positive and the trigger will pass if any such matching triggers are PASS or EXCEPTION[A criterion thatmatches no triggers at all is detected and causes a throw.] A single negative with an expectation of appropriate bit checking in the decision and the trigger will pass if any such matching triggers are FAIL or EXCEPTION A wildcarded negative criterion that matches more than one trigger in the trigger list("!*","!HLTx*"if it matches 2 triggers or more) will accept the event if all the matching triggers are FAIL.It will reject the event if any of the triggers are PASS or EXCEPTION(this matches the behavior of"!*"before the partial wildcard feature was incorporated).Triggers which are in the READY state are completely ignored.(READY should never be returned since the trigger paths have been run
def exit(msg="")