hpstr
The Heavy Photon Search Toolkit for Reconstruction (hpstr) provides an interface to physics data from the HPS experiment saved in the LCIO format and converts it into an ROOT based format.
All Classes Namespaces Files Functions Variables Typedefs Enumerations Enumerator Macros Pages
mcTuple_cfg.py
Go to the documentation of this file.
1import HpstrConf
2import sys
3
4import baseConfig as base
5
6options = base.parser.parse_args()
7
8# Use the input file to set the output file name
9lcio_file = options.inFilename
10root_file = options.outFilename
11
12print('LCIO file: %s' % lcio_file)
13print('Root file: %s' % root_file)
14
15p = HpstrConf.Process()
16
17p.run_mode = 0
18p.skip_events = options.skip_events
19p.max_events = options.nevents
20
21# Library containing processors
22p.add_library("libprocessors")
23
24
27
28mcpart = HpstrConf.Processor('mcpart', 'MCParticleProcessor')
29mcthits = HpstrConf.Processor('mcthits', 'MCTrackerHitProcessor')
30mcehits = HpstrConf.Processor('mcehits', 'MCEcalHitProcessor')
31
32
36mcpart.parameters["debug"] = 0
37mcpart.parameters["mcPartCollLcio"] = 'MCParticle'
38mcpart.parameters["mcPartCollRoot"] = 'MCParticle'
39
40#MCTrackerHits
41mcthits.parameters["debug"] = 0
42mcthits.parameters["hitCollLcio"] = 'TrackerHits'
43mcthits.parameters["hitCollRoot"] = 'TrackerHits'
44
45#MCEcalHits
46mcehits.parameters["debug"] = 0
47mcehits.parameters["hitCollLcio"] = 'EcalHits'
48mcehits.parameters["hitCollRoot"] = 'EcalHits'
49
50# Sequence which the processors will run.
51#p.sequence = [mcpart, mcthits, mcehits]
52p.sequence = [mcpart]
53
54p.input_files = lcio_file
55p.output_files = [root_file]
56
57p.printProcess()
HpstrConf.Process
Process python class.
Definition HpstrConf.py:20
HpstrConf.Processor
Processor python class.
Definition HpstrConf.py:4
Generated by doxygen 1.9.8