""" Config file for test_MapCppGlobalPID.py """ # pylint: disable=C0103 import os # Default location of root file containing PDF histograms used for Global PID PID_PDFs_file = '%s/src/map/MapCppGlobalPID/PIDhists.root'\ % os.environ.get("MAUS_ROOT_DIR") # PID_PDFs_file = '%s/src/map/MapCppGlobalPID/com_pid_hists.root'\ # % os.environ.get("MAUS_ROOT_DIR") # Tag used by both MapCppGlobalPID and ReduceCppGlobalPID, determines which # PDFs to perform PID against/which PDFs to produce (in this case, set based # upon input MC beam). A typical tag here would be the emittance and momentum, # e.g. 3-140, 6-200, etc. pid_beam_setting = "200MeV" # Unique identifier used when creating PDFs in Global PID to distinguish between # PDFs for the same hypothesis generated at different times. For PDFs to be # produced, this must be set. # Any string can be used but date and time is recommended, by using python # datetime module and the line # unique_identifier = (datetime.datetime.now()).strftime("%Y_%m_%dT%H_%M_%S_%f") unique_identifier = "" # Polarity of running mode, used by pid to select whether to run pid against # positive or negative particles, value can be "positive" or "negative". pid_beamline_polarity = "positive" # Bounds set on values of PID variables when running PID pid_bounds = { # Bounds for PIDVarA "minA":20,"maxA":40, # PIDVarB "XminB":10, "XmaxB":250, "YminB":20, "YmaxB":40, # PIDVarC "XminC":50, "XmaxC":350, "YminC":0, "YmaxC":8000, # PIDVarD "minD":0, "maxD":8000, # PIDVarE "minE":0, "maxE":1000, # PIDVarF "XminF":50, "XmaxF":350, "YminF":0, "YmaxF":1000, # PIDVarG "minG":0, "maxG":1, # PIDVarH "XminH":50, "XmaxH":350, "YminH":0, "YmaxH":1, # PIDVarI "XminI":50, "XmaxI":350, "YminI":0, "YmaxI":140, # PIDVarJ "XminJ":50, "XmaxJ":350, "YminJ":0, "YmaxJ":140, # ComPIDVarA "minComA":30, "maxComA":50, # ComPIDVarB "XminComB":30, "XmaxComB":50, "YminComB":0, "YmaxComB":8000, # ComPIDVarC "minComC":0, "maxComC":8000, # ComPIDVarD "minComD":0, "maxComD":1000, # ComPIDVarE "XminComE":30, "XmaxComE":50, "YminComE":0, "YmaxComE":1000, # ComPIDVarF "minComF":0, "maxComF":1, # ComPIDVarG "XminComG":30, "XmaxComG":50, "YminComG":0, "YmaxComG":1, # ComPIDVarH "XminComH":30, "XmaxComH":50, "YminComH":0, "YmaxComH":40, # ComPIDVarI "XminComI":30, "XmaxComI":50, "YminComI":0, "YmaxComI":140 } # PID MICE configuration, 'step_4' for Step IV running, 'commissioning' for # field free commissioning data pid_config = "step_4" # PID running mode - selects which PID variables are used. 'online' corresponds # to less beam (momentum) dependent variables, 'offline' uses all variables and # requires that specific PDFs for the beam already exist. 'custom' allows user # to choose which variables to use, and these should then be set as datacards. # However it is not recommended to use the custom setting unless you are the # person currently developing the Global PID. pid_mode = "custom" # If pid_mode = "custom", variables to use should be set here as a space # separated list, i.e. custom_pid_set = "PIDVarA PIDVarC PIDVarD". custom_pid_set = "PIDVarA" # PID confidence level- set the margin (in %) between the confidence levels of # competing pid hypotheses before they are selected as the correct hypothesis pid_confidence_level = 10 # PID track selection- select which tracks from TrackMatching to perform PID on. # Can perform PID on all tracks by setting to "all", or on all downstream tracks # (set to "DS"), all upstream (set to "US"), through tracks (set to "Through"), # or the upstream or downstream components of the throught track (set to # "Through-US" or "Through-DS" respectively). Or a combination of the above can # be used, entered as a space separated list, # e.g. "Through Through-US Through-DS" pid_track_selection = "Through"