PsiX0.psi = _psi_
PsiX.psi = _psi_
psix = PsiX('PsiX', {})
psix0 = PsiX0('PsiX0', {})
for s in (
psix.psi_pi(),
psix.psi_K(),
#
psix.psi_2pi(),
psix.psi_2K(),
psix.psi_2Kpi(),
##
psix.psi_3pi(),
psix.psi_3K(),
psix.psi_3Kpi(),
##
psix.psi_4pi(),
psix.psi_4Kpi(),
psix.psi_4K(),
##
psix.psi_5pi(),
psix.psi_5K(),
psix.psi_5Kpi(),
##
psix.psi_6pi(),
psix.psi_6Kpi(),
##
psix.psi_7pi(),
psix.psi_7Kpi(),
def configure(datafiles, catalogs=[], params={}, castor=False):
"""
Configure the job
"""
from Configurables import DaVinci ## needed for job configuration
## get the builder
from StrippingSelections.StrippingPsiXForBandQ import PsiX_BQ_Conf as PSIX
## for MC it is better to exclude PID/DLL/PROBNN cuts
builder_configuration = {
# 'PionCut' : """
# ( PT > 200 * MeV ) &
'PionCut' : """
( CLONEDIST > 5000 ) &
"""
# ( TRGHOSTPROB < 0.5 ) &
# ( TRCHI2DOF < 4 ) &
# in_range ( 2 , ETA , 5 ) &
# in_range ( 3.2 * GeV , P , 150 * GeV ) &
# HASRICH &
# ( PROBNNpi > 0.1 )
#( MIPCHI2DV() > 4 )
,
# ( PT > 200 * MeV ) &
'KaonCut' : """
( CLONEDIST > 5000 ) &
( TRGHOSTPROB < 0.5 ) &
( TRCHI2DOF < 4 ) &
in_range ( 2 , ETA , 5 ) &
in_range ( 3.2 * GeV , P , 150 * GeV ) &
HASRICH &
( PROBNNk > 0.1 )
"""
# ( MIPCHI2DV() > 4 )
}
def _kaons_ ( self ) :
"""
Kaons for B -> psi X lines
"""
from GaudiConfUtils.ConfigurableGenerators import FilterDesktop
## from StandardParticles import StdAllLooseKaons as inpts
from StandardParticles import StdNoPIDsKaons as inpts
##
return self.make_selection (
'Kaon' ,
FilterDesktop ,
[ inpts ] ,
Code = self['KaonCut'] ,
)
def _pions_ ( self ) :
"""
Pions for B -> psi X lines
"""
from GaudiConfUtils.ConfigurableGenerators import FilterDesktop
## from StandardParticles import StdAllLoosePions as inpts
from StandardParticles import StdNoPIDsPions as inpts
##
return self.make_selection (
'Pion' ,
FilterDesktop ,
[ inpts ] ,
Code = self['PionCut'] ,
)
jpsi_name = 'FullDSTDiMuonJpsi2MuMuDetachedLine'
psi2_name = 'FullDSTDiMuonPsi2MuMuDetachedLine'
from PhysSelPython.Wrappers import AutomaticData
jpsi = AutomaticData ( '/Event/AllStreams/Phys/%s/Particles' % jpsi_name )
psi2s = AutomaticData ( '/Event/AllStreams/Phys/%s/Particles' % psi2_name )
#
## merged selectoon for J/psi & psi'
#
from PhysSelPython.Wrappers import MergedSelection
psis = MergedSelection (
'SelDetachedPsisForBandQ' ,
RequiredSelections = [ jpsi ]
)
def _psi_ ( self ) :
"""
psi(') -> mu+ mu-
"""
return psis
PSIX.pions = _pions_
PSIX.kaons = _kaons_
PSIX.psi = _psi_
## use builder
builder = PSIX ( 'PsiX' , builder_configuration )
from PhysSelPython.Wrappers import SelectionSequence
psi3k = SelectionSequence ( 'Psi3K' , builder.psi_3K () )
psi3kpi = SelectionSequence ( 'Psi3Kpi' , builder.psi_3Kpi () )
from PhysConf.Filters import LoKi_Filters
fltrs = LoKi_Filters (
STRIP_Code = """
HLT_PASS_RE('Stripping.*FullDSTDiMuonJpsi2MuMuDetachedLine.*')
"""
)
davinci = DaVinci(
EventPreFilters = fltrs.filters('WG'),
InputType = 'DST' ,
Simulation = True ,
PrintFreq = 1000 ,
EvtMax = -1 ,
Lumi = True ,
DataType = params['Year'],
DDDBtag = params['DDDB'],
CondDBtag = params['SIMCOND'],
# HistogramFile = 'DVHistos.root' ,
TupleFile = 'output_kpipi.root' ,
)
from Configurables import GaudiSequencer
# seq = GaudiSequencer('SEQ1', Members=[psi3k.sequence()])
seq = GaudiSequencer('SEQ2', Members=[psi3kpi.sequence()])
my_name = "Bplus"
davinci.UserAlgorithms = [ my_name ]
setData ( datafiles , catalogs , castor )
gaudi = appMgr()
from StandardParticles import StdAllNoPIDsPions, StdAllNoPIDsKaons
# create local algorithm:
alg = MCAnalysisAlgorithm(
my_name,
Inputs = [
StdAllNoPIDsPions.outputLocation(),
StdAllNoPIDsKaons.outputLocation(),
'/Event/AllStreams/Phys/%s/Particles' % jpsi_name
] ,
PP2MCs = [ 'Relations/Rec/ProtoP/Charged' ],
ReFitPVs = True
)
return SUCCESS
def configure ( inputdata , ## the list of input files
catalogs = [] , ## xml-catalogs (filled by GRID)
castor = False , ## use the direct access to castor/EOS ?
params = {} ) :
from PhysSelPython.Wrappers import AutomaticData
jpsi_name = 'FullDSTDiMuonJpsi2MuMuDetachedLine'
psi2_name = 'FullDSTDiMuonPsi2MuMuDetachedLine'
jpsi = AutomaticData ( '/Event/AllStreams/Phys/%s/Particles' % jpsi_name )
psi2s = AutomaticData ( '/Event/AllStreams/Phys/%s/Particles' % psi2_name )
from PhysSelPython.Wrappers import MergedSelection
psis = MergedSelection (
'SelDetachedPsisForBandQ' ,
RequiredSelections = [ jpsi , psi2s ]
)
from StrippingSelections.StrippingPsiXForBandQ import PsiX_BQ_Conf as PsiX
from StrippingSelections.StrippingPsiX0 import PsiX0Conf as PsiX0
def _psi_ ( self ) :
"""
psi(') -> mu+ mu-
"""
return psis
PsiX0 . psi = _psi_
PsiX . psi = _psi_
logger.warning ( "Redefine PsiX .psi" )
psix = PsiX ( 'PsiX' , {} )
psix0 = PsiX0 ( 'PsiX0' , {} )
for s in ( psix.psi_pi () ,
psix.psi_K () ,
#
psix.psi_2pi () ,
psix.psi_2K () ,
psix.psi_2Kpi () ,
##
psix.psi_3pi () ,
psix.psi_3K () ,
psix.psi_3Kpi () ,
##
psix.psi_4pi () ,
psix.psi_4Kpi () ,
psix.psi_4K () ,
##
psix.psi_5pi () ,
psix.psi_5K () ,
psix.psi_5Kpi () ,
##
psix.psi_6pi () ,
psix.psi_6Kpi () ,
##
psix.psi_7pi () ,
psix.psi_7Kpi () ,
##
# Lb
psix.psi_pK () ,
psix.psi_ppi () ,
psix.psi_pKpipi () ,
##
# 2protons
psix.psi_pp () ,
psix.psi_pppi () ,
psix.psi_ppK () ,
psix.psi_pppipi () ,
psix.psi_ppKpipi () ,
psix.psi_pppipipi () ,
##
) :
a = s.algorithm ()
a.ParticleCombiners = { '' : 'LoKi::VertexFitter:PUBLIC' }
#
a.MaxCandidates = 2000
a.StopAtMaxCandidates = True
a.StopIncidentType = 'ExceedsCombinatoricsLimit'
#
from PhysSelPython.Wrappers import MultiSelectionSequence
from PhysSelPython.Wrappers import SelectionSequence
psi_x = MultiSelectionSequence (
"PSIX" ,
Sequences = [
## channels with chic
#
SelectionSequence ( 'B2CHICK' , psix0 . b2chicK () ) ,
SelectionSequence ( 'B2CHICKK' , psix0 . b2chicKK () ) ,
SelectionSequence ( 'B2CHICKPi' , psix0 . b2chicKpi () ) ,
SelectionSequence ( 'B2CHICKPiPi' , psix0 . b2chicKpipi () ) ,
SelectionSequence ( 'B2CHICPiPi' , psix0 . b2chicpipi () ) ,
#
SelectionSequence ( 'BC2CHICPi' , psix0 . bc2chicpi () ) ,
SelectionSequence ( 'Lb2CHICPi' , psix0 . lb2chicpK () ) ,
]
)
## import DaVinci
from Configurables import DaVinci
## delegate the actual configuration to DaVinci
dv = DaVinci ( DataType = '2012' ,
InputType = 'DST' ,
Simulation = True ,
Lumi = False ,
TupleFile = 'Tuples.root' ## IMPORTANT
)
## add the name of Bender algorithm into User sequence sequence
alg_name = 'HistosAndTuples'
dv.UserAlgorithms += [ psi_x.sequence(), 'TrackScaleState', alg_name ]
## define the input data
setData ( inputdata , catalogs , castor )
## get/create application manager
gaudi = appMgr()
## (1) create the algorithm with given name
alg = HistosAndTuples (
alg_name ,
Inputs = [ 'Phys/SelB2ChicPiPiForPsiX0/Particles' ]
)
return SUCCESS
def configure ( inputdata , ## the list of input files
catalogs = [] , ## xml-catalogs (filled by GRID)
castor = False , ## use the direct access to castor/EOS ?
params = {} ) :
from PhysSelPython.Wrappers import AutomaticData
jpsi_name = 'FullDSTDiMuonJpsi2MuMuDetachedLine'
psi2_name = 'FullDSTDiMuonPsi2MuMuDetachedLine'
jpsi = AutomaticData ( '/Event/AllStreams/Phys/%s/Particles' % jpsi_name )
psi2s = AutomaticData ( '/Event/AllStreams/Phys/%s/Particles' % psi2_name )
from PhysSelPython.Wrappers import MergedSelection
psis = MergedSelection (
'SelDetachedPsisForBandQ' ,
RequiredSelections = [ jpsi , psi2s ]
)
from StrippingSelections.StrippingPsiXForBandQ import PsiX_BQ_Conf as PsiX
from StrippingSelections.StrippingPsiX0 import PsiX0Conf as PsiX0
def _psi_ ( self ) :
"""
psi(') -> mu+ mu-
"""
return psis
PsiX0 . psi = _psi_
PsiX . psi = _psi_
logger.warning ( "Redefine PsiX .psi" )
psix = PsiX ( 'PsiX' , {} )
psix0 = PsiX0 ( 'PsiX0' , {} )
for s in ( psix.psi_pi () ,
psix.psi_K () ,
#
psix.psi_2pi () ,
psix.psi_2K () ,
psix.psi_2Kpi () ,
##
psix.psi_3pi () ,
psix.psi_3K () ,
psix.psi_3Kpi () ,
##
psix.psi_4pi () ,
psix.psi_4Kpi () ,
psix.psi_4K () ,
##
psix.psi_5pi () ,
psix.psi_5K () ,
psix.psi_5Kpi () ,
##
psix.psi_6pi () ,
psix.psi_6Kpi () ,
##
psix.psi_7pi () ,
psix.psi_7Kpi () ,
##
# Lb
psix.psi_pK () ,
psix.psi_ppi () ,
psix.psi_pKpipi () ,
##
# 2protons
psix.psi_pp () ,
psix.psi_pppi () ,
psix.psi_ppK () ,
psix.psi_pppipi () ,
psix.psi_ppKpipi () ,
psix.psi_pppipipi () ,
##
) :
a = s.algorithm ()
a.ParticleCombiners = { '' : 'LoKi::VertexFitter:PUBLIC' }
#
a.MaxCandidates = 2000
a.StopAtMaxCandidates = True
a.StopIncidentType = 'ExceedsCombinatoricsLimit'
#
from PhysSelPython.Wrappers import MultiSelectionSequence
from PhysSelPython.Wrappers import SelectionSequence
psi_x = MultiSelectionSequence (
"PSIX" ,
Sequences = [
## channels with chic
#
SelectionSequence ( 'B2CHICK' , psix0 . b2chicK () ) ,
SelectionSequence ( 'B2CHICKK' , psix0 . b2chicKK () ) ,
SelectionSequence ( 'B2CHICKPi' , psix0 . b2chicKpi () ) ,
SelectionSequence ( 'B2CHICKPiPi' , psix0 . b2chicKpipi () ) ,
SelectionSequence ( 'B2CHICPiPi' , psix0 . b2chicpipi () ) ,
#
SelectionSequence ( 'BC2CHICPi' , psix0 . bc2chicpi () ) ,
SelectionSequence ( 'Lb2CHICPi' , psix0 . lb2chicpK () ) ,
]
)
## import DaVinci
from Configurables import DaVinci
## delegate the actual configuration to DaVinci
dv = DaVinci ( DataType = '2011' ,
InputType = 'DST' ,
Simulation = True ,
Lumi = False ,
TupleFile = 'Tuples.root' ## IMPORTANT
)
## add the name of Bender algorithm into User sequence sequence
alg_name = 'HistosAndTuples'
dv.UserAlgorithms += [ psi_x.sequence(), 'TrackScaleState', alg_name ]
## define the input data
setData ( inputdata , catalogs , castor )
## get/create application manager
gaudi = appMgr()
## (1) create the algorithm with given name
alg = HistosAndTuples (
alg_name ,
Inputs = [ 'Phys/SelB2ChicPiPiForPsiX0/Particles' ]
)
return SUCCESS
return psis
PsiX0 . psi = _psi_
PsiX . psi = _psi_
psix = PsiX ( 'PsiX' , {} )
psix0 = PsiX0 ( 'PsiX0' , {} )
for s in ( psix.psi_pi () ,
psix.psi_K () ,
#
psix.psi_2pi () ,
psix.psi_2K () ,
psix.psi_2Kpi () ,
##
psix.psi_3pi () ,
psix.psi_3K () ,
psix.psi_3Kpi () ,
##
psix.psi_4pi () ,
psix.psi_4Kpi () ,
psix.psi_4K () ,
##
psix.psi_5pi () ,
psix.psi_5K () ,
psix.psi_5Kpi () ,
##
psix.psi_6pi () ,
psix.psi_6Kpi () ,
##
psix.psi_7pi () ,
psix.psi_7Kpi () ,
