StQABookHist Class Reference

Inheritance diagram for StQABookHist:

Public Member Functions
	StQABookHist (const char *type)
virtual void	BookHist (Int_t hSet)
const char *	HistType ()
virtual const char *	GetCVS () const

Public Attributes
TH1F *	mNullPrimVtxClass
TH1F *	m_globtrk_fit_prob
TH1F *	m_globtrk_tot
TH1F *	m_globtrk_good
	tracks in table
TH1F *	m_globtrk_good_sm
	tracks in table with iflag>0
TH1F *	m_globtrk_goodTTS
	tracks in table with iflag>0,small range
TH2F *	m_globtrk_goodF
	tracks in table with iflag>0, tpc, tpc+svt
TH1F *	m_globtrk_iflag
	tracks in table with iflag>0, ftpc
TH1F *	m_det_id
	iflag value
TH2F *	m_dcaToBeamXY
	detector id of track
TH1F *	m_dcaToBeamZ1
	xy-dca to beam axis
TH1F *	m_dcaToBeamZ2
	z-dca to beam axis -210 to -105
TH1F *	m_dcaToBeamZ3
	z-dca to beam axis -105 to 0
TH2F *	m_zDcaTanl
	z-dca to beam axis 0 to 105
TH2F *	m_zDcaZf
	z-dca vs tanl
TH2F *	m_zDcaPsi
	z-dca vs z-first
TH2F *	m_zDcaPhi0
	z-dca vs psi
TH1F *	m_pointT
	z-dca vs phi0
TH1F *	m_pointTS
	number of points on the track - tpc
TH2F *	m_pointF
	number of points on the track - tpc+svt
TH1F *	m_pointFE
	number of points on the track - ftpc
TH1F *	m_pointFW
	number of points on the track - ftpc east
TH1F *	m_max_pointT
	number of points on the track - ftpc west
TH1F *	m_max_pointTS
	number of max possible track points - tpc
TH2F *	m_max_pointF
	number of max possible track points - tpc+svt
TH1F *	m_max_pointFE
	number of max possible track points - ftpc
TH1F *	m_max_pointFW
	number of max possible track points - ftpc east
TH1F *	m_fit_pointT
	number of max possible track points - ftpc west
TH1F *	m_fit_pointTS
	number of track points used for fitting - tpc
TH2F *	m_fit_pointTTS
	number of track points used for fitting - tpc+svt
TH1F *	m_glb_sptsTS
	number of track points used for fitting - tpc,tpc+svt
TH2F *	m_glb_ratiomTTS
	number of track pnts on svt - tpc+svt
TH1F *	m_glb_ratiomT
	ratio of n fit pnts over max n pnts - tpc,tpc+svt
TH1F *	m_glb_ratiomTS
	ratio of n fit pnts over max n pnts - tpc
TH2F *	m_glb_ratiomF
	ratio of n fit pnts over max n pnts - tpc+svt
TH1F *	m_glb_ratiomFE
	ratio of n fit pnts over max n pnts - ftpc
TH1F *	m_glb_ratiomFW
	ratio of n fit pnts over max n pnts - ftpc east
TH1F *	m_glb_chargeT
	ratio of n fit pnts over max n pnts - ftpc west
TH1F *	m_glb_chargeTS
	particle charge in units of |e| - tpc
TH2F *	m_glb_chargeF
	particle charge in units of |e| - tpc+svt
TH1F *	m_glb_chargeFE
	particle charge in units of |e| - ftpc
TH1F *	m_glb_chargeFW
	particle charge in units of |e| - ftpc east
TH1F *	m_glb_r0T
	particle charge in units of |e| - ftpc west
TH1F *	m_glb_r0TS
	radius at start (cm), tpc
TH1F *	m_glb_phi0T
	radius at start (cm), tpc+svt
TH1F *	m_glb_phi0TS
	azimuthal angle at start (deg), tpc
TH1F *	m_glb_z0T
	azimuthal angle at start (deg), tpc+svt
TH1F *	m_glb_z0TS
	z-coord at start (cm), tpc
TH1F *	m_glb_padfT
	z-coord at start (cm), tpc+svt
TH2F *	m_glb_padfTEW
	padrow of first hit on trk, tpc
TH1F *	m_glb_curvT
	padrow of first hit on trk, tpc east and west
TH1F *	m_glb_curvTS
	curvature (1/cm), tpc
TH1F *	m_glb_xfT
	curvature (1/cm), tpc+svt
TH1F *	m_glb_xfTS
	x-coord. of first hit on trk, tpc
TH2F *	m_glb_xfF
	x-coord. of first hit on trk, tpc+svt
TH1F *	m_glb_xfFE
	x-coord. of first hit on trk, ftpc
TH1F *	m_glb_xfFW
	x-coord. of first hit on trk, ftpc east
TH1F *	m_glb_yfT
	x-coord. of first hit on trk, ftpc west
TH1F *	m_glb_yfTS
	y-coord. of first hit on trk, tpc
TH2F *	m_glb_yfF
	y-coord. of first hit on trk, tpc+svt
TH1F *	m_glb_yfFE
	y-coord. of first hit on trk, ftpc
TH1F *	m_glb_yfFW
	y-coord. of first hit on trk, ftpc east
TH1F *	m_glb_zfT
	y-coord. of first hit on trk, ftpc west
TH1F *	m_glb_zfTS
	z-coord. of first hit on trk, tpc
TH2F *	m_glb_zfF
	z-coord. of first hit on trk, tpc+svt
TH1F *	m_glb_zfFE
	z-coord. of first hit on trk, ftpc
TH1F *	m_glb_zfFW
	z-coord. of first hit on trk, ftpc east
TH2F *	m_glb_planefF
	z-coord. of first hit on trk, ftpc west
TH1F *	m_glb_xf0
	plane of first hit on trk, ftpc
TH1F *	m_glb_xf0TS
	x-coord. of first hit - at start of helix
TH1F *	m_glb_yf0
	x-coord. of first hit - at start of helix+svt
TH1F *	m_glb_yf0TS
	y-coord. of first hit - at start of helix
TH1F *	m_glb_zf0
	y-coord. of first hit - at start of helix+svt
TH1F *	m_glb_zf0TS
	z-coord. of first hit - at start of helix
TH2F *	m_glb_rzf0
	z-coord. of first hit - at start of helix+svt
TH2F *	m_glb_rzl0
	transverse & longitudinal helix center of first hit - helix hit
TH2F *	m_glb_rzf0TS
	transverse & longitudinal helix center of last hit - helix hit
TH2F *	m_glb_rzl0TS
	transverse & longitudinal helix center of first hit - helix hit+svt
TH1F *	m_glb_radfT
	transverse & longitudinal helix center of last hit - helix hit+svt
TH1F *	m_glb_radfTS
	radial (xy) coordinate of first hit, tpc
TH2F *	m_glb_phifT
	radial (xy) coordinate of first hit, tpc+svt
TH1F *	m_glb_phifTS
	phi dist. of first point on trk, tpc
TH1F *	m_lengthTS
	phi dist. of first point on trk, tpc+svt
TH1F *	m_chisq0TS
	length of track, tpc+svt
TH2F *	m_glb_impactTS
	chi square [0], tpc+svt
TH2F *	m_glb_simpactTS
	log impact parameter from primary vertex, tpc+svt
TH2F *	m_glb_impactTTS
	signed impact parameter from primary vertex, tpc+svt
TH2F *	m_glb_impactF
	log impact parameter from primary vertex, tpc,tpc+svt
TH1F *	m_glb_impactrTS
	log impact parameter from primary vertex, ftpc
TH2F *	m_glb_impactrTTS
	impact parameter from primary vertex, tpc+svt
TH2F *	m_glb_impactrF
	impact parameter from primary vertex, tpc,tpc+svt
TH2F *	m_glb_radfF
	impact parameter from primary vertex, ftpc
TH1F *	m_glb_radfFE
	radial (xy) coordinate of first hit, ftpc
TH1F *	m_glb_radfFW
	radial (xy) coordinate of first hit, ftpc east
TH1F *	m_psiT
	radial (xy) coordinate of first hit, ftpc west
TH1F *	m_psiTS
	psi reconstructed, tpc
TH2F *	m_psiTTS
	psi reconstructed, tpc+svt
TH2F *	m_psiF
	psi reconstructed, tpc,tpc+svt
TH1F *	m_psiFE
	psi reconstructed, ftpc
TH1F *	m_psiFW
	psi reconstructed, ftpc east
TH1F *	m_tanlT
	psi reconstructed, ftpc west
TH1F *	m_tanlTS
	tan(dip) =pz/pt at start, tpc
TH1F *	m_glb_thetaT
	tan(dip) =pz/pt at start, tpc+svt
TH1F *	m_glb_thetaTS
	theta - tpc
TH1F *	m_etaT
	theta - tpc+svt
TH1F *	m_etaTS
	eta, tpc
TH2F *	m_etaTTS
	eta, tpc+svt
TH2F *	m_etaF
	eta, tpc,tpc+svt
TH1F *	m_etaFE
	eta, ftpc
TH1F *	m_etaFW
	eta, ftpc east
TH1F *	m_momT
	eta, ftpc west
TH1F *	m_momTS
	momentum, tpc
TH2F *	m_momF
	momentum, tpc+svt
TH1F *	m_momFE
	momentum, ftpc
TH1F *	m_momFW
	momentum, ftpc east
TH1F *	m_pTT
	momentum, ftpc west
TH1F *	m_pTTS
	pT, tpc
TH2F *	m_pTTTS
	pT, tpc+svt
TH2F *	m_pTF
	pT, tpc,tpc+svt
TH1F *	m_pTFE
	pT, ftpc
TH1F *	m_pTFW
	pT, ftpc east
TH1F *	m_lengthT
	pT, ftpc west
TH2F *	m_lengthF
	length of track, tpc
TH1F *	m_lengthFE
	length of track, ftpc
TH1F *	m_lengthFW
	length of track, ftpc east
TH1F *	m_chisq0T
	length of track, ftpc west
TH2F *	m_chisq0TTS
	chi square [0], tpc
TH2F *	m_chisq0F
	chi square [0], tpc,svt
TH1F *	m_chisq0FE
	chi square [0], ftpc
TH1F *	m_chisq0FW
	chi square [0], ftpc east
TH2F *	m_chisq1F
	chi square [0], ftpc west
TH1F *	m_chisq1FE
	chi square [1], ftpc
TH1F *	m_chisq1FW
	chi square [1], ftpc east
TH2F *	m_glb_impactT
	chi square [1], ftpc west
TH2F *	m_glb_simpactT
	log impact parameter from primary vertex, tpc
TH1F *	m_glb_impactrT
	signed impact parameter from primary vertex, tpc
TH2F *	m_glb_f0
	impact parameter from primary vertex, tpc
TH2F *	m_glb_f0TS
	overlayed hist of first point - helix point
TH2F *	m_pT_eta_recT
	overlayed hist of first point - helix point
TH2F *	m_pT_eta_recTS
	pT versus eta, tpc
TH2F *	m_pT_eta_recFE
	pT versus eta, tpc+svt
TH2F *	m_pT_eta_recFW
	pT versus eta, ftpcE
TH2F *	m_globtrk_xf_yfTE
	pT versus eta, ftpcW
TH2F *	m_globtrk_xf_yfTW
	Y vs X of first hit on trk, tpc east.
TH2F *	m_globtrk_xf_yfTS
	Y vs X of first hit on trk, tpc west.
TH2F *	m_globtrk_xf_yfFE
	Y vs X of first hit on trk, tpc+svt.
TH2F *	m_globtrk_xf_yfFW
	Y vs X of first hit on trk, ftpc east.
TH2F *	m_globtrk_padtimeFE
	Y vs X of first hit on trk, ftpc west.
TH2F *	m_globtrk_padtimeFW
	padlength vs timelength of hits on track, ftpcE
TH2F *	m_tanl_zfT
	padlength vs timelength of hits on track, ftpcW
TH2F *	m_tanl_zfTS
	tanl(dip angle) vs zfirst-zvtx, tpc
TH2F *	m_mom_trklengthT
	tanl(dip angle) vs zfirst-zvtx, tpc+svt
TH2F *	m_mom_trklengthTS
	mom vs. trk length, tpc
TH2F *	m_eta_trklengthT
	mom vs. trk length, tpc+svt
TH2F *	m_eta_trklengthTS
	trk length vs. eta, tpc
TH2F *	m_eta_trklengthFE
	trk length vs. eta, tpc+svt
TH2F *	m_eta_trklengthFW
	trk length vs. eta, ftpc east
TH2F *	m_fpoint_lengthT
	trk length vs. eta, ftpc west
TH2F *	m_fpoint_lengthTS
	num fit points vs length, tpc
TH2F *	m_fpoint_lengthTTS
	num fit points vs length, tpc+svt
TH2F *	m_npoint_lengthT
	num fit points vs length, tpc,tpc+svt
TH2F *	m_npoint_lengthTS
	tot num points vs length, tpc
TH2F *	m_npoint_lengthFE
	tot num points vs length, tpc+svt
TH2F *	m_npoint_lengthFW
	tot num points vs length, ftpc east
TH2F *	m_chisq0_momT
	tot num points vs length, ftpc west
TH2F *	m_chisq0_momTS
	chisq0 vs momentum, tpc
TH2F *	m_chisq0_etaT
	chisq0 vs momentum, tpc+svt
TH2F *	m_chisq0_etaTS
	chisq0 vs eta, tpc
TH2F *	m_chisq0_dipT
	chisq0 vs eta, tpc+svt
TH2F *	m_chisq0_dipTS
	chisq0 vs dip angle, tpc
TH2F *	m_chisq0_zfT
	chisq0 vs dip angle, tpc+svt
TH2F *	m_chisq0_zfTS
	chisq0 vs zfirst, tpc
TH2F *	m_chisq0_phiT
	chisq0 vs zfirst, tpc+svt
TH2F *	m_chisq0_phiTS
	chisq0 vs phi, tpc
TH2F *	m_psi_phiT
	chisq0 vs phi, tpc+svt
TH2F *	m_psi_phiTS
	psi vs phi, tpc
TH1F *	m_ndedxr
	psi vs phi, tpc+svt
TH1F *	m_ndedxT
	number of tracks with dedx info
TH1F *	m_dedx0T
	number of point to find dE/dx, tpc
TH1F *	m_dedx1T
	dE/dx [0], tpc
TH1F *	m_dedxTTS
	dE/dx [1], tpc
TH2F *	m_ndedxF
	<dE/dx>/(Bichsel <dE/dx>), tpc,tpc+svt
TH2F *	m_dedx0F
	number of point to find dE/dx, ftpc
TH1F *	m_ndedxFE
	dE/dx [0], ftpc
TH1F *	m_dedx0FE
	number of point to find dE/dx, ftpcE
TH1F *	m_ndedxFW
	dE/dx [0], ftpcE
TH1F *	m_dedx0FW
	number of point to find dE/dx, ftpcW
TH1F *	m_primtrk_tot
	dE/dx [0], ftpcW
TH1F *	m_primtrk_tot_sm
	tracks in table
TH1F *	m_primtrk_good
	tracks in table, small range
TH1F *	m_primtrk_good_sm
	tracks in table with iflag>0
TH1F *	m_primtrk_goodTTS
	tracks in table with iflag>0, small range
TH2F *	m_primtrk_goodF
	tracks in table with iflag>0, tpc,svt
TH1F *	m_primglob_good
	tracks in table with iflag>0, ftpc
TH1F *	m_primglob_fit
	trks w/ iflag>0, ratio prim/glob, all detectors
TH1F *	m_primtrk_iflag
	fit points ratio prim/glob, all detectors
TH1F *	m_pdet_id
	iflag value
TH2F *	m_primtrk_meanptTTS
	detector id of track
TH2F *	m_primtrk_meanptF
	<pT>, tpc, tpc+svt
TH2F *	m_primtrk_meanetaTTS
	<pT>, ftpc
TH2F *	m_primtrk_meanetaF
	<eta>, tpc, tpc+svt
TH1F *	m_ppointT
	<eta>, ftpc
TH1F *	m_ppointTS
	number of points on the track - tpc
TH2F *	m_ppointF
	number of points on the track - tpc+svt
TH1F *	m_ppointFE
	number of points on the track - ftpc
TH1F *	m_ppointFW
	number of points on the track - ftpc east
TH1F *	m_pmax_pointT
	number of points on the track - ftpc west
TH1F *	m_pmax_pointTS
	number of max possible track points - tpc
TH2F *	m_pmax_pointF
	number of max possible track points - tpc+svt
TH1F *	m_pmax_pointFE
	number of max possible track points - ftpc
TH1F *	m_pmax_pointFW
	number of max possible track points - ftpc east
TH1F *	m_pfit_pointT
	number of max possible track points - ftpc west
TH1F *	m_pfit_pointTS
	number of track points used for fitting - tpc
TH2F *	m_prim_ratioF
	number of track points used for fitting - tpc+svt
TH1F *	m_prim_ratioFE
	ratio of n fit pnts over tot n pnts - ftpc
TH1F *	m_prim_ratioFW
	ratio of n fit pnts over tot n pnts - ftpc east
TH1F *	m_prim_ratiomT
	ratio of n fit pnts over tot n pnts - ftpc west
TH1F *	m_prim_ratiomTS
	ratio of n fit pnts over max n pnts - tpc
TH2F *	m_prim_ratiomF
	ratio of n fit pnts over max n pnts - tpc+svt
TH1F *	m_prim_ratiomFE
	ratio of n fit pnts over max n pnts - ftpc
TH1F *	m_prim_ratiomFW
	ratio of n fit pnts over max n pnts - ftpc east
TH1F *	m_prim_chargeT
	ratio of n fit pnts over max n pnts - ftpc west
TH1F *	m_prim_chargeTS
	particle charge in units of |e| - tpc
TH2F *	m_prim_chargeF
	particle charge in units of |e| - tpc+svt
TH1F *	m_prim_chargeFE
	particle charge in units of |e| - ftpc
TH1F *	m_prim_chargeFW
	particle charge in units of |e| - ftpc east
TH1F *	m_prim_r0T
	particle charge in units of |e| - ftpc west
TH1F *	m_prim_r0TS
	radius at start (cm), tpc
TH1F *	m_prim_phi0T
	radius at start (cm), tpc+svt
TH1F *	m_prim_phi0TS
	azimuthal angle at start (deg), tpc
TH1F *	m_prim_z0T
	azimuthal angle at start (deg), tpc+svt
TH1F *	m_prim_z0TS
	z-coord at start (cm), tpc
TH1F *	m_prim_curvT
	z-coord at start (cm), tpc+svt
TH1F *	m_prim_curvTS
	curvature (1/cm), tpc
TH1F *	m_prim_xfT
	curvature (1/cm), tpc+svt
TH1F *	m_prim_xfTS
	x-coord. of first hit on trk, tpc
TH2F *	m_prim_xfF
	x-coord. of first hit on trk, tpc+svt
TH1F *	m_prim_xfFE
	x-coord. of first hit on trk, ftpc
TH1F *	m_prim_xfFW
	x-coord. of first hit on trk, ftpc east
TH1F *	m_prim_yfT
	x-coord. of first hit on trk, ftpc west
TH1F *	m_prim_yfTS
	y-coord. of first hit on trk, tpc
TH2F *	m_prim_yfF
	y-coord. of first hit on trk, tpc+svt
TH1F *	m_prim_yfFE
	y-coord. of first hit on trk, ftpc
TH1F *	m_prim_yfFW
	y-coord. of first hit on trk, ftpc east
TH1F *	m_prim_zfT
	y-coord. of first hit on trk, ftpc west
TH1F *	m_prim_zfTS
	z-coord. of first hit on trk, tpc
TH2F *	m_prim_zfF
	z-coord. of first hit on trk, tpc+svt
TH1F *	m_prim_zfFE
	z-coord. of first hit on trk, ftpc
TH1F *	m_prim_zfFW
	z-coord. of first hit on trk, ftpc east
TH1F *	m_prim_xf0
	z-coord. of first hit on trk, ftpc west
TH1F *	m_prim_xf0TS
	x-coord. of first hit - at start of helix
TH1F *	m_prim_yf0
	x-coord. of first hit - at start of helix+svt
TH1F *	m_prim_yf0TS
	y-coord. of first hit - at start of helix
TH1F *	m_prim_zf0
	y-coord. of first hit - at start of helix+svt
TH1F *	m_prim_zf0TS
	z-coord. of first hit - at start of helix
TH2F *	m_prim_rzf0
	z-coord. of first hit - at start of helix+svt
TH2F *	m_prim_rzl0
	transverse & longitudinal helix center of first hit - helix hit
TH2F *	m_prim_rzf0TS
	transverse & longitudinal helix center of last hit - helix hit
TH2F *	m_prim_rzl0TS
	transverse & longitudinal helix center of first hit - helix hit+svt
TH1F *	m_prim_radfT
	transverse & longitudinal helix center of last hit - helix hit+svt
TH1F *	m_prim_radfTS
	radial (xy) coordinate of first hit, tpc
TH2F *	m_prim_radfF
	radial (xy) coordinate of first hit, tpc+svt
TH1F *	m_prim_radfFE
	radial (xy) coordinate of first hit, ftpc
TH1F *	m_prim_radfFW
	radial (xy) coordinate of first hit, ftpc east
TH1F *	m_ppsiT
	radial (xy) coordinate of first hit, ftpc west
TH1F *	m_ppsiTS
	psi reconstructed, tpc
TH2F *	m_ppsiTTS
	psi reconstructed, tpc+svt
TH2F *	m_ppsiF
	psi reconstructed, tpc,tpc+svt
TH1F *	m_ppsiFE
	psi reconstructed, ftpc
TH1F *	m_ppsiFW
	psi reconstructed, ftpc east
TH1F *	m_ptanlT
	psi reconstructed, ftpc west
TH1F *	m_ptanlTS
	tan(dip) =pz/pt at start, tpc
TH1F *	m_prim_thetaT
	tan(dip) =pz/pt at start, tpc+svt
TH1F *	m_prim_thetaTS
	theta - tpc
TH1F *	m_petaT
	theta - tpc+svt
TH1F *	m_petaTS
	eta, tpc
TH2F *	m_petaTTS
	eta, tpc+svt
TH2F *	m_petaF
	eta, tpc,tpc+svt
TH1F *	m_petaFE
	eta, ftpc
TH1F *	m_petaFW
	eta, ftpc east
TH1F *	m_pmomT
	eta, ftpc west
TH1F *	m_pmomTS
	momentum, tpc
TH2F *	m_pmomF
	momentum, tpc+svt
TH1F *	m_pmomFE
	momentum, ftpc
TH1F *	m_pmomFW
	momentum, ftpc east
TH1F *	m_ppTT
	momentum, ftpc west
TH1F *	m_ppTTS
	pT, tpc
TH2F *	m_ppTTTS
	pT, tpc+svt
TH2F *	m_ppTF
	pT, tpc,tpc+svt
TH1F *	m_ppTFE
	pT, ftpc
TH1F *	m_ppTFW
	pT, ftpc east
TH1F *	m_plengthT
	pT, ftpc west
TH1F *	m_plengthTS
	length of track, tpc
TH2F *	m_plengthF
	length of track, tpc+svt
TH1F *	m_plengthFE
	length of track, ftpc
TH1F *	m_plengthFW
	length of track, ftpc east
TH1F *	m_pchisq0T
	length of track, ftpc west
TH1F *	m_pchisq0TS
	chi square [0], tpc
TH2F *	m_pchisq0TTS
	chi square [0], tpc+svt
TH2F *	m_pchisq0F
	chi square [0], tpc,tpc+svt
TH1F *	m_pchisq0FE
	chi square [0], ftpc
TH1F *	m_pchisq0FW
	chi square [0], ftpc east
TH2F *	m_pchisq1F
	chi square [0], ftpc west
TH1F *	m_pchisq1FE
	chi square [1], ftpc
TH1F *	m_pchisq1FW
	chi square [1], ftpc east
TH2F *	m_prim_f0
	chi square [1], ftpc west
TH2F *	m_prim_f0TS
	overlayed hist of first point - helix point
TH2F *	m_ppT_eta_recT
	overlayed hist of first point - helix point
TH2F *	m_ppT_eta_recTS
	pT versus eta, tpc
TH2F *	m_ppT_eta_recFE
	pT versus eta, tpc+svt
TH2F *	m_ppT_eta_recFW
	pT versus eta, ftpcE
TH2F *	m_primtrk_xf_yfTE
	pT versus eta, ftpcW
TH2F *	m_primtrk_xf_yfTW
	Y vs X of first hit on trk, tpc east.
TH2F *	m_primtrk_xf_yfTS
	Y vs X of first hit on trk, tpc west.
TH2F *	m_primtrk_xf_yfFE
	Y vs X of first hit on trk, tpc+svt.
TH2F *	m_primtrk_xf_yfFW
	Y vs X of first hit on trk, ftpc east.
TH2F *	m_ptanl_zfT
	Y vs X of first hit on trk, ftpc west.
TH2F *	m_ptanl_zfTS
	tanl(dip angle) vs zfirst-zvtx, tpc
TH2F *	m_pmom_trklengthT
	tanl(dip angle) vs zfirst-zvtx, tpc+svt
TH2F *	m_pmom_trklengthTS
	mom vs. trk length, tpc
TH2F *	m_peta_trklengthT
	mom vs. trk length, tpc+svt
TH2F *	m_peta_trklengthTS
	trk length vs. eta, tpc
TH2F *	m_peta_trklengthFE
	trk length vs. eta, tpc+svt
TH2F *	m_peta_trklengthFW
	trk length vs. eta, ftpc east
TH2F *	m_pfpoint_lengthT
	trk length vs. eta, ftpc west
TH2F *	m_pfpoint_lengthTS
	num fit points vs length, tpc
TH2F *	m_pfpoint_lengthTTS
	num fit points vs length, tpc+svt
TH2F *	m_pnpoint_lengthT
	num fit points vs length, tpc
TH2F *	m_pnpoint_lengthTS
	tot num points vs length, tpc
TH2F *	m_pnpoint_lengthFE
	tot num points vs length, tpc+svt
TH2F *	m_pnpoint_lengthFW
	tot num points vs length, ftpc east
TH2F *	m_pchisq0_momT
	tot num points vs length, ftpc west
TH2F *	m_pchisq0_momTS
	chisq0 vs momentum, tpc
TH2F *	m_pchisq0_etaT
	chisq0 vs momentum, tpc+svt
TH2F *	m_pchisq0_etaTS
	chisq0 vs eta, tpc
TH2F *	m_pchisq0_dipT
	chisq0 vs eta, tpc+svt
TH2F *	m_pchisq0_dipTS
	chisq0 vs dip angle, tpc
TH2F *	m_pchisq0_zfT
	chisq0 vs dip angle, tpc+svt
TH2F *	m_pchisq0_zfTS
	chisq0 vs zfirst, tpc
TH2F *	m_ppsi_phiT
	chisq0 vs zfirst, tpc+svt
TH2F *	m_ppsi_phiTS
	psi vs phi, tpc
TH2F *	m_p_dedx_rec
	psi vs phi, tpc+svt
TH1F *	m_v_num
	dedx vs p
TH1F *	m_v_num_sm
	number of vertices
TH1F *	m_v_vtxid
	number of vertices,small range
TH1F *	m_v_x
	vertex type
TH1F *	m_v_y
	vertex coordinates in
TH1F *	m_v_z
	STAR reference.
TH1F *	m_v_pchi2
	system
TH1F *	m_v_r
	chisq per dof of vertex fit
TH1F *	m_pv_vtxid
	radius to vertex
TH1F *	m_pv_x
	row1-vertex type
TH1F *	m_pv_y
	row1-vertex coordinates in
TH1F *	m_pv_z
	STAR reference.
TH2F *	m_pv_xy
	system
TH1F *	m_pv_pchi2
	x versus y
TH1F *	m_pv_r
	row1-chisq per dof of vertex fit
TH1F *	m_vtx_phi_dist
	radius to primary vertex
TH1F *	m_vtx_r_dist
	azimuthal distribution of V0s relative to primVtx
TH1F *	m_vtx_z_dist
	radial distribution of V0s relative to primVtx
TH1F *	m_v0
	z distribution of V0s relative to primVtx
TH1F *	m_ev0_lama_hist
	v0 vertices
TH1F *	m_ev0_k0ma_hist
	Lambda mass.
TH1F *	m_xi_tot
	K0 mass.
TH1F *	m_xi_ma_hist
	number of xi vertices
TH1F *	m_kink_tot
	xi Mass
TH2F *	m_vtx_FtpcEastTpc_xy
	number of kinks
TH1F *	m_vtx_FtpcEastTpc_z
	FtpcEast prim vtx - TPC prim vtx, x vs y.
TH2F *	m_vtx_FtpcWestTpc_xy
	FtpcEast prim vtx z - TPC prim vtx z.
TH1F *	m_vtx_FtpcWestTpc_z
	FtpcWest prim vtx - TPC prim vtx, x vs y.
TH1F *	m_z_hits
	FtpcWest prim vtx z - TPC prim vtx z.
TH1F *	m_pnt_zS
	z dist. of hits, tpc
TH2F *	m_pnt_timeT
	z dist. of hits, svt
TH2F *	m_pnt_xyS
	time dist. of hits, tpc
TH2F *	m_pnt_rpTW
	xy dist. of hits, svt
TH2F *	m_pnt_rpTE
	rphi dist. of hits, tpcW
TH2F *	m_pnt_phiT
	rphi dist. of hits, tpcE
TH1F *	m_pnt_phiS
	phi dist. of hits, tpc
TH2F *	m_pnt_padrowT
	phi dist. of hits, svt
TH1F *	m_pnt_barrelS
	padrow dist. of hits, tpc
TH2F *	m_pnt_xyFE
	barrel dist. of hits, svt
TH2F *	m_pnt_xyFW
	xy dist. of hits, ftpcE
TH2F *	m_pnt_padtimeFE
	xy dist. of hits, ftpcW
TH2F *	m_pnt_padtimeFW
	padlength vs timelength of hits, ftpcE
TH2F *	m_pnt_planeF
	padlength vs timelength of hits, ftpcW
TH1F *	m_pnt_tot
	plane dist. of hits, ftpc
TH1F *	m_pnt_tot_med
	number of hits total
TH1F *	m_pnt_tot_sm
	number of hits total, med range
TH1F *	m_pnt_id
	number of hits total, small range
TH1F *	m_pnt_tpc
	detector ID of the hit
TH2F *	m_pnt_ftpc
	number of hits tpc
TH1F *	m_pnt_ftpcE
	number of hits ftpc
TH1F *	m_pnt_ftpcW
	number of hits ftpcE
TH1F *	m_geant_reco_pvtx_x
	number of hits ftpcW
TH1F *	m_geant_reco_pvtx_y
	prim vtx x, diff geant - reco
TH1F *	m_geant_reco_pvtx_z
	prim vtx y, diff geant - reco
TH2F *	m_geant_reco_vtx_z_z
	prim vtx z, diff geant - reco
TH2F *	m_emc_nhit
	prim vtx z, diff geant - reco vs reco z
TH2F *	m_emc_etot
TH2F *	m_emc_hits [4]
TH2F *	m_emc_energy2D [4]
TH1F *	m_emc_adc [4]
TH1F *	m_emc_energy [4]
TH2F *	m_emc_ncl
TH2F *	m_emc_etotCl
TH2F *	m_emc_sig_e
TH2F *	m_emc_sig_p
TH2F *	m_emc_cl [4]
TH2F *	m_emc_energyCl [4]
TH1F *	m_emc_HitsInCl [4]
TH1F *	m_emc_EnergyCl [4]
TH1F *	m_emc_EtaInCl [4]
TH1F *	m_emc_PhiInCl [4]
TH1F *	m_emc_point_energy [4]
TH1F *	m_emc_point_eta [4]
	Point Energy spectra.
TH1F *	m_emc_point_phi [4]
	Point Eta spectra.
TH1F *	m_emc_point_sigeta [4]
	Point Phi spectra.
TH1F *	m_emc_point_sigphi [4]
	Point SigmaEta spectra.
TH1F *	m_emc_point_deleta [4]
	Point SigmaPhi spectra.
TH1F *	m_emc_point_delphi [4]
	Point DeltaEta spectra.
TH1F *	m_emc_point_trmom [4]
	Point DeltaPhi spectra.
TH1F *	m_emc_points [4]
	Point TrMom spectra.
TH1F *	m_emc_point_flag
	Emc Point multiplicity.
TH2F *	m_bbc_adc [4]
	Point Flag spectra.
TH2F *	m_bbc_tdc [4]
TH2F *	m_fpd_top [2]
TH2F *	m_fpd_bottom [2]
TH2F *	m_fpd_south [2]
TH2F *	m_fpd_north [2]
TH1F *	m_fpd_sums [8]
TH2F *	m_pmd_sm_adc [12]
TH2F *	m_pmd_sm_hit [12]
TH2F *	m_pmd_chain_hit [24]
TH2F *	m_pmd_chain_adc [24]
TH2F *	m_pmd_total_hit
TH2F *	m_pmd_total_adc
TH2F *	m_cpv_total_hit
TH2F *	m_cpv_total_adc
TH1F *	m_pnt_svt
TH2F *	m_pnt_svtLaser
	number of hits svt
TH3F *	m_pnt_svtLaserDiff
	laser spots in svt
TH2F *	m_svt_loc
	diff of laser spots in svt
TH1F *	m_pnt_ssd
	SVT drift.
TH1F *	m_pnt_phiSSD
	number of hits ssd
TH2F *	m_pnt_lwSSD
TH1F *	m_glb_ssd_phi
TH1F *	m_prim_ssd_phi
TH2F *	m_pnt_sizeSSD
TH1F *	m_pnt_eSSD
TH1F *	m_pnt_sst
TH1F *	m_pnt_phiSST
	number of hits sst
TH2F *	m_pnt_lwSST
TH1F *	m_glb_sst_phi
TH1F *	m_prim_sst_phi
TH2F *	m_pnt_sizeSST
TH1F *	m_pnt_eSST
TH2F *	m_nhit_Pxl_Ist
TH2F *	m_nhit_Pxl_Sst
	of hits in PIXEL vs hits in IST
TH2F *	m_nhit_Ist_Sst
	of hits in PIXEL vs hits in SST
TH1F *	m_global_hft_hit
	of hits in ITS vs hits in ITS
TH1F *	m_primary_hft_hit
	HFT hits per global track.
TH2F *	m_pxl_hit_phi_z_Pxl1
	HFT hits per primary track.
TH2F *	m_pxl_hit_phi_z_Pxl2
	of hits vs phi vs z position, inner PIXEL layer
TH1F *	m_pxl_hit_ladder
	of hits vs phi vs z position, outer PIXEL layer
TH2F *	m_pxl_hit_sector_sensor_Pxl1
	of hits vs x ladder (integrated over ladder, per event)
TH2F *	m_pxl_hit_sector_sensor_Pxl2
	of hits vs sector vs sensor, inner PIXEL layer
TH2F *	m_pxl_nhit_Pxl1_tpc_mult
	of hits vs sector vs sensor, outer PIXEL layer
TH2F *	m_pxl_nhit_Pxl2_tpc_mult
	of hits in inner PIXEL layer vs TPC track multiplicity
TH2F *	m_pxl_nhit_Pxl1_tof_mult
	of hits in outer PIXEL layer vs TPC track multiplicity
TH2F *	m_pxl_nhit_Pxl2_tof_mult
	of hits in inner PIXEL layer vs TOF track multiplicity
TH2F *	m_pxl_nhit_Pxl1_Pxl2
	of hits in outer PIXEL layer vs TOF track multiplicity
TH1F *	m_global_pxl_hit
	of hits in inner vs outer PIXEL layer
TH1F *	m_primary_pxl_hit
	of PIXEL hits per global track
TH2F *	m_ist_hit_phi_z
	of PIXEL hits per primary track
TH1F *	m_ist_hit_ladder
	of hits vs phi vs z position
TH2F *	m_ist_hit_ladder_sensor
	of hits vs x ladder (integrated over ladder, per event)
TH2F *	m_ist_nhit_tpc_mult
	of hits vs ladder vs sensor
TH2F *	m_ist_nhit_tof_mult
	of hits in IST vs TPC track multiplicity
TH1F *	m_global_ist_hit
	of hits in IST vs TOF track multiplicity
TH1F *	m_primary_ist_hit
	of IST hits per global track
TH2F *	m_tof_hit_tray
	of IST hits per primary track
TH2F *	m_tof_hit_module
	of hits vs tray # (int over modules)
TH2F *	m_tof_match_tray
	of hits vs module # (int over trays, east side use -32 - -1)
TH2F *	m_tof_match_module
	of matched hits vs tray
TH2F *	m_tof_vpd_hit
	of matched hits vs module
TH2F *	m_tof_vtx_z
	of tof hits vs # of vpd hits
TH2F *	m_tof_PID
	vertex z from vpd vs verex z from TPC
TH1F *	m_MtdNHits
	TOF PID: 1/beta vs p.
TH2F *	m_MtdHitMap
TH1F *	m_MtdNMatchHits
TH2F *	m_MtdMatchHitMap
TH2F *	m_epd_adc [24]
TH2F *	m_epd_tac [24]
TH2F *	m_TPC_ch_nrow [24]
TH2F *	m_TPC_ch_time_inner [24]
TH2F *	m_TPC_ch_time_outer [24]
TH2F *	m_TPC_adc_sec_inner
TH2F *	m_TPC_adc_sec_outer

Protected Member Functions
virtual void	BookHistGlob ()
virtual void	BookHistDE ()
virtual void	BookHistPrim ()
virtual void	BookHistPID ()
virtual void	BookHistVertex ()
virtual void	BookHistPoint ()
virtual void	BookHistEMC ()
virtual void	BookHistEval ()
virtual void	BookHistBBC ()
virtual void	BookHistFPD ()
virtual void	BookHistPMD ()
virtual void	BookHistTOF ()
virtual void	BookHistMTD ()
virtual void	BookHistPXL ()
virtual void	BookHistHFT ()
virtual void	BookHistIST ()
virtual void	BookHistEPD ()
virtual void	BookHistiTPC ()

Protected Attributes
Int_t	nxpT
Int_t	nyeta
Float_t	xminpT
Float_t	xmaxpT
Int_t	nchisq
Int_t	ndedx
Int_t	npnt
Int_t	nleng
Int_t	npsi
Int_t	knpsi
Int_t	nvrt
Int_t	knyeta
Int_t	knid
Int_t	cnp
Int_t	cndedx
Float_t	kminnid
Float_t	kmaxnid
Float_t	minpsi
Float_t	kminpsi
Float_t	maxpsi
Float_t	minchisq
Float_t	maxchisq
Float_t	minmass
Float_t	maxmass
Float_t	minpnt
Float_t	maxpnt
Float_t	minleng
Float_t	maxleng
Float_t	mintau
Float_t	maxtau
Float_t	mintrk
Float_t	maxtrk
Float_t	minvrt
Float_t	maxvrt
Float_t	minmpt
Float_t	maxmpt
Float_t	minmeta
Float_t	maxmeta
Float_t	kmineta
Float_t	kmaxeta
Float_t	minxyz
Float_t	maxxyz
Float_t	cminp
Float_t	cmaxp
Float_t	cmindedx
Float_t	cmaxdedx
TString	QAHistType
bool	silHists
bool	ftpHists
Int_t	histsSet

Detailed Description

Definition at line 143 of file StQABookHist.h.

Constructor & Destructor Documentation

StQABookHist::StQABookHist

(

const char *

type

)

number of tracks with dedx info

number of point to find dE/dx

dE/dx [0] - mean

dE/dx [1] - sigma

<dE/dx>/(Bichsel <dE/dx>), tpc, tpc+svt

number of point to find dE/dx

dE/dx [0] - mean

number of point to find dE/dx

dE/dx [0] - mean

number of point to find dE/dx

dE/dx [0] - mean

dedx vs p

number of vertices

number of vertices,small range

vertex type

vertex coordinates in

STAR reference

system

chisq per dof of vertex fit

radius to vertex

row1-vertex type

row1-vertex coordinates in

STAR reference

system

x versus y scatter plot

row1-chisq per dof of vertex fit

radius to primary vertex

azimuthal distribution of V0s relative to primVtx

radial distribution of V0s relative to primVtx

z distribution of V0s relative to primVtx

v0 vertices

Lambda mass

K0 mass

number of vertices

Xi Mass

number of kinks

FtpcEast prim vtx - TPC prim vtx, x vs y

FtpcEast prim vtx z - TPC prim vtx z

FtpcWest prim vtx - TPC prim vtx, x vs y

FtpcWest prim vtx z - TPC prim vtx z

number of hits

number of hits, med range

number of hits, small range

detector id of the hit

xy dist. of hits, svt

rphi dist. of hits, tpcW

rphi dist. of hits, tpcE

phi dist. of hits, tpc

padrow dist. of hits, tpc

time bucket dist. of hits, tpc

z dist. of hits, svt

phi dist. of hits, svt

barrel dist. of hits, svt

plane dist. of hits, ftpc

number of hits tpc

xy dist. of hits, ftpcE

xy dist. of hits, ftpcW

padlength vs. timelength of hits, ftpcE

padlength vs. timelength of hits, ftpcW

number of hits ftpc

number of hits ftpcE

number of hits ftpcW

prim vtx x, diff geant - reco

prim vtx y, diff geant - reco

prim vtx z, diff geant - reco

prim vtx z, diff geant - reco vs reco z

Point Energy spectra

Point Eta spectra

Point Phi spectra

Point SigmaEta spectra

Point SigmaPhi spectra

Point DeltaEta spectra

Point DeltaPhi spectra

Point TrMom spectra

Emc Point multiplicity

Point Flag spectra

number of hits svt

laser spots in svt

diff of laser spots in svt

SVT drift

number of hits ssd

number of hits sst

of hits vs tray # (int over modules)

of hits vs module # (int over trays, east side use -32 - -1)

of matched hits vs tray

of matched hits vs module

of tof hits vs # of vpd hits

vertex z from vpd vs verex z from TPC

TOF PID: 1/beta vs p

Definition at line 266 of file StQABookHist.cxx.

Member Data Documentation

TH1F* StQABookHist::m_globtrk_fit_prob

primary vertex check (based on event class for real data)

Definition at line 223 of file StQABookHist.h.

---

The documentation for this class was generated from the following files:

• St_QA_Maker/StQABookHist.h
• St_QA_Maker/StQABookHist.cxx