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Axel Puntke
cbmroot
Commits
70db16f2
Commit
70db16f2
authored
3 years ago
by
Viktor Klochkov
Committed by
Volker Friese
3 years ago
Browse files
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Plain Diff
Do not use cuts by default in AnalysisTreeQA, install file with cuts
parent
153b0e87
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dev_2021_24
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macro/CMakeLists.txt
+1
-0
1 addition, 0 deletions
macro/CMakeLists.txt
macro/analysis/common/qa/run_analysistree_qa.C
+95
-93
95 additions, 93 deletions
macro/analysis/common/qa/run_analysistree_qa.C
with
96 additions
and
93 deletions
macro/CMakeLists.txt
+
1
−
0
View file @
70db16f2
...
...
@@ -41,6 +41,7 @@ Install(FILES C2F/.rootrc C2F/c2f_transport.C C2F/sis100_electron.tree.list
${
CBMROOT_SOURCE_DIR
}
/macro/analysis/common/analysis_tree_converter/run_analysis_tree_maker.C
${
CBMROOT_SOURCE_DIR
}
/macro/analysis/common/at_kfpf_interface/run_at_kfpf.C
${
CBMROOT_SOURCE_DIR
}
/macro/analysis/common/qa/run_analysistree_qa.C
${
CBMROOT_SOURCE_DIR
}
/macro/analysis/common/cuts/cbm_cuts.h
DESTINATION share/cbmroot/macro/c2f
)
Install
(
CODE
"FILE(MAKE_DIRECTORY
${
CMAKE_INSTALL_PREFIX
}
/share/cbmroot/macro/c2f/data)"
)
...
...
This diff is collapsed.
Click to expand it.
macro/analysis/common/qa/run_analysistree_qa.C
+
95
−
93
View file @
70db16f2
...
...
@@ -2,17 +2,23 @@
SPDX-License-Identifier: GPL-3.0-only
Authors: Viktor Klochkov [committer], Viktor Klochkov [committer] */
//#include <AnalysisTree/TaskManager.hpp>
//#include "AnalysisTree/Cuts.hpp"
//#include "src/EntryConfig.hpp"
//#include "src/Task.hpp"
//#include "src/Utils.hpp"
#include
"../cuts/cbm_cuts.h"
typedef
AnalysisTree
::
QA
::
EntryConfig
::
PlotType
PlotType
;
using
AnalysisTree
::
QA
::
gNbins
;
/** @brief run_analysistree_qa
** @param filelist Filefist (text file) of input AnalysisTree files
** @param is_single_file if true, instead of filelist a single ROOT file will be used as input
**
** Macro to run AnalysisTreeQA package (https://github.com/HeavyIonAnalysis/AnalysisTreeQA)
** Produces an output ROOT file with specified histograms / TProfiles.
** Examples how to add plots could be found here:
** https://github.com/HeavyIonAnalysis/AnalysisTreeQA/blob/master/examples/example.cpp
** To add event cuts:
** task->SetEventCuts(EventCuts);
** where EventCuts is AnalysisTree::Cuts* object, for example
** GetCbmEventCuts("RecEventHeader") from macro/analysis/common/cuts/cbm_cuts.h
** To apply a cut on some branch, for example select only primiry MC-tracks:
** task->AddBranchCut(GetCbmMcTracksCuts("SimParticles"));
** or apply quality cuts on STS tracks:
** task->AddBranchCut(GetCbmTrackCuts("RecTracks"));
**/
using
namespace
AnalysisTree
;
...
...
@@ -50,10 +56,6 @@ void run_analysistree_qa(std::string filelist, bool is_single_file)
auto
*
task
=
new
QA
::
Task
;
task
->
SetOutputFileName
(
"cbm_qa.root"
);
task
->
SetEventCuts
(
GetCbmEventCuts
(
"RecEventHeader"
));
task
->
AddBranchCut
(
GetCbmMcTracksCuts
(
"SimParticles"
));
task
->
AddBranchCut
(
GetCbmTrackCuts
(
"RecTracks"
));
RichRingsQA
(
*
task
);
TrdTracksQA
(
*
task
);
// KFPFTracksQA(*task);
...
...
@@ -83,39 +85,39 @@ void TrdTracksQA(QA::Task& task)
AddTrackQA
(
&
task
,
trd_tracks
);
AddTracksMatchQA
(
&
task
,
trd_tracks
,
rec_tracks
);
task
.
AddH1
({
"TRD energy loss in 1st station, keV"
,
{
trd_tracks
,
"energy_loss_0"
},
{
gNbins
,
0
,
50
}});
task
.
AddH1
({
"TRD energy loss in 2nd station"
,
{
trd_tracks
,
"energy_loss_1"
},
{
gNbins
,
0
,
50
}});
task
.
AddH1
({
"TRD energy loss in 3rd station"
,
{
trd_tracks
,
"energy_loss_2"
},
{
gNbins
,
0
,
50
}});
task
.
AddH1
({
"TRD energy loss in 4th station"
,
{
trd_tracks
,
"energy_loss_3"
},
{
gNbins
,
0
,
50
}});
task
.
AddH1
({
"TRD energy loss in 1st station, keV"
,
{
trd_tracks
,
"energy_loss_0"
},
{
QA
::
gNbins
,
0
,
50
}});
task
.
AddH1
({
"TRD energy loss in 2nd station"
,
{
trd_tracks
,
"energy_loss_1"
},
{
QA
::
gNbins
,
0
,
50
}});
task
.
AddH1
({
"TRD energy loss in 3rd station"
,
{
trd_tracks
,
"energy_loss_2"
},
{
QA
::
gNbins
,
0
,
50
}});
task
.
AddH1
({
"TRD energy loss in 4th station"
,
{
trd_tracks
,
"energy_loss_3"
},
{
QA
::
gNbins
,
0
,
50
}});
task
.
AddH1
({
"Number of hits in TRD"
,
{
trd_tracks
,
"n_hits"
},
{
6
,
0
,
6
}});
task
.
AddH1
({
"PID Likelihood, e^{-}"
,
{
trd_tracks
,
"pid_like_e"
},
{
gNbins
,
-
1
,
1
}});
task
.
AddH1
({
"PID Likelihood, #pi"
,
{
trd_tracks
,
"pid_like_pi"
},
{
gNbins
,
-
1
,
1
}});
task
.
AddH1
({
"PID Likelihood, K"
,
{
trd_tracks
,
"pid_like_k"
},
{
gNbins
,
-
1
,
1
}});
task
.
AddH1
({
"PID Likelihood, p"
,
{
trd_tracks
,
"pid_like_p"
},
{
gNbins
,
-
1
,
1
}});
task
.
AddH1
({
"PID Likelihood, e^{-}"
,
{
trd_tracks
,
"pid_like_e"
},
{
QA
::
gNbins
,
-
1
,
1
}});
task
.
AddH1
({
"PID Likelihood, #pi"
,
{
trd_tracks
,
"pid_like_pi"
},
{
QA
::
gNbins
,
-
1
,
1
}});
task
.
AddH1
({
"PID Likelihood, K"
,
{
trd_tracks
,
"pid_like_k"
},
{
QA
::
gNbins
,
-
1
,
1
}});
task
.
AddH1
({
"PID Likelihood, p"
,
{
trd_tracks
,
"pid_like_p"
},
{
QA
::
gNbins
,
-
1
,
1
}});
task
.
AddH1
({
"#chi^{2}/NDF"
,
{
trd_tracks
,
"chi2_ov_ndf"
},
{
gNbins
,
0
,
30
}});
task
.
AddH1
({
"p_{T}^{last} (GeV/c)"
,
{
trd_tracks
,
"pT_out"
},
{
gNbins
,
0
,
10
}});
task
.
AddH1
({
"p^{last} (GeV/c)"
,
{
trd_tracks
,
"p_out"
},
{
gNbins
,
0
,
10
}});
task
.
AddH1
({
"#chi^{2}/NDF"
,
{
trd_tracks
,
"chi2_ov_ndf"
},
{
QA
::
gNbins
,
0
,
30
}});
task
.
AddH1
({
"p_{T}^{last} (GeV/c)"
,
{
trd_tracks
,
"pT_out"
},
{
QA
::
gNbins
,
0
,
10
}});
task
.
AddH1
({
"p^{last} (GeV/c)"
,
{
trd_tracks
,
"p_out"
},
{
QA
::
gNbins
,
0
,
10
}});
}
void
RichRingsQA
(
QA
::
Task
&
task
)
{
task
.
AddH1
({
"RICh ring x-position (cm)"
,
{
rich_rings
,
"x"
},
{
gNbins
,
-
100
,
100
}});
task
.
AddH1
({
"RICh ring y-position (cm)"
,
{
rich_rings
,
"y"
},
{
gNbins
,
-
250
,
250
}});
task
.
AddH2
({
"RICh ring x-position (cm)"
,
{
rich_rings
,
"x"
},
{
gNbins
,
-
100
,
100
}},
{
"RICh ring y-position (cm)"
,
{
rich_rings
,
"y"
},
{
gNbins
,
-
250
,
250
}});
task
.
AddH1
({
"RICh ring x-position (cm)"
,
{
rich_rings
,
"x"
},
{
QA
::
gNbins
,
-
100
,
100
}});
task
.
AddH1
({
"RICh ring y-position (cm)"
,
{
rich_rings
,
"y"
},
{
QA
::
gNbins
,
-
250
,
250
}});
task
.
AddH2
({
"RICh ring x-position (cm)"
,
{
rich_rings
,
"x"
},
{
QA
::
gNbins
,
-
100
,
100
}},
{
"RICh ring y-position (cm)"
,
{
rich_rings
,
"y"
},
{
QA
::
gNbins
,
-
250
,
250
}});
task
.
AddH1
({
"Ring radius"
,
{
rich_rings
,
"radius"
},
{
gNbins
,
0
,
10
}});
task
.
AddH1
({
"Ring radius"
,
{
rich_rings
,
"radius"
},
{
QA
::
gNbins
,
0
,
10
}});
task
.
AddH1
({
"n_hits"
,
{
rich_rings
,
"n_hits"
},
{
gNbins
,
0
,
60
}});
task
.
AddH1
({
"n_hits_on_ring"
,
{
rich_rings
,
"n_hits_on_ring"
},
{
gNbins
,
0
,
100
}});
task
.
AddH1
({
"axis_a"
,
{
rich_rings
,
"axis_a"
},
{
gNbins
,
0
,
10
}});
task
.
AddH1
({
"axis_b"
,
{
rich_rings
,
"axis_b"
},
{
gNbins
,
0
,
10
}});
task
.
AddH1
({
"n_hits"
,
{
rich_rings
,
"n_hits"
},
{
QA
::
gNbins
,
0
,
60
}});
task
.
AddH1
({
"n_hits_on_ring"
,
{
rich_rings
,
"n_hits_on_ring"
},
{
QA
::
gNbins
,
0
,
100
}});
task
.
AddH1
({
"axis_a"
,
{
rich_rings
,
"axis_a"
},
{
QA
::
gNbins
,
0
,
10
}});
task
.
AddH1
({
"axis_b"
,
{
rich_rings
,
"axis_b"
},
{
QA
::
gNbins
,
0
,
10
}});
task
.
AddH1
({
"chi2_ov_ndf"
,
{
rich_rings
,
"chi2_ov_ndf"
},
{
gNbins
,
0
,
1
}});
task
.
AddH1
({
"phi_ellipse"
,
{
rich_rings
,
"phi_ellipse"
},
{
gNbins
,
-
3
.
2
,
3
.
2
}});
task
.
AddH1
({
"chi2_ov_ndf"
,
{
rich_rings
,
"chi2_ov_ndf"
},
{
QA
::
gNbins
,
0
,
1
}});
task
.
AddH1
({
"phi_ellipse"
,
{
rich_rings
,
"phi_ellipse"
},
{
QA
::
gNbins
,
-
3
.
2
,
3
.
2
}});
}
void
VertexTracksQA
(
QA
::
Task
&
task
)
...
...
@@ -126,33 +128,33 @@ void VertexTracksQA(QA::Task& task)
Variable
chi2_over_ndf
(
"chi2_ndf"
,
{{
rec_tracks
,
"chi2"
},
{
rec_tracks
,
"ndf"
}},
[](
std
::
vector
<
double
>&
var
)
{
return
var
.
at
(
0
)
/
var
.
at
(
1
);
});
task
.
AddH1
({
"DCA_{x}, cm"
,
{
rec_tracks
,
"dcax"
},
{
gNbins
,
-
1
,
1
}});
task
.
AddH1
({
"DCA_{y}, cm"
,
{
rec_tracks
,
"dcay"
},
{
gNbins
,
-
1
,
1
}});
task
.
AddH1
({
"DCA_{z}, cm"
,
{
rec_tracks
,
"dcaz"
},
{
gNbins
,
-
1
,
1
}});
task
.
AddH1
({
"DCA_{x}, cm"
,
{
rec_tracks
,
"dcax"
},
{
QA
::
gNbins
,
-
1
,
1
}});
task
.
AddH1
({
"DCA_{y}, cm"
,
{
rec_tracks
,
"dcay"
},
{
QA
::
gNbins
,
-
1
,
1
}});
task
.
AddH1
({
"DCA_{z}, cm"
,
{
rec_tracks
,
"dcaz"
},
{
QA
::
gNbins
,
-
1
,
1
}});
task
.
AddH1
({
"NDF"
,
{
rec_tracks
,
"ndf"
},
{
30
,
0
,
30
}});
task
.
AddH1
({
"Number of hits (STS+MVD)"
,
{
rec_tracks
,
"nhits"
},
{
15
,
0
,
15
}});
task
.
AddH1
({
"Number of hits (MVD)"
,
{
rec_tracks
,
"nhits_mvd"
},
{
5
,
0
,
5
}});
task
.
AddH1
({
"#chi^{2}_{vertex}"
,
{
rec_tracks
,
"vtx_chi2"
},
{
500
,
0
,
100
}});
task
.
AddH1
({
"#chi^{2}/NDF"
,
chi2_over_ndf
,
{
gNbins
,
0
,
10
}});
task
.
AddH2
({
"DCA_{x}, cm"
,
{
rec_tracks
,
"dcax"
},
{
gNbins
,
-
1
,
1
}},
{
"DCA_{y}, cm"
,
{
rec_tracks
,
"dcay"
},
{
gNbins
,
-
1
,
1
}});
task
.
AddH1
({
"#chi^{2}/NDF"
,
chi2_over_ndf
,
{
QA
::
gNbins
,
0
,
10
}});
task
.
AddH2
({
"DCA_{x}, cm"
,
{
rec_tracks
,
"dcax"
},
{
QA
::
gNbins
,
-
1
,
1
}},
{
"DCA_{y}, cm"
,
{
rec_tracks
,
"dcay"
},
{
QA
::
gNbins
,
-
1
,
1
}});
}
void
TofHitsQA
(
QA
::
Task
&
task
)
{
task
.
AddH1
({
"TOF hit x-position (cm)"
,
{
tof_hits
,
"x"
},
{
gNbins
,
-
600
,
600
}});
task
.
AddH1
({
"TOF hit y-position (cm)"
,
{
tof_hits
,
"y"
},
{
gNbins
,
-
400
,
400
}});
task
.
AddH1
({
"TOF hit z-position (cm)"
,
{
tof_hits
,
"z"
},
{
gNbins
,
600
,
800
}});
task
.
AddH1
({
"TOF hit x-position (cm)"
,
{
tof_hits
,
"x"
},
{
QA
::
gNbins
,
-
600
,
600
}});
task
.
AddH1
({
"TOF hit y-position (cm)"
,
{
tof_hits
,
"y"
},
{
QA
::
gNbins
,
-
400
,
400
}});
task
.
AddH1
({
"TOF hit z-position (cm)"
,
{
tof_hits
,
"z"
},
{
QA
::
gNbins
,
600
,
800
}});
task
.
AddH2
({
"TOF hit x-position (cm)"
,
{
tof_hits
,
"x"
},
{
gNbins
,
-
600
,
600
}},
{
"TOF hit y-position (cm)"
,
{
tof_hits
,
"y"
},
{
gNbins
,
-
600
,
600
}});
task
.
AddH2
({
"TOF hit x-position (cm)"
,
{
tof_hits
,
"x"
},
{
QA
::
gNbins
,
-
600
,
600
}},
{
"TOF hit y-position (cm)"
,
{
tof_hits
,
"y"
},
{
QA
::
gNbins
,
-
600
,
600
}});
Variable
qp_sts
(
"qp_reco"
,
{{
rec_tracks
,
"q"
},
{
rec_tracks
,
"p"
}},
[](
std
::
vector
<
double
>&
qp
)
{
return
qp
.
at
(
0
)
*
qp
.
at
(
1
);
});
task
.
AddH2
({
"sign(q)*p, GeV/c"
,
qp_sts
,
{
gNbins
,
-
10
,
10
}},
{
"m^{2}, GeV^{2}/c^{2}"
,
{
tof_hits
,
"mass2"
},
{
gNbins
,
-
1
,
2
}});
task
.
AddH2
({
"sign(q)*p STS, GeV/c"
,
qp_sts
,
{
gNbins
,
-
10
,
10
}},
{
"sign(q)*p TOF, GeV/c"
,
{
tof_hits
,
"qp_tof"
},
{
gNbins
,
-
10
,
10
}});
task
.
AddH2
({
"sign(q)*p, GeV/c"
,
qp_sts
,
{
QA
::
gNbins
,
-
10
,
10
}},
{
"m^{2}, GeV^{2}/c^{2}"
,
{
tof_hits
,
"mass2"
},
{
QA
::
gNbins
,
-
1
,
2
}});
task
.
AddH2
({
"sign(q)*p STS, GeV/c"
,
qp_sts
,
{
QA
::
gNbins
,
-
10
,
10
}},
{
"sign(q)*p TOF, GeV/c"
,
{
tof_hits
,
"qp_tof"
},
{
QA
::
gNbins
,
-
10
,
10
}});
SimpleCut
sc_protons
=
EqualsCut
(
"SimParticles.pid"
,
2212
);
SimpleCut
sc_prim
=
EqualsCut
(
"SimParticles.mother_id"
,
-
1
);
...
...
@@ -175,36 +177,36 @@ void SimParticlesQA(QA::Task& task) { AddParticleQA(&task, sim_particles); }
void
SimEventHeaderQA
(
QA
::
Task
&
task
)
{
task
.
AddH1
({
"x_{vertex}^{MC} (cm)"
,
{
sim_event_header
,
"vtx_x"
},
{
gNbins
,
-
1
,
1
}});
task
.
AddH1
({
"y_{vertex}^{MC} (cm)"
,
{
sim_event_header
,
"vtx_y"
},
{
gNbins
,
-
1
,
1
}});
task
.
AddH1
({
"z_{vertex}^{MC} (cm)"
,
{
sim_event_header
,
"vtx_z"
},
{
gNbins
,
-
1
,
1
}});
task
.
AddH1
({
"b (fm)"
,
{
sim_event_header
,
"b"
},
{
gNbins
,
0
,
20
}});
task
.
AddH1
({
"#Psi_{RP}"
,
{
sim_event_header
,
"psi_RP"
},
{
gNbins
,
0
,
6
.
5
}});
task
.
AddH2
({
"x_{vertex}^{MC} (cm)"
,
{
sim_event_header
,
"vtx_x"
},
{
gNbins
,
-
1
,
1
}},
{
"y_{vertex}^{MC} (cm)"
,
{
sim_event_header
,
"vtx_y"
},
{
gNbins
,
-
1
,
1
}});
task
.
AddH1
({
"x_{vertex}^{MC} (cm)"
,
{
sim_event_header
,
"vtx_x"
},
{
QA
::
gNbins
,
-
1
,
1
}});
task
.
AddH1
({
"y_{vertex}^{MC} (cm)"
,
{
sim_event_header
,
"vtx_y"
},
{
QA
::
gNbins
,
-
1
,
1
}});
task
.
AddH1
({
"z_{vertex}^{MC} (cm)"
,
{
sim_event_header
,
"vtx_z"
},
{
QA
::
gNbins
,
-
1
,
1
}});
task
.
AddH1
({
"b (fm)"
,
{
sim_event_header
,
"b"
},
{
QA
::
gNbins
,
0
,
20
}});
task
.
AddH1
({
"#Psi_{RP}"
,
{
sim_event_header
,
"psi_RP"
},
{
QA
::
gNbins
,
0
,
6
.
5
}});
task
.
AddH2
({
"x_{vertex}^{MC} (cm)"
,
{
sim_event_header
,
"vtx_x"
},
{
QA
::
gNbins
,
-
1
,
1
}},
{
"y_{vertex}^{MC} (cm)"
,
{
sim_event_header
,
"vtx_y"
},
{
QA
::
gNbins
,
-
1
,
1
}});
}
void
RecEventHeaderQA
(
QA
::
Task
&
task
)
{
task
.
AddH1
({
"x_{vertex} (cm)"
,
{
rec_event_header
,
"vtx_x"
},
{
gNbins
,
-
1
,
1
}});
task
.
AddH1
({
"y_{vertex} (cm)"
,
{
rec_event_header
,
"vtx_y"
},
{
gNbins
,
-
1
,
1
}});
task
.
AddH1
({
"z_{vertex} (cm)"
,
{
rec_event_header
,
"vtx_z"
},
{
gNbins
,
-
1
,
1
}});
task
.
AddH1
({
"#chi^{2}_{vertex fit}"
,
{
rec_event_header
,
"vtx_chi2"
},
{
gNbins
,
0
,
5
}});
task
.
AddH1
({
"x_{vertex} (cm)"
,
{
rec_event_header
,
"vtx_x"
},
{
QA
::
gNbins
,
-
1
,
1
}});
task
.
AddH1
({
"y_{vertex} (cm)"
,
{
rec_event_header
,
"vtx_y"
},
{
QA
::
gNbins
,
-
1
,
1
}});
task
.
AddH1
({
"z_{vertex} (cm)"
,
{
rec_event_header
,
"vtx_z"
},
{
QA
::
gNbins
,
-
1
,
1
}});
task
.
AddH1
({
"#chi^{2}_{vertex fit}"
,
{
rec_event_header
,
"vtx_chi2"
},
{
QA
::
gNbins
,
0
,
5
}});
task
.
AddH1
({
"E_{PSD} (GeV)"
,
{
rec_event_header
,
"Epsd"
},
{
gNbins
,
0
,
60
}});
task
.
AddH1
({
"E_{PSD} (GeV)"
,
{
rec_event_header
,
"Epsd"
},
{
QA
::
gNbins
,
0
,
60
}});
task
.
AddH1
({
"M_{tracks}"
,
{
rec_event_header
,
"M"
},
{
800
,
0
,
800
}});
task
.
AddH1
({
"Event ID"
,
{
rec_event_header
,
"evt_id"
},
{
gNbins
,
0
,
2000
}});
task
.
AddH1
({
"Event ID"
,
{
rec_event_header
,
"evt_id"
},
{
QA
::
gNbins
,
0
,
2000
}});
task
.
AddH2
({
"x_{vertex} (cm)"
,
{
rec_event_header
,
"vtx_x"
},
{
gNbins
,
-
1
,
1
}},
{
"y_{vertex} (cm)"
,
{
rec_event_header
,
"vtx_y"
},
{
gNbins
,
-
1
,
1
}});
task
.
AddH2
({
"x_{vertex} (cm)"
,
{
rec_event_header
,
"vtx_x"
},
{
QA
::
gNbins
,
-
1
,
1
}},
{
"y_{vertex} (cm)"
,
{
rec_event_header
,
"vtx_y"
},
{
QA
::
gNbins
,
-
1
,
1
}});
task
.
AddH2
({
"x_{vertex} (cm)"
,
{
rec_event_header
,
"vtx_x"
},
{
gNbins
,
-
1
,
1
}},
{
"x_{vertex} (cm)"
,
{
sim_event_header
,
"vtx_x"
},
{
gNbins
,
-
1
,
1
}});
task
.
AddH2
({
"y_{vertex} (cm)"
,
{
rec_event_header
,
"vtx_y"
},
{
gNbins
,
-
1
,
1
}},
{
"y_{vertex} (cm)"
,
{
sim_event_header
,
"vtx_y"
},
{
gNbins
,
-
1
,
1
}});
task
.
AddH2
({
"z_{vertex} (cm)"
,
{
rec_event_header
,
"vtx_z"
},
{
gNbins
,
-
1
,
1
}},
{
"z_{vertex} (cm)"
,
{
sim_event_header
,
"vtx_z"
},
{
gNbins
,
-
1
,
1
}});
task
.
AddH2
({
"x_{vertex} (cm)"
,
{
rec_event_header
,
"vtx_x"
},
{
QA
::
gNbins
,
-
1
,
1
}},
{
"x_{vertex} (cm)"
,
{
sim_event_header
,
"vtx_x"
},
{
QA
::
gNbins
,
-
1
,
1
}});
task
.
AddH2
({
"y_{vertex} (cm)"
,
{
rec_event_header
,
"vtx_y"
},
{
QA
::
gNbins
,
-
1
,
1
}},
{
"y_{vertex} (cm)"
,
{
sim_event_header
,
"vtx_y"
},
{
QA
::
gNbins
,
-
1
,
1
}});
task
.
AddH2
({
"z_{vertex} (cm)"
,
{
rec_event_header
,
"vtx_z"
},
{
QA
::
gNbins
,
-
1
,
1
}},
{
"z_{vertex} (cm)"
,
{
sim_event_header
,
"vtx_z"
},
{
QA
::
gNbins
,
-
1
,
1
}});
}
void
EfficiencyMaps
(
QA
::
Task
&
task
)
...
...
@@ -227,19 +229,19 @@ void EfficiencyMaps(QA::Task& task)
Cuts
*
mc_pions_neg
=
new
Cuts
(
"McPionsNeg"
,
{
EqualsCut
({
sim_particles
+
".pid"
},
-
211
)});
Cuts
*
mc_pions_pos
=
new
Cuts
(
"McPionsPos"
,
{
EqualsCut
({
sim_particles
+
".pid"
},
-
211
)});
task
.
AddH2
({
"#it{y}_{Lab}"
,
{
sim_particles
,
"rapidity"
},
{
gNbins
,
-
1
,
5
}},
{
"p_{T}, GeV/c"
,
{
sim_particles
,
"pT"
},
{
gNbins
,
0
,
2
}},
mc_protons
);
task
.
AddH2
({
"#it{y}_{Lab}"
,
proton_y
,
{
gNbins
,
-
1
,
5
}},
{
"p_{T}, GeV/c"
,
{
rec_tracks
,
"pT"
},
{
gNbins
,
0
,
2
}},
task
.
AddH2
({
"#it{y}_{Lab}"
,
{
sim_particles
,
"rapidity"
},
{
QA
::
gNbins
,
-
1
,
5
}},
{
"p_{T}, GeV/c"
,
{
sim_particles
,
"pT"
},
{
QA
::
gNbins
,
0
,
2
}},
mc_protons
);
task
.
AddH2
({
"#it{y}_{Lab}"
,
proton_y
,
{
QA
::
gNbins
,
-
1
,
5
}},
{
"p_{T}, GeV/c"
,
{
rec_tracks
,
"pT"
},
{
QA
::
gNbins
,
0
,
2
}},
mc_protons
);
task
.
AddH2
({
"#it{y}_{Lab}"
,
{
sim_particles
,
"rapidity"
},
{
gNbins
,
-
1
,
5
}},
{
"p_{T}, GeV/c"
,
{
sim_particles
,
"pT"
},
{
gNbins
,
0
,
2
}},
mc_pions_neg
);
task
.
AddH2
({
"#it{y}_{Lab}"
,
pion_y
,
{
gNbins
,
-
1
,
5
}},
{
"p_{T}, GeV/c"
,
{
rec_tracks
,
"pT"
},
{
gNbins
,
0
,
2
}},
task
.
AddH2
({
"#it{y}_{Lab}"
,
{
sim_particles
,
"rapidity"
},
{
QA
::
gNbins
,
-
1
,
5
}},
{
"p_{T}, GeV/c"
,
{
sim_particles
,
"pT"
},
{
QA
::
gNbins
,
0
,
2
}},
mc_pions_neg
);
task
.
AddH2
({
"#it{y}_{Lab}"
,
pion_y
,
{
QA
::
gNbins
,
-
1
,
5
}},
{
"p_{T}, GeV/c"
,
{
rec_tracks
,
"pT"
},
{
QA
::
gNbins
,
0
,
2
}},
mc_pions_neg
);
task
.
AddH2
({
"#it{y}_{Lab}"
,
{
sim_particles
,
"rapidity"
},
{
gNbins
,
-
1
,
5
}},
{
"p_{T}, GeV/c"
,
{
sim_particles
,
"pT"
},
{
gNbins
,
0
,
2
}},
mc_pions_pos
);
task
.
AddH2
({
"#it{y}_{Lab}"
,
pion_y
,
{
gNbins
,
-
1
,
5
}},
{
"p_{T}, GeV/c"
,
{
rec_tracks
,
"pT"
},
{
gNbins
,
0
,
2
}},
task
.
AddH2
({
"#it{y}_{Lab}"
,
{
sim_particles
,
"rapidity"
},
{
QA
::
gNbins
,
-
1
,
5
}},
{
"p_{T}, GeV/c"
,
{
sim_particles
,
"pT"
},
{
QA
::
gNbins
,
0
,
2
}},
mc_pions_pos
);
task
.
AddH2
({
"#it{y}_{Lab}"
,
pion_y
,
{
QA
::
gNbins
,
-
1
,
5
}},
{
"p_{T}, GeV/c"
,
{
rec_tracks
,
"pT"
},
{
QA
::
gNbins
,
0
,
2
}},
mc_pions_pos
);
}
...
...
@@ -248,22 +250,22 @@ void KFPFTracksQA(QA::Task& task)
const
std
::
vector
<
std
::
string
>
field_par_names_
{
"cx0"
,
"cx1"
,
"cx2"
,
"cy1"
,
"cy2"
,
"cz0"
,
"cz1"
,
"cz2"
};
const
std
::
vector
<
std
::
string
>
cov_names_
{
"cov1"
,
"cov2"
,
"cov3"
,
"cov4"
,
"cov5"
,
"cov6"
,
"cov7"
,
"cov8"
,
"cov9"
,
"cov10"
,
"cov11"
,
"cov12"
,
"cov13"
,
"cov14"
,
"cov15"
};
// KFPF tracks
task
.
AddH1
({
"x, cm"
,
{
rec_tracks
,
"x"
},
{
gNbins
,
-
10
,
10
}});
task
.
AddH1
({
"y, cm"
,
{
rec_tracks
,
"y"
},
{
gNbins
,
-
10
,
10
}});
task
.
AddH1
({
"z, cm"
,
{
rec_tracks
,
"z"
},
{
gNbins
,
0
,
40
}});
task
.
AddH1
({
"t_{x}"
,
{
rec_tracks
,
"tx"
},
{
gNbins
,
-
2
,
2
}});
task
.
AddH1
({
"t_{y}"
,
{
rec_tracks
,
"ty"
},
{
gNbins
,
-
2
,
2
}});
task
.
AddH1
({
"q*p, GeV/c"
,
{
rec_tracks
,
"qp"
},
{
gNbins
,
-
10
,
10
}});
task
.
AddH1
({
"x, cm"
,
{
rec_tracks
,
"x"
},
{
QA
::
gNbins
,
-
10
,
10
}});
task
.
AddH1
({
"y, cm"
,
{
rec_tracks
,
"y"
},
{
QA
::
gNbins
,
-
10
,
10
}});
task
.
AddH1
({
"z, cm"
,
{
rec_tracks
,
"z"
},
{
QA
::
gNbins
,
0
,
40
}});
task
.
AddH1
({
"t_{x}"
,
{
rec_tracks
,
"tx"
},
{
QA
::
gNbins
,
-
2
,
2
}});
task
.
AddH1
({
"t_{y}"
,
{
rec_tracks
,
"ty"
},
{
QA
::
gNbins
,
-
2
,
2
}});
task
.
AddH1
({
"q*p, GeV/c"
,
{
rec_tracks
,
"qp"
},
{
QA
::
gNbins
,
-
10
,
10
}});
for
(
const
auto
&
field_par_name
:
field_par_names_
)
task
.
AddH1
({
field_par_name
,
{
rec_tracks
,
field_par_name
},
{
gNbins
,
-
1
,
1
}});
task
.
AddH1
({
field_par_name
,
{
rec_tracks
,
field_par_name
},
{
QA
::
gNbins
,
-
1
,
1
}});
for
(
const
auto
&
cov_name
:
cov_names_
)
task
.
AddH1
({
cov_name
,
{
rec_tracks
,
cov_name
},
{
1000
,
-
.
1
,
.
1
}});
task
.
AddH1
({
"cy0"
,
{
rec_tracks
,
"cy0"
},
{
gNbins
,
-
12
,
-
8
}});
task
.
AddH1
({
"z0"
,
{
rec_tracks
,
"z0"
},
{
gNbins
,
0
,
40
}});
task
.
AddH1
({
"cy0"
,
{
rec_tracks
,
"cy0"
},
{
QA
::
gNbins
,
-
12
,
-
8
}});
task
.
AddH1
({
"z0"
,
{
rec_tracks
,
"z0"
},
{
QA
::
gNbins
,
0
,
40
}});
}
int
main
(
int
argc
,
char
**
argv
)
...
...
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