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Pavel Sharov
AculUtils
Commits
ff00f341
Commit
ff00f341
authored
Oct 05, 2016
by
Vratislav Chudoba
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Function AculCalibration::CalibrateRawSpectra() added.
parent
ee5da758
Changes
4
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4 changed files
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312 additions
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0 deletions
+312
-0
AnalysisxTree.C
macros/myMacros/AnalysisxTree.C
+43
-0
AnalysisxTree.h
macros/myMacros/AnalysisxTree.h
+240
-0
makeClassFromTree.cxx
macros/myMacros/makeClassFromTree.cxx
+14
-0
myMacro.cxx
macros/myMacros/myMacro.cxx
+15
-0
No files found.
macros/myMacros/AnalysisxTree.C
0 → 100644
View file @
ff00f341
#define AnalysisxTree_cxx
#include "AnalysisxTree.h"
#include <TH2.h>
#include <TStyle.h>
#include <TCanvas.h>
void
AnalysisxTree
::
Loop
()
{
// In a ROOT session, you can do:
// Root > .L AnalysisxTree.C
// Root > AnalysisxTree t
// Root > t.GetEntry(12); // Fill t data members with entry number 12
// Root > t.Show(); // Show values of entry 12
// Root > t.Show(16); // Read and show values of entry 16
// Root > t.Loop(); // Loop on all entries
//
// This is the loop skeleton where:
// jentry is the global entry number in the chain
// ientry is the entry number in the current Tree
// Note that the argument to GetEntry must be:
// jentry for TChain::GetEntry
// ientry for TTree::GetEntry and TBranch::GetEntry
//
// To read only selected branches, Insert statements like:
// METHOD1:
// fChain->SetBranchStatus("*",0); // disable all branches
// fChain->SetBranchStatus("branchname",1); // activate branchname
// METHOD2: replace line
// fChain->GetEntry(jentry); //read all branches
//by b_branchname->GetEntry(ientry); //read only this branch
if
(
fChain
==
0
)
return
;
Long64_t
nentries
=
fChain
->
GetEntriesFast
();
Long64_t
nbytes
=
0
,
nb
=
0
;
for
(
Long64_t
jentry
=
0
;
jentry
<
nentries
;
jentry
++
)
{
Long64_t
ientry
=
LoadTree
(
jentry
);
if
(
ientry
<
0
)
break
;
nb
=
fChain
->
GetEntry
(
jentry
);
nbytes
+=
nb
;
// if (Cut(ientry) < 0) continue;
}
}
macros/myMacros/AnalysisxTree.h
0 → 100644
View file @
ff00f341
//////////////////////////////////////////////////////////
// This class has been automatically generated on
// Mon Oct 3 10:53:30 2016 by ROOT version 5.34/30
// from TTree AnalysisxTree/Go4FileStore
// found on file: clb01_0001.root
//////////////////////////////////////////////////////////
#ifndef AnalysisxTree_h
#define AnalysisxTree_h
#include <TROOT.h>
#include <TChain.h>
#include <TFile.h>
// Header file for the classes stored in the TTree if any.
// Fixed size dimensions of array or collections stored in the TTree if any.
const
Int_t
kMaxLiEvent
=
1
;
class
AnalysisxTree
{
public
:
TTree
*
fChain
;
//!pointer to the analyzed TTree or TChain
Int_t
fCurrent
;
//!current Tree number in a TChain
// Declaration of leaf types
//TLiEvent *LiEvent_;
//TLiEvent *LiEvent_TGo4EventElement;
UShort_t
LiEvent_SQ11
[
16
];
UShort_t
LiEvent_SQ12
[
32
];
UShort_t
LiEvent_SQ13
[
16
];
UShort_t
LiEvent_SQ21
[
16
];
UShort_t
LiEvent_SQ22
[
32
];
UShort_t
LiEvent_SQ23
[
16
];
UShort_t
LiEvent_ANR
[
16
];
UShort_t
LiEvent_ANS
[
16
];
UShort_t
LiEvent_ANC
[
32
];
UShort_t
LiEvent_TSQ11
[
16
];
UShort_t
LiEvent_TSQ12
[
32
];
UShort_t
LiEvent_TSQ21
[
16
];
UShort_t
LiEvent_TSQ22
[
32
];
UShort_t
LiEvent_TANR
[
16
];
UShort_t
LiEvent_TANS
[
16
];
UShort_t
LiEvent_QDC
[
16
];
UShort_t
LiEvent_TDC
[
16
];
UShort_t
LiEvent_SCR
[
16
];
UShort_t
LiEvent_nx1
;
UShort_t
LiEvent_ny1
;
UShort_t
LiEvent_nx2
;
UShort_t
LiEvent_ny2
;
UShort_t
LiEvent_x1
[
32
];
UShort_t
LiEvent_y1
[
32
];
UShort_t
LiEvent_x2
[
32
];
UShort_t
LiEvent_y2
[
32
];
UShort_t
LiEvent_adc1
[
16
];
UShort_t
LiEvent_adc2
[
16
];
UShort_t
LiEvent_adc3
[
16
];
UShort_t
LiEvent_adc4
[
16
];
UShort_t
LiEvent_tdc1
[
32
];
UShort_t
LiEvent_tdc2
[
32
];
UInt_t
LiEvent_time
;
Int_t
LiEvent_nevent
;
Int_t
LiEvent_trigger
;
Int_t
LiEvent_subevents
;
Int_t
LiEvent_evsize
;
// List of branches
TBranch
*
b_LiEvent_SQ11
;
//!
TBranch
*
b_LiEvent_SQ12
;
//!
TBranch
*
b_LiEvent_SQ13
;
//!
TBranch
*
b_LiEvent_SQ21
;
//!
TBranch
*
b_LiEvent_SQ22
;
//!
TBranch
*
b_LiEvent_SQ23
;
//!
TBranch
*
b_LiEvent_ANR
;
//!
TBranch
*
b_LiEvent_ANS
;
//!
TBranch
*
b_LiEvent_ANC
;
//!
TBranch
*
b_LiEvent_TSQ11
;
//!
TBranch
*
b_LiEvent_TSQ12
;
//!
TBranch
*
b_LiEvent_TSQ21
;
//!
TBranch
*
b_LiEvent_TSQ22
;
//!
TBranch
*
b_LiEvent_TANR
;
//!
TBranch
*
b_LiEvent_TANS
;
//!
TBranch
*
b_LiEvent_QDC
;
//!
TBranch
*
b_LiEvent_TDC
;
//!
TBranch
*
b_LiEvent_SCR
;
//!
TBranch
*
b_LiEvent_nx1
;
//!
TBranch
*
b_LiEvent_ny1
;
//!
TBranch
*
b_LiEvent_nx2
;
//!
TBranch
*
b_LiEvent_ny2
;
//!
TBranch
*
b_LiEvent_x1
;
//!
TBranch
*
b_LiEvent_y1
;
//!
TBranch
*
b_LiEvent_x2
;
//!
TBranch
*
b_LiEvent_y2
;
//!
TBranch
*
b_LiEvent_adc1
;
//!
TBranch
*
b_LiEvent_adc2
;
//!
TBranch
*
b_LiEvent_adc3
;
//!
TBranch
*
b_LiEvent_adc4
;
//!
TBranch
*
b_LiEvent_tdc1
;
//!
TBranch
*
b_LiEvent_tdc2
;
//!
TBranch
*
b_LiEvent_time
;
//!
TBranch
*
b_LiEvent_nevent
;
//!
TBranch
*
b_LiEvent_trigger
;
//!
TBranch
*
b_LiEvent_subevents
;
//!
TBranch
*
b_LiEvent_evsize
;
//!
AnalysisxTree
(
TTree
*
tree
=
0
);
virtual
~
AnalysisxTree
();
virtual
Int_t
Cut
(
Long64_t
entry
);
virtual
Int_t
GetEntry
(
Long64_t
entry
);
virtual
Long64_t
LoadTree
(
Long64_t
entry
);
virtual
void
Init
(
TTree
*
tree
);
virtual
void
Loop
();
virtual
Bool_t
Notify
();
virtual
void
Show
(
Long64_t
entry
=
-
1
);
};
#endif
#ifdef AnalysisxTree_cxx
AnalysisxTree
::
AnalysisxTree
(
TTree
*
tree
)
:
fChain
(
0
)
{
// if parameter tree is not specified (or zero), connect the file
// used to generate this class and read the Tree.
if
(
tree
==
0
)
{
TFile
*
f
=
(
TFile
*
)
gROOT
->
GetListOfFiles
()
->
FindObject
(
"clb01_0001.root"
);
if
(
!
f
||
!
f
->
IsOpen
())
{
f
=
new
TFile
(
"clb01_0001.root"
);
}
f
->
GetObject
(
"AnalysisxTree"
,
tree
);
}
Init
(
tree
);
}
AnalysisxTree
::~
AnalysisxTree
()
{
if
(
!
fChain
)
return
;
delete
fChain
->
GetCurrentFile
();
}
Int_t
AnalysisxTree
::
GetEntry
(
Long64_t
entry
)
{
// Read contents of entry.
if
(
!
fChain
)
return
0
;
return
fChain
->
GetEntry
(
entry
);
}
Long64_t
AnalysisxTree
::
LoadTree
(
Long64_t
entry
)
{
// Set the environment to read one entry
if
(
!
fChain
)
return
-
5
;
Long64_t
centry
=
fChain
->
LoadTree
(
entry
);
if
(
centry
<
0
)
return
centry
;
if
(
fChain
->
GetTreeNumber
()
!=
fCurrent
)
{
fCurrent
=
fChain
->
GetTreeNumber
();
Notify
();
}
return
centry
;
}
void
AnalysisxTree
::
Init
(
TTree
*
tree
)
{
// The Init() function is called when the selector needs to initialize
// a new tree or chain. Typically here the branch addresses and branch
// pointers of the tree will be set.
// It is normally not necessary to make changes to the generated
// code, but the routine can be extended by the user if needed.
// Init() will be called many times when running on PROOF
// (once per file to be processed).
// Set branch addresses and branch pointers
if
(
!
tree
)
return
;
fChain
=
tree
;
fCurrent
=
-
1
;
fChain
->
SetMakeClass
(
1
);
fChain
->
SetBranchAddress
(
"LiEvent.SQ11[16]"
,
LiEvent_SQ11
,
&
b_LiEvent_SQ11
);
fChain
->
SetBranchAddress
(
"LiEvent.SQ12[32]"
,
LiEvent_SQ12
,
&
b_LiEvent_SQ12
);
fChain
->
SetBranchAddress
(
"LiEvent.SQ13[16]"
,
LiEvent_SQ13
,
&
b_LiEvent_SQ13
);
fChain
->
SetBranchAddress
(
"LiEvent.SQ21[16]"
,
LiEvent_SQ21
,
&
b_LiEvent_SQ21
);
fChain
->
SetBranchAddress
(
"LiEvent.SQ22[32]"
,
LiEvent_SQ22
,
&
b_LiEvent_SQ22
);
fChain
->
SetBranchAddress
(
"LiEvent.SQ23[16]"
,
LiEvent_SQ23
,
&
b_LiEvent_SQ23
);
fChain
->
SetBranchAddress
(
"LiEvent.ANR[16]"
,
LiEvent_ANR
,
&
b_LiEvent_ANR
);
fChain
->
SetBranchAddress
(
"LiEvent.ANS[16]"
,
LiEvent_ANS
,
&
b_LiEvent_ANS
);
fChain
->
SetBranchAddress
(
"LiEvent.ANC[32]"
,
LiEvent_ANC
,
&
b_LiEvent_ANC
);
fChain
->
SetBranchAddress
(
"LiEvent.TSQ11[16]"
,
LiEvent_TSQ11
,
&
b_LiEvent_TSQ11
);
fChain
->
SetBranchAddress
(
"LiEvent.TSQ12[32]"
,
LiEvent_TSQ12
,
&
b_LiEvent_TSQ12
);
fChain
->
SetBranchAddress
(
"LiEvent.TSQ21[16]"
,
LiEvent_TSQ21
,
&
b_LiEvent_TSQ21
);
fChain
->
SetBranchAddress
(
"LiEvent.TSQ22[32]"
,
LiEvent_TSQ22
,
&
b_LiEvent_TSQ22
);
fChain
->
SetBranchAddress
(
"LiEvent.TANR[16]"
,
LiEvent_TANR
,
&
b_LiEvent_TANR
);
fChain
->
SetBranchAddress
(
"LiEvent.TANS[16]"
,
LiEvent_TANS
,
&
b_LiEvent_TANS
);
fChain
->
SetBranchAddress
(
"LiEvent.QDC[16]"
,
LiEvent_QDC
,
&
b_LiEvent_QDC
);
fChain
->
SetBranchAddress
(
"LiEvent.TDC[16]"
,
LiEvent_TDC
,
&
b_LiEvent_TDC
);
fChain
->
SetBranchAddress
(
"LiEvent.SCR[16]"
,
LiEvent_SCR
,
&
b_LiEvent_SCR
);
fChain
->
SetBranchAddress
(
"LiEvent.nx1"
,
&
LiEvent_nx1
,
&
b_LiEvent_nx1
);
fChain
->
SetBranchAddress
(
"LiEvent.ny1"
,
&
LiEvent_ny1
,
&
b_LiEvent_ny1
);
fChain
->
SetBranchAddress
(
"LiEvent.nx2"
,
&
LiEvent_nx2
,
&
b_LiEvent_nx2
);
fChain
->
SetBranchAddress
(
"LiEvent.ny2"
,
&
LiEvent_ny2
,
&
b_LiEvent_ny2
);
fChain
->
SetBranchAddress
(
"LiEvent.x1[32]"
,
LiEvent_x1
,
&
b_LiEvent_x1
);
fChain
->
SetBranchAddress
(
"LiEvent.y1[32]"
,
LiEvent_y1
,
&
b_LiEvent_y1
);
fChain
->
SetBranchAddress
(
"LiEvent.x2[32]"
,
LiEvent_x2
,
&
b_LiEvent_x2
);
fChain
->
SetBranchAddress
(
"LiEvent.y2[32]"
,
LiEvent_y2
,
&
b_LiEvent_y2
);
fChain
->
SetBranchAddress
(
"LiEvent.adc1[16]"
,
LiEvent_adc1
,
&
b_LiEvent_adc1
);
fChain
->
SetBranchAddress
(
"LiEvent.adc2[16]"
,
LiEvent_adc2
,
&
b_LiEvent_adc2
);
fChain
->
SetBranchAddress
(
"LiEvent.adc3[16]"
,
LiEvent_adc3
,
&
b_LiEvent_adc3
);
fChain
->
SetBranchAddress
(
"LiEvent.adc4[16]"
,
LiEvent_adc4
,
&
b_LiEvent_adc4
);
fChain
->
SetBranchAddress
(
"LiEvent.tdc1[32]"
,
LiEvent_tdc1
,
&
b_LiEvent_tdc1
);
fChain
->
SetBranchAddress
(
"LiEvent.tdc2[32]"
,
LiEvent_tdc2
,
&
b_LiEvent_tdc2
);
fChain
->
SetBranchAddress
(
"LiEvent.time"
,
&
LiEvent_time
,
&
b_LiEvent_time
);
fChain
->
SetBranchAddress
(
"LiEvent.nevent"
,
&
LiEvent_nevent
,
&
b_LiEvent_nevent
);
fChain
->
SetBranchAddress
(
"LiEvent.trigger"
,
&
LiEvent_trigger
,
&
b_LiEvent_trigger
);
fChain
->
SetBranchAddress
(
"LiEvent.subevents"
,
&
LiEvent_subevents
,
&
b_LiEvent_subevents
);
fChain
->
SetBranchAddress
(
"LiEvent.evsize"
,
&
LiEvent_evsize
,
&
b_LiEvent_evsize
);
Notify
();
}
Bool_t
AnalysisxTree
::
Notify
()
{
// The Notify() function is called when a new file is opened. This
// can be either for a new TTree in a TChain or when when a new TTree
// is started when using PROOF. It is normally not necessary to make changes
// to the generated code, but the routine can be extended by the
// user if needed. The return value is currently not used.
return
kTRUE
;
}
void
AnalysisxTree
::
Show
(
Long64_t
entry
)
{
// Print contents of entry.
// If entry is not specified, print current entry
if
(
!
fChain
)
return
;
fChain
->
Show
(
entry
);
}
Int_t
AnalysisxTree
::
Cut
(
Long64_t
entry
)
{
// This function may be called from Loop.
// returns 1 if entry is accepted.
// returns -1 otherwise.
return
1
;
}
#endif // #ifdef AnalysisxTree_cxx
macros/myMacros/makeClassFromTree.cxx
0 → 100644
View file @
ff00f341
#include "TROOT.h"
void
makeClassFromTree
()
{
gSystem
->
Load
(
"../libAculData.so"
);
TFile
fr
(
"clb01_0001.root"
);
TTree
*
tr
=
(
TTree
*
)
fr
.
Get
(
"AnalysisxTree"
);
tr
->
MakeClass
();
// tr->MakeCode();
}
macros/myMacros/myMacro.cxx
0 → 100644
View file @
ff00f341
{
gSystem
->
Load
(
"../../libAculData.so"
);
cout
<<
"kasjbdjka"
<<
endl
;
AculCalibration
cal
;
UShort_t
SQ22
=
14
;
cal
.
SomeFunction
(
SQ22
,
3
);
}
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