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CalibData::MdcCalibData Class Reference
#include <MdcCalibData.h>
Inheritance diagram for CalibData::MdcCalibData:
Public Member Functions | |
| MdcCalibData () | |
| ~MdcCalibData () | |
| virtual const CLID & | clID () const |
| virtual StatusCode | update (CalibBase1 &other, MsgStream *log) |
| void | setXtpar (int xtkey, double val) |
| void | setNewXtpar (TObjArray *newXtTrees) |
| void | setR2tpar (TObjArray *r2tTrees) |
| void | setT0 (double val) |
| void | setDelT0 (double val) |
| void | setQtpar0 (double val) |
| void | setQtpar1 (double val) |
| void | setSdpar (int sdkey, double val) |
| double | getXtpar (int layid, int entr, int lr, int order) |
| TTree * | getNewXtpar (int layid, int entr, int lr) |
| TTree * | getR2tpar (int layid) |
| double | getT0 (int wireid) |
| double | getDelT0 (int wireid) |
| double | getQtpar0 (int layid) |
| double | getQtpar1 (int layid) |
| double | getSdpar (int layid, int entr, int lr, int bin) |
| void | clear () |
| int | getXtKey (int layid, int entr, int lr, int order) |
| void | setXtBegin () |
| int | getNextXtpar (int &key, double &xtpar) |
| int | getSdKey (int layid, int entr, int lr, int bin) |
| void | setSdBegin () |
| int | getNextSdpar (int &key, double &sdpar) |
| int | getqtparNo () |
| int | getxtNo () |
| int | gett0No () |
| MdcCalibData () | |
| ~MdcCalibData () | |
| virtual const CLID & | clID () const |
| virtual StatusCode | update (CalibBase1 &other, MsgStream *log) |
| void | setXtpar (int xtkey, double val) |
| void | setNewXtpar (TObjArray *newXtTrees) |
| void | setR2tpar (TObjArray *r2tTrees) |
| void | setT0 (double val) |
| void | setDelT0 (double val) |
| void | setQtpar0 (double val) |
| void | setQtpar1 (double val) |
| void | setSdpar (int sdkey, double val) |
| double | getXtpar (int layid, int entr, int lr, int order) |
| TTree * | getNewXtpar (int layid, int entr, int lr) |
| TTree * | getR2tpar (int layid) |
| double | getT0 (int wireid) |
| double | getDelT0 (int wireid) |
| double | getQtpar0 (int layid) |
| double | getQtpar1 (int layid) |
| double | getSdpar (int layid, int entr, int lr, int bin) |
| void | clear () |
| int | getXtKey (int layid, int entr, int lr, int order) |
| void | setXtBegin () |
| int | getNextXtpar (int &key, double &xtpar) |
| int | getSdKey (int layid, int entr, int lr, int bin) |
| void | setSdBegin () |
| int | getNextSdpar (int &key, double &sdpar) |
| int | getqtparNo () |
| int | getxtNo () |
| int | gett0No () |
| Public Member Functions inherited from CalibData::CalibBase1 | |
| CalibBase1 () | |
| CalibBase1 (int serNo, int runfrm, int runto) | |
| CalibBase1 (int runfrm, int runto) | |
| CalibBase1 (const CalibBase1 &obj) | |
| virtual StatusCode | update (CalibBase1 &obj, MsgStream *) |
| virtual int | getSerNo () const |
| Following is intended for deep copy. | |
| virtual int | getrunfrm () const |
| virtual int | getrunto () const |
| void | setSerNo (int ser) |
| void | setrunfrm (int runfrm) |
| void | setrunto (int runto) |
| CalibBase1 () | |
| CalibBase1 (int serNo, int runfrm, int runto) | |
| CalibBase1 (int runfrm, int runto) | |
| CalibBase1 (const CalibBase1 &obj) | |
| virtual StatusCode | update (CalibBase1 &obj, MsgStream *) |
| virtual int | getSerNo () const |
| Following is intended for deep copy. | |
| virtual int | getrunfrm () const |
| virtual int | getrunto () const |
| void | setSerNo (int ser) |
| void | setrunfrm (int runfrm) |
| void | setrunto (int runto) |
Static Public Member Functions | |
| static const CLID & | classID () |
| static const CLID & | classID () |
Additional Inherited Members | |
| Protected Attributes inherited from CalibData::CalibBase1 | |
| int | m_serNo |
| int | m_runfrm |
| int | m_runto |
Detailed Description
Definition at line 14 of file Calibration/CalibData/CalibData-00-01-18/CalibData/Mdc/MdcCalibData.h.
Constructor & Destructor Documentation
◆ MdcCalibData() [1/2]
| CalibData::MdcCalibData::MdcCalibData | ( | ) |
Definition at line 5 of file MdcCalibData.cxx.
5 {
6 newXtTreesBuf = NULL;
7 r2tTreesBuf = NULL;
8 newXtTreesArray = NULL;
9 r2tTreesArray = NULL;
10 for(int layid=0; layid<43; layid++){
11 m_r2t[layid] = NULL;
12 for(int entr=0; entr<18; entr++){
13 for(int lr=0; lr<2; lr++){
14 m_newxt[layid][entr][lr] = NULL;
15 }//end lr
16 }//end entr
17 }//end for layid
18 }
◆ ~MdcCalibData() [1/2]
| CalibData::MdcCalibData::~MdcCalibData | ( | ) |
Definition at line 20 of file MdcCalibData.cxx.
20 {
21 for(int layid=0; layid<43; layid++){
22 delete m_r2t[layid];
23 for(int entr=0; entr<18; entr++){
24 for(int lr=0; lr<2; lr++){
25 if(m_newxt[layid][entr][lr]!=NULL) delete m_newxt[layid][entr][lr];
26 }
27 }
28 }
29 if(newXtTreesBuf!=NULL) newXtTreesBuf->Clear();
30 if(r2tTreesBuf!=NULL) r2tTreesBuf->Clear();
31 if(newXtTreesArray!=NULL) delete newXtTreesArray;
32 if(r2tTreesArray!=NULL) delete r2tTreesArray;
33 }
◆ MdcCalibData() [2/2]
| CalibData::MdcCalibData::MdcCalibData | ( | ) |
◆ ~MdcCalibData() [2/2]
| CalibData::MdcCalibData::~MdcCalibData | ( | ) |
Member Function Documentation
◆ classID() [1/2]
|
inlinestatic |
Definition at line 22 of file Calibration/CalibData/CalibData-00-01-18/CalibData/Mdc/MdcCalibData.h.
const CLID CLID_Calib_MdcCal
Referenced by clID().
◆ classID() [2/2]
|
inlinestatic |
Definition at line 22 of file InstallArea/include/CalibData/CalibData/Mdc/MdcCalibData.h.
◆ clear() [1/2]
| void CalibData::MdcCalibData::clear | ( | ) |
Definition at line 197 of file MdcCalibData.cxx.
197 {
198 m_xtmap.clear();
199 m_t0.clear();
200 m_delt0.clear();
201 m_qtpar0.clear();
202 m_qtpar1.clear();
203 m_sdmap.clear();
204}
Referenced by update().
◆ clear() [2/2]
| void CalibData::MdcCalibData::clear | ( | ) |
◆ clID() [1/2]
|
inlinevirtual |
Definition at line 20 of file Calibration/CalibData/CalibData-00-01-18/CalibData/Mdc/MdcCalibData.h.
static const CLID & classID()
◆ clID() [2/2]
|
inlinevirtual |
Definition at line 20 of file InstallArea/include/CalibData/CalibData/Mdc/MdcCalibData.h.
◆ getDelT0() [1/2]
|
inline |
Definition at line 40 of file Calibration/CalibData/CalibData-00-01-18/CalibData/Mdc/MdcCalibData.h.
40{ return m_delt0[wireid]; }
◆ getDelT0() [2/2]
|
inline |
Definition at line 40 of file InstallArea/include/CalibData/CalibData/Mdc/MdcCalibData.h.
40{ return m_delt0[wireid]; }
◆ getNewXtpar() [1/2]
| TTree * CalibData::MdcCalibData::getNewXtpar | ( | int | layid, |
| int | entr, | ||
| int | lr | ||
| ) |
Definition at line 126 of file MdcCalibData.cxx.
126 {
127 return m_newxt[layid][entr][lr];
128}
◆ getNewXtpar() [2/2]
| TTree * CalibData::MdcCalibData::getNewXtpar | ( | int | layid, |
| int | entr, | ||
| int | lr | ||
| ) |
◆ getNextSdpar() [1/2]
| int CalibData::MdcCalibData::getNextSdpar | ( | int & | key, |
| double & | sdpar | ||
| ) |
Definition at line 188 of file MdcCalibData.cxx.
188 {
189 if( m_sditer != m_sdmap.end() ){
190 key = (*m_sditer).first;
191 sdpar = (*m_sditer).second;
192 m_sditer++;
193 return 1;
194 }
195 else return 0;
196}
*************DOUBLE PRECISION m_pi *DOUBLE PRECISION m_HvecTau2 DOUBLE PRECISION m_HvClone2 DOUBLE PRECISION m_gamma1 DOUBLE PRECISION m_gamma2 DOUBLE PRECISION m_thet1 DOUBLE PRECISION m_thet2 INTEGER m_IFPHOT *COMMON c_Taupair $ !Spin Polarimeter vector first Tau $ !Spin Polarimeter vector second Tau $ !Clone Spin Polarimeter vector first Tau $ !Clone Spin Polarimeter vector second Tau $ !Random Euler angle for cloning st tau $ !Random Euler angle for cloning st tau $ !Random Euler angle for cloning st tau $ !Random Euler angle for cloning nd tau $ !Random Euler angle for cloning nd tau $ !Random Euler angle for cloning nd tau $ !phi of HvecTau1 $ !theta of HvecTau1 $ !phi of HvecTau2 $ !theta of HvecTau2 $ !super key
Definition: Taupair.h:42
◆ getNextSdpar() [2/2]
| int CalibData::MdcCalibData::getNextSdpar | ( | int & | key, |
| double & | sdpar | ||
| ) |
◆ getNextXtpar() [1/2]
| int CalibData::MdcCalibData::getNextXtpar | ( | int & | key, |
| double & | xtpar | ||
| ) |
Definition at line 174 of file MdcCalibData.cxx.
174 {
175 if( m_xtiter != m_xtmap.end() ){
176 key = (*m_xtiter).first;
177 xtpar = (*m_xtiter).second;
178 m_xtiter++;
179 return 1;
180 }
181 else return 0;
182}
◆ getNextXtpar() [2/2]
| int CalibData::MdcCalibData::getNextXtpar | ( | int & | key, |
| double & | xtpar | ||
| ) |
◆ getQtpar0() [1/2]
|
inline |
Definition at line 41 of file Calibration/CalibData/CalibData-00-01-18/CalibData/Mdc/MdcCalibData.h.
41{ return m_qtpar0[layid]; }
◆ getQtpar0() [2/2]
|
inline |
Definition at line 41 of file InstallArea/include/CalibData/CalibData/Mdc/MdcCalibData.h.
41{ return m_qtpar0[layid]; }
◆ getQtpar1() [1/2]
|
inline |
Definition at line 42 of file Calibration/CalibData/CalibData-00-01-18/CalibData/Mdc/MdcCalibData.h.
42{ return m_qtpar1[layid]; }
◆ getQtpar1() [2/2]
|
inline |
Definition at line 42 of file InstallArea/include/CalibData/CalibData/Mdc/MdcCalibData.h.
42{ return m_qtpar1[layid]; }
◆ getqtparNo() [1/2]
|
inline |
Definition at line 57 of file Calibration/CalibData/CalibData-00-01-18/CalibData/Mdc/MdcCalibData.h.
57{return m_qtpar0.size();}
◆ getqtparNo() [2/2]
|
inline |
Definition at line 57 of file InstallArea/include/CalibData/CalibData/Mdc/MdcCalibData.h.
57{return m_qtpar0.size();}
◆ getR2tpar() [1/2]
| TTree * CalibData::MdcCalibData::getR2tpar | ( | int | layid | ) |
Definition at line 131 of file MdcCalibData.cxx.
131 {
132 return m_r2t[layid];
133}
◆ getR2tpar() [2/2]
| TTree * CalibData::MdcCalibData::getR2tpar | ( | int | layid | ) |
◆ getSdKey() [1/2]
| int CalibData::MdcCalibData::getSdKey | ( | int | layid, |
| int | entr, | ||
| int | lr, | ||
| int | bin | ||
| ) |
Definition at line 159 of file MdcCalibData.cxx.
159 {
161
162 key = ( (layid << SDLAYER_INDEX) & SDLAYER_MASK ) |
163 ( (entr << SDENTRA_INDEX) & SDENTRA_MASK ) |
164 ( (lr << SDLR_INDEX) & SDLR_MASK ) |
165 ( (bin << SDBIN_INDEX) & SDBIN_MASK );
166
168}
*******INTEGER m_nBinMax INTEGER m_NdiMax !No of bins in histogram for cell exploration division $ !Last vertex $ !Last active cell $ !Last cell in buffer $ !No of sampling when dividing cell $ !No of function total $ !Flag for random ceel for $ !Flag for type of for WtMax $ !Flag which decides whether vertices are included in the sampling $ entire domain is hyp !Maximum effective eevents per bin
Definition: FoamA.h:85
Referenced by getSdpar().
◆ getSdKey() [2/2]
| int CalibData::MdcCalibData::getSdKey | ( | int | layid, |
| int | entr, | ||
| int | lr, | ||
| int | bin | ||
| ) |
◆ getSdpar() [1/2]
| double CalibData::MdcCalibData::getSdpar | ( | int | layid, |
| int | entr, | ||
| int | lr, | ||
| int | bin | ||
| ) |
Definition at line 136 of file MdcCalibData.cxx.
136 {
137 double sdpar = -999.0;
141 }
142
143 return sdpar;
144}
int getSdKey(int layid, int entr, int lr, int bin)
Definition: MdcCalibData.cxx:159
◆ getSdpar() [2/2]
| double CalibData::MdcCalibData::getSdpar | ( | int | layid, |
| int | entr, | ||
| int | lr, | ||
| int | bin | ||
| ) |
◆ getT0() [1/2]
|
inline |
Definition at line 39 of file Calibration/CalibData/CalibData-00-01-18/CalibData/Mdc/MdcCalibData.h.
39{ return m_t0[wireid]; }
◆ getT0() [2/2]
|
inline |
Definition at line 39 of file InstallArea/include/CalibData/CalibData/Mdc/MdcCalibData.h.
39{ return m_t0[wireid]; }
◆ gett0No() [1/2]
|
inline |
Definition at line 59 of file Calibration/CalibData/CalibData-00-01-18/CalibData/Mdc/MdcCalibData.h.
59{ return m_t0.size(); }
◆ gett0No() [2/2]
|
inline |
Definition at line 59 of file InstallArea/include/CalibData/CalibData/Mdc/MdcCalibData.h.
59{ return m_t0.size(); }
◆ getXtKey() [1/2]
| int CalibData::MdcCalibData::getXtKey | ( | int | layid, |
| int | entr, | ||
| int | lr, | ||
| int | order | ||
| ) |
Definition at line 147 of file MdcCalibData.cxx.
147 {
149
150 key = ( (layid << XTLAYER_INDEX) & XTLAYER_MASK ) |
151 ( (entr << XTENTRA_INDEX) & XTENTRA_MASK ) |
152 ( (lr << XTLR_INDEX) & XTLR_MASK ) |
153 ( (order << XTORDER_INDEX) & XTORDER_MASK );
154
156}
Referenced by getXtpar().
◆ getXtKey() [2/2]
| int CalibData::MdcCalibData::getXtKey | ( | int | layid, |
| int | entr, | ||
| int | lr, | ||
| int | order | ||
| ) |
◆ getxtNo() [1/2]
|
inline |
Definition at line 58 of file Calibration/CalibData/CalibData-00-01-18/CalibData/Mdc/MdcCalibData.h.
58{ return m_xtmap.size(); }
◆ getxtNo() [2/2]
|
inline |
Definition at line 58 of file InstallArea/include/CalibData/CalibData/Mdc/MdcCalibData.h.
58{ return m_xtmap.size(); }
◆ getXtpar() [1/2]
| double CalibData::MdcCalibData::getXtpar | ( | int | layid, |
| int | entr, | ||
| int | lr, | ||
| int | order | ||
| ) |
Definition at line 116 of file MdcCalibData.cxx.
116 {
117 double xtpar = -999.0;
120 xtpar = m_xtmap[key];
121
122 return xtpar;
123}
int getXtKey(int layid, int entr, int lr, int order)
Definition: MdcCalibData.cxx:147
◆ getXtpar() [2/2]
| double CalibData::MdcCalibData::getXtpar | ( | int | layid, |
| int | entr, | ||
| int | lr, | ||
| int | order | ||
| ) |
◆ setDelT0() [1/2]
| void CalibData::MdcCalibData::setDelT0 | ( | double | val | ) |
Definition at line 99 of file MdcCalibData.cxx.
99 {
100 m_delt0.push_back( val );
101}
◆ setDelT0() [2/2]
| void CalibData::MdcCalibData::setDelT0 | ( | double | val | ) |
◆ setNewXtpar() [1/2]
| void CalibData::MdcCalibData::setNewXtpar | ( | TObjArray * | newXtTrees | ) |
Definition at line 54 of file MdcCalibData.cxx.
54 {
55 //put TObjArray to temp buffer
56 TBufferFile* tempBuf = new TBufferFile(TBuffer::kWrite);
57 newXtTrees->Streamer(*tempBuf);
58
59 //put content of buffer to array
60 newXtTreesBuf = new TBufferFile(TBuffer::kRead);
61 newXtTreesBuf->SetBuffer(tempBuf->Buffer(), tempBuf->BufferSize());
62
63 newXtTreesArray = new TObjArray();
64 newXtTreesArray->Streamer(*newXtTreesBuf);
65 for(int layid=0; layid<43; layid++){
66 for(int entr=0; entr<18; entr++){
67 for(int lr=0; lr<2; lr++){
68 char newXtTreeName[20];
69 sprintf(newXtTreeName,"trNewXt%02d_%02d_%d",layid,entr,lr);
70 m_newxt[layid][entr][lr] = (TTree*)newXtTreesArray->FindObject(newXtTreeName);;
71 }
72 }
73 }
74 delete tempBuf;
75}
Referenced by RootMdcCalibDataCnv::i_createObj(), and TreeMdcCalibDataCnv::i_createObj().
◆ setNewXtpar() [2/2]
| void CalibData::MdcCalibData::setNewXtpar | ( | TObjArray * | newXtTrees | ) |
◆ setQtpar0() [1/2]
| void CalibData::MdcCalibData::setQtpar0 | ( | double | val | ) |
Definition at line 103 of file MdcCalibData.cxx.
103 {
104 m_qtpar0.push_back( val );
105}
◆ setQtpar0() [2/2]
| void CalibData::MdcCalibData::setQtpar0 | ( | double | val | ) |
◆ setQtpar1() [1/2]
| void CalibData::MdcCalibData::setQtpar1 | ( | double | val | ) |
Definition at line 107 of file MdcCalibData.cxx.
107 {
108 m_qtpar1.push_back( val );
109}
◆ setQtpar1() [2/2]
| void CalibData::MdcCalibData::setQtpar1 | ( | double | val | ) |
◆ setR2tpar() [1/2]
| void CalibData::MdcCalibData::setR2tpar | ( | TObjArray * | r2tTrees | ) |
Definition at line 77 of file MdcCalibData.cxx.
77 {
78 //put TObjArray to temp buffer
79 TBufferFile* tempBuf = new TBufferFile(TBuffer::kWrite);
80 r2tTrees->Streamer(*tempBuf);
81
82 //put content of buffer to array
83 r2tTreesBuf = new TBufferFile(TBuffer::kRead);
84 r2tTreesBuf->SetBuffer(tempBuf->Buffer(), tempBuf->BufferSize());
85
86 r2tTreesArray = new TObjArray();
87 r2tTreesArray->Streamer(*r2tTreesBuf);
88 for(int layid=0; layid<43; layid++){
89 char r2tTreeName[20];
90 sprintf(r2tTreeName,"r2t%02d",layid);
91 m_r2t[layid] = (TTree*)r2tTreesArray->FindObject(r2tTreeName);;
92 }
93 delete tempBuf;
94}
Referenced by RootMdcCalibDataCnv::i_createObj(), and TreeMdcCalibDataCnv::i_createObj().
◆ setR2tpar() [2/2]
| void CalibData::MdcCalibData::setR2tpar | ( | TObjArray * | r2tTrees | ) |
◆ setSdBegin() [1/2]
| void CalibData::MdcCalibData::setSdBegin | ( | ) |
Definition at line 184 of file MdcCalibData.cxx.
184 {
185 m_sditer = m_sdmap.begin();
186}
◆ setSdBegin() [2/2]
| void CalibData::MdcCalibData::setSdBegin | ( | ) |
◆ setSdpar() [1/2]
| void CalibData::MdcCalibData::setSdpar | ( | int | sdkey, |
| double | val | ||
| ) |
Definition at line 111 of file MdcCalibData.cxx.
111 {
113}
std::map< int, double >::value_type valType
◆ setSdpar() [2/2]
| void CalibData::MdcCalibData::setSdpar | ( | int | sdkey, |
| double | val | ||
| ) |
◆ setT0() [1/2]
| void CalibData::MdcCalibData::setT0 | ( | double | val | ) |
Definition at line 96 of file MdcCalibData.cxx.
96 {
97 m_t0.push_back( val );
98}
◆ setT0() [2/2]
| void CalibData::MdcCalibData::setT0 | ( | double | val | ) |
◆ setXtBegin() [1/2]
| void CalibData::MdcCalibData::setXtBegin | ( | ) |
Definition at line 170 of file MdcCalibData.cxx.
170 {
171 m_xtiter = m_xtmap.begin();
172}
◆ setXtBegin() [2/2]
| void CalibData::MdcCalibData::setXtBegin | ( | ) |
◆ setXtpar() [1/2]
| void CalibData::MdcCalibData::setXtpar | ( | int | xtkey, |
| double | val | ||
| ) |
Definition at line 50 of file MdcCalibData.cxx.
◆ setXtpar() [2/2]
| void CalibData::MdcCalibData::setXtpar | ( | int | xtkey, |
| double | val | ||
| ) |
◆ update() [1/2]
|
virtual |
Reimplemented from CalibData::CalibBase1.
Definition at line 35 of file MdcCalibData.cxx.
36 {
38 std::cout<<"\n"<<"here is the update in the MdcCalConst"<<std::endl;
39 CalibBase1::update(other, log);
40 clear();
41 m_xtmap = other1.m_xtmap;
42 m_t0 = other1.m_t0;
43 m_delt0 = other1.m_delt0;
44 m_qtpar0 = other1.m_qtpar0;
45 m_qtpar1 = other1.m_qtpar1;
46 m_sdmap = other1.m_sdmap;
47 return StatusCode::SUCCESS;
48}
virtual StatusCode update(CalibBase1 &obj, MsgStream *)
Definition: CalibBase1.cxx:33
◆ update() [2/2]
|
virtual |
Reimplemented from CalibData::CalibBase1.
The documentation for this class was generated from the following files:
