BOSS 7.0.7
BESIII Offline Software System
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MilleAlign Class Reference

#include <MilleAlign.h>

+ Inheritance diagram for MilleAlign:

Public Member Functions

 MilleAlign ()
 
 ~MilleAlign ()
 
void clear ()
 
void initialize (TObjArray *hlist, IMdcGeomSvc *mdcGeomSvc, IMdcCalibFunSvc *mdcFunSvc)
 
void setParam (MdcAliParams &param)
 
bool fillHist (MdcAliEvent *event)
 
void updateConst (MdcAlignPar *alignPar)
 
- Public Member Functions inherited from MdcAlign
 MdcAlign ()
 
virtual ~MdcAlign ()
 
virtual void clear ()=0
 
virtual void initialize (TObjArray *hlist, IMdcGeomSvc *mdcGeomSvc, IMdcCalibFunSvc *mdcFunSvc)=0
 
virtual void setParam (MdcAliParams &param)=0
 
virtual bool fillHist (MdcAliEvent *event)=0
 
virtual void updateConst (MdcAlignPar *alignPar)=0
 

Public Attributes

std::string fixMomLab
 
- Public Attributes inherited from MdcAlign
std::string fixMomLab
 

Detailed Description

Definition at line 16 of file MilleAlign.h.

Constructor & Destructor Documentation

◆ MilleAlign()

MilleAlign::MilleAlign ( )

Definition at line 28 of file MilleAlign.cxx.

28 {
29 for(int lay=0; lay<LAYERNMAX; lay++){
30 m_resiCut[lay] = 1.5;
31 if(lay<8){
32 m_docaCut[lay][0] = 0.5;
33 m_docaCut[lay][1] = 5.5;
34 } else{
35 m_docaCut[lay][0] = 0.5;
36 m_docaCut[lay][1] = 7.5;
37 }
38 }
39}
const int LAYERNMAX
Definition: Alignment.h:45

◆ ~MilleAlign()

MilleAlign::~MilleAlign ( )

Definition at line 41 of file MilleAlign.cxx.

41 {
42}

Member Function Documentation

◆ clear()

void MilleAlign::clear ( )
virtual

Implements MdcAlign.

Definition at line 44 of file MilleAlign.cxx.

44 {
45 delete m_hresAll;
46 delete m_hresInn;
47 delete m_hresStp;
48 delete m_hresOut;
49 for(int lay=0; lay<LAYERNMAX; lay++) delete m_hresLay[lay];
50 delete m_hresAllRec;
51 for(int lay=0; lay<LAYERNMAX; lay++) delete m_hresLayRec[lay];
52 delete m_hddoca;
53 delete m_pMilleAlign;
54}

◆ fillHist()

bool MilleAlign::fillHist ( MdcAliEvent event)
virtual

Implements MdcAlign.

Definition at line 198 of file MilleAlign.cxx.

198 {
199 IMessageSvc* msgSvc;
200 Gaudi::svcLocator() -> service("MessageSvc", msgSvc);
201 MsgStream log(msgSvc, "MilleAlign");
202 log << MSG::DEBUG << "MilleAlign::fillTree()" << endreq;
203
204 int recFlag;
205 int itrk;
206 int ihit;
207 int fgGetDoca;
208 int lr;
209 int lay;
210 int cel;
211 double doca;
212 double dmeas;
213 double zhit;
214 double resi;
215 double resiRec;
216 double deri;
217 double hitSigm;
218 double hitpos[3];
219 double wpos[7]; // wpos[6] is wire tension
220 const MdcGeoWire* pWire;
221
222 double trkpar[NTRKPAR];
223 double trkparms[NTRKPARALL]; // track parameters and errors
224
225 // numerical derivative
226 int ipar;
227 int iparGB;
228
229 MdcAliRecTrk* rectrk;
230 MdcAliRecHit* rechit;
231
232 int ntrk = event -> getNTrk();
233 if( (ntrk<m_param.nTrkCut[0]) || (ntrk>m_param.nTrkCut[1])) return false;
234
235 for(itrk=0; itrk<ntrk; itrk++){
236 rectrk = event->getRecTrk(itrk);
237 recFlag = rectrk->getStat();
238
239 trkpar[0] = rectrk -> getDr();
240 trkpar[1] = rectrk -> getPhi0();
241 trkpar[2] = rectrk -> getKappa();
242 trkpar[3] = rectrk -> getDz();
243 trkpar[4] = rectrk -> getTanLamda();
244
245 int nHit = rectrk -> getNHits();
246 if(nHit < m_param.nHitCut) continue;
247 if(fabs(trkpar[0]) > m_param.drCut) continue;
248 if(fabs(trkpar[3]) > m_param.dzCut) continue;
249
250 HepVector rechelix = rectrk->getHelix();
251 HepVector helix = rectrk->getHelix();
252 HepSymMatrix helixErr = rectrk->getHelixErr();
253
254 int nHitUse = 0;
255 for(ihit=0; ihit<nHit; ihit++){
256 rechit = rectrk -> getRecHit(ihit);
257 lr = rechit->getLR();
258 lay = rechit -> getLayid();
259 cel = rechit -> getCellid();
260 pWire = m_mdcGeomSvc -> Wire(lay, cel);
261 dmeas = rechit -> getDmeas();
262 zhit = rechit -> getZhit();
263 hitSigm = rechit -> getErrDmeas();
264
265 wpos[0] = pWire -> Backward().x(); // east end
266 wpos[1] = pWire -> Backward().y();
267 wpos[2] = pWire -> Backward().z();
268 wpos[3] = pWire -> Forward().x(); // west end
269 wpos[4] = pWire -> Forward().y();
270 wpos[5] = pWire -> Forward().z();
271 wpos[6] = pWire -> Tension();
272
273 double docaRec = rechit->getDocaInc();
274 double doca = (m_mdcUtilitySvc->doca(lay, cel, helix, helixErr))*10.0;
275
276 resi = -1.0*dmeas - doca;
277 if ((fabs(doca) < m_docaCut[lay][0]) || (fabs(doca) > m_docaCut[lay][1]) ||
278 (fabs(resi) > m_resiCut[lay])) continue;
279 nHitUse++;
280
281 resiRec = rechit -> getResiIncLR();
282
283 double dd = fabs(doca) - fabs(rechit->getDocaInc());
284 m_hddoca -> Fill(dd);
285 m_hddocaLay[lay] -> Fill(dd);
286
287 // fill histograms
288 m_hresAll->Fill(resi);
289 if(lay < 8) m_hresInn->Fill(resi);
290 else if(lay < 20) m_hresStp->Fill(resi);
291 else m_hresOut->Fill(resi);
292 m_hresLay[lay]->Fill(resi);
293
294 m_hresAllRec->Fill(resiRec);
295 m_hresLayRec[lay]->Fill(resiRec);
296
297 // reset the derivatives arrays
298 m_pMilleAlign -> ZerLoc(&m_derGB[0], &m_derLC[0], &m_derNonLin[0]);
299
300 // derivatives of local parameters
301 for(ipar=0; ipar<m_nloc; ipar++){
302 if( ! getDeriLoc(ipar, lay, cel ,rechelix, helixErr, deri) ){
303 cout << "getDeriLoc == false!" << setw(12) << itrk << setw(12) << ipar << endl;
304 return false;
305 }
306 m_derLC[ipar] = deri;
307 }
308
309 // derivatives of global parameters
310 // ipar 0 - 5: dx_east, dx_west, dy_east, dy_west, rz_east, rz_west
311 for(ipar=0; ipar<m_nGloHit; ipar++){
312 iparGB = getAlignParId(lay, ipar);
313 if( ! getDeriGlo(ipar, iparGB, lay, cel, helix, helixErr, wpos, deri) )
314 {
315 cout << "getDeriGlo == false!" << setw(12) << itrk << setw(12) << ipar << endl;
316 return false;
317 }
318 m_derGB[iparGB] = deri;
319 }
320 m_pMilleAlign -> EquLoc(&m_derGB[0], &m_derLC[0], &m_derNonLin[0], resi, hitSigm);
321 } // loop of nhit
322
323 // local fit in Millepede
324 bool sc = m_pMilleAlign -> FitLoc(m_pMilleAlign->GetTrackNumber(), trkparms, 0);
325 if(sc) m_pMilleAlign -> SetTrackNumber( m_pMilleAlign->GetTrackNumber()+1 );
326 } // track loop
327 return true;
328}
curve Fill()
IMessageSvc * msgSvc()
double dzCut
Definition: MdcAliParams.h:29
double drCut
Definition: MdcAliParams.h:28
int nTrkCut[2]
Definition: MdcAliParams.h:21
int getLR() const
Definition: MdcAliRecHit.h:22
double getDocaInc() const
Definition: MdcAliRecHit.h:24
int getStat() const
Definition: MdcAliRecTrk.h:26
HepSymMatrix getHelixErr() const
Definition: MdcAliRecTrk.h:33
HepVector getHelix() const
Definition: MdcAliRecTrk.h:32
double doca(int layer, int cell, const HepVector helix, const HepSymMatrix errMat, bool passCellRequired=true, bool doSag=true) const
int GetTrackNumber()
Definition: Millepede.cxx:1515
const int NTRKPAR
Definition: Alignment.h:49
const int NTRKPARALL
Definition: Alignment.h:50

◆ initialize()

void MilleAlign::initialize ( TObjArray *  hlist,
IMdcGeomSvc mdcGeomSvc,
IMdcCalibFunSvc mdcFunSvc 
)
virtual

Implements MdcAlign.

Definition at line 56 of file MilleAlign.cxx.

57 {
58 IMessageSvc* msgSvc;
59 Gaudi::svcLocator() -> service("MessageSvc", msgSvc);
60 MsgStream log(msgSvc, "MilleAlign");
61 log << MSG::INFO << "MilleAlign::initialize()" << endreq;
62
63 // Initialze MdcUtilitySvc
64 IMdcUtilitySvc* imdcUtilitySvc;
65 StatusCode sc = Gaudi::svcLocator() -> service ("MdcUtilitySvc",imdcUtilitySvc);
66 m_mdcUtilitySvc= dynamic_cast<MdcUtilitySvc*> (imdcUtilitySvc);
67 if ( sc.isFailure() ){
68 log << MSG::FATAL << "Could not load MdcUtilitySvc!" << endreq;
69 }
70
71 m_hlist = hlist;
72 m_mdcGeomSvc = mdcGeomSvc;
73 m_mdcFunSvc = mdcFunSvc;
74
75 // initialize hitograms
76 m_hresAll = new TH1F("HResAllInc", "", 200, -1.0, 1.0);
77 m_hlist->Add(m_hresAll);
78
79 m_hresInn = new TH1F("HResInnInc", "", 200, -1.0, 1.0);
80 m_hlist->Add(m_hresInn);
81
82 m_hresStp = new TH1F("HResStpInc", "", 200, -1.0, 1.0);
83 m_hlist->Add(m_hresStp);
84
85 m_hresOut = new TH1F("HResOutInc", "", 200, -1.0, 1.0);
86 m_hlist->Add(m_hresOut);
87
88 char hname[200];
89 for(int lay=0; lay<LAYERNMAX; lay++){
90 sprintf(hname, "Res_Layer%02d", lay);
91 m_hresLay[lay] = new TH1F(hname, "", 200, -1.0, 1.0);
92 m_hlist->Add(m_hresLay[lay]);
93 }
94
95 m_hresAllRec = new TH1F("HResAllRecInc", "", 200, -1.0, 1.0);
96 m_hlist->Add(m_hresAllRec);
97 for(int lay=0; lay<LAYERNMAX; lay++){
98 sprintf(hname, "Res_LayerRec%02d", lay);
99 m_hresLayRec[lay] = new TH1F(hname, "", 200, -1.0, 1.0);
100 m_hlist->Add(m_hresLayRec[lay]);
101 }
102
103 // for debug
104 m_hddoca = new TH1F("delt_doca", "", 200, -1.0, 1.0);
105 m_hlist->Add(m_hddoca);
106
107 for(int lay=0; lay<LAYERNMAX; lay++){
108 sprintf(hname, "delt_docaLay%02d", lay);
109 m_hddocaLay[lay] = new TH1F(hname, "", 200, -1.0, 1.0);
110 m_hlist->Add(m_hddocaLay[lay]);
111 }
112
113 // initialize millepede
114 m_nglo = NEP;
115 m_nloc = NTRKPAR;
116 m_nGloHit = 2 * NDOFALIGN;
117 m_npar = NDOFALIGN * m_nglo;
118
119 int i;
120 for(i=0; i<NDOFALIGN; i++){
121 m_dofs[i] = g_dofs[i];
122 m_sigm[i] = g_Sigm[i];
123 }
124
125 m_pMilleAlign = new Millepede();
126 m_pMilleAlign -> InitMille(&m_dofs[0], &m_sigm[0], m_nglo, m_nloc,
128
129 m_derGB.resize(m_npar);
130 m_derNonLin.resize(m_npar);
131 m_par.resize(m_npar);
132 m_error.resize(m_npar);
133 m_pull.resize(m_npar);
134
135 m_derLC.resize(m_nloc);
136
137 // contraints
138 std::vector<double> constTX;
139 std::vector<double> constTY;
140 std::vector<double> constRZ;
141
142 std::vector<double> constTXE;
143 std::vector<double> constTXW;
144 std::vector<double> constTYE;
145 std::vector<double> constTYW;
146 std::vector<double> constRZE;
147 std::vector<double> constRZW;
148
149 constTX.resize(m_npar);
150 constTY.resize(m_npar);
151 constRZ.resize(m_npar);
152
153 constTXE.resize(m_npar);
154 constTXW.resize(m_npar);
155 constTYE.resize(m_npar);
156 constTYW.resize(m_npar);
157 constRZE.resize(m_npar);
158 constRZW.resize(m_npar);
159
160 for(i=0; i<m_npar; i++){
161 constTX[i] = 0.0;
162 constTY[i] = 0.0;
163 constRZ[i] = 0.0;
164
165 constTXE[i] = 0.0;
166 constTXW[i] = 0.0;
167 constTYE[i] = 0.0;
168 constTYW[i] = 0.0;
169 constRZE[i] = 0.0;
170 constRZW[i] = 0.0;
171 }
172 constTX[7] = 1.0;
173 constTX[15] = 1.0;
174 constTY[23] = 1.0;
175 constTY[31] = 1.0;
176 constRZ[39] = 1.0;
177 constRZ[47] = 1.0;
178
179 constTXE[7] = 1.0;
180 constTXW[15] = 1.0;
181 constTYE[23] = 1.0;
182 constTYW[31] = 1.0;
183 constRZE[39] = 1.0;
184 constRZW[47] = 1.0;
185
186 //m_pMilleAlign -> ConstF(&constTX[0], 0.0);
187 //m_pMilleAlign -> ConstF(&constTY[0], 0.0);
188// m_pMilleAlign -> ConstF(&constRZ[0], 0.0);
189
190 m_pMilleAlign -> ConstF(&constTXE[0], 0.0);
191 m_pMilleAlign -> ConstF(&constTXW[0], 0.0);
192 m_pMilleAlign -> ConstF(&constTYE[0], 0.0);
193 m_pMilleAlign -> ConstF(&constTYW[0], 0.0);
194 m_pMilleAlign -> ConstF(&constRZE[0], 0.0);
195 m_pMilleAlign -> ConstF(&constRZW[0], 0.0);
196}
sprintf(cut,"kal_costheta0_em>-0.93&&kal_costheta0_em<0.93&&kal_pxy0_em>=0.05+%d*0.1&&kal_pxy0_em<0.15+%d*0.1&&NGch>=2", j, j)
const double g_res_cut_init
Definition: Alignment.h:84
const int NEP
Definition: Alignment.h:48
const double g_res_cut
Definition: Alignment.h:83
const int NDOFALIGN
Definition: Alignment.h:62
const double g_Sigm[3]
Definition: Alignment.h:77
const bool g_dofs[3]
Definition: Alignment.h:71
const double g_start_chi_cut
Definition: Alignment.h:85

◆ setParam()

void MilleAlign::setParam ( MdcAliParams param)
inlinevirtual

Implements MdcAlign.

Definition at line 82 of file MilleAlign.h.

82 {
83 MdcAlign::setParam(param);
84 m_param = param;
85}
virtual void setParam(MdcAliParams &param)=0
Definition: MdcAlign.h:35

◆ updateConst()

void MilleAlign::updateConst ( MdcAlignPar alignPar)
virtual

Implements MdcAlign.

Definition at line 331 of file MilleAlign.cxx.

331 {
332 IMessageSvc* msgSvc;
333 Gaudi::svcLocator() -> service("MessageSvc", msgSvc);
334 MsgStream log(msgSvc, "MilleAlign");
335 log << MSG::INFO << "MilleAlign::updateConst()" << endreq;
336
337 m_pMilleAlign -> MakeGlobalFit(&m_par[0], &m_error[0], &m_pull[0]);
338
339 int iEP;
340 int ipar;
341 double val;
342 double err;
343 for(int i=0; i<NDOFALIGN; i++){
344 for(iEP=0; iEP<NEP; iEP++){
345 ipar = i * NEP + iEP;
346 if(m_dofs[i]){
347 val = m_par[ipar];
348 err = m_error[ipar];
349 } else{
350 val = 0.0;
351 err = 0.0;
352 }
353
354 if(0 == i){
355 alignPar->setDelDx(iEP, val);
356 alignPar->setErrDx(iEP, err);
357 } else if(1 == i){
358 alignPar->setDelDy(iEP, val);
359 alignPar->setErrDy(iEP, err);
360 } else if(2 == i){
361 alignPar->setDelRz(iEP, val/1000.0); // mrad -> rad
362 alignPar->setErrRz(iEP, err/1000.0); // mrad -> rad
363 }
364 }
365 }
366}
void setErrRz(int iEP, double val)
void setDelDy(int iEP, double val)
void setDelRz(int iEP, double val)
void setErrDx(int iEP, double val)
void setDelDx(int iEP, double val)
void setErrDy(int iEP, double val)

Member Data Documentation

◆ fixMomLab

std::string MilleAlign::fixMomLab

Definition at line 28 of file MilleAlign.h.


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