BOSS 7.0.1
BESIII Offline Software System
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MdcKalTrackCnv.cxx
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1#ifndef MdcKalTrackCnv_CXX
2#define MdcKalTrackCnv_CXX 1
3
4#include "GaudiKernel/MsgStream.h"
5#include "GaudiKernel/DataObject.h"
6#include "GaudiKernel/ObjectVector.h"
7
8#include "TClonesArray.h"
9
10#include "EventModel/EventModel.h"
11#include "DstEvent/DstEvent.h" //TDS object
12#include "DstEvent/DstMdcKalTrack.h" //TDS object
13#include "MdcRecEvent/RecMdcKalTrack.h"
14#include "RootEventData/TMdcKalTrack.h" // standard root object
15#include "RootEventData/TDstEvent.h"
16
17#include "RootCnvSvc/Dst/DstCnv.h"
18#include "RootCnvSvc/Dst/MdcKalTrackCnv.h"
19#include "RootCnvSvc/RootAddress.h"
20
21#include "CLHEP/Matrix/Vector.h"
22#include "CLHEP/Matrix/SymMatrix.h"
23#include "CLHEP/Vector/ThreeVector.h"
24#include "CLHEP/Geometry/Point3D.h"
25#include <vector>
26#include "string.h"
27#include <cmath>
28
29using CLHEP::HepVector;
30using CLHEP::HepSymMatrix;
31
32
34: RootEventBaseCnv(classID(), svc)
35{
36 // Here we associate this converter with the /Event path on the TDS.
37 MsgStream log(msgSvc(), "MdcKalTrackCnv");
38 m_rootBranchname ="m_mdcKalTrackCol";
39 m_adresses.push_back(&m_mdcKalTrackCol);
40 m_mdcKalTrackCol=0;
41}
42
43StatusCode MdcKalTrackCnv::TObjectToDataObject(DataObject*& refpObject) {
44 // creation of TDS object from root object
45
46 MsgStream log(msgSvc(), "MdcKalTrackCnv");
47 log << MSG::DEBUG << "MdcKalTrackCnv::TObjectToDataObject" << endreq;
48 StatusCode sc=StatusCode::SUCCESS;
49
50 // create the TDS location for the MdcKalTrack Collection
51 DstMdcKalTrackCol* mdcKalTrackTdsCol = new DstMdcKalTrackCol;
52 refpObject=mdcKalTrackTdsCol;
53
54 // now convert
55 if (!m_mdcKalTrackCol) return sc;
56 TIter mdcKalTrackIter(m_mdcKalTrackCol);
57 TMdcKalTrack *mdcKalTrackRoot = 0;
58 while ((mdcKalTrackRoot = (TMdcKalTrack*)mdcKalTrackIter.Next())) {
59 std::vector<HepVector> zhelixs;
60 std::vector<HepSymMatrix> zerrors;
61 std::vector<HepPoint3D> pocas;
62 std::vector<HepVector> fhelixs;
63 std::vector<HepSymMatrix> ferrors;
64
65 HepVector zhelix(5);
66 HepSymMatrix zerror(5);
67 HepPoint3D poca(0,0,0);
68
69 HepVector zhelix_e(5);
70 HepSymMatrix zerror_e(5);
71 HepPoint3D poca_e(0,0,0);
72
73 HepVector zhelix_mu(5);
74 HepSymMatrix zerror_mu(5);
75 HepPoint3D poca_mu(0,0,0);
76
77 HepVector zhelix_k(5);
78 HepSymMatrix zerror_k(5);
79 HepPoint3D poca_k(0,0,0);
80
81 HepVector zhelix_p(5);
82 HepSymMatrix zerror_p(5);
83 HepPoint3D poca_p(0,0,0);
84
85 HepVector fhelix(5);
86 HepSymMatrix ferror(5);
87
88 HepVector fhelix_e(5);
89 HepSymMatrix ferror_e(5);
90
91 HepVector fhelix_mu(5);
92 HepSymMatrix ferror_mu(5);
93
94 HepVector fhelix_k(5);
95 HepSymMatrix ferror_k(5);
96
97 HepVector fhelix_p(5);
98 HepSymMatrix ferror_p(5);
99
100
101 DstMdcKalTrack *mdcKalTrackTds = new DstMdcKalTrack();
102 m_common.m_rootMdcKalTrackMap[mdcKalTrackRoot] = mdcKalTrackTds;
103
104 /*
105 for(int ii=0; ii<3; ii++){
106 poca_e[ii] = mdcKalTrackRoot->getPocaE(ii);
107 poca_mu[ii] = mdcKalTrackRoot->getPocaMu(ii);
108 poca[ii] = mdcKalTrackRoot->getPoca(ii);
109 poca_k[ii] = mdcKalTrackRoot->getPocaK(ii);
110 poca_p[ii] = mdcKalTrackRoot->getPocaP(ii);
111 }
112 */
113
114 log<<MSG::DEBUG<<"T to DST, poca: "<<poca<<endreq;
115
116 for (int i=0; i<5; i++){
117 zhelix[i] = mdcKalTrackRoot->getZHelix(i);
118 zhelix_e[i] = mdcKalTrackRoot->getZHelixE(i);
119 zhelix_mu[i] = mdcKalTrackRoot->getZHelixMu(i);
120 zhelix_k[i] = mdcKalTrackRoot->getZHelixK(i);
121 zhelix_p[i] = mdcKalTrackRoot->getZHelixP(i);
122
123 fhelix[i] = mdcKalTrackRoot->getFHelix(i);
124 fhelix_e[i] = mdcKalTrackRoot->getFHelixE(i);
125 fhelix_mu[i] = mdcKalTrackRoot->getFHelixMu(i);
126 fhelix_k[i] = mdcKalTrackRoot->getFHelixK(i);
127 fhelix_p[i] = mdcKalTrackRoot->getFHelixP(i);
128
129 for (int j=0; j<=i; j++){
130 zerror[i][j] = mdcKalTrackRoot->getZError(i,j);
131 zerror_e[i][j] = mdcKalTrackRoot->getZErrorE(i,j);
132 zerror_mu[i][j] = mdcKalTrackRoot->getZErrorMu(i,j);
133 zerror_k[i][j] = mdcKalTrackRoot->getZErrorK(i,j);
134 zerror_p[i][j] = mdcKalTrackRoot->getZErrorP(i,j);
135
136 zerror[j][i] = zerror[i][j];
137 zerror_e[j][i] = zerror_e[i][j];
138 zerror_mu[j][i] = zerror_mu[i][j];
139 zerror_k[j][i] = zerror_k[i][j];
140 zerror_p[j][i] = zerror_p[i][j];
141
142 ferror[i][j] = mdcKalTrackRoot->getFError(i,j);
143 ferror_e[i][j] = mdcKalTrackRoot->getFErrorE(i,j);
144 ferror_mu[i][j] = mdcKalTrackRoot->getFErrorMu(i,j);
145 ferror_k[i][j] = mdcKalTrackRoot->getFErrorK(i,j);
146 ferror_p[i][j] = mdcKalTrackRoot->getFErrorP(i,j);
147
148 ferror[j][i] = ferror[i][j];
149 ferror_e[j][i] = ferror_e[i][j];
150 ferror_mu[j][i] = ferror_mu[i][j];
151 ferror_k[j][i] = ferror_k[i][j];
152 ferror_p[j][i] = ferror_p[i][j];
153 }
154 }
155
156
157 double dr = zhelix[0];
158 double phi0 = zhelix[1];
159 double kappa = zhelix[2];
160 double dz = zhelix[3];
161 double tanl = zhelix[4];
162 poca[0]=dr*cos(phi0);
163 poca[1]=dr*sin(phi0);
164 poca[2]=dz;
165
166 dr = zhelix_e[0];
167 phi0 = zhelix_e[1];
168 kappa = zhelix_e[2];
169 dz = zhelix_e[3];
170 tanl = zhelix_e[4];
171 poca_e[0]=dr*cos(phi0);
172 poca_e[1]=dr*sin(phi0);
173 poca_e[2]=dz;
174
175 dr = zhelix_mu[0];
176 phi0 = zhelix_mu[1];
177 kappa = zhelix_mu[2];
178 dz = zhelix_mu[3];
179 tanl = zhelix_mu[4];
180 poca_mu[0]=dr*cos(phi0);
181 poca_mu[1]=dr*sin(phi0);
182 poca_mu[2]=dz;
183
184 dr = zhelix_k[0];
185 phi0 = zhelix_k[1];
186 kappa = zhelix_k[2];
187 dz = zhelix_k[3];
188 tanl = zhelix_k[4];
189 poca_k[0]=dr*cos(phi0);
190 poca_k[1]=dr*sin(phi0);
191 poca_k[2]=dz;
192
193 dr = zhelix_p[0];
194 phi0 = zhelix_p[1];
195 kappa = zhelix_p[2];
196 dz = zhelix_p[3];
197 tanl = zhelix_p[4];
198 poca_p[0]=dr*cos(phi0);
199 poca_p[1]=dr*sin(phi0);
200 poca_p[2]=dz;
201
202
203 log<<MSG::DEBUG<<"T to DST, zhelix: "<<zhelix<<endreq;
204 log<<MSG::DEBUG<<"T to DST, zerror: "<<zerror<<endreq;
205
206 zhelixs.push_back(zhelix_e);
207 zhelixs.push_back(zhelix_mu);
208 zhelixs.push_back(zhelix);
209 zhelixs.push_back(zhelix_k);
210 zhelixs.push_back(zhelix_p);
211 zerrors.push_back(zerror_e);
212 zerrors.push_back(zerror_mu);
213 zerrors.push_back(zerror);
214 zerrors.push_back(zerror_k);
215 zerrors.push_back(zerror_p);
216
217 fhelixs.push_back(fhelix_e);
218 fhelixs.push_back(fhelix_mu);
219 fhelixs.push_back(fhelix);
220 fhelixs.push_back(fhelix_k);
221 fhelixs.push_back(fhelix_p);
222 ferrors.push_back(ferror_e);
223 ferrors.push_back(ferror_mu);
224 ferrors.push_back(ferror);
225 ferrors.push_back(ferror_k);
226 ferrors.push_back(ferror_p);
227
228 pocas.push_back(poca_e);
229 pocas.push_back(poca_mu);
230 pocas.push_back(poca);
231 pocas.push_back(poca_k);
232 pocas.push_back(poca_p);
233
234 for(int m=0; m<5; m++){
235 int charge;
236 double pxy(0.),px(0.),py(0.),pz(0.),ptot(0.),dr(0.),phi0(0.),kappa(0.),dz(0.),tanl(0.),x(0.),y(0.),z(0.),vx0(0.),vy0(0.),vz0(0.);
237 dr = zhelixs[m][0];
238 phi0 = zhelixs[m][1];
239 kappa = zhelixs[m][2];
240 dz = zhelixs[m][3];
241 tanl = zhelixs[m][4];
242
243// x = pocas[m][0];
244// y = pocas[m][1];
245// z = pocas[m][2];
246
247 x = dr * cos(phi0);
248 y = dr * sin(phi0);
249 z = dz;
250
251 // std::cout<<"x: "<<x<<"y: "<<y<<"z: "<<z<<std::endl;
252
253 if (kappa > 0.0000000001)
254 charge = 1;
255 else if (kappa < -0.0000000001)
256 charge = -1;
257 else
258 charge = 0;
259
260 if(kappa!=0) pxy = 1.0/fabs(kappa);
261 else pxy = 0;
262
263 px = pxy * (-sin(phi0));
264 py = pxy * cos(phi0);
265 pz = pxy * tanl;
266 ptot = sqrt(px*px+py*py+pz*pz);
267
268 mdcKalTrackTds->setCharge(charge,m);
269 mdcKalTrackTds->setPxy(pxy,m);
270 mdcKalTrackTds->setPx(px,m);
271 mdcKalTrackTds->setPy(py,m);
272 mdcKalTrackTds->setPz(pz,m);
273 mdcKalTrackTds->setP(ptot,m);
274 mdcKalTrackTds->setTheta(acos(pz/ptot),m);
275 mdcKalTrackTds->setPhi(atan2(py,px),m);
276 mdcKalTrackTds->setX(x,m);
277 mdcKalTrackTds->setY(y,m);
278 mdcKalTrackTds->setZ(z,m);
279 mdcKalTrackTds->setR(sqrt(x*x+y*y),m);
280
281 mdcKalTrackTds->setStat(mdcKalTrackRoot->getStat(m),0,m);
282 mdcKalTrackTds->setStat(mdcKalTrackRoot->getStat2(m),1,m);
283 mdcKalTrackTds->setChisq(mdcKalTrackRoot->getChisq(m),0,m);
284 mdcKalTrackTds->setNdf(mdcKalTrackRoot->getNdf(m),0,m);
285 mdcKalTrackTds->setNlayer(mdcKalTrackRoot->getNlayer(m),m);
286 }
287
288 mdcKalTrackTds->setTrackId(mdcKalTrackRoot->getTrackId());
289
290 for(int jj=0; jj<5; jj++){
291 mdcKalTrackTds->setZHelix(zhelixs[jj],jj);
292 mdcKalTrackTds->setZError(zerrors[jj],jj);
293 mdcKalTrackTds->setFHelix(fhelixs[jj],jj);
294 mdcKalTrackTds->setFError(ferrors[jj],jj);
295 mdcKalTrackTds->setPoca(pocas[jj],jj);
296 }
297
298 mdcKalTrackTdsCol->push_back(mdcKalTrackTds);
299 }
300 // m_mdcKalTrackCol->Delete(); // wensp add 2005/12/30
301 delete m_mdcKalTrackCol;
302 m_mdcKalTrackCol = 0;
303 return StatusCode::SUCCESS;
304}
305
306StatusCode MdcKalTrackCnv::DataObjectToTObject(DataObject* obj,RootAddress* rootaddr) {
307
308 MsgStream log(msgSvc(), "MdcKalTrackCnv");
309 log << MSG::DEBUG << "MdcKalTrackCnv::DataObjectToTObject" << endreq;
310 StatusCode sc=StatusCode::SUCCESS;
311
312 DstMdcKalTrackCol * mdcKalTrackColTds=dynamic_cast<DstMdcKalTrackCol *> (obj);
313 //RecMdcKalTrackCol * mdcKalTrackColTds=dynamic_cast<RecMdcKalTrackCol *> (obj);
314 if (!mdcKalTrackColTds) {
315 log << MSG::ERROR << "Could not downcast to DstMdcKalTrackCol" << endreq;
316 return StatusCode::FAILURE;
317 }
318
319 DataObject *evt;
320 m_eds->findObject(EventModel::Dst::Event,evt);
321 if (evt==NULL) {
322 log << MSG::ERROR << "Could not get ReconEvent in TDS " << endreq;
323 return StatusCode::FAILURE;
324 }
325
326 DstEvent * devtTds=dynamic_cast<DstEvent *> (evt);
327 if (!devtTds) {
328 log << MSG::ERROR << "MdcKalTrackCnv:Could not downcast to TDS Dst Event" << endreq;
329 }
330 IOpaqueAddress *addr;
331
332 m_cnvSvc->getDstCnv()->createRep(evt,addr);
334
335 const TObjArray *m_mdcKalTrackCol = recEvt->getMdcKalTrackCol();
336
337 if (!m_mdcKalTrackCol) return sc;
338
339 recEvt->clearMdcKalTrackCol(); //necessary in case there is I/O at the same time since array is static
340 DstMdcKalTrackCol::const_iterator mdcKalTrackTds;
341
342 for (mdcKalTrackTds = mdcKalTrackColTds->begin(); mdcKalTrackTds != mdcKalTrackColTds->end(); mdcKalTrackTds++) {
343
344 // Get Data from DST
345
346 //Double_t poca[3];
347 Double_t zhelix[5];
348 Double_t zerror[5][5];
349
350 //Double_t poca_e[3];
351 Double_t zhelix_e[5];
352 Double_t zerror_e[5][5];
353
354 //Double_t poca_mu[3];
355 Double_t zhelix_mu[5];
356 Double_t zerror_mu[5][5];
357
358 //Double_t poca_k[3];
359 Double_t zhelix_k[5];
360 Double_t zerror_k[5][5];
361
362 //Double_t poca_p[3];
363 Double_t zhelix_p[5];
364 Double_t zerror_p[5][5];
365
366 Double_t fhelix[5];
367 Double_t ferror[5][5];
368 Double_t fhelix_e[5];
369 Double_t ferror_e[5][5];
370 Double_t fhelix_mu[5];
371 Double_t ferror_mu[5][5];
372 Double_t fhelix_k[5];
373 Double_t ferror_k[5][5];
374 Double_t fhelix_p[5];
375 Double_t ferror_p[5][5];
376
377 TMdcKalTrack *mdcKalTrackRoot = new TMdcKalTrack();
378 //m_common.m_mdcKalTrackMap[(*mdcKalTrackTds)] = mdcKalTrackRoot;
379 RecMdcKalTrack* recMdcKalTrackTds=(RecMdcKalTrack*) (*mdcKalTrackTds);
380
381 for(int k=0; k<5; k++){
382 mdcKalTrackRoot->setStat((*mdcKalTrackTds)->getStat(k),k);
383 mdcKalTrackRoot->setStat2(recMdcKalTrackTds->getStat(1,k),k);
384 mdcKalTrackRoot->setChisq((*mdcKalTrackTds)->getChisq(k),k);
385 mdcKalTrackRoot->setNdf((*mdcKalTrackTds)->getNdf(k),k);
386 mdcKalTrackRoot->setNlayer((*mdcKalTrackTds)->getNlayer(k),k);
387 //o mdcKalTrackRoot->setNster((*mdcKalTrackTds)->getNster(k),k);
388 //o mdcKalTrackRoot->setFirstLayer((*mdcKalTrackTds)->getFirstLayer(k),k);
389 //o mdcKalTrackRoot->setLastLayer((*mdcKalTrackTds)->getLastLayer(k),k);
390 }
391
392 //HepPoint3D h_poca = (*mdcKalTrackTds)->getPoca(2);
393 HepVector h_zhelix = (*mdcKalTrackTds)->getZHelix(2);
394 HepSymMatrix h_zerror = (*mdcKalTrackTds)->getZError(2);
395
396 //HepPoint3D h_poca_e = (*mdcKalTrackTds)->getPoca(0);
397 HepVector h_zhelix_e = (*mdcKalTrackTds)->getZHelix(0);
398 HepSymMatrix h_zerror_e = (*mdcKalTrackTds)->getZError(0);
399
400 //HepPoint3D h_poca_mu = (*mdcKalTrackTds)->getPoca(1);
401 HepVector h_zhelix_mu = (*mdcKalTrackTds)->getZHelix(1);
402 HepSymMatrix h_zerror_mu = (*mdcKalTrackTds)->getZError(1);
403
404 //HepPoint3D h_poca_k = (*mdcKalTrackTds)->getPoca(3);
405 HepVector h_zhelix_k = (*mdcKalTrackTds)->getZHelix(3);
406 HepSymMatrix h_zerror_k = (*mdcKalTrackTds)->getZError(3);
407
408 //HepPoint3D h_poca_p = (*mdcKalTrackTds)->getPoca(4);
409 HepVector h_zhelix_p = (*mdcKalTrackTds)->getZHelix(4);
410 HepSymMatrix h_zerror_p = (*mdcKalTrackTds)->getZError(4);
411
412 HepVector h_fhelix = (*mdcKalTrackTds)->getFHelix(2);
413 HepSymMatrix h_ferror = (*mdcKalTrackTds)->getFError(2);
414 HepVector h_fhelix_e = (*mdcKalTrackTds)->getFHelix(0);
415 HepSymMatrix h_ferror_e = (*mdcKalTrackTds)->getFError(0);
416 HepVector h_fhelix_mu = (*mdcKalTrackTds)->getFHelix(1);
417 HepSymMatrix h_ferror_mu = (*mdcKalTrackTds)->getFError(1);
418 HepVector h_fhelix_k = (*mdcKalTrackTds)->getFHelix(3);
419 HepSymMatrix h_ferror_k = (*mdcKalTrackTds)->getFError(3);
420 HepVector h_fhelix_p = (*mdcKalTrackTds)->getFHelix(4);
421 HepSymMatrix h_ferror_p = (*mdcKalTrackTds)->getFError(4);
422
423 mdcKalTrackRoot->setTrackId((*mdcKalTrackTds)->getTrackId());
424
425 /*
426 for(int k=0; k<3; k++){
427 poca[k] = h_poca[k];
428 poca_e[k] = h_poca_e[k];
429 poca_mu[k] = h_poca_mu[k];
430 poca_k[k] = h_poca_k[k];
431 poca_p[k] = h_poca_p[k];
432 }
433 */
434
435 for (int i=0; i<5; i++){
436 zhelix[i] = h_zhelix[i];
437 zhelix_e[i] = h_zhelix_e[i];
438 zhelix_mu[i] = h_zhelix_mu[i];
439 zhelix_p[i] = h_zhelix_p[i];
440 zhelix_k[i] = h_zhelix_k[i];
441 fhelix[i] = h_fhelix[i];
442 fhelix_e[i] = h_fhelix_e[i];
443 fhelix_mu[i] = h_fhelix_mu[i];
444 fhelix_p[i] = h_fhelix_p[i];
445 fhelix_k[i] = h_fhelix_k[i];
446 for (int j=0; j<=i; j++){
447 zerror[i][j] = h_zerror[i][j];
448 zerror_e[i][j] = h_zerror_e[i][j];
449 zerror_mu[i][j] = h_zerror_mu[i][j];
450 zerror_p[i][j] = h_zerror_p[i][j];
451 zerror_k[i][j] = h_zerror_k[i][j];
452 zerror[j][i] = h_zerror[i][j];
453 zerror_e[j][i] = h_zerror_e[i][j];
454 zerror_mu[j][i] = h_zerror_mu[i][j];
455 zerror_p[j][i] = h_zerror_p[i][j];
456 zerror_k[j][i] = h_zerror_k[i][j];
457 ferror[i][j] = h_ferror[i][j];
458 ferror_e[i][j] = h_ferror_e[i][j];
459 ferror_mu[i][j] = h_ferror_mu[i][j];
460 ferror_p[i][j] = h_ferror_p[i][j];
461 ferror_k[i][j] = h_ferror_k[i][j];
462 ferror[j][i] = h_ferror[i][j];
463 ferror_e[j][i] = h_ferror_e[i][j];
464 ferror_mu[j][i] = h_ferror_mu[i][j];
465 ferror_p[j][i] = h_ferror_p[i][j];
466 ferror_k[j][i] = h_ferror_k[i][j];
467 }
468 }
469
470 //mdcKalTrackRoot->setPoca(poca);
471 mdcKalTrackRoot->setZHelix(zhelix);
472 mdcKalTrackRoot->setZError(zerror);
473
474 //mdcKalTrackRoot->setPocaE(poca_e);
475 mdcKalTrackRoot->setZHelixE(zhelix_e);
476 mdcKalTrackRoot->setZErrorE(zerror_e);
477
478 //mdcKalTrackRoot->setPocaMu(poca_mu);
479 mdcKalTrackRoot->setZHelixMu(zhelix_mu);
480 mdcKalTrackRoot->setZErrorMu(zerror_mu);
481
482 //mdcKalTrackRoot->setPocaK(poca_k);
483 mdcKalTrackRoot->setZHelixK(zhelix_k);
484 mdcKalTrackRoot->setZErrorK(zerror_k);
485
486 //mdcKalTrackRoot->setPocaP(poca_p);
487 mdcKalTrackRoot->setZHelixP(zhelix_p);
488 mdcKalTrackRoot->setZErrorP(zerror_p);
489
490 mdcKalTrackRoot->setFHelix(fhelix);
491 mdcKalTrackRoot->setFError(ferror);
492
493 mdcKalTrackRoot->setFHelixE(fhelix_e);
494 mdcKalTrackRoot->setFErrorE(ferror_e);
495
496 mdcKalTrackRoot->setFHelixMu(fhelix_mu);
497 mdcKalTrackRoot->setFErrorMu(ferror_mu);
498
499 mdcKalTrackRoot->setFHelixK(fhelix_k);
500 mdcKalTrackRoot->setFErrorK(ferror_k);
501
502 mdcKalTrackRoot->setFHelixP(fhelix_p);
503 mdcKalTrackRoot->setFErrorP(ferror_p);
504
505 recEvt->addMdcKalTrack(mdcKalTrackRoot);
506 }
507
508 return StatusCode::SUCCESS;
509}
510#endif
Double_t x[10]
ObjectVector< DstMdcKalTrack > DstMdcKalTrackCol
double sin(const BesAngle a)
double cos(const BesAngle a)
static TDstEvent * getWriteObject()
returns object to be written (maintained here for all DIGI-converters)
void setFHelix(const HepVector &fhelix, const int pid)
void setPhi(const double phi, const int pid)
void setZError(const HepSymMatrix &error, const int pid)
void setPoca(const HepPoint3D &poca, const int pid)
void setTheta(const double theta, const int pid)
void setPxy(const double pxy, const int pid)
void setFError(const HepSymMatrix &ferror, const int pid)
void setZHelix(const HepVector &helix, const int pid)
void setCharge(const int charge, const int pid)
MdcKalTrackCnv(ISvcLocator *svc)
virtual StatusCode TObjectToDataObject(DataObject *&obj)
transformation from root
virtual StatusCode DataObjectToTObject(DataObject *obj, RootAddress *addr)
transformation to root
Definition of a Root address, derived from IOpaqueAddress.
IDataProviderSvc * m_eds
pointer to eventdataservice
std::vector< void * > m_adresses
each converter knows the corresponding adresses
std::string m_rootBranchname
root branchname (may be concatenated of severals)
virtual StatusCode createRep(DataObject *pObject, IOpaqueAddress *&refpAddress)
Convert the transient object to the requested representation.
void addMdcKalTrack(TMdcKalTrack *Track)
Definition: TDstEvent.cxx:186
void setChisq(const Double_t chisq, const Int_t pid)
static std::map< const TObject *, const DstMdcKalTrack * > m_rootMdcKalTrackMap