BOSS 7.0.6
BESIII Offline Software System
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MdcGeomSvc.cxx
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1#include "GaudiKernel/Algorithm.h"
3#include "GaudiKernel/Kernel.h"
4#include "GaudiKernel/IIncidentSvc.h"
5#include "GaudiKernel/Incident.h"
6#include "GaudiKernel/IIncidentListener.h"
7#include "GaudiKernel/IInterface.h"
8#include "GaudiKernel/StatusCode.h"
9#include "GaudiKernel/SvcFactory.h"
10#include "GaudiKernel/PropertyMgr.h"
11#include "GaudiKernel/SmartDataPtr.h"
14#include "GaudiKernel/MsgStream.h"
16#include "EventModel/Event.h"
17#include "GaudiKernel/ISvcLocator.h"
18#include "GaudiKernel/IDataProviderSvc.h"
19#include "GaudiKernel/Bootstrap.h"
20#include <fstream>
21#include <float.h>
22
23
24
25// initialize static members
26bool MdcGeomSvc::m_doSag = true;
29
30MdcGeomSvc::MdcGeomSvc( const std::string& name, ISvcLocator* svcloc ) : Service(name, svcloc) {
31 if(getenv("MDCGEOMSVCROOT")){
32 m_alignFilePath = std::string(getenv("MDCGEOMSVCROOT"))+std::string("/share/MdcAlignPar.dat");
33 //std::cout<<" the MDC alignment file: "<<m_alignFilePath<<std::endl;
34
35 m_wirePosFilePath = std::string(getenv("MDCGEOMSVCROOT"))+std::string("/share/WirePosCalib.dat");
36 //std::cout<<" the MDC wire position file: "<<m_wirePosFilePath<<std::endl;
37
38 m_wireTensionFilePath = std::string(getenv("MDCGEOMSVCROOT"))+std::string("/share/mdcWireTension.dat");
39 //std::cout<<" the MDC wire tension file: "<<m_wireTensionFilePath<<std::endl;
40
41 }
42 else {
43 std::cout<<"A fatal error, contact wangjk..."<<std::endl;
44 }
45
46 declareProperty("doSag", m_doSag = true);
47 declareProperty("readAlignParDataBase", m_readAlignParDataBase = true);
48 declareProperty("mcnoalignment",m_nomcalignment=true);
49 declareProperty("wholeShiftX",m_wholeShiftX = 0.);
50 declareProperty("wholeShiftY",m_wholeShiftY = 0.);
51 declareProperty("wholeShiftZ",m_wholeShiftZ = 0.);
52 declareProperty("wholeRotatX",m_wholeRotatX = 0.);
53 declareProperty("wholeRotatY",m_wholeRotatY = 0.);
54 declareProperty("wholeRotatZ",m_wholeRotatZ = 0.);
55 declareProperty("alignFilePath",m_alignFilePath);
56 declareProperty("wirePosFilePath",m_wirePosFilePath);
57 declareProperty("wireTensionFilePath",m_wireTensionFilePath);
58
59
60}
61
62StatusCode MdcGeomSvc::queryInterface (const InterfaceID& riid, void** ppvInterface ){
63
64 if ( IID_IMdcGeomSvc.versionMatch(riid) ) {
65 *ppvInterface = static_cast<IMdcGeomSvc*> (this);
66 } else {
67 return Service::queryInterface(riid, ppvInterface) ;
68 }
69 return StatusCode::SUCCESS;
70}
71
72StatusCode MdcGeomSvc::initialize ( ) {
73 MsgStream log(messageService(), name());
74 log << MSG::INFO << name() << ": Start of run initialisation" << endreq;
75
76 StatusCode sc = Service::initialize();
77 if ( sc.isFailure() ) return sc;
78 m_mindex=0;
79 m_updataalign = false;
80 IIncidentSvc* incsvc;
81 sc = service("IncidentSvc", incsvc);
82 int priority = 100;
83 if( sc.isSuccess() ){
84 incsvc -> addListener(this, "NewRun", priority);
85 }
86
87 // ReadFilePar(); // get geometry data from file SimUtil/dat/Mdc.txt
88 // Fill(); // get geometry data from Database
89
90 sc = service("CalibDataSvc", m_pCalibDataSvc, true);
91
92 if ( !sc.isSuccess() ) {
93 log << MSG::ERROR
94 << "Could not get IDataProviderSvc interface of CalibXmlCnvSvc"
95 << endreq;
96 return sc;
97 } else {
98 log << MSG::DEBUG
99 << "Retrieved IDataProviderSvc interface of CalibXmlCnvSvc"
100 << endreq;
101 }
102 ReadFilePar();
103 return StatusCode::SUCCESS;
104}
105
106StatusCode MdcGeomSvc::finalize ( ) {
107 MsgStream log(messageService(), name());
108 log << MSG::INFO << name() << ": End of Run" << endreq;
109 return StatusCode::SUCCESS;
110}
111
113 for(vector<MdcGeoLayer*>::iterator it1 = fLayers.begin(); it1 != fLayers.end(); it1++) delete *it1;
114 for(vector<MdcGeoSuper*>::iterator it2 = fSupers.begin(); it2 != fSupers.end(); it2++) delete *it2;
115 for(vector<MdcGeoWire*>::iterator it3 = fWires.begin(); it3 != fWires.end(); it3++) delete *it3;
116 for(vector<MdcGeoEnd*>::iterator it4 = fEnd.begin(); it4 != fEnd.end(); it4++) delete *it4;
117 fGenerals.clear();
118 fWires.clear();
119 fLayers.clear();
120 fSupers.clear();
121 fEnd.clear();
122}
123
124void MdcGeomSvc::clean(){
125 for(vector<MdcGeoLayer*>::iterator it1 = fLayers.begin(); it1 != fLayers.end(); it1++) delete *it1;
126 for(vector<MdcGeoSuper*>::iterator it2 = fSupers.begin(); it2 != fSupers.end(); it2++) delete *it2;
127 for(vector<MdcGeoWire*>::iterator it3 = fWires.begin(); it3 != fWires.end(); it3++) delete *it3;
128 for(vector<MdcGeoEnd*>::iterator it4 = fEnd.begin(); it4 != fEnd.end(); it4++) delete *it4;
129 fGenerals.clear();
130 fWires.clear();
131 fLayers.clear();
132 fSupers.clear();
133 fEnd.clear();
134}
135
136
137void MdcGeomSvc::ReadFilePar(){
138 std::string geometryFilePath = getenv("MDCSIMROOT");
139 geometryFilePath += "/dat/Mdc.txt";
140 std::ifstream inFile(geometryFilePath.c_str() );
141
142 if(!inFile.good()){
143 std::cout<<"Error, mdc parameters file not exist"<<std::endl;
144 return;
145 }
146 std::string alignFilePath;
147 std::string wirePosFilePath;
148 std::string wireTensionFilePath;
149 if (!m_updataalign) {
150 alignFilePath = std::string(getenv("MDCGEOMSVCROOT"))+std::string("/share/MdcAlignPar.dat");
151 wirePosFilePath = std::string(getenv("MDCGEOMSVCROOT"))+std::string("/share/WirePosCalib.dat");
152 wireTensionFilePath = std::string(getenv("MDCGEOMSVCROOT"))+std::string("/share/mdcWireTension.dat");
153 } else {
154 alignFilePath = m_alignFilePath;
155 wirePosFilePath = m_wirePosFilePath;
156 wireTensionFilePath = m_wireTensionFilePath;
157 }
158 std::ifstream alignFile(alignFilePath.c_str());
159 std::ifstream wirePosFile(wirePosFilePath.c_str());
160 std::ifstream wireTensionFile(wireTensionFilePath.c_str());
161
162 if(!wirePosFile){
163 std::cout<<"Error, mdc wire position file not exist..."<<std::endl;
164 }
165
166 if(!wireTensionFile){
167 std::cout<<"Error, mdc wire tension file not exist..."<<std::endl;
168 }
169
170 std::vector<double> wireTensionVec;
171 //cout << __FILE__ << " " << __LINE__ << " readdb = " << m_readAlignParDataBase
172 // << " update align = " << m_updataalign << endl;
173 if (m_readAlignParDataBase && m_updataalign) {
174 ReadTensionDataBase(wireTensionVec);
175 }else {
176 cout << "Read wireTension from file:" << wireTensionFilePath.c_str() << endl;
177 int idd;
178 double tension;
179 for(int ii=0; ii<6796; ii++){
180 wireTensionFile>>idd>>tension;
181
182 if(getSagFlag()){
183 wireTensionVec.push_back(tension);
184 }
185 else {
186 tension = DBL_MAX;
187 wireTensionVec.push_back(tension);
188 }
189 }
190 }
191
192 std::vector<vector<double> > wirePosVec(6796);
193 if (m_readAlignParDataBase && m_updataalign) {
194 ReadWirePosDataBase(wirePosVec);
195 } else {
196 cout << "Read wirePosition from file:" << wirePosFilePath.c_str() << endl;
197 double dxe,dye,dze,dxw,dyw,dzw;
198 int wid;
199 std::string title;
200 getline(wirePosFile, title);
201 wirePosFile.seekg(1,ios::cur);
202 for(int j=0; j<6796; j++){
203 wirePosFile>>wid>>dxe>>dye>>dze>>dxw>>dyw>>dzw;
204 wirePosVec[j].push_back(dxe);
205 wirePosVec[j].push_back(dye);
206 wirePosVec[j].push_back(dze);
207 wirePosVec[j].push_back(dxw);
208 wirePosVec[j].push_back(dyw);
209 wirePosVec[j].push_back(dzw);
210 /// test
211 /*
212 for(int jj=0;jj<6;jj++){
213 std::cout<<" wid: "<<wid<<" dxe: "<<wirePosVec[j][0]<<" dye: "<<wirePosVec[j][1]<<" dze: "<<wirePosVec[j][2]<<" dxw: "<<wirePosVec[j][3]<<" dyw: "<<wirePosVec[j][4]<<" dzw: "<<wirePosVec[j][5]<<std::endl;
214 }
215 */
216 }
217 }
218
219 double signalWireR, fieldWireR;
220 int TLayerNo, TWireNo,TSignalLayerNo,fSignalLayer[50];
221 int i,wireNo, firstWire,segmentNo,signalLayer;
222 double length, nomphi, phi, r,nomaadiv2, aadiv2,
223 nomaa, aa, nomrotateCell, rotateCell, wlength, innerR, outR, z;
224 std::string layer, name, line;
225
226 vector<int> WireNo, fSegmentNo;
227 vector<double> wLength, R, nomPhi, Phi,nomadiv2, adiv2, First,
228 noma, a, nomebusing, ebusing, nomsigma, sigma, nomdeltaz, deltaz,
229 nomRotate, Rotate, fLength, fInnerR, fOutR, fZ;
230 vector<string> LayerName, fName;
231 vector<double> Sx,Sy,Sz,Rx,Ry,Rz;
232 double tmp1,tmp2,tmp3,tmp4,tmp5,tmp6;
233
234 /// read alignment file
235
236 if (m_readAlignParDataBase && m_updataalign) {
237 ReadAliParDataBase(Sx, Sy, Sz, Rx, Ry, Rz);
238 } else {
239 cout << "Read alignment parameters from file:" << alignFilePath.c_str() << endl;
240 getline(alignFile, line);
241 alignFile.seekg(1,ios::cur);
242 for(int k=0;k<16;k++){
243 alignFile>>line>>tmp1>>tmp2>>tmp3>>tmp4>>tmp5>>tmp6;
244 //changed by luot 10.03.12
245 //if (!m_updataalign) {
246 // tmp1 = 0.0;
247 // tmp2 = 0.0;
248 // tmp3 = 0.0;
249 // tmp4 = 0.0;
250 // tmp5 = 0.0;
251 // tmp6 = 0.0;
252 //}
253 Sx.push_back(m_wholeShiftX+tmp1);
254 Sy.push_back(m_wholeShiftY+tmp2);
255 Sz.push_back(m_wholeShiftZ+tmp3);
256 Rx.push_back(m_wholeRotatX+tmp4);
257 Ry.push_back(m_wholeRotatY+tmp5);
258 Rz.push_back(m_wholeRotatZ+tmp6);
259 }
260 /// test the service
261 /// for(int m=0;m<16;m++) std::cout<<" Rz["<<m<<"] is: "<<Rz[m]<<std::endl;
262 }
263
264 getline(inFile, line);
265 inFile>>TLayerNo>>TWireNo>>TSignalLayerNo>>signalWireR>>fieldWireR;
266 inFile.seekg(1,ios::cur);
267 getline(inFile, line);
268 for( i=0; i<TSignalLayerNo; i++){
269 inFile>>signalLayer;
270 /// signalLayer is the index of this signalLayer in all the layers
271 fSignalLayer[i]=signalLayer-1;
272 }
273
274 inFile.seekg(1,ios::cur);
275 getline(inFile, line);
276 getline(inFile, line);
277
278 int i_east,i_west;
279 double delta_rotateCell;
280 /// in this loop we read the file and store them into according vectors
281 for( i=0; i<TLayerNo; i++){
282 i_east=getAlignParIndexEast(i);
283 i_west=getAlignParIndexWest(i);
284
285 inFile>>layer>>wireNo>>wlength>>r>>nomphi>>firstWire>>nomrotateCell;
286 getline(inFile, line);
287
288 /// wireNo is the total wire number of this layer, including both signal
289 /// wire& field wire
290 nomaadiv2=2*pi*nomrotateCell/wireNo;
291 //aadiv2=2*pi*rotateCell/wireNo+0.5*(Rz[i_west]-Rz[i_east]);
292 nomaa=2*r*sin(nomaadiv2);
293 delta_rotateCell=(Rz[i_west]-Rz[i_east])*wireNo/(4*pi);
294 rotateCell=nomrotateCell+delta_rotateCell;
295 aadiv2=2*pi*rotateCell/wireNo;
296 aa=2*r*sin(aadiv2);
297
298 double shiftPhi=twopi/wireNo;
299 nomphi*=deg;
300 if(nomphi<0) nomphi += shiftPhi; //By definition, phi of first wire must >=0
301 phi=nomphi+Rz[i_east];
302 LayerName.push_back(layer);
303 WireNo.push_back(wireNo);
304 wLength.push_back(wlength);
305 R.push_back(r);
306 nomPhi.push_back(nomphi);
307 Phi.push_back(phi);
308 //nomadiv2.push_back(nomaadiv2);
309 //adiv2.push_back(aadiv2);
310 First.push_back(firstWire);
311 //noma.push_back(nomaa);
312 a.push_back(aa);
313 /// CLHEP says that:
314 /// static const double radian = 1.;
315 /// static const double degree = (3.14159265358979323846/180.0)*radian
316 /// static const double deg = degree;
317
318 nomebusing.push_back(atan(nomaa/wlength));
319 ebusing.push_back(atan(aa/wlength));
320
321 //if(aa==0.0) sigma.push_back(0.0);
322 //else sigma.push_back(0.13*wlength/aa);
323 //nomdeltaz.push_back(r*(1.0-cos(nomaadiv2)));
324 //deltaz.push_back(r*(1.0-cos(aadiv2)));
325 nomRotate.push_back(nomrotateCell);
326 Rotate.push_back(rotateCell);
327 }
328
329 getline(inFile, line);
330 inFile>>segmentNo;
331 inFile.seekg(1,ios::cur);
332 getline(inFile, line);
333 getline(inFile, line);
334
335 for(i=0; i<segmentNo; i++){
336 inFile>>length>>innerR>>outR>>z>>name;
337 getline(inFile,line);
338 fLength.push_back(length);
339 fInnerR.push_back(innerR);
340 fOutR.push_back(outR);
341 fZ.push_back(z);
342 fName.push_back(name);
343 }
344
345 /// Variables used here are as follows,
346 /// MdcGeoGeneral hlh;
347 /// MdcGeoSuper* suph;
348 /// MdcGeoLayer* lh;
349 /// MdcGeoWire* wh;
350 /// MdcGeoEnd* end;
351
352 //MdcGeoGeneral include signal wire and field wire
353 MdcGeoGeneral hlh;
354 double a1,a2,a3,nomphi0,phi0,cellphi;
355 double noma1,noma2,noma3;
356 for(i=0;i<TLayerNo;i++){
357 i_east=getAlignParIndexEast(i);
358 i_west=getAlignParIndexWest(i);
359 hlh.Id(i);
360 hlh.LayerName(LayerName[i]);
361 hlh.Radius(R[i]);
362 hlh.Length(wLength[i]);
363 hlh.NCell(WireNo[i]/2);
364 //east endcap rotates away from designed position by Phi considering misalignment,
365 //nomPhi without considering misalignment
366 hlh.Offset(Phi[i]);
367 hlh.nomOffset(nomPhi[i]);
368 hlh.Phi(Phi[i]);
369 hlh.nomPhi(nomPhi[i]);
370 hlh.First((int)First[i]);
371 HepPoint3D offF(Sx[i_west],Sy[i_west],Sz[i_west]);
372 HepPoint3D offB(Sx[i_east],Sy[i_east],Sz[i_east]);
373 hlh.OffF(offF);
374 hlh.OffB(offB);
375 hlh.TwistF(Rz[i_west]);
376 hlh.TwistB(Rz[i_east]);
377 //west endcap rotates away from designed position by Rotate considering misalignment,
378 //nomRotate without considering misalignment
379 hlh.Shift(Rotate[i]);
380 hlh.nomShift(nomRotate[i]);
381 hlh.SxEast(Sx[i_east]);
382 hlh.SxWest(Sx[i_west]);
383 hlh.SyEast(Sy[i_east]);
384 hlh.SyWest(Sy[i_west]);
385 hlh.SzEast(Sz[i_east]);
386 hlh.SzWest(Sz[i_west]);
387
388 hlh.RxEast(Rx[i_east]);
389 hlh.RxWest(Rx[i_west]);
390 hlh.RyEast(Ry[i_east]);
391 hlh.RyWest(Ry[i_west]);
392 hlh.RzEast(Rz[i_east]);
393 hlh.RzWest(Rz[i_west]);
394 fGenerals.push_back(hlh);
395 }
396
397 MdcGeoSuper *suph;
398 for(i=0;i<TSignalLayerNo;i++){
399 //MdcGeoLayer only represent signal wires
400 MdcGeoLayer *lh = new MdcGeoLayer();
401 // lh is a signalwire layer
402 int lyr=fSignalLayer[i];
403 // the value of lyr starts from 1,because the first layer of MDC is field
404 // wire
405 i_east=getAlignParIndexEast(lyr);
406 i_west=getAlignParIndexWest(lyr);
407 lh->SLayer(lyr+1);
408 if(i%4==0){
409 suph = new MdcGeoSuper();
410 suph->LowerR(R[lyr-1]);
411 if(i==40){
412 suph->UpperR(R[lyr+5]);
413 }
414 else {
415 suph->UpperR(R[lyr+7]);
416 }
417 switch(i/4){
418 case 0: suph->Type(-1); break;
419 case 1: suph->Type( 1); break;
420 case 2: suph->Type( 0); break;
421 case 3: suph->Type( 0); break;
422 case 4: suph->Type( 0); break;
423 case 5: suph->Type(-1); break;
424 case 6: suph->Type( 1); break;
425 case 7: suph->Type(-1); break;
426 case 8: suph->Type( 1); break;
427 case 9: suph->Type( 0); break;
428 case 10: suph->Type(0); break;
429 default: break;
430 }
431 suph->Id(i/4);
432 fSupers.push_back(suph);
433 }
434 /// attention, it is 2*twopi means 4*pi
435 cellphi=2*twopi/WireNo[lyr];
436 /// calculate the phi angle of the sense wire of the first cell of the layer
437 phi0=Phi[lyr]+abs(First[lyr]-1)*(cellphi/2);
438 nomphi0=nomPhi[lyr]+abs(First[lyr]-1)*(cellphi/2);
439 lh->Id(i);
440 int wircount=0;
441 for(int wk=0; wk<i; wk++){
442 int lyrwk=fSignalLayer[wk];
443 wircount=wircount + WireNo[lyrwk]/2;
444 };
445 /// Wirst is the the global number of the first signal wire of this layer
446 /// in all the signal wire
447 lh->Wirst(wircount);
448 lh->Slant(ebusing[lyr]);
449 lh->nomSlant(nomebusing[lyr]);
450 lh->Radius(R[lyr]);
451 lh->Length(wLength[lyr]);
452 lh->RCSiz1(R[lyr]-R[lyr-1]);
453 lh->RCSiz2(R[lyr+1]-R[lyr]);
454 lh->PCSiz(R[lyr]*cellphi);
455 lh->NCell(WireNo[lyr]/2);
456 lh->Offset(phi0);
457 lh->Shift(Rotate[lyr]);
458 lh->nomOffset(nomphi0);
459 lh->nomShift(nomRotate[lyr]);
460
461 vector<MdcGeoSuper*>::iterator it1 = fSupers.end()-1;
462 lh->Sup(* it1);
463 fLayers.push_back(lh);
464 int geo = -1;
465 if (i < 8) {
466 geo = i * 2 + 1;
467 } else if (i < 20) {
468 geo = i * 2 + 2;
469 } else if (i < 36) {
470 geo = i * 2 + 3;
471 } else {
472 geo = i * 2 + 4;
473 }
474 lh->Gen(geo);
475
476 for(int j=0;j<WireNo[lyr]/2;j++){
477 /// wh is signal wire
478 MdcGeoWire *wh = new MdcGeoWire();
479 const int wireId = wircount+j;
480 wh->Id(wireId);
481
482 /// caluculate misaligned wire position
483 a1 = R[lyr]*cos(phi0+j*cellphi)+Sx[i_east]+wirePosVec[wireId][0];
484 a2 = R[lyr]*sin(phi0+j*cellphi)+Sy[i_east]+wirePosVec[wireId][1];
485 a3 = wLength[lyr]/2+wirePosVec[wireId][2]+Sz[i_east];
486 //a3 = wLength[lyr]/2+wirePosVec[wireId][2];
487 //MDC rotate around x firstly;
488 double xb = a1;
489 double yb = a2 * cos(Rx[i_east]) + a3 * sin(Rx[i_east]);
490 double zb = a3 * cos(Rx[i_east]) - a2 * sin(Rx[i_east]);
491
492 //then MDC rotate around y;
493 double xbnew = xb * cos(Ry[i_east]) - zb * sin(Ry[i_east]);
494 double ybnew = yb;
495 double zbnew = xb * sin(Ry[i_east]) + zb * cos(Ry[i_east]);
496 ///
497 noma1 = R[lyr]*cos(nomphi0+j*cellphi);
498 noma2 = R[lyr]*sin(nomphi0+j*cellphi);
499 /// attention wLength[lyr] not the true length of the wire
500 noma3 = wLength[lyr]/2;
501 //HepPoint3D pb(a1,a2,a3);
502 HepPoint3D pb(xbnew,ybnew,zbnew);
503 HepPoint3D nompb(noma1,noma2,noma3);
504 HepPoint3D wireposb(wirePosVec[wireId][0],wirePosVec[wireId][1],wirePosVec[wireId][2]);
505 wh->Backward(pb);
506 wh->nomBackward(nompb);
507 wh->BWirePos(wireposb);
508
509 //double g1 = noma1*cos(Rz[i_east]) - noma2*sin(Rz[i_east]) + Sx[i_east] + wirePosVec[wireId][0];
510 //double g2 = noma2*cos(Rz[i_east]) + noma1*sin(Rz[i_east]) + Sy[i_east] + wirePosVec[wireId][1];
511 //double g3 = noma3 + wirePosVec[wireId][2];
512 //HepPoint3D backward_test(g1,g2,g3);
513
514 a1 = R[lyr]*cos(phi0+(j+lh->Shift())*cellphi)+Sx[i_west]+wirePosVec[wireId][3];
515 a2 = R[lyr]*sin(phi0+(j+lh->Shift())*cellphi)+Sy[i_west]+wirePosVec[wireId][4];
516 //a3 = -wLength[lyr]/2+wirePosVec[wireId][5];
517 a3 = -wLength[lyr]/2+wirePosVec[wireId][5]+Sz[i_west];
518 //MDC rotate around x firstly;
519 double xf = a1;
520 double yf = a2 * cos(Rx[i_west]) + a3 * sin(Rx[i_west]);
521 double zf = a3 * cos(Rx[i_west]) - a2 * sin(Rx[i_west]);
522
523 //then MDC rotate around y;
524 double xfnew = xf * cos(Ry[i_west]) - zf * sin(Ry[i_west]);
525 double yfnew = yf;
526 double zfnew = xf * sin(Ry[i_west]) + zf * cos(Ry[i_west]);
527
528 noma1 = R[lyr]*cos(nomphi0+(j+lh->nomShift())*cellphi);
529 noma2 = R[lyr]*sin(nomphi0+(j+lh->nomShift())*cellphi);
530 noma3 = -wLength[lyr]/2;
531 //HepPoint3D pf(a1,a2,a3);
532 HepPoint3D pf(xfnew, yfnew, zfnew);
533 HepPoint3D nompf(noma1,noma2,noma3);
534 HepPoint3D wireposf(wirePosVec[wireId][3],wirePosVec[wireId][4],wirePosVec[wireId][5]);
535 wh->Forward(pf);
536 wh->nomForward(nompf);
537 wh->FWirePos(wireposf);
538
539 //double f1 = noma1*cos(Rz[i_west]) - noma2*sin(Rz[i_west]) + Sx[i_west] + wirePosVec[wireId][3];
540 //double f2 = noma2*cos(Rz[i_west]) + noma1*sin(Rz[i_west]) + Sy[i_west] + wirePosVec[wireId][4];
541 //double f3 = noma3 + wirePosVec[wireId][5];
542 //HepPoint3D forward_test(f1,f2,f3);
543 /// test
544 /// std::cout<<" wireId: "<<wireId<<" backward position:"<< wh->Backward()<<" forward position: "<<wh->Forward()<<std::endl;
545 wh->Layer(i);
546 wh->Cell(j);
547 wh->Stat(0);
548 wh->Slant(ebusing[lyr]);
549 wh->nomSlant(nomebusing[lyr]);
550
551 /// set the tension and wire sag
552 wh->Tension(wireTensionVec[wireId]);
553 //std::cout<<" wh->Tension: "<< wh->Tension()<<std::endl;
554 //std::cout<<" wire sag: "<<wh->Sag(wireId)<<std::endl;
555
556 /// because of just before have fLayers.push_back(lh);
557 /// so use it2 = fLayers.end()-1 to get the MdcGeoLayer
558 /// which have just push_back into the stack
559 vector<MdcGeoLayer*>::iterator it2 = fLayers.end()-1;
560 wh->Lyr(* it2);
561 fWires.push_back(wh);
562 }
563 }
564
565 fMisc.OuterR(fOutR[1]);
566 fMisc.InnerR(fInnerR[2]);
567 fMisc.OuterTk(fOutR[1]-fInnerR[1]);
568 fMisc.InnerTk(fOutR[2]-fInnerR[2]);
569 fMisc.NSWire(fWires.size());
570 fMisc.NFWire(TWireNo-fWires.size());
571
572 fMisc.LayerNo(TLayerNo);
573 fMisc.WireNo(TWireNo);
574 fMisc.SLayerNo(TSignalLayerNo);
575 fMisc.SWireR(signalWireR);
576 fMisc.FWireR(fieldWireR);
577
578 for(i=0;i<segmentNo;i++){
579 MdcGeoEnd * end=new MdcGeoEnd();
580 end->Id(i);
581 end->Length(fLength[i]);
582 end->InnerR(fInnerR[i]);
583 end->OutR(fOutR[i]);
584 end->Z(fZ[i]);
585 end->Name(fName[i]);
586 fEnd.push_back(end);
587 }
588}
589
590void MdcGeomSvc::ReadTensionDataBase(std::vector<double> & wireTensionVec){
591 std::string fullPath = "/Calib/MdcAlign";
592 MsgStream log(messageService(), name());
593 log << MSG::INFO<<"ReadTensionDataBase() wireTensionPath = "<<fullPath<< endreq;
594 cout << "Read wireTension from Calibration Database!" << endl;
595
596 SmartDataPtr<CalibData::MdcAlignData> tension(m_pCalibDataSvc, fullPath);
597 if( ! tension){
598 log << MSG::ERROR << "can not get MdcAlignConst via SmartPtr"
599 << endreq;
600 return;
601 }
602 for(int i=0;i<6796;i++){
603 double tens = tension->gettension(i);
604 wireTensionVec.push_back(tens);
605 }
606}
607void MdcGeomSvc::ReadWirePosDataBase(std::vector<vector<double> > & wirePosVec){
608 std::string fullPath = "/Calib/MdcAlign";
609 MsgStream log(messageService(), name());
610 log << MSG::INFO<<"ReadWirePosDataBase() wirePositionPath = "<<fullPath<< endreq;
611
612 cout << "Read wirePosition from Calibration Database!" << endl;
613 SmartDataPtr<CalibData::MdcAlignData> wirepos(m_pCalibDataSvc, fullPath);
614 if( ! wirepos){
615 log << MSG::ERROR << "can not get MdcAlignConst via SmartPtr"
616 << endreq;
617 return;
618 }
619 double dxe,dye,dze,dxw,dyw,dzw;
620 for(int j=0; j<6796; j++){
621
622 dxe = wirepos->getdxWireEast(j);
623 dye = wirepos->getdyWireEast(j);
624 dze = wirepos->getdzWireEast(j);
625 dxw = wirepos->getdxWireWest(j);
626 dyw = wirepos->getdyWireWest(j);
627 dzw = wirepos->getdzWireWest(j);
628
629 wirePosVec[j].push_back(dxe);
630 wirePosVec[j].push_back(dye);
631 wirePosVec[j].push_back(dze);
632 wirePosVec[j].push_back(dxw);
633 wirePosVec[j].push_back(dyw);
634 wirePosVec[j].push_back(dzw);
635 }
636
637}
638void MdcGeomSvc::ReadAliParDataBase(vector<double>& Sx, vector<double>& Sy, vector<double>& Sz,
639 vector<double>& Rx, vector<double>& Ry, vector<double>& Rz){
640 MsgStream log(messageService(), name());
641 std::string fullPath = "/Calib/MdcAlign";
642 log << MSG::INFO<<"ReadAliParDataBase() alignParPath = "<<fullPath<< endreq;
643 cout << "Read alignment parameters from Calibration Database!" << endl;
644
645 SmartDataPtr<CalibData::MdcAlignData> alignpar(m_pCalibDataSvc, fullPath);
646 if( ! alignpar){
647 log << MSG::ERROR << "can not get MdcAlignConst via SmartPtr"
648 << endreq;
649 return;
650 }
651 double tmp1,tmp2,tmp3,tmp4,tmp5,tmp6;
652 for(int k=0;k<16;k++){
653 tmp1 = alignpar->getdxEP(k);
654 tmp2 = alignpar->getdyEP(k);
655 tmp3 = alignpar->getdzEP(k);
656 tmp4 = alignpar->getrxEP(k);
657 tmp5 = alignpar->getryEP(k);
658 tmp6 = alignpar->getrzEP(k);
659
660 Sx.push_back(m_wholeShiftX+tmp1);
661 Sy.push_back(m_wholeShiftY+tmp2);
662 Sz.push_back(m_wholeShiftZ+tmp3);
663 Rx.push_back(m_wholeRotatX+tmp4);
664 Ry.push_back(m_wholeRotatY+tmp5);
665 Rz.push_back(m_wholeRotatZ+tmp6);
666 }
667
668}
670{
671 return fWires.size();
672}
673
675{
676 return fLayers.size();
677}
678
680{
681 return fSupers.size();
682}
683
685{
686 return fGenerals.size();
687}
688
690{
691 return fEnd.size();
692}
693
695
696const int MdcGeomSvc::getAlignParIndexEast(int lyr) const{
697 /// the Mdc small endplate east
698 if((lyr>=0) && (lyr<=16)) return 0;
699 /// the 1th ring east
700 else if((lyr>=17) && (lyr<=20)) return 1;
701 /// the 2th ring east
702 else if((lyr>=21) && (lyr<=24)) return 2;
703 /// the 3th ring east
704 else if((lyr>=25) && (lyr<=28)) return 3;
705 /// the 4th ring east
706 else if((lyr>=29) && (lyr<=32)) return 4;
707 /// the 5th ring east
708 else if((lyr>=33) && (lyr<=36)) return 5;
709 /// the 6th ring east
710 else if((lyr>=37) && (lyr<=41)) return 6;
711 /// the Mdc big endplate east
712 else if(lyr>=42) return 7;
713 else std::cout<<" Hi, ERROR OCCUR !!!"<<std::endl;
714 return -1;
715}
716
717
718const int MdcGeomSvc::getAlignParIndexWest(int lyr) const{
719 /// the Mdc small endplate west
720 if((lyr>=0) && (lyr<=16)) return 8;
721 /// the 1th ring west
722 else if((lyr>=17) && (lyr<=20)) return 9;
723 /// the 2th ring west
724 else if((lyr>=21) && (lyr<=24)) return 10;
725 /// the 3th ring west
726 else if((lyr>=25) && (lyr<=28)) return 11;
727 /// the 4th ring west
728 else if((lyr>=29) && (lyr<=32)) return 12;
729 /// the 5th ring west
730 else if((lyr>=33) && (lyr<=36)) return 13;
731 /// the 6th ring west
732 else if((lyr>=37) && (lyr<=41)) return 14;
733 /// the Mdc big endplate west
734 else if(lyr>=42) return 15;
735 else std::cout<<" Hi, ERROR OCCUR !!!"<<std::endl;
736 return -1;
737}
738
739
740/// this handle function is prepared for special use
741void MdcGeomSvc::handle(const Incident& inc){
742 MsgStream log( messageService(), name() );
743 log << MSG::DEBUG << "handle: " << inc.type() << endreq;
744 IDataProviderSvc* m_eventSvc;
745 Gaudi::svcLocator()->service("EventDataSvc", m_eventSvc, true);
746 SmartDataPtr<Event::EventHeader> eventHeader(m_eventSvc,"/Event/EventHeader");
747 if (!eventHeader) {
748 log << MSG::FATAL << "Could not find Event Header" << endreq;
749 }
750 if (m_updataalign) return;
751 if (inc.type() == "NewRun" ){
752 log << MSG::DEBUG << "Begin Event" << endreq;
753 clean();
754 m_updataalign = true;
755 if(m_nomcalignment&&m_mindex==0) {
756 int RunNo=eventHeader->runNumber();
757 if(RunNo<0) m_readAlignParDataBase=false ;
758 else m_readAlignParDataBase=true;
759 m_mindex+=1;
760 cout<<"m__RunNo="<<RunNo<<"m_mindex="<<m_mindex<<endl;
761 }
762 //std::cout<<"############"<<m_readAlignParDataBase<<std::endl;
763 ReadFilePar();
764 }
765}
766
767const MdcGeoWire * const
768 MdcGeomSvc::Wire(unsigned id){
769 if (id < fWires.size())
770 return fWires[id];
771
772 return 0;
773 }
774
775const MdcGeoWire * const
776 MdcGeomSvc::Wire(unsigned lyrid, unsigned wirid){
777 if ((lyrid <fLayers.size()) && ((int) wirid < Layer(lyrid)->NCell()))
778 return fWires[Layer(lyrid)->Wirst() + wirid];
779
780 return 0;
781 }
782
783const MdcGeoLayer * const
784 MdcGeomSvc::Layer(unsigned id){
785 if (id < fLayers.size())
786 return fLayers[id];
787
788 return 0;
789 }
790
791const MdcGeoSuper * const
793 if (id < fSupers.size())
794 return fSupers[id];
795
796 return 0;
797 }
798
799const MdcGeoGeneral * const
801 if (id < fGenerals.size())
802 return & fGenerals[id];
803
804 return 0;
805 }
806
807const MdcGeoMisc * const
809 return & fMisc;
810}
811
812const MdcGeoEnd * const
813 MdcGeomSvc::End(unsigned id){
814 if (id < fEnd.size())
815 return fEnd[id];
816
817 return 0;
818 }
819
820
822
823 return m_doSag;
824}
825
826
double sin(const BesAngle a)
Definition: BesAngle.h:210
double cos(const BesAngle a)
Definition: BesAngle.h:213
double Phi(RecMdcKalTrack *trk)
TTree * sigma
const int wireNo
titledef title[20]
#define DBL_MAX
Definition: KalFitAlg.h:13
double Length(void) const
Definition: MdcGeoEnd.h:17
string Name(void) const
Definition: MdcGeoEnd.h:21
double InnerR(void) const
Definition: MdcGeoEnd.h:18
double OutR(void) const
Definition: MdcGeoEnd.h:19
double Z(void) const
Definition: MdcGeoEnd.h:20
int Id(void) const
Definition: MdcGeoEnd.h:16
double Length(void) const
int Id(void) const
double nomShift(void) const
double TwistB(void) const
double SzWest(void) const
HepPoint3D OffB(void) const
int NCell(void) const
double nomPhi(void) const
double Phi(void) const
double RxEast(void) const
double SxEast(void) const
double TwistF(void) const
double Offset(void) const
double Shift(void) const
double SyWest(void) const
double SxWest(void) const
string LayerName(void) const
double RxWest(void) const
double nomOffset(void) const
double RyWest(void) const
HepPoint3D OffF(void) const
int First(void) const
double SzEast(void) const
double RzWest(void) const
double RzEast(void) const
double SyEast(void) const
double RyEast(void) const
double Radius(void) const
int Id(void) const
Definition: MdcGeoLayer.h:155
double Radius(void) const
Definition: MdcGeoLayer.h:160
double Slant(void) const
Definition: MdcGeoLayer.h:158
int Gen(void) const
Definition: MdcGeoLayer.h:175
double RCSiz2(void) const
Definition: MdcGeoLayer.h:163
double Length(void) const
Definition: MdcGeoLayer.h:161
double PCSiz(void) const
Definition: MdcGeoLayer.h:164
MdcGeoSuper * Sup(void) const
Definition: MdcGeoLayer.h:174
int SLayer(void) const
Definition: MdcGeoLayer.h:156
double nomShift(void) const
Definition: MdcGeoLayer.h:169
double Shift(void) const
Definition: MdcGeoLayer.h:167
double nomSlant(void) const
Definition: MdcGeoLayer.h:159
double RCSiz1(void) const
Definition: MdcGeoLayer.h:162
int NCell(void) const
Definition: MdcGeoLayer.h:165
int Wirst(void) const
Definition: MdcGeoLayer.h:157
double Offset(void) const
Definition: MdcGeoLayer.h:166
double nomOffset(void) const
Definition: MdcGeoLayer.h:168
double FWireR(void) const
Definition: MdcGeoMisc.h:53
int NSWire(void) const
Definition: MdcGeoMisc.h:46
double OuterTk(void) const
Definition: MdcGeoMisc.h:44
int LayerNo(void) const
Definition: MdcGeoMisc.h:49
double InnerR(void) const
Definition: MdcGeoMisc.h:43
int WireNo(void) const
Definition: MdcGeoMisc.h:50
double OuterR(void) const
Definition: MdcGeoMisc.h:42
int NFWire(void) const
Definition: MdcGeoMisc.h:47
double SWireR(void) const
Definition: MdcGeoMisc.h:52
double InnerTk(void) const
Definition: MdcGeoMisc.h:45
int SLayerNo(void) const
Definition: MdcGeoMisc.h:51
double LowerR(void) const
Definition: MdcGeoSuper.h:34
int Id(void) const
Definition: MdcGeoSuper.h:32
double UpperR(void) const
Definition: MdcGeoSuper.h:33
int Type(void) const
Definition: MdcGeoSuper.h:35
HepPoint3D FWirePos(void) const
Definition: MdcGeoWire.h:131
double Slant(void) const
Definition: MdcGeoWire.h:132
int Cell(void) const
Definition: MdcGeoWire.h:137
HepPoint3D BWirePos(void) const
Definition: MdcGeoWire.h:130
int Stat(void) const
Definition: MdcGeoWire.h:139
MdcGeoLayer * Lyr(void) const
Definition: MdcGeoWire.h:140
HepPoint3D nomForward(void) const
Definition: MdcGeoWire.h:134
HepPoint3D Forward(void) const
Definition: MdcGeoWire.h:129
int Id(void) const
Definition: MdcGeoWire.h:127
HepPoint3D nomBackward(void) const
Definition: MdcGeoWire.h:133
int Layer(void) const
Definition: MdcGeoWire.h:138
HepPoint3D Backward(void) const
Definition: MdcGeoWire.h:128
double Tension(void) const
Definition: MdcGeoWire.h:136
double nomSlant(void) const
Definition: MdcGeoWire.h:135
static bool m_readAlignParDataBase
Definition: MdcGeomSvc.h:55
MdcGeomSvc(const std::string &name, ISvcLocator *svcloc)
Definition: MdcGeomSvc.cxx:30
void Dump()
Definition: MdcGeomSvc.cxx:694
virtual StatusCode initialize()
Definition: MdcGeomSvc.cxx:72
static bool getSagFlag(void)
Definition: MdcGeomSvc.cxx:821
const MdcGeoSuper *const SuperLayer(unsigned id)
Definition: MdcGeomSvc.cxx:792
const MdcGeoWire *const Wire(unsigned id)
Definition: MdcGeomSvc.cxx:768
const MdcGeoGeneral *const GeneralLayer(unsigned id)
Definition: MdcGeomSvc.cxx:800
void handle(const Incident &inc)
this handle function is prepared for special use
Definition: MdcGeomSvc.cxx:741
const int getSuperLayerSize()
Definition: MdcGeomSvc.cxx:679
virtual StatusCode finalize()
Definition: MdcGeomSvc.cxx:106
virtual StatusCode queryInterface(const InterfaceID &riid, void **ppvUnknown)
Definition: MdcGeomSvc.cxx:62
const MdcGeoEnd *const End(unsigned id)
Definition: MdcGeomSvc.cxx:813
const MdcGeoLayer *const Layer(unsigned id)
Definition: MdcGeomSvc.cxx:784
static bool m_doSag
Definition: MdcGeomSvc.h:54
const int getSegmentNo()
Definition: MdcGeomSvc.cxx:689
const int getWireSize()
Definition: MdcGeomSvc.cxx:669
const int getGeneralLayerSize()
Definition: MdcGeomSvc.cxx:684
const int getLayerSize()
Definition: MdcGeomSvc.cxx:674
const MdcGeoMisc *const Misc(void)
Definition: MdcGeomSvc.cxx:808
static bool m_nomcalignment
Definition: MdcGeomSvc.h:56
complex_t R(double Q2, double M2, double G, double Mp2, double Mm2)
Definition: TUtil.h:27
const float pi
Definition: vector3.h:133