BOSS 7.1.2
BESIII Offline Software System
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ExtSteppingAction Class Reference

#include <ExtSteppingAction.h>

+ Inheritance diagram for ExtSteppingAction:

Public Member Functions

 ExtSteppingAction ()
 
 ~ExtSteppingAction ()
 
void Reset ()
 
void MucReset ()
 
void UserSteppingAction (const G4Step *currentStep)
 
void SetInitialPath (double aPath)
 
void SetInitialTof (double aTof)
 
void SetBetaInMDC (double aBeta)
 
void SetXpErrPointer (Ext_xp_err *xpErr)
 
void SetMsgFlag (bool aMsgFalg)
 
void SetMucKalFlag (bool aMucKalFlag)
 
void SetMucWindow (int aMucWindow)
 
void SetExtTrackPointer (RecExtTrack *aExtTrack)
 
void CalculateEmcEndThetaPhi (int npart, int sector, int nb, int &ntheta, int &nphi)
 
int CalculateEmcEndPhiNb (int num)
 
int CalculateEmcEndCopyNb (int num)
 
void Set_which_tof_version (int version)
 
int Get_which_tof_version (void)
 
void InfmodMuc (Hep3Vector &pos, Hep3Vector &mom, HepSymMatrix &err)
 
Hep3Vector GetGapID (G4String vol)
 
bool TrackStop ()
 
void SetMucDigiColPointer (MucDigiCol *rawdigicol)
 

Detailed Description

Definition at line 25 of file ExtSteppingAction.h.

Constructor & Destructor Documentation

◆ ExtSteppingAction()

ExtSteppingAction::ExtSteppingAction ( )

Definition at line 33 of file ExtSteppingAction.cxx.

33 :chicc(0.0),initialPath(0.),myPathIntoCrystal(0.),myPathOutCrystal(0.),myPathInCrystal(0.),myBetaInMDC(0.),extXpErr(0),myExtTrack(0),msgFlag(true),myUseMucKalFlag(true),m_trackstop(false),myMucnfit_(0),myMucchisq_(0.),myMucdepth_(-99.),myMucbrLastLay_(-1),myMucecLastLay_(-1),myMucnhits_(-1),myMucWindow(6)
34{
35 myTof1R = 814.001;
36 myTof1Z = 1330.0;
37 myTof2R = 871.036;
38 myEmcR1 = 945.0;
39 myEmcR2 = 983.9;
40 myEmcZ = 1416.8;
41 myMucR = 1700.0-0.01;
42 myMucZ = 2050.0-0.01;
43 m_which_tof_version=2;
44}

◆ ~ExtSteppingAction()

ExtSteppingAction::~ExtSteppingAction ( )

Definition at line 46 of file ExtSteppingAction.cxx.

46{}

Member Function Documentation

◆ CalculateEmcEndCopyNb()

int ExtSteppingAction::CalculateEmcEndCopyNb ( int num)

Definition at line 993 of file ExtSteppingAction.cxx.

994{
995 int copyNb;
996 switch(num){
997 case 30:
998 copyNb = 5;
999 break;
1000 case 31:
1001 copyNb = 6;
1002 break;
1003 case 32:
1004 copyNb = 14;
1005 break;
1006 case 33:
1007 copyNb = 15;
1008 break;
1009 case 34:
1010 copyNb = 16;
1011 break;
1012 default:
1013 copyNb = num;
1014 break;
1015 }
1016 return copyNb;
1017}

Referenced by UserSteppingAction().

◆ CalculateEmcEndPhiNb()

int ExtSteppingAction::CalculateEmcEndPhiNb ( int num)

Definition at line 980 of file ExtSteppingAction.cxx.

981{
982 if(num==0||num==1) {
983 return 15-num*8;
984 } else if(num==2||num==3) {
985 return 30-num*8;
986 } else if(num<=9) {
987 return 17-num;
988 } else {
989 return 15-num;
990 }
991}

Referenced by UserSteppingAction().

◆ CalculateEmcEndThetaPhi()

void ExtSteppingAction::CalculateEmcEndThetaPhi ( int npart,
int sector,
int nb,
int & ntheta,
int & nphi )

Definition at line 897 of file ExtSteppingAction.cxx.

898{
899 if((sector>=0)&&(sector<3))
900 sector+=16;
901 //if((sector!=7)&&(sector!=15))
902 {
903 if((nb>=0)&&(nb<4))
904 {
905 ntheta = 0;
906 nphi = (sector-3)*4+nb;
907 }
908 else if((nb>=4)&&(nb<8))
909 {
910 ntheta = 1;
911 nphi = (sector-3)*4+nb-4;
912 }
913 else if((nb>=8)&&(nb<13))
914 {
915 ntheta = 2;
916 nphi = (sector-3)*5+nb-8;
917 }
918 else if((nb>=13)&&(nb<18))
919 {
920 ntheta = 3;
921 nphi = (sector-3)*5+nb-13;
922 }
923 else if((nb>=18)&&(nb<24))
924 {
925 ntheta = 4;
926 nphi = (sector-3)*6+nb-18;
927 }
928 else if((nb>=24)&&(nb<30))
929 {
930 ntheta = 5;
931 nphi = (sector-3)*6+nb-24;
932 }
933 }
934
935 if(npart==2)
936 {
937 switch(ntheta)
938 {
939 case 0:
940 if(nphi<32)
941 nphi = 31-nphi;
942 else
943 nphi = 95-nphi;
944 break;
945 case 1:
946 if(nphi<32)
947 nphi = 31-nphi;
948 else
949 nphi = 95-nphi;
950 break;
951 case 2:
952 if(nphi<40)
953 nphi = 39-nphi;
954 else
955 nphi = 119-nphi;
956 break;
957 case 3:
958 if(nphi<40)
959 nphi = 39-nphi;
960 else
961 nphi = 119-nphi;
962 break;
963 case 4:
964 if(nphi<48)
965 nphi = 47-nphi;
966 else
967 nphi = 143-nphi;
968 break;
969 case 5:
970 if(nphi<48)
971 nphi = 47-nphi;
972 else
973 nphi = 143-nphi;
974 default:
975 ;
976 }
977 }
978}

Referenced by UserSteppingAction().

◆ Get_which_tof_version()

int ExtSteppingAction::Get_which_tof_version ( void )
inline

Definition at line 51 of file ExtSteppingAction.h.

51{return m_which_tof_version;}

◆ GetGapID()

Hep3Vector ExtSteppingAction::GetGapID ( G4String vol)

Definition at line 1027 of file ExtSteppingAction.cxx.

1028{
1029 int par(-1),se(-1),ga(-1);
1030 G4String strPart = vol.substr(5,1);
1031 //G4String strSeg = m_MotherVolumeName.substr(7,1);
1032
1033 G4String strSeg = vol.substr(7,1);
1034 G4String strGap;
1035 if(vol.contains("G")) strGap= vol.substr(9,1);
1036 if(vol.contains("Ab")) strGap= vol.substr(10,1);
1037 std::istrstream partBuf(strPart.c_str(), strlen(strPart.c_str()));
1038 std::istrstream segBuf(strSeg.c_str(), strlen(strSeg.c_str()));
1039 std::istrstream gapBuf(strGap.c_str(), strlen(strGap.c_str()));
1040
1041 partBuf >> par ;
1042 segBuf >> se;
1043 gapBuf >> ga;
1044 if(vol.contains("Ab")&&par==1) ga = ga+1;
1045 //panelBuf >> m_panel;
1046 Hep3Vector vec;
1047 vec[0]=par;
1048 vec[1]=se;
1049 vec[2]=ga;
1050 return vec;
1051}

Referenced by UserSteppingAction().

◆ InfmodMuc()

void ExtSteppingAction::InfmodMuc ( Hep3Vector & pos,
Hep3Vector & mom,
HepSymMatrix & err )

Definition at line 1019 of file ExtSteppingAction.cxx.

1020{
1021 pos = m_pos_mod;
1022 mom = m_mom_mod;
1023 err = m_err_mod;
1024}

Referenced by TrkExtAlg::execute().

◆ MucReset()

void ExtSteppingAction::MucReset ( )

Definition at line 90 of file ExtSteppingAction.cxx.

91{
92 RemStep =0;
93 RemDist = 99999.;
94 RemDepth = 0.;
95 RemID[0]=-1;
96 RemID[1]=-1;
97 RemID[2]=-1;
98 RemVol = "";
99}

Referenced by Ext_track::Set().

◆ Reset()

void ExtSteppingAction::Reset ( )

Definition at line 48 of file ExtSteppingAction.cxx.

49{
50 chicc = 0.;
51 myExtTrack = 0;
52 myPathIntoCrystal = 0.;
53 myPathOutCrystal = 0.;
54 myPathInCrystal = 0.;
55
56 myPathIntoTof1 = 0.0;
57 myPathOutTof1 = 0.0;
58 //myPathInTof1 = 0.0;
59 myPathInTof1.clear();
60
61 myPathIntoTof2 = 0.0;
62 myPathOutTof2 = 0.0;
63 //myPathInTof2 = 0.0;
64 myPathInTof2.clear();
65
66 myTofFlag = false;
67 myTof1Flag = false;
68 myTof2Flag = false;
69 myInTof1 = false;
70 myInTof2 = false;
71 myOutTof1 = false;
72 myOutTof2 = false;
73 myPhyEmcFlag = false;
74 myEmcFlag = false;
75 myEmcPathFlag= false;
76 myMucFlag = false;
77
78 m_trackstop =false;
79 myMucchisq_ =0.;
80 myMucnfit_ =0;
81 myMucdepth_=-99.;
82 myMucbrLastLay_=-1;
83 myMucecLastLay_=-1;
84 RememberID[0]=-1;
85 RememberID[1]=-1;
86 RememberID[2]=-1;
87
88}

Referenced by TrkExtAlg::execute().

◆ Set_which_tof_version()

void ExtSteppingAction::Set_which_tof_version ( int version)
inline

Definition at line 50 of file ExtSteppingAction.h.

50{m_which_tof_version=version;}

Referenced by TrkExtAlg::execute().

◆ SetBetaInMDC()

void ExtSteppingAction::SetBetaInMDC ( double aBeta)
inline

Definition at line 38 of file ExtSteppingAction.h.

38{myBetaInMDC = aBeta;};

Referenced by Ext_track::Set().

◆ SetExtTrackPointer()

void ExtSteppingAction::SetExtTrackPointer ( RecExtTrack * aExtTrack)
inline

Definition at line 44 of file ExtSteppingAction.h.

44{myExtTrack = aExtTrack;};

Referenced by TrkExtAlg::execute().

◆ SetInitialPath()

void ExtSteppingAction::SetInitialPath ( double aPath)
inline

Definition at line 36 of file ExtSteppingAction.h.

36{initialPath = aPath;};

Referenced by Ext_track::Set().

◆ SetInitialTof()

void ExtSteppingAction::SetInitialTof ( double aTof)
inline

Definition at line 37 of file ExtSteppingAction.h.

37{initialTof = aTof;};

Referenced by Ext_track::Set().

◆ SetMsgFlag()

void ExtSteppingAction::SetMsgFlag ( bool aMsgFalg)
inline

Definition at line 41 of file ExtSteppingAction.h.

41{msgFlag = aMsgFalg;};

Referenced by Ext_track::Initialization().

◆ SetMucDigiColPointer()

void ExtSteppingAction::SetMucDigiColPointer ( MucDigiCol * rawdigicol)
inline

Definition at line 56 of file ExtSteppingAction.h.

56{ m_mucdigicol = rawdigicol;}

Referenced by TrkExtAlg::execute().

◆ SetMucKalFlag()

void ExtSteppingAction::SetMucKalFlag ( bool aMucKalFlag)
inline

Definition at line 42 of file ExtSteppingAction.h.

42{myUseMucKalFlag=aMucKalFlag;};

Referenced by Ext_track::Initialization().

◆ SetMucWindow()

void ExtSteppingAction::SetMucWindow ( int aMucWindow)
inline

Definition at line 43 of file ExtSteppingAction.h.

43{myMucWindow=aMucWindow;};

Referenced by Ext_track::Initialization().

◆ SetXpErrPointer()

void ExtSteppingAction::SetXpErrPointer ( Ext_xp_err * xpErr)
inline

Definition at line 39 of file ExtSteppingAction.h.

39{extXpErr = xpErr;};

Referenced by Ext_track::Set().

◆ TrackStop()

bool ExtSteppingAction::TrackStop ( )
inline

Definition at line 55 of file ExtSteppingAction.h.

55{return m_trackstop;}

Referenced by TrkExtAlg::execute().

◆ UserSteppingAction()

void ExtSteppingAction::UserSteppingAction ( const G4Step * currentStep)

Definition at line 103 of file ExtSteppingAction.cxx.

104{
105
106 //Get track and its status
107 G4Track* currentTrack = currentStep->GetTrack();
108 if(!currentTrack)
109 {
110 cout<<"Can't get currentTrack"<<endl;
111 return;
112 }
113 G4TrackStatus currentTrackStatus = currentTrack->GetTrackStatus();
114
115 int stepNumber = currentTrack->GetCurrentStepNumber();
116 if(msgFlag) cout<<"STEP "<<stepNumber<<":"<<endl;
117
118 //Get current position and momentum
119 Hep3Vector currentPosition = currentTrack->GetPosition();
120 Hep3Vector currentMomentum = currentTrack->GetMomentum();
121
122
123 //Get current Volume
124 G4VPhysicalVolume* oldVolume;
125 G4VPhysicalVolume* newVolume;
126 if(!currentTrack->GetTouchableHandle()) cout<<"Can't get currentTrack->GetTouchableHandle()"<<endl;
127 else oldVolume= currentTrack->GetTouchableHandle()->GetVolume();
128 if(!currentTrack->GetNextTouchableHandle()) cout<<"Can't get currentTrack->GetNextTouchableHandle()"<<endl;
129 else newVolume= currentTrack->GetNextTouchableHandle()->GetVolume();
130 if(!oldVolume) cout<<"Can't get oldVolume!"<<endl;
131
132 //****added by LI Chunhua
133 if(stepNumber>50000) {
134 cout<<"infinite steps in the track "<<endl;
135 currentTrack->SetTrackStatus(fStopAndKill); m_trackstop =true;
136 }
137
138 G4String ParticleName = currentTrack->GetDefinition()->GetParticleName();
139 double x_ = currentPosition.x();
140 double y_ = currentPosition.y();
141 double z_ = currentPosition.z();
142 bool inner = (oldVolume!=newVolume)&&(!( (fabs(x_)>=myMucR) || (fabs(y_)>=myMucR) || ((fabs(x_-y_)/sqrt(2.))>=myMucR) || ((fabs(x_+y_)/sqrt(2.))>=myMucR) || (fabs(z_)>=myMucZ)) );
143 bool mucdec = (fabs(x_)>=myMucR) || (fabs(y_)>=myMucR) || ((fabs(x_-y_)/sqrt(2.))>=myMucR) || ((fabs(x_+y_)/sqrt(2.))>=myMucR) || (fabs(z_)>=myMucZ);
144
145 //if current particle is alive.
146 if(currentTrackStatus == fAlive)
147 {
148 //if(oldVolume!=newVolume)//if so, update Error Matrix and chicc.
149 if(inner||mucdec)//update Error Matrix for newvolume in MDC,TOF,EMC; update Error Matrix step by step in MUC;
150 {
151 //Get current B field
152 double currentPoint[3]={currentPosition.x(),currentPosition.y(),currentPosition.z()};
153 double currentBfield[3]={0.0,0.0,0.0};
154 Hep3Vector currentB(0.0,0.0,1.0);
155 if(G4TransportationManager::GetTransportationManager())
156 {
157 G4FieldManager* fieldManager=G4TransportationManager::GetTransportationManager()->GetFieldManager();
158 if(fieldManager)
159 {
160 if(fieldManager->GetDetectorField())
161 {
162 fieldManager->GetDetectorField()->GetFieldValue(currentPoint,currentBfield);
163 currentB.set(currentBfield[0]/tesla,currentBfield[1]/tesla,currentBfield[2]/tesla);
164 if(msgFlag) cout<<"B:"<<currentB.x()<<","<<currentB.y()<<","<<currentB.z()<<endl;
165 }
166 }
167 }
168
169 //Get chicc
170 G4Material* oldMaterial = oldVolume->GetLogicalVolume()->GetMaterial();
171 if(!oldMaterial) std::cout<<"Can't get oldMaterial"<<std::endl;
172 else CalculateChicc(oldMaterial);
173
174 //Update Error Matrix
175 if(!(extXpErr->move(currentPosition,currentMomentum,currentB,1,chicc)))
176 if(msgFlag) cout<<"can not update Error Matrix!!"<<endl;
177
178 //Verbose
179 if(msgFlag)
180 {
181 cout<<"Volume name:"<<newVolume->GetName()<<endl;
182 cout<<"Volume number:"<<newVolume->GetCopyNo()<<endl;
183 cout<<"x:"<<currentPoint[0]<<"//y:"<<currentPoint[1]<<"//z:"<<currentPoint[2]
184 <<"||px:"<<currentMomentum.x()<<"//py:"<<currentMomentum.y()<<"//pz:"
185 <<currentMomentum.z()<<endl;
186 cout<<"ptot = "<<currentMomentum.mag()<<endl;
187 cout<<"trk len = "<<currentTrack->GetTrackLength()<<endl;
188 cout<<"Error matrix is:"<<extXpErr->get_err()<<endl;
189 cout<<"phi:"<<atan(currentPoint[1]/currentPoint[0])<<endl;
190 Hep3Vector nz(0.,0.,1.);
191 cout<<"Projected z error:"<<extXpErr->get_plane_err(currentMomentum.unit(),nz)
192 <<endl;
193 double x,y,R;
194 x = currentPoint[0];
195 y = currentPoint[1];
196 R = sqrt(x*x+y*y);
197 Hep3Vector nt(-y/R,x/R,0.);
198 cout<<"Projected phi error:"<<(extXpErr->get_plane_err(currentMomentum.unit(),nt))/R
199 <<endl<<endl;
200 }
201
202 //some often used things
203 Hep3Vector xVector(1.0,0,0);
204 Hep3Vector yVector(0,1.0,0);
205 Hep3Vector zVector(0,0,1.0);
206 Hep3Vector tzVector;
207 tzVector.setRThetaPhi(1.0,M_PI/2.0,currentPosition.phi());
208 double r = currentPosition.perp();
209 double x = currentPosition.x();
210 double y = currentPosition.y();
211 double z = currentPosition.z();
212 G4String newVolumeName = newVolume->GetName();
213 G4String oldVolumeName = oldVolume->GetName();
214 G4StepPoint* postStepPoint = currentStep->GetPostStepPoint();
215 G4TouchableHistory* theTouchable = (G4TouchableHistory*)(postStepPoint->GetTouchable());
216 int newVolumeNumber=newVolume->GetCopyNo();
217 // int newVolumeNumber=theTouchable->GetReplicaNumber(2);
218
219 G4String name1;
220 if(newVolumeName=="logical_gasLayer")
221 {
222 name1=theTouchable->GetVolume(3)->GetName();
223 newVolumeNumber=theTouchable->GetReplicaNumber(3);
224 }
225
226
227
228
229
230
231 //Get PhyTof data
232
233 //std::cout << "ExtSteppingAction NewVolumeName: " << newVolumeName << std::endl;
234 //std::cout << "ExtSteppingAction OldVolumeName: " << oldVolumeName << std::endl;
235 //std::cout << "ExtSteppingAction name1: " <<name1<<std::endl;
236 //Comment this part to remove the airtight Tof. Most hits would be replaced by the following specific sensitive
237 //detector. The remianing few hits are abondoned in Tof reconstruction.
238 /*
239 if( (!myTofFlag) && (!myTof1Flag) && (newVolumeName.contains("Tof") ))
240 {
241 newVolumeNumber = -2;
242 double currentTrackLength = currentTrack->GetTrackLength();
243 double totalTrackLength = currentTrackLength + initialPath;
244 //double initialTof = initialPath/(myBetaInMDC*299.792458);
245 //cout<<"initialTof = "<<initialTof<<endl;
246 //double totalTOF = totalTrackLength/(myBetaInMDC*299.792458);
247 double localTime = currentTrack->GetLocalTime();
248 //cout<<"localTime = "<<localTime<<endl;
249 double totalTOF = localTime + initialTof;
250 //cout<<"totalTOF= "<<totalTOF<<endl;
251
252 //std::cout << "ExtSteppingAction Volumename contains one of the marker words" << std::endl;
253
254 if(myExtTrack)
255 {
256 double xError = extXpErr->get_plane_err(currentMomentum.unit(),xVector);
257 double yError = extXpErr->get_plane_err(currentMomentum.unit(),yVector);
258 double zError = extXpErr->get_plane_err(currentMomentum.unit(),zVector);
259 double tzError= extXpErr->get_plane_err(currentMomentum.unit(),tzVector);
260 myExtTrack->SetTof1Data(currentPosition/10.0,currentMomentum/1000.0,newVolumeName,newVolumeNumber,totalTOF,totalTrackLength/10,myOutputSymMatrix(extXpErr->get_err()),zError/10,tzError/10,xError/10,yError/10);
261 myTofFlag = true;
262 }
263 return;
264 }//close if (!myTofFlag)
265 */
266
267
268
269 //Get Tof layer1 Ext data
270 if((!myTof1Flag) && (newVolumeName=="logicalScinBr1" || newVolumeName.contains("ScinEc") ||
271 (newVolumeName=="logical_gasLayer" && (name1=="logical_container_m0" || name1=="logical_container_m1"))))
272 {
273 double currentTrackLength = currentTrack->GetTrackLength();
274 double totalTrackLength = currentTrackLength+initialPath;
275 double localTime = currentTrack->GetLocalTime();
276 double totalTOF = localTime + initialTof;
277 myInTof1 = true;
278 myPathIntoTof1 = currentTrackLength;
279 if(msgFlag) cout << "myPathIntoTof1 = " << myPathIntoTof1 << endl;
280
281 newVolumeNumber=theTouchable->GetReplicaNumber(2);
282
283 if(newVolumeName.contains("ScinEc")) {
284 newVolumeNumber=(95-newVolumeNumber)/2;
285 newVolumeNumber=newVolumeNumber+176;
286
287 if(newVolumeName.contains("East")) newVolumeNumber=newVolumeNumber+48;
288 if(myExtTrack) {
289 double xError = extXpErr->get_plane_err(currentMomentum.unit(),xVector);
290 double yError = extXpErr->get_plane_err(currentMomentum.unit(),yVector);
291 double zError = extXpErr->get_plane_err(currentMomentum.unit(),zVector);
292 double tzError= extXpErr->get_plane_err(currentMomentum.unit(),tzVector);
293 myExtTrack->SetTof1Data(currentPosition/10,currentMomentum/1000,newVolumeName,newVolumeNumber,totalTOF,totalTrackLength/10,myOutputSymMatrix(extXpErr->get_err()),zError/10,tzError/10,xError/10,yError/10);
294 myTof1Flag = true;
295 }
296 }
297
298 else if(newVolumeName=="logical_gasLayer")
299 {
300 G4ThreeVector currentPostPosition = currentStep->GetPostStepPoint()->GetPosition();
301 G4ThreeVector localPosition = theTouchable->GetHistory()->GetTopTransform().TransformPoint(currentPostPosition);
302 //cout<<"localPosition: "<<localPosition.x()<<" "<<localPosition.y()<<" "<<localPosition.z()<<endl;
303
304 //Here we assume the spread of one strip is 24+3=27mm.
305 //Distance between strips and lower large glass margin: 6, top: 8, z_strip=z_small_glass-0.5
306 double z_mm = localPosition.z()-0.5+(24+3)*6;
307 int strip;
308 if(z_mm<=0)
309 {
310 strip=0;
311 }
312 else if(z_mm>0 && z_mm<12*27)
313 {
314 strip=floor(z_mm/27);
315 }
316 else
317 {
318 strip=11;
319 }
320 if(strip<0) strip=0;
321 if(strip>11) strip=11;
322
323 newVolumeNumber=theTouchable->GetReplicaNumber(3);
324 newVolumeNumber = 35-newVolumeNumber;
325 if( currentPosition.z() < 0.0 ) { newVolumeNumber = newVolumeNumber + 36; }
326 newVolumeNumber = 12*newVolumeNumber+strip;
327 newVolumeNumber = newVolumeNumber + 176 + 96;
328 if(myExtTrack) {
329 double xError = extXpErr->get_plane_err(currentMomentum.unit(),xVector);
330 double yError = extXpErr->get_plane_err(currentMomentum.unit(),yVector);
331 double zError = extXpErr->get_plane_err(currentMomentum.unit(),zVector);
332 double tzError= extXpErr->get_plane_err(currentMomentum.unit(),tzVector);
333 Hep3Vector locP = Hep3Vector( localPosition.x(), localPosition.y(), localPosition.z() );
334 //cout<<"locP: "<<locP.x()<<" "<<locP.y()<<" "<<locP.z()
335 //<<" currentMomentum: "<<currentMomentum.x()<<" "<<currentMomentum.y()<<" "<<currentMomentum.z()
336 //<<" newVolumeName: "<<newVolumeName<<" newVolumeNumber: "<<newVolumeNumber
337 //<<" totalTOF: "<<totalTOF<<" totalTrackLength: "<<totalTrackLength<<endl;
338 myExtTrack->SetTof1Data(locP/10,currentMomentum/1000,newVolumeName,newVolumeNumber,totalTOF,totalTrackLength/10,myOutputSymMatrix(extXpErr->get_err()),zError/10,tzError/10,xError/10,yError/10);
339 myTof1Flag = true;
340 }
341 }
342 else
343 {
344 newVolumeNumber=(527-newVolumeNumber)/3;
345 if(myExtTrack) {
346 double xError = extXpErr->get_plane_err(currentMomentum.unit(),xVector);
347 double yError = extXpErr->get_plane_err(currentMomentum.unit(),yVector);
348 double zError = extXpErr->get_plane_err(currentMomentum.unit(),zVector);
349 double tzError= extXpErr->get_plane_err(currentMomentum.unit(),tzVector);
350 myExtTrack->SetTof1Data(currentPosition/10,currentMomentum/1000,newVolumeName,newVolumeNumber,totalTOF,totalTrackLength/10,myOutputSymMatrix(extXpErr->get_err()),zError/10,tzError/10,xError/10,yError/10);
351 myTof1Flag = true;
352 }
353 }
354
355 return;
356
357 }//close if (!myTof1Flag)
358
359 if( myInTof1 && ( oldVolumeName=="logicalScinBr1" || oldVolumeName.contains("ScinEc") ||
360 (oldVolumeName=="logical_gasLayer" && (name1=="logical_container_m0" || name1=="logical_container_m1"))) ) {
361 myInTof1 = false;
362 myOutTof1 = true;
363 myPathOutTof1 = currentTrack->GetTrackLength();
364 myPathInTof1.push_back(myPathOutTof1 - myPathIntoTof1);
365 if(msgFlag) cout << "myPathOutTof1 = " << myPathOutTof1 << endl;
366 }
367
368 if( myOutTof1 && ( newVolumeName=="logicalScinBr1" || newVolumeName.contains("ScinEc") ||
369 (newVolumeName=="logical_gasLayer" && (name1=="logical_container_m0" || name1=="logical_container_m1"))) ) {
370 myInTof1 = true;
371 myOutTof1 = false;
372 myPathIntoTof1 = currentTrack->GetTrackLength();
373 if(msgFlag) cout << "myPathIntoTof1 = " << myPathIntoTof1 << endl;
374 }
375
376
377 //Get Tof layer2 Ext data
378 if( (!myTof2Flag) && (newVolumeName=="logicalScinBr2" ||
379 (newVolumeName=="logical_gasLayer" && (name1=="logical_container_m2" || name1=="logical_container_m3"))))
380 {
381 double currentTrackLength = currentTrack->GetTrackLength();
382 double totalTrackLength = currentTrackLength+initialPath;
383 //double totalTOF = totalTrackLength/(myBetaInMDC*299.792458);
384 double localTime = currentTrack->GetLocalTime();
385 double totalTOF = localTime + initialTof;
386 myInTof2 = true;
387 myPathIntoTof2 = currentTrackLength;
388 if(msgFlag) cout << "myPathIntoTof2 = " << myPathIntoTof2 << endl;
389 newVolumeNumber=theTouchable->GetReplicaNumber(2);
390
391 if(newVolumeName=="logical_gasLayer")
392 {
393 G4ThreeVector currentPostPosition = currentStep->GetPostStepPoint()->GetPosition();
394 G4ThreeVector localPosition = theTouchable->GetHistory()->GetTopTransform().TransformPoint(currentPostPosition);
395 //cout<<"localPosition: "<<localPosition.x()<<" "<<localPosition.y()<<" "<<localPosition.z()<<endl;
396
397 //Here we assume the spread of one strip is 24+3=27mm.
398 //Distance between strips and lower large glass margin: 6, top: 8, z_strip=z_small_glass-0.5
399 double z_mm = localPosition.z()-0.5+(24+3)*6;
400 int strip;
401 if(z_mm<=0)
402 {
403 strip=0;
404 }
405 else if(z_mm>0 && z_mm<12*27)
406 {
407 strip=floor(z_mm/27);
408 }
409 else
410 {
411 strip=11;
412 }
413 if(strip<0) strip=0;
414 if(strip>11) strip=11;
415
416 newVolumeNumber=theTouchable->GetReplicaNumber(3);
417 newVolumeNumber = 35-newVolumeNumber;
418 if( currentPosition.z() < 0.0 ) { newVolumeNumber = newVolumeNumber + 36; }
419 newVolumeNumber = 12*newVolumeNumber+strip;
420 newVolumeNumber = newVolumeNumber + 176 + 96;
421
422 if(myExtTrack)
423 {
424 double xError = extXpErr->get_plane_err(currentMomentum.unit(),xVector);
425 double yError = extXpErr->get_plane_err(currentMomentum.unit(),yVector);
426 double zError = extXpErr->get_plane_err(currentMomentum.unit(),zVector);
427 double tzError= extXpErr->get_plane_err(currentMomentum.unit(),tzVector);
428 Hep3Vector locP = Hep3Vector( localPosition.x(), localPosition.y(), localPosition.z() );
429 //cout<<"locP: "<<locP.x()<<" "<<locP.y()<<" "<<locP.z()
430 //<<" currentMomentum: "<<currentMomentum.x()<<" "<<currentMomentum.y()<<" "<<currentMomentum.z()
431 //<<" newVolumeName: "<<newVolumeName<<" newVolumeNumber: "<<newVolumeNumber
432 //<<" totalTOF: "<<totalTOF<<" totalTrackLength: "<<totalTrackLength<<endl;
433 myExtTrack->SetTof2Data(locP/10,currentMomentum/1000,newVolumeName,newVolumeNumber,totalTOF,totalTrackLength/10,myOutputSymMatrix(extXpErr->get_err()),zError/10,tzError/10,xError/10,yError/10);
434 myTof2Flag = true;
435 }
436 }
437 else
438 {
439 newVolumeNumber=(527-newVolumeNumber)/3;
440 if(myExtTrack)
441 {
442 double xError = extXpErr->get_plane_err(currentMomentum.unit(),xVector);
443 double yError = extXpErr->get_plane_err(currentMomentum.unit(),yVector);
444 double zError = extXpErr->get_plane_err(currentMomentum.unit(),zVector);
445 double tzError= extXpErr->get_plane_err(currentMomentum.unit(),tzVector);
446 myExtTrack->SetTof2Data(currentPosition/10,currentMomentum/1000,newVolumeName,newVolumeNumber,totalTOF,totalTrackLength/10,myOutputSymMatrix(extXpErr->get_err()),zError/10,tzError/10,xError/10,yError/10);
447 myTof2Flag = true;
448 }
449 }
450 return;
451 }//close if( (!myTof2Flag) && newVolumeName=="logicalScinBr2" )
452
453 if( myInTof2 && (oldVolumeName=="logicalScinBr2" ||
454 (oldVolumeName=="logical_gasLayer" && (name1=="logical_container_m2" || name1=="logical_container_m3"))) ) {
455 myInTof2 = false;
456 myOutTof2 = true;
457 myPathOutTof2 = currentTrack->GetTrackLength();
458 myPathInTof2.push_back(myPathOutTof2 - myPathIntoTof2);
459 if(msgFlag) cout << "myPathOutTof2 = " << myPathOutTof2 << endl;
460 }
461
462 if( myOutTof2 && (newVolumeName=="logicalScinBr2" ||
463 (newVolumeName=="logical_gasLayer" && (name1=="logical_container_m2" || name1=="logical_container_m3"))) ) {
464 myInTof2 = true;
465 myOutTof2 = false;
466 myPathIntoTof2 = currentTrack->GetTrackLength();
467 if(msgFlag) cout << "myPathIntoTof2 = " << myPathIntoTof2 << endl;
468 }
469
470
471 //Get PhyEmc data.
472 if( (!myPhyEmcFlag) && (!myEmcFlag) && (newVolumeName=="EMC" || newVolumeName.contains("BSC") || newVolumeName=="EndPhi"))
473 {
474 newVolumeNumber = -2;
475 if(myExtTrack)
476 {
477 // myPathIntoCrystal = currentTrack->GetTrackLength();
478 Hep3Vector nPhi(-y/r,x/r,0.);
479 double errorPhi = (extXpErr->get_plane_err(currentMomentum.unit(),nPhi))/r;
480
481 Hep3Vector aPosition = currentPosition;
482 double R = aPosition.r();
483 double aTheta = aPosition.theta();
484 aPosition.setTheta(aTheta + M_PI_2);
485 double errorTheta;
486 errorTheta =(extXpErr->get_plane_err(currentMomentum.unit(),aPosition.unit()))/R;
487 if(msgFlag) cout<<"Theta direction: "<<aPosition<<endl;
488 myExtTrack->SetEmcData(currentPosition/10,currentMomentum/1000,newVolumeName,newVolumeNumber,errorTheta,errorPhi,myOutputSymMatrix(extXpErr->get_err()));
489 }
490 myPhyEmcFlag = true;
491 return;
492 }
493
494
495 if(!myEmcPathFlag && newVolumeName.contains("Crystal") )
496 {
497 myPathIntoCrystal = currentTrack->GetTrackLength();
498 // cout<<"Enter Crystal, path: "<<myPathIntoCrystal<<endl;
499 myEmcPathFlag = true;
500 }
501
502 //Get Emc Ext data.
503 if( (!myEmcFlag) && newVolumeName.contains("Crystal") )
504 {
505 if(myExtTrack)
506 {
507 //------------------- record crystal number
508 int npart,ntheta,nphi;
509 if(currentTrack->GetNextTouchableHandle()->GetVolume(1)->GetName().contains("BSC")) { //barrel
510 npart=1;
511 std::istringstream thetaBuf((currentTrack->GetNextTouchableHandle()->GetVolume(1)->GetName()).substr(16,2));
512 thetaBuf >> ntheta ;
513 nphi = 308-currentTrack->GetNextTouchableHandle()->GetCopyNumber(2);
514 } else { //endcap
515 npart=2-2*currentTrack->GetNextTouchableHandle()->GetCopyNumber(3);
516 int endSector=currentTrack->GetNextTouchableHandle()->GetCopyNumber(2);
517 int endNb,endNbGDML;
518 std::istringstream thetaBuf((currentTrack->GetNextTouchableHandle()->GetVolume(0)->GetName()).substr(20,2));
519 thetaBuf >> endNb ;
520 endNbGDML=CalculateEmcEndCopyNb(endNb);
521 int endSectorGDML=CalculateEmcEndPhiNb(endSector);
522 CalculateEmcEndThetaPhi(npart,endSectorGDML,endNbGDML,ntheta,nphi);
523 }
524 ostringstream strEmc;
525 if(ntheta<10) {
526 strEmc<<"EmcPart"<<npart<<"Theta0"<<ntheta<<"Phi"<<nphi;
527 } else {
528 strEmc<<"EmcPart"<<npart<<"Theta"<<ntheta<<"Phi"<<nphi;
529 } //------------------------------------------
530
531 // myPathIntoCrystal = currentTrack->GetTrackLength();
532 Hep3Vector nPhi(-y/r,x/r,0.);
533 double errorPhi = (extXpErr->get_plane_err(currentMomentum.unit(),nPhi))/r;
534
535 Hep3Vector aPosition = currentPosition;
536 double R = aPosition.r();
537 double aTheta = aPosition.theta();
538 aPosition.setTheta(aTheta + M_PI_2);
539 double errorTheta;
540 errorTheta =(extXpErr->get_plane_err(currentMomentum.unit(),aPosition.unit()))/R;
541 if(msgFlag) cout<<"Theta direction: "<<aPosition<<endl;
542 myExtTrack->SetEmcData(currentPosition/10,currentMomentum/1000,strEmc.str(),
543 newVolumeNumber,errorTheta,errorPhi,myOutputSymMatrix(extXpErr->get_err()));
544 }
545 myEmcFlag = true;
546 return;
547 }
548
549 //Get path in Emc
550 if(myEmcPathFlag && oldVolumeName.contains("Crystal") )
551 {
552 myPathOutCrystal = currentTrack->GetTrackLength();
553 myPathInCrystal = myPathInCrystal+myPathOutCrystal-myPathIntoCrystal;
554 // cout<<"Go out of crystal, path: "<<myPathOutCrystal<<endl;
555 myEmcPathFlag=false;
556 }
557
558
559 //Get Muc Ext Data.
560 if( (!myMucFlag) && ( (fabs(x)>=myMucR) || (fabs(y)>=myMucR) || ((fabs(x-y)/sqrt(2.))>=myMucR) || ((fabs(x+y)/sqrt(2.))>=myMucR) || (fabs(z)>=myMucZ) ) )
561 {
562 int newVolumeNumber = newVolume->GetCopyNo();
563 if(myExtTrack)
564 {
565 Hep3Vector xVector(1.0,0,0);
566 Hep3Vector yVector(0,1.0,0);
567 Hep3Vector zVector(0,0,1.0);
568 double xError = extXpErr->get_plane_err(currentMomentum.unit(),xVector);
569 double yError = extXpErr->get_plane_err(currentMomentum.unit(),yVector);
570 double zError = extXpErr->get_plane_err(currentMomentum.unit(),zVector);
571 double tzError;
572 double phi = currentPosition.phi();
573 if(phi<0.) phi+=M_PI;
574 int i = int(8.0*phi/M_PI);
575 if( i==0 || i==7 || i==8 )
576 {
577 tzError = yError;
578 }
579 if( i==1 || i==2 )
580 {
581 Hep3Vector tzVector(-1.0,1.0,0.);
582 tzError =extXpErr->get_plane_err(currentMomentum.unit(),tzVector.unit());
583 }
584 if( i==3 || i==4 )
585 {
586 tzError = xError;
587 }
588 if( i==5 || i==6 )
589 {
590 Hep3Vector tzVector(1.0,1.0,0.);
591 tzError =extXpErr->get_plane_err(currentMomentum.unit(),tzVector.unit());
592 }
593 myExtTrack->SetMucData(currentPosition/10,currentMomentum/1000,newVolumeName,newVolumeNumber,myOutputSymMatrix(extXpErr->get_err()),zError/10,tzError/10,xError/10,yError/10);
594 }
595 myMucFlag = true;
596 if(!(ParticleName.contains("mu")&&myUseMucKalFlag))
597 {
598 //currentTrack->SetKineticEnergy(0.0);
599 currentStep->GetTrack()->SetTrackStatus(fStopAndKill);
600 m_trackstop=true;
601 return;
602 }
603 }
604
605 //**************************************************
606 //************inset KalFilter Algorithm in MUC******
607 //**************************************************
608 HepSymMatrix XpErr = extXpErr->get_err();
609 int namesize = oldVolumeName.size();
610 bool Flag1(false),Flag2(false),Flag3(false),Flag4(false),Flag5(false);
611 Flag1 = m_mucdigicol->size()>0;
612 Flag2 = myUseMucKalFlag;
613 Flag3 = ParticleName.contains("mu")&&oldVolumeName.contains("lMuc")&&oldVolumeName.contains("P")&&oldVolumeName.contains("S")&&(oldVolumeName.contains("G")||oldVolumeName.contains("Ab"));
614 Flag4 = oldVolumeName.contains("lMuc")&&oldVolumeName.contains("P")&&oldVolumeName.contains("S")&&((namesize==10&&oldVolumeName.contains("G"))||(namesize==11&&oldVolumeName.contains("Ab")));
615 Flag5 = !((RemID[0]==1&&RemID[2]==9)||((RemID[0]==0||RemID[0]==2)&&RemID[2]==8));
616 // if(!Flag5) {currentStep->GetTrack()->SetTrackStatus(fStopAndKill);m_trackstop=true;}
617 if(Flag1&&Flag2&&Flag3&&Flag5)
618 {
619 //get depth in Ab
620 double depth = currentStep-> GetStepLength();
621 if(oldVolumeName.contains("Ab"))
622 RemDepth = RemDepth+ depth;
623 if(RemStep==0&&Flag4)
624 {
625 Hep3Vector ID_1 = GetGapID(oldVolumeName);
626 RemID = ID_1;
627
628 bool LastLay = (ID_1[0]==1&&ID_1[2]<9)||((ID_1[0]==0||ID_1[0]==2)&&ID_1[2]<8);
629 if(RememberID[2]!=ID_1[2]&&LastLay)
630 {
631 Hep3Vector pos_loc = MucGeoGeneral::Instance()->GetGap(ID_1[0],ID_1[1],ID_1[2])->TransformToGap(currentPosition);
632 double dist = fabs(pos_loc.z());
633 RemPositon = currentPosition;
634 RemMomentum = currentMomentum;
635 RemXpErr = XpErr;
636 RemDist = dist;
637 RemStep++;
638 }
639 }
640 if(RemStep>0)
641 {
642 bool WillFilter = false;
643 bool LastLay_ = false;
644 double dist_b = 99999.;
645 Hep3Vector ID_2;
646 if(Flag4)
647 {
648 ID_2 = GetGapID(oldVolumeName);
649 LastLay_ =(ID_2[0]==1&&ID_2[2]<9)||((ID_2[0]==0||ID_2[0]==2)&&ID_2[2]<8);
650 if(LastLay_)dist_b=fabs(MucGeoGeneral::Instance()->GetGap(ID_2[0],ID_2[1],ID_2[2])->TransformToGap(currentPosition).z());
651 if(RemID!=ID_2)
652 WillFilter=true;
653
654 }
655
656 Hep3Vector pos_loc = MucGeoGeneral::Instance()->GetGap(RemID[0],RemID[1],RemID[2])->TransformToGap(currentPosition);
657 double dist = fabs(pos_loc.z());
658 //get the nearest point from the center of gap
659 if(!WillFilter&&RemDist>dist)
660 {
661 RemPositon = currentPosition;
662 RemMomentum = currentMomentum;
663 RemXpErr = XpErr;
664 RemDist = dist;
665 RemVol = oldVolumeName;
666 }
667
668 //if find the nearest point in the gap, Open Fillter
669 if(WillFilter)
670 {
671 ExtMucKal* muckal = new ExtMucKal();
672 muckal->SetGapID(RemID);
673 muckal->SetPosMomErr(RemPositon,RemMomentum,RemXpErr);
674 muckal->SetMucDigiCol(m_mucdigicol);
675 muckal->SetMucWindow(myMucWindow);
676 bool iniOK = muckal->MucKalIniti();
677 vector<MucRecHit*> tmp = muckal->TrackHit();
678 bool filter = muckal->ExtMucFilter();
679 // bool filter = muckal->GetFilterStatus();
680 double chi2 = muckal->GetChi2();
681 bool samestrip = muckal->GetSameStrip();
682 if(filter&&iniOK)
683 {
684
685 myMucnfit_++;
686 //cout<<"myMucnfit_: "<<myMucnfit_<<endl;
687 myMucchisq_ = myMucchisq_+chi2;
688 muckal->XPmod(m_pos_mod,m_mom_mod,m_err_mod);
689 RememberID = muckal->GetHitGap();
690 if(RememberID[0]==1)myMucbrLastLay_=RememberID[2];
691 if(RememberID[0]==0||RememberID[0]==2)myMucecLastLay_=RememberID[2];
692 if(oldVolumeName.contains("Ab"))
693 RemDepth = RemDepth-depth;
694 if(myMucnfit_==1)
695 myMucdepth_ = RemDepth;
696 else
697 myMucdepth_=myMucdepth_+RemDepth;
698
699 if(!samestrip)
700 {
701
702 extXpErr->put_err(m_err_mod);
703 extXpErr->set_pos(m_pos_mod);
704 extXpErr->set_mom(m_mom_mod);
705 currentStep->GetTrack()->SetTrackStatus(fStopAndKill);
706
707 }
708 else
709 {
710 //cout<<"-------hit exist, but no modify-------"<<endl;
711 RemPositon = currentPosition;
712 RemMomentum = currentMomentum;
713 RemXpErr = XpErr;
714 RemDist = dist_b;
715 RemID =ID_2;
716 if(oldVolumeName.contains("Ab"))
717 RemDepth = depth;
718 else
719 RemDepth = 0.;
720 }
721 if(msgFlag)cout<<"---------Filter is OK---------- "<<endl;
722 }
723 else
724 {
725 // if(LastLay_)
726 //{
727 RemPositon = currentPosition;
728 RemMomentum = currentMomentum;
729 RemXpErr = XpErr;
730 RemDist = dist_b;
731 RemID =ID_2;
732 // }
733 }
734 delete muckal;
735 }
736 }
737 if(myExtTrack)myExtTrack->SetMucKalData(myMucchisq_,myMucnfit_,myMucdepth_,myMucbrLastLay_,myMucecLastLay_,myMucnhits_);
738 }
739
740 /*
741 if(Flag1&&Flag2&&Flag3)
742 {
743 ExtMucKal* muckal = new ExtMucKal();
744 muckal->SetVolume(oldVolume,newVolume);
745 muckal->SetMomPosErr(currentPosition,currentMomentum,XpErr);
746 muckal->SetMucDigiCol(mucdigicol);
747 muckal->ExtMucFilter();
748 muckal->XPmod(m_pos_mod,m_mom_mod,m_err_mod);
749 bool filter = muckal->GetFilterStatus();
750 double chi2 = muckal->GetChi2();
751 if(filter)
752 {
753 myMucnfit_++;
754 myMucchisq_ = myMucchisq_+chi2;
755 currentStep->GetTrack()->SetTrackStatus(fStopAndKill);
756 RememberVol.assign(oldVolumeName,10);
757 extXpErr->put_err(m_err_mod);
758 extXpErr->set_pos(m_pos_mod);
759 extXpErr->set_mom(m_mom_mod);
760 }
761 delete muckal;
762 }
763 */
764 // if(myExtTrack)myExtTrack->SetMucKalData(myMucchisq_,myMucnfit_,myMucdepth_,myMucbrLastLay_,myMucecLastLay_,myMucnhits_);
765 /* //Get Muc Ext Hits Data.
766 if(newVolumeName.contains("Strip"))
767 {
768 int newVolumeNumber = newVolume->GetCopyNo();
769 if(myExtTrack)
770 {
771 ExtMucHit aExtMucHit;
772 Hep3Vector xVector(1.0,0,0);
773 Hep3Vector yVector(0,1.0,0);
774 Hep3Vector zVector(0,0,1.0);
775 double xError = extXpErr->get_plane_err(currentMomentum.unit(),xVector);
776 double yError = extXpErr->get_plane_err(currentMomentum.unit(),yVector);
777 double zError = extXpErr->get_plane_err(currentMomentum.unit(),zVector);
778 double tzError;
779 double phi = currentPosition.phi();
780 if(phi<0.) phi+=M_PI;
781 int i = int(8.0*phi/M_PI);
782 if( i==0 || i==7 || i==8 )
783 {
784 tzError = yError;
785 }
786 if( i==1 || i==2 )
787 {
788 Hep3Vector tzVector(-1.0,1.0,0.);
789 tzError =extXpErr->get_plane_err(currentMomentum.unit(),tzVector.unit());
790 }
791 if( i==3 || i==4 )
792 {
793 tzError = xError;
794 }
795 if( i==5 || i==6 )
796 {
797 Hep3Vector tzVector(1.0,1.0,0.);
798 tzError =extXpErr->get_plane_err(currentMomentum.unit(),tzVector.unit());
799 }
800 aExtMucHit.SetExtMucHit(currentPosition,currentMomentum,newVolumeName,newVolumeNumber,extXpErr->get_err(),zError,tzError,xError,yError);
801 myExtTrack->AddExtMucHit(aExtMucHit);
802 }
803 }
804 */
805 }
806 else {
807 if(msgFlag) cout<<"x:"<<currentPosition.x()<<"//y:"<<currentPosition.y()<<"//z:"<<currentPosition.z()<<"||px:"<<currentMomentum.x()<<"//py:"<<currentMomentum.y()<<"//pz:"<<currentMomentum.z()<<endl;
808 double x = currentPosition.x();
809 double y = currentPosition.y();
810 double z = currentPosition.z();
811 if( (fabs(x)>=2*myMucR) || (fabs(y)>=2*myMucR) || (fabs(z)>=2*myMucZ) )
812 //currentTrack->SetKineticEnergy(0.0);// protection in case that a very energetic track travels without touching BESIII
813 {currentStep->GetTrack()->SetTrackStatus(fStopAndKill);m_trackstop=true;}
814 }
815
816 }
817 else if(currentTrackStatus == fStopAndKill)
818 {
819 m_trackstop=true;
820 if(myEmcFlag) myExtTrack->SetEmcPath(myPathInCrystal/10.);
821 if(myTof1Flag) myExtTrack->setPathInTof1(myPathInTof1);
822 if(myTof2Flag) myExtTrack->setPathInTof2(myPathInTof2);
823 if(msgFlag) {
824 cout << "myPathInTof1 = " ;
825 for(int i=0; i!=myPathInTof1.size(); i++)
826 cout << myPathInTof1[i] << " ";
827 cout << endl;
828 cout << "myPathInTof2 = " ;
829 for(int i=0; i!=myPathInTof2.size(); i++)
830 cout << myPathInTof2[i] << " ";
831 cout << endl;
832 }
833
834 if(msgFlag)
835 {
836 if(newVolume!=0)
837 {
838 std::cout<<"x:"<<currentPosition.x()<<"//y:"<<currentPosition.y()<<"//z:"<<currentPosition.z()<<"||px:"<<currentMomentum.x()<<"//py:"<<currentMomentum.y()<<"//pz:"<<currentMomentum.z()<<"//stoped"<<endl;
839 cout<<"Error matrix is:"<<extXpErr->get_err()<<endl;
840 }
841 else {
842 cout<<"x:"<<currentPosition.x()<<"//y:"<<currentPosition.y()<<"//z:"<<currentPosition.z()<<"||px:"<<currentMomentum.x()<<"//py:"<<currentMomentum.y()<<"//pz:"<<currentMomentum.z()<<"//escaped"<<std::endl;
843 std::cout<<"Error matrix is:"<<extXpErr->get_err()<<std::endl;
844 }
845 }
846 }
847}
const int nPhi
Double_t x[10]
#define M_PI
Definition TConstant.h:4
void SetTof1Data(Hep3Vector aPosition, Hep3Vector aMomentum, string aVolumeName, int aVolumeNumber, double aTof, double aPath, HepSymMatrix aErrorMatrix, double aZSigma=0., double aTSigma=0., double aXSigma=0., double aYSigma=0.)
void SetEmcData(Hep3Vector aPosition, Hep3Vector aMomentum, string aVolumeName, int aVolumeNumber, double aThetaSigma, double aPhiSigma, HepSymMatrix aErrorMatrix)
void SetTof2Data(Hep3Vector aPosition, Hep3Vector aMomentum, string aVolumeName, int aVolumeNumber, double aTof, double aPath, HepSymMatrix aErrorMatrix, double aZSigma=0., double aTSigma=0., double aXSigma=0., double aYSigma=0.)
void SetMucData(Hep3Vector aPosition, Hep3Vector aMomentum, string aVolumeName, int aVolumeNumber, HepSymMatrix aErrorMatrix, double aZSigma=0., double aTSigma=0., double aXSigma=0., double aYSigma=0.)
void SetEmcPath(double path)
void SetMucKalData(double chi2, int dof, double depth, int brLastLay, int ecLastLay, int nhits)
bool ExtMucFilter()
Definition ExtMucKal.cxx:16
void SetGapID(Hep3Vector id)
Definition ExtMucKal.h:28
bool GetSameStrip()
Definition ExtMucKal.h:42
void SetPosMomErr(Hep3Vector pos, Hep3Vector mom, HepSymMatrix err)
Definition ExtMucKal.h:25
void SetMucWindow(int aMucWindow)
Definition ExtMucKal.h:27
void XPmod(Hep3Vector &pos, Hep3Vector &mom, HepSymMatrix &err)
Definition ExtMucKal.cxx:71
void SetMucDigiCol(MucDigiCol *amucdigi)
Definition ExtMucKal.h:26
double GetChi2()
Definition ExtMucKal.h:35
vector< MucRecHit * > TrackHit()
Definition ExtMucKal.cxx:78
bool MucKalIniti()
Hep3Vector GetHitGap()
Hep3Vector GetGapID(G4String vol)
void CalculateEmcEndThetaPhi(int npart, int sector, int nb, int &ntheta, int &nphi)
int CalculateEmcEndCopyNb(int num)
int CalculateEmcEndPhiNb(int num)
void put_err(const double error[])
Definition Ext_errmx.cxx:45
const HepSymMatrix & get_err() const
Definition Ext_errmx.h:157
double get_plane_err(const Hep3Vector &np, const Hep3Vector &nr) const
Definition Ext_errmx.cxx:85
void set_mom(const Hep3Vector &mom)
Definition Ext_xp_err.h:90
bool move(const Hep3Vector &xv1, const Hep3Vector &pv1, const Hep3Vector &B, const int ms_on, const double chi_cc)
void set_pos(const Hep3Vector &pos)
Definition Ext_xp_err.h:85
HepPoint3D TransformToGap(const HepPoint3D gPoint) const
Transform a point from global coordinate to gap coordinate.
MucGeoGap * GetGap(const int part, const int seg, const int gap) const
Get a pointer to the gap identified by (part,seg,gap).
static MucGeoGeneral * Instance()
Get a pointer to the single instance of MucGeoGeneral.
void setPathInTof1(vector< double > x)
Definition RecExtTrack.h:61
void setPathInTof2(vector< double > x)
Definition RecExtTrack.h:62
double y[1000]
complex_t R(double Q2, double M2, double G, double Mp2, double Mm2)
Definition TUtil.h:27

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