CGEM BOSS 6.6.5.g
BESIII Offline Software System
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EmcRecROOTGeo.cxx
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1//
2// EmcRecROOTGeo
3//
4// May 15, 2007, Created by Miao He
5//
6// Construct ROOT geometry from gdml
7//
8
11#include "ROOTGeo/EmcROOTGeo.h"
12#include "CLHEP/Vector/Rotation.h"
13
14#include <TGeoManager.h>
15#include "TGeoArb8.h"
16
17using namespace std;
18using namespace CLHEP;
19
21{
22 m_crystalMap.clear();
23}
24
26{
27 m_crystalMap.clear();
28}
29
31{
32 if(!gGeoManager) gGeoManager = new TGeoManager("BesGeo", "Bes geometry");
33
34 EmcROOTGeo *fEmcROOTGeo = new EmcROOTGeo();
35 fEmcROOTGeo->SetPhysicalNode();
36
37 //get physical node
38 for (int part = 0; part < fEmcROOTGeo->GetPartNb(); part++) {
39 for (int phi = 0; phi < fEmcROOTGeo->GetPhiNb(part); phi++) {
40 for (int theta = 0; theta < fEmcROOTGeo->GetThetaNb(part); theta++) {
41 TGeoPhysicalNode *crystalPhysicalNode
42 = fEmcROOTGeo->GetPhysicalCrystal(part,phi,theta);
43
44 TGeoArb8 *arb = (TGeoArb8*)crystalPhysicalNode->GetShape();
45 //TGeoTrap *arb = (TGeoTrap*)crystalPhysicalNode->GetShape();
46
47 double *pRot;
48 pRot = crystalPhysicalNode->GetMatrix()->GetRotationMatrix();
49 Hep3Vector rotX(pRot[0], pRot[3], pRot[6]);
50 Hep3Vector rotY(pRot[1], pRot[4], pRot[7]);
51 Hep3Vector rotZ(pRot[2], pRot[5], pRot[8]);
52 HepRotation rotateCrystalToGlobal(rotX, rotY, rotZ);
53 //cout<<"\nrotation: "<<rotateCrystalToGlobal<<"\n"<<endl;
54
55 Hep3Vector rotTX(pRot[0], pRot[1], pRot[2]);
56 Hep3Vector rotTY(pRot[3], pRot[4], pRot[5]);
57 Hep3Vector rotTZ(pRot[6], pRot[7], pRot[8]);
58 HepRotation rotateGlobalToCrystal(rotTX, rotTY, rotTZ);
59
60 double *pTrans;
61 pTrans = crystalPhysicalNode->GetMatrix()->GetTranslation();
62 Hep3Vector translateCrystalToGlobal(pTrans[0], pTrans[1], pTrans[2]);
63
64 Hep3Vector fPnt[10];
65 for(int i=0;i<8;i++) {
66 if(i<4) {
67 fPnt[i] = Hep3Vector(arb->GetVertices()[i*2],
68 arb->GetVertices()[i*2+1],
69 -arb->GetDz());
70 } else {
71 fPnt[i] = Hep3Vector(arb->GetVertices()[i*2],
72 arb->GetVertices()[i*2+1],
73 arb->GetDz());
74 }
75
76 fPnt[i] *= rotateCrystalToGlobal;
77 fPnt[i] += translateCrystalToGlobal;
78 }
79
80 EmcRecCrystal aCrystal;
81 aCrystal.Type(EmcRecCrystal::SixPlane());
82
83 Hep3Vector tempVec;
84 if(part==1) {
85 tempVec = fPnt[3];
86 fPnt[3] = fPnt[0];
87 fPnt[0] = fPnt[1];
88 fPnt[1] = fPnt[2];
89 fPnt[2] = tempVec;
90 tempVec = fPnt[7];
91 fPnt[7] = fPnt[4];
92 fPnt[4] = fPnt[5];
93 fPnt[5] = fPnt[6];
94 fPnt[6] = tempVec;
95
96 for(int i=0;i<8;i++) {
97 aCrystal.Set(i,fPnt[i]);
98 }
99 FillCrystalMap(aCrystal,part,theta,phi);
100
101 } else {
102 for(int i=0;i<8;i++) {
103 if(i%2==0) {
104 tempVec = fPnt[i];
105 fPnt[i] = fPnt[i+1];
106 fPnt[i+1] = tempVec;
107 }
108 aCrystal.Set(i,fPnt[i]);
109 }
110
111 int sector, nb;
112 if(theta<30) {
113 sector = phi;
114 nb = theta;
115 } else {
116 sector = phi;
118 if(theta>=30&&theta<32) {
119 nb = theta-25;
120 } else {
121 nb = theta-18;
122 }
123 int newTheta, newPhi;
124 ComputeThetaPhi(part,nb,sector,newTheta,newPhi);
125 Identifier id = EmcID::crystal_id(part,newTheta,newPhi);
126 EmcRecCrystal tempCrystal = m_crystalMap[id];
127
128 aCrystal.Set(0,tempCrystal.Get(0));
129 aCrystal.Set(1,fPnt[0]);
130 aCrystal.Set(2,fPnt[1]);
131 aCrystal.Set(3,tempCrystal.Get(2));
132 aCrystal.Set(4,tempCrystal.Get(3));
133 aCrystal.Set(5,tempCrystal.Get(4));
134 aCrystal.Set(6,fPnt[4]);
135 aCrystal.Set(7,fPnt[5]);
136 aCrystal.Set(8,tempCrystal.Get(6));
137 aCrystal.Set(9,tempCrystal.Get(7));
138 }
139
140 FillCrystalMap(aCrystal,part,nb,sector);
141 }
142 } //theta
143 } //phi
144 } //part
145
146 delete fEmcROOTGeo;
147}
148
150 const int part, const int theta, const int phi)
151{
152 Identifier id;
153 if(part==1) { //barrel
154 id = EmcID::crystal_id(EmcID::getBARREL(),theta,phi);
155 m_crystalMap[id]=aCrystal;
156 } else { //endcap
157 int newTheta, newPhi;
158 ComputeThetaPhi(part,theta,phi,newTheta,newPhi);
159 id = EmcID::crystal_id(part,newTheta,newPhi);
160 m_crystalMap[id]=aCrystal;
161 }
162}
163
165{
166 return m_crystalMap.find(id)->second;
167}
168
170{
171 return GetCrystal(id).Center();
172}
173
175{
176 return GetCrystal(id).FrontCenter();
177}
178
180 const int theta, const int phi, int& newTheta, int& newPhi)
181{
182 int sector = phi;
183 if((sector>=0)&&(sector<3))
184 sector+=16;
185 //if((sector!=7)&&(sector!=15))
186 {
187 if((theta>=0)&&(theta<4))
188 {
189 newTheta = 0;
190 newPhi = (sector-3)*4+theta;
191 }
192 else if((theta>=4)&&(theta<8))
193 {
194 newTheta = 1;
195 newPhi = (sector-3)*4+theta-4;
196 }
197 else if((theta>=8)&&(theta<13))
198 {
199 newTheta = 2;
200 newPhi = (sector-3)*5+theta-8;
201 }
202 else if((theta>=13)&&(theta<18))
203 {
204 newTheta = 3;
205 newPhi = (sector-3)*5+theta-13;
206 }
207 else if((theta>=18)&&(theta<24))
208 {
209 newTheta = 4;
210 newPhi = (sector-3)*6+theta-18;
211 }
212 else if((theta>=24)&&(theta<30))
213 {
214 newTheta = 5;
215 newPhi = (sector-3)*6+theta-24;
216 }
217 }
218
219 if(part==2)
220 {
221 switch(newTheta)
222 {
223 case 0:
224 if(newPhi<32)
225 newPhi = 31-newPhi;
226 else
227 newPhi = 95-newPhi;
228 break;
229 case 1:
230 if(newPhi<32)
231 newPhi = 31-newPhi;
232 else
233 newPhi = 95-newPhi;
234 break;
235 case 2:
236 if(newPhi<40)
237 newPhi = 39-newPhi;
238 else
239 newPhi = 119-newPhi;
240 break;
241 case 3:
242 if(newPhi<40)
243 newPhi = 39-newPhi;
244 else
245 newPhi = 119-newPhi;
246 break;
247 case 4:
248 if(newPhi<48)
249 newPhi = 47-newPhi;
250 else
251 newPhi = 143-newPhi;
252 break;
253 case 5:
254 if(newPhi<48)
255 newPhi = 47-newPhi;
256 else
257 newPhi = 143-newPhi;
258 default:
259 ;
260 }
261 }
262
263}
static Identifier crystal_id(const unsigned int barrel_ec, const unsigned int theta_module, const unsigned int phi_module)
For a single crystal.
Definition: EmcID.cxx:71
static unsigned int getBARREL()
Definition: EmcID.cxx:146
int GetPhiNb(int part)
Get number of phi on part;.
void SetPhysicalNode()
Set the pointers to the physical nodes;.
int GetThetaNb(int part)
Get number of theta on part;.
TGeoPhysicalNode * GetPhysicalCrystal(int part, int phi, int theta)
Get crystal physical node;.
HepPoint3D Center() const
Definition: EmcRecCrystal.h:88
HepPoint3D Get(int index) const
Definition: EmcRecCrystal.h:83
static int SixPlane()
Definition: EmcRecCrystal.h:65
HepPoint3D FrontCenter() const
int Type() const
Definition: EmcRecCrystal.h:72
static int SevenPlane()
Definition: EmcRecCrystal.h:68
void Set(int index, const HepPoint3D &aPoint)
void ComputeThetaPhi(const int part, const int theta, const int phi, int &newTheta, int &newPhi)
void FillCrystalMap(EmcRecCrystal &, const int, const int, const int)
EmcRecCrystal GetCrystal(const Identifier &id) const
HepPoint3D GetCFrontCenter(const Identifier &id) const
HepPoint3D GetCCenter(const Identifier &id) const