CGEM BOSS 6.6.5.g
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EmcRecCrystal.h
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1//
2// EmcRecCrystal
3//
4// Dec 18, 2003, Created by Zhe Wang
5//
6// unit: mm, radian
7//
8// Only six planes tower-like crystal in barrel EMC.
9// Two kinds of cryscal exist in endcap EMC:
10// six planes and some seven planes cystals
11// Be careful when using them.
12//
13#ifndef EMC_REC_CRYSTAL_H
14#define EMC_REC_CRYSTAL_H
15
16#include <iostream>
17
18#include "CLHEP/Units/PhysicalConstants.h"
19#include "CLHEP/Geometry/Point3D.h"
20#ifndef ENABLE_BACKWARDS_COMPATIBILITY
22#endif
23
24using namespace std;
25using namespace CLHEP;
26
28{
29 public:
30 // Constructors and destructors
32 fType=INVALID_CRYSTAL;
33 HepPoint3D O(0,0,0);
34 for(int i=0;i<10;i++){
35 fV[i]=O;
36 }
37 }
38
40
41 // Copy and Assignment
43 fType=aCry.Type();
44 for(int i=0;i<10;i++){
45 fV[i]=aCry.Get(i);
46 }
47 }
48
50 if(this!=&aCry)
51 {
52 fType=aCry.Type();
53 for(int i=0;i<10;i++){
54 fV[i]=aCry.Get(i);
55 }
56 }
57 return *this;
58 }
59
60 // Accessment
61 // Crystal type mask
62 static int InvalidCrystal()
63 { return INVALID_CRYSTAL; }
64
65 static int SixPlane()
66 { return SIX_PLANE; }
67
68 static int SevenPlane()
69 { return SEVEN_PLANE; }
70
71 // Type read and write
72 int Type() const
73 { return fType; }
74
75 int Type(int typ)
76 { fType=typ;
77 if( (fType!=SIX_PLANE) && (fType!=SEVEN_PLANE) )
78 { fType=INVALID_CRYSTAL; }
79 return fType;
80 }
81
82 // Read Vertex
83 HepPoint3D Get(int index) const {
84 return fV[index];
85 }
86
87 // Get Crystal center
89 if(fType==SIX_PLANE) {
90 return (fV[0]+fV[1]+fV[2]+fV[3]+fV[4]+fV[5]+fV[6]+fV[7])/8;
91 }
92 if(fType==SEVEN_PLANE) {
93 return (fV[0]+fV[1]+fV[2]+fV[3]+fV[4]+fV[5]+fV[6]+fV[7]+fV[8]+fV[9])/10;
94 }
95 HepPoint3D O(0,0,0);
96 return O;
97 }
98
99 // Get Crystal front center
101 if(fType==SIX_PLANE) {
102 return (fV[0]+fV[1]+fV[2]+fV[3])/4;
103 }
104 if(fType==SEVEN_PLANE) {
105 return (fV[0]+fV[1]+fV[2]+fV[3]+fV[4])/5;
106 }
107 HepPoint3D O(0,0,0);
108 return O;
109 }
110
111 // Write Vertex
112 void Set(int index, const HepPoint3D& aPoint) {
113 fV[index]=aPoint;
114 }
115
116 void SetX(int index, double value) {
117 fV[index].setX(value);
118 }
119
120 void SetY(int index, double value) {
121 fV[index].setY(value);
122 }
123
124 void SetZ(int index, double value) {
125 fV[index].setZ(value);
126 }
127
128
129 void BarrelCheckout() const {
130 HepPoint3D t1,t2;
131 cout<<"H="<<fV[4].distance(fV[7])<<endl;
132 cout<<"h="<<fV[0].distance(fV[3])<<endl;
133 t1=fV[3]-fV[7];
134 t2=fV[4]-fV[7];
135 cout<<"t="<<acos(t1*t2/(t1.mag()*t2.mag()))*180/pi<<endl;
136 cout<<"B="<<fV[4].distance(fV[5])<<endl;
137 cout<<"b="<<fV[0].distance(fV[1])<<endl;
138 cout<<"A="<<fV[7].distance(fV[6])<<endl;
139 cout<<"a="<<fV[3].distance(fV[2])<<endl;
140 cout<<"L="<<fV[4].distance(fV[0])<<endl;
141 }
142
143 void EndCapCheckout() const {
144 if(fType==SIX_PLANE) {
145 cout<<"A="<<fV[5].distance(fV[6])<<endl;
146 cout<<"a="<<fV[1].distance(fV[2])<<endl;
147 cout<<"B="<<fV[7].distance(fV[4])<<endl;
148 cout<<"b="<<fV[0].distance(fV[3])<<endl;
149 cout<<"C="<<fV[7].distance(fV[6])<<endl;
150 cout<<"c="<<fV[3].distance(fV[2])<<endl;
151 cout<<"D="<<fV[4].distance(fV[5])<<endl;
152 cout<<"d="<<fV[1].distance(fV[0])<<endl;
153 HepPoint3D t1,t2;
154 double t;
155 t1=fV[0]-fV[3];
156 t2=fV[2]-fV[3];
157 cout<<"alpha1="<<acos(t1*t2/(t1.mag()*t2.mag()))*180/pi<<endl;
158 t1=fV[3]-fV[2];
159 t2=fV[1]-fV[2];
160 cout<<"alpha2="<<acos(t1*t2/(t1.mag()*t2.mag()))*180/pi<<endl;
161 t1=fV[2]-fV[1];
162 t2=fV[0]-fV[1];
163 cout<<"alpha3="<<acos(t1*t2/(t1.mag()*t2.mag()))*180/pi<<endl;
164 t1=fV[3]-fV[0];
165 t2=fV[1]-fV[0];
166 cout<<"alpha4="<<acos(t1*t2/(t1.mag()*t2.mag()))*180/pi<<endl;
167 t1=fV[3]-fV[7];
168 t2=fV[4]-fV[7];
169 t=t1*t2/(t1.mag()*t2.mag());
170 t=sqrt(1-t*t);
171 cout<<"L="<<t1.mag()*t<<endl;
172 } else {
173 cout<<"A="<<fV[5].distance(fV[9])<<endl;
174 cout<<"a="<<fV[0].distance(fV[4])<<endl;
175 cout<<"B="<<fV[9].distance(fV[8])<<endl;
176 cout<<"b="<<fV[4].distance(fV[3])<<endl;
177 cout<<"C="<<fV[8].distance(fV[7])<<endl;
178 cout<<"c="<<fV[3].distance(fV[2])<<endl;
179 cout<<"D="<<fV[7].distance(fV[6])<<endl;
180 cout<<"d="<<fV[2].distance(fV[1])<<endl;
181 cout<<"E="<<fV[6].distance(fV[5])<<endl;
182 cout<<"e="<<fV[1].distance(fV[0])<<endl;
183 HepPoint3D t1,t2;
184 double t;
185 t1=fV[1]-fV[0];
186 t2=fV[4]-fV[0];
187 cout<<"alpha1="<<acos(t1*t2/(t1.mag()*t2.mag()))*180/pi<<endl;
188 t1=fV[3]-fV[4];
189 t2=fV[0]-fV[4];
190 cout<<"alpha2="<<acos(t1*t2/(t1.mag()*t2.mag()))*180/pi<<endl;
191 t1=fV[2]-fV[3];
192 t2=fV[4]-fV[3];
193 cout<<"alpha3="<<acos(t1*t2/(t1.mag()*t2.mag()))*180/pi<<endl;
194 t1=fV[3]-fV[2];
195 t2=fV[1]-fV[2];
196 cout<<"alpha4="<<acos(t1*t2/(t1.mag()*t2.mag()))*180/pi<<endl;
197 t1=fV[0]-fV[1];
198 t2=fV[2]-fV[1];
199 cout<<"alpha5="<<acos(t1*t2/(t1.mag()*t2.mag()))*180/pi<<endl;
200 t1=fV[0]-fV[6];
201 t2=fV[5]-fV[6];
202 t=t1*t2/(t1.mag()*t2.mag());
203 t=sqrt(1-t*t);
204 cout<<"L="<<t1.mag()*t<<endl;
205 }
206 }
207
208 // data members
209 private:
210 // Different type will gives different result.
211 int fType;
212 // Ten vertexes
213 // For six planes crystal, only eight ones are in use
214 HepPoint3D fV[10];
215
216 // Type definition
217 static const int INVALID_CRYSTAL = -1;
218 static const int SIX_PLANE = 0;
219 static const int SEVEN_PLANE = 1;
220};
221
222ostream& operator<<(ostream & os, const EmcRecCrystal& aCrystal);
223#endif /* EMC_REC_CRYSTAL_H */
HepGeom::Point3D< double > HepPoint3D
Definition: EmcRecCrystal.h:21
ostream & operator<<(ostream &os, const EmcRecCrystal &aCrystal)
void EndCapCheckout() const
HepPoint3D Center() const
Definition: EmcRecCrystal.h:88
void SetY(int index, double value)
HepPoint3D Get(int index) const
Definition: EmcRecCrystal.h:83
void BarrelCheckout() const
static int SixPlane()
Definition: EmcRecCrystal.h:65
void SetX(int index, double value)
static int InvalidCrystal()
Definition: EmcRecCrystal.h:62
HepPoint3D FrontCenter() const
int Type() const
Definition: EmcRecCrystal.h:72
void SetZ(int index, double value)
EmcRecCrystal(const EmcRecCrystal &aCry)
Definition: EmcRecCrystal.h:42
static int SevenPlane()
Definition: EmcRecCrystal.h:68
EmcRecCrystal & operator=(const EmcRecCrystal &aCry)
Definition: EmcRecCrystal.h:49
void Set(int index, const HepPoint3D &aPoint)
int Type(int typ)
Definition: EmcRecCrystal.h:75
std::ostream ostream
Definition: bpkt_streams.h:41
int t()
Definition: t.c:1
const float pi
Definition: vector3.h:133