BOSS 7.0.7
BESIII Offline Software System
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MucStripCal.cxx
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1//------------------------------------------------------------------------------|
2// [File ]: MucStripCal.cxx |
3// [Brief ]: Class MucStripCal for MUC calibration |
4// [Author]: Xie Yuguang, <[email protected]> |
5// [Date ]: Apil 6, 2005 |
6//------------------------------------------------------------------------------|
7
8#include<iostream>
9#include<fstream>
10#include<cmath>
11
12using namespace std;
13
16
17// Constructor
18MucStripCal::MucStripCal( int part, int segment, int layer, int id ) : MucEntityCal( part, segment, layer, id )
19{
21
22 // m_MucPadChain = NULL;
23}
24
25// Copy constructor
27{
28 m_Type = other.m_Type;
29 m_CenterLine = other.m_CenterLine;
30 m_Head = other.m_Head;
31 m_Tail = other.m_Tail;
32 m_Phi = other.m_Phi;
33
34// m_MucPadChain = other.m_MucPadChain;
35}
36
37// Operator =
39{
40 if( this == &other) return *this;
41
43
44 m_Type = other.m_Type;
45 m_CenterLine = other.m_CenterLine;
46 m_Head = other.m_Head;
47 m_Tail = other.m_Tail;
48 m_Phi = other.m_Phi;
49
50 // m_MucPadChain = other.m_MucPadChain;
51
52 return *this;
53}
54
55// Destructor
57{
58 // delete m_MucPadChain;
59 ;
60}
61
62// Initialize
64{
65 SetType();
66 SetW();
67 SetWu();
68 SetWd();
69 SetCenterLine(); // use strip width
70 SetHead();
71 SetTail();
72 SetPhi();
73
74 SetThin();
75 SetH();
76 SetL();
77 SetArea();
79}
80
81// ---------------------------------Get methods ------------------------
82
83int MucStripCal::GetType() { return m_Type; }
84double MucStripCal::GetCenterLine() { return m_CenterLine; }
85double MucStripCal::GetHead() { return m_Head; }
86double MucStripCal::GetTail() { return m_Tail; }
87double MucStripCal::GetPhi() { return m_Phi; }
88int MucStripCal::GetPadNumber() { return m_PadNumber; }
89
90/*
91MucPadChain* MucStripCal::GetPadChain( )
92{
93 if( m_MucPadChain != NULL )
94 return m_MucPadChain;
95 else
96 return ( m_MucPadChain = new MucPadChain( m_Part, m_Segment, m_Layer, m_PadNumber ) );
97}
98*/
99
100//-----------------------------------Set methods-------------------------
101// Set strip type(readout direction)
103{
104 if( m_Part == BRID ) {
105 if( (m_Layer+1)%2 == 1 ) m_Type = ZSTR;
106 else m_Type = PHISTR;
107 }
108 else {
109 if( (m_Layer+1)%2 == 1 ) m_Type = XSTR;
110 else m_Type = YSTR;
111 }
112}
113
114// Set x or y of endcap strip certerline in BES coordinate system
116{
117 // Base on strips width and structure correlations
118 // Endcap only
119
120 int segFlag = 0;
121
122 if( (m_Layer+1)%2 == 1 ) // 1,3,5,7
123 {
124 if( m_Segment < 2 ) segFlag = 1;
125 else segFlag = -1;
126
127 if( m_ID != E_STR_NUM-1 ) // NO.1~62
128 m_CenterLine = segFlag * ( E_XSTR_OFFSET + m_ID*E_STR_DST );
129 else // NO.63 end strip
130 m_CenterLine = segFlag * ( E_XSTR_OFFSET + (E_STR_NUM-2)*E_STR_DST + (E_STR_DST + m_W + STR_GAP)/2);
131 }
132 else // 2,4,6,8
133 {
134 if( m_Segment%3 == 0 ) segFlag = 1;
135 else segFlag = -1;
136
137 if(m_ID != E_STR_NUM-1) // NO.1~62
138 m_CenterLine = segFlag * ( E_YSTR_OFFSET + m_ID*E_STR_DST );
139 else // NO.63 end strip
140 m_CenterLine = segFlag * ( E_YSTR_OFFSET + (E_STR_NUM-2)*E_STR_DST + (E_STR_DST + m_W + STR_GAP)/2);
141 }
142}
143
144// Set x and y of the head of endcap strip in BES coordinate system
146{
147 int segFlag = 0;
148
149 // base on strips width and correlations
150 if( m_ID+1 < TURN_STR_ID[m_Layer][0] )
151 m_Head = FIRST_TURN_HEAD[m_Layer][0];
152
153 if( m_ID+1 == TURN_STR_ID[m_Layer][0] )
154 m_Head = FIRST_TURN_HEAD[m_Layer][1];
155
156 if( (m_ID+1 > TURN_STR_ID[m_Layer][0]) && (m_ID+1 <= TURN_STR_ID[m_Layer][1]) )
157 m_Head = FIRST_TURN_HEAD[m_Layer][1] - ( m_ID + 1 - TURN_STR_ID[m_Layer][0] )*E_STR_DST;
158
159 if( m_ID+1 > TURN_STR_ID[m_Layer][1] )
160 m_Head = SECOND_TURN_HEAD[m_Layer%2];
161
162 if( (m_Layer+1)%2 == 1 ) // 1,3,5,7
163 {
164 if( m_Segment%3 ==0 ) segFlag = 1;
165 else segFlag = -1;
166 }
167 else // 2,4,6,8
168 {
169 if( m_Segment < 2 ) segFlag = 1;
170 else segFlag = -1;
171 }
172
173 m_Head *= segFlag;
174}
175
176// Set x and y of the tail of endcap strip in BES coordinate system
178{
179 int segFlag = 0;
180
181 if( (m_Layer+1)%2 == 1 ) // 1,3,5,7
182 {
183 if( m_Segment%3 ==0 ) segFlag = 1;
184 else segFlag = -1;
185
186 if( m_ID+1 < TURN_POINT_NUM )
187 m_Tail = ODD_TURN_POINT_TAIL[(m_Layer==0)?0:1][0];
188 if( m_ID+1 == TURN_POINT_NUM )
189 m_Tail = ODD_TURN_POINT_TAIL[(m_Layer==0)?0:1][1];
190 if( m_ID+1 > TURN_POINT_NUM )
191 m_Tail = ODD_TURN_POINT_TAIL[(m_Layer==0)?0:1][1]-( m_ID + 1 - TURN_POINT_NUM )* E_STR_DST;
192 if( m_ID == E_STR_NUM - 1 )
193 m_Tail = ODD_TURN_POINT_TAIL[(m_Layer==0)?0:1][1]-( m_ID -TURN_POINT_NUM )*E_STR_DST - ( E_STR_DST + m_W + STR_GAP )/2;
194 }
195 else // 2,4,6,8
196 {
197 if( m_Segment < 2 ) segFlag = 1;
198 else segFlag = -1;
199
200 if( m_ID+1 < TURN_POINT_NUM )
201 m_Tail = EVEN_TURN_POINT_TAIL[0];
202 if( m_ID+1 == TURN_POINT_NUM )
203 m_Tail = EVEN_TURN_POINT_TAIL[1];
204 if( m_ID+1 > TURN_POINT_NUM )
205 m_Tail = EVEN_TURN_POINT_TAIL[1] - ( m_ID + 1 - TURN_POINT_NUM ) * E_STR_DST;
206 if( m_ID == E_STR_NUM - 1 )
207 m_Tail = EVEN_TURN_POINT_TAIL[1]-(m_ID - TURN_POINT_NUM)*E_STR_DST - ( E_STR_DST + m_W + STR_GAP )/2;
208 }
209
210 m_Tail *= segFlag;
211}
212
213// Set inclination angle of local coordinate x axis and global coordinate x axis
215{
216 if ( m_Part == BRID ) // barrel
217 m_Phi = B_PHI[m_Segment] * (PI/4.0);
218 else // endcap , all phi is zer
219 m_Phi = 0.;
220}
221
222// set strip thickness
224{
225 m_Thin = STR_TH;
226}
227
228// Set strip width
230{
231 if( m_Part == BRID )
232 {
233 // Set maximum strip
234 int maxStrip;
235 if( (m_Layer+1)%2 == 1 )
236 maxStrip = B_ZSTR_NUM; // odd layer
237 else if( m_Segment != B_TOP )
238 maxStrip = B_PHISTR_NUM; // even layer not top segment
239 else
240 maxStrip = B_TOPSTR_NUM; // even layer top segment
241
242
243 if( (m_Layer+1)%2 == 1 ) // odd layer, z
244 {
245 if( m_ID > 0 && m_ID < (maxStrip-1)) // not marginal strip
246 m_W = B_STR_DST[m_Layer] - STR_GAP;
247 else // marginal strip
248 m_W = (B_BOX_WT[m_Layer] - 2*B_BOX_DT[SL_DOWN] - (maxStrip-2)*B_STR_DST[m_Layer] - STR_GAP)/2;
249 }
250 else // even layer, phi
251 {
252 if( m_ID >0 && m_ID < (maxStrip-1) ) // not marginal strip
253 m_W = B_STR_DST[m_Layer] - STR_GAP;
254 else // marginal strip
255 m_W = B_BOX_LT/2 - B_BOX_DZ[SL_DOWN] - B_STR_DST[m_Layer]*(B_PHISTR_NUM-2)/2;
256
257 if( (maxStrip == B_TOPSTR_NUM) && (m_ID == (B_PHISTR_NUM - 1)) ) // special marginal strip
258 m_W = B_BOX_LT/2 - B_BOX_DZ[SL_DOWN] - B_STR_DST[m_Layer]*(B_PHISTR_NUM-2)/2;
259 }
260 }
261 else
262 {
263 // Strip0~62: 33;
264 // Strip63: L0: 34; L2/4/6: 43; L1/3/5/7: 53
265 if(m_ID != E_STR_NUM-1) m_W = E_STR_WT; // NO.1~62
266 else // NO.63, end strip
267 {
268 if((m_Layer+1)%2!=0) // 0,2,4,6
269 {
270 if(m_Layer==0) m_W = 34;
271 else m_W = 43;
272 }
273 else m_W = 53; // 1,3,5,7
274 }
275 }
276}
277
278// Set strip Wu, no use
280{
281 m_Wu = m_W;
282}
283
284// Set strip Wd, no use
286{
287 m_Wd = m_W;
288}
289
290// Set strip height
292{
293 m_H = STR_TH;
294}
295
296// Set strip length
298{
299 if( m_Part==BRID ) // barrel
300 {
301 int ZCUT_HEAD_NUM = B_ZSTR_NUM/2 - B_ZSTR_CUT_NUM[m_Layer] - 1;
302 int ZCUT_TAIL_NUM = B_ZSTR_NUM/2 + B_ZSTR_CUT_NUM[m_Layer];
303
304 if( m_Segment != B_TOP ) // not top segment
305 {
306 if( (m_Layer+1)%2 == 1) // odd layer, Z
307 m_L = B_BOX_LT - 2*B_BOX_DZ[SL_DOWN];
308 else // even layer, phi
309 m_L = B_BOX_WT[m_Layer] - 2*B_BOX_DZ[SL_DOWN];
310 }
311 else // top segment
312 {
313 if((m_Layer+1)%2 == 1) // odd layer, z
314 {
315 if( m_ID > ZCUT_HEAD_NUM && m_ID < ZCUT_TAIL_NUM ) // be cut
316 {
317 if( m_Layer == 0 )
318 m_L = B_BOX_LT - 2*B_BOX_DZ[SL_DOWN] - B_ZSTR_CUT[1];
319 else
320 m_L = B_BOX_LT - 2*B_BOX_DZ[SL_DOWN] - B_ZSTR_CUT[0];
321 }
322 else // no cut
323 m_L = B_BOX_LT - 2*B_BOX_DZ[SL_DOWN];
324 }
325 else // even layer, phi
326 {
327 if( m_ID < B_PHISTR_CUT_NUM ) // no cut
328 m_L = B_BOX_WT[m_Layer] - 2*B_BOX_DZ[SL_DOWN];
329 else // be cut
330 m_L = (B_BOX_WT[m_Layer] - 2*B_BOX_DZ[SL_DOWN] - B_PHISTR_CUT)/2;
331 }
332 }
333 }
334 else // endcap
335 {
336 m_L = fabs( m_Head - m_Tail );
337 }
338}
339
340// Set area(cm^2)
342{
343 m_Area = m_W*m_L/100;
344}
345
346// Set Pad number of strip
348{
349 int n = 0;
350 double fn = 0;
351
352 if(m_W == 0) {
353 cout<<"Error, strip width = 0!"<<endl;
354 m_PadNumber = 0;
355 }
356 else
357 {
358 fn = (m_L/m_W);
359 n = (int)fn;
360
361 if( (fn - n) > 0.3 )
362 m_PadNumber = n + 1;
363 else
364 m_PadNumber = n;
365 }
366}
367
368// END
369
const double SECOND_TURN_HEAD[2]
Definition: MucStripCal.h:21
const double EVEN_TURN_POINT_TAIL[2]
Definition: MucStripCal.h:24
const double ODD_TURN_POINT_TAIL[2][2]
Definition: MucStripCal.h:23
const int TURN_STR_ID[8][2]
Definition: MucStripCal.h:18
const double FIRST_TURN_HEAD[8][2]
Definition: MucStripCal.h:19
const int TURN_POINT_NUM
Definition: MucStripCal.h:22
const double PI
Definition: PipiJpsi.cxx:55
double m_Thin
Definition: MucEntityCal.h:69
double m_Area
Definition: MucEntityCal.h:75
MucEntityCal & operator=(const MucEntityCal &other)
void SetPadNumber()
void SetHead()
virtual void SetArea()
virtual void SetH()
double GetTail()
Definition: MucStripCal.cxx:86
virtual void SetThin()
virtual void Init()
Definition: MucStripCal.cxx:63
double GetPhi()
Definition: MucStripCal.cxx:87
double GetCenterLine()
Definition: MucStripCal.cxx:84
virtual void SetWu()
void SetType()
MucStripCal(int part, int segment, int layer, int id)
Definition: MucStripCal.cxx:18
int GetPadNumber()
Definition: MucStripCal.cxx:88
double GetHead()
Definition: MucStripCal.cxx:85
virtual void SetW()
virtual void SetWd()
void SetTail()
void SetCenterLine()
MucStripCal & operator=(const MucStripCal &other)
Definition: MucStripCal.cxx:38
virtual ~MucStripCal()
Definition: MucStripCal.cxx:56
virtual void SetL()