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cc4dcfb0 | 1 | /************************************************************************** |
2 | * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. * | |
3 | * * | |
4 | * Author: The ALICE Off-line Project. * | |
5 | * Contributors are mentioned in the code where appropriate. * | |
6 | * * | |
7 | * Permission to use, copy, modify and distribute this software and its * | |
8 | * documentation strictly for non-commercial purposes is hereby granted * | |
9 | * without fee, provided that the above copyright notice appears in all * | |
10 | * copies and that both the copyright notice and this permission notice * | |
11 | * appear in the supporting documentation. The authors make no claims * | |
12 | * about the suitability of this software for any purpose. It is * | |
13 | * provided "as is" without express or implied warranty. * | |
14 | **************************************************************************/ | |
15 | ||
16 | /* $Id$ */ | |
17 | ||
18 | //********************************************************* | |
19 | // Segmentation classes for slat modules | |
20 | // This class works with local coordinates | |
21 | // of the slats via the class AliMUONGeometrySegmentation | |
22 | // This class contains the size of the slats and the | |
23 | // and the differents PCB densities. | |
24 | // (from old AliMUONSegmentationSlatModule) | |
25 | // Gines, Subatech, Nov04 | |
f1501d74 | 26 | // Add electronics mapping |
27 | // Christian, Subatech, Mai 05 | |
cc4dcfb0 | 28 | //********************************************************* |
29 | ||
30 | #include <TArrayI.h> | |
31 | #include <TArrayF.h> | |
32 | #include "AliMUONSt345SlatSegmentation.h" | |
33 | #include "AliLog.h" | |
34 | ||
cc4dcfb0 | 35 | ClassImp(AliMUONSt345SlatSegmentation) |
36 | ||
37 | ||
a713db22 | 38 | AliMUONSt345SlatSegmentation::AliMUONSt345SlatSegmentation() |
f1501d74 | 39 | : AliMUONVGeometryDESegmentation(), |
a713db22 | 40 | fBending(0), |
41 | fId(0), | |
6b9de626 | 42 | fNsec(0), |
43 | fNDiv(0), | |
44 | fDpxD(0), | |
45 | fDpyD(0), | |
a713db22 | 46 | fDpx(0), |
47 | fDpy(0), | |
48 | fNpx(999999), | |
49 | fNpy(999999), | |
50 | fWireD(0.0), | |
51 | fXhit(0.), | |
52 | fYhit(0.), | |
53 | fIx(0), | |
54 | fIy(0), | |
55 | fX(0.), | |
56 | fY(0.), | |
57 | fIxmin(0), | |
58 | fIxmax(0), | |
59 | fIymin(0), | |
f1501d74 | 60 | fIymax(0), |
9db6c8d7 | 61 | fInitDone(kFALSE) |
a713db22 | 62 | { |
63 | // default constructor | |
f64ec237 | 64 | AliDebug(1,Form("this=%p default (empty) ctor",this)); |
a713db22 | 65 | } |
66 | ||
67 | //___________________________________________ | |
f48459ab | 68 | AliMUONSt345SlatSegmentation::AliMUONSt345SlatSegmentation(Bool_t bending) |
fed772f3 | 69 | : AliMUONVGeometryDESegmentation(), |
f48459ab | 70 | fBending(bending), |
71 | fId(0), | |
6b9de626 | 72 | fNsec(0), |
73 | fNDiv(0), | |
74 | fDpxD(0), | |
75 | fDpyD(0), | |
f48459ab | 76 | fDpx(0), |
77 | fDpy(0), | |
78 | fNpx(999999), | |
79 | fNpy(999999), | |
80 | fWireD(0.25), | |
81 | fXhit(0.), | |
82 | fYhit(0.), | |
83 | fIx(0), | |
84 | fIy(0), | |
85 | fX(0.), | |
86 | fY(0.), | |
87 | fIxmin(0), | |
88 | fIxmax(0), | |
89 | fIymin(0), | |
f1501d74 | 90 | fIymax(0), |
9db6c8d7 | 91 | fInitDone(kFALSE) |
f1501d74 | 92 | |
cc4dcfb0 | 93 | { |
f48459ab | 94 | // Non default constructor |
cc4dcfb0 | 95 | fNsec = 4; // 4 sector densities at most per slat |
96 | fNDiv = new TArrayI(fNsec); | |
97 | fDpxD = new TArrayF(fNsec); | |
f48459ab | 98 | fDpyD = new TArrayF(fNsec); |
cc4dcfb0 | 99 | (*fNDiv)[0]=(*fNDiv)[1]=(*fNDiv)[2]=(*fNDiv)[3]=0; |
100 | (*fDpxD)[0]=(*fDpxD)[1]=(*fDpxD)[2]=(*fDpxD)[3]=0; | |
f1501d74 | 101 | (*fDpyD)[0]=(*fDpyD)[1]=(*fDpyD)[2]=(*fDpyD)[3]=0; |
f64ec237 | 102 | AliDebug(1,Form("this=%p ctor for bending=%d",this,fBending)); |
f1501d74 | 103 | |
cc4dcfb0 | 104 | } |
105 | //---------------------------------------------------------------------- | |
fed772f3 | 106 | AliMUONSt345SlatSegmentation::AliMUONSt345SlatSegmentation(const AliMUONSt345SlatSegmentation& rhs) |
107 | : AliMUONVGeometryDESegmentation(rhs), | |
108 | fBending(0), | |
109 | fId(0), | |
110 | fDpx(0), | |
111 | fDpy(0), | |
112 | fNpx(999999), | |
113 | fNpy(999999), | |
114 | fWireD(0.25), | |
115 | fXhit(0.), | |
116 | fYhit(0.), | |
117 | fIx(0), | |
118 | fIy(0), | |
119 | fX(0.), | |
120 | fY(0.), | |
121 | fIxmin(0), | |
122 | fIxmax(0), | |
123 | fIymin(0), | |
9db6c8d7 | 124 | fIymax(0) |
cc4dcfb0 | 125 | { |
d19b6003 | 126 | // Copy constructor |
f64ec237 | 127 | AliFatal("Not implemented"); |
cc4dcfb0 | 128 | } |
129 | //---------------------------------------------------------------------- | |
130 | AliMUONSt345SlatSegmentation::~AliMUONSt345SlatSegmentation() | |
131 | { | |
f48459ab | 132 | // Destructor |
47d60ed9 | 133 | |
134 | AliDebug(1, Form("dtor this = %p", this)); | |
135 | ||
f64ec237 | 136 | delete fNDiv; |
137 | delete fDpxD; | |
138 | delete fDpyD; | |
cc4dcfb0 | 139 | } |
140 | //---------------------------------------------------------------------- | |
141 | AliMUONSt345SlatSegmentation& AliMUONSt345SlatSegmentation::operator=(const AliMUONSt345SlatSegmentation& rhs) | |
142 | { | |
f48459ab | 143 | // Protected assignement operator |
cc4dcfb0 | 144 | if (this == &rhs) return *this; |
145 | AliFatal("Not implemented."); | |
146 | return *this; | |
147 | } | |
148 | ||
149 | ||
150 | //------------------------------------------------------------------------ | |
151 | Float_t AliMUONSt345SlatSegmentation::Distance2AndOffset(Int_t iX, Int_t iY, Float_t X, Float_t Y, Int_t * /*dummy*/) | |
152 | { | |
f48459ab | 153 | // Returns the square of the distance between 1 pad |
154 | // labelled by its Channel numbers and a coordinate | |
cc4dcfb0 | 155 | Float_t x,y; |
156 | GetPadC(iX,iY,x,y); | |
157 | return (x-X)*(x-X) + (y-Y)*(y-Y); | |
158 | } | |
159 | //____________________________________________________________________________ | |
160 | Float_t AliMUONSt345SlatSegmentation::Dpx(Int_t isec) const | |
161 | { | |
f48459ab | 162 | // Return x-strip width |
163 | return (*fDpxD)[isec]; | |
cc4dcfb0 | 164 | } |
165 | ||
166 | //____________________________________________________________________________ | |
f48459ab | 167 | Float_t AliMUONSt345SlatSegmentation::Dpy(Int_t isec) const |
cc4dcfb0 | 168 | { |
169 | // Return y-strip width | |
f48459ab | 170 | return (*fDpyD)[isec]; |
cc4dcfb0 | 171 | } |
172 | //_____________________________________________________________________________ | |
173 | Float_t AliMUONSt345SlatSegmentation::GetAnod(Float_t xhit) const | |
174 | { | |
f48459ab | 175 | // Returns for a hit position xhit the position of the nearest anode wire |
176 | Float_t wire= (xhit>0)? Int_t(xhit/fWireD)+0.5:Int_t(xhit/fWireD)-0.5; | |
177 | return fWireD*wire; | |
cc4dcfb0 | 178 | } |
cc4dcfb0 | 179 | |
f64ec237 | 180 | //_____________________________________________________________________________ |
181 | Bool_t AliMUONSt345SlatSegmentation::HasPad(Int_t ix, Int_t iy) | |
182 | { | |
d19b6003 | 183 | // Return true if pas with given indices exists |
184 | ||
f64ec237 | 185 | if ( ix < 1 || ix > Npx() || iy < 1 || iy > Npy() ) |
186 | { | |
187 | return kFALSE; | |
188 | } | |
189 | Int_t isec = Sector(ix,iy); | |
190 | if ( isec == -1 ) | |
191 | { | |
192 | return kFALSE; | |
193 | } | |
194 | if ( iy > fNpyS[isec] ) | |
195 | { | |
196 | return kFALSE; | |
197 | } | |
198 | return kTRUE; | |
199 | } | |
f48459ab | 200 | |
cc4dcfb0 | 201 | //-------------------------------------------------------------------------------- |
202 | void AliMUONSt345SlatSegmentation::GetPadC(Int_t ix, Int_t iy, Float_t &x, Float_t &y) | |
203 | { | |
d19b6003 | 204 | // Returns real coordinates (x,y) for given pad coordinates (ix,iy) |
205 | ||
bd57045f | 206 | if (ix < 1 || ix > Npx() || iy < 1 || iy > Npy() ){ |
f7db2071 | 207 | AliWarning(Form("ix %d or iy %d out of boundaries: Npx=%d and Npy=%d",ix, iy, Npx(), Npy())); |
13b83a58 | 208 | x = y= 0.; |
bd57045f | 209 | |
210 | } else { | |
211 | ||
cc4dcfb0 | 212 | // Find sector isec |
213 | Int_t isec = Sector(ix,iy); | |
76fa1113 | 214 | if (isec == -1) AliWarning(Form("isector = %d with ix %d, iy %d", isec, ix, iy)); |
f48459ab | 215 | if (iy > fNpyS[isec]) { |
13b83a58 | 216 | x = y = 0.; |
f48459ab | 217 | return; |
218 | } | |
cc4dcfb0 | 219 | if (isec>0) { |
220 | x = fCx[isec-1]+(ix-fNpxS[isec-1])*(*fDpxD)[isec]; | |
221 | x = x-(*fDpxD)[isec]/2; | |
f48459ab | 222 | y = Float_t(iy*(*fDpyD)[isec])-(*fDpyD)[isec]/2.- fCy; // !!! |
cc4dcfb0 | 223 | } else { |
bd57045f | 224 | x = y = 0; |
cc4dcfb0 | 225 | } |
226 | } | |
227 | } | |
f48459ab | 228 | |
229 | ||
230 | //_____________________________________________________________________________ | |
231 | void AliMUONSt345SlatSegmentation::GetPadI(Float_t x, Float_t y, Int_t &ix, Int_t &iy) | |
232 | { | |
233 | // Returns pad coordinates (ix,iy) for given real coordinates (x,y) | |
76fa1113 | 234 | |
f48459ab | 235 | // Find sector isec |
236 | Int_t isec=-1; | |
237 | for (Int_t i=fNsec-1; i > 0; i--) { | |
238 | if (x >= fCx[i-1]) { | |
239 | isec=i; | |
13b83a58 | 240 | if (TMath::Abs(fCx[isec] - fCx[isec-1]) <0.1 && isec > 1) isec--; |
f48459ab | 241 | break; |
242 | } | |
243 | } | |
f7db2071 | 244 | if (isec == -1) AliWarning(Form("isector equal to %d with xl %f, yl %f", isec, x, y)); |
f48459ab | 245 | if (isec>0) { |
246 | ix= Int_t((x-fCx[isec-1])/(*fDpxD)[isec]) | |
247 | +fNpxS[isec-1]+1; | |
248 | iy= Int_t((y+fCy)/(*fDpyD)[isec])+1; | |
249 | } else if (isec == 0) { | |
250 | ix= Int_t(x/(*fDpxD)[isec])+1; | |
251 | iy= Int_t((y+fCy)/(*fDpyD)[isec])+1; | |
252 | } else { | |
253 | ix=0; | |
254 | iy=0; | |
255 | } | |
256 | } | |
cc4dcfb0 | 257 | //------------------------------------------------------------------------- |
258 | void AliMUONSt345SlatSegmentation::GetPadI(Float_t x, Float_t y , Float_t /*z*/, Int_t &ix, Int_t &iy) | |
259 | { | |
d19b6003 | 260 | // Returns pad coordinates (ix,iy) for given real coordinates (x,y) |
261 | ||
cc4dcfb0 | 262 | GetPadI(x, y, ix, iy); |
263 | } | |
f1501d74 | 264 | |
f1501d74 | 265 | |
cc4dcfb0 | 266 | //_______________________________________________________________ |
267 | void AliMUONSt345SlatSegmentation::SetPadDivision(Int_t ndiv[4]) | |
268 | { | |
f48459ab | 269 | // Defines the pad size perp. to the anode wire (y) for different sectors. |
270 | // Pad sizes are defined as integral fractions ndiv of a basis pad size | |
271 | // fDpx | |
272 | // | |
273 | for (Int_t i=0; i<4; i++) { | |
274 | (*fNDiv)[i]=ndiv[i]; | |
275 | } | |
276 | ndiv[0]=ndiv[1]; | |
cc4dcfb0 | 277 | } |
278 | //____________________________________________________________________________ | |
279 | void AliMUONSt345SlatSegmentation::SetPadSize(Float_t p1, Float_t p2) | |
280 | { | |
f48459ab | 281 | // Sets the padsize |
282 | fDpx=p1; | |
283 | fDpy=p2; | |
cc4dcfb0 | 284 | } |
285 | //_______________________________________________________________ | |
286 | void AliMUONSt345SlatSegmentation::SetPcbBoards(Int_t n[4]) | |
287 | { | |
f48459ab | 288 | // |
289 | // Set PcbBoard segmentation zones for each density | |
f1501d74 | 290 | // n[0] slat type parameter |
291 | // n[1] PcbBoards for highest density sector fNDiv[1] etc ... | |
292 | ||
293 | fRtype = n[0]; | |
294 | n[0] = 0; | |
f48459ab | 295 | for (Int_t i=0; i<4; i++) fPcbBoards[i]=n[i]; |
f1501d74 | 296 | |
cc4dcfb0 | 297 | } |
298 | //------------------------------------------------------------------------- | |
299 | void AliMUONSt345SlatSegmentation::SetPad(Int_t ix, Int_t iy) | |
300 | { | |
f48459ab | 301 | // |
302 | // Sets virtual pad coordinates, needed for evaluating pad response | |
303 | // outside the tracking program | |
304 | GetPadC(ix,iy,fX,fY); | |
305 | fSector=Sector(ix,iy); | |
cc4dcfb0 | 306 | } |
307 | //--------------------------------------------------------------------------- | |
308 | void AliMUONSt345SlatSegmentation::SetHit(Float_t x, Float_t y) | |
309 | { | |
f48459ab | 310 | // Set current hit |
311 | // | |
312 | fXhit = x; | |
313 | fYhit = y; | |
cc4dcfb0 | 314 | |
bd57045f | 315 | if (x < fCx[0]) fXhit = fCx[0]; |
316 | if (y < -fDyPCB/2.) fYhit = -fDyPCB/2.; | |
cc4dcfb0 | 317 | |
bd57045f | 318 | if (x > fCx[fNsec-1]) fXhit = fCx[fNsec-1]; |
319 | if (y > fDyPCB/2.) fYhit = fDyPCB/2.; | |
cc4dcfb0 | 320 | |
321 | } | |
322 | //---------------------------------------------------------------------------- | |
323 | void AliMUONSt345SlatSegmentation::SetHit(Float_t xhit, Float_t yhit, Float_t /*zhit*/) | |
324 | { | |
d19b6003 | 325 | // Set current hit |
326 | ||
cc4dcfb0 | 327 | SetHit(xhit, yhit); |
328 | } | |
f48459ab | 329 | |
cc4dcfb0 | 330 | //---------------------------------------------------------- |
331 | void AliMUONSt345SlatSegmentation::FirstPad(Float_t xhit, Float_t yhit, Float_t dx, Float_t dy) | |
332 | { | |
333 | // Initialises iteration over pads for charge distribution algorithm | |
334 | // | |
335 | // | |
336 | // Find the wire position (center of charge distribution) | |
bd57045f | 337 | Float_t x0a = GetAnod(xhit); |
338 | fXhit = x0a; | |
339 | fYhit = yhit; | |
cc4dcfb0 | 340 | // |
341 | // and take fNsigma*sigma around this center | |
bd57045f | 342 | Float_t x01 = x0a - dx ; |
343 | Float_t x02 = x0a + dx; | |
344 | Float_t y01 = yhit - dy; | |
345 | Float_t y02 = yhit + dy; | |
cc4dcfb0 | 346 | |
bd57045f | 347 | // check the limits after adding (fNsigma*sigma) |
348 | if (x01 < fCx[0]) x01 = fCx[0]; | |
349 | if (y01 < -fDyPCB/2) y01 = -fDyPCB/2; | |
350 | ||
351 | if (x02 >= fCx[fNsec-1]) x02 = fCx[fNsec-1]; // still ok ? (CF) | |
13b83a58 | 352 | if (y02 >= fDyPCB/2.) y02 = fDyPCB/2.; |
cc4dcfb0 | 353 | |
354 | ||
355 | Int_t isec=-1; | |
356 | for (Int_t i=fNsec-1; i > 0; i--) { | |
bd57045f | 357 | if (x02 >= fCx[i-1]) { |
358 | isec=i; | |
13b83a58 | 359 | if (TMath::Abs(fCx[isec] - fCx[isec-1]) < 0.1 && isec > 1) isec--; |
bd57045f | 360 | break; |
361 | } | |
cc4dcfb0 | 362 | } |
bd57045f | 363 | |
13b83a58 | 364 | // y02 += Dpy(isec);// why ? (CF) |
cc4dcfb0 | 365 | |
366 | // | |
367 | // find the pads over which the charge distributes | |
368 | GetPadI(x01,y01,fIxmin,fIymin); | |
369 | GetPadI(x02,y02,fIxmax,fIymax); | |
370 | ||
371 | if (fIxmax > fNpx) fIxmax=fNpx; | |
372 | if (fIymax > fNpyS[isec]) fIymax = fNpyS[isec]; | |
f7db2071 | 373 | if (fIxmin < 1) fIxmin = 1; // patch for the moment (Ch. Finck) |
374 | if (fIymin < 1) fIymin = 1; | |
cc4dcfb0 | 375 | |
bd57045f | 376 | fXmin = x01; |
377 | fXmax = x02; | |
378 | fYmin = y01; | |
379 | fYmax = y02; | |
cc4dcfb0 | 380 | |
381 | // | |
382 | // Set current pad to lower left corner | |
bd57045f | 383 | if (fIxmax < fIxmin) fIxmax = fIxmin; |
384 | if (fIymax < fIymin) fIymax = fIymin; | |
385 | fIx = fIxmin; | |
386 | fIy = fIymin; | |
cc4dcfb0 | 387 | |
388 | GetPadC(fIx,fIy,fX,fY); | |
bd57045f | 389 | fSector = Sector(fIx,fIy); |
f64ec237 | 390 | |
391 | AliDebug(4,Form("xhit,yhit,dx,dy=%e,%e,%e,%e ix,iy=%3d,%3d", | |
392 | xhit,yhit,dx,dy,fIx,fIy)); | |
cc4dcfb0 | 393 | } |
f48459ab | 394 | |
cc4dcfb0 | 395 | //---------------------------------------------------------------------- |
396 | void AliMUONSt345SlatSegmentation::FirstPad(Float_t xhit, Float_t yhit, Float_t /*zhit*/, Float_t dx, Float_t dy) | |
397 | { | |
d19b6003 | 398 | // Initialises iteration over pads for charge distribution algorithm |
399 | ||
cc4dcfb0 | 400 | FirstPad(xhit, yhit, dx, dy); |
401 | } | |
402 | //---------------------------------------------------------------------- | |
403 | void AliMUONSt345SlatSegmentation::NextPad() | |
404 | { | |
f48459ab | 405 | // Stepper for the iteration over pads |
406 | // | |
407 | // Step to next pad in the integration region | |
408 | // step from left to right | |
409 | if (fIx != fIxmax) { | |
410 | fIx++; | |
411 | GetPadC(fIx,fIy,fX,fY); | |
412 | fSector=Sector(fIx,fIy); | |
413 | // step up | |
414 | } else if (fIy != fIymax) { | |
415 | fIx=fIxmin; | |
416 | fIy++; | |
417 | GetPadC(fIx,fIy,fX,fY); | |
418 | fSector=Sector(fIx,fIy); | |
f48459ab | 419 | } else { |
f7db2071 | 420 | fIx=-999; |
421 | fIy=-999; | |
f48459ab | 422 | } |
cc4dcfb0 | 423 | } |
424 | //------------------------------------------------------------------------- | |
425 | Int_t AliMUONSt345SlatSegmentation::MorePads() | |
426 | { | |
f48459ab | 427 | // Stopping condition for the iterator over pads |
428 | // | |
429 | // Are there more pads in the integration region | |
cc4dcfb0 | 430 | |
f7db2071 | 431 | return (fIx != -999 || fIy != -999); |
cc4dcfb0 | 432 | } |
433 | //-------------------------------------------------------------------------- | |
434 | Int_t AliMUONSt345SlatSegmentation::Sector(Int_t ix, Int_t iy) | |
435 | { | |
f48459ab | 436 | // |
437 | // Determine segmentation zone from pad coordinates | |
438 | // | |
bd57045f | 439 | Int_t isec = -1; |
440 | for (Int_t i = 0; i < fNsec; i++) { | |
f48459ab | 441 | if (ix <= fNpxS[i]) { |
bd57045f | 442 | isec = i; |
f48459ab | 443 | break; |
cc4dcfb0 | 444 | } |
f48459ab | 445 | } |
bd57045f | 446 | if (isec == -1) AliWarning(Form("Sector = %d with ix %d and iy %d, Npx %d", |
447 | isec, ix, iy, fNpx)); | |
cc4dcfb0 | 448 | |
f48459ab | 449 | return isec; |
cc4dcfb0 | 450 | |
451 | } | |
452 | //----------------------------------------------------------------------------- | |
453 | void AliMUONSt345SlatSegmentation:: | |
454 | IntegrationLimits(Float_t& x1,Float_t& x2,Float_t& y1, Float_t& y2) | |
455 | { | |
f48459ab | 456 | // Returns integration limits for current pad |
457 | // | |
458 | x1=fXhit-fX-Dpx(fSector)/2.; | |
459 | x2=x1+Dpx(fSector); | |
460 | y1=fYhit-fY-Dpy(fSector)/2.; | |
461 | y2=y1+Dpy(fSector); | |
f64ec237 | 462 | |
463 | AliDebug(4,Form("xhit,yhit=%e,%e x,y=%e,%e, x1,x2,y1,y2=%e,%e,%e,%e",fXhit,fYhit,fX,fY,x1,x2,y1,y2)); | |
cc4dcfb0 | 464 | |
465 | } | |
466 | //----------------------------------------------------------------------------- | |
467 | void AliMUONSt345SlatSegmentation:: | |
468 | Neighbours(Int_t iX, Int_t iY, Int_t* Nlist, Int_t Xlist[10], Int_t Ylist[10]) | |
469 | { | |
f48459ab | 470 | // Returns list of next neighbours for given Pad (iX, iY) |
471 | Int_t i=0; | |
472 | // step right | |
473 | if (iX+1 <= fNpx) { | |
474 | Xlist[i]=iX+1; | |
475 | Ylist[i++]=iY; | |
476 | } | |
477 | // step left | |
478 | if (iX-1 > 0) { | |
479 | Xlist[i]=iX-1; | |
480 | Ylist[i++]=iY; | |
481 | } | |
482 | Int_t sector = Sector(iX,iY); | |
483 | // step up | |
484 | if (iY+1 <= fNpyS[sector]) { | |
485 | Xlist[i]=iX; | |
486 | Ylist[i++]=iY+1; | |
487 | } | |
488 | // step down | |
489 | if (iY-1 > 0) { | |
490 | Xlist[i]=iX; | |
491 | Ylist[i++]=iY-1; | |
492 | } | |
493 | *Nlist=i; | |
cc4dcfb0 | 494 | } |
f48459ab | 495 | |
cc4dcfb0 | 496 | //-------------------------------------------------------------------------- |
497 | void AliMUONSt345SlatSegmentation::Init(Int_t detectionElementId) | |
498 | { | |
f48459ab | 499 | // |
500 | // Fill the arrays fCx (x-contour) and fNpxS (ix-contour) for each sector | |
501 | // These arrays help in converting from real to pad co-ordinates and | |
502 | // vice versa | |
503 | // | |
504 | // Segmentation is defined by rectangular modules approximating | |
505 | // concentric circles as shown below | |
506 | // | |
507 | // PCB module size in cm | |
508 | // printf("\n Initialise Segmentation SlatModule \n"); | |
cc4dcfb0 | 509 | |
f48459ab | 510 | |
a713db22 | 511 | // printf(" fBending: %d \n",fBending); |
f48459ab | 512 | |
f1501d74 | 513 | if (fInitDone) return; // security if init is already done in AliMUONFactory |
f48459ab | 514 | fDxPCB=40; |
515 | fDyPCB=40; | |
516 | ||
517 | // Calculate padsize along x | |
518 | (*fDpxD)[fNsec-1]=fDpx; | |
519 | (*fDpyD)[fNsec-1]=fDpy; | |
520 | if (fNsec > 1) { | |
521 | for (Int_t i=fNsec-1; i>=0; i--){ // fNsec-2 | |
522 | if (!fBending) { | |
523 | (*fDpxD)[i]=fDpx; | |
524 | (*fDpyD)[i]=(*fDpyD)[fNsec-1]/(*fNDiv)[i]; | |
525 | } else { | |
cc4dcfb0 | 526 | (*fDpxD)[i]=(*fDpxD)[fNsec-1]/(*fNDiv)[i]; |
f48459ab | 527 | (*fDpyD)[i]=fDpy; |
cc4dcfb0 | 528 | } |
529 | } | |
f48459ab | 530 | } |
531 | // | |
532 | // fill the arrays defining the pad segmentation boundaries | |
533 | // | |
534 | // | |
535 | // Loop over sectors (isec=0 for secto close to the beam pipe) | |
536 | Float_t totalLength = 0; | |
537 | for (Int_t isec=0; isec<4; isec++) totalLength += fPcbBoards[isec]*fDxPCB; // !!!! | |
538 | ||
539 | fNpy = 0; // maximum number of pads in y | |
540 | for (Int_t isec=0; isec<4; isec++) { | |
541 | if (isec==0) { | |
542 | fNpxS[0] = 0; | |
543 | fNpyS[0] = 0; | |
544 | fCx[0] = -totalLength/2; | |
545 | } else { | |
13b83a58 | 546 | fNpxS[isec] = fNpxS[isec-1] + fPcbBoards[isec]*Int_t(fDxPCB/(*fDpxD)[isec]+0.5); |
547 | fNpyS[isec] = Int_t(fDyPCB/(*fDpyD)[isec]+0.5); | |
f48459ab | 548 | if (fNpyS[isec] >= fNpy) fNpy = fNpyS[isec]; |
549 | fCx[isec]= fCx[isec-1] + fPcbBoards[isec]*fDxPCB; | |
550 | } | |
551 | } // sectors | |
cc4dcfb0 | 552 | |
f48459ab | 553 | fNpx = fNpxS[3]; // maximum number of pads in x |
554 | fCy = fDyPCB/2.; | |
555 | // | |
556 | fId = detectionElementId; | |
f1501d74 | 557 | |
f1501d74 | 558 | fInitDone = kTRUE; |
f48459ab | 559 | } |