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4a66240a | 1 | /************************************************************************** |
2 | * Copyright(c) 2007-2009, 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 | // Plane Efficiency class for ITS | |
17 | // It is used for chip by chip efficiency of the SPD, | |
18 | // evaluated by tracks | |
19 | // (Inherits from AliITSPlaneEff) | |
20 | // Author: G.E. Bruno | |
21 | // giuseppe.bruno@ba.infn.it | |
22 | // | |
23 | /////////////////////////////////////////////////////////////////////////// | |
24 | ||
25 | /* $Id$ */ | |
26 | ||
6344adcc | 27 | #include <TMath.h> |
5fbd4fd6 | 28 | #include <TH1F.h> |
29 | #include <TFile.h> | |
30 | #include <TTree.h> | |
31 | #include <TROOT.h> | |
4a66240a | 32 | #include "AliITSPlaneEffSPD.h" |
33 | #include "AliLog.h" | |
34 | #include "AliCDBStorage.h" | |
35 | #include "AliCDBEntry.h" | |
36 | #include "AliCDBManager.h" | |
37 | //#include "AliCDBRunRange.h" | |
41d18cd2 | 38 | #include "AliITSsegmentationSPD.h" |
4a66240a | 39 | #include "AliITSCalibrationSPD.h" |
40 | ||
41 | ClassImp(AliITSPlaneEffSPD) | |
42 | //______________________________________________________________________ | |
43 | AliITSPlaneEffSPD::AliITSPlaneEffSPD(): | |
5fbd4fd6 | 44 | AliITSPlaneEff(), |
5fbd4fd6 | 45 | fHisResX(0), |
46 | fHisResZ(0), | |
47 | fHisResXZ(0), | |
48 | fHisClusterSize(0), | |
49 | fHisResXclu(0), | |
1cc5cedc | 50 | fHisResZclu(0), |
51 | fHisResXchip(0), | |
52 | fHisResZchip(0), | |
879cdb02 | 53 | fProfResXvsPhi(0), |
54 | fProfResZvsDip(0), | |
55 | fProfResXvsPhiclu(0), | |
56 | fProfResZvsDipclu(0), | |
1cc5cedc | 57 | fHisTrackErrX(0), |
58 | fHisTrackErrZ(0), | |
59 | fHisClusErrX(0), | |
1f1e7832 | 60 | fHisClusErrZ(0), |
61 | fHisTrackXFOtrue(0), | |
62 | fHisTrackZFOtrue(0), | |
63 | fHisTrackXFOfalse(0), | |
64 | fHisTrackZFOfalse(0), | |
65 | fHisTrackXZFOtrue(0), | |
66 | fHisTrackXZFOfalse(0){ | |
67 | for (UInt_t i=0; i<kNModule*kNChip*(kNClockPhase+1); i++){ | |
4a66240a | 68 | fFound[i]=0; |
69 | fTried[i]=0; | |
70 | } | |
1f1e7832 | 71 | // default constructor |
4a66240a | 72 | AliDebug(1,Form("Calling default constructor")); |
73 | } | |
74 | //______________________________________________________________________ | |
75 | AliITSPlaneEffSPD::~AliITSPlaneEffSPD(){ | |
76 | // destructor | |
77 | // Inputs: | |
78 | // none. | |
79 | // Outputs: | |
80 | // none. | |
81 | // Return: | |
82 | // none. | |
5fbd4fd6 | 83 | DeleteHistos(); |
4a66240a | 84 | } |
85 | //______________________________________________________________________ | |
5fbd4fd6 | 86 | AliITSPlaneEffSPD::AliITSPlaneEffSPD(const AliITSPlaneEffSPD &s) : AliITSPlaneEff(s), |
4a66240a | 87 | //fHis(s.fHis), |
5fbd4fd6 | 88 | fHisResX(0), |
89 | fHisResZ(0), | |
90 | fHisResXZ(0), | |
91 | fHisClusterSize(0), | |
92 | fHisResXclu(0), | |
1cc5cedc | 93 | fHisResZclu(0), |
94 | fHisResXchip(0), | |
95 | fHisResZchip(0), | |
879cdb02 | 96 | fProfResXvsPhi(0), |
97 | fProfResZvsDip(0), | |
98 | fProfResXvsPhiclu(0), | |
99 | fProfResZvsDipclu(0), | |
1cc5cedc | 100 | fHisTrackErrX(0), |
101 | fHisTrackErrZ(0), | |
102 | fHisClusErrX(0), | |
1f1e7832 | 103 | fHisClusErrZ(0), |
104 | fHisTrackXFOtrue(0), | |
105 | fHisTrackZFOtrue(0), | |
106 | fHisTrackXFOfalse(0), | |
107 | fHisTrackZFOfalse(0), | |
108 | fHisTrackXZFOtrue(0), | |
109 | fHisTrackXZFOfalse(0) | |
4a66240a | 110 | { |
111 | // Copy Constructor | |
112 | // Inputs: | |
113 | // AliITSPlaneEffSPD &s The original class for which | |
114 | // this class is a copy of | |
115 | // Outputs: | |
116 | // none. | |
117 | // Return: | |
118 | ||
1f1e7832 | 119 | for (UInt_t i=0; i<kNModule*kNChip*(kNClockPhase+1); i++){ |
5fbd4fd6 | 120 | fFound[i]=s.fFound[i]; |
121 | fTried[i]=s.fTried[i]; | |
122 | } | |
123 | if(fHis) { | |
124 | InitHistos(); | |
125 | for(Int_t i=0; i<kNHisto; i++) { | |
126 | s.fHisResX[i]->Copy(*fHisResX[i]); | |
127 | s.fHisResZ[i]->Copy(*fHisResZ[i]); | |
128 | s.fHisResXZ[i]->Copy(*fHisResXZ[i]); | |
129 | s.fHisClusterSize[i]->Copy(*fHisClusterSize[i]); | |
130 | for(Int_t clu=0; clu<kNclu; clu++) { // clu=0 --> cluster size 1 | |
131 | s.fHisResXclu[i][clu]->Copy(*fHisResXclu[i][clu]); | |
132 | s.fHisResZclu[i][clu]->Copy(*fHisResZclu[i][clu]); | |
879cdb02 | 133 | s.fProfResXvsPhiclu[i][clu]->Copy(*fProfResXvsPhiclu[i][clu]); |
134 | s.fProfResZvsDipclu[i][clu]->Copy(*fProfResZvsDipclu[i][clu]); | |
5fbd4fd6 | 135 | } |
1cc5cedc | 136 | for(Int_t chip=0; chip<kNChip; chip++) { |
137 | s.fHisResXchip[i][chip]->Copy(*fHisResXchip[i][chip]); | |
138 | s.fHisResZchip[i][chip]->Copy(*fHisResZchip[i][chip]); | |
139 | } | |
879cdb02 | 140 | s.fProfResXvsPhi[i]->Copy(*fProfResXvsPhi[i]); |
141 | s.fProfResZvsDip[i]->Copy(*fProfResZvsDip[i]); | |
1cc5cedc | 142 | s.fHisTrackErrX[i]->Copy(*fHisTrackErrX[i]); |
143 | s.fHisTrackErrZ[i]->Copy(*fHisTrackErrZ[i]); | |
144 | s.fHisClusErrX[i]->Copy(*fHisClusErrX[i]); | |
145 | s.fHisClusErrZ[i]->Copy(*fHisClusErrZ[i]); | |
1f1e7832 | 146 | for(Int_t phas=0; phas<kNClockPhase;phas++){ |
147 | s.fHisTrackXFOtrue[i][phas]->Copy(*fHisTrackXFOtrue[i][phas]); | |
148 | s.fHisTrackZFOtrue[i][phas]->Copy(*fHisTrackXFOtrue[i][phas]); | |
149 | s.fHisTrackXFOfalse[i][phas]->Copy(*fHisTrackXFOtrue[i][phas]); | |
150 | s.fHisTrackZFOfalse[i][phas]->Copy(*fHisTrackXFOtrue[i][phas]); | |
151 | s.fHisTrackXZFOtrue[i][phas]->Copy(*fHisTrackXFOtrue[i][phas]); | |
152 | s.fHisTrackXZFOfalse[i][phas]->Copy(*fHisTrackXFOtrue[i][phas]); | |
153 | } | |
5fbd4fd6 | 154 | } |
155 | } | |
4a66240a | 156 | } |
157 | //_________________________________________________________________________ | |
158 | AliITSPlaneEffSPD& AliITSPlaneEffSPD::operator+=(const AliITSPlaneEffSPD &add){ | |
159 | // Add-to-me operator | |
160 | // Inputs: | |
161 | // const AliITSPlaneEffSPD &add simulation class to be added | |
162 | // Outputs: | |
163 | // none. | |
164 | // Return: | |
165 | // none | |
1f1e7832 | 166 | for (UInt_t i=0; i<kNModule*kNChip*(kNClockPhase+1); i++){ |
4a66240a | 167 | fFound[i] += add.fFound[i]; |
168 | fTried[i] += add.fTried[i]; | |
169 | } | |
5fbd4fd6 | 170 | if(fHis && add.fHis) { |
171 | for(Int_t i=0; i<kNHisto; i++) { | |
172 | fHisResX[i]->Add(add.fHisResX[i]); | |
173 | fHisResZ[i]->Add(add.fHisResZ[i]); | |
174 | fHisResXZ[i]->Add(add.fHisResXZ[i]); | |
175 | fHisClusterSize[i]->Add(add.fHisClusterSize[i]); | |
176 | for(Int_t clu=0; clu<kNclu; clu++) { // clu=0 --> cluster size 1 | |
177 | fHisResXclu[i][clu]->Add(add.fHisResXclu[i][clu]); | |
178 | fHisResZclu[i][clu]->Add(add.fHisResZclu[i][clu]); | |
879cdb02 | 179 | fProfResXvsPhiclu[i][clu]->Add(add.fProfResXvsPhiclu[i][clu]); |
180 | fProfResZvsDipclu[i][clu]->Add(add.fProfResZvsDipclu[i][clu]); | |
5fbd4fd6 | 181 | } |
1cc5cedc | 182 | for(Int_t chip=0; chip<kNChip; chip++) { |
183 | fHisResXchip[i][chip]->Add(add.fHisResXchip[i][chip]); | |
184 | fHisResZchip[i][chip]->Add(add.fHisResZchip[i][chip]); | |
185 | } | |
879cdb02 | 186 | fProfResXvsPhi[i]->Add(add.fProfResXvsPhi[i]); |
187 | fProfResZvsDip[i]->Add(add.fProfResZvsDip[i]); | |
1cc5cedc | 188 | fHisTrackErrX[i]->Add(add.fHisTrackErrX[i]); |
189 | fHisTrackErrZ[i]->Add(add.fHisTrackErrZ[i]); | |
190 | fHisClusErrX[i]->Add(add.fHisClusErrX[i]); | |
191 | fHisClusErrZ[i]->Add(add.fHisClusErrZ[i]); | |
1f1e7832 | 192 | for(Int_t phas=0; phas<kNClockPhase;phas++){ |
193 | fHisTrackXFOtrue[i][phas]->Add(add.fHisTrackXFOtrue[i][phas]); | |
194 | fHisTrackZFOtrue[i][phas]->Add(add.fHisTrackXFOtrue[i][phas]); | |
195 | fHisTrackXFOfalse[i][phas]->Add(add.fHisTrackXFOtrue[i][phas]); | |
196 | fHisTrackZFOfalse[i][phas]->Add(add.fHisTrackXFOtrue[i][phas]); | |
197 | fHisTrackXZFOtrue[i][phas]->Add(add.fHisTrackXFOtrue[i][phas]); | |
198 | fHisTrackXZFOfalse[i][phas]->Add(add.fHisTrackXFOtrue[i][phas]); | |
199 | } | |
5fbd4fd6 | 200 | } |
201 | } | |
4a66240a | 202 | return *this; |
203 | } | |
204 | //______________________________________________________________________ | |
205 | AliITSPlaneEffSPD& AliITSPlaneEffSPD::operator=(const | |
206 | AliITSPlaneEffSPD &s){ | |
207 | // Assignment operator | |
208 | // Inputs: | |
209 | // AliITSPlaneEffSPD &s The original class for which | |
210 | // this class is a copy of | |
211 | // Outputs: | |
212 | // none. | |
213 | // Return: | |
214 | ||
215 | if(this==&s) return *this; | |
31bfdbde | 216 | this->~AliITSPlaneEffSPD(); |
217 | new(this) AliITSPlaneEffSPD(); | |
4a66240a | 218 | s.Copy(*this); |
4a66240a | 219 | return *this; |
220 | } | |
221 | //______________________________________________________________________ | |
222 | void AliITSPlaneEffSPD::Copy(TObject &obj) const { | |
223 | // protected method. copy this to obj | |
224 | AliITSPlaneEff::Copy(obj); | |
5fbd4fd6 | 225 | AliITSPlaneEffSPD& target = (AliITSPlaneEffSPD &) obj; |
1f1e7832 | 226 | for(Int_t i=0;i<kNModule*kNChip*(kNClockPhase+1);i++) { |
5fbd4fd6 | 227 | target.fFound[i] = fFound[i]; |
228 | target.fTried[i] = fTried[i]; | |
229 | } | |
230 | CopyHistos(target); | |
231 | return; | |
232 | } | |
233 | //_______________________________________________________________________ | |
234 | void AliITSPlaneEffSPD::CopyHistos(AliITSPlaneEffSPD &target) const { | |
235 | // protected method: copy histos from this to target | |
236 | target.fHis = fHis; // this is redundant only in some cases. Leave as it is. | |
237 | if(fHis) { | |
238 | target.fHisResX=new TH1F*[kNHisto]; | |
239 | target.fHisResZ=new TH1F*[kNHisto]; | |
240 | target.fHisResXZ=new TH2F*[kNHisto]; | |
241 | target.fHisClusterSize=new TH2I*[kNHisto]; | |
242 | target.fHisResXclu=new TH1F**[kNHisto]; | |
243 | target.fHisResZclu=new TH1F**[kNHisto]; | |
1cc5cedc | 244 | target.fHisResXchip=new TH1F**[kNHisto]; |
245 | target.fHisResZchip=new TH1F**[kNHisto]; | |
879cdb02 | 246 | target.fProfResXvsPhi=new TProfile*[kNHisto]; |
247 | target.fProfResZvsDip=new TProfile*[kNHisto]; | |
248 | target.fProfResXvsPhiclu=new TProfile**[kNHisto]; | |
249 | target.fProfResZvsDipclu=new TProfile**[kNHisto]; | |
1cc5cedc | 250 | target.fHisTrackErrX=new TH1F*[kNHisto]; |
251 | target.fHisTrackErrZ=new TH1F*[kNHisto]; | |
252 | target.fHisClusErrX=new TH1F*[kNHisto]; | |
253 | target.fHisClusErrZ=new TH1F*[kNHisto]; | |
1f1e7832 | 254 | target.fHisTrackXFOtrue=new TH1F**[kNHisto]; |
255 | target.fHisTrackZFOtrue=new TH1F**[kNHisto]; | |
256 | target.fHisTrackXFOfalse=new TH1F**[kNHisto]; | |
257 | target.fHisTrackZFOfalse=new TH1F**[kNHisto]; | |
258 | target.fHisTrackXZFOtrue=new TH2F**[kNHisto]; | |
259 | target.fHisTrackXZFOfalse=new TH2F**[kNHisto]; | |
5fbd4fd6 | 260 | for(Int_t i=0; i<kNHisto; i++) { |
261 | target.fHisResX[i] = new TH1F(*fHisResX[i]); | |
262 | target.fHisResZ[i] = new TH1F(*fHisResZ[i]); | |
263 | target.fHisResXZ[i] = new TH2F(*fHisResXZ[i]); | |
264 | target.fHisClusterSize[i] = new TH2I(*fHisClusterSize[i]); | |
265 | target.fHisResXclu[i]=new TH1F*[kNclu]; | |
266 | target.fHisResZclu[i]=new TH1F*[kNclu]; | |
879cdb02 | 267 | target.fProfResXvsPhiclu[i]=new TProfile*[kNclu]; |
268 | target.fProfResZvsDipclu[i]=new TProfile*[kNclu]; | |
5fbd4fd6 | 269 | for(Int_t clu=0; clu<kNclu; clu++) { // clu=0 --> cluster size 1 |
270 | target.fHisResXclu[i][clu] = new TH1F(*fHisResXclu[i][clu]); | |
271 | target.fHisResZclu[i][clu] = new TH1F(*fHisResZclu[i][clu]); | |
879cdb02 | 272 | target.fProfResXvsPhiclu[i][clu] = new TProfile(*fProfResXvsPhiclu[i][clu]); |
273 | target.fProfResZvsDipclu[i][clu] = new TProfile(*fProfResZvsDipclu[i][clu]); | |
5fbd4fd6 | 274 | } |
1cc5cedc | 275 | target.fHisResXchip[i]=new TH1F*[kNChip]; |
276 | target.fHisResZchip[i]=new TH1F*[kNChip]; | |
277 | for(Int_t chip=0; chip<kNChip; chip++) { | |
278 | target.fHisResXchip[i][chip] = new TH1F(*fHisResXchip[i][chip]); | |
279 | target.fHisResZchip[i][chip] = new TH1F(*fHisResZchip[i][chip]); | |
280 | } | |
879cdb02 | 281 | target.fProfResXvsPhi[i] = new TProfile(*fProfResXvsPhi[i]); |
282 | target.fProfResZvsDip[i] = new TProfile(*fProfResZvsDip[i]); | |
1cc5cedc | 283 | target.fHisTrackErrX[i] = new TH1F(*fHisTrackErrX[i]); |
284 | target.fHisTrackErrZ[i] = new TH1F(*fHisTrackErrZ[i]); | |
285 | target.fHisClusErrX[i] = new TH1F(*fHisClusErrX[i]); | |
286 | target.fHisClusErrZ[i] = new TH1F(*fHisClusErrZ[i]); | |
1f1e7832 | 287 | |
288 | target.fHisTrackXFOtrue[i]=new TH1F*[kNClockPhase]; | |
289 | target.fHisTrackZFOtrue[i]=new TH1F*[kNClockPhase]; | |
290 | target.fHisTrackXFOfalse[i]=new TH1F*[kNClockPhase]; | |
291 | target.fHisTrackZFOfalse[i]=new TH1F*[kNClockPhase]; | |
292 | target.fHisTrackXZFOtrue[i]=new TH2F*[kNClockPhase]; | |
293 | target.fHisTrackXZFOfalse[i]=new TH2F*[kNClockPhase]; | |
294 | for(Int_t phas=0; phas<kNClockPhase;phas++){ | |
295 | target.fHisTrackXFOtrue[i][phas]=new TH1F(*fHisTrackXFOtrue[i][phas]); | |
296 | target.fHisTrackZFOtrue[i][phas]=new TH1F(*fHisTrackZFOtrue[i][phas]); | |
297 | target.fHisTrackXFOfalse[i][phas]=new TH1F(*fHisTrackXFOfalse[i][phas]); | |
298 | target.fHisTrackZFOfalse[i][phas]=new TH1F(*fHisTrackZFOfalse[i][phas]); | |
299 | target.fHisTrackXZFOtrue[i][phas]=new TH2F(*fHisTrackXZFOtrue[i][phas]); | |
300 | target.fHisTrackXZFOfalse[i][phas]=new TH2F(*fHisTrackXZFOfalse[i][phas]); | |
301 | } | |
5fbd4fd6 | 302 | } |
4a66240a | 303 | } |
5fbd4fd6 | 304 | return; |
4a66240a | 305 | } |
4a66240a | 306 | |
4a66240a | 307 | //_______________________________________________________________________ |
308 | Int_t AliITSPlaneEffSPD::GetMissingTracksForGivenEff(Double_t eff, Double_t RelErr, | |
309 | UInt_t im, UInt_t ic) const { | |
310 | ||
311 | // Estimate the number of tracks still to be collected to attain a | |
312 | // given efficiency eff, with relative error RelErr | |
313 | // Inputs: | |
314 | // eff -> Expected efficiency (e.g. those from actual estimate) | |
315 | // RelErr -> tollerance [0,1] | |
1f1e7832 | 316 | // im -> module number [0,239] |
6344adcc | 317 | // ic -> chip number [0,4] |
4a66240a | 318 | // Outputs: none |
319 | // Return: the estimated n. of tracks | |
320 | // | |
321 | if (im>=kNModule || ic>=kNChip) | |
7167ae53 | 322 | {AliError("GetMissingTracksForGivenEff: you asked for a non existing chip"); |
4a66240a | 323 | return -1;} |
879cdb02 | 324 | else { |
325 | UInt_t key=GetKey(im,ic); | |
326 | if(key<kNModule*kNChip) return GetNTracksForGivenEff(eff,RelErr)-fTried[key]; | |
327 | else return -1; | |
328 | } | |
4a66240a | 329 | } |
330 | //_________________________________________________________________________ | |
1f1e7832 | 331 | Double_t AliITSPlaneEffSPD::PlaneEff(const UInt_t im,const UInt_t ic, const Bool_t fo, const UInt_t bcm4) const { |
4a66240a | 332 | // Compute the efficiency for a basic block, |
333 | // Inputs: | |
1f1e7832 | 334 | // im -> module number [0,239] |
6344adcc | 335 | // ic -> chip number [0,4] |
1f1e7832 | 336 | // fo -> boolean, true in case of Fast Or studies |
337 | // bcm4 -> for Fast Or: bunch crossing % 4 | |
4a66240a | 338 | if (im>=kNModule || ic>=kNChip) |
7167ae53 | 339 | {AliError("PlaneEff(Uint_t,Uint_t): you asked for a non existing chip"); return -1.;} |
1f1e7832 | 340 | if(fo && bcm4>=kNClockPhase) |
341 | {AliError("PlaneEff(Uint_t,Uint_t): you asked for Fast Or in a wrong phase"); return -1.;} | |
879cdb02 | 342 | Int_t nf=-1; |
343 | Int_t nt=-1; | |
1f1e7832 | 344 | if(fo) { |
345 | AliWarning("PlaneEff: you asked for FO efficiency"); | |
712843e5 | 346 | UInt_t key=GetKey(im,ic,fo,bcm4); |
347 | if(key<kNModule*kNChip*(kNClockPhase+1)) { | |
348 | nf=fFound[key]; | |
349 | nt=fTried[key]; | |
350 | } | |
1f1e7832 | 351 | } else { |
712843e5 | 352 | UInt_t key=GetKey(im,ic); |
353 | if (key<kNModule*kNChip) { | |
354 | nf=fFound[key]; | |
355 | nt=fTried[key]; | |
356 | } | |
879cdb02 | 357 | } |
4a66240a | 358 | return AliITSPlaneEff::PlaneEff(nf,nt); |
359 | } | |
360 | //_________________________________________________________________________ | |
1f1e7832 | 361 | Double_t AliITSPlaneEffSPD::ErrPlaneEff(const UInt_t im,const UInt_t ic, const Bool_t fo, const UInt_t bcm4) const { |
4a66240a | 362 | // Compute the statistical error on efficiency for a basic block, |
363 | // using binomial statistics | |
364 | // Inputs: | |
1f1e7832 | 365 | // im -> module number [0,239] |
6344adcc | 366 | // ic -> chip number [0,4] |
1f1e7832 | 367 | // fo -> boolean, true in case of Fast Or studies |
368 | // bcm4 -> for Fast Or: bunch crossing % 4 | |
4a66240a | 369 | if (im>=kNModule || ic>=kNChip) |
7167ae53 | 370 | {AliError("ErrPlaneEff(Uint_t,Uint_t): you asked for a non existing chip"); return -1.;} |
1f1e7832 | 371 | if(fo && bcm4>=kNClockPhase) |
372 | {AliError("PlaneEff(Uint_t,Uint_t): you asked for Fast Or in a wrong phase"); return -1.;} | |
879cdb02 | 373 | Int_t nf=-1; |
374 | Int_t nt=-1; | |
1f1e7832 | 375 | if(fo) { |
376 | AliWarning("ErrPlaneEff: you asked for FO efficiency"); | |
712843e5 | 377 | UInt_t key=GetKey(im,ic,fo,bcm4); |
378 | if(key<kNModule*kNChip*(kNClockPhase+1)) { | |
379 | nf=fFound[key]; | |
380 | nt=fTried[key]; | |
381 | } | |
1f1e7832 | 382 | } else { |
712843e5 | 383 | UInt_t key=GetKey(im,ic); |
384 | if (key<kNModule*kNChip) { | |
385 | nf=fFound[key]; | |
386 | nt=fTried[key]; | |
387 | } | |
879cdb02 | 388 | } |
4a66240a | 389 | return AliITSPlaneEff::ErrPlaneEff(nf,nt); |
390 | } | |
391 | //_________________________________________________________________________ | |
392 | Bool_t AliITSPlaneEffSPD::UpDatePlaneEff(const Bool_t Kfound, | |
1f1e7832 | 393 | const UInt_t im, const UInt_t ic, const Bool_t fo, const UInt_t bcm4) { |
4a66240a | 394 | // Update efficiency for a basic block |
395 | if (im>=kNModule || ic>=kNChip) | |
7167ae53 | 396 | {AliError("UpDatePlaneEff: you asked for a non existing chip"); return kFALSE;} |
1f1e7832 | 397 | if(fo && bcm4>=kNClockPhase) |
398 | {AliError("UpDatePlaneEff: you asked for Fast Or in a wrong phase"); return kFALSE;} | |
399 | if (!fo) { | |
712843e5 | 400 | UInt_t key=GetKey(im,ic); |
401 | if(key<kNModule*kNChip) { | |
402 | fTried[key]++; | |
403 | if(Kfound) fFound[key]++; | |
404 | return kTRUE; | |
405 | } | |
1f1e7832 | 406 | } |
407 | else { | |
712843e5 | 408 | UInt_t key=GetKey(im,ic,fo,bcm4); |
d66f160c | 409 | if(key<kNModule*kNChip*(kNClockPhase+1)) { |
712843e5 | 410 | fTried[key]++; |
411 | if(Kfound) fFound[key]++; | |
412 | return kTRUE; | |
413 | } | |
1f1e7832 | 414 | } |
415 | return kFALSE; | |
4a66240a | 416 | } |
417 | //_________________________________________________________________________ | |
6344adcc | 418 | UInt_t AliITSPlaneEffSPD::GetChipFromCol(const UInt_t col) const { |
4a66240a | 419 | // get chip given the column |
420 | if(col>=kNCol*kNChip) | |
7167ae53 | 421 | {AliDebug(1,Form("GetChipFromCol: you asked for a non existing column %d",col)); return 10;} |
4a66240a | 422 | return col/kNCol; |
423 | } | |
424 | //__________________________________________________________________________ | |
1f1e7832 | 425 | UInt_t AliITSPlaneEffSPD::GetKey(const UInt_t mod, const UInt_t chip, const Bool_t FO, const UInt_t BCm4) const { |
4a66240a | 426 | // get key given a basic block |
1f1e7832 | 427 | UInt_t key=99999; |
4a66240a | 428 | if(mod>=kNModule || chip>=kNChip) |
73f56096 | 429 | {AliDebug(1,"GetKey: you asked for a non existing block"); return 99999;} |
1f1e7832 | 430 | key = mod*kNChip+chip; |
431 | if(FO) { | |
73f56096 | 432 | if(BCm4>= kNClockPhase) {AliDebug(1,"GetKey: you have asked Fast OR and a non exisiting BC modulo 4"); return 99999;} |
1f1e7832 | 433 | key += kNModule*kNChip*(BCm4+1); |
434 | } | |
435 | return key; | |
436 | } | |
437 | //__________________________________________________________________________ | |
438 | UInt_t AliITSPlaneEffSPD::SwitchChipKeyNumbering(UInt_t key) const { | |
439 | ||
440 | // methods to switch from offline chip key numbering | |
441 | // to online Raw Stream chip numbering and viceversa. | |
442 | // Used for Fast-Or studies. | |
443 | // Implemented by valerio.altini@ba.infn.it | |
444 | ||
445 | if(key>=kNModule*kNChip*(kNClockPhase+1)) | |
73f56096 | 446 | {AliDebug(1,"SwitchChipKeyNumbering: you asked for a non existing key"); return 99999;} |
1f1e7832 | 447 | UInt_t mod=9999,chip=9999,phase=9999; |
448 | GetModAndChipFromKey(key,mod,chip); | |
449 | if(mod<kNModuleLy1) chip = kNChip-(chip+1); | |
450 | if(IsForFO(key))phase = GetBCm4FromKey(key); | |
451 | ||
452 | return GetKey(mod,chip,IsForFO(key),phase); | |
453 | ||
4a66240a | 454 | } |
455 | //__________________________________________________________________________ | |
456 | UInt_t AliITSPlaneEffSPD::GetModFromKey(const UInt_t key) const { | |
457 | // get mod. from key | |
1f1e7832 | 458 | if(key>=kNModule*kNChip*(kNClockPhase+1)) |
7167ae53 | 459 | {AliError("GetModFromKey: you asked for a non existing key"); return 9999;} |
1f1e7832 | 460 | return (key%(kNModule*kNChip))/kNChip; |
4a66240a | 461 | } |
462 | //__________________________________________________________________________ | |
463 | UInt_t AliITSPlaneEffSPD::GetChipFromKey(const UInt_t key) const { | |
464 | // retrieves chip from key | |
1f1e7832 | 465 | if(key>=kNModule*kNChip*(kNClockPhase+1)) |
7167ae53 | 466 | {AliError("GetChipFromKey: you asked for a non existing key"); return 999;} |
1f1e7832 | 467 | return ((key%(kNModule*kNChip))%(kNModule*kNChip))%kNChip; |
468 | } | |
469 | //__________________________________________________________________________ | |
470 | UInt_t AliITSPlaneEffSPD::GetBCm4FromKey(const UInt_t key) const { | |
471 | // retrieves the "Bunch Crossing modulo 4" (for Fast Or studies) | |
472 | if(key>=kNModule*kNChip*(kNClockPhase+1)) | |
473 | {AliError("GetBCm4FromKey: you asked for a non existing key"); return 999;} | |
474 | if(key<kNModule*kNChip) | |
73f56096 | 475 | {AliDebug(1,"GetBCm4FromKey: key is below 1200, why are you asking for FO related stuff"); return 999;} |
1f1e7832 | 476 | |
477 | return key/(kNModule*kNChip) - 1 ; | |
478 | } | |
479 | //__________________________________________________________________________ | |
480 | Bool_t AliITSPlaneEffSPD::IsForFO(const UInt_t key) const { | |
481 | if(key>=kNModule*kNChip) return kTRUE; | |
482 | else return kFALSE; | |
4a66240a | 483 | } |
484 | //__________________________________________________________________________ | |
485 | void AliITSPlaneEffSPD::GetModAndChipFromKey(const UInt_t key,UInt_t& mod,UInt_t& chip) const { | |
486 | // get module and chip from a key | |
1f1e7832 | 487 | if(key>=kNModule*kNChip*(kNClockPhase+1)) |
7167ae53 | 488 | {AliError("GetModAndChipFromKey: you asked for a non existing key"); |
4a66240a | 489 | mod=9999; |
490 | chip=999; | |
491 | return;} | |
1f1e7832 | 492 | mod=GetModFromKey(key); |
493 | chip=GetChipFromKey(key); | |
4a66240a | 494 | return; |
495 | } | |
496 | //____________________________________________________________________________ | |
497 | Double_t AliITSPlaneEffSPD::LivePlaneEff(UInt_t key) const { | |
6344adcc | 498 | // returns plane efficieny after adding the fraction of sensor which is bad |
4a66240a | 499 | if(key>=kNModule*kNChip) |
7167ae53 | 500 | {AliError("LivePlaneEff: you asked for a non existing key"); |
4a66240a | 501 | return -1.;} |
6344adcc | 502 | Double_t leff=AliITSPlaneEff::LivePlaneEff(0); // this just for the Warning |
503 | leff=PlaneEff(key)+GetFracBad(key); | |
504 | return leff>1?1:leff; | |
4a66240a | 505 | } |
506 | //____________________________________________________________________________ | |
507 | Double_t AliITSPlaneEffSPD::ErrLivePlaneEff(UInt_t key) const { | |
508 | // returns error on live plane efficiency | |
509 | if(key>=kNModule*kNChip) | |
7167ae53 | 510 | {AliError("ErrLivePlaneEff: you asked for a non existing key"); |
4a66240a | 511 | return -1.;} |
6344adcc | 512 | Int_t nf=fFound[key]; |
513 | Double_t triedInLive=GetFracLive(key)*fTried[key]; | |
514 | Int_t nt=TMath::Max(nf,TMath::Nint(triedInLive)); | |
515 | return AliITSPlaneEff::ErrPlaneEff(nf,nt); // for the time being: to be checked | |
4a66240a | 516 | } |
517 | //_____________________________________________________________________________ | |
518 | Double_t AliITSPlaneEffSPD::GetFracLive(const UInt_t key) const { | |
519 | // returns the fraction of the sensor which is OK | |
520 | if(key>=kNModule*kNChip) | |
7167ae53 | 521 | {AliError("GetFracLive: you asked for a non existing key"); |
4a66240a | 522 | return -1.;} |
523 | // Compute the fraction of bad (dead+noisy) detector | |
524 | UInt_t dead=0,noisy=0; | |
525 | GetDeadAndNoisyInChip(key,dead,noisy); | |
526 | Double_t live=dead+noisy; | |
527 | live/=(kNRow*kNCol); | |
528 | return 1.-live; | |
529 | } | |
530 | //_____________________________________________________________________________ | |
531 | void AliITSPlaneEffSPD::GetDeadAndNoisyInChip(const UInt_t key, | |
532 | UInt_t& nrDeadInChip, UInt_t& nrNoisyInChip) const { | |
533 | // returns the number of dead and noisy pixels | |
534 | nrDeadInChip=0; | |
535 | nrNoisyInChip=0; | |
536 | if(key>=kNModule*kNChip) | |
7167ae53 | 537 | {AliError("GetDeadAndNoisyInChip: you asked for a non existing key"); |
4a66240a | 538 | return;} |
539 | // Compute the number of bad (dead+noisy) pixel in a chip | |
540 | // | |
541 | if(!fInitCDBCalled) | |
7167ae53 | 542 | {AliError("GetDeadAndNoisyInChip: CDB not inizialized: call InitCDB first"); |
4a66240a | 543 | return;}; |
544 | AliCDBManager* man = AliCDBManager::Instance(); | |
545 | // retrieve map of dead Pixel | |
546 | AliCDBEntry *cdbSPDDead = man->Get("ITS/Calib/SPDDead", fRunNumber); | |
547 | TObjArray* spdDead; | |
548 | if(cdbSPDDead) { | |
549 | spdDead = (TObjArray*)cdbSPDDead->GetObject(); | |
550 | if(!spdDead) | |
7167ae53 | 551 | {AliError("GetDeadAndNoisyInChip: SPDDead not found in CDB"); |
4a66240a | 552 | return;} |
553 | } else { | |
7167ae53 | 554 | AliError("GetDeadAndNoisyInChip: did not find Calib/SPDDead."); |
4a66240a | 555 | return; |
556 | } | |
9806b6f8 | 557 | // retrieve map of sparse dead Pixel |
558 | AliCDBEntry *cdbSPDSparseDead = man->Get("ITS/Calib/SPDSparseDead", fRunNumber); | |
559 | TObjArray* spdSparseDead; | |
560 | if(cdbSPDSparseDead) { | |
561 | spdSparseDead = (TObjArray*)cdbSPDSparseDead->GetObject(); | |
562 | if(!spdSparseDead) | |
563 | {AliError("GetDeadAndNoisyInChip: SPDSparseDead not found in CDB"); | |
564 | return;} | |
565 | } else { | |
566 | AliError("GetDeadAndNoisyInChip: did not find Calib/SPDSparseDead."); | |
567 | return; | |
568 | } | |
569 | ||
4a66240a | 570 | // retrieve map of noisy Pixel |
571 | AliCDBEntry *cdbSPDNoisy = man->Get("ITS/Calib/SPDNoisy", fRunNumber); | |
572 | TObjArray* spdNoisy; | |
573 | if(cdbSPDNoisy) { | |
574 | spdNoisy = (TObjArray*)cdbSPDNoisy->GetObject(); | |
575 | if(!spdNoisy) | |
7167ae53 | 576 | {AliError("GetDeadAndNoisyInChip: SPDNoisy not found in CDB"); |
4a66240a | 577 | return;} |
578 | } else { | |
7167ae53 | 579 | AliError("GetDeadAndNoisyInChip: did not find Calib/SPDNoisy."); |
4a66240a | 580 | return; |
581 | } | |
582 | // | |
583 | UInt_t mod=GetModFromKey(key); | |
584 | UInt_t chip=GetChipFromKey(key); | |
585 | // count number of dead | |
586 | AliITSCalibrationSPD* calibSPD=(AliITSCalibrationSPD*) spdDead->At(mod); | |
587 | UInt_t nrDead = calibSPD->GetNrBad(); | |
588 | for (UInt_t index=0; index<nrDead; index++) { | |
6344adcc | 589 | if(GetChipFromCol(calibSPD->GetBadColAt(index))==chip) nrDeadInChip++; |
4a66240a | 590 | } |
9806b6f8 | 591 | // add the number of sparse dead to the previous dead |
592 | calibSPD=(AliITSCalibrationSPD*) spdSparseDead->At(mod); | |
593 | UInt_t nrSparseDead = calibSPD->GetNrBad(); | |
594 | for (UInt_t index=0; index<nrSparseDead; index++) { | |
595 | if(GetChipFromCol(calibSPD->GetBadColAt(index))==chip) nrDeadInChip++; | |
596 | } | |
4a66240a | 597 | calibSPD=(AliITSCalibrationSPD*) spdNoisy->At(mod); |
598 | UInt_t nrNoisy = calibSPD->GetNrBad(); | |
599 | for (UInt_t index=0; index<nrNoisy; index++) { | |
6344adcc | 600 | if(GetChipFromCol(calibSPD->GetBadColAt(index))==chip) nrNoisyInChip++; |
4a66240a | 601 | } |
602 | return; | |
603 | } | |
604 | //_____________________________________________________________________________ | |
605 | Double_t AliITSPlaneEffSPD::GetFracBad(const UInt_t key) const { | |
606 | // returns 1-fractional live | |
607 | if(key>=kNModule*kNChip) | |
7167ae53 | 608 | {AliError("GetFracBad: you asked for a non existing key"); |
4a66240a | 609 | return -1.;} |
610 | return 1.-GetFracLive(key); | |
611 | } | |
612 | //_____________________________________________________________________________ | |
613 | Bool_t AliITSPlaneEffSPD::WriteIntoCDB() const { | |
614 | // write onto CDB | |
615 | if(!fInitCDBCalled) | |
7167ae53 | 616 | {AliError("WriteIntoCDB: CDB not inizialized. Call InitCDB first"); |
4a66240a | 617 | return kFALSE;} |
618 | // to be written properly: now only for debugging | |
619 | AliCDBMetaData *md= new AliCDBMetaData(); // metaData describing the object | |
1cc5cedc | 620 | //md->SetObjectClassName("AliITSPlaneEff"); |
4a66240a | 621 | md->SetResponsible("Giuseppe Eugenio Bruno"); |
622 | md->SetBeamPeriod(0); | |
623 | md->SetAliRootVersion("head 19/11/07"); //root version | |
624 | AliCDBId id("ITS/PlaneEff/PlaneEffSPD",0,AliCDBRunRange::Infinity()); | |
625 | AliITSPlaneEffSPD eff; | |
626 | eff=*this; | |
627 | Bool_t r=AliCDBManager::Instance()->GetDefaultStorage()->Put(&eff,id,md); | |
628 | delete md; | |
629 | return r; | |
630 | } | |
631 | //_____________________________________________________________________________ | |
632 | Bool_t AliITSPlaneEffSPD::ReadFromCDB() { | |
633 | // read from CDB | |
634 | if(!fInitCDBCalled) | |
7167ae53 | 635 | {AliError("ReadFromCDB: CDB not inizialized. Call InitCDB first"); |
4a66240a | 636 | return kFALSE;} |
4a66240a | 637 | AliCDBEntry *cdbEntry = AliCDBManager::Instance()->Get("ITS/PlaneEff/PlaneEffSPD",fRunNumber); |
1cc5cedc | 638 | if(!cdbEntry) return kFALSE; |
4a66240a | 639 | AliITSPlaneEffSPD* eff= (AliITSPlaneEffSPD*)cdbEntry->GetObject(); |
640 | if(this==eff) return kFALSE; | |
5fbd4fd6 | 641 | if(fHis) CopyHistos(*eff); // If histos already exist then copy them to eff |
642 | eff->Copy(*this); // copy everything (statistics and histos) from eff to this | |
4a66240a | 643 | return kTRUE; |
644 | } | |
7167ae53 | 645 | //_____________________________________________________________________________ |
1cc5cedc | 646 | Bool_t AliITSPlaneEffSPD::AddFromCDB(AliCDBId *cdbId) { |
647 | AliCDBEntry *cdbEntry=0; | |
648 | if (!cdbId) { | |
649 | if(!fInitCDBCalled) | |
650 | {AliError("ReadFromCDB: CDB not inizialized. Call InitCDB first"); return kFALSE;} | |
651 | cdbEntry = AliCDBManager::Instance()->Get("ITS/PlaneEff/PlaneEffSPD",fRunNumber); | |
652 | } else { | |
653 | cdbEntry = AliCDBManager::Instance()->Get(*cdbId); | |
654 | } | |
655 | if(!cdbEntry) return kFALSE; | |
656 | AliITSPlaneEffSPD* eff= (AliITSPlaneEffSPD*)cdbEntry->GetObject(); | |
657 | *this+=*eff; | |
658 | return kTRUE; | |
659 | } | |
660 | //_____________________________________________________________________________ | |
7167ae53 | 661 | UInt_t AliITSPlaneEffSPD::GetKeyFromDetLocCoord(Int_t ilay, Int_t idet, |
662 | Float_t, Float_t locz) const { | |
663 | // method to locate a basic block from Detector Local coordinate (to be used in tracking) | |
664 | UInt_t key=999999; | |
665 | if(ilay<0 || ilay>1) | |
666 | {AliError("GetKeyFromDetLocCoord: you asked for a non existing layer"); | |
667 | return key;} | |
668 | if(ilay==0 && (idet<0 || idet>79)) | |
669 | {AliError("GetKeyFromDetLocCoord: you asked for a non existing detector"); | |
670 | return key;} | |
671 | if(ilay==1 && (idet<0 || idet>159)) | |
672 | {AliError("GetKeyFromDetLocCoord: you asked for a non existing detector"); | |
673 | return key;} | |
674 | ||
675 | UInt_t mod=idet; | |
676 | if(ilay==1) mod+=80; | |
677 | key=GetKey(mod,GetChipFromCol(GetColFromLocZ(locz))); | |
678 | return key; | |
679 | } | |
680 | //_____________________________________________________________________________ | |
681 | UInt_t AliITSPlaneEffSPD::GetColFromLocZ(Float_t zloc) const { | |
41d18cd2 | 682 | // method to retrieve column number from the local z coordinate |
683 | UInt_t col=0; | |
684 | AliITSsegmentationSPD spd; | |
685 | Int_t ix,iz; | |
686 | if(spd.LocalToDet(0,zloc,ix,iz)) col+=iz; | |
687 | else { | |
275a301c | 688 | AliDebug(1,Form("cannot compute column number from local z=%f",zloc)); |
41d18cd2 | 689 | col=99999;} |
690 | return col; | |
691 | /* | |
7167ae53 | 692 | const Float_t kconv = 1.0E-04; // converts microns to cm. |
693 | Float_t bz[160]; | |
694 | for(Int_t i=000;i<160;i++) bz[i] = 425.0; // most are 425 microns except below | |
695 | bz[ 31] = bz[ 32] = 625.0; // first chip boundry | |
696 | bz[ 63] = bz[ 64] = 625.0; // first chip boundry | |
697 | bz[ 95] = bz[ 96] = 625.0; // first chip boundry | |
698 | bz[127] = bz[128] = 625.0; // first chip boundry | |
699 | // | |
700 | Int_t j=-1; | |
701 | Float_t dz=0; | |
702 | for(Int_t i=000;i<160;i++) dz+=bz[i]; | |
703 | dz = -0.5*kconv*dz; | |
704 | if(zloc<dz || zloc>-1*dz) { // outside z range | |
705 | AliDebug(1,Form("GetColFromLocZ: cannot compute column number from local z=%f",zloc)); | |
706 | return 99999;} | |
707 | for(j=0;j<160;j++){ | |
708 | dz += kconv*bz[j]; | |
709 | if(zloc<dz) break; | |
710 | } // end for j | |
711 | col+=j; | |
712 | // | |
713 | return col; | |
41d18cd2 | 714 | */ |
7167ae53 | 715 | } |
716 | //________________________________________________________ | |
aa0de373 | 717 | Bool_t AliITSPlaneEffSPD::GetBlockBoundaries(const UInt_t key, Float_t& xmn,Float_t& xmx, |
718 | Float_t& zmn,Float_t& zmx) const { | |
719 | // | |
720 | // This method return the geometrical boundaries of the active volume of a given | |
721 | // basic block, in the detector reference system. | |
722 | // Input: unique key to locate a basic block. | |
723 | // | |
724 | // Output: Ymin, Ymax, Zmin, Zmax of a basic block (chip for SPD) | |
725 | // Return: kTRUE if computation was succesfully, kFALSE otherwise | |
726 | // | |
727 | if(key>=kNModule*kNChip) | |
73f56096 | 728 | {AliDebug(1,"GetBlockBoundaries: you asked for a non existing key"); return kFALSE;} |
aa0de373 | 729 | UInt_t chip=GetChipFromKey(key); |
730 | zmn=GetLocZFromCol(chip*kNCol); | |
731 | zmx=GetLocZFromCol((chip+1)*kNCol); | |
732 | xmn=GetLocXFromRow(0); | |
733 | xmx=GetLocXFromRow(kNRow); | |
41d18cd2 | 734 | // |
aa0de373 | 735 | Float_t tmp=zmn; |
736 | if(zmx<zmn) {zmn=zmx; zmx=tmp;} | |
737 | tmp=xmn; | |
738 | if(xmx<xmn) {xmn=xmx; xmx=tmp;} | |
739 | return kTRUE; | |
740 | } | |
741 | //________________________________________________________ | |
742 | Float_t AliITSPlaneEffSPD::GetLocXFromRow(const UInt_t row) const { | |
743 | // | |
744 | // This method return the local (i.e. detector reference system) lower x coordinate | |
745 | // of the row. To get the central value of a given row, you can do | |
746 | // 1/2*[LocXFromRow(row)+LocXFromRow(row+1)]. | |
747 | // | |
748 | // Input: row number in the range [0,kNRow] | |
749 | // Output: lower local X coordinate of this row. | |
750 | // | |
751 | if(row>kNRow) // not >= ! allow also computation of upper limit of the last row. | |
752 | {AliError("LocYFromRow: you asked for a non existing row"); return 9999999.;} | |
41d18cd2 | 753 | // Use only AliITSsegmentationSPD |
754 | AliITSsegmentationSPD spd; | |
755 | Double_t dummy,x; | |
756 | if(row==kNRow) spd.CellBoundries((Int_t)row-1,0,dummy,x,dummy,dummy); | |
757 | else spd.CellBoundries((Int_t)row,0,x,dummy,dummy,dummy); | |
758 | return (Float_t)x; | |
759 | ||
aa0de373 | 760 | } |
761 | //________________________________________________________ | |
762 | Float_t AliITSPlaneEffSPD::GetLocZFromCol(const UInt_t col) const { | |
763 | // | |
764 | // This method return the local (i.e. detector reference system) lower Z coordinate | |
765 | // of the column. To get the central value of a given column, you can do | |
766 | // 1/2*[LocZFromCol(col)+LocZFromCol(col+1)]. | |
767 | // | |
768 | // Input: col number in the range [0,kNChip*kNCol] | |
769 | // Output: lower local Y coordinate of this row. | |
770 | // | |
771 | if(col>kNChip*kNCol) // not >= ! allow also computation of upper limit of the last column | |
772 | {AliError("LocZFromCol: you asked for a non existing column"); return 9999999.;} | |
41d18cd2 | 773 | // Use only AliITSsegmentationSPD |
774 | AliITSsegmentationSPD spd; | |
775 | Double_t dummy,y; | |
776 | if(col==kNChip*kNCol) spd.CellBoundries(0,(Int_t)col-1,dummy,dummy,dummy,y); | |
777 | else spd.CellBoundries(0,(Int_t)col,dummy,dummy,y,dummy); | |
778 | return (Float_t)y; | |
779 | ||
aa0de373 | 780 | } |
5fbd4fd6 | 781 | //__________________________________________________________ |
782 | void AliITSPlaneEffSPD::InitHistos() { | |
783 | // for the moment let's create the histograms | |
784 | // module by module | |
785 | TString histnameResX="HistResX_mod_",aux; | |
786 | TString histnameResZ="HistResZ_mod_"; | |
787 | TString histnameResXZ="HistResXZ_mod_"; | |
788 | TString histnameClusterType="HistClusterType_mod_"; | |
789 | TString histnameResXclu="HistResX_mod_"; | |
790 | TString histnameResZclu="HistResZ_mod_"; | |
1cc5cedc | 791 | TString histnameResXchip="HistResX_mod_"; |
792 | TString histnameResZchip="HistResZ_mod_"; | |
879cdb02 | 793 | TString profnameResXvsPhi="ProfResXvsPhi_mod_"; |
794 | TString profnameResZvsDip="ProfResZvsDip_mod_"; | |
795 | TString profnameResXvsPhiclu="ProfResXvsPhi_mod_"; | |
796 | TString profnameResZvsDipclu="ProfResZvsDip_mod_"; | |
1cc5cedc | 797 | TString histnameTrackErrX="HistTrackErrX_mod_"; |
798 | TString histnameTrackErrZ="HistTrackErrZ_mod_"; | |
799 | TString histnameClusErrX="HistClusErrX_mod_"; | |
800 | TString histnameClusErrZ="HistClusErrZ_mod_"; | |
1f1e7832 | 801 | TString histnameTrackXFOtrue="HistTrackXFOok_mod_"; |
802 | TString histnameTrackZFOtrue="HistTrackZFOok_mod_"; | |
803 | TString histnameTrackXFOfalse="HistTrackXFOko_mod_"; | |
804 | TString histnameTrackZFOfalse="HistTrackZFOko_mod_"; | |
805 | TString histnameTrackXZFOtrue="HistTrackZvsXFOok_mod_"; | |
806 | TString histnameTrackXZFOfalse="HistTrackZvsXFOko_mod_"; | |
5fbd4fd6 | 807 | // |
4c555563 | 808 | |
809 | TH1::AddDirectory(kFALSE); | |
810 | ||
5fbd4fd6 | 811 | fHisResX=new TH1F*[kNHisto]; |
812 | fHisResZ=new TH1F*[kNHisto]; | |
813 | fHisResXZ=new TH2F*[kNHisto]; | |
814 | fHisClusterSize=new TH2I*[kNHisto]; | |
815 | fHisResXclu=new TH1F**[kNHisto]; | |
816 | fHisResZclu=new TH1F**[kNHisto]; | |
1cc5cedc | 817 | fHisResXchip=new TH1F**[kNHisto]; |
818 | fHisResZchip=new TH1F**[kNHisto]; | |
879cdb02 | 819 | fProfResXvsPhi=new TProfile*[kNHisto]; |
820 | fProfResZvsDip=new TProfile*[kNHisto]; | |
821 | fProfResXvsPhiclu=new TProfile**[kNHisto]; | |
822 | fProfResZvsDipclu=new TProfile**[kNHisto]; | |
1cc5cedc | 823 | fHisTrackErrX=new TH1F*[kNHisto]; |
824 | fHisTrackErrZ=new TH1F*[kNHisto]; | |
825 | fHisClusErrX=new TH1F*[kNHisto]; | |
826 | fHisClusErrZ=new TH1F*[kNHisto]; | |
1f1e7832 | 827 | fHisTrackXFOtrue=new TH1F**[kNHisto]; |
828 | fHisTrackZFOtrue=new TH1F**[kNHisto]; | |
829 | fHisTrackXFOfalse=new TH1F**[kNHisto]; | |
830 | fHisTrackZFOfalse=new TH1F**[kNHisto]; | |
831 | fHisTrackXZFOtrue=new TH2F**[kNHisto]; | |
832 | fHisTrackXZFOfalse=new TH2F**[kNHisto]; | |
5fbd4fd6 | 833 | |
834 | for (Int_t nhist=0;nhist<kNHisto;nhist++){ | |
835 | aux=histnameResX; | |
836 | aux+=nhist; | |
061c42a0 | 837 | fHisResX[nhist]=new TH1F("histname","histname",1600,-0.32,0.32); // +- 3200 micron; 1 bin=4 micron |
5fbd4fd6 | 838 | fHisResX[nhist]->SetName(aux.Data()); |
839 | fHisResX[nhist]->SetTitle(aux.Data()); | |
840 | ||
841 | aux=histnameResZ; | |
842 | aux+=nhist; | |
061c42a0 | 843 | fHisResZ[nhist]=new TH1F("histname","histname",1200,-0.48,0.48); // +-4800 micron; 1 bin=8 micron |
5fbd4fd6 | 844 | fHisResZ[nhist]->SetName(aux.Data()); |
845 | fHisResZ[nhist]->SetTitle(aux.Data()); | |
846 | ||
847 | aux=histnameResXZ; | |
848 | aux+=nhist; | |
061c42a0 | 849 | fHisResXZ[nhist]=new TH2F("histname","histname",80,-0.16,0.16,80,-0.32,0.32); // binning: |
1cc5cedc | 850 | fHisResXZ[nhist]->SetName(aux.Data()); // 40 micron in x; |
851 | fHisResXZ[nhist]->SetTitle(aux.Data()); // 80 micron in z; | |
5fbd4fd6 | 852 | |
853 | aux=histnameClusterType; | |
854 | aux+=nhist; | |
855 | fHisClusterSize[nhist]=new TH2I("histname","histname",10,0.5,10.5,10,0.5,10.5); | |
856 | fHisClusterSize[nhist]->SetName(aux.Data()); | |
857 | fHisClusterSize[nhist]->SetTitle(aux.Data()); | |
858 | ||
859 | fHisResXclu[nhist]=new TH1F*[kNclu]; | |
860 | fHisResZclu[nhist]=new TH1F*[kNclu]; | |
1f1e7832 | 861 | fHisTrackXFOtrue[nhist]=new TH1F*[kNClockPhase]; |
862 | fHisTrackZFOtrue[nhist]=new TH1F*[kNClockPhase]; | |
863 | fHisTrackXFOfalse[nhist]=new TH1F*[kNClockPhase]; | |
864 | fHisTrackZFOfalse[nhist]=new TH1F*[kNClockPhase]; | |
865 | fHisTrackXZFOtrue[nhist]=new TH2F*[kNClockPhase]; | |
866 | fHisTrackXZFOfalse[nhist]=new TH2F*[kNClockPhase]; | |
867 | ||
5fbd4fd6 | 868 | for(Int_t clu=0; clu<kNclu; clu++) { // clu=0 --> cluster size 1 |
869 | aux=histnameResXclu; | |
870 | aux+=nhist; | |
871 | aux+="_clu_"; | |
872 | aux+=clu+1; // clu=0 --> cluster size 1 | |
061c42a0 | 873 | fHisResXclu[nhist][clu]=new TH1F("histname","histname",1600,-0.32,0.32); // +- 3200 micron; 1 bin=4 micron |
5fbd4fd6 | 874 | fHisResXclu[nhist][clu]->SetName(aux.Data()); |
875 | fHisResXclu[nhist][clu]->SetTitle(aux.Data()); | |
876 | ||
877 | aux=histnameResZclu; | |
878 | aux+=nhist; | |
879 | aux+="_clu_"; | |
880 | aux+=clu+1; // clu=0 --> cluster size 1 | |
061c42a0 | 881 | fHisResZclu[nhist][clu]=new TH1F("histname","histname",1200,-0.48,0.48); // +-4800 micron; 1 bin=8 micron |
5fbd4fd6 | 882 | fHisResZclu[nhist][clu]->SetName(aux.Data()); |
883 | fHisResZclu[nhist][clu]->SetTitle(aux.Data()); | |
884 | } | |
885 | ||
1cc5cedc | 886 | fHisResXchip[nhist]=new TH1F*[kNChip]; |
887 | fHisResZchip[nhist]=new TH1F*[kNChip]; | |
888 | for(Int_t chip=0; chip<kNChip; chip++) { | |
889 | aux=histnameResXchip; | |
890 | aux+=nhist; | |
891 | aux+="_chip_"; | |
892 | aux+=chip; | |
061c42a0 | 893 | fHisResXchip[nhist][chip]=new TH1F("histname","histname",800,-0.32,0.32); // +- 3200 micron; 1 bin=8 micron |
1cc5cedc | 894 | fHisResXchip[nhist][chip]->SetName(aux.Data()); |
895 | fHisResXchip[nhist][chip]->SetTitle(aux.Data()); | |
896 | ||
897 | aux=histnameResZchip; | |
898 | aux+=nhist; | |
899 | aux+="_chip_"; | |
900 | aux+=chip; | |
061c42a0 | 901 | fHisResZchip[nhist][chip]=new TH1F("histname","histname",300,-0.48,0.48); // +-4800 micron; 1 bin=32 micron |
1cc5cedc | 902 | fHisResZchip[nhist][chip]->SetName(aux.Data()); |
903 | fHisResZchip[nhist][chip]->SetTitle(aux.Data()); | |
904 | } | |
905 | ||
906 | aux=histnameTrackErrX; | |
907 | aux+=nhist; | |
061c42a0 | 908 | fHisTrackErrX[nhist]=new TH1F("histname","histname",400,0.,0.32); // 0-3200 micron; 1 bin=8 micron |
1cc5cedc | 909 | fHisTrackErrX[nhist]->SetName(aux.Data()); |
910 | fHisTrackErrX[nhist]->SetTitle(aux.Data()); | |
911 | ||
912 | aux=histnameTrackErrZ; | |
913 | aux+=nhist; | |
914 | fHisTrackErrZ[nhist]=new TH1F("histname","histname",200,0.,0.32); // 0-3200 micron; 1 bin=16 micron | |
915 | fHisTrackErrZ[nhist]->SetName(aux.Data()); | |
916 | fHisTrackErrZ[nhist]->SetTitle(aux.Data()); | |
917 | ||
918 | aux=histnameClusErrX; | |
919 | aux+=nhist; | |
061c42a0 | 920 | fHisClusErrX[nhist]=new TH1F("histname","histname",400,0.,0.08); // 0-800 micron; 1 bin=2 micron |
1cc5cedc | 921 | fHisClusErrX[nhist]->SetName(aux.Data()); |
922 | fHisClusErrX[nhist]->SetTitle(aux.Data()); | |
923 | ||
924 | aux=histnameClusErrZ; | |
925 | aux+=nhist; | |
061c42a0 | 926 | fHisClusErrZ[nhist]=new TH1F("histname","histname",400,0.,0.32); // 0-3200 micron; 1 bin=8 micron |
1cc5cedc | 927 | fHisClusErrZ[nhist]->SetName(aux.Data()); |
928 | fHisClusErrZ[nhist]->SetTitle(aux.Data()); | |
929 | ||
879cdb02 | 930 | aux=profnameResXvsPhi; |
931 | aux+=nhist; | |
932 | fProfResXvsPhi[nhist]=new TProfile("histname","histname",40,-40.,40.0); // binning: range: -40°- 40° | |
933 | fProfResXvsPhi[nhist]->SetName(aux.Data()); // bin width: 2° | |
934 | fProfResXvsPhi[nhist]->SetTitle(aux.Data()); | |
935 | ||
936 | aux=profnameResZvsDip; | |
937 | aux+=nhist; | |
938 | fProfResZvsDip[nhist]=new TProfile("histname","histname",48,-72.,72.0); // binning: range: -70°-4° | |
939 | fProfResZvsDip[nhist]->SetName(aux.Data()); // bin width: 3° | |
940 | fProfResZvsDip[nhist]->SetTitle(aux.Data()); | |
941 | ||
942 | fProfResXvsPhiclu[nhist]=new TProfile*[kNclu]; | |
943 | fProfResZvsDipclu[nhist]=new TProfile*[kNclu]; | |
944 | for(Int_t clu=0; clu<kNclu; clu++) { // clu=0 --> cluster size 1 | |
945 | aux=profnameResXvsPhiclu; | |
946 | aux+=nhist; | |
947 | aux+="_clu_"; | |
948 | aux+=clu+1; // clu=0 --> cluster size 1 | |
949 | fProfResXvsPhiclu[nhist][clu]=new TProfile("histname","histname",40,-40.,40.0); // binning: range: -40°- 40 | |
1f1e7832 | 950 | fProfResXvsPhiclu[nhist][clu]->SetName(aux.Data()); // bin width: 2° |
879cdb02 | 951 | fProfResXvsPhiclu[nhist][clu]->SetTitle(aux.Data()); |
952 | ||
953 | aux=profnameResZvsDipclu; | |
954 | aux+=nhist; | |
955 | aux+="_clu_"; | |
956 | aux+=clu+1; // clu=0 --> cluster size 1 | |
957 | fProfResZvsDipclu[nhist][clu]= new TProfile("histname","histname",48,-72.,72.0); // binning: range: -70°-7° | |
958 | fProfResZvsDipclu[nhist][clu]->SetName(aux.Data()); // bin width: 3° | |
959 | fProfResZvsDipclu[nhist][clu]->SetTitle(aux.Data()); | |
960 | } | |
961 | ||
1f1e7832 | 962 | fHisTrackXFOtrue[nhist]=new TH1F*[kNClockPhase]; |
963 | fHisTrackZFOtrue[nhist]=new TH1F*[kNClockPhase]; | |
964 | fHisTrackXFOfalse[nhist]=new TH1F*[kNClockPhase]; | |
965 | fHisTrackZFOfalse[nhist]=new TH1F*[kNClockPhase]; | |
966 | fHisTrackXZFOtrue[nhist]=new TH2F*[kNClockPhase]; | |
967 | fHisTrackXZFOfalse[nhist]=new TH2F*[kNClockPhase]; | |
968 | for(Int_t phas=0; phas<kNClockPhase;phas++){ | |
969 | aux=histnameTrackXFOtrue; | |
970 | aux+=nhist; | |
971 | aux+="_BCmod4_"; | |
972 | aux+=phas; | |
973 | fHisTrackXFOtrue[nhist][phas]=new TH1F("histname","histname",128,-0.64,0.64); // +- 6.4 mm; 1 bin=0.1 mm | |
974 | fHisTrackXFOtrue[nhist][phas]->SetName(aux.Data()); | |
975 | fHisTrackXFOtrue[nhist][phas]->SetTitle(aux.Data()); | |
976 | ||
977 | aux=histnameTrackZFOtrue; | |
978 | aux+=nhist; | |
979 | aux+="_BCmod4_"; | |
980 | aux+=phas; | |
981 | fHisTrackZFOtrue[nhist][phas]=new TH1F("histname","histname",350,-3.5,3.5); // +- 35. mm; 1 bin=0.2 mm | |
982 | fHisTrackZFOtrue[nhist][phas]->SetName(aux.Data()); | |
983 | fHisTrackZFOtrue[nhist][phas]->SetTitle(aux.Data()); | |
984 | ||
985 | aux=histnameTrackXFOfalse; | |
986 | aux+=nhist; | |
987 | aux+="_BCmod4_"; | |
988 | aux+=phas; | |
989 | fHisTrackXFOfalse[nhist][phas]=new TH1F("histname","histname",128,-0.64,0.64); // +- 6.4 mm; 1 bin=0.1 mm | |
990 | fHisTrackXFOfalse[nhist][phas]->SetName(aux.Data()); | |
991 | fHisTrackXFOfalse[nhist][phas]->SetTitle(aux.Data()); | |
992 | ||
993 | aux=histnameTrackZFOfalse; | |
994 | aux+=nhist; | |
995 | aux+="_BCmod4_"; | |
996 | aux+=phas; | |
997 | fHisTrackZFOfalse[nhist][phas]=new TH1F("histname","histname",350,-3.5,3.5); // +- 35. mm; 1 bin=0.2 mm | |
998 | fHisTrackZFOfalse[nhist][phas]->SetName(aux.Data()); | |
999 | fHisTrackZFOfalse[nhist][phas]->SetTitle(aux.Data()); | |
1000 | ||
1001 | aux=histnameTrackXZFOtrue; | |
1002 | aux+=nhist; | |
1003 | aux+="_BCmod4_"; | |
1004 | aux+=phas; | |
1005 | fHisTrackXZFOtrue[nhist][phas]=new TH2F("histname","histname",22,-3.5,3.5,32,-0.64,0.64); // localZ +- 35. mm; 1 bin=3.2 mm | |
1006 | fHisTrackXZFOtrue[nhist][phas]->SetName(aux.Data()); // localX +- 6.4 mm; 1 bin=0.4 mm | |
1007 | fHisTrackXZFOtrue[nhist][phas]->SetTitle(aux.Data()); | |
1008 | ||
1009 | aux=histnameTrackXZFOfalse; | |
1010 | aux+=nhist; | |
1011 | aux+="_BCmod4_"; | |
1012 | aux+=phas; | |
1013 | fHisTrackXZFOfalse[nhist][phas]=new TH2F("histname","histname",22,-3.5,3.5,32,-0.64,0.64); // localZ +- 35. mm; 1 bin=3.2 mm | |
1014 | fHisTrackXZFOfalse[nhist][phas]->SetName(aux.Data()); // localX +- 6.4 mm; 1 bin=0.4 mm | |
1015 | fHisTrackXZFOfalse[nhist][phas]->SetTitle(aux.Data()); | |
1016 | } | |
879cdb02 | 1017 | } // end loop on module |
4c555563 | 1018 | |
1019 | TH1::AddDirectory(kTRUE); | |
1020 | ||
5fbd4fd6 | 1021 | return; |
1022 | } | |
1023 | //__________________________________________________________ | |
1024 | void AliITSPlaneEffSPD::DeleteHistos() { | |
1025 | if(fHisResX) { | |
1026 | for (Int_t i=0; i<kNHisto; i++ ) delete fHisResX[i]; | |
3ebe30ad | 1027 | delete [] fHisResX; fHisResX=0; |
5fbd4fd6 | 1028 | } |
1029 | if(fHisResZ) { | |
1030 | for (Int_t i=0; i<kNHisto; i++ ) delete fHisResZ[i]; | |
3ebe30ad | 1031 | delete [] fHisResZ; fHisResZ=0; |
5fbd4fd6 | 1032 | } |
1033 | if(fHisResXZ) { | |
1034 | for (Int_t i=0; i<kNHisto; i++ ) delete fHisResXZ[i]; | |
3ebe30ad | 1035 | delete [] fHisResXZ; fHisResXZ=0; |
5fbd4fd6 | 1036 | } |
1037 | if(fHisClusterSize) { | |
1038 | for (Int_t i=0; i<kNHisto; i++ ) delete fHisClusterSize[i]; | |
3ebe30ad | 1039 | delete [] fHisClusterSize; fHisClusterSize=0; |
5fbd4fd6 | 1040 | } |
1041 | if(fHisResXclu) { | |
1042 | for (Int_t i=0; i<kNHisto; i++ ) { | |
1043 | for (Int_t clu=0; clu<kNclu; clu++) if (fHisResXclu[i][clu]) delete fHisResXclu[i][clu]; | |
1044 | delete [] fHisResXclu[i]; | |
1045 | } | |
1046 | delete [] fHisResXclu; | |
1047 | fHisResXclu = 0; | |
1048 | } | |
1049 | if(fHisResZclu) { | |
1050 | for (Int_t i=0; i<kNHisto; i++ ) { | |
1051 | for (Int_t clu=0; clu<kNclu; clu++) if (fHisResZclu[i][clu]) delete fHisResZclu[i][clu]; | |
1052 | delete [] fHisResZclu[i]; | |
1053 | } | |
1054 | delete [] fHisResZclu; | |
1055 | fHisResZclu = 0; | |
1056 | } | |
1cc5cedc | 1057 | if(fHisResXchip) { |
1058 | for (Int_t i=0; i<kNHisto; i++ ) { | |
1059 | for (Int_t chip=0; chip<kNChip; chip++) if (fHisResXchip[i][chip]) delete fHisResXchip[i][chip]; | |
1060 | delete [] fHisResXchip[i]; | |
1061 | } | |
1062 | delete [] fHisResXchip; | |
1063 | fHisResXchip = 0; | |
1064 | } | |
1065 | if(fHisResZchip) { | |
1066 | for (Int_t i=0; i<kNHisto; i++ ) { | |
1067 | for (Int_t chip=0; chip<kNChip; chip++) if (fHisResZchip[i][chip]) delete fHisResZchip[i][chip]; | |
1068 | delete [] fHisResZchip[i]; | |
1069 | } | |
1070 | delete [] fHisResZchip; | |
1071 | fHisResZchip = 0; | |
1072 | } | |
1073 | if(fHisTrackErrX) { | |
1074 | for (Int_t i=0; i<kNHisto; i++ ) delete fHisTrackErrX[i]; | |
1075 | delete [] fHisTrackErrX; fHisTrackErrX=0; | |
1076 | } | |
1077 | if(fHisTrackErrZ) { | |
1078 | for (Int_t i=0; i<kNHisto; i++ ) delete fHisTrackErrZ[i]; | |
1079 | delete [] fHisTrackErrZ; fHisTrackErrZ=0; | |
1080 | } | |
1081 | if(fHisClusErrX) { | |
1082 | for (Int_t i=0; i<kNHisto; i++ ) delete fHisClusErrX[i]; | |
1083 | delete [] fHisClusErrX; fHisClusErrX=0; | |
1084 | } | |
1085 | if(fHisClusErrZ) { | |
1086 | for (Int_t i=0; i<kNHisto; i++ ) delete fHisClusErrZ[i]; | |
1087 | delete [] fHisClusErrZ; fHisClusErrZ=0; | |
1088 | } | |
879cdb02 | 1089 | if(fProfResXvsPhi) { |
1090 | for (Int_t i=0; i<kNHisto; i++ ) delete fProfResXvsPhi[i]; | |
1091 | delete [] fProfResXvsPhi; fProfResXvsPhi=0; | |
1092 | } | |
1093 | if(fProfResZvsDip) { | |
1094 | for (Int_t i=0; i<kNHisto; i++ ) delete fProfResZvsDip[i]; | |
1095 | delete [] fProfResZvsDip; fProfResZvsDip=0; | |
1096 | } | |
1097 | if(fProfResXvsPhiclu) { | |
1098 | for (Int_t i=0; i<kNHisto; i++ ) { | |
1099 | for (Int_t clu=0; clu<kNclu; clu++) if (fProfResXvsPhiclu[i][clu]) delete fProfResXvsPhiclu[i][clu]; | |
1100 | delete [] fProfResXvsPhiclu[i]; | |
1101 | } | |
1102 | delete [] fProfResXvsPhiclu; | |
1103 | fProfResXvsPhiclu = 0; | |
1104 | } | |
1105 | if(fProfResZvsDipclu) { | |
1106 | for (Int_t i=0; i<kNHisto; i++ ) { | |
1107 | for (Int_t clu=0; clu<kNclu; clu++) if (fProfResZvsDipclu[i][clu]) delete fProfResZvsDipclu[i][clu]; | |
1108 | delete [] fProfResZvsDipclu[i]; | |
1109 | } | |
1110 | delete [] fProfResZvsDipclu; | |
1111 | fProfResZvsDipclu = 0; | |
1112 | } | |
1f1e7832 | 1113 | if(fHisTrackXFOtrue) { |
1114 | for (Int_t i=0; i<kNHisto; i++ ) { | |
1115 | for (Int_t phas=0; phas<kNClockPhase; phas++) if (fHisTrackXFOtrue[i][phas]) delete fHisTrackXFOtrue[i][phas]; | |
1116 | delete [] fHisTrackXFOtrue[i]; | |
1117 | } | |
1118 | delete [] fHisTrackXFOtrue; | |
1119 | fHisTrackXFOtrue = 0; | |
1120 | } | |
1121 | if(fHisTrackZFOtrue) { | |
1122 | for (Int_t i=0; i<kNHisto; i++ ) { | |
1123 | for (Int_t phas=0; phas<kNClockPhase; phas++) if (fHisTrackZFOtrue[i][phas]) delete fHisTrackZFOtrue[i][phas]; | |
1124 | delete [] fHisTrackZFOtrue[i]; | |
1125 | } | |
1126 | delete [] fHisTrackZFOtrue; | |
1127 | fHisTrackZFOtrue = 0; | |
1128 | } | |
1129 | if(fHisTrackXFOfalse) { | |
1130 | for (Int_t i=0; i<kNHisto; i++ ) { | |
1131 | for (Int_t phas=0; phas<kNClockPhase; phas++) if (fHisTrackXFOfalse[i][phas]) delete fHisTrackXFOfalse[i][phas]; | |
1132 | delete [] fHisTrackXFOfalse[i]; | |
1133 | } | |
1134 | delete [] fHisTrackXFOfalse; | |
1135 | fHisTrackXFOfalse = 0; | |
1136 | } | |
1137 | if(fHisTrackZFOfalse) { | |
1138 | for (Int_t i=0; i<kNHisto; i++ ) { | |
1139 | for (Int_t phas=0; phas<kNClockPhase; phas++) if (fHisTrackZFOfalse[i][phas]) delete fHisTrackZFOfalse[i][phas]; | |
1140 | delete [] fHisTrackZFOfalse[i]; | |
1141 | } | |
1142 | delete [] fHisTrackZFOfalse; | |
1143 | fHisTrackZFOfalse = 0; | |
1144 | } | |
5fbd4fd6 | 1145 | return; |
1146 | } | |
1147 | //__________________________________________________________ | |
1f1e7832 | 1148 | Bool_t AliITSPlaneEffSPD::FillHistos(UInt_t key, Bool_t found, |
1149 | Float_t *tr, Float_t *clu, Int_t *csize, Float_t *angtrkmod) { | |
1150 | // | |
1151 | // depending on the value of key this method | |
1152 | // either call the standard one for clusters | |
1153 | // or the one for FO studies | |
1154 | // if key < 1200 --> call FillHistosST | |
1155 | // if key >= 1200 --> call FillHistosFO | |
1156 | if(key>=kNModule*kNChip*(kNClockPhase+1)) | |
1157 | {AliError("GetChipFromKey: you asked for a non existing key"); return kFALSE;} | |
1158 | if(key<kNModule*kNChip) return FillHistosStd(key,found,tr,clu,csize,angtrkmod); | |
1159 | else return FillHistosFO(key,found,tr); | |
1160 | return kFALSE; | |
1161 | } | |
1162 | //__________________________________________________________ | |
1163 | Bool_t AliITSPlaneEffSPD::FillHistosFO(UInt_t key, Bool_t found, Float_t *tr) { | |
1164 | // this method fill the histograms for FastOr studies | |
1165 | // input: - key: unique key of the basic block | |
1166 | // - found: Boolean to asses whether a FastOr bit has been associated to the track or not | |
1167 | // - tr[0],tr[1] local X and Z coordinates of the track prediction, respectively | |
1168 | // - tr[2],tr[3] error on local X and Z coordinates of the track prediction, respectively | |
1169 | // output: kTRUE if filling was succesfull kFALSE otherwise | |
1170 | // side effects: updating of the histograms. | |
1171 | if (!fHis) { | |
1172 | AliWarning("FillHistos: histograms do not exist! Call SetCreateHistos(kTRUE) first"); | |
1173 | return kFALSE; | |
1174 | } | |
1175 | if(key>=kNModule*kNChip*(kNClockPhase+1)) | |
1176 | {AliWarning("FillHistos: you asked for a non existing key"); return kFALSE;} | |
1177 | if(key<kNModule*kNChip) | |
1178 | {AliWarning("FillHistos: you asked for a key which is not for FO studies"); return kFALSE;} | |
1179 | Int_t id=GetModFromKey(key); | |
1180 | Int_t BCm4=GetBCm4FromKey(key); | |
1181 | if(id>=kNHisto) | |
1182 | {AliWarning("FillHistos: you want to fill a non-existing histos"); return kFALSE;} | |
1183 | if(found) { | |
1184 | fHisTrackXFOtrue[id][BCm4]->Fill(tr[0]); | |
1185 | fHisTrackZFOtrue[id][BCm4]->Fill(tr[1]); | |
1186 | fHisTrackXZFOtrue[id][BCm4]->Fill(tr[1],tr[0]); | |
1187 | } | |
1188 | else { | |
1189 | fHisTrackXFOfalse[id][BCm4]->Fill(tr[0]); | |
1190 | fHisTrackZFOfalse[id][BCm4]->Fill(tr[1]); | |
1191 | fHisTrackXZFOfalse[id][BCm4]->Fill(tr[1],tr[0]); | |
1192 | } | |
1193 | return kTRUE; | |
1194 | } | |
1195 | //__________________________________________________________ | |
1196 | Bool_t AliITSPlaneEffSPD::FillHistosStd(UInt_t key, Bool_t found, | |
879cdb02 | 1197 | Float_t *tr, Float_t *clu, Int_t *csize, Float_t *angtrkmod) { |
5fbd4fd6 | 1198 | // this method fill the histograms |
1199 | // input: - key: unique key of the basic block | |
1200 | // - found: Boolean to asses whether a cluster has been associated to the track or not | |
1cc5cedc | 1201 | // - tr[0],tr[1] local X and Z coordinates of the track prediction, respectively |
1202 | // - tr[2],tr[3] error on local X and Z coordinates of the track prediction, respectively | |
1203 | // - clu[0],clu[1] local X and Z coordinates of the cluster associated to the track, respectively | |
1204 | // - clu[2],clu[3] error on local X and Z coordinates of the cluster associated to the track, respectively | |
1205 | // - csize[0][1] cluster size in X and Z, respectively | |
879cdb02 | 1206 | // - angtrkmod[0],angtrkmod[1] |
5fbd4fd6 | 1207 | // output: kTRUE if filling was succesfull kFALSE otherwise |
1208 | // side effects: updating of the histograms. | |
1209 | // | |
1210 | if (!fHis) { | |
1211 | AliWarning("FillHistos: histograms do not exist! Call SetCreateHistos(kTRUE) first"); | |
1212 | return kFALSE; | |
1213 | } | |
1214 | if(key>=kNModule*kNChip) | |
1215 | {AliWarning("FillHistos: you asked for a non existing key"); return kFALSE;} | |
1216 | Int_t id=GetModFromKey(key); | |
1cc5cedc | 1217 | Int_t chip=GetChipFromKey(key); |
5fbd4fd6 | 1218 | if(id>=kNHisto) |
1219 | {AliWarning("FillHistos: you want to fill a non-existing histos"); return kFALSE;} | |
1220 | if(found) { | |
1cc5cedc | 1221 | Float_t resx=tr[0]-clu[0]; |
1222 | Float_t resz=tr[1]-clu[1]; | |
5fbd4fd6 | 1223 | fHisResX[id]->Fill(resx); |
1224 | fHisResZ[id]->Fill(resz); | |
1225 | fHisResXZ[id]->Fill(resx,resz); | |
1cc5cedc | 1226 | fHisClusterSize[id]->Fill((Double_t)csize[0],(Double_t)csize[1]); |
1227 | if(csize[0]>0 && csize[0]<=kNclu) fHisResXclu[id][csize[0]-1]->Fill(resx); | |
1228 | if(csize[1]>0 && csize[1]<=kNclu) fHisResZclu[id][csize[1]-1]->Fill(resz); | |
1229 | fHisResXchip[id][chip]->Fill(resx); | |
1230 | fHisResZchip[id][chip]->Fill(resz); | |
879cdb02 | 1231 | fProfResXvsPhi[id]->Fill(angtrkmod[0],resx); |
1232 | fProfResZvsDip[id]->Fill(angtrkmod[1],resz); | |
1233 | if(csize[0]>0 && csize[0]<=kNclu) fProfResXvsPhiclu[id][csize[0]-1]->Fill(angtrkmod[0],resx); | |
1234 | if(csize[1]>0 && csize[1]<=kNclu) fProfResZvsDipclu[id][csize[1]-1]->Fill(angtrkmod[1],resz); | |
5fbd4fd6 | 1235 | } |
1cc5cedc | 1236 | fHisTrackErrX[id]->Fill(tr[2]); |
1237 | fHisTrackErrZ[id]->Fill(tr[3]); | |
1238 | fHisClusErrX[id]->Fill(clu[2]); | |
1239 | fHisClusErrZ[id]->Fill(clu[3]); | |
5fbd4fd6 | 1240 | return kTRUE; |
1241 | } | |
1242 | //__________________________________________________________ | |
1243 | Bool_t AliITSPlaneEffSPD::WriteHistosToFile(TString filename, Option_t* option) { | |
1244 | // | |
1245 | // Saves the histograms into a tree and saves the trees into a file | |
1246 | // | |
1247 | if (!fHis) return kFALSE; | |
5af4a2d0 | 1248 | if (filename.IsNull() || filename.IsWhitespace()) { |
5fbd4fd6 | 1249 | AliWarning("WriteHistosToFile: null output filename!"); |
1250 | return kFALSE; | |
1251 | } | |
943fb20f | 1252 | char branchname[51]; |
5fbd4fd6 | 1253 | TFile *hFile=new TFile(filename.Data(),option, |
1254 | "The File containing the TREEs with ITS PlaneEff Histos"); | |
1255 | TTree *SPDTree=new TTree("SPDTree","Tree whith Residuals and Cluster Type distributions for SPD"); | |
1256 | TH1F *histZ,*histX; | |
1257 | TH2F *histXZ; | |
1258 | TH2I *histClusterType; | |
1259 | TH1F *histXclu[kNclu]; | |
1260 | TH1F *histZclu[kNclu]; | |
1cc5cedc | 1261 | TH1F *histXchip[kNChip]; |
1262 | TH1F *histZchip[kNChip]; | |
1263 | TH1F *histTrErrZ,*histTrErrX; | |
1264 | TH1F *histClErrZ,*histClErrX; | |
879cdb02 | 1265 | TProfile *profXvsPhi,*profZvsDip; |
1266 | TProfile *profXvsPhiclu[kNclu],*profZvsDipclu[kNclu]; | |
1f1e7832 | 1267 | TH1F *histXtrkFOtrue[kNClockPhase]; |
1268 | TH1F *histZtrkFOtrue[kNClockPhase]; | |
1269 | TH1F *histXtrkFOfalse[kNClockPhase]; | |
1270 | TH1F *histZtrkFOfalse[kNClockPhase]; | |
1271 | TH2F *histXZtrkFOtrue[kNClockPhase]; | |
1272 | TH2F *histXZtrkFOfalse[kNClockPhase]; | |
5fbd4fd6 | 1273 | |
1274 | histZ=new TH1F(); | |
1275 | histX=new TH1F(); | |
1276 | histXZ=new TH2F(); | |
1277 | histClusterType=new TH2I(); | |
1278 | for(Int_t clu=0;clu<kNclu;clu++) { | |
1279 | histXclu[clu]=new TH1F(); | |
1280 | histZclu[clu]=new TH1F(); | |
1281 | } | |
1cc5cedc | 1282 | for(Int_t chip=0;chip<kNChip;chip++) { |
1283 | histXchip[chip]=new TH1F(); | |
1284 | histZchip[chip]=new TH1F(); | |
1285 | } | |
1f1e7832 | 1286 | |
1cc5cedc | 1287 | histTrErrX=new TH1F(); |
1288 | histTrErrZ=new TH1F(); | |
1289 | histClErrX=new TH1F(); | |
1290 | histClErrZ=new TH1F(); | |
879cdb02 | 1291 | profXvsPhi=new TProfile(); |
1292 | profZvsDip=new TProfile(); | |
1293 | for(Int_t clu=0;clu<kNclu;clu++) { | |
1294 | profXvsPhiclu[clu]=new TProfile(); | |
1295 | profZvsDipclu[clu]=new TProfile(); | |
1296 | } | |
1297 | ||
1f1e7832 | 1298 | for(Int_t phas=0; phas<kNClockPhase;phas++){ |
1299 | histXtrkFOtrue[phas]=new TH1F(); | |
1300 | histZtrkFOtrue[phas]=new TH1F(); | |
1301 | histXtrkFOfalse[phas]=new TH1F(); | |
1302 | histZtrkFOfalse[phas]=new TH1F(); | |
1303 | histXZtrkFOtrue[phas]=new TH2F(); | |
1304 | histXZtrkFOfalse[phas]=new TH2F(); | |
1305 | } | |
5fbd4fd6 | 1306 | |
1307 | SPDTree->Branch("histX","TH1F",&histX,128000,0); | |
1308 | SPDTree->Branch("histZ","TH1F",&histZ,128000,0); | |
1309 | SPDTree->Branch("histXZ","TH2F",&histXZ,128000,0); | |
1310 | SPDTree->Branch("histClusterType","TH2I",&histClusterType,128000,0); | |
1311 | for(Int_t clu=0;clu<kNclu;clu++) { | |
943fb20f | 1312 | snprintf(branchname,50,"histXclu_%d",clu+1); |
5fbd4fd6 | 1313 | SPDTree->Branch(branchname,"TH1F",&histXclu[clu],128000,0); |
943fb20f | 1314 | snprintf(branchname,50,"histZclu_%d",clu+1); |
5fbd4fd6 | 1315 | SPDTree->Branch(branchname,"TH1F",&histZclu[clu],128000,0); |
1316 | } | |
1cc5cedc | 1317 | for(Int_t chip=0;chip<kNChip;chip++) { |
943fb20f | 1318 | snprintf(branchname,50,"histXchip_%d",chip); |
1cc5cedc | 1319 | SPDTree->Branch(branchname,"TH1F",&histXchip[chip],128000,0); |
943fb20f | 1320 | snprintf(branchname,50,"histZchip_%d",chip); |
1cc5cedc | 1321 | SPDTree->Branch(branchname,"TH1F",&histZchip[chip],128000,0); |
1322 | } | |
1323 | SPDTree->Branch("histTrErrX","TH1F",&histTrErrX,128000,0); | |
1324 | SPDTree->Branch("histTrErrZ","TH1F",&histTrErrZ,128000,0); | |
1325 | SPDTree->Branch("histClErrX","TH1F",&histClErrX,128000,0); | |
1326 | SPDTree->Branch("histClErrZ","TH1F",&histClErrZ,128000,0); | |
879cdb02 | 1327 | SPDTree->Branch("profXvsPhi","TProfile",&profXvsPhi,128000,0); |
1328 | SPDTree->Branch("profZvsDip","TProfile",&profZvsDip,128000,0); | |
1329 | for(Int_t clu=0;clu<kNclu;clu++) { | |
943fb20f | 1330 | snprintf(branchname,50,"profXvsPhiclu_%d",clu+1); |
879cdb02 | 1331 | SPDTree->Branch(branchname,"TProfile",&profXvsPhiclu[clu],128000,0); |
943fb20f | 1332 | snprintf(branchname,50,"profZvsDipclu_%d",clu+1); |
879cdb02 | 1333 | SPDTree->Branch(branchname,"TProfile",&profZvsDipclu[clu],128000,0); |
1334 | } | |
1f1e7832 | 1335 | for(Int_t phas=0; phas<kNClockPhase;phas++){ |
1336 | snprintf(branchname,50,"histTrXFOokBCmod4_%d",phas); | |
1337 | SPDTree->Branch(branchname,"TH1F",&histXtrkFOtrue[phas],128000,0); | |
1338 | snprintf(branchname,50,"histTrZFOokBCmod4_%d",phas); | |
1339 | SPDTree->Branch(branchname,"TH1F",&histZtrkFOtrue[phas],128000,0); | |
1340 | snprintf(branchname,50,"histTrXFOkoBCmod4_%d",phas); | |
1341 | SPDTree->Branch(branchname,"TH1F",&histXtrkFOfalse[phas],128000,0); | |
1342 | snprintf(branchname,50,"histTrZFOkoBCmod4_%d",phas); | |
1343 | SPDTree->Branch(branchname,"TH1F",&histZtrkFOfalse[phas],128000,0); | |
1344 | snprintf(branchname,50,"histTrXZFOokBCmod4_%d",phas); | |
1345 | SPDTree->Branch(branchname,"TH2F",&histXZtrkFOtrue[phas],128000,0); | |
1346 | snprintf(branchname,50,"histTrXZFOkoBCmod4_%d",phas); | |
1347 | SPDTree->Branch(branchname,"TH2F",&histXZtrkFOfalse[phas],128000,0); | |
1348 | } | |
5fbd4fd6 | 1349 | |
1350 | for(Int_t j=0;j<kNHisto;j++){ | |
1351 | histX=fHisResX[j]; | |
1352 | histZ=fHisResZ[j]; | |
1353 | histXZ=fHisResXZ[j]; | |
1354 | histClusterType=fHisClusterSize[j]; | |
1355 | for(Int_t clu=0;clu<kNclu;clu++) { | |
1356 | histXclu[clu]=fHisResXclu[j][clu]; | |
1357 | histZclu[clu]=fHisResZclu[j][clu]; | |
1358 | } | |
1cc5cedc | 1359 | for(Int_t chip=0;chip<kNChip;chip++) { |
1360 | histXchip[chip]=fHisResXchip[j][chip]; | |
1361 | histZchip[chip]=fHisResZchip[j][chip]; | |
1362 | } | |
1363 | histTrErrX=fHisTrackErrX[j]; | |
1364 | histTrErrZ=fHisTrackErrZ[j]; | |
1365 | histClErrX=fHisClusErrX[j]; | |
1366 | histClErrZ=fHisClusErrZ[j]; | |
879cdb02 | 1367 | profXvsPhi=fProfResXvsPhi[j]; |
1368 | profZvsDip=fProfResZvsDip[j]; | |
1369 | for(Int_t clu=0;clu<kNclu;clu++) { | |
1370 | profXvsPhiclu[clu]=fProfResXvsPhiclu[j][clu]; | |
1371 | profZvsDipclu[clu]=fProfResZvsDipclu[j][clu]; | |
1372 | } | |
1f1e7832 | 1373 | for(Int_t phas=0; phas<kNClockPhase;phas++){ |
1374 | histXtrkFOtrue[phas]=fHisTrackXFOtrue[j][phas]; | |
1375 | histZtrkFOtrue[phas]=fHisTrackZFOtrue[j][phas]; | |
1376 | histXtrkFOfalse[phas]=fHisTrackXFOfalse[j][phas]; | |
1377 | histZtrkFOfalse[phas]=fHisTrackZFOfalse[j][phas]; | |
1378 | histXZtrkFOtrue[phas]=fHisTrackXZFOtrue[j][phas]; | |
1379 | histXZtrkFOfalse[phas]=fHisTrackXZFOfalse[j][phas]; | |
1380 | } | |
879cdb02 | 1381 | |
5fbd4fd6 | 1382 | SPDTree->Fill(); |
1383 | } | |
1384 | hFile->Write(); | |
1385 | hFile->Close(); | |
1386 | return kTRUE; | |
1387 | } | |
1388 | //__________________________________________________________ | |
1389 | Bool_t AliITSPlaneEffSPD::ReadHistosFromFile(TString filename) { | |
1390 | // | |
1391 | // Read histograms from an already existing file | |
1392 | // | |
1393 | if (!fHis) return kFALSE; | |
5af4a2d0 | 1394 | if (filename.IsNull() || filename.IsWhitespace()) { |
5fbd4fd6 | 1395 | AliWarning("ReadHistosFromFile: incorrect output filename!"); |
1396 | return kFALSE; | |
1397 | } | |
943fb20f | 1398 | char branchname[51]; |
5fbd4fd6 | 1399 | |
1400 | TH1F *h = 0; | |
1401 | TH2F *h2 = 0; | |
1402 | TH2I *h2i= 0; | |
879cdb02 | 1403 | TProfile *p = 0; |
5fbd4fd6 | 1404 | |
1405 | TFile *file=TFile::Open(filename.Data(),"READONLY"); | |
1406 | ||
1407 | if (!file || file->IsZombie()) { | |
1408 | AliWarning(Form("Can't open %s !",filename.Data())); | |
1409 | delete file; | |
1410 | return kFALSE; | |
1411 | } | |
1412 | TTree *tree = (TTree*) file->Get("SPDTree"); | |
1413 | ||
1414 | TBranch *histX = (TBranch*) tree->GetBranch("histX"); | |
1415 | TBranch *histZ = (TBranch*) tree->GetBranch("histZ"); | |
1416 | TBranch *histXZ = (TBranch*) tree->GetBranch("histXZ"); | |
1417 | TBranch *histClusterType = (TBranch*) tree->GetBranch("histClusterType"); | |
1418 | ||
1419 | TBranch *histXclu[kNclu], *histZclu[kNclu]; | |
1420 | for(Int_t clu=0; clu<kNclu; clu++) { | |
943fb20f | 1421 | snprintf(branchname,50,"histXclu_%d",clu+1); |
5fbd4fd6 | 1422 | histXclu[clu]= (TBranch*) tree->GetBranch(branchname); |
943fb20f | 1423 | snprintf(branchname,50,"histZclu_%d",clu+1); |
5fbd4fd6 | 1424 | histZclu[clu]= (TBranch*) tree->GetBranch(branchname); |
1425 | } | |
1426 | ||
1cc5cedc | 1427 | TBranch *histXchip[kNChip], *histZchip[kNChip]; |
1428 | for(Int_t chip=0; chip<kNChip; chip++) { | |
943fb20f | 1429 | snprintf(branchname,50,"histXchip_%d",chip); |
1cc5cedc | 1430 | histXchip[chip]= (TBranch*) tree->GetBranch(branchname); |
943fb20f | 1431 | snprintf(branchname,50,"histZchip_%d",chip); |
1cc5cedc | 1432 | histZchip[chip]= (TBranch*) tree->GetBranch(branchname); |
1433 | } | |
1434 | ||
1435 | TBranch *histTrErrX = (TBranch*) tree->GetBranch("histTrErrX"); | |
1436 | TBranch *histTrErrZ = (TBranch*) tree->GetBranch("histTrErrZ"); | |
1437 | TBranch *histClErrX = (TBranch*) tree->GetBranch("histClErrX"); | |
1438 | TBranch *histClErrZ = (TBranch*) tree->GetBranch("histClErrZ"); | |
879cdb02 | 1439 | TBranch *profXvsPhi = (TBranch*) tree->GetBranch("profXvsPhi"); |
1440 | TBranch *profZvsDip = (TBranch*) tree->GetBranch("profZvsDip"); | |
1441 | ||
1442 | TBranch *profXvsPhiclu[kNclu], *profZvsDipclu[kNclu]; | |
1443 | for(Int_t clu=0; clu<kNclu; clu++) { | |
943fb20f | 1444 | snprintf(branchname,50,"profXvsPhiclu_%d",clu+1); |
879cdb02 | 1445 | profXvsPhiclu[clu]= (TBranch*) tree->GetBranch(branchname); |
943fb20f | 1446 | snprintf(branchname,50,"profZvsDipclu_%d",clu+1); |
879cdb02 | 1447 | profZvsDipclu[clu]= (TBranch*) tree->GetBranch(branchname); |
1448 | } | |
1cc5cedc | 1449 | |
1f1e7832 | 1450 | TBranch *histXtrkFOtrue[kNClockPhase], *histZtrkFOtrue[kNClockPhase], |
1451 | *histXtrkFOfalse[kNClockPhase], *histZtrkFOfalse[kNClockPhase], | |
1452 | *histXZtrkFOtrue[kNClockPhase], *histXZtrkFOfalse[kNClockPhase]; | |
1453 | for(Int_t phas=0; phas<kNClockPhase;phas++){ | |
1454 | snprintf(branchname,50,"histTrXFOokBCmod4_%d",phas); | |
1455 | histXtrkFOtrue[phas] = (TBranch*) tree->GetBranch(branchname); | |
1456 | snprintf(branchname,50,"histTrZFOokBCmod4_%d",phas); | |
1457 | histZtrkFOtrue[phas] = (TBranch*) tree->GetBranch(branchname); | |
1458 | snprintf(branchname,50,"histTrXFOkoBCmod4_%d",phas); | |
1459 | histXtrkFOfalse[phas] = (TBranch*) tree->GetBranch(branchname); | |
1460 | snprintf(branchname,50,"histTrZFOkoBCmod4_%d",phas); | |
1461 | histZtrkFOfalse[phas] = (TBranch*) tree->GetBranch(branchname); | |
1462 | snprintf(branchname,50,"histTrXZFOokBCmod4_%d",phas); | |
1463 | histXZtrkFOtrue[phas] = (TBranch*) tree->GetBranch(branchname); | |
1464 | snprintf(branchname,50,"histTrXZFOkoBCmod4_%d",phas); | |
1465 | histXZtrkFOfalse[phas] = (TBranch*) tree->GetBranch(branchname); | |
1466 | } | |
1467 | ||
5fbd4fd6 | 1468 | gROOT->cd(); |
1469 | ||
1470 | Int_t nevent = (Int_t)histX->GetEntries(); | |
1471 | if(nevent!=kNHisto) | |
1472 | {AliWarning("ReadHistosFromFile: trying to read too many or too few histos!"); return kFALSE;} | |
1473 | histX->SetAddress(&h); | |
1474 | for(Int_t j=0;j<kNHisto;j++){ | |
5fbd4fd6 | 1475 | histX->GetEntry(j); |
1476 | fHisResX[j]->Add(h); | |
1477 | } | |
1478 | ||
1479 | nevent = (Int_t)histZ->GetEntries(); | |
1480 | if(nevent!=kNHisto) | |
1481 | {AliWarning("ReadHistosFromFile: trying to read too many or too few histos!"); return kFALSE;} | |
1482 | histZ->SetAddress(&h); | |
1483 | for(Int_t j=0;j<kNHisto;j++){ | |
5fbd4fd6 | 1484 | histZ->GetEntry(j); |
1485 | fHisResZ[j]->Add(h); | |
1486 | } | |
1487 | ||
1488 | nevent = (Int_t)histXZ->GetEntries(); | |
1489 | if(nevent!=kNHisto) | |
1490 | {AliWarning("ReadHistosFromFile: trying to read too many or too few histos!"); return kFALSE;} | |
1491 | histXZ->SetAddress(&h2); | |
1492 | for(Int_t j=0;j<kNHisto;j++){ | |
5fbd4fd6 | 1493 | histXZ->GetEntry(j); |
1494 | fHisResXZ[j]->Add(h2); | |
1495 | } | |
1496 | ||
1497 | nevent = (Int_t)histClusterType->GetEntries(); | |
1498 | if(nevent!=kNHisto) | |
1499 | {AliWarning("ReadHistosFromFile: trying to read too many or too few histos!"); return kFALSE;} | |
1500 | histClusterType->SetAddress(&h2i); | |
1501 | for(Int_t j=0;j<kNHisto;j++){ | |
5fbd4fd6 | 1502 | histClusterType->GetEntry(j); |
1503 | fHisClusterSize[j]->Add(h2i); | |
1504 | } | |
1505 | ||
1506 | for(Int_t clu=0; clu<kNclu; clu++) { | |
1507 | ||
1508 | nevent = (Int_t)histXclu[clu]->GetEntries(); | |
1509 | if(nevent!=kNHisto) | |
1510 | {AliWarning("ReadHistosFromFile: trying to read too many or too few histos!"); return kFALSE;} | |
1511 | histXclu[clu]->SetAddress(&h); | |
1512 | for(Int_t j=0;j<kNHisto;j++){ | |
5fbd4fd6 | 1513 | histXclu[clu]->GetEntry(j); |
1514 | fHisResXclu[j][clu]->Add(h); | |
1515 | } | |
1516 | ||
1517 | nevent = (Int_t)histZclu[clu]->GetEntries(); | |
1518 | if(nevent!=kNHisto) | |
1519 | {AliWarning("ReadHistosFromFile: trying to read too many or too few histos!"); return kFALSE;} | |
1520 | histZclu[clu]->SetAddress(&h); | |
1521 | for(Int_t j=0;j<kNHisto;j++){ | |
5fbd4fd6 | 1522 | histZclu[clu]->GetEntry(j); |
1523 | fHisResZclu[j][clu]->Add(h); | |
1524 | } | |
1525 | } | |
1526 | ||
1cc5cedc | 1527 | |
1528 | for(Int_t chip=0; chip<kNChip; chip++) { | |
1529 | ||
1530 | nevent = (Int_t)histXchip[chip]->GetEntries(); | |
1531 | if(nevent!=kNHisto) | |
1532 | {AliWarning("ReadHistosFromFile: trying to read too many or too few histos!"); return kFALSE;} | |
1533 | histXchip[chip]->SetAddress(&h); | |
1534 | for(Int_t j=0;j<kNHisto;j++){ | |
1cc5cedc | 1535 | histXchip[chip]->GetEntry(j); |
1536 | fHisResXchip[j][chip]->Add(h); | |
1537 | } | |
1538 | ||
1539 | nevent = (Int_t)histZchip[chip]->GetEntries(); | |
1540 | if(nevent!=kNHisto) | |
1541 | {AliWarning("ReadHistosFromFile: trying to read too many or too few histos!"); return kFALSE;} | |
1542 | histZchip[chip]->SetAddress(&h); | |
1543 | for(Int_t j=0;j<kNHisto;j++){ | |
1cc5cedc | 1544 | histZchip[chip]->GetEntry(j); |
1545 | fHisResZchip[j][chip]->Add(h); | |
1546 | } | |
1547 | } | |
1548 | ||
1549 | nevent = (Int_t)histTrErrX->GetEntries(); | |
1550 | if(nevent!=kNHisto) | |
1551 | {AliWarning("ReadHistosFromFile: trying to read too many or too few histos!"); return kFALSE;} | |
1552 | histTrErrX->SetAddress(&h); | |
1553 | for(Int_t j=0;j<kNHisto;j++){ | |
1cc5cedc | 1554 | histTrErrX->GetEntry(j); |
1555 | fHisTrackErrX[j]->Add(h); | |
1556 | } | |
1557 | ||
1558 | nevent = (Int_t)histTrErrZ->GetEntries(); | |
1559 | if(nevent!=kNHisto) | |
1560 | {AliWarning("ReadHistosFromFile: trying to read too many or too few histos!"); return kFALSE;} | |
1561 | histTrErrZ->SetAddress(&h); | |
1562 | for(Int_t j=0;j<kNHisto;j++){ | |
1cc5cedc | 1563 | histTrErrZ->GetEntry(j); |
1564 | fHisTrackErrZ[j]->Add(h); | |
1565 | } | |
1566 | ||
1567 | nevent = (Int_t)histClErrX->GetEntries(); | |
1568 | if(nevent!=kNHisto) | |
1569 | {AliWarning("ReadHistosFromFile: trying to read too many or too few histos!"); return kFALSE;} | |
1570 | histClErrX->SetAddress(&h); | |
1571 | for(Int_t j=0;j<kNHisto;j++){ | |
1cc5cedc | 1572 | histClErrX->GetEntry(j); |
1573 | fHisClusErrX[j]->Add(h); | |
1574 | } | |
1575 | ||
1576 | nevent = (Int_t)histClErrZ->GetEntries(); | |
1577 | if(nevent!=kNHisto) | |
1578 | {AliWarning("ReadHistosFromFile: trying to read too many or too few histos!"); return kFALSE;} | |
1579 | histClErrZ->SetAddress(&h); | |
1580 | for(Int_t j=0;j<kNHisto;j++){ | |
1cc5cedc | 1581 | histClErrZ->GetEntry(j); |
1582 | fHisClusErrZ[j]->Add(h); | |
1583 | } | |
879cdb02 | 1584 | nevent = (Int_t)profXvsPhi->GetEntries(); |
1585 | if(nevent!=kNHisto) | |
1586 | {AliWarning("ReadHistosFromFile: trying to read too many or too few histos!"); return kFALSE;} | |
1587 | profXvsPhi->SetAddress(&p); | |
1588 | for(Int_t j=0;j<kNHisto;j++){ | |
879cdb02 | 1589 | profXvsPhi->GetEntry(j); |
1590 | fProfResXvsPhi[j]->Add(p); | |
1591 | } | |
1592 | ||
1593 | nevent = (Int_t)profZvsDip->GetEntries(); | |
1594 | if(nevent!=kNHisto) | |
1595 | {AliWarning("ReadHistosFromFile: trying to read too many or too few histos!"); return kFALSE;} | |
1596 | profZvsDip->SetAddress(&p); | |
943fb20f | 1597 | for(Int_t j=0;j<kNHisto;j++){ |
879cdb02 | 1598 | profZvsDip->GetEntry(j); |
1599 | fProfResZvsDip[j]->Add(p); | |
1600 | } | |
1601 | ||
1602 | for(Int_t clu=0; clu<kNclu; clu++) { | |
1603 | ||
1604 | nevent = (Int_t)profXvsPhiclu[clu]->GetEntries(); | |
1605 | if(nevent!=kNHisto) | |
1606 | {AliWarning("ReadHistosFromFile: trying to read too many or too few histos!"); return kFALSE;} | |
1607 | profXvsPhiclu[clu]->SetAddress(&p); | |
1608 | for(Int_t j=0;j<kNHisto;j++){ | |
879cdb02 | 1609 | profXvsPhiclu[clu]->GetEntry(j); |
1610 | fProfResXvsPhiclu[j][clu]->Add(p); | |
1611 | } | |
1612 | ||
1613 | nevent = (Int_t)profZvsDipclu[clu]->GetEntries(); | |
1614 | if(nevent!=kNHisto) | |
1615 | {AliWarning("ReadHistosFromFile: trying to read too many or too few histos!"); return kFALSE;} | |
1616 | profZvsDipclu[clu]->SetAddress(&p); | |
943fb20f | 1617 | for(Int_t j=0;j<kNHisto;j++){ |
879cdb02 | 1618 | profZvsDipclu[clu]->GetEntry(j); |
1619 | fProfResZvsDipclu[j][clu]->Add(p); | |
1620 | } | |
1621 | } | |
1622 | ||
1f1e7832 | 1623 | for(Int_t phas=0; phas<kNClockPhase;phas++){ |
1624 | ||
1625 | nevent = (Int_t)histXtrkFOtrue[phas]->GetEntries(); | |
1626 | if(nevent!=kNHisto) | |
1627 | {AliWarning("ReadHistosFromFile: trying to read too many or too few histos!"); return kFALSE;} | |
1628 | histXtrkFOtrue[phas]->SetAddress(&h); | |
1629 | for(Int_t j=0;j<kNHisto;j++){ | |
1630 | histXtrkFOtrue[phas]->GetEntry(j); | |
1631 | fHisTrackXFOtrue[j][phas]->Add(h); | |
1632 | } | |
1633 | ||
1634 | nevent = (Int_t)histZtrkFOtrue[phas]->GetEntries(); | |
1635 | if(nevent!=kNHisto) | |
1636 | {AliWarning("ReadHistosFromFile: trying to read too many or too few histos!"); return kFALSE;} | |
1637 | histZtrkFOtrue[phas]->SetAddress(&h); | |
1638 | for(Int_t j=0;j<kNHisto;j++){ | |
1639 | histZtrkFOtrue[phas]->GetEntry(j); | |
1640 | fHisTrackZFOtrue[j][phas]->Add(h); | |
1641 | } | |
1642 | ||
1643 | nevent = (Int_t)histXtrkFOfalse[phas]->GetEntries(); | |
1644 | if(nevent!=kNHisto) | |
1645 | {AliWarning("ReadHistosFromFile: trying to read too many or too few histos!"); return kFALSE;} | |
1646 | histXtrkFOfalse[phas]->SetAddress(&h); | |
1647 | for(Int_t j=0;j<kNHisto;j++){ | |
1648 | histXtrkFOfalse[phas]->GetEntry(j); | |
1649 | fHisTrackXFOfalse[j][phas]->Add(h); | |
1650 | } | |
1651 | ||
1652 | nevent = (Int_t)histZtrkFOfalse[phas]->GetEntries(); | |
1653 | if(nevent!=kNHisto) | |
1654 | {AliWarning("ReadHistosFromFile: trying to read too many or too few histos!"); return kFALSE;} | |
1655 | histZtrkFOfalse[phas]->SetAddress(&h); | |
1656 | for(Int_t j=0;j<kNHisto;j++){ | |
1657 | histZtrkFOfalse[phas]->GetEntry(j); | |
1658 | fHisTrackZFOfalse[j][phas]->Add(h); | |
1659 | } | |
1660 | ||
1661 | nevent = (Int_t)histXZtrkFOtrue[phas]->GetEntries(); | |
1662 | if(nevent!=kNHisto) | |
1663 | {AliWarning("ReadHistosFromFile: trying to read too many or too few histos!"); return kFALSE;} | |
1664 | histXZtrkFOtrue[phas]->SetAddress(&h2); | |
1665 | for(Int_t j=0;j<kNHisto;j++){ | |
1666 | histXZtrkFOtrue[phas]->GetEntry(j); | |
1667 | fHisTrackXZFOtrue[j][phas]->Add(h2); | |
1668 | } | |
1669 | ||
1670 | nevent = (Int_t)histXZtrkFOfalse[phas]->GetEntries(); | |
1671 | if(nevent!=kNHisto) | |
1672 | {AliWarning("ReadHistosFromFile: trying to read too many or too few histos!"); return kFALSE;} | |
1673 | histXZtrkFOfalse[phas]->SetAddress(&h2); | |
1674 | for(Int_t j=0;j<kNHisto;j++){ | |
1675 | histXZtrkFOfalse[phas]->GetEntry(j); | |
1676 | fHisTrackXZFOfalse[j][phas]->Add(h2); | |
1677 | } | |
1678 | ||
1679 | } | |
879cdb02 | 1680 | |
943fb20f | 1681 | delete h; |
1682 | delete h2; | |
1683 | delete h2i; | |
1684 | delete p; | |
5fbd4fd6 | 1685 | |
1686 | if (file) { | |
1687 | file->Close(); | |
943fb20f | 1688 | delete file; |
5fbd4fd6 | 1689 | } |
5fbd4fd6 | 1690 | return kTRUE; |
1691 | } | |
061c42a0 | 1692 |