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d55d87f0 | 1 | ////////////////////////////////////////////////////////////////// |
2 | // Macro to check clusters in the 2 SPD layers // | |
3 | // Provides: // | |
4 | // 2 canvases with // | |
5 | // - cluster loc and glob coordinates (each layer) // | |
6 | // 1 canvas with // | |
7 | // - cluster glob coordinates 2D and 3D // | |
8 | // 1 canvas with // | |
9 | // - correlations of #clusters for sectors // | |
10 | // - correlations of #clusters for half-sectors // | |
11 | // // | |
12 | // Maria.Nicassio@ba.infn.it // | |
13 | // Domenico.Elia@ba.infn.it // | |
14 | ////////////////////////////////////////////////////////////////// | |
15 | ||
16 | #if !defined(__CINT__) || defined(__MAKECINT__) | |
17 | ||
18 | #include <Riostream.h> | |
19 | #include <TFile.h> | |
20 | #include <TTree.h> | |
21 | #include <TBranch.h> | |
22 | #include <TCanvas.h> | |
23 | #include <TClonesArray.h> | |
24 | #include <TH1.h> | |
25 | #include <TH2.h> | |
26 | #include <TH3.h> | |
27 | #include <TStyle.h> | |
28 | #include <TProfile.h> | |
29 | #include <TClassTable.h> | |
30 | #include <TInterpreter.h> | |
31 | #include <TGraph2D.h> | |
32 | #include <TGraph.h> | |
33 | #include <TGeoManager.h> | |
34 | ||
35 | #include "AliCDBManager.h" | |
36 | #include "AliRunLoader.h" | |
37 | #include "AliESD.h" | |
38 | #include "AliRun.h" | |
39 | #include "AliGeomManager.h" | |
40 | #include "AliITS.h" | |
41 | #include "AliITSgeom.h" | |
42 | #include "AliITSLoader.h" | |
43 | #include <AliITSRecPoint.h> | |
44 | #include <AliHeader.h> | |
45 | #include <AliITSDetTypeRec.h> | |
46 | ||
47 | #endif | |
48 | ||
49 | /* $Id$ */ | |
50 | ||
51 | void ShowSPDRecPoints(Int_t RunStart, Int_t RunStop){ | |
52 | ||
53 | // Set data directory | |
54 | Char_t str[256]; | |
55 | Char_t* dir = "/data/alipix/PhysicsEvents/pp/ppProd/pdc07/oldgeom"; | |
56 | ||
57 | // Variables for histo booking and filling | |
58 | Int_t modmin=0; | |
59 | Int_t modmax=240; | |
60 | Int_t totmod=modmax-modmin; | |
61 | ||
62 | Float_t xlim[2]={4.5,8.}; | |
63 | Float_t zlim[2]={15.,15.}; | |
64 | ||
65 | Int_t nClusters[2]; | |
66 | ||
67 | Float_t clustersXCoord[2][200]; | |
68 | Float_t clustersYCoord[2][200]; | |
69 | Float_t clustersZCoord[2][200]; | |
70 | ||
71 | Float_t cluGlo[3]={0.,0.,0.}; | |
72 | ||
73 | Int_t nClustersPerLayerPerSector[2][10]; | |
74 | Int_t nClustersPerLayerPerHalfSector[2][20]; | |
75 | ||
76 | Int_t iSector=0; | |
77 | Int_t iHalfSector=0; | |
78 | ||
79 | // Booking of histograms | |
80 | gStyle->SetPalette(1,0); | |
81 | TH1F* hlayer= new TH1F("hlayer","",6,0.,6.); | |
82 | TH1F** hmod = new TH1F*[2]; | |
83 | TH1F** hxl = new TH1F*[2]; | |
84 | TH1F** hzl = new TH1F*[2]; | |
85 | TH1F** hxg = new TH1F*[2]; | |
86 | TH1F** hyg = new TH1F*[2]; | |
87 | TH1F** hzg = new TH1F*[2]; | |
88 | TH1F** hr = new TH1F*[2]; | |
89 | TH1F** hphi = new TH1F*[2]; | |
90 | TH1F** hMultSPDcl = new TH1F*[2]; | |
91 | TH1F** hType = new TH1F*[2]; // cluster type ? | |
92 | ||
93 | TH2F** hr_phi = new TH2F*[2]; | |
94 | TH2F** hx_y = new TH2F*[2]; | |
95 | TH3F** hx_y_z = new TH3F*[2]; | |
96 | ||
97 | TH2F** hnCl2_nCl1_Sec = new TH2F*[10]; | |
98 | TProfile** hnCl2vsnCl1_Sec = new TProfile*[10]; | |
99 | TH2F** hnCl2_nCl1_HSec = new TH2F*[20]; | |
100 | // TProfile** hnCl2vsnCl1_HSec = new TProfile*[20]; | |
101 | TH2F** hNy_Nz = new TH2F*[2]; // y and z length | |
102 | TH2F** hPhi_Z = new TH2F*[2]; | |
103 | ||
104 | TH2F *hMultSPDcl2_MultSPDcl1 = | |
105 | new TH2F("nCl2_nCl1","# SPD clusters on layer 2 vs # on layer 1",200,0.,200.,200,0.,200.); | |
106 | hMultSPDcl2_MultSPDcl1->GetXaxis()->SetTitle("# clusters (inner layer)"); | |
107 | hMultSPDcl2_MultSPDcl1->GetYaxis()->SetTitle("# clusters (outer layer)"); | |
108 | Char_t name[10]; | |
109 | Char_t title[20]; | |
110 | for (Int_t iLay=0;iLay<2;iLay++) { | |
111 | sprintf(name,"hmod%d",iLay+1); | |
112 | hmod[iLay]=new TH1F(name,"SPD clusters - Module number",totmod,modmin,modmax); | |
113 | hmod[iLay]->GetXaxis()->SetTitle("Module number"); | |
114 | hmod[iLay]->GetYaxis()->SetTitle("Entries"); | |
115 | sprintf(name,"hxloc%d",iLay+1); | |
116 | hxl[iLay]=new TH1F(name,"SPD clusters - Local x coordinate",100,-4.,4.); | |
117 | hxl[iLay]->GetXaxis()->SetTitle("Local x [cm]"); | |
118 | hxl[iLay]->GetYaxis()->SetTitle("Entries"); | |
119 | sprintf(name,"hzloc%d",iLay+1); | |
120 | hzl[iLay]=new TH1F(name,"SPD clusters - Local z coordinate",100,-4.,4.); | |
121 | hzl[iLay]->GetXaxis()->SetTitle("Local z [cm]"); | |
122 | hzl[iLay]->GetYaxis()->SetTitle("Entries"); | |
123 | sprintf(name,"hxgl%d",iLay+1); | |
124 | hxg[iLay]=new TH1F(name,"SPD clusters - Global x coordinate",100,-xlim[iLay],xlim[iLay]); | |
125 | hxg[iLay]->GetXaxis()->SetTitle("Global x [cm]"); | |
126 | hxg[iLay]->GetYaxis()->SetTitle("Entries"); | |
127 | sprintf(name,"hygl%d",iLay+1); | |
128 | hyg[iLay]=new TH1F(name,"SPD clusters - Global y coordinate",100,-xlim[iLay],xlim[iLay]); | |
129 | hyg[iLay]->GetXaxis()->SetTitle("Global y [cm]"); | |
130 | hyg[iLay]->GetYaxis()->SetTitle("Entries"); | |
131 | sprintf(name,"hzgl%d",iLay+1); | |
132 | hzg[iLay]=new TH1F(name,"SPD clusters - Global z coordinate",150,-zlim[iLay],zlim[iLay]); | |
133 | hzg[iLay]->GetXaxis()->SetTitle("Global z [cm]"); | |
134 | hzg[iLay]->GetYaxis()->SetTitle("Entries"); | |
135 | sprintf(name,"hr%d",iLay+1); | |
136 | hr[iLay]=new TH1F(name,"SPD clusters - r",100,0.,50.); | |
137 | hr[iLay]->GetXaxis()->SetTitle("r [cm]"); | |
138 | hr[iLay]->GetYaxis()->SetTitle("Entries"); | |
139 | sprintf(name,"hphi%d",iLay+1); | |
140 | hphi[iLay]=new TH1F(name,"SPD clusters - #phi",100,0.,2*TMath::Pi()); | |
141 | hphi[iLay]->GetXaxis()->SetTitle("#phi [rad]"); | |
142 | hphi[iLay]->GetYaxis()->SetTitle("Entries"); | |
143 | sprintf(name,"hType%d",iLay+1); | |
144 | hType[iLay]=new TH1F(name,"SPD clusters - Type",100,0.,100.); | |
145 | hType[iLay]->GetXaxis()->SetTitle("Cluster type"); | |
146 | hType[iLay]->GetYaxis()->SetTitle("Entries"); | |
147 | ||
148 | sprintf(name,"hMultSPDcl%d",iLay+1); | |
149 | hMultSPDcl[iLay]=new TH1F(name,"Cluster multiplicity",200,0.,200.); | |
150 | hMultSPDcl[iLay]->GetXaxis()->SetTitle("Cluster multiplicity"); | |
151 | hMultSPDcl[iLay]->GetYaxis()->SetTitle("Entries"); | |
152 | ||
153 | sprintf(name,"hNy_Nz%d",iLay+1); | |
154 | hNy_Nz[iLay]=new TH2F(name,"SPD clusters - Length",100,0.,100.,100,0.,100.); | |
155 | hNy_Nz[iLay]->GetXaxis()->SetTitle("z length"); | |
156 | hNy_Nz[iLay]->GetYaxis()->SetTitle("y length"); | |
157 | sprintf(name,"hPhi_Z%d",iLay+1); | |
158 | hPhi_Z[iLay]=new TH2F(name,"SPD clusters - #phi vs z",150,-zlim[iLay],zlim[iLay],100,0.,2*TMath::Pi()); | |
159 | hPhi_Z[iLay]->GetXaxis()->SetTitle("Global z [cm]"); | |
160 | hPhi_Z[iLay]->GetYaxis()->SetTitle("#phi [rad]"); | |
161 | sprintf(name,"hr_phi%d",iLay+1); | |
162 | hr_phi[iLay]=new TH2F(name,"SPD clusters - #phi_r",500,0.,50.,100,0.,2*TMath::Pi()); | |
163 | hr_phi[iLay]->GetXaxis()->SetTitle("r [cm]"); | |
164 | hr_phi[iLay]->GetYaxis()->SetTitle("#phi [rad]"); | |
165 | sprintf(name,"hx_y%d",iLay+1); | |
166 | hx_y[iLay]=new TH2F(name,"SPD clusters - y_x",200,-10.,10.,200,-10.,10.); | |
167 | hx_y[iLay]->GetXaxis()->SetTitle("x [cm]"); | |
168 | hx_y[iLay]->GetYaxis()->SetTitle("y [cm]"); | |
169 | sprintf(name,"hx_y_z%d",iLay+1); | |
170 | hx_y_z[iLay]=new TH3F(name,"SPD clusters - y_x",200,-10.,10.,200,-10.,10.,150,-15.,15.); | |
171 | hx_y_z[iLay]->GetXaxis()->SetTitle("z [cm]"); | |
172 | hx_y_z[iLay]->GetYaxis()->SetTitle("x [cm]"); | |
173 | hx_y_z[iLay]->GetZaxis()->SetTitle("y [cm]"); | |
174 | } | |
175 | for (Int_t iSec=0; iSec<10; iSec++) { | |
176 | sprintf(name,"hnCl2_nCl1_Sector%d",iSec); | |
177 | sprintf(title,"Sector %d",iSec+1); | |
178 | hnCl2_nCl1_Sec[iSec]=new TH2F(name,title,200,0.,200.,200,0.,200.); | |
179 | hnCl2_nCl1_Sec[iSec]->GetXaxis()->SetTitle("# clusters (inner layer)"); | |
180 | hnCl2_nCl1_Sec[iSec]->GetYaxis()->SetTitle("# clusters (outer layer)"); | |
181 | sprintf(name,"hnCl2vsnCl1_Sector%d",iSec); | |
182 | sprintf(title,"Sector %d",iSec+1); | |
183 | hnCl2vsnCl1_Sec[iSec]=new TProfile(name,title,200,0.,200.,0.,200.); | |
184 | hnCl2vsnCl1_Sec[iSec]->GetXaxis()->SetTitle("# clusters (inner layer)"); | |
185 | hnCl2vsnCl1_Sec[iSec]->GetYaxis()->SetTitle("# clusters (outer layer)"); | |
186 | } | |
187 | for (Int_t iHalfSec=0; iHalfSec<20; iHalfSec++) { | |
188 | sprintf(name,"hnCl2_nCl1_HalfSector%d",iHalfSec); | |
189 | sprintf(title,"Half-Sector %d",iHalfSec+1); | |
190 | hnCl2_nCl1_HSec[iHalfSec]=new TH2F(name,title,200,0.,200.,200,0.,200.); | |
191 | hnCl2_nCl1_HSec[iHalfSec]->GetXaxis()->SetTitle("# clusters (inner layer)"); | |
192 | hnCl2_nCl1_HSec[iHalfSec]->GetYaxis()->SetTitle("# clusters (outer layer)"); | |
193 | } | |
194 | ||
195 | // Loop over runs | |
196 | for (Int_t run=RunStart; run<RunStop+1; run++) { | |
197 | ||
198 | // setup galice and runloader | |
199 | // cout << "File nr --> " << run << endl; | |
200 | ||
201 | if (gClassTable->GetID("AliRun") < 0) { | |
202 | gInterpreter->ExecuteMacro("loadlibs.C"); | |
203 | } | |
204 | else { | |
205 | if (gAlice){ | |
33c3c91a | 206 | delete AliRunLoader::Instance(); |
d55d87f0 | 207 | delete gAlice; |
208 | gAlice=0; | |
209 | } | |
210 | } | |
211 | ||
212 | // Set OfflineConditionsDataBase if needed | |
213 | AliCDBManager* man = AliCDBManager::Instance(); | |
214 | if (!man->IsDefaultStorageSet()) { | |
215 | printf("Setting a local default storage and run number 0\n"); | |
162637e4 | 216 | man->SetDefaultStorage("local://$ALICE_ROOT/OCDB"); |
d55d87f0 | 217 | man->SetRun(0); |
218 | } | |
219 | else { | |
220 | printf("Using deafult storage \n"); | |
221 | } | |
222 | ||
223 | // retrives geometry | |
224 | if (!gGeoManager) { | |
225 | sprintf(str,"%s/ppMinBias%04d/geometry.root",dir,run); | |
226 | AliGeomManager::LoadGeometry(str); | |
227 | } | |
228 | ||
229 | sprintf(str,"%s/ppMinBias%04d/galice.root",dir,run); | |
230 | AliRunLoader* rl = AliRunLoader::Open(str); | |
231 | ||
232 | if (rl == 0x0){ | |
233 | cerr<<"Can not open session RL=NULL"<< endl; | |
234 | return; | |
235 | } | |
236 | Int_t retval = rl->LoadgAlice(); | |
237 | if (retval){ | |
238 | cerr<<"LoadgAlice returned error"<<endl; | |
239 | return; | |
240 | } | |
241 | gAlice=rl->GetAliRun(); | |
242 | ||
243 | retval = rl->LoadHeader(); | |
244 | if (retval){ | |
245 | cerr<<"LoadHeader returned error"<<endl; | |
246 | return; | |
247 | } | |
248 | ||
249 | AliITSLoader* ITSloader = (AliITSLoader*) rl->GetLoader("ITSLoader"); | |
250 | if (!ITSloader){ | |
251 | cerr<<"ITS loader not found"<<endl; | |
252 | return; | |
253 | } | |
254 | ITSloader->LoadRecPoints("read"); | |
255 | ||
256 | AliITS *ITS = (AliITS*)gAlice->GetModule("ITS"); | |
257 | ITS->SetTreeAddress(); | |
258 | AliITSgeom *geom = ITS->GetITSgeom(); | |
259 | if (!geom) { | |
260 | cout << " Can't get the ITS geometry!" << endl; | |
261 | return ; | |
262 | } | |
263 | ||
264 | AliITSDetTypeRec* detTypeRec = new AliITSDetTypeRec(); | |
265 | ||
266 | detTypeRec->SetITSgeom(ITSloader->GetITSgeom()); | |
267 | detTypeRec->SetDefaults(); | |
268 | ||
269 | Int_t nEvents=rl->GetNumberOfEvents(); | |
270 | printf("Total Number of events = %d\n",nEvents); | |
271 | ||
272 | for (Int_t iev=0;iev<nEvents;iev++){ | |
273 | rl->GetEvent(iev); | |
274 | ||
275 | TTree *TR = ITSloader->TreeR(); | |
276 | TClonesArray* ITSClusters; | |
277 | ITSClusters = detTypeRec->RecPoints(); | |
278 | TBranch *branch = 0; | |
279 | if (TR && ITSClusters) { | |
280 | branch = ITSloader->TreeR()->GetBranch("ITSRecPoints"); | |
281 | if (branch) branch->SetAddress(&ITSClusters); | |
282 | } | |
283 | ||
284 | // Int_t nparticles = rl->GetHeader()->GetNtrack(); | |
285 | // cout<<"Event # "<<iev<<" #Particles="<<nparticles<<endl; | |
286 | ||
287 | // Reset cluster counters | |
288 | for (Int_t iLay=0; iLay<2; iLay++) { | |
289 | nClusters[iLay]=0; | |
290 | for (Int_t iSec=0; iSec<10; iSec++) { | |
291 | nClustersPerLayerPerSector[iLay][iSec]=0; | |
292 | } | |
293 | for (Int_t iHSec=0; iHSec<20; iHSec++) { | |
294 | nClustersPerLayerPerHalfSector[iLay][iHSec]=0; | |
295 | } | |
296 | } | |
297 | for (Int_t subd=0;subd<1;subd++) { | |
298 | ||
299 | Int_t first = geom->GetStartDet(subd); | |
300 | Int_t last = geom->GetLastDet(subd); | |
301 | for (Int_t mod=first; mod<=last; mod++) { | |
302 | detTypeRec->ResetRecPoints(); | |
303 | branch->GetEvent(mod); | |
304 | Int_t nrecp = ITSClusters->GetEntries(); | |
305 | while (nrecp--) { | |
306 | ||
307 | AliITSRecPoint *recp = (AliITSRecPoint*)ITSClusters->At(nrecp); | |
308 | ||
309 | Int_t lay=recp->GetLayer(); | |
310 | // cout<<"lay"<<lay<<endl; | |
311 | recp->GetGlobalXYZ(cluGlo); | |
312 | ||
313 | Float_t rad=TMath::Sqrt(cluGlo[0]*cluGlo[0]+cluGlo[1]*cluGlo[1]); | |
314 | Float_t phi= TMath::Pi() + TMath::ATan2(-cluGlo[1],-cluGlo[0]); | |
315 | hlayer->Fill(lay); | |
316 | hmod[lay]->Fill(mod); | |
317 | hzl[lay]->Fill(recp->GetDetLocalZ()); | |
318 | hxl[lay]->Fill(recp->GetDetLocalX()); | |
319 | hzg[lay]->Fill(cluGlo[2]); | |
320 | hyg[lay]->Fill(cluGlo[1]); | |
321 | hxg[lay]->Fill(cluGlo[0]); | |
322 | hr[lay]->Fill(rad); | |
323 | hphi[lay]->Fill(phi); | |
324 | hPhi_Z[lay]->Fill(cluGlo[2],phi); | |
325 | hr_phi[lay]->Fill(rad,phi); | |
326 | hx_y[lay]->Fill(cluGlo[0],cluGlo[1]); | |
327 | hx_y_z[lay]->Fill(cluGlo[2],cluGlo[0],cluGlo[1]); | |
328 | clustersXCoord[lay][nClusters[lay]]=cluGlo[0]; | |
329 | clustersYCoord[lay][nClusters[lay]]=cluGlo[1]; | |
330 | clustersZCoord[lay][nClusters[lay]]=cluGlo[2]; | |
331 | nClusters[lay]++; | |
332 | ||
333 | hType[lay]->Fill(recp->GetType()); | |
334 | // cout<<"Clusters type"<<recp->GetType()<<endl; | |
335 | hNy_Nz[lay]->Fill(recp->GetNz(),recp->GetNy()); | |
336 | ||
337 | // Set Sector number and increase the counter | |
338 | if (lay==0) { | |
339 | for (Int_t nRange=0; nRange<10; nRange++) { | |
340 | if ((mod>=nRange*8) && (mod<=(nRange*8+7))) { | |
341 | iSector = nRange; | |
342 | nClustersPerLayerPerSector[lay][iSector]++; | |
343 | break; | |
344 | } | |
345 | } | |
346 | } | |
347 | if (lay==1) { | |
348 | for (Int_t nRange=0; nRange<10; nRange++) { | |
349 | if ((mod>=80+nRange*16) && (mod<=(80+nRange*16+15))) { | |
350 | iSector = nRange; | |
351 | nClustersPerLayerPerSector[lay][iSector]++; | |
352 | break; | |
353 | } | |
354 | } | |
355 | } | |
356 | // Set HalfSector number and increase the counter | |
357 | if (lay==0) { | |
358 | for (Int_t nRange=0; nRange<20; nRange++) { | |
359 | if ((mod>=nRange*4) && (mod<=(nRange*4+3))) { | |
360 | iHalfSector = nRange; | |
361 | nClustersPerLayerPerHalfSector[lay][iHalfSector]++; | |
362 | break; | |
363 | } | |
364 | } | |
365 | } else { | |
366 | for (Int_t nRange=0; nRange<20; nRange++) { | |
367 | if ((mod>=80+nRange*4) && (mod<=(80+nRange*4+3))) { | |
368 | iHalfSector = nRange; | |
369 | nClustersPerLayerPerHalfSector[lay][iHalfSector]++; | |
370 | break; | |
371 | } | |
372 | } | |
373 | } | |
374 | } | |
375 | } | |
376 | } | |
377 | ||
378 | for (Int_t iLay=0; iLay<2; iLay++) hMultSPDcl[iLay]->Fill(nClusters[iLay]); | |
379 | for (Int_t iSec=0; iSec<10; iSec++) { | |
380 | hnCl2_nCl1_Sec[iSec]->Fill(nClustersPerLayerPerSector[0][iSec],nClustersPerLayerPerSector[1][iSec]); | |
381 | hnCl2vsnCl1_Sec[iSec]->Fill(nClustersPerLayerPerSector[0][iSec],nClustersPerLayerPerSector[1][iSec]); | |
382 | } | |
383 | for (Int_t iHSec=0; iHSec<20; iHSec++) { | |
384 | hnCl2_nCl1_HSec[iHSec]->Fill(nClustersPerLayerPerHalfSector[0][iHSec],nClustersPerLayerPerHalfSector[1][iHSec]); | |
385 | } | |
386 | hMultSPDcl2_MultSPDcl1->Fill(nClusters[0],nClusters[1]); | |
387 | ||
388 | } //end loop over events | |
389 | rl->UnloadAll(); | |
390 | delete rl; | |
391 | ||
392 | } //end loop over runs | |
393 | ||
394 | // Draw and Write histos | |
395 | ||
396 | TFile* fout = new TFile("out_ShowSPDRecPoints.root","RECREATE"); | |
397 | ||
398 | hlayer->Write(); | |
399 | // cev0->Write(); | |
400 | ||
401 | TCanvas **c=new TCanvas*[2]; | |
402 | Char_t ctit[30]; | |
403 | for(Int_t iLay=0;iLay<2;iLay++){ | |
404 | hNy_Nz[iLay]->Write(); | |
405 | sprintf(name,"can%d",iLay+1); | |
406 | sprintf(ctit,"Layer %d",iLay+1); | |
407 | c[iLay]=new TCanvas(name,ctit,1200,900); | |
408 | c[iLay]->Divide(3,3); | |
409 | c[iLay]->cd(1); | |
410 | hmod[iLay]->Draw(); | |
411 | hmod[iLay]->Write(); | |
412 | c[iLay]->cd(2); | |
413 | hxl[iLay]->Draw(); | |
414 | hxl[iLay]->Write(); | |
415 | c[iLay]->cd(3); | |
416 | hzl[iLay]->Draw(); | |
417 | hzl[iLay]->Write(); | |
418 | c[iLay]->cd(4); | |
419 | hxg[iLay]->Draw(); | |
420 | hxg[iLay]->Write(); | |
421 | c[iLay]->cd(5); | |
422 | hyg[iLay]->Draw(); | |
423 | hyg[iLay]->Write(); | |
424 | c[iLay]->cd(6); | |
425 | hzg[iLay]->Draw(); | |
426 | hzg[iLay]->Write(); | |
427 | c[iLay]->cd(7); | |
428 | hr[iLay]->Draw(); | |
429 | hr[iLay]->Write(); | |
430 | c[iLay]->cd(8); | |
431 | hphi[iLay]->Draw(); | |
432 | hphi[iLay]->Write(); | |
433 | c[iLay]->cd(9); | |
434 | hPhi_Z[iLay]->Draw("colz"); | |
435 | hPhi_Z[iLay]->Write(); | |
436 | hr_phi[iLay]->Write(); | |
437 | hx_y[iLay]->Write(); | |
438 | hx_y_z[iLay]->Write(); | |
439 | } | |
440 | ||
441 | TCanvas *cCoord=new TCanvas("cCoord","Cluster coordinates",1200,900); | |
442 | cCoord->Divide(2,2); | |
443 | ||
444 | for (Int_t iLay=0;iLay<2;iLay++) { | |
445 | cCoord->cd(1); | |
446 | hx_y[iLay]->SetMarkerStyle(22); | |
447 | hx_y[iLay]->SetMarkerSize(0.3); | |
448 | hx_y[iLay]->SetMarkerColor(iLay+1); | |
449 | if (iLay==0) hx_y[iLay]->Draw("p"); | |
450 | else hx_y[iLay]->Draw("p,same"); | |
451 | cCoord->cd(2); | |
452 | hx_y_z[iLay]->SetMarkerStyle(23); | |
453 | hx_y_z[iLay]->SetMarkerSize(0.3); | |
454 | hx_y_z[iLay]->SetMarkerColor(iLay+1); | |
455 | hx_y_z[iLay]->Draw("p,same"); | |
456 | cCoord->cd(3); | |
457 | hr_phi[iLay]->SetMarkerColor(iLay+1); | |
458 | hr_phi[iLay]->Draw("p,same"); | |
459 | } | |
460 | TCanvas *cCorrelations_Sectors=new TCanvas("cCorrelations_S","SPD cluster correlations (Sectors)",1200,900); | |
461 | cCorrelations_Sectors->Divide(3,5); | |
462 | cCorrelations_Sectors->cd(1); | |
463 | hMultSPDcl2_MultSPDcl1->Draw(); | |
464 | hMultSPDcl2_MultSPDcl1->Write(); | |
465 | cCorrelations_Sectors->cd(2); | |
466 | hMultSPDcl[0]->Draw(); | |
467 | hMultSPDcl[0]->Write(); | |
468 | cCorrelations_Sectors->cd(3); | |
469 | hMultSPDcl[1]->Draw(); | |
470 | hMultSPDcl[1]->Write(); | |
471 | for (Int_t iS=0; iS<10; ++iS) { | |
472 | cCorrelations_Sectors->cd(iS+4); | |
473 | hnCl2_nCl1_Sec[iS]->Draw(); | |
474 | hnCl2_nCl1_Sec[iS]->Write(); | |
475 | hnCl2vsnCl1_Sec[iS]->Write(); | |
476 | } | |
477 | ||
478 | TCanvas *cCorrelations_HSectors=new TCanvas("cCorrelations_HS","SPD cluster correlations (Half-Sectors)",1200,900); | |
479 | cCorrelations_HSectors->Divide(5,4); | |
480 | ||
481 | for (Int_t iHS=0; iHS<20; ++iHS) { | |
482 | cCorrelations_HSectors->cd(iHS+1); | |
483 | hnCl2_nCl1_HSec[iHS]->Write(); | |
484 | hnCl2_nCl1_HSec[iHS]->Draw(); | |
485 | } | |
486 | ||
487 | fout->Close(); | |
488 | ||
489 | } |