Split: fix refs to AddTaskPhysicsSelection.C
[u/mrichter/AliRoot.git] / PWGPP / MUON / dep / MuonResolution.C
CommitLineData
00612ffc 1//--------------------------------------------------------------------------
2// Macro compiled and launch by RunMuonResolution.C for submitting muon Resolution analysis locally or on CAF.
3// See RunMuonResolution.C for more details
4//
5// Author: Philippe Pillot - SUBATECH Nantes
6//--------------------------------------------------------------------------
7
8#if !defined(__CINT__) || defined(__MAKECINT__)
9// ROOT includes
10#include <fstream>
11#include <TString.h>
12#include <TStopwatch.h>
13#include <TMultiGraph.h>
14#include <TSystem.h>
15#include <TChain.h>
16#include <TGraphErrors.h>
17#include <TProof.h>
18#include <TList.h>
19#include <TCanvas.h>
20#include <TFile.h>
21#include <TGrid.h>
22#include <TEnv.h>
23#include <TROOT.h>
24#include "TAxis.h"
25#include "THashList.h"
26#include <TAlienCollection.h>
27#include <TGridCollection.h>
28#include <TGridResult.h>
29
30// STEER includes
31#include "AliLog.h"
32#include "AliCDBManager.h"
33#include "AliAnalysisManager.h"
34#include "AliESDInputHandler.h"
35#include "AliTagAnalysis.h"
36#include "AliRunTagCuts.h"
37#include "AliLHCTagCuts.h"
38#include "AliDetectorTagCuts.h"
39#include "AliEventTagCuts.h"
40#include "AliPhysicsSelectionTask.h"
41#include "AliPhysicsSelection.h"
42#include "AliBackgroundSelection.h"
4060971a 43#include "AliCentralitySelectionTask.h"
00612ffc 44#include "AliAnalysisDataContainer.h"
45#include "AliAnalysisTaskMuonResolution.h"
46
47// MUON includes
48#include "AliMpCDB.h"
49#include "AliMpDetElement.h"
50#include "AliMpDDLStore.h"
51#include "AliMUONCalibParamND.h"
52#include "AliMUON2DMap.h"
53#include "AliMUONTrackerData.h"
54#include "AliMUONPainterDataRegistry.h"
55#include "AliMUONTrackerDataWrapper.h"
56
09233fcd 57#include "AliMuonTrackCuts.h"
58
00612ffc 59#include "AddTaskMuonResolution.C"
60
61#endif
62
63enum {kLocal, kInteractif_xml, kInteractif_ESDList, kProof};
09233fcd 64Int_t nDE = 200;
00612ffc 65
09233fcd 66Bool_t Resume(Int_t &firstStep, Double_t clusterResNB[10], Double_t clusterResB[10],
67 Double_t clusterResNBErr[10], Double_t clusterResBErr[10],
68 Bool_t shiftHalfCh, Double_t halfChShiftNB[20], Double_t halfChShiftB[20],
69 Double_t halfChShiftNBErr[20], Double_t halfChShiftBErr[20],
70 Bool_t shiftDE, Double_t deShiftNB[200], Double_t deShiftB[200],
71 TGraphErrors* clusterResXVsStep[10], TGraphErrors* clusterResYVsStep[10],
72 TGraphErrors* halfChShiftXVsStep[20], TGraphErrors* halfChShiftYVsStep[20]);
73void LoadAlirootOnProof(TString& aaf, TString rootVersion, TString alirootVersion, TString& extraLibs, Int_t iStep);
00612ffc 74AliAnalysisTaskMuonResolution* CreateAnalysisTrain(Int_t mode, Int_t iStep, Bool_t selectPhysics, Bool_t selectTrigger, Bool_t matchTrig,
75 Bool_t applyAccCut, Double_t minMomentum, Bool_t correctForSystematics, Int_t extrapMode,
09233fcd 76 Double_t clusterResNB[10], Double_t clusterResB[10],
77 Bool_t shiftHalfCh, Double_t halfChShiftNB[20], Double_t halfChShiftB[20],
78 Bool_t shiftDE, Double_t deShiftNB[200], Double_t deShiftB[200]);
00612ffc 79Bool_t GetChamberResolution(Int_t iStep, Double_t clusterResNB[10], Double_t clusterResB[10],
80 Double_t clusterResNBErr[10], Double_t clusterResBErr[10]);
09233fcd 81Bool_t AddHalfChShift(Int_t iStep, Double_t halfChShiftNB[20], Double_t halfChShiftB[20], Double_t halfChShiftNBErr[20], Double_t halfChShiftBErr[20]);
82Bool_t AddDEShift(Int_t iStep, Double_t deShiftNB[200], Double_t deShiftB[200]);
00612ffc 83void AddMCHViews(TFile* file);
84AliMUONTrackerData* ConvertGraph(TGraphErrors& g, const char* name);
85Int_t GetMode(TString smode, TString input);
86TChain* CreateChainFromCollection(const char *xmlfile);
87TChain* CreateChainFromFile(const char *rootfile);
88TChain* CreateChainFromESDList(const char *esdList);
89TChain* CreateChain(Int_t mode, TString input);
90
91//______________________________________________________________________________
09233fcd 92void MuonResolution(TString smode, TString inputFileName, TString rootVersion, TString alirootVersion, Int_t nSteps,
93 Bool_t selectPhysics, Bool_t selectTrigger, Bool_t matchTrig, Bool_t applyAccCut,
94 Double_t minMomentum, Bool_t correctForSystematics, Int_t extrapMode,
95 Bool_t shiftHalfCh, Bool_t shiftDE, Int_t nevents, TString extraLibs)
00612ffc 96{
97 /// Compute the cluster resolution by studying cluster-track residual, deconvoluting from track resolution
98
99 // timer start...
100 TStopwatch* localTimer = new TStopwatch;
101
102 // check parameters
103 nSteps = TMath::Max(nSteps,1);
104 if (extrapMode != 0 && extrapMode != 1) {
105 Error("MuonResolution","incorrect extrapolation mode!");
106 return;
107 }
108
109 // Check runing mode
110 Int_t mode = GetMode(smode, inputFileName);
111 if(mode < 0){
112 Error("MuonResolution","Please provide either an ESD root file, a list of ESDs, a collection of ESDs or a dataset.");
113 return;
114 }
115
00612ffc 116 // set starting chamber resolution (if -1 they will be loaded from recoParam in the task)
09233fcd 117 Double_t clusterResNB[10] = {-1., -1., -1., -1., -1., -1., -1., -1., -1., -1.};
118 Double_t clusterResB[10] = {-1., -1., -1., -1., -1., -1., -1., -1., -1., -1.};
119 Double_t clusterResNBErr[10] = {0., 0., 0., 0., 0., 0., 0., 0., 0., 0.};
120 Double_t clusterResBErr[10] = {0., 0., 0., 0., 0., 0., 0., 0., 0., 0.};
121 Double_t halfChShiftNB[20] = {0., 0., 0., 0., 0., 0., 0., 0., 0., 0., 0., 0., 0., 0., 0., 0., 0., 0., 0., 0.};
122 Double_t halfChShiftB[20] = {0., 0., 0., 0., 0., 0., 0., 0., 0., 0., 0., 0., 0., 0., 0., 0., 0., 0., 0., 0.};
123 Double_t halfChShiftNBErr[20] = {0., 0., 0., 0., 0., 0., 0., 0., 0., 0., 0., 0., 0., 0., 0., 0., 0., 0., 0., 0.};
124 Double_t halfChShiftBErr[20] = {0., 0., 0., 0., 0., 0., 0., 0., 0., 0., 0., 0., 0., 0., 0., 0., 0., 0., 0., 0.};
125 Double_t deShiftNB[200];
126 Double_t deShiftB[200];
127 for (Int_t i=0; i<200; i++) {
128 deShiftNB[i] = 0.;
129 deShiftB[i] = 0.;
130 }
00612ffc 131
132 // output graphs
133 TMultiGraph* mgClusterResXVsStep = new TMultiGraph("mgClusterResXVsStep","cluster X-resolution versus step;step;#sigma_{X} (cm)");
134 TMultiGraph* mgClusterResYVsStep = new TMultiGraph("mgClusterResYVsStep","cluster Y-resolution versus step;step;#sigma_{Y} (cm)");
135 TGraphErrors* clusterResXVsStep[10];
136 TGraphErrors* clusterResYVsStep[10];
137 for (Int_t i = 0; i < 10; i++) {
138 clusterResXVsStep[i] = new TGraphErrors(nSteps+1);
139 clusterResXVsStep[i]->SetName(Form("gResX_ch%d",i+1));
140 clusterResXVsStep[i]->SetMarkerStyle(kFullDotMedium);
141 clusterResXVsStep[i]->SetMarkerColor(i+1+i/9);
142 mgClusterResXVsStep->Add(clusterResXVsStep[i],"lp");
143
144 clusterResYVsStep[i] = new TGraphErrors(nSteps+1);
145 clusterResYVsStep[i]->SetName(Form("gResY_ch%d",i+1));
146 clusterResYVsStep[i]->SetMarkerStyle(kFullDotMedium);
147 clusterResYVsStep[i]->SetMarkerColor(i+1+i/9);
148 mgClusterResYVsStep->Add(clusterResYVsStep[i],"lp");
149 }
09233fcd 150 TMultiGraph* mgHalfChShiftXVsStep = new TMultiGraph("mgHalfChShiftXVsStep","half-chamber displacement in X direction versus step;step;#Delta_{X} (cm)");
151 TMultiGraph* mgHalfChShiftYVsStep = new TMultiGraph("mgHalfChShiftYVsStep","half-chamber displacement in Y direction versus step;step;#Delta_{Y} (cm)");
152 TGraphErrors* halfChShiftXVsStep[20];
153 TGraphErrors* halfChShiftYVsStep[20];
154 for (Int_t i = 0; i < 20; i++) {
155 halfChShiftXVsStep[i] = new TGraphErrors(nSteps+1);
156 halfChShiftXVsStep[i]->SetName(Form("gShiftX_hch%d",i+1));
157 halfChShiftXVsStep[i]->SetMarkerStyle(kFullDotMedium);
158 halfChShiftXVsStep[i]->SetMarkerColor(i+1+i/9+i/18);
159 mgHalfChShiftXVsStep->Add(halfChShiftXVsStep[i],"lp");
160 halfChShiftXVsStep[i]->SetPoint(0, 0, halfChShiftNB[i]);
161 halfChShiftXVsStep[i]->SetPointError(0, 0., halfChShiftNBErr[i]);
162
163 halfChShiftYVsStep[i] = new TGraphErrors(nSteps+1);
164 halfChShiftYVsStep[i]->SetName(Form("gShiftY_hch%d",i+1));
165 halfChShiftYVsStep[i]->SetMarkerStyle(kFullDotMedium);
166 halfChShiftYVsStep[i]->SetMarkerColor(i+1+i/9+i/18);
167 mgHalfChShiftYVsStep->Add(halfChShiftYVsStep[i],"lp");
168 halfChShiftYVsStep[i]->SetPoint(0, 0, halfChShiftB[i]);
169 halfChShiftYVsStep[i]->SetPointError(0, 0., halfChShiftBErr[i]);
170 }
171
172 // check for old output files
173 Int_t firstStep = 0;
174 char remove = '\0';
175 if (!gSystem->Exec("ls chamberResolution_step*[0-9].root")) {
176 cout<<"Above files already exist in the current directory. [d=delete, r=resume, e=exit] "<<flush;
177 while (remove != 'd' && remove != 'r' && remove != 'e') cin>>remove;
178 if (remove == 'y') gSystem->Exec("rm -f chamberResolution_step*[0-9].root");
179 else if (remove == 'r' && !Resume(firstStep, clusterResNB, clusterResB, clusterResNBErr, clusterResBErr,
180 shiftHalfCh, halfChShiftNB, halfChShiftB, halfChShiftNBErr, halfChShiftBErr,
181 shiftDE, deShiftNB, deShiftB, clusterResXVsStep, clusterResYVsStep,
182 halfChShiftXVsStep, halfChShiftYVsStep)) return;
183 else if (remove == 'e') return;
184 }
185
186 // Create input object
187 TObject* inputObj = 0x0;
188 if (mode == kProof) inputObj = new TObjString(inputFileName);
189 else inputObj = CreateChain(mode, inputFileName);
190 if (!inputObj) return;
00612ffc 191
192 // loop over step
09233fcd 193 for (Int_t iStep = firstStep; iStep < nSteps; iStep++) {
00612ffc 194 cout<<"step "<<iStep+1<<"/"<<nSteps<<endl;
195
196 // Connect to proof if needed and prepare environment
09233fcd 197 if (mode == kProof) LoadAlirootOnProof(smode, rootVersion, alirootVersion, extraLibs, iStep-firstStep);
00612ffc 198
199 // create the analysis train
09233fcd 200 AliAnalysisTaskMuonResolution *muonResolution = CreateAnalysisTrain(mode, iStep, selectPhysics, selectTrigger,
201 matchTrig, applyAccCut, minMomentum, correctForSystematics,
202 extrapMode, clusterResNB, clusterResB, shiftHalfCh,
203 halfChShiftNB, halfChShiftB, shiftDE, deShiftNB, deShiftB);
00612ffc 204 if (!muonResolution) return;
205
206 // start analysis
207 AliAnalysisManager *mgr = AliAnalysisManager::GetAnalysisManager();
208 if (mgr->InitAnalysis()) {
209 mgr->PrintStatus();
09233fcd 210 if (mode == kProof) mgr->StartAnalysis("proof", static_cast<TObjString*>(inputObj)->GetName(), nevents);
00612ffc 211 else mgr->StartAnalysis("local", static_cast<TChain*>(inputObj), nevents);
212 }
213
214 // save the summary canvases and mchview display
215 if (muonResolution->GetCanvases()) {
216 TFile* outFile = TFile::Open(Form("chamberResolution_step%d.root", iStep),"UPDATE");
217 if (outFile && outFile->IsOpen()) {
218 outFile->cd();
219 muonResolution->GetCanvases()->Write();
220 AddMCHViews(outFile);
221 outFile->Close();
09233fcd 222 delete outFile;
00612ffc 223 }
224 }
225
09233fcd 226 // fill graphs with starting resolutions from the task at very first step
00612ffc 227 if (iStep == 0) {
228 muonResolution->GetStartingResolution(clusterResNB, clusterResB);
229 for (Int_t i = 0; i < 10; i++) {
230 clusterResXVsStep[i]->SetPoint(0, 0, clusterResNB[i]);
231 clusterResXVsStep[i]->SetPointError(0, 0., clusterResNBErr[i]);
232 clusterResYVsStep[i]->SetPoint(0, 0, clusterResB[i]);
233 clusterResYVsStep[i]->SetPointError(0, 0., clusterResBErr[i]);
234 }
235 }
236
237 // read the chamber resolution from the output file
238 if (!GetChamberResolution(iStep, clusterResNB, clusterResB, clusterResNBErr, clusterResBErr)) return;
239
240 // fill graphs with computed resolutions
241 for (Int_t i = 0; i < 10; i++) {
242 clusterResXVsStep[i]->SetPoint(iStep+1, iStep+1, clusterResNB[i]);
243 clusterResXVsStep[i]->SetPointError(iStep+1, 0., clusterResNBErr[i]);
244 clusterResYVsStep[i]->SetPoint(iStep+1, iStep+1, clusterResB[i]);
245 clusterResYVsStep[i]->SetPointError(iStep+1, 0., clusterResBErr[i]);
246 }
247
09233fcd 248 // get the half-chamber displacements currently used and add the new measurements from the output file
249 muonResolution->GetHalfChShift(halfChShiftNB, halfChShiftB);
250 if (!AddHalfChShift(iStep, halfChShiftNB, halfChShiftB, halfChShiftNBErr, halfChShiftBErr)) return;
251
252 // fill graphs with computed displacements
253 for (Int_t i = 0; i < 20; i++) {
254 halfChShiftXVsStep[i]->SetPoint(iStep+1, iStep+1, halfChShiftNB[i]);
255 halfChShiftXVsStep[i]->SetPointError(iStep+1, 0., halfChShiftNBErr[i]);
256 halfChShiftYVsStep[i]->SetPoint(iStep+1, iStep+1, halfChShiftB[i]);
257 halfChShiftYVsStep[i]->SetPointError(iStep+1, 0., halfChShiftBErr[i]);
258 }
259
260 // get the DE displacements currently used and add the new measurements from the output file
261 muonResolution->GetDEShift(deShiftNB, deShiftB);
262 if (!AddDEShift(iStep, deShiftNB, deShiftB)) return;
263
00612ffc 264 // clean memory
09233fcd 265 mgr->SetAnalysisType(AliAnalysisManager::kLocalAnalysis); // to make sure that all output containers are deleted
00612ffc 266 delete mgr;
267 TObject::SetObjectStat(kFALSE);
268
269 }
270
271 // copy final results in results.root file
272 gSystem->Exec(Form("cp chamberResolution_step%d.root results.root", nSteps-1));
273
09233fcd 274 // display convergence of cluster resolution
275 TCanvas* convergence1 = new TCanvas("convergenceRes","convergence of cluster resolution");
276 convergence1->Divide(1,2);
277 convergence1->cd(1);
00612ffc 278 mgClusterResXVsStep->Draw("ap");
09233fcd 279 convergence1->cd(2);
00612ffc 280 mgClusterResYVsStep->Draw("ap");
281
09233fcd 282 // display convergence of half-chamber displacements
283 TCanvas* convergence2 = new TCanvas("convergenceShift","convergence of half-chamber displacements");
284 convergence2->Divide(1,2);
285 convergence2->cd(1);
286 mgHalfChShiftXVsStep->Draw("ap");
287 convergence2->cd(2);
288 mgHalfChShiftYVsStep->Draw("ap");
289
00612ffc 290 // save convergence plots
291 TFile* outFile = TFile::Open("results.root","UPDATE");
292 if (!outFile || !outFile->IsOpen()) return;
293 outFile->cd();
294 mgClusterResXVsStep->Write();
295 mgClusterResYVsStep->Write();
09233fcd 296 convergence1->Write();
297 mgHalfChShiftXVsStep->Write();
298 mgHalfChShiftYVsStep->Write();
299 convergence2->Write();
00612ffc 300 outFile->Close();
09233fcd 301 delete outFile;
302
303 // print final half-chamber displacements
304 printf("\nhalf-chamber total displacements:\n");
305 printf(" - non-bending:");
306 for (Int_t i = 0; i < 20; i++) printf((i==0)?" %6.4f":", %6.4f", halfChShiftNB[i]);
307 printf("\n - bending:");
308 for (Int_t i = 0; i < 20; i++) printf((i==0)?" %6.4f":", %6.4f", halfChShiftB[i]);
309 printf("\n\n");
310
311 // print final DE displacements
312 printf("\nDE total displacements:\n");
313 printf(" - non-bending:");
314 for (Int_t i = 0; i < nDE; i++) printf((i==0)?" %6.4f":", %6.4f", deShiftNB[i]);
315 printf("\n - bending:");
316 for (Int_t i = 0; i < nDE; i++) printf((i==0)?" %6.4f":", %6.4f", deShiftB[i]);
317 printf("\n\n");
00612ffc 318
319 // ...timer stop
320 localTimer->Stop();
321 localTimer->Print();
09233fcd 322 delete localTimer;
00612ffc 323
324}
325
326//______________________________________________________________________________
09233fcd 327Bool_t Resume(Int_t &firstStep, Double_t clusterResNB[10], Double_t clusterResB[10],
328 Double_t clusterResNBErr[10], Double_t clusterResBErr[10],
329 Bool_t shiftHalfCh, Double_t halfChShiftNB[20], Double_t halfChShiftB[20],
330 Double_t halfChShiftNBErr[20], Double_t halfChShiftBErr[20],
331 Bool_t shiftDE, Double_t deShiftNB[200], Double_t deShiftB[200],
332 TGraphErrors* clusterResXVsStep[10], TGraphErrors* clusterResYVsStep[10],
333 TGraphErrors* halfChShiftXVsStep[20], TGraphErrors* halfChShiftYVsStep[20])
334{
335 /// resume analysis from desired step
336
337 while (kTRUE) {
338
339 // Get the step to restart from
340 cout<<"From which step (included) you want to resume? [#, e=exit] "<<flush;
341 TString step = "";
342 do {step.Gets(stdin,kTRUE);} while (!step.IsDigit() && step != "e");
343 if (step == "e") return kFALSE;
344 firstStep = step.Atoi();
345
346 // restart from scratch if requested
347 if (firstStep == 0) {
348 gSystem->Exec("rm -f chamberResolution_step*[0-9].root");
349 return kTRUE;
350 }
351
352 // look for results from the previous step
353 if (gSystem->AccessPathName(Form("chamberResolution_step%d.root", firstStep-1))) {
354 cout<<"No result found from the previous step ("<<firstStep-1<<"). Unable to resume from step "<<firstStep<<endl;
355 continue;
356 }
357
358 // fill graph with starting resolutions
359 for (Int_t i = 0; i < 10; i++) {
360 clusterResXVsStep[i]->SetPoint(0, 0, clusterResNB[i]);
361 clusterResXVsStep[i]->SetPointError(0, 0., clusterResNBErr[i]);
362 clusterResYVsStep[i]->SetPoint(0, 0, clusterResB[i]);
363 clusterResYVsStep[i]->SetPointError(0, 0., clusterResBErr[i]);
364 }
365
366 // loop over previous steps
367 Bool_t missingInfo = kFALSE;
368 for (Int_t iStep = 0; iStep < firstStep; iStep++) {
369
370 // read the chamber resolution from the output file
371 if (!GetChamberResolution(iStep, clusterResNB, clusterResB, clusterResNBErr, clusterResBErr) && iStep == firstStep-1) {
372 missingInfo = kTRUE;
373 break;
374 }
375
376 // fill graphs with computed resolutions
377 for (Int_t i = 0; i < 10; i++) {
378 clusterResXVsStep[i]->SetPoint(iStep+1, iStep+1, clusterResNB[i]);
379 clusterResXVsStep[i]->SetPointError(iStep+1, 0., clusterResNBErr[i]);
380 clusterResYVsStep[i]->SetPoint(iStep+1, iStep+1, clusterResB[i]);
381 clusterResYVsStep[i]->SetPointError(iStep+1, 0., clusterResBErr[i]);
382 }
383
384 // reset the half-chamber displacements if not used and add the new measurements from the output file
385 if (!shiftHalfCh) for (Int_t i=0; i<20; i++) {
386 halfChShiftNB[i] = 0.; halfChShiftB[i] = 0.;
387 halfChShiftNBErr[i] = 0.; halfChShiftBErr[i] = 0.;
388 }
389 if (!AddHalfChShift(iStep, halfChShiftNB, halfChShiftB, halfChShiftNBErr, halfChShiftBErr) && shiftHalfCh) {
390 missingInfo = kTRUE;
391 break;
392 }
393
394 // fill graphs with computed displacements
395 for (Int_t i = 0; i < 20; i++) {
396 halfChShiftXVsStep[i]->SetPoint(iStep+1, iStep+1, halfChShiftNB[i]);
397 halfChShiftXVsStep[i]->SetPointError(iStep+1, 0., halfChShiftNBErr[i]);
398 halfChShiftYVsStep[i]->SetPoint(iStep+1, iStep+1, halfChShiftB[i]);
399 halfChShiftYVsStep[i]->SetPointError(iStep+1, 0., halfChShiftBErr[i]);
400 }
401
402 // add the new measurements of DE displacements from the output file if in use
403 if (shiftDE && !AddDEShift(iStep, deShiftNB, deShiftB)) {
404 missingInfo = kTRUE;
405 break;
406 }
407
408 }
409
410 // check if missing important results from previous steps
411 if (missingInfo) continue;
412
413 // keep previous steps and remove the others
414 gSystem->Exec("mkdir __TMP__");
415 for (Int_t iStep = 0; iStep < firstStep; iStep++)
416 if (!gSystem->AccessPathName(Form("chamberResolution_step%d.root", iStep)))
417 gSystem->Exec(Form("mv chamberResolution_step%d.root __TMP__", iStep));
418 gSystem->Exec("rm -f chamberResolution_step*[0-9].root");
419 gSystem->Exec("mv __TMP__/chamberResolution_step*[0-9].root .");
420 gSystem->Exec("rm -rf __TMP__");
421
422 return kTRUE;
423 }
424
425}
426
427//______________________________________________________________________________
428void LoadAlirootOnProof(TString& aaf, TString rootVersion, TString alirootVersion, TString& extraLibs, Int_t iStep)
00612ffc 429{
430 /// Load aliroot packages and set environment on Proof
431
432 // set general environment and close previous session
433 if (iStep == 0) gEnv->SetValue("XSec.GSI.DelegProxy","2");
434 else gProof->Close("s");
435
436 // connect
09233fcd 437 TString location = (aaf == "caf") ? "alice-caf.cern.ch" : "nansafmaster.in2p3.fr"; //"localhost:1093"
438 TString nWorkers = (aaf == "caf") ? "workers=80" : ""; //"workers=3x"
439 TString user = (gSystem->Getenv("alien_API_USER") == NULL) ? "" : Form("%s@",gSystem->Getenv("alien_API_USER"));
440 TProof::Mgr(Form("%s%s",user.Data(), location.Data()))->SetROOTVersion(Form("VO_ALICE@ROOT::%s",rootVersion.Data()));
441 TProof::Open(Form("%s%s/?N",user.Data(), location.Data()), nWorkers.Data());
00612ffc 442 if (!gProof) return;
443
444 // set environment and load libraries on workers
445 TList* list = new TList();
446 list->Add(new TNamed("ALIROOT_MODE", ""));
447 list->Add(new TNamed("ALIROOT_EXTRA_LIBS", extraLibs.Data()));
448 if (!gSystem->AccessPathName("AliAnalysisTaskMuonResolution.cxx"))
449 list->Add(new TNamed("ALIROOT_EXTRA_INCLUDES", "MUON:MUON/mapping"));
09233fcd 450 gProof->EnablePackage(Form("VO_ALICE@AliRoot::%s",alirootVersion.Data()), list, kTRUE);
00612ffc 451
452 // compile task on workers
453 if (!gSystem->AccessPathName("AliAnalysisTaskMuonResolution.cxx"))
454 gProof->Load("AliAnalysisTaskMuonResolution.cxx++g", kTRUE);
455
456}
457
458//______________________________________________________________________________
459AliAnalysisTaskMuonResolution* CreateAnalysisTrain(Int_t mode, Int_t iStep, Bool_t selectPhysics, Bool_t selectTrigger, Bool_t matchTrig,
460 Bool_t applyAccCut, Double_t minMomentum, Bool_t correctForSystematics, Int_t extrapMode,
09233fcd 461 Double_t clusterResNB[10], Double_t clusterResB[10],
462 Bool_t shiftHalfCh, Double_t halfChShiftNB[20], Double_t halfChShiftB[20],
463 Bool_t shiftDE, Double_t deShiftNB[200], Double_t deShiftB[200])
00612ffc 464{
465 /// create the analysis train and configure it
466
467 // Create the analysis manager
468 AliAnalysisManager *mgr = new AliAnalysisManager("MuonResolutionAnalysis");
09233fcd 469 //mgr->SetNSysInfo(100);
00612ffc 470
471 // ESD input handler
472 AliESDInputHandler* esdH = new AliESDInputHandler();
473 esdH->SetReadFriends(kFALSE);
4060971a 474 esdH->SetInactiveBranches("*");
fe0324de 475 esdH->SetActiveBranches("MuonTracks MuonClusters MuonPads AliESDRun. AliESDHeader. AliMultiplicity. AliESDFMD. AliESDVZERO. SPDVertex. PrimaryVertex. AliESDZDC.");
00612ffc 476 mgr->SetInputEventHandler(esdH);
477
478 // event selection
479 if (selectPhysics) {
63b6cbd0 480 gROOT->LoadMacro("$ALICE_ROOT/OADB/macros/AddTaskPhysicsSelection.C");
fe0324de 481 if (!gROOT->ProcessLineFast("AddTaskPhysicsSelection()")) {
4060971a 482 Error("CreateAnalysisTrain","AliPhysicsSelectionTask not created!");
00612ffc 483 return 0x0;
484 }
485 }
486
4060971a 487 // centrality selection
1c06a186 488 gROOT->LoadMacro("$ALICE_ROOT/OADB/macros/AddTaskCentrality.C");
fe0324de 489 if (!gROOT->ProcessLineFast("AddTaskCentrality()")) {
4060971a 490 Error("CreateAnalysisTrain","AliCentralitySelectionTask not created!");
491 return 0x0;
492 }
4060971a 493
00612ffc 494 // Muon Resolution analysis
495 TString outputFileName = Form("chamberResolution_step%d.root", iStep);
496 AliAnalysisManager::SetCommonFileName(outputFileName.Data());
497 AliAnalysisTaskMuonResolution *muonResolution = AddTaskMuonResolution(selectPhysics, selectTrigger, matchTrig, applyAccCut, minMomentum, correctForSystematics, extrapMode);
498 if (!muonResolution) {
4060971a 499 Error("CreateAnalysisTrain","AliAnalysisTaskMuonResolution not created!");
00612ffc 500 return 0x0;
501 }
09233fcd 502 /*if (mode == kLocal) muonResolution->SetDefaultStorage("local://$ALICE_ROOT/OCDB");
503 else */muonResolution->SetDefaultStorage("raw://");
00612ffc 504 if (mode != kProof) muonResolution->ShowProgressBar();
505 muonResolution->PrintClusterRes(kTRUE, kTRUE);
506 muonResolution->SetStartingResolution(clusterResNB, clusterResB);
09233fcd 507 muonResolution->RemoveMonoCathodClusters(kTRUE, kFALSE);
4060971a 508// muonResolution->FitResiduals(kFALSE);
509// muonResolution->ReAlign("alien://folder=/alice/cern.ch/user/p/ppillot/OCDB2011","");
510// muonResolution->ReAlign("alien://folder=/alice/cern.ch/user/p/ppillot/OCDB2011", "alien://folder=/alice/cern.ch/user/p/ppillot/OCDB2011_Align2");
09233fcd 511// muonResolution->ReAlign("alien://folder=/alice/cern.ch/user/p/ppillot/OCDB2011_Align1", "alien://folder=/alice/cern.ch/user/p/ppillot/OCDB2011_Align2");
512// muonResolution->ReAlign("", "alien://folder=/alice/cern.ch/user/j/jcastill/MATFtestCDBVanik");
513// muonResolution->ReAlign("", "alien://folder=/alice/cern.ch/user/j/jcastill/MATFtestCDBJavier");
514// muonResolution->ReAlign("", "alien://folder=/alice/cern.ch/user/j/jcastill/MATFtestCDBVanik2");
515// muonResolution->ReAlign("", "alien://folder=/alice/cern.ch/user/j/jcastill/MATFtestCDBJavier2");
516// muonResolution->ReAlign("", "alien://folder=/alice/cern.ch/user/j/jcastill/MATFtestCDBTest");
517// muonResolution->ReAlign("", "alien://folder=/alice/cern.ch/user/j/jcastill/MATFtestCDBJavierI");
518// muonResolution->ReAlign("", "alien://folder=/alice/cern.ch/user/j/jcastill/MATFtestCDBJavier2St345");
519// muonResolution->ReAlign("alien://folder=/alice/cern.ch/user/p/ppillot/OCDB2011_Align1", "alien://folder=/alice/cern.ch/user/j/jcastill/MATFtestQuadrant");
520// muonResolution->ReAlign("", "alien://folder=/alice/cern.ch/user/j/jcastill/ReAligni00as_x_CDB");
521// muonResolution->ReAlign("alien://folder=/alice/cern.ch/user/p/ppillot/OCDB2011", "alien://folder=/alice/cern.ch/user/j/jcastill/ReAligni00as_x_CDB");
522// muonResolution->ReAlign("", "alien://folder=/alice/cern.ch/user/j/jcastill/ReAligni00asCDB");
523// muonResolution->ReAlign("alien://folder=/alice/cern.ch/user/p/ppillot/OCDB2011", "alien://folder=/alice/cern.ch/user/j/jcastill/ReAligni00asCDB");
524// muonResolution->ReAlign("", "alien://folder=/alice/cern.ch/user/j/jcastill/ReAligni00as_xypxvzyvz_x015y015_CDB");
525// muonResolution->ReAlign("alien://folder=/alice/cern.ch/user/p/ppillot/OCDB2011", "alien://folder=/alice/cern.ch/user/j/jcastill/ReAligni00as_xypxvzyvz_x015y015_CDB");
526// muonResolution->ReAlign("", "alien://folder=/alice/cern.ch/user/j/jcastill/ReAligni00as_xypxvzyvz_x010y015_CDB");
527// muonResolution->ReAlign("alien://folder=/alice/cern.ch/user/p/ppillot/OCDB2011", "alien://folder=/alice/cern.ch/user/j/jcastill/ReAligni00as_xypxvzyvz_x010y015_CDB");
528// muonResolution->ReAlign("", "alien://folder=/alice/cern.ch/user/j/jcastill/ReAligni00as_gc5_x015y015_fix24zIO_CDB");
529// muonResolution->ReAlign("alien://folder=/alice/cern.ch/user/p/ppillot/OCDB2011", "alien://folder=/alice/cern.ch/user/j/jcastill/ReAligni00as_gc5_x015y015_fix24zIO_CDB");
530// muonResolution->ReAlign("", "alien://folder=/alice/cern.ch/user/j/jcastill/MATFtestCDBVanik2St345_B2");
531// muonResolution->ReAlign("", "alien://folder=/alice/cern.ch/user/j/jcastill/MATFtestCDBVanik2St345_B3");
532// muonResolution->ReAlign("", "alien://folder=/alice/cern.ch/user/j/jcastill/MATFtestCDBQuadrant_B2");
533// muonResolution->ReAlign("", "alien://folder=/alice/cern.ch/user/j/jcastill/MATFtestCDBQuadrant_B3");
534// muonResolution->ReAlign("alien://folder=/alice/cern.ch/user/p/ppillot/OCDB2011", "alien://folder=/alice/cern.ch/user/p/ppillot/OCDB2011_Align2bis");
535// muonResolution->ReAlign("", "alien://folder=/alice/cern.ch/user/p/ppillot/OCDB_BON_woConst");
536// muonResolution->ReAlign("", "alien://folder=/alice/cern.ch/user/p/ppillot/OCDB_BON_wConst");
537// muonResolution->ReAlign("", "alien://folder=/alice/cern.ch/user/p/ppillot/OCDB_BON_wConst_v2");
538// muonResolution->ReAlign("alien://folder=/alice/cern.ch/user/p/ppillot/OCDB2011_Align1", "alien://folder=/alice/cern.ch/user/s/shahoian/CorG4Fresmx05y015");
539// muonResolution->ReAlign("alien://folder=/alice/cern.ch/user/p/ppillot/OCDB2011_Align1", "alien://folder=/alice/cern.ch/user/s/shahoian/CorG4Gresmx05y015");
540// muonResolution->ReAlign("alien://folder=/alice/cern.ch/user/p/ppillot/OCDB2011", "alien://folder=/alice/cern.ch/user/s/shahoian/CorG4Gresmx05y015");
541// muonResolution->ReAlign("alien://folder=/alice/cern.ch/user/p/ppillot/OCDB2011_Align1", "alien://folder=/alice/cern.ch/user/p/ppillot/OCDB_RubenB0");
542// muonResolution->ReAlign("alien://folder=/alice/cern.ch/user/p/ppillot/OCDB2011_Align1", "alien://folder=/alice/cern.ch/user/j/jcastill/CorG4Fresmx05y015_BOff");
543// muonResolution->ReAlign("alien://folder=/alice/cern.ch/user/p/ppillot/OCDB2011_Align1", "alien://folder=/alice/cern.ch/user/j/jcastill/CorG4Fresmx05y015");
544// muonResolution->ReAlign("alien://folder=/alice/cern.ch/user/p/ppillot/OCDB2011_Align1", "alien://folder=/alice/cern.ch/user/j/jcastill/CorG4Gresmx05y015_BOff");
545// muonResolution->ReAlign("alien://folder=/alice/cern.ch/user/p/ppillot/OCDB2011_Align1", "alien://folder=/alice/cern.ch/user/j/jcastill/CorG4Gresmx05y015");
546// muonResolution->ReAlign("alien://folder=/alice/cern.ch/user/p/ppillot/OCDB2011_Align1", "alien://folder=/alice/cern.ch/user/j/jcastill/pbpb11wrk/CorG4Fresmx05y015_pp2PbPb");
547// muonResolution->ReAlign("alien://folder=/alice/cern.ch/user/p/ppillot/OCDB2011_Align1", "alien://folder=/alice/cern.ch/user/j/jcastill/pp11wrk/CorG4Fresmx05y015_pp2pp");
548// muonResolution->ReAlign("alien://folder=/alice/cern.ch/user/p/ppillot/OCDB2011_Align1", "");
549// muonResolution->ReAlign("", "alien://folder=/alice/cern.ch/user/j/jcastill/pp12wrk/RAi00ab_p1_t1b_CDB");
550// muonResolution->ReAlign("", "alien://folder=/alice/cern.ch/user/j/jcastill/pp12wrk/RAi00ab_p1_t2b_CDB");
551// muonResolution->ReAlign("", "alien://folder=/alice/cern.ch/user/j/jcastill/pp12wrk/LHC12h_3ce");
552// muonResolution->ReAlign("", "alien://folder=/alice/cern.ch/user/j/jcastill/pp12wrk/LHC12h_4cf");
553// muonResolution->ReAlign("", "alien://folder=/alice/cern.ch/user/j/jcastill/pp12wrk/LHC12h_5cf");
554// muonResolution->ReAlign("", "alien://folder=/alice/cern.ch/user/j/jcastill/pp12wrk/LHC11Boffp2");
555// muonResolution->ReAlign("", "alien://folder=/alice/cern.ch/user/j/jcastill/pp12wrk/LHC12h_8dh");
556// muonResolution->ReAlign("", "alien://folder=/alice/cern.ch/user/h/hupereir/CDB/LHC12_ReAlign_0");
557// muonResolution->ReAlign("", "alien://folder=/alice/cern.ch/user/j/jcastill/pp12wrk/LHC12h_8di");
558// muonResolution->ReAlign("", "alien://folder=/alice/cern.ch/user/h/hupereir/CDB/LHC12_ReAlign_new_0");
559// muonResolution->ReAlign("alien://folder=/alice/cern.ch/user/p/ppillot/OCDB2012", "alien://folder=/alice/cern.ch/user/h/hupereir/CDB/LHC12_ReAlign_new_1");
560
561 muonResolution->SetAlignStorage("alien://folder=/alice/simulation/2008/v4-15-Release/Residual");
562
563 if (shiftHalfCh) {
564 muonResolution->SetHalfChShift(halfChShiftNB, halfChShiftB);
565 muonResolution->ShiftHalfCh();
566 muonResolution->PrintHalfChShift();
567 }
568 if (shiftDE) {
569 muonResolution->SetDEShift(deShiftNB, deShiftB);
570 muonResolution->ShiftDE();
571 muonResolution->PrintDEShift();
572 }
573// muonResolution->ImproveTracks(kTRUE);
574 AliMuonTrackCuts trackCuts("stdCuts", "stdCuts");
575 trackCuts.SetAllowDefaultParams();
576 trackCuts.SetIsMC();
577 trackCuts.SetFilterMask(AliMuonTrackCuts::kMuPdca);
578 muonResolution->SetMuonTrackCuts(trackCuts);
00612ffc 579
580 return muonResolution;
581
582}
583
584//______________________________________________________________________________
585Bool_t GetChamberResolution(Int_t iStep, Double_t clusterResNB[10], Double_t clusterResB[10], Double_t clusterResNBErr[10], Double_t clusterResBErr[10])
586{
587 /// read the chamber resolution from the output file
588
589 TFile* outFile = TFile::Open(Form("chamberResolution_step%d.root", iStep),"READ");
590
591 if (!outFile || !outFile->IsOpen()) {
592 Error("GetChamberResolution","output file does not exist!");
593 return kFALSE;
594 }
595
596 TObjArray* summary = static_cast<TObjArray*>(outFile->FindObjectAny("ChamberRes"));
597 TGraphErrors* gCombinedResidualXPerChSigma = (summary) ? static_cast<TGraphErrors*>(summary->FindObject("gCombinedResidualXPerChSigma")) : 0x0;
598 TGraphErrors* gCombinedResidualYPerChSigma = (summary) ? static_cast<TGraphErrors*>(summary->FindObject("gCombinedResidualYPerChSigma")) : 0x0;
599
600 if (!gCombinedResidualXPerChSigma || !gCombinedResidualYPerChSigma) {
601 Error("GetChamberResolution","resolution graphs do not exist!");
602 return kFALSE;
603 }
604
605 Double_t dummy;
606 for (Int_t i = 0; i < 10; i++) {
607 gCombinedResidualXPerChSigma->GetPoint(i, dummy, clusterResNB[i]);
608 gCombinedResidualYPerChSigma->GetPoint(i, dummy, clusterResB[i]);
609 clusterResNBErr[i] = gCombinedResidualXPerChSigma->GetErrorY(i);
610 clusterResBErr[i] = gCombinedResidualYPerChSigma->GetErrorY(i);
611 }
612
613 outFile->Close();
09233fcd 614 //delete outFile;
615
616 return kTRUE;
617}
618
619//______________________________________________________________________________
620Bool_t AddHalfChShift(Int_t iStep, Double_t halfChShiftNB[20], Double_t halfChShiftB[20], Double_t halfChShiftNBErr[20], Double_t halfChShiftBErr[20])
621{
622 /// read the chamber resolution from the output file
623
624 TFile* outFile = TFile::Open(Form("chamberResolution_step%d.root", iStep),"READ");
625
626 if (!outFile || !outFile->IsOpen()) {
627 Error("AddHalfChShift","output file does not exist!");
628 return kFALSE;
629 }
630
631 TObjArray* summary = static_cast<TObjArray*>(outFile->FindObjectAny("ChamberRes"));
632 TGraphErrors* gResidualXPerHalfChMean = (summary) ? static_cast<TGraphErrors*>(summary->FindObject("gResidualXPerHalfChMean_ClusterIn")) : 0x0;
633 TGraphErrors* gResidualYPerHalfChMean = (summary) ? static_cast<TGraphErrors*>(summary->FindObject("gResidualYPerHalfChMean_ClusterIn")) : 0x0;
634
635 if (!gResidualXPerHalfChMean || !gResidualYPerHalfChMean) {
636 Error("AddHalfChShift","half-chamber shift graphs do not exist!");
637 return kFALSE;
638 }
639
640 Double_t dummy, dx, dy;
641 for (Int_t i = 0; i < 20; i++) {
642 gResidualXPerHalfChMean->GetPoint(i, dummy, dx);
643 halfChShiftNB[i] += dx;
644 halfChShiftNBErr[i] = gResidualXPerHalfChMean->GetErrorY(i);
645 gResidualYPerHalfChMean->GetPoint(i, dummy, dy);
646 halfChShiftB[i] += dy;
647 halfChShiftBErr[i] = gResidualYPerHalfChMean->GetErrorY(i);
648 }
649
650 outFile->Close();
651 //delete outFile;
652
653 return kTRUE;
654}
655
656//______________________________________________________________________________
657Bool_t AddDEShift(Int_t iStep, Double_t deShiftNB[200], Double_t deShiftB[200])
658{
659 /// read the chamber resolution from the output file
660
661 TFile* outFile = TFile::Open(Form("chamberResolution_step%d.root", iStep),"READ");
662
663 if (!outFile || !outFile->IsOpen()) {
664 Error("AddDEShift","output file does not exist!");
665 return kFALSE;
666 }
667
668 TObjArray* summary = static_cast<TObjArray*>(outFile->FindObjectAny("ChamberRes"));
669 TGraphErrors* gResidualXPerDEMean = (summary) ? static_cast<TGraphErrors*>(summary->FindObject("gResidualXPerDEMean_ClusterIn")) : 0x0;
670 TGraphErrors* gResidualYPerDEMean = (summary) ? static_cast<TGraphErrors*>(summary->FindObject("gResidualYPerDEMean_ClusterIn")) : 0x0;
671
672 if (!gResidualXPerDEMean || !gResidualYPerDEMean) {
673 Error("AddDEShift","DE shift graphs do not exist!");
674 return kFALSE;
675 }
676
677 Double_t dummy, dx, dy;
678 nDE = gResidualXPerDEMean->GetN();
679 for (Int_t i = 0; i < nDE; i++) {
680 gResidualXPerDEMean->GetPoint(i, dummy, dx);
681 deShiftNB[i] += dx;
682 gResidualYPerDEMean->GetPoint(i, dummy, dy);
683 deShiftB[i] += dy;
684 }
685
686 outFile->Close();
687 //delete outFile;
00612ffc 688
689 return kTRUE;
690}
691
692//______________________________________________________________________________
693void AddMCHViews(TFile* file)
694{
695 /// Get from the file the graphs containing data per DE, convert them into mchview objects and save them
696
697 if ( ! AliMpDDLStore::Instance(false) )
698 {
699 Warning("AddMCHViews","mapping was not loaded. Loading it from $ALICE_ROOT/OCDB");
700 AliCDBManager::Instance()->SetDefaultStorage("local://$ALICE_ROOT/OCDB");
701 AliCDBManager::Instance()->SetRun(999999999);
702 }
703
704 AliMpCDB::LoadAll();
705
706 TObjArray* summary = static_cast<TObjArray*>(file->FindObjectAny("ChamberRes"));
707 if (!summary) {
708 Error("AddMCHViews","resolution graphs do not exist!");
709 return;
710 }
711
712 TGraphErrors* g = 0x0;
713 g = static_cast<TGraphErrors*>(summary->FindObject("gCombinedResidualXPerDESigma"));
714 if (g) {
715 file->cd();
09233fcd 716 AliMUONTrackerData* data = ConvertGraph(*g, "resoX");
717 data->Write();
718 delete data;
00612ffc 719 }
720
721 g = static_cast<TGraphErrors*>(summary->FindObject("gCombinedResidualYPerDESigma"));
722 if (g) {
723 file->cd();
09233fcd 724 AliMUONTrackerData* data = ConvertGraph(*g, "resoY");
725 data->Write();
726 delete data;
00612ffc 727 }
728
729 g = static_cast<TGraphErrors*>(summary->FindObject("gResidualXPerDEMean_ClusterOut"));
730 if (g) {
731 file->cd();
09233fcd 732 AliMUONTrackerData* data = ConvertGraph(*g, "shiftX");
733 data->Write();
734 delete data;
00612ffc 735 }
736
737 g = static_cast<TGraphErrors*>(summary->FindObject("gResidualYPerDEMean_ClusterOut"));
738 if (g) {
739 file->cd();
09233fcd 740 AliMUONTrackerData* data = ConvertGraph(*g, "shiftY");
741 data->Write();
742 delete data;
00612ffc 743 }
744}
745
746//______________________________________________________________________________
747AliMUONTrackerData* ConvertGraph(TGraphErrors& g, const char* name)
748{
749 /// Convert graph containing data per DE into mchview object
750
751 AliMUON2DMap deValues(kFALSE);
752
753 for ( Int_t i = 0 ; i < g.GetN(); ++i )
754 {
755 double y = g.GetY()[i];
756 double ey = g.GetEY()[i];
757 int detElemId;
758 sscanf(g.GetXaxis()->GetBinLabel(i+1),"%d",&detElemId);
759
760 AliMpDetElement* de = AliMpDDLStore::Instance()->GetDetElement(detElemId);
761
762 AliMUONVCalibParam* param = new AliMUONCalibParamND(5, 1, detElemId, 0);
763
764 Double_t sumn = 1000.0;
765 Double_t sumw = sumn*y;
766 Double_t sumw2 = (sumn-1)*ey*ey+sumw*sumw/sumn;
767
768 param->SetValueAsDouble(0,0,sumw);
769 param->SetValueAsDouble(0,1,sumw2);
770 param->SetValueAsDouble(0,2,sumn);
771 param->SetValueAsDouble(0,3,de->NofChannels());
772 param->SetValueAsDouble(0,4,1);
773
774 deValues.Add(param);
775 }
776
777 AliMUONTrackerData* data = new AliMUONTrackerData(name,name,deValues,1);
778 data->SetDimensionName(0,name);
779
780 return data;
781}
782
783//______________________________________________________________________________
784Int_t GetMode(TString smode, TString input)
785{
786 if (smode == "local") {
787 if ( input.EndsWith(".xml") ) return kInteractif_xml;
788 else if ( input.EndsWith(".txt") ) return kInteractif_ESDList;
789 else if ( input.EndsWith(".root") ) return kLocal;
4060971a 790 } else if (smode == "caf" || smode == "saf") return kProof;
00612ffc 791 return -1;
792}
793
794//______________________________________________________________________________
795TChain* CreateChainFromCollection(const char *xmlfile)
796{
797 // Create a chain from the collection of tags.
798 if (!TGrid::Connect("alien://")) return NULL;
799
800 TGridCollection* coll = TAlienCollection::Open(xmlfile);
801 if (!coll) {
802 Error("CreateChainFromCollection", "Cannot create the AliEn collection");
803 return NULL;
804 }
805
806 TGridResult* tagResult = coll->GetGridResult("",kFALSE,kFALSE);
807 AliTagAnalysis *tagAna = new AliTagAnalysis("ESD");
808 tagAna->ChainGridTags(tagResult);
809
810 AliRunTagCuts *runCuts = new AliRunTagCuts();
811 AliLHCTagCuts *lhcCuts = new AliLHCTagCuts();
812 AliDetectorTagCuts *detCuts = new AliDetectorTagCuts();
813 AliEventTagCuts *evCuts = new AliEventTagCuts();
814
815 // Check if the cuts configuration file was provided
816 if (!gSystem->AccessPathName("ConfigureCuts.C"))
817 gROOT->ProcessLine(Form(".x ConfigureCuts.C((AliRunTagCuts*)%p, (AliLHCTagCuts*)%p, (AliDetectorTagCuts*)%p,"
818 " (AliEventTagCuts*)%p)", runCuts, lhcCuts, detCuts, evCuts));
819
820 TChain *chain = tagAna->QueryTags(runCuts, lhcCuts, detCuts, evCuts);
821 if (!chain || !chain->GetNtrees()) return NULL;
822 chain->ls();
823 return chain;
824}
825
826//______________________________________________________________________________
827TChain* CreateChainFromFile(const char *rootfile)
828{
829 // Create a chain using the root file.
830 TChain* chain = new TChain("esdTree");
831 chain->Add(rootfile);
832 if (!chain->GetNtrees()) return NULL;
833 chain->ls();
834 return chain;
835}
836
837//______________________________________________________________________________
838TChain* CreateChainFromESDList(const char *esdList)
839{
840 // Create a chain using tags from the run list.
841 TChain* chain = new TChain("esdTree");
842 ifstream inFile(esdList);
843 TString inFileName;
844 if (inFile.is_open()) {
845 while (! inFile.eof() ) {
846 inFileName.ReadLine(inFile,kFALSE);
847 if(!inFileName.EndsWith(".root")) continue;
848 chain->Add(inFileName.Data());
849 }
850 }
851 inFile.close();
852 if (!chain->GetNtrees()) return NULL;
853 chain->ls();
854 return chain;
855}
856
857//______________________________________________________________________________
858TChain* CreateChain(Int_t mode, TString input)
859{
860 printf("*******************************\n");
861 printf("*** Getting the Chain ***\n");
862 printf("*******************************\n");
863 if(mode == kInteractif_xml) return CreateChainFromCollection(input.Data());
864 else if (mode == kInteractif_ESDList) return CreateChainFromESDList(input.Data());
865 else if (mode == kLocal) return CreateChainFromFile(input.Data());
866 else return NULL;
867}
868