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HIPplots.cc
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1 #include "TROOT.h"
2 #include "TAttFill.h"
3 #include "TColor.h"
4 #include "HIPplots.h"
5 #include <string>
6 #include <sstream>
7 #include <cmath>
8 
9 #include "TProfile.h"
10 #include "TPaveStats.h"
11 #include "TList.h"
12 #include "TNtuple.h"
13 #include "TString.h"
14 #include "TTree.h"
15 
16 #include "TMatrixD.h"
17 #include "TVectorD.h"
18 #include "TLegend.h"
19 
20 HIPplots::HIPplots(int IOV, char* path, char* outFile ){
21 
22  sprintf( _path, path );
23  sprintf( _outFile, outFile );
24  sprintf( _inFile_params, "%s/IOAlignmentParameters.root", _path ); //Id (raw id), ObjId, Par (alignable movements), CovariantMatrix
25  sprintf( _inFile_uservars, "%s/IOUserVariables.root", _path ); //Id,ObjId,Nhit,Jtvj,Jtve,AlignableChi2,AlignableNdof
26  sprintf( _inFile_truepos, "%s/IOTruePositions.root", _path ); //redundant
27  sprintf( _inFile_alipos, "%s/IOAlignedPositions_%d.root", _path,IOV ); //aligned absolute positions
28 // sprintf( _inFile_alipos, "%s/IOAlignedPositions_262922.root", _path ); //aligned absolute positions
29 // sprintf( _inFile_alipos, "%s/IOAlignedPositions_272497.root", _path ); //aligned absolute positions
30  sprintf( _inFile_mispos, "%s/IOMisalignedPositions.root", _path );
31  sprintf( _inFile_HIPalign, "%s/HIPAlignmentAlignables.root", _path );
32  sprintf( _inFile_surveys, "%s/HIPSurveyResiduals.root", _path );
33  SetPeakThreshold(8.0);
34  plotbadchi2=true;
35 }
36 
37 
38 TLegend * HIPplots::MakeLegend (double x1,
39  double y1,
40  double x2,
41  double y2)
42 {
43  TLegend * legend = new TLegend (x1, y1, x2, y2, "", "NBNDC");
44  legend->SetNColumns(6);
45  legend->SetFillColor(0);
46  legend->SetBorderSize(0);
47  int COLOR_CODE[6]={28,2,3,4,6,7};
48 
49  TString detNames[6];
50  detNames[0] = TString("PXB");
51  detNames[1] = TString("PXF");
52  detNames[2] = TString("TIB");
53  detNames[3] = TString("TID");
54  detNames[4] = TString("TOB");
55  detNames[5] = TString("TEC");
56 
57  for (unsigned int isublevel = 0 ; isublevel < 6 ; isublevel++)
58  {
59  TGraph * g = new TGraph (0);
60  g->SetLineColor(COLOR_CODE[isublevel]);
61  g->SetMarkerColor(COLOR_CODE[isublevel]);
62  g->SetFillColor(COLOR_CODE[isublevel]);
63  g->SetFillColor(1);
64  g->SetMarkerStyle(8);
65  g->SetMarkerSize(1);
66  legend->AddEntry(g,detNames[isublevel], "lp");
67  }
68  return legend;
69 }
70 
71 
72 void HIPplots::extractAlignParams(int currentPar, int minHits, int subDet, int doubleSided ){
73 
74  cout<<"--- extracting AlignParams ; Par "<<currentPar<<" ---"<<endl<<endl; //0-5: u,v,w,alpha,beta,gamma
75  //void ExtractAlignPars(int pp, string SubDetString){
76  // const int par_now=pp;
77  //load first tree
78 
79 // TFile *fp = new TFile( _inFile_params,"READ");
80 // const TList* keysp = fp->GetListOfKeys();
81 // const unsigned int maxIteration = keysp->GetSize() - 1;
82  cout<<"Loaded par file -. OK"<<endl;
83  TFile *fv = new TFile( _inFile_uservars,"READ");
84  const TList* keysv = fv->GetListOfKeys();
85  const unsigned int maxIteration = keysv->GetSize() - 1;
86 
87  char fileaction[16];
88  if(CheckFileExistence(_outFile))sprintf(fileaction,"UPDATE");
89  else sprintf(fileaction,"NEW");
90 
91  TFile *fout = new TFile( _outFile, fileaction);
92 
93  TTree* tree0 = (TTree*) fv->Get(keysv->At(0)->GetName() );
94  //const char* tree0v_Name = keysv->At(0)->GetName();
95  //tree0->AddFriend( tree0v_Name, fv );
96 
97  int nHit;
98  unsigned int detId;
99  double par[6];
100  unsigned int detId0;
101 
102  tree0->SetBranchAddress("Id", &detId0 );
103 
104  const int ndets=tree0->GetEntries();
105  TH1D *hpar1[ndets];
106  char ppdirname[16];
107  sprintf(ppdirname,"ShiftsPar%d", currentPar);
108  fout->mkdir(ppdirname);
109  gDirectory->cd(ppdirname);
110  // delare histos
111 
112 
113  TH1D *hpariter[maxIteration];
114  for(unsigned int a = 0; a < maxIteration; a++){
115  char histoname[32],histotitle[32];
116  sprintf(histoname,"Par_%d_Iter_%d",currentPar,a);
117  sprintf(histotitle,"Par %d for iteration #%d",currentPar,a);
118  hpariter[a]=new TH1D(histoname,histoname,1000,-1.0,1.0);
119  }
120 
121  for(int i = 0; i < ndets; i++){
122  char histoname[32],histotitle[32];
123  sprintf(histoname,"Par_%d_SiDet_%d",currentPar,i);
124  sprintf(histotitle,"Par %d for detector #%d",currentPar,i);
125  hpar1[i]=new TH1D(histoname,histoname,maxIteration+1,-0.5,maxIteration+0.5);
126  }
127 
128  //file where to save aligned det id list
129  ofstream flist("./List_aligned_dets.txt",ios::out);
130 
131 
132  //Loop on trees
133  int modules_accepted = 0;
134  for(unsigned int iter = 0; iter <= maxIteration; iter++){//loop on i (HIP iterations -> trees in file)
135 
136 // TTree* tmpTree = (TTree*) fp->Get(keysp->At(iter)->GetName() );
137 // const char* tmpTreev = keysv->At(iter)->GetName();
138  TTree* tmpTree = (TTree*) fv->Get(keysv->At(iter)->GetName() );
139 // tmpTree->AddFriend( tmpTreev, fv ); // get access to both IOAlignmentParameters and IOUserVariables
140  tmpTree->SetBranchAddress("Id", &detId );
141  tmpTree->SetBranchAddress("Nhit", &nHit ); // taken from IOUserVariables
142  tmpTree->SetBranchAddress("Par", &par ); // taken from IOAlignmentParameters
143 
144  std::cout << "iteration: " << iter << "..." << std::endl;
145 
146  modules_accepted=0;
147  //loop on entries
148  for(int j = 0; j < tmpTree->GetEntries(); j++){ //loop on j (modules -> entries in each tree)
149 
150  tmpTree->GetEntry(j);
151  bool passSubdetCut = true;
152  if (subDet > 0){ if ( GetSubDet(detId) != subDet ) passSubdetCut = false; } // find the subDet from module detId
153  if (doubleSided > 0){
154  if ( GetSubDet(detId)%2 == 1 && doubleSided == 1 && GetBarrelLayer(detId) < 3 ) passSubdetCut = false;
155  if ( GetSubDet(detId)%2 == 1 && doubleSided == 2 && GetBarrelLayer(detId) > 2 ) passSubdetCut = false;
156  }
157 
158  if (( nHit >= minHits )&&( passSubdetCut )){ //cut on min nhits per module
159  hpar1[j]->SetBinContent(iter+1,par[currentPar]); //x-iteration, y-movement in this iteration
160  //std::cout << "iteration: " << iter << ",par"<<currentPar<<"= "<<par[currentPar] << std::endl;
161 
162  int COLOR_CODE[6]={28,2,3,4,6,7};
163  hpar1[j]->SetLineColor(COLOR_CODE[GetSubDet(detId)-1]);
164  hpar1[j]->SetMarkerColor(COLOR_CODE[GetSubDet(detId)-1]);
165 
166  // hpariter[iter]->Fill(par[currentPar]);
167  //if(currentPar<3&&par[currentPar]>0.5)cout<<"LARGE PARCHANGE from DET "<<detId<<" in subdet "<< subDet<<". Par#"<<currentPar<<" shifted by "<<par[currentPar]<<" at iter "<<iter<<endl;
168 
169  if((iter==maxIteration-1)&&(currentPar==0))flist<<detId<<endl;
170  modules_accepted++;
171 
172  }
173  }//end loop on entries (i.e. modules)
174  delete tmpTree;
175  }//end loop on iteration
176  std::cout << "Modules accepted: " << modules_accepted << std::endl;
177  std::cout << "Writing..." << std::endl;
178  //Save
179  fout->Write();
180  flist.close();
181  // delete hpar1;
182  std::cout << "Deleting..." << std::endl;
183  delete fout;
184  // std::cout << "Deleting..." << std::endl;
185 // delete fp;
186  //std::cout << "Deleting..." << std::endl;
187  delete fv;
188 }
189 
190 void HIPplots::extractAlignShifts( int currentPar, int minHits, int subDet ){
191 
192  cout<<"\n--- extracting AlignShifts ; Par "<<currentPar<<" ---"<<endl<<endl;
193  TFile *fa = new TFile( _inFile_alipos,"READ");
194  const TList* keysa = fa->GetListOfKeys();
195  const unsigned int maxIteration = keysa->GetSize();
196 
197  TFile *fv = new TFile( _inFile_uservars,"READ");
198  const TList* keysv = fv->GetListOfKeys();
199 
200 // TFile *fm = new TFile( _inFile_mispos,"READ");
201 // TFile *ft = new TFile( _inFile_truepos,"READ");
202 
203  char fileaction[16];
204  if(CheckFileExistence(_outFile))sprintf(fileaction,"UPDATE");
205  else sprintf(fileaction,"NEW");
206  TFile *fout = new TFile( _outFile, fileaction);
207 
208  TTree* tree0 = (TTree*) fa->Get(keysa->At(0)->GetName() );
209  const char* tree0v_Name = keysv->At(0)->GetName();
210  tree0->AddFriend( tree0v_Name, fv ); //get access to both IOAlignedPositions and IOUserVariables
211 
212  unsigned int detId0;
213 
214  tree0->SetBranchAddress("Id", &detId0 );
215 
216  const int ndets=tree0->GetEntries();
217  TH1D *hshift[ndets]; //hshift[i] absolute position change for det i, at all iterations
218 // TH1D *hiter_mis[maxIteration]; //hiter_mis[i] misalignment position change at iteration i (defualt case : misalignment=0)
219  TH1D *hiter_ali[maxIteration]; //hiter_ali[i] absolute position change at iteration i, for all detectors
220  char ppdirname[16];
221  sprintf(ppdirname,"Shifts%d", currentPar);
222  fout->mkdir(ppdirname);
223  gDirectory->cd(ppdirname);
224  // delare histos
225  for(unsigned int a = 0; a < maxIteration; a++){
226  char histoname[64],histotitle[64];
227 // sprintf(histoname,"MisalignedShift_%d_Iter_%d",currentPar,a);
228 // sprintf(histotitle,"Misaligned Shift %d for iteration #%d",currentPar,a);
229 // hiter_mis[a]=new TH1D(histoname,histoname,1000,-1.0,1.0);
230  sprintf(histoname,"AlignedShift_%d_Iter_%d",currentPar,a);
231  sprintf(histotitle,"Aligned Shift %d for iteration #%d",currentPar,a);
232  hiter_ali[a]=new TH1D(histoname,histoname,ndets,0,ndets);
233  }
234  for(int i = 0; i < ndets; i++){
235  char histoname[64],histotitle[64];
236  sprintf(histoname,"Shift_%d_SiDet_%d",currentPar,i);
237  sprintf(histotitle,"Shift %d for detector #%d",currentPar,i);
238  hshift[i]=new TH1D(histoname,histoname,maxIteration,-0.5,maxIteration-0.5);
239  }
240 
241  //Loop on trees
242  int modules_accepted = 0;
243  int nHit;
244  unsigned int detId;
245  double tpos[3];
246  double apos[3];
247 // double mpos[3];
248  double trot[9];
249  double arot[9];
250 // double mrot[9];
251  double aerr[6];
252 
253  TString detNames[6];
254  detNames[0] = TString("PXB");
255  detNames[1] = TString("PXF");
256  detNames[2] = TString("TIB");
257  detNames[3] = TString("TID");
258  detNames[4] = TString("TOB");
259  detNames[5] = TString("TEC");
260 
261 
262 // TTree* tmpTree_m = (TTree*)fm->Get("AlignablesAbsPos_1"); //misaligned position
263 // TTree* tmpTree_true = (TTree*)ft->Get("AlignablesOrgPos_1");
264  TTree* tmpTree_true = (TTree*)fa->Get("AlignablesAbsPos_0"); //starting position
265 
266  if (currentPar < 3){
267 // tmpTree_m->SetBranchAddress("Pos", &mpos );
268  tmpTree_true->SetBranchAddress("Pos", &tpos );
269  }
270  if (currentPar >= 3 ){
271 // tmpTree_m->SetBranchAddress("Rot", &mrot );
272  tmpTree_true->SetBranchAddress("Rot", &trot );
273  }
274 
275  for(unsigned int iter = 1; iter < maxIteration; iter++){//loop on i (HIP iterations -> trees in file)
276 
277  TTree* tmpTree = (TTree*) fa->Get(keysa->At(iter)->GetName() );
278  const char* tmpTreev = keysv->At(iter)->GetName();
279  tmpTree->AddFriend( tmpTreev, fv );
280  tmpTree->SetBranchAddress("Id", &detId );
281  tmpTree->SetBranchAddress("Nhit", &nHit );
282  tmpTree->SetBranchAddress("ParError", &aerr );
283 
284  if (currentPar < 3){ tmpTree->SetBranchAddress("Pos", &apos ); }
285  tmpTree->SetBranchAddress("Rot", &arot );
286 
287  //std::cout << "iteration: " << iter << "..." << std::endl;
288  modules_accepted=0;
289  //loop on entries
290  for(int j = 0; j < tmpTree->GetEntries(); j++){ //loop on j (modules -> entries in each tree)
291  tmpTree_true->GetEntry(j);
292  tmpTree->GetEntry(j);
293  //cout<<"det"<<j<<","<<detId<<","<<nHit<<endl;
294 // tmpTree_m->GetEntry(j);
295 // tmpTree_true->GetEntry(j);
296 
297 
298  bool passSubdetCut = true;
299  int mysubDet=GetSubDet(detId);
300  if (subDet > 0){ if ( GetSubDet(detId) != subDet ) passSubdetCut = false; }
301 
302  int COLOR_CODE[6]={28,2,3,4,6,7};
303  hshift[j]->SetLineColor(COLOR_CODE[GetSubDet(detId)-1]);
304  hshift[j]->SetMarkerColor(COLOR_CODE[GetSubDet(detId)-1]);
305 
306  if (( nHit >= minHits )&&( passSubdetCut )){
307  // maths
308  if (currentPar < 3){
309 // TVectorD dr_mis(3, mpos);
310  TVectorD dr_ali(3, apos);
311  TVectorD r_true(3, tpos);
312  TMatrixD R_true(3, 3, trot);
313  //std::cout << "dr_ali 00 : " << dr_ali[currentPar] << std::endl;
314 // dr_mis -= r_true;
315  dr_ali -= r_true;
316  //std::cout << "dr_ali 0 : " << dr_ali[currentPar] << std::endl;
317  // to local
318  //if (dr_mis != 0.) dr_mis = R_true * dr_mis;
319  //if (dr_ali != 0.) dr_ali = R_true * dr_ali;
320  //std::cout << "currentPar: " << currentPar << std::endl;
321  //std::cout << "dr_mis: " << dr_mis[currentPar] << std::endl;
322  //std::cout << "dr_ali: " << dr_ali[currentPar] << std::endl;
323  // if(currentPar<3&&dr_ali[currentPar]>1.0)cout<<"LARGE SHIFT for DET "<<detId<<" in subdet "<< mysubDet<<". Par#"<<currentPar<<" shifted by "<<dr_ali[currentPar]<<" at iter "<<iter<<endl;
324  hshift[j]->SetBinContent(iter+1,dr_ali[currentPar]); //aligned position - start position
325 // hiter_mis[iter]->SetBinContent(j+1,dr_mis[currentPar]);
326  //if(j=0&&currentPar==5) std::cout << "iter="<<iter<<",dr_ali: " << dr_ali[currentPar] << std::endl;
327 // cout << "iter="<<iter<<"dr_ali: " << dr_ali[currentPar] << endl;
328  hiter_ali[iter]->SetBinContent(j+1,dr_ali[currentPar]);
329 // cout << "bin: " <<hiter_ali[iter]->GetBinContent(j+1)<<endl;
330 // hiter_ali[iter]->SetBinError(j+1,5);
331  }
332  if (currentPar >= 3){
333 // TMatrixD dR_mis(3, 3, mrot);
334  TMatrixD dR_ali(3, 3, arot);
335  TMatrixD R_true(3, 3, trot);
336 // dR_mis = dR_mis * TMatrixD(TMatrixD::kTransposed, R_true);
337  dR_ali = dR_ali * TMatrixD(TMatrixD::kTransposed, R_true);
338  //-std::atan2(dR(2, 1), dR(2, 2)), std::asin(dR(2, 0)), -std::atan2(dR(1, 0), dR(0, 0)));
339 // double dR_mis_euler = 0;
340  double dR_ali_euler = 0;
341  if (currentPar == 3 ){
342 // dR_mis_euler = -std::atan2(dR_mis(2, 1), dR_mis(2, 2));
343  dR_ali_euler = -std::atan2(dR_ali(2, 1), dR_ali(2, 2));
344  }
345  if (currentPar == 4 ){
346 // dR_mis_euler = -std::asin(dR_mis(2, 0));
347  dR_ali_euler = -std::asin(dR_ali(2, 0));
348  }
349  if (currentPar == 5 ){
350 // dR_mis_euler = -std::atan2(dR_mis(1, 0), dR_mis(0, 0));
351  dR_ali_euler = -std::atan2(dR_ali(1, 0), dR_ali(0, 0));
352  }
353  hshift[j]->SetBinContent(iter+1,dR_ali_euler);
354 // hiter_mis[iter]->SetBinContent(j+1,dR_mis_euler);
355  hiter_ali[iter]->SetBinContent(j+1,dR_ali_euler);
356  }
357  modules_accepted++;
358  hiter_ali[iter]->GetXaxis()->SetBinLabel(j+1,detNames[GetSubDet(detId)-1]);
359  hiter_ali[iter]->SetBinError(j+1,aerr[currentPar]);
360  //hiter_ali[iter]->SetBinError(j+1,0.001);
361  hiter_ali[iter]->LabelsOption("u","x");
362  }
363  }
364 // delete tmpTree;
365  }
366  delete tmpTree_true;
367 
368  std::cout <<"Modules accepted: " << modules_accepted << std::endl;
369  std::cout << "Writing..." << std::endl;
370  //Save
371  fout->Write();
372  // delete hpar1;
373  std::cout << "Deleting..." << std::flush;
374  delete fout;
375  std::cout << "Deleting..." << std::flush;
376  delete fa;
377 // delete ft;
378 // delete fm;
379  std::cout << "Deleting..." << std::endl;
380  delete fv;
381 
382 
383 }
384 
385 void HIPplots::plotAlignParams(string ShiftsOrParams, char* plotName){
386 
387 
388  cout<<"_|_| plotting AlignParams |_|_"<<endl<<"---> "<<ShiftsOrParams <<endl;
389  bool bParams = false;
390  bool bShifts = false;
391  if (ShiftsOrParams == "PARAMS") bParams = true;
392  if (ShiftsOrParams == "SHIFTS") bShifts = true;
393 
394  int i = 0;
395 
396  TFile *f = new TFile( _outFile,"READ" );
397  // f->ls();
398 
399  TCanvas *c_params = new TCanvas("can_params","CAN_PARAMS",1200,900);
400  c_params->Divide(3,2);
401  // cout<<"(1) I am in "<<gDirectory->GetPath()<<endl;
402  TDirectory* d;
403  int ndets = 0;
404  if (bParams){
405  d = (TDirectory*)f->Get("ShiftsPar0");
406  ndets = GetNIterations(d,"Par_0_SiDet_");
407  // std::cout << "INHERE!" << std::endl;
408  }
409  if (bShifts){
410  d = (TDirectory*)f->Get("Shifts0");
411  ndets = GetNIterations(d,"Shift_0_SiDet_");
412  // std::cout << "INHERE!" << std::endl;
413  }
414 
415  for(int iPar = 0; iPar < 6; iPar++){
416 
417  c_params->cd( iPar+1 );
418  gPad->SetTopMargin(0.15);
419  gPad->SetBottomMargin(0.15);
420  char ppdirname[32];
421  if (bParams) sprintf( ppdirname,"ShiftsPar%d", iPar );
422  if (bShifts) sprintf( ppdirname,"Shifts%d", iPar );
423  if(iPar > 0)gDirectory->cd("../");
424  gDirectory->cd(ppdirname);
425  // cout<<"(2) I am in "<<gDirectory->GetPath()<<endl;
426 
427  TH1D *hpar1[ndets];
428  char histoname[16];
429  int sampling_ratio=1;
430  int ndets_plotted=(int)ndets/sampling_ratio;
431  cout<<"Plotting "<<ndets_plotted<<" detectors over a total of "<<ndets<<endl;
432  i=0;
433  double histomax, histomin;
434  if(iPar>=3){ // alpha, beta, gamma
435  histomax=0.5;// in mrad
436  histomin=-0.5;
437  }
438  else if (iPar>=2) { // w
439  if(bShifts){
440  histomax=200.0;//in microns
441  histomin=-200.0;
442  }
443  else{
444  histomax=100.0;//in microns
445  histomin=-100.0;
446  }
447  }
448  else { // u, v
449  if(bShifts){
450  histomax=200.0;//in microns
451  histomin=-200.0;
452  }
453  else{
454  histomax=100.0;//in microns
455  histomin=-100.0;
456  }
457  }
458  while((i<ndets_plotted) && (i*sampling_ratio<ndets) ){
459  if (bParams) sprintf(histoname,"Par_%d_SiDet_%d",iPar,i*sampling_ratio);
460  if (bShifts) sprintf(histoname,"Shift_%d_SiDet_%d",iPar,i*sampling_ratio);
461  hpar1[i]=(TH1D*)gDirectory->Get(histoname);
462 
463  if(iPar>=3)hpar1[i]->Scale(1000.0); //convert from rad to mrad
464  else hpar1[i]->Scale(10000.0); //convert from cm to um
465 
466  hpar1[i]->SetMarkerStyle(7);
467  hpar1[i]->SetStats(0);
468 
469  double tmpmax=hpar1[i]->GetBinContent(hpar1[i]->GetMaximumBin());
470  double tmpmin=hpar1[i]->GetBinContent(hpar1[i]->GetMinimumBin());
471 
472  //Auto-adjust axis range
473  if(tmpmax>histomax)histomax=tmpmax*1.2;
474  if(tmpmin<histomin)histomin=tmpmin*1.2;
475 
476  //if(i%1300==0)cout<<"Actual maximum is "<<histomax<<" Actual minimum is "<<histomin<<endl;
477  if(i==0){
478 
479  hpar1[i]->SetXTitle("Iteration");
480 
481  if (bParams){
482  if(iPar==0)hpar1[i]->SetYTitle("#delta u param (#mum)");
483  else if(iPar==1)hpar1[i]->SetYTitle("#delta v param (#mum)");
484  else if(iPar==2)hpar1[i]->SetYTitle("#delta w param (#mum)");
485  else if(iPar==3)hpar1[i]->SetYTitle("#delta #alpha param (mrad)");
486  else if(iPar==4)hpar1[i]->SetYTitle("#delta #beta param (mrad)");
487  else if(iPar==5)hpar1[i]->SetYTitle("#delta #gamma param (mrad)");
488  else hpar1[i]->SetYTitle("dunno");}
489  else if (bShifts){
490  if(iPar==0)hpar1[i]->SetYTitle("#delta u shift (#mum)");
491  else if(iPar==1)hpar1[i]->SetYTitle("#delta v shift (#mum)");
492  else if(iPar==2)hpar1[i]->SetYTitle("#delta w shift (#mum)");
493  else if(iPar==3)hpar1[i]->SetYTitle("#delta #alpha shift (mrad)");
494  else if(iPar==4)hpar1[i]->SetYTitle("#delta #beta shift (mrad)");
495  else if(iPar==5)hpar1[i]->SetYTitle("#delta #gamma shift (mrad)");
496  else hpar1[i]->SetYTitle("dunno");}
497 
498  hpar1[i]->GetYaxis()->SetTitleOffset(1.5);
499  // hpar1[i]->SetTitle("Par1: x shift");
500  hpar1[i]->SetTitle("");
501  hpar1[i]->SetMaximum(histomax);
502  hpar1[i]->SetMinimum(histomin);
503  hpar1[i]->Draw("PL");
504  }
505 
506  else hpar1[i]->Draw("PLsame");
507  i++;
508  }//end loop on NDets
509  hpar1[0]->SetMaximum(histomax);
510  hpar1[0]->SetMinimum(histomin);
511  //hpar1[0]->SetLineColor(1);
512  cout<<"Plotted "<<i<<" aligned detectors"<<endl;
513  }//end loop on pars
514  c_params->cd();
515  TLegend * legend = MakeLegend(.1,.93,.9,.98);
516  legend->Draw();
517  c_params->SaveAs(plotName);
518  std::cout << "Deleting..." << std::flush;
519  delete c_params;
520  std::cout << "Deleting..." << std::flush;
521  //delete f;
522  std::cout << "Deleting..." << std::endl;
523 
524 }//end PlotAlignPars
525 
526 
527 
528 void HIPplots::plotAlignParamsAtIter( int iter, string ShiftsOrParams, char* plotName ){
529 
530  cout<<"Welcome to HIPplots::plotAlignParamsAtIter "<<iter<<endl;
531  bool bParams = false;
532  bool bShifts = false;
533  if (ShiftsOrParams == "PARAMS") bParams = true;
534  else if (ShiftsOrParams == "SHIFTS") bShifts = true;
535  else {cout<<"ERROR in plotAliParamsAtIter!!! Wrong input argument: "<<ShiftsOrParams<<" . Exiting"<<endl; return;}
536 
537  int i = 0;
538  TFile *f = new TFile( _outFile,"READ" );
539  //f->ls();
540 
541  TCanvas *c_params = new TCanvas("can_params","CAN_PARAMS",1200,700);
542  c_params->Divide(3,2);
543  //cout<<"(1) I am in "<<gDirectory->GetPath()<<endl;
544 
545  //TDirectory *d = (TDirectory*)f->Get("ShiftsPar0");
546  //const int ndets = GetNIterations(d,"Par_0_SiDet_");
547 
548  for(int iPar = 0; iPar < 6; iPar++){
549 
550  c_params->cd( iPar+1 );
551 
552  gPad->SetTopMargin(0.15);
553  gPad->SetBottomMargin(0.15);
554  char ppdirname[32];
555  if (bParams) sprintf( ppdirname,"ShiftsPar%d", iPar );
556  if (bShifts) sprintf( ppdirname,"Shifts%d", iPar );
557  if(iPar > 0)gDirectory->cd("../");
558  gDirectory->cd(ppdirname);
559  //cout<<"(2) I am in "<<gDirectory->GetPath()<<endl;
560 
561  TH1D *hiter;
562  char histoname[16];
563  if (bParams) sprintf( histoname, "Par_%d_Iter_%d", iPar, iter );
564  if (bShifts) sprintf( histoname, "AlignedShift_%d_Iter_%d", iPar, iter );
565  hiter = (TH1D*) gDirectory->Get(histoname);
566 
567 
568  //hiter->SetMarkerStyle(1);
569  hiter->SetStats(1);
570 
571  hiter->SetXTitle("Sub-Det");
572  if(iPar==0)hiter->SetYTitle("#delta u (#mum)");
573  else if(iPar==1)hiter->SetYTitle("#delta v (#mum)");
574  else if(iPar==2)hiter->SetYTitle("#delta w (#mum)");
575  else if(iPar==3)hiter->SetYTitle("#delta #alpha (#murad)");
576  else if(iPar==4)hiter->SetYTitle("#delta #beta (#murad)");
577  else if(iPar==5)hiter->SetYTitle("#delta #gamma (#murad)");
578  else hiter->SetXTitle("dunno");
579  hiter->GetYaxis()->SetTitleOffset(1.5);
580 
581  double histomax,histomin;
582  if(iPar==2||iPar==5) {histomax=200; histomin=-200;}
583  else {histomax=100; histomin=-100;}
584 
585  if(iPar>=3)hiter->Scale(1000000.0); //convert from rad to micro rad
586  else hiter->Scale(10000.0); //convert from cm to um
587  double tmpmax=hiter->GetBinContent(hiter->GetMaximumBin());
588  double tmpmin=hiter->GetBinContent(hiter->GetMinimumBin());
589  if(tmpmax>histomax)histomax=tmpmax*1.2;
590  if(tmpmin<histomin)histomin=tmpmin*1.2;
591  hiter->SetMaximum(histomax);
592  hiter->SetMinimum(histomin);
593  //hiter->SetAxisRange(0, 6, "X");
594  hiter->SetLineColor(1);
595  TColor *col = gROOT->GetColor(kCyan+1);
596  col->SetAlpha(0.3);
597  hiter->SetFillColor(col->GetNumber());
598 // hiter->SetFillColor(kCyan);
599  hiter->SetMarkerStyle(7);
600  hiter->Draw();
601  hiter->Draw("PE1");
602 /*
603  if (bShifts) {
604  TH1D *hiter2;
605  char histoname2[16];
606  sprintf( histoname2, "MisalignedShift_%d_Iter_%d", iPar, iter );
607  hiter2 = (TH1D*) gDirectory->Get(histoname2);
608  hiter2->SetLineColor(1);
609  hiter2->SetFillColor(kRed-9);
610  hiter2->Draw("SAME");
611  }
612 
613 */
614 // cout<<"Plotted "<<i<<" aligned detectors"<<endl;
615  }//end loop on pars
616  c_params->SaveAs(plotName);
617  delete c_params;
618  std::cout << "Deleting..." << std::endl;
619  delete f;
620 
621 }//end PlotAlignParamsAtIter
622 
623 
624 
625 void HIPplots::extractAlignableChiSquare( int minHits, int subDet, int doubleSided){
626 
627  //TFile *fp = new TFile( _inFile_params,"READ");
628  // const TList* keysp = fp->GetListOfKeys();
629  // const unsigned int maxIteration = keysp->GetSize();
630  cout<<"\n--- Welcome to extractAlignableChiSquare ---"<<endl;
631  cout<<"\nInput parameters:\n\tMinimum number of hits per alignbale = "<<minHits<<"\n\tSubdetetctor selection"<<subDet<<endl;
632 
633  if(minHits<1){
634  cout<<"Warning ! Allowing to select modules with NO hits. Chi2 not defined for them. Setting automatically minNhits=1 !!!"<<endl;
635  minHits=1;
636  }
637 
638  TFile *fv = new TFile( _inFile_uservars,"READ");
639  const TList* keysv = fv->GetListOfKeys();
640  const unsigned int maxIteration = keysv->GetSize() - 1;
641  cout<<"MaxIteration is "<<maxIteration <<endl;
642 
643  char fileaction[16];
644  if(CheckFileExistence(_outFile))sprintf(fileaction,"UPDATE");
645  else sprintf(fileaction,"NEW");
646  TFile *fout = new TFile( _outFile, fileaction);
647 
648  TTree* tree0 = (TTree*) fv->Get(keysv->At(0)->GetName() );
649  unsigned int detId0;
650  tree0->SetBranchAddress("Id", &detId0 );
651  const int ndets=tree0->GetEntries();
652  TH1D *halichi2n[ndets];//norm chi2 for each module as a function of iteration
653  TH1D *htotchi2n[maxIteration];//distrib of norm chi2 for all modules at a given iteration
654  TH1D *hprobdist[maxIteration];
655  char ppdirname[16];
656  sprintf(ppdirname,"AlignablesChi2n");
657  fout->mkdir(ppdirname);
658  gDirectory->cd(ppdirname);
659 
660  for(int iter = 1; iter <=(int)maxIteration ; iter++){
661  char histoname[64],histotitle[128];
662  sprintf(histoname,"Chi2n_iter%d",iter);
663  sprintf(histotitle,"Distribution of Normalised #chi^{2} for All alignables at iter %d",iter);
664  htotchi2n[iter-1]=new TH1D(histoname,histotitle,1000,0.0,10.0);
665  sprintf(histoname,"ProbChi2_%d",iter);
666  sprintf(histotitle,"Distribution of Prob(#chi^{2},ndof) at iter %d",iter);
667  hprobdist[iter-1]=new TH1D(histoname,histotitle,100,0.0,1.0);
668  }
669  gDirectory->mkdir("AlignablewiseChi2n");
670  gDirectory->cd("AlignablewiseChi2n");
671  //declare histos
672  for(int i = 0; i < (int)ndets; i++){
673  tree0->GetEntry(i);
674  char histoname[64],histotitle[64];
675  sprintf(histoname,"Chi2n_%d",i);
676  sprintf(histotitle,"Normalised #chi^{2} for detector #%d",i);
677  halichi2n[i]=new TH1D(histoname,histotitle,maxIteration,0.5,maxIteration+0.5);
678  }
679 
680  //Loop on trees and fill histos
681  int modules_accepted = 0;
682  for(unsigned int iter = 1; iter <= maxIteration; iter++){//loop on i (HIP iterations -> trees in file)
683 
684  TTree* tmpTreeUV = (TTree*) fv->Get(keysv->At(iter)->GetName() ); //get the UserVariable tree at each iteration
685  cout<<"Taking tree "<<keysv->At(iter)->GetName()<<endl;
686  //tmpTreeUV->GetListOfLeaves()->ls();
687  tmpTreeUV->SetBranchStatus("*",0);
688  tmpTreeUV->SetBranchStatus("Id",1);
689  tmpTreeUV->SetBranchStatus("Nhit",1);
690  tmpTreeUV->SetBranchStatus("AlignableChi2",1);
691  tmpTreeUV->SetBranchStatus("AlignableNdof",1);
692  double alichi2=0.0;
693  unsigned int alindof=0;
694  int nHit=0;
695  unsigned int detId=0;
696  tmpTreeUV->SetBranchAddress("AlignableChi2",&alichi2);
697  tmpTreeUV->SetBranchAddress("AlignableNdof",&alindof);
698  tmpTreeUV->SetBranchAddress("Id",&detId);
699  tmpTreeUV->SetBranchAddress("Nhit",&nHit);
700 
701  modules_accepted=0;
702  //loop on entries
703  for(int j = 0; j < tmpTreeUV->GetEntries(); j++){ //loop on j (modules -> entries in each tree)
704  tmpTreeUV->GetEntry(j);
705 
706  bool passSubdetCut = true;
707  if (subDet > 0){ if ( GetSubDet(detId) != subDet ) passSubdetCut = false; } //get subDet Id from module detId,and plot only the selected subDet
708  if (doubleSided > 0){
709  if ( GetSubDet(detId)%2 == 1 && doubleSided == 1 && GetBarrelLayer(detId) < 3 ) passSubdetCut = false;
710  if ( GetSubDet(detId)%2 == 1 && doubleSided == 2 && GetBarrelLayer(detId) > 2 ) passSubdetCut = false;
711  }
712 
713  if (( nHit >= minHits )&&( passSubdetCut ) ){ //cut on nhits per module
714  halichi2n[j]->SetBinContent(iter,double(alichi2 / alindof));
715 // halichi2n[j]->SetBinContent(iter,double(alichi2));
716  double prob=TMath::Prob(double(alichi2),int(alindof));
717 
718  htotchi2n[iter-1]->Fill(double(alichi2 / alindof));
719  hprobdist[iter-1]->Fill(prob);
720  modules_accepted++;
721  }
722 
723  }//end loop on j - alignables
724  cout<<"alignables accepted at iteration "<<iter<<" = "<<modules_accepted<<endl;
725  delete tmpTreeUV;
726  }//end loop on iterations
727 
728  // Ma che e'???
729  /* cout<<"Prob for chi2=0,02 ndof=40 -> "<<TMath::Prob(0.02,40)<<endl;
730  cout<<"Prob for chi2=20, ndof=40 -> "<<TMath::Prob(20.0,40)<<endl;
731  cout<<"Prob for chi2=40, ndof=40 -> "<<TMath::Prob(40.0,40)<<endl;
732  cout<<"Prob for chi2=60, ndof=40 -> "<<TMath::Prob(60.0,40)<<endl;
733  cout<<"Prob for chi2=2000, ndof=40 -> "<<TMath::Prob(2000.0,40)<<endl; */
734 
735  //Save
736  fout->Write();
737  delete fout;
738  delete fv;
739  cout<<"Finished extractAlignableChiSquare"<<endl;
740 }//end extractAlignableChiSquare
741 
742 
743 void HIPplots::extractSurveyResiduals( int currentPar,int subDet ){
744 
745  cout<<"\n--- extractSurveyResiduals has been called ---"<<endl;
746 
747  TFile *fv = new TFile( _inFile_surveys,"READ");
748  const TList* keysv = fv->GetListOfKeys();
749  const unsigned int maxIteration = keysv->GetSize() ;
750  cout<<"MaxIteration is "<<maxIteration <<endl;
751 
752  char fileaction[16];
753  if(CheckFileExistence(_outFile))sprintf(fileaction,"UPDATE");
754  else sprintf(fileaction,"NEW");
755  TFile *fout = new TFile( _outFile, fileaction);
756 
757  TTree* tree0 = (TTree*) fv->Get(keysv->At(0)->GetName() );
758  unsigned int detId0;
759  tree0->SetBranchAddress("Id", &detId0 );
760  const int ndets=tree0->GetEntries();
761  TH1D *hsurvey[ndets];//norm chi2 for each module as a function of iteration
762  TH1D *htotres[maxIteration];//distrib of norm chi2 for all modules at a given iteration
763 
764  char ppdirname[16];
765  sprintf(ppdirname,"SurveyResiduals");
766  fout->mkdir(ppdirname);
767  gDirectory->cd(ppdirname);
768 
769  for(int iter = 1; iter <=(int)maxIteration ; iter++){
770  char histoname[64],histotitle[128];
771  sprintf(histoname,"SurveyRes_Par%d_iter%d",currentPar,iter);
772  sprintf(histotitle,"Distribution of survey Residuals for All alignables ; Par=%d ; iter %d",currentPar,iter);
773  htotres[iter-1]=new TH1D(histoname,histotitle,1000,0.0,10.0);
774  }
775  gDirectory->mkdir("SurveyResiduals_alignables");
776  gDirectory->cd("SurveyResiduals_alignables");
777  //declare histos
778  for(int i = 0; i < (int)ndets; i++){
779  tree0->GetEntry(i);
780  char histoname[64],histotitle[64];
781  sprintf(histoname,"SurveyRes_Par%d_%d",currentPar,i);
782  sprintf(histotitle,"Survey residual for detector #%d - Par=%d",i,currentPar);
783  hsurvey[i]=new TH1D(histoname,histotitle,maxIteration,0.5,maxIteration+0.5);
784  }
785 
786  //Loop on trees and fill histos
787  int modules_accepted = 0;
788  for(unsigned int iter = 1; iter <= maxIteration; iter++){//loop on i (HIP iterations -> trees in file)
789 
790  TTree* tmpTreeUV = (TTree*) fv->Get(keysv->At(iter)->GetName() ); //get the UserVariable tree at each iteration
791  cout<<"Taking tree "<<keysv->At(iter)->GetName()<<endl;
792  //tmpTreeUV->GetListOfLeaves()->ls();
793  tmpTreeUV->SetBranchStatus("*",0);
794  tmpTreeUV->SetBranchStatus("Id",1);
795  tmpTreeUV->SetBranchStatus("Par",1);
796 
797  double par[6];
798  unsigned int detId=0;
799  tmpTreeUV->SetBranchAddress("Par",&par);
800  tmpTreeUV->SetBranchAddress("Id",&detId);
801 
802 
803  modules_accepted=0;
804  //loop on entries
805  for(int j = 0; j < tmpTreeUV->GetEntries(); j++){ //loop on j (modules -> entries in each tree)
806  tmpTreeUV->GetEntry(j);
807 
808  bool passSubdetCut = true;
809  if (subDet > 0){ if ( GetSubDet(detId) != subDet ) passSubdetCut = false; }
810  if ( passSubdetCut ){
811  hsurvey[j]->SetBinContent(iter,double(par[currentPar]));
812 
813  modules_accepted++;
814  }
815 
816  }//end loop on j - alignables
817  cout<<"alignables accepted at iteration "<<iter<<" = "<<modules_accepted<<endl;
818  delete tmpTreeUV;
819  }//end loop on iterations
820 
821  //Save
822  fout->Write();
823  delete fout;
824  delete fv;
825  cout<<"Finished extractAlignableChiSquare"<<endl;
826 }//end extractAlignableChiSquare
827 
828 
829 
830 
831 
832 
833 void HIPplots::plotAlignableChiSquare(char *plotName, float minChi2n){
834 
835  int i = 0;
836  TFile *f = new TFile( _outFile,"READ" );
837  TCanvas *c_alichi2n=new TCanvas("can_alichi2n","CAN_ALIGNABLECHI2N",900,900);
838  c_alichi2n->cd();
839  TDirectory *chi_d1=(TDirectory*)f->Get("AlignablesChi2n");
840  const int maxIteration= GetNIterations(chi_d1,"Chi2n_iter",1)-1;
841  cout<<"N iterations "<<maxIteration<<endl;
842  //take the histos prepared with extractAlignableChiSquare
843  gDirectory->cd("AlignablesChi2n");
844  TDirectory *chi_d=(TDirectory*)gDirectory->Get("AlignablewiseChi2n");
845  const int ndets= GetNIterations(chi_d,"Chi2n_");
846 
847  gDirectory->cd("AlignablewiseChi2n");
848  TH1D *hchi2n[ndets];
849  char histoname[64];
850  int sampling_ratio=1;
851  int ndets_plotted=(int)ndets/sampling_ratio;
852  cout<<"Sampling "<<ndets_plotted<<" detectors over a total of "<<ndets<<endl;
853  double histomax=0.1, histomin=-0.1;
854  bool firstplotted=false;
855  int firstplottedindex=0;
856  int totalplotted=0;
857  bool plothisto=true;
858  while((i<ndets_plotted) && (i*sampling_ratio<ndets) ){
859  sprintf(histoname,"Chi2n_%d",i);
860  hchi2n[i]=(TH1D*)gDirectory->Get(histoname);
861 
862  //if required, check that the chi2n exceeds at any point the threshold set as input
863  bool chi2ncut=false;
864  if(minChi2n>0.0){
865  for(int bin=1;bin<=hchi2n[i]->GetNbinsX();bin++){
866  if(hchi2n[i]->GetBinContent(bin)>minChi2n){chi2ncut=true;break;}
867  }
868  }
869  else chi2ncut=true;
870 
871  //if required check that the chi2 is increasing three iterations in a row and plot only those histos
872  if(plotbadchi2)plothisto=CheckHistoRising(hchi2n[i]);
873  else plothisto=true;
874 
875  if(chi2ncut&&plothisto){
876  double tmpmax=hchi2n[i]->GetBinContent(hchi2n[i]->GetMaximumBin());
877  double tmpmin=hchi2n[i]->GetBinContent(hchi2n[i]->GetMinimumBin());
878  histomax=2.0;
879  histomin=0.0;
880  if(tmpmax>histomax)histomax=tmpmax;
881  if(tmpmin<histomin)histomin=tmpmin;
882 
883  hchi2n[i]->SetMaximum(histomax);
884  hchi2n[i]->SetMinimum(histomin);
885  hchi2n[i]->SetStats(0);
886 
887 
888  if(!firstplotted){
889  hchi2n[i]->SetXTitle("Iteration");
890  hchi2n[i]->SetYTitle("#chi^{2} / # dof");
891 // hchi2n[i]->SetYTitle("#chi^{2}");
892  hchi2n[i]->SetTitle("Reduced #chi^{2} for alignables");
893  hchi2n[i]->Draw("PL");
894  firstplotted=true;
895  firstplottedindex=i;
896  }
897  else hchi2n[i]->Draw("PLsame");
898  totalplotted++;
899  }//END IF plot it because it passed the chi2n cut
900  i++;
901  }//end while loop on alignables
902  hchi2n[firstplottedindex]->SetMaximum(histomax*1.2);
903  hchi2n[firstplottedindex]->SetMinimum(histomin*0.8);
904  //override auto-resize of axis scale
905  hchi2n[firstplottedindex]->SetMaximum(histomax);
906  hchi2n[firstplottedindex]->SetMinimum(histomin);
907 
908  cout<<"Plotted "<<totalplotted<<" alignables over an initial sample of "<<ndets_plotted<<endl;
909  TText *txtchi2n_1=new TText();
910  txtchi2n_1->SetTextFont(63);
911  txtchi2n_1->SetTextSize(22);
912  char strchi2n_1[128];
913  sprintf(strchi2n_1,"Plotted alignables (Chi2n > %.3f): %d / %d",minChi2n,totalplotted,ndets_plotted);
914  txtchi2n_1->DrawText(1.2,0.0,strchi2n_1);
915  char finplotname[192];
916  sprintf(finplotname,"%s.png",plotName);
917  c_alichi2n->SaveAs(finplotname);
918  delete c_alichi2n;
919  //delete hchi2n;
920 
921 
922  cout<<"Doing distrib"<<endl;
923  gDirectory->cd("../");
924  TCanvas *c_chi2ndist=new TCanvas("can_chi2ndistr","CAN_CHI2N_DISTRIBUTION",900,900);
925  c_chi2ndist->cd();
926  TH1D *hiter[maxIteration];
927  TLegend *l=new TLegend(0.7,0.7,0.9,0.9);
928  l->SetFillColor(0);
929  l->SetBorderSize(0);
930  int colors[10]={1,2,8,4,6,7,94,52,41,45};
931  int taken=0;
932  float tmpmax=1.0;
933  float newmax=0.0;
934  for(i=0;i<maxIteration;i++){
935  sprintf(histoname,"Chi2n_iter%d",i+1);
936  hiter[i]=(TH1D*)gDirectory->Get(histoname);
937  hiter[i]->SetXTitle("#chi^{2} / dof");
938  hiter[i]->SetYTitle("Alignables");
939  hiter[i]->SetTitle("Normalised #chi^{2} of Alignables");
940  hiter[i]->Rebin(5);
941  hiter[i]->GetXaxis()->SetRangeUser(0.0,3.0);
942  hiter[i]->SetLineColor(i);
943 
944  char legend_entry[64];
945  float histmean=hiter[i]->GetMean();
946  if(i==0){
947  hiter[i]->SetLineColor(colors[taken]);
948  taken++;
949  sprintf(legend_entry,"Norm #chi^{2}; Iter %d; %.4f",i,histmean);
950  l->AddEntry(hiter[i],legend_entry,"L");
951  tmpmax=hiter[i]->GetBinContent(hiter[i]->GetMaximumBin());
952  newmax=tmpmax;
953  // hiter[i]->Draw("");
954  }
955  else if((i+1)%5==0){
956  hiter[i]->SetLineColor(colors[taken]);
957  taken++;
958  sprintf(legend_entry,"Norm #chi^{2}; Iter %d; %.4f",i+1,histmean);
959  l->AddEntry(hiter[i],legend_entry,"L");
960  tmpmax=hiter[i]->GetBinContent(hiter[i]->GetMaximumBin());
961  if(tmpmax>newmax)newmax=tmpmax;
962  // hiter[i]->Draw("same");
963  }
964  }
965  cout<<"NewMax after 1st loop -> "<<newmax<<endl;
966 
967  for(i=0;i<maxIteration;i++){
968  hiter[i]->SetMaximum(newmax*1.1);
969  if(i==1) hiter[i]->Draw("");
970  else if((i+1)%5==0) hiter[i]->Draw("same");
971  }
972  l->Draw();
973 
974  sprintf(finplotname,"%s_distr.png",plotName);
975  cout<<finplotname<<endl;
976  c_chi2ndist->SaveAs(finplotname);
977  c_chi2ndist->SetLogy();
978  sprintf(finplotname,"%s_distrlog.png",plotName);
979  cout<<finplotname<<endl;
980  c_chi2ndist->SaveAs(finplotname);
981 
982  delete c_chi2ndist;
983  delete f;
984 }//end plotAlignableChiSquare
985 
986 
987 
988 // -----------------------------------------------------------------
989 // private classes
990 int HIPplots::GetNIterations(TDirectory *f,char *tag,int startingcounter){
991  int fin_iter=0,i=startingcounter;
992  bool obj_exist=kTRUE;
993  while(obj_exist){
994  char objname[32];
995  sprintf(objname,"%s%d",tag,i);
996  if(!f->FindObjectAny(objname))obj_exist=kFALSE;
997  fin_iter=i;
998  i++;
999  }
1000  cout<<"Max Iterations is "<<fin_iter<<endl;
1001 
1002  return fin_iter;
1003 }
1004 
1005 int HIPplots::GetSubDet( unsigned int id ){
1006 
1007  const int reserved_subdetectorstartbit=25;
1008  const int reserved_subdetectorfinalbit=27;
1009 
1010  unsigned int detID = id;
1011 
1012  int shift = 31-reserved_subdetectorfinalbit;
1013  detID = detID<<(shift);
1014  shift = reserved_subdetectorstartbit + shift;
1015  detID = detID>>(shift);
1016 
1017  return detID;
1018 
1019 }
1020 
1021 int HIPplots::GetBarrelLayer( unsigned int id ){
1022 
1023  const int reserved_layerstartbit=14;
1024  const int reserved_layermask=0x7;
1025 
1026  return int((id>>reserved_layerstartbit) & reserved_layermask);
1027 
1028 }
1029 
1030 void HIPplots::SetMinMax( TH1* h ){
1031 
1032  Double_t xmin = 10000;
1033  Double_t xmax = -10000;
1034 
1035 
1036  for(int i = 1; i <= h->GetNbinsX(); ++i) {
1037  if((h->GetBinContent(i) > 0)&&(h->GetBinCenter(i)>xmax) ) xmax = h->GetBinCenter(i);
1038  }
1039  for(int i = h->GetNbinsX(); i >= 1; --i) {
1040  if((h->GetBinContent(i) > 0)&&(h->GetBinCenter(i)<xmin) ) xmin = h->GetBinCenter(i);
1041  }
1042 
1043  h->SetAxisRange((xmin-xmin*0.1), (xmax+xmax*0.1), "X");
1044  // std::cout << "xmin: " << xmin << ", xmax: " << xmax << std::endl;
1045 
1046 }
1047 
1048 
1049 
1050 void HIPplots::plotHitMap( char *outpath,int subDet,int minHits){
1051  cout<<"Starting plotHitMap"<<flush;
1052 
1053  TFile *falignable=new TFile(_inFile_HIPalign,"READ");
1054  cout<<"\tLoaded file"<<flush;
1055  //take the alignablewise tree and address useful branches
1056  TTree *talignable=(TTree*)falignable->Get("T2");
1057  cout<<"\t Loaded tree"<<endl;
1058 
1059  float eta=-999.0,phi=-55.0, xpos=-999.0,ypos=+999.0,zpos=-11111.0;
1060  int layer=-1,type=-1, nhit=-11111;
1061  int id=0;
1062  talignable->SetBranchAddress("Id",&id);
1063  talignable->SetBranchAddress("Layer",&layer);
1064  talignable->SetBranchAddress("Type",&type);
1065  talignable->SetBranchAddress("Nhit",&nhit);
1066  talignable->SetBranchAddress("Ypos",&ypos);
1067  talignable->SetBranchAddress("Eta",&eta);
1068  talignable->SetBranchAddress("Phi",&phi);
1069  talignable->SetBranchAddress("Ypos",&ypos);
1070  talignable->SetBranchAddress("Xpos",&xpos);
1071  talignable->SetBranchAddress("Zpos",&zpos);
1072 
1073  //loop on subdets
1074  char typetag[16];
1075  int maxLayers=0;
1076  if(subDet == TPBid){sprintf(typetag,"TPB");maxLayers=3;}
1077  else if(subDet == TPEid){sprintf(typetag,"TPE");maxLayers=2;}
1078  else if(subDet == TIBid){sprintf(typetag,"TIB");maxLayers=4;}
1079  else if(subDet == TIDid){sprintf(typetag,"TID");maxLayers=3;}
1080  else if(subDet == TOBid){sprintf(typetag,"TOB");maxLayers=6;}
1081  else if(subDet == TECid){sprintf(typetag,"TEC");maxLayers=9;}
1082  else {sprintf(typetag,"UNKNOWN");}
1083  cout<<"Starting to plot Hit Distributions for "<<typetag<<endl;
1084 
1085  bool printbinning=true;
1086  char psname[600];
1087  char ovtag[16];
1088  sprintf(psname,"%s/Hits_%s_Layers_Skimmed.eps",outpath,typetag);
1089 
1090  char binfilename[64];
1091  sprintf(binfilename,"./BinningHitMaps_%s.txt",typetag);
1092  ofstream binfile(binfilename,ios::out);
1093 
1094  if(printbinning){
1095  binfile<<"******** Binning for Subdet "<<typetag<<" *********"<<endl<<endl;
1096  }
1097 
1098  for(int layerindex=1;layerindex<=maxLayers;layerindex++){ //loop on layers
1099 
1100  cout<<"\n\n*** Layer # "<<layerindex<<" ***"<<endl;
1101  //activate only useful branches
1102  talignable->SetBranchStatus("*",0);
1103  talignable->SetBranchStatus("Id",1);
1104  talignable->SetBranchStatus("Type",1);
1105  talignable->SetBranchStatus("Layer",1);
1106  talignable->SetBranchStatus("Nhit",1);
1107  talignable->SetBranchStatus("Eta",1);
1108  talignable->SetBranchStatus("Phi",1);
1109  talignable->SetBranchStatus("Ypos",1);
1110  talignable->SetBranchStatus("Zpos",1);
1111  talignable->SetBranchStatus("Xpos",1);
1112 
1113  TCut selA,selECpos,selECneg;
1114  char selA_str[196],selECneg_str[196],selECpos_str[196];
1115  char varA_str[64],varB_str[64];
1116  char commonsense_str[128]="Xpos>-150.0&&Xpos<150.0&&Ypos>-150.0&&Ypos<150.0&&Zpos>-400.0&&Zpos<400.0";
1117  TCut commonsense=commonsense_str;
1118 
1119  sprintf(selECneg_str,"(Type==%d && Layer==%d && Zpos<0.0 && Nhit>=%d && sqrt(pow(Xpos,2)+pow(Ypos,2) )<125.0 )",subDet,layerindex,minHits);
1120  sprintf(selECpos_str,"(Type==%d && Layer==%d && Zpos>=0.0 && Nhit>=%d && sqrt(pow(Xpos,2)+pow(Ypos,2) )<125.0 )",subDet,layerindex,minHits);
1121  // sprintf(selB_str,"(Eta>0.0)&&(Eta<0.2)");
1122  sprintf(selA_str,"Type==%d && Layer==%d",subDet,layerindex);
1123 
1124  sprintf(varA_str,"Eta>>hvarx");
1125  sprintf(varB_str,"Phi>>hvary");
1126 
1127  selECneg=selECneg_str;
1128  selECpos=selECpos_str;
1129  selA=selA_str;
1130  cout<<"Cuts defined as "<<selA<<endl;
1134 
1135  //--------- (2) START bin definition -----
1136  //cout<<"Selection is "<<sel<<endl;
1137  // char sel[96];
1138 
1139  int nzentries= talignable->Draw("Zpos>>hZ(360,-270.0,270.0)",commonsense&&selA,"goff");
1140  TH1F *hZ=(TH1F*)gDirectory->Get("hZ");
1141  if(subDet == TOBid) SetPeakThreshold(8.0);
1142  else SetPeakThreshold(5.0);
1143  float Zpeaks[120];
1144  int bin=0;
1145  for(bin=0;bin<120;bin++){
1146  Zpeaks[bin]=-444.0;
1147  }
1148  const int nZpeaks=FindPeaks(hZ,Zpeaks,99);
1149  const int nZbinlims=nZpeaks+1;
1150  float Zwidth=(Zpeaks[nZpeaks-1]-Zpeaks[0])/ (nZpeaks-1) ;
1151  float Zmin=Zpeaks[0]- Zwidth/2.0 ;
1152  float Zmax=Zpeaks[nZpeaks-1] + Zwidth/2.0;//((Zpeaks[nZbinlims-1]-Zpeaks[nZbinlims-2])/2.0) ;
1153  cout<<"--> Zmin= "<<Zmin<<" - Zmax= "<<Zmax<<" Zwidth= "<<Zwidth<<" ; found "<<nZpeaks<<" Zpeaks"<<endl;
1154  cout<<"Zpeaks[0] is "<<Zpeaks[0]<<endl;
1155 
1156 
1157  float Phipeaks[120];
1158  if((subDet==TIBid||subDet==TOBid)&&layerindex<=2) sprintf(selA_str,"%s&&Zpos>%f&&Zpos<%f",selA_str,Zpeaks[0]-2.0,Zpeaks[0]+2.0);//DS modules
1159  else sprintf(selA_str,"%s&&Zpos>%f&&Zpos<%f",selA_str,Zpeaks[0]-2.0,Zpeaks[0]+2.0);
1160  int nphientries=talignable->Draw("Phi>>hPhi",selA_str,"goff");
1161  cout<<"N phi entries "<<nphientries<<" from sel "<<selA_str<< endl;
1162  TH1F *hPhi=(TH1F*)gDirectory->Get("hPhi");
1163  // nPhibins=FindPeaks(hPhi,Phipeaks,99);
1164  if(subDet==TPBid&&layerindex==1)nphientries=nphientries-1;
1165  const int nPhibins=nphientries;
1166  cout<<"+ It would have found "<<nPhibins<<" phi bins"<<endl;
1167 
1168  //fill Z array with binning. special case for DS layers of TIB with non equidistant z bins
1169  float phibin[nPhibins+1];
1170  float zbin[nZbinlims];
1171  float Phiwidth=6.28/nPhibins;
1172 
1173  if((subDet==TIBid||subDet==TOBid)&&layerindex<=2){//DS modules in TIB and TOB
1174 
1176  cout<<"Gonna loop over "<<nZpeaks<<" peaks / "<<nZbinlims<<" bin limits"<<endl;
1177  for(bin=0;bin<nZbinlims-1;bin++){
1178  float zup=0.0;
1179  float zdown=0.0;
1180 
1181  if(bin==0){ //don't go underflow!
1182  zup=(Zpeaks[bin+1]-Zpeaks[bin])/2.0;
1183  zdown=zup;
1184  }
1185  else if(bin==nZbinlims-2){//don't go overflow!
1186  cout<<"Don't go overflow !"<<endl;
1187  zdown=(Zpeaks[bin]-Zpeaks[bin-1])/2.0;
1188  if(layerindex==1) zup=(Zpeaks[bin-1]-Zpeaks[bin-2])/2.0;
1189  else zup=zdown;
1190  }
1191  else{
1192  zup=(Zpeaks[bin+1]-Zpeaks[bin])/2.0;
1193  zdown=(Zpeaks[bin]-Zpeaks[bin-1])/2.0;
1194  }
1195  zbin[bin] = Zpeaks[bin]-zdown;
1196  zbin[bin+1]= Zpeaks[bin]+zup;
1197 
1198  }//end loop on z bin
1200 
1201 
1202  for(int bin=0;bin<=nPhibins;++bin){
1203  if(bin==0)phibin[bin]=-3.14+bin*(Phiwidth)+Phiwidth/4;
1204  else if(bin==nPhibins-1)phibin[bin]=-3.14+bin*(Phiwidth)-Phiwidth/4;
1205  // else phibin[bin]=-3.14+bin*(Phiwidth);
1206  else phibin[bin]=phibin[bin-1]+ Phiwidth;
1207  }//end loop on phi bin
1208 
1209  }//end if DS layers of TIB/TOB
1210  else{
1211  for(int bin=0;bin<nZbinlims;++bin){
1212  zbin[bin]=Zmin+bin*(Zwidth);
1213  }//end loop on z bin
1214 
1215  for(int bin=0;bin<=nPhibins;++bin){
1216  phibin[bin]=-3.14+bin*(Phiwidth);
1217  }//end loop on phi bin
1218  }
1219 
1220 
1221  float Phimin=Phipeaks[0]- ((Phipeaks[1]-Phipeaks[0])/2.0) ;
1222  float Phimax=Phipeaks[nPhibins-1] + ((Phipeaks[nPhibins-1]-Phipeaks[nPhibins-2])/2.0) ;
1223 
1224  cout<<"N Z bin LIMITs = "<<nZbinlims<<" N Phi bin LIMITS = "<<nPhibins<<endl;
1225  //--------- END bin definition -----
1226 
1227 
1228 
1229  char histoname[64];
1230  sprintf(histoname,"%s_Layer%d",typetag,layerindex);
1231  TH2F *hetaphi=new TH2F(histoname,histoname,nZpeaks,zbin,nPhibins,phibin);
1232 
1233 
1234  cout<<"Starting to loop on entries"<<flush;
1235  int nmods=0;
1236  int nlowentrycells=0;
1237 
1238  for(int j=0;j<talignable->GetEntries();j++){ //loop on entries (-> alignables)
1239  if(j%1000==0)cout<<"."<<flush;
1240  talignable->GetEntry(j);
1241  if(type==subDet&&layer==layerindex){
1242  if(nhit>=minHits){
1243  //find the right eta bin
1244  hetaphi->Fill(zpos,phi,nhit);
1245  nmods++;
1246  }
1247  else{
1248  hetaphi->Fill(zpos,phi,-99);
1249  nlowentrycells++;
1250  }//end else if nhits < minhits
1251 
1252  }//end if the type and layer are the desired ones
1253  }//end loop on entries(->alignables)
1254 
1255  //Let's start with the funny things: fancy graphics!
1256  hetaphi->SetXTitle("Z [cm]");
1257  hetaphi->SetYTitle("#phi (rad)");
1258 
1259  int Nxbins=hetaphi->GetXaxis()->GetNbins();
1260  int Nybins=hetaphi->GetYaxis()->GetNbins();
1261  cout<<"On x-axis there are "<<Nxbins<<" bins "<<endl;
1262  cout<<"On y-axis there are "<<Nybins<<" bins "<<endl;
1263 
1264 
1265  bool smooth_etaphi=false;
1266  if(smooth_etaphi){
1267  for(int i=1;i<=Nxbins;i++){
1268  for(int j=1;j<=Nybins;j++){
1269  float bincont=hetaphi->GetBinContent(i,j);
1270  if(bincont==0){//average with the surrounding bins
1271  float binup1=hetaphi->GetBinContent(i,j+1);
1272  float bindown1=hetaphi->GetBinContent(i,j-1);
1273  float binlx1=hetaphi->GetBinContent(i-1,j);
1274  float binrx1=hetaphi->GetBinContent(i+1,j);
1275  if(i==1)binlx1=binrx1;//at the edges you don't have lx or rx bins; set a def value
1276  if(i==Nxbins)binrx1=binlx1;
1277  if(j==1)bindown1=binup1;
1278  if(j==Nybins)binup1=bindown1;
1279  int adiacentbins=0;
1280  if(binup1>0.0)adiacentbins++;
1281  if(bindown1>0.0)adiacentbins++;
1282  if(binlx1>0.0)adiacentbins++;
1283  if(binrx1>0.0)adiacentbins++;
1284  if(adiacentbins>=2){
1285  float avg=(binup1+bindown1+binlx1+binrx1)/adiacentbins;
1286  hetaphi->SetBinContent(i,j,avg);
1287  }
1288  }
1289  }
1290  }
1291  }//end if smooth_etaphi
1292 
1293 
1294  //for debugging purposes
1295  TGraph *gretaphi;
1296  bool plotAlignablePos=false;
1297  if(plotAlignablePos){
1298  const int ngrpoints=nmods;
1299  float etagr[ngrpoints],phigr[ngrpoints];
1300  nmods=0;
1301  for(int j=0;j<talignable->GetEntries();j++){ //loop on entries (-> alignables)
1302  if(j%1000==0)cout<<"."<<flush;
1303  talignable->GetEntry(j);
1304  if(type==subDet&&layer==layerindex){
1305  etagr[nmods]=zpos;
1306  phigr[nmods]=phi;
1307  nmods++;
1308  }
1309  }
1310 
1311  gretaphi=new TGraph(ngrpoints,etagr,phigr);
1312  gretaphi->SetMarkerStyle(20);
1313  gretaphi->SetMarkerColor(1);
1314  gretaphi->SetMarkerSize(0.75);
1315  }
1316 
1317 
1318 
1320  // cout<<"Layer #"<<i<<endl;
1321  float Zcellgr[512];
1322  float Phicellgr[512];
1323  int nemptycells=0;
1324  for(int zcells=1;zcells<=hetaphi->GetNbinsX();zcells++){
1325  for(int phicells=1;phicells<=hetaphi->GetNbinsY();phicells++){
1326  if( hetaphi->GetBinContent( zcells,phicells)==-99){
1327  hetaphi->SetBinContent( zcells,phicells,0);
1328  Zcellgr[nemptycells]= float(hetaphi->GetXaxis()->GetBinCenter(zcells));
1329  Phicellgr[nemptycells]= float(hetaphi->GetYaxis()->GetBinCenter(phicells));
1330  nemptycells++;
1331  }
1332  // if(a==2)cout<<"Finished Z value "<<hetaphi->GetXaxis()->GetBinCenter(zcells)<<" the emptycells are "<<nemptycells<<endl;
1333  }//end loop on Phi bins
1334  }//end loop on Z bins
1335  TGraph *gr_empty=new TGraph( nlowentrycells,Zcellgr,Phicellgr);
1336  sprintf(histoname,"gr_emptycells_subdet%d_layer%d",subDet,layerindex);
1337  // cout<<"Graph name: "<<histoname<<" with "<<gr_empty->GetN()<<endl;
1338  gr_empty->SetName(histoname);
1339  gr_empty->SetMarkerStyle(5);
1341 
1342 
1343  cout<<" Done! Used "<<nmods<<" alignables. Starting to plot !"<<endl;
1344 
1345  //plot them and save the canvas appending it to a ps file
1346  gStyle->SetPalette(1,0);
1347  TCanvas *c_barrels=new TCanvas("canvas_hits_barrels","CANVAS_HITS_BARRELS",1600,1600);
1348  TCanvas *c_endcaps=new TCanvas("canvas_hits_endcaps","CANVAS_HITS_ENDCAPS",3200,1600);
1349  TPad *pleft=new TPad("left_panel","Left Panel",0.0,0.0,0.49,0.99);
1350  TPad *pcent=new TPad("central_up_panel","Central Panel",0.01,0.00,0.99,0.99);
1351  TPad *pright=new TPad("right_panel","Right Panel",0.51,0.0,0.99,0.99);
1352 
1353 
1354  if(subDet==1 ||subDet==3 ||subDet==5 ){
1355  c_barrels->cd();
1356  pcent->Draw();
1357  pcent->cd();
1358  gPad->SetRightMargin(0.15);
1359 
1360  // hbarrel->SetMarkerSize(2.0);
1361  // hbarrel->SetMarkerSize(21);
1362  hetaphi->SetStats(0);
1363  if(subDet==TPBid||subDet==TIBid||subDet==TOBid)hetaphi->Draw("COLZtext");//COLZtext
1364  if(plotAlignablePos) gretaphi->Draw("P");
1365  gr_empty->Draw("P");
1366 
1367  if(printbinning){
1368  binfile<<"--> Layer #"<<layerindex<<endl;
1369  binfile<<"Eta Binning: "<<flush;
1370  for(int h=1;h<=hetaphi->GetNbinsX();h++){
1371  binfile<<hetaphi->GetXaxis()->GetBinLowEdge(h)<<"\t";
1372  if(h==hetaphi->GetNbinsX()) binfile<<hetaphi->GetXaxis()->GetBinLowEdge(h)+hetaphi->GetXaxis()->GetBinWidth(h);
1373  }
1374  binfile<<endl;
1375  binfile<<"Phi Binning: "<<flush;
1376  for(int h=1;h<=hetaphi->GetNbinsY();h++){
1377  binfile<<hetaphi->GetYaxis()->GetBinLowEdge(h)<<"\t";
1378  if(h==hetaphi->GetNbinsX()) binfile<<hetaphi->GetYaxis()->GetBinLowEdge(h)+hetaphi->GetYaxis()->GetBinWidth(h);
1379  }
1380  binfile<<endl;
1381  }
1382 
1383  }
1384  else{
1385  c_endcaps->cd();
1386  pleft->Draw();
1387  pright->Draw();
1388 
1389 
1390  pleft->cd();
1391  gPad->SetRightMargin(0.15);
1392  char selEC_str[192], varEC_str[128];
1393  float radlimit=0.0;
1394  if(subDet == TPBid){radlimit=45.0;}
1395  else if(subDet == TPEid){radlimit=45.0;}
1396  else if(subDet == TIBid){radlimit=70.0;}
1397  else if(subDet == TIDid){radlimit=70.0;}
1398  else if(subDet == TOBid){radlimit=130.0;}
1399  else if(subDet == TECid){radlimit=130.0;}
1400  else {radlimit=0.0;}
1401 
1402  sprintf(varEC_str,"Ypos:Xpos>>hxy_negz(30,%f,%f)",-radlimit,radlimit);
1403  sprintf(selEC_str,"Nhit*(%s&&%s)",selECneg_str,commonsense_str);
1404  cout<<selEC_str<<endl;
1405  int selentriesECneg=talignable->Draw(varEC_str,selEC_str,"goff"); //total number of alignables for thys type and layer
1406  if(selentriesECneg>0){
1407  TH2F *hxy_negz=(TH2F*)gDirectory->Get("hxy_negz");
1408  hxy_negz->GetXaxis()->SetRangeUser(-radlimit,radlimit);
1409  hxy_negz->GetYaxis()->SetRangeUser(-radlimit,radlimit);
1410  char histoname_negz[32];
1411  sprintf(histoname_negz,"%s (-Z)",histoname);
1412  hxy_negz->SetStats(0);
1413  hxy_negz->SetTitle( histoname_negz);
1414  hxy_negz->SetXTitle("X (cm)");
1415  hxy_negz->SetYTitle("Y (cm)");
1416  hxy_negz->Draw("COLZ");
1417  }
1418  else{
1419  cout<<"WARNING !!!! No hits on this layer ! not plotting (-Z) !"<<endl;
1420  }
1421 
1422 
1423 
1424  cout<<"PAD 3"<<endl;
1425  pright->cd();
1426  gPad->SetRightMargin(0.15);
1427  sprintf(selEC_str,"Nhit*(%s&&%s)",selECpos_str,commonsense_str);
1428  // selEC=selEC_str&&commonsense;
1429  cout<<"(2)"<<selEC_str<<endl;
1430  sprintf(varEC_str,"Ypos:Xpos>>hxy_posz(30,%f,%f)",-radlimit,radlimit);
1431  int selentriesECpos=talignable->Draw(varEC_str,selEC_str,"goff"); //total number of alignables for thys type and layer
1432  if(selentriesECpos>0){
1433  TH2F *hxy_posz=(TH2F*)gDirectory->Get("hxy_posz");
1434  char histoname_posz[32];
1435  hxy_posz->GetXaxis()->SetRangeUser(-radlimit,radlimit);
1436  hxy_posz->GetYaxis()->SetRangeUser(-radlimit,radlimit);
1437  sprintf(histoname_posz,"%s (+Z)",histoname);
1438  hxy_posz->SetStats(0);
1439  hxy_posz->SetTitle( histoname_posz);
1440  hxy_posz->SetXTitle("X (cm)");
1441  hxy_posz->SetYTitle("Y (cm)");
1442  hxy_posz->Draw("COLZ");
1443  }
1444  else{
1445  cout<<"WARNING !!!! No hits on this layer ! not plotting (+Z) !"<<endl;
1446  }
1447 
1448 
1449  }
1450 
1451  //save in a ps file
1452  cout << "******* " << typetag << endl;
1453  char psnamefinal[600];
1454 
1455  if(layerindex==1) sprintf(psnamefinal,"%s(",psname);
1456  else if(layerindex==maxLayers) sprintf(psnamefinal,"%s)",psname);
1457  else sprintf(psnamefinal,"%s",psname);
1458 
1459  cout<<"Saving in "<<psnamefinal<<endl;
1460  if(subDet==1 ||subDet==3 ||subDet==5 )c_barrels->SaveAs(psnamefinal);
1461  else c_endcaps->SaveAs(psnamefinal);
1462 
1463  if(subDet==1 ||subDet==3 ||subDet==5 )delete c_barrels;
1464  else delete c_endcaps;
1465 
1466 
1467  // ctmp->cd();
1468  // hbarrel->Draw("scat");
1469 
1470  }//end loop on layers
1471  cout<<"Finished "<<maxLayers<<" of the "<<typetag<<endl;
1472 
1473  delete talignable;
1474  delete falignable;
1475 }//end PlotHitDistribution
1476 
1477 
1479 
1481 
1482 }//end dumpAlignedModules
1483 
1484 
1485 
1486 int HIPplots::FindPeaks(TH1F *h1,float *peaklist,const int maxNpeaks,int startbin,int endbin){
1487 
1488  int Npeaks=0;
1489  if(startbin<0)startbin=1;
1490  if(endbin<0)endbin=h1->GetNbinsX();
1491  int bin=startbin;
1492  int prevbin=startbin;
1493  bool rising=true;
1494  while(bin<=endbin){
1495 
1496  float bincont=h1->GetBinContent(bin);
1497  float prevbincont=h1->GetBinContent(prevbin);
1498 
1499  if(prevbincont>peakthreshold||bincont>1.0){
1500  if(bincont>=prevbincont){//we are rising, keep going until we don't go down
1501  rising=true;
1502  }
1503  else{//ehi! we are decreasing. But check if we were decreasing already at the step before
1504  if(!rising){//we were already decreasing, this is not a maximum
1505  rising=true;
1506  }
1507  else{//we found a maximum
1508  rising=false;
1509  peaklist[Npeaks]=h1->GetBinCenter(prevbin);
1510  Npeaks++;
1511  }
1512  }
1513  }//end if bincont>1.0
1514  if(Npeaks>=maxNpeaks){//max number reached
1515  bin=endbin;
1516  }
1517  bin++;
1518  prevbin=bin-1;
1519  }//end while loop on bins
1520 
1521 
1522  return Npeaks;
1523 }//End FindPeaks
1524 
1525 
1526 void HIPplots::SetPeakThreshold(float newpeakthreshold){
1527  peakthreshold=newpeakthreshold;
1528 }
1529 
1531  bool flag = false;
1532  fstream fin;
1533  fin.open(filename,ios::in);
1534  if( fin.is_open() ) flag=true;
1535  fin.close();
1536  return flag;
1537 }
1538 
1539 void HIPplots::CheckFiles(int &ierr){
1540 
1542  cout<<"Missing file "<<_inFile_uservars<<endl;
1543  ierr++;
1544  }
1545 
1547  cout<<"Missing file "<<_inFile_HIPalign<<endl;
1548  ierr++;
1549  }
1550 
1552  cout<<"Missing file "<< _inFile_alipos<<endl;
1553  ierr++;
1554  }
1555 
1557  cout<<"Output file already existing !"<<endl;
1558  ierr=-1*(ierr+1);
1559  }
1560 
1561 }
1562 
1563 
1565 
1566  bool rise1=false,rise2=false,rise3=false;
1567  int totbins=h->GetNbinsX();
1568  // for(int i=1;i<=totbins;i++){
1569  int i=1;
1570 
1571 
1572  for(i=1;i<=totbins-3;i++){
1573  double cont1 = h->GetBinContent(i);
1574  if( h->GetBinContent(i+1)>cont1)rise1=true;
1575  if(rise1){
1576  if( h->GetBinContent(i+2)>h->GetBinContent(i+1))rise2=true;
1577  if(rise2){
1578  if( h->GetBinContent(i+3)>h->GetBinContent(i+2)){
1579  rise3=true;
1580  break;
1581  }
1582  }
1583  }
1584 
1585  }//emnd loop on bins
1586 
1587  return rise3;
1588 
1589 }//end CheckHistoRising
1590 
type
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