1 /**************************************************************************
2 * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
4 * Author: The ALICE Off-line Project. *
5 * Contributors are mentioned in the code where appropriate. *
7 * Permission to use, copy, modify and distribute this software and its *
8 * documentation strictly for non-commercial purposes is hereby granted *
9 * without fee, provided that the above copyright notice appears in all *
10 * copies and that both the copyright notice and this permission notice *
11 * appear in the supporting documentation. The authors make no claims *
12 * about the suitability of this software for any purpose. It is *
13 * provided "as is" without express or implied warranty. *
14 **************************************************************************/
18 Revision 1.4 2000/10/05 16:04:21 kowal2
21 Revision 1.3 2000/06/30 12:07:49 kowal2
22 Updated from the TPC-PreRelease branch
24 Revision 1.2.4.2 2000/06/26 07:39:42 kowal2
25 Changes to obey the coding rules
27 Revision 1.2.4.1 2000/06/25 08:38:41 kowal2
28 Splitted from AliTPCtracking
30 Revision 1.2 2000/04/17 09:37:33 kowal2
31 removed obsolete AliTPCDigitsDisplay.C
33 Revision 1.1.4.2 2000/04/10 11:32:37 kowal2
35 "ROOT"-based class with some extra functionality
40 //----------------------------------------------------------------------------
41 // Author: Marian Ivanov
43 // Implementation of class AliH2F
45 //-----------------------------------------------------------------------------
48 #include "TClonesArray.h"
54 //***********************************************************************
55 //***********************************************************************
56 //***********************************************************************
57 //***********************************************************************
58 AliH2F::AliH2F():TH2F()
63 AliH2F::AliH2F(const Text_t *name,const Text_t *title,
64 Int_t nbinsx,Axis_t xlow,Axis_t xup
65 ,Int_t nbinsy,Axis_t ylow,Axis_t yup):
66 TH2F(name,title,nbinsx,xlow,xup
78 AliH2F::AliH2F(const AliH2F &his)
84 AliH2F & AliH2F::operator = (const AliH2F & his)
90 TClonesArray * AliH2F::FindPeaks(Float_t threshold, Float_t noise)
99 void AliH2F::ClearSpectrum()
102 Int_t dimx = fXaxis.GetNbins();
103 Int_t dimy = fYaxis.GetNbins();
104 for (Int_t i = 0 ;i<dimx;i++)
105 for (Int_t j = 0 ;j<dimy;j++)
107 SetCellContent(i,j,0);
113 void AliH2F::AddNoise(Float_t sn)
115 // add gauss noise with sigma sn
116 Int_t dimx = fXaxis.GetNbins();
117 Int_t dimy = fYaxis.GetNbins();
118 for (Int_t i = 0 ;i<dimx;i++)
119 for (Int_t j = 0 ;j<dimy;j++)
121 Float_t noise = gRandom->Gaus(0,sn);
122 Float_t oldv =GetCellContent(i,j);
123 Float_t olds =GetCellError(i,j);
126 SetCellContent(i,j,noise+oldv);
127 SetCellError(i,j,TMath::Sqrt((noise*noise+olds*olds)));
131 void AliH2F::AddGauss(Float_t x, Float_t y,
132 Float_t sx, Float_t sy, Float_t max)
134 //transform to histogram coordinata
135 Int_t dimx = fXaxis.GetNbins();
136 Int_t dimy = fYaxis.GetNbins();
137 Float_t dx =(GetXaxis()->GetXmax()-GetXaxis()->GetXmin())/Float_t(dimx);
138 Float_t dy =(GetYaxis()->GetXmax()-GetYaxis()->GetXmin())/Float_t(dimy);
139 // x=(x-GetXaxis()->GetXmin())/dx;
140 //y=(y-GetYaxis()->GetXmin())/dy;
145 for (Int_t i = 0 ;i<dimx;i++)
146 for (Int_t j = 0 ;j<dimy;j++)
148 Float_t x2 =GetXaxis()->GetBinCenter(i+1);
149 Float_t y2 =GetYaxis()->GetBinCenter(j+1);
150 Float_t dx2 = (x2-x)*(x2-x);
151 Float_t dy2 = (y2-y)*(y2-y);
152 Float_t amp =max*exp(-(dx2/(2*sx*sx)+dy2/(2*sy*sy)));
153 //Float_t oldv =GetCellContent(i+1,j+1);
154 // SetCellContent(i+1,j+1,amp+oldv);
159 void AliH2F::ClearUnderTh(Int_t threshold)
161 //clear histogram for bin under threshold
162 Int_t dimx = fXaxis.GetNbins();
163 Int_t dimy = fYaxis.GetNbins();
164 for (Int_t i = 0 ;i<=dimx;i++)
165 for (Int_t j = 0 ;j<=dimy;j++)
167 Float_t oldv =GetCellContent(i,j);
169 SetCellContent(i,j,0);
175 //round float to integer
176 Int_t dimx = fXaxis.GetNbins();
177 Int_t dimy = fYaxis.GetNbins();
178 for (Int_t i = 0 ;i<=dimx;i++)
179 for (Int_t j = 0 ;j<=dimy;j++)
181 Float_t oldv =GetCellContent(i,j);
183 SetCellContent(i,j,oldv);
189 AliH2F *AliH2F::GetSubrange2d(Float_t xmin, Float_t xmax,
190 Float_t ymin, Float_t ymax)
192 //this function return pointer to the new created
193 //histogram which is subhistogram of the
195 //subhistogram range must be inside histogram
198 xmin=fXaxis.GetXmin();
199 xmax=fXaxis.GetXmax();
202 ymin=fYaxis.GetXmin();
203 ymax=fYaxis.GetXmax();
206 Int_t nx = Int_t((xmax-xmin)/(fXaxis.GetXmax()-fXaxis.GetXmin()) *
207 Float_t(fXaxis.GetNbins()));
208 Int_t ny = Int_t((ymax-ymin)/(fYaxis.GetXmax()-fYaxis.GetXmin()) *
209 Float_t(fYaxis.GetNbins()));
211 TString t2 = fTitle ;
214 const Text_t *ktt1 = t1;
215 const Text_t *ktt2 = t2;
217 AliH2F * sub = new AliH2F(ktt1,ktt2,nx,xmin,xmax,ny,ymin,ymax);
219 Int_t i1 = Int_t( Float_t(fXaxis.GetNbins())*(xmin-fXaxis.GetXmin())/
220 (fXaxis.GetXmax()-fXaxis.GetXmin()) ) ;
221 Int_t i2 = Int_t( Float_t(fYaxis.GetNbins())*(ymin-fYaxis.GetXmin())/
222 (fYaxis.GetXmax()-fYaxis.GetXmin()) ) ;
223 for (Int_t i=0;i<nx;i++)
224 for (Int_t j=0;j<ny;j++)
226 Int_t index1 = GetBin(i1+i,i2+j);
227 // Int_t index2 = sub->GetBin(i,j);
228 Float_t val = GetBinContent(index1);
229 // sub->SetBinContent(index2,val);
230 // Float_t err = GetBinError(index1);
231 //sub->SetBinError(index2,GetBinError(index1));
232 sub->SetCellContent(i,j,val);
237 TH1F *AliH2F::GetAmplitudes(Float_t zmin, Float_t zmax, Float_t th, Float_t xmin, Float_t xmax,
238 Float_t ymin, Float_t ymax)
240 //this function return pointer to the new created
241 //histogram which is subhistogram of the
243 //subhistogram range must be inside histogram
246 xmin=fXaxis.GetXmin();
247 xmax=fXaxis.GetXmax();
250 ymin=fYaxis.GetXmin();
251 ymax=fYaxis.GetXmax();
253 Int_t nx = Int_t((xmax-xmin)/(fXaxis.GetXmax()-fXaxis.GetXmin()) *
254 Float_t(fXaxis.GetNbins()));
255 Int_t ny = Int_t((ymax-ymin)/(fYaxis.GetXmax()-fYaxis.GetXmin()) *
256 Float_t(fYaxis.GetNbins()));
258 TString t2 = fTitle ;
261 const Text_t *ktt1 = t1;
262 const Text_t *ktt2 = t2;
264 TH1F * h = new TH1F(ktt1,ktt2,100,zmin,zmax);
266 Int_t i1 = Int_t( Float_t(fXaxis.GetNbins())*(xmin-fXaxis.GetXmin())/
267 (fXaxis.GetXmax()-fXaxis.GetXmin()) ) ;
268 Int_t i2 = Int_t( Float_t(fYaxis.GetNbins())*(ymin-fYaxis.GetXmin())/
269 (fYaxis.GetXmax()-fYaxis.GetXmin()) ) ;
270 for (Int_t i=0;i<nx;i++)
271 for (Int_t j=0;j<ny;j++)
273 Int_t index1 = GetBin(i1+i,i2+j);
274 Float_t val = GetBinContent(index1);
275 if (val>th) h->Fill(val);
280 Float_t AliH2F::GetOccupancy(Float_t th , Float_t xmin, Float_t xmax,
281 Float_t ymin, Float_t ymax)
283 //this function return pointer to the new created
284 //histogram which is subhistogram of the
286 //subhistogram range must be inside histogram
289 xmin=fXaxis.GetXmin();
290 xmax=fXaxis.GetXmax();
293 ymin=fYaxis.GetXmin();
294 ymax=fYaxis.GetXmax();
296 Int_t nx = Int_t((xmax-xmin)/(fXaxis.GetXmax()-fXaxis.GetXmin()) *
297 Float_t(fXaxis.GetNbins()));
298 Int_t ny = Int_t((ymax-ymin)/(fYaxis.GetXmax()-fYaxis.GetXmin()) *
299 Float_t(fYaxis.GetNbins()));
302 Int_t i1 = Int_t( Float_t(fXaxis.GetNbins())*(xmin-fXaxis.GetXmin())/
303 (fXaxis.GetXmax()-fXaxis.GetXmin()) ) ;
304 Int_t i2 = Int_t( Float_t(fYaxis.GetNbins())*(ymin-fYaxis.GetXmin())/
305 (fYaxis.GetXmax()-fYaxis.GetXmin()) ) ;
306 for (Int_t i=0;i<nx;i++)
307 for (Int_t j=0;j<ny;j++)
309 Int_t index1 = GetBin(i1+i,i2+j);
310 Float_t val = GetBinContent(index1);
314 if (all>0) return Float_t(over)/Float_t(all);