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11a2ac51 | 1 | /////////////////////////////////////////////////////////////////////////////// |
2 | // // | |
3 | // Base class for the AliTPCCalibViewer and AliTRDCalibViewer // | |
4 | // used for the calibration monitor // | |
5 | // // | |
6 | // Authors: Marian Ivanov (Marian.Ivanov@cern.ch) // | |
7 | // Jens Wiechula (Jens.Wiechula@cern.ch) // | |
8 | // Ionut Arsene (iarsene@cern.ch) // | |
9 | // // | |
10 | /////////////////////////////////////////////////////////////////////////////// | |
11 | ||
12 | ||
13 | #include <iostream> | |
14 | #include <fstream> | |
15 | #include <TString.h> | |
16 | #include <TRandom.h> | |
17 | #include <TLegend.h> | |
18 | #include <TLine.h> | |
19 | //#include <TCanvas.h> | |
20 | #include <TROOT.h> | |
21 | #include <TStyle.h> | |
22 | #include <TH1.h> | |
23 | #include <TH1F.h> | |
24 | #include <TMath.h> | |
25 | #include <THashTable.h> | |
26 | #include <TObjString.h> | |
27 | #include <TLinearFitter.h> | |
11a2ac51 | 28 | #include <TFile.h> |
29 | #include <TKey.h> | |
30 | #include <TGraph.h> | |
31 | #include <TDirectory.h> | |
32 | #include <TFriendElement.h> | |
33 | ||
7330f0e5 | 34 | #include "TTreeStream.h" |
11a2ac51 | 35 | #include "AliBaseCalibViewer.h" |
36 | ||
37 | ClassImp(AliBaseCalibViewer) | |
38 | ||
39 | AliBaseCalibViewer::AliBaseCalibViewer() | |
40 | :TObject(), | |
41 | fTree(0), | |
42 | fFile(0), | |
43 | fListOfObjectsToBeDeleted(0), | |
44 | fTreeMustBeDeleted(0), | |
45 | fAbbreviation(0), | |
46 | fAppendString(0) | |
47 | { | |
48 | // | |
49 | // Default constructor | |
50 | // | |
51 | } | |
52 | ||
53 | //_____________________________________________________________________________ | |
54 | AliBaseCalibViewer::AliBaseCalibViewer(const AliBaseCalibViewer &c) | |
55 | :TObject(c), | |
56 | fTree(0), | |
57 | fFile(0), | |
58 | fListOfObjectsToBeDeleted(0), | |
59 | fTreeMustBeDeleted(0), | |
60 | fAbbreviation(0), | |
61 | fAppendString(0) | |
62 | { | |
63 | // | |
64 | // dummy AliBaseCalibViewer copy constructor | |
65 | // not yet working!!! | |
66 | // | |
67 | fTree = c.fTree; | |
68 | fTreeMustBeDeleted = c.fTreeMustBeDeleted; | |
69 | fListOfObjectsToBeDeleted = c.fListOfObjectsToBeDeleted; | |
70 | fAbbreviation = c.fAbbreviation; | |
71 | fAppendString = c.fAppendString; | |
72 | } | |
73 | ||
74 | //_____________________________________________________________________________ | |
75 | AliBaseCalibViewer::AliBaseCalibViewer(TTree* tree) | |
76 | :TObject(), | |
77 | fTree(0), | |
78 | fFile(0), | |
79 | fListOfObjectsToBeDeleted(0), | |
80 | fTreeMustBeDeleted(0), | |
81 | fAbbreviation(0), | |
82 | fAppendString(0) | |
83 | { | |
84 | // | |
85 | // Constructor that initializes the calibration viewer | |
86 | // | |
87 | fTree = tree; | |
88 | fTreeMustBeDeleted = kFALSE; | |
89 | fListOfObjectsToBeDeleted = new TObjArray(); | |
90 | fAbbreviation = "~"; | |
91 | fAppendString = ".fElements"; | |
92 | } | |
93 | ||
94 | //_____________________________________________________________________________ | |
95 | AliBaseCalibViewer::AliBaseCalibViewer(const Char_t* fileName, const Char_t* treeName) | |
96 | :TObject(), | |
97 | fTree(0), | |
98 | fFile(0), | |
99 | fListOfObjectsToBeDeleted(0), | |
100 | fTreeMustBeDeleted(0), | |
101 | fAbbreviation(0), | |
102 | fAppendString(0) | |
103 | ||
104 | { | |
105 | // | |
106 | // Constructor to initialize the calibration viewer | |
107 | // the file 'fileName' contains the tree 'treeName' | |
108 | // | |
109 | fFile = new TFile(fileName, "read"); | |
110 | fTree = (TTree*) fFile->Get(treeName); | |
111 | fTreeMustBeDeleted = kTRUE; | |
112 | fListOfObjectsToBeDeleted = new TObjArray(); | |
113 | fAbbreviation = "~"; | |
114 | fAppendString = ".fElements"; | |
115 | } | |
116 | ||
117 | //____________________________________________________________________________ | |
118 | AliBaseCalibViewer & AliBaseCalibViewer::operator =(const AliBaseCalibViewer & param) | |
119 | { | |
120 | // | |
121 | // assignment operator - dummy | |
122 | // not yet working!!! | |
123 | // | |
e99fb5c9 | 124 | if(¶m == this) return *this; |
125 | TObject::operator=(param); | |
126 | ||
127 | ||
11a2ac51 | 128 | fTree = param.fTree; |
129 | fTreeMustBeDeleted = param.fTreeMustBeDeleted; | |
130 | fListOfObjectsToBeDeleted = param.fListOfObjectsToBeDeleted; | |
131 | fAbbreviation = param.fAbbreviation; | |
132 | fAppendString = param.fAppendString; | |
133 | return (*this); | |
134 | } | |
135 | ||
136 | //_____________________________________________________________________________ | |
137 | AliBaseCalibViewer::~AliBaseCalibViewer() | |
138 | { | |
139 | // | |
140 | // AliBaseCalibViewer destructor | |
141 | // all objects will be deleted, the file will be closed, the pictures will disappear | |
142 | // | |
143 | if (fTree && fTreeMustBeDeleted) { | |
144 | fTree->SetCacheSize(0); | |
145 | fTree->Delete(); | |
146 | } | |
147 | if (fFile) { | |
148 | fFile->Close(); | |
149 | fFile = 0; | |
150 | } | |
151 | ||
152 | for (Int_t i = fListOfObjectsToBeDeleted->GetEntriesFast()-1; i >= 0; i--) { | |
153 | delete fListOfObjectsToBeDeleted->At(i); | |
154 | } | |
155 | delete fListOfObjectsToBeDeleted; | |
156 | } | |
157 | ||
158 | //_____________________________________________________________________________ | |
9cc39f20 | 159 | void AliBaseCalibViewer::Delete(Option_t* /*option*/) { |
11a2ac51 | 160 | // |
161 | // Should be called from AliBaseCalibViewerGUI class only. | |
162 | // If you use Delete() do not call the destructor. | |
163 | // All objects (except those contained in fListOfObjectsToBeDeleted) will be deleted, the file will be closed. | |
164 | // | |
165 | ||
11a2ac51 | 166 | if (fTree && fTreeMustBeDeleted) { |
167 | fTree->SetCacheSize(0); | |
168 | fTree->Delete(); | |
169 | } | |
9cc39f20 | 170 | delete fFile; |
11a2ac51 | 171 | delete fListOfObjectsToBeDeleted; |
172 | } | |
173 | ||
174 | //_____________________________________________________________________________ | |
175 | void AliBaseCalibViewer::FormatHistoLabels(TH1 *histo) const { | |
176 | // | |
177 | // formats title and axis labels of histo | |
178 | // removes '.fElements' | |
179 | // | |
180 | if (!histo) return; | |
181 | TString replaceString(fAppendString.Data()); | |
182 | TString *str = new TString(histo->GetTitle()); | |
183 | str->ReplaceAll(replaceString, ""); | |
184 | histo->SetTitle(str->Data()); | |
185 | delete str; | |
186 | if (histo->GetXaxis()) { | |
187 | str = new TString(histo->GetXaxis()->GetTitle()); | |
188 | str->ReplaceAll(replaceString, ""); | |
189 | histo->GetXaxis()->SetTitle(str->Data()); | |
190 | delete str; | |
191 | } | |
192 | if (histo->GetYaxis()) { | |
193 | str = new TString(histo->GetYaxis()->GetTitle()); | |
194 | str->ReplaceAll(replaceString, ""); | |
195 | histo->GetYaxis()->SetTitle(str->Data()); | |
196 | delete str; | |
197 | } | |
198 | if (histo->GetZaxis()) { | |
199 | str = new TString(histo->GetZaxis()->GetTitle()); | |
200 | str->ReplaceAll(replaceString, ""); | |
201 | histo->GetZaxis()->SetTitle(str->Data()); | |
202 | delete str; | |
203 | } | |
204 | } | |
205 | ||
206 | //_____________________________________________________________________________ | |
207 | TFriendElement* AliBaseCalibViewer::AddReferenceTree(const Char_t* filename, const Char_t* treename, const Char_t* refname){ | |
208 | // | |
209 | // add a reference tree to the current tree | |
210 | // by default the treename is 'tree' and the reference treename is 'R' | |
211 | // | |
212 | TFile *file = new TFile(filename); | |
213 | fListOfObjectsToBeDeleted->Add(file); | |
214 | TTree * tree = (TTree*)file->Get(treename); | |
215 | return AddFriend(tree, refname); | |
216 | } | |
217 | ||
218 | //_____________________________________________________________________________ | |
219 | TString* AliBaseCalibViewer::Fit(const Char_t* drawCommand, const Char_t* formula, const Char_t* cuts, | |
220 | Double_t & chi2, TVectorD &fitParam, TMatrixD &covMatrix){ | |
221 | // | |
222 | // fit an arbitrary function, specified by formula into the data, specified by drawCommand and cuts | |
223 | // returns chi2, fitParam and covMatrix | |
224 | // returns TString with fitted formula | |
225 | // | |
226 | ||
227 | TString formulaStr(formula); | |
228 | TString drawStr(drawCommand); | |
229 | TString cutStr(cuts); | |
230 | ||
231 | // abbreviations: | |
232 | drawStr.ReplaceAll(fAbbreviation, fAppendString); | |
233 | cutStr.ReplaceAll(fAbbreviation, fAppendString); | |
234 | formulaStr.ReplaceAll(fAbbreviation, fAppendString); | |
235 | ||
236 | formulaStr.ReplaceAll("++", fAbbreviation); | |
237 | TObjArray* formulaTokens = formulaStr.Tokenize(fAbbreviation.Data()); | |
238 | Int_t dim = formulaTokens->GetEntriesFast(); | |
239 | ||
240 | fitParam.ResizeTo(dim); | |
241 | covMatrix.ResizeTo(dim,dim); | |
242 | ||
243 | TLinearFitter* fitter = new TLinearFitter(dim+1, Form("hyp%d",dim)); | |
244 | fitter->StoreData(kTRUE); | |
245 | fitter->ClearPoints(); | |
246 | ||
247 | Int_t entries = Draw(drawStr.Data(), cutStr.Data(), "goff"); | |
97def841 | 248 | if (entries == -1) { |
249 | delete fitter; | |
250 | return new TString("An ERROR has occured during fitting!"); | |
251 | } | |
11a2ac51 | 252 | Double_t **values = new Double_t*[dim+1] ; |
253 | ||
254 | for (Int_t i = 0; i < dim + 1; i++){ | |
255 | Int_t centries = 0; | |
256 | if (i < dim) centries = fTree->Draw(((TObjString*)formulaTokens->At(i))->GetName(), cutStr.Data(), "goff"); | |
257 | else centries = fTree->Draw(drawStr.Data(), cutStr.Data(), "goff"); | |
258 | ||
97def841 | 259 | if (entries != centries) { |
260 | delete fitter; | |
261 | delete [] values; | |
262 | return new TString("An ERROR has occured during fitting!"); | |
263 | } | |
11a2ac51 | 264 | values[i] = new Double_t[entries]; |
265 | memcpy(values[i], fTree->GetV1(), entries*sizeof(Double_t)); | |
266 | } | |
267 | ||
268 | // add points to the fitter | |
269 | for (Int_t i = 0; i < entries; i++){ | |
270 | Double_t x[1000]; | |
271 | for (Int_t j=0; j<dim;j++) x[j]=values[j][i]; | |
272 | fitter->AddPoint(x, values[dim][i], 1); | |
273 | } | |
274 | ||
275 | fitter->Eval(); | |
276 | fitter->GetParameters(fitParam); | |
277 | fitter->GetCovarianceMatrix(covMatrix); | |
278 | chi2 = fitter->GetChisquare(); | |
11a2ac51 | 279 | |
280 | TString *preturnFormula = new TString(Form("( %e+",fitParam[0])), &returnFormula = *preturnFormula; | |
281 | ||
282 | for (Int_t iparam = 0; iparam < dim; iparam++) { | |
283 | returnFormula.Append(Form("%s*(%e)",((TObjString*)formulaTokens->At(iparam))->GetName(),fitParam[iparam+1])); | |
284 | if (iparam < dim-1) returnFormula.Append("+"); | |
285 | } | |
286 | returnFormula.Append(" )"); | |
287 | delete formulaTokens; | |
288 | delete fitter; | |
97def841 | 289 | for (Int_t i = 0; i < dim + 1; i++) delete [] values[i]; |
11a2ac51 | 290 | delete[] values; |
291 | return preturnFormula; | |
292 | } | |
293 | ||
294 | //_____________________________________________________________________________ | |
295 | Double_t AliBaseCalibViewer::GetLTM(Int_t n, Double_t *array, Double_t *sigma, Double_t fraction){ | |
296 | // | |
297 | // returns the LTM and sigma | |
298 | // | |
299 | Double_t *ddata = new Double_t[n]; | |
300 | Double_t mean = 0, lsigma = 0; | |
301 | UInt_t nPoints = 0; | |
302 | for (UInt_t i = 0; i < (UInt_t)n; i++) { | |
303 | ddata[nPoints]= array[nPoints]; | |
304 | nPoints++; | |
305 | } | |
306 | Int_t hh = TMath::Min(TMath::Nint(fraction * nPoints), Int_t(n)); | |
307 | AliMathBase::EvaluateUni(nPoints, ddata, mean, lsigma, hh); | |
308 | if (sigma) *sigma = lsigma; | |
309 | delete [] ddata; | |
310 | return mean; | |
311 | } | |
312 | ||
313 | //_____________________________________________________________________________ | |
314 | Int_t AliBaseCalibViewer::GetBin(Float_t value, Int_t nbins, Double_t binLow, Double_t binUp){ | |
315 | // Returns the 'bin' for 'value' | |
316 | // The interval between 'binLow' and 'binUp' is divided into 'nbins' equidistant bins | |
317 | // avoid index out of bounds error: 'if (bin < binLow) bin = binLow' and vice versa | |
318 | /* Begin_Latex | |
319 | GetBin(value) = #frac{nbins - 1}{binUp - binLow} #upoint (value - binLow) +1 | |
320 | End_Latex | |
321 | */ | |
322 | ||
323 | Int_t bin = TMath::Nint( (Float_t)(value - binLow) / (Float_t)(binUp - binLow) * (nbins-1) ) + 1; | |
324 | // avoid index out of bounds: | |
325 | if (value < binLow) bin = 0; | |
326 | if (value > binUp) bin = nbins + 1; | |
327 | return bin; | |
328 | ||
329 | } | |
330 | ||
331 | //_____________________________________________________________________________ | |
332 | TH1F* AliBaseCalibViewer::SigmaCut(TH1F *histogram, Float_t mean, Float_t sigma, Float_t sigmaMax, | |
333 | Float_t sigmaStep, Bool_t pm) { | |
334 | // | |
335 | // Creates a cumulative histogram Begin_Latex S(t, #mu, #sigma) End_Latex, where you can see, how much of the data are inside sigma-intervals around the mean value | |
336 | // The data of the distribution Begin_Latex f(x, #mu, #sigma) End_Latex are given in 'histogram' | |
337 | // 'mean' and 'sigma' are Begin_Latex #mu End_Latex and Begin_Latex #sigma End_Latex of the distribution in 'histogram', to be specified by the user | |
338 | // sigmaMax: up to which sigma around the mean/median/LTM the histogram is generated (in units of sigma, Begin_Latex t #sigma End_Latex) | |
339 | // sigmaStep: the binsize of the generated histogram, -1 means, that the maximal reasonable stepsize is used | |
340 | // pm: Decide weather Begin_Latex t > 0 End_Latex (first case) or Begin_Latex t End_Latex arbitrary (secound case) | |
341 | // The actual work is done on the array. | |
342 | /* Begin_Latex | |
6a1caa6b | 343 | f(x, #mu, #sigma) #Rightarrow S(t, #mu, #sigma) = (#int_{#mu}^{#mu + t #sigma} f(x, #mu, #sigma) dx + #int_{#mu}^{#mu - t #sigma} f(x, #mu, #sigma) dx) / (#int_{-#infty}^{+#infty} f(x, #mu, #sigma) dx), for t > 0 |
11a2ac51 | 344 | or |
6a1caa6b | 345 | f(x, #mu, #sigma) #Rightarrow S(t, #mu, #sigma) = #int_{#mu}^{#mu + t #sigma} f(x, #mu, #sigma) dx / #int_{-#infty}^{+#infty} f(x, #mu, #sigma) dx |
11a2ac51 | 346 | End_Latex |
6a1caa6b | 347 | Begin_Macro(source) |
11a2ac51 | 348 | { |
349 | Float_t mean = 0; | |
350 | Float_t sigma = 1.5; | |
351 | Float_t sigmaMax = 4; | |
352 | gROOT->SetStyle("Plain"); | |
353 | TH1F *distribution = new TH1F("Distribution1", "Distribution f(x, #mu, #sigma)", 1000,-5,5); | |
354 | TRandom rand(23); | |
355 | for (Int_t i = 0; i <50000;i++) distribution->Fill(rand.Gaus(mean, sigma)); | |
356 | Float_t *ar = distribution->GetArray(); | |
357 | ||
6a1caa6b | 358 | TCanvas* macro_example_canvas = new TCanvas("cAliBaseCalibViewer", "", 350, 350); |
11a2ac51 | 359 | macro_example_canvas->Divide(0,3); |
360 | TVirtualPad *pad1 = macro_example_canvas->cd(1); | |
361 | pad1->SetGridy(); | |
362 | pad1->SetGridx(); | |
363 | distribution->Draw(); | |
364 | TVirtualPad *pad2 = macro_example_canvas->cd(2); | |
365 | pad2->SetGridy(); | |
366 | pad2->SetGridx(); | |
367 | ||
368 | TH1F *shist = AliTPCCalibViewer::SigmaCut(distribution, mean, sigma, sigmaMax); | |
369 | shist->SetNameTitle("Cumulative","Cumulative S(t, #mu, #sigma)"); | |
370 | shist->Draw(); | |
371 | TVirtualPad *pad3 = macro_example_canvas->cd(3); | |
372 | pad3->SetGridy(); | |
373 | pad3->SetGridx(); | |
374 | TH1F *shistPM = AliTPCCalibViewer::SigmaCut(distribution, mean, sigma, sigmaMax, -1, kTRUE); | |
375 | shistPM->Draw(); | |
376 | return macro_example_canvas; | |
377 | } | |
6a1caa6b | 378 | End_Macro |
11a2ac51 | 379 | */ |
380 | ||
381 | Float_t *array = histogram->GetArray(); | |
382 | Int_t nbins = histogram->GetXaxis()->GetNbins(); | |
383 | Float_t binLow = histogram->GetXaxis()->GetXmin(); | |
384 | Float_t binUp = histogram->GetXaxis()->GetXmax(); | |
385 | return AliBaseCalibViewer::SigmaCut(nbins, array, mean, sigma, nbins, binLow, binUp, sigmaMax, sigmaStep, pm); | |
386 | } | |
387 | ||
388 | //_____________________________________________________________________________ | |
389 | TH1F* AliBaseCalibViewer::SigmaCut(Int_t n, Float_t *array, Float_t mean, Float_t sigma, Int_t nbins, Float_t binLow, Float_t binUp, Float_t sigmaMax, Float_t sigmaStep, Bool_t pm){ | |
390 | // | |
391 | // Creates a histogram Begin_Latex S(t, #mu, #sigma) End_Latex, where you can see, how much of the data are inside sigma-intervals around the mean value | |
392 | // The data of the distribution Begin_Latex f(x, #mu, #sigma) End_Latex are given in 'array', 'n' specifies the length of the array | |
393 | // 'mean' and 'sigma' are Begin_Latex #mu End_Latex and Begin_Latex #sigma End_Latex of the distribution in 'array', to be specified by the user | |
394 | // 'nbins': number of bins, 'binLow': first bin, 'binUp': last bin | |
395 | // sigmaMax: up to which sigma around the mean/median/LTM the histogram is generated (in units of sigma, Begin_Latex t #sigma End_Latex) | |
396 | // sigmaStep: the binsize of the generated histogram | |
397 | // Here the actual work is done. | |
398 | ||
399 | if (TMath::Abs(sigma) < 1.e-10) return 0; | |
400 | Float_t binWidth = (binUp-binLow)/(nbins - 1); | |
401 | if (sigmaStep <= 0) sigmaStep = binWidth; | |
402 | Int_t kbins = (Int_t)(sigmaMax * sigma / sigmaStep) + 1; // + 1 due to overflow bin in histograms | |
403 | if (pm) kbins = 2 * (Int_t)(sigmaMax * sigma / sigmaStep) + 1; | |
404 | Float_t kbinLow = !pm ? 0 : -sigmaMax; | |
405 | Float_t kbinUp = sigmaMax; | |
406 | TH1F *hist = new TH1F("sigmaCutHisto","Cumulative; Multiples of #sigma; Fraction of included data", kbins, kbinLow, kbinUp); | |
407 | hist->SetDirectory(0); | |
408 | hist->Reset(); | |
409 | ||
410 | // calculate normalization | |
411 | Double_t normalization = 0; | |
412 | for (Int_t i = 0; i <= n; i++) { | |
413 | normalization += array[i]; | |
414 | } | |
415 | ||
416 | // given units: units from given histogram | |
417 | // sigma units: in units of sigma | |
418 | // iDelta: integrate in interval (mean +- iDelta), given units | |
419 | // x: ofset from mean for integration, given units | |
420 | // hist: needs | |
421 | ||
422 | // fill histogram | |
423 | for (Float_t iDelta = 0; iDelta <= sigmaMax * sigma; iDelta += sigmaStep) { | |
424 | // integrate array | |
425 | Double_t valueP = array[GetBin(mean, nbins, binLow, binUp)]; | |
426 | Double_t valueM = array[GetBin(mean-binWidth, nbins, binLow, binUp)]; | |
427 | // add bin of mean value only once to the histogram | |
428 | for (Float_t x = binWidth; x <= iDelta; x += binWidth) { | |
429 | valueP += (mean + x <= binUp) ? array[GetBin(mean + x, nbins, binLow, binUp)] : 0; | |
430 | valueM += (mean-binWidth - x >= binLow) ? array[GetBin(mean-binWidth - x, nbins, binLow, binUp)] : 0; | |
431 | } | |
432 | ||
433 | if (valueP / normalization > 100) printf("+++ Error, value to big: %f, normalization with %f will fail +++ \n", valueP, normalization); | |
434 | if (valueP / normalization > 100) return hist; | |
435 | if (valueM / normalization > 100) printf("+++ Error, value to big: %f, normalization with %f will fail +++ \n", valueM, normalization); | |
436 | if (valueM / normalization > 100) return hist; | |
437 | valueP = (valueP / normalization); | |
438 | valueM = (valueM / normalization); | |
439 | if (pm) { | |
440 | Int_t bin = GetBin(iDelta/sigma, kbins, kbinLow, kbinUp); | |
441 | hist->SetBinContent(bin, valueP); | |
442 | bin = GetBin(-iDelta/sigma, kbins, kbinLow, kbinUp); | |
443 | hist->SetBinContent(bin, valueM); | |
444 | } | |
445 | else { // if (!pm) | |
446 | Int_t bin = GetBin(iDelta/sigma, kbins, kbinLow, kbinUp); | |
447 | hist->SetBinContent(bin, valueP + valueM); | |
448 | } | |
449 | } | |
450 | if (!pm) hist->SetMaximum(1.2); | |
451 | return hist; | |
452 | } | |
453 | ||
454 | //_____________________________________________________________________________ | |
9cc39f20 | 455 | TH1F* AliBaseCalibViewer::SigmaCut(Int_t /*n*/, Double_t */*array*/, Double_t /*mean*/, Double_t /*sigma*/, |
456 | Int_t /*nbins*/, Double_t */*xbins*/, Double_t /*sigmaMax*/){ | |
11a2ac51 | 457 | // |
458 | // SigmaCut for variable binsize | |
459 | // NOT YET IMPLEMENTED !!! | |
460 | // | |
461 | printf("SigmaCut with variable binsize, Not yet implemented\n"); | |
9cc39f20 | 462 | |
11a2ac51 | 463 | return 0; |
464 | } | |
465 | ||
466 | //_____________________________________________________________________________ | |
467 | Int_t AliBaseCalibViewer::DrawHisto1D(const Char_t* drawCommand, const Char_t* sector, const Char_t* cuts, | |
9a9e9b94 | 468 | const Char_t *sigmas, Bool_t plotMean, Bool_t plotMedian, Bool_t plotLTM) const |
469 | { | |
470 | // | |
11a2ac51 | 471 | // Easy drawing of data, in principle the same as EasyDraw1D |
9a9e9b94 | 472 | // Difference: A line for the mean / median / LTM is drawn |
11a2ac51 | 473 | // in 'sigmas' you can specify in which distance to the mean/median/LTM you want to see a line in sigma-units, separated by ';' |
474 | // example: sigmas = "2; 4; 6;" at Begin_Latex 2 #sigma End_Latex, Begin_Latex 4 #sigma End_Latex and Begin_Latex 6 #sigma End_Latex a line is drawn. | |
475 | // "plotMean", "plotMedian" and "plotLTM": what kind of lines do you want to see? | |
9a9e9b94 | 476 | // |
477 | Int_t oldOptStat = gStyle->GetOptStat(); | |
478 | gStyle->SetOptStat(0000000); | |
479 | Double_t ltmFraction = 0.8; | |
480 | ||
481 | TObjArray *sigmasTokens = TString(sigmas).Tokenize(";"); | |
482 | TVectorF nsigma(sigmasTokens->GetEntriesFast()); | |
483 | for (Int_t i = 0; i < sigmasTokens->GetEntriesFast(); i++) { | |
484 | TString str(((TObjString*)sigmasTokens->At(i))->GetString()); | |
485 | Double_t sig = (str.IsFloat()) ? str.Atof() : 0; | |
486 | nsigma[i] = sig; | |
487 | } | |
488 | ||
489 | TString drawStr(drawCommand); | |
490 | Bool_t dangerousToDraw = drawStr.Contains(":") || drawStr.Contains(">>"); | |
491 | if (dangerousToDraw) { | |
492 | Warning("DrawHisto1D", "The draw string must not contain ':' or '>>'."); | |
493 | return -1; | |
494 | } | |
495 | drawStr += " >> tempHist"; | |
496 | Int_t entries = EasyDraw1D(drawStr.Data(), sector, cuts); | |
497 | TH1F *htemp = (TH1F*)gDirectory->Get("tempHist"); | |
11a2ac51 | 498 | // FIXME is this histogram deleted automatically? |
9a9e9b94 | 499 | Double_t *values = fTree->GetV1(); // value is the array containing 'entries' numbers |
500 | ||
501 | Double_t mean = TMath::Mean(entries, values); | |
502 | Double_t median = TMath::Median(entries, values); | |
503 | Double_t sigma = TMath::RMS(entries, values); | |
504 | Double_t maxY = htemp->GetMaximum(); | |
505 | ||
506 | TLegend * legend = new TLegend(.7,.7, .99, .99, "Statistical information"); | |
507 | //fListOfObjectsToBeDeleted->Add(legend); | |
508 | ||
509 | if (plotMean) { | |
11a2ac51 | 510 | // draw Mean |
9a9e9b94 | 511 | TLine* line = new TLine(mean, 0, mean, maxY); |
512 | //fListOfObjectsToBeDeleted->Add(line); | |
513 | line->SetLineColor(kRed); | |
514 | line->SetLineWidth(2); | |
515 | line->SetLineStyle(1); | |
516 | line->Draw(); | |
517 | legend->AddEntry(line, Form("Mean: %f", mean), "l"); | |
11a2ac51 | 518 | // draw sigma lines |
9a9e9b94 | 519 | for (Int_t i = 0; i < nsigma.GetNoElements(); i++) { |
520 | TLine* linePlusSigma = new TLine(mean + nsigma[i] * sigma, 0, mean + nsigma[i] * sigma, maxY); | |
521 | //fListOfObjectsToBeDeleted->Add(linePlusSigma); | |
522 | linePlusSigma->SetLineColor(kRed); | |
523 | linePlusSigma->SetLineStyle(2 + i); | |
524 | linePlusSigma->Draw(); | |
525 | TLine* lineMinusSigma = new TLine(mean - nsigma[i] * sigma, 0, mean - nsigma[i] * sigma, maxY); | |
526 | //fListOfObjectsToBeDeleted->Add(lineMinusSigma); | |
527 | lineMinusSigma->SetLineColor(kRed); | |
528 | lineMinusSigma->SetLineStyle(2 + i); | |
529 | lineMinusSigma->Draw(); | |
530 | legend->AddEntry(lineMinusSigma, Form("%i #sigma = %f",(Int_t)(nsigma[i]), (Float_t)(nsigma[i] * sigma)), "l"); | |
531 | } | |
532 | } | |
533 | if (plotMedian) { | |
11a2ac51 | 534 | // draw median |
9a9e9b94 | 535 | TLine* line = new TLine(median, 0, median, maxY); |
536 | //fListOfObjectsToBeDeleted->Add(line); | |
537 | line->SetLineColor(kBlue); | |
538 | line->SetLineWidth(2); | |
539 | line->SetLineStyle(1); | |
540 | line->Draw(); | |
541 | legend->AddEntry(line, Form("Median: %f", median), "l"); | |
11a2ac51 | 542 | // draw sigma lines |
9a9e9b94 | 543 | for (Int_t i = 0; i < nsigma.GetNoElements(); i++) { |
544 | TLine* linePlusSigma = new TLine(median + nsigma[i] * sigma, 0, median + nsigma[i]*sigma, maxY); | |
545 | //fListOfObjectsToBeDeleted->Add(linePlusSigma); | |
546 | linePlusSigma->SetLineColor(kBlue); | |
547 | linePlusSigma->SetLineStyle(2 + i); | |
548 | linePlusSigma->Draw(); | |
549 | TLine* lineMinusSigma = new TLine(median - nsigma[i] * sigma, 0, median - nsigma[i]*sigma, maxY); | |
550 | //fListOfObjectsToBeDeleted->Add(lineMinusSigma); | |
551 | lineMinusSigma->SetLineColor(kBlue); | |
552 | lineMinusSigma->SetLineStyle(2 + i); | |
553 | lineMinusSigma->Draw(); | |
554 | legend->AddEntry(lineMinusSigma, Form("%i #sigma = %f",(Int_t)(nsigma[i]), (Float_t)(nsigma[i] * sigma)), "l"); | |
555 | } | |
556 | } | |
557 | if (plotLTM) { | |
11a2ac51 | 558 | // draw LTM |
9a9e9b94 | 559 | Double_t ltmRms = 0; |
560 | Double_t ltm = GetLTM(entries, values, <mRms, ltmFraction); | |
561 | TLine* line = new TLine(ltm, 0, ltm, maxY); | |
11a2ac51 | 562 | //fListOfObjectsToBeDeleted->Add(line); |
9a9e9b94 | 563 | line->SetLineColor(kGreen+2); |
564 | line->SetLineWidth(2); | |
565 | line->SetLineStyle(1); | |
566 | line->Draw(); | |
567 | legend->AddEntry(line, Form("LTM: %f", ltm), "l"); | |
11a2ac51 | 568 | // draw sigma lines |
9a9e9b94 | 569 | for (Int_t i = 0; i < nsigma.GetNoElements(); i++) { |
570 | TLine* linePlusSigma = new TLine(ltm + nsigma[i] * ltmRms, 0, ltm + nsigma[i] * ltmRms, maxY); | |
11a2ac51 | 571 | //fListOfObjectsToBeDeleted->Add(linePlusSigma); |
9a9e9b94 | 572 | linePlusSigma->SetLineColor(kGreen+2); |
573 | linePlusSigma->SetLineStyle(2+i); | |
574 | linePlusSigma->Draw(); | |
575 | ||
576 | TLine* lineMinusSigma = new TLine(ltm - nsigma[i] * ltmRms, 0, ltm - nsigma[i] * ltmRms, maxY); | |
11a2ac51 | 577 | //fListOfObjectsToBeDeleted->Add(lineMinusSigma); |
9a9e9b94 | 578 | lineMinusSigma->SetLineColor(kGreen+2); |
579 | lineMinusSigma->SetLineStyle(2+i); | |
580 | lineMinusSigma->Draw(); | |
581 | legend->AddEntry(lineMinusSigma, Form("%i #sigma = %f", (Int_t)(nsigma[i]), (Float_t)(nsigma[i] * ltmRms)), "l"); | |
582 | } | |
583 | } | |
584 | if (!plotMean && !plotMedian && !plotLTM) return -1; | |
585 | legend->Draw(); | |
586 | gStyle->SetOptStat(oldOptStat); | |
587 | return 1; | |
11a2ac51 | 588 | } |
589 | ||
590 | //_____________________________________________________________________________ | |
591 | Int_t AliBaseCalibViewer::SigmaCut(const Char_t* drawCommand, const Char_t* sector, const Char_t* cuts, | |
592 | Float_t sigmaMax, Bool_t plotMean, Bool_t plotMedian, Bool_t plotLTM, Bool_t pm, | |
593 | const Char_t *sigmas, Float_t sigmaStep) const { | |
594 | // | |
595 | // Creates a histogram, where you can see, how much of the data are inside sigma-intervals | |
596 | // around the mean/median/LTM | |
597 | // with drawCommand, sector and cuts you specify your input data, see EasyDraw | |
598 | // sigmaMax: up to which sigma around the mean/median/LTM the histogram is generated (in units of sigma) | |
599 | // sigmaStep: the binsize of the generated histogram | |
600 | // plotMean/plotMedian/plotLTM: specifies where to put the center | |
601 | // | |
602 | ||
603 | Double_t ltmFraction = 0.8; | |
604 | ||
605 | TString drawStr(drawCommand); | |
606 | Bool_t dangerousToDraw = drawStr.Contains(":") || drawStr.Contains(">>"); | |
607 | if (dangerousToDraw) { | |
608 | Warning("SigmaCut", "The draw string must not contain ':' or '>>'."); | |
609 | return -1; | |
610 | } | |
611 | drawStr += " >> tempHist"; | |
612 | ||
613 | Int_t entries = EasyDraw1D(drawStr.Data(), sector, cuts, "goff"); | |
614 | TH1F *htemp = (TH1F*)gDirectory->Get("tempHist"); | |
615 | // FIXME is this histogram deleted automatically? | |
616 | Double_t *values = fTree->GetV1(); // value is the array containing 'entries' numbers | |
617 | ||
618 | Double_t mean = TMath::Mean(entries, values); | |
619 | Double_t median = TMath::Median(entries, values); | |
620 | Double_t sigma = TMath::RMS(entries, values); | |
621 | ||
622 | TLegend * legend = new TLegend(.7,.7, .99, .99, "Cumulative"); | |
623 | //fListOfObjectsToBeDeleted->Add(legend); | |
624 | TH1F *cutHistoMean = 0; | |
625 | TH1F *cutHistoMedian = 0; | |
626 | TH1F *cutHistoLTM = 0; | |
627 | ||
628 | TObjArray *sigmasTokens = TString(sigmas).Tokenize(";"); | |
629 | TVectorF nsigma(sigmasTokens->GetEntriesFast()); | |
630 | for (Int_t i = 0; i < sigmasTokens->GetEntriesFast(); i++) { | |
631 | TString str(((TObjString*)sigmasTokens->At(i))->GetString()); | |
632 | Double_t sig = (str.IsFloat()) ? str.Atof() : 0; | |
633 | nsigma[i] = sig; | |
634 | } | |
635 | ||
636 | if (plotMean) { | |
637 | cutHistoMean = SigmaCut(htemp, mean, sigma, sigmaMax, sigmaStep, pm); | |
638 | if (cutHistoMean) { | |
639 | //fListOfObjectsToBeDeleted->Add(cutHistoMean); | |
640 | cutHistoMean->SetLineColor(kRed); | |
641 | legend->AddEntry(cutHistoMean, "Mean", "l"); | |
642 | cutHistoMean->SetTitle(Form("%s, cumulative; Multiples of #sigma; Fraction of included data", htemp->GetTitle())); | |
643 | cutHistoMean->Draw(); | |
644 | DrawLines(cutHistoMean, nsigma, legend, kRed, pm); | |
645 | } // if (cutHistoMean) | |
646 | ||
647 | } | |
648 | if (plotMedian) { | |
649 | cutHistoMedian = SigmaCut(htemp, median, sigma, sigmaMax, sigmaStep, pm); | |
650 | if (cutHistoMedian) { | |
651 | //fListOfObjectsToBeDeleted->Add(cutHistoMedian); | |
652 | cutHistoMedian->SetLineColor(kBlue); | |
653 | legend->AddEntry(cutHistoMedian, "Median", "l"); | |
654 | cutHistoMedian->SetTitle(Form("%s, cumulative; Multiples of #sigma; Fraction of included data", htemp->GetTitle())); | |
655 | if (plotMean && cutHistoMean) cutHistoMedian->Draw("same"); | |
656 | else cutHistoMedian->Draw(); | |
657 | DrawLines(cutHistoMedian, nsigma, legend, kBlue, pm); | |
658 | } // if (cutHistoMedian) | |
659 | } | |
660 | if (plotLTM) { | |
661 | Double_t ltmRms = 0; | |
662 | Double_t ltm = GetLTM(entries, values, <mRms, ltmFraction); | |
663 | cutHistoLTM = SigmaCut(htemp, ltm, ltmRms, sigmaMax, sigmaStep, pm); | |
664 | if (cutHistoLTM) { | |
665 | //fListOfObjectsToBeDeleted->Add(cutHistoLTM); | |
666 | cutHistoLTM->SetLineColor(kGreen+2); | |
667 | legend->AddEntry(cutHistoLTM, "LTM", "l"); | |
668 | cutHistoLTM->SetTitle(Form("%s, cumulative; Multiples of #sigma; Fraction of included data", htemp->GetTitle())); | |
669 | if ((plotMean && cutHistoMean) || (plotMedian && cutHistoMedian)) cutHistoLTM->Draw("same"); | |
670 | else cutHistoLTM->Draw(); | |
671 | DrawLines(cutHistoLTM, nsigma, legend, kGreen+2, pm); | |
672 | } | |
673 | } | |
674 | if (!plotMean && !plotMedian && !plotLTM) return -1; | |
675 | legend->Draw(); | |
676 | return 1; | |
677 | } | |
678 | ||
679 | //_____________________________________________________________________________ | |
680 | Int_t AliBaseCalibViewer::Integrate(const Char_t* drawCommand, const Char_t* sector, const Char_t* cuts, | |
9cc39f20 | 681 | Float_t /*sigmaMax*/, Bool_t plotMean, Bool_t plotMedian, Bool_t plotLTM, |
682 | const Char_t *sigmas, Float_t /*sigmaStep*/) const { | |
11a2ac51 | 683 | // |
684 | // Creates an integrated histogram Begin_Latex S(t, #mu, #sigma) End_Latex, out of the input distribution distribution Begin_Latex f(x, #mu, #sigma) End_Latex, given in "histogram" | |
685 | // "mean" and "sigma" are Begin_Latex #mu End_Latex and Begin_Latex #sigma End_Latex of the distribution in "histogram", to be specified by the user | |
686 | // sigmaMax: up to which sigma around the mean/median/LTM you want to integrate | |
687 | // if "igma == 0" and "sigmaMax == 0" the whole histogram is integrated | |
688 | // "sigmaStep": the binsize of the generated histogram, -1 means, that the maximal reasonable stepsize is used | |
689 | // The actual work is done on the array. | |
690 | /* Begin_Latex | |
6a1caa6b | 691 | f(x, #mu, #sigma) #Rightarrow S(t, #mu, #sigma) = #int_{-#infty}^{#mu + t #sigma} f(x, #mu, #sigma) dx / #int_{-#infty}^{+#infty} f(x, #mu, #sigma) dx |
11a2ac51 | 692 | End_Latex |
693 | */ | |
694 | ||
695 | Double_t ltmFraction = 0.8; | |
11a2ac51 | 696 | |
697 | TString drawStr(drawCommand); | |
698 | Bool_t dangerousToDraw = drawStr.Contains(":") || drawStr.Contains(">>"); | |
699 | if (dangerousToDraw) { | |
700 | Warning("Integrate", "The draw string must not contain ':' or '>>'."); | |
701 | return -1; | |
702 | } | |
703 | drawStr += " >> tempHist"; | |
704 | ||
705 | Int_t entries = EasyDraw1D(drawStr.Data(), sector, cuts, "goff"); | |
706 | TH1F *htemp = (TH1F*)gDirectory->Get("tempHist"); | |
707 | TGraph *integralGraphMean = 0; | |
708 | TGraph *integralGraphMedian = 0; | |
709 | TGraph *integralGraphLTM = 0; | |
710 | Double_t *values = fTree->GetV1(); // value is the array containing 'entries' numbers | |
711 | Int_t *index = new Int_t[entries]; | |
712 | Float_t *xarray = new Float_t[entries]; | |
713 | Float_t *yarray = new Float_t[entries]; | |
714 | TMath::Sort(entries, values, index, kFALSE); | |
715 | ||
716 | Double_t mean = TMath::Mean(entries, values); | |
717 | Double_t median = TMath::Median(entries, values); | |
718 | Double_t sigma = TMath::RMS(entries, values); | |
719 | ||
720 | // parse sigmas string | |
721 | TObjArray *sigmasTokens = TString(sigmas).Tokenize(";"); | |
722 | TVectorF nsigma(sigmasTokens->GetEntriesFast()); | |
723 | for (Int_t i = 0; i < sigmasTokens->GetEntriesFast(); i++) { | |
724 | TString str(((TObjString*)sigmasTokens->At(i))->GetString()); | |
725 | Double_t sig = (str.IsFloat()) ? str.Atof() : 0; | |
726 | nsigma[i] = sig; | |
727 | } | |
728 | ||
729 | TLegend * legend = new TLegend(.7,.7, .99, .99, "Integrated histogram"); | |
730 | //fListOfObjectsToBeDeleted->Add(legend); | |
731 | ||
732 | if (plotMean) { | |
733 | for (Int_t i = 0; i < entries; i++) { | |
734 | xarray[i] = (values[index[i]] - mean) / sigma; | |
735 | yarray[i] = float(i) / float(entries); | |
736 | } | |
737 | integralGraphMean = new TGraph(entries, xarray, yarray); | |
738 | if (integralGraphMean) { | |
739 | //fListOfObjectsToBeDeleted->Add(integralGraphMean); | |
740 | integralGraphMean->SetLineColor(kRed); | |
741 | legend->AddEntry(integralGraphMean, "Mean", "l"); | |
742 | integralGraphMean->SetTitle(Form("%s, integrated; Multiples of #sigma; Fraction of included data", htemp->GetTitle())); | |
743 | integralGraphMean->Draw("alu"); | |
744 | DrawLines(integralGraphMean, nsigma, legend, kRed, kTRUE); | |
745 | } | |
746 | } | |
747 | if (plotMedian) { | |
748 | for (Int_t i = 0; i < entries; i++) { | |
749 | xarray[i] = (values[index[i]] - median) / sigma; | |
750 | yarray[i] = float(i) / float(entries); | |
751 | } | |
752 | integralGraphMedian = new TGraph(entries, xarray, yarray); | |
753 | if (integralGraphMedian) { | |
754 | //fListOfObjectsToBeDeleted->Add(integralGraphMedian); | |
755 | integralGraphMedian->SetLineColor(kBlue); | |
756 | legend->AddEntry(integralGraphMedian, "Median", "l"); | |
757 | integralGraphMedian->SetTitle(Form("%s, integrated; Multiples of #sigma; Fraction of included data", htemp->GetTitle())); | |
758 | if (plotMean && integralGraphMean) integralGraphMedian->Draw("samelu"); | |
759 | else integralGraphMedian->Draw("alu"); | |
760 | DrawLines(integralGraphMedian, nsigma, legend, kBlue, kTRUE); | |
761 | } | |
762 | } | |
763 | if (plotLTM) { | |
764 | Double_t ltmRms = 0; | |
765 | Double_t ltm = GetLTM(entries, values, <mRms, ltmFraction); | |
766 | for (Int_t i = 0; i < entries; i++) { | |
767 | xarray[i] = (values[index[i]] - ltm) / ltmRms; | |
768 | yarray[i] = float(i) / float(entries); | |
769 | } | |
770 | integralGraphLTM = new TGraph(entries, xarray, yarray); | |
771 | if (integralGraphLTM) { | |
772 | //fListOfObjectsToBeDeleted->Add(integralGraphLTM); | |
773 | integralGraphLTM->SetLineColor(kGreen+2); | |
774 | legend->AddEntry(integralGraphLTM, "LTM", "l"); | |
775 | integralGraphLTM->SetTitle(Form("%s, integrated; Multiples of #sigma; Fraction of included data", htemp->GetTitle())); | |
776 | if ((plotMean && integralGraphMean) || (plotMedian && integralGraphMedian)) integralGraphLTM->Draw("samelu"); | |
777 | else integralGraphLTM->Draw("alu"); | |
778 | DrawLines(integralGraphLTM, nsigma, legend, kGreen+2, kTRUE); | |
779 | } | |
780 | } | |
0dd616b4 | 781 | delete [] index; |
782 | delete [] xarray; | |
783 | delete [] yarray; | |
11a2ac51 | 784 | if (!plotMean && !plotMedian && !plotLTM) return -1; |
785 | legend->Draw(); | |
786 | return entries; | |
787 | } | |
788 | ||
789 | //_____________________________________________________________________________ | |
790 | TH1F* AliBaseCalibViewer::Integrate(TH1F *histogram, Float_t mean, Float_t sigma, Float_t sigmaMax, Float_t sigmaStep){ | |
791 | // | |
792 | // Creates an integrated histogram Begin_Latex S(t, #mu, #sigma) End_Latex, out of the input distribution distribution Begin_Latex f(x, #mu, #sigma) End_Latex, given in "histogram" | |
793 | // "mean" and "sigma" are Begin_Latex #mu End_Latex and Begin_Latex #sigma End_Latex of the distribution in "histogram", to be specified by the user | |
794 | // sigmaMax: up to which sigma around the mean/median/LTM you want to integrate | |
795 | // if "igma == 0" and "sigmaMax == 0" the whole histogram is integrated | |
796 | // "sigmaStep": the binsize of the generated histogram, -1 means, that the maximal reasonable stepsize is used | |
797 | // The actual work is done on the array. | |
798 | /* Begin_Latex | |
6a1caa6b | 799 | f(x, #mu, #sigma) #Rightarrow S(t, #mu, #sigma) = #int_{-#infty}^{#mu + t #sigma} f(x, #mu, #sigma) dx / #int_{-#infty}^{+#infty} f(x, #mu, #sigma) dx |
11a2ac51 | 800 | End_Latex |
6a1caa6b | 801 | Begin_Macro(source) |
11a2ac51 | 802 | { |
803 | Float_t mean = 0; | |
804 | Float_t sigma = 1.5; | |
805 | Float_t sigmaMax = 4; | |
806 | gROOT->SetStyle("Plain"); | |
807 | TH1F *distribution = new TH1F("Distribution2", "Distribution f(x, #mu, #sigma)", 1000,-5,5); | |
808 | TRandom rand(23); | |
809 | for (Int_t i = 0; i <50000;i++) distribution->Fill(rand.Gaus(mean, sigma)); | |
810 | Float_t *ar = distribution->GetArray(); | |
811 | ||
812 | TCanvas* macro_example_canvas = new TCanvas("macro_example_canvas_Integrate", "", 350, 350); | |
813 | macro_example_canvas->Divide(0,2); | |
814 | TVirtualPad *pad1 = macro_example_canvas->cd(1); | |
815 | pad1->SetGridy(); | |
816 | pad1->SetGridx(); | |
817 | distribution->Draw(); | |
818 | TVirtualPad *pad2 = macro_example_canvas->cd(2); | |
819 | pad2->SetGridy(); | |
820 | pad2->SetGridx(); | |
821 | TH1F *shist = AliTPCCalibViewer::Integrate(distribution, mean, sigma, sigmaMax); | |
822 | shist->SetNameTitle("Cumulative","Cumulative S(t, #mu, #sigma)"); | |
823 | shist->Draw(); | |
824 | ||
825 | return macro_example_canvas_Integrate; | |
826 | } | |
6a1caa6b | 827 | End_Macro |
11a2ac51 | 828 | */ |
829 | ||
830 | ||
831 | Float_t *array = histogram->GetArray(); | |
832 | Int_t nbins = histogram->GetXaxis()->GetNbins(); | |
833 | Float_t binLow = histogram->GetXaxis()->GetXmin(); | |
834 | Float_t binUp = histogram->GetXaxis()->GetXmax(); | |
835 | return Integrate(nbins, array, nbins, binLow, binUp, mean, sigma, sigmaMax, sigmaStep); | |
836 | } | |
837 | ||
838 | //_____________________________________________________________________________ | |
839 | TH1F* AliBaseCalibViewer::Integrate(Int_t n, Float_t *array, Int_t nbins, Float_t binLow, Float_t binUp, | |
840 | Float_t mean, Float_t sigma, Float_t sigmaMax, Float_t sigmaStep){ | |
841 | // Creates an integrated histogram Begin_Latex S(t, #mu, #sigma) End_Latex, out of the input distribution distribution Begin_Latex f(x, #mu, #sigma) End_Latex, given in "histogram" | |
842 | // "mean" and "sigma" are Begin_Latex #mu End_Latex and Begin_Latex #sigma End_Latex of the distribution in "histogram", to be specified by the user | |
843 | // sigmaMax: up to which sigma around the mean/median/LTM you want to integrate | |
844 | // if "igma == 0" and "sigmaMax == 0" the whole histogram is integrated | |
845 | // "sigmaStep": the binsize of the generated histogram, -1 means, that the maximal reasonable stepsize is used | |
846 | // Here the actual work is done. | |
847 | ||
848 | Bool_t givenUnits = kTRUE; | |
849 | if (TMath::Abs(sigma) < 1.e-10 && TMath::Abs(sigmaMax) < 1.e-10) givenUnits = kFALSE; | |
850 | if (givenUnits) { | |
851 | sigma = 1; | |
852 | sigmaMax = (binUp - binLow) / 2.; | |
853 | } | |
854 | ||
855 | Float_t binWidth = (binUp-binLow)/(nbins - 1); | |
856 | if (sigmaStep <= 0) sigmaStep = binWidth; | |
857 | Int_t kbins = (Int_t)(sigmaMax * sigma / sigmaStep) + 1; // + 1 due to overflow bin in histograms | |
858 | Float_t kbinLow = givenUnits ? binLow : -sigmaMax; | |
859 | Float_t kbinUp = givenUnits ? binUp : sigmaMax; | |
860 | TH1F *hist = 0; | |
861 | if (givenUnits) hist = new TH1F("integratedHisto","Integrated Histogram; Given x; Fraction of included data", kbins, kbinLow, kbinUp); | |
862 | if (!givenUnits) hist = new TH1F("integratedHisto","Integrated Histogram; Multiples of #sigma; Fraction of included data", kbins, kbinLow, kbinUp); | |
863 | hist->SetDirectory(0); | |
864 | hist->Reset(); | |
865 | ||
866 | // calculate normalization | |
867 | // printf("calculating normalization, integrating from bin 1 to %i \n", n); | |
868 | Double_t normalization = 0; | |
869 | for (Int_t i = 1; i <= n; i++) { | |
870 | normalization += array[i]; | |
871 | } | |
872 | // printf("normalization: %f \n", normalization); | |
873 | ||
874 | // given units: units from given histogram | |
875 | // sigma units: in units of sigma | |
876 | // iDelta: integrate in interval (mean +- iDelta), given units | |
877 | // x: ofset from mean for integration, given units | |
878 | // hist: needs | |
879 | ||
880 | // fill histogram | |
881 | for (Float_t iDelta = mean - sigmaMax * sigma; iDelta <= mean + sigmaMax * sigma; iDelta += sigmaStep) { | |
882 | // integrate array | |
883 | Double_t value = 0; | |
884 | for (Float_t x = mean - sigmaMax * sigma; x <= iDelta; x += binWidth) { | |
885 | value += (x <= binUp && x >= binLow) ? array[GetBin(x, nbins, binLow, binUp)] : 0; | |
886 | } | |
887 | if (value / normalization > 100) printf("+++ Error, value to big: %f, normalization with %f will fail +++ \n", value, normalization); | |
888 | if (value / normalization > 100) return hist; | |
889 | Int_t bin = GetBin(iDelta/sigma, kbins, kbinLow, kbinUp); | |
890 | // printf("first integration bin: %i, last integration bin: %i \n", GetBin(mean - sigmaMax * sigma, nbins, binLow, binUp), GetBin(iDelta, nbins, binLow, binUp)); | |
891 | // printf("value: %f, normalization: %f, normalized value: %f, iDelta: %f, Bin: %i \n", value, normalization, value/normalization, iDelta, bin); | |
892 | value = (value / normalization); | |
893 | hist->SetBinContent(bin, value); | |
894 | } | |
895 | return hist; | |
896 | } | |
897 | ||
898 | //_____________________________________________________________________________ | |
899 | void AliBaseCalibViewer::DrawLines(TH1F *histogram, TVectorF nsigma, TLegend *legend, Int_t color, Bool_t pm) const { | |
9a9e9b94 | 900 | // |
11a2ac51 | 901 | // Private function for SigmaCut(...) and Integrate(...) |
902 | // Draws lines into the given histogram, specified by "nsigma", the lines are addeed to the legend | |
9a9e9b94 | 903 | // |
904 | ||
11a2ac51 | 905 | // start to draw the lines, loop over requested sigmas |
9a9e9b94 | 906 | for (Int_t i = 0; i < nsigma.GetNoElements(); i++) { |
907 | if (!pm) { | |
908 | Int_t bin = histogram->GetXaxis()->FindBin(nsigma[i]); | |
909 | TLine* lineUp = new TLine(nsigma[i], 0, nsigma[i], histogram->GetBinContent(bin)); | |
11a2ac51 | 910 | //fListOfObjectsToBeDeleted->Add(lineUp); |
9a9e9b94 | 911 | lineUp->SetLineColor(color); |
912 | lineUp->SetLineStyle(2 + i); | |
913 | lineUp->Draw(); | |
914 | TLine* lineLeft = new TLine(nsigma[i], histogram->GetBinContent(bin), 0, histogram->GetBinContent(bin)); | |
11a2ac51 | 915 | //fListOfObjectsToBeDeleted->Add(lineLeft); |
9a9e9b94 | 916 | lineLeft->SetLineColor(color); |
917 | lineLeft->SetLineStyle(2 + i); | |
918 | lineLeft->Draw(); | |
919 | legend->AddEntry(lineLeft, Form("Fraction(%f #sigma) = %f",nsigma[i], histogram->GetBinContent(bin)), "l"); | |
920 | } | |
921 | else { // if (pm) | |
922 | Int_t bin = histogram->GetXaxis()->FindBin(nsigma[i]); | |
923 | TLine* lineUp1 = new TLine(nsigma[i], 0, nsigma[i], histogram->GetBinContent(bin)); | |
11a2ac51 | 924 | //fListOfObjectsToBeDeleted->Add(lineUp1); |
9a9e9b94 | 925 | lineUp1->SetLineColor(color); |
926 | lineUp1->SetLineStyle(2 + i); | |
927 | lineUp1->Draw(); | |
928 | TLine* lineLeft1 = new TLine(nsigma[i], histogram->GetBinContent(bin), histogram->GetBinLowEdge(0)+histogram->GetBinWidth(0), histogram->GetBinContent(bin)); | |
11a2ac51 | 929 | //fListOfObjectsToBeDeleted->Add(lineLeft1); |
9a9e9b94 | 930 | lineLeft1->SetLineColor(color); |
931 | lineLeft1->SetLineStyle(2 + i); | |
932 | lineLeft1->Draw(); | |
933 | legend->AddEntry(lineLeft1, Form("Fraction(+%f #sigma) = %f",nsigma[i], histogram->GetBinContent(bin)), "l"); | |
934 | bin = histogram->GetXaxis()->FindBin(-nsigma[i]); | |
935 | TLine* lineUp2 = new TLine(-nsigma[i], 0, -nsigma[i], histogram->GetBinContent(bin)); | |
11a2ac51 | 936 | //fListOfObjectsToBeDeleted->Add(lineUp2); |
9a9e9b94 | 937 | lineUp2->SetLineColor(color); |
938 | lineUp2->SetLineStyle(2 + i); | |
939 | lineUp2->Draw(); | |
940 | TLine* lineLeft2 = new TLine(-nsigma[i], histogram->GetBinContent(bin), histogram->GetBinLowEdge(0)+histogram->GetBinWidth(0), histogram->GetBinContent(bin)); | |
11a2ac51 | 941 | //fListOfObjectsToBeDeleted->Add(lineLeft2); |
9a9e9b94 | 942 | lineLeft2->SetLineColor(color); |
943 | lineLeft2->SetLineStyle(2 + i); | |
944 | lineLeft2->Draw(); | |
945 | legend->AddEntry(lineLeft2, Form("Fraction(-%f #sigma) = %f",nsigma[i], histogram->GetBinContent(bin)), "l"); | |
946 | } | |
947 | } // for (Int_t i = 0; i < nsigma.GetNoElements(); i++) | |
11a2ac51 | 948 | } |
949 | ||
950 | //_____________________________________________________________________________ | |
951 | void AliBaseCalibViewer::DrawLines(TGraph *graph, TVectorF nsigma, TLegend *legend, Int_t color, Bool_t pm) const { | |
9a9e9b94 | 952 | // |
11a2ac51 | 953 | // Private function for SigmaCut(...) and Integrate(...) |
954 | // Draws lines into the given histogram, specified by "nsigma", the lines are addeed to the legend | |
9a9e9b94 | 955 | // |
956 | ||
11a2ac51 | 957 | // start to draw the lines, loop over requested sigmas |
9a9e9b94 | 958 | for (Int_t i = 0; i < nsigma.GetNoElements(); i++) { |
959 | if (!pm) { | |
960 | TLine* lineUp = new TLine(nsigma[i], 0, nsigma[i], graph->Eval(nsigma[i])); | |
11a2ac51 | 961 | //fListOfObjectsToBeDeleted->Add(lineUp); |
9a9e9b94 | 962 | lineUp->SetLineColor(color); |
963 | lineUp->SetLineStyle(2 + i); | |
964 | lineUp->Draw(); | |
965 | TLine* lineLeft = new TLine(nsigma[i], graph->Eval(nsigma[i]), 0, graph->Eval(nsigma[i])); | |
11a2ac51 | 966 | //fListOfObjectsToBeDeleted->Add(lineLeft); |
9a9e9b94 | 967 | lineLeft->SetLineColor(color); |
968 | lineLeft->SetLineStyle(2 + i); | |
969 | lineLeft->Draw(); | |
970 | legend->AddEntry(lineLeft, Form("Fraction(%f #sigma) = %f",nsigma[i], graph->Eval(nsigma[i])), "l"); | |
971 | } | |
972 | else { // if (pm) | |
973 | TLine* lineUp1 = new TLine(nsigma[i], 0, nsigma[i], graph->Eval(nsigma[i])); | |
11a2ac51 | 974 | //fListOfObjectsToBeDeleted->Add(lineUp1); |
9a9e9b94 | 975 | lineUp1->SetLineColor(color); |
976 | lineUp1->SetLineStyle(2 + i); | |
977 | lineUp1->Draw(); | |
978 | TLine* lineLeft1 = new TLine(nsigma[i], graph->Eval(nsigma[i]), graph->GetHistogram()->GetXaxis()->GetBinLowEdge(0), graph->Eval(nsigma[i])); | |
11a2ac51 | 979 | //fListOfObjectsToBeDeleted->Add(lineLeft1); |
9a9e9b94 | 980 | lineLeft1->SetLineColor(color); |
981 | lineLeft1->SetLineStyle(2 + i); | |
982 | lineLeft1->Draw(); | |
983 | legend->AddEntry(lineLeft1, Form("Fraction(+%f #sigma) = %f",nsigma[i], graph->Eval(nsigma[i])), "l"); | |
984 | TLine* lineUp2 = new TLine(-nsigma[i], 0, -nsigma[i], graph->Eval(-nsigma[i])); | |
11a2ac51 | 985 | //fListOfObjectsToBeDeleted->Add(lineUp2); |
9a9e9b94 | 986 | lineUp2->SetLineColor(color); |
987 | lineUp2->SetLineStyle(2 + i); | |
988 | lineUp2->Draw(); | |
989 | TLine* lineLeft2 = new TLine(-nsigma[i], graph->Eval(-nsigma[i]), graph->GetHistogram()->GetXaxis()->GetBinLowEdge(0), graph->Eval(-nsigma[i])); | |
11a2ac51 | 990 | //fListOfObjectsToBeDeleted->Add(lineLeft2); |
9a9e9b94 | 991 | lineLeft2->SetLineColor(color); |
992 | lineLeft2->SetLineStyle(2 + i); | |
993 | lineLeft2->Draw(); | |
994 | legend->AddEntry(lineLeft2, Form("Fraction(-%f #sigma) = %f",nsigma[i], graph->Eval(-nsigma[i])), "l"); | |
995 | } | |
996 | } // for (Int_t i = 0; i < nsigma.GetNoElements(); i++) | |
11a2ac51 | 997 | } |