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c1869a7c | 1 | // Author: Benjamin Hess 29/01/2010 |
2670605d | 2 | |
3 | /************************************************************************* | |
c1869a7c | 4 | * Copyright (C) 2009-2010, Alexandru Bercuci, Benjamin Hess. * |
2670605d | 5 | * All rights reserved. * |
6 | *************************************************************************/ | |
7 | ||
c1869a7c | 8 | |
16db6074 | 9 | ////////////////////////////////////////////////////////////////////////// |
10 | // // | |
2670605d | 11 | // AliEveTRDTrackList // |
12 | // // | |
16db6074 | 13 | // An AliEveTRDTrackList is, in principal, a TEveElementList with some // |
14 | // sophisticated features. You can add macros to this list, which then // | |
15 | // can be applied to the list of tracks (these tracks can be added to // | |
16 | // the list in the same way as for the TEveElementList). In general, // | |
17 | // please use AddMacro(...) for this purpose. // | |
18 | // Macros that are no longer needed can be removed from the list via // | |
38a30030 | 19 | // RemoveSelectedMacros(...).This function takes an iterator of the // |
20 | // list of macros that are to be removed. // | |
16db6074 | 21 | // be removed. An entry looks like: // |
38a30030 | 22 | // The data for each macro consists of path, name, type and the command // |
23 | // that will be used to apply the macro. This stuff is stored in a map // | |
24 | // which takes the macro name for the key and the above mentioned data // | |
25 | // in a TMacroData-object for the value. // | |
26 | // You can get the macro type via GetMacroType(...). // | |
2670605d | 27 | // With ApplySTSelectionMacros(...) or ApplyProcessMacros(...) // |
16db6074 | 28 | // respectively you can apply the macros to the track list via // |
38a30030 | 29 | // iterators (same style like for RemoveSelectedMacros(...)(cf. above)).// |
16db6074 | 30 | // Selection macros (de-)select macros according to a selection rule // |
31 | // by setting the rnr-state of the tracks. // | |
32 | // If multiple selection macros are applied, a track is selected, if // | |
33 | // all selection macros select the track. // | |
34 | // Process macros create data or histograms, which will be stored in // | |
35 | // a temporary file. The editor of this class will access this file // | |
36 | // and draw all the stuff within it's DrawHistos() function. The file // | |
37 | // will be deleted by the destructor. // | |
38 | // // | |
39 | // Currently, the following macro types are supported: // | |
40 | // Selection macros: // | |
41 | // Bool_t YourMacro(const AliTRDtrackV1*); // | |
42 | // Bool_t YourMacro(const AliTRDtrackV1*, const AliTRDtrackV1*); // | |
43 | // // | |
44 | // Process macros: // | |
45 | // void YourMacro(const AliTRDtrackV1*, Double_t*&, Int_t&); // | |
46 | // void YourMacro(const AliTRDtrackV1*, const AliTRDtrackV1*, // | |
47 | // Double_t*&, Int_t&); // | |
48 | // TH1* YourMacro(const AliTRDtrackV1*); // | |
49 | // TH1* YourMacro(const AliTRDtrackV1*, const AliTRDtrackV1*); // | |
50 | // // | |
38a30030 | 51 | // The macros which take 2 tracks are applied to all track pairs // |
52 | // (whereby BOTH tracks of the pair have to be selected by the single // | |
53 | // track selection macros and have to be unequal, otherwise they will // | |
54 | // be skipped) that have been selected by ALL correlated tracks // | |
55 | // selection macros. The selection macros with 2 tracks do NOT affect // | |
56 | // process macros that process only a single track! // | |
16db6074 | 57 | ////////////////////////////////////////////////////////////////////////// |
58 | ||
59 | ||
caaf90d2 | 60 | // Uncomment to display debugging infos |
61 | //#define ALIEVETRDTRACKLIST_DEBUG | |
62 | ||
caaf90d2 | 63 | #include <TFile.h> |
64 | #include <TFunction.h> | |
c413e8d4 | 65 | #include <TH1.h> |
caaf90d2 | 66 | #include <TList.h> |
8bdeb570 | 67 | #include <TMap.h> |
caaf90d2 | 68 | #include <TObjString.h> |
69 | #include <TROOT.h> | |
70 | #include <TSystem.h> | |
71 | #include <TTree.h> | |
72 | #include <TTreeStream.h> | |
db16b708 | 73 | #include <TMethodCall.h> |
74 | ||
75 | #include <AliTRDReconstructor.h> | |
76 | ||
db16b708 | 77 | #include <EveDet/AliEveTRDTrackList.h> |
78 | #include <EveDet/AliEveTRDTrackListEditor.h> | |
79 | ||
5964947f | 80 | #include <../PWG1/TRD/AliTRDrecoTask.h> |
81 | #include <../PWG1/TRD/macros/AliTRDperformanceTrain.h> | |
ecbbe371 | 82 | |
2ef0687e | 83 | ClassImp(AliEveTRDTrackList) |
84 | ||
85 | /////////////////////////////////////////////////////////// | |
86 | ///////////// AliEveTRDTrackList //////////////////////// | |
87 | /////////////////////////////////////////////////////////// | |
8bdeb570 | 88 | AliEveTRDTrackList::AliEveTRDTrackList(const Text_t* n, const Text_t* t, Bool_t doColor): |
89 | TEveElementList(n, t, doColor), | |
1e536dd4 | 90 | fEditor(0x0), |
91 | fDataFromMacroList(0x0), | |
92 | fMacroList(0x0), | |
93 | fDataTree(0x0), | |
8bdeb570 | 94 | fHistoDataSelected(0), |
95 | fMacroListSelected(0), | |
8bdeb570 | 96 | fSelectedTab(1), // Standard tab: "Apply macros" (index 1) |
1e536dd4 | 97 | fSelectedStyle(0) |
2ef0687e | 98 | { |
16db6074 | 99 | // Creates the AliEveTRDTrackList. |
100 | ||
caaf90d2 | 101 | // Only accept childs of type AliEveTRDTrack |
2ef0687e | 102 | SetChildClass(AliEveTRDTrack::Class()); |
103 | ||
e007877e | 104 | // Allocate memory for the lists and declare them as owners of their contents |
caaf90d2 | 105 | fDataFromMacroList = new TList(); |
e007877e | 106 | fDataFromMacroList->TCollection::SetOwner(kTRUE); |
caaf90d2 | 107 | |
38a30030 | 108 | fMacroList = new TMap(); |
e007877e | 109 | // Set map to owner of it's objects to delete them, if they are removed from the map |
38a30030 | 110 | fMacroList->SetOwnerKeyValue(kTRUE, kTRUE); |
8bdeb570 | 111 | |
ecbbe371 | 112 | // Set the build directory for AClic |
1e536dd4 | 113 | if(gSystem->AccessPathName(Form("%s/.trdQArec" , gSystem->Getenv("HOME")))) gSystem->Exec("mkdir $HOME/.trdQArec"); |
114 | gSystem->SetBuildDir(Form("%s/.trdQArec", gSystem->Getenv("HOME"))); | |
caaf90d2 | 115 | |
db16b708 | 116 | AddStandardContent(); |
caaf90d2 | 117 | } |
118 | ||
8e27fca1 | 119 | //______________________________________________________ |
caaf90d2 | 120 | AliEveTRDTrackList::~AliEveTRDTrackList() |
121 | { | |
16db6074 | 122 | // Frees allocated memory (lists etc.). |
123 | ||
38a30030 | 124 | // Let the editor know that the list will be destroyed -> The editor will save the data |
125 | if (fEditor != 0) | |
caaf90d2 | 126 | { |
38a30030 | 127 | fEditor->SaveMacroList(fMacroList); |
128 | fEditor = 0; | |
caaf90d2 | 129 | } |
38a30030 | 130 | |
caaf90d2 | 131 | if (fDataFromMacroList != 0) |
132 | { | |
c413e8d4 | 133 | fDataFromMacroList->Delete(); |
caaf90d2 | 134 | delete fDataFromMacroList; |
135 | fDataFromMacroList = 0; | |
136 | } | |
137 | if (fDataTree != 0) | |
138 | { | |
139 | delete fDataTree; | |
140 | fDataTree = 0; | |
141 | } | |
38a30030 | 142 | if (fMacroList != 0) |
8bdeb570 | 143 | { |
38a30030 | 144 | fMacroList->DeleteAll(); |
145 | delete fMacroList; | |
146 | fMacroList = 0; | |
8bdeb570 | 147 | } |
ecbbe371 | 148 | // Note: gSystem->AccessPathName(...) returns kTRUE, if the access FAILED! |
149 | if(!gSystem->AccessPathName(Form("/tmp/TRD.TrackListMacroData_%s.root", gSystem->Getenv("USER")))) | |
150 | gSystem->Exec(Form("rm /tmp/TRD.TrackListMacroData_%s.root", gSystem->Getenv("USER"))); | |
caaf90d2 | 151 | } |
152 | ||
8e27fca1 | 153 | //______________________________________________________ |
c413e8d4 | 154 | Int_t AliEveTRDTrackList::AddMacro(const Char_t* path, const Char_t* nameC, Bool_t forceReload) |
caaf90d2 | 155 | { |
16db6074 | 156 | // Checks, if the file exists and if the signature is correct. |
157 | // If these criteria are fullfilled, the library for this macro is built | |
158 | // and the macro is added to the corresponding list. | |
159 | // Supported macro types: | |
160 | // Selection macros: | |
161 | // Bool_t YourMacro(const AliTRDtrackV1*) | |
162 | // Bool_t YourMacro(const AliTRDtrackV1*, const AliTRDtrackV1*) | |
163 | // | |
164 | // Process macros: | |
165 | // void YourMacro(const AliTRDtrackV1*, Double_t*&, Int_t&) | |
166 | // void YourMacro(const AliTRDtrackV1*, const AliTRDtrackV1*, | |
167 | // Double_t*&, Int_t&) | |
168 | // TH1* YourMacro(const AliTRDtrackV1*) | |
38a30030 | 169 | // TH1* YourMacro(const AliTRDtrackV1*, const AliTRDtrackV1*) |
caaf90d2 | 170 | |
4f6473f6 | 171 | Char_t pathname[fkMaxMacroPathNameLength]; |
172 | memset(pathname, '\0', sizeof(Char_t) * fkMaxMacroPathNameLength); | |
caaf90d2 | 173 | |
174 | // Expand the path and create the pathname | |
175 | Char_t* systemPath = gSystem->ExpandPathName(path); | |
176 | sprintf(pathname, "%s/%s", systemPath, nameC); | |
177 | delete systemPath; | |
178 | systemPath = 0; | |
179 | ||
180 | // Delete ".C" from filename | |
4f6473f6 | 181 | Char_t name[fkMaxMacroNameLength]; |
182 | memset(name, '\0', sizeof(Char_t) * fkMaxMacroNameLength); | |
183 | ||
184 | for (UInt_t ind = 0; ind < fkMaxMacroNameLength && ind < strlen(nameC) - 2; ind++) name[ind] = nameC[ind]; | |
caaf90d2 | 185 | |
186 | // Check, if files exists | |
db16b708 | 187 | FILE* fp = 0x0; |
188 | if((fp = fopen(pathname, "rb"))){ | |
caaf90d2 | 189 | fclose(fp); |
db16b708 | 190 | fp = 0x0; |
191 | } else return NOT_EXIST_ERROR; | |
38a30030 | 192 | |
caaf90d2 | 193 | // Clean up root, load the desired macro and then check the type of the macro |
db16b708 | 194 | // A.B. gROOT->Reset(); |
c413e8d4 | 195 | |
db16b708 | 196 | gROOT->ProcessLineSync(Form(".L %s+%c", pathname, forceReload ? '+' : ' ')); |
caaf90d2 | 197 | |
00dc25ef | 198 | // We need this line... otherwise, in some cases, there will be problems concerning ACLIC |
199 | gROOT->ProcessLineSync(Form(".L %s", pathname)); | |
200 | ||
38a30030 | 201 | AliEveTRDTrackListMacroType type = GetMacroType(name, kFALSE); |
caaf90d2 | 202 | |
4f6473f6 | 203 | // Clean up again |
db16b708 | 204 | // A.B. gROOT->Reset(); |
4f6473f6 | 205 | |
caaf90d2 | 206 | // Has not the correct signature! |
38a30030 | 207 | if (type == kUnknown) return SIGNATURE_ERROR; |
caaf90d2 | 208 | |
caaf90d2 | 209 | // Only add macro, if it is not already in the list |
db16b708 | 210 | Int_t returnValue = WARNING; |
211 | if(fMacroList->GetValue(name) == 0) { | |
212 | returnValue = AddMacroFast(path, name, type) ? SUCCESS : ERROR; | |
caaf90d2 | 213 | } |
caaf90d2 | 214 | return returnValue; |
215 | } | |
c413e8d4 | 216 | |
217 | //______________________________________________________ | |
38a30030 | 218 | Bool_t AliEveTRDTrackList::AddMacroFast(const Char_t* path, const Char_t* name, AliEveTRDTrackListMacroType type) |
c413e8d4 | 219 | { |
38a30030 | 220 | // Adds a macro (path/name) to the corresponding list. No checks are performed (file exist, |
221 | // macro already in list/map, signature correct), no libraries are created! | |
222 | // You can use this function only, if the macro has been added successfully before | |
223 | // (and then maybe was removed). The function is very fast. On success kTRUE is returned, otherwise: kFALSE; | |
224 | ||
225 | Bool_t success = kFALSE; | |
16db6074 | 226 | |
8bdeb570 | 227 | switch (type) |
c413e8d4 | 228 | { |
e007877e | 229 | case kSingleTrackSelect: |
230 | case kCorrelTrackSelect: | |
e007877e | 231 | case kSingleTrackAnalyse: |
232 | case kSingleTrackHisto: | |
233 | case kCorrelTrackAnalyse: | |
234 | case kCorrelTrackHisto: | |
38a30030 | 235 | fMacroList->Add(new TObjString(name), new TMacroData(name, path, type)); |
8bdeb570 | 236 | |
237 | // We do not know, where the element has been inserted - deselect this list | |
238 | fMacroListSelected = 0; | |
38a30030 | 239 | |
240 | success = kTRUE; | |
241 | ||
242 | #ifdef ALIEVETRDTRACKLIST_DEBUG | |
243 | // Successfull add will only be displayed in debug mode | |
244 | printf("AliEveTRDTrackList::AddMacroFast: Added macro \"%s/%s\" to the corresponding list\n", path, name); | |
245 | #endif | |
246 | ||
8bdeb570 | 247 | break; |
c413e8d4 | 248 | |
38a30030 | 249 | default: |
250 | // Error will always be displayed | |
251 | printf("AliEveTRDTrackList::AddMacroFast: ERROR: Could not add macro \"%s/%s\" to the corresponding list\n", | |
252 | path, name); | |
16db6074 | 253 | |
38a30030 | 254 | success = kFALSE; |
caaf90d2 | 255 | |
38a30030 | 256 | break; |
c413e8d4 | 257 | } |
38a30030 | 258 | |
259 | return success; | |
caaf90d2 | 260 | } |
c413e8d4 | 261 | |
8e27fca1 | 262 | //______________________________________________________ |
db16b708 | 263 | void AliEveTRDTrackList::AddStandardContent() |
caaf90d2 | 264 | { |
38a30030 | 265 | // Adds standard macros to the macro list. |
16db6074 | 266 | |
caaf90d2 | 267 | // Add your standard macros here, e.g.: |
8bdeb570 | 268 | // To add a macro use: |
caaf90d2 | 269 | // AddMacro("$(ALICE_ROOT)/myFolder", "myMacroName.C"); |
270 | // -> If the file does not exist, nothing happens. So if you want to handle this, | |
271 | // use the return value of AddMacro (NOT_EXIST_ERROR is returned, if file does not exist) | |
5715955a | 272 | // (-> You can also check for other return values (see AddMacro(...))) |
db16b708 | 273 | |
a6a6a16e | 274 | const Char_t *libs[] = {"libANALYSIS.so", "libANALYSISalice.so", "libTENDER.so", "libPWG1.so"}; |
22604c13 | 275 | Int_t nlibs = static_cast<Int_t>(sizeof(libs)/sizeof(Char_t *)); |
276 | for(Int_t ilib=0; ilib<nlibs; ilib++){ | |
277 | if(gSystem->Load(libs[ilib]) >= 0) continue; | |
278 | AliError(Form("Fail loading %s.", libs[ilib])); | |
279 | return; | |
280 | } | |
281 | ||
db16b708 | 282 | AliTRDrecoTask *task = 0x0; |
283 | TList *fPlots = 0x0; | |
2a9a70dc | 284 | for(Int_t it=2; it<NTRDQATASKS; it++){ |
db16b708 | 285 | TClass c(fgkTRDtaskClassName[it]); |
286 | task = (AliTRDrecoTask*)c.New(); | |
50db8cc0 | 287 | task->SetMCdata(kFALSE); |
db16b708 | 288 | if(!(fPlots = task->GetPlotFunctors())){ |
50db8cc0 | 289 | //AliWarning(Form("No Plot functors defined for task \"%s\"", fgkTRDtaskClassName[it])); |
db16b708 | 290 | delete task; |
291 | continue; | |
292 | } | |
293 | if(!(task->Histos())){ | |
50db8cc0 | 294 | //AliWarning(Form("No Ref Histograms defined for task \"%s\"", fgkTRDtaskClassName[it])); |
db16b708 | 295 | delete task; |
296 | continue; | |
297 | } | |
298 | ||
299 | // export task to CINT and add functions | |
300 | gROOT->ProcessLine(Form("%s* %s = (%s*)0x%lx;", fgkTRDtaskClassName[it], task->GetName(), fgkTRDtaskClassName[it], (void*)task)); | |
301 | TIter iter(fPlots); TMethodCall *m = 0x0; | |
302 | while((m = dynamic_cast<TMethodCall*>(iter()))){ | |
303 | AddMacroFast("", Form("%s->%s", task->GetName(), m->GetMethodName()), kSingleTrackHisto); | |
304 | } | |
305 | } | |
caaf90d2 | 306 | } |
307 | ||
8e27fca1 | 308 | //______________________________________________________ |
2670605d | 309 | Bool_t AliEveTRDTrackList::ApplyProcessMacros(const TList* selIterator, const TList* procIterator) |
caaf90d2 | 310 | { |
2670605d | 311 | // Uses the procIterator (for the selected process macros) to apply the selected macros to the data. |
16db6074 | 312 | // Returns kTRUE on success, otherwise kFALSE. If there no process macros selected, kTRUE is returned |
313 | // (this is no error!). | |
2670605d | 314 | // The single track process macros are applied to all selected tracks. |
315 | // The selIterator (for the selected selection macros) will be used to apply the correlated tracks selection | |
316 | // macros to all track pairs (whereby BOTH tracks have to be selected, otherwise they will be skipped). | |
317 | // All track pairs that have been selected by ALL correlated tracks selection macros will be processed by | |
318 | // the correlated tracks process macros. | |
16db6074 | 319 | |
ea24e1bc | 320 | // No process macros need to be processed |
2670605d | 321 | if (procIterator->GetEntries() <= 0) return kTRUE; |
ea24e1bc | 322 | |
323 | // Clear root | |
db16b708 | 324 | // A.B. gROOT->Reset(); |
ea24e1bc | 325 | |
326 | // Clear old data and re-allocate | |
db16b708 | 327 | if (fDataTree == 0x0){ |
328 | TDirectory *cwd = gDirectory; | |
329 | fDataTree = new TTreeSRedirector(Form("/tmp/TRD.TrackListMacroData_%s.root", gSystem->Getenv("USER"))); | |
330 | cwd->cd(); | |
331 | } | |
332 | if (!fDataTree){ | |
333 | Error("Apply process macros", Form("File \"/tmp/TRD.TrackListMacroData_%s.root\" could not be accessed properly!", gSystem->Getenv("USER"))); | |
ea24e1bc | 334 | return kFALSE; |
335 | } | |
336 | ||
db16b708 | 337 | if (fDataFromMacroList != 0) { |
e007877e | 338 | fDataFromMacroList->Delete(); |
339 | delete fDataFromMacroList; | |
340 | } | |
ea24e1bc | 341 | fDataFromMacroList = new TList(); |
e007877e | 342 | fDataFromMacroList->TCollection::SetOwner(kTRUE); |
ea24e1bc | 343 | |
344 | fHistoDataSelected = 0; | |
345 | ||
8e27fca1 | 346 | |
38a30030 | 347 | TMacroData* macro = 0; |
348 | ||
d52fea52 | 349 | TString* procCmds = 0; |
38a30030 | 350 | AliEveTRDTrackListMacroType* mProcType = 0; |
db16b708 | 351 | if (procIterator->GetEntries() > 0) { |
d52fea52 | 352 | procCmds = new TString[procIterator->GetEntries()]; |
38a30030 | 353 | mProcType = new AliEveTRDTrackListMacroType[procIterator->GetEntries()]; |
354 | } | |
2670605d | 355 | |
d52fea52 | 356 | TString* selCmds = 0; |
38a30030 | 357 | AliEveTRDTrackListMacroType* mSelType = 0; |
db16b708 | 358 | if (selIterator->GetEntries() > 0) { |
d52fea52 | 359 | selCmds = new TString[selIterator->GetEntries()]; |
38a30030 | 360 | mSelType = new AliEveTRDTrackListMacroType[selIterator->GetEntries()]; |
361 | } | |
362 | ||
2670605d | 363 | Bool_t selectedByCorrSelMacro = kFALSE; |
c413e8d4 | 364 | |
8bdeb570 | 365 | AliEveTRDTrackListMacroType macroType = kUnknown; |
c413e8d4 | 366 | Int_t numHistoMacros = 0; |
367 | TH1** histos = 0; | |
caaf90d2 | 368 | |
e007877e | 369 | AliEveTRDTrack* track1 = 0; |
370 | AliEveTRDTrack* track2 = 0; | |
caaf90d2 | 371 | |
2670605d | 372 | // Collect the commands for each process macro and add them to "data-from-list" |
db16b708 | 373 | for (Int_t i = 0; i < procIterator->GetEntries(); i++){ |
38a30030 | 374 | macro = (TMacroData*)fMacroList->GetValue(procIterator->At(i)->GetTitle()); |
e007877e | 375 | |
db16b708 | 376 | if (!macro){ |
38a30030 | 377 | Error("Apply process macros", |
db16b708 | 378 | Form("Macro list is corrupted: Macro \"%s\" is not registered!", |
379 | procIterator->At(i)->GetTitle())); | |
38a30030 | 380 | continue; |
e007877e | 381 | } |
38a30030 | 382 | |
383 | #ifdef ALIEVETRDTRACKLIST_DEBUG | |
384 | printf("AliEveTRDTrackList: Checking process macro: %s\n", macro->GetName()); | |
385 | #endif | |
386 | ||
387 | // Find the type of the process macro | |
388 | macroType = macro->GetType(); | |
db16b708 | 389 | if (macroType == kSingleTrackHisto || macroType == kCorrelTrackHisto){ |
2670605d | 390 | mProcType[i] = macroType; |
8bdeb570 | 391 | numHistoMacros++; |
392 | // Create the command | |
d52fea52 | 393 | procCmds[i] = macro->GetCmd(); |
8bdeb570 | 394 | |
395 | // Add to "data-from-list" -> Mark as a histo macro with the substring "(histo macro)" | |
38a30030 | 396 | fDataFromMacroList->Add(new TObjString(Form("%s (histo macro)", macro->GetName()))); |
db16b708 | 397 | } else if (macroType == kSingleTrackAnalyse || macroType == kCorrelTrackAnalyse) { |
2670605d | 398 | mProcType[i] = macroType; |
c413e8d4 | 399 | // Create the command |
d52fea52 | 400 | procCmds[i] = macro->GetCmd(); |
8bdeb570 | 401 | |
402 | // Add to "data-from-list" | |
38a30030 | 403 | fDataFromMacroList->Add(new TObjString(macro->GetName())); |
db16b708 | 404 | } else { |
8bdeb570 | 405 | Error("Apply process macros", |
db16b708 | 406 | Form("Macro list corrupted: Macro \"%s/%s.C\" is not registered as a process macro!", |
407 | macro->GetPath(), macro->GetName())); | |
2670605d | 408 | mProcType[i] = kUnknown; |
409 | } | |
410 | } | |
411 | ||
412 | // Collect the commands for each selection macro and add them to "data-from-list" | |
db16b708 | 413 | for (Int_t i = 0; i < selIterator->GetEntries(); i++){ |
38a30030 | 414 | macro = (TMacroData*)fMacroList->GetValue(selIterator->At(i)->GetTitle()); |
415 | ||
db16b708 | 416 | if (!macro){ |
38a30030 | 417 | Error("Apply process macros", |
db16b708 | 418 | Form("Macro list is corrupted: Macro \"%s\" is not registered!", |
419 | selIterator->At(i)->GetTitle())); | |
38a30030 | 420 | continue; |
2670605d | 421 | } |
38a30030 | 422 | |
423 | #ifdef ALIEVETRDTRACKLIST_DEBUG | |
424 | printf("AliEveTRDTrackList: Checking selection macro: %s\n", macro->GetName()); | |
425 | #endif | |
2670605d | 426 | |
427 | // Find the type of the process macro | |
38a30030 | 428 | macroType = macro->GetType(); |
429 | ||
2670605d | 430 | // Single track select macro |
db16b708 | 431 | if (macroType == kSingleTrackSelect) { |
2670605d | 432 | // Has already been processed by ApplySTSelectionMacros(...) |
433 | mSelType[i] = macroType; | |
434 | } | |
435 | // Correlated tracks select macro | |
db16b708 | 436 | else if (macroType == kCorrelTrackSelect) { |
2670605d | 437 | mSelType[i] = macroType; |
438 | ||
439 | // Create the command | |
d52fea52 | 440 | selCmds[i] = macro->GetCmd(); |
db16b708 | 441 | } else { |
2670605d | 442 | Error("Apply process macros", |
db16b708 | 443 | Form("Macro list corrupted: Macro \"%s/%s.C\" is not registered as a selection macro!", |
444 | macro->GetPath(), macro->GetName())); | |
38a30030 | 445 | mSelType[i] = kUnknown; |
c413e8d4 | 446 | } |
8e27fca1 | 447 | } |
c413e8d4 | 448 | |
449 | // Allocate memory for the histograms | |
450 | if (numHistoMacros > 0) histos = new TH1*[numHistoMacros]; | |
db16b708 | 451 | for (Int_t i = 0; i < numHistoMacros; i++) histos[i] = 0x0; |
38a30030 | 452 | |
caaf90d2 | 453 | |
db16b708 | 454 | ////////////////////////////////// |
455 | // WALK THROUGH THE LIST OF TRACKS | |
456 | ////////////////////////////////// | |
457 | for (TEveElement::List_i iter = this->BeginChildren(); iter != this->EndChildren(); ++iter){ | |
458 | if(!(track1 = dynamic_cast<AliEveTRDTrack*>(*iter))) continue; | |
459 | ||
caaf90d2 | 460 | // Skip tracks that have not been selected |
e007877e | 461 | if (!track1->GetRnrState()) continue; |
38a30030 | 462 | |
caaf90d2 | 463 | // Cast to AliTRDtrackV1 |
db16b708 | 464 | gROOT->ProcessLineSync(Form("AliEveTRDTrack *automaticTrack = (AliEveTRDTrack*)0x%xl;", track1)); |
e007877e | 465 | gROOT->ProcessLineSync("AliTRDtrackV1* automaticTrackV1_1 = (AliTRDtrackV1*)automaticTrack->GetUserData();"); |
caaf90d2 | 466 | |
467 | // Collect data for each macro | |
db16b708 | 468 | for (Int_t i = 0, histoIndex = 0; i < procIterator->GetEntries(); i++){ |
e007877e | 469 | // Single track histo |
db16b708 | 470 | if (mProcType[i] == kSingleTrackHisto){ |
471 | histos[histoIndex++] = (TH1*)gROOT->ProcessLineSync(procCmds[i]); | |
472 | // Correlated tracks histo | |
473 | } else if (mProcType[i] == kCorrelTrackHisto) { | |
e007877e | 474 | // Loop over all pairs behind the current one - together with the other loop this will be a loop |
475 | // over all pairs. We have a pair of tracks, if and only if both tracks of the pair are selected (Rnr-state) | |
476 | // and are not equal. | |
00dc25ef | 477 | // The correlated tracks process macro will be applied to all pairs that will be additionally selected by |
2670605d | 478 | // all correlated tracks selection macros. |
e007877e | 479 | TEveElement::List_i iter2 = iter; |
480 | iter2++; | |
481 | for ( ; iter2 != this->EndChildren(); ++iter2) | |
482 | { | |
db16b708 | 483 | if(!(track2 = dynamic_cast<AliEveTRDTrack*>(*iter2))) continue; |
e007877e | 484 | |
e007877e | 485 | // Skip tracks that have not been selected |
486 | if (!track2->GetRnrState()) continue; | |
487 | ||
e007877e | 488 | // Cast to AliTRDtrackV1 |
db16b708 | 489 | gROOT->ProcessLineSync(Form("AliEveTRDTrack *automaticTrack = (AliEveTRDTrack*)0x%xl;", track2)); |
e007877e | 490 | gROOT->ProcessLineSync("AliTRDtrackV1* automaticTrackV1_2 = (AliTRDtrackV1*)automaticTrack->GetUserData();"); |
491 | ||
2670605d | 492 | // Select track by default (so it will be processed, if there are no correlated tracks selection macros!) |
493 | selectedByCorrSelMacro = kTRUE; | |
db16b708 | 494 | for (Int_t j = 0; j < selIterator->GetEntries(); j++){ |
495 | if (mSelType[j] == kCorrelTrackSelect){ | |
2670605d | 496 | selectedByCorrSelMacro = (Bool_t)gROOT->ProcessLineSync(selCmds[j]); |
497 | if (!selectedByCorrSelMacro) break; | |
498 | } | |
499 | } | |
500 | ||
501 | // If the pair has not been selected by the correlated tracks selection macros, skip it! | |
502 | if (!selectedByCorrSelMacro) continue; | |
503 | ||
db16b708 | 504 | histos[histoIndex] = (TH1*)gROOT->ProcessLineSync(procCmds[i]); |
e007877e | 505 | } |
506 | histoIndex++; | |
507 | } | |
508 | // Single track analyse | |
db16b708 | 509 | else if (mProcType[i] == kSingleTrackAnalyse) { |
c413e8d4 | 510 | // Create data pointers in CINT, execute the macro and get the data |
511 | gROOT->ProcessLineSync("Double_t* results = 0;"); | |
512 | gROOT->ProcessLineSync("Int_t n = 0;"); | |
2670605d | 513 | gROOT->ProcessLineSync(procCmds[i]); |
c413e8d4 | 514 | Double_t* results = (Double_t*)gROOT->ProcessLineSync("results;"); |
515 | Int_t nResults = (Int_t)gROOT->ProcessLineSync("n;"); | |
516 | ||
db16b708 | 517 | if (results == 0) { |
2670605d | 518 | Error("Apply macros", Form("Error reading data from macro \"%s\"", procIterator->At(i)->GetTitle())); |
c413e8d4 | 519 | continue; |
520 | } | |
db16b708 | 521 | for (Int_t resInd = 0; resInd < nResults; resInd++){ |
c413e8d4 | 522 | (*fDataTree) << Form("TrackData%d", i) << Form("Macro%d=", i) << results[resInd] << (Char_t*)"\n"; |
523 | } | |
caaf90d2 | 524 | |
c413e8d4 | 525 | delete results; |
526 | results = 0; | |
527 | } | |
e007877e | 528 | // Correlated tracks analyse |
db16b708 | 529 | else if (mProcType[i] == kCorrelTrackAnalyse){ |
e007877e | 530 | // Loop over all pairs behind the current one - together with the other loop this will be a loop |
531 | // over all pairs. We have a pair of tracks, if and only if both tracks of the pair are selected (Rnr-state) | |
532 | // and are not equal. | |
00dc25ef | 533 | // The correlated tracks process macro will be applied to all pairs that will be additionally selected by |
2670605d | 534 | // all correlated tracks selection macros. |
e007877e | 535 | TEveElement::List_i iter2 = iter; |
536 | iter2++; | |
38a30030 | 537 | |
db16b708 | 538 | for ( ; iter2 != this->EndChildren(); ++iter2) { |
539 | if(!(track2 = dynamic_cast<AliEveTRDTrack*>(*iter2))) continue; | |
38a30030 | 540 | |
e007877e | 541 | // Skip tracks that have not been selected |
542 | if (!track2->GetRnrState()) continue; | |
38a30030 | 543 | |
e007877e | 544 | // Cast to AliTRDtrackV1 |
db16b708 | 545 | gROOT->ProcessLineSync(Form("AliEveTRDTrack *automaticTrack = (AliEveTRDTrack*)0x%xl;", track2)); |
e007877e | 546 | gROOT->ProcessLineSync("AliTRDtrackV1* automaticTrackV1_2 = (AliTRDtrackV1*)automaticTrack->GetUserData();"); |
547 | ||
2670605d | 548 | // Select track by default (so it will be processed, if there are no correlated tracks selection macros!) |
549 | selectedByCorrSelMacro = kTRUE; | |
db16b708 | 550 | for (Int_t j = 0; j < selIterator->GetEntries(); j++) { |
551 | if (mSelType[j] == kCorrelTrackSelect) { | |
2670605d | 552 | selectedByCorrSelMacro = (Bool_t)gROOT->ProcessLineSync(selCmds[j]); |
553 | if (!selectedByCorrSelMacro) break; | |
554 | } | |
555 | } | |
556 | ||
557 | // If the pair has not been selected by the correlated tracks selection macros, skip it! | |
558 | if (!selectedByCorrSelMacro) continue; | |
559 | ||
e007877e | 560 | // Create data pointers in CINT, execute the macro and get the data |
561 | gROOT->ProcessLineSync("Double_t* results = 0;"); | |
562 | gROOT->ProcessLineSync("Int_t n = 0;"); | |
2670605d | 563 | gROOT->ProcessLineSync(procCmds[i]); |
e007877e | 564 | Double_t* results = (Double_t*)gROOT->ProcessLineSync("results;"); |
565 | Int_t nResults = (Int_t)gROOT->ProcessLineSync("n;"); | |
38a30030 | 566 | |
db16b708 | 567 | if (results == 0) { |
2670605d | 568 | Error("Apply macros", Form("Error reading data from macro \"%s\"", procIterator->At(i)->GetTitle())); |
e007877e | 569 | continue; |
570 | } | |
db16b708 | 571 | for (Int_t resInd = 0; resInd < nResults; resInd++) { |
e007877e | 572 | (*fDataTree) << Form("TrackData%d", i) << Form("Macro%d=", i) << results[resInd] << (Char_t*)"\n"; |
573 | } | |
574 | ||
575 | delete results; | |
576 | results = 0; | |
577 | } | |
578 | } | |
caaf90d2 | 579 | } |
580 | } | |
caaf90d2 | 581 | |
db16b708 | 582 | for (Int_t i = 0, histoIndex = 0; i < procIterator->GetEntries() && histoIndex < numHistoMacros; i++) { |
583 | if (mProcType[i] == kSingleTrackHisto || mProcType[i] == kCorrelTrackHisto) { | |
5715955a | 584 | // Might be empty (e.g. no tracks have been selected)! |
db16b708 | 585 | if (histos[histoIndex]) { |
5715955a | 586 | (*fDataTree) << Form("TrackData%d", i) << Form("Macro%d=", i) << histos[histoIndex] << (Char_t*)"\n"; |
587 | } | |
588 | histoIndex++; | |
589 | } | |
c413e8d4 | 590 | } |
591 | ||
592 | if (fDataTree != 0) delete fDataTree; | |
caaf90d2 | 593 | fDataTree = 0; |
594 | ||
2670605d | 595 | if (procCmds != 0) delete [] procCmds; |
38a30030 | 596 | procCmds = 0; |
2670605d | 597 | if (mProcType != 0) delete mProcType; |
598 | mProcType = 0; | |
599 | ||
600 | if (selCmds != 0) delete [] selCmds; | |
38a30030 | 601 | selCmds = 0; |
2670605d | 602 | if (mSelType != 0) delete mSelType; |
603 | mSelType = 0; | |
c413e8d4 | 604 | |
605 | if (histos != 0) delete [] histos; | |
606 | histos = 0; | |
8e27fca1 | 607 | |
caaf90d2 | 608 | // Clear root |
db16b708 | 609 | // A.B. gROOT->Reset(); |
caaf90d2 | 610 | |
4f6473f6 | 611 | // If there is data, select the first data set |
2670605d | 612 | if (procIterator->GetEntries() > 0) SETBIT(fHistoDataSelected, 0); |
4f6473f6 | 613 | |
e007877e | 614 | // Now the data is stored in "/tmp/TRD.TrackListMacroData_$USER.root" |
caaf90d2 | 615 | // The editor will access this file to display the data |
ea24e1bc | 616 | return kTRUE; |
caaf90d2 | 617 | } |
618 | ||
8e27fca1 | 619 | //______________________________________________________ |
2670605d | 620 | void AliEveTRDTrackList::ApplySTSelectionMacros(const TList* iterator) |
caaf90d2 | 621 | { |
16db6074 | 622 | // Uses the iterator (for the selected selection macros) to apply the selected macros to the data. |
623 | // The rnr-states of the tracks are set according to the result of the macro calls (kTRUE, if all | |
624 | // macros return kTRUE for this track, otherwise: kFALSE). | |
2670605d | 625 | // "ST" stands for "single track". This means that only single track selection macros are applied. |
626 | // Correlated tracks selection macros will be used inside the call of ApplyProcessMacros(...)! | |
16db6074 | 627 | |
38a30030 | 628 | TMacroData* macro = 0; |
e007877e | 629 | AliEveTRDTrackListMacroType macroType = kUnknown; |
630 | AliEveTRDTrack* track1 = 0; | |
caaf90d2 | 631 | Bool_t selectedByMacro = kFALSE; |
632 | ||
633 | // Clear root | |
db16b708 | 634 | // A.B. gROOT->Reset(); |
caaf90d2 | 635 | |
00dc25ef | 636 | // Select all tracks at first. A track is then deselected, if at least one selection macro |
637 | // returns kFALSE for this track. | |
638 | // Enable all tracks (Note: EnableListElements(..) will call "ElementChanged", which will cause unforeseen behaviour!) | |
db16b708 | 639 | for (TEveElement::List_i iter = this->BeginChildren(); iter != this->EndChildren(); ++iter) ((TEveElement*)(*iter))->SetRnrState(kTRUE); |
4f6473f6 | 640 | SetRnrState(kTRUE); |
641 | ||
db16b708 | 642 | for (Int_t i = 0; i < iterator->GetEntries(); i++){ |
38a30030 | 643 | macro = (TMacroData*)fMacroList->GetValue(iterator->At(i)->GetTitle()); |
4f6473f6 | 644 | |
db16b708 | 645 | if (!macro){ |
38a30030 | 646 | Error("Apply selection macros", |
647 | Form("Macro list is corrupted: Macro \"%s\" is not registered!", iterator->At(i)->GetTitle())); | |
648 | continue; | |
649 | } | |
caaf90d2 | 650 | |
651 | #ifdef ALIEVETRDTRACKLIST_DEBUG | |
38a30030 | 652 | printf("AliEveTRDTrackList: Applying selection macro: %s\n", macro->GetName()); |
caaf90d2 | 653 | #endif |
caaf90d2 | 654 | |
e007877e | 655 | // Determine macro type |
38a30030 | 656 | macroType = macro->GetType(); |
caaf90d2 | 657 | |
e007877e | 658 | // Single track select macro |
db16b708 | 659 | if (macroType == kSingleTrackSelect){ |
e007877e | 660 | // Walk through the list of tracks |
661 | for (TEveElement::List_i iter = this->BeginChildren(); iter != this->EndChildren(); ++iter) | |
662 | { | |
663 | track1 = dynamic_cast<AliEveTRDTrack*>(*iter); | |
664 | ||
665 | if (!track1) continue; | |
666 | ||
667 | // If the track has already been deselected, nothing is to do here | |
668 | if (!track1->GetRnrState()) continue; | |
669 | ||
e007877e | 670 | // Cast to AliTRDtrackV1 |
db16b708 | 671 | gROOT->ProcessLineSync(Form("AliEveTRDTrack *automaticTrack = (AliEveTRDTrack*)0x%xl;", track1)); |
38a30030 | 672 | gROOT->ProcessLineSync("AliTRDtrackV1* automaticTrackV1_1 = (AliTRDtrackV1*)automaticTrack->GetUserData();"); |
673 | selectedByMacro = (Bool_t)gROOT->ProcessLineSync(macro->GetCmd()); | |
e007877e | 674 | track1->SetRnrState(selectedByMacro && track1->GetRnrState()); |
675 | } | |
676 | } | |
677 | // Correlated tracks select macro | |
db16b708 | 678 | else if (macroType == kCorrelTrackSelect){ |
2670605d | 679 | // Will be processed in ApplyProcessMacros(...) |
680 | continue; | |
db16b708 | 681 | } else { |
e007877e | 682 | Error("Apply selection macros", |
db16b708 | 683 | Form("Macro list corrupted: Macro \"%s/%s.C\" is not registered as a selection macro!", |
684 | macro->GetPath(), macro->GetName())); | |
e007877e | 685 | } |
caaf90d2 | 686 | } |
687 | ||
688 | // Clear root | |
db16b708 | 689 | // A.B. gROOT->Reset(); |
caaf90d2 | 690 | } |
691 | ||
8bdeb570 | 692 | //______________________________________________________ |
38a30030 | 693 | AliEveTRDTrackList::AliEveTRDTrackListMacroType AliEveTRDTrackList::GetMacroType(const Char_t* name, Bool_t UseList) const |
8bdeb570 | 694 | { |
38a30030 | 695 | // Returns the type of the corresponding macro. |
16db6074 | 696 | // If "UseList" is kTRUE, the type will be looked up in the internal list (very fast). But if this list |
697 | // does not exist, you have to use kFALSE for this parameter. Then the type will be determined by the | |
698 | // prototype! NOTE: It is assumed that the macro has been compiled! If not, the return value is not | |
699 | // predictable, but normally will be kUnknown. | |
38a30030 | 700 | // Note: AddMacro(Fast) will update the internal list and RemoveMacros respectively. |
16db6074 | 701 | |
8bdeb570 | 702 | AliEveTRDTrackListMacroType type = kUnknown; |
703 | ||
38a30030 | 704 | // Re-do the check of the macro type |
db16b708 | 705 | if (!UseList){ |
e007877e | 706 | // Single track select macro or single track histo macro? |
8bdeb570 | 707 | TFunction* f = gROOT->GetGlobalFunctionWithPrototype(name, "const AliTRDtrackV1*", kTRUE); |
708 | if (f != 0x0) | |
709 | { | |
710 | // Some additional check (is the parameter EXACTLY of the desired type?) | |
711 | if (strstr(f->GetMangledName(), "oPconstsPAliTRDtrackV1mUsP") != 0x0) | |
712 | { | |
e007877e | 713 | // Single track select macro? |
8bdeb570 | 714 | if (!strcmp(f->GetReturnTypeName(), "Bool_t")) |
715 | { | |
e007877e | 716 | type = kSingleTrackSelect; |
8bdeb570 | 717 | } |
e007877e | 718 | // single track histo macro? |
8bdeb570 | 719 | else if (!strcmp(f->GetReturnTypeName(), "TH1*")) |
720 | { | |
e007877e | 721 | type = kSingleTrackHisto; |
8bdeb570 | 722 | } |
723 | } | |
724 | } | |
e007877e | 725 | // Single track analyse macro? |
8bdeb570 | 726 | else if ((f = gROOT->GetGlobalFunctionWithPrototype(name, "const AliTRDtrackV1*, Double_t*&, Int_t&", kTRUE)) |
727 | != 0x0) | |
728 | { | |
729 | if (!strcmp(f->GetReturnTypeName(), "void")) | |
730 | { | |
731 | // Some additional check (are the parameters EXACTLY of the desired type?) | |
732 | if (strstr(f->GetMangledName(), "oPconstsPAliTRDtrackV1mUsP") != 0x0 && | |
733 | strstr(f->GetMangledName(), "cODouble_tmUaNsP") != 0x0 && | |
734 | strstr(f->GetMangledName(), "cOInt_taNsP") != 0x0) | |
735 | { | |
e007877e | 736 | type = kSingleTrackAnalyse; |
737 | } | |
738 | } | |
739 | } | |
740 | // Correlated tracks select macro or correlated tracks histo macro? | |
741 | else if ((f = gROOT->GetGlobalFunctionWithPrototype(name, "const AliTRDtrackV1*, const AliTRDtrackV1*", kTRUE)) | |
742 | != 0x0) | |
743 | { | |
744 | // Some additional check (is the parameter EXACTLY of the desired type?) | |
745 | if (strstr(f->GetMangledName(), "oPconstsPAliTRDtrackV1mUsP") != 0x0 && | |
746 | strstr(f->GetMangledName(), "cOconstsPAliTRDtrackV1mUsP") != 0x0) | |
747 | { | |
00dc25ef | 748 | // Correlated track select macro? |
e007877e | 749 | if (!strcmp(f->GetReturnTypeName(), "Bool_t")) |
750 | { | |
751 | type = kCorrelTrackSelect; | |
752 | } | |
00dc25ef | 753 | // Correlated track histo macro? |
e007877e | 754 | else if (!strcmp(f->GetReturnTypeName(), "TH1*")) |
755 | { | |
756 | type = kCorrelTrackHisto; | |
757 | } | |
758 | } | |
759 | } | |
760 | // Correlated tracks analyse macro? | |
761 | else if ((f = gROOT->GetGlobalFunctionWithPrototype(name, | |
762 | "const AliTRDtrackV1*, const AliTRDtrackV1*, Double_t*&, Int_t&", kTRUE)) | |
763 | != 0x0) | |
764 | { | |
765 | if (!strcmp(f->GetReturnTypeName(), "void")) | |
766 | { | |
767 | // Some additional check (is the parameter EXACTLY of the desired type?) | |
768 | if (strstr(f->GetMangledName(), "oPconstsPAliTRDtrackV1mUsP") != 0x0 && | |
769 | strstr(f->GetMangledName(), "cOconstsPAliTRDtrackV1mUsP") != 0x0 && | |
770 | strstr(f->GetMangledName(), "cODouble_tmUaNsP") != 0x0 && | |
771 | strstr(f->GetMangledName(), "cOInt_taNsP") != 0x0) | |
772 | { | |
773 | type = kCorrelTrackAnalyse; | |
8bdeb570 | 774 | } |
775 | } | |
776 | } | |
777 | } | |
778 | // Use list to look up the macro type | |
779 | else | |
780 | { | |
38a30030 | 781 | TMacroData* macro = 0; |
782 | macro = (TMacroData*)fMacroList->GetValue(name); | |
783 | if (macro == 0) return kUnknown; | |
8bdeb570 | 784 | |
38a30030 | 785 | type = macro->GetType(); |
8bdeb570 | 786 | switch (type) |
787 | { | |
e007877e | 788 | case kSingleTrackSelect: |
789 | case kSingleTrackAnalyse: | |
790 | case kSingleTrackHisto: | |
791 | case kCorrelTrackSelect: | |
792 | case kCorrelTrackAnalyse: | |
793 | case kCorrelTrackHisto: | |
8bdeb570 | 794 | break; |
795 | default: | |
796 | type = kUnknown; | |
797 | break; | |
798 | } | |
799 | } | |
800 | ||
801 | return type; | |
802 | } | |
803 | ||
8e27fca1 | 804 | //______________________________________________________ |
38a30030 | 805 | void AliEveTRDTrackList::RemoveSelectedMacros(const TList* iterator) |
caaf90d2 | 806 | { |
38a30030 | 807 | // Uses the iterator (for the selected macros) to remove the selected macros from |
16db6074 | 808 | // the corresponding list. |
809 | ||
38a30030 | 810 | TObject* key = 0; |
811 | TPair* entry = 0; | |
caaf90d2 | 812 | for (Int_t i = 0; i < iterator->GetEntries(); i++) |
813 | { | |
38a30030 | 814 | entry = (TPair*)fMacroList->FindObject(iterator->At(i)->GetTitle()); |
8bdeb570 | 815 | |
38a30030 | 816 | if (entry == 0) |
817 | { | |
818 | Error("AliEveTRDTrackList::RemoveSelectedMacros", Form("Macro \"%s\" not found in list!", | |
819 | iterator->At(i)->GetTitle())); | |
820 | continue; | |
821 | } | |
822 | key = entry->Key(); | |
caaf90d2 | 823 | |
38a30030 | 824 | if (key == 0) |
825 | { | |
826 | Error("AliEveTRDTrackList::RemoveSelectedMacros", Form("Key for macro \"%s\" not found in list!", | |
827 | iterator->At(i)->GetTitle())); | |
828 | continue; | |
829 | } | |
830 | ||
831 | // Key and value will be deleted, too, since fMacroList is the owner of them | |
832 | Bool_t rem = fMacroList->DeleteEntry(key); | |
8bdeb570 | 833 | |
38a30030 | 834 | if (rem) |
835 | { | |
836 | #ifdef ALIEVETRDTRACKLIST_DEBUG | |
837 | printf("AliEveTRDTrackList::RemoveSelectedMacros(): Removed macro: %s\n", iterator->At(i)->GetTitle()); | |
838 | #endif | |
839 | } | |
840 | else | |
841 | { | |
842 | Error("AliEveTRDTrackList::RemoveSelectedMacros", Form("Macro \"%s\" could not be removed from the list!", | |
843 | iterator->At(i)->GetTitle())); | |
844 | } | |
caaf90d2 | 845 | } |
2ef0687e | 846 | } |
4f6473f6 | 847 | |
ecbbe371 | 848 | //______________________________________________________ |
849 | void AliEveTRDTrackList::UpdateTrackStyle(AliEveTRDTrack::AliEveTRDTrackState s, UChar_t ss) | |
850 | { | |
16db6074 | 851 | // Updates the track style and sets this style for each track. |
852 | ||
8bdeb570 | 853 | switch(s) |
854 | { | |
e007877e | 855 | case AliEveTRDTrack::kSource: |
856 | SETBIT(fSelectedStyle, AliEveTRDTrack::kSource); | |
857 | break; | |
858 | case AliEveTRDTrack::kPID: | |
859 | CLRBIT(fSelectedStyle, AliEveTRDTrack::kSource); | |
860 | switch(ss) | |
861 | { | |
9443fb9d | 862 | case AliTRDpidUtil::kLQ: |
e007877e | 863 | CLRBIT(fSelectedStyle, AliEveTRDTrack::kPID); |
864 | break; | |
9443fb9d | 865 | case AliTRDpidUtil::kNN: |
e007877e | 866 | SETBIT(fSelectedStyle, AliEveTRDTrack::kPID); |
867 | break; | |
868 | } | |
869 | break; | |
870 | case AliEveTRDTrack::kTrackCosmics: | |
871 | SETBIT(fSelectedStyle, AliEveTRDTrack::kTrackCosmics); | |
872 | break; | |
873 | case AliEveTRDTrack::kTrackModel: | |
874 | CLRBIT(fSelectedStyle, AliEveTRDTrack::kTrackCosmics); | |
875 | switch(ss) | |
876 | { | |
877 | case AliEveTRDTrack::kRieman: | |
878 | CLRBIT(fSelectedStyle, AliEveTRDTrack::kTrackModel); | |
879 | break; | |
880 | case AliEveTRDTrack::kKalman: | |
12896fe5 | 881 | //AliWarning("Kalman fit under testing for the moment."); |
882 | SETBIT(fSelectedStyle, AliEveTRDTrack::kTrackModel); | |
e007877e | 883 | break; |
884 | } | |
885 | break; | |
ecbbe371 | 886 | } |
887 | ||
888 | ||
ecbbe371 | 889 | // Walk through the list of tracks |
890 | AliEveTRDTrack* track = 0x0; | |
8bdeb570 | 891 | for (TEveElement::List_i iter = this->BeginChildren(); iter != this->EndChildren(); ++iter) |
892 | { | |
ecbbe371 | 893 | if (!(track = dynamic_cast<AliEveTRDTrack*>(*iter))) continue; |
894 | ||
895 | track->SetStatus(fSelectedStyle); | |
896 | } | |
897 | } |