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TROOT.cxx
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1// @(#)root/base:$Id$
2// Author: Rene Brun 08/12/94
3
4/*************************************************************************
5 * Copyright (C) 1995-2000, Rene Brun and Fons Rademakers. *
6 * All rights reserved. *
7 * *
8 * For the licensing terms see $ROOTSYS/LICENSE. *
9 * For the list of contributors see $ROOTSYS/README/CREDITS. *
10 *************************************************************************/
11
12/** \class TROOT
13\ingroup Base
14
15ROOT top level object description.
16
17The TROOT object is the entry point to the ROOT system.
18The single instance of TROOT is accessible via the global gROOT.
19Using the gROOT pointer one has access to basically every object
20created in a ROOT based program. The TROOT object is essentially a
21container of several lists pointing to the main ROOT objects.
22
23The following lists are accessible from gROOT object:
24
25~~~ {.cpp}
26 gROOT->GetListOfClasses
27 gROOT->GetListOfColors
28 gROOT->GetListOfTypes
29 gROOT->GetListOfGlobals
30 gROOT->GetListOfGlobalFunctions
31 gROOT->GetListOfFiles
32 gROOT->GetListOfMappedFiles
33 gROOT->GetListOfSockets
34 gROOT->GetListOfSecContexts
35 gROOT->GetListOfCanvases
36 gROOT->GetListOfStyles
37 gROOT->GetListOfFunctions
38 gROOT->GetListOfSpecials (for example graphical cuts)
39 gROOT->GetListOfGeometries
40 gROOT->GetListOfBrowsers
41 gROOT->GetListOfCleanups
42 gROOT->GetListOfMessageHandlers
43~~~
44
45The TROOT class provides also many useful services:
46 - Get pointer to an object in any of the lists above
47 - Time utilities TROOT::Time
48
49The ROOT object must be created as a static object. An example
50of a main program creating an interactive version is shown below:
51
52### Example of a main program
53
54~~~ {.cpp}
55 #include "TRint.h"
56
57 int main(int argc, char **argv)
58 {
59 TRint *theApp = new TRint("ROOT example", &argc, argv);
60
61 // Init Intrinsics, build all windows, and enter event loop
62 theApp->Run();
63
64 return(0);
65 }
66~~~
67*/
68
69#include <ROOT/RConfig.hxx>
71#include <ROOT/RVersion.hxx>
72#include "RConfigure.h"
73#include "RConfigOptions.h"
74#include <string>
75#include <map>
76#include <set>
77#include <cstdlib>
78#ifdef WIN32
79#include <io.h>
80#include "Windows4Root.h"
81#include <Psapi.h>
82#define RTLD_DEFAULT ((void *)::GetModuleHandle(NULL))
83//#define dlsym(library, function_name) ::GetProcAddress((HMODULE)library, function_name)
84#define dlopen(library_name, flags) ::LoadLibrary(library_name)
85#define dlclose(library) ::FreeLibrary((HMODULE)library)
86char *dlerror() {
87 static char Msg[1000];
88 FormatMessage(FORMAT_MESSAGE_FROM_SYSTEM, NULL, GetLastError(),
89 MAKELANGID(LANG_NEUTRAL, SUBLANG_DEFAULT), Msg,
90 sizeof(Msg), NULL);
91 return Msg;
92}
93FARPROC dlsym(void *library, const char *function_name)
94{
95 HMODULE hMods[1024];
96 DWORD cbNeeded;
97 FARPROC address = NULL;
98 unsigned int i;
99 if (library == RTLD_DEFAULT) {
100 if (EnumProcessModules(::GetCurrentProcess(), hMods, sizeof(hMods), &cbNeeded)) {
101 for (i = 0; i < (cbNeeded / sizeof(HMODULE)); i++) {
102 address = ::GetProcAddress((HMODULE)hMods[i], function_name);
103 if (address)
104 return address;
105 }
106 }
107 return address;
108 } else {
109 return ::GetProcAddress((HMODULE)library, function_name);
110 }
111}
112#else
113#include <dlfcn.h>
114#endif
115
116#include <iostream>
118#include "TROOT.h"
119#include "TClass.h"
120#include "TClassEdit.h"
121#include "TClassGenerator.h"
122#include "TDataType.h"
123#include "TStyle.h"
124#include "TObjectTable.h"
125#include "TClassTable.h"
126#include "TSystem.h"
127#include "THashList.h"
128#include "TObjArray.h"
129#include "TEnv.h"
130#include "TError.h"
131#include "TColor.h"
132#include "TGlobal.h"
133#include "TFunction.h"
134#include "TVirtualPad.h"
135#include "TBrowser.h"
136#include "TSystemDirectory.h"
137#include "TApplication.h"
138#include "TInterpreter.h"
139#include "TGuiFactory.h"
140#include "TMessageHandler.h"
141#include "TFolder.h"
142#include "TQObject.h"
143#include "TProcessUUID.h"
144#include "TPluginManager.h"
145#include "TVirtualMutex.h"
146#include "TListOfTypes.h"
147#include "TListOfDataMembers.h"
148#include "TListOfEnumsWithLock.h"
149#include "TListOfFunctions.h"
151#include "TFunctionTemplate.h"
152#include "ThreadLocalStorage.h"
153#include "TVirtualMapFile.h"
154#include "TVirtualRWMutex.h"
155#include "TVirtualX.h"
156
157#if defined(R__UNIX)
158#if defined(R__HAS_COCOA)
159#include "TMacOSXSystem.h"
160#include "TUrl.h"
161#else
162#include "TUnixSystem.h"
163#endif
164#elif defined(R__WIN32)
165#include "TWinNTSystem.h"
166#endif
167
168extern "C" void R__SetZipMode(int);
169
171static void *gInterpreterLib = nullptr;
172
173// Mutex for protection of concurrent gROOT access
176
177// For accessing TThread::Tsd indirectly.
178void **(*gThreadTsd)(void*,Int_t) = nullptr;
179
180//-------- Names of next three routines are a small homage to CMZ --------------
181////////////////////////////////////////////////////////////////////////////////
182/// Return version id as an integer, i.e. "2.22/04" -> 22204.
183
184static Int_t IVERSQ()
185{
186 Int_t maj, min, cycle;
187 sscanf(ROOT_RELEASE, "%d.%d.%d", &maj, &min, &cycle);
188 return 10000*maj + 100*min + cycle;
189}
190
191////////////////////////////////////////////////////////////////////////////////
192/// Return built date as integer, i.e. "Apr 28 2000" -> 20000428.
193
194static Int_t IDATQQ(const char *date)
195{
196 if (!date) {
197 Error("TSystem::IDATQQ", "nullptr date string, expected e.g. 'Dec 21 2022'");
198 return -1;
199 }
200
201 static const char *months[] = {"Jan","Feb","Mar","Apr","May",
202 "Jun","Jul","Aug","Sep","Oct",
203 "Nov","Dec"};
204 char sm[12];
205 Int_t yy, mm=0, dd;
206 if (sscanf(date, "%s %d %d", sm, &dd, &yy) != 3) {
207 Error("TSystem::IDATQQ", "Cannot parse date string '%s', expected e.g. 'Dec 21 2022'", date);
208 return -1;
209 }
210 for (int i = 0; i < 12; i++)
211 if (!strncmp(sm, months[i], 3)) {
212 mm = i+1;
213 break;
214 }
215 return 10000*yy + 100*mm + dd;
216}
217
218////////////////////////////////////////////////////////////////////////////////
219/// Return built time as integer (with min precision), i.e.
220/// "17:32:37" -> 1732.
221
222static Int_t ITIMQQ(const char *time)
223{
224 Int_t hh, mm, ss;
225 sscanf(time, "%d:%d:%d", &hh, &mm, &ss);
226 return 100*hh + mm;
227}
228
229////////////////////////////////////////////////////////////////////////////////
230/// Clean up at program termination before global objects go out of scope.
231
232static void CleanUpROOTAtExit()
233{
234 if (gROOT) {
236
237 if (gROOT->GetListOfFiles())
238 gROOT->GetListOfFiles()->Delete("slow");
239 if (gROOT->GetListOfSockets())
240 gROOT->GetListOfSockets()->Delete();
241 if (gROOT->GetListOfMappedFiles())
242 gROOT->GetListOfMappedFiles()->Delete("slow");
243 if (gROOT->GetListOfClosedObjects())
244 gROOT->GetListOfClosedObjects()->Delete("slow");
245 }
246}
247
248////////////////////////////////////////////////////////////////////////////////
249/// A module and its headers. Intentionally not a copy:
250/// If these strings end up in this struct they are
251/// long lived by definition because they get passed in
252/// before initialization of TCling.
253
254namespace {
255 struct ModuleHeaderInfo_t {
256 ModuleHeaderInfo_t(const char* moduleName,
257 const char** headers,
258 const char** includePaths,
259 const char* payloadCode,
260 const char* fwdDeclCode,
261 void (*triggerFunc)(),
262 const TROOT::FwdDeclArgsToKeepCollection_t& fwdDeclsArgToSkip,
263 const char **classesHeaders,
264 bool hasCxxModule):
265 fModuleName(moduleName),
266 fHeaders(headers),
267 fPayloadCode(payloadCode),
268 fFwdDeclCode(fwdDeclCode),
269 fIncludePaths(includePaths),
270 fTriggerFunc(triggerFunc),
271 fClassesHeaders(classesHeaders),
272 fFwdNargsToKeepColl(fwdDeclsArgToSkip),
273 fHasCxxModule(hasCxxModule) {}
274
275 const char* fModuleName; // module name
276 const char** fHeaders; // 0-terminated array of header files
277 const char* fPayloadCode; // Additional code to be given to cling at library load
278 const char* fFwdDeclCode; // Additional code to let cling know about selected classes and functions
279 const char** fIncludePaths; // 0-terminated array of header files
280 void (*fTriggerFunc)(); // Pointer to the dict initialization used to find the library name
281 const char** fClassesHeaders; // 0-terminated list of classes and related header files
282 const TROOT::FwdDeclArgsToKeepCollection_t fFwdNargsToKeepColl; // Collection of
283 // pairs of template fwd decls and number of
284 bool fHasCxxModule; // Whether this module has a C++ module alongside it.
285 };
286
287 std::vector<ModuleHeaderInfo_t>& GetModuleHeaderInfoBuffer() {
288 static std::vector<ModuleHeaderInfo_t> moduleHeaderInfoBuffer;
289 return moduleHeaderInfoBuffer;
290 }
291}
292
295
296static void at_exit_of_TROOT() {
299}
300
301// This local static object initializes the ROOT system
302namespace ROOT {
303namespace Internal {
305 // Simple wrapper to separate, time-wise, the call to the
306 // TROOT destructor and the actual free-ing of the memory.
307 //
308 // Since the interpreter implementation (currently TCling) is
309 // loaded via dlopen by libCore, the destruction of its global
310 // variable (i.e. in particular clang's) is scheduled before
311 // those in libCore so we need to schedule the call to the TROOT
312 // destructor before that *but* we want to make sure the memory
313 // stay around until libCore itself is unloaded so that code
314 // using gROOT can 'properly' check for validity.
315 //
316 // The order of loading for is:
317 // libCore.so
318 // libRint.so
319 // ... anything other library hard linked to the executable ...
320 // ... for example libEvent
321 // libCling.so
322 // ... other libraries like libTree for example ....
323 // and the destruction order is (of course) the reverse.
324 // By default the unloading of the dictionary, does use
325 // the service of the interpreter ... which of course
326 // fails if libCling is already unloaded by that information
327 // has not been registered per se.
328 //
329 // To solve this problem, we now schedule the destruction
330 // of the TROOT object to happen _just_ before the
331 // unloading/destruction of libCling so that we can
332 // maximize the amount of clean-up we can do correctly
333 // and we can still allocate the TROOT object's memory
334 // statically.
335 //
336 union {
338 char fHolder[sizeof(TROOT)];
339 };
340 public:
341 TROOTAllocator(): fObj("root", "The ROOT of EVERYTHING")
342 {}
343
345 if (gROOTLocal) {
347 }
348 }
349 };
350
351 // The global gROOT is defined to be a function (ROOT::GetROOT())
352 // which itself is dereferencing a function pointer.
353
354 // Initially this function pointer's value is & GetROOT1 whose role is to
355 // create and initialize the TROOT object itself.
356 // At the very end of the TROOT constructor the value of the function pointer
357 // is switch to & GetROOT2 whose role is to initialize the interpreter.
358
359 // This mechanism was primarily intended to fix the issues with order in which
360 // global TROOT and LLVM globals are initialized. TROOT was initializing
361 // Cling, but Cling could not be used yet due to LLVM globals not being
362 // Initialized yet. The solution is to delay initializing the interpreter in
363 // TROOT till after main() when all LLVM globals are initialized.
364
365 // Technically, the mechanism used actually delay the interpreter
366 // initialization until the first use of gROOT *after* the end of the
367 // TROOT constructor.
368
369 // So to delay until after the start of main, we also made sure that none
370 // of the ROOT code (mostly the dictionary code) used during library loading
371 // is using gROOT (directly or indirectly).
372
373 // In practice, the initialization of the interpreter is now delayed until
374 // the first use gROOT (or gInterpreter) after the start of main (but user
375 // could easily break this by using gROOT in their library initialization
376 // code).
377
378 extern TROOT *gROOTLocal;
379
381 if (gROOTLocal)
382 return gROOTLocal;
383 static TROOTAllocator alloc;
384 return gROOTLocal;
385 }
386
388 static Bool_t initInterpreter = kFALSE;
389 if (!initInterpreter) {
390 initInterpreter = kTRUE;
392 // Load and init threads library
394 }
395 return gROOTLocal;
396 }
397 typedef TROOT *(*GetROOTFun_t)();
398
400
401 static Func_t GetSymInLibImt(const char *funcname)
402 {
403 const static bool loadSuccess = dlsym(RTLD_DEFAULT, "usedToIdentifyRootClingByDlSym")? false : 0 <= gSystem->Load("libImt");
404 if (loadSuccess) {
405 if (auto sym = gSystem->DynFindSymbol(nullptr, funcname)) {
406 return sym;
407 } else {
408 Error("GetSymInLibImt", "Cannot get symbol %s.", funcname);
409 }
410 }
411 return nullptr;
412 }
413
414 //////////////////////////////////////////////////////////////////////////////
415 /// Globally enables the parallel branch processing, which is a case of
416 /// implicit multi-threading (IMT) in ROOT, activating the required locks.
417 /// This IMT use case, implemented in TTree::GetEntry, spawns a task for
418 /// each branch of the tree. Therefore, a task takes care of the reading,
419 /// decompression and deserialisation of a given branch.
421 {
422#ifdef R__USE_IMT
423 static void (*sym)() = (void(*)())Internal::GetSymInLibImt("ROOT_TImplicitMT_EnableParBranchProcessing");
424 if (sym)
425 sym();
426#else
427 ::Warning("EnableParBranchProcessing", "Cannot enable parallel branch processing, please build ROOT with -Dimt=ON");
428#endif
429 }
430
431 //////////////////////////////////////////////////////////////////////////////
432 /// Globally disables the IMT use case of parallel branch processing,
433 /// deactivating the corresponding locks.
435 {
436#ifdef R__USE_IMT
437 static void (*sym)() = (void(*)())Internal::GetSymInLibImt("ROOT_TImplicitMT_DisableParBranchProcessing");
438 if (sym)
439 sym();
440#else
441 ::Warning("DisableParBranchProcessing", "Cannot disable parallel branch processing, please build ROOT with -Dimt=ON");
442#endif
443 }
444
445 //////////////////////////////////////////////////////////////////////////////
446 /// Returns true if parallel branch processing is enabled.
448 {
449#ifdef R__USE_IMT
450 static Bool_t (*sym)() = (Bool_t(*)())Internal::GetSymInLibImt("ROOT_TImplicitMT_IsParBranchProcessingEnabled");
451 if (sym)
452 return sym();
453 else
454 return kFALSE;
455#else
456 return kFALSE;
457#endif
458 }
459
460 ////////////////////////////////////////////////////////////////////////////////
461 /// Keeps track of the status of ImplicitMT w/o resorting to the load of
462 /// libImt
464 {
465 static Bool_t isImplicitMTEnabled = kFALSE;
466 return isImplicitMTEnabled;
467 }
468
469} // end of Internal sub namespace
470// back to ROOT namespace
471
473 return (*Internal::gGetROOT)();
474 }
475
477 static TString macroPath;
478 return macroPath;
479 }
480
481 // clang-format off
482 ////////////////////////////////////////////////////////////////////////////////
483 /// Enables the global mutex to make ROOT thread safe/aware.
484 ///
485 /// The following becomes safe:
486 /// - concurrent construction and destruction of TObjects, including the ones registered in ROOT's global lists (e.g. gROOT->GetListOfCleanups(), gROOT->GetListOfFiles())
487 /// - concurrent usage of _different_ ROOT objects from different threads, including ones with global state (e.g. TFile, TTree, TChain) with the exception of graphics classes (e.g. TCanvas)
488 /// - concurrent calls to ROOT's type system classes, e.g. TClass and TEnum
489 /// - concurrent calls to the interpreter through gInterpreter
490 /// - concurrent loading of ROOT plug-ins
491 ///
492 /// In addition, gDirectory, gFile and gPad become a thread-local variable.
493 /// In all threads, gDirectory defaults to gROOT, a singleton which supports thread-safe insertion and deletion of contents.
494 /// gFile and gPad default to nullptr, as it is for single-thread programs.
495 ///
496 /// The ROOT graphics subsystem is not made thread-safe by this method. In particular drawing or printing different
497 /// canvases from different threads (and analogous operations such as invoking `Draw` on a `TObject`) is not thread-safe.
498 ///
499 /// Note that there is no `DisableThreadSafety()`. ROOT's thread-safety features cannot be disabled once activated.
500 // clang-format on
502 {
503 static void (*sym)() = (void(*)())Internal::GetSymInLibImt("ROOT_TThread_Initialize");
504 if (sym)
505 sym();
506 }
507
508 ////////////////////////////////////////////////////////////////////////////////
509 /// @param[in] numthreads Number of threads to use. If not specified or
510 /// set to zero, the number of threads is automatically
511 /// decided by the implementation. Any other value is
512 /// used as a hint.
513 ///
514 /// ROOT must be built with the compilation flag `imt=ON` for this feature to be available.
515 /// The following objects and methods automatically take advantage of
516 /// multi-threading if a call to `EnableImplicitMT` has been made before usage:
517 ///
518 /// - RDataFrame internally runs the event-loop by parallelizing over clusters of entries
519 /// - TTree::GetEntry reads multiple branches in parallel
520 /// - TTree::FlushBaskets writes multiple baskets to disk in parallel
521 /// - TTreeCacheUnzip decompresses the baskets contained in a TTreeCache in parallel
522 /// - THx::Fit performs in parallel the evaluation of the objective function over the data
523 /// - TMVA::DNN trains the deep neural networks in parallel
524 /// - TMVA::BDT trains the classifier in parallel and multiclass BDTs are evaluated in parallel
525 ///
526 /// EnableImplicitMT calls in turn EnableThreadSafety.
527 /// The 'numthreads' parameter allows to control the number of threads to
528 /// be used by the implicit multi-threading. However, this parameter is just
529 /// a hint for ROOT: it will try to satisfy the request if the execution
530 /// scenario allows it. For example, if ROOT is configured to use an external
531 /// scheduler, setting a value for 'numthreads' might not have any effect.
532 /// The maximum number of threads can be influenced by the environment
533 /// variable `ROOT_MAX_THREADS`: `export ROOT_MAX_THREADS=2` will try to set
534 /// the maximum number of active threads to 2, if the scheduling library
535 /// (such as tbb) "permits".
536 ///
537 /// \note Use `DisableImplicitMT()` to disable multi-threading (some locks will remain in place as
538 /// described in EnableThreadSafety()). `EnableImplicitMT(1)` creates a thread-pool of size 1.
539 void EnableImplicitMT(UInt_t numthreads)
540 {
541#ifdef R__USE_IMT
543 return;
545 static void (*sym)(UInt_t) = (void(*)(UInt_t))Internal::GetSymInLibImt("ROOT_TImplicitMT_EnableImplicitMT");
546 if (sym)
547 sym(numthreads);
549#else
550 ::Warning("EnableImplicitMT", "Cannot enable implicit multi-threading with %d threads, please build ROOT with -Dimt=ON", numthreads);
551#endif
552 }
553
554 ////////////////////////////////////////////////////////////////////////////////
555 /// Disables the implicit multi-threading in ROOT (see EnableImplicitMT).
557 {
558#ifdef R__USE_IMT
559 static void (*sym)() = (void(*)())Internal::GetSymInLibImt("ROOT_TImplicitMT_DisableImplicitMT");
560 if (sym)
561 sym();
563#else
564 ::Warning("DisableImplicitMT", "Cannot disable implicit multi-threading, please build ROOT with -Dimt=ON");
565#endif
566 }
567
568 ////////////////////////////////////////////////////////////////////////////////
569 /// Returns true if the implicit multi-threading in ROOT is enabled.
571 {
573 }
574
575 ////////////////////////////////////////////////////////////////////////////////
576 /// Returns the size of ROOT's thread pool
578 {
579#ifdef R__USE_IMT
580 static UInt_t (*sym)() = (UInt_t(*)())Internal::GetSymInLibImt("ROOT_MT_GetThreadPoolSize");
581 if (sym)
582 return sym();
583 else
584 return 0;
585#else
586 return 0;
587#endif
588 }
589} // end of ROOT namespace
590
592
593// Global debug flag (set to > 0 to get debug output).
594// Can be set either via the interpreter (gDebug is exported to CINT),
595// via the rootrc resource "Root.Debug", via the shell environment variable
596// ROOTDEBUG, or via the debugger.
598
599
601
602////////////////////////////////////////////////////////////////////////////////
603/// Default ctor.
604
606 fLineIsProcessing(0), fVersion(0), fVersionInt(0), fVersionCode(0),
607 fVersionDate(0), fVersionTime(0), fBuiltDate(0), fBuiltTime(0),
608 fTimer(0), fApplication(nullptr), fInterpreter(nullptr), fBatch(kTRUE),
609 fIsWebDisplay(kFALSE), fIsWebDisplayBatch(kFALSE), fEditHistograms(kTRUE),
610 fFromPopUp(kTRUE),fMustClean(kTRUE),fForceStyle(kFALSE),
611 fInterrupt(kFALSE),fEscape(kFALSE),fExecutingMacro(kFALSE),fEditorMode(0),
612 fPrimitive(nullptr),fSelectPad(nullptr),fClasses(nullptr),fTypes(nullptr),fGlobals(nullptr),fGlobalFunctions(nullptr),
613 fClosedObjects(nullptr),fFiles(nullptr),fMappedFiles(nullptr),fSockets(nullptr),fCanvases(nullptr),fStyles(nullptr),fFunctions(nullptr),
614 fTasks(nullptr),fColors(nullptr),fGeometries(nullptr),fBrowsers(nullptr),fSpecials(nullptr),fCleanups(nullptr),
615 fMessageHandlers(nullptr),fStreamerInfo(nullptr),fClassGenerators(nullptr),fSecContexts(nullptr),
616 fProofs(nullptr),fClipboard(nullptr),fDataSets(nullptr),fUUIDs(nullptr),fRootFolder(nullptr),fBrowsables(nullptr),
617 fPluginManager(nullptr)
618{
619}
620
621////////////////////////////////////////////////////////////////////////////////
622/// Initialize the ROOT system. The creation of the TROOT object initializes
623/// the ROOT system. It must be the first ROOT related action that is
624/// performed by a program. The TROOT object must be created on the stack
625/// (can not be called via new since "operator new" is protected). The
626/// TROOT object is either created as a global object (outside the main()
627/// program), or it is one of the first objects created in main().
628/// Make sure that the TROOT object stays in scope for as long as ROOT
629/// related actions are performed. TROOT is a so called singleton so
630/// only one instance of it can be created. The single TROOT object can
631/// always be accessed via the global pointer gROOT.
632/// The name and title arguments can be used to identify the running
633/// application. The initfunc argument can contain an array of
634/// function pointers (last element must be 0). These functions are
635/// executed at the end of the constructor. This way one can easily
636/// extend the ROOT system without adding permanent dependencies
637/// (e.g. the graphics system is initialized via such a function).
638
639TROOT::TROOT(const char *name, const char *title, VoidFuncPtr_t *initfunc)
640 : TDirectory(), fLineIsProcessing(0), fVersion(0), fVersionInt(0), fVersionCode(0),
641 fVersionDate(0), fVersionTime(0), fBuiltDate(0), fBuiltTime(0),
642 fTimer(0), fApplication(nullptr), fInterpreter(nullptr), fBatch(kTRUE),
643 fIsWebDisplay(kFALSE), fIsWebDisplayBatch(kFALSE), fEditHistograms(kTRUE),
644 fFromPopUp(kTRUE),fMustClean(kTRUE),fForceStyle(kFALSE),
645 fInterrupt(kFALSE),fEscape(kFALSE),fExecutingMacro(kFALSE),fEditorMode(0),
646 fPrimitive(nullptr),fSelectPad(nullptr),fClasses(nullptr),fTypes(nullptr),fGlobals(nullptr),fGlobalFunctions(nullptr),
647 fClosedObjects(nullptr),fFiles(nullptr),fMappedFiles(nullptr),fSockets(nullptr),fCanvases(nullptr),fStyles(nullptr),fFunctions(nullptr),
648 fTasks(nullptr),fColors(nullptr),fGeometries(nullptr),fBrowsers(nullptr),fSpecials(nullptr),fCleanups(nullptr),
649 fMessageHandlers(nullptr),fStreamerInfo(nullptr),fClassGenerators(nullptr),fSecContexts(nullptr),
650 fProofs(nullptr),fClipboard(nullptr),fDataSets(nullptr),fUUIDs(nullptr),fRootFolder(nullptr),fBrowsables(nullptr),
651 fPluginManager(nullptr)
652{
654 //Warning("TROOT", "only one instance of TROOT allowed");
655 return;
656 }
657
659
661 gDirectory = nullptr;
662
663 SetName(name);
664 SetTitle(title);
665
666 // will be used by global "operator delete" so make sure it is set
667 // before anything is deleted
668 fMappedFiles = nullptr;
669
670 // create already here, but only initialize it after gEnv has been created
672
673 // Initialize Operating System interface
674 InitSystem();
675
676 // Initialize static directory functions
677 GetRootSys();
678 GetBinDir();
679 GetLibDir();
681 GetEtcDir();
682 GetDataDir();
683 GetDocDir();
684 GetMacroDir();
686 GetSourceDir();
687 GetIconPath();
689
691
692 TDirectory::BuildDirectory(nullptr, nullptr);
693
694 // Initialize interface to CINT C++ interpreter
695 fVersionInt = 0; // check in TROOT dtor in case TCling fails
696 fClasses = nullptr; // might be checked via TCling ctor
697 fEnums = nullptr;
698
699 fConfigOptions = R__CONFIGUREOPTIONS;
700 fConfigFeatures = R__CONFIGUREFEATURES;
706 fBuiltDate = IDATQQ(__DATE__);
707 fBuiltTime = ITIMQQ(__TIME__);
708
709 ReadGitInfo();
710
711 fClasses = new THashTable(800,3); fClasses->UseRWLock();
712 //fIdMap = new IdMap_t;
715
716 // usedToIdentifyRootClingByDlSym is available when TROOT is part of
717 // rootcling.
718 if (!dlsym(RTLD_DEFAULT, "usedToIdentifyRootClingByDlSym")) {
719 // initialize plugin manager early
721 }
722
723 TSystemDirectory *workdir = new TSystemDirectory("workdir", gSystem->WorkingDirectory());
724
725 auto setNameLocked = [](TSeqCollection *l, const char *collection_name) {
726 l->SetName(collection_name);
727 l->UseRWLock();
728 return l;
729 };
730
731 fTimer = 0;
732 fApplication = nullptr;
733 fColors = setNameLocked(new TObjArray(1000), "ListOfColors");
734 fTypes = nullptr;
735 fGlobals = nullptr;
736 fGlobalFunctions = nullptr;
737 // fList was created in TDirectory::Build but with different sizing.
738 delete fList;
739 fList = new THashList(1000,3); fList->UseRWLock();
740 fClosedObjects = setNameLocked(new TList, "ClosedFiles");
741 fFiles = setNameLocked(new TList, "Files");
742 fMappedFiles = setNameLocked(new TList, "MappedFiles");
743 fSockets = setNameLocked(new TList, "Sockets");
744 fCanvases = setNameLocked(new TList, "Canvases");
745 fStyles = setNameLocked(new TList, "Styles");
746 fFunctions = setNameLocked(new TList, "Functions");
747 fTasks = setNameLocked(new TList, "Tasks");
748 fGeometries = setNameLocked(new TList, "Geometries");
749 fBrowsers = setNameLocked(new TList, "Browsers");
750 fSpecials = setNameLocked(new TList, "Specials");
751 fBrowsables = (TList*)setNameLocked(new TList, "Browsables");
752 fCleanups = setNameLocked(new THashList, "Cleanups");
753 fMessageHandlers = setNameLocked(new TList, "MessageHandlers");
754 fSecContexts = setNameLocked(new TList, "SecContexts");
755 fProofs = setNameLocked(new TList, "Proofs");
756 fClipboard = setNameLocked(new TList, "Clipboard");
757 fDataSets = setNameLocked(new TList, "DataSets");
759
761 fUUIDs = new TProcessUUID();
762
763 fRootFolder = new TFolder();
764 fRootFolder->SetName("root");
765 fRootFolder->SetTitle("root of all folders");
766 fRootFolder->AddFolder("Classes", "List of Active Classes",fClasses);
767 fRootFolder->AddFolder("Colors", "List of Active Colors",fColors);
768 fRootFolder->AddFolder("MapFiles", "List of MapFiles",fMappedFiles);
769 fRootFolder->AddFolder("Sockets", "List of Socket Connections",fSockets);
770 fRootFolder->AddFolder("Canvases", "List of Canvases",fCanvases);
771 fRootFolder->AddFolder("Styles", "List of Styles",fStyles);
772 fRootFolder->AddFolder("Functions", "List of Functions",fFunctions);
773 fRootFolder->AddFolder("Tasks", "List of Tasks",fTasks);
774 fRootFolder->AddFolder("Geometries","List of Geometries",fGeometries);
775 fRootFolder->AddFolder("Browsers", "List of Browsers",fBrowsers);
776 fRootFolder->AddFolder("Specials", "List of Special Objects",fSpecials);
777 fRootFolder->AddFolder("Handlers", "List of Message Handlers",fMessageHandlers);
778 fRootFolder->AddFolder("Cleanups", "List of RecursiveRemove Collections",fCleanups);
779 fRootFolder->AddFolder("StreamerInfo","List of Active StreamerInfo Classes",fStreamerInfo);
780 fRootFolder->AddFolder("SecContexts","List of Security Contexts",fSecContexts);
781 fRootFolder->AddFolder("PROOF Sessions", "List of PROOF sessions",fProofs);
782 fRootFolder->AddFolder("ROOT Memory","List of Objects in the gROOT Directory",fList);
783 fRootFolder->AddFolder("ROOT Files","List of Connected ROOT Files",fFiles);
784
785 // by default, add the list of files, tasks, canvases and browsers in the Cleanups list
791 // And add TROOT's TDirectory personality
793
798 fEscape = kFALSE;
800 fPrimitive = nullptr;
801 fSelectPad = nullptr;
802 fEditorMode = 0;
803 fDefCanvasName = "c1";
805 fLineIsProcessing = 1; // This prevents WIN32 "Windows" thread to pick ROOT objects with mouse
806 gDirectory = this;
807 gPad = nullptr;
808
809 //set name of graphical cut class for the graphics editor
810 //cannot call SetCutClassName at this point because the TClass of TCutG
811 //is not yet build
812 fCutClassName = "TCutG";
813
814 // Create a default MessageHandler
815 new TMessageHandler((TClass*)nullptr);
816
817 // Create some styles
818 gStyle = nullptr;
820 SetStyle(gEnv->GetValue("Canvas.Style", "Modern"));
821
822 // Setup default (batch) graphics and GUI environment
825 gGXBatch = new TVirtualX("Batch", "ROOT Interface to batch graphics");
827
828#if defined(R__WIN32)
829 fBatch = kFALSE;
830#elif defined(R__HAS_COCOA)
831 fBatch = kFALSE;
832#else
833 if (gSystem->Getenv("DISPLAY"))
834 fBatch = kFALSE;
835 else
836 fBatch = kTRUE;
837#endif
838
839 const char *webdisplay = gSystem->Getenv("ROOT_WEBDISPLAY");
840 if (!webdisplay || !*webdisplay)
841 webdisplay = gEnv->GetValue("WebGui.Display", "");
842 if (webdisplay && *webdisplay)
843 SetWebDisplay(webdisplay);
844
845 int i = 0;
846 while (initfunc && initfunc[i]) {
847 (initfunc[i])();
848 fBatch = kFALSE; // put system in graphics mode (backward compatible)
849 i++;
850 }
851
852 // Set initial/default list of browsable objects
853 fBrowsables->Add(fRootFolder, "root");
854 fBrowsables->Add(fProofs, "PROOF Sessions");
856 fBrowsables->Add(fFiles, "ROOT Files");
857
858 atexit(CleanUpROOTAtExit);
859
861}
862
863////////////////////////////////////////////////////////////////////////////////
864/// Clean up and free resources used by ROOT (files, network sockets,
865/// shared memory segments, etc.).
866
868{
869 using namespace ROOT::Internal;
870
871 if (gROOTLocal == this) {
872
873 // TMapFile must be closed before they are deleted, so run CloseFiles
874 // (possibly a second time if the application has an explicit TApplication
875 // object, but in that this is a no-op). TMapFile needs the slow close
876 // so that the custome operator delete can properly find out whether the
877 // memory being 'freed' is part of a memory mapped file or not.
878 CloseFiles();
879
880 // If the interpreter has not yet been initialized, don't bother
881 gGetROOT = &GetROOT1;
882
883 // Mark the object as invalid, so that we can veto some actions
884 // (like autoloading) while we are in the destructor.
886
887 // Turn-off the global mutex to avoid recreating mutexes that have
888 // already been deleted during the destruction phase
889 if (gGlobalMutex) {
891 gGlobalMutex = nullptr;
892 delete m;
893 }
894
895 // Return when error occurred in TCling, i.e. when setup file(s) are
896 // out of date
897 if (!fVersionInt) return;
898
899 // ATTENTION!!! Order is important!
900
902
903 // FIXME: Causes rootcling to deadlock, debug and uncomment
904 // SafeDelete(fRootFolder);
905
906#ifdef R__COMPLETE_MEM_TERMINATION
907 fSpecials->Delete(); SafeDelete(fSpecials); // delete special objects : PostScript, Minuit, Html
908#endif
909
910 fClosedObjects->Delete("slow"); // and closed files
911 fFiles->Delete("slow"); // and files
913 fSecContexts->Delete("slow"); SafeDelete(fSecContexts); // and security contexts
914 fSockets->Delete(); SafeDelete(fSockets); // and sockets
915 fMappedFiles->Delete("slow"); // and mapped files
916 TSeqCollection *tl = fMappedFiles; fMappedFiles = nullptr; delete tl;
917
919
920 delete fUUIDs;
921 TProcessID::Cleanup(); // and list of ProcessIDs
922
929
930#ifdef R__COMPLETE_MEM_TERMINATION
935#endif
936
937 // Stop emitting signals
939
941
942#ifdef R__COMPLETE_MEM_TERMINATION
948
949 fCleanups->Clear();
951 delete gClassTable; gClassTable = 0;
952 delete gEnv; gEnv = 0;
953
954 if (fTypes) fTypes->Delete();
956 if (fGlobals) fGlobals->Delete();
960 fEnums.load()->Delete();
961
962 // FIXME: Causes segfault in rootcling, debug and uncomment
963 // fClasses->Delete(); SafeDelete(fClasses); // TClass'es must be deleted last
964#endif
965
966 // Remove shared libraries produced by the TSystem::CompileMacro() call
968
969 // Cleanup system class
973 delete gSystem;
974
975 // ROOT-6022:
976 // if (gInterpreterLib) dlclose(gInterpreterLib);
977#ifdef R__COMPLETE_MEM_TERMINATION
978 // On some 'newer' platform (Fedora Core 17+, Ubuntu 12), the
979 // initialization order is (by default?) is 'wrong' and so we can't
980 // delete the interpreter now .. because any of the static in the
981 // interpreter's library have already been deleted.
982 // On the link line, we must list the most dependent .o file
983 // and end with the least dependent (LLVM libraries), unfortunately,
984 // Fedora Core 17+ or Ubuntu 12 will also execute the initialization
985 // in the same order (hence doing libCore's before LLVM's and
986 // vice et versa for both the destructor. We worked around the
987 // initialization order by delay the TROOT creation until first use.
988 // We can not do the same for destruction as we have no way of knowing
989 // the last access ...
990 // So for now, let's avoid delete TCling except in the special build
991 // checking the completeness of the termination deletion.
992
993 // TODO: Should we do more cleanup here than just call delete?
994 // Segfaults rootcling in some cases, debug and uncomment:
995 //
996 // delete fInterpreter;
997
998 // We cannot delete fCleanups because of the logic in atexit which needs it.
1000#endif
1001
1002#ifdef _MSC_VER
1003 // usedToIdentifyRootClingByDlSym is available when TROOT is part of rootcling.
1004 if (dlsym(RTLD_DEFAULT, "usedToIdentifyRootClingByDlSym")) {
1005 // deleting the interpreter makes things crash at exit in some cases
1006 delete fInterpreter;
1007 }
1008#else
1009 // deleting the interpreter makes things crash at exit in some cases
1010 delete fInterpreter;
1011#endif
1012
1013 // Prints memory stats
1015
1016 gROOTLocal = nullptr;
1018 }
1019}
1020
1021////////////////////////////////////////////////////////////////////////////////
1022/// Add a class to the list and map of classes.
1023/// This routine is deprecated, use TClass::AddClass directly.
1024
1026{
1027 TClass::AddClass(cl);
1028}
1029
1030////////////////////////////////////////////////////////////////////////////////
1031/// Add a class generator. This generator will be called by TClass::GetClass
1032/// in case its does not find a loaded rootcint dictionary to request the
1033/// creation of a TClass object.
1034
1036{
1037 if (!generator) return;
1038 fClassGenerators->Add(generator);
1039}
1040
1041////////////////////////////////////////////////////////////////////////////////
1042/// Append object to this directory.
1043///
1044/// If replace is true:
1045/// remove any existing objects with the same same (if the name is not "")
1046
1047void TROOT::Append(TObject *obj, Bool_t replace /* = kFALSE */)
1048{
1050 TDirectory::Append(obj,replace);
1051}
1052
1053////////////////////////////////////////////////////////////////////////////////
1054/// Add browsable objects to TBrowser.
1055
1057{
1058 TObject *obj;
1059 TIter next(fBrowsables);
1060
1061 while ((obj = (TObject *) next())) {
1062 const char *opt = next.GetOption();
1063 if (opt && strlen(opt))
1064 b->Add(obj, opt);
1065 else
1066 b->Add(obj, obj->GetName());
1067 }
1068}
1069
1070namespace {
1071 std::set<TClass *> &GetClassSavedSet()
1072 {
1073 static thread_local std::set<TClass*> gClassSaved;
1074 return gClassSaved;
1075 }
1076}
1077
1078////////////////////////////////////////////////////////////////////////////////
1079/// return class status 'ClassSaved' for class cl
1080/// This function is called by the SavePrimitive functions writing
1081/// the C++ code for an object.
1082
1084{
1085 if (cl == nullptr)
1086 return kFALSE;
1087
1088 auto result = GetClassSavedSet().insert(cl);
1089
1090 // Return false on the first insertion only.
1091 return !result.second;
1092}
1093
1094////////////////////////////////////////////////////////////////////////////////
1095/// Reset the ClassSaved status of all classes
1097{
1098 GetClassSavedSet().clear();
1099}
1100
1101namespace {
1102 template <typename Content>
1103 static void R__ListSlowClose(TList *files)
1104 {
1105 // Routine to close a list of files using the 'slow' techniques
1106 // that also for the deletion ot update the list itself.
1107
1108 static TObject harmless;
1109 TObjLink *cursor = files->FirstLink();
1110 while (cursor) {
1111 Content *dir = static_cast<Content*>( cursor->GetObject() );
1112 if (dir) {
1113 // In order for the iterator to stay valid, we must
1114 // prevent the removal of the object (dir) from the list
1115 // (which is done in TFile::Close). We can also can not
1116 // just move to the next iterator since the Close might
1117 // also (indirectly) remove that file.
1118 // So we SetObject to a harmless value, so that 'dir'
1119 // is not seen as part of the list.
1120 // We will later, remove all the object (see files->Clear()
1121 cursor->SetObject(&harmless); // this must not be zero otherwise things go wrong.
1122 // See related comment at the files->Clear("nodelete");
1123 dir->Close("nodelete");
1124 // Put it back
1125 cursor->SetObject(dir);
1126 }
1127 cursor = cursor->Next();
1128 };
1129 // Now were done, clear the list but do not delete the objects as
1130 // they have been moved to the list of closed objects and must be
1131 // deleted from there in order to avoid a double delete from a
1132 // use objects (on the interpreter stack).
1133 files->Clear("nodelete");
1134 }
1135
1136 static void R__ListSlowDeleteContent(TList *files)
1137 {
1138 // Routine to delete the content of list of files using the 'slow' techniques
1139
1140 static TObject harmless;
1141 TObjLink *cursor = files->FirstLink();
1142 while (cursor) {
1143 TDirectory *dir = dynamic_cast<TDirectory*>( cursor->GetObject() );
1144 if (dir) {
1145 // In order for the iterator to stay valid, we must
1146 // prevent the removal of the object (dir) from the list
1147 // (which is done in TFile::Close). We can also can not
1148 // just move to the next iterator since the Close might
1149 // also (indirectly) remove that file.
1150 // So we SetObject to a harmless value, so that 'dir'
1151 // is not seen as part of the list.
1152 // We will later, remove all the object (see files->Clear()
1153 cursor->SetObject(&harmless); // this must not be zero otherwise things go wrong.
1154 // See related comment at the files->Clear("nodelete");
1155 dir->GetList()->Delete("slow");
1156 // Put it back
1157 cursor->SetObject(dir);
1158 }
1159 cursor = cursor->Next();
1160 };
1161 }
1162}
1163
1164////////////////////////////////////////////////////////////////////////////////
1165/// Close any files and sockets that gROOT knows about.
1166/// This can be used to insures that the files and sockets are closed before any library is unloaded!
1167
1169{
1170 // Close files without deleting the objects (`ResetGlobals` will be called
1171 // next; see `EndOfProcessCleanups()` below.)
1172 if (fFiles && fFiles->First()) {
1173 R__ListSlowClose<TDirectory>(static_cast<TList*>(fFiles));
1174 }
1175 // and Close TROOT itself.
1176 Close("nodelete");
1177 // Now sockets.
1178 if (fSockets && fSockets->First()) {
1179 if (nullptr==fCleanups->FindObject(fSockets) ) {
1182 }
1183 CallFunc_t *socketCloser = gInterpreter->CallFunc_Factory();
1184 Longptr_t offset = 0;
1185 TClass *socketClass = TClass::GetClass("TSocket");
1186 gInterpreter->CallFunc_SetFuncProto(socketCloser, socketClass->GetClassInfo(), "Close", "", &offset);
1187 if (gInterpreter->CallFunc_IsValid(socketCloser)) {
1188 static TObject harmless;
1189 TObjLink *cursor = static_cast<TList*>(fSockets)->FirstLink();
1190 TList notclosed;
1191 while (cursor) {
1192 TObject *socket = cursor->GetObject();
1193 // In order for the iterator to stay valid, we must
1194 // prevent the removal of the object (dir) from the list
1195 // (which is done in TFile::Close). We can also can not
1196 // just move to the next iterator since the Close might
1197 // also (indirectly) remove that file.
1198 // So we SetObject to a harmless value, so that 'dir'
1199 // is not seen as part of the list.
1200 // We will later, remove all the object (see files->Clear()
1201 cursor->SetObject(&harmless); // this must not be zero otherwise things go wrong.
1202
1203 if (socket->IsA()->InheritsFrom(socketClass)) {
1204 gInterpreter->CallFunc_Exec(socketCloser, ((char*)socket)+offset);
1205 // Put the object in the closed list for later deletion.
1206 socket->SetBit(kMustCleanup);
1208 } else {
1209 // Crap ... this is not a socket, likely Proof or something, let's try to find a Close
1210 Longptr_t other_offset;
1211 CallFunc_t *otherCloser = gInterpreter->CallFunc_Factory();
1212 gInterpreter->CallFunc_SetFuncProto(otherCloser, socket->IsA()->GetClassInfo(), "Close", "", &other_offset);
1213 if (gInterpreter->CallFunc_IsValid(otherCloser)) {
1214 gInterpreter->CallFunc_Exec(otherCloser, ((char*)socket)+other_offset);
1215 // Put the object in the closed list for later deletion.
1216 socket->SetBit(kMustCleanup);
1218 } else {
1219 notclosed.AddLast(socket);
1220 }
1221 gInterpreter->CallFunc_Delete(otherCloser);
1222 // Put it back
1223 cursor->SetObject(socket);
1224 }
1225 cursor = cursor->Next();
1226 }
1227 // Now were done, clear the list
1228 fSockets->Clear();
1229 // Read the one we did not close
1230 cursor = notclosed.FirstLink();
1231 while (cursor) {
1232 static_cast<TList*>(fSockets)->AddLast(cursor->GetObject());
1233 cursor = cursor->Next();
1234 }
1235 }
1236 gInterpreter->CallFunc_Delete(socketCloser);
1237 }
1238 if (fMappedFiles && fMappedFiles->First()) {
1239 R__ListSlowClose<TVirtualMapFile>(static_cast<TList*>(fMappedFiles));
1240 }
1241
1242}
1243
1244////////////////////////////////////////////////////////////////////////////////
1245/// Execute the cleanups necessary at the end of the process, in particular
1246/// those that must be executed before the library start being unloaded.
1247
1249{
1250 // This will not delete the objects 'held' by the TFiles so that
1251 // they can still be 'reacheable' when ResetGlobals is run.
1252 CloseFiles();
1253
1254 if (gInterpreter) {
1255 // This might delete some of the objects 'held' by the TFiles (hence
1256 // `CloseFiles` must not delete them)
1257 gInterpreter->ResetGlobals();
1258 }
1259
1260 // Now delete the objects still 'held' by the TFiles so that it
1261 // is done before the tear down of the libraries.
1263 R__ListSlowDeleteContent(static_cast<TList*>(fClosedObjects));
1264 }
1265 fList->Delete("slow");
1266
1267 // Now a set of simpler things to delete. See the same ordering in
1268 // TROOT::~TROOT
1269 fFunctions->Delete();
1271 fBrowsers->Delete();
1272 fCanvases->Delete("slow");
1273 fColors->Delete();
1274 fStyles->Delete();
1275
1277
1278 if (gInterpreter) {
1279 gInterpreter->ShutDown();
1280 }
1281}
1282
1283
1284////////////////////////////////////////////////////////////////////////////////
1285/// Find an object in one Root folder
1286
1288{
1289 Error("FindObject","Not yet implemented");
1290 return nullptr;
1291}
1292
1293////////////////////////////////////////////////////////////////////////////////
1294/// Returns address of a ROOT object if it exists
1295///
1296/// If name contains at least one "/" the function calls FindObjectany
1297/// else
1298/// This function looks in the following order in the ROOT lists:
1299/// - List of files
1300/// - List of memory mapped files
1301/// - List of functions
1302/// - List of geometries
1303/// - List of canvases
1304/// - List of styles
1305/// - List of specials
1306/// - List of materials in current geometry
1307/// - List of shapes in current geometry
1308/// - List of matrices in current geometry
1309/// - List of Nodes in current geometry
1310/// - Current Directory in memory
1311/// - Current Directory on file
1312
1313TObject *TROOT::FindObject(const char *name) const
1314{
1315 if (name && strstr(name,"/")) return FindObjectAny(name);
1316
1317 TObject *temp = nullptr;
1318
1319 temp = fFiles->FindObject(name); if (temp) return temp;
1320 temp = fMappedFiles->FindObject(name); if (temp) return temp;
1321 {
1323 temp = fFunctions->FindObject(name);if (temp) return temp;
1324 }
1325 temp = fGeometries->FindObject(name); if (temp) return temp;
1326 temp = fCanvases->FindObject(name); if (temp) return temp;
1327 temp = fStyles->FindObject(name); if (temp) return temp;
1328 {
1330 temp = fSpecials->FindObject(name); if (temp) return temp;
1331 }
1332 TIter next(fGeometries);
1333 TObject *obj;
1334 while ((obj=next())) {
1335 temp = obj->FindObject(name); if (temp) return temp;
1336 }
1337 if (gDirectory) temp = gDirectory->Get(name);
1338 if (temp) return temp;
1339 if (gPad) {
1340 TVirtualPad *canvas = gPad->GetVirtCanvas();
1341 if (fCanvases->FindObject(canvas)) { //this check in case call from TCanvas ctor
1342 temp = canvas->FindObject(name);
1343 if (!temp && canvas != gPad) temp = gPad->FindObject(name);
1344 }
1345 }
1346 return temp;
1347}
1348
1349////////////////////////////////////////////////////////////////////////////////
1350/// Returns address and folder of a ROOT object if it exists
1351///
1352/// This function looks in the following order in the ROOT lists:
1353/// - List of files
1354/// - List of memory mapped files
1355/// - List of functions
1356/// - List of geometries
1357/// - List of canvases
1358/// - List of styles
1359/// - List of specials
1360/// - List of materials in current geometry
1361/// - List of shapes in current geometry
1362/// - List of matrices in current geometry
1363/// - List of Nodes in current geometry
1364/// - Current Directory in memory
1365/// - Current Directory on file
1366
1367TObject *TROOT::FindSpecialObject(const char *name, void *&where)
1368{
1369 TObject *temp = nullptr;
1370 where = nullptr;
1371
1372 if (!temp) {
1373 temp = fFiles->FindObject(name);
1374 where = fFiles;
1375 }
1376 if (!temp) {
1377 temp = fMappedFiles->FindObject(name);
1378 where = fMappedFiles;
1379 }
1380 if (!temp) {
1382 temp = fFunctions->FindObject(name);
1383 where = fFunctions;
1384 }
1385 if (!temp) {
1386 temp = fCanvases->FindObject(name);
1387 where = fCanvases;
1388 }
1389 if (!temp) {
1390 temp = fStyles->FindObject(name);
1391 where = fStyles;
1392 }
1393 if (!temp) {
1394 temp = fSpecials->FindObject(name);
1395 where = fSpecials;
1396 }
1397 if (!temp) {
1398 TObject *glast = fGeometries->Last();
1399 if (glast) {where = glast; temp = glast->FindObject(name);}
1400 }
1401 if (!temp && gDirectory) {
1402 temp = gDirectory->Get(name);
1403 where = gDirectory;
1404 }
1405 if (!temp && gPad) {
1406 TVirtualPad *canvas = gPad->GetVirtCanvas();
1407 if (fCanvases->FindObject(canvas)) { //this check in case call from TCanvas ctor
1408 temp = canvas->FindObject(name);
1409 where = canvas;
1410 if (!temp && canvas != gPad) {
1411 temp = gPad->FindObject(name);
1412 where = gPad;
1413 }
1414 }
1415 }
1416 if (!temp) return nullptr;
1417 if (!ROOT::Detail::HasBeenDeleted(temp)) return temp;
1418 return nullptr;
1419}
1420
1421////////////////////////////////////////////////////////////////////////////////
1422/// Return a pointer to the first object with name starting at //root.
1423/// This function scans the list of all folders.
1424/// if no object found in folders, it scans the memory list of all files.
1425
1427{
1429 if (obj) return obj;
1430 return gDirectory->FindObjectAnyFile(name);
1431}
1432
1433////////////////////////////////////////////////////////////////////////////////
1434/// Scan the memory lists of all files for an object with name
1435
1437{
1439 TDirectory *d;
1440 TIter next(GetListOfFiles());
1441 while ((d = (TDirectory*)next())) {
1442 // Call explicitly TDirectory::FindObject to restrict the search to the
1443 // already in memory object.
1444 TObject *obj = d->TDirectory::FindObject(name);
1445 if (obj) return obj;
1446 }
1447 return nullptr;
1448}
1449
1450////////////////////////////////////////////////////////////////////////////////
1451/// Returns class name of a ROOT object including CINT globals.
1452
1453const char *TROOT::FindObjectClassName(const char *name) const
1454{
1455 // Search first in the list of "standard" objects
1456 TObject *obj = FindObject(name);
1457 if (obj) return obj->ClassName();
1458
1459 // Is it a global variable?
1460 TGlobal *g = GetGlobal(name);
1461 if (g) return g->GetTypeName();
1462
1463 return nullptr;
1464}
1465
1466////////////////////////////////////////////////////////////////////////////////
1467/// Return path name of obj somewhere in the //root/... path.
1468/// The function returns the first occurence of the object in the list
1469/// of folders. The returned string points to a static char array in TROOT.
1470/// If this function is called in a loop or recursively, it is the
1471/// user's responsibility to copy this string in their area.
1472
1473const char *TROOT::FindObjectPathName(const TObject *) const
1474{
1475 Error("FindObjectPathName","Not yet implemented");
1476 return "??";
1477}
1478
1479////////////////////////////////////////////////////////////////////////////////
1480/// return a TClass object corresponding to 'name' assuming it is an STL container.
1481/// In particular we looking for possible alternative name (default template
1482/// parameter, typedefs template arguments, typedefed name).
1483
1484TClass *TROOT::FindSTLClass(const char *name, Bool_t load, Bool_t silent) const
1485{
1486 // Example of inputs are
1487 // vector<int> (*)
1488 // vector<Int_t>
1489 // vector<long long>
1490 // vector<Long_64_t> (*)
1491 // vector<int, allocator<int> >
1492 // vector<Int_t, allocator<int> >
1493 //
1494 // One of the possibly expensive operation is the resolving of the typedef
1495 // which can provoke the parsing of the header files (and/or the loading
1496 // of clang pcms information).
1497
1499
1500 // Remove std::, allocator, typedef, add Long64_t, etc. in just one call.
1501 std::string normalized;
1503
1504 TClass *cl = nullptr;
1505 if (normalized != name) cl = TClass::GetClass(normalized.c_str(),load,silent);
1506
1507 if (load && cl==nullptr) {
1508 // Create an Emulated class for this container.
1509 cl = gInterpreter->GenerateTClass(normalized.c_str(), kTRUE, silent);
1510 }
1511
1512 return cl;
1513}
1514
1515////////////////////////////////////////////////////////////////////////////////
1516/// Return pointer to class with name. Obsolete, use TClass::GetClass directly
1517
1518TClass *TROOT::GetClass(const char *name, Bool_t load, Bool_t silent) const
1519{
1520 return TClass::GetClass(name,load,silent);
1521}
1522
1523
1524////////////////////////////////////////////////////////////////////////////////
1525/// Return pointer to class from its name. Obsolete, use TClass::GetClass directly
1526/// See TClass::GetClass
1527
1528TClass *TROOT::GetClass(const std::type_info& typeinfo, Bool_t load, Bool_t silent) const
1529{
1530 return TClass::GetClass(typeinfo,load,silent);
1531}
1532
1533////////////////////////////////////////////////////////////////////////////////
1534/// Return address of color with index color.
1535
1537{
1539 TObjArray *lcolors = (TObjArray*) GetListOfColors();
1540 if (!lcolors) return nullptr;
1541 if (color < 0 || color >= lcolors->GetSize()) return nullptr;
1542 TColor *col = (TColor*)lcolors->At(color);
1543 if (col && col->GetNumber() == color) return col;
1544 TIter next(lcolors);
1545 while ((col = (TColor *) next()))
1546 if (col->GetNumber() == color) return col;
1547
1548 return nullptr;
1549}
1550
1551////////////////////////////////////////////////////////////////////////////////
1552/// Return a default canvas.
1553
1555{
1556 return (TCanvas*)gROOT->ProcessLine("TCanvas::MakeDefCanvas();");
1557}
1558
1559////////////////////////////////////////////////////////////////////////////////
1560/// Return pointer to type with name.
1561
1562TDataType *TROOT::GetType(const char *name, Bool_t /* load */) const
1563{
1564 return (TDataType*)gROOT->GetListOfTypes()->FindObject(name);
1565}
1566
1567////////////////////////////////////////////////////////////////////////////////
1568/// Return pointer to file with name.
1569
1570TFile *TROOT::GetFile(const char *name) const
1571{
1573 return (TFile*)GetListOfFiles()->FindObject(name);
1574}
1575
1576////////////////////////////////////////////////////////////////////////////////
1577/// Return pointer to style with name
1578
1579TStyle *TROOT::GetStyle(const char *name) const
1580{
1582}
1583
1584////////////////////////////////////////////////////////////////////////////////
1585/// Return pointer to function with name.
1586
1588{
1589 if (!name || !*name)
1590 return nullptr;
1591
1592 static std::atomic<bool> isInited = false;
1593
1594 // Capture the state before calling FindObject as it could change
1595 // between the end of FindObject and the if statement
1596 bool wasInited = isInited.load();
1597
1598 auto f1 = fFunctions->FindObject(name);
1599 if (f1 || wasInited)
1600 return f1;
1601
1602 // If 2 threads gets here at the same time, the static initialization "lock"
1603 // will stall one of them until ProcessLine is finished and both will return the
1604 // correct answer.
1605 // Note: if one (or more) thread(s) is suspended right after the 'isInited.load()`
1606 // and restart after this thread has finished the initialization (i.e. a rare case),
1607 // the only penalty we pay is a spurious 2nd lookup for an unknown function.
1608 [[maybe_unused]] static const auto _res = []() {
1609 gROOT->ProcessLine("TF1::InitStandardFunctions();");
1610 isInited = true;
1611 return true;
1612 }();
1613 return fFunctions->FindObject(name);
1614}
1615
1616////////////////////////////////////////////////////////////////////////////////
1617
1619{
1620 if (!gInterpreter) return nullptr;
1621
1623
1625}
1626
1627////////////////////////////////////////////////////////////////////////////////
1628/// Return pointer to global variable by name. If load is true force
1629/// reading of all currently defined globals from CINT (more expensive).
1630
1631TGlobal *TROOT::GetGlobal(const char *name, Bool_t load) const
1632{
1633 return (TGlobal *)gROOT->GetListOfGlobals(load)->FindObject(name);
1634}
1635
1636////////////////////////////////////////////////////////////////////////////////
1637/// Return pointer to global variable with address addr.
1638
1639TGlobal *TROOT::GetGlobal(const TObject *addr, Bool_t /* load */) const
1640{
1641 if (addr == nullptr || ((Longptr_t)addr) == -1) return nullptr;
1642
1643 TInterpreter::DeclId_t decl = gInterpreter->GetDataMemberAtAddr(addr);
1644 if (decl) {
1645 TListOfDataMembers *globals = ((TListOfDataMembers*)(gROOT->GetListOfGlobals(kFALSE)));
1646 return (TGlobal*)globals->Get(decl);
1647 }
1648 // If we are actually looking for a global that is held by a global
1649 // pointer (for example gRandom), we need to find a pointer with the
1650 // correct value.
1651 decl = gInterpreter->GetDataMemberWithValue(addr);
1652 if (decl) {
1653 TListOfDataMembers *globals = ((TListOfDataMembers*)(gROOT->GetListOfGlobals(kFALSE)));
1654 return (TGlobal*)globals->Get(decl);
1655 }
1656 return nullptr;
1657}
1658
1659////////////////////////////////////////////////////////////////////////////////
1660/// Internal routine returning, and creating if necessary, the list
1661/// of global function.
1662
1664{
1666 return fGlobalFunctions;
1667}
1668
1669////////////////////////////////////////////////////////////////////////////////
1670/// Return the collection of functions named "name".
1671
1673{
1674 return ((TListOfFunctions*)fGlobalFunctions)->GetListForObject(name);
1675}
1676
1677////////////////////////////////////////////////////////////////////////////////
1678/// Return pointer to global function by name.
1679/// If params != 0 it will also resolve overloading other it returns the first
1680/// name match.
1681/// If params == 0 and load is true force reading of all currently defined
1682/// global functions from Cling.
1683/// The param string must be of the form: "3189,\"aap\",1.3".
1684
1685TFunction *TROOT::GetGlobalFunction(const char *function, const char *params,
1686 Bool_t load)
1687{
1688 if (!params) {
1690 return (TFunction *)GetListOfGlobalFunctions(load)->FindObject(function);
1691 } else {
1692 if (!fInterpreter)
1693 Fatal("GetGlobalFunction", "fInterpreter not initialized");
1694
1696 TInterpreter::DeclId_t decl = gInterpreter->GetFunctionWithValues(nullptr,
1697 function, params,
1698 false);
1699
1700 if (!decl) return nullptr;
1701
1702 TFunction *f = GetGlobalFunctions()->Get(decl);
1703 if (f) return f;
1704
1705 Error("GetGlobalFunction",
1706 "\nDid not find matching TFunction <%s> with \"%s\".",
1707 function,params);
1708 return nullptr;
1709 }
1710}
1711
1712////////////////////////////////////////////////////////////////////////////////
1713/// Return pointer to global function by name. If proto != 0
1714/// it will also resolve overloading. If load is true force reading
1715/// of all currently defined global functions from CINT (more expensive).
1716/// The proto string must be of the form: "int, char*, float".
1717
1719 const char *proto, Bool_t load)
1720{
1721 if (!proto) {
1723 return (TFunction *)GetListOfGlobalFunctions(load)->FindObject(function);
1724 } else {
1725 if (!fInterpreter)
1726 Fatal("GetGlobalFunctionWithPrototype", "fInterpreter not initialized");
1727
1729 TInterpreter::DeclId_t decl = gInterpreter->GetFunctionWithPrototype(nullptr,
1730 function, proto);
1731
1732 if (!decl) return nullptr;
1733
1734 TFunction *f = GetGlobalFunctions()->Get(decl);
1735 if (f) return f;
1736
1737 Error("GetGlobalFunctionWithPrototype",
1738 "\nDid not find matching TFunction <%s> with \"%s\".",
1739 function,proto);
1740 return nullptr;
1741 }
1742}
1743
1744////////////////////////////////////////////////////////////////////////////////
1745/// Return pointer to Geometry with name
1746
1748{
1750}
1751
1752////////////////////////////////////////////////////////////////////////////////
1753
1755{
1756 if(!fEnums.load()) {
1758 // Test again just in case, another thread did the work while we were
1759 // waiting.
1760 if (!fEnums.load()) fEnums = new TListOfEnumsWithLock(nullptr);
1761 }
1762 if (load) {
1764 (*fEnums).Load(); // Refresh the list of enums.
1765 }
1766 return fEnums.load();
1767}
1768
1769////////////////////////////////////////////////////////////////////////////////
1770
1772{
1774 if(!fFuncTemplate) {
1776 }
1777 return fFuncTemplate;
1778}
1779
1780////////////////////////////////////////////////////////////////////////////////
1781/// Return list containing the TGlobals currently defined.
1782/// Since globals are created and deleted during execution of the
1783/// program, we need to update the list of globals every time we
1784/// execute this method. However, when calling this function in
1785/// a (tight) loop where no interpreter symbols will be created
1786/// you can set load=kFALSE (default).
1787
1789{
1790 if (!fGlobals) {
1792 // We add to the list the "funcky-fake" globals.
1793
1794 // provide special functor for gROOT, while ROOT::GetROOT() does not return reference
1795 TGlobalMappedFunction::MakeFunctor("gROOT", "TROOT*", ROOT::GetROOT, [] {
1796 ROOT::GetROOT();
1797 return (void *)&ROOT::Internal::gROOTLocal;
1798 });
1799
1801 TGlobalMappedFunction::MakeFunctor("gVirtualX", "TVirtualX*", TVirtualX::Instance);
1803
1804 // Don't let TGlobalMappedFunction delete our globals, now that we take them.
1808 }
1809
1810 if (!fInterpreter)
1811 Fatal("GetListOfGlobals", "fInterpreter not initialized");
1812
1813 if (load) fGlobals->Load();
1814
1815 return fGlobals;
1816}
1817
1818////////////////////////////////////////////////////////////////////////////////
1819/// Return list containing the TFunctions currently defined.
1820/// Since functions are created and deleted during execution of the
1821/// program, we need to update the list of functions every time we
1822/// execute this method. However, when calling this function in
1823/// a (tight) loop where no interpreter symbols will be created
1824/// you can set load=kFALSE (default).
1825
1827{
1829
1830 if (!fGlobalFunctions) {
1831 fGlobalFunctions = new TListOfFunctions(nullptr);
1832 }
1833
1834 if (!fInterpreter)
1835 Fatal("GetListOfGlobalFunctions", "fInterpreter not initialized");
1836
1837 // A thread that calls with load==true and a thread that calls with load==false
1838 // will conflict here (the load==true will be updating the list while the
1839 // other is reading it). To solve the problem, we could use a read-write lock
1840 // inside the list itself.
1841 if (load) fGlobalFunctions->Load();
1842
1843 return fGlobalFunctions;
1844}
1845
1846////////////////////////////////////////////////////////////////////////////////
1847/// Return a dynamic list giving access to all TDataTypes (typedefs)
1848/// currently defined.
1849///
1850/// The list is populated on demand. Calling
1851/// ~~~ {.cpp}
1852/// gROOT->GetListOfTypes()->FindObject(nameoftype);
1853/// ~~~
1854/// will return the TDataType corresponding to 'nameoftype'. If the
1855/// TDataType is not already in the list itself and the type does exist,
1856/// a new TDataType will be created and added to the list.
1857///
1858/// Calling
1859/// ~~~ {.cpp}
1860/// gROOT->GetListOfTypes()->ls(); // or Print()
1861/// ~~~
1862/// list only the typedefs that have been previously accessed through the
1863/// list (plus the builtins types).
1864
1866{
1867 if (!fInterpreter)
1868 Fatal("GetListOfTypes", "fInterpreter not initialized");
1869
1870 return fTypes;
1871}
1872
1873////////////////////////////////////////////////////////////////////////////////
1874/// Get number of classes.
1875
1877{
1878 return fClasses->GetSize();
1879}
1880
1881////////////////////////////////////////////////////////////////////////////////
1882/// Get number of types.
1883
1885{
1886 return fTypes->GetSize();
1887}
1888
1889////////////////////////////////////////////////////////////////////////////////
1890/// Execute command when system has been idle for idleTimeInSec seconds.
1891
1892void TROOT::Idle(UInt_t idleTimeInSec, const char *command)
1893{
1894 if (!fApplication.load())
1896
1897 if (idleTimeInSec <= 0)
1898 (*fApplication).RemoveIdleTimer();
1899 else
1900 (*fApplication).SetIdleTimer(idleTimeInSec, command);
1901}
1902
1903////////////////////////////////////////////////////////////////////////////////
1904/// Check whether className is a known class, and only autoload
1905/// if we can. Helper function for TROOT::IgnoreInclude().
1906
1907static TClass* R__GetClassIfKnown(const char* className)
1908{
1909 // Check whether the class is available for auto-loading first:
1910 const char* libsToLoad = gInterpreter->GetClassSharedLibs(className);
1911 TClass* cla = nullptr;
1912 if (libsToLoad) {
1913 // trigger autoload, and only create TClass in this case.
1914 return TClass::GetClass(className);
1915 } else if (gROOT->GetListOfClasses()
1916 && (cla = (TClass*)gROOT->GetListOfClasses()->FindObject(className))) {
1917 // cla assigned in if statement
1918 } else if (gClassTable->FindObject(className)) {
1919 return TClass::GetClass(className);
1920 }
1921 return cla;
1922}
1923
1924////////////////////////////////////////////////////////////////////////////////
1925/// Return 1 if the name of the given include file corresponds to a class that
1926/// is known to ROOT, e.g. "TLorentzVector.h" versus TLorentzVector.
1927
1928Int_t TROOT::IgnoreInclude(const char *fname, const char * /*expandedfname*/)
1929{
1930 if (fname == nullptr) return 0;
1931
1932 TString stem(fname);
1933 // Remove extension if any, ignore files with extension not being .h*
1934 Int_t where = stem.Last('.');
1935 if (where != kNPOS) {
1936 if (stem.EndsWith(".so") || stem.EndsWith(".sl") ||
1937 stem.EndsWith(".dl") || stem.EndsWith(".a") ||
1938 stem.EndsWith(".dll", TString::kIgnoreCase))
1939 return 0;
1940 stem.Remove(where);
1941 }
1942
1943 TString className = gSystem->BaseName(stem);
1944 TClass* cla = R__GetClassIfKnown(className);
1945 if (!cla) {
1946 // Try again with modifications to the file name:
1947 className = stem;
1948 className.ReplaceAll("/", "::");
1949 className.ReplaceAll("\\", "::");
1950 if (className.Contains(":::")) {
1951 // "C:\dir" becomes "C:::dir".
1952 // fname corresponds to whatever is stated after #include and
1953 // a full path name usually means that it's not a regular #include
1954 // but e.g. a ".L", so we can assume that this is not a header of
1955 // a class in a namespace (a global-namespace class would have been
1956 // detected already before).
1957 return 0;
1958 }
1959 cla = R__GetClassIfKnown(className);
1960 }
1961
1962 if (!cla) {
1963 return 0;
1964 }
1965
1966 // cla is valid, check wether it's actually in the header of the same name:
1967 if (cla->GetDeclFileLine() <= 0) return 0; // to a void an error with VisualC++
1968 TString decfile = gSystem->BaseName(cla->GetDeclFileName());
1969 if (decfile != gSystem->BaseName(fname)) {
1970 return 0;
1971 }
1972 return 1;
1973}
1974
1975////////////////////////////////////////////////////////////////////////////////
1976/// Initialize operating system interface.
1977
1979{
1980 if (gSystem == nullptr) {
1981#if defined(R__UNIX)
1982#if defined(R__HAS_COCOA)
1983 gSystem = new TMacOSXSystem;
1984#else
1985 gSystem = new TUnixSystem;
1986#endif
1987#elif defined(R__WIN32)
1988 gSystem = new TWinNTSystem;
1989#else
1990 gSystem = new TSystem;
1991#endif
1992
1993 if (gSystem->Init())
1994 fprintf(stderr, "Fatal in <TROOT::InitSystem>: can't init operating system layer\n");
1995
1996 if (!gSystem->HomeDirectory()) {
1997 fprintf(stderr, "Fatal in <TROOT::InitSystem>: HOME directory not set\n");
1998 fprintf(stderr, "Fix this by defining the HOME shell variable\n");
1999 }
2000
2001 // read default files
2002 gEnv = new TEnv(".rootrc");
2003
2006
2007 gDebug = gEnv->GetValue("Root.Debug", 0);
2008
2009 if (!gEnv->GetValue("Root.ErrorHandlers", 1))
2011
2012 // The old "Root.ZipMode" had a discrepancy between documentation vs actual meaning.
2013 // Also, a value with the meaning "default" wasn't available. To solved this,
2014 // "Root.ZipMode" was replaced by "Root.CompressionAlgorithm". Warn about usage of
2015 // the old value, if it's set to 0, but silently translate the setting to
2016 // "Root.CompressionAlgorithm" for values > 1.
2017 Int_t oldzipmode = gEnv->GetValue("Root.ZipMode", -1);
2018 if (oldzipmode == 0) {
2019 fprintf(stderr, "Warning in <TROOT::InitSystem>: ignoring old rootrc entry \"Root.ZipMode = 0\"!\n");
2020 } else {
2021 if (oldzipmode == -1 || oldzipmode == 1) {
2022 // Not set or default value, use "default" for "Root.CompressionAlgorithm":
2023 oldzipmode = 0;
2024 }
2025 // else keep the old zipmode (e.g. "3") as "Root.CompressionAlgorithm"
2026 // if "Root.CompressionAlgorithm" isn't set; see below.
2027 }
2028
2029 Int_t zipmode = gEnv->GetValue("Root.CompressionAlgorithm", oldzipmode);
2030 if (zipmode != 0) R__SetZipMode(zipmode);
2031
2032 const char *sdeb;
2033 if ((sdeb = gSystem->Getenv("ROOTDEBUG")))
2034 gDebug = atoi(sdeb);
2035
2036 if (gDebug > 0 && isatty(2))
2037 fprintf(stderr, "Info in <TROOT::InitSystem>: running with gDebug = %d\n", gDebug);
2038
2039#if defined(R__HAS_COCOA)
2040 // create and delete a dummy TUrl so that TObjectStat table does not contain
2041 // objects that are deleted after recording is turned-off (in next line),
2042 // like the TUrl::fgSpecialProtocols list entries which are created in the
2043 // TMacOSXSystem ctor.
2044 { TUrl dummy("/dummy"); }
2045#endif
2046 TObject::SetObjectStat(gEnv->GetValue("Root.ObjectStat", 0));
2047 }
2048}
2049
2050////////////////////////////////////////////////////////////////////////////////
2051/// Load and initialize thread library.
2052
2054{
2055 if (gEnv->GetValue("Root.UseThreads", 0) || gEnv->GetValue("Root.EnableThreadSafety", 0)) {
2057 }
2058}
2059
2060////////////////////////////////////////////////////////////////////////////////
2061/// Initialize the interpreter. Should be called only after main(),
2062/// to make sure LLVM/Clang is fully initialized.
2063
2065{
2066 // usedToIdentifyRootClingByDlSym is available when TROOT is part of
2067 // rootcling.
2068 if (!dlsym(RTLD_DEFAULT, "usedToIdentifyRootClingByDlSym")
2069 && !dlsym(RTLD_DEFAULT, "usedToIdentifyStaticRoot")) {
2070 char *libRIO = gSystem->DynamicPathName("libRIO");
2071 void *libRIOHandle = dlopen(libRIO, RTLD_NOW|RTLD_GLOBAL);
2072 delete [] libRIO;
2073 if (!libRIOHandle) {
2074 TString err = dlerror();
2075 fprintf(stderr, "Fatal in <TROOT::InitInterpreter>: cannot load library %s\n", err.Data());
2076 exit(1);
2077 }
2078
2079 char *libcling = gSystem->DynamicPathName("libCling");
2080 gInterpreterLib = dlopen(libcling, RTLD_LAZY|RTLD_LOCAL);
2081 delete [] libcling;
2082
2083 if (!gInterpreterLib) {
2084 TString err = dlerror();
2085 fprintf(stderr, "Fatal in <TROOT::InitInterpreter>: cannot load library %s\n", err.Data());
2086 exit(1);
2087 }
2088 dlerror(); // reset error message
2089 } else {
2090 gInterpreterLib = RTLD_DEFAULT;
2091 }
2093 if (!CreateInterpreter) {
2094 TString err = dlerror();
2095 fprintf(stderr, "Fatal in <TROOT::InitInterpreter>: cannot load symbol %s\n", err.Data());
2096 exit(1);
2097 }
2098 // Schedule the destruction of TROOT.
2099 atexit(at_exit_of_TROOT);
2100
2101 gDestroyInterpreter = (DestroyInterpreter_t*) dlsym(gInterpreterLib, "DestroyInterpreter");
2102 if (!gDestroyInterpreter) {
2103 TString err = dlerror();
2104 fprintf(stderr, "Fatal in <TROOT::InitInterpreter>: cannot load symbol %s\n", err.Data());
2105 exit(1);
2106 }
2107
2108 const char *interpArgs[] = {
2109#ifdef NDEBUG
2110 "-DNDEBUG",
2111#else
2112 "-UNDEBUG",
2113#endif
2114#ifdef DEBUG
2115 "-DDEBUG",
2116#else
2117 "-UDEBUG",
2118#endif
2119#ifdef _DEBUG
2120 "-D_DEBUG",
2121#else
2122 "-U_DEBUG",
2123#endif
2124 nullptr};
2125
2127
2130
2131 fgRootInit = kTRUE;
2132
2133 // initialize gClassTable is not already done
2134 if (!gClassTable)
2135 new TClassTable;
2136
2137 // Initialize all registered dictionaries.
2138 for (std::vector<ModuleHeaderInfo_t>::const_iterator
2139 li = GetModuleHeaderInfoBuffer().begin(),
2140 le = GetModuleHeaderInfoBuffer().end(); li != le; ++li) {
2141 // process buffered module registrations
2142 fInterpreter->RegisterModule(li->fModuleName,
2143 li->fHeaders,
2144 li->fIncludePaths,
2145 li->fPayloadCode,
2146 li->fFwdDeclCode,
2147 li->fTriggerFunc,
2148 li->fFwdNargsToKeepColl,
2149 li->fClassesHeaders,
2150 kTRUE /*lateRegistration*/,
2151 li->fHasCxxModule);
2152 }
2153 GetModuleHeaderInfoBuffer().clear();
2154
2156}
2157
2158////////////////////////////////////////////////////////////////////////////////
2159/// Helper function used by TClass::GetClass().
2160/// This function attempts to load the dictionary for 'classname'
2161/// either from the TClassTable or from the list of generator.
2162/// If silent is 'true', do not warn about missing dictionary for the class.
2163/// (typically used for class that are used only for transient members)
2164///
2165/// The 'requestedname' is expected to be already normalized.
2166
2167TClass *TROOT::LoadClass(const char *requestedname, Bool_t silent) const
2168{
2169 return TClass::LoadClass(requestedname, silent);
2170}
2171
2172////////////////////////////////////////////////////////////////////////////////
2173/// Check if class "classname" is known to the interpreter (in fact,
2174/// this check is not needed anymore, so classname is ignored). If
2175/// not it will load library "libname". If the library couldn't be found with original
2176/// libname and if the name was not prefixed with lib, try to prefix with "lib" and search again.
2177/// If DynamicPathName still couldn't find the library, return -1.
2178/// If check is true it will only check if libname exists and is
2179/// readable.
2180/// Returns 0 on successful loading, -1 in case libname does not
2181/// exist or in case of error and -2 in case of version mismatch.
2182
2183Int_t TROOT::LoadClass(const char * /*classname*/, const char *libname,
2184 Bool_t check)
2185{
2186 TString lib(libname);
2187
2188 // Check if libname exists in path or not
2189 if (char *path = gSystem->DynamicPathName(lib, kTRUE)) {
2190 // If check == true, only check if it exists and if it's readable
2191 if (check) {
2192 delete [] path;
2193 return 0;
2194 }
2195
2196 // If check == false, try to load the library
2197 else {
2198 int err = gSystem->Load(path, nullptr, kTRUE);
2199 delete [] path;
2200
2201 // TSystem::Load returns 1 when the library was already loaded, return success in this case.
2202 if (err == 1)
2203 err = 0;
2204 return err;
2205 }
2206 } else {
2207 // This is the branch where libname didn't exist
2208 if (check) {
2209 FileStat_t stat;
2210 if (!gSystem->GetPathInfo(libname, stat) && (R_ISREG(stat.fMode) &&
2212 return 0;
2213 }
2214
2215 // Take care of user who didn't write the whole name
2216 if (!lib.BeginsWith("lib")) {
2217 lib = "lib" + lib;
2218 return LoadClass("", lib.Data(), check);
2219 }
2220 }
2221
2222 // Execution reaches here when library was prefixed with lib, check is false and couldn't find
2223 // the library name.
2224 return -1;
2225}
2226
2227////////////////////////////////////////////////////////////////////////////////
2228/// Return true if the file is local and is (likely) to be a ROOT file
2229
2231{
2233 FILE *mayberootfile = fopen(filename,"rb");
2234 if (mayberootfile) {
2235 char header[5];
2236 if (fgets(header,5,mayberootfile)) {
2237 result = strncmp(header,"root",4)==0;
2238 }
2239 fclose(mayberootfile);
2240 }
2241 return result;
2242}
2243
2244////////////////////////////////////////////////////////////////////////////////
2245/// To list all objects of the application.
2246/// Loop on all objects created in the ROOT linked lists.
2247/// Objects may be files and windows or any other object directly
2248/// attached to the ROOT linked list.
2249
2251{
2252// TObject::SetDirLevel();
2253// GetList()->R__FOR_EACH(TObject,ls)(option);
2255}
2256
2257////////////////////////////////////////////////////////////////////////////////
2258/// Load a macro in the interpreter's memory. Equivalent to the command line
2259/// command ".L filename". If the filename has "+" or "++" appended
2260/// the macro will be compiled by ACLiC. The filename must have the format:
2261/// [path/]macro.C[+|++[g|O]].
2262/// The possible error codes are defined by TInterpreter::EErrorCode.
2263/// If check is true it will only check if filename exists and is
2264/// readable.
2265/// Returns 0 on successful loading and -1 in case filename does not
2266/// exist or in case of error.
2267
2268Int_t TROOT::LoadMacro(const char *filename, int *error, Bool_t check)
2269{
2270 Int_t err = -1;
2271 Int_t lerr, *terr;
2272 if (error)
2273 terr = error;
2274 else
2275 terr = &lerr;
2276
2277 if (fInterpreter) {
2278 TString aclicMode;
2279 TString arguments;
2280 TString io;
2281 TString fname = gSystem->SplitAclicMode(filename, aclicMode, arguments, io);
2282
2283 if (arguments.Length()) {
2284 Warning("LoadMacro", "argument(%s) ignored in %s", arguments.Data(), GetMacroPath());
2285 }
2286 char *mac = gSystem->Which(GetMacroPath(), fname, kReadPermission);
2287 if (!mac) {
2288 if (!check)
2289 Error("LoadMacro", "macro %s not found in path %s", fname.Data(), GetMacroPath());
2290 *terr = TInterpreter::kFatal;
2291 } else {
2292 err = 0;
2293 if (!check) {
2294 fname = mac;
2295 fname += aclicMode;
2296 fname += io;
2297 gInterpreter->LoadMacro(fname.Data(), (TInterpreter::EErrorCode*)terr);
2298 if (*terr)
2299 err = -1;
2300 }
2301 }
2302 delete [] mac;
2303 }
2304 return err;
2305}
2306
2307////////////////////////////////////////////////////////////////////////////////
2308/// Execute a macro in the interpreter. Equivalent to the command line
2309/// command ".x filename". If the filename has "+" or "++" appended
2310/// the macro will be compiled by ACLiC. The filename must have the format:
2311/// [path/]macro.C[+|++[g|O]][(args)].
2312/// The possible error codes are defined by TInterpreter::EErrorCode.
2313/// If padUpdate is true (default) update the current pad.
2314/// Returns the macro return value.
2315
2316Longptr_t TROOT::Macro(const char *filename, Int_t *error, Bool_t padUpdate)
2317{
2318 Longptr_t result = 0;
2319
2320 if (fInterpreter) {
2321 TString aclicMode;
2322 TString arguments;
2323 TString io;
2324 TString fname = gSystem->SplitAclicMode(filename, aclicMode, arguments, io);
2325
2326 char *mac = gSystem->Which(GetMacroPath(), fname, kReadPermission);
2327 if (!mac) {
2328 Error("Macro", "macro %s not found in path %s", fname.Data(), GetMacroPath());
2329 if (error)
2330 *error = TInterpreter::kFatal;
2331 } else {
2332 fname = mac;
2333 fname += aclicMode;
2334 fname += arguments;
2335 fname += io;
2336 result = gInterpreter->ExecuteMacro(fname, (TInterpreter::EErrorCode*)error);
2337 }
2338 delete [] mac;
2339
2340 if (padUpdate && gPad)
2341 gPad->Update();
2342 }
2343
2344 return result;
2345}
2346
2347////////////////////////////////////////////////////////////////////////////////
2348/// Process message id called by obj.
2349
2350void TROOT::Message(Int_t id, const TObject *obj)
2351{
2352 TIter next(fMessageHandlers);
2353 TMessageHandler *mh;
2354 while ((mh = (TMessageHandler*)next())) {
2355 mh->HandleMessage(id,obj);
2356 }
2357}
2358
2359////////////////////////////////////////////////////////////////////////////////
2360/// Process interpreter command via TApplication::ProcessLine().
2361/// On Win32 the line will be processed asynchronously by sending
2362/// it to the CINT interpreter thread. For explicit synchronous processing
2363/// use ProcessLineSync(). On non-Win32 platforms there is no difference
2364/// between ProcessLine() and ProcessLineSync().
2365/// The possible error codes are defined by TInterpreter::EErrorCode. In
2366/// particular, error will equal to TInterpreter::kProcessing until the
2367/// CINT interpreted thread has finished executing the line.
2368/// Returns the result of the command, cast to a Longptr_t.
2369
2371{
2372 TString sline = line;
2373 sline = sline.Strip(TString::kBoth);
2374
2375 if (!fApplication.load())
2377
2378 return (*fApplication).ProcessLine(sline, kFALSE, error);
2379}
2380
2381////////////////////////////////////////////////////////////////////////////////
2382/// Process interpreter command via TApplication::ProcessLine().
2383/// On Win32 the line will be processed synchronously (i.e. it will
2384/// only return when the CINT interpreter thread has finished executing
2385/// the line). On non-Win32 platforms there is no difference between
2386/// ProcessLine() and ProcessLineSync().
2387/// The possible error codes are defined by TInterpreter::EErrorCode.
2388/// Returns the result of the command, cast to a Longptr_t.
2389
2391{
2392 TString sline = line;
2393 sline = sline.Strip(TString::kBoth);
2394
2395 if (!fApplication.load())
2397
2398 return (*fApplication).ProcessLine(sline, kTRUE, error);
2399}
2400
2401////////////////////////////////////////////////////////////////////////////////
2402/// Process interpreter command directly via CINT interpreter.
2403/// Only executable statements are allowed (no variable declarations),
2404/// In all other cases use TROOT::ProcessLine().
2405/// The possible error codes are defined by TInterpreter::EErrorCode.
2406
2408{
2409 TString sline = line;
2410 sline = sline.Strip(TString::kBoth);
2411
2412 if (!fApplication.load())
2414
2415 Longptr_t result = 0;
2416
2417 if (fInterpreter) {
2419 result = gInterpreter->Calc(sline, code);
2420 }
2421
2422 return result;
2423}
2424
2425////////////////////////////////////////////////////////////////////////////////
2426/// Read Git commit information and branch name from the
2427/// etc/gitinfo.txt file.
2428
2430{
2431 TString filename = "gitinfo.txt";
2433
2434 FILE *fp = fopen(filename, "r");
2435 if (fp) {
2436 TString s;
2437 // read branch name
2438 s.Gets(fp);
2439 fGitBranch = s;
2440 // read commit hash
2441 s.Gets(fp);
2442 fGitCommit = s;
2443 // read date/time make was run
2444 s.Gets(fp);
2445 fGitDate = s;
2446 fclose(fp);
2447 } else {
2448 Error("ReadGitInfo()", "Cannot determine git info: etc/gitinfo.txt not found!");
2449 }
2450}
2451
2453 TTHREAD_TLS(Bool_t) fgReadingObject = false;
2454 return fgReadingObject;
2455}
2456
2457////////////////////////////////////////////////////////////////////////////////
2458/// Deprecated (will be removed in next release).
2459
2461{
2462 return GetReadingObject();
2463}
2464
2466{
2467 GetReadingObject() = flag;
2468}
2469
2470
2471////////////////////////////////////////////////////////////////////////////////
2472/// Return date/time make was run.
2473
2475{
2476 if (fGitDate == "") {
2477 Int_t iday,imonth,iyear, ihour, imin;
2478 static const char *months[] = { "Jan", "Feb", "Mar", "Apr", "May", "Jun",
2479 "Jul", "Aug", "Sep", "Oct", "Nov", "Dec" };
2480 Int_t idate = gROOT->GetBuiltDate();
2481 Int_t itime = gROOT->GetBuiltTime();
2482 iday = idate%100;
2483 imonth = (idate/100)%100;
2484 iyear = idate/10000;
2485 ihour = itime/100;
2486 imin = itime%100;
2487 fGitDate.Form("%s %02d %4d, %02d:%02d:00", months[imonth-1], iday, iyear, ihour, imin);
2488 }
2489 return fGitDate;
2490}
2491
2492////////////////////////////////////////////////////////////////////////////////
2493/// Recursively remove this object from the list of Cleanups.
2494/// Typically RecursiveRemove is implemented by classes that can contain
2495/// mulitple references to a same object or shared ownership of the object
2496/// with others.
2497
2499{
2501
2503}
2504
2505////////////////////////////////////////////////////////////////////////////////
2506/// Refresh all browsers. Call this method when some command line
2507/// command or script has changed the browser contents. Not needed
2508/// for objects that have the kMustCleanup bit set. Most useful to
2509/// update browsers that show the file system or other objects external
2510/// to the running ROOT session.
2511
2513{
2514 TIter next(GetListOfBrowsers());
2515 TBrowser *b;
2516 while ((b = (TBrowser*) next()))
2518}
2519////////////////////////////////////////////////////////////////////////////////
2520/// Insure that the files, canvases and sockets are closed.
2521
2522static void CallCloseFiles()
2523{
2525 gROOT->CloseFiles();
2526 }
2527}
2528
2529////////////////////////////////////////////////////////////////////////////////
2530/// Called by static dictionary initialization to register clang modules
2531/// for headers. Calls TCling::RegisterModule() unless gCling
2532/// is NULL, i.e. during startup, where the information is buffered in
2533/// the static GetModuleHeaderInfoBuffer().
2534
2535void TROOT::RegisterModule(const char* modulename,
2536 const char** headers,
2537 const char** includePaths,
2538 const char* payloadCode,
2539 const char* fwdDeclCode,
2540 void (*triggerFunc)(),
2541 const TInterpreter::FwdDeclArgsToKeepCollection_t& fwdDeclsArgToSkip,
2542 const char** classesHeaders,
2543 bool hasCxxModule)
2544{
2545
2546 // First a side track to insure proper end of process behavior.
2547
2548 // Register for each loaded dictionary (and thus for each library),
2549 // that we need to Close the ROOT files as soon as this library
2550 // might start being unloaded after main.
2551 //
2552 // By calling atexit here (rather than directly from within the
2553 // library) we make sure that this is not called if the library is
2554 // 'only' dlclosed.
2555
2556 // On Ubuntu the linker strips the unused libraries. Eventhough
2557 // stressHistogram is explicitly linked against libNet, it is not
2558 // retained and thus is loaded only as needed in the middle part of
2559 // the execution. Concretely this also means that it is loaded
2560 // *after* the construction of the TApplication object and thus
2561 // after the registration (atexit) of the EndOfProcessCleanups
2562 // routine. Consequently, after the end of main, libNet is
2563 // unloaded before EndOfProcessCleanups is called. When
2564 // EndOfProcessCleanups is executed it indirectly needs the TClass
2565 // for TSocket and its search will use resources that have already
2566 // been unloaded (technically the function static in TUnixSystem's
2567 // DynamicPath and the dictionary from libNet).
2568
2569 // Similarly, the ordering (before this commit) was broken in the
2570 // following case:
2571
2572 // TApplication creation (EndOfProcessCleanups registration)
2573 // load UserLibrary
2574 // create TFile
2575 // Append UserObject to TFile
2576
2577 // and after the end of main the order of execution was
2578
2579 // unload UserLibrary
2580 // call EndOfProcessCleanups
2581 // Write the TFile
2582 // attempt to write the user object.
2583 // ....
2584
2585 // where what we need is to have the files closen/written before
2586 // the unloading of the library.
2587
2588 // To solve the problem we now register an atexit function for
2589 // every dictionary thus making sure there is at least one executed
2590 // before the first library tear down after main.
2591
2592 // If atexit is called directly within a library's code, the
2593 // function will called *either* when the library is 'dlclose'd or
2594 // after then end of main (whichever comes first). We do *not*
2595 // want the files to be closed whenever a library is unloaded via
2596 // dlclose. To avoid this, we add the function (CallCloseFiles)
2597 // from the dictionary indirectly (via ROOT::RegisterModule). In
2598 // this case the function will only only be called either when
2599 // libCore is 'dlclose'd or right after the end of main.
2600
2601 atexit(CallCloseFiles);
2602
2603 // Now register with TCling.
2604 if (TROOT::Initialized()) {
2605 gCling->RegisterModule(modulename, headers, includePaths, payloadCode, fwdDeclCode, triggerFunc,
2606 fwdDeclsArgToSkip, classesHeaders, false, hasCxxModule);
2607 } else {
2608 GetModuleHeaderInfoBuffer().push_back(ModuleHeaderInfo_t(modulename, headers, includePaths, payloadCode,
2609 fwdDeclCode, triggerFunc, fwdDeclsArgToSkip,
2610 classesHeaders, hasCxxModule));
2611 }
2612}
2613
2614////////////////////////////////////////////////////////////////////////////////
2615/// Remove an object from the in-memory list.
2616/// Since TROOT is global resource, this is lock protected.
2617
2619{
2621 return TDirectory::Remove(obj);
2622}
2623
2624////////////////////////////////////////////////////////////////////////////////
2625/// Remove a class from the list and map of classes.
2626/// This routine is deprecated, use TClass::RemoveClass directly.
2627
2629{
2630 TClass::RemoveClass(oldcl);
2631}
2632
2633////////////////////////////////////////////////////////////////////////////////
2634/// Delete all global interpreter objects created since the last call to Reset
2635///
2636/// If option="a" is set reset to startup context (i.e. unload also
2637/// all loaded files, classes, structs, typedefs, etc.).
2638///
2639/// This function is typically used at the beginning (or end) of an unnamed macro
2640/// to clean the environment.
2641///
2642/// IMPORTANT WARNING:
2643/// Do not use this call from within any function (neither compiled nor
2644/// interpreted. This should only be used from a unnamed macro
2645/// (which starts with a { (curly braces) ). For example, using TROOT::Reset
2646/// from within an interpreted function will lead to the unloading of the
2647/// dictionary and source file, including the one defining the function being
2648/// executed.
2649///
2650
2652{
2653 if (IsExecutingMacro()) return; //True when TMacro::Exec runs
2654 if (fInterpreter) {
2655 if (!strncmp(option, "a", 1)) {
2658 } else
2659 gInterpreter->ResetGlobals();
2660
2661 if (fGlobals) fGlobals->Unload();
2663
2664 SaveContext();
2665 }
2666}
2667
2668////////////////////////////////////////////////////////////////////////////////
2669/// Save the current interpreter context.
2670
2672{
2673 if (fInterpreter)
2674 gInterpreter->SaveGlobalsContext();
2675}
2676
2677////////////////////////////////////////////////////////////////////////////////
2678/// Set the default graphical cut class name for the graphics editor
2679/// By default the graphics editor creates an instance of a class TCutG.
2680/// This function may be called to specify a different class that MUST
2681/// derive from TCutG
2682
2684{
2685 if (!name) {
2686 Error("SetCutClassName","Invalid class name");
2687 return;
2688 }
2690 if (!cl) {
2691 Error("SetCutClassName","Unknown class:%s",name);
2692 return;
2693 }
2694 if (!cl->InheritsFrom("TCutG")) {
2695 Error("SetCutClassName","Class:%s does not derive from TCutG",name);
2696 return;
2697 }
2699}
2700
2701////////////////////////////////////////////////////////////////////////////////
2702/// Set editor mode
2703
2705{
2706 fEditorMode = 0;
2707 if (!mode[0]) return;
2708 if (!strcmp(mode,"Arc")) {fEditorMode = kArc; return;}
2709 if (!strcmp(mode,"Line")) {fEditorMode = kLine; return;}
2710 if (!strcmp(mode,"Arrow")) {fEditorMode = kArrow; return;}
2711 if (!strcmp(mode,"Button")) {fEditorMode = kButton; return;}
2712 if (!strcmp(mode,"Diamond")) {fEditorMode = kDiamond; return;}
2713 if (!strcmp(mode,"Ellipse")) {fEditorMode = kEllipse; return;}
2714 if (!strcmp(mode,"Pad")) {fEditorMode = kPad; return;}
2715 if (!strcmp(mode,"Pave")) {fEditorMode = kPave; return;}
2716 if (!strcmp(mode,"PaveLabel")){fEditorMode = kPaveLabel; return;}
2717 if (!strcmp(mode,"PaveText")) {fEditorMode = kPaveText; return;}
2718 if (!strcmp(mode,"PavesText")){fEditorMode = kPavesText; return;}
2719 if (!strcmp(mode,"PolyLine")) {fEditorMode = kPolyLine; return;}
2720 if (!strcmp(mode,"CurlyLine")){fEditorMode = kCurlyLine; return;}
2721 if (!strcmp(mode,"CurlyArc")) {fEditorMode = kCurlyArc; return;}
2722 if (!strcmp(mode,"Text")) {fEditorMode = kText; return;}
2723 if (!strcmp(mode,"Marker")) {fEditorMode = kMarker; return;}
2724 if (!strcmp(mode,"CutG")) {fEditorMode = kCutG; return;}
2725}
2726
2727////////////////////////////////////////////////////////////////////////////////
2728/// Change current style to style with name stylename
2729
2730void TROOT::SetStyle(const char *stylename)
2731{
2732 TString style_name = stylename;
2733
2734 TStyle *style = GetStyle(style_name);
2735 if (style) style->cd();
2736 else Error("SetStyle","Unknown style:%s",style_name.Data());
2737}
2738
2739
2740//-------- Static Member Functions ---------------------------------------------
2741
2742
2743////////////////////////////////////////////////////////////////////////////////
2744/// Decrease the indentation level for ls().
2745
2747{
2748 return --fgDirLevel;
2749}
2750
2751////////////////////////////////////////////////////////////////////////////////
2752///return directory level
2753
2755{
2756 return fgDirLevel;
2757}
2758
2759////////////////////////////////////////////////////////////////////////////////
2760/// Get macro search path. Static utility function.
2761
2763{
2764 TString &macroPath = ROOT::GetMacroPath();
2765
2766 if (macroPath.Length() == 0) {
2767 macroPath = gEnv->GetValue("Root.MacroPath", (char*)nullptr);
2768#if defined(R__WIN32)
2769 macroPath.ReplaceAll("; ", ";");
2770#else
2771 macroPath.ReplaceAll(": ", ":");
2772#endif
2773 if (macroPath.Length() == 0)
2774#if !defined(R__WIN32)
2775 macroPath = ".:" + TROOT::GetMacroDir();
2776#else
2777 macroPath = ".;" + TROOT::GetMacroDir();
2778#endif
2779 }
2780
2781 return macroPath;
2782}
2783
2784////////////////////////////////////////////////////////////////////////////////
2785/// Set or extend the macro search path. Static utility function.
2786/// If newpath=0 or "" reset to value specified in the rootrc file.
2787
2788void TROOT::SetMacroPath(const char *newpath)
2789{
2790 TString &macroPath = ROOT::GetMacroPath();
2791
2792 if (!newpath || !*newpath)
2793 macroPath = "";
2794 else
2795 macroPath = newpath;
2796}
2797
2798////////////////////////////////////////////////////////////////////////////////
2799/// Set batch mode for ROOT
2800/// If the argument evaluates to `true`, the session does not use interactive graphics.
2801/// If web graphics runs in server mode, the web widgets are still available via URL
2802
2804{
2805 fIsWebDisplayBatch = fBatch = batch;
2806 if (fIsWebDisplayBatch && (fWebDisplay == "server"))
2808}
2809
2810////////////////////////////////////////////////////////////////////////////////
2811/// \brief Specify where web graphics shall be rendered
2812///
2813/// The input parameter `webdisplay` defines where web graphics is rendered.
2814/// `webdisplay` parameter may contain:
2815///
2816/// - "firefox": select Mozilla Firefox browser for interactive web display
2817/// - "chrome": select Google Chrome browser for interactive web display
2818/// - "edge": select Microsoft Edge browser for interactive web display
2819/// - "native": select one of the natively-supported web browsers firefox/chrome/edge for interactive web display
2820/// - "qt5": uses QWebEngine from Qt5, no real http server started (requires `qt5web` component build for ROOT)
2821/// - "qt6": uses QWebEngine from Qt6, no real http server started (requires `qt6web` component build for ROOT)
2822/// - "cef": uses Chromium Embeded Framework, no real http server started (requires `cefweb` component build for ROOT)
2823/// - "local": select on of available local (without http server) engines like qt5/qt6/cef
2824/// - "default": system default web browser, invoked with `xdg-open` on Linux, `start` on Mac or `open` on Windows
2825/// - "on": try "local", then "native", then "default" option
2826/// - "off": turns off the web display and comes back to normal graphics in
2827/// interactive mode.
2828/// - "server:port": turns the web display into server mode with specified port. Web widgets will not be displayed,
2829/// only text message with window URL will be printed on standard output
2830
2831void TROOT::SetWebDisplay(const char *webdisplay)
2832{
2833 const char *wd = webdisplay ? webdisplay : "";
2834
2835 // store default values to set them back when needed
2836 static TString brName = gEnv->GetValue("Browser.Name", "");
2837 static TString trName = gEnv->GetValue("TreeViewer.Name", "");
2838 static TString geomName = gEnv->GetValue("GeomPainter.Name", "");
2839
2841
2842 if (!strcmp(wd, "off")) {
2844 fWebDisplay = "off";
2845 } else {
2847
2848 // handle server mode
2849 if (!strncmp(wd, "server", 6)) {
2850 fWebDisplay = "server";
2852 if (wd[6] == ':') {
2853 if ((wd[7] >= '0') && (wd[7] <= '9')) {
2854 auto port = TString(wd+7).Atoi();
2855 if (port > 0)
2856 gEnv->SetValue("WebGui.HttpPort", port);
2857 else
2858 Error("SetWebDisplay", "Wrong port parameter %s for server", wd+7);
2859 } else if (wd[7]) {
2860 gEnv->SetValue("WebGui.UnixSocket", wd+7);
2861 }
2862 }
2863 } else {
2864 fWebDisplay = wd;
2865 }
2866 }
2867
2868 if (fIsWebDisplay) {
2869 // restore browser classes configured at the moment when gROOT->SetWebDisplay() was called for the first time
2870 // This is necessary when SetWebDisplay() called several times and therefore current settings may differ
2871 gEnv->SetValue("Canvas.Name", "TWebCanvas");
2872 gEnv->SetValue("Browser.Name", brName);
2873 gEnv->SetValue("TreeViewer.Name", trName);
2874 gEnv->SetValue("GeomPainter.Name", geomName);
2875 } else {
2876 gEnv->SetValue("Canvas.Name", "TRootCanvas");
2877 gEnv->SetValue("Browser.Name", "TRootBrowser");
2878 gEnv->SetValue("TreeViewer.Name", "TTreeViewer");
2879 gEnv->SetValue("GeomPainter.Name", "root");
2880 }
2881}
2882
2883////////////////////////////////////////////////////////////////////////////////
2884/// Increase the indentation level for ls().
2885
2887{
2888 return ++fgDirLevel;
2889}
2890
2891////////////////////////////////////////////////////////////////////////////////
2892/// Functions used by ls() to indent an object hierarchy.
2893
2895{
2896 for (int i = 0; i < fgDirLevel; i++) std::cout.put(' ');
2897}
2898
2899////////////////////////////////////////////////////////////////////////////////
2900/// Initialize ROOT explicitly.
2901
2903 (void) gROOT;
2904}
2905
2906////////////////////////////////////////////////////////////////////////////////
2907/// Return kTRUE if the TROOT object has been initialized.
2908
2910{
2911 return fgRootInit;
2912}
2913
2914////////////////////////////////////////////////////////////////////////////////
2915/// Return Indentation level for ls().
2916
2918{
2919 fgDirLevel = level;
2920}
2921
2922////////////////////////////////////////////////////////////////////////////////
2923/// Convert version code to an integer, i.e. 331527 -> 51507.
2924
2926{
2927 return 10000*(code>>16) + 100*((code&65280)>>8) + (code&255);
2928}
2929
2930////////////////////////////////////////////////////////////////////////////////
2931/// Convert version as an integer to version code as used in RVersion.h.
2932
2934{
2935 int a = v/10000;
2936 int b = (v - a*10000)/100;
2937 int c = v - a*10000 - b*100;
2938 return (a << 16) + (b << 8) + c;
2939}
2940
2941////////////////////////////////////////////////////////////////////////////////
2942/// Return ROOT version code as defined in RVersion.h.
2943
2945{
2946 return ROOT_VERSION_CODE;
2947}
2948////////////////////////////////////////////////////////////////////////////////
2949/// Provide command line arguments to the interpreter construction.
2950/// These arguments are added to the existing flags (e.g. `-DNDEBUG`).
2951/// They are evaluated once per process, at the time where TROOT (and thus
2952/// TInterpreter) is constructed.
2953/// Returns the new flags.
2954
2955const std::vector<std::string> &TROOT::AddExtraInterpreterArgs(const std::vector<std::string> &args) {
2956 static std::vector<std::string> sArgs = {};
2957 sArgs.insert(sArgs.begin(), args.begin(), args.end());
2958 return sArgs;
2959}
2960
2961////////////////////////////////////////////////////////////////////////////////
2962/// INTERNAL function!
2963/// Used by rootcling to inject interpreter arguments through a C-interface layer.
2964
2966 static const char** extraInterpArgs = nullptr;
2967 return extraInterpArgs;
2968}
2969
2970////////////////////////////////////////////////////////////////////////////////
2971
2972#ifdef ROOTPREFIX
2973static Bool_t IgnorePrefix() {
2974 static Bool_t ignorePrefix = gSystem->Getenv("ROOTIGNOREPREFIX");
2975 return ignorePrefix;
2976}
2977#endif
2978
2979////////////////////////////////////////////////////////////////////////////////
2980/// Get the rootsys directory in the installation. Static utility function.
2981
2983 // Avoid returning a reference to a temporary because of the conversion
2984 // between std::string and TString.
2985 const static TString rootsys = ROOT::FoundationUtils::GetRootSys();
2986 return rootsys;
2987}
2988
2989////////////////////////////////////////////////////////////////////////////////
2990/// Get the binary directory in the installation. Static utility function.
2991
2993#ifdef ROOTBINDIR
2994 if (IgnorePrefix()) {
2995#endif
2996 static TString rootbindir;
2997 if (rootbindir.IsNull()) {
2998 rootbindir = "bin";
2999 gSystem->PrependPathName(GetRootSys(), rootbindir);
3000 }
3001 return rootbindir;
3002#ifdef ROOTBINDIR
3003 } else {
3004 const static TString rootbindir = ROOTBINDIR;
3005 return rootbindir;
3006 }
3007#endif
3008}
3009
3010////////////////////////////////////////////////////////////////////////////////
3011/// Get the library directory in the installation. Static utility function.
3012
3014#ifdef ROOTLIBDIR
3015 if (IgnorePrefix()) {
3016#endif
3017 static TString rootlibdir;
3018 if (rootlibdir.IsNull()) {
3019 rootlibdir = "lib";
3020 gSystem->PrependPathName(GetRootSys(), rootlibdir);
3021 }
3022 return rootlibdir;
3023#ifdef ROOTLIBDIR
3024 } else {
3025 const static TString rootlibdir = ROOTLIBDIR;
3026 return rootlibdir;
3027 }
3028#endif
3029}
3030
3031////////////////////////////////////////////////////////////////////////////////
3032/// Get the shared libraries directory in the installation. Static utility function.
3033
3035#if defined(R__WIN32)
3036 return TROOT::GetBinDir();
3037#else
3038 return TROOT::GetLibDir();
3039#endif
3040}
3041
3042////////////////////////////////////////////////////////////////////////////////
3043/// Get the include directory in the installation. Static utility function.
3044
3046 // Avoid returning a reference to a temporary because of the conversion
3047 // between std::string and TString.
3048 const static TString includedir = ROOT::FoundationUtils::GetIncludeDir();
3049 return includedir;
3050}
3051
3052////////////////////////////////////////////////////////////////////////////////
3053/// Get the sysconfig directory in the installation. Static utility function.
3054
3056 // Avoid returning a reference to a temporary because of the conversion
3057 // between std::string and TString.
3058 const static TString etcdir = ROOT::FoundationUtils::GetEtcDir();
3059 return etcdir;
3060}
3061
3062////////////////////////////////////////////////////////////////////////////////
3063/// Get the data directory in the installation. Static utility function.
3064
3066#ifdef ROOTDATADIR
3067 if (IgnorePrefix()) {
3068#endif
3069 return GetRootSys();
3070#ifdef ROOTDATADIR
3071 } else {
3072 const static TString rootdatadir = ROOTDATADIR;
3073 return rootdatadir;
3074 }
3075#endif
3076}
3077
3078////////////////////////////////////////////////////////////////////////////////
3079/// Get the documentation directory in the installation. Static utility function.
3080
3082#ifdef ROOTDOCDIR
3083 if (IgnorePrefix()) {
3084#endif
3085 return GetRootSys();
3086#ifdef ROOTDOCDIR
3087 } else {
3088 const static TString rootdocdir = ROOTDOCDIR;
3089 return rootdocdir;
3090 }
3091#endif
3092}
3093
3094////////////////////////////////////////////////////////////////////////////////
3095/// Get the macro directory in the installation. Static utility function.
3096
3098#ifdef ROOTMACRODIR
3099 if (IgnorePrefix()) {
3100#endif
3101 static TString rootmacrodir;
3102 if (rootmacrodir.IsNull()) {
3103 rootmacrodir = "macros";
3104 gSystem->PrependPathName(GetRootSys(), rootmacrodir);
3105 }
3106 return rootmacrodir;
3107#ifdef ROOTMACRODIR
3108 } else {
3109 const static TString rootmacrodir = ROOTMACRODIR;
3110 return rootmacrodir;
3111 }
3112#endif
3113}
3114
3115////////////////////////////////////////////////////////////////////////////////
3116/// Get the tutorials directory in the installation. Static utility function.
3117
3119#ifdef ROOTTUTDIR
3120 if (IgnorePrefix()) {
3121#endif
3122 static TString roottutdir;
3123 if (roottutdir.IsNull()) {
3124 roottutdir = "tutorials";
3125 gSystem->PrependPathName(GetRootSys(), roottutdir);
3126 }
3127 return roottutdir;
3128#ifdef ROOTTUTDIR
3129 } else {
3130 const static TString roottutdir = ROOTTUTDIR;
3131 return roottutdir;
3132 }
3133#endif
3134}
3135
3136////////////////////////////////////////////////////////////////////////////////
3137/// Shut down ROOT.
3138
3140{
3141 if (gROOT)
3142 gROOT->EndOfProcessCleanups();
3143 else if (gInterpreter)
3144 gInterpreter->ShutDown();
3145}
3146
3147////////////////////////////////////////////////////////////////////////////////
3148/// Get the source directory in the installation. Static utility function.
3149
3151#ifdef ROOTSRCDIR
3152 if (IgnorePrefix()) {
3153#endif
3154 static TString rootsrcdir;
3155 if (rootsrcdir.IsNull()) {
3156 rootsrcdir = "src";
3157 gSystem->PrependPathName(GetRootSys(), rootsrcdir);
3158 }
3159 return rootsrcdir;
3160#ifdef ROOTSRCDIR
3161 } else {
3162 const static TString rootsrcdir = ROOTSRCDIR;
3163 return rootsrcdir;
3164 }
3165#endif
3166}
3167
3168////////////////////////////////////////////////////////////////////////////////
3169/// Get the icon path in the installation. Static utility function.
3170
3172#ifdef ROOTICONPATH
3173 if (IgnorePrefix()) {
3174#endif
3175 static TString rooticonpath;
3176 if (rooticonpath.IsNull()) {
3177 rooticonpath = "icons";
3178 gSystem->PrependPathName(GetRootSys(), rooticonpath);
3179 }
3180 return rooticonpath;
3181#ifdef ROOTICONPATH
3182 } else {
3183 const static TString rooticonpath = ROOTICONPATH;
3184 return rooticonpath;
3185 }
3186#endif
3187}
3188
3189////////////////////////////////////////////////////////////////////////////////
3190/// Get the fonts directory in the installation. Static utility function.
3191
3193#ifdef TTFFONTDIR
3194 if (IgnorePrefix()) {
3195#endif
3196 static TString ttffontdir;
3197 if (ttffontdir.IsNull()) {
3198 ttffontdir = "fonts";
3199 gSystem->PrependPathName(GetRootSys(), ttffontdir);
3200 }
3201 return ttffontdir;
3202#ifdef TTFFONTDIR
3203 } else {
3204 const static TString ttffontdir = TTFFONTDIR;
3205 return ttffontdir;
3206 }
3207#endif
3208}
3209
3210////////////////////////////////////////////////////////////////////////////////
3211/// Get the tutorials directory in the installation. Static utility function.
3212/// Backward compatibility function - do not use for new code
3213
3215 return GetTutorialDir();
3216}
@ kMarker
Definition Buttons.h:34
@ kCurlyArc
Definition Buttons.h:38
@ kPad
Definition Buttons.h:30
@ kPolyLine
Definition Buttons.h:28
@ kDiamond
Definition Buttons.h:37
@ kPave
Definition Buttons.h:31
@ kArrow
Definition Buttons.h:33
@ kPaveText
Definition Buttons.h:32
@ kCutG
Definition Buttons.h:38
@ kLine
Definition Buttons.h:33
@ kPavesText
Definition Buttons.h:32
@ kCurlyLine
Definition Buttons.h:38
@ kPaveLabel
Definition Buttons.h:31
@ kButton
Definition Buttons.h:37
@ kEllipse
Definition Buttons.h:32
@ kText
Definition Buttons.h:30
@ kArc
Definition Buttons.h:33
The file contains utilities which are foundational and could be used across the core component of ROO...
#define SafeDelete(p)
Definition RConfig.hxx:533
#define d(i)
Definition RSha256.hxx:102
#define b(i)
Definition RSha256.hxx:100
#define f(i)
Definition RSha256.hxx:104
#define c(i)
Definition RSha256.hxx:101
#define g(i)
Definition RSha256.hxx:105
#define a(i)
Definition RSha256.hxx:99
#define ROOT_RELEASE_TIME
Definition RVersion.h:6
#define ROOT_RELEASE
Definition RVersion.hxx:44
#define ROOT_VERSION_CODE
Definition RVersion.hxx:24
#define ROOT_RELEASE_DATE
Definition RVersion.hxx:8
bool Bool_t
Definition RtypesCore.h:63
int Int_t
Definition RtypesCore.h:45
long Longptr_t
Definition RtypesCore.h:75
unsigned int UInt_t
Definition RtypesCore.h:46
constexpr Bool_t kFALSE
Definition RtypesCore.h:94
constexpr Ssiz_t kNPOS
Definition RtypesCore.h:117
constexpr Bool_t kTRUE
Definition RtypesCore.h:93
const char Option_t
Definition RtypesCore.h:66
#define ClassImp(name)
Definition Rtypes.h:382
void(* VoidFuncPtr_t)()
Definition Rtypes.h:84
R__EXTERN TClassTable * gClassTable
TInterpreter * CreateInterpreter(void *interpLibHandle, const char *argv[])
Definition TCling.cxx:608
#define gDirectory
Definition TDirectory.h:384
R__EXTERN TEnv * gEnv
Definition TEnv.h:170
void DefaultErrorHandler(Int_t level, Bool_t abort_bool, const char *location, const char *msg)
The default error handler function.
void Error(const char *location, const char *msgfmt,...)
Use this function in case an error occurred.
Definition TError.cxx:185
void Warning(const char *location, const char *msgfmt,...)
Use this function in warning situations.
Definition TError.cxx:229
ErrorHandlerFunc_t SetErrorHandler(ErrorHandlerFunc_t newhandler)
Set an errorhandler function. Returns the old handler.
Definition TError.cxx:90
Option_t Option_t option
Option_t Option_t TPoint TPoint const char GetTextMagnitude GetFillStyle GetLineColor GetLineWidth GetMarkerStyle GetTextAlign GetTextColor GetTextSize void char Point_t Rectangle_t cursor
Option_t Option_t TPoint TPoint const char GetTextMagnitude GetFillStyle GetLineColor GetLineWidth GetMarkerStyle GetTextAlign GetTextColor GetTextSize void char Point_t Rectangle_t WindowAttributes_t Float_t Float_t Float_t Int_t Int_t UInt_t UInt_t Rectangle_t Int_t Int_t Window_t TString Int_t GCValues_t GetPrimarySelectionOwner GetDisplay GetScreen GetColormap GetNativeEvent const char const char dpyName wid window const char font_name cursor keysym reg const char only_if_exist regb h Point_t winding char text const char depth char const char Int_t count const char ColorStruct_t color const char filename
Option_t Option_t TPoint TPoint const char GetTextMagnitude GetFillStyle GetLineColor GetLineWidth GetMarkerStyle GetTextAlign GetTextColor GetTextSize void char Point_t Rectangle_t WindowAttributes_t Float_t Float_t Float_t Int_t Int_t UInt_t UInt_t Rectangle_t Int_t Int_t Window_t TString Int_t GCValues_t GetPrimarySelectionOwner GetDisplay GetScreen GetColormap GetNativeEvent const char const char dpyName wid window const char font_name cursor keysym reg const char only_if_exist regb h Point_t winding char text const char depth char const char Int_t count const char ColorStruct_t color const char Pixmap_t Pixmap_t PictureAttributes_t attr const char char ret_data h unsigned char height h offset
Option_t Option_t TPoint TPoint const char GetTextMagnitude GetFillStyle GetLineColor GetLineWidth GetMarkerStyle GetTextAlign GetTextColor GetTextSize void char Point_t Rectangle_t WindowAttributes_t Float_t Float_t Float_t Int_t Int_t UInt_t UInt_t Rectangle_t result
Option_t Option_t TPoint TPoint const char mode
Option_t Option_t style
char name[80]
Definition TGX11.cxx:110
R__EXTERN TGuiFactory * gBatchGuiFactory
Definition TGuiFactory.h:67
R__EXTERN TGuiFactory * gGuiFactory
Definition TGuiFactory.h:66
R__EXTERN TVirtualMutex * gInterpreterMutex
TInterpreter * CreateInterpreter_t(void *shlibHandle, const char *argv[])
R__EXTERN TInterpreter * gCling
#define gInterpreter
void * DestroyInterpreter_t(TInterpreter *)
R__EXTERN TPluginManager * gPluginMgr
Bool_t & GetReadingObject()
Definition TROOT.cxx:2452
static Int_t IVERSQ()
Return version id as an integer, i.e. "2.22/04" -> 22204.
Definition TROOT.cxx:184
static Int_t IDATQQ(const char *date)
Return built date as integer, i.e. "Apr 28 2000" -> 20000428.
Definition TROOT.cxx:194
static TClass * R__GetClassIfKnown(const char *className)
Check whether className is a known class, and only autoload if we can.
Definition TROOT.cxx:1907
static DestroyInterpreter_t * gDestroyInterpreter
Definition TROOT.cxx:170
Int_t gDebug
Definition TROOT.cxx:597
static void * gInterpreterLib
Definition TROOT.cxx:171
static Int_t ITIMQQ(const char *time)
Return built time as integer (with min precision), i.e.
Definition TROOT.cxx:222
static void at_exit_of_TROOT()
Definition TROOT.cxx:296
TVirtualMutex * gROOTMutex
Definition TROOT.cxx:174
static void CleanUpROOTAtExit()
Clean up at program termination before global objects go out of scope.
Definition TROOT.cxx:232
static void CallCloseFiles()
Insure that the files, canvases and sockets are closed.
Definition TROOT.cxx:2522
void R__SetZipMode(int)
R__EXTERN TVirtualMutex * gROOTMutex
Definition TROOT.h:63
#define gROOT
Definition TROOT.h:406
R__EXTERN TStyle * gStyle
Definition TStyle.h:436
void(* Func_t)()
Definition TSystem.h:239
R__EXTERN const char * gRootDir
Definition TSystem.h:241
@ kReadPermission
Definition TSystem.h:45
Bool_t R_ISREG(Int_t mode)
Definition TSystem.h:116
R__EXTERN TSystem * gSystem
Definition TSystem.h:561
R__EXTERN TVirtualMutex * gGlobalMutex
#define R__LOCKGUARD(mutex)
#define gPad
#define R__READ_LOCKGUARD(mutex)
#define gVirtualX
Definition TVirtualX.h:337
R__EXTERN TVirtualX * gGXBatch
Definition TVirtualX.h:339
const char * proto
Definition civetweb.c:17535
char fHolder[sizeof(TROOT)]
Definition TROOT.cxx:338
static void CreateApplication()
Static function used to create a default application environment.
Using a TBrowser one can browse all ROOT objects.
Definition TBrowser.h:37
void SetRefreshFlag(Bool_t flag)
Definition TBrowser.h:100
The Canvas class.
Definition TCanvas.h:23
Objects following this interface can be passed onto the TROOT object to implement a user customized w...
This class registers for all classes their name, id and dictionary function in a hash table.
Definition TClassTable.h:37
TClass instances represent classes, structs and namespaces in the ROOT type system.
Definition TClass.h:81
static void AddClass(TClass *cl)
static: Add a class to the list and map of classes.
Definition TClass.cxx:555
static TClass * LoadClass(const char *requestedname, Bool_t silent)
Helper function used by TClass::GetClass().
Definition TClass.cxx:5818
Short_t GetDeclFileLine() const
Definition TClass.h:430
static void RemoveClass(TClass *cl)
static: Remove a class from the list and map of classes
Definition TClass.cxx:585
ClassInfo_t * GetClassInfo() const
Definition TClass.h:434
Bool_t InheritsFrom(const char *cl) const override
Return kTRUE if this class inherits from a class with name "classname".
Definition TClass.cxx:4943
const char * GetDeclFileName() const
Return name of the file containing the declaration of this class.
Definition TClass.cxx:3532
static TClass * GetClass(const char *name, Bool_t load=kTRUE, Bool_t silent=kFALSE)
Static method returning pointer to TClass of the specified class name.
Definition TClass.cxx:3037
Collection abstract base class.
Definition TCollection.h:65
void RecursiveRemove(TObject *obj) override
Remove object from this collection and recursively remove the object from all other objects (and coll...
virtual bool UseRWLock(Bool_t enable=true)
Set this collection to use a RW lock upon access, making it thread safe.
virtual void AddAll(const TCollection *col)
Add all objects from collection col to this collection.
virtual void SetOwner(Bool_t enable=kTRUE)
Set whether this collection is the owner (enable==true) of its content.
virtual void Add(TObject *obj)=0
TObject * FindObject(const char *name) const override
Find an object in this collection using its name.
void Delete(Option_t *option="") override=0
Delete this object.
void Clear(Option_t *option="") override=0
virtual Int_t GetSize() const
Return the capacity of the collection, i.e.
The color creation and management class.
Definition TColor.h:21
static void InitializeColors()
Initialize colors used by the TCanvas based graphics (via TColor objects).
Definition TColor.cxx:1167
Int_t GetNumber() const
Definition TColor.h:58
Basic data type descriptor (datatype information is obtained from CINT).
Definition TDataType.h:44
Describe directory structure in memory.
Definition TDirectory.h:45
virtual void Close(Option_t *option="")
Delete all objects from memory and directory structure itself.
virtual TList * GetList() const
Definition TDirectory.h:222
void ls(Option_t *option="") const override
List Directory contents.
virtual void Append(TObject *obj, Bool_t replace=kFALSE)
Append object to this directory.
void SetName(const char *newname) override
Set the name for directory If the directory name is changed after the directory was written once,...
void BuildDirectory(TFile *motherFile, TDirectory *motherDir)
Initialise directory to defaults.
static std::atomic< TDirectory * > & CurrentDirectory()
Return the current directory for the current thread.
virtual TObject * Remove(TObject *)
Remove an object from the in-memory list.
TList * fList
Definition TDirectory.h:142
The TEnv class reads config files, by default named .rootrc.
Definition TEnv.h:124
virtual Int_t GetValue(const char *name, Int_t dflt) const
Returns the integer value for a resource.
Definition TEnv.cxx:491
virtual void SetValue(const char *name, const char *value, EEnvLevel level=kEnvChange, const char *type=nullptr)
Set the value of a resource or create a new resource.
Definition TEnv.cxx:736
A ROOT file is an on-disk file, usually with extension .root, that stores objects in a file-system-li...
Definition TFile.h:53
<div class="legacybox"><h2>Legacy Code</h2> TFolder is a legacy interface: there will be no bug fixes...
Definition TFolder.h:30
virtual TObject * FindObjectAny(const char *name) const
Return a pointer to the first object with name starting at this folder.
Definition TFolder.cxx:343
TFolder * AddFolder(const char *name, const char *title, TCollection *collection=nullptr)
Create a new folder and add it to the list of folders of this folder, return a pointer to the created...
Definition TFolder.cxx:182
Dictionary for function template This class describes one single function template.
Global functions class (global functions are obtained from CINT).
Definition TFunction.h:30
static void MakeFunctor(const char *name, const char *type, GlobFunc &func)
Definition TGlobal.h:73
static TList & GetEarlyRegisteredGlobals()
Returns list collected globals Used to storeTGlobalMappedFunctions from other libs,...
Definition TGlobal.cxx:189
Global variables class (global variables are obtained from CINT).
Definition TGlobal.h:28
This ABC is a factory for GUI components.
Definition TGuiFactory.h:42
THashList implements a hybrid collection class consisting of a hash table and a list to store TObject...
Definition THashList.h:34
THashTable implements a hash table to store TObject's.
Definition THashTable.h:35
virtual void RegisterModule(const char *, const char **, const char **, const char *, const char *, void(*)(), const FwdDeclArgsToKeepCollection_t &fwdDeclArgsToKeep, const char **classesHeaders, Bool_t lateRegistration=false, Bool_t hasCxxModule=false)=0
virtual void Reset()=0
virtual void Initialize()=0
std::vector< std::pair< std::string, int > > FwdDeclArgsToKeepCollection_t
virtual void SaveContext()=0
TDictionary::DeclId_t DeclId_t
Option_t * GetOption() const
A collection of TDataMember objects designed for fast access given a DeclId_t and for keep track of T...
void Delete(Option_t *option="") override
Delete all TDataMember object files.
void Unload()
Mark 'all func' as being unloaded.
TDictionary * Get(DeclId_t id)
Return (after creating it if necessary) the TDataMember describing the data member corresponding to t...
void Load()
Load all the DataMembers known to the interpreter for the scope 'fClass' into this collection.
A collection of TEnum objects designed for fast access given a DeclId_t and for keep track of TEnum t...
A collection of TFunction objects designed for fast access given a DeclId_t and for keep track of TFu...
TObject * FindObject(const char *name) const override
Specialize FindObject to do search for the a function just by name or create it if its not already in...
A collection of TFunction objects designed for fast access given a DeclId_t and for keep track of TFu...
TFunction * Get(DeclId_t id)
Return (after creating it if necessary) the TMethod or TFunction describing the function correspondin...
void Delete(Option_t *option="") override
Delete all TFunction object files.
void Load()
Load all the functions known to the interpreter for the scope 'fClass' into this collection.
void Unload()
Mark 'all func' as being unloaded.
A collection of TDataType designed to hold the typedef information and numerical type information.
A doubly linked list.
Definition TList.h:38
void Clear(Option_t *option="") override
Remove all objects from the list.
Definition TList.cxx:400
void Add(TObject *obj) override
Definition TList.h:81
void AddLast(TObject *obj) override
Add object at the end of the list.
Definition TList.cxx:150
virtual TObjLink * FirstLink() const
Definition TList.h:102
void Delete(Option_t *option="") override
Remove all objects from the list AND delete all heap based objects.
Definition TList.cxx:468
Handle messages that might be generated by the system.
virtual void HandleMessage(Long_t id, const TObject *obj)
Store message origin, keep statistics and call Notify().
virtual void SetTitle(const char *title="")
Set the title of the TNamed.
Definition TNamed.cxx:164
virtual void SetName(const char *name)
Set the name of the TNamed.
Definition TNamed.cxx:140
An array of TObjects.
Definition TObjArray.h:31
TObject * At(Int_t idx) const override
Definition TObjArray.h:164
Mother of all ROOT objects.
Definition TObject.h:41
static void SetObjectStat(Bool_t stat)
Turn on/off tracking of objects in the TObjectTable.
Definition TObject.cxx:1074
virtual const char * GetName() const
Returns name of object.
Definition TObject.cxx:444
virtual const char * ClassName() const
Returns name of class to which the object belongs.
Definition TObject.cxx:213
virtual void Warning(const char *method, const char *msgfmt,...) const
Issue warning message.
Definition TObject.cxx:979
virtual TObject * FindObject(const char *name) const
Must be redefined in derived classes.
Definition TObject.cxx:408
void SetBit(UInt_t f, Bool_t set)
Set or unset the user status bits as specified in f.
Definition TObject.cxx:786
virtual void Error(const char *method, const char *msgfmt,...) const
Issue error message.
Definition TObject.cxx:993
virtual void Fatal(const char *method, const char *msgfmt,...) const
Issue fatal error message.
Definition TObject.cxx:1021
@ kInvalidObject
if object ctor succeeded but object should not be used
Definition TObject.h:72
@ kMustCleanup
if object destructor must call RecursiveRemove()
Definition TObject.h:64
This class implements a plugin library manager.
void LoadHandlersFromEnv(TEnv *env)
Load plugin handlers specified in config file, like:
static void Cleanup()
static function (called by TROOT destructor) to delete all TProcessIDs
static TProcessID * AddProcessID()
Static function to add a new TProcessID to the list of PIDs.
This class is a specialized TProcessID managing the list of UUIDs.
static Bool_t BlockAllSignals(Bool_t b)
Block or unblock all signals. Returns the previous block status.
ROOT top level object description.
Definition TROOT.h:94
static Int_t IncreaseDirLevel()
Increase the indentation level for ls().
Definition TROOT.cxx:2886
Int_t IgnoreInclude(const char *fname, const char *expandedfname)
Return 1 if the name of the given include file corresponds to a class that is known to ROOT,...
Definition TROOT.cxx:1928
Int_t fVersionCode
ROOT version code as used in RVersion.h.
Definition TROOT.h:115
void Message(Int_t id, const TObject *obj)
Process message id called by obj.
Definition TROOT.cxx:2350
void RemoveClass(TClass *)
Remove a class from the list and map of classes.
Definition TROOT.cxx:2628
TSeqCollection * fProofs
List of proof sessions.
Definition TROOT.h:162
TCollection * fClassGenerators
List of user defined class generators;.
Definition TROOT.h:160
TROOT()
Only used by Dictionary.
Definition TROOT.cxx:605
void SetCutClassName(const char *name="TCutG")
Set the default graphical cut class name for the graphics editor By default the graphics editor creat...
Definition TROOT.cxx:2683
TSeqCollection * fCanvases
List of canvases.
Definition TROOT.h:149
TObject * FindObjectAnyFile(const char *name) const override
Scan the memory lists of all files for an object with name.
Definition TROOT.cxx:1436
const TObject * fPrimitive
Currently selected primitive.
Definition TROOT.h:138
void SetWebDisplay(const char *webdisplay="")
Specify where web graphics shall be rendered.
Definition TROOT.cxx:2831
Bool_t fIsWebDisplay
True if session uses web widgets.
Definition TROOT.h:128
TFolder * fRootFolder
top level folder //root
Definition TROOT.h:167
void AddClassGenerator(TClassGenerator *gen)
Add a class generator.
Definition TROOT.cxx:1035
TSeqCollection * fGeometries
List of geometries.
Definition TROOT.h:154
TString fCutClassName
Name of default CutG class in graphics editor.
Definition TROOT.h:170
TInterpreter * fInterpreter
Command interpreter.
Definition TROOT.h:125
std::vector< std::pair< std::string, int > > FwdDeclArgsToKeepCollection_t
Definition TROOT.h:187
Int_t fVersionTime
Time of ROOT version (ex 1152)
Definition TROOT.h:117
void EndOfProcessCleanups()
Execute the cleanups necessary at the end of the process, in particular those that must be executed b...
Definition TROOT.cxx:1248
Bool_t fBatch
True if session without graphics.
Definition TROOT.h:126
TSeqCollection * GetListOfFiles() const
Definition TROOT.h:237
Bool_t fEscape
True if ESC has been pressed.
Definition TROOT.h:135
static const TString & GetBinDir()
Get the binary directory in the installation. Static utility function.
Definition TROOT.cxx:2992
Int_t fVersionInt
ROOT version in integer format (501)
Definition TROOT.h:114
static const TString & GetIncludeDir()
Get the include directory in the installation. Static utility function.
Definition TROOT.cxx:3045
Bool_t fFromPopUp
True if command executed from a popup menu.
Definition TROOT.h:131
void Idle(UInt_t idleTimeInSec, const char *command=nullptr)
Execute command when system has been idle for idleTimeInSec seconds.
Definition TROOT.cxx:1892
TSeqCollection * fSockets
List of network sockets.
Definition TROOT.h:148
void ls(Option_t *option="") const override
To list all objects of the application.
Definition TROOT.cxx:2250
static const char * GetMacroPath()
Get macro search path. Static utility function.
Definition TROOT.cxx:2762
TCollection * fFunctions
List of analytic functions.
Definition TROOT.h:151
void SaveContext()
Save the current interpreter context.
Definition TROOT.cxx:2671
Bool_t IsExecutingMacro() const
Definition TROOT.h:280
TDataType * GetType(const char *name, Bool_t load=kFALSE) const
Return pointer to type with name.
Definition TROOT.cxx:1562
static void Initialize()
Initialize ROOT explicitly.
Definition TROOT.cxx:2902
static void ShutDown()
Shut down ROOT.
Definition TROOT.cxx:3139
TObject * GetFunction(const char *name) const
Return pointer to function with name.
Definition TROOT.cxx:1587
static Int_t ConvertVersionCode2Int(Int_t code)
Convert version code to an integer, i.e. 331527 -> 51507.
Definition TROOT.cxx:2925
TSeqCollection * fMessageHandlers
List of message handlers.
Definition TROOT.h:158
void SetStyle(const char *stylename="Default")
Change current style to style with name stylename.
Definition TROOT.cxx:2730
AListOfEnums_t fEnums
List of enum types.
Definition TROOT.h:165
void ReadGitInfo()
Read Git commit SHA1 and branch name.
Definition TROOT.cxx:2429
static Bool_t fgRootInit
Singleton initialization flag.
Definition TROOT.h:103
void RefreshBrowsers()
Refresh all browsers.
Definition TROOT.cxx:2512
void CloseFiles()
Close any files and sockets that gROOT knows about.
Definition TROOT.cxx:1168
std::atomic< TApplication * > fApplication
Pointer to current application.
Definition TROOT.h:124
const char * FindObjectPathName(const TObject *obj) const
Return path name of obj somewhere in the //root/... path.
Definition TROOT.cxx:1473
static Int_t ConvertVersionInt2Code(Int_t v)
Convert version as an integer to version code as used in RVersion.h.
Definition TROOT.cxx:2933
void ResetClassSaved()
Reset the ClassSaved status of all classes.
Definition TROOT.cxx:1096
static const TString & GetTTFFontDir()
Get the fonts directory in the installation. Static utility function.
Definition TROOT.cxx:3192
Bool_t fForceStyle
Force setting of current style when reading objects.
Definition TROOT.h:133
TCanvas * MakeDefCanvas() const
Return a default canvas.
Definition TROOT.cxx:1554
TCollection * fTypes
List of data types definition.
Definition TROOT.h:141
TColor * GetColor(Int_t color) const
Return address of color with index color.
Definition TROOT.cxx:1536
TGlobal * GetGlobal(const char *name, Bool_t load=kFALSE) const
Return pointer to global variable by name.
Definition TROOT.cxx:1631
TClass * FindSTLClass(const char *name, Bool_t load, Bool_t silent=kFALSE) const
return a TClass object corresponding to 'name' assuming it is an STL container.
Definition TROOT.cxx:1484
TSeqCollection * fStreamerInfo
List of active StreamerInfo classes.
Definition TROOT.h:159
void Append(TObject *obj, Bool_t replace=kFALSE) override
Append object to this directory.
Definition TROOT.cxx:1047
static const TString & GetIconPath()
Get the icon path in the installation. Static utility function.
Definition TROOT.cxx:3171
TCollection * GetListOfGlobalFunctions(Bool_t load=kFALSE)
Return list containing the TFunctions currently defined.
Definition TROOT.cxx:1826
TString fGitDate
Date and time when make was run.
Definition TROOT.h:122
TSeqCollection * fSpecials
List of special objects.
Definition TROOT.h:156
TCollection * GetListOfFunctionTemplates()
Definition TROOT.cxx:1771
static void RegisterModule(const char *modulename, const char **headers, const char **includePaths, const char *payLoadCode, const char *fwdDeclCode, void(*triggerFunc)(), const FwdDeclArgsToKeepCollection_t &fwdDeclsArgToSkip, const char **classesHeaders, bool hasCxxModule=false)
Called by static dictionary initialization to register clang modules for headers.
Definition TROOT.cxx:2535
TObject * FindObject(const char *name) const override
Returns address of a ROOT object if it exists.
Definition TROOT.cxx:1313
TCollection * fClasses
List of classes definition.
Definition TROOT.h:140
Bool_t fEditHistograms
True if histograms can be edited with the mouse.
Definition TROOT.h:130
TListOfDataMembers * fGlobals
List of global variables.
Definition TROOT.h:143
TListOfFunctionTemplates * fFuncTemplate
List of global function templates.
Definition TROOT.h:142
Int_t fTimer
Timer flag.
Definition TROOT.h:123
TSeqCollection * fDataSets
List of data sets (TDSet or TChain)
Definition TROOT.h:164
TString fConfigOptions
ROOT ./configure set build options.
Definition TROOT.h:111
TStyle * GetStyle(const char *name) const
Return pointer to style with name.
Definition TROOT.cxx:1579
TCollection * GetListOfEnums(Bool_t load=kFALSE)
Definition TROOT.cxx:1754
Longptr_t ProcessLineSync(const char *line, Int_t *error=nullptr)
Process interpreter command via TApplication::ProcessLine().
Definition TROOT.cxx:2390
void InitInterpreter()
Initialize interpreter (cling)
Definition TROOT.cxx:2064
TCollection * GetListOfGlobals(Bool_t load=kFALSE)
Return list containing the TGlobals currently defined.
Definition TROOT.cxx:1788
static void SetDirLevel(Int_t level=0)
Return Indentation level for ls().
Definition TROOT.cxx:2917
TSeqCollection * fSecContexts
List of security contexts (TSecContext)
Definition TROOT.h:161
TString fWebDisplay
If not empty it defines where web graphics should be rendered (cef, qt5, browser.....
Definition TROOT.h:127
static const char * GetTutorialsDir()
Get the tutorials directory in the installation.
Definition TROOT.cxx:3214
TCollection * GetListOfFunctionOverloads(const char *name) const
Return the collection of functions named "name".
Definition TROOT.cxx:1672
TSeqCollection * fCleanups
List of recursiveRemove collections.
Definition TROOT.h:157
static Bool_t Initialized()
Return kTRUE if the TROOT object has been initialized.
Definition TROOT.cxx:2909
void SetBatch(Bool_t batch=kTRUE)
Set batch mode for ROOT If the argument evaluates to true, the session does not use interactive graph...
Definition TROOT.cxx:2803
Int_t fLineIsProcessing
To synchronize multi-threads.
Definition TROOT.h:100
static const TString & GetSourceDir()
Get the source directory in the installation. Static utility function.
Definition TROOT.cxx:3150
static const TString & GetMacroDir()
Get the macro directory in the installation. Static utility function.
Definition TROOT.cxx:3097
TString fGitCommit
Git commit SHA1 of built.
Definition TROOT.h:120
Longptr_t ProcessLine(const char *line, Int_t *error=nullptr)
Process interpreter command via TApplication::ProcessLine().
Definition TROOT.cxx:2370
TSeqCollection * fClosedObjects
List of closed objects from the list of files and sockets, so we can delete them if neededCl.
Definition TROOT.h:145
TSeqCollection * fTasks
List of tasks.
Definition TROOT.h:152
TSeqCollection * fClipboard
List of clipboard objects.
Definition TROOT.h:163
const char * GetGitDate()
Return date/time make was run.
Definition TROOT.cxx:2474
void SetEditorMode(const char *mode="")
Set editor mode.
Definition TROOT.cxx:2704
static const TString & GetTutorialDir()
Get the tutorials directory in the installation. Static utility function.
Definition TROOT.cxx:3118
virtual ~TROOT()
Clean up and free resources used by ROOT (files, network sockets, shared memory segments,...
Definition TROOT.cxx:867
TSeqCollection * fColors
List of colors.
Definition TROOT.h:153
TFunction * GetGlobalFunctionWithPrototype(const char *name, const char *proto=nullptr, Bool_t load=kFALSE)
Return pointer to global function by name.
Definition TROOT.cxx:1718
TSeqCollection * GetListOfBrowsers() const
Definition TROOT.h:245
Bool_t ReadingObject() const
Deprecated (will be removed in next release).
Definition TROOT.cxx:2460
TSeqCollection * fStyles
List of styles.
Definition TROOT.h:150
Int_t fVersionDate
Date of ROOT version (ex 951226)
Definition TROOT.h:116
TSeqCollection * GetListOfColors() const
Definition TROOT.h:232
Longptr_t Macro(const char *filename, Int_t *error=nullptr, Bool_t padUpdate=kTRUE)
Execute a macro in the interpreter.
Definition TROOT.cxx:2316
Int_t fBuiltTime
Time of ROOT built.
Definition TROOT.h:119
static const std::vector< std::string > & AddExtraInterpreterArgs(const std::vector< std::string > &args)
Provide command line arguments to the interpreter construction.
Definition TROOT.cxx:2955
TClass * GetClass(const char *name, Bool_t load=kTRUE, Bool_t silent=kFALSE) const
Return pointer to class with name. Obsolete, use TClass::GetClass directly.
Definition TROOT.cxx:1518
TVirtualPad * fSelectPad
Currently selected pad.
Definition TROOT.h:139
TSeqCollection * fFiles
List of files.
Definition TROOT.h:146
void Browse(TBrowser *b) override
Add browsable objects to TBrowser.
Definition TROOT.cxx:1056
static const TString & GetRootSys()
Get the rootsys directory in the installation. Static utility function.
Definition TROOT.cxx:2982
TListOfFunctions * GetGlobalFunctions()
Internal routine returning, and creating if necessary, the list of global function.
Definition TROOT.cxx:1663
Bool_t fInterrupt
True if macro should be interrupted.
Definition TROOT.h:134
Bool_t fMustClean
True if object destructor scans canvases.
Definition TROOT.h:132
Int_t LoadClass(const char *classname, const char *libname, Bool_t check=kFALSE)
Check if class "classname" is known to the interpreter (in fact, this check is not needed anymore,...
Definition TROOT.cxx:2183
TFunction * GetGlobalFunction(const char *name, const char *params=nullptr, Bool_t load=kFALSE)
Return pointer to global function by name.
Definition TROOT.cxx:1685
void AddClass(TClass *cl)
Add a class to the list and map of classes.
Definition TROOT.cxx:1025
static Int_t RootVersionCode()
Return ROOT version code as defined in RVersion.h.
Definition TROOT.cxx:2944
TObject * FindSpecialObject(const char *name, void *&where)
Returns address and folder of a ROOT object if it exists.
Definition TROOT.cxx:1367
TObject * Remove(TObject *) override
Remove an object from the in-memory list.
Definition TROOT.cxx:2618
void InitSystem()
Operating System interface.
Definition TROOT.cxx:1978
Longptr_t ProcessLineFast(const char *line, Int_t *error=nullptr)
Process interpreter command directly via CINT interpreter.
Definition TROOT.cxx:2407
Bool_t ClassSaved(TClass *cl)
return class status 'ClassSaved' for class cl This function is called by the SavePrimitive functions ...
Definition TROOT.cxx:1083
TString fGitBranch
Git branch.
Definition TROOT.h:121
TCollection * GetListOfTypes(Bool_t load=kFALSE)
Return a dynamic list giving access to all TDataTypes (typedefs) currently defined.
Definition TROOT.cxx:1865
static Int_t fgDirLevel
Indentation level for ls()
Definition TROOT.h:102
Bool_t IsRootFile(const char *filename) const
Return true if the file is local and is (likely) to be a ROOT file.
Definition TROOT.cxx:2230
static void IndentLevel()
Functions used by ls() to indent an object hierarchy.
Definition TROOT.cxx:2894
static const TString & GetDocDir()
Get the documentation directory in the installation. Static utility function.
Definition TROOT.cxx:3081
static const TString & GetEtcDir()
Get the sysconfig directory in the installation. Static utility function.
Definition TROOT.cxx:3055
Int_t GetNclasses() const
Get number of classes.
Definition TROOT.cxx:1876
static const char **& GetExtraInterpreterArgs()
INTERNAL function! Used by rootcling to inject interpreter arguments through a C-interface layer.
Definition TROOT.cxx:2965
static void SetMacroPath(const char *newpath)
Set or extend the macro search path.
Definition TROOT.cxx:2788
void InitThreads()
Initialize threads library.
Definition TROOT.cxx:2053
TProcessUUID * fUUIDs
Pointer to TProcessID managing TUUIDs.
Definition TROOT.h:166
TString fConfigFeatures
ROOT ./configure detected build features.
Definition TROOT.h:112
TFunctionTemplate * GetFunctionTemplate(const char *name)
Definition TROOT.cxx:1618
TPluginManager * fPluginManager
Keeps track of plugin library handlers.
Definition TROOT.h:169
TObject * GetGeometry(const char *name) const
Return pointer to Geometry with name.
Definition TROOT.cxx:1747
void RecursiveRemove(TObject *obj) override
Recursively remove this object from the list of Cleanups.
Definition TROOT.cxx:2498
Bool_t fExecutingMacro
True while executing a TMacro.
Definition TROOT.h:136
Int_t fBuiltDate
Date of ROOT built.
Definition TROOT.h:118
Bool_t fIsWebDisplayBatch
True if web widgets are not displayed.
Definition TROOT.h:129
static const TString & GetSharedLibDir()
Get the shared libraries directory in the installation. Static utility function.
Definition TROOT.cxx:3034
TSeqCollection * fMappedFiles
List of memory mapped files.
Definition TROOT.h:147
Int_t GetNtypes() const
Get number of types.
Definition TROOT.cxx:1884
Int_t LoadMacro(const char *filename, Int_t *error=nullptr, Bool_t check=kFALSE)
Load a macro in the interpreter's memory.
Definition TROOT.cxx:2268
TFile * GetFile() const override
Definition TROOT.h:260
static const TString & GetLibDir()
Get the library directory in the installation. Static utility function.
Definition TROOT.cxx:3013
TSeqCollection * fBrowsers
List of browsers.
Definition TROOT.h:155
TString fDefCanvasName
Name of default canvas.
Definition TROOT.h:171
TListOfFunctions * fGlobalFunctions
List of global functions.
Definition TROOT.h:144
TList * fBrowsables
List of browsables.
Definition TROOT.h:168
TObject * FindObjectAny(const char *name) const override
Return a pointer to the first object with name starting at //root.
Definition TROOT.cxx:1426
static Int_t DecreaseDirLevel()
Decrease the indentation level for ls().
Definition TROOT.cxx:2746
void Reset(Option_t *option="")
Delete all global interpreter objects created since the last call to Reset.
Definition TROOT.cxx:2651
Int_t fEditorMode
Current Editor mode.
Definition TROOT.h:137
const char * FindObjectClassName(const char *name) const
Returns class name of a ROOT object including CINT globals.
Definition TROOT.cxx:1453
static const TString & GetDataDir()
Get the data directory in the installation. Static utility function.
Definition TROOT.cxx:3065
TSeqCollection * GetListOfGeometries() const
Definition TROOT.h:244
TSeqCollection * GetListOfStyles() const
Definition TROOT.h:241
TString fVersion
ROOT version (from CMZ VERSQQ) ex 0.05/01.
Definition TROOT.h:113
static Int_t GetDirLevel()
return directory level
Definition TROOT.cxx:2754
void SetReadingObject(Bool_t flag=kTRUE)
Definition TROOT.cxx:2465
Sequenceable collection abstract base class.
virtual void AddLast(TObject *obj)=0
virtual TObject * Last() const =0
virtual TObject * First() const =0
void Add(TObject *obj) override
static void PrintStatistics()
Print memory usage statistics.
Definition TStorage.cxx:368
Basic string class.
Definition TString.h:139
Ssiz_t Length() const
Definition TString.h:417
Int_t Atoi() const
Return integer value of string.
Definition TString.cxx:1988
Bool_t Gets(FILE *fp, Bool_t chop=kTRUE)
Read one line from the stream, including the \n, or until EOF.
Definition Stringio.cxx:204
Bool_t EndsWith(const char *pat, ECaseCompare cmp=kExact) const
Return true if string ends with the specified string.
Definition TString.cxx:2244
TSubString Strip(EStripType s=kTrailing, char c=' ') const
Return a substring of self stripped at beginning and/or end.
Definition TString.cxx:1163
const char * Data() const
Definition TString.h:376
TString & ReplaceAll(const TString &s1, const TString &s2)
Definition TString.h:704
@ kBoth
Definition TString.h:276
@ kIgnoreCase
Definition TString.h:277
Ssiz_t Last(char c) const
Find last occurrence of a character c.
Definition TString.cxx:931
Bool_t BeginsWith(const char *s, ECaseCompare cmp=kExact) const
Definition TString.h:623
Bool_t IsNull() const
Definition TString.h:414
TString & Remove(Ssiz_t pos)
Definition TString.h:685
void Form(const char *fmt,...)
Formats a string using a printf style format descriptor.
Definition TString.cxx:2356
Bool_t Contains(const char *pat, ECaseCompare cmp=kExact) const
Definition TString.h:632
TStyle objects may be created to define special styles.
Definition TStyle.h:29
static void BuildStyles()
Create some standard styles.
Definition TStyle.cxx:525
Describes an Operating System directory for the browser.
Abstract base class defining a generic interface to the underlying Operating System.
Definition TSystem.h:266
virtual Func_t DynFindSymbol(const char *module, const char *entry)
Find specific entry point in specified library.
Definition TSystem.cxx:2044
virtual const char * Getenv(const char *env)
Get environment variable.
Definition TSystem.cxx:1665
virtual TString SplitAclicMode(const char *filename, TString &mode, TString &args, TString &io) const
This method split a filename of the form:
Definition TSystem.cxx:4258
virtual void CleanCompiledMacros()
Remove the shared libs produced by the CompileMacro() function, together with their rootmaps,...
Definition TSystem.cxx:4369
virtual int Load(const char *module, const char *entry="", Bool_t system=kFALSE)
Load a shared library.
Definition TSystem.cxx:1857
int GetPathInfo(const char *path, Long_t *id, Long_t *size, Long_t *flags, Long_t *modtime)
Get info about a file: id, size, flags, modification time.
Definition TSystem.cxx:1398
virtual const char * PrependPathName(const char *dir, TString &name)
Concatenate a directory and a file name.
Definition TSystem.cxx:1081
virtual Bool_t AccessPathName(const char *path, EAccessMode mode=kFileExists)
Returns FALSE if one can access a file using the specified access mode.
Definition TSystem.cxx:1296
virtual Bool_t Init()
Initialize the OS interface.
Definition TSystem.cxx:183
virtual const char * BaseName(const char *pathname)
Base name of a file name. Base name of /user/root is root.
Definition TSystem.cxx:934
virtual const char * WorkingDirectory()
Return working directory.
Definition TSystem.cxx:871
virtual char * Which(const char *search, const char *file, EAccessMode mode=kFileExists)
Find location of file in a search path.
Definition TSystem.cxx:1548
virtual const char * HomeDirectory(const char *userName=nullptr)
Return the user's home directory.
Definition TSystem.cxx:887
virtual const char * GetError()
Return system error string.
Definition TSystem.cxx:254
virtual void ResetSignals()
Reset signals handlers to previous behaviour.
Definition TSystem.cxx:584
char * DynamicPathName(const char *lib, Bool_t quiet=kFALSE)
Find a dynamic library called lib using the system search paths.
Definition TSystem.cxx:2020
This class represents a WWW compatible URL.
Definition TUrl.h:33
This class implements a mutex interface.
TVirtualPad is an abstract base class for the Pad and Canvas classes.
Definition TVirtualPad.h:51
static TVirtualPad *& Pad()
Return the current pad for the current thread.
virtual TVirtualPad * GetVirtCanvas() const =0
Semi-Abstract base class defining a generic interface to the underlying, low level,...
Definition TVirtualX.h:46
static TVirtualX *& Instance()
Returns gVirtualX global.
Definition TVirtualX.cxx:57
TLine * line
TF1 * f1
Definition legend1.C:11
R__ALWAYS_INLINE bool HasBeenDeleted(const TObject *obj)
Check if the TObject's memory has been deleted.
Definition TObject.h:402
const std::string & GetIncludeDir()
\ returns the include directory in the installation.
const std::string & GetRootSys()
const std::string & GetEtcDir()
void(off) SmallVectorTemplateBase< T
static Func_t GetSymInLibImt(const char *funcname)
Definition TROOT.cxx:401
static GetROOTFun_t gGetROOT
Definition TROOT.cxx:399
R__EXTERN TROOT * gROOTLocal
Definition TROOT.h:379
void DisableParBranchProcessing()
Globally disables the IMT use case of parallel branch processing, deactivating the corresponding lock...
Definition TROOT.cxx:434
std::function< const char *()> ErrorSystemMsgHandlerFunc_t
Retrieves the error string associated with the last system error.
Definition TError.h:60
static Bool_t & IsImplicitMTEnabledImpl()
Keeps track of the status of ImplicitMT w/o resorting to the load of libImt.
Definition TROOT.cxx:463
void MinimalErrorHandler(int level, Bool_t abort, const char *location, const char *msg)
A very simple error handler that is usually replaced by the TROOT default error handler.
Definition TError.cxx:67
TROOT *(* GetROOTFun_t)()
Definition TROOT.cxx:397
ErrorSystemMsgHandlerFunc_t SetErrorSystemMsgHandler(ErrorSystemMsgHandlerFunc_t h)
Returns the previous system error message handler.
Definition TError.cxx:56
void EnableParBranchProcessing()
Globally enables the parallel branch processing, which is a case of implicit multi-threading (IMT) in...
Definition TROOT.cxx:420
Bool_t IsParBranchProcessingEnabled()
Returns true if parallel branch processing is enabled.
Definition TROOT.cxx:447
TROOT * GetROOT2()
Definition TROOT.cxx:387
TROOT * GetROOT1()
Definition TROOT.cxx:380
void ReleaseDefaultErrorHandler()
Destructs resources that are taken by using the default error handler.
tbb::task_arena is an alias of tbb::interface7::task_arena, which doesn't allow to forward declare tb...
TString & GetMacroPath()
Definition TROOT.cxx:476
void EnableImplicitMT(UInt_t numthreads=0)
Enable ROOT's implicit multi-threading for all objects and methods that provide an internal paralleli...
Definition TROOT.cxx:539
Bool_t IsImplicitMTEnabled()
Returns true if the implicit multi-threading in ROOT is enabled.
Definition TROOT.cxx:570
UInt_t GetThreadPoolSize()
Returns the size of ROOT's thread pool.
Definition TROOT.cxx:577
R__EXTERN TVirtualRWMutex * gCoreMutex
void EnableThreadSafety()
Enable support for multi-threading within the ROOT code in particular, enables the global mutex to ma...
Definition TROOT.cxx:501
TROOT * GetROOT()
Definition TROOT.cxx:472
void DisableImplicitMT()
Disables the implicit multi-threading in ROOT (see EnableImplicitMT).
Definition TROOT.cxx:556
void GetNormalizedName(std::string &norm_name, std::string_view name)
Return the normalized name.
Int_t fMode
Definition TSystem.h:125
TMarker m
Definition textangle.C:8
TLine l
Definition textangle.C:4