/* ======================================================================== *\ ! ! * ! * This file is part of MARS, the MAGIC Analysis and Reconstruction ! * Software. It is distributed to you in the hope that it can be a useful ! * and timesaving tool in analysing Data of imaging Cerenkov telescopes. ! * It is distributed WITHOUT ANY WARRANTY. ! * ! * Permission to use, copy, modify and distribute this software and its ! * documentation for any purpose is hereby granted without fee, ! * provided that the above copyright notice appear in all copies and ! * that both that copyright notice and this permission notice appear ! * in supporting documentation. It is provided "as is" without express ! * or implied warranty. ! * ! ! ! Author(s): Thomas Bretz 12/2000 ! ! Copyright: MAGIC Software Development, 2000-2001 ! ! \* ======================================================================== */ ///////////////////////////////////////////////////////////////////////////// // // // MTaskList // // // // Collection of tasks. // // // // A tasklist is necessary to run the eventloop. It contains the scheduled // // tasks, which should be executed in your program. // // // // To add a task use AddToList. // // // // The tasklist itself is a task, too. You can add a tasklist to another // // tasklist. This makes sense, if you want to filter the execution of // // more than one task of your tasklist using the same filter. // // // // The tasks in the list are idetified by their names. If more than one // // task has the same name, the tasklist will still work correctly, but // // you might run into trouble trying to get a pointer to a task by name // // from the list. // // // // Warning: // // Be carefull if you are writing your tasklist // // (eg. MWriteRootFile("file.root", "MTaskList")) to a file. You may // // not be able to initialize a new working tasklist from a file if // // a) Two Paramerer containers with the same names are existing in the // // MParList. // // b) You used a container somewhere which is not part of MParList. // // (eg. You specified a pointer to a MH container in MFillH which is // // not added to the parameter list. // // // ///////////////////////////////////////////////////////////////////////////// #include "MTaskList.h" #include // ofstream, SavePrimitive #include #include #include #include "MLog.h" #include "MLogManip.h" #include "MParList.h" #include "MInputStreamID.h" ClassImp(MTaskList); static const TString gsDefName = "MTaskList"; static const TString gsDefTitle = "A list for tasks to be executed"; // -------------------------------------------------------------------------- // // the name for the task list must be the same for all task lists // because the task list (at the moment) is identified by exactly // this name in the parameter list (by MEvtLoop::SetParList) // MTaskList::MTaskList(const char *name, const char *title) { fName = name ? name : gsDefName.Data(); fTitle = title ? title : gsDefTitle.Data(); fTasks = new TList; } // -------------------------------------------------------------------------- // // CopyConstructor // creates a new TaskList and put the contents of an existing // TaskList in the new TaskList. // MTaskList::MTaskList(MTaskList &ts) { fTasks->AddAll(ts.fTasks); } // -------------------------------------------------------------------------- // // If the 'IsOwner' bit is set (via SetOwner()) all tasks are deleted // by the destructor // MTaskList::~MTaskList() { if (TestBit(kIsOwner)) fTasks->SetOwner(); delete fTasks; } // -------------------------------------------------------------------------- // // If the 'IsOwner' bit is set (via SetOwner()) all containers are deleted // by the destructor // void MTaskList::SetOwner(Bool_t enable) { enable ? SetBit(kIsOwner) : ResetBit(kIsOwner); } // -------------------------------------------------------------------------- // // Set the logging stream for the all tasks in the list and the tasklist // itself. // void MTaskList::SetLogStream(MLog *log) { fTasks->ForEach(MTask, SetLogStream)(log); MParContainer::SetLogStream(log); } // -------------------------------------------------------------------------- // // schedule task for execution, whether as first task, or after // 'where'. 'tType' is the event type which should be processed // Bool_t MTaskList::AddToList(MTask *task, const char *type, MTask *where) { // FIXME: We agreed to put the task into list in an ordered way. // // Sanity check // if (!task) return kFALSE; // // Get Name of new task // const char *name = task->GetName(); // // Check if the new task is already existing in the list // const TObject *objn = fTasks->FindObject(name); const TObject *objt = fTasks->FindObject(task); if (objn || objt) { // // If the task is already in the list ignore it. // if (objt || objn==task) { *fLog << warn << dbginf << "Warning: Task '" << task->GetName() << ", 0x" << (void*)task; *fLog << "' already existing in '" << GetName() << "'... ignoring." << endl; return kTRUE; } // // Otherwise add it to the list, but print a warning message // *fLog << warn << dbginf << "Warning: Task '" << task->GetName(); *fLog << "' already existing in '" << GetName() << "'." << endl; *fLog << "You may not be able to get a pointer to this task by name." << endl; } if (where) { if (!fTasks->FindObject(where)) { *fLog << err << dbginf << "Error: Cannot find task after which the new task should be scheduled!" << endl; return kFALSE; } } *fLog << inf << "Adding " << name << " to " << GetName() << " for " << type << "... " << flush; task->SetStreamId(type); fTasks->Add(task); *fLog << "Done." << endl; return kTRUE; } // -------------------------------------------------------------------------- // // Find an object in the list. // 'name' is the name of the object you are searching for. // TObject *MTaskList::FindObject(const char *name) const { return fTasks->FindObject(name); } // -------------------------------------------------------------------------- // // check if the object is in the list or not // TObject *MTaskList::FindObject(const TObject *obj) const { return fTasks->FindObject(obj); } // -------------------------------------------------------------------------- // // do reinit of all tasks in the task-list // Bool_t MTaskList::ReInit(MParList *pList) { *fLog << all << "Reinit... " << flush; // // create the Iterator over the tasklist // TIter Next(fTasks); MTask *task=NULL; // // loop over all tasks for preproccesing // while ((task=(MTask*)Next())) { *fLog << all << task->GetName() << "... " << flush; if (!task->ReInit(pList?pList:fParList)) { *fLog << err << "ERROR - ReInit if Task " << task->GetDescriptor() << " failed." << endl; return kFALSE; } } *fLog << all << endl; return kTRUE; } // -------------------------------------------------------------------------- // // removes a task from the list (used in PreProcess). // if kIsOwner is set the task is deleted. (see SetOwner()) // void MTaskList::Remove(MTask *task) { TObject *obj = fTasks->Remove(task); if (TestBit(kIsOwner)) delete obj; } // -------------------------------------------------------------------------- // // Check whether this task (or one of it's base classes) overloads // MTask::Process. Only if this function is overloaded this task is // added to the fTaskProcess-List. This makes the execution of the // tasklist a little bit (only a little bit) faster, bacause tasks // doing no Processing are not Processed. // Bool_t MTaskList::CheckClassForProcess(TClass *cls) { // // Check whether the class itself overloads the Process function // if (cls->GetName()=="MTask") return kFALSE; if (cls->GetMethodAny("Process")) return kTRUE; // // If the class itself doesn't overload it check all it's base classes // TBaseClass *base=NULL; TIter NextBase(cls->GetListOfBases()); while ((base=(TBaseClass*)NextBase())) { if (CheckClassForProcess(base->GetClassPointer())) return kTRUE; } return kFALSE; } // -------------------------------------------------------------------------- // // do pre processing (before eventloop) of all tasks in the task-list // Bool_t MTaskList::PreProcess(MParList *pList) { *fLog << all << "Preprocessing... " << flush; fParList = pList; fTasksProcess.Clear(); // // create the Iterator over the tasklist // TIter Next(fTasks); MTask *task=NULL; // // loop over all tasks for preproccesing // while ((task=(MTask*)Next())) { *fLog << all << task->GetName() << "... " << flush; if (CheckClassForProcess(task->IsA())) fTasksProcess.Add(task); // // PreProcess the task and check for it's return value. // switch (task->CallPreProcess(fParList)) { case kFALSE: return kFALSE; case kTRUE: continue; case kSKIP: Remove(task); continue; } *fLog << err << dbginf << "PreProcess of " << task->GetDescriptor(); *fLog << " returned an unknown value... aborting." << endl; return kFALSE; } *fLog << all << endl; return kTRUE; } // -------------------------------------------------------------------------- // // do the event execution of all tasks in the task-list // Bool_t MTaskList::Process() { // // Check whether there is something which can be processed, otherwise // stop the eventloop. // if (fTasksProcess.GetSize()==0) { *fLog << warn << "Warning: No entries in " << GetDescriptor() << " for Processing." << endl; return kFALSE; } // // Reset the ReadyToSave flag. // Reset all containers. // // Make sure, that the parameter list is not reset from a tasklist // running as a task in another tasklist. // const Bool_t noreset = fParList->TestBit(MParList::kDoNotReset); if (!noreset) { fParList->SetReadyToSave(); fParList->Reset(); fParList->SetBit(MParList::kDoNotReset); } // // create the Iterator for the TaskList // TIter Next(&fTasksProcess); MTask *task=NULL; // // loop over all tasks for processing // while ( (task=(MTask*)Next()) ) { // // if the task has the wrong stream id skip it. // if (GetStreamId() != task->GetStreamId() && task->GetStreamId() != "All") continue; // // if it has the right stream id execute the CallProcess() function // and check what the result of it is. // The CallProcess() function increases the execution counter and // calls the Process() function dependent on the existance and // return value of a filter. // switch (task->CallProcess()) { case kTRUE: // // everything was OK: go on with the next task // continue; case kFALSE: // // an error occured: stop eventloop // return kFALSE; case kCONTINUE: // // something occured: skip the rest of the tasks for this event // return kTRUE; default: *fLog << warn << "MTaskList::Process: Unknown return value from MTask::Process()... ignored." << endl; } } if (!noreset) fParList->ResetBit(MParList::kDoNotReset); return kTRUE; } // -------------------------------------------------------------------------- // // do post processing (before eventloop) of all tasks in the task-list // only tasks which have successfully been preprocessed are postprocessed. // Bool_t MTaskList::PostProcess() { *fLog << all << "Postprocessing... " << flush; // // Reset the ReadyToSave flag. // Reset all containers. // // FIXME: To run a tasklist as a single task in another tasklist we // have to make sure, that the Parameter list isn't reset. // fParList->SetReadyToSave(kFALSE); fParList->Reset(); // // create the Iterator for the TaskList // TIter Next(fTasks); MTask *task=NULL; // // loop over all tasks for postprocessing // only tasks which have successfully been preprocessed are postprocessed. // while ( (task=(MTask*)Next()) ) { *fLog << all << task->GetName() << "... " << flush; if (!task->CallPostProcess()) return kFALSE; } *fLog << all << endl; return kTRUE; } // -------------------------------------------------------------------------- // // Prints the number of times all the tasks in the list has been. // For convinience the lvl argument results in a number of spaces at the // beginning of the line. So that the structur of a tasklist can be // identified. Use MTaskList::PrintStatistics without an argument. // void MTaskList::PrintStatistics(const Int_t lvl, Bool_t title) const { if (lvl==0) { *fLog << all << endl; *fLog << "Execution Statistics: " << endl; *fLog << "---------------------" << endl; *fLog << GetDescriptor(); if (title) *fLog << "\t" << fTitle; *fLog << endl; } else { *fLog << setw(lvl) << " " << GetDescriptor(); if (title) *fLog << "\t" << fTitle; *fLog << endl; } // // create the Iterator for the TaskList // fTasks->ForEach(MTask, PrintStatistics)(lvl+1, title); if (lvl==0) *fLog << endl; } // -------------------------------------------------------------------------- void MTaskList::Print(Option_t *t) const { *fLog << all << endl; *fLog << GetDescriptor() << endl; *fLog << setfill('-') << setw(strlen(GetDescriptor())) << "" << endl; fTasks->Print(); *fLog << endl; } // -------------------------------------------------------------------------- // // Implementation of SavePrimitive. Used to write the call to a constructor // to a macro. In the original root implementation it is used to write // gui elements to a macro-file. // void MTaskList::StreamPrimitive(ofstream &out) const { out << " MTaskList " << GetUniqueName(); if (fName!=gsDefName || fTitle!=gsDefTitle) { out << "(\"" << fName << "\""; if (fTitle!=gsDefTitle) out << ", \"" << fTitle << "\""; out <<")"; } out << ";" << endl << endl; TIter Next(fTasks); MParContainer *cont = NULL; while ((cont=(MParContainer*)Next())) { cont->SavePrimitive(out, ""); out << " " << GetUniqueName() << ".AddToList(&"; out << cont->GetUniqueName() << ");" << endl << endl; } } void MTaskList::GetNames(TObjArray &arr) const { MParContainer::GetNames(arr); fTasks->ForEach(MParContainer, GetNames)(arr); } void MTaskList::SetNames(TObjArray &arr) { MParContainer::SetNames(arr); fTasks->ForEach(MParContainer, SetNames)(arr); }