#include <TError.h>
#include <TClass.h>
#include <TFile.h>
-#include <TKey.h>
+//#include <TKey.h>
+#include <TMath.h>
+#include <TH1.h>
#include <TMethodCall.h>
#include <TChain.h>
#include <TSystem.h>
#include <TROOT.h>
#include <TCanvas.h>
+#include <TStopwatch.h>
#include "AliAnalysisSelector.h"
#include "AliAnalysisGrid.h"
fContainers(NULL),
fInputs(NULL),
fOutputs(NULL),
+ fParamCont(NULL),
fCommonInput(NULL),
fCommonOutput(NULL),
fSelector(NULL),
fContainers = new TObjArray();
fInputs = new TObjArray();
fOutputs = new TObjArray();
+ fParamCont = new TObjArray();
SetEventLoop(kTRUE);
+ TObject::SetObjectStat(kFALSE);
}
//______________________________________________________________________________
fContainers(NULL),
fInputs(NULL),
fOutputs(NULL),
+ fParamCont(NULL),
fCommonInput(NULL),
fCommonOutput(NULL),
fSelector(NULL),
fContainers = new TObjArray(*other.fContainers);
fInputs = new TObjArray(*other.fInputs);
fOutputs = new TObjArray(*other.fOutputs);
+ fParamCont = new TObjArray(*other.fParamCont);
fgCommonFileName = "AnalysisResults.root";
fgAnalysisManager = this;
+ TObject::SetObjectStat(kFALSE);
}
//______________________________________________________________________________
fContainers = new TObjArray(*other.fContainers);
fInputs = new TObjArray(*other.fInputs);
fOutputs = new TObjArray(*other.fOutputs);
+ fParamCont = new TObjArray(*other.fParamCont);
fCommonInput = NULL;
fCommonOutput = NULL;
fSelector = NULL;
if (fContainers) {fContainers->Delete(); delete fContainers;}
if (fInputs) delete fInputs;
if (fOutputs) delete fOutputs;
+ if (fParamCont) delete fParamCont;
if (fGridHandler) delete fGridHandler;
+ if (fInputEventHandler) delete fInputEventHandler;
+ if (fOutputEventHandler) delete fOutputEventHandler;
+ if (fMCtruthEventHandler) delete fMCtruthEventHandler;
+ if (fEventPool) delete fEventPool;
if (fgAnalysisManager==this) fgAnalysisManager = NULL;
+ TObject::SetObjectStat(kTRUE);
}
//______________________________________________________________________________
Int_t AliAnalysisManager::GetEntry(Long64_t entry, Int_t getall)
{
// Read one entry of the tree or a whole branch.
- if (fDebug > 0) printf("== AliAnalysisManager::GetEntry(%lld)\n", entry);
fCurrentEntry = entry;
return fTree ? fTree->GetTree()->GetEntry(entry, getall) : 0;
}
if(!tree->GetTree()) {
Long64_t readEntry = tree->LoadTree(0);
if (readEntry == -2) {
- Error("Init", "Input tree has no entry. Aborting");
+ Error("Init", "Input tree has no entry. Exiting");
return kFALSE;
}
}
TIter next(fTasks);
AliAnalysisTask *task;
// Call CreateOutputObjects for all tasks
+ Bool_t getsysInfo = ((fNSysInfo>0) && (fMode==kLocalAnalysis))?kTRUE:kFALSE;
+ Int_t itask = 0;
while ((task=(AliAnalysisTask*)next())) {
curdir = gDirectory;
task->CreateOutputObjects();
+ if (getsysInfo) AliSysInfo::AddStamp(Form("%s_CREATEOUTOBJ",task->ClassName()), 0, itask, 0);
+ itask++;
if (curdir) curdir->cd();
}
if (fDebug > 0) printf("<-AliAnalysisManager::SlaveBegin()\n");
// stage in PROOF case for each slave.
if (fDebug > 0) printf("->AliAnalysisManager::PackOutput()\n");
if (!target) {
- Error("PackOutput", "No target. Aborting.");
+ Error("PackOutput", "No target. Exiting.");
return;
}
+ TDirectory *cdir = gDirectory;
+ gROOT->cd();
if (fInputEventHandler) fInputEventHandler ->Terminate();
if (fOutputEventHandler) fOutputEventHandler ->Terminate();
if (fMCtruthEventHandler) fMCtruthEventHandler->Terminate();
+ gROOT->cd();
// Call FinishTaskOutput() for each event loop task (not called for
// post-event loop tasks - use Terminate() fo those)
if (!task->IsPostEventLoop()) {
if (fDebug > 0) printf("->FinishTaskOutput: task %s\n", task->GetName());
task->FinishTaskOutput();
+ gROOT->cd();
if (fDebug > 0) printf("<-FinishTaskOutput: task %s\n", task->GetName());
}
}
if (strlen(filename) && !isManagedByHandler) {
// Backup current folder
TDirectory *opwd = gDirectory;
- // File resident outputs
- TFile *file = AliAnalysisManager::OpenFile(output, "RECREATE", kTRUE);
- // Clear file list to release object ownership to user.
- file->Clear();
+ // File resident outputs.
+ // Check first if the file exists.
+ TString openoption = "RECREATE";
+ if (!gSystem->AccessPathName(output->GetFileName())) openoption = "UPDATE";
+ TFile *file = AliAnalysisManager::OpenFile(output, openoption, kTRUE);
// Save data to file, then close.
if (output->GetData()->InheritsFrom(TCollection::Class())) {
// If data is a collection, we set the name of the collection
} else {
if (output->GetData()->InheritsFrom(TTree::Class())) {
TTree *tree = (TTree*)output->GetData();
- // tree->SetDirectory(file);
+ // Check if tree is in memory
+ if (tree->GetDirectory()==gROOT) tree->SetDirectory(gDirectory);
tree->AutoSave();
} else {
output->GetData()->Write();
printf(" file %s listing content:\n", filename);
file->ls();
}
+ // Clear file list to release object ownership to user.
+// file->Clear();
file->Close();
output->SetFile(NULL);
// Restore current directory
if (fDebug > 1) printf("PackOutput %s: special output\n", output->GetName());
if (isManagedByHandler) {
// Terminate IO for files managed by the output handler
- if (file) file->Write();
+ // file->Write() moved to AOD handler (A.G. 11.01.10)
+// if (file) file->Write();
if (file && fDebug > 2) {
printf(" handled file %s listing content:\n", file->GetName());
file->ls();
output->GetData()->Write();
}
}
- file->Clear();
if (fDebug > 2) {
printf(" file %s listing content:\n", output->GetFileName());
file->ls();
}
+ // Clear file list to release object ownership to user.
+// file->Clear();
file->Close();
output->SetFile(NULL);
}
}
}
}
+ cdir->cd();
if (fDebug > 0) printf("<-AliAnalysisManager::PackOutput: output list contains %d containers\n", target->GetSize());
}
TDirectory *cdir = gDirectory;
while ((cont=(AliAnalysisDataContainer*)next())) {
wrap = 0;
- if (cont->GetProducer()->IsPostEventLoop() && !inGrid) continue;
+ if (cont->GetProducer() && cont->GetProducer()->IsPostEventLoop() && !inGrid) continue;
+ if (cont->IsRegisterDataset()) continue;
const char *filename = cont->GetFileName();
Bool_t isManagedByHandler = kFALSE;
if (!(strcmp(filename, "default")) && fOutputEventHandler) {
// Called by AliAnalysisSelector::Terminate only on the client.
if (fDebug > 0) printf("->AliAnalysisManager::UnpackOutput()\n");
if (!source) {
- Error("UnpackOutput", "No target. Aborting.");
+ Error("UnpackOutput", "No target. Exiting.");
return;
}
if (fDebug > 1) printf(" Source list contains %d containers\n", source->GetSize());
// a query. It always runs on the client, it can be used to present
// the results graphically.
if (fDebug > 0) printf("->AliAnalysisManager::Terminate()\n");
+ TDirectory *cdir = gDirectory;
+ gROOT->cd();
AliAnalysisTask *task;
+ AliAnalysisDataContainer *output;
TIter next(fTasks);
+ TStopwatch timer;
+ Bool_t getsysInfo = ((fNSysInfo>0) && (fMode==kLocalAnalysis))?kTRUE:kFALSE;
// Call Terminate() for tasks
- while ((task=(AliAnalysisTask*)next())) task->Terminate();
+ Int_t itask = 0;
+ while (!IsSkipTerminate() && (task=(AliAnalysisTask*)next())) {
+ // Save all the canvases produced by the Terminate
+ TString pictname = Form("%s_%s", task->GetName(), task->ClassName());
+ task->Terminate();
+ gROOT->cd();
+ if (getsysInfo)
+ AliSysInfo::AddStamp(Form("%s_TERMINATE",task->ClassName()),0, itask, 2);
+ itask++;
+ if (TObject::TestBit(kSaveCanvases)) {
+ if (!gROOT->IsBatch()) {
+ if (fDebug>0) printf("Waiting 5 sec for %s::Terminate() to finish drawing ...", task->ClassName());
+ timer.Start();
+ while (timer.CpuTime()<5) {
+ timer.Continue();
+ gSystem->ProcessEvents();
+ }
+ }
+ Int_t iend = gROOT->GetListOfCanvases()->GetEntries();
+ if (iend==0) continue;
+ TCanvas *canvas;
+ for (Int_t ipict=0; ipict<iend; ipict++) {
+ canvas = (TCanvas*)gROOT->GetListOfCanvases()->At(ipict);
+ if (!canvas) continue;
+ canvas->SaveAs(Form("%s_%02d.gif", pictname.Data(),ipict));
+ }
+ gROOT->GetListOfCanvases()->Delete();
+ }
+ }
//
- TIter next1(fOutputs);
- AliAnalysisDataContainer *output;
+ if (fInputEventHandler) fInputEventHandler ->TerminateIO();
+ if (fOutputEventHandler) fOutputEventHandler ->TerminateIO();
+ if (fMCtruthEventHandler) fMCtruthEventHandler->TerminateIO();
+ gROOT->cd();
+ TObjArray *allOutputs = new TObjArray();
+ Int_t icont;
+ for (icont=0; icont<fOutputs->GetEntriesFast(); icont++) allOutputs->Add(fOutputs->At(icont));
+ if (!IsSkipTerminate())
+ for (icont=0; icont<fParamCont->GetEntriesFast(); icont++) allOutputs->Add(fParamCont->At(icont));
+ TIter next1(allOutputs);
+ TString handlerFile = "";
+ if (fOutputEventHandler) {
+ handlerFile = fOutputEventHandler->GetOutputFileName();
+ }
+ icont = 0;
while ((output=(AliAnalysisDataContainer*)next1())) {
// Special outputs or grid files have the files already closed and written.
- if (fMode == kGridAnalysis) continue;
- if (output->IsSpecialOutput()&&(fMode == kProofAnalysis)) continue;
+ icont++;
+ if (fMode == kGridAnalysis && icont<=fOutputs->GetEntriesFast()) continue;
+ if (fMode == kProofAnalysis) {
+ if (output->IsSpecialOutput() || output->IsRegisterDataset()) continue;
+ }
const char *filename = output->GetFileName();
- if (!(strcmp(filename, "default"))) {
- if (fOutputEventHandler) filename = fOutputEventHandler->GetOutputFileName();
- TFile *aodfile = (TFile*)gROOT->GetListOfFiles()->FindObject(filename);
- if (aodfile) {
- if (fDebug > 1) printf("Writing output handler file: %s\n", filename);
- aodfile->Write();
- continue;
- }
- }
+ TString openoption = "RECREATE";
+ if (!(strcmp(filename, "default"))) continue;
if (!strlen(filename)) continue;
if (!output->GetData()) continue;
TDirectory *opwd = gDirectory;
TFile *file = output->GetFile();
if (!file) file = (TFile*)gROOT->GetListOfFiles()->FindObject(filename);
- if (!file) file = new TFile(filename, "RECREATE");
+ if (!file) {
+ //if (handlerFile == filename && !gSystem->AccessPathName(filename)) openoption = "UPDATE";
+ if (!gSystem->AccessPathName(filename)) openoption = "UPDATE";
+ if (fDebug>0) printf("Opening file: %s option=%s\n",filename, openoption.Data());
+ file = new TFile(filename, openoption);
+ } else {
+ if (fDebug>0) printf("File <%s> already opened with option: <%s> \n", filename, file->GetOption());
+ openoption = file->GetOption();
+ if (openoption == "READ") {
+ if (fDebug>0) printf("...reopening in UPDATE mode\n");
+ file->ReOpen("UPDATE");
+ }
+ }
if (file->IsZombie()) {
Error("Terminate", "Cannot open output file %s", filename);
continue;
if (!file->GetDirectory(dir)) file->mkdir(dir);
file->cd(dir);
}
- if (fDebug > 1) printf(" writing output data %s to file %s:%s\n", output->GetData()->GetName(), file->GetName(), output->GetFolderName());
+ if (fDebug > 0) printf("...writing container %s to file %s:%s\n", output->GetName(), file->GetName(), output->GetFolderName());
if (output->GetData()->InheritsFrom(TCollection::Class())) {
// If data is a collection, we set the name of the collection
// as the one of the container and we save as a single key.
} else {
if (output->GetData()->InheritsFrom(TTree::Class())) {
TTree *tree = (TTree*)output->GetData();
- tree->SetDirectory(file);
+ tree->SetDirectory(gDirectory);
tree->AutoSave();
} else {
output->GetData()->Write();
}
}
if (opwd) opwd->cd();
- }
+ }
+ gROOT->cd();
next1.Reset();
while ((output=(AliAnalysisDataContainer*)next1())) {
// Close all files at output
TDirectory *opwd = gDirectory;
if (output->GetFile()) {
+ // Clear file list to release object ownership to user.
+// output->GetFile()->Clear();
output->GetFile()->Close();
output->SetFile(NULL);
// Copy merged outputs in alien if requested
}
if (opwd) opwd->cd();
}
+ delete allOutputs;
- if (fInputEventHandler) fInputEventHandler ->TerminateIO();
- if (fOutputEventHandler) fOutputEventHandler ->TerminateIO();
- if (fMCtruthEventHandler) fMCtruthEventHandler->TerminateIO();
-
- Bool_t getsysInfo = ((fNSysInfo>0) && (fMode==kLocalAnalysis))?kTRUE:kFALSE;
if (getsysInfo) {
- TDirectory *cdir = gDirectory;
+ TDirectory *crtdir = gDirectory;
TFile f("syswatch.root", "RECREATE");
+ TH1 *hist;
+ TString cut;
if (!f.IsZombie()) {
TTree *tree = AliSysInfo::MakeTree("syswatch.log");
+ tree->SetName("syswatch");
tree->SetMarkerStyle(kCircle);
tree->SetMarkerColor(kBlue);
tree->SetMarkerSize(0.5);
if (!gROOT->IsBatch()) {
tree->SetAlias("event", "id0");
- tree->SetAlias("memUSED", "mi.fMemUsed");
- new TCanvas("SysInfo","SysInfo",10,10,800,600);
- tree->Draw("memUSED:event","","", 1234567890, 0);
+ tree->SetAlias("task", "id1");
+ tree->SetAlias("stage", "id2");
+ // Already defined aliases
+ // tree->SetAlias("deltaT","stampSec-stampOldSec");
+ // tree->SetAlias("T","stampSec-first");
+ // tree->SetAlias("deltaVM","(pI.fMemVirtual-pIOld.fMemVirtual)");
+ // tree->SetAlias("VM","pI.fMemVirtual");
+ TCanvas *canvas = new TCanvas("SysInfo","SysInfo",10,10,1200,800);
+ Int_t npads = 1 /*COO plot for all tasks*/ +
+ fTopTasks->GetEntries() /*Exec plot per task*/ +
+ 1 /*Terminate plot for all tasks*/ +
+ 1; /*vm plot*/
+
+ Int_t iopt = (Int_t)TMath::Sqrt((Double_t)npads);
+ if (npads<iopt*(iopt+1))
+ canvas->Divide(iopt, iopt+1, 0.01, 0.01);
+ else
+ canvas->Divide(iopt+1, iopt+1, 0.01, 0.01);
+ Int_t ipad = 1;
+ // draw the plot of deltaVM for Exec for each task
+ for (itask=0; itask<fTopTasks->GetEntriesFast(); itask++) {
+ task = (AliAnalysisTask*)fTopTasks->At(itask);
+ canvas->cd(ipad++);
+ cut = Form("task==%d && stage==1", itask);
+ tree->Draw("deltaVM:event",cut,"", 1234567890, 0);
+ hist = (TH1*)gPad->GetListOfPrimitives()->FindObject("htemp");
+ if (hist) {
+ hist->SetTitle(Form("%s: Exec dVM[kB]/event", task->GetName()));
+ hist->GetYaxis()->SetTitle("deltaVM [kB]");
+ }
+ }
+ // Draw the plot of deltaVM for CreateOutputObjects for all tasks
+ canvas->cd(ipad++);
+ tree->SetMarkerStyle(kFullTriangleUp);
+ tree->SetMarkerColor(kRed);
+ tree->SetMarkerSize(0.8);
+ cut = "task>=0 && task<1000 && stage==0";
+ tree->Draw("deltaVM:sname",cut,"", 1234567890, 0);
+ hist = (TH1*)gPad->GetListOfPrimitives()->FindObject("htemp");
+ if (hist) {
+ hist->SetTitle("Memory in CreateOutputObjects()");
+ hist->GetYaxis()->SetTitle("deltaVM [kB]");
+ hist->GetXaxis()->SetTitle("task");
+ }
+ // draw the plot of deltaVM for Terminate for all tasks
+ canvas->cd(ipad++);
+ tree->SetMarkerStyle(kOpenSquare);
+ tree->SetMarkerColor(kMagenta);
+ cut = "task>=0 && task<1000 && stage==2";
+ tree->Draw("deltaVM:sname",cut,"", 1234567890, 0);
+ hist = (TH1*)gPad->GetListOfPrimitives()->FindObject("htemp");
+ if (hist) {
+ hist->SetTitle("Memory in Terminate()");
+ hist->GetYaxis()->SetTitle("deltaVM [kB]");
+ hist->GetXaxis()->SetTitle("task");
+ }
+ // Full VM profile
+ canvas->cd(ipad++);
+ tree->SetMarkerStyle(kFullCircle);
+ tree->SetMarkerColor(kGreen);
+ cut = Form("task==%d && stage==1",fTopTasks->GetEntriesFast()-1);
+ tree->Draw("VM:event",cut,"", 1234567890, 0);
+ hist = (TH1*)gPad->GetListOfPrimitives()->FindObject("htemp");
+ if (hist) {
+ hist->SetTitle("Virtual memory");
+ hist->GetYaxis()->SetTitle("VM [kB]");
+ }
+ canvas->Modified();
}
+ tree->SetMarkerStyle(kCircle);
+ tree->SetMarkerColor(kBlue);
+ tree->SetMarkerSize(0.5);
tree->Write();
f.Close();
delete tree;
}
- if (cdir) cdir->cd();
+ if (crtdir) crtdir->cd();
}
// Validate the output files
if (ValidateOutputFiles()) {
ofstream out;
out.open("outputs_valid", ios::out);
out.close();
- }
+ }
+ cdir->cd();
if (fDebug > 0) printf("<-AliAnalysisManager::Terminate()\n");
}
+//______________________________________________________________________________
+void AliAnalysisManager::ProfileTask(Int_t itop, const char *option) const
+{
+// Profiles the task having the itop index in the list of top (first level) tasks.
+ AliAnalysisTask *task = (AliAnalysisTask*)fTopTasks->At(itop);
+ if (!task) {
+ Error("ProfileTask", "There are only %d top tasks in the manager", fTopTasks->GetEntries());
+ return;
+ }
+ ProfileTask(task->GetName(), option);
+}
+
+//______________________________________________________________________________
+void AliAnalysisManager::ProfileTask(const char *name, const char */*option*/) const
+{
+// Profile a managed task after the execution of the analysis in case NSysInfo
+// was used.
+ if (gSystem->AccessPathName("syswatch.root")) {
+ Error("ProfileTask", "No file syswatch.root found in the current directory");
+ return;
+ }
+ if (gROOT->IsBatch()) return;
+ AliAnalysisTask *task = (AliAnalysisTask*)fTopTasks->FindObject(name);
+ if (!task) {
+ Error("ProfileTask", "No top task named %s known by the manager.", name);
+ return;
+ }
+ Int_t itop = fTopTasks->IndexOf(task);
+ Int_t itask = fTasks->IndexOf(task);
+ // Create canvas with 2 pads: first draw COO + Terminate, second Exec
+ TDirectory *cdir = gDirectory;
+ TFile f("syswatch.root");
+ TTree *tree = (TTree*)f.Get("syswatch");
+ if (!tree) {
+ Error("ProfileTask", "No tree named <syswatch> found in file syswatch.root");
+ return;
+ }
+ if (fDebug > 0) printf("=== Profiling task %s (class %s)\n", name, task->ClassName());
+ TCanvas *canvas = new TCanvas(Form("profile_%d",itop),Form("Profile of task %s (class %s)",name,task->ClassName()),10,10,800,600);
+ canvas->Divide(2, 2, 0.01, 0.01);
+ Int_t ipad = 1;
+ TString cut;
+ TH1 *hist;
+ // VM profile for COO and Terminate methods
+ canvas->cd(ipad++);
+ cut = Form("task==%d && (stage==0 || stage==2)",itask);
+ tree->Draw("deltaVM:sname",cut,"", 1234567890, 0);
+ hist = (TH1*)gPad->GetListOfPrimitives()->FindObject("htemp");
+ if (hist) {
+ hist->SetTitle("Alocated VM[kB] for COO and Terminate");
+ hist->GetYaxis()->SetTitle("deltaVM [kB]");
+ hist->GetXaxis()->SetTitle("method");
+ }
+ // CPU profile per event
+ canvas->cd(ipad++);
+ cut = Form("task==%d && stage==1",itop);
+ tree->Draw("deltaT:event",cut,"", 1234567890, 0);
+ hist = (TH1*)gPad->GetListOfPrimitives()->FindObject("htemp");
+ if (hist) {
+ hist->SetTitle("Execution time per event");
+ hist->GetYaxis()->SetTitle("CPU/event [s]");
+ }
+ // VM profile for Exec
+ canvas->cd(ipad++);
+ cut = Form("task==%d && stage==1",itop);
+ tree->Draw("deltaVM:event",cut,"", 1234567890, 0);
+ hist = (TH1*)gPad->GetListOfPrimitives()->FindObject("htemp");
+ if (hist) {
+ hist->SetTitle("Alocated VM[kB] per event");
+ hist->GetYaxis()->SetTitle("deltaVM [kB]");
+ }
+ canvas->Modified();
+ delete tree;
+ f.Close();
+ if (cdir) cdir->cd();
+}
//______________________________________________________________________________
void AliAnalysisManager::AddTask(AliAnalysisTask *task)
cont->SetDataOwned(kFALSE); // data owned by the file
}
break;
+ case kParamContainer:
+ fParamCont->Add(cont);
+ if (filename && strlen(filename)) {
+ cont->SetFileName(filename);
+ cont->SetDataOwned(kFALSE); // data owned by the file
+ }
+ break;
case kExchangeContainer:
break;
}
}
//______________________________________________________________________________
-void AliAnalysisManager::StartAnalysis(const char *type, TTree *tree, Long64_t nentries, Long64_t firstentry)
+Long64_t AliAnalysisManager::StartAnalysis(const char *type, TTree * const tree, Long64_t nentries, Long64_t firstentry)
{
// Start analysis for this manager. Analysis task can be: LOCAL, PROOF, GRID or
// MIX. Process nentries starting from firstentry
+ Long64_t retv = 0;
+ // Backup current directory and make sure gDirectory points to gROOT
+ TDirectory *cdir = gDirectory;
+ gROOT->cd();
if (!fInitOK) {
Error("StartAnalysis","Analysis manager was not initialized !");
- return;
+ cdir->cd();
+ return -1;
}
if (fDebug > 0) printf("StartAnalysis %s\n",GetName());
TString anaType = type;
anaType.ToLower();
fMode = kLocalAnalysis;
Bool_t runlocalinit = kTRUE;
- if (anaType.Contains("file")) runlocalinit = kFALSE;
+ if (anaType.Contains("file")) {
+ runlocalinit = kFALSE;
+ }
if (anaType.Contains("proof")) fMode = kProofAnalysis;
else if (anaType.Contains("grid")) fMode = kGridAnalysis;
else if (anaType.Contains("mix")) fMode = kMixingAnalysis;
if (fMode == kGridAnalysis) {
- if (!fGridHandler) {
- Error("StartAnalysis", "Cannot start grid analysis without a grid handler.");
- Info("===", "Add an AliAnalysisAlien object as plugin for this manager and configure it.");
- return;
- }
- // Write analysis manager in the analysis file
- cout << "===== RUNNING GRID ANALYSIS: " << GetName() << endl;
- // run local task configuration
- TIter nextTask(fTasks);
- AliAnalysisTask *task;
- while ((task=(AliAnalysisTask*)nextTask())) {
- task->LocalInit();
- }
- if (!fGridHandler->StartAnalysis(nentries, firstentry)) {
- Info("StartAnalysis", "Grid analysis was stopped and cannot be terminated");
- return;
- }
+ if (!anaType.Contains("terminate")) {
+ if (!fGridHandler) {
+ Error("StartAnalysis", "Cannot start grid analysis without a grid handler.");
+ Info("===", "Add an AliAnalysisAlien object as plugin for this manager and configure it.");
+ cdir->cd();
+ return -1;
+ }
+ // Write analysis manager in the analysis file
+ cout << "===== RUNNING GRID ANALYSIS: " << GetName() << endl;
+ // run local task configuration
+ TIter nextTask(fTasks);
+ AliAnalysisTask *task;
+ while ((task=(AliAnalysisTask*)nextTask())) {
+ task->LocalInit();
+ gROOT->cd();
+ }
+ if (!fGridHandler->StartAnalysis(nentries, firstentry)) {
+ Info("StartAnalysis", "Grid analysis was stopped and cannot be terminated");
+ cdir->cd();
+ return -1;
+ }
- // Terminate grid analysis
- if (fSelector && fSelector->GetStatus() == -1) return;
- if (fGridHandler->GetRunMode() == AliAnalysisGrid::kOffline) return;
- cout << "===== MERGING OUTPUTS REGISTERED BY YOUR ANALYSIS JOB: " << GetName() << endl;
- if (!fGridHandler->MergeOutputs()) {
- // Return if outputs could not be merged or if it alien handler
- // was configured for offline mode or local testing.
- return;
- }
+ // Terminate grid analysis
+ if (fSelector && fSelector->GetStatus() == -1) {cdir->cd(); return -1;}
+ if (fGridHandler->GetRunMode() == AliAnalysisGrid::kOffline) {cdir->cd(); return 0;}
+ cout << "===== MERGING OUTPUTS REGISTERED BY YOUR ANALYSIS JOB: " << GetName() << endl;
+ if (!fGridHandler->MergeOutputs()) {
+ // Return if outputs could not be merged or if it alien handler
+ // was configured for offline mode or local testing.
+ cdir->cd();
+ return 0;
+ }
+ }
+ cout << "===== TERMINATING GRID ANALYSIS JOB: " << GetName() << endl;
ImportWrappers(NULL);
Terminate();
- return;
+ cdir->cd();
+ return 0;
}
char line[256];
SetEventLoop(kFALSE);
chain = (TChain*)tree;
if (!chain || !chain->GetListOfFiles()->First()) {
Error("StartAnalysis", "Cannot process null or empty chain...");
- return;
+ cdir->cd();
+ return -1;
}
ttype = "TChain";
}
+ Bool_t getsysInfo = ((fNSysInfo>0) && (fMode==kLocalAnalysis))?kTRUE:kFALSE;
+ if (getsysInfo) AliSysInfo::AddStamp("Start", 0);
// Initialize locally all tasks (happens for all modes)
TIter next(fTasks);
AliAnalysisTask *task;
if (runlocalinit) {
while ((task=(AliAnalysisTask*)next())) {
task->LocalInit();
+ gROOT->cd();
}
+ if (getsysInfo) AliSysInfo::AddStamp("LocalInit_all", 0);
}
switch (fMode) {
if (!tree) {
TIter nextT(fTasks);
// Call CreateOutputObjects for all tasks
+ Int_t itask = 0;
while ((task=(AliAnalysisTask*)nextT())) {
- TDirectory *curdir = gDirectory;
task->CreateOutputObjects();
- if (curdir) curdir->cd();
+ if (getsysInfo) AliSysInfo::AddStamp(Form("%s_CREATEOUTOBJ",task->ClassName()), 0, itask, 0);
+ gROOT->cd();
+ itask++;
}
+ if (IsExternalLoop()) {
+ Info("StartAnalysis", "Initialization done. Event loop is controlled externally.\
+ \nSetData for top container, call ExecAnalysis in a loop and then Terminate manually");
+ return 0;
+ }
ExecAnalysis();
Terminate();
- return;
+ return 0;
}
// Run tree-based analysis via AliAnalysisSelector
cout << "===== RUNNING LOCAL ANALYSIS " << GetName() << " ON TREE " << tree->GetName() << endl;
fSelector = new AliAnalysisSelector(this);
- tree->Process(fSelector, "", nentries, firstentry);
+ retv = tree->Process(fSelector, "", nentries, firstentry);
break;
case kProofAnalysis:
if (!gROOT->GetListOfProofs() || !gROOT->GetListOfProofs()->GetEntries()) {
- Error("StartAnalysis", "No PROOF!!! Aborting.");
- return;
+ Error("StartAnalysis", "No PROOF!!! Exiting.");
+ cdir->cd();
+ return -1;
}
sprintf(line, "gProof->AddInput((TObject*)0x%lx);", (ULong_t)this);
gROOT->ProcessLine(line);
if (chain) {
chain->SetProof();
cout << "===== RUNNING PROOF ANALYSIS " << GetName() << " ON CHAIN " << chain->GetName() << endl;
- chain->Process("AliAnalysisSelector", "", nentries, firstentry);
+ retv = chain->Process("AliAnalysisSelector", "", nentries, firstentry);
} else {
- Error("StartAnalysis", "No chain!!! Aborting.");
- return;
+ Error("StartAnalysis", "No chain!!! Exiting.");
+ cdir->cd();
+ return -1;
}
break;
case kGridAnalysis:
// Run event mixing analysis
if (!fEventPool) {
Error("StartAnalysis", "Cannot run event mixing without event pool");
- return;
+ cdir->cd();
+ return -1;
}
cout << "===== RUNNING EVENT MIXING ANALYSIS " << GetName() << endl;
fSelector = new AliAnalysisSelector(this);
// Call NotifyBinChange for all tasks
while ((task=(AliAnalysisTask*)next()))
if (!task->IsPostEventLoop()) task->NotifyBinChange();
- chain->Process(fSelector);
+ retv = chain->Process(fSelector);
+ if (retv < 0) {
+ Error("StartAnalysis", "Mixing analysis failed");
+ cdir->cd();
+ return retv;
+ }
}
PackOutput(fSelector->GetOutputList());
Terminate();
- }
+ }
+ cdir->cd();
+ return retv;
}
//______________________________________________________________________________
-void AliAnalysisManager::StartAnalysis(const char *type, const char *dataset, Long64_t nentries, Long64_t firstentry)
+Long64_t AliAnalysisManager::StartAnalysis(const char *type, const char *dataset, Long64_t nentries, Long64_t firstentry)
{
// Start analysis for this manager on a given dataset. Analysis task can be:
// LOCAL, PROOF or GRID. Process nentries starting from firstentry.
if (!fInitOK) {
Error("StartAnalysis","Analysis manager was not initialized !");
- return;
+ return -1;
}
if (fDebug > 0) printf("StartAnalysis %s\n",GetName());
TString anaType = type;
anaType.ToLower();
if (!anaType.Contains("proof")) {
Error("StartAnalysis", "Cannot process datasets in %s mode. Try PROOF.", type);
- return;
+ return -1;
}
fMode = kProofAnalysis;
char line[256];
}
if (!gROOT->GetListOfProofs() || !gROOT->GetListOfProofs()->GetEntries()) {
- Error("StartAnalysis", "No PROOF!!! Aborting.");
- return;
+ Error("StartAnalysis", "No PROOF!!! Exiting.");
+ return -1;
}
sprintf(line, "gProof->AddInput((TObject*)0x%lx);", (ULong_t)this);
gROOT->ProcessLine(line);
sprintf(line, "gProof->GetDataSet(\"%s\");", dataset);
if (!gROOT->ProcessLine(line)) {
Error("StartAnalysis", "Dataset %s not found", dataset);
- return;
+ return -1;
}
sprintf(line, "gProof->Process(\"%s\", \"AliAnalysisSelector\", \"\", %lld, %lld);",
dataset, nentries, firstentry);
cout << "===== RUNNING PROOF ANALYSIS " << GetName() << " ON DATASET " << dataset << endl;
- gROOT->ProcessLine(line);
+ Long_t retv = (Long_t)gROOT->ProcessLine(line);
+ return retv;
}
//______________________________________________________________________________
TString opt(option);
opt.ToUpper();
if ((opt=="UPDATE") && (opt!=f->GetOption()))
- ::Fatal("AliAnalysisManager::OpenFile", "File %s already opened, but not in UPDATE mode!", cont->GetFileName());
+ ::Info("AliAnalysisManager::OpenFile", "File %s already opened in %s mode!", cont->GetFileName(), f->GetOption());
} else {
f = TFile::Open(filename, option);
}
TString filename = cont->GetFileName();
if (cont == fCommonOutput) {
if (fOutputEventHandler) filename = fOutputEventHandler->GetOutputFileName();
- else Fatal("OpenProofFile","No output container. Aborting.");
+ else Fatal("OpenProofFile","No output container. Exiting.");
}
TFile *f = NULL;
if (fMode!=kProofAnalysis || !fSelector) {
TString opt(option);
opt.ToUpper();
if ((opt=="UPDATE") && (opt!=f->GetOption()))
- Fatal("OpenProofFile", "File %s already opened, but not in UPDATE mode!", cont->GetFileName());
+ ::Info("OpenProofFile", "File %s already opened in %s mode!", cont->GetFileName(), f->GetOption());
} else {
f = new TFile(filename, option);
}
// Get the actual file
line = Form("((TProofOutputFile*)0x%lx)->GetFileName();", (ULong_t)pof);
filename = (const char*)gROOT->ProcessLine(line);
+ if (fDebug>1) {
+ printf("File: %s already booked via TProofOutputFile\n", filename.Data());
+ }
f = (TFile*)gROOT->GetListOfFiles()->FindObject(filename);
if (!f) Fatal("OpenProofFile", "Proof output file found but no file opened for %s", filename.Data());
// Check if option "UPDATE" was preserved
if ((opt=="UPDATE") && (opt!=f->GetOption()))
Fatal("OpenProofFile", "File %s already opened, but not in UPDATE mode!", cont->GetFileName());
} else {
- line = Form("TProofOutputFile *pf = new TProofOutputFile(\"%s\");", filename.Data());
+ if (cont->IsRegisterDataset()) {
+ TString dsetName = filename;
+ dsetName.ReplaceAll(".root", cont->GetTitle());
+ dsetName.ReplaceAll(":","_");
+ if (fDebug>1) printf("Booking dataset: %s\n", dsetName.Data());
+ line = Form("TProofOutputFile *pf = new TProofOutputFile(\"%s\", \"DROV\", \"%s\");", filename.Data(), dsetName.Data());
+ } else {
+ if (fDebug>1) printf("Booking TProofOutputFile: %s to be merged\n", filename.Data());
+ line = Form("TProofOutputFile *pf = new TProofOutputFile(\"%s\");", filename.Data());
+ }
if (fDebug > 1) printf("=== %s\n", line.Data());
gROOT->ProcessLine(line);
line = Form("pf->OpenFile(\"%s\");", option);
}
// Add to proof output list
line = Form("((TList*)0x%lx)->Add(pf);",(ULong_t)fSelector->GetOutputList());
- if (fDebug > 1) printf("=== %s", line.Data());
+ if (fDebug > 1) printf("=== %s\n", line.Data());
gROOT->ProcessLine(line);
}
if (f && !f->IsZombie() && !f->TestBit(TFile::kRecovered)) {
{
// Execute analysis.
static Long64_t ncalls = 0;
+ if (fDebug > 0) printf("MGR: Processing event #%lld\n", ncalls);
+ TDirectory *cdir = gDirectory;
+ gROOT->cd();
Bool_t getsysInfo = ((fNSysInfo>0) && (fMode==kLocalAnalysis))?kTRUE:kFALSE;
- if (getsysInfo && ncalls==0) AliSysInfo::AddStamp("Start", (Int_t)ncalls);
+ if (getsysInfo && ((ncalls%fNSysInfo)==0)) AliSysInfo::AddStamp("Exec_start", (Int_t)ncalls);
ncalls++;
if (!fInitOK) {
- Error("ExecAnalysis", "Analysis manager was not initialized !");
+ Error("ExecAnalysis", "Analysis manager was not initialized !");
+ cdir->cd();
return;
- }
+ }
AliAnalysisTask *task;
// Check if the top tree is active.
if (fTree) {
+ if (getsysInfo && ((ncalls%fNSysInfo)==0))
+ AliSysInfo::AddStamp("Handlers_BeginEventGroup",(Int_t)ncalls, 1002, 0);
TIter next(fTasks);
// De-activate all tasks
while ((task=(AliAnalysisTask*)next())) task->SetActive(kFALSE);
if (!cont) cont = (AliAnalysisDataContainer*)fInputs->At(0);
if (!cont) {
Error("ExecAnalysis","Cannot execute analysis in TSelector mode without at least one top container");
+ cdir->cd();
return;
}
cont->SetData(fTree); // This will notify all consumers
- Long64_t entry = fTree->GetTree()->GetReadEntry();
-
+ Long64_t entry = fTree->GetTree()->GetReadEntry();
//
// Call BeginEvent() for optional input/output and MC services
if (fInputEventHandler) fInputEventHandler ->BeginEvent(entry);
if (fOutputEventHandler) fOutputEventHandler ->BeginEvent(entry);
if (fMCtruthEventHandler) fMCtruthEventHandler->BeginEvent(entry);
+ gROOT->cd();
+ if (getsysInfo && ((ncalls%fNSysInfo)==0))
+ AliSysInfo::AddStamp("Handlers_BeginEvent",(Int_t)ncalls, 1000, 0);
//
// Execute the tasks
// TIter next1(cont->GetConsumers());
TIter next1(fTopTasks);
+ Int_t itask = 0;
while ((task=(AliAnalysisTask*)next1())) {
if (fDebug >1) {
cout << " Executing task " << task->GetName() << endl;
- }
-
+ }
task->ExecuteTask(option);
+ gROOT->cd();
+ if (getsysInfo && ((ncalls%fNSysInfo)==0))
+ AliSysInfo::AddStamp(task->ClassName(),(Int_t)ncalls, itask, 1);
+ itask++;
}
//
// Call FinishEvent() for optional output and MC services
if (fMCtruthEventHandler) fMCtruthEventHandler->FinishEvent();
// Gather system information if requested
if (getsysInfo && ((ncalls%fNSysInfo)==0))
- AliSysInfo::AddStamp(Form("Event#%lld",ncalls),(Int_t)ncalls);
+ AliSysInfo::AddStamp("Handlers_FinishEvent",(Int_t)ncalls, 1001, 1);
+ cdir->cd();
return;
}
// The event loop is not controlled by TSelector
if (fInputEventHandler) fInputEventHandler ->BeginEvent(-1);
if (fOutputEventHandler) fOutputEventHandler ->BeginEvent(-1);
if (fMCtruthEventHandler) fMCtruthEventHandler->BeginEvent(-1);
+ gROOT->cd();
+ if (getsysInfo && ((ncalls%fNSysInfo)==0))
+ AliSysInfo::AddStamp("Handlers_BeginEvent",(Int_t)ncalls, 1000, 0);
TIter next2(fTopTasks);
while ((task=(AliAnalysisTask*)next2())) {
task->SetActive(kTRUE);
cout << " Executing task " << task->GetName() << endl;
}
task->ExecuteTask(option);
+ gROOT->cd();
}
//
// Call FinishEvent() for optional output and MC services
if (fInputEventHandler) fInputEventHandler ->FinishEvent();
if (fOutputEventHandler) fOutputEventHandler ->FinishEvent();
if (fMCtruthEventHandler) fMCtruthEventHandler->FinishEvent();
+ if (getsysInfo && ((ncalls%fNSysInfo)==0))
+ AliSysInfo::AddStamp("Handlers_FinishEvent",(Int_t)ncalls, 1000, 1);
+ cdir->cd();
}
//______________________________________________________________________________
-void AliAnalysisManager::FinishAnalysis()
-{
-// Finish analysis.
-}
-
-//______________________________________________________________________________
-void AliAnalysisManager::SetInputEventHandler(AliVEventHandler* handler)
+void AliAnalysisManager::SetInputEventHandler(AliVEventHandler* const handler)
{
// Set the input event handler and create a container for it.
fInputEventHandler = handler;
fCommonInput = CreateContainer("cAUTO_INPUT", TChain::Class(), AliAnalysisManager::kInputContainer);
- Warning("SetInputEventHandler", " An automatic input container for the input chain was created.\nPlease use: mgr->GetCommonInputContainer() to access it.");
+// Warning("SetInputEventHandler", " An automatic input container for the input chain was created.\nPlease use: mgr->GetCommonInputContainer() to access it.");
}
//______________________________________________________________________________
-void AliAnalysisManager::SetOutputEventHandler(AliVEventHandler* handler)
+void AliAnalysisManager::SetOutputEventHandler(AliVEventHandler* const handler)
{
// Set the input event handler and create a container for it.
fOutputEventHandler = handler;
fCommonOutput = CreateContainer("cAUTO_OUTPUT", TTree::Class(), AliAnalysisManager::kOutputContainer, "default");
fCommonOutput->SetSpecialOutput();
- Warning("SetOutputEventHandler", " An automatic output container for the output tree was created.\nPlease use: mgr->GetCommonOutputContainer() to access it.");
+// Warning("SetOutputEventHandler", " An automatic output container for the output tree was created.\nPlease use: mgr->GetCommonOutputContainer() to access it.");
}
//______________________________________________________________________________
// connected to any output container, so that the manager can properly register,
// retrieve or merge them when running in distributed mode. The file names are
// separated by blancs. The method has to be called in MyAnalysisTask::LocalInit().
+ if (fExtraFiles.Contains(fname)) return;
if (fExtraFiles.Length()) fExtraFiles += " ";
fExtraFiles += fname;
}
//______________________________________________________________________________
-Bool_t AliAnalysisManager::GetFileFromWrapper(const char *filename, TList *source)
+Bool_t AliAnalysisManager::GetFileFromWrapper(const char *filename, const TList *source)
{
// Copy a file from the location specified ina the wrapper with the same name from the source list.
- char full_path[512];
- char ch_url[512];
+ char fullPath[512];
+ char chUrl[512];
TObject *pof = source->FindObject(filename);
if (!pof || !pof->InheritsFrom("TProofOutputFile")) {
Error("GetFileFromWrapper", "TProofOutputFile object not found in output list for file %s", filename);
return kFALSE;
}
- gROOT->ProcessLine(Form("sprintf((char*)0x%lx, \"%%s\", ((TProofOutputFile*)0x%lx)->GetOutputFileName();)", full_path, pof));
- gROOT->ProcessLine(Form("sprintf((char*)0x%lx, \"%%s\", gProof->GetUrl();)", ch_url));
- TString clientUrl(ch_url);
- TString full_path_str(full_path);
+ gROOT->ProcessLine(Form("sprintf((char*)0x%lx, \"%%s\", ((TProofOutputFile*)0x%lx)->GetOutputFileName();)", fullPath, pof));
+ gROOT->ProcessLine(Form("sprintf((char*)0x%lx, \"%%s\", gProof->GetUrl();)", chUrl));
+ TString clientUrl(chUrl);
+ TString fullPath_str(fullPath);
if (clientUrl.Contains("localhost")){
- TObjArray* array = full_path_str.Tokenize ( "//" );
+ TObjArray* array = fullPath_str.Tokenize ( "//" );
TObjString *strobj = ( TObjString *)array->At(1);
TObjArray* arrayPort = strobj->GetString().Tokenize ( ":" );
TObjString *strobjPort = ( TObjString *) arrayPort->At(1);
- full_path_str.ReplaceAll(strobj->GetString().Data(),"localhost:PORT");
- full_path_str.ReplaceAll(":PORT",Form(":%s",strobjPort->GetString().Data()));
- if (fDebug > 1) Info("GetFileFromWrapper","Using tunnel from %s to %s",full_path_str.Data(),filename);
+ fullPath_str.ReplaceAll(strobj->GetString().Data(),"localhost:PORT");
+ fullPath_str.ReplaceAll(":PORT",Form(":%s",strobjPort->GetString().Data()));
+ if (fDebug > 1) Info("GetFileFromWrapper","Using tunnel from %s to %s",fullPath_str.Data(),filename);
delete arrayPort;
delete array;
}
if (fDebug > 1)
- Info("GetFileFromWrapper","Copying file %s from PROOF scratch space", full_path_str.Data());
- Bool_t gotit = TFile::Cp(full_path_str.Data(), filename);
+ Info("GetFileFromWrapper","Copying file %s from PROOF scratch space", fullPath_str.Data());
+ Bool_t gotit = TFile::Cp(fullPath_str.Data(), filename);
if (!gotit)
Error("GetFileFromWrapper", "Could not get file %s from proof scratch space", filename);
return gotit;
TDirectory *cdir = gDirectory;
TString openedFiles;
while ((output=(AliAnalysisDataContainer*)next())) {
+ if (output->IsRegisterDataset()) continue;
TString filename = output->GetFileName();
if (filename == "default") {
if (!fOutputEventHandler) continue;
filename = fOutputEventHandler->GetOutputFileName();
+ // Main AOD may not be there
+ if (gSystem->AccessPathName(filename)) continue;
}
// Check if the file is closed
if (openedFiles.Contains(filename)) continue;;
TFile *file = (TFile*)gROOT->GetListOfFiles()->FindObject(filename);
if (file) {
Warning("ValidateOutputs", "File %s was not closed. Closing.", filename.Data());
+ // Clear file list to release object ownership to user.
+// file->Clear();
file->Close();
}
file = TFile::Open(filename);
cdir->cd();
return kTRUE;
}
+
+//______________________________________________________________________________
+void AliAnalysisManager::ProgressBar(const char *opname, Long64_t current, Long64_t size, TStopwatch * const watch, Bool_t last, Bool_t refresh)
+{
+// Implements a nice text mode progress bar.
+ static Long64_t icount = 0;
+ static TString oname;
+ static TString nname;
+ static Long64_t ocurrent = 0;
+ static Long64_t osize = 0;
+ static Int_t oseconds = 0;
+ static TStopwatch *owatch = 0;
+ static Bool_t oneoftwo = kFALSE;
+ static Int_t nrefresh = 0;
+ static Int_t nchecks = 0;
+ const char symbol[4] = {'=','\\','|','/'};
+ char progress[11] = " ";
+ Int_t ichar = icount%4;
+
+ if (!refresh) {
+ nrefresh = 0;
+ if (!size) return;
+ owatch = watch;
+ oname = opname;
+ ocurrent = TMath::Abs(current);
+ osize = TMath::Abs(size);
+ if (ocurrent > osize) ocurrent=osize;
+ } else {
+ nrefresh++;
+ if (!osize) return;
+ }
+ icount++;
+ Double_t time = 0.;
+ Int_t hours = 0;
+ Int_t minutes = 0;
+ Int_t seconds = 0;
+ if (owatch && !last) {
+ owatch->Stop();
+ time = owatch->RealTime();
+ hours = (Int_t)(time/3600.);
+ time -= 3600*hours;
+ minutes = (Int_t)(time/60.);
+ time -= 60*minutes;
+ seconds = (Int_t)time;
+ if (refresh) {
+ if (oseconds==seconds) {
+ owatch->Continue();
+ return;
+ }
+ oneoftwo = !oneoftwo;
+ }
+ oseconds = seconds;
+ }
+ if (refresh && oneoftwo) {
+ nname = oname;
+ if (nchecks <= 0) nchecks = nrefresh+1;
+ Int_t pctdone = (Int_t)(100.*nrefresh/nchecks);
+ oname = Form(" == %d%% ==", pctdone);
+ }
+ Double_t percent = 100.0*ocurrent/osize;
+ Int_t nchar = Int_t(percent/10);
+ if (nchar>10) nchar=10;
+ Int_t i;
+ for (i=0; i<nchar; i++) progress[i] = '=';
+ progress[nchar] = symbol[ichar];
+ for (i=nchar+1; i<10; i++) progress[i] = ' ';
+ progress[10] = '\0';
+ oname += " ";
+ oname.Remove(20);
+ if(size<10000) fprintf(stderr, "%s [%10s] %4lld ", oname.Data(), progress, ocurrent);
+ else if(size<100000) fprintf(stderr, "%s [%10s] %5lld ",oname.Data(), progress, ocurrent);
+ else fprintf(stderr, "%s [%10s] %7lld ",oname.Data(), progress, ocurrent);
+ if (time>0.) fprintf(stderr, "[%6.2f %%] TIME %.2d:%.2d:%.2d \r", percent, hours, minutes, seconds);
+ else fprintf(stderr, "[%6.2f %%]\r", percent);
+ if (refresh && oneoftwo) oname = nname;
+ if (owatch) owatch->Continue();
+ if (last) {
+ icount = 0;
+ owatch = 0;
+ ocurrent = 0;
+ osize = 0;
+ oseconds = 0;
+ oneoftwo = kFALSE;
+ nrefresh = 0;
+ fprintf(stderr, "\n");
+ }
+}