/************************************************************************** * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. * * * * Author: The ALICE Off-line Project. * * Contributors are mentioned in the code where appropriate. * * * * Permission to use, copy, modify and distribute this software and its * * documentation strictly for non-commercial purposes is hereby granted * * without fee, provided that the above copyright notice appears in all * * copies and that both the copyright notice and this permission notice * * appear in the supporting documentation. The authors make no claims * * about the suitability of this software for any purpose. It is * * provided "as is" without express or implied warranty. * **************************************************************************/ /* $Id: AliTimeStamp.cxx 22322 2007-11-22 11:43:14Z cvetan $ */ /////////////////////////////////////////////////////////////////////////////// // // Class to define Event Timestamp from : // // Orbit // Period counter // Seconds | // + | <===> Bunch cross // Microsecs | // ////////////////////////////////////////////////////////////////////////////// #include #include "TObject.h" #include "AliLog.h" #include "AliTimeStamp.h" ClassImp(AliTimeStamp) //_____________________________________________________________________________ const Int_t AliTimeStamp::fNanosecPerBC = 25; // nanosecs per bunch cross //_____________________________________________________________________________ AliTimeStamp::AliTimeStamp(): fOrbit(0), fPeriod(0), fBunchCross(0) { // Default constructor } //_____________________________________________________________________________ AliTimeStamp::AliTimeStamp( UInt_t orbit, UInt_t period, ULong64_t bunchcross ): fOrbit(orbit), fPeriod(period), fBunchCross( bunchcross ) { } //_____________________________________________________________________________ AliTimeStamp::AliTimeStamp( UInt_t orbit, UInt_t period, UInt_t seconds, UInt_t microsecs): fOrbit(orbit), fPeriod(period), fBunchCross( (ULong64_t)((seconds*1000000.+microsecs)*1000./fNanosecPerBC+0.5) ) { } //___________________________________________________________________________ AliTimeStamp::AliTimeStamp(const AliTimeStamp &stamp): TObject(stamp), fOrbit(stamp.fOrbit), fPeriod(stamp.fPeriod), fBunchCross(stamp.fBunchCross) { // copy constructor } //_____________________________________________________________________________ AliTimeStamp& AliTimeStamp::operator=(const AliTimeStamp &stamp) { //assignment operator if(this==&stamp) return *this; ((TObject *)this)->operator=(stamp); fOrbit=stamp.fOrbit; fPeriod=stamp.fPeriod; fBunchCross=stamp.fBunchCross; return *this; } //_____________________________________________________________________________ void AliTimeStamp::SetTimeStamp( UInt_t orbit, UInt_t period, ULong64_t bunchcross ) { fOrbit = orbit; fPeriod = period; fBunchCross = bunchcross; } //_____________________________________________________________________________ void AliTimeStamp::SetTimeStamp( UInt_t orbit, UInt_t period, UInt_t seconds, UInt_t microsecs ) { fOrbit = orbit; fPeriod = period; fBunchCross = (ULong64_t)((seconds*1000000.+microsecs)*1000./fNanosecPerBC+0.5); } //_____________________________________________________________________________ Int_t AliTimeStamp::Compare( const TObject* obj ) const { // Compare if( fPeriod > ((AliTimeStamp*)obj)->fPeriod ) return 1; else { if( fPeriod < ((AliTimeStamp*)obj)->fPeriod ) return -1; else { if( fOrbit > ((AliTimeStamp*)obj)->fOrbit ) return 1; else { if( fOrbit < ((AliTimeStamp*)obj)->fOrbit ) return -1; else { if( fBunchCross > ((AliTimeStamp*)obj)->fBunchCross ) return 1; else { if( fBunchCross < ((AliTimeStamp*)obj)->fBunchCross ) return -1; else return 0; }}}}} } //_____________________________________________________________________________ void AliTimeStamp::Print( const Option_t* ) const { // Print cout << "Timestamp: " << endl; cout << " Orbit: " << fOrbit << " Period: " << fPeriod << endl; cout << " Bunch Cross: " << GetBunchCross() << endl; cout << " Seconds: " << GetSeconds() << " MicroSecs: " << GetMicroSecs() << endl; }