db/db7/BesRndmGenSvc_8cxx_source.html

#include "BesServices/BesRndmGenSvc.h"


#ifndef HAVE_NEW_IOSTREAMS /*gnu-specific*/

#define BOOST_NO_STRINGSTREAM 1 /*FIXME should come from boost config */

#endif

#include <boost/lexical_cast.hpp>

#include <boost/tokenizer.hpp>


#include "GaudiKernel/MsgStream.h"

#include "GaudiKernel/ISvcLocator.h"

#include "GaudiKernel/IIncidentSvc.h"

#include "GaudiKernel/Incident.h"

using namespace std;


bool interpretSeeds(const string& buffer,

            string& stream, std::vector<unsigned long>& seed) {

  bool status(false);

  seed.clear();

  //split the space-separated string in 3 words:

  typedef boost::tokenizer<boost::char_separator<char> > tokenizer;

  boost::char_separator<char> sep(" ");

  tokenizer tokens(buffer, sep);

  if (status = (distance(tokens.begin(), tokens.end()) == 32)) {

    tokenizer::iterator token(tokens.begin());

    stream = *token++;

    try {

      for(int i=0; i<31; i++) {

    long tmp = boost::lexical_cast<long>(*token++);

        seed.push_back(tmp);

      }

    } catch (boost::bad_lexical_cast e) {

      status = false;

    }

  }

  return status;

}


/// Standard Constructor

BesRndmGenSvc::BesRndmGenSvc(const std::string& name,ISvcLocator* svc)

    : Service(name,svc)

{

    // Property Default values

    m_read_from_file    =   false;

    m_file_to_read  =   "BesRndmGenSvc.out";

    ofile = "BesRndmGenSvc.out";


     // Set Default values

    m_default_seed              =       11000;

    m_EVTGEN_default_seed       =       35910;

    m_PYTHIA_default_seed       =       93531;

    m_HERWIG_default_seed       =       35391;

    m_LUNDCRM_default_seed      =       12456;

    m_SIM_default_seed          =       23569;

    m_MIX_default_seed          =       76543;

    m_KKMC_default_seed         =       26877;

    // Get user's input

    declareProperty("Seeds",        m_streams_seeds);

    declareProperty("StreamName",   m_StreamName = "EVTGEN");

    declareProperty("ReadFromFile", m_read_from_file);

    declareProperty("FileToRead",   m_file_to_read);

    declareProperty("RdmOutFile",      ofile);

    declareProperty("RndmSeed",  m_default_seed);


    Stream_EVTGEN = "EVTGEN";

    Stream_PYTHIA = "PYTHIA";

    Stream_HERWIG = "HERWIG";

    Stream_LUNDCRM = "LUNDCRM";

    Stream_SIM    = "SIM";

    Stream_MIX    = "MIX";

    Stream_KKMC = "KKMC";


    m_engines           =   new engineMap();

}


/// Standard Destructor

BesRndmGenSvc::~BesRndmGenSvc()

{

    delete  m_engines;

}


// Query the interfaces.

//   Input: riid, Requested interface ID

//          ppvInterface, Pointer to requested interface

//   Return: StatusCode indicating SUCCESS or FAILURE.

// N.B. Don't forget to release the interface after use!!!

StatusCode

BesRndmGenSvc::queryInterface(const InterfaceID& riid, void** ppvInterface)

{

    if ( IBesRndmGenSvc::interfaceID().versionMatch(riid) )    {

        *ppvInterface = (IBesRndmGenSvc*)this;

    }

    else  {

    // Interface is not directly available: try out a base class

    return Service::queryInterface(riid, ppvInterface);

    }

    addRef();

    return StatusCode::SUCCESS;

}


StatusCode

BesRndmGenSvc::initialize()

{

  MsgStream log( messageService(), name() );

  log << MSG::INFO << "Initializing " << name()

      << " - package version " << PACKAGE_VERSION

      << "\n INITIALISING RANDOM NUMBER STREAMS. " << endreq;


    if (!(Service::initialize().isSuccess())) {

      return StatusCode::FAILURE;

    }


    //set up different stream seeds by default seed

    m_EVTGEN_default_seed       =       m_default_seed+35910;

    m_PYTHIA_default_seed       =       m_default_seed+93531;

    m_HERWIG_default_seed       =       m_default_seed+35391;

    m_LUNDCRM_default_seed      =       m_default_seed+12456;

    m_SIM_default_seed          =       m_default_seed+23569;

    m_MIX_default_seed          =       m_default_seed+76543;

    m_KKMC_default_seed         =       m_default_seed+26877;


    /// Incident Service

    IIncidentSvc* pIncSvc(0);


    // set up the incident service:

    if (!(service("IncidentSvc", pIncSvc, true)).isSuccess()) {

      log << MSG::ERROR

      << "Could not locate IncidentSvc "

      << endreq;

      return StatusCode::FAILURE;

    }


    //start listening to "EndEvent"

    static const int PRIORITY = 100;

    pIncSvc->addListener(this, "EndEvent", PRIORITY);


    if (m_read_from_file)

    {

    // Read from a file

    ifstream infile( m_file_to_read.c_str() );

    if ( !infile )

    {

        log << MSG::ERROR << " Unable to open: " << m_file_to_read <<endreq;

        return StatusCode::FAILURE;

    }

    else

    {

        std::string buffer;

        while (std::getline(infile, buffer))

        {

          string stream;

          std::vector<unsigned long> v;

          //split the space-separated string in 3 words:

          if (interpretSeeds(buffer, stream, v)) {

        log << MSG::DEBUG << " INITIALISING " << stream << " stream, "<< " read from file " <<m_file_to_read << endreq;

        CLHEP::HepRandomEngine* engine = GetEngine(stream);

        engine->get(v);

          } else {

        log << MSG::ERROR << "bad line\n" << buffer

            << "\n in input file " << m_file_to_read << endreq;

        return StatusCode::FAILURE;

          }

        }


    }

    }


    // Create the various streams according to user's request

    for (VStrings::const_iterator i = m_streams_seeds.begin(); i != m_streams_seeds.end(); ++i)

    {

        string stream;

    std::vector<unsigned long> v;

        //split the space-separated string in 3 words:

        if (interpretSeeds(*i, stream, v)) {

      log << MSG::VERBOSE << "Seeds property: stream " << stream << endreq;

    } else {

      log << MSG::ERROR << "bad Seeds property\n" << *i << endreq;

      return StatusCode::FAILURE;

    }


    // Check if stream already generated (e.g. from reading a file)

    bool                not_found   =   true;

    if ( number_of_streams() != 0 )

    {

        BesRndmGenSvc::engineConstIter sf       =   begin();

        do

        {

        if ((*sf).first == stream) not_found = false;

        ++sf;

        } while (sf != end() && not_found);

    }


    if (not_found)

    {

        log << MSG::DEBUG << " INITIALISING " << stream << endreq;

        CreateStream(v[0], stream);

    }


    }


    return StatusCode::SUCCESS;

}


void

BesRndmGenSvc::handle(const Incident &inc) {

  MsgStream log( messageService(), name() );

  log << MSG::DEBUG << " Handle EndEvent " << endreq;


  if ( inc.type() == "EndEvent")

  {


    m_engines_copy.clear();

    for (engineConstIter i = begin(); i != end(); ++i)

    {

      CLHEP::HepRandomEngine* engine = GetEngine((*i).first);

      std::vector<unsigned long> s = engine->put();

      std::vector<long int> tseeds;

      for(unsigned int j=0; j<s.size(); j++) {

        tseeds.push_back(s[j]);

      }

      m_engines_copy.insert(

    std::map<std::string, std::vector<long int> >::value_type( (*i).first,

                                           tseeds ) );

    }

    // Write the status of the Service into a file

/*

    ofstream    outfile( ofile.c_str() );

    if ( !outfile )

    {

      log <<MSG::ERROR << "error: unable to open: " << ofile << endreq;

    }

    else

    {

        for (std::map<std::string, std::vector<long int> >::const_iterator i = m_engines_copy.begin();

             i != m_engines_copy.end();

             ++i)

        {

            outfile << (*i).first;

            for(unsigned int j=0; j<((*i).second).size(); j++)

              outfile << " " << (*i).second[j];

            outfile <<"\n";

        }

    }

*/

//    print();

  }

}


StatusCode

BesRndmGenSvc::finalize()

{

    MsgStream log(messageService(), name());

    log << MSG::INFO << " FINALISING " << endreq;

    return Service::finalize();

}


CLHEP::HepRandomEngine*

BesRndmGenSvc::GetEngine    ( const std::string& StreamName )

{

    engineConstIter citer = m_engines->find(StreamName);

    if ( citer == m_engines->end() )

    {

    m_engines->insert( engineValType( StreamName, new CLHEP::RanluxEngine() ) );

    SetStreamSeeds  ( StreamName );

    }


    engineIter  iter    =   m_engines->find(StreamName);

    return  (CLHEP::HepRandomEngine*)(*iter).second;

}


void

BesRndmGenSvc::CreateStream ( long seed, const std::string& StreamName )

{

    engineConstIter citer = m_engines->find(StreamName);

    if ( citer == m_engines->end() ) m_engines->insert( engineValType(  StreamName,

                                    new CLHEP::RanluxEngine() ) );

    engineIter  iter    =   m_engines->find(StreamName);

    ((*iter).second)->setSeed( seed, 3 );

}


void

BesRndmGenSvc::SetStreamSeeds   ( const std::string& StreamName )

{

    long theseed;

    if (StreamName == "PYTHIA")

    {

    theseed = m_PYTHIA_default_seed;

    }

    else if (StreamName == "HERWIG")

    {

    theseed = m_HERWIG_default_seed;

    }

    else if (StreamName == "EVTGEN")

    {

    theseed = m_EVTGEN_default_seed;

    }

    else if (StreamName == "LUNDCRM")

    {

    theseed = m_LUNDCRM_default_seed;

    }

    else if (StreamName == "SIM")

    {

    theseed = m_SIM_default_seed;

    }

    else if (StreamName == "MIX")

    {

        theseed = m_MIX_default_seed;

    }

    else if (StreamName == "KKMC")

    {

      theseed = m_KKMC_default_seed;

    }

    else

    {

        theseed = m_default_seed;

    }

    MsgStream log(messageService(), name());

    log << MSG::WARNING << " INITIALISING " << StreamName << " stream with DEFAULT seed "

    << theseed << endreq;


    engineIter  iter    =   m_engines->find(StreamName);

    ((*iter).second)->setSeed( theseed, 3);

}


void

BesRndmGenSvc::print    ( const std::string& StreamName )

{

    MsgStream log(messageService(), name());

    engineConstIter citer = m_engines->find(StreamName);

    if ( citer == m_engines->end() )

    {

    log << MSG::WARNING << " Stream =  " << StreamName << " NOT FOUND" << endreq;

    }

    else

    {

    const long s    =   ((*citer).second)->getSeed();

    log << MSG::INFO << " Stream =  " << StreamName << ", Seed =  "

        << s << endreq;

    }

}


void

BesRndmGenSvc::print    ( void )

{

    print( m_StreamName );

}


CLHEP::HepRandomEngine*

BesRndmGenSvc::setOnDefinedSeeds    (int EventNumber, const std::string& StreamName )

{

  engineConstIter citer = m_engines->find(StreamName);

  if ( citer == m_engines->end() ) m_engines->insert( engineValType(    StreamName,

                                    new CLHEP::RanluxEngine() ) );

  engineIter    iter    =   m_engines->find(StreamName);

  long hashedStream;

  // (SG::simpleStringHash(StreamName));

  long theseed = 10000*EventNumber + hashedStream;

  ((*iter).second)->setSeed( theseed, 3 );

  return    (CLHEP::HepRandomEngine*)(*iter).second;

}


interpretSeeds
bool interpretSeeds(const string &buffer, string &stream, std::vector< unsigned long > &seed)
Definition: BesRndmGenSvc.cxx:15

BesRndmGenSvc.h

iter
EvtStreamInputIterator< typename Generator::result_type > iter(Generator gen, int N=0)
Definition: EvtStreamInputIterator.hh:100

s
XmlRpcServer s
Definition: HelloServer.cpp:11

v
**********Class see also m_nmax DOUBLE PRECISION m_amel DOUBLE PRECISION m_x2 DOUBLE PRECISION m_alfinv DOUBLE PRECISION m_Xenph INTEGER m_KeyWtm INTEGER m_idyfs DOUBLE PRECISION m_zini DOUBLE PRECISION m_q2 DOUBLE PRECISION m_Wt_KF DOUBLE PRECISION m_WtCut INTEGER m_KFfin *COMMON c_KarLud $ !Input CMS energy[GeV] $ !CMS energy after beam spread beam strahlung[GeV] $ !Beam energy spread[GeV] $ !z boost due to beam spread $ !electron beam mass *ff pair spectrum $ !minimum v
Definition: KarLud.h:35

BesRndmGenSvc::initialize
StatusCode initialize()
Gaudi Service Implementation.
Definition: BesRndmGenSvc.cxx:102

BesRndmGenSvc::BesRndmGenSvc
BesRndmGenSvc(const std::string &name, ISvcLocator *svc)
Standard Constructor.
Definition: BesRndmGenSvc.cxx:39

BesRndmGenSvc::begin
engineConstIter begin(void) const
Definition: BesRndmGenSvc.h:128

BesRndmGenSvc::print
void print(void)
Definition: BesRndmGenSvc.cxx:344

BesRndmGenSvc::GetEngine
CLHEP::HepRandomEngine * GetEngine(const std::string &StreamName)
Interface to the CLHEP engine.
Definition: BesRndmGenSvc.cxx:259

BesRndmGenSvc::handle
void handle(const Incident &)
IIncidentListener implementation. Handles EndEvent incident.
Definition: BesRndmGenSvc.cxx:206

BesRndmGenSvc::CreateStream
void CreateStream(long seed, const std::string &StreamName)
Definition: BesRndmGenSvc.cxx:273

BesRndmGenSvc::finalize
StatusCode finalize()
Definition: BesRndmGenSvc.cxx:251

BesRndmGenSvc::engineMap
std::map< std::string, CLHEP::RanluxEngine * > engineMap
CLHEP engines typedefs:
Definition: BesRndmGenSvc.h:47

BesRndmGenSvc::end
engineConstIter end(void) const
Definition: BesRndmGenSvc.h:132

BesRndmGenSvc::queryInterface
virtual StatusCode queryInterface(const InterfaceID &riid, void **ppvInterface)
Definition: BesRndmGenSvc.cxx:88

BesRndmGenSvc::engineConstIter
engineMap::const_iterator engineConstIter
Definition: BesRndmGenSvc.h:49

BesRndmGenSvc::setOnDefinedSeeds
CLHEP::HepRandomEngine * setOnDefinedSeeds(int EventNumber, const std::string &StreamName)
set the seeds for an engine. First param will usually be the event number
Definition: BesRndmGenSvc.cxx:350

BesRndmGenSvc::~BesRndmGenSvc
virtual ~BesRndmGenSvc()
Standard Destructor.
Definition: BesRndmGenSvc.cxx:77

BesRndmGenSvc::engineValType
engineMap::value_type engineValType
Definition: BesRndmGenSvc.h:50

BesRndmGenSvc::number_of_streams
unsigned int number_of_streams(void) const
Definition: BesRndmGenSvc.h:136

BesRndmGenSvc::engineIter
engineMap::iterator engineIter
Definition: BesRndmGenSvc.h:48

IBesRndmGenSvc
manage multiple CLHEP random engines as named streams
Definition: IBesRndmGenSvc.h:24

IBesRndmGenSvc::interfaceID
static const InterfaceID & interfaceID()
Gaudi boilerplate.
Definition: IBesRndmGenSvc.h:51

std
Definition: RootEventData_rootcint.cxx:16