#include <iostream>
#include <exception>
#include "SealKernel/Exception.h"

class PoolApplication
{
public:
  // Constructor. Initializes all the services.
  PoolApplication();
  // Destructor
  ~PoolApplication();
  // main method
  void run();
};


// The program main.
int main( int, char** )
{
  std::cout << "Writer application starts." << std::endl;
  try {
    PoolApplication app;
    app.run();
  }
  catch ( seal::Exception& e ) {
    std::cerr << e.what() << std::endl;
    return 1;
  }
  catch ( std::exception& e ) {
    std::cerr << e.what() << std::endl;
    return 1;
  }
  catch ( ... ) {
    std::cerr << "Funny error" << std::endl;
    return 1;
  }
  std::cout << "Writer application successfully finished." << std::endl;
  return 0;
}



#include <stdexcept>
#include "SealBase/SharedLibrary.h"
#include "SealBase/SharedLibraryError.h"
#include "POOLCore/POOLContext.h"

// Constructor of PoolApplication
PoolApplication::PoolApplication()
{
  // Loads the seal message stream
  pool::POOLContext::loadComponent( "SEAL/Services/MessageService" );
  // Set the verbosity threshold to warnings
  pool::POOLContext::setMessageVerbosityLevel( seal::Msg::Warning );

  // Loads the dictionary
  const std::string dictlibrary = "EventModelDict";
  try {
    seal::SharedLibrary::load( seal::SharedLibrary::libname( dictlibrary ) );
  }
  catch ( seal::SharedLibraryError *error) {
    throw std::runtime_error( error->explainSelf().c_str() );
  }
  std::cout << "Successfully loaded the services" << std::endl;
}


// Destructor of PoolApplication
PoolApplication::~PoolApplication()
{}


#include <memory>

#include "FileCatalog/URIParser.h"
#include "FileCatalog/IFileCatalog.h"

#include "StorageSvc/DbType.h"

#include "PersistencySvc/Placement.h"
#include "PersistencySvc/ITransaction.h"
#include "PersistencySvc/ISession.h"
#include "PersistencySvc/DatabaseConnectionPolicy.h"

#include "DataSvc/IDataSvc.h"
#include "DataSvc/DataSvcFactory.h"
#include "DataSvc/Ref.h"

#include "Hit.h"


// Main method of PoolApplication
void
PoolApplication::run()
{
  // Create a file catalog and connect to it
  pool::URIParser p;
  p.parse();
  std::auto_ptr<pool::IFileCatalog> fileCatalog( new pool::IFileCatalog );
  fileCatalog->setWriteCatalog( p.contactstring() );
  fileCatalog->connect();

  // Start a transaction for the file catalog
  fileCatalog->start();

  // create a data service and tell it which catalog to use
  std::auto_ptr<pool::IDataSvc> dataSvc( pool::DataSvcFactory::instance( fileCatalog.get() ) );

  // Define the policy for the implicit file handling
  pool::DatabaseConnectionPolicy policy;
  // If the file does not exist, create a new one.
  policy.setWriteModeForNonExisting( pool::DatabaseConnectionPolicy::CREATE );
  // If the file already exists, overwrite it.
  policy.setWriteModeForExisting( pool::DatabaseConnectionPolicy::OVERWRITE );
  // set the policy
  dataSvc->session().setDefaultConnectionPolicy( policy );

  // start an update transaction
  dataSvc->transaction().start( pool::ITransaction::UPDATE );

  // Define where the data will be written:
  pool::Placement placementHint;
  // into a database file called "pool_tutorial_1.root",
  placementHint.setDatabase( "pool_tutorial_1.root", pool::DatabaseSpecification::PFN );
  // into a container called "hits",
  placementHint.setContainerName( "hits" );
  // using a ROOT Tree storage technology
  placementHint.setTechnology( pool::ROOTTREE_StorageType.type() );

  // Now create a write 10 Hit objects
  for ( int i = 0; i < 10; ++i ) {
    pool::Ref< pool_tutorial::Hit > hit( dataSvc.get(), new pool_tutorial::Hit() );
    hit.markWrite( placementHint );
    hit->setPosition( i, i-1, i+1 );
    hit->setValue( 100 + i );
    std::cout << "Writing hit : " << hit->x() << ", "<< hit->y() << ", "<< hit->z() << " -> " << hit->value() << std::endl;
  }

  // commit the transaction
  dataSvc->transaction().commit();

  // Commit the file catalog transaction
  fileCatalog->commit();
}