test_RelTabs.cxx File Reference

#include "RelTable/Relation.h"
#include "RelTable/RelTable.h"
#include "GaudiKernel/ContainedObject.h"
#include "GaudiKernel/ObjectList.h"
#include <vector>
#include <iostream>
#include <string>

Go to the source code of this file.

Classes
class	FakeOne
class	FakeTwo

Functions
int	main ()

Function Documentation

main()

int main

(

)

Definition at line 53 of file test_RelTabs.cxx.

{
  FakeOne *person1, *person2, *person3;
  FakeTwo *location1, *location2;
  
 
  // First we create some contained object 
  person1 = new FakeOne("Jack Tripper", 654);
  person2 = new FakeOne("Richard Kanningam", 456);
  person3 = new FakeOne("Dana Scully", 231);
 
  location1 = new FakeTwo("531 Stanford Avenue", 2);
  location2 = new FakeTwo("520 Cowper Street", 3);
 
 
  // Then we relate them
  Relation<FakeOne, FakeTwo> *rel1 = new Relation<FakeOne, FakeTwo>(person1, location1, "06/08/2002");
  Relation<FakeOne, FakeTwo> *rel2 = new Relation<FakeOne, FakeTwo>(person2, location1, "06/08/2002");
  Relation<FakeOne, FakeTwo> *rel3 = new Relation<FakeOne, FakeTwo>(person3, location2, "10/08/2002");
  Relation<FakeOne, FakeTwo> *rel4 = new Relation<FakeOne, FakeTwo>(person1, location2, "20/09/2002");
  Relation<FakeOne, FakeTwo> *rel5 = new Relation<FakeOne, FakeTwo>(person2, location1, "09/10/2002");
 
  // Using the TDS, we should only require an ObjectList of Relations, ie:
  // typdef ObjectList< Relation<FakeOne, FakeTwo> > ListRelations;
  // ListRelations* rels = SmartDataPtr<ListRelations > (SomeSvc(), "/SomePath");
 
 
  // We add them to a table of relations
  RelTable<FakeOne, FakeTwo> tab;
  tab.init();
 
  // The table is empty and so the following query should return an emtpy vector
  std::vector< Relation<FakeOne, FakeTwo>* > empty = tab.getRelByFirst(person1);
  std::cout << "Querying and empty table the size of the returned vector is " 
        << empty.size() << std::endl;  
  
  
  tab.addRelation(rel1);
  tab.addRelation(rel2);
  tab.addRelation(rel3);
  tab.addRelation(rel4);
  tab.addRelation(rel5);
 
  // Using the TDS, the table is directly initialized by the ObjectList of relations: 
  // RelTable<FakeOne, FakeTwo> tab(rels);
 
  // Only to verify if the fillStream method works
  rel1->fillStream(std::cout);
 
  // Now lets do some queries
 
  std::vector< Relation<FakeOne, FakeTwo>* >::iterator i;
 
  // What are all hotels visited by person1 (Jack Tripper)?
  std::vector< Relation<FakeOne, FakeTwo>* > locs = tab.getRelByFirst(person1);
  
  std::cout << std::endl << person1->name << std::endl;
  for (i = locs.begin(); i != locs.end(); i++)
    {
      std::cout << "Address: "    << (*i)->getSecond()->address
                << "     Floor: " << (*i)->getSecond()->floor   
                << "     Date : " << (*i)->getInfos()[0]     << std::endl;
    }
 
  // And all persons that visited location2 ?
  std::vector< Relation<FakeOne, FakeTwo>* > pers = tab.getRelBySecond(location2);
   
  std::cout << std::endl << location2->address << std::endl;
  for (i = pers.begin(); i != pers.end(); i++)
    {
      std::cout << "Name: "     << (*i)->getFirst()->name 
                << "     ssn: " << (*i)->getFirst()->ssn   << std::endl;
    }
 
 
  // Now we change a relation already inserted
 
 
  locs = tab.getRelByFirst(person3);
  for (i = locs.begin(); i != locs.end(); i++)
    {
      tab.changeSecond(*i,location1);
    }
  
  std::cout << std::endl << "persion3 location changed" << std::endl;
  std::cout << std::endl << location2->address << std::endl;
 
  pers = tab.getRelBySecond(location1);
  for (i = pers.begin(); i != pers.end(); i++)
    {
      std::cout << "Name: "     << (*i)->getFirst()->name 
                << "     ssn: " << (*i)->getFirst()->ssn   << std::endl;
    }
 
 
  
  locs = tab.getRelByFirst(person1);
 
  for (i = locs.begin(); i != locs.end(); i++)
    {
      tab.changeFirst(*i,0);
    }
  
  std::cout << std::endl << "Jack Tripper set to null"  << std::endl;  
 
  // Let's see the result oh the previous query after this change. We have to
  // take care about null pointers now.
 
  pers = tab.getRelBySecond(location2);
 
  std::cout << "Number of relations with location2 = " << pers.size() << std::endl;   
 
  std::cout << std::endl << location2->address << std::endl;
  for (i = pers.begin(); i != pers.end(); i++)
    {
      if ((*i)->getFirst())
        std::cout << "Name: "     << (*i)->getFirst()->name 
                  << "     ssn: " << (*i)->getFirst()->ssn   << std::endl;
    }
  
 
  // Now let's remove the two relations with the null pointer
 
  pers = tab.getRelByFirst(0);
  for (i = pers.begin(); i != pers.end(); i++)
  {
    tab.erase(*i);
  }
 
  std::cout << std::endl << "Removed relations with null pointer" << std::endl;   
  std::cout << "Number of relations = " << tab.size() << std::endl;   
  std::cout << std::endl << location2->address << std::endl;
 
  pers = tab.getRelBySecond(location1);
  for (i = pers.begin(); i != pers.end(); i++)
    {
      std::cout << "Name: "     << (*i)->getFirst()->name 
                << "     ssn: " << (*i)->getFirst()->ssn   << std::endl;
    }
 
 
 
 std::cout << std::endl << person2->name << std::endl;
 
 
  unsigned int index;
  // Now, we verify how many times person2 has been in a location
  locs = tab.getRelByFirst(person2);
  for (i = locs.begin(); i != locs.end(); i++)
    {
      std::cout << "Address: " << (*i)->getSecond()->address << std::endl;
      std::cout << "Floor: " << (*i)->getSecond()->floor << std::endl;  
      std::cout << "Dates : " << std::endl;
      for ( index = 0; index < (*i)->getInfos().size(); index++)
    {
      std::cout << (*i)->getInfos()[index] << std::endl;
    }
    }
 
 
  // Using the TDS, one can finally register the collection of relations:
  // SomeSvc()->registerObject("/Event/MC/RelFakeOneFakeTwo",
  //   tab.getAllRelations());
  
  return 0;
}