blob: addea14dbdbdb12e0f8cb601c18eb3e9606d91d5 [file] [log] [blame]
%module simutry
%include "std_vector.i"
%inline {
namespace simuPOP
{
// some simple pop class
template <class Type>
struct Population {
int m_a;
Population(int a):m_a(a){}
};
// base operator, output pop.m_a
template<class Pop>
struct Operator
{
Pop m_pop;
Operator(int a):m_pop(a){}
virtual ~Operator()
{
}
virtual int func() const
{ return m_pop.m_a; }
};
// derived operator, output double of pop.m_a
template<class Pop>
struct DerivedOperator: public Operator<Pop>
{
DerivedOperator(int a):Operator<Pop>(a){}
virtual int func() const
{ return 2*this->m_pop.m_a; }
};
}
}
#if 1
namespace simuPOP
{
%template(population) Population< std::pair<unsigned long,unsigned long> >;
}
%inline
{
namespace simuPOP
{
typedef Population< std::pair<unsigned long,unsigned long> > pop;
}
}
#else
%inline
{
namespace simuPOP
{
// %template(population) Population< std::pair<unsigned long,unsigned long> >;
struct pop {
int m_a;
pop(int a):m_a(a){}
};
}
}
#endif
namespace simuPOP
{
%template(baseOperator) Operator< pop >;
%template(derivedOperator) DerivedOperator< pop >;
}
namespace std
{
%template(vectorop) vector< simuPOP::Operator<simuPOP::pop> * >;
}
%inline
{
namespace simuPOP
{
// test function, use of a vector of Operator*
void test( const std::vector< Operator<pop>*>& para)
{
for( size_t i =0; i < para.size(); ++i)
para[i]->func();
}
}
}