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Just finding my way around templates so was trying out a few stuff.

Let me know what I am doing wrong here.

I am trying to overload a inherited templates virtual method.

// class templates
#include <iostream>
using namespace std;

template <class T, class A>
class mypair {
    T a, b;
  public:
    mypair (T first, T second)
      {a=first; b=second;}
    virtual A getmax (); 
};

template <class T, class A>
A mypair< T, A>::getmax ()
{
  A retval;
  retval = a>b? a : b;
  return retval;
}



template <class T, class A>
class next : public mypair <T, A> {
        A getmax ()
        {   
        cout <<" WHOO HOO";
        }   
};


int main () {
  mypair <double,float> myobject(100.25, 75.77);
  next<double,float>  newobject(100.25, 75.77);
  cout << myobject.getmax();
  return 0;
}

`

This gives the error :

function.cpp: In function ‘int main()’:
function.cpp:35: error: no matching function for call to ‘next<double, float>::next(double, double)’
function.cpp:25: note: candidates are: next<double, float>::next()
function.cpp:25: note:                 next<double, float>::next(const next<double, float>&)

If this isnt the right way to proceed, some info on template inheritance would be great

share|improve this question

2 Answers 2

up vote 7 down vote accepted

The next class does not automatically inherit the constructors from its parent class. You have to define any constructors explicitly. This applies to all derived classes, whether template and virtual functions are involved or not.

If you want to define a constructor from next that takes two Ts and forwards them to the corresponding mypair constructor, you would do it like this:

next (T first, T second)
  : mypair<T,A>(first, second)
{
}

Again, this is generally applicable even without templates involved.

share|improve this answer
    
Firstly thanks for the reply. so if I were to instantiate an object for next (as it is not a template) How will I do it? I tried the following two ways next newobj(100.25,77.75) // i know this is wrong as the template wouldnt be able to figure out what data type it is next<double, float> newobj(100.25,77.75); //I get an error that next is not a template..rightly so How am I supposed to do it then. –  Sii Aug 31 '10 at 3:12
    
next<double, float> newobj(100.25, 77.75) is the right way to do it. There must be something else wrong. Did you forget the public: in the next class? I don't think that you meant for next::getmax to be a private method. Missing that might be causing other problems. –  Tyler McHenry Aug 31 '10 at 3:25
    
I did change the the getmax to public.But with the second way the complier give the error next is not a template and I think since the next isnt a template 'next<double, float> newobj(100.25, 77.75)' would be wrong? ( makes one think next is a template) –  Sii Aug 31 '10 at 3:35
    
You must be compiling code other than what you posted. If I take the code from your question, add the constructor from my answer, and add the public: label, it compiles for me. –  Tyler McHenry Aug 31 '10 at 3:37
    
template <class T, class A> class next (T first, T second) : mypair<T,A>(first, second) { a=first; b=second; } template <class T, class A> class next: mypair<T,A> { public: A getmax () { cout<<"WOO HOO"; } }; int main () { mypair <double,float> myobject(100.25, 75.77); next<double,float> newobject(100.25, 75.77); cout << newobject.getmax(); return 0; } This is the change that I did. Still gives error –  Sii Aug 31 '10 at 3:43

Full Solution if anyone is interested ( thanks to Tyler)

// class templates
#include <iostream>
using namespace std;

template <class T, class A>
class mypair {
         T a, b;
  public:
    mypair (T first, T second)
      {a=first; b=second;}
    virtual A getmax (); 
};

template <class T, class A>
A mypair< T, A>::getmax ()
{
  A retval;
  retval = a>b? a : b;
  return retval;
}







template <class T, class A>
class next: mypair<T,A>
{
public:

        next (T first, T second) : mypair<T,A>(first, second)
        {   
        }   

        A getmax ()
        {   
        cout<<"WOO HOO";
        }   
};


int main () {
  mypair <double,float> myobject(100.25, 75.77);
  next<double,float>  newobject(100.25, 75.77);
  cout << newobject.getmax();
  return 0;
} 
share|improve this answer
    
+1: for concluding it so nicely –  Chubsdad Aug 31 '10 at 4:12

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