4

I would like to be able to write a template function that can invoke a function call on all elements of a container. We can assume that the function name is always the same. However what isn't known is whether the container is holding objects or pointers. ie, whether I should de-reference.

template< typename TContainer >
void ProcessKeyedContainer( TContainer &keyedContainer )
{
  for ( auto it = keyedContainer.begin(); it != keyedContainer.end(); ++it )
  {
    // do some random stuff here.
    // ...

    auto value = it->second;
    value.Process(); // or value->Process() if the container has pointers
  }
}

...

std::map< int, CMyObject > containerOfObjects;
containerOfObjects[0] = CMyObject();

std::map< int, CMyObject* > containerOfPointers;
containerOfPointers[0] = new CMyObject();

// I would like both calls to look near identical
ProcessKeyedContainer( containerOfObjects ); 
ProcessKeyedContainer( containerOfPointers );

Is there a neat way to be able to make the Process call inside ProcessKeyedContainer, without putting a burden on the caller ( ie the caller doesn't have to know to use it in one way for pointers and another way for objects ), and without having to duplicate too much code ?

1 Answer 1

6

Overloaded function template is the savior:

template<typename T>
void invoke(T * obj)  //when object is pointer
{
      obj->Process();
}

template<typename T>
void invoke(T & obj)  //when object is non-pointer
{
      obj.Process();
}

then use it as:

auto value = it->second;
invoke(value); //correct invoke() will be selected by the compiler!

But that is not good enough, as you might want to do something else also with value in the rest of the function written by you. So if you follow the above approach, there will be code duplication, as both invoke() will have almost similar code.

So here is one improvement: instead of using invoke(), turn the pointer into reference so that you could use it uniformly in your function.

template<typename T>
T& ensure_ref(T * obj)  //when object is pointer
{
      return *obj; //return the dereferenced object
}

template<typename T>
T& ensure_ref(T & obj)  //when object is non-pointer
{
      return obj; //simply return it
}

And use it as:

auto & value = ensure_ref(it->second); //call ensure_ref to ensure reference!

value.Process(); //value is gauranteed to be NOT pointer!

//you might want to do this also!
value.xyz = abc; 

Hope that helps!

2
  • +1, and I would further refine this by taking iterators as the function arguments to ProcessKeyedContainer() rather than the container reference.
    – WhozCraig
    Aug 5, 2013 at 17:26
  • 1
    Thanks! The ensure_ref accomplishes exactly what I need.
    – Kindread
    Aug 5, 2013 at 20:30

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