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After trying to make access to a storage class a little easier, I ended up in a situation that I don't have a lot of knowledge on. And, finding people that are trying to do the same thing as me isn't easy.

What I'm trying to do, is have a class that stores an array of values as strings internally, but allows simple type casting from the user's end. What I had planned on doing is use the array subscript operator to return whichever type they specify through a template. Although, it sounds a lot better than it works in practice. Here's a simple example of what I'm doing, to give you an idea of how it should work.

class StringList
{
    public:
    template <typename T> 
    T operator[](const int i)
}

From there, I would define a few specific templates, and any user could very easily define more if needed. But, the biggest problem with this is, I don't know how to call the subscript operator with a template. At first I assumed the following(which apparently isn't correct), considering it's similar to the standard way of calling a template method.

StringList list;
T var = list<T>[0];

Does anyone know the proper way of calling the subscript operator as a template? Or, should I just avoid doing this, and use a named method?

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I would caution against overloading operator[] for this purpose as overloaded operators are best used for when they're syntactically meaningful. You don't normally write thing like list<T>[0], and I think the extra intellectual overhead is not worth it. Why not just make a template get method and call list.get<int>(0)? –  templatetypedef Mar 31 '12 at 17:12
    
@templatetypedef I agree completely. I was more than likely going to just stick with a named function like get, considering I don't even understand how you would write a template like this. But, I am curious to find out how it would be written, regardless of whether or not I ever need to use it. –  TheCodeBroski Mar 31 '12 at 17:18

2 Answers 2

up vote 8 down vote accepted

The only way calling your operator is explicitly writing list.operator[]<T>().

There are two basic ways out:

  1. Write a function template like list.get<int>() (as proposed by templatetypedef)
  2. Return a proxy with automatic conversation to T.

The code would look like:

// in the class
struct proxy {
  proxy(StringList *list, int i) : list(list), i(i) {}
  StringList *list;
  int i;
  template <typename T>
  operator T() { return list->get<T>(i); }
};

proxy operator[](int i) { return proxy(this, i); }

template <typename T> 
T get(int i) { return ...; T(); }

// how to use it:
StringList list;
int var = list.get<int>(0);
float var2 = list[0];
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I must admit that I don't quite understand your proxy-based solution. Would you mind elaborating a bit? What is the purpose of T get(int i) { return ...; T(); }? How is proxy operator[](int i) { return proxy(this, i); } related to StringList? How does the line float var2 = list[0]; work? My rather little knowledge of advanced C++ techniques may be the reason here though. :-) –  Kuba Wyrostek Aug 7 at 9:46

I think there is no syntax to pass template parameters to the natural call of operator[]. You would probably need to call:

T var = list.operator[]<T>(0);

Like you do with normal template functions, so there is no point in using operator overload here.

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