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How can I write a function using template specialization that has 2 different input types and an output type:

template <class input1, class input2, class output>

and return the sum of the 2 numbers (integers/doubles). However, if I get 2 integers I want to return an integer type but for any other combinations of integer and double I'll always return double.

I am trying to do that without using directly the '+' operator but having the next functions instead:

double add_double_double(double a, double b) {return (a+b);}
double add_int_double(int a, double b) {return ((double)(a)+b);}
int   add_int_int(int a, int b) {return (a+b);}
share|improve this question
It seems to me you're describing the built-in operator + ? – icecrime Jan 9 '11 at 19:52
@icecrime: Suppose the question was, "how do I write a template function which has the same return type as the type of the expression a+b, a and b being its inputs"? The answer in C++0x is to use decltype and a trailing return type, but what about C++03? – Steve Jessop Jan 9 '11 at 19:57
up vote 0 down vote accepted

It is possible for the return type of a function template to depend on the types of the template parameters. In your case, you can do something similar to:

template <typename L, typename R>
struct sum_traits { typedef double return_type; };

template <>
struct sum_traits<int, int> { typedef int return_type; };

template <typename L, typename R>
typename sum_traits<L, R>::return_type
sum(L l, R r) { 
  typedef typename sum_traits<L, R>::return_type ret_t;
  return ret_t(l) + ret_t(r); 

I don't think the explicit casts to ret_t are ever actually needed in this case, but it demonstrates some more of the technique.

This handles just ints, but the idea can easily be generalized to handle more complex cases.

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Note that as you get more complex traits, you can further delegate the type calculations. – Chris Hopman Jan 9 '11 at 23:56

If you can use C++0x, you could do this:

template <typename T, typename U>
auto add(T lhs, U rhs) -> decltype(lhs+rhs)
    return lhs+rhs;
share|improve this answer
I have no idea what is that.. – user550413 Jan 9 '11 at 20:20
Read up on the changes brought about in the new C++ spec (the spec is called C++0x). In essence it is saying: the type of add() is whatever the type of (lhs+rhs) is (what "-> decltype" does), and add() returns that type (what "auto" does). Given the compiler knows what type T and U are, and assuming "+" is defined for a T + a U, then the compiler knows what type (lhs+rhs) is - because "+" is defined. So the code is telling the compiler to use that info and produce the correct output. – Eric M Jan 9 '11 at 20:29
@user550413: C++0x is the codename for the next version of C++, which will (hopefully) be finalized this year. Most modern compilers have partial support for it already. The code @Polybos posted simply defines a function where the return type is "whatever the type of lhs+rhs is". decltype evaluates to the type of the expression inside the parentheses, and auto in this context just means that the return type is specified at the end of the line, after a -> instead of before the function name. – jalf Jan 9 '11 at 20:32
C++0x allows you to define a function F which returns a value of type R as auto F(...) -> R instead of the traditional R F(...). And the reason for this new syntax is basically to allow decltype to be used in the manner shown here. – jalf Jan 9 '11 at 20:35
And this auto, and -> decltype stuff might look suspiciously like DWIM until you consider that a template function might be asked to deal with a large set of template types... without this C++0x method you'd have to write a different specialization of the template function for each case (as I did in my answer). What if there are 10 possible type for each input and 10 possible type for the output! With the C++0x approach you just have to ensure (lhs+rhs) operation is defined for each pair of types T and U... but you would have to do that with prior versions of C++ anyway. – Eric M Jan 9 '11 at 20:43

Don’t use template specialization. Use overloading instead. Specializing functions is complicated and rarely needed:

template <typename T1, typename T2>
double sum(T1 a, T2 b) { return a + b; }

int sum(int a, int b) { return a + b; }

The second version will be called if and only if both arguments are int; otherwise, the first version will be called.

share|improve this answer
long is an integer type. If I call this with two long arguments, do I get the return type the questioner wants? (Not that I know what return type the questioner wants in that case) – Steve Jessop Jan 9 '11 at 20:00
@Steve: from the question it sounded as if the OP was only interested in int, not other integer types. – Konrad Rudolph Jan 9 '11 at 20:03
@Konrad: Apparently, it enters the first sum even if I send 2 integers. – user550413 Jan 9 '11 at 20:13
@user: It doesn’t on my compiler (g++ 4.5) – I just tested. – Konrad Rudolph Jan 9 '11 at 20:20
@Konrad: Okay, I used g++ 4.0 so you may be right! – user550413 Jan 9 '11 at 20:22

This might be what you need:

#include <iostream>
using namespace std;

template <class input1, class input2, class output> output add(input1 n1, input2 n2) {
   return (output) n1 + (output) n2;

int main(int argc, char **argv) {

   cout << add<int, int, int>(1,1) << endl;
   cout << add<float, int, float>(1.1f,1) << endl;
   cout << add<int, float, float>(1,1.1f) << endl;
   cout << add<float, float, int>(1.1f,1.1f) << endl;

   return 0;


quad: > ./a.out 
Sun 09 Jan 2011 12:57:57 PM MST

quad: > 
share|improve this answer
Oops, where you see 'float' above, just imagine you actually see 'double'. – Eric M Jan 9 '11 at 20:08
Almost, but I am trying (asked to) to do that without the '+' operator. Got 3 functions instead of the '+' (See above: EDITED) – user550413 Jan 9 '11 at 20:18
Then I don't understand what you want. 'sum' means addition, yes? You will need an operator to do the addition, at least if you are dealing with integral or floating point data. – Eric M Jan 9 '11 at 20:22
Yes, but not directly. Imagine you don't have any access to the '+' operator but only to the 3 adding functions above. – user550413 Jan 9 '11 at 20:24
I dunno, man, maybe overload '-' to do addition? Why don't you have '+', was it overloaded elsewhere? – Eric M Jan 9 '11 at 20:30

The answer to your question lies in Chapter 15 of C++ templates book. This chapter has an accumulator example which addresses your question. Further down the chapter it will talk about promotion traits where it will address the problem of adding two different types and also address type promotion.

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