# a function template having a return type, which cannot be deduced from arguments

A summation of the Explicit Template Argument Specification

``````template<class T>
T max(T t1, T t2)
{
if (t1 > t2)
return t1;
return t2;
}
max<double>(120, 14.55);   we explicitly determine the type of T as double
``````

## I understand the part above.

Below , it is a bit different

`````` template<class T>
T SumOfNumbers(int a, int b)
{
T t = T(); // ???

t = T(a)+b;  //???

return t;
}
``````

Which takes two ints, and sums them up. Though, summing them in int itself is appropriate, this function template gives opportunity to calculate the sum (using operator+) in any type as required by caller. For example, the get the result in double, you would call it as:

``````double nSum;
nSum = SumOfNumbers<double>(120,200);    //  ???
``````

I understand the topic "Explicit Template Argument Specification". But , here the condition is different , bcs function template's arguments' types are already is definite.

I can't understand the lines before the sign "???" ?

Could you please explain it to me step by step ? What does happen at this line

``````nSum = SumOfNumbers<double>(120,200);
``````

Does 120 converted 120.0 namely from int to double ?

What T(a) ? What does it mean?

-

``````T t = T();
``````

Initialises `t` by value-initialisation. For built-in arithmetic types, it is given the value zero; for user-defined types, it is initialised using the default constructor.

(Pedantically, it's initialised by copying or moving a value-initialised temporary, so this will fail if no copy or move constructor is available; in practice the copy or move will be elided).

``````t = T(a)+b;
``````

Converts `a` to type `T`, adds `b` to that converted value, and assigns the result to `t`. If `T` is a built-in type, then `T(a)` will use a standard conversion or cast; if it's user-defined, then it will use a constructor of the form `T(int)`.

There's no point to the first line, since `t` is going to be reassigned immediately. The function could be written more clearly as `return T(a)+b;`

``````nSum = SumOfNumbers<double>(120,200);
``````

This instantiates the function template with a return type of `double`, and calls. The overall effect is the same as `nSum = double(120) + 200;` or `nSum = 220.0`.

-
``````T t = T(); // This creates a new object of type T inefficiently though, I think it actually creates a temporary one and then calls the copy-constructor.
`T(a)` calls the constructor of `T` taking an `int` as a parameter.