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Consider a simple function template:

template <typename T>
void FunctionTemplate(T t){
}

void MyFunction(){
    int a;
    FunctionTemplate(a);
    FunctionTemplate<int>(a);
}

In the first call to (FunctionTemplate(a)), the compiler works out the type which raises the question, is there any reason for the existence of the second way of calling FunctionTemplate (FunctionTemplate<int>(a)) or any compelling reasons where we could not use the first method?

Edit: My terminology my be a little off, so please edit as required.

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3 Answers 3

up vote 13 down vote accepted

Occasionally you will want to specify the template argument, even if you don't have to. Let's say your function takes an argument of type T and you have an int but you want the function to take it as a float. Then you would need to explicitly say FunctionTemplate<float>(my_int).

There are also plenty of cases where the template parameter cannot be deduced. Consider the following:

template <typename T>
T FunctionTemplate() {
  return T();
}

No matter how you call this, if you don't provide the template argument, the type of T cannot be automatically deduced. The simple reason in this case is that the calling site says nothing about what it expects the return type to be.

For the terminology: when you do not specify the template arguments, the template is implicitly instantiated; when you do specify the template arguments, the template is explicitly instantiated.

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I would choose FunctionTemplate((float)my_int) for such simple single-argument function template. Tastes vary, though! –  Ajay Mar 10 '13 at 6:11

Suppose you want to pass the function to another method as a parameter;

myAlgorithm( myFunction<int> );

Or suppose you want to guarantee a floating-point version of a function is used for speed;

myFunction<float>( 2.0 );

(forgetting to write 2.0f isn't a problem now)

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sftrabbit also raises a good case in his answer; when the return type depends on the template, but none of the parameters. –  Dave Mar 9 '13 at 19:38

A usage is forcing the compiler to use a specific version of template function:

template <typename T>
T func(T x, T y)
{
  // ...
}

int main()
{
  int x = 10;
  float y = 20;

  func(x, y); //ERROR no matching function for call to 'func(int&, float&)'

  func<float>(x, y); // OK, Uses float version of func
}
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