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Templates used as a general code for general types .However , what does it mean that a template takes no casting ?

Given the following code :

#include <iostream>
using namespace std;

template<class T>
T max(T a,T b) {
    return (a > b ? a : b);

int main() {
    int i = 2;
    double x = 6.7;
    cout << "The maximum of " << x << " and " << i << 
    " is " << max<double>(i,x) << "\n";
    return 0;

What kind of casting can't I do ?

thanks ,Ronen

share|improve this question
What does "a template takes no casting" mean? Where did you read it? – user180326 Aug 27 '11 at 20:19
Can you explain your question more clearly? This code compiles fine, as long as you disambiguate the overload with std::max (e.g., by calling "::max<double>(i,x)"). The compiler has no problem implicitly converting the int value to double. – Jollymorphic Aug 27 '11 at 20:24
I'm reading a slide of the lecturer of a c++ course , and the following is written : "The guidelines we showed in template functions still apply: The template class must be included in the file that uses it. For each “class T”, only one type can be used when calling the function ,hence, no casting. More than one general type can be defined. For example: template<class T, class G>" – Ron_s Aug 27 '11 at 20:26
If you remove 'using namespace std;` (and explicitly use std::cout) or specify ::max<double>(i,x) this code compiles and runs just fine. – Brian Roach Aug 27 '11 at 20:30
"only one type can be used when calling the function ,hence, no casting" maybe they meant no casting was needed (as is the case) as opposed to no casting is possible as you understood?! – Shahbaz Aug 27 '11 at 23:29

You can't do this:

int i = 2;
double x = 6.7;

Because the compiler will infer the types to be int& and double& respectively, and there is no overload of that function that matches. The existing template requires two arguments with the same type.

However, if you do this:


You're telling the compiler explicitly that you want to call the specialization of max that takes two doubles. Because of this, the compiler will add an implicit conversion from int to double for the first argument. It's this conversion that cannot happen in the first example.

If max was declared like this instead:

template<class T, class U>
T max(T a,U b) {
    return (a > b ? a : b);

You could do max(i,x) again, because now it can take arguments of two different types. You would have the problem that the return type would always be that of the first argument, though, which could be undesirable.

Using some features of the new C++11 standard you can have the compiler guess the return type with something more advanced:

#include <type_traits>

template<class T, class U>
typename std::common_type<T,U>::type max(T a,U b)  {
    return (a > b ? a : b);
share|improve this answer
That was my initial thought as well but I didn't check it. It was pointed out to me that ints are implicitly converted to doubles. His code is fine and would work except for the 'using namespace std` which causes a conflict with std::max. – Brian Roach Aug 27 '11 at 20:28
@Brian: Does <iostream> declare std::max? – R. Martinho Fernandes Aug 27 '11 at 20:32
Do you mean "specialization" or "instantiation"? – Kerrek SB Aug 27 '11 at 20:33
@Kerrek: specialization. Every time you instantiate a template a specialization is generated. You're probably thinking of "explicit specialization" which is when you write a specialization with different code from the primary template. We C++ programmers usually mix these up in conversation. – R. Martinho Fernandes Aug 27 '11 at 20:35
Apparently, yes. – Brian Roach Aug 27 '11 at 20:37

This code compiles and runs just fine if you call


or remove using namespace std; and explicitly call std::cout

or ... don't overload that function.

broach@dkc-dadp01:~> g++ -o test
broach@dkc-dadp01:~> ./test
The maximum of 6.7 and 2 is 6.7

template <class T> const T& max ( const T& a, const T& b ); already exists, and is included when you do #include <iostream> (at least in the gcc I'm using). Since you're doing using namespace std; your function is ambiguous and this won't compile.

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