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#include <iostream>

using namespace std;

     template <typename T> void compare(const T&, const T&){
     void compare(const char*, const char*){

        cout<<"const char*"<<endl;

int main()

     char a[]="123";

     char b[]="123";

     char *p1 = a, *p2 = b;

    return 0;

the result is: T

but why? after instantiation the template function may be so:

compare(const char*&, const char*&)

is the same as ordinary function. and the ordinary function should be called!

share|improve this question
but why compare(const char*&, const char*&) is the exact match?? – hu wang Aug 2 '12 at 11:21
up vote 2 down vote accepted

This is why I think writing T const& is superior to writing const T&.

The template function is instantiated with the signature void(char* const&, char* const&) which is a better match than void(char const*, char const*), as it requires no conversions of the pointers from char* to char const*.

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"writing T const& is superior to writing const T&.". But in this case, it shouldn't make any difference. – Nawaz Aug 2 '12 at 11:26
@Nawaz It does make a difference. It led the OP to the wrong conclusion: char* const& is not the same as const char*& ( – R. Martinho Fernandes Aug 2 '12 at 11:33
@Nawaz: It reduces confusion if you erroneously think that the template argument would be simply pasted into the expression, giving const char*&. – Mike Seymour Aug 2 '12 at 11:33
why void(char* const&, char* const&) requires no conversions of the pointers from char* to char const* ? – hu wang Aug 2 '12 at 11:33
@huwang: The const is applied to the type T, whether you write const T& or T const&. In this case, T is instantiated as char*, so the const applies to the pointer, not its target. That means the function parameter types are char* const&, not char const *&. If you follow the guideline of always putting const after the type it refers to, then this confusion won't arise. – Mike Seymour Aug 2 '12 at 11:56

T is deduced as char *, which gives an exact match. For the other overload, you'd have to say,

 compare(static_cast<char const *>(p1), static_cast<char const *>(p2));

to make it a better match.

(Or just declare p1 and p2 as char const * in the first place.)

share|improve this answer
and compare(const char*&, const char*&) don't need converting? – hu wang Aug 2 '12 at 11:24
@huwang your assumption is wrong. It's not compare(const char*&, const char*&). – R. Martinho Fernandes Aug 2 '12 at 11:29
@huwang: The char* argument instantiates the template with T=char*, taking char* const& arguments. Even though you put the const before T rather than after it, it still applies to the template argument type (char*), not to the pointer target type (char). – Mike Seymour Aug 2 '12 at 11:31
@huwang: An lvalue of type U binds to a U& on the nose. – Kerrek SB Aug 2 '12 at 11:35

Assigning a, and b to const's will not make them const's, that may be the source of confusion. How you declare them is the more important part. I believe you'd need to declare them as Kerrek SB said, to get what you're after...

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