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I think following code should generate an error:

#include <iostream>
#include <string>

static void pr(const std::string &aStr)
{
    std::cout << aStr << "\n";
}

int main(void)
{
    const char *a = "Hellu";

    pr(a);

    return 0;
}

But gcc 4.1.2 compiles it successuflly.

Is it that the constructor of std::string get in the way, creating an instance of std::string?

I believe it shouldn't, because reference is merely an alias to a variable (in this case, there is no variable of type std::string that the reference is referring to).

Is anybody out there to explain why the code compiles successfully?

Thanks in advance.

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2 Answers 2

up vote 8 down vote accepted

Yes, given a reference to a constant, the compiler can/will synthesize a temporary (in this case of type std::string) and bind the reference to that temporary.

If the reference was not to a const object, however, that wouldn't work -- only a reference to const can bind to a temporary object like that (though at least widely used compiler allows a non-const reference to bind to a reference as well).

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Interessting facts. One is learning everyday ;). I didnt get your second sentence right though. Do you mean if the function header would be void pr(std::string &aStr) a construction of a temporary (by implying) is not possible by the standart? –  Paranaix Jul 2 '12 at 7:04
    
@Paranaix: Correct -- pr(std::string &) would not be able to accept a temporary object. –  Jerry Coffin Jul 2 '12 at 7:07
    
@JerryCoffin, then, is there any way to keep the compiler from making a temp instance? –  orchistro Jul 2 '12 at 7:16
    
@orchistro You want to call the operator<< method of the temporary object, don't you? –  harper Jul 2 '12 at 7:29
1  
@orchistro: It seems to me that the obvious answer would be to temporarily modify the functions to take references to non-const std::string, so the compiler will reject anything that tries to pass a char * or char const *. I'd probably use a typedef to make it relatively quick and easy to switch the argument type. –  Jerry Coffin Jul 2 '12 at 14:22

What you encounter is implicit conversion.

Here is a quote from the C++ Standard (SC22-N-4411.pdf)

1 Type conversions of class objects can be specified by constructors and by conversion functions. These conversions are called user-defined conversions and are used for implicit type conversions (Clause 4), for initialization (8.5), and for explicit type conversions (5.4, 5.2.9).

So the compiler just works as intended and calls the std::string constructor you mentioned.

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