From what I understand, in the following code, explicit A(int a) should prevent A b('g'); to use the int constructor:

#include <iostream>

class A
        int x;
        char *y;

        A() : x(0) {}
        explicit A(int a) : x(a) { std::cout<<"INT\n"; }
        A(char *b) : y(b) { std::cout<<"C STRING\n"; }

int main()
    A a(5); /// output: "INT"
    A b('g'); /// output: "INT"
    A c("Hello"); /// output: "C STRING"

However, A b('g'); uses the int constructor... Why?

Also, another question: If I write A(const char *b) instead of A(char *b), it gives me the following error: invalid conversion from 'const char*' to 'char*' [-fpermissive]. Why can't I convert a const char* to char*?

  • 2
    Because that's what the standard requires. Given A b('g') the compiler looks for a constructor call that involves no more than a single implicit conversion of the char (i.e. 'g'). It finds no constructor that accepts a char (by either value or const reference) but does find the constructor that accepts an int. A single implicit conversion can be used to convert from char to int, so the compiler converts 'g' to int, and then calls the constructor that accepts an int. – Peter Aug 9 at 11:31
  • Yes, but shouldn't the explicit keyword avoid that by not allowing any implicit conversions? – H-005 Aug 9 at 12:02
  • @H-005 No, it only affects the user-defined conversion function which is marked as explicit, like A::A(int) in your code. It won't affect standard conversion like char to int. – songyuanyao Aug 9 at 12:33
  • The explicit keyword means that A x = 2 or A y = 'g' will fail, but A x(2) and A y('g') will not. It has nothing to do with implicit conversions (like converting 'g' from char to int) affecting the choice of which constructor will be invoked. – Peter Aug 9 at 14:56

The explicit keyword prevents implicit conversion from int to A. However, it doesn't affect the possibility of char to int conversion when calling A constructor directly.

In other words, explicit only affects conversion to your class A but it doesn't affect any possible conversions of constructor parameters.

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You're using direct initialization, which does consider explicit constructors.

Direct-initialization is more permissive than copy-initialization: copy-initialization only considers non-explicit constructors and non-explicit user-defined conversion functions, while direct-initialization considers all constructors and all user-defined conversion functions.

Given A b('g');, 'g' is an char and could convert to int implicitly, then A::A(int) is called to initialize the object.

On the other hand, copy initialization like A a = 5; and A b = 'g'; won't work.

In addition, the implicit conversion in copy-initialization must produce T directly from the initializer, while, e.g. direct-initialization expects an implicit conversion from the initializer to an argument of T's constructor.

And about

Why can't I convert a const char* to char*?

const char* can't convert to char* implicitly. You can use const_cast, but note that it's dangerous, e.g. attempting to modify a string literal results in undefined behavior.

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