I fixed a bug recently.

In the following code, one of the overloaded function was const and the other one was not. The issue will be fixed by making both functions const.

My question is why compiler only complained about it when the parameter was 0.

#include <iostream>
#include <string>

class CppSyntaxA
    void f(int i = 0) const { i++; }
    void f(const std::string&){}

int main()
    CppSyntaxA a;
    a.f(1);  // OK
    //a.f(0);  //error C2666: 'CppSyntaxA::f': 2 overloads have similar conversions
    return 0;

0 is special in C++. A null pointer has the value of 0 so C++ will allow the conversion of 0 to a pointer type. That means when you call


You could be calling void f(int i = 0) const with an int with the value of 0, or you could call void f(const std::string&) with a char* initialized to null.

Normally the int version would be better since it is an exact match but in this case the int version is const, so it requires "converting" a to a const CppSyntaxA, where the std::string version does not require such a conversion but does require a conversion to char* and then to std::string. This is considered enough of a change in both cases to be considered an equal conversion and thus ambiguous. Making both functions const or non const will fix the issue and the int overload will be chosen since it is better.

  • @FrançoisAndrieux Answer updated. – NathanOliver Jul 18 at 20:14
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    @FrançoisAndrieux Don't worry, compiler implementers do as well ;) – NathanOliver Jul 18 at 20:21
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    @JesperJuhl A null pointer, and nullptr are different things. A null pointer is an integer with the value of 0 along with also being a prvalue of nullptr_t. – NathanOliver Jul 18 at 20:32
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    The most infuriating part of this overload issue is that it's UB to call the constructor of std::string with a null pointer :/ – Matthieu M. Jul 19 at 7:17
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    A null pointer has the value 0? That's a new one. It's implementation-defined what value it has, though as literal 0 can be implicitly converted to any null pointer type, it therefore will compare equal. (intptr_t)(void*)0 == 0 is not guaranteed, though holds on (most?) modern platforms. @JesperJuhl Seems you got off-track with nullptr. – Deduplicator Jul 19 at 8:06

My question is why compiler only complained about it when the parameter was 0.

Because 0 is not only an integer literal, but it is also a null pointer literal. 1 is not a null pointer literal, so there is no ambiguity.

The ambiguity arises from the implicit converting constructor of std::string that accepts a pointer to a character as an argument.

Now, the identity conversion from int to int would otherwise be preferred to the conversion from pointer to string, but there is another argument that involves a conversion: The implicit object argument. In one case, the conversion is from CppSyntaxA& to CppSyntaxA& while in other case it is CppSyntaxA& to const CppSyntaxA&.

So, one overload is preferred because of one argument, and the other overload is preferred because of another argument and thus there is no unambiguously preferred overload.

The issue will be fixed by making both functions const.

If both overloads are const qualified, then the implicit object argument conversion sequence is identical, and thus one of the overloads is unambiguously preferred.

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