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I have this class:

class MyClass {


        int operator[](const std::string&);
        const std::string& operator[](const int&) const;


It works greatly, however, if i call the second operator w/ const literal 0:

MyClass myclass;
std::cout << myclass[0] << std::endl;

I got this error:

In function 'int main()':
ambiguous overload for 'operator[]' in 'myclass[0]'
note: candidates are:
note: const int MyClass::operator[](const string&)|
note: const string& MyClass::operator[](const int&) const

I guess i understand what's the situation (0 can be either a string or int?), but my question is: is there any way to resolve this and keep the operator overloading?

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Why bother with const int&? Just take an int. –  Pubby Dec 20 '12 at 19:37
The string version matches because a const literal zero can be implicitly cast to a null const char* pointer and from there to std::string. Still thinking about how to avoid this. –  aschepler Dec 20 '12 at 19:41
I'm surprised that these are considered equal rank conversions. –  Joseph Mansfield Dec 20 '12 at 19:42
Returning const int is weird (and meaningless). –  Carl Norum Dec 20 '12 at 19:44
@sftrabbit: It's beacause of the const qualification on the instance. Without it one would be a better overload. –  Kerrek SB Dec 20 '12 at 19:44

3 Answers 3

up vote 6 down vote accepted

Calling MyClass::operator[](const std::string&) involves converting:

myclass from MyClass& to MyClass&: perfect match

0 from int to const char* to std::string: user-defined conversion

Calling MyClass::operator[](const int&) const involves converting:

myclass from MyClass& to const MyClass&: const qualification

0 from int to int: perfect match

In a situation like this, when one overload is "better" for argument X but a different overload is "better" for argument Y, neither overload can be considered the best overload, and the compiler must complain (assuming no third overload beats both).

Is it possible to change the two overloads to be both const or both non-const? If not, you could add a third overload to handle this sort of situation:

const std::string& operator[](int n) {
    return static_cast<const MyClass&>(*this)[n];
share|improve this answer
const qualification conversion is a standard conversion, while string(0) is a user-defined conversion, so there is no ambiguity. –  Gene Bushuyev Dec 20 '12 at 19:59
Thanks! As i mentioned in my comment to Kerrek's answer, i changed the second overload to be non-const, and it worked. –  WonderCsabo Dec 20 '12 at 19:59
@GeneBushuyev: Only ICS-es for the same argument are compared. The ambiguous overload error is correct. –  aschepler Dec 20 '12 at 20:00

0 cannot be a string, but it can be a pointer which means it can be implicitly converted to a string. Note that this isn't true of other constant integrals, like 1 or 42 -- just 0 specifically.

4.10 Pointer Conversion

1/A null pointer constant is an integral constant expression (5.19) rvalue of integer type that evaluates to zero. A null pointer constant can be converted to a pointer type; the result is the null pointer value of that type and is distinguishable from every other value of pointer to object or pointer to function type. Two null pointer values of the same type shall compare equal. The conversion of a null pointer constant to a pointer to cv-qualified type is a single conversion, and not the sequence of a pointer conversion followed by a qualification conversion (4.4).

So, in the case of myclass[0], 0 can be either an int, or ` null pointer constant.

The Standard also dictates that std::string has a non-explicit constructor which takes a char pointer:

size_type find_last_not_of (const charT* s, size_type pos = npos) const;

Now, since your operator& methods both take parameters of const reference type, they can be passed temporaries. This is why the compiler is confused -- it doesn't know which one you want -- the one that takes an int, or the one that takes a temporary string constructed via string(const char*).

As for how to solve this problem, I'd take a step back. It seems to me that your two operator[] functions do distinctly different things. Or perhaps they do the same thing, given different inputs. If they do different things, then I would provide member functions that have different (appropriate) names, and skip trying to use the operator[] syntax. Perhaps one of those methods returns something that really is indexed -- in that case, I'd use the operator[] syntax for that one, but only that one.

If they do actually do the same thing, and that thing is to return an item by index, then I would provide only one method for this, and have it take a size_t by value. You can then also provide some kind of conversion function (preferably in the form of a free, non-member function) that converts from, say, a string to a size_t. Doing this, you can write your code like this when indexing by string:

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The literal 0 is special. Apart from being an octal constant, it can also be converted into a null pointer of any pointer type. That makes 0 viable for the char const *-constructor of std::string.

The reason that neither overload is better is because the int overload of the operator has the const instance CV qualifier. That way, both overloads require a conversion and are equally bad.

The obvious workaround is to be explicit about wanting the const overload:

static_cast<MyClass const &>(myclass)[0]
share|improve this answer
Thanks! For now, i just removed the const CV qualifier as a workaround. –  WonderCsabo Dec 20 '12 at 19:49
@Pete Becker - you are correct, I withdrew my answer. –  Gene Bushuyev Dec 20 '12 at 20:27
For those who are confused, there are two arguments: the this pointer and the argument that goes inside the parentheses. The first version of the operator requires no conversion for the first argument, and an int-to-pointer conversion followed by a user-defined conversion for the second argument. The second version of the operator requires a const-conversion on the first argument, and no conversion on the second. So the first version is better on the first argument, and the second version is better on the second argument. Since neither is the same or better for all arguments, it's ambiguous –  Pete Becker Dec 20 '12 at 20:48

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