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I have a fairly simple class that looks like this:

class Person {

        Person(string name): _name(name) {};

        void greet(const Person& person) const {
            cout << "Hello, " <<  person._name << "!" << endl;

        string _name;

Note that the greet method takes a parameter of the Person type. When I pass it a Person object, it works as expected. Now let's pass it a string as a parameter in this way:

Person maher("maher");

When trying to run that code in QT (on a machine running ubuntu), it generates the following error: no matching function for call to ‘Person::greet(const char [4])’

I was able to resolve this error by casting the string in this way: maher.greet(string("sam"));

My question is the following: Why can't c++ 'see' that I'm passing a string to the greet method? Does it have anything to do with the fact that the greet method accepts a Person object?

share|improve this question
"sam" is not a std::string – David Heffernan Sep 10 '11 at 15:10
up vote 6 down vote accepted

maher is a const char[6], and sam is a const char[4], and both decay to const char * implicitly, but none of them is actually a std::string.

In function calls, the C++ standard allows an implicit conversion to be performed if there's a non-explicit constructor of the target type that accepts the type of the actual value passed to the function.

This is what happens when you call the constructor: you pass a const char[6], which automatically decays to a const char *; the target type is std::string, which has a constructor that accepts a const char *; such constructor is called, and the Person constructor correctly receives his std::string parameter.

In the second case, this is not happening: Person does not have a constructor that accepts a const char *, but only a constructor that accepts a std::string. To reach the desired Person type the compiler would have to first convert the const char * to std::string, and then call the Person constructor. This double conversion is not allowed, mainly because overloading resolution would become a complete mess (which already is) with lots of ambiguous cases.

If you want to allow greet to be called with a C-style string you should either:

  • create a constructor for Person which accept a C-style string (const char *), so that it can be constructed directly from a const char *, without going through the prohibited extra conversion

  • create another overload for greet to accept an std::string.

On the other hand, IMO the cleaner alternative is just leave it as it is; the caller will just have to write

share|improve this answer
Thanks to everyone who answered. I'll accept this answer because it has the most explanation to the origin of the problem. – Maher4Ever Sep 10 '11 at 15:21

You aren't passing a std::string, you are passing a C-style string with type const char*. Add a constructor for that too:

Person(string name): _name(name) {};
Person(const char *name): _name(name) {};

Note that while const char* automatically can convert to std::string, in this case that would mean 2 conversions (const char * > std::string > Person), which is not allowed.

share|improve this answer

This requires two conversions:

  • First, const char[4] to std::string so that Person(string) can be called.
  • Then std::string to Person so that greet(const Person&) can be called.

But chain conversion is not allowed.

So you either provide a constructor Person(const char*), or pass std::string to avoid first conversion (listed above):

  • If you provide a constructor Person(const char*), then const char[4] will directly convert to Person which then will be passed to greet().
  • But if you pass std::string to greet(), then std::string will convert to Person using the existing constructor in your code, and then the person object will be passed to greet() eventually.

In both cases, there is only one conversion.

Or, simply write:

//convert const char[4] to std::string manually.
share|improve this answer

It absolutely does "see" that you're passing a string and that's the problem. You don't have a method that accepts a string as input.

share|improve this answer
It would compile if a string was passed. – David Heffernan Sep 10 '11 at 15:12
The method accepting a string is there all right. He's just not passing one, but a C-style string instead ... (Put more easily understandable: That depends on your your definition of the word «string», and std:: string probably wins that contest for a lot of us.) – Christopher Creutzig Sep 10 '11 at 15:14
I was referring to the greet() method. The only version takes a Person&, not a "string." And just to be sure, I tried to compile it and it fails as I expected with: error C2664: 'Person::greet' : cannot convert parameter 1 from 'const char [4]' to 'const Person &' – Carey Gregory Sep 12 '11 at 23:35

Does it have anything to do with fact that the greet method accepts a Person object?

You can pass a string to greet() method because there is a constructor in your Person class which constructs a Person object through the string that is passed to it.

Passing a char[4] requires the char[4] to a string object first ant then apply the above mentioned conversion. This chaining of conversions is not allowed and hence.

share|improve this answer

You could override the method to accept a string.

void greet(const string name) const {
    cout << "Hello, " <<  name << "!" << endl;
share|improve this answer
Creating a new person and doing nothing with the pointer but passing it to a function is a memory leak. You must not do that in C++. What's more, it would not work, as greet takes a reference, not a pointer. You'd need maher.greet(*(new Person("sam"))). — What you can do (safely, in fact) is maher.greet(Person("sam"));. – leftaroundabout Sep 10 '11 at 15:15
Of course you're right - sorry about that. – Nornagest Sep 10 '11 at 15:18
@Nornagest: if you don't want to get more downvotes for the memory leak you should either fix it or delete the answer. – Matteo Italia Sep 10 '11 at 15:23
Thanks for the advise, I fixed it. I wasn't sure if this was the correct way, since it takes leftroundabouts comment out of context. – Nornagest Sep 10 '11 at 15:41

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