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g++ complains about

myclass.cxx:185: error: no matching function for call to 'IMyInterface::doSomething(const SomeClass*, unsigned int)'
IMyInterface.h:34: note: candidates are: virtual void IMyInterface::doSomething(const SomeClass*&, unsigned int)

when I call

m_instanceOfInterface->doSomething((const SomeClass*)0,(unsigned int)1);

Any pointers to why? It seems to me that g++ is seeing exactly the same signature between what is declared and what is being called, but still complains about no matching function found.

I can call, in the same context, another function of IMyInteface, IMyInterface::doSomethingElse(float& p). So somehow the const is the problem?

I did not pass the NULL pointer and cast a constant integer just for fun... originally I have

m_instanceOfInterface->doSomething((const SomeClass*)m_someDerivedClass,m_anInteger);

and got the same error. So I decided to clarify things with g++ by giving some explicit arguments. I can assure you that the NULL pointer is NOT the problem - although understandably we all cringed a bit when seeing a NULL being passed with const :)

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Does it work if you create the pointer before the function call? I mean const SomeClass* ptr = 0; and then m_instance->doSomething (ptr, 1) –  Nicolas Grebille Aug 31 '11 at 0:24
PS: please add the function signature (declaration in the header), it could help... –  Nicolas Grebille Aug 31 '11 at 0:25
That (i.e. creating pointer before call) solved the problem! But why g++ give such cryptic message? –  polyglot Aug 31 '11 at 0:28
There's a syntax error, you forgot a parenthesis. Also, why cast an integer? You can just say 1U. –  Kerrek SB Aug 31 '11 at 0:31
@Kerrek SB: Or just 1, period. The compiler is smart enough to know how to cast a positive int to an unsigned int. –  David Hammen Aug 31 '11 at 0:34

3 Answers 3

up vote 5 down vote accepted

The function requires its argument by non-const reference, which cannot bind to a temporary. Observe:

void foo(int, T &);
foo(1, T()); // error, cannot bind to temporary

In your case, T = SomeClass const *. So, you have provide a non-temporary:

SomeClass const * pc = 0;
m_instanceOfInterface->doSomething(pc, 1U);

Note that the purpose of this is presumably to fill pc with some meaningful value, so be sure to incorporate that apporpriately.

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The temporary problem is head-on! It seems to be a very subtle problem to watch out for... do you have more reference to why it is implemented this way in the compiler? –  polyglot Aug 31 '11 at 0:51
@Polyglot: This is really fairly straight-forward: Passing a non-const reference means that you intend to modify the object (for otherwise you could have passed a const reference). But if you pass a temporary, all changes will be lost immediately at the end of the line! While that wouldn't be strictly impossible to implement, it would just never be useful and almost always wrong, so the language forbids it. –  Kerrek SB Aug 31 '11 at 0:53
@polyglot: it's basically because the people who wrote the language thought it would be helpful for void doSomething(unsigned int &a) { a += 1; } to result in an error if you try to call it like doSomething(1); or even doSomething((unsigned int)1);. That call would modify a temporary that gets immediately discarded, and it was assumed (rightly or wrongly) that this isn't what you mean to do. It's especially error-prone since calling it like int i = 1; doSomething(i); would leave i equal to 1, whereas unsigned int i = 1; doSomething(i); would actually increment i. Bugtastic. –  Steve Jessop Aug 31 '11 at 0:56
@Kerrek: actually, binding a non-const reference to a temporary has a potential use. It would allow a function like, say, time() (or anything else with an optional out-param) to take a reference parameter instead of a pointer parameter, and you pass in a temporary instead of null when you don't care about the result, and the implementation doesn't have to special-case null or provide overloads to make the parameter formally optional. So it's only almost useless rather than never useful, and I suppose the potential use wasn't considered to outweigh the likely bugs. –  Steve Jessop Aug 31 '11 at 1:01
@polyglot: No aspect of the function signature declares anything as const. The type of the first argument is a reference to a pointer to a constant object, but that has nothing to do with the constness of the pointer itself, or of the function. –  Kerrek SB Aug 31 '11 at 1:08

Corrected to reflect comments.

The candidate does not have the exact same signature. The function takes a reference to a const pointer to a SomeClass, and you are providing a pointer. In fact, you are providing a particularly nasty pointer to the function.

One big problem here is that null pointer. You need to give the compiler something solid so it can take the reference of it. You are giving it a null pointer.

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Is it possible to have a NULL reference (non-const)? It seems in most cases where you'd attempt that, it would be a compiler error rather than undefined behavior. Perhaps I just haven't thought of anything. –  Toolbox Aug 31 '11 at 0:42
The function takes a reference to a pointer, not a pointer to a reference. –  Nicolas Grebille Aug 31 '11 at 0:43
The reason I was passing a NULL and a constant unsigned int is because g++ is giving me that error for a more legitimate call. I modified the question to include the original call. –  polyglot Aug 31 '11 at 0:44
@Toolbox: Unfortunately, yes. It is of course UB, but that doesn't mean it isn't possible. –  David Hammen Aug 31 '11 at 0:51
The problem is that it's a temporary, not that it's null. const SomeClass *ptr = 0; doSomething(ptr, 1); is allowed, even though ptr is null, assuming of course that doSomething doesn't dereference it by writing *ptr. SomeClass *ptr = new SomeClass; doSomething((const SomeClass *)ptr, 1); is not allowed, even though (const SomeClass *)ptr is not null, because the result of a cast (to non-reference type) is a temporary. –  Steve Jessop Aug 31 '11 at 1:32

Your function require a non-const reference to a pointer, not a pointer. You can't create a non-const reference from a literal (i.e. the null pointer), so the compiler is unable to call the function with the first argument being '0' and he looks for an overload taking its first argument (the pointer) by copy.

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