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In the following code, the assertion is not raised with the Visual Studio compiler, but it is raised when compiling for the iPhone using XCode:

class X

 virtual void A() {}

X x;

void main()
 // Define a valid member function pointer to X::A.
 void (X::*p)() = &X::A;

 assert(p != 0);

Is this a bug in the compiler? How else can one check for a null pointer in this case?

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@Mahesh: I don't think that answers his question. He isn't saying that the assert is causing his program to terminate when compiling for the iPhone. He's asking why the assertion isn't raised under Visual Studio. –  Cody Gray Jan 12 '11 at 6:15
@Mahesh: The problem isn't in the behavior of assert, it's that the expression being tested is evaluated wrongly by the compiler. p != 0 must evaluate to true according to the standard. –  Ben Voigt Jan 12 '11 at 6:16
main never ever returns void, always int. –  GManNickG Jan 12 '11 at 6:17
@Merlyn: assert(true) is a no-op in both debug and release modes. The expression inside is true, guaranteed by the standard. –  Ben Voigt Jan 12 '11 at 6:52

2 Answers 2

The code is correct, the compiler is out of compliance with the standard, which says (section [expr.eq], using the wording from C++0x draft n3225, but it should be the same in other versions):

any pointer to member can be compared to a null pointer constant


If both operands are null, they compare equal. Otherwise if only one is null, they compare unequal.

relevant definition of null pointer constant (section [conv.ptr], the std::nullptr_t part is new in C++0x):

A null pointer constant is an integral constant expression (5.19) prvalue of integer type that evaluates to zero or a prvalue of type std::nullptr_t.

and (section [expr.const]):

A constant expression is an integral constant expression if it is of integral or enumeration type.

NOTE: As an aside, the implementation-defined representation of pointer-to-virtual-member-function usually is an index into the virtual table, which would be 0 in the question. But according to the standard, the expression inside the assert isn't checking if the representation is zero, it's checking against a zero literal -- it is a null pointer check.

And the Apple compiler apparently mixed the two up. If you wanted to test if the representation is zero, you could write assert((intptr_t)p != 0) -- and that would be completely non-portable.

But the code as written is perfectly portable, to any standard-compliant compiler, and will never assert.

EDIT: And one more citation from the standard, which just repeats what we've already learned (section [conv.mem]):

A null pointer constant (4.10) can be converted to a pointer to member type; the result is the null member pointer value of that type and is distinguishable from any pointer to member not created from a null pointer constant.

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NULL appears nowhere in the OPs code though, or in the quoted portions of the standard -- the standard does explicitly state that an integral constant that evaluates to zero (which was used in the OP's assert) will be converted to the null pointer constant, and that's what the standard is referring to here. Not the preprocessor macro NULL. –  Josh Petrie Jan 12 '11 at 6:21
@GMan: I know that that's what effectively happens in every compiler, but is it actually defined in the C++ standard that NULL == 0? –  Mehrdad Jan 12 '11 at 6:24
@Lambert: Yes, that's what everyone is trying to tell you. I've quoted the relevant definitions from the standard in my edited answer. –  Ben Voigt Jan 12 '11 at 6:26
@Lambert: The C version (e.g. ((void*)0)) may act differently in a variable length argument list. But that's not portable, since NULL is often defined as simply 0. Many C++ experts, including Stroustrup IIRC, do just use 0 and forego the NULL macro. –  Ben Voigt Jan 12 '11 at 6:31
@Lambert: GMan didn't say anything about C++0x. I did, and I also specifically told you where C++0x changed something (the new std::nullptr_t type). –  Ben Voigt Jan 12 '11 at 6:33

The iPhone compiler gets it wrong.

Note that equality comparison between member function pointers that point to virtual functions produces unspecified result, i.e. this assertion

assert(&X::A == &X::A);

behaves unpredictably from the formal point of view.

But comparison of a member function pointers with null-pointer constant is strictly defined by the language. The pointer cannot be null in your example, so it shall not compare equal to a null-pointer constant.

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