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Not only is this valid and doesn't give any warnings even with -Wall:

void* p = false;  // actually 'true' doesn't work here
bool b = "Hello, Boolean!";

but also this compatibility rule permits selecting an overloaded function/operator for a wrong type. Let's say you overloaded your operator << for all fundamental types and you forgot to overload the void pointer, then the compiler may select the version that takes bool, or the other way around.

So what is it that makes this compatibility rule more important than the weird (and highly undesirable) side effects with overloaded functions?

(Edit: removed all references to C, they were wrong: the conversion rules are basically the same in C.)

share|improve this question
The C language before C99 doesn't have a built-in native bool type - it's sometimes emulated via #define. Saying that "C can handle this correctly" doesn't make much sense. – In silico Nov 6 '10 at 0:32
@In silico: In C, there is a built-in _Bool type. – dreamlax Nov 6 '10 at 0:32
@dreamlax: Right. I forgot to mention that the C language prior to C99 didn't have it. However, the OP did use bool instead of _Bool, so I assumed that the OP used an emulated bool. – In silico Nov 6 '10 at 0:36
@In silico: C99 defines bool, true, and false as well, if you include the stdbool.h header. – dreamlax Nov 6 '10 at 0:41
"...and doesn't give any warnings even with -Wall" - -Wconversion should do the trick. On Microsoft platforms, /W3 and above should produce the warnings. – jww Jun 15 '13 at 1:45
up vote 6 down vote accepted

What do you mean by "C can handle this correctly"? C doesn't permit function overloading, so you are guaranteed to have the bool <-> pointer conversion you're complaining about.

Are you asking why this conversion exists?

The first is not actually a conversion bool -> pointer, but is recognizing that the literal false means 0, which is a valid pointer value. That's why it doesn't work with true, and it doesn't work with a bool variable.

The second is because it's nice to be able to write:

if (p)

instead of

if (p != 0)

to check if a pointer holds a null pointer value.

EDIT: Rules from the standard influencing T* p = false;:

A null pointer constant is an integral constant expression prvalue of integer type that evaluates to zero


Types bool, char, char16_t, char32_t, wchar_t, and the signed and unsigned integer types are collectively called integral types. A synonym for integral type is integer type.


The Boolean literals are the keywords false and true. Such literals are prvalues and have type bool.

share|improve this answer
@Mojuba, there is a pointer-to-bool conversion, and there is a bool-to-int conversion. But the compiler won't do two implicit conversions together, so you don't get a pointer-to-int conversion. Make the first conversion explicit, and you're OK: int x = (bool)ptr; – Rob Kennedy Nov 6 '10 at 1:05
@Rob Kennedy: that probably explains it best. But I still can't believe they did it just for the sake of if (p) – mojuba Nov 6 '10 at 1:30
@mojuba: Considering C++ is supposed to be able to compile code that is C, that's exactly why it is done that way. If it was not done that way, than a very very large class of C programs would not compile as C++. – Billy ONeal Nov 6 '10 at 2:11
@Johannes: Any integral constant expression that evaluates to 0 can be implicitly converted to a null pointer constant; false is a valid integral constant expression and it evaluates to 0. – James McNellis Nov 6 '10 at 3:26
@Ben C++03 does not really define what "evaluates" means. This argument requires, unless I'm missing something, that "x evaluates to y" means "x can somehow be converted to y". But then we should also be allowed to do int *p = UCHAR_MAX + 1;, because after all UCHAR_MAX + 1 converted to unsigned char is zero. – Johannes Schaub - litb Nov 6 '10 at 3:28

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