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I read this claim in a forum thread linked to in a comment by @jsantander:

Keep in mind that when you assign or compare a pointer to zero, there is some special magic that occurs behind the scenes to use the correct pattern for the given pointer (which may not actually be zero). This is one of the reasons why things like #define NULL (void*)0 are evil – if you compare a char* to NULL that magic has been explicitly (and probably unknowingly) turned off, and an invalid result may happen. Just to be extra clear:

(my_char_ptr == 0) != (my_char_ptr == (void*)0)

So the way I understand it, for an architecture where the NULL pointer is, say, 0xffff, the code if (ptr), would compare ptr to 0xffff instead of to 0.

Is this really true? Is it described by the C++ standard?

If true, it would mean that 0 can be safely used even for architectures that have a non-zero NULL pointer value.


As an extra clarification, consider this code:

char *ptr;
memset(&ptr, 0, sizeof(ptr));
if ((ptr == (void*)0) && (ptr != 0)) {
    printf("It can happen.\n");

This is how I understand the claim of this forum post.

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Actually I have never seen any implementation where NULL was different from 0. – Michael Walz Apr 8 '14 at 12:32
@MichaelWalz: I've never seen a blue whale ;-) – Steve Jessop Apr 8 '14 at 12:33
@MichaelWalz FWIW, I've heard of a few (at least in C). IIRC, K&R I listed a couple. (The one I remember was a machine from Honeywell Bull, but I'm pretty sure that there were others.) – James Kanze Apr 8 '14 at 13:03
@MichaelWalz Win32s did that, because 0 is where MS-DOS has its interrupt vector: – Joker_vD Apr 8 '14 at 14:22
@sashoalm: Win32*s* was Win3.1 only. s stands for subset. – MSalters Apr 8 '14 at 21:45

4 Answers 4

up vote 34 down vote accepted

There's two parts to your question. I'll start with:

If true, it would mean that 0 can be safely used even for architectures that have a non-zero NULL pointer value.

You are mixing up "value" and "representation". The value of a null pointer is called the null pointer value. The representation is the bits in memory that are used to store this value. The representation of a null pointer could be anything, there is no requirement that it is all-bits-zero.

In the code:

char *p = 0;

p is guaranteed to be a null pointer. It might not have all-bits-zero.

This is no more "magic" than the code:

float f = 5;

f does not have the same representation (bit-pattern in memory) as the int 5 does, yet there is no problem.

The C++ standard defines this. The text changed somewhat in C++11 with the addition of nullptr; however in all versions of C and C++, the integer literal 0 when converted to a pointer type generates a null pointer.

From C++11:

A null pointer constant is an integral constant expression prvalue of integer type that evaluates to zero or a prvalue of type std::nullptr_t. 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 object pointer or function pointer type. Such a conversion is called a null pointer conversion.

0 is a null pointer constant, and (char *)0 for example is a null pointer value of type char *.

It's immaterial whether a null pointer has all-bits-zero or not. What matters is that a null pointer is guaranteed to be generated when you convert an integral constexpr of value 0 to a pointer type.

Moving onto the other part of your question. The text you quoted is complete garbage through and through. There's no "magic" in the idea that a conversion between types results in a different representation, as I discuss above.

The code my_char_ptr == NULL is guaranteed to test whether or not my_char_ptr is a null pointer.

It would be evil if you write in your own source code, #define NULL (void*)0. This is because it is undefined behaviour to define any macro that might be defined by a standard header.

However, the standard headers can write whatever they like so as the Standard requirements for null pointers are fulfilled. Compilers can "do magic" in the standard header code; for example there doesn't have to be a file called iostream on the filesystem; the compiler can see #include <iostream> and then have hardcoded all of the information that the Standard requires iostream to publish. But for obvious practical reasons, compilers generally don't do this; they allow the possibility for independent teams to develop the standard library.

Anyway, if a C++ compiler includes #define NULL (void *)0 in its own header, and as a result something non-conforming happens, then the compiler would be non-conforming obviously. And if nothing non-conforming happens then there is no problem.

I don't know who the text you quote would direct its "is evil" comment at. If it is directed at compiler vendors telling them not to be "evil" and put out non-conforming compilers, I guess we can't argue with that.

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"generates a compilation error because in C++ there is no implicit conversion from void * to another pointer type." Such a conversion is not necessary. There is a conversion from any pointer type (ignoring const for a while) to void*, so my_char_ptr gets converted to a void* and the whole right comparison is performed on void*. – R. Martinho Fernandes Apr 8 '14 at 13:02
Have fixed that, thanks. I thought it converted void * to the other type, but in fact it converts the other type to void * – M.M Apr 8 '14 at 13:03
Hats off for the float f = 5; example. The conversion of the null pointer constant is a bit special (since it is only triggered by constant expressions, and only for one special value), but it's still a lot more like what happens in the int to float conversion than anything else. – James Kanze Apr 8 '14 at 13:10
+1 for float f = 5;. Very good analogy. – borisbn Apr 8 '14 at 13:13
@sashoalm: As a possibly-silly example, you could write a C++ implementation where a pointer contains two fields: one for the address and one with some type information. Then of course a null pointer isn't all-bits-zero, and is different for every type (except cases where the standard says certain pointer types have the same representation, such as T* and T const*). In C++ you never need that information stored in a pointer, but it might help debugging or a garbage collector or something :-) – Steve Jessop Apr 8 '14 at 17:43

I think the forum post you link to is incorrect (or we have misinterpreted what it means by !=). The two sub-expressions have different semantics but the same result. Assuming that my_char_ptr really has type char* or similar, and a valid value:

my_char_ptr == 0 converts 0 to the type of my_char_ptr. That yields a null pointer because 0 is an example of a so-called "null pointer constant", which is defined in the standard. It then compares the two. The comparison is true if and only if my_char_ptr is a null pointer, because only null pointers compare equal to other null pointers.

my_char_ptr == (void*)0 converts my_char_ptr to void*, and then compares that to the result of converting 0 to void* (which is a null pointer). The comparison is true if and only if my_char_ptr is a null pointer because when you convert a pointer to void* the result is a null pointer if and only if the source is a null pointer.

The issue of whether null pointers are represented with 0 bits or not is interesting but irrelevant to the analysis of the code.

The practical danger of thinking that NULL is a null pointer (rather than merely a null pointer constant) is that you might think that printf("%p", NULL) has defined behaviour, or that foo(NULL) will call the void* overload of foo rather than the int overload, and so on.

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Re the final paragraph, at least one compiler defines NULL as something like __nullptr, a compiler built-in which parses like 0, but causes a warning if it isn't converted into a pointer type. (Or at least it did; this feature may have been removed with the introduction of nullptr.) – James Kanze Apr 8 '14 at 12:44
@JamesKanze: Useful. So as with all non-required diagnostics, the only practical danger of using that compiler is that it lulls you into a false sense of security and you expect your mistakes to be caught for you by other compilers ;-) – Steve Jessop Apr 8 '14 at 12:46
Or rather, it gets you used to writing code without that mistake. (Looking back, all of the places I've worked have required the use of NULL when we wanted a null pointer. Always recognizing that it is information for the reader, not the compiler.) – James Kanze Apr 8 '14 at 12:59
And by the way, didn't you mean printf("%p", NULL). If someone thinks that NULL has a pointer type, then they would assume that printf("%x", NULL) is undefined behavior. – James Kanze Apr 8 '14 at 13:00
@sashoalm: course not, you're allowed to change your mind when a better one comes along. – Steve Jessop Apr 8 '14 at 13:59

No, because they incidentially used the only case where it is guaranteed to work as example.
Otherwise, yes.

Although practially you probably won't ever see a difference, strictly speaking, the concern is correct.

The C++ standard requires (4.10) that:

  1. A null pointer constant (which is either an integral constant expression that evaluates to 0, or a prvalue of type std::nullptr_t) converts to the null pointer of any type.
  2. Two null pointers of the same type compare equal.
  3. A prvalue of type pointer-to-cv-T can be converted to pointer-to-cv-void, and the null pointer value will be adjusted accordingly.
  4. Pointers of derived classes can be converted to pointers of base classes, and the null pointer value will be adjusted accordingly.

This means, if you are pedantic about the wording, that the null pointers of void and char and foo_bar are not only not necessarily zero bit patterns, but also are not necessarily the same. Only null pointers of the same type are necessarily the same (and actually, not even that is true, it only says that they must compare equal, which isn't the same thing).

The fact that it explicitly says "The null pointer value is converted to the null pointer value of the destination type" signifies that this is not only an absurd, theoretical contortion of the wording, but indeed intended as a legitimate feature of an implementation.

That is regardless of the fact that the same literal 0 will convert to the null pointer of each type.

Incidentially, in their example, they compared to void*, which will work due to the above conversion rule. Also, in practice, the null pointer for every type is a zero bit pattern on every architecture that you are likely to encounter in your life (though of course, that's not guaranteed).

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"The fact ... signifies". I don't think it does signify that, because two values of different types necessarily are different values, even with the same representation. Of uint32_t to int32_t conversion you might say, "the value zero is converted to the value zero of the destination type" even though in that case they are guaranteed to have the same representation. What you say is true, though, pointer-to-object types in general aren't required in the C++ standard to all have the same size, let alone representation. – Steve Jessop Apr 8 '14 at 14:04
... I think there's something linking char* and void* but I forget the details. – Steve Jessop Apr 8 '14 at 14:06

First, I'm not sure that (charPtr == 0) != (charPtr == (void*)0) is allowed, even in C++. In both cases, you're converting a null pointer constant (0) to a pointer, which results in a null pointer. And all null pointers should compare equal.

Second, while I don't know the context of the passage you cite, you really don't have to worry about NULL being (void*)0: user code cannot legally define NULL (at least not if it includes any standard headers), and the C++ standard requires NULL to be defined as a null pointer constant; i.e. an constant integral expression evaluating to 0. (Note that despite its name, a null pointer constant cannot have a pointer type.) So it might be 0 (the more or less standard definition, since the very beginnings of C), or possibly 0L, or even (1-1), but not ((void*)0). (Of course, it might also be something like __nullptr, a compiler built-in constant which evaluates to integer 0, but triggers a warning if not converted immediately into a null pointer.

Finally: there's no requirement that a null pointer have all 0 bits, and there certainly have been cases where this wasn't the case. On the other hand, there is a requirement that comparing a null pointer to a null pointer constant will evaluate to true; it's up to the compiler to make it work. And since NULL is required to be defined as a null pointer constant, whether you use NULL or 0 is purely a question of personal preference and convention.


Just to clarify a little: the critical point involves conversion of a "null pointer constant", an integral constant expression evaluating to 0. What can surprise people is:

int zero = 0;       //  NOT a constant expression.
void* p1 = reinterpret_cast<void*>( zero );
void* p2 = 0;
if ( p1 == p2 )     //  NOT guaranteed!

The results of converting a non-constant expression which evaluates to zero to a pointer is not guaranteed to be a null pointer.

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OK, the char* part is really a problem, but I was quoting the forum post verbatim. But pretend it's void *ptr. The real point I think is that ptr == 0 could give true even if the memory occupied by the pointer is not all 0-bits. – sashoalm Apr 8 '14 at 12:47
@sashoalm: exactly. ptr == 0 doesn't mean "is my pointer all bits zero?". It means "is my pointer null?" – Steve Jessop Apr 8 '14 at 12:49
@SteveJessop Yes, and the forum post also implies that explicit conversion (void*)0 would yield an all-0-bits pointer even for architectures where the null pointer is not all-0-bits (and thus also a non-null pointer). Hence the claim that (void*)0 != 0. – sashoalm Apr 8 '14 at 12:52
@sashoalm But of course. The real point is that if ( ptr == 0 ) must be true if ptr is a null pointer (and false otherwise), regardless of how the system represents null pointers. – James Kanze Apr 8 '14 at 12:53
@sashoalm Except that (void*)0 is required to evaluate to a null pointer, by the standard. – James Kanze Apr 8 '14 at 12:53

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