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I have seen this complex declaration of sizeof operator somewhere in book which is teasing me ---->

   #define SIZEOF(int)  (int)&((int *)0)[1]

Can any one explain this declaration, whats going on here...?

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Please give the name/author of the book so that others may avoid it. – Paul R Jun 3 '12 at 11:32
reminds me of what I used to find in this book:… – Levon Jun 3 '12 at 11:33
Why tagged as C++ ? – iammilind Jun 3 '12 at 11:40
I suspect that what actually appears in the (probably also suspect) book is more like: #define SIZEOF(T) (int)&((T *)0)[1] – Paul R Jun 3 '12 at 11:46
up vote 6 down vote accepted

Here it is with the [1] part 'expanded':

(int)(&(*(((int*)0) + 1)))

Now do you see how it works?

The 0 will increase by the sizeof int due to the properties of pointer arithmetic and the final int cast is getting you the value of the resulting address which is the 'size'.

It's totally undefined behavior though (the arithmetic on null and possibly the dereference of invalid pointer), fairly pointless.

The update with the macro parameter doesn't make much sense. The final cast should probably be std::uintptr_t.

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+1 for specifying it's undefined behavior. – Luchian Grigore Jun 3 '12 at 11:38
Note that int is the macro parameter – Paul R Jun 3 '12 at 11:40
@PaulR Yep, which will lead to hilarious fun when SIZEOF(struct foo) is called. – Daniel Fischer Jun 3 '12 at 11:42
@PaulR Ah, seems the question was edited. The macro makes even less sense now. – Pubby Jun 3 '12 at 11:43
So for example, a conforming implementation could use the max value of a pointer as its null pointer, and chuck a hardware fault if pointer arithmetic overflows. Not that any implementation ever will, so you'd sort of expect this to work (especially on an implementation that implements offsetof in the usual way). Still it's true to say that it's UB. I'm pretty sure that #define SIZEOF sizeof would be more portable :-) – Steve Jessop Jun 3 '12 at 14:27

First -- it's confusing things with the term int -- we naturally assume that to be the keyword of a familiar type, however in this case it's not -- instead, it's the argument to the macro. So to simplify, consider the macro as follows:

#define SIZEOF(type)  &((type *)0)[1]

Now looking at it this way, it's perhaps easier to see that the macro is first casting address 0 to be a pointer to type, and then it's taking the address of the second element. This will reveal the size.

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Nice that you spotted the confusing argument name! – Emil Vikström Jun 3 '12 at 11:38
+1 for pointing out the confusing use of int as a macro parameter - the other answers posted so far have not spotted this – Paul R Jun 3 '12 at 11:39

It defines SIZEOF as the size of an integer.

  • (int *)0 is an int pointer at address zero
  • [1] accesses the next integer after that one.
  • Since (int *)0 has the address zero, the one after it has the address sizeof int as it comes right after the previous one.
  • (int) casts it to a number since a size is a number, not a pointer.

Obviously it's a nasty hack, one should simply use sizeof int.

share|improve this answer
Note that int is the macro parameter – Paul R Jun 3 '12 at 11:40
It wasn't until after the OP edited his question. – ThiefMaster Jun 3 '12 at 12:43
@ThiefMaster the pre-edit was #define SIZEOF (int)&((int *)0)[1]. I believe that in this case, int is still the macro parameter, but the spacing of the line makes it less obvious. Am I right, or is there some special rule about spacing in macro definitions? – mah Jun 3 '12 at 15:29
I guess after whitespace the macro itself begins. – ThiefMaster Jun 3 '12 at 15:43

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