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This question already has an answer here:

What does ((struct name *)0)->member) do in C?

The actual C statement I came across was this:

(char *) &((struct name *)0)->member)
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marked as duplicate by 2501, mu is too short, rkosegi, Burkhard, Peter Mortensen Feb 1 at 20:49

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

So, many, duplicates . – 2501 Feb 1 at 17:48
And its (undefined) behavior:… – 2501 Feb 1 at 19:31
I'm not actually looking to learn about offsetof() here. I'm specifically interested in knowing how the given statement works. It's not a duplicate IMHO – krisharav Feb 1 at 20:32
Asking how offsetoff and your code works is the same. In any case, one of the duplicates answers just that. – 2501 Feb 1 at 20:41
up vote 25 down vote accepted

This is a trick for getting the offset of struct's member called member. The idea behind this approach is to have the compiler compute the address of member assuming that the structure itself is located at address zero.

Using offsetof offers a more readable alternative to this syntax:

size_t offset = offsetof(struct name, member);
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nice! thanks for pointer to wiki page as well. that didn't show up on Google:) – krisharav Feb 1 at 16:58
But isn't it undefined behavior to dereference a null pointer ? – machine_1 Feb 1 at 17:03
you are not de-referencing it actually. Merely obtaining the addres. – krisharav Feb 1 at 17:10
great answer. unrelated, but are you the blinkenlight? creator of the telnet server? – Woodrow Barlow Feb 1 at 17:18
@machine_1 It is actually undefined behavior, and as Andrew points out, that's one very good reason to use offsetof instead, which is the standard way to do it. If we take one step away from the spec, and explore compiler specific behavior, many compilers will implement this undefined behavior in a way that does what you intended. In fact, on many compilers, offsetof is actually defined in this way (compilers can always use compiler specific behavior in their implementations). It's a common enough pattern that the implementation has "leaked" out into the open, and people use it as... – Cort Ammon Feb 1 at 19:53

(struct name*)0 gives you a struct pointer.

((struct name*)0)->member gives you the member of the struct where the pointer points to.

Adding & gives you the address of that member, and lastly

(char *) is to cast the obtained address to a char pointer.

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(struct name *)0 is casting 0 to pointer to struct name.
&((struct name *)0)->member) is getting the address of member member.
(char *) &((struct name *)0)->member) is casting that address to char *.

In case anyone thinks that the above expression is dereferencing a NULL pointer, then note that there is no dereferencing here. It's all for getting the address of member number.

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Is (struct name *)0 the same as &struct name + 0? – Cool Guy Feb 1 at 17:17
@CoolGuy -- no, because &struct name isn't legal C as you can't take the address of a type. – LThode Feb 1 at 17:26
How is casting 0 to anything legal? 0 is an integer not a null bit, right? You can just cast 0 or 7 or '\n'to random struct pointers? – user1717828 Feb 1 at 19:45
@user1717828; Its valid. You can cast them to any pointer type but beware of accessing them. – haccks Feb 1 at 19:53

On many compilers, the above expression will yield a char* which, while it isn't a valid pointer, has a one or both of the following properties:

  1. Casting the pointer directly to an integer type will yield the displacement of the indicated member within the structure.

  2. Subtracting (char*)0 from the pointer will yield the displacement of the indicated member within the structure.

Note that the C Standard imposes no requirements with regard to what may happen if code forms an invalid pointer value via the above means or any other, even if the code makes no attempt to dereference the pointer. While many compilers produce pointers with the indicated qualities, such behavior is not universal. Even on platforms where there exists a clear natural relationship between pointers and integers, some compiler vendors may decide that having programs behave as implied by such a relationship, it would be more "efficient" to instead have the compiler to assume that a program will never receive inputs that would cause the generation of invalid pointers and, consequently, that any code which would only be relevant if such inputs were received should be omitted.

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