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union test
 int i;
 char ch;
int main()

Suppose sizeof(int)==2 and let the memory addresses allocated for t are 2000, 2001.
Then where is 20 i.e. t.ch stored - at 2000 or 2001 or depends on endianness of machine?

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I'm not sure if endian-ness has anything to do with where a union is stored... don't all union types store at the same location (i.e., at the zero offset)? (Good question though!) –  Platinum Azure Dec 27 '10 at 17:54
2001 is unlikely, since unaligned memory access is either slow or forbidden depending on the architecture. –  Alexandre C. Dec 27 '10 at 17:56
@Platinum Azure : if we simply define int a=20; then doesn't it depend on endianness where 20 is stored ? –  Happy Mittal Dec 27 '10 at 18:01
@Happy Mittal: No, because you just say that it uses two bytes (both 2000 and 2001 in your example) regardless. Now, whether the high bits (representing the 16 and 4 place) are in 2000 or 2001 DOES depend on endian-ness, but the fact remains that whichever byte contains the set bits, the other one is still unusable because it's part of the int type's storage space. –  Platinum Azure Dec 27 '10 at 18:03
@platinum Azure : Sorry I couldn't understand what do you meant by "16 and 4 place". Moreover I am saying that if I do this : int a=20; printf("%d",* (char*)&a); Then doesn't the output depend on endian-ness i.e. whether 20 is stored at 2000 or 2001 ? –  Happy Mittal Dec 27 '10 at 18:07

2 Answers 2

up vote 13 down vote accepted

The C99 standard (§ says:

The size of a union is sufficient to contain the largest of its members. The value of at most one of the members can be stored in a union object at any time. A pointer to a union object, suitably converted, points to each of its members (or if a member is a bit- field, then to the unit in which it resides), and vice versa.

(emphasis added)

The bold statement actually says that each member of the union has the same address, so they all "begin" at the same address. t, as t.ch as t.i, should be at address 2000, thus t.ch overlaps with the first byte (in address order) of t.i.

What this means in terms of "what do I get if I try to read t.i after setting t.c" in the real world depends on platform endianness, and in facts trying to read a member of a union when you wrote in another one is Unspecified Behavior according to the C standard (§, restated at §J.1.1).

What helps more to understand the endianness of the machine (at least, I think it's more straightforward to understand) is to have a union like this:

    int i;
    unsigned char ch[sizeof(i)];
} t;



and then looking what's inside the two chars at t.ch. If you are on a little-endian machine you'll get t.ch[0]==20 and t.ch[1]==0, and the opposite if you're on a big-endian machine (if sizeof(int)==2). Notice that, as already said, this is an implementation specific detail, the standard does not even mention endianness.

To make it even clearer: if you have a 2-byte int var set to 20, on a little-endian machine, dumping the memory associated to it in address-order, you'll get (in hexadecimal representation, bytes split by space):

14 00

while on a big-endian machine you'll get

00 14

The big-endian representation looks "more right" from our point of view, because in the little endian representation the bytes that make the whole int are stored in reverse order.

Moreover I am saying that if I do this:

int a=20;
printf("%d",* (char*)&a);

Then doesn't the output depend on endian-ness i.e. whether 20 is stored at 2000 or 2001 ?

Yes, here it does, but in your question you're asking another thing; this looks more my example.

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Thanks Matteo. Actually you and Platinum Azure are saying opposite things, so I was confused. –  Happy Mittal Dec 27 '10 at 18:34
@Happy Mittal: As I explained in my latest comment but this, I was using your old comment which had an int-to-char conversion. The fact remains: a sixteen-bit number represented by the literal 20 is still stored in BOTH bytes, no matter what endianness your architecture uses. It's just that one byte or the other will be zero. If you were to store a number like 257, both bytes will be non-zero. –  Platinum Azure Dec 27 '10 at 18:49

test would take two bytes, and so would be allocated at address 2000, 2002, etc. And any value for each instance of the union would be stored starting at that base address.

Each member of the union would be stored at the same address for that instance of the union. That's why you can only store one type of value in a union at the same time. Therefore, unions occupy the number of bytes required for the largest member.

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