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Do elements of arrays count as a common initial sequence?

struct arr4 { int arr[4]; };
struct arr2 { int arr[2]; };

union U
{
    arr4 _arr4;
    arr2 _arr2;
};

U u;
u._arr4.arr[0] = 0; //write to active
u._arr2.arr[0]; //read from inactive

According to this cppreference page:

In a standard-layout union with an active member of non-union class type T1, it is permitted to read a non-static data member m of another union member of non-union class type T2 provided m is part of the common initial sequence of T1 and T2....

Would this be legal, or would it also be illegal type punning?

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  • 1
    Without any argument I believe it is legal. – knivil Mar 18 '16 at 9:39
6

C++11 says (9.2):

If a standard-layout union contains two or more standard-layout structs that share a common initial sequence, and if the standard-layout union object currently contains one of these standard-layout structs, it is permitted to inspect the common initial part of any of them. Two standard-layout structs share a common initial sequence if corresponding members have layout-compatible types and either neither member is a bit-field or both are bit-fields with the same width for a sequence of one or more initial members.

As to whether arrays of different size form a valid common initial sequence, 3.9 says:

If two types T1 and T2 are the same type, then T1 and T2 are layout-compatible types

These arrays are not the same type, so this doesn't apply. There is no special further exception for arrays, so the arrays may not be layout-compatible and do not form a common initial sequence.

In practice, though, I know of a compiler (GCC) which:

  • ignores the "common initial sequence" rule, and
  • allows type punning anyway, but only when accesses are "via the union type" (as in your example), in which case the "common initial sequence" rule is obeyed indirectly (because a "common initial sequence" implies a common initial layout on the architectures the compiler supports).

I suspect many other compilers take a similar approach. In your example, where you type-pun via the union object, such compilers will give you the expected result - reading from the inactive member should give you value written via the inactive member.

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  • 1
    But the arrays are part of struct and therefore are members. – knivil Mar 18 '16 at 9:39
  • @davmac Read the question - U contains one arr4 and one arr2, while these names may be confusing, these are defined as struct just above. – Holt Mar 18 '16 at 9:52
  • @Holt yes, misread it. However, the final answer ("no") is the same. I've edited my answer above to explain why. – davmac Mar 18 '16 at 9:55
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    I think this is correct (according to the wording of the standard, that is) ;there doesn't seem to be any text saying that the common-initial-sequence rule recursively applies if the first member of each struct is itself an aggregate – M.M Mar 18 '16 at 10:01
  • @knivil I believe that for the arrays to be layout compatible, there would need to be some part of the standard text which says that they are (and there is not). Technically this means, as you suggest, that it cannot be determined whether they are layout compatible. The safest assumption, then, is that they are not. (ok, you removed your comment...) – davmac Mar 18 '16 at 10:14

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