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This question already has an answer here:

A have found the following snippet:

int a[100];
...
int value = 42[a];

Which appears to do exactly what a[42] does.

Is it a bogus with undefined behavior or a perfectly legal C++ code?

marked as duplicate by Jarod42, Sergey K., TemplateRex, JBL, chris Feb 11 '14 at 15:12

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    @TemplateRex: it takes time to find this kind of answers unless you already know the answer. – Sergey K. Feb 11 '14 at 15:07
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It's perfectly legal. With pointer arithmetic, a[42] is equivalent to *(a + 42), which (addition being commutative) is equivalent to *(42+ a), which (by definition of []) is equivalent to 42[a].

So it's obscure, but well-defined.

  • Just a small question: is it perfectly legal in C++ and not just in C, but still works in C++ because legacy ? – JBL Feb 11 '14 at 14:58
  • @JBL I don't see a single mention of C in the question or in my answer. This is perfectly legal C++. – Angew Feb 11 '14 at 14:59
  • Yes I know, but was just wondering. Still I found in §5.2.1/1 what I was looking for (that it's the exact same thing as it's in C). Dunno why I somehow thought it was different... My mistake. – JBL Feb 11 '14 at 15:02
  • @JBL I know why: because it is such a silly language feature that only seems to exist for clever questions and confusion. Even if you know that it came from pointer arithmatic. – stefaanv Feb 11 '14 at 15:17
  • You'll find it regularly used (in C) in the code at ioccc.org. – James Kanze Feb 11 '14 at 15:19
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The array operator is commutative.

a[n] == *(a + n) == *(n + a) == n[a]

And it's perfectly legal.

  • Does that mean a is just always treated as pointer? – Sergey K. Feb 11 '14 at 15:01
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    @SergeyK. No. It means that in some operations which are applicable to pointers, but not arrays, a is treated as a pointer. In some other operations, such as sizeof(a), or &a, it is not. @ᴍaroun ᴍaroun -- No, they are not. (in response to the deleted comment that arrays are constant pointers) – Benjamin Lindley Feb 11 '14 at 15:16
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a[i] is defined as *(a+i).

So 42[a]=a[42]; and it is perfectly safe

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42[a] is exactly equivalent to a[42], and entirely legal. It works because a pointer address is just an integer underneath, so you can do the arithmetic either way round (an array variable is really just a pointer in a thin disguise).

It's not usually a good idea for readability though, unless you're deliberately trying to obfuscate the code.

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