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So, there is this little trick question that some interviewers like to ask for whatever reason:

int arr[] = {1, 2, 3};
2[arr] = 5; // does this line compile?
assert(arr[2] == 5); // does this assertion fail?

From what I can understand, a[b] gets converted to *(a + b) and since addition is commutative it doesn't really matter their order, so 2[a] is really *(2 + a) and that works fine.

Is this guaranteed to work by C and/or C++'s specs?

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This was mentioned in Hidden features of C++. –  erickb Feb 22 '11 at 2:18
@erickb - This question specifically asks if this is an (extremely popular) implementation fluke or if this is mandated by the standard. –  Chris Lutz Feb 22 '11 at 2:21
In this specific case, you'll get an error about a being undefined (since your declaration declares arr, not a), but I think everyone understands what you're actually asking... –  Chris Dodd Feb 22 '11 at 2:41
@Chris Indeed. :) –  NullUserException Feb 22 '11 at 2:43
You can even get crazy with string pointers. "abcd"[1] is 'b'. Or for you 1["abcd"]. –  Graham Perks Feb 22 '11 at 2:46
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2 Answers

up vote 15 down vote accepted

Yes. paragraph 1 (C99 standard) describes the arguments to the [] operator:

One of the expressions shall have type "pointer to object type", the other expression shall have integer type, and the result has type "type". paragraph 2 (emphasis added):

A postfix expression followed by an expression in square brackets [] is a subscripted designation of an element of an array object. The definition of the subscript operator [] is that E1[E2] is identical to (*((E1)+(E2))). Because of the conversion rules that apply to the binary + operator, if E1 is an array object (equivalently, a pointer to the initial element of an array object) and E2 is an integer, E1[E2] designates the E2-th element of E1 (counting from zero).

It says nothing requiring the order of the arguments to [] to be sane.

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Ah, this is exactly what I was looking for. –  NullUserException Feb 22 '11 at 2:21
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In general 2[a] is identical to a[2] and this is guaranteed to be equivalent in both C and C++ (assuming no operator overloading), because as you meantioned it translates into *(2+a) or *(a+2), respectively. Because the plus operator is commutative, the two forms are equivalent.

Although the forms are equivalent, please for the sake of all that's holy (and future maintenance programmers), prefer the "a[2]" form over the other.

P.S., If you do get asked this at an interview, please do exact revenge on behalf of the C/C++ community and make sure that you ask the interviewer to list all trigraph sequences as a precondition to you giving your answer. Perhaps this will disenchant him/her from asking such (worthless, with regard to actually programming anything) questions in the future. In the odd event that the interviewer actually knows all nine of the trigraph sequences, you can always make another attempt to stomp them with a question about the destruction order of virtual base classes - a question that is just as mind bogglingly irrelevant for everyday programming.

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+1 but in C++ you can use #define ARRAY_SIZE(a) (sizeof(a) / sizeof(0[a])) as a macro to find an array's size that won't (and can't be made to) work for std::vector and types that overload the [] operator - which can't prevent int *a = /*something*/; ARRAY_SIZE(a) but can be pretty safe for anything else. (It's the only useful use of 0[a] I've ever seen) –  Chris Lutz Feb 22 '11 at 2:19
@Chris, I added an addendum re: operator overloading. Thanks for your contribution. –  Michael Goldshteyn Feb 22 '11 at 2:20
+1 For the exacting revenge part. –  NullUserException Feb 22 '11 at 2:21
In C++ you can also template<typename T, size_t N> size_t ARRAYSIZE(T (&a)[N]) { return N; } which does prevent int *a = /*something*/; ARRAYSIZE(a). –  Logan Capaldo Feb 22 '11 at 2:30
holy ? a[2] : 2??(a??) –  Tony D Feb 22 '11 at 3:31
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