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I was just reading some code and found that the person was using arr[-2] to access the 2nd element before the arr, like so:

       ^------------ arr[0]
         ^---------- arr[1]
   ^---------------- arr[-2]

Is that allowed?

I know that arr[x] is the same as *(arr + x). So arr[-2] is *(arr - 2), which seems ok. What do you think?

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5 Answers 5

up vote 86 down vote accepted

That is correct. From C99 §

The definition of the subscript operator [] is that E1[E2] is identical to (*((E1)+(E2))).

There's no magic. It's a 1-1 equivalence. As always when dereferencing a pointer (*), you need to be sure it's pointing to a valid address.

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Whoever down-voted this, please explain why. –  Matthew Flaschen Aug 13 '10 at 3:35
+1 to counter stupid downvoting. –  slebetman Aug 13 '10 at 4:17
In older books the [] were referenced as a syntax sugar for pointer arithmetic. Favorite way to confuse beginners is to write 1[arr] - instead of arr[1] - and watch them guessing what that supposed to mean. –  Dummy00001 Aug 13 '10 at 14:24
What happens on 64 bit systems (LP64) when you have a 32 bit int index which is negative ? Should the index get promoted to a 64 bit signed int prior to the address calculation ? –  Paul R Oct 11 '10 at 16:02
@Paul, from §6.5.6/8 (Additive operators), "When an expression that has integer type is added to or subtracted from a pointer, the result has the type of the pointer operand. If the pointer operand points to an element of an array object, and the array is large enough, the result points to an element offset from the original element such that the difference of the subscripts of the resulting and original array elements equals the integer expression." So I think it will be promoted, and ((E1)+(E2)) will be a (64-bit) pointer with the expected value. –  Matthew Flaschen Oct 11 '10 at 22:23

This is only valid if arr is a pointer that points to the second element in an array or a later element. Otherwise, it is not valid, because you would be accessing memory outside the bounds of the array. So, for example, this would be wrong:

int arr[10];

int x = arr[-2]; // invalid; out of range

But this would be okay:

int arr[10];
int* p = &arr[2];

int x = p[-2]; // valid:  accesses arr[0]

It is, however, unusual to use a negative subscript.

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I wouldn't go so far as to say it's invalid, just potentially messy –  Matt Joiner Aug 13 '10 at 3:36
@Matt: The code in the first example yields undefined behavior. –  James McNellis Aug 13 '10 at 3:40
BSTR is a good example in windows. Any debug allocator. Nothing wrong with it. –  Hans Passant Aug 13 '10 at 4:10
It is invalid. By the C standard, it explicitly has undefined behavior. On the other hand, if int arr[10]; were part of a structure with other elements before it, arr[-2] could potentially be well-defined, and you could determine if it is based on offsetof, etc. –  R.. Aug 13 '10 at 6:35
BSTR and debug allocators both allocate space and return a pointer somewhere inside that space. This property makes a negative offset "safe" for some values of "safe". The example James gives here of arr[-2] is explicitly undefined behavior because it attempts to access a location before the beginning of arr itself. Note that even computing arr-2 without accessing the location is undefined behavior. –  RBerteig Aug 13 '10 at 9:09

Sounds fine to me. It would be a rare case that you would legitimately need it however.

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Lol, rampaging haters –  Matt Joiner Aug 13 '10 at 3:50
+1 to counter stupid downvoting –  slebetman Aug 13 '10 at 4:17
It's not that rare - it's very useful in e.g. image processing with neighbourhood operators. –  Paul R Oct 11 '10 at 15:56

What probably was that arr was pointing to the middle of the array, hence making arr[-2] pointing to something in the original array without going out of bounds.

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I'm not sure how reliable this is, but I just read the following caveat about negative array indices on 64-bit systems (LP64 presumably): http://www.devx.com/tips/Tip/41349

The author seems to be saying that 32 bit int array indices with 64 bit addressing can result in bad address calculations unless the array index is explicitly promoted to 64 bits (e.g. via a ptrdiff_t cast). I have actually seen a bug of his nature with the PowerPC version of gcc 4.1.0, but I don't know if it's a compiler bug (i.e. should work according to C99 standard) or correct behaviour (i.e. index needs a cast to 64 bits for correct behaviour) ?

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This sounds like a compiler bug. –  tbleher Sep 13 '13 at 15:46

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