Sign up ×
Stack Overflow is a community of 4.7 million programmers, just like you, helping each other. Join them; it only takes a minute:

Possible Duplicate:
Accessing arrays by index[array] in C and C++

I have recently found out something that I had never seen before in C (and C++) in that for accessing the contents of an array you can use x[n] or n[x]

So for example x[3] is the same as 3[x]

So my first question is how does this work and is there anything using the 2nd syntax that is useful (apart from confusing me)?

share|improve this question

marked as duplicate by Paul R, Lundin, fredoverflow, David Heffernan, PlasmaHH Jan 23 '12 at 10:43

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

I couldn't find any examples when I did searches but I guess my way of searching wasn't very useful in this case unfortunately :-( – Firedragon Jan 23 '12 at 10:14
Also, check the C FAQ. – Lundin Jan 23 '12 at 10:21

5 Answers 5

up vote 8 down vote accepted

x[n] is *(x + n)


n[x] is *(n + x)

so the expressions are equivalent. There is nothing beneficial in using the second.

share|improve this answer
In most C++ code, x[n] is x.operator[](n). And n[x] is illegal. – James Kanze Jan 23 '12 at 9:58

Array notation in C simply means 'base address' plus 'offset'. If you think about it, adding the numbers the other way around comes to precisely the same result, so it Just Works.

Note that, in C, it's illegal to add two pointers together; you can only add a pointer and an integer type (such as size_t or offset_t, or just plain int). This means the compiler always knows what the type is, and therefore how to access it.

In fact, there's no need to use the array notation at all. You could just as well say:

*(base + offset)


*(offset + base)

As for what it's useful for .... not much really. Don't do it; it's confusing! ;)

share|improve this answer
Thanks for the explanation. I know about the pointer notation as you have shown but I think sometimes doing it like an array makes it clearer to read but it's just reconfirming what I knew about C (and C++) in that you can do things in many ways and make for some highly confused code if you feel like it. But then I think there are competitions to do that sort of thing :-) – Firedragon Jan 23 '12 at 9:58

No, they mean exactly the same thing. Its like: a + b is the same as b + a. Commutativity. No difference at all. using n[x] is not considered a good programming practice, though, because the code becomes less readable.

share|improve this answer
Have you tried it? Something like int 3[x];, for example? – James Kanze Jan 23 '12 at 10:02
@JamesKanze Compiler doesn't convert int 3[x]; into int *(3 + x) So it should be a compiler time error. Additionally if compiler converts int 3[x]; into int *(3 + x); then it will be syntax error because in expression int *(3 + x);, * should be interpreted as multiplication operator and error must be int must be a identifier or missing identifier.-- But very nice comment, thanks to show that 3[x] == x[3] not always. – Grijesh Chauhan Jul 12 '13 at 19:20
The post I was responding to said that n[x] meant exactly the same thing as x[n]. I simply pointed out a case where this was not true. – James Kanze Jul 13 '13 at 17:20

Well in C and C++ the expression


is simply just a shorthand notation for


and since addition is commutative it is true that

*(x+n) = *(n+x)

and thus


The only immediate meaningful use for this syntax (other than to confuse you) that comes to my mind is that this kind of arithmetic with the index operator only works with its predefined application to pointers. I.e. that basically means whenever you see an expression like 4[p] you will absolutely know that you are dealing with the predefined index operator and never with an overloaded operator[] from some class type. However, this is probably used best when conversation is starting to lag at a party than in real production code.

share|improve this answer
I don't know if you'd consider it "production code", but it's common in IOCCC. – James Kanze Jan 23 '12 at 10:01
Nice answer. I was about to write it. n[x] allows only those expressions which are naturally arrays. Example: for std::map<int,int> x;, x[n] will pass, but n[x] will fail! And that is the only corner case where n[x] is useful (only applicable for C++, where operator [] is overloadable). – iammilind Jan 23 '12 at 10:02
@iammilind But if operator[] is overloadable, then there is no built in operator[]. I suppose if you had a class which supported both operator[] and implicit conversion to a pointer: x[n] would invoke x.operator[](n), but n[x] would invoke *(n + x.operator T*()). Still, in the latter case, I'd prefer static_cast<T*>(x)[n]. I'd still say that the only real use of n[x] is to confuse people (a la [httl/](IOCCC). – James Kanze Jan 23 '12 at 10:12

First, it's not clear what you mean by "array syntax". You can't declare an array x[3]. The built-in operator [] is commutative, but it doesn't apply to arrays: one of the operands must be a pointer, and the other an integral type, and a[b] is exactly the same as *(a+b). (Which means, of course, that x[3] is *(x+3), and 3[x] is (3+x). But that's only true for build-in operator []; for "user-defined" operator [] (which should be far more frequent than the built-in type—remember that in this context, "user defined" means standard library components too), x[3] means x.operator[](3). And that's not commutative (and there's no way to overload it to allow 3[x], since user defined operator[] is required to be a member).

In C, of course, you don't have the user defined operators. But you still have the fact that x[3] is the only legal way to define an array, and that one of the basic principles of (early) C is that definition mirrors use. Although legal, the only time you'll see something like 3[x] is in intentional obfuscation (e.g. entries in the IOCCC).

share|improve this answer
I updated my question to hopefully be clearer what I meant as I agree I worded it badly the first time around. Very interesting poin regarding the user defined operator. Thanks for that – Firedragon Jan 23 '12 at 10:00

Not the answer you're looking for? Browse other questions tagged or ask your own question.