# Why isn't arr[-2] equivalent to -2[arr]?

``````#include <iostream>
using namespace std;

int main()
{
int arr = { 10, 20, 30 };
cout << arr[-2] << endl;
cout << -2[arr] << endl;
return 0;
}
``````

Output:

``````4196160
-30
``````

Here `arr[-2]` is out of range and invalid, causing undefined behavior. But `-2[arr]` evaluates to `-30`. Why?

Isn't `arr[-2]` equivalent to `-2[arr]`?

• Just to make the question correct (remove the UB) you can defined `int *arr2 = arr + 2` and use `arr2` with -2. – Ajay Brahmakshatriya Jun 5 '17 at 10:34
• I can't shake the feeling that you should have been able to easily figure this out for yourself by looking at the output. Well, at least you asked a well-presented question. – Cody Gray Jun 5 '17 at 12:40
• This question does not show any research effort (From the reasons to downvote) – pipe Jun 6 '17 at 4:41
• While Chris's answer is correct, suppose if it had been equivalent to (-2)[arr]: why do you assume that printing -30 in that case is inconsistent with the behavior being undefined? – Ray Jun 6 '17 at 7:51
• @LyingOnTheSky It's undefined behavior. It would have been perfectly acceptable for arr[-2] to print both `4196160` and `-30`, clear the array, then replace the definition for cout::operator<< with one that summons a troop of dancing bears to explain why it's a bad idea to assume that undefined behavior will behave in the way you expect, even when it seems obvious based on the architecture. – Ray Jun 6 '17 at 22:42

`-2[arr]` is parsed as `-(2[arr])`. In C (and in C++, ignoring overloading), the definition of `X[Y]` is `*(X+Y)` (see more discussion of this in this question), which means that `2[arr]` is equal to `arr`.

• You just have to remember the operator precedence rules I guess. Or just don't use such confusing structures... – DeiDei Jun 5 '17 at 9:52
• @DeiDei Not that it's good practice to do `(-2)[arr]` anyways. ;) – EKons Jun 5 '17 at 13:29
• C/C++ order of operations is easy: `*` before `+`, for everything else, use brackets. – Yakk - Adam Nevraumont Jun 5 '17 at 17:35
• @Yakk : With respect, rubbish. Would you really write `(arr) + (arr)`? (on the grounds you can't remember if + is higher or lower priority than []). Or `((ptr->a)) + ((ptr->a)`. I also think that putting brackets around comparisons when combining with `||` or `&&` is pointless (but I accept that is more debateable). – Martin Bonner supports Monica Jun 6 '17 at 9:05
• @MartinBonner Pretty sure that was a joke – Joren Jun 6 '17 at 9:44

The compiler parses this expression

``````-2
``````

like

``````unary_minus decimal_integer_literal
``````

That is definitions of integer literals do not include signs.

In turn the expression

``````2[arr]
``````

is parsed by the compiler as a postfix expression.

Postfix expressions have higher precedence than unary expressions. Thus this expression

``````-2[arr]
``````

is equivalent to

``````- ( 2[arr] )
``````

So the unary minus is applied to the lvalue returned by the postfix expression `2[arr]`.

On the other hand if you wrote

``````int n = -2;
``````

and then

``````n[arr]
``````

then this expression would be equivalent to

``````arr[-2]
``````
• How the hell is this possible in c++? since when is `a[b]` equal to `b[a]`, I never knew that and why would one want to use this? Where can I read up on this as I cannot determine how this is called – Gizmo Jun 5 '17 at 14:15
• @Gizmo While, contrary to some statements elsewhere, arrays DO exist as a separate data structure in C, ways to access data within arrays are basically limited to making use of their feature of decaying to pointers. So when you refer to `a` in most contexts you really mean "a pointer to the first element of array a". So to get the actual element you want `*a`. To get the second element, you want `*(a+1)`. This is a rather ugly and clumsy structure, so C provides `a` as syntactic sugar for the above. Since `a+1` == `1+a`, `1[a]` == `a`. In C++ you can overload this to be more confusing. – Muzer Jun 5 '17 at 14:32
• Ah so that's where it comes from, also found this which explains it nicely and ultimately leads to this which was a even nicer read – Gizmo Jun 5 '17 at 14:38
• @Gizmo This question has some more info With arrays, why is it the case that a == 5[a]? – Dmiters Jun 5 '17 at 17:06

`-2[arr]` is equivalent to `-(2[arr])`, which is equivalent to `-arr`. However, `(-2)[arr]` is equivalent to `arr[-2]`.

This is because E1[E2] is identical to (*((E1)+(E2)))

• I thought `A[B]` was identical to `(*A+(B))`, not `(*(A)+(B))`. Otherwise `-2[arr]` would be equivalent to `(*(-2)+(arr))` which it isn't. – wizzwizz4 Jun 5 '17 at 17:35
• @wizzwizz4 The answer is correct. `-2[arr]` is not of the form `A[B]`, because of precedences. As it parses like `-(2[arr])`, the parens break your `A` and your argument doesn't apply. If it did, then you could claim that `2*3+4` equals to `2*4+3` because of `3+4` equaling `4+3`. – maaartinus Jun 5 '17 at 23:02
• @jamesqf @jamesqf Because there is no syntax error: `-2[arr]` is by definition `-(*((2)+(arr)))`, i.e. `-(*(arr-2))`(, which is by definition `arr[-2]`). However, while `x[arr]` is a legitimate expression, normally we just write `arr[x]`. – nalzok Jun 6 '17 at 4:56
• @SunQingyao The two statements after your i.e. are wrong. Should be -(*(arr+2)) which is -arr. – wizzwizz4 Jun 6 '17 at 6:34
• @SunQingyao: The definitions would seem to suggest that `somestruct -> arr[n]` should be equivalent to `(&someStruct->arr)[n]`, but gcc seems to regard them differently. I'm not sure what in the Standard would justify such distinctions. – supercat Jun 21 '17 at 19:14

The underlying problem is with operator precedence. In C++ the `[]`, ie the Subscript operator hold more precedence (somewhat akin to preferance) than the `-` unary_minus operator.

So when one writes,

``````arr[-2]
``````

The compiler first executes `arr[]` then `-` , but the unary_minus is enclosed within the bounds of the `[-2]` so the expression is decomposed together.

In the,

``````-2[arr]
``````

The same thing happens but, the compiler executes `2[]` first the n the `-` operator so it ends up being `-(2[arr])` not `(-2)[arr]`

Your understanding of the concept that, `arr[i]` `i[arr]` and `*(i+arr)` are all the same is correct. They are all equivalent expressions.

If you want to write in that way, write it as `(-2)[arr]`. You will get the same value for sure.

Check this out for future referance :http://en.cppreference.com/w/cpp/language/operator_precedence