# accessing the starting element of 2D array in C++

I came across this piece of code. In the cout statement the conditions evaluates to true.

``````   a[10][10]=’h’;
cout<<(a[0]==*a)&&(*a==0[a]);
``````

Accessing an array element/address using `0[a]` is the new thing. Can somebody please explain this type of notation ?

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`cout<<` is not C. –  Pascal Cuoq Jan 5 '13 at 14:23
A Mathematician will say that it works because addition is commutative. –  axiom Jan 5 '13 at 14:27
@PascalCuoq: my bad. sorry! –  jairaj Jan 5 '13 at 14:33

Q: I came across some joke code containing the expression 5["abcdef"] . How can this be legal C?

A: Yes, Virginia, array subscripting is commutative in C. [footnote] This curious fact follows from the pointer definition of array subscripting, namely that a[e] is identical to *((a)+(e)), for any two expressions a and e, as long as one of them is a pointer expression and one is integral. The ``proof'' looks like

``````a[e]
*((a) + (e))    (by definition)
*((e) + (a))    (by commutativity of addition)
e[a]        (by definition)
``````

This unsuspected commutativity is often mentioned in C texts as if it were something to be proud of, but it finds no useful application outside of the Obfuscated C Contest (see question 20.36).

Since strings in C are arrays of char, the expression "abcdef"[5] is perfectly legal, and evaluates to the character 'f'. You can think of it as a shorthand for

``````char *tmpptr = "abcdef";

... tmpptr[5] ...
``````
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In C, `0[a]` has exactly the same meaning as `a[0]`, and both are equivalent to `*a`. See the C FAQ.

As long as `a` is a pointer, all these expressions have the same semantics in C++ as they do in C.

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Assuming `a` is a pointer to an object, these expressions are always the same:

``````*a

0[a]

a[0]
``````

This means these expressions `(a[0]==*a)` and `(*a==0[a])` are also the same and both evaluate to `1`.

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