# C weird array syntax in multi-dimensional arrays

I've known that this is true:

``````x[4] == 4[x]
``````

What is the equivalent for multi-dimensional arrays? Is the following true?

``````x[4][3] == 3[x[4]] == 3[4[x]]
``````
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Did you try it? What happened? –  Carl Norum Nov 13 '11 at 2:52
@Jim: x[4] == *(x + 4) == *(4 + x) == 4[x] –  Stuart Golodetz Nov 13 '11 at 2:54
@JimClay Because `x[4] == *(x + 4)` so `4[x] == *(4 + x)`. The `[]` operator is just syntactic sugar. –  Andrew Marshall Nov 13 '11 at 2:55
Thanks for the explanations. I'm both fascinated and repelled at once. –  Jim Clay Nov 13 '11 at 2:57
@JimClay: ..and that's what C is really for. repelling and fascinating. –  kbyrd Nov 13 '11 at 2:59

`x[y]` is defined as `*(x + (y))`

`x[y][z]` would become `*(*(x + (y)) + z)`

`x[y[z]]` would become `*(x + (*(y + (z))))`

`x[4][3]` would become `*(*(x + (4)) + 3)` would become `*(*(x + 4) + 3)`

`3[x[4]]` would become `*(3 + (*(x + (4))))` would become `*(*(x + 4) + 3)`

`3[4[x]]` would become `*(3 + (*(4 + (x))))` would become `*(*(x + 4) + 3)`

Which means they are all equivalent.

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In the case of a multidimensional array `int x[5][7]` you'd have `x[y][z]` defined as `*(x + 7*y + z)`. And `x[y]` would become `x + 7*y` i.e. the pointer to the indicated slice. But I believe the equivalences still hold, even if the expanded expressions are somewhat longer. If the compiler does accept the code at all, that is. –  MvG Jul 31 '12 at 23:16

Yes. In each case `x` is an array which decays to a pointer and then has pointer arithmetic performed on it.

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