# Pointer Arithmetic for a 3D Array

I know how pointers work for a 1D and 2D array, but I'm trying to figure it out for a 3D array.

For a 1D array:

``````V[i] ==> *(V+i)
``````

for a 2D array with C columns

``````M[i][j] ==> *(M+(C*i+j))
``````

What would be the pointer arithmetic for a 3D array?

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Rewriting the subscription using pointer syntax then expanding the pointer arithmetic gives:

``````M[i][j][k] = *(*(*(M + i) + j) + k) = *(&M[0][0][0] + x * y * i + y * j + k)
``````

where x, y and z (the latter one unused) are the dimensions of the array.

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``````M[i][j] ==> *(M+(C*i+j))
``````

wrong. It is

``````M[i][j] ==> *(*(M+i)+j)
``````

for 3D

``````M[i][j][k] ==>  *(*(*(M+i)+j)+k)
``````
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you're doing triple dereferencing here? –  andrjas Apr 22 '13 at 22:36
Isn't this for an array of pointers, not an n-dimensional array? –  Barmar Apr 22 '13 at 22:36
2D array is array of pointer, 3D array is array of array of pointer...... –  yngum Apr 22 '13 at 22:40
@yngum No. 2D arrays aren't arrays of pointers. 3D arrays aren't arrays of arrays of pointers. –  user529758 Apr 23 '13 at 4:45
@Barmar: the syntax works for both –  newacct Apr 23 '13 at 9:04
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If the 3D array has C columns and R rows, each slice is C*R elements.

``````M[i][j][k] = *(M + C*R*i + C*j + k)
``````
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