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RE: Three and higher dimensional arrays
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From: |
Ted Harding |
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Subject: |
RE: Three and higher dimensional arrays |
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Date: |
Wed, 15 Aug 2001 21:43:54 +0100 (BST) |
On 15-Aug-01 Scott Walck wrote:
> Is there a way to produce three or higher dimensional arrays in octave?
> The obvious ways don't seem to work.
> x(1,2,4) = 7
> x(1,2)(4) = 7
> etc.
> Thanks for any help and sorry if this question has been asked before
> (or again and again and again).
Well, it has been asked a few times (I'm not sure how many "agains").
One way is to simulate it by computing an index into a 1-dim array.
And it's convenient to use a "structure" as the object which encapsulates
your "n-dimensional array". Here's an answer I gave back in 1999:
==========================
Although it is not possible to do it directly, in the form A(i,j,k), it
can be simulated by computing an index into a linear array stored in a
structure:
octave:11> A.ndim = 3; # 3 dimensions
octave:12> A.dims = [3 2 4]; # dimensions of lengths 3, 2, 4
octave:13> A.elems = ...
> [111 112 113 114 121 122 123 124 \
> 211 212 213 214 221 222 223 224 \
> 311 312 312 314 321 322 323 324 ]; # assign the elements
octave:14> function y = elem(A,i,j,k)
> y = A.elems(k + A.dims(3)*(j-1) + A.dims(3)*A.dims(2)*(i-1));
> endfunction # function to access them
octave:15> elem(A,1,2,3)
ans = 123
octave:16> elem(A,2,2,4)
ans = 224
(where the last index varies most rapidly along the linear array and the
first least rapidly).
The function definition gets a bit more complicated if you have to allow
for arbitrary numbers of dimensions (use varargs)
==========================
I hope this helps!
Ted.
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Date: 15-Aug-01 Time: 21:43:54
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