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I was working on Project Euler Problem 18 (I did solve the problem; I'm not cheating. "Proof" here) and found myself in need of a way to represent a data structure that looks like a Pascal triangle, but with different values. It looks very similar to a binary tree, but there's a very important distinction: a node's children are not exclusively its children. So the first three rows look like this:

   /  \
  95  64
 /  \ / \
17  47  82

Note that 47 has two parents.

It's pretty easy to represent this as a linked structure, or even a two-dimensional array, but I'm hoping that there's a more elegant way. I love binary trees, mainly for how you can allocate a single chunk of memory, treat it as an array, and navigate between children and parent with a couple of arithmetic operations or integer division. Is there a way to do the same for this data structure?

My best solution involved using a two-dimensional array (where it's very easy to find children and parents). I dislike this implementation because (at least the way I did it) I called malloc for every row, even though I knew how big the structure would be ahead of time.

My question is very similar to this one, but I wasn't happy with the accepted answer. A comment alludes to the solution I seek, but no explanation is given.

Edit: To clarify, I'm looking for a way to index into a one-dimensional array in the same way that an binary tree stuffed sequentially into an array (starting at 1) gives the property that the children of a node at index i are at indexes 2 * i and 2 * i + 1. I'm also not very concerned about being able to find parents, so don't worry too much about the weird two parent.

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That's not a "tree" as far as I know, that's a cyclic graph. This question looks like what you want, or at least a good starting point –  Alex Nov 5 '12 at 14:57

1 Answer 1

Yes there is : We start with your idea of a two-dimentional array , but with irregular row length.So each element is indexed by a two dimentional index (r,c); (1,1) (2,1)(2,2) (3,1)(3,2)(3,3) (4,1)(4,2)(4,3)(4,4)

Because the relationship are regular, you can express the positions we have :
for a node (r,c) is childrens are (r+1,min(1,c)),(r+1,max(c+1,r)) and his parent are : (r-1,min(1,c-1)),(r-1,max(c,r))

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Thanks, but I'm looking to get rid of the two-dimensional array. Please see my edit. –  Jay Nov 5 '12 at 14:52
@Jay you mean a way to index with only one index? –  GreyGeek Nov 5 '12 at 16:01
Yes, exactly. I'm sure it's a silly distinction, but I'm curious whether it's possible or not. –  Jay Nov 5 '12 at 16:16
@jay, it is , but it wont be at linear function as in the case of the binary tree –  GreyGeek Nov 5 '12 at 16:26

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