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:

```
75
/ \
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.

cyclic graph. This question looks like what you want, or at least a good starting point – Alex Nov 5 '12 at 14:57