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I have a set of items that are supposed to for a balanced binary tree. Each item is of the form (data,parent), data being the useful information and parent being the index of the parent node in the binary tree.

Nodes in the tree are numbered left-to-right, row-by-row, like this:

       ___/ \___
      /         \
     2           3
   _/\_        _/\_
  4    5      6    7

These elements come stored in a linked list. How should I order this list such that it's easier for me to build the tree? Each parent node will be referenced (by index) by exactly two child nodes; if I sort these by parent index, the sorting must be stable.

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What do you mean by "to build the tree"? You already have it - in the (strange) format you specified. – ivan_pozdeev Apr 29 '12 at 20:15
@ivan_pozdeev I need it as an actual tree, not as a list that can be viewed as a tree. – Paul Manta Apr 29 '12 at 20:16
A binary tree implemented with a linked list? The underlaying linked list will negate the advantage of the binary tree. – Gumbo Apr 29 '12 at 20:17
@Gumbo It comes as a linked list that "defines" a tree. From this list I need to build the actual tree. – Paul Manta Apr 29 '12 at 20:18
what does the list contains? the (data,parent) information? only the data? Also: Each parent node will be referenced (by index) by exactly two child nodes - Is the tree complete? Or we don't know? Do you need to re-create the exact same tree? (with the exact same structure?) – amit Apr 29 '12 at 20:33
up vote 0 down vote accepted

You can sort the list in any stable sort, according to the parent field, in increasing order.

The result will be a list like that:

[(d_1,nil), (d_2,1), (d_3,1) , (d_4,2), (d_5,2), ...(d_i,x), (d_i+1,x) ]
   the root has no parent...

Note that in this list, since we used a stable sort - for each two pairs (d_i,x), (d_i+1,x) in the sorted list, d_i is the left leaf!

Now, you can populate the tree in breadth-first traversal,

Since it is homework - I still want you to make sure you understand everything by your own. So I do not want to "feed answer". If you have any specific question, please comment - and I will try to edit and explain the relevant parts with more details.

Bonus: The result of this organization is very common way to implement a binary heap structure, which is a complete binary tree, but for performance, we usually store it as an array, which is very similar to the output generated by this approach.

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Thank you, I understand. :) While I was replying to your comments I realised that sorting by parent index is actually the solution I needed. – Paul Manta Apr 29 '12 at 21:12
@PaulManta: I am happy to hear that you manage to get it by your own! Just note that is is important to use a stable sort, and not any sort- or the answer will be wrong! – amit Apr 29 '12 at 21:18

I don't think I understand what exactly are you trying to achieve. You have to write the function that inserts items in the tree. The red-black tree, for example, has the same complexity for insertions, O(log n), no matter how the input data is sorted. Is there a specific implementation that you have to use or a specific speed target that you must reach for inserts?

PS: Sounds like a homework to me :)

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You're right, it is homework. – Paul Manta Apr 29 '12 at 20:17

It sounds like you want a binary tree that allows you to go from a leaf node to its ancestors, using an array.

Usually sorting a list before putting it into a binary tree causes an unbalanced binary tree, unless you use a treap or other O(logn) datastructure.

The usual way of stashing a (complete) binary tree in an array, is to make node i have two children 2i and 2i+1.

Given this organization (not sorting but organization), you can go to a parent node from a leaf node by dividing the array index by 2 using integer arithmetic which will truncate fractions.

if your binary trees are not always complete, you'll probably be better served by forgetting about using an array, and instead using a more traditional tree structure with pointers/references.

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