So, im trying to implement the bottomupheap algorithm here: http://www.apl.jhu.edu/Classes/Notes/Felikson/courses/605202/lectures/L8/L8.html

Algorithm bottomUpHeap(S) Input: a sequence S storing 2h-1 keys Output: a heap H storing the keys in S if S is empty then return an empty heap remove the first key, k, from S Split S into subsequences S1 and S2, each of size (n-1)/2 H1¬ bottomUpHeap(S1) H2¬ bottomUpHeap(S2) Create binary tree H such with k at root, H1 at left subtree and H2 at right subtree Perform down-heap bubbling from root if necessary return H

It's been a while since I programmed in java and I keep getting some errors unknown to me. I was wondering if someone would help me out by clearing up some of the algorithm steps.

I created a Heap node with data and left and right reference pointers (or whatever java calls them). The input sequence is an array which gets converted to `ArrayList`

. Thats what I pass into the function above.

I remove the first key from S and create a new node with that key. In my example, I'm just using `Integer`

s and the key is set to the data reference.

I then use
`S1 = S.sublist(0, S.length/2)`

and
`S2 = S.sublist(S.length/2, S.length)`

Now I would assume H1 and H2 are heaps or nodes? This is where i get a little confused on what I should do in java.

Then for the next portion it looks like I should do `k.left = H1`

and `k.right = H2`

Im not really sure when it says "k at root". Isn't `k`

the root node? If thats the case would I do a down-heap bubble from `k`

as well? Then at the very end would `H`

be `k`

at this point as well?

Sorry that I don't have my code on me to post, but the errors I get are at the sublist on the recursion call.

## Updated:

An `ArrayList`

is passed as S. `Tree`

is defined as `Tree(data, left, right)`

. Thanks.

```
private Tree Heapify(List<Integer> S){
if (S.isEmpty()){
Tree emptyHeap = new Tree();
return emptyHeap;
}
int tmpk = S.get(0);
S.remove(0);
int halfArr = S.size()/2;
List<Integer> S1 = S.subList(0, halfArr);
List<Integer> S2 = S.subList(halfArr, S.size());
Tree k = new Tree(tmpk, Heapify(S1), Heapify(S2));
//Downheap.
return null;
}
```

Thanks!