# How to write a complete binary tree predicate using Prolog

What is the algorithm of checking if a Binary tree is a complete binary tree? (Using Prolog).

For example:

``````?- complete(nil).
true.

?- complete(tree(1,nil,nil)).
true.

?- complete(tree(1,tree(2,nil,nil),nil)).
false.

?- complete(tree(1,tree(2,nil,nil),tree(3,nil,nil))).
true.
``````
-
What's the algorithm in English, for a start? – JB. Jan 22 '11 at 15:42
Well, I need all the leaves to be in the same distance from the root. So the most simple algorithm is going through all of them and check if all have the same distance from the root. – user550413 Jan 22 '11 at 16:10
Perhaps a slightly quicker approach: Find the depth of one leaf, then look for a leaf node that has less depth or a non-leaf node that has an equal depth. If you find either of those, the binary tree is not "complete". – hardmath Jan 22 '11 at 21:25

``````complete(T) :- complete(T, _).

complete(nil, 0).
complete(tree(_, L, R), N) :-
complete(L, N1),
complete(R, N1),
N is N1 + 1.
``````

update:

It works for me:

``````?- complete(nil).
true.

?- complete(tree(1,nil,nil)).
true.

?- complete(tree(1,tree(2,nil,nil),nil)).
false.

?- complete(tree(1,tree(2,nil,nil),tree(3,nil,nil))).
true.
``````
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It doesn't work. It returns true for all the examples I showed above. If I understood what you have tried to do is to check that the right sub-tree and left sub-tree has the same height which doesn't define a complete binary tree. – user550413 Jan 22 '11 at 21:54
@user550413: has you actually tried it? because it works with me, at least for the samples in your post! – salva Jan 23 '11 at 6:42