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Given a list A of n distinct keys, how many binary search trees can be formed such that in any subtree, the difference between the numbers of nodes in its left and right subtrees is at most by one?

The recurrence relation for the number of binary search trees without the condition is

f(1) = f(0) = 1;
Let total_trees = 0;
for(int i = 1; i<= n; ++i)
   total_trees += f(i-1) * f(n-i)

Can anyone help with the variation?

My try (which is wrong):

f(1) = f(0) = 1;
Let total_trees = 0;
for(int i = 1; i<= n; ++i)
   total_trees += f(i) * f(i-1)
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If this is homework, please tag it accordingly. – Adam Liss Apr 1 '12 at 23:54
@Adam This is not a homework. I'm preparing for an exam. If necessary I will provide a link that says this question is for practice. – Sunil Apr 2 '12 at 0:00
What have you figured out so far? – svick Apr 2 '12 at 11:17

Let's all the keys are in linear array. If number of keys is even, you have 2 variants of root - 2 central elements. For odd number of keys there is only one variant with central element as root to fulfill the condition. So recursion looks like:

f(1) = f(0) = 1

f(2*k) = f(k-1) * f(k+1) + f(k+1) * f(k-1) = 2 * f(k-1) * f(k+1)

f(2*k+1) = f(k)*f(k)

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