Given number of binary tree nodes (X) write method that returns the number of random permutations of binary trees with X nodes.


X=1: 1


X=2: 2

     o    o
   o        o

X=3: 5

        o    o          o     o        o
      o        o      o         o    o   o
    o            o      o     o

I ended up with :

    public static int numOfPerms(int numOfNodes) {
       if (numOfNodes<=2 && numOfNodes > 0) {
           return numOfNodes;
       int res = 1;
       for (int i=1; i<=numOfNodes; i++) {
           res = res*(4*i-1)/(i+1);
       return res;

I would appreciate sharing here better solutions.

  • you say 'permutations', but does the placement of each node in the tree matter? – Colin D Jul 9 '12 at 14:55
  • @Colin D, it does - it is probability distribution – aviad Jul 9 '12 at 14:57
  • so nodes are numbered and for example for case x=2 we have two simple trees: 1->2, 2->1? – Alexey A. Jul 9 '12 at 14:59
  • 2
  • @Alexey I think he just means the topology, the nodes themselve are the same (as showed in this examples). And the topology differs between left and right node. – brimborium Jul 9 '12 at 15:00

Try this recursive method:

static int numOfPerms(int numOfNodes) {
    if (numOfNodes == 1) {
        return 1; 

    numOfNodes = numOfNodes - 1;
    return ((numOfPerms(numOfNodes) * (2*numOfNodes+2) * 

I think the Catalan Numbers can count your trees (See the part about applications in combinatorics). They form a well know sequence usually defined by this recurrence relations:

recurrence relation for C_n

This recurrence often arises in enumeration problems about tree or recursive structures, so it's quite well studied. The wikipedia entry I linked gives a number of useful closed-form expressions for the n-th Catalan number, i.e.

closed formulae

all of them are suitable for code implementation, and a lot faster than any recursive approach.

  • Yes, the catalan numbers match my own recursion: f(0)=1; f(x)=sum(f(y)*f(x-y-1), y=0..(x-1)). – MvG Jul 9 '12 at 15:14
  • You should post some actual information about catalan numbers and post the forumla for them. As per the faq, link only answers are frowned upon. – Colin D Jul 9 '12 at 15:18

Ok, as far as I can see, your solution is not correct, right? (for numOfNodes=4 it returns 12 instead of 14)

Intuitively, I would go for a recursive approach.

  1. Use up one node as parent node
  2. for all possible divisions into two sets, recursively call the function for both sets
  3. multiply the results from the two sets of each division and sum up the products of all the divisions
  4. return the sum

But before implementing it, I would make sure that there is no simple formula for this. I did not find one on the quick (which does not mean that there isn't one).

EDIT: As already stated in another answer: You could also just calculate the n-th Catalan number.

  • The Online Encyclopedia of Integer Sequences is always a good starting point when trying to turn a sequence into a formula. – MvG Jul 9 '12 at 15:16
  • Could you help me figure out why for numOfNodes=4 answer should be 14 not 12? I'm counting it like this: 8 ways from lowest leafs (lets assume they are at level 4 of tree) to root (level 1) + 4 ways from leafs in level 3 to leafs at level 2. I don't count ways from lvl 2 to lvl 3 because they are the same as from lvl 3 to lvl 2. So it gives me 12... what am I missing? – Pshemo Jul 9 '12 at 15:46
  • @Pshemo in this PDF that was linked by Colin D above, you can find all the permutations for 4 nodes on page 6. – brimborium Jul 9 '12 at 15:56
  • Thank you. Now I know I calculated wrong and not what I should :) – Pshemo Jul 9 '12 at 16:05
  • @Pshemo Yes, you missed the trees that have two leafs in level 3 (there are two of those trees) – brimborium Jul 9 '12 at 16:10

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.