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I have a tree of depth k and branching factor of n. I've been trying to find a general formula for:

  1. Maximum number of nodes possible in this tree
  2. Minimum number of nodes possible in this tree

Any suggestions? Thanks in advance.

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I hate to say it, but this is a trivially simple question for a data-structures course. I don't want to be rude or mean or anything of the sort, but this is about as simple as these questions get.

But you asked for suggestions, not solutions. This is a good thing. :-)

I would start with making sure you know the definition of branching factor. Then I would draw a pick a couple easy values for k,n like (1,1) (2,2) (3,2) and see what the result is. I promise you a pattern will emerge!


So you have a grasp of the branching factor. Let's look at the minumum.

If you have a depth of k, you know that you can traverse along k different nodes right? So if none of those nodes have any other children, and the end node has no children, what can you say about the nodes there?

Okay that was easy. The maximum is a bit harder, but still fairly straightforward. The easiest way to look at it is to think less like a tree. Trees have a top and go down. Instead, think of this as a series of concentric circles, each circle representing a level of depth.

Let's start with (depth = 1). You know you're going to have just one node, right? I mean it can't have any children, because you're limited to 1 depth! Now, let's look at depth of 2. The starting node can have n (assuming n is the branching factor) child nodes. So that would be n + 1.

Now if we add one more to that, we end up with n nodes on the "outside ring" each of which can have n children. So you end up with n*n + n + 1.

On each successive ring, you end up with (nodes added last time) * (branching factor) + all existing nodes. Now can you think of a way to express that as a formula?

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of course I drew the simple cases and tried to find a pattern but couldn't. Maybe my understanding of branching factor is wrong. And please spend the next few of your words for helping not for stating how easy it is. – Dave Nov 6 '11 at 23:16
Well, what do you think a branching factor is? What is your understanding of it? – corsiKa Nov 6 '11 at 23:18
If branching factor is k, it means every parent has at most k children? – Dave Nov 6 '11 at 23:20
@Dave right. So I added some more to my post about how I would go about solving it. The "hard" part is still there, but I think it's more manageable now. Learning to visualize your problems properly is the easiest way to solve them! – corsiKa Nov 6 '11 at 23:29
I thought that depth starts from 0. So, 0 depth should be the one with no children. I saw the same thing from many resources. The one you are mentioning is height. Isn't this the case? Are you confusing height with depth? – Dave Nov 6 '11 at 23:50

To calculate the max number of nodes assume every new level is full. In the first level you have 1 node, in the second n nodes, in the third you have n^2 nodes (n for each of the previous n), in the fourth you have n^3 (n for each of the previous n^2)...

This gives you sum(i=1, k-1, n^i) + 1 ==> (n(n^k -1))/(n-1) + 1

The min number of nodes is of course 0 :)

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I agree with your max. But your min does not make sense. – Dave Nov 6 '11 at 23:48
And you don't need that +1. Just start the sum from i=0. – Dave Nov 7 '11 at 0:08
Well, the minimum number of nodes is the empty tree, isn't it? – leo Nov 7 '11 at 0:16
Empty tree does not have a depth. It should have a depth, and the formula should be general including all cases. I'm leaning towards k+n right now (branching factor + depth) for the minimum, this is the result I got when I drew for few cases. – Dave Nov 7 '11 at 0:32
Well, in this case you have "depth" as the minimum number of nodes (assuming that your tree became a list). – leo Nov 7 '11 at 0:40

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