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I need a bit of help with my math, which hurts my brain these days.

I use a pool each for nodes of different sizes for many btrees. That works out great if btrees tend to have the same average number of keys per node for large trees as for small trees. However, if the distribution is different I could get into a situation where I have too many of one size of node sitting free in the pool and a shortage of others.

Instead of splitting nodes, all changes create a new node of the new number of keys and overwrite the old node in the tree with that. When it passes the max number of keys per node it will split the node evenly.

I intuitively think the distribution of node sizes will be the same for large and smaller trees (very small trees aside.) But I know better than to trust my intuition. Is it a reasonable assumption, or does the percentage of nodes of a given key count in a btree change with the size of the tree?

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The classic implementation of a btree is to use a single radix (max number of keys per node) across the tree, and to split when the node fills, and join when the node fill decreases below a chosen threshold. One benefit btrees have over binary (AVL) trees is that balancing trees is minimized. The choice of radix, the mix of key additions and deletions, and the distribution of keys added to the btree all affect the fill ratio. Using nodes with different sizes would reduce the number of splits on a node, especially when adding ordered data to the tree. But rebalancing the tree fixes the problem of ordered data.

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I've never heard of rebalancing a btree (I thought the point of it was you don't have to rebalance it, but I'm admittedly no expert.) Even in the case of adding sequential integers to the tree one at a time it would stay balanced (e.g. for radix=4, 1-4 go in the first node, adding 5 cause a split that leaves a balanced tree with 3 as the root: [1,2,3]<-[3]->[4,5]. I can see how deletes can unbalance the tree. It could be resolved by having a minimum node size and merging nodes when they shrink past that (i.e. opposite of a split.) – Eloff Oct 3 '13 at 16:24
    
Reading a bit more, it seems that is the worst case scenario (you end up with all nodes half-filled.) And you have to maintain the minimum node fill ratio on deletion to keep the tree balanced. So pooling nodes of different sizes could be bad. One way to resolve it would be to permit using a larger node than necessary if there isn't an exact fit. – Eloff Oct 3 '13 at 17:10

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