Here is a very simply example that should illustrate why what you're calculating is not an average:

```
10
/ \
4 12
\
20
```

At the '12' node the average will be `(12 + 20) / 2 = 16`

.

Then at the `10`

node the average will be `(4 + 10 + 16) / 3 = 10`

.

However, the average is really `11.5`

.

The issue is that averages of averages of averages doesn't equal one big correct average. At each level you have to multiply the average by the number of nodes that were used to calculate it (i.e. sum) before using it in the next average calculation.

An easier way to do this is probably to calculate the sum and then divide by the number of nodes in the tree.

Some **pseudo-code** for one technique to do this would be:

```
class accumulator
{
int sum = 0;
int count = 0;
// implement the obvious operator+
};
accumulator avg(bNode* root)
{
if(!root) return <empty accumulator>
return <recursive children> + <self>;
}
int main()
{
accumulator acc = avg(root);
// ..calculate average..
}
```