I have to sort an array. Apart from the already existing types of sorting that exists, I was wondering if an algorithm like this would work out, and what its complexity might be.

I have an array to be sorted. I create a Binary Search Tree.

So if I insert all the elements of the array into the BST, and then assign them back to the array one by one when doing a in-order traversal of the tree, I will achieve a sorted result. (Though consuming more space complexity because of the tree nodes. Not in-place sorting.)

```
int i=0;
void sort_by_inorder(node *n)
{
if(n==NULL)
{
return;
}
sort_by_inorder(n->leftchild);
array[i++]=n->data;
sort_by_inorder(n->rightchild);
}
```

I know a BST does not allow duplicate insertions, so maybe we could consider modifying the BST insertion algorithm into <= for the left sub-tree, or maybe >= for the right sub-tree.

Will this be a good implementation (workable)? What would be the complexity?

Traversal complexity is on an average `O(n)`

. And insertion is just `O(log n)`

. So this should, according to me, turn out to be an efficient algorithm.

Thanks.