How to delete all nodes of a Binary Search Tree

I am trying to write a code to delete all nodes of a BST (each node has only three attributes, left, right and data, there are no parent pointers). The following code is what I have come up with, it deletes only the right half of the tree, keeping the left half intact. How do I modify it so that the left half is deleted as well (so that ultimately I am left with only the root node which has neither left or right subtrees)?

``````def delete(root):
global last
if root:
delete(root.left)
delete(root.right)
if not (root.left or root.right):
last = root
elif root.left == last:
root.left = None
else:
root.right = None
``````

And secondly, can anybody suggest an iterative approach as well, using stack or other related data structure?

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Blckknght is right about garbage collection, but in case you want to do some more complex cleanup than your example suggests or understand why your code didn't work, i'll provide an additional answer:

Your problem seems to be the `elif node.left == last` check.

I'm not sure what your `last` variable is used for or what the logic is behind it.
But the problem is that `node.left` is almost never equal to `last` (you only assign a node to the `last` variable if both children are already set to `None`, which they aren't for any of the interesting nodes (those that have children)).

If you look at your code, you'll see that in that if `node.left` isn't equal to `last` only the right child gets set to `None`, and thus only the right part of the subtree is deleted.

I don't know python, but this should work:

``````def delete(node):
if node:

# recurse: visit all nodes in the two subtrees
delete(node.left)
delete(node.right)

# after both subtrees have been visited, set pointers of this node to None
node.left = None
node.right = None
``````

(I took the liberty of renaming your `root` parameter to `node`, since the node given to the function doesn't have to be the root-node of the tree.)

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That was neat! Thanks! Can you provide an iterative approach as well? And this process cleans up the left and right subtrees, but doesn't set the `root` to `None`. So I guess you will have to do it after the function returns. –  Cupidvogel Oct 13 '12 at 11:56
Glad i could be of help! This was my first post on stackoverflow and it feels good answering questions :) Anyway, i actually don't know python at all, so i don't know how to do the iterative approach in python. But you're right that you can use a stack datastructure to do it iteratively. Maybe googling for "iterative tree traversal" will give some hits (the wikipedia page for example). –  Bjarke Oct 13 '12 at 12:10

If you want to delete both subtrees, there's no need to recurse. Just set `root.left` and `root.right` to `None` and let the garbage collector take care of them. Indeed, rather than making a `delete` function in the first place, you could just set `root = None` and be done with it!

Edit: If you need to run cleanup code on the data values, you might want to recurse through the tree to get to all of them if the GC doesn't do enough. Tearing down the links in the tree shouldn't really be necessary, but I'll do that too for good measure:

``````def delete(node):
if node:
node.data.cleanup() # run data value cleanup code

delete(node.left)   # recurse
delete(node.right)

node.data = None    # clear pointers (not really necessary)
node.left = None
none.right = None
``````

You had also asked about an iterative approach to traversing the tree, which is a little more complicated. Here's a way to an traversal using a `deque` (as a stack) to keep track of the ancestors:

``````from collections import deque

def delete_iterative(node):
stack = deque()
last = None

# start up by pushing nodes to the stack until reaching leftmost node
while node:
stack.append(node)
node = node.left

# the main loop
while stack:
node = stack.pop()

# should we expand the right subtree?
if node.right && node.right != last: # yes
stack.append(node)
node = node.right

while node: # expand to find leftmost node in right subtree
stack.append(node)
node = node.left

else: # no, we just came from there (or it doesn't exist)
# delete node's contents
node.data.cleanup()

node.data = None # clear pointers (not really necessary)
node.left = None
node.right = None

# let our parent know that it was us it just visited
last = node
``````
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Yeah, that's possible of course, but it's an interview question, where the task is to delete the nodes one by one bottom up. –  Cupidvogel Oct 13 '12 at 11:14
The only reason I can think of for that is if the data values have some special cleanup logic that needs to be run on them. I'll update my answer to handle this, though it will end up being a lot like @Bjarke's! –  Blckknght Oct 13 '12 at 11:38
@Cupidvogel, I've updated with a recursive and an iterative version. The iterative version is much more complicated, but I hope I've added enough comments to make it comprehensible. Again, if there's no special cleanup work needed on the data, simply doing `root=None` will be best! –  Blckknght Oct 13 '12 at 13:10
Does the `append` method add the node to the beginning of the stack? What about the `pop`? –  Cupidvogel Nov 20 '12 at 9:36
@Cupidvogel The `deque` class's `append` and `pop` methods both work on the end of the sequence (which I'm treating as the "top" of the stack). It also has `append_left` and `pop_left` methods for working on the start, so it's fairly arbitrary which end to use. I'm used to using `append` though with `list`s, so that's what I stuck with. You could even use a `list` to implement the stack, but its performance won't be as good as a `deque` (though it should be asymptotically the same). –  Blckknght Nov 20 '12 at 10:33

An iterative post-order traversal using a stack could look like this:

``````def is_first_visit(cur, prev):
return prev is None or prev.left is cur or prev.right is cur

def visit_tree(root):
if root:
todo = [root]
previous = None
while len(todo):
node = todo[-1]
if is_first_visit(node, previous):
# add one of our children to the stack
if node.left:
todo.append(node.left)
elif node.right:
todo.append(node.right)
# now set previous to ourself and continue
elif previous is node.left:
# we've done the left subtree, do right subtree if any
if node.right:
todo.append(node.right)
else:
# previous is either node.right (we've visited both sub-trees)
# or ourself (we don't have a right subtree)
do_something(node)
todo.pop()
previous = node
``````

`do_something` does whatever you want to call "actually deleting this node".

You can do it a bit more simply by setting an attribute on each node to say whether it has had `do_something` called on it yet, but obviously that doesn't work so well if your nodes have `__slots__` or whatever, and you don't want to modify the node type to allow for the flag.

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That looks promising. Can you add a few more comments to your code so that I can understand it properly? –  Cupidvogel Oct 13 '12 at 12:24
In Python, there's no `free` function like in C to deallocate a node. So how can `do_something` delete a node by itself? –  Cupidvogel Oct 13 '12 at 12:31
@Cupidvogel: not my problem ;-) The task you've been set, "delete all nodes of a BST" is kind of nonsensical in Python, because in Python you can't explicitly delete an object. `def do_something(node): node.right = node.left = None` might be what you want. –  Steve Jessop Oct 13 '12 at 12:34
Exactly. That's what I was trying to do in my code, by setting a flag to the last visited node. Then coming to the parent node, checking whether the last visited node is the current node's left or right subtree, and deleting that part accordingly. In the bottom-up approach, the deletion will start from bottom, so we will never have to delete a subtree with more than one element. –  Cupidvogel Oct 13 '12 at 12:37
Come to think of it, if you just want to set the left and right nodes to `None` you could not bother with `do_something` at all. Instead, in the `elif previous is node.left` clause set `node.left = None` and in the `else` clause set `node.right = None`. That way you'd set the left-node to `None` before processing the right subtree, which maybe is more in the spirit of what you're aiming for. Makes no practical difference other than affecting the order in which the Python runtime can reclaim the nodes (assuming there are no references to them from outside the tree). –  Steve Jessop Oct 13 '12 at 12:42

I'm not sure what you're doing with those conditions after the recursive calls, but I think this should be enough:

``````def delete(root):
if root:
delete(root.left)
delete(root.right)

root = None
``````

As pointed out in comments, Python does not pass parameters by reference. In that case you can make this work in Python like this:

``````def delete(root):
if root:
delete(root.left)
delete(root.right)

root.left = None
root.right = None

Usage:
delete(root)
root = None
``````

As for an iterative approach, you can try this. It's pseudocode, I don't know python. Basically we do a BF search.

``````delete(root):
make an empty queue Q
Q.push(root)
while not Q.empty:
c = Q.popFront()
Q.push(c.left, c.right)
c = None
``````

Again, this won't modify the root by default if you use it as a function, but it will delete all other nodes. You could just set the root to None after the function call, or remove the parameter and work on a global root variable.

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Setting `root`, which is an argument to the function (and so a local variable) to `None` will do nothing useful. –  Blckknght Oct 13 '12 at 11:36
@Blckknght - I don't know how python arguments work, but the logic is correct. You recursively delete the subtrees and then the root. If it's not passed by reference you can just set the children to None and the root separately outside the main function, or just pass `root` by reference. –  IVlad Oct 13 '12 at 11:49
IVlad, it's not working. –  Cupidvogel Oct 13 '12 at 11:52
@Cupidvogel - probably because of what Blckknght said. You need to either pass `root` by reference or replace `root = None` with `root.left = root.right = None` and after the initial function call set `root = None`. –  IVlad Oct 13 '12 at 11:54
Yeah, I guess so... –  Cupidvogel Oct 13 '12 at 11:57