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I have a function that calculates the left and right node values for some collection of treeNodes given a simple, node.parentId association. It's very simple and works well enough...but, well, I am wondering if there is a more idiomatic approach. Specifically is there a way to track the left/right values without using some externally tracked value but still keep the tasty recursion.

 * A tree node
case class TreeNode(val id:String, val parentId: String){
    var left: Int = 0
    var right: Int = 0

 * a method to compute the left/right node values 
def walktree(node: TreeNode) = {
     * increment state for the inner function 
    var c = 0

     * A method to set the increment state
    def increment = { c+=1; c } // poo

     * the tasty inner method
     * treeNodes is a List[TreeNode]
    def walk(node: TreeNode): Unit = {
      node.left = increment

       * recurse on all direct descendants 
      treeNodes filter( _.parentId == foreach (walk(_))

      node.right = increment



Edit - The list of nodes is taken from a database. Pulling the nodes into a proper tree would take too much time. I am pulling a flat list into memory and all I have is an association via node id's as pertains to parents and children.

Adding left/right node values allows me to get a snapshop of all children (and childrens children) with a single SQL query.

The calculation needs to run very quickly in order to maintain data integrity should parent-child associations change (which they do very frequently).

In addition to using the awesome Scala collections I've also boosted speed by using parallel processing for some pre/post filtering on the tree nodes. I wanted to find a more idiomatic way of tracking the left/right node values. After looking at the answer from @dhg it got even better. Using groupBy instead of a filter turns the algorithm (mostly?) linear instead of quadtratic!

val treeNodeMap = treeNodes.groupBy(_.parentId).withDefaultValue(Nil)

def walktree(node: TreeNode) = {
    def walk(node: TreeNode, counter: Int): Int = {
        node.left = counter 
        node.right = 
          .foldLeft(counter+1) {
            (result, curnode) => walk(curnode, result) + 1
share|improve this question
Where is treeNodes defined? Is there some reason you're not defining TreeNode recursively? What is the point of walktree? To re-number the left and right values? Why aren't the left and right values associated with TreeNodes? – dhg Apr 11 '12 at 16:10
This isn't codereview, but you need way fewer comments, and you need at least one useful comment. Exactly zero of your comments say anything relevant that the code does not already tell you. Throw them all away, and add perhaps two lines describing the goal. – Rex Kerr Apr 11 '12 at 16:52
@Rex, I had the same thought :-) – dhg Apr 11 '12 at 16:55
treeNodes is just a List of TreeNode. It isn't defined recursively as the list is pulled from a database and that takes time. – Neil Chambers Apr 11 '12 at 17:01
up vote 6 down vote accepted

Your code appears to be calculating an in-order traversal numbering.

I think what you want to make your code better is a fold that carries the current value downward and passes the updated value upward. Note that it might also be worth it to do a treeNodes.groupBy(_.parentId) before walktree to prevent you from calling treeNodes.filter(...) every time you call walk.

val treeNodes = List(TreeNode("1","0"),TreeNode("2","1"),TreeNode("3","1"))

val treeNodeMap = treeNodes.groupBy(_.parentId).withDefaultValue(Nil)

def walktree2(node: TreeNode) = {
  def walk(node: TreeNode, c: Int): Int = {
    node.left = c
    val newC = 
      treeNodeMap(         // get the children without filtering
        .foldLeft(c+1)((c, child) => walk(child, c) + 1)
    node.right = newC

  walk(node, 1)

And it produces the same result:

scala> walktree2(TreeNode("0","-1"))
scala> => "(%s,%s)".format(n.left,n.right))
res32: List[String] = List((2,7), (3,4), (5,6))

That said, I would completely rewrite your code as follows:

case class TreeNode(        // class is now immutable; `walktree` returns a new tree
  id: String,
  value: Int,               // value to be set during `walktree` 
  left: Option[TreeNode],   // recursively-defined structure
  right: Option[TreeNode])  //   makes traversal much simpler

def walktree(node: TreeNode) = {
  def walk(nodeOption: Option[TreeNode], c: Int): (Option[TreeNode], Int) = {
    nodeOption match {
      case None => (None, c)  // if this child doesn't exist, do nothing
      case Some(node) =>      // if this child exists, recursively walk
        val (newLeft, cLeft) = walk(node.left, c)        // walk the left side
        val newC = cLeft + 1                             // update the value
        val (newRight, cRight) = walk(node.right, newC)  // walk the right side
        (Some(TreeNode(, newC, newLeft, newRight)), cRight)

  walk(Some(node), 0)._1

Then you can use it like this:

  TreeNode("1", -1,
    Some(TreeNode("2", -1,
      Some(TreeNode("3", -1, None, None)),
      Some(TreeNode("4", -1, None, None)))),
    Some(TreeNode("5", -1, None, None))))

To produce:

share|improve this answer
yummy foldLeft. Pure gold. – Neil Chambers Apr 11 '12 at 16:42
+1 for understanding what was desired well enough to find a solution – Rex Kerr Apr 11 '12 at 16:53
It's actually better than gold. This drops a good half a second off the node walk! Thanks! – Neil Chambers Apr 11 '12 at 16:58
@Neil, That's because in your version treeNodes.filter(...) has to run through every node every time walk is called to find the children. In my version, a node knows exactly where its children are, and calls them directly. – dhg Apr 11 '12 at 17:01
@Neil, I added a groupBy that prevents you from having to filter every time you call walk. – dhg Apr 11 '12 at 17:44

If I get your algorithm correctly:

def walktree(node: TreeNode, c: Int): Int = {
    node.left = c

    val c2 = treeNodes.filter(_.parentId == + 1) { 
        (cur, n) => walktree(n, cur)

    node.right = c2 + 1
    c2 + 2

walktree(new TreeNode("", ""), 0)

Off-by-one errors are likely to occur.

Few random thoughts (better suited for

  • try posting that compiles... We have to guess that is a sequence of TreeNode:

  • val is implicit for case classes:

    case class TreeNode(val id: String, val parentId: String) {
  • Avoid explicit = and Unit for Unit functions:

    def walktree(node: TreeNode) = {
    def walk(node: TreeNode): Unit = {
  • Methods with side-effects should have ():

    def increment = {c += 1; c}
  • This is terribly slow, consider storing list of children in the actual node:

    treeNodes filter (_.parentId == foreach (walk(_))
  • More concice syntax would be treeNodes foreach walk:

    treeNodes foreach (walk(_))
share|improve this answer
Thanks, Tom. I shall look into codereview – Neil Chambers Apr 11 '12 at 17:05

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