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I have the following structure:

MyClass {
  guid ID
  guid ParentID
  string Name

I'd like to create an array which contains the elements in the order they should be displayed in a hierarchy (e.g. according to their "left" values), as well as a hash which maps the guid to the indentation level.

For example:

ID     Name     ParentID
1      Cats     2
2      Animal   NULL
3      Tiger    1
4      Book     NULL
5      Airplane NULL

This would essentially produce the following objects:

// Array is an array of all the elements sorted by the way you would see them in a fully expanded tree
Array[0] = "Airplane"
Array[1] = "Animal"
Array[2] = "Cats"
Array[3] = "Tiger"
Array[4] = "Book"

// IndentationLevel is a hash of GUIDs to IndentationLevels.
IndentationLevel["1"] = 1
IndentationLevel["2"] = 0
IndentationLevel["3"] = 2
IndentationLevel["4"] = 0
IndentationLevel["5"] = 0

For clarity, this is what the hierarchy looks like:


I'd like to iterate through the items the least amount of times possible. I also don't want to create a hierarchical data structure. I'd prefer to use arrays, hashes, stacks, or queues.

The two objectives are:

  1. Store a hash of the ID to the indentation level.
  2. Sort the list that holds all the objects according to their left values.

When I get the list of elements, they are in no particular order. Siblings should be ordered by their Name property.

Update: This may seem like I haven't tried coming up with a solution myself and simply want others to do the work for me. However, I have tried coming up with three different solutions, and I've gotten stuck on each. One reason might be that I've tried to avoid recursion (maybe wrongly so). I'm not posting the partial solutions I have so far since they are incorrect and may badly influence the solutions of others.

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Recursive data require recursive solutions. They're the only reason recursive solutions exist. –  Smandoli May 20 '10 at 1:04
Recursion isn't always required, see my answer. –  Senseful May 23 '10 at 1:34

3 Answers 3

I needed a similar algorithm to sort tasks with dependencies (each task could have a parent task that needed to be done first). I found topological sort. Here is an iterative implementation in Python with very detailed comments.

The indent level may be calculated while doing the topological sort. Simply set a node's indent level to its parent node's indent level + 1 as it is added to the topological ordering.

Note there can exist many valid topological orderings. To ensure the resulting topological order groups parent nodes with child nodes, select a topological sort algorithm based on depth-first traversal of the graph produced by the partial ordering information.

Wikipedia gives two more algorithms for topological sort. Note these algorithms aren't as good because the first one is breadth-first traversal, and the second one is recursive.

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+1: Helped me find a solution. –  Senseful May 23 '10 at 1:35

For hierarchical structures you almost certainly will need recursion (if you allow for arbitrary depth). I quickly hacked up some ruby code to illustrate how you might achieve this (though I haven't done the indentation):

# setup the data structure
class S < Struct.new(:id, :name, :parent_id);end

class HierarchySorter

    def initialize(il)
        @initial_list = il
        first_level = @initial_list.select{|a| a.parent_id == nil}.sort_by{|a| a.name }
        @final_array = subsort(first_level, 0)

    #recursive function
    def subsort(list, indent_level)
        result = []
        list.each do |item|
            result << [item, indent_level]
            result += subsort(@initial_list.select{|a| a.parent_id == item.id}.sort_by{|a| a.name }, indent_level + 1)

    def sorted_array
        @final_array.map &:first

    def indent_hash
        # magick to transform array of structs into hash
        Hash[*@final_array.map{|a| [a.first.id, a.last]}.flatten]


hs = HierarchySorter.new [S.new(1, "Cats", 2), S.new(2, "Animal", nil), S.new(3, "Tiger", 1), S.new(4, "Book", nil),
    S.new(5, "Airplane", nil)]

puts "Array:"
puts hs.sorted_array.inspect

puts "\nIndentation hash:"
puts hs.indent_hash.inspect

If you don't speak ruby I can re-craft it in something else.

Edit: I updated the code above to output both data-structures.


[#<struct S id=5, name="Airplane", parent_id=nil>, #<struct S id=2, name="Animal", parent_id=nil>, #<struct S id=1, name="Cats", parent_id=2>, #<struct S id=3, name="Tiger", parent_id=1>, #<struct S id=4, name="Book", parent_id=nil>]

Indentation hash:
{5=>0, 1=>1, 2=>0, 3=>2, 4=>0}
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This was exactly what I was looking for, as I have a similar problem to OP's. However, I noticed this only works on ruby 1.8.7 or later, not on ruby 1.8.6 (which I still have to use on some machines). With 1.8.6 I get a "wrong argument type Symbol (expected Proc)" with @final_array.map &:first. You can use the backport gem to solve this problem. –  seaneshbaugh Oct 4 '10 at 14:24
It's a known issue with Symbol#to_proc in <1.8.6. Use @final_array.map {|a| a.first } instead. –  Jakub Hampl Oct 6 '10 at 21:47
I have also same working scenorio , If possible can you please share the JavaScript code for sorting the Hierarchial data using recursive function –  Raja Nov 14 '13 at 12:09
up vote 0 down vote accepted

Wonsungi's post helped a lot, however that is for a generic graph rather than a tree. So I modified it quite a bit to create an algorithm designed specifically for a tree:

// Data strcutures:
nodeChildren: Dictionary['nodeID'] = List<Children>;
indentLevel: Dictionary['nodeID'] = Integer;
roots: Array of nodes;
sorted: Array of nodes;
nodes: all nodes

// Step #1: Prepare the data structures for building the tree
for each node in nodes
  if node.parentID == NULL
    indentLevel[node] = 0;

// Step #2: Add elements to the sorted list
while roots.IsNotEmpty()
  root = roots.Remove(0);
  rootIndentLevel = indentLevel[root];
  children = nodeChildren[root];
  for each child in children (loop backwards)
    indentLevel[child] = rootIndentLevel + 1
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