Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

Given the following tree (or any other form in Clojure including maps and vectors):

'( (a b) (c d) )

I would like to generate a map in Clojure that indexes each sub-form according to a depth-first traversal of the entire form and also provides a vector (or list) of the indices of the form's children (if any).

0 -> a []
1 -> b []
2 -> (a b) [0 1]
3 -> c []
4 -> d []
5 -> (c d) [3 4]
6 -> ( (a b) (c d) ) [2 5]

I have so far only managed to use clojure.walk to produce the first part (indexing the subforms) but I am baffled as to how to generate the indices of the children as well. My code is appended at the end and produces:

user=> (depthFirstIndexing '( (a b) (c d) ))
{6 ((a b) (c d)), 5 (c d), 4 d, 3 c, 2 (a b), 1 b, 0 a}

So the indexes to the sub-forms are generated correctly according to depth-first traversal but I don't see how I can obtain the indices of the children of every sub-form. I tried to use the zippers module but I couldn't see how to perform a depth-first traversal to collect the indices.

half-way there code

(use 'clojure.walk)
(defn depthFirstIndexing [aform]
  (let [counter       (atom -1)
        idxToSubform  (atom {})
    (postwalk (fn [x]
                (def idx (swap! counter inc))
                (swap! idxToSubform assoc idx x)
share|improve this question
up vote 2 down vote accepted
(use '[clojure.walk :only (postwalk)])
(use '[clojure.set :only (map-invert)])

(defn idx [col]
  (let [m (map vector 
               (let [v (atom [])]
                 (postwalk (fn [f] (swap! v conj f) f) col) 
        rm (map-invert m)]
    (into {} (map (fn [[i e]]
                    [i [e (if (sequential? e) 
                            (mapv rm e)

(idx '((a b) (c d)))
=> {0 [a []],
    1 [b []],
    2 [(a b) [0 1]],
    3 [c []],
    4 [d []],
    5 [(c d) [3 4]],
    6 [((a b) (c d)) [2 5]]}
share|improve this answer

A walk is recursive and does not provide for an accumulator argument, which is why you have had to resort to updating atoms.

A zipper is iterative, so you can carry along other information without breaking a functional pattern.

The natural depth-first traversal is a pre-order traversal, but you are after a post-order, so this requires a little extra work.

Here is a post-order traversal using zippers:

(require '[ :as z])

(defn dfs-post-order-traversal [zipper]
  (loop [loc zipper, a []] 
      (z/end? loc) 
        (conj a (z/node loc))
      (z/branch? loc) 
        (recur (z/next loc) a)
          (z/next loc) 
            (conj a (z/node loc)) 
                ((fnil count [nil]) (z/path (z/next loc))) 
                (z/path loc))))))))

And the test case:

(dfs-post-order-traversal (z/seq-zip '((a b) (c d))))
=> [a b (a b) c d (c d) ((a b) (c d))]

Now to finish off your request, we need to map tree locations back to their indices:

(defn dfs-post-order-indexing [branch? children root]
  (let [pot (dfs-post-order-traversal (z/zipper branch? children conj root))
        m (zipmap pot (range))]
    (for [n pot] [(m n) n (if (branch? n) (map m (children n)) (list))])))

(dfs-post-order-indexing seq? identity '((a b) (c d)))
=>  ([0 a ()]
     [1 b ()]
     [2 (a b) (0 1)]
     [3 c ()]
     [4 d ()]
     [5 (c d) (3 4)]
     [6 ((a b) (c d)) (2 5)])

Something more exotic:

(dfs-post-order-indexing coll? seq [{:a :b :c :d} :e [:f [:g '(:h :i)]]])
=>  ([0 :a ()]
     [1 :b ()]
     [2 [:a :b] (0 1)]
     [3 :c ()]
     [4 :d ()]
     [5 [:c :d] (3 4)]
     [6 {:a :b, :c :d} (2 5)]
     [7 :e ()]
     [8 :f ()]
     [9 :g ()]
     [10 :h ()]
     [11 :i ()]
     [12 (:h :i) (10 11)]
     [13 [:g (:h :i)] (9 12)]
     [14 [:f [:g (:h :i)]] (8 13)]
     [15 [{:a :b, :c :d} :e [:f [:g (:h :i)]]] (6 7 14)])
share|improve this answer
Thank you for your answer and the non-atom-using version. It was most instructive. I accepted mobyte's answer as it can handle more forms. E.g. post-traversal-order can't handle the following form: [{:a :b :c :d} :e [:f [:g [:h :i]]]] – Marcus Junius Brutus Feb 14 '13 at 7:41
@MarcusJuniusBrutus To handle other forms, take a look at zipper. I used zip-seq as a shortcut for this sequenced based test case, but zipper allows you to specify what constitutes a branch and what its children. So, you can create a generic collection zipper to pass to this post-traversal-order function. – A. Webb Feb 14 '13 at 12:34
Revised to fix oversight I had for deeper nested structures. – A. Webb Feb 14 '13 at 19:09
(dfs-post-order-indexing coll? seq {:a 1}) works but (dfs-post-order-indexing coll? seq {:a []}) fails, or I don't know which branch / children predicate to pass for the proper indexing of the {:a []} map. – Marcus Junius Brutus Feb 25 '13 at 10:04

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.