I'm trying to figure out corecursion in Clojure with nontrivial (i.e. not Fibonacci), but manageable, examples. Apparently it is possible to implement binary tree traversal with corecursion. Wikipedia has an example in Python which I am unable to understand.

How can I implement it in Clojure? Let's say I'm looking for BFS, but it could be any order.

Here's what I have so far:

(defstruct tree :val :left :right)

(def my-tree (struct tree 1 (struct tree 2) (struct tree 3 4 5)))

(def bfs (lazy-cat [my-tree] (map #(:left %) bfs) (map #(:right %) bfs) ))

(println (take 4 bfs))

Unfortunately it seems to be going all the way to the left, ignoring the right branch.

  • 1
    Can you link to the python code, or give more detail about what exactly you're trying to get the code to do? Pasting broken code doesn't provide enough insight. ;) On a potentially related note, letfn provides a way to do mutual recursion. – Alex Taggart Jul 22 '10 at 22:06
  • @ataggart: en.wikipedia.org/wiki/Corecursion – Michał Marczyk Jul 23 '10 at 3:20
  • Insufficient data for meaningful answer. – Alex Taggart Jul 23 '10 at 3:43
  • @ataggart: Really? I thought it was a valid "how do I do in Clojure what you can read here in Python & Haskell" question. (And pretty challenging too.) – Michał Marczyk Jul 23 '10 at 5:35
  • 1
    It might be, but only to those who already understand the text of the article and what the Haskell code is trying to do; I'm willing to accept it as a personal flaw that I can do neither. This was why I asked the OP to state what he wants his code to do, rather than trying to parse a wikipedia article clearly written not to explain a concept, but to show off how smart the authors are. – Alex Taggart Jul 23 '10 at 6:01
up vote 8 down vote accepted

Assuming Michal's code does what you want, this also works:

(defn bftrav [& trees]
  (when trees
    (concat trees 
      (->> trees
        (mapcat #(vector (:left %) (:right%)))
        (filter identity)
        (apply bftrav)))))
  • 5
    This is so nice... +1. You could replace #(vector ...) with (juxt :left :right) to make it even prettier. :-) – Michał Marczyk Jul 23 '10 at 7:37
  • 2
    And I was just saying to myself the other day, "what's the point of juxt?" Excellent! – Alex Taggart Jul 23 '10 at 8:30
  • Doesn't it run bftrav over and over for the same nodes in each iteration? – Konrad Garus Jul 23 '10 at 18:46
  • Or: What purpose does (filter identity) serve? – Konrad Garus Jul 23 '10 at 19:29
  • Nope. It returns a lazy sequence of a tree's sub-trees by recursing on the set of sub-trees in each tier, which is how the breadth-first behavior is achieved. For a balanced tree of seven nodes, bftrav would be called 3 times, one for each level. Now, whether that's what you wanted is a whole separate matter. – Alex Taggart Jul 23 '10 at 19:33

Here is a direct translation of the bftrav Haskell function from the Wikipedia article. Note that it uses a letrec macro I've just written -- see this Gist for the latest version.

I've changed your definition of my-tree to read thus:

(def my-tree (struct tree 1 (struct tree 2) (struct tree 3 (struct tree 4) (struct tree 5))))

Also, my leaf? function assumes that we're only dealing with proper two-way branches and leaf nodes (so a nil on the :left branch implies a nil on the :right branch); it shouldn't be two difficult to change this to handle single-child "branches":

(defn leaf? [t] (nil? (:left t)))

The code for bftrav is as follows:

(defn bftrav [t]
  (letrec [queue (lazy-seq (cons t (trav 1 queue)))
           trav (fn [l q]
                    (cond (zero? l) nil
                          (leaf? (first q)) (trav (dec l) (rest q))
                          :else (let [{:keys [left right]} (first q)]
                                  (cons left (cons right (trav (inc l) (rest q))))))))]

An example from the REPL:

user> (bftrav my-tree)
({:val 1, :left {:val 2, :left nil, :right nil}, :right {:val 3, :left {:val 4, :left nil, :right nil}, :right {:val 5, :left nil, :right nil}}} {:val 2, :left nil, :right nil} {:val 3, :left {:val 4, :left nil, :right nil}, :right {:val 5, :left nil, :right nil}} {:val 4, :left nil, :right nil} {:val 5, :left nil, :right nil})
user> (count (bftrav my-tree))

Your Answer


By clicking "Post Your Answer", you acknowledge that you have read our updated terms of service, privacy policy and cookie policy, and that your continued use of the website is subject to these policies.

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