Say I have a tree defined as per the recommendation in this post, although it's a vector in my case, which hopefully shouldn't matter (they're vectors in Programming Clojure book):
(def tree [1 [[2  ] [3 ]]])
which should be something like:
1 / \ 2 3 / \ | 4 5 6
Now, I'd like to do a breadth-first traversal of the tree without any of the traditional means such as the queue, and instead use exclusively the stack to pass information around. I know this isn't the easiest route, but I'm doing it mostly as exercise. Also at this point I'm not planning to return a collection (I'll figure that out afterwards as exercise) but instead just print out the nodes as I travel through them.
My current solution (just starting out with Clojure, be nice):
(defn breadth-recur [queue] (if (empty? queue) (println "Done!") (let [collections (first (filter coll? queue))] (do ; print out nodes on the current level, they will not be wrapped' ; in a  vector and thus coll? will return false (doseq [node queue] (if (not (coll? node)) (println node))) (recur (reduce conj (first collections) (rest collections)))))))
The last line is not working as intended and I'm stumped about how to fix it. I know exactly what I want: I need to peel each layer of vectors and then concatenate the results to pass into recur.
The issue I'm seeing is mostly a:
IllegalArgumentException Don't know how to create ISeq from: java.lang.Long
Basically conj doesn't like appending a vector to a long, and if I swap conj for concat, then I fail when one of the two items I'm concatenating isn't a vector. Both conj and concat fail when facing:
[2   [3 ]]
I feel like I'm missing a really basic operation here that would work both on vectors and primitives in both positions.
The tree should actually be (thanks Joost!):
(def tree [1 [2  ] [3 ]])
However we still haven't found a breadth-first solution.