I'm trying to understand what is the idiomatic way in Clojure to recurse through a tree or a list represented by a Clojure list (or another collection type).
I could write the following to count the elements in a flat collection (ignore the fact that it's not tail-recursive):
(defn length
([xs]
(if (nil? (seq xs))
0
(+ 1 (length (rest xs))))))
Now in Scheme or CL all the examples only ever do this over lists, so the idiomatic base case test in those languages would be (nil? xs)
. In Clojure we'd like this function to work on all collection types, so is the idiomatic test (nil? (seq xs))
, or maybe (empty? xs)
, or something completely different?
The other case I'd like to consider is tree traversal, i.e. traversing through a list or vector that represents a tree, e.g. [1 2 [3 4]
.
For example, counting the nodes in a tree:
(defn node-count [tree]
(cond (not (coll? tree)) 1
(nil? (seq tree)) 0
:else (+ (node-count (first tree)) (node-count (rest tree)))))
Here we use (not (coll? tree))
to check for atoms, whereas in Scheme/CL we'd use atom?
. We also use (nil? (seq tree))
to check for an empty collection. And finally we use first
and rest
to destructure the current tree to the left branch and the rest of the tree.
So to summarise, are the following forms idiomatic in Clojure:
(nil? (seq xs))
to test for the empty collection(first xs)
and(rest xs)
to dig into the collection(not (coll? xs))
to check for atoms