Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I'm working on a small game in Clojure as a learning exercise. I think I've settled on a representation of the game state at any particular time as a list of "movables" and a 2D vector-of-vectors for the "terrain" (board squares).

95% of the time I expect to be checking for a collision in a particular square for which the 2D vector seems appropriate. But in a few cases, I need to go the other direction -- find the (x,y) location of a cell that matches some criteria. First attempt was something like this:

(defn find-cell-row [fn row x y]
  (if (empty? row) nil
    (if (fn (first row)) [x y]
      (find-cell-row fn (rest row) (inc x) y))))

(defn find-cell [fn grid y]
  (if (empty? grid) nil
    (or (find-cell-row fn (first grid) 0 y)
        (find-cell (rest grid) (inc y)))))

(def sample [[\a \b \c][\d \e \f]])
(find-cell #(= % \c) sample 0) ;; => [2 0]

I tried something more concise with map-indexed, but it got ugly quickly and still didn't give me quite what I wanted. Is there a more idiomatic way to do this search, or perhaps I would be better served with a different data structure? Maybe a map { [x y] -> cell }? Using a map to represent a matrix feels so wrong to me :)

share|improve this question
You could use a Map however one of the advantages of using say an immutable data structure like cons-cell is that it makes it easy to do a MINI-MAX (en.wikipedia.org/wiki/Minimax) like algorithm since any operation will essentially clone the board. On the other hand I find car/consing through cells annoying and usually resort to some indexed structure (array or map). –  Adam Gent Apr 17 '12 at 21:28
It looks like Clojure has nice support for "editing" a cell (i.e., creating a new immutable structure with the value changed) with assoc-in. No AI in this game, but I do want to be able to "rewind" to a previous time so the immutable structs are really handy. –  kyle_wm Apr 17 '12 at 21:58
not sure what you mean about assoc-in, but "ordinary" maps in clojure are implemented as functional (immutable) trees, so when you modify a map you get a new instance that shares much structure with previous instances. i used map {[x y] -> cell} for a structure in a dfs and it worked fine. however, it felt very "odd" so i am bookmarking this question to see if there is anything better... –  andrew cooke Apr 17 '12 at 22:23
clojuredocs.org/clojure_core/clojure.core/assoc-in. so I can call (assoc-in sample [0 2] \z) to create a copy of sample with the \c changed to a \z. Thanks both of you for the feedback. –  kyle_wm Apr 17 '12 at 22:48
assoc-in allows a path into a nested data structure. It will create missing intermediate nodes on the fly, so (assoc-in {} [:a :b :c] 3) => {:a {:b {:c 3}}} –  sw1nn Apr 17 '12 at 23:49

2 Answers 2

up vote 4 down vote accepted

A nested vector is pretty normal for this sort of thing, and it's neither hard nor ugly to scan through one if you use a for comprehension:

(let [h 5, w 10]
   (for [y (range h), x (range w)
         :let [coords [y x]]
         :when (f (get-in board coords))]
share|improve this answer
Brilliant, thank you. Playing with that just a little I think I've got a solution I'm really happy with (defn find-cell [pred s] (first (for [[y row] (map-indexed vector s) [x cell] (map-indexed vector row) :when (pred cell)] [x y]))) This language is so dang fun –  kyle_wm Apr 18 '12 at 1:03
I assume you're doing these map-indexed things for efficiency or something? I really recommend you profile or benchmark before you make your code more complicated in order to gain speed - I'm pretty sure newing up all those temporary collections costs a lot more than indexing into a vector. –  amalloy Apr 18 '12 at 1:29
Not at all... Just personal preference. I use Iterables instead of for(int i = 0...) in Java too. –  kyle_wm Apr 18 '12 at 4:34

How about using a plain vector then all the 'usual' functions are available to you and you can extract [x y] as necessary.

(def height 3)
(def width 3)

(def s [\a \b \c \d \e \f \g \h \i])

(defn ->xy [i]
    [(mod i height) (int (/ i height))])

(defn find-cell 
    "returns a vector of the [x y] co-ords of cell when
     pred is true"
    [pred s]
    (let [i (first (keep-indexed #(when (pred %2) %1) s))]
      (->xy i)))

(find-cell #(= \h %) s)
;=> [1 2]

(defn update-cells 
    "returns an updated sequence s where value at index i
     is replaced with v. Allows multiple [i v] pairs"
    [s i v & ivs]
    (apply assoc s i v ivs))

(update-cells s 1 \z)
;=> [\a \z \c \d \e \f \g \h \i]

(update-cells s 1 \p 3 \w)
;=> [\a \p \c \w \e \f \g \h \i]
share|improve this answer
any idea how this compares to maps for data sharing with copies? if you're making lots of small changes in a process that might backtrack which is more memory-efficient? i suspect both chunk things in groups of 32, but don't have any numbers. –  andrew cooke Apr 17 '12 at 23:44
structural sharing applies across all the persistent data structures AFAIK, not sure about low-level details for vector vs map. Other benefit is that indexed access to vector is optimized –  sw1nn Apr 17 '12 at 23:47
Thanks! That makes a lot of sense, and I've learned a couple additional things looking at your example :) –  kyle_wm Apr 18 '12 at 0:07
No problem. See stackoverflow.com/questions/6016271/… for further rationale about using the simple data structures... –  sw1nn Apr 18 '12 at 0:17

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.