# How to break out from nested doseqs

I have a question regarding nested doseq loops. In the start function, once I find an answer I set the atom to true, so that the outer loop validation with :while fails. However it seems that it doesn't break it, and the loops keep on going. What's wrong with it?

I am also quite confused with the usage of atoms, refs, agents (Why do they have different names for the update functions when then the mechanism is almost the same?) etc. Is it okay to use an atom in this situation as a flag? Obviously I need a a variable like object to store a state.

``````(def pentagonal-list (map (fn [a] (/ (* a (dec (* 3 a))) 2)) (iterate inc 1)))

(def found (atom false))

(defn pentagonal? [a]
(let [y (/ (inc (Math/sqrt (inc (* 24 a)))) 6)
x (mod (* 10 y) 10)]
(if (zero? x)
true
false)))

(defn both-pent? [a b]
(let [sum (+ b a)
diff (- a b)]
(if (and (pentagonal? sum) (pentagonal? diff))
true
false)))

(defn start []
(doseq [x pentagonal-list :while (false? @found)]
(doseq [y pentagonal-list :while (<= y x)]
(if (both-pent? x y)
(do
(reset! found true)
(println (- x y)))))))
``````
-

Even once the atom is set to `true`, your version can't stop running until the inner `doseq` finishes (until y > x). It will terminate the outer loop once the inner loop finishes though. It does terminate eventually when I run it. Not sure what you're seeing.

You don't need two `doseq`s to do this. One `doseq` can handle two seqs at once.

``````user> (doseq [x (range 0 2) y (range 3 6)] (prn [x y]))
[0 3]
[0 4]
[0 5]
[1 3]
[1 4]
[1 5]
``````

(The same is true of `for`.) There is no mechanism for "breaking out" of nested doseqs that I know of, except `throw`/`catch`, but that's rather un-idiomatic. You don't need atoms or `doseq` for this at all though.

``````(def answers (filter (fn [[x y]] (both-pent? x y))
(for [x pentagonal-list
y pentagonal-list :while (<= y x)]
[x y])))
``````

Your code is very imperative in style. "Loop over these lists, then test the values, then print something, then stop looping." Using atoms for control like this is not very idiomatic in Clojure.

A more functional way is to take a seq (pentagonal-list) and wrap it in functions that turn it into other seqs until you get a seq that gives you what you want. First I use `for` to turn two copies of this seqs into one seq of pairs where y <= x. Then I use `filter` to turn that seq into one that filters out the values we don't care about.

`filter` and `for` are lazy, so this will stop running once it finds the `first` valid value, if one is all you want. This returns the two numbers you want, and then you can subtract them.

``````(apply - (first answers))
``````

Or you can further wrap the function in another `map` to calculate the differences for you.

``````(def answers2 (map #(apply - %) answers))
There are some advantages to programming functionally in this way. The seq is cached (if you hold onto the head like I do here), so once a value is calculated, it remembers it and you can access it instantly from then on. Your version can't be run again without resetting the atom, and then would have to re-calculate everything. With my version you can `(take 5 answers)` to get the first 5 results, or map over the result to do other things if you want. You can `doseq` over it and print the values. Etc. etc.