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the motivation is for checking what has changed in a deeply nest map, kind of like a reverse of update-in.

This is a simple example:

(def p1 {:a {:a1 :1 :a2 :2}
         :b {:b1 :1 :b2 :2}})

(def p2 (update-in p1 [:a :a1] (constantly :updated))
;; => {:a {:a1 :updated :a2 :2}
;;     :b {:b1 :1 :b2 :2}}

(what-changed? p1 p2) 
;; => {:keys [:a :a1] :value :updated)

(what-changed? p2 p1) 
;; => {:keys [:a :a1] :value :2)

I'm hoping that because clojure maps are persistent data-structures, there may be a smart algorithm to figure this out by looking at the underlying structure as opposed to walking through the nested maps and comparing the difference.

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2 Answers

up vote 1 down vote accepted

Persistent data structures is only about implementation and not about "looking at the underlying structure". As Joost said (+1) you can use "diff". It only needs to convert the answer using your "{:keys ... :value ...}" pattern:

(def p1 {:a {:a1 :1 :a2 :2}
         :b {:b1 :1 :b2 {:b11 :11 :b22 :22}}})

(def p2 {:a {:a1 :updated1 :a2 :2}
         :b {:b1 :1 :b2 {:b11 :updated2 :b22 :updated3}}})

(defn what-changed?* [m]
  (if (not (map? m))
    [(list m)]
    (apply concat (map (fn [k]
                         (map (fn [nest-k]
                                (conj nest-k k))
                              (nested-keys (m k))))
                       (keys m)))))

(defn what-changed? [m1 m2]
  (map (fn [l] {:keys (drop-last l) :value (last l)})
       (nested-keys (second (data/diff m1 m2)))))

Test:

(what-changed? p1 p2)
-> ({:keys (:a :a1), :value :updated1}
    {:keys (:b :b2 :b11), :value :updated2}
    {:keys (:b :b2 :b22), :value :updated3})

(what-changed? p2 p1)
-> ({:keys (:a :a1), :value :1}
    {:keys (:b :b2 :b11), :value :11}
    {:keys (:b :b2 :b22), :value :22})

BTW in your case you can modify hashmap by "assoc-in" instead of "update-in":

(assoc-in {:a {:a1 :1 :a2 :2}
           :b {:b1 :1 :b2 :2}}
          [:a :a1] :updated)
-> {:a {:a2 :2, :a1 :updated}
    :b {:b2 :2, :b1 :1}}
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I would imagine a straight-forward recursive algorithm like (if (= map1 map2) :no-change (recursively-check-children ...)) already takes good advantage of the structure sharing, unless you're dealing with very wide trees (lots of branches per node). In any case you probably want to check out clojure.data/diff which solves a general, non-recursive, version of your problem, and also starts out by doing a straight (= a b)

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