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I am very new to Clojure and have an interesting problem for you Clojure gurus. I'm working through the book "Programming Collective Intelligence" and trying to code the examples in Clojure (the book has them all in Python). In the first chapter we have a hash map setup of movie critics and the rankings they've given to different movies. It looks like this:

{"Lisa Rose" {"Lady in the Water" 2.5, "Snakes on a Plane" 3.5 },
 "Gene Seymour" {"Lady in the Water" 3.0, "Snakes on a Plane" 3.5}}

The problem is this. How to turn that inside out so that I get a hash map that looks like this:

{"Lady in the Water" {"Lisa Rose" 2.5, "Gene Seymour" 3.0},
 "Snakes on a Plane" {"Lisa Rose" 3.5, "Gene Seymour" 3.5}}

What would be your function to accomplish this?

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Thank you all for the excellent answers. I learned something from all of them. –  Dave Kincaid Sep 2 '11 at 23:22
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3 Answers

up vote 16 down vote accepted
(let [m {"Lisa Rose" {"Lady in the Water" 2.5, "Snakes on a Plane" 3.5 },
         "Gene Seymour" {"Lady in the Water" 3.0, "Snakes on a Plane" 3.5}}]
  (apply merge-with merge
         (for [[ok ov] m
               [ik iv] ov]
           {ik {ok iv}})))

{"Snakes on a Plane" {"Gene Seymour" 3.5, "Lisa Rose" 3.5},
 "Lady in the Water" {"Gene Seymour" 3.0, "Lisa Rose" 2.5}}
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Thanks for marking my question as duplicate. Do you think it's better to use conj or merge for merge-with? –  viebel May 15 at 5:29
    
@viebel I prefer merge. I don't much like relying on the weird fact that for maps, conj is equivalent to into - I prefer to pretend that conj only accepts map entries. –  amalloy May 15 at 5:30
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(defn inverse-map [m]
  (let [inner-keys (-> m first val keys)
        outer-keys (keys m)]
    (apply merge-with merge
           (for [ik inner-keys
                 ok outer-keys]
             {ik {ok (get-in input [ok ik])}}))))

This assumes that all keys of interest in the inner maps are present on the first inner map. If this is incorrect, (-> m first val keys) would have to be replaced with something returning a collection of all keys of interest, e.g. (->> m (map values) (mapcat keys)).

The idea is to build a map of the form {inner-key {outer-key the-value-at-inner-key-in-the-map-at-outer-key}}, then merge them together appropriately.

Return value on the map in the question text is as specified.

Now, the above creates a lot of intermediate structures, which may be a problem performance-wise. If speed is of the essence, you can switch to loop and transients:

(defn transient-inverse-map [m]
  (let [inner-keys (-> m first val keys)
        outer-keys (keys m)
        t (transient {})]
    (loop [inner-keys inner-keys
           t t]
      (if (seq inner-keys)
        (recur (next inner-keys)
               (assoc! t ik
                       (let [ik (first inner-keys)
                             t  (transient {})]
                         (loop [outer-keys outer-keys
                                t t]
                           (if (seq outer-keys)
                             (let [ok (first outer-keys)]
                               (recur (next outer-keys)
                                      (assoc! t ok (get-in m [ok ik]))))
                             (persistent! t))))))
        (persistent! t)))))

The idea is the same, if harder to discern from the code.

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I can propose following: We have map - collection of entries. Turn every entry inside out and them merge them: Initial:

{:Lisa {:Lady 2.5, :Snakes 3.5},
 :Gene {:Lady 3.0, :Snakes 3.5}}

Inverse every entry:

([:Lady {:Lisa 2.5}], [:Snakes {:Lisa 3.5}])
([:Lady {:Gene 3.0}], [:Snakes {:Gene 3.5}])

Concat them:

([:Lady {:Lisa 2.5}], [:Snakes {:Lisa 3.5}], [:Lady {:Gene 3.0}], [:Snakes {:Gene 3.5}])

And them merge them to one map:

{:Lady {:Lisa 2.5, :Gene 3.0},
 :Snakes {:Lisa 3.5, :Gene 3.5}}

Code:

(defn inverse-map [m]
        (let [inverse-entry (fn [[name movies]]
                                (map (fn [[movie rating]]
                                         [movie {name rating}])
                                     movies))]
           (->> (map inverse-entry m)
                (reduce concat)
                (reduce (fn [res [movie entry]]
                            (update-in res [movie] merge entry))
                        {}))))

So we get map, (it is collection of vectors [key value]), inverse every entry (vector [key value]). Now we have collection of collections of vectors, concat them to one collection. And finally, using reduce we add every vector to map.

I suppose there is more elegant solution, but mine also works.

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