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I want to transform one map of values to another map with the same keys but with a function applied to the values. I would think there was a function for doing this in the clojure api, but I have been unable to find it.

Here's an example implementation of what I'm looking for

(defn map-function-on-map-vals [m f]
  (reduce (fn [altered-map [k v]] (assoc altered-map k (f v))) {} m))
(println (map-function-on-map-vals {:a "test" :b "testing"} #(.toUpperCase %)))

Does anybody know if map-function-on-map-vals already exists? I would think it did (probably with a nicer name too).

share|improve this question
up vote 108 down vote accepted

I like your reduce version just fine. I think it's idiomatic. Here's a version using list comprehension anyways.

(defn foo [m f]
  (into {} (for [[k v] m] [k (f v)])))
share|improve this answer
I like this version because it's super short and obvious if you understand all the functions and such it uses. And if you don't it's an excuse to learn them! – Runevault Nov 5 '09 at 3:14
I agree. I didn't know the into function, but it makes perfect sense using it here. – Thomas Nov 5 '09 at 5:40
Oh man you hadn't seen into? You are in for a treat. I abuse the hell out of that function every chance I get. So powerful and useful. – Runevault Nov 5 '09 at 5:48
Is into lazy? – nilamo Nov 6 '09 at 1:56
Nope. Neither are hash-map or zipmap or merge or reduce. – Brian Carper Nov 6 '09 at 2:44

You can use the clojure.algo.generic.functor/fmap:

user=> (use '[clojure.algo.generic.functor :only (fmap)])
user=> (fmap inc {:a 1 :b 3 :c 5})
{:a 2, :b 4, :c 6}
share|improve this answer
I know this answer was a bit late looking at the dates, but I reckon it is spot on. – edwardsmatt Mar 3 '11 at 10:45
Did this make it into clojure 1.3.0? – Annan Apr 6 '12 at 15:09
the generic.function lib has moved to a separate library: org.clojure/algo.generic "0.1.0" the example should now read: (use '[clojure.algo.generic.functor :only (fmap)]) (fmap inc {:a 1 :b 3 :c 5}) – Travis Schneeberger Jul 29 '12 at 2:54

Here is a fairly typical way to transform a map. zipmap takes a list of keys and a list of values and "does the right thing" producing a new Clojure map. You could also put the map around the keys to change them, or both.

(zipmap (keys data) (map #(do-stuff %)) (vals data))

or to wrap it up in your function:

(defn map-function-on-map-vals [m f]
    (zipmap (keys m) (map f (vals m))))
share|improve this answer
It irritates me that I have to supply the keys for it, but it's not a high price to pay. It definitely looks a lot nicer than my original suggestion. – Thomas Nov 4 '09 at 23:31
Are we guaranteed that keys and vals return the corresponding values in the same order? For both sorted maps and hash maps? – Rob Lachlan Nov 5 '09 at 7:22
Rob: yes, keys and vals will use the same order for all maps -- the same order as a seq on the map uses. Since hash, sorted, and array maps are all immutable, there's no chance of the order changing in the mean time. – Chouser Nov 5 '09 at 14:25
That does seem to be the case, but is it documented anywhere? At least the docstrings for keys and vals fail to mention this. I would be more comfortable using this if I could point to some official documentation that promises it's going to work. – Jouni K. Seppänen Mar 29 '11 at 10:40
@Jason Yeah, they added this to the documentation in version 1.6 I think. – Jouni K. Seppänen Feb 10 at 6:59

Taken from the Clojure Cookbook, there is reduce-kv:

(defn map-kv [m f]
  (reduce-kv #(assoc %1 %2 (f %3)) {} m))
share|improve this answer

Here's a fairly idiomatic way to do this:

(defn map-function-on-map-vals [m f]
        (apply merge
               (map (fn [[k v]] {k (f v)})


user> (map-function-on-map-vals {1 1, 2 2, 3 3} inc))
{3 4, 2 3, 1 2}
share|improve this answer
If it isn't clear: the anon function destructures the key and value to k and v and then returns a hash-map mapping k to (f v). – Siddhartha Reddy Nov 5 '09 at 5:24

I'm a Clojure n00b, so there may well be much more elegant solutions. Here's mine:

(def example {:a 1 :b 2 :c 3 :d 4})
(def func #(* % %))

(prn example)

(defn remap [m f]
  (apply hash-map (mapcat #(list % (f (% m))) (keys m))))

(prn (remap example func))

The anon func makes a little 2-list from each key and its f'ed value. Mapcat runs this function over the sequence of the map's keys and concatenates the whole works into one big list. "apply hash-map" creates a new map from that sequence. The (% m) may look a little weird, it's idiomatic Clojure for applying a key to a map to look up the associated value.

Most highly recommended reading: The Clojure Cheat Sheet .

share|improve this answer
I thought about going trough sequences as you've done in your example. I also like the name of you're function much more than my own :) – Thomas Nov 4 '09 at 23:29
In Clojure, keywords are functions that look themselves up in whatever sequence is passed to them. That's why (:keyword a-map) works. But using the key as a function to look itself up in a map doesn't work if the key is not a keyword. So you might want to change the (% m) above to (m %) which will work no matter what the keys are. – Siddhartha Reddy Nov 5 '09 at 5:21
Oops! Thanks for the tip, Siddhartha! – Carl Smotricz Nov 5 '09 at 5:33

I like your reduce version. With a very slight variation, it can also retain the type of records structures:

(defn map-function-on-map-vals [m f]
  (reduce (fn [altered-map [k v]] (assoc altered-map k (f v))) m m))

The {} was replaced by m. With that change, records remain records:

(defrecord Person [firstname lastname])

(def p (map->Person {}))
(class p) '=> Person

(class (map-function-on-map-vals p
  (fn [v] (str v)))) '=> Person

By starting with {}, the record loses its recordiness, which one might want to retain, if you desire the record capabilities (compact memory representation for instance).

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I know of no existing function in Cojure for this, but here’s an implementation of that function as map-map-values that you are free to copy. It comes with two closely related functions, map-map and map-map-keys, which are also missing from the standard library:

(defn map-map
    "Returns a new map with each key-value pair in `m` transformed by `f`. `f` takes the arguments `[key value]` and should return a value castable to a map entry, such as `{transformed-key transformed-value}`."
    [f m]
    (into (empty m) (map #(apply f %) m)) )

(defn map-map-keys [f m]
    (map-map (fn [key value] {(f key) value}) m) )

(defn map-map-values [f m]
    (map-map (fn [key value] {key (f value)}) m) )

You can call map-map-values like this:

(map-map-values str {:a 1 :b 2})
; {:a "1", :b "2"}

And the other two functions like this:

(map-map-keys str {:a 1 :b 2})
; {":a" 1, ":b" 2}
(map-map (fn [k v] {v k}) {:a 1 :b 2})
; {1 :a, 2 :b}

If you only want map-map-keys or map-map-values, without the more general map-map function, you can use these implementations, which don’t rely on map-map:

(defn map-map-keys [f m]
    (into (empty m)
        (for [[key value] m]
            {(f key) value} )))

(defn map-map-values [f m]
    (into (empty m)
        (for [[key value] m]
            {key (f value)} )))

Also, here’s an alternative implementation of map-map that is based on clojure.walk/walk instead of into, if you prefer this phrasing:

(defn map-map [f m]
    (clojure.walk/walk #(apply f %) identity m ))

There are also parallel versions of these functions if you need them. They simply use pmap instead of map.

(defn pmap-map [f m]
    (into (empty m) (pmap #(apply f %) m)) )
(defn pmap-map-keys [f m]
    (pmap-map (fn [key value] {(f key) value}) m) )
(defn pmap-map-values [f m]
    (pmap-map (fn [key value] {key (f value)}) m) )
share|improve this answer
Also check prismatics map-vals function. It's faster using transients… – Andre Feb 9 '14 at 21:36

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