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This is my attempt to grok monadic functions after watching this.

h uses bind to compose together two arbitrary functions f and g. What is the unit operator in this case?

;; f :: int -> [str]
;; g :: str -> [keyword]
;; bind :: [str] -> (str -> [keyword]) -> [keyword]
;; h :: int -> [keyword]

(defn f [v]
  (map str (range v)))

(defn g [s]
  (map keyword (repeat 4 s)))

(defn bind [l f]
   (map f l)))

(f 8)   ;; :: (0 1 2 3 4 5 6 7)
(g "s") ;; :: (:s :s :s :s)

(defn h [v]
  (bind (f v) g))

(h 9) 
;; :: (:0 :0 :0 :0 :1 :1 :1 :1 :2 :2 :2 :2 :3 :3 :3 :3 :4 :4 :4 :4 :5 :5 :5 :5)

Ah, thanks for the comments; I see where I was confused.

I was familiar with these functions and how to compose them using bind:

f0 :: a -> M a
g0 :: a -> M a

but not with these functions:

f1 :: a -> M b
g1 :: b -> M c

but essentially, the bind operator is the same for both cases if M is the same. In my case, M is the list monad so f1 and g1 can be combined the same way as f0 and g0.

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I've changed the type comments a bit; are they still okay? – Matt Fenwick Sep 10 '12 at 17:23

2 Answers 2

up vote 1 down vote accepted

Are you trying to implement the list monad? If so, then it would be:

(defn unit [x]

This is based on the Haskell implementation:

instance  Monad []  where
    m >>= k             = foldr ((++) . k) [] m
    return x            = [x]
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yep. that cleared it up – zcaudate Sep 10 '12 at 23:15

This is a list monad, and so the unit operator is x ↦ [x], i.e.

(defn return [x] [x])

(Called return after the Haskell function of the same name & purpose.)

One can see that this is the unit operator by checking it satisfies the monad laws:

(bind (return a) f) => (bind [a] f) 
      => (flatten (map f [a])) => (flatten [f a]) => f a  ;; f returns a vector

And similarly for (bind x return).

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