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I want to repeatedly apply a function simplify' until the result is "stable" (i.e. simplify'(x) == x):

simplify :: Expr -> Expr
simplify expr =
    let iterations = iterate simplify' expr
        neighbours = zip iterations (tail iterations)
        simplified = takeWhile (\(a, b) -> a /= b) neighbours
    in  snd $ last ((expr, expr) : simplified)

simplify' :: Expr -> Expr

This seems to be a common problem to me. Is there a more elegant solution?

Update: I found a much simpler solution, but I'm still looking for a more elegant solution :)

simplify expr =
    let next = simplify' expr
    in  if next == expr
        then expr
        else simplify next
share|improve this question
I'd just write a simple recursive function. – augustss Sep 16 '11 at 10:13
Does "fix" apply to this? It seems like you are looking for a fixed point. – Tim Seguine Sep 16 '11 at 10:54
@Tim: Maybe, but the documentation for fix makes my head explode. – fredoverflow Sep 16 '11 at 11:40
@FredOverflow I'd like to point you in the right direction, but I don't know a heck of a lot about Haskell. The two sticking points seem to be that you need to have a lazy function for fix to converge, and that it converges to the "least defined" fixed point. I'm not sure, though, how either of those affect your situation. – Tim Seguine Sep 16 '11 at 11:50
@Tim: fix finds a different kind of fixed point. – hammar Sep 16 '11 at 14:08
up vote 15 down vote accepted

Here's a slight generalization implemented with straightforward pattern matching and recursion. converge searches through an infinite list, looking for two elements in a row which satisfy some predicate. It then returns the second one.

converge :: (a -> a -> Bool) -> [a] -> a
converge p (x:ys@(y:_))
    | p x y     = y
    | otherwise = converge p ys

simplify = converge (==) . iterate simplify'

This makes it easy to for example use approximate equality for the convergence test.

sqrt x = converge (\x y -> abs (x - y) < 0.001) $ iterate sqrt' x
    where sqrt' y = y - (y^2 - x) / (2*y) 
share|improve this answer
simplify = until (\x -> simplify' x == x) simplify'

until is a rather less-known Prelude function. (A small disadvantage is that this uses simplify' about 2n times instead of about n.)

I think the clearest way, however, is your version modified to use guards and where:

simplify x | x == y    = x
           | otherwise = simplify y
           where y = simplify' x

Yet another way:

until' :: (a -> Maybe a) -> a -> a
until' f x = maybe x (until' f) (f x)

simplify :: Integer -> Integer
simplify = until' $ \x -> let y = simplify' x in
                           if x==y then Nothing else Just y
share|improve this answer

A simplification of 's code would be:

converge :: Eq a => (a -> a) -> a -> a
converge = until =<< ((==) =<<)

The functionality doesn't change. The function is handed to ((==) >>=), which given arguments(reduced) from converge and later until means that in each iteration it will check if applying current a to f, (f a == a).

I made a post, because I couldn't comment due to this reputation silliness.

share|improve this answer
most elegant solution here. – Markus Wotringer May 30 '15 at 14:25
import Data.List.HT (groupBy)

fst_stable = head . (!!1) . groupBy (/=)
-- x, f(x), f^2(x), etc.
mk_lst f x = let lst = x : (map f lst) in lst
iter f = fst_stable . mk_lst f

test1 = iter (+1) 1 -- doesn't terminate
test2 = iter id 1 -- returns 1
test3 = iter (`div` 2) 4 -- returns 0
share|improve this answer

Below is one such implementation which can be used:

applyTill :: (a -> bool) -> (a -> a) -> a -> a
applyTill p f initial = head $ filter p $ scanl (\s e -> f s) initial [1..]

Example usage:

applyTill ( (==) stableExpr ) simplify' initExpr
share|improve this answer
applyTill is apparently in the Prelude, under the name until, as I learnt from sdcvvc's answer. – Max Sep 22 '11 at 9:16
You can write ( (==) stableExpr ) as a section using (stableExpr ==). – icktoofay Jan 2 '15 at 0:33

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