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Consider this:

ruleset = [rule0, rule1, rule2, rule3, rule4, rule5]

where rule0, rule1, etc. are boolean functions that take one argument. What is the cleanest way to find if all elements of a particular list satisfy all the rules in the ruleset?

Obviously, a loop would work, but Haskell folks always seem to have clever one-liners for these types of problems.

The all function seems appropriate (eg. all (== check_one_element) ruleset) or nested maps. Also, map ($ anElement) ruleset is roughly what I want, but for all elements.

I'm a novice at Haskell and the many ways one could approach this problem are overwhelming.

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What's a loop? ;) –  גלעד ברקן Feb 9 '13 at 20:16

4 Answers 4

up vote 12 down vote accepted

If you require all the functions to be true for each argument, then it's just

and (ruleset <*> list)

(You'll need to import Control.Applicative to use <*>.)


When <*> is given a pair of lists, it applies each function from the list on the left to each argument from the list on the right, and gives back a list containing all the results.

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Thanks! I wouldn’t have thought of that. –  Artyom Feb 9 '13 at 20:11
Thanks, this is clever and definitely the cleanest, but the need to import Control.Applicative might be a deal-breaker. –  David Chouinard Feb 9 '13 at 20:17
Really great answer. Just for completeness, could also use ap from Control.Monad as and (ruleset `ap` list). –  Petr Pudlák Feb 9 '13 at 20:18
@David: If you want to get along without Control.Applicative, use a list comprehension: and [ r v | r <- rs, v <- vs ]. If this is about shortest code stuff: and$rs>>=(`map`xs) –  ertes Feb 9 '13 at 20:38
Thanks all, tremendously appreciated. (I checked and I think importing Control.Applicative is actually probably fine for my application) –  David Chouinard Feb 9 '13 at 20:44

A one-liner:

import Control.Monad.Reader

-- sample data
rulesetL = [ (== 1), (>= 2), (<= 3) ]
list = [1..10]

result = and $ concatMap (sequence rulesetL) list

(The type we're working on here is Integer, but it could be anything else.)

Let me explain what's happening: rulesetL is of type [Integer -> Bool]. By realizing that (->) e is a monad, we can use

sequence :: Monad m => [m a] -> m [a]

which in our case will get specialized to type [Integer -> Bool] -> (Integer -> [Bool]). So

sequence rulesetL :: Integer -> [Bool]

will pass a value to all the rules in the list. Next, we use concatMap to apply this function to list and collect all results into a single list. Finally, calling

and :: [Bool] -> Bool

will check that all combinations returned True.

Edit: Check out dave4420's answer, it's nicer and more concise. Mine answer could help if you'd need to combine rules and apply them later on some lists. In particular

liftM and . sequence :: [a -> Bool] -> (a -> Bool)

combines several rules into one. You can also extend it to other similar combinators like using or etc. Realizing that rules are values of (->) a monad can give you other useful combinators, such as:

andRules = liftM2 (&&) :: (a -> Bool) -> (a -> Bool) -> (a -> Bool)
orRules  = liftM2 (||) :: (a -> Bool) -> (a -> Bool) -> (a -> Bool)
notRule  = liftM not :: (a -> Bool) -> (a -> Bool)
         -- or just (not .)

etc. (don't forget to import Control.Monad.Reader).

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An easier-to-understand version (without using Control.Applicative):

satisfyAll elems ruleset = and $ map (\x -> all ($ x) ruleset) elems
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Personally, I like this way of writing the function, as the only combinator it uses explicitly is and:

allOkay ruleset items = and [rule item | rule <- ruleset, item <- items]
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