# haskell - Specifying # of conditions that are true

if I have 4 boolean conditions, and I want to say if at least 3 of these are true, then do __, is this possible to implement in Haskell?

Or would I have to go through each permutation? (ie, 1.True, 2.True, 3.True, 4.False and 1.False, 2.True, 3.True, 4.True. etc)

Thanks!

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Each permutation? Of course not.. you can count the number of conditions which are true.

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Yeah, when you get to 3 you can stop counting. –  Robert Harvey Oct 8 '12 at 0:54

This solution differs from the others provided so far in that it short circuits (ie, stops after finding `n` `Bool`s). So it can operate on some infinite lists (only those that would eventually evaluate to `True`), and won't necessarily force the evaluation of every element in the list (due to laziness).

``````atLeast :: Int -> [Bool] -> Bool
atLeast 0 _          = True
atLeast _ []         = False
atLeast n (True:bs)  = atLeast (n - 1) bs
atLeast n (False:bs) = atLeast n bs
``````
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If you want it to stop examining the list when you have found N numbers you can count with lazy natural numbers.

``````import Data.List
import Data.Number.Natural

atLeast :: Int -> [Bool] -> Bool
atLeast n = (>= (fromIntegral n :: Natural)) . genericLength . filter id
``````
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``````atleast :: Int -> [Bool] -> Bool
atleast n bools = length tn == n
where  tn = take n . filter id \$ bools
``````

should work lazily unless I missed something.

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``````atLeast3 :: Bool -> Bool -> Bool -> Bool -> Bool
atLeast3 b1 b2 b3 b4 = sum (map fromEnum [b1, b2, b3, b4]) >= 3
``````
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Maybe not a problem in this case, but what if the list `[b1,b2...bn]` is very large, is there a lazy way of comparing that doesn't need to go through the whole list? –  Magnus Kronqvist Oct 8 '12 at 7:52
@MagnusKronqvist, yes, see bisserlis, augustss or solrize's answer. –  huon-dbaupp Oct 8 '12 at 8:30

It's not the most beautiful way, but you might find

``````atLeast :: Int -> [Bool] -> Bool
atLeast n bools = length (filter (==True) bools) >= n
``````

easiest to understand. `filter` only keeps the things from your list that satisfy the rule you give it. In this case, the rule is that the answer has to be `True`. Next, `length` counts how many are left.

(A rule is a function `a -> Bool` where `a` is the type of element in your list).

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Or, `filter id bools`. –  augustss Oct 8 '12 at 6:34
Yes, like I say, not the most beautiful way, but perhaps easy to understand. I already upvoted Ptharien's Flame for that very point; please consider doing so too. –  AndrewC Oct 8 '12 at 6:40
This is actually the only place where I find writing `==True` defensible, so I won't argue with you. –  augustss Oct 8 '12 at 6:44
``````requireAtLeast :: Int -> [Bool] -> Bool
requireAtLeast n = (>= n) . length . filter id
``````

If you prefer extreme pointful or pointless forms, these are them, respectively:

``````requireAtLeast threshold predicates = length (filter (\predicate -> predicate) predicates) >= threshold

requireAtLeast = (. length . filter id) . (<=)
``````
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Love the use of `filter id`. `(filter (\predicate -> predicate) predicates)` made me chuckle. –  AndrewC Oct 8 '12 at 2:08