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So I'm trying to define a function in Haskell that if given an integer and a list of integers will give a 'true' or 'false' whether the integer occurs only once or not.

So far I've got:

let once :: Eq a => a -> [a] -> Bool; once x l =

But I haven't finished writing the code yet. I'm very new to Haskell as you may be able to tell.

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4 Answers 4

Start off by using pattern matching:

once x [] =
once x (y:ys) = 

This won't give you a good program immediately, but it will lead you in the right direction.

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It's also often easier to tackle a more general problem. I suggest that the OP defines occursNTimes :: Eq a => Int -> a -> [a] -> Bool? –  Tom Ellis Apr 1 '14 at 17:26
@TomEllis For this case, I would even suggest that OP define a function occurrences :: Eq a => a -> [a] -> [a] that finds every instance of the element in the list, then it's a simple matter to determine how many times it has occurred. –  bheklilr Apr 1 '14 at 17:27
@TomEllis, that seems like overkill in this case. There's a Standard Prelude function that will fill out the definition I gave, but the OP could also write it. –  dfeuer Apr 1 '14 at 17:27
@bheklilr: Sure, or even count :: a -> [a] -> Int! –  Tom Ellis Apr 1 '14 at 17:35

Here's a solution that doesn't use pattern matching explicitly. Instead, it keeps track of a Bool which represents if a occurance has already been found.

As others have pointed out, this is probably a homework problem, so I've intentionally left the then and else branches blank. I encourage user3482534 to experiment with this code and fill them in themselves.

once :: Eq a => a -> [a] -> Bool
once a = foldr f False
    where f x b = if x == a then ??? else ???

Edit: The naive implementation I was originally thinking of was:

once :: Eq a => a -> [a] -> Bool
once a = foldr f False
    where f x b = if x == a then b /= True else b

but this is incorrect as,

λ. once 'x' "xxx"

which should, of course, be False as 'x' occurs more than exactly once.

However, to show that it is possible to write once using a fold, here's a revised version that uses a custom monoid to keep track of how many times the element has occured:

import Data.List
import Data.Foldable
import Data.Monoid

data Occur = Zero | Once | Many         
    deriving Eq

instance Monoid Occur where           
    mempty = Zero                      
    Zero `mappend` x    = x         
    x    `mappend` Zero = x      
    _    `mappend` _    = Many 

once :: Eq a => a -> [a] -> Bool
once a = (==) Once . foldMap f
    where f x = if x == a then Once else Zero

main = do                                
    let xss = inits "xxxxx"                        
    print $ map (once 'x') xss

which prints


as expected.

The structure of once is similar, but not identical, to the original.

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I don't think this works. At least, if I understand the specification correctly, as True meaning that the element occurs exactly once. –  dfeuer Apr 1 '14 at 18:01
Actually, I don't think it works for "at most once" either. –  dfeuer Apr 1 '14 at 18:02
No, this is not a fold at all. foldr kons knil (x:xs) = kons x (foldr kons knil xs). The second argument to kons just doesn't give enough information to decide. It's possible to use a fold as an auxiliary function, but once, either in the exact or the at most sense, can't be defined directly as a fold. –  dfeuer Apr 1 '14 at 18:08
This is not a fold over Bool. To use a fold you need at least a type with three values to represent 0,1,>=2 occurrences of a. –  chi Apr 1 '14 at 20:17
I just realized this has what could be considered an efficiency problem: it doesn't abort as soon as it sees a second copy. At first I thought the problem was just caused by the pattern matching in mappend being too strict, but that's not the (whole) problem: when the fold expands to mappend Once whatever, we only care whether whatever is Zero or not, but we are forced to calculate its exact value! –  dfeuer Apr 2 '14 at 5:19

I'll answer this as if it were a homework question since it looks like one.

Read about pattern matching in function declarations, especially when they give an example of processing a list. You'll use tools from Data.List later, but probably your professor is teaching about pattern matching.

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Let us know if your prof wants you using map, scan, etc. –  Jeff Burdges Apr 1 '14 at 17:33

Think about a function that maps values to a 1 or 0 depending on whethere there is a match ...

match :: a -> [a] -> [Int]
match x xs = map -- fill in the thing here such that
-- match 3 [1,2,3,4,5] == [0,0,1,0,0]

Note that there is the sum function that takes a list of numbers and returns the sum of the numbers in the list. So to count the matches a function can take the match function and return the counts.

countN :: a -> [a] -> Int
countN x xs = ? $ match x xs

And finally a function that exploits the countN function to check for a count of only 1. (==1).

Hope you can figure out the rest ...

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