# is there a lazy way to write the minus function (remove items from a list)?

My function looks like this:

``````minus :: (Eq a) => [a] -> [a] -> [a]
minus [] xs                      = []
minus (y:ys) xs | y `notElem` xs = y : (minus ys xs)
| otherwise      = minus ys xs
``````

It can be used like this:

``````[99,44,55,22,23423] `minus` [55,22]
``````

with output: `[99,44,23423]`

I wrote this because I'm looking at Project Euler problem 7, and the Sieve of Eratosthenes seems like the right tool, and it was, but I kept reading down the Wikipedia page and got to the part about Euler's sieve.

I tried to copy/paste the code and run it in GHCi, but my version of GHCi doesn't have a module called Data.OrdList, and I couldn't find a function called `minus` in Hoogle.

This is the code from Wikipedia:

`````` import Data.OrdList (minus)

primes = euler [2..]
euler (p : xs) = p : euler (xs `minus` map (*p) (p : xs))
``````

If I substitute my minus function in there, I get an out of memory error, because my function isn't lazy.

Is there a way to make a lazy minus function?

Does my minus function do the same as the minus function in the Wikipedia article?

-
Just as a note: hackage.haskell.org/package/primes contains a very efficient lazy sieve of Eratosthenes, based on priority queues and masking out many obvious non-primes from the list being searched. –  Carl Mar 15 '11 at 20:50

As sepp2k pointed out, the implementation of `minus` must assume ordered lists. Here goes a possible implementation:

``````minus :: Ord a => [a] -> [a] -> [a]
minus [] _ = []
minus xs [] = xs
minus l1@(x:xs) l2@(y:ys)
| x > y = minus l1 ys
| x < y = x : minus xs l2
| otherwise = minus xs l2
``````
-
An unofficial Haskell motto is "Avoiding success at all costs". I believe that laziness is what keeps the language away from the masses. Laziness is hard, even harder than monads. It's not explicit in the language, you have to analyze everything. Sometime, you want laziness (like in this post), but when you optimize your code, you may want strictness. I don't have enough experience with Haskell to be confident that the difficulties related to laziness/strictness will disappear with enough practice. –  gawi Oct 2 '10 at 18:14

Is there a way to make a lazy minus function?

If you don't assume that the input lists are ordered (and you're not allowed to sort them), there isn't. You'll need to know whether the first element of list1 is in list2 before you know what the first element of the result will be. So you can't get around having to evaluate the whole second list before producing a single element in the worst case.

However if you assume that the input lists are ordered (which the minus used by wikipedia clearly does as the module is called *Ord*List), it is very easy to write a minus function that is sufficiently lazy.

And since your input list is in fact ordered, such a minus function would work perfectly for your needs.

-

``````minus :: (Ord a) => [a] -> [a] -> [a]
minus = minusBy compare

minusBy :: (a -> a -> Ordering) -> [a] -> [a] -> [a]
minusBy cmp = loop
where
loop [] _ys = []
loop xs [] = xs
loop (x:xs) (y:ys)
= case cmp x y of
LT -> x : loop xs (y:ys)
EQ ->     loop xs ys
GT ->     loop (x:xs) ys
``````
-
Thanks! I wish I had thought to Google for Data.OrdList –  Matt Ellen Oct 2 '10 at 8:50