I'm trying to select unique elements from a list like this:
x = [1,1,2,3,4] s = [e | e <- x, not (e `elem` s)]
It doesn't produce errors, but when I try to read from
s it seems like the program hangs. Why?
Plus, what's the right way to do this?
I'm not much of a Haskell-er, but this seems like you've just coded up something sort of like1 Russell's paradox. Aren't you asking for a list
So, consider what happens when you try to ask for the first element of
In general suppose that some
Note that while Russel's Paradox helps to suggest that this might be non-computable, it still fails even if you change it to
Here's an instructive manual expansion. For any non-empty list,
which we can then begin evaluating. Since
which is where we have our infinite loop—in order to evaluate
which is kick-started with
If we don't have the not there, it just switches the order of the branches on the
The above is not meant to be the most efficient solution, but demonstrating how you could reason about the solution: in order to include the element of x only once, we need to make sure it is the last such element in x. This means we can search for occurrence of the element in the tail of the list. Data.List.tails produces all sublists of the list, so we can include the head of a sublist, if it doesn't appear in the remainder of the sublist - this is the condition that the head of the sublist is the last such element in the original list.
Referencing the value you are defining can cause unterminating computation, if the function using the value is strict (eager). The function is strict, if it always needs the complete value of the argument in order to produce a result.
For example, length is strict in the number of elements of the list - but not necessarily the actual elements of the list. So
can terminate even for infinite lists, because it doesn't need to evaluate the entire list.
Your function hangs because elem is strict. In order to test for non-existence of a element, it needs to evaluate the entire list, which is not available.