The concept of infinite lists should be easy to understand for anyone coming from an object-oriented background.
The trick is to think about Haskell lists not as arrays or even linked lists, but as iterator objects. An iterator object is an object that has two methods,
Normally, an iterator's
hasNext would return
False after a finite number of
getNext invocations. That is certainly true if you consider iterators tied to "real" collections such as arrays, hash maps, files etc.
But nothing inherently forces an iterator to be "finite". You could implement an infinite iterator very easily. In Haskell-like pseudocode:
object Iterator where
hasNext _ = True
getNext = do
state <- get
put (state + 1)
If you didn't know how this iterator is actually implemented, just by observing its behaviour you'd think that it's tied to an infinite (or at least very huge) collection. But it is just that — an object that returns consecutive numbers.
Another similar analogy is special files in UNIX, such as
/dev/random. If they were tied to real files on your hard disk, the disk would have to be infinite. But they are not — instead the contents is generated on demand by the kernel, and you can demand as much of it as you like.
Haskell's lazy lists work exactly like that, except they also "buffer" all the produced values, so that you can examine them repeatedly without doing repeated evaluation.