Let me first rewrite your function a bit, as

```
isListOk :: Bool
isListOk = length (filter isItemOk [1 .. 1000]) <= 3
```

is arguably more idiomatic than your version. (Note that I also changed the type signature as yours was incorrect. Furthermore, you should have written `1 .. 1000`

rather than `1.1000`

.)

Lazy evaluation is your best friend here, as it will typically make sure that no unnecessary computations will be performed.

Unfortunately, your use of `length`

(or mapping each element from a list to 1 and then summing the resulting list, as you do) is getting in the way here. That is, `length`

is strict in the spine of the list: it can only produce the length of the list if it evaluates it to its very end, which, in this case, means that your program will have to run your check a thousand times.

A solution would be to combine the computation of the length (i.e., the traversal of the spine of the list) and the test whether the computed length does not exceed a given threshold into a single function that is in fact lazy in the spine of its argument list:

```
isNotLongerThan :: [a] -> Integer -> Bool
isNotLongerThan [] n = n >= 0
isNotLongerThan (_ : xs) n = n >= 1 && isNotLongerThan xs (n - 1)
```

and then write

```
isListOk :: Bool
isListOk = filter isItemOk [1 .. 1000] `isNotLongerThan` 3
```

For a reusable solution, you can of course abstract over both the predicate and the threshold:

```
forNoMoreThan :: (a -> Bool) -> Integer -> [a] -> Bool
forNoMoreThan p n = (`isNotLongerThan` n) . filter p
isListOk :: Bool
isListOk = (isItemOk `forNoMoreThan` 3) [1 .. 1000]
```

Finally, as hammar points out, if your threshold is small enough and fixed, you may simply use pattern matching to determine whether a list is short enough.

`take`

and`list comprehension`

are lazy. Try to use`Int`

if you know that your number will not grow beyond the limit as it is much faster than`Integer`

. It is`Bool`

and not`Boolean`

.`isListOk`

should take a list argument. – Satvik Sep 20 '12 at 0:17