# Checking to see if a list is ordered consecutively

Is there any library function in Haskell that'll allow me to check if a list is ordered consecutively? eg. [1,2,3,4] is valid, [1,2,3,10] is invalid.

Basically I can have a list that ranges anywhere between 3 to 5 elements and I'm trying to check if that list is ordered consecutively.

My Attempt (I'm not sure if this is the right way to approach it, seems to be way too much repetition)

``````isSucc:: [Integer] -> Bool
isSucc[]            = True
isSucc(x:y:zs)      =
if (x+1) == y
then True && isSucc(y:zs)
else isSucc(y:zs)
``````

After I have this function working, I'm planning on using it to filter a lists of lists (Keep the list inside the list only and only if it is ordered consecutively)

-

There's no standard function for that.

Here's a fixed version of your function, making it generic, removing the redundant conditions and adding the missing ones:

``````isSucc :: (Enum a, Eq a) => [a] -> Bool
isSucc [] = True
isSucc (x:[]) = True
isSucc (x:y:zs) | y == succ x = isSucc \$ y:zs
isSucc _ = False
``````
-

You can use the trick `zipWith f xs (drop 1 xs)` to apply `f` to consecutive pairs of list elements. (Notice `drop 1` rather than `tail`, because the latter fails if the list is empty!)

If you replace `f` with `<=` you'll get a list of `Bool` values. Now see whether they're all `True`.

``````isSucc xs = and \$ zipWith (<=) xs (drop 1 xs)
``````
-
Way to misunderstand the question! It should be clear how to change `f` to make this do what you want, however. –  MathematicalOrchid Mar 21 '13 at 8:24
I've never thought of doing a drop 1 instead. Seems like a better solution to implement but would `drop 1 xs` be more expensive compared to `(x:xs)`? –  user1043625 Mar 21 '13 at 8:35
Actually, `tail` is fine when used with `zipWith` in this case, as an accident of the order `zipWith` evaluates its arguments in. But it's not an accident that it evaluates its arguments in that order. –  Carl Mar 21 '13 at 8:53
Just for the record, in order to match the question, that would be `and \$ zipWith ((==) . succ) xs (tail xs)`. –  thoferon Mar 21 '13 at 10:02

I prefer to use a little more readable solution than one that has been offered by MathematicalOrchid.

First of all we will define the utilitarian function pairwise that might be useful in many different circumstances:

``````pairwise xs = zip xs \$ tail xs
``````

or in more modern way:

``````import Control.Applicative ((<*>))

pairwise = zip <*> tail
``````

and then use it with the other combinators:

``````isSucc xs = all (\(x,y) -> succ x == y) \$ pairwise xs
``````
-
This solution doesn't do what the OP wants, and is wrong in the same manner as the one by @MatemachicalOrchid. See my comment to his answer: stackoverflow.com/questions/15542328/… –  Iaroslav Kovtunenko Mar 21 '13 at 13:13
Iaroslav, you are totally right. I will edit the answer. –  Shaggie Mar 21 '13 at 13:43
I love how you used a function's instance of Applicative to compose with `<*>`. Still trying to wrap my head around it ) Mindbending stuff! –  Nikita Volkov Mar 21 '13 at 15:41

There is another way,

``````isOrdered :: (Enum a, Eq a) => (a -> a -> Bool) -> [a] -> Bool
isOrdered op (a:b:ls) = op a b && isOrdered op (b:ls)
isOrdered op _ = True
``````

Thus,

``````isSucc = isOrdered ((==) . succ)
``````
-
This is incorrect -- the OP wants to check that elements are consecutive, not just that they are ordered. You can correct this with `isSucc = isOrdered ((==) . succ)` –  kputnam Mar 21 '13 at 13:59
Ok, thanks for the comment, I've not got this refinement. –  zurgl Mar 21 '13 at 14:07
I'm so glad to see that every single poster misread the question in the same way as me. :-) –  MathematicalOrchid Mar 21 '13 at 20:27
This works for numeric types (hence the `Num a` constraint), including `Float` and `Double`. It's also easy to adapt if you want to check that a sequence is increasing by more than 5 at a time, say.