# Haskell recognition of arithmetic sequence

I'm Haskell newbie and I have the little problem. I'm trying to write a function that recognizes if list is arithmetic sequence or not.

I have this not working code:

``````isArithmSeq :: [Int] -> Bool
isArithmSeq [] = False;
isArithmSeq [x] = False;
isArithmSeq [x,y] = True;
isArithmSeq (x:y:xs) = (sum (x:y:xs)) == (sum [x,y..(last xs)])
``````

I have no idea how to make it work. Can anyone help me correct this?

Thx.

-

Try this:

``````isArithmSeq :: [Int] -> Bool
isArithmSeq [] = False
isArithmSeq [x] = False
isArithmSeq [x,y] = True
isArithmSeq (x:y:z:xs) = (x - y) == (y - z) && isArithmSeq (y:z:xs)
``````

You've defined a nice base case for a recursive definition. Now, you just need to check that the difference between successive elements is always the same. The reason that

``````isArithmSeq (x:y:xs) = (sum (x:y:xs)) == (sum [x,y..(last xs)])
``````

didn't work is because the sum is not the only requirement for an arithmetic sequence:

``````(sum [2,3,4,0,11,7]) == (sum [2,3,4,5,6,7])
``````
-
If an arithmetic sequence is "all successive differences equal" then the [] and [x] cases should be True, vacuously. There's a nice one-line using `all` and `zipWith`. –  pigworker May 16 '12 at 21:11
I too dislike the empty and single-element lists giving False, but that's how it looked like the question asker wanted it. I assumed they had that part working how they liked it. You're probably right that there are even cleverer ways to go about this. –  Neil Forrester May 16 '12 at 21:14