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I have the following function that acts like an index operator:

let {
  index :: [a]->Int->Maybe a
  index [] i = error "Empty list"
  index l i = if i <= ((length l) - 1) && i >= 0 then 
      Just(l !! i) 
      error "Index out of bounds"

Now, initially i wrote this without using Just (and i still don't understand what it is after googling):

let {
  index :: [a]->Int->Maybe a
  index [] i = error "Empty list"
  index l i = if i <= ((length l) - 1) && i >= 0 then
      (l !! i) 
      error "Index out of bounds"

To me it the above function makes perfect sense. Because here i have a function that accepts a list of 'generic type' a and an Int which is the index and returns Maybe value of type a or throws runtime exception. However, i don't understand the bit where GHCi tells me this:

Couldn't match type `a' with `Maybe a'
  `a' is a rigid type variable bound by
      the type signature for index :: [a] -> Int -> Maybe a
      at <interactive>:1:34
Expected type: [Maybe a]
  Actual type: [a]
In the first argument of `(!!)', namely `l'
In the expression: (l !! i)

Now, why is GHCi getting confused with the type of l and why is it expecting a list of type Maybe a? Finally, how does Just resolve the problem?

share|improve this question
Code-Guru, now my code looks soothing to the eye after your edit :) – badmaash Jul 26 '12 at 21:03
Do you actually prefer to write your definitions on single lines as you originally posted? – gspr Jul 26 '12 at 21:04
Actually, i would never write such one-liners because i come from a C++/VB.NET background. Since Haskell gives me options to either do write-compile-execute or just write-execute, the laziness in me prefers the second option. Plus, i have just started learning it, so only 'toy programs' will be written like this. Maybe i do not know if i can split my code across multiple lines in GHCi, do i? – badmaash Jul 26 '12 at 21:12
LYAH has a decent explanation of Maybe, Just, and Nothing for beginners.… – Dan Burton Jul 27 '12 at 6:22
up vote 6 down vote accepted

You've specifically stated in your type annotation that your function index returns a Maybe a.

Maybe is a data type defined in Haskell thusly:

data Maybe a = Just a | Nothing

That is, it has two value constructors, Just :: a -> Maybe a and Nothing :: Maybe a. Thus, in order for you function to work correctly, it must return either a Just a or a Nothing.

This also means that you should be able to remove your error statements with a bit of thought and encode the actual error in the Nothing (ie. we were out of bounds, no element here!) and only return a result Just a if it makes sense.

share|improve this answer
For the sake of symmetry, it could be nice to write Nothing :: Maybe a instead of Nothing in the sentence about constructors, since you've given the type of Just, in case OP thinks the two are different beasts. – gspr Jul 26 '12 at 20:54
@gspr: You're obviously right! Fixed. – Sarah Jul 26 '12 at 21:02
Right, i will read even more about value-ctors, datatypes and type-classes...and i thought Haskell was going to be a joy-ride... :) – badmaash Jul 26 '12 at 21:18
Types are very important. If you are unsure, you can leave out type annotations and let ghc figure the types of your functions out for you. – Sarah Jul 26 '12 at 21:23

From the docs, Data.Maybe:

The Maybe type encapsulates an optional value. A value of type Maybe a either contains a value of type a (represented as Just a), or it is empty (represented as Nothing).

If you are looking for a type Maybe Int then your function will return either Nothing, or Just Int.

It is a simple kind of error monad, where all errors are represented by Nothing.

Essentially if Nothing is returned then something has happened which has resulted in the function not being able to find a result. The Just qualifier allows you to operate on these Maybe types.

share|improve this answer

You told GHC the return type of index as Maybe a. That means that (l !! i) (a value returned by index) must be of type Maybe a.

Since (l !! i) is selecting a single element out of the list l, that means l must be of type [Maybe a] in order for one of its elements to be Maybe a.

But l is the first argument to index, which you have also told GHC is typed [a].

That's exactly your error. GHC is trying to compile an index into a [Maybe a] to get a Maybe a, but instead it's found the thing being indexed is a [a].

The reason Just fixes this, is that Just is of type a -> Maybe a. So when you say Just (l !! i), GHC now sees you indexing a [a] to get an a, and then applying Just to that which results in a Maybe a, as expected.

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