# Get Index of Num Array in Haskell

I would need to get the position of an Int Array. I found the method `elemIndex` or `find` to get the position. My problem is, that I don't need the prefix Just 5 for example. So how I only get the number 5 in my example?

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What do you want to return if the element is not in the list? –  Dogbert Nov 3 '13 at 14:04

Use `fromJust` from `Data.Maybe`. Like:

``````fromJust \$ elemIndex 2 [1,2,3,4,5]
``````

And you will get only `1`.

But, this will fail if you don't have desired element in the list and you'll get an exception:

``````*** Exception: Maybe.fromJust: Nothing
``````
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Use `fromJust` only if you can show that the element you are looking for exists in the list. In any other case, Haskell has fantastic facilities for manipulating things inside a Maybe value – so you can keep the `Just` around until you are sure you can safely drop it and still return a sensible value. –  kqr Nov 3 '13 at 14:13
that will work great for me. the element I am searching for is definitely in the list so I wont get an error message. thank you very much –  user2925688 Nov 3 '13 at 14:18
Even in this case you should probably use `fromMaybe` that allows you to specify a default case (for Nothing) and put a precise error in there that'll allows you to pinpoint the source of the problem if you were wrong because the default error message won't be much help... So something like `fromMaybe (error "Impossible ! The element should be in the list in this function _fun_") \$ elemIndex...` –  Jedai Nov 3 '13 at 14:22

## The principle

To safely extract a value from a `Maybe a` value, you can either use pattern matching, like so:

``````case elemIndex 'C' list of
Just n -> "You can find C at position " ++ show n
Nothing -> "There is no C in the list."
``````

This will return something like

``````"You can find C at position 2"
``````

or

``````"There is no C in the list."
``````

depending on whether or not there is a C in the list.

## Making it convenient

Of course, this kind of pattern matching is unwieldy to write all the time, so there exists a function called `maybe` that does pretty much the same thing. If you look at its type signature, you see that

``````maybe :: b -> (a -> b) -> Maybe a -> b
``````

So it takes a "default value" of type `b`, and a function from `a` to `b`, and will return a `b`. Whether or not this is the default value depends on whether or not the `Maybe a` value exists or is `Nothing`. For example, if you want to check if a list element is allowed entry into an 18+ club, you can do

``````maybe False (\n -> n >= 18) (elemIndex 'C' list)
``````

This will say False if the index is less than 18 or if the element doesn't exist in the list. If it does exist, it will check if it's greater or equal to 18, and then return True.

## Keeping the `Just`

What I've told you so far is how to get rid of the `Just` in a safe way. Sometimes, you can't get rid of the `Just` just yet – sometimes you have no sensible value to return if you have a `Nothing` on your hands instead of the `Just`. What you can do then is manipulate values when they are still inside the `Just`. For example, to subtract 15 from a value inside a just, you just do

``````fmap (subtract 15) (Just 23)
``````

which will return

``````Just 8
``````

So you see how `fmap` sort of takes a `Just something` value and applies the function to the `something` part of it, keeping the `Just` outside. If you would do

``````fmap (subtract 15) Nothing
``````

it would just keep the `Nothing`, so the result would be

``````Nothing
``````

## Making it unsafe (kids, don't try this at home!)

`Maybe` is great because it is an error handling system that forces you to Do Things Right. You just can't ignore the possibility of an error (represented by `Nothing`.) Another common error handling system is terrible with this. That system is the system of exceptions. Nobody will know if you blatantly ignore that an exception can occur, which is a basis for very unsafe programs.

So you really want to keep the `Just` until you can toss it away and at the same time replace a potential `Nothing` value with something sensible.

If you can guarantee that there is no possibility of a `Nothing` value. If you know for sure that everytime you call `elemIndex` the element is going to be somewhere in the list, then it's okay to use `fromJust`. `fromJust` will blindly try to take a value out of a `Just`, without giving a dang about what happens if there is no `Just` there. `fromJust` will simply explode your program (throw an exception) if something went wrong.

As you understand, you have to use it with much care.

## Being unsafe with style

However, as Jedai points out in a comment, even if you shouldn't be able to get a `Nothing` value, it is better to be explicit about it. Instead of using `fromJust`, consider doing something like

``````fromMaybe (error "The input " ++ show list ++ " shouldn't create a Nothing value!")
(elemIndex 'C' list)
``````

which will blow up with a very specific error message, pinpointing where something must have gone wrong.

This is of course the same thing as the pattern match that looks like

``````case elemIndex 'C' list of
Just n -> n
Nothing -> error "The input " ++ show list ++ " shouldn't create a Nothing value!"
``````

only compacted into the standard `fromMaybe` function.

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