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I would like to create a structure datatype called Structured that can be used to represent String, Int and List. For example, structure is like: [Int, String, Int,[Int]].

Question 1: how to create this datatype?

data Structured = ...

Question 2: A function called Confirm that confirms the input satisfies a restriction, and has the signature type of confirm:: Restriction -> Structure ->Maybe Bool

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closed as not constructive by Gene T, birryree, Jefffrey, berkes, Kim Stebel Dec 25 '12 at 19:16

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Is this homework? What have you tried? –  dave4420 Oct 22 '12 at 11:38
    
What possible restrictions are there? What does the Maybe Bool result from confirm mean? What does Nothing mean in this context, and how is this different from what Just True and Just False mean? –  dave4420 Oct 22 '12 at 11:41

1 Answer 1

up vote 8 down vote accepted
data Structured = Structured Int String Int [Int]

would work.

confirm :: (Structured -> Bool) -> Structured -> Bool

seems a more sensible type, but has a trivial implementation as id.

I don't think you would need to return Maybe Bool from a valudation function - Maybe a is good for when you usually resturn an a, but sometimes don't. (It's good for very simple error handling, for example - give Nothing if there was an error.) In this case, you can always make a conclusion as to whether your input was valid, so you can always give back True or False - no need for the Maybe.

Perhaps you could have something like

confirm :: (String -> Bool) -> (Int -> Bool) -> Structured -> Bool
confirm okString okInt (Structured int1 string int2 ints) =
       all okInt (int1:int2:ints) && okString string

Here int1:int2:ints is the list that has int1 in front of int2 in front of ints.

A slightly nicer way of defining Structured would be:

data Structured = Structured {
           length ::Int,
           name   ::String,
           width  ::Int,
           somenumbers :: [Int]}

then you'd have

confirm :: (String -> Bool) -> (Int -> Bool) -> Structured -> Bool
confirm okString okInt s =
       all okInt (length s:width s:somenumbers s) && okString (name s)

It does the same job as the first data declaration, but gives you functions for getting at the internals.

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