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I started Intelligent System studies at a university and our first language is Haskell. I must admit that I am not really familiar with it so far. Part of this week's task is to develop an algebraic datatype Expr a which represents the basic arithmetic operations (+,-,*,/).

The solution IMO should be:

module Expression where

    data Expr a = Number a |
    Var |
    Sum (Expr a) (Expr a) |
    Prod (Expr a) (Expr a) |
    Div (Expr a) (Expr a) |
    Pot (Expr a) a
            deriving (Show)     

Okay so far. The task is to implement a pretty-instance for our function now. i.e.:


Plus ( Pot ( Var 2)) ( Num 3)


x^2 + 3

So, I had no idea what "pretty" means. After searching the internet I found out that "pretty" only means to rewrite the output in a human readable form. Is this correct? If it is, what does it mean to my function? Do I have to replace the show function with a pretty function? I don't really know where to start.

I read several similar questions here but didn't get the point there. I would really be happy if someone could give me some hints, advice, solutions or whatever!

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If you're unsure about the specification of the task, you should ask your professor to clarify. –  hammar Nov 21 '11 at 19:45

2 Answers 2

up vote 4 down vote accepted

Yes, that's what pretty print means.

Basically, you just need a function that converts an Expr a into a String:

myPrettyPrint :: Expr a -> String

Call it whatever you want, and don't try to replace show.

In order to implement this function, you'll probably want to learn about pattern matching.

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Why not declare Show classtype for the Expr? just curious? –  Roman Gonzalez Nov 21 '11 at 19:56
@RomanGonzalez: Show is meant as a form of lightweight serialization. It's not meant for pretty-printing, although people often abuse it that way. In particular, if a Read instance is also defined, one should be able to expect that read . show is the identity function. –  hammar Nov 21 '11 at 19:58
@hammar: Uhmm interesting, Why isn't there a PrettyShow classtype on Prelude so that people think about this a bit more? I've been overloading Show classtype all along for Pretty printing because I didn't know any better... –  Roman Gonzalez Nov 21 '11 at 20:13
@RomanGonzalez: There are several pretty-printing packages on Hackage you can write instances for. I don't think there needs to be one in the Prelude. –  hammar Nov 21 '11 at 20:36
@leftaroundabout: I can agree with that to an extent, as long as you follow the rule that show should be valid Haskell syntax. This is necessary for instances to cooperate properly with those of container types. For example, a Show instance should not return "]foo[", since that would break if you were to put it in a list. This does not mean that it must correspond to the compiler-derived instance. For example, the Show instance for Data.Set returns "fromList [...]" so that it doesn't expose the implementation-specific tree structure. –  hammar Nov 21 '11 at 20:51

I'd just implement show accordingly (instead of deriving from it), which can be done quite easily at least if you don't mind it to include unnecessary parentheses:

instance (show a) => show (Expr a) where
  show (Number x) = show x
  -- ...
  show (Prod x y) = "("++show x++")*("++show y++")"
  -- ...

This can be done better and more efficient, but perhaps this solution is sufficient for you.

It was said in comments above that show should be a lightwight means of serialization and should in particular fulfill (read . show) x = x. I agree, and it means that you should, for instance, not do any actual prettyprint stuff (like outputting to LaTeX, which would certainly be a nice way of outputting such data). It does, IMO, not mean that show should always behave like the derived instance, not if this output is unratifiably less readable, longer, and/or less clear if watched without the haskell code as context.

Another point hammar made in the comments above: the output of show should be valid haskell code. To make my solution conform to that you need to make Expr an instance of Num and either Fractional or Integral.

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