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I want to use Haskell custom operators in an application that involves arranging text and objects on an image. For instance, I'll have an operator that does vertical composition: placing one element above another. Let's call it |||.

Let's declare a data type Element to represent visual objects. One kind of visual element might be some text as specified in a string. Visually, this creates the words in some default font and size. Another kind of visual element might be a JPEG file. So we have

type Filename = String

data Element = EString String
             | EJpeg Filename
             | EVerticalComposition Element Element

I could declare the ||| operator as follows:

(|||) :: Element -> Element -> Element

However, for brevity I want to write something like this

composedElem = "some words" ||| "some words that appear below" 
               ||| "and more words"

Note that I don't want to have to add an EString in front of each string.

So I think I need ||| to be part of a typeclass that includes a String instance as well as an Element instance. I might have something like this:

class ImageClass a where
    (|||) :: a -> a -> a

instance ImageClass String where
    (|||) x y = EVerticalComposition x y

But assuming (|||) is left-associative and I use it in expressions of several terms such as above, I also need (|||) to operate sometimes on Elmeents, like

(|||) :: Element -> String -> Element

Is this even possible? Or, if so, is it worth it? I could also write my little program like this:

composedElem = EString "some Words" ||| "some words that appear below"
               ||| "and more words" 

But what about putting other kinds of elements with (|||)? I didn't want to put a constructor in front of everything, just for the sake of brevity, unless this is too complicated to implement.

share|improve this question
2  
Have you tried overloaded strings? – user2407038 Jun 18 '14 at 23:48
2  
When you find yourself writing a function with signature a -> a -> a, you should probably just declare a monoid instance. – leftaroundabout Jun 18 '14 at 23:50
    
By the way, what you are describing is the haskell diagram library. – PyRulez Jun 18 '14 at 23:53
1  
Do you mean diagrams? hackage.haskell.org/package/diagrams – composerMike Jun 19 '14 at 1:53
1  
@composerMike: Almost definitely. It's an awesome library! Take a look at their project page, which has more detail than the Hackage page. – Tikhon Jelvis Jun 19 '14 at 2:12
up vote 3 down vote accepted

The best way would be likely to use a class for converting custom types to an Element, and then have the operator ||| take generic parameters of that class.

Eg:

{-# LANGUAGE FlexibleInstances #-}
module Main where
type Filename = String

data Element = EString String
             | EJpeg Filename
             | EVerticalComposition Element Element
  deriving (Show)



class AsElement a where
  toElement :: a -> Element

instance AsElement Element where
  toElement = id
instance AsElement String where
  toElement = EString

(|||) :: (AsElement a, AsElement b) => a -> b -> Element
a ||| b = EVerticalComposition (toElement a) (toElement b)

infixl 4 |||




testElement1 :: Element
testElement1 = "this" ||| "that"

testElement2 :: Element
testElement2 = "this" ||| EJpeg "lol" ||| "another"

Results:

λ> testElement1
EVerticalComposition (EString "this") (EString "that")
λ> testElement2
EVerticalComposition (EVerticalComposition (EString "this") (EJpeg "lol")) (EString "another")

You could add more types just by adding more instances of AsElement.

share|improve this answer
    
Thanks, looks like the basic idea I was hunting for. This resembles GHC OverloadedStrings as mentioned in an earlier comment. – composerMike Jun 19 '14 at 7:46

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