Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

As an exercise, I am implementing in Haskell a 'cons' operation that forms a pair from two values of any type. Implementing the needed data type is easy enough:

data Nil = Nil deriving (Eq)
data Pair a b = Cons a b deriving (Eq)

car (Cons x _) = x
cdr (Cons _ y) = y

caar = car . car
cdar = cdr . car
cadr = car . cdr
cddr = cdr . cdr

*Main> cddr (Cons 55 (Cons (1,2,3,4) "hello, world!"))
"hello, world!"

but inspired by this thread, I want to make the resulting pairs print out like Scheme lists would - including the infamous "improper list" (1 2 3 . 4). My implementation (see below) is working for Char's:

*Main> Cons 'a' (Cons 'b' (Cons 'c' Nil))
('a' 'b' 'c')
*Main> Cons 'a' (Cons 'b' 'c')
('a' 'b' . 'c')
*Main> Cons (Cons 'a' 'b')(Cons 'c' (Cons 'd' Nil))
(('a' . 'b') 'c' 'd')

It's not working so well for Int's (or any other data type). So my question is: how can I make this work for other data types? i.e., I want it to work like this:

*Main> Cons 5 (Cons "hello" (Cons False Nil))
(5 "hello" False)

My current full implementation follows:

data Nil = Nil deriving (Eq)
data Pair a b = Cons a b deriving (Eq)

car (Cons x _) = x
cdr (Cons _ y) = y

caar = car . car
cdar = cdr . car
cadr = car . cdr
cddr = cdr . cdr

instance Show Nil where show _ = "()"

class ShowPair a where

instance (Show a, ShowPair a, ShowPair b)=>Show (Pair a b) where
  show (Cons car cdr) = "(" ++ (show car) ++ (showRight cdr) ++ ")"

instance (Show a, ShowPair a, ShowPair b)=>ShowPair (Pair a b) where
  showRight (Cons car cdr) = " " ++ (show car) ++ (showRight cdr)

instance ShowPair Char where
  showRight x = " . " ++ show x

instance ShowPair Int where
  showRight x = " . " ++ show x

instance ShowPair Nil where
  showRight _ = ""
share|improve this question
Haskell comes with a builtin operation that can form a pair from two values of any type: (a, b). It can be spelled (,) a b if you want to be able to use it as you would a function. () then takes the part of your Nil. car is then spelled fst, and cdr is snd. – Ben Jan 31 '12 at 23:37
@Ben Understood - I knew it was likely that I was doing some wheel reinvention here. Is there any way to get pairs produced with (,) to print out like Scheme lists? – gcbenison Feb 1 '12 at 3:44
up vote 6 down vote accepted

Here's an option. First, enable these extensions by putting this line at the top of your file:

{-# LANGUAGE FlexibleInstances, OverlappingInstances, UndecidableInstances#-}

Next, remove your ShowPair instances for Char and Int.

Now add a ShowPair instance for anything with Show:

instance Show a => ShowPair a where showRight = (" . " ++) . show

This now ensures that any type a which is an instance of Show is also an instance of ShowPair where it is shown by prepending a . to its normal string form. However, if a type has a more specific ShowPair instance (e.g. Nil), Haskell will use that one instead.

This is not part of standard Haskell, so you need to enable the three language extensions. Look at How to write an instance for all types in another type class? for more information on why you need the extensions.

share|improve this answer
Thanks for this great explanation, and the link to the related post! – gcbenison Feb 1 '12 at 3:45

Ben in the comments to the question mentions the native pair type, which I'm going to use in this answer. I'm also going to substitute your Nil with the Haskell unit type ().

This is a bit outside what you're asking, but I think it's worth saying. It is difficult in Haskell to capture the notion of a "list" in Scheme unless you "cheat" and use an extension like Data.Dynamic. This is because from the point of view of "pure," unextended Haskell, it is difficult if not impossible to assign all Scheme lists the same type. This means that while Scheme allows you to write functions that take any list, proper or improper, you're going to have a hard time doing the same in Haskell (and for good reason; improper "lists" should probably not exist anyway).

So for example, you've basically chosen to use (a, b) as the type of Scheme-like pairs. Now suppose we have these Scheme lists:

(define zero  '())
(define one   '(1))
(define two   '(1 2))
(define three '(1 2 3))
(define four  '(1 2 3 4))

Here's a simple translation in terms of Haskell pairs, which corresponds to the way you're doing it:

zero :: ()
zero = ()

one :: (Integer, ())
one = (1, ())

two :: (Integer, (Integer, ()))
two = (1, (2, ()))

three :: (Integer, (Integer, (Integer, ())))
three = (1, (2, (3, ())))

four :: (Integer, (Integer, (Integer, (Integer, ()))))
four = (1, (2, (3, (4, ()))))

The key thing is that in Scheme you can easily write a function that ranges over all lists:

(define (reverse list)
 (foldl cons '() list))

(define (filter pred? list)
  (foldr (lambda (elem rest)
           (if (pred? elem)
               (cons elem rest)

(define (foldl fn init list)
  (if (null? list)
      (foldl fn (fn (car list) init) (cdr list))))

(define (foldr fn init list)
  (if (null? list)
      (fn (car list)
          (foldr fn init (cdr list)))))

In this Haskell translation, you cannot do that easily at all, because "lists" of different lengths have different types. And it gets worse when you consider the difference between reverse (which takes a list of length n and produces a list of length n) and filter (which takes a list of length n and produces a list of length mn such that m can only be known at runtime).

share|improve this answer
Hmm, yes - I see how it would get awkward to try to implement filter and reverse in Haskell for a "list of whatevers" - even though cadr, cddr etc. are pretty easy – gcbenison Feb 1 '12 at 4:54

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.