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

I'm just starting to take a look at Haskell (my previous FP experience is in Scheme), and I came across this code:

do { putStrLn "ABCDE" ; putStrLn "12345" }

To me, this is procedural programming, if anything -- especially because of the consecutive nature of side effects.

Would someone please explain how this code is "functional" in any respect?

share|improve this question
Side effects in haskell are captured by special structures called Monads. Monads maintain referential transparency. The code you posted lives in the IO Monad and is thus theoretically pure, though it's sometimes referred to as impure. – is7s Jun 19 '11 at 0:20
@Mehrdad, you're right, that's procedural, not functional. You could probably write a whole procedural program in Haskell (or any other functional language that supports I/O for that matter), but you shouldn't. This exists mainly as a compromise, because there are some things (such as I/O) that must be done sequentially. – rid Jun 19 '11 at 2:03
@Mehrdad, if the language did not have the do syntax, then you would need to write what Don Stewart answered by hand. And, as you can see, that is functional, and, therefore, pure. do is simply a convenience to make such tasks easier for when you really need functionality that can only be expressed procedurally. – rid Jun 19 '11 at 2:14
@Mehrdad: Haskell itself is pure, and functional by nature. The do notation is just syntactic sugar that lets you write code in imperative style, that gets translated to lambdas. What you put inside the do block is "procedural and imperative code" in exactly the same way that rolling your own vtable and inheritance system and whatnot in C lets you write "object-oriented code". – C. A. McCann Jun 19 '11 at 2:50
@Mehrdad Even if Haskell has a procedural language for IO there is a big difference between Haskell and Scheme. Say that you write [putStrLn "ABCDE", putStrLn "12345"] in Haskell. This will not do any IO. It's a list of two IO computations, but they have to "get in contact" with main to actually execute. So IO values really do behave like any other values in Haskell, except that main is special. – augustss Jun 19 '11 at 14:04
up vote 20 down vote accepted

While it appears to be a procedural program, the above syntax is translated into a functional program, like so:

   do { putStrLn "ABCDE" ; putStrLn "12345" }
   IO (\ s -> case (putStrLn "ABCDE" s) of
                  ( new_s, _ ) -> case (putStrLn "12345" new_s) of
                                      ( new_new_s, _) -> ((), new_new_s))

That is, a series of nested functions that have a unique world parameter threaded through them, sequencing calls to primitive functions "procedurally". This design supports an encoding of imperative programming into a functional language.

The best introduction to the semantic decisions underlying this design is "The Awkward Squad" paper,

enter image description here

share|improve this answer
I'm not thrilled by the state monad version of IO as an explanation, because that's not the only way to implement IO. IO really us abstract. Opening up the abstraction is dangerous, because what's inside the IO monad in ghc is not normal Haskell; the World token must be used linearly. – augustss Jun 19 '11 at 1:00
One advantage of the state monad explanation is that, by implicit analogy to the real, more transparent State, it makes it clearer that I/O indeed behaves as a monad, rather than simply saying "IO is a monad, use it to do I/O". – C. A. McCann Jun 19 '11 at 1:16
Please be careful. This explanation of IO is a persistent and misleading myth. See my comments on "How do functional programming languages work?". – Conal Jun 20 '11 at 7:47
Has anyone ever shown IO to be a monad? Or is it just unsubstantiated folklore. Since IO cannot be accurately explained as State, the monadness of State doesn't help. – Conal Jun 20 '11 at 7:52
For the current status of the "What is IO, and is it a monad" roconnor's recent post gives a good summary, – Don Stewart Jun 20 '11 at 13:55

I don't think we can answer this question clearly, because "functional" is a fuzzy notion, and there are contradictory ideas out there of what it means. So I prefer Peter Landin's suggested replacement term "denotative", which is precise and substantive and, for me, the heart & soul of functional programming and what makes it good for equational reasoning. See these comments for some pointers to Landin's definition. IO is not denotative.

share|improve this answer
Of course, values of some type IO a aren't themselves special, and can be reasoned about in all the ways that apply to values of arbitrary type; const x has the same semantics regardless of whether x has type Bool or IO String or anything else. – C. A. McCann Jun 20 '11 at 15:49
camccann: I'm not sure what you're trying to say here. It's const that has the same semantics in those three cases, while the meaning of x (and thus const x) differs from one case to the next. The type of a meaning is the meaning of the type, so where types differ, meanings do also. – Conal Jun 20 '11 at 18:50
Just trying to emphasize that any problems with IO don't "escape" to poison surrounding expressions. const x y has the same meaning as x and this remains true even if x doesn't actually have a well-defined meaning. This sounds trivial at first but it wouldn't necessarily be true in other languages; I guess you could say that Haskell's semantics have non-strict semantics. – C. A. McCann Jun 20 '11 at 19:05

Think about it this way. It doesn't actually "execute" the IO instructions. The IO monad is a pure value that encapsulates the "imperative computation" to be done (but it doesn't actually carry it out). You can put monads (computations) together into a bigger "computation" in a pure way using the monad operators and constructs like "do". Still, nothing is "executed" per se. In fact, in a way the whole purpose of a Haskell program is to put together a big "computation" that is its main value (which has type IO a). And when you run the program, it is this "computation" that is run.

share|improve this answer

This is a monad. Read about the do-notation for an explanation of what goes on behind the covers.

share|improve this answer
And weep with joy seeing all those lambdas. – delnan Jun 19 '11 at 0:21
I kind of understand, but I kind of don't... isn't "what goes on behind the covers" an implementation detail? For all I understand, my program is performing sequential actions; whether that's indeed syntactic sugar for something else, I'm not sure yet, but in any case, my source code is clearly sequential, isn't it? – Mehrdad Jun 19 '11 at 1:33
@delnan: Lol, I don't mind lambdas, they're pretty awesome. :) – Mehrdad Jun 19 '11 at 1:42

It isn't functional code. Why would it be?

share|improve this answer
It is. Every code is functional. Not every functional code is imperative. The example is a piece of functional code written in an imperative style; the example does not show what functional programming can do better than imperative. – comonad Jun 30 '11 at 21:26
-1 for being just plain incorrect. – alternative Jul 3 '11 at 19:10

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.