Sign up ×
Stack Overflow is a community of 4.7 million programmers, just like you, helping each other. Join them; it only takes a minute:

The >> operator for Monads in haskell is often defined as

(>>) :: m a -> m b -> m b
a >> b = a >>= \_ -> b

It can be used to print things like

main = putStr "foo" >> putStrLn "bar"

Why does the compiler not optimize away the value of putStr "foo" and just evaluate putStrLn "bar"? It doesn't need it so why compute it?

share|improve this question
What makes you think that it doesn't need it? – sepp2k Dec 15 '12 at 12:53
What (>>) does depends on your monad. In the IO monad it's defined to combine the effects from both operands. Exactly how this is done depends on the monad definition. – augustss Dec 15 '12 at 12:55
[(),()] >> [1,2,3] ~> [1,2,3,1,2,3]. Even for something simple and pure like lists, the first argument is needed, the result depends on it. – Daniel Fischer Dec 15 '12 at 12:58
For lists (and Maybe and some others), yes it only needs the structure, not the contained values. For something like State s, I don't see how one could meaningfully speak of the "structure" like one can for lists; there, the state is (potentially) needed. In ma >> mb, the value of type a that ma returns is usually not evaluated (it may be, e.g. in State s, the state may depend on the value put (if even n then [] else [n]) >> return n, so when mb needs to evaluate the state, the value returned by ma is also evaluated). What parts of ma are evaluated depends on the monad. – Daniel Fischer Dec 15 '12 at 14:24
@DanielFischer: I like to use the deliberately generic term "shape" for the portions of a Functor-y type that are neither constant nor parametric--the side effects of IO, choice of constructor in Maybe or [], the state value in State, &c. This "shape" is exactly what (>>) retains and exactly what fmap leaves unchanged, so it's a useful concept for clarifying how things behave. – C. A. McCann Dec 15 '12 at 16:20

3 Answers 3

up vote 10 down vote accepted

As Chris said, it depends on the monad. Identity or Reader won't evaluate the part in front of >>, because they don't need it to compute the result. Other monads, like Writer, Maybe, Either, State or IO will.

Let's take Maybe as an example. >>= is defined as

Nothing  >>= _  = Nothing
(Just x) >>= f  = f x

So if we expand >> we get

Nothing  >> _  = Nothing
(Just x) >> y  = y

So Maybe must evaluate what's in front of >> to see if the result will be Nothing or y.

IO is purposely defined in a way so that the action is evaluated whether its result is needed or not (otherwise it would be just impossible to use).

share|improve this answer

It depends on the monad. In IO is is evaluated. In Identity the first is not evaluated:

> import Control.Monad.Identity
> import Control.Monad.Trace
> let x = trace "x" $ return () :: Identity ()
> let y = trace "y" $ return () :: Identity ()
> runIdentity $ x >> y
share|improve this answer

Huh? Of course it needs the value of putStr "foo". It's evaluated in >>= - only the result of the action is thrown away, not the action itself if you want to think of monads as actions.

For example in a parser, that would mean throwing away the just parsed sequence - but it was still parsed, so the cursor is still being moved forward.

share|improve this answer
Compare with this expression, where haskell is smart enough to not try to find the last integer: const "foobar" . last $ [1..] – Erik Henriksson Dec 15 '12 at 12:58
@ErikHenriksson Yes, because the definition of const does not use its second argument. The same is not true for >>=. – sepp2k Dec 15 '12 at 13:02
@ErikHenriksson You're mixing up the monadic action putStr "foo" and the value produced by the monadic action putStr "foo". For instance, return [1..] >> putStrLn "Hello World" works just fine because the value [1..] is never evaluated, but return [1..] is. – Cubic Dec 15 '12 at 13:06

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.