I'm new to functional programming and recently learning at Learn You a Haskell, but when I went through this chapter, I got stuck with the program below:

import Control.Monad.Writer  

logNumber :: Int -> Writer [String] Int  
logNumber x = Writer (x, ["Got number: " ++ show x])  

multWithLog :: Writer [String] Int  
multWithLog = do  
    a <- logNumber 3  
    b <- logNumber 5  
    return (a*b)

I saved these lines in a .hs file and but failed to import it into my ghci which complained:

    Not in scope: data constructor `Writer'
    Perhaps you meant `WriterT' (imported from Control.Monad.Writer)
Failed, modules loaded: none.

I examined the type by ":info" command:

Prelude Control.Monad.Writer> :info Writer
type Writer w = WriterT w Data.Functor.Identity.Identity
               -- Defined in `Control.Monad.Trans.Writer.Lazy'

From my point of view, this was supposed to be something like "newtype Writer w a ..." so I'm confused about how to feed the data constructor and get a Writer.

I guess it might be a version-related problem and my ghci version is 7.4.1

  • 2
    For exercises, I recommend not importing the declaration and writing it on your own in the file.
    – sdcvvc
    Jul 27, 2012 at 10:43
  • 6
    I spoke to the author a while back, and he confirmed that the online version of the book is out of date. There's a more up-to-date version on PDF: [here] Dec 27, 2015 at 20:28
  • @Electric, I have the same question, could you please give a link? Your above link is broken.
    – anon
    Nov 28, 2017 at 14:38
  • 2
    @BulatM. Here you go Nov 29, 2017 at 12:13

3 Answers 3


The package Control.Monad.Writer does not export the data constructor Writer. I guess this was different when LYAH was written.

Using the MonadWriter typeclass in ghci

Instead, you create writers using the writer function. For example, in a ghci session I can do

ghci> import Control.Monad.Writer
ghci> let logNumber x = writer (x, ["Got number: " ++ show x])

Now logNumber is a function that creates writers. I can ask for its type:

ghci> :t logNumber
logNumber :: (Show a, MonadWriter [String] m) => a -> m a

Which tells me that the inferred type is not a function that returns a particular writer, but rather anything that implements the MonadWriter type class. I can now use it:

ghci> let multWithLog = do { a <- logNumber 3; b <- logNumber 5; return (a*b) }
    :: Writer [String] Int

(Input actually entered all on one line). Here I've specified the type of multWithLog to be Writer [String] Int. Now I can run it:

ghci> runWriter multWithLog
(15, ["Got number: 3","Got number: 5"])

And you see that we log all of the intermediate operations.

Why is the code written like this?

Why bother to create the MonadWriter type class at all? The reason is to do with monad transformers. As you correctly realised, the simplest way to implement Writer is as a newtype wrapper on top of a pair:

newtype Writer w a = Writer { runWriter :: (a,w) }

You can declare a monad instance for this, and then write the function

tell :: Monoid w => w -> Writer w ()

which simply logs its input. Now suppose you want a monad that has logging capabilities, but also does something else - say it can read from an environment too. You'd implement this as

type RW r w a = ReaderT r (Writer w a)

Now because the writer is inside the ReaderT monad transformer, if you want to log output you can't use tell w (because that only operates with unwrapped writers) but you have to use lift $ tell w, which "lifts" the tell function through the ReaderT so that it can access the inner writer monad. If you wanted two layers transformers (say you wanted to add error handling as well) then you'd need to use lift $ lift $ tell w. This quickly gets unwieldy.

Instead, by defining a type class we can make any monad transformer wrapper around a writer into an instance of writer itself. For example,

instance (Monoid w, MonadWriter w m) => MonadWriter w (ReaderT r m)

that is, if w is a monoid, and m is a MonadWriter w, then ReaderT r m is also a MonadWriter w. This means that we can use the tell function directly on the transformed monad, without having to bother with explicitly lifting it through the monad transformer.

  • 31
    "I guess this was different when LYAH was written." Right. That changed with mtl going from major version 1.* to 2.*, shortly after LYAH and RWH were written. Extremely unfortunate timing that led and leads to much confusion among beginners. Jul 27, 2012 at 9:23
  • 3
    I'm using GHC version 7.8.3 now and I had to import Control.Monad.Trans.Writer. In addition the type of logNumber is logNumber :: (Show a, Monad m) => a -> WriterT [[Char]] m a for me.
    – kmikael
    May 27, 2015 at 20:15
  • @kmikael You probably don't have the mtl library installed (which probably means you have a base installation of GHC, like minGHC, rather than the Haskell Platform). From a command prompt run cabal update and cabal install mtl and then try again. May 28, 2015 at 6:45
  • 1
    The printed copy of the book is correct instead. It includes a paragraph explaining that writer is used in place of Writer as the latter, the value ctor, is not exported by the module, whereas the former is, and it can be used to create the same value you would create with the ctor, but does not allow pattern matching.
    – Enlico
    Jun 3, 2020 at 19:59
  • 2
    @ChrisTaylor, today FlexibleContexts is needed for the let logNumber x = writer (x, ["Got number: " ++ show x]) line to be valid.
    – Enlico
    Jun 5, 2020 at 18:40

A function called "writer" is made available in lieu of a "Writer" constructor. Change:

logNumber x = Writer (x, ["Got number: " ++ show x])


logNumber x = writer (x, ["Got number: " ++ show x])

  • 9
    What does this add to the existing answers?
    – dfeuer
    May 18, 2016 at 4:34

I got a similar message from trying the LYAH "For a few Monads More" using the online Haskell editor in repl.it

I changed the import from:

import Control.Monad.Writer


import qualified Control.Monad.Trans.Writer.Lazy as W

So my code now works looking like this (with inspiration from Kwang's Haskell Blog):

import Data.Monoid
import qualified Control.Monad.Trans.Writer.Lazy as W

output :: String -> W.Writer [String] ()
output x = W.tell [x]

gcd' :: Int -> Int -> W.Writer [String] Int  
gcd' a b  
    | b == 0 = do  
        output ("Finished with " ++ show a)
        return a  
    | otherwise = do  
        output (show a ++ " mod " ++ show b ++ " = " ++ show (a `mod` b))
        gcd' b (a `mod` b)

main :: IO()
main = mapM_ putStrLn $ snd $ W.runWriter (gcd' 8 3) 

Code is currently runable here

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