When I open a file for reading in Haskell, I've found that I can't use the contents of the file after closing it. For example, this program will print the contents of a file:

main = do inFile <- openFile "foo" ReadMode
          contents <- hGetContents inFile
          putStr contents
          hClose inFile

I expected that interchanging the putStr line with the hClose line would have no effect, but this program prints nothing:

main = do inFile <- openFile "foo" ReadMode
          contents <- hGetContents inFile
          hClose inFile
          putStr contents

Why does this happen? I'm guessing it has something to do with lazy evaluation, but I thought these expressions would get sequenced so there wouldn't be a problem. How would you implement a function like readFile?

6 Answers 6


As others have stated, it is because of lazy evaluation. The handle is half-closed after this operation, and will be closed automatically when all data is read. Both hGetContents and readFile are lazy in this way. In cases where you're having issues with handles being kept open, typically you just force the read. Here's the easy way:

import Control.Parallel.Strategies (rnf)
-- rnf means "reduce to normal form"
main = do inFile <- openFile "foo" 
          contents <- hGetContents inFile
          rnf contents `seq` hClose inFile -- force the whole file to be read, then close
          putStr contents

These days, however, nobody is using strings for file I/O anymore. The new way is to use Data.ByteString (available on hackage), and Data.ByteString.Lazy when you want lazy reads.

import qualified Data.ByteString as Str

main = do contents <- Str.readFile "foo"
          -- readFile is strict, so the the entire string is read here
          Str.putStr contents

ByteStrings are the way to go for big strings (like file contents). They are much faster and more memory efficient than String (= [Char]).


I imported rnf from Control.Parallel.Strategies only for convenience. You could write something like it yourself pretty easily:

  forceList [] = ()
  forceList (x:xs) = forceList xs

This just forces a traversal of the spine (not the values) of the list, which would have the effect of reading the whole file.

Lazy I/O is becoming considered evil by experts; I recommend using strict bytestrings for most of file I/O for the time being. There are a few solutions in the oven which attempt to bring back composable incremental reads, the most promising of which is called "Iteratee" by Oleg.

  • 10
    Two comments. First, lots of people still use strings for file IO. They're perfectly fine, when what you want to get out of a file is a string! Second, Lazy IO is not considered evil by lots of folks, but it is considered tricky. It lets us do all sorts of neat things with a very low syntactic overhead, but at the cost of maintaining certain limited types of operational reasoning alongside equational reasoning.
    – sclv
    Nov 3, 2010 at 14:44
  • 3
    Came across this answer and thanks, @liqui! Just wanted to point out (3 years later) that your rnf should be: rnf contents 'seq' hClose inFile, with the backticks around seq. Also, rnf has been moved to Control.DeepSeq.
    – Xavier Ho
    Jun 8, 2011 at 11:10
  • @Peter, I think we were talking about lazy IO, which your comment does not address.
    – luqui
    Sep 18, 2011 at 16:34
  • "Lazy IO in serious, server-side programming is unprofessional" – Oleg Kiselyov Mar 12, 2012 at 14:36

[Update: Prelude.readFile causes problems as described below, but switching over to using Data.ByteString's versions of everything works: I no longer get the exception.]

Haskell newbie here, but currently I don't buy the claim that "readFile is strict, and closes the file when it's done":

go fname = do
   putStrLn "reading"
   body <- readFile fname
   let body' = "foo" ++ body ++ "bar"
   putStrLn body' -- comment this out to get a runtime exception.
   putStrLn "writing"
   writeFile fname body'
   return ()

That works as it stands on the file that I was testing with, but if you comment out the putStrLn then apparently the writeFile fails. (Interesting how lame Haskell exception messages are, lacking line numbers etc.?)

Test> go "Foo.hs"
Exception: Foo.hs: openFile: permission denied (Permission denied)


  • 1
    I just ran your code. GHCi says: openFile: resource busy (file is locked). That would be consistent with readFile being lazy. Aug 6, 2009 at 12:13

This is because hGetContents doesn't do anything yet: it's lazy I/O. Only when you use the result string the file is actually read (or the part of it that is needed). If you want to force it to be read, you can compute its length, and use the seq function to force the length to be evaluated. Lazy I/O can be cool, but it can also be confusing.

For more information, see the part about lazy I/O in Real World Haskell, for example.


As previously noted, hGetContents is lazy. readFile is strict, and closes the file when it's done:

main = do contents <- readFile "foo"
          putStr contents

yields the following in Hugs

> main

where foo is


Interestingly, seq will only guarantee that some portion of the input is read, not all of it:

main = do inFile <- openFile "foo" ReadMode
          contents <- hGetContents $! inFile
          contents `seq` hClose inFile
          putStr contents


> main

A good resource is: Making Haskell programs faster and smaller: hGetContents, hClose, readFile

  • 3
    readFile uses hGetContents and doesn't close the file. Its lazy, according to Real World Haskell and the source code itself. Jun 25, 2011 at 14:00
  • Firstly, readFile is not strict, as mentioned, secondly, the use of $! with hGetContents is wholly redundant. Jun 11, 2012 at 11:00

If you want to keep your IO lazy, but to do it safely so that errors such as this don't occur, use a package designed for this such as safe-lazy-io. (However, safe-lazy-io doesn't support bytestring I/O.)


The explanation is rather long to be included here. Forgive me for dispensing a short tip only: you need to read about "semi-closed file handles" and "unsafePerformIO".

In short - this behaviour is a design compromise between a semantic clearness and lazy evaluation. You should either postpone hClose until you are absolutely sure you woudnt be doing anything with the file content (like, call it in error handler, or somesuch), or use something else besides hGetContents to get file contents non-lazily.

  • Could you link any good things to read on these topics? I wasn't able to find much other than sparse documentation and mailing list messages about specific issues.
    – Jay Conrod
    Nov 17, 2008 at 21:16
  • I don't think unsafePerformIO is relevant here. Maybe unsafeInterleaveIO. Jun 11, 2012 at 11:01

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