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I have the following snippet of code, which I pass to withFile:

text <- hGetContents hand 
let code = parseCode text
return code

Here hand is a valid file handle, opened with ReadMode and parseCode is my own function that reads the input and returns a Maybe. As it is, the function fails and returns Nothing. If, instead I write:

text <- hGetContents hand 
putStrLn text
let code = parseCode text
return code

I get a Just, as I should.

If I do openFile and hClose myself, I have the same problem. Why is this happening? How can I cleanly solve it?


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Could you show the code where you use hClose yourself? It sounds like you're closing it before the input has been required. – Don Stewart May 7 '12 at 21:59
up vote 12 down vote accepted

hGetContents isn't too lazy, it just needs to be composed with other things appropriately to get the desired effect. Maybe the situation would be clearer if it were were renamed exposeContentsToEvaluationAsNeededForTheRestOfTheAction or just listen.

withFile opens the file, does something (or nothing, as you please -- exactly what you require of it in any case), and closes the file.

It will hardly suffice to bring out all the mysteries of 'lazy IO', but consider now this difference in bracketing

 good file operation = withFile file ReadMode (hGetContents >=> operation >=> print)
 bad file operation = (withFile file ReadMode hGetContents) >>= operation >>= print

-- *Main> good "lazyio.hs" (return . length)
-- 503
-- *Main> bad "lazyio.hs" (return . length)
-- 0

Crudely put, bad opens and closes the file before it does anything; good does everything in between opening and closing the file. Your first action was akin to bad. withFile should govern all of the action you want done that that depends on the handle.

You don't need a strictness enforcer if you are working with String, small files, etc., just an idea how the composition works. Again, in bad all I 'do' before closing the file is exposeContentsToEvaluationAsNeededForTheRestOfTheAction. In good I compose exposeContentsToEvaluationAsNeededForTheRestOfTheAction with the rest of the action I have in mind, then close the file.

The familiar length + seq trick mentioned by Patrick, or length + evaluate is worth knowing; your second action with putStrLn txt was a variant. But reorganization is better, unless lazy IO is wrong for your case.

$ time ./bad
bad: Prelude.last: empty list  
                        -- no, lots of Chars there
real    0m0.087s

$ time ./good
'\n'                -- right
real    0m15.977s

$ time ./seqing 
Killed               -- hopeless, attempting to represent the file contents
    real    1m54.065s    -- in memory as a linked list, before finding out the last char

It goes without saying that ByteString and Text are worth knowing about, but reorganization with evaluation in mind is better, since even with them the Lazy variants are often what you need, and they then involve grasping the same distinctions between forms of composition. If you are dealing with one of the (immense) class of cases where this sort of IO is inappropriate, take a look at enumerator, conduit and co., all wonderful.

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Using evaluate on the read String is pointless, as evaluate only evaluates to WHNF, i.e. the first (:) constructor. However, it might be appropriate to use it on the result of e.g. parsing the file, if that depends on the entire contents of the file. – hammar May 7 '12 at 20:23
Yes, this is stated in the documentation; I mentioned it because it is mentioned elsewhere here. – applicative May 7 '12 at 20:24
These length hacks are really revolting. – applicative May 7 '12 at 22:02

hGetContents uses lazy IO; it only reads from the file as you force more of the string, and it only closes the file handle when you evaluate the entire string it returns. The problem is that you're enclosing it in withFile; instead, just use openFile and hGetContents directly (or, more simply, readFile). The file will still get closed once you fully evaluate the string. Something like this should do the trick, to ensure that the file is fully read and closed immediately by forcing the entire string beforehand:

import Control.Exception (evaluate)

readCode :: FilePath -> IO Code
readCode fileName = do
    text <- readFile fileName
    evaluate (length text)
    return (parseCode text)

Unintuitive situations like this are one of the reasons people tend to avoid lazy IO these days, but unfortunately you can't change the definition of hGetContents. A strict IO version of hGetContents is available in the strict package, but it's probably not worth depending on the package just for that one function.

If you want to avoid the overhead that comes from traversing the string twice here, then you should probably look into using a more efficient type than String, anyway; the Text type has strict IO equivalents for much of the String-based IO functionality, as does ByteString (if you're dealing with binary data, rather than Unicode text).

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I would say it is worth depending on strict just for strict hGetContents; that's exactly what the package is for! Don't propagate NIH-syndrome. – Daniel Wagner May 7 '12 at 17:17
The definition of hGetContents in System.IO.Strict is the familiar hGetContents h = IO.hGetContents h >>= \s -> length s `seq` return s; it's the oldest trick in the book, not a novel idea from strict-0.3 – applicative May 7 '12 at 18:28

You can force the contents of text to be evaluated using

length text `seq` return code

as the last line.

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