As Alexander Poluektov already pointed out, the code you are trying to test can easily be separated into a pure and an impure part.
Nevertheless I think it is good to know how to test such impure functions in haskell.
The usual approach to testing in haskell is to use quickcheck and that's what I also tend to use for impure code.
Here is an example of how you might achieve what you are trying to do which gives you kind of a mock behavior * :
numCharactersInFile :: FilePath -> IO Int
numCharactersInFile fileName = do
contents <- readFile fileName
return (length contents)
Now provide an alternative function (Testing against a model):
numAlternative :: FilePath -> IO Integer
numAlternative p = bracket (openFile p ReadMode) hClose hFileSize
Provide an Arbitrary instance for the test environment:
data TestFile = TestFile String deriving (Eq,Ord,Show)
instance Arbitrary TestFile where
arbitrary = do
n <- choose (0,2000)
testString <- vectorOf n $ elements ['a'..'z']
return $ TestFile testString
Property testing against the model (using quickcheck for monadic code):
prop_charsInFile (TestFile string) =
length string > 0 ==> monadicIO $ do
(res,alternative) <- run $ createTmpFile string $
\p h -> do
alternative <- numAlternative p
testRes <- numCharactersInFile p
assert $ res == fromInteger alternative
And a little helper function:
createTmpFile :: String -> (FilePath -> Handle -> IO a) -> IO a
createTmpFile content func = do
tempdir <- catch getTemporaryDirectory (\_ -> return ".")
(tempfile, temph) <- openTempFile tempdir ""
hPutStr temph content
finally (func tempfile temph)
This will let quickCheck create some random files for you and test your implementation against a model function.
$ quickCheck prop_charsInFile
+++ OK, passed 100 tests.
Of course you could also test some other properties depending on your usecase.
* Note about the my usage of the term mock behavior:
The term mock in the object oriented sense is perhaps not the best here. But what is the intention behind a mock?
It let's you test code that needs access to a resource that usually is
- either not available at testing time
- or is not easily controllable and thus not easy to verify.
By shifting the responsibility of providing such a resource to quickcheck, it suddenly becomes feasible to provide an environment for the code under test that can be verified after a test run.
Martin Fowler describes this nicely in an article about mocks :
"Mocks are ... objects pre-programmed with expectations which form a specification of the calls they are expected to receive."
For the quickcheck setup I'd say that files generated as input are "pre-programmed" such that we know about their size (== expectation). And then they are verified against our specification (== property).