Here's a fragment of the
.cabal file I used for one of my recent libraries.
Build-depends: base >= 4 && < 5, bytestring, directory, filepath, hslogger,
Hs-Source-Dirs: Test, .
Build-Depends: base >= 4 && < 5, bytestring, directory, filepath, hslogger,
Build-Depends: test-framework, test-framework-hunit, test-framework-quickcheck2,
As we can see the cabal file defines a library and a testsuite. The library defines the modules it exports, the packages it depends on, and sets some custom GHC options.
We can easily build and package the library for distribution with:
% cabal configure
% cabal build
% cabal sdist
The testsuite looks a lot like the the library: first off, it has the same dependencies as the library (see the first
Build-Depends line), and it then adds some extra test dependencies (see the second
Build-Depends line). The testsuite here is a combination of HUnit and QuickCheck tests, and it uses Test-Framework as the runner. The test proper is
Test/ReferenceProps.hs. It's a
exitcode-stdio type test. This means that cabal will say that the tests pass if
ReferenceProps exits with code 0. Otherwise, it will say the tests failed.
The testsuite looks like this (but, here, we're going to use some simple tests for list reversals):
main :: IO ()
main = defaultMainWithOpts
[ testCase "rev" testRev
, testProperty "listRevRevId" propListRevRevId
testRev :: Assertion
testRev = reverse [1, 2, 3] @?= [3, 2, 1]
propListRevRevId :: [Int] -> Property
propListRevRevId xs = not (null xs) ==> reverse (reverse xs) == xs
main is just a harness. You can also set various options for
test-framework by replacing the
mempty. The function
testRev is a HUnit test, and
propListRevRevId is a QuickCheck test; see the relevant docs on how to write these.
Finally, we can run the tests:
% cabal configure --enable-tests
% cabal test