Stability | stable |
---|---|
Safe Haskell | None |
Language | Haskell2010 |
Hspec is a testing framework for Haskell.
This is the library reference for Hspec. The User's Manual contains more in-depth documentation.
- type Spec = SpecWith ()
- type SpecWith a = SpecM a ()
- type family Arg e :: *
- class Example e where
- module Test.Hspec.Expectations
- describe :: String -> SpecWith a -> SpecWith a
- context :: String -> SpecWith a -> SpecWith a
- it :: (HasCallStack, Example a) => String -> a -> SpecWith (Arg a)
- specify :: Example a => String -> a -> SpecWith (Arg a)
- example :: Expectation -> Expectation
- pending :: Expectation
- pendingWith :: String -> Expectation
- parallel :: SpecWith a -> SpecWith a
- runIO :: IO r -> SpecM a r
- type ActionWith a = a -> IO ()
- before :: IO a -> SpecWith a -> Spec
- before_ :: IO () -> SpecWith a -> SpecWith a
- beforeWith :: (b -> IO a) -> SpecWith a -> SpecWith b
- beforeAll :: IO a -> SpecWith a -> Spec
- beforeAll_ :: IO () -> SpecWith a -> SpecWith a
- after :: ActionWith a -> SpecWith a -> SpecWith a
- after_ :: IO () -> SpecWith a -> SpecWith a
- afterAll :: ActionWith a -> SpecWith a -> SpecWith a
- afterAll_ :: IO () -> SpecWith a -> SpecWith a
- around :: (ActionWith a -> IO ()) -> SpecWith a -> Spec
- around_ :: (IO () -> IO ()) -> SpecWith a -> SpecWith a
- aroundWith :: (ActionWith a -> ActionWith b) -> SpecWith a -> SpecWith b
- hspec :: Spec -> IO ()
Types
A type class for examples
Setting expectations
module Test.Hspec.Expectations
Defining a spec
describe :: String -> SpecWith a -> SpecWith a #
The describe
function combines a list of specs into a larger spec.
it :: (HasCallStack, Example a) => String -> a -> SpecWith (Arg a) #
The it
function creates a spec item.
A spec item consists of:
- a textual description of a desired behavior
- an example for that behavior
describe "absolute" $ do it "returns a positive number when given a negative number" $ absolute (-1) == 1
example :: Expectation -> Expectation Source #
example
is a type restricted version of id
. It can be used to get better
error messages on type mismatches.
Compare e.g.
it "exposes some behavior" $ example $ do putStrLn
with
it "exposes some behavior" $ do putStrLn
pending :: Expectation #
pending
can be used to indicate that an example is pending.
If you want to textually specify a behavior but do not have an example yet, use this:
describe "fancyFormatter" $ do it "can format text in a way that everyone likes" $ pending
pendingWith :: String -> Expectation #
pendingWith
is similar to pending
, but it takes an additional string
argument that can be used to specify the reason for why it's pending.
parallel :: SpecWith a -> SpecWith a #
parallel
marks all spec items of the given spec to be safe for parallel
evaluation.
Run an IO action while constructing the spec tree.
SpecM
is a monad to construct a spec tree, without executing any spec
items. runIO
allows you to run IO actions during this construction phase.
The IO action is always run when the spec tree is constructed (e.g. even
when --dry-run
is specified).
If you do not need the result of the IO action to construct the spec tree,
beforeAll
may be more suitable for your use case.
Hooks
type ActionWith a = a -> IO () #
An IO
action that expects an argument of type a
beforeWith :: (b -> IO a) -> SpecWith a -> SpecWith b #
Run a custom action before every spec item.
beforeAll_ :: IO () -> SpecWith a -> SpecWith a #
Run a custom action before the first spec item.
after :: ActionWith a -> SpecWith a -> SpecWith a #
Run a custom action after every spec item.
afterAll :: ActionWith a -> SpecWith a -> SpecWith a #
Run a custom action after the last spec item.
around :: (ActionWith a -> IO ()) -> SpecWith a -> Spec #
Run a custom action before and/or after every spec item.
around_ :: (IO () -> IO ()) -> SpecWith a -> SpecWith a #
Run a custom action before and/or after every spec item.
aroundWith :: (ActionWith a -> ActionWith b) -> SpecWith a -> SpecWith b #
Run a custom action before and/or after every spec item.