Safe Haskell | None |
---|---|
Language | Haskell2010 |
Unit testing support for tasty, inspired by the HUnit package.
Here's an example (a single tasty test case consisting of three assertions):
import Test.Tasty import Test.Tasty.HUnit main = defaultMain $ testCase "Example test case" $ do -- assertion no. 1 (passes) 2 + 2 @?= 4 -- assertion no. 2 (fails) assertBool "the list is not empty" $ null [1] -- assertion no. 3 (would have failed, but won't be executed because -- the previous assertion has already failed) "foo" @?= "bar"
- testCase :: TestName -> Assertion -> TestTree
- testCaseInfo :: TestName -> IO String -> TestTree
- testCaseSteps :: TestName -> ((String -> IO ()) -> Assertion) -> TestTree
- assertFailure :: HasCallStack => String -> IO a
- assertBool :: HasCallStack => String -> Bool -> Assertion
- assertEqual :: (Eq a, Show a, HasCallStack) => String -> a -> a -> Assertion
- (@=?) :: (Eq a, Show a, HasCallStack) => a -> a -> Assertion
- (@?=) :: (Eq a, Show a, HasCallStack) => a -> a -> Assertion
- (@?) :: (AssertionPredicable t, HasCallStack) => t -> String -> Assertion
- class AssertionPredicable t where
- type Assertion = IO ()
- data HUnitFailure = HUnitFailure (Maybe SrcLoc) String
- type HasCallStack = ?callStack :: CallStack
- assertString :: HasCallStack => String -> Assertion
- class Assertable t where
- type AssertionPredicate = IO Bool
Constructing test cases
testCaseInfo :: TestName -> IO String -> TestTree Source #
Like testCase
, except in case the test succeeds, the returned string
will be shown as the description. If the empty string is returned, it
will be ignored.
testCaseSteps :: TestName -> ((String -> IO ()) -> Assertion) -> TestTree Source #
Create a multi-step unit test.
Example:
main = defaultMain $ testCaseSteps "Multi-step test" $ \step -> do step "Preparing..." -- do something step "Running part 1" -- do something step "Running part 2" -- do something assertFailure "BAM!" step "Running part 3" -- do something
The step
calls are mere annotations. They let you see which steps were
performed successfully, and which step failed.
You can think of step
as putStrLn
, except putStrLn
would mess up the output with the
console reporter and get lost with the others.
For the example above, the output will be
Multi-step test: FAIL Preparing... Running part 1 Running part 2 BAM! 1 out of 1 tests failed (0.00s)
Note that:
- Tasty still treats this as a single test, even though it consists of multiple steps.
- The execution stops after the first failure. When we are looking at a failed test, we know that all displayed steps but the last one were successful, and the last one failed. The steps after the failed one are not displayed, since they didn't run.
Constructing assertions
:: HasCallStack | |
=> String | A message that is displayed with the assertion failure |
-> IO a |
Unconditionally signals that a failure has occured. All other assertions can be expressed with the form:
if conditionIsMet then return () else assertFailure msg
:: HasCallStack | |
=> String | The message that is displayed if the assertion fails |
-> Bool | The condition |
-> Assertion |
Asserts that the specified condition holds.
:: (Eq a, Show a, HasCallStack) | |
=> String | The message prefix |
-> a | The expected value |
-> a | The actual value |
-> Assertion |
Asserts that the specified actual value is equal to the expected value. The output message will contain the prefix, the expected value, and the actual value.
If the prefix is the empty string (i.e., ""
), then the prefix is omitted
and only the expected and actual values are output.
:: (Eq a, Show a, HasCallStack) | |
=> a | The expected value |
-> a | The actual value |
-> Assertion |
Asserts that the specified actual value is equal to the expected value (with the expected value on the left-hand side).
:: (Eq a, Show a, HasCallStack) | |
=> a | The actual value |
-> a | The expected value |
-> Assertion |
Asserts that the specified actual value is equal to the expected value (with the actual value on the left-hand side).
:: (AssertionPredicable t, HasCallStack) | |
=> t | A value of which the asserted condition is predicated |
-> String | A message that is displayed if the assertion fails |
-> Assertion |
An infix and flipped version of assertBool
. E.g. instead of
assertBool "Non-empty list" (null [1])
you can write
null [1] @? "Non-empty list"
@?
is also overloaded to accept
predicates, so instead
ofIO
Bool
do e <- doesFileExist "test" e @? "File does not exist"
you can write
doesFileExist "test" @? "File does not exist"
class AssertionPredicable t where Source #
An ad-hoc class used to overload the @?
operator.
The only intended instances of this class are
and Bool
.IO
Bool
You shouldn't need to interact with this class directly.
assertionPredicate :: t -> IO Bool Source #
Data types
type Assertion = IO () Source #
An assertion is simply an IO
action. Assertion failure is indicated
by throwing an exception, typically HUnitFailure
.
Instead of throwing the exception directly, you should use
functions like assertFailure
and assertBool
.
Test cases are composed of a sequence of one or more assertions.
data HUnitFailure Source #
Exception thrown by assertFailure
etc.
Accurate location for domain-specific assertion functions
It is common to define domain-specific assertion functions based on the standard ones, e.g.
assertNonEmpty = assertBool "List is empty" . not . null
The problem is that if a test fails, tasty-hunit will point to the
definition site of assertNonEmpty
as the source of failure, not
its use site.
To correct this, add a HasCallStack
constraint (re-exported from
this module) to your function:
assertNonEmpty :: HasCallStack => [a] -> Assertion assertNonEmpty = assertBool "List is empty" . not . null
type HasCallStack = ?callStack :: CallStack #
Request a CallStack.
NOTE: The implicit parameter ?callStack :: CallStack
is an
implementation detail and should not be considered part of the
CallStack
API, we may decide to change the implementation in the
future.
Since: 4.9.0.0
Deprecated functions and types
These definitions come from HUnit, but I don't see why one would need them. If you have a valid use case for them, please contact me or file an issue for tasty. Otherwise, they will eventually be removed.
:: HasCallStack | |
=> String | The message that is displayed with the assertion failure |
-> Assertion |
Deprecated: Why not use assertBool instead?
Signals an assertion failure if a non-empty message (i.e., a message
other than ""
) is passed.
class Assertable t where Source #
Deprecated: This class or type seems dubious. If you have a good use case for it, please create an issue for tasty. Otherwise, it may be removed in a future version.
Allows the extension of the assertion mechanism.
Since an Assertion
can be a sequence of Assertion
s and IO
actions,
there is a fair amount of flexibility of what can be achieved. As a rule,
the resulting Assertion
should be the body of a TestCase
or part of
a TestCase
; it should not be used to assert multiple, independent
conditions.
If more complex arrangements of assertions are needed, Test
s and
Testable
should be used.
Assertable Bool Source # | |
Assertable () Source # | |
Assertable String Source # | |
Assertable t => Assertable (IO t) Source # | |
type AssertionPredicate = IO Bool Source #
Deprecated: This class or type seems dubious. If you have a good use case for it, please create an issue for tasty. Otherwise, it may be removed in a future version.
The result of an assertion that hasn't been evaluated yet.
Most test cases follow the following steps:
- Do some processing or an action.
- Assert certain conditions.
However, this flow is not always suitable. AssertionPredicate
allows for
additional steps to be inserted without the initial action to be affected
by side effects. Additionally, clean-up can be done before the test case
has a chance to end. A potential work flow is:
- Write data to a file.
- Read data from a file, evaluate conditions.
- Clean up the file.
- Assert that the side effects of the read operation meet certain conditions.
- Assert that the conditions evaluated in step 2 are met.