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160 lines
5.8 KiB
ReStructuredText
160 lines
5.8 KiB
ReStructuredText
Refinement Testing
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==================
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Déjà Fu also supports a form of property-testing where you can check
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things about the side-effects of stateful operations. For example, we
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can assert that ``readMVar`` is equivalent to sequencing ``takeMVar``
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and ``putMVar`` like so:
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.. code-block:: haskell
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prop_mvar_read_take_put =
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sig readMVar `equivalentTo` sig (\v -> takeMVar v >>= putMVar v)
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Given the signature function, ``sig``, defined in the next section.
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If we check this, our property fails!
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.. code-block:: none
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> check prop_mvar_read_take_put
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*** Failure: (seed Just 0)
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left: [(Nothing,Just 0)]
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right: [(Nothing,Just 0),(Just Deadlock,Just 0)]
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False
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This is because ``readMVar`` is atomic, whereas sequencing
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``takeMVar`` with ``putMVar`` is not, and so another thread can
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interfere with the ``MVar`` in the middle. The ``check`` and
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``equivalentTo`` functions come from ``Test.DejaFu.Refinement`` (also
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re-exported from ``Test.DejaFu``).
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Signatures
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----------
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A signature tells the property-tester something about the state your
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operation acts upon, it has a few components:
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.. code-block:: haskell
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data Sig s o x = Sig
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{ initialise :: x -> ConcIO s
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, observe :: s -> x -> ConcIO o
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, interfere :: s -> x -> ConcIO ()
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, expression :: s -> ConcIO ()
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}
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* ``s`` is the **state type**, it's the thing which your operations
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mutate. For ``readMVar``, the state is some ``MVar a``.
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* ``o`` is the **observation type**, it's some pure (and comparable)
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proxy for a snapshot of your mutable state. For ``MVar a``, the
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observation is probably a ``Maybe a``.
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* ``x`` is the **seed type**, it's some pure value used to construct
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the initial mutable state. For ``MVar a``, the seed is probably a
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``Maybe a``.
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* ``ConcIO`` is just one of the instances of ``MonadConc`` that Déjà
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Fu defines for testing purposes. Just write code polymorphic in the
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monad as usual, and all will work.
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The ``initialise``, ``observe``, and ``expression`` functions should
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be self-explanatory, but the ``interfere`` one may not be. It's the
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job of the ``interfere`` function to change the state in some way;
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it's run concurrently with the expression, to simulate the
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nondeterministic action of other threads.
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Here's a concrete example for our ``MVar`` example:
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.. code-block:: haskell
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sig :: (MVar ConcIO Int -> ConcIO a) -> Sig (MVar ConcIO Int) (Maybe Int) (Maybe Int)
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sig e = Sig
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{ initialise = maybe newEmptyMVar newMVar
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, observe = \v _ -> tryTakeMVar v
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, interfere = \v s -> tryTakeMVar v >> maybe (pure ()) (\x -> void $ tryPutMVar v (x * 1000)) s
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, expression = void . e
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}
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The ``observe`` function should be deterministic, but as it is run
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after the normal execution ends, it may have side-effects on the
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state. The ``interfere`` function can do just about anything [#]_,
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but a poor one may result in the property-checker being unable to
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distinguish between atomic and nonatomic expressions.
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.. [#] There are probably some concrete rules for a good function, but
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I haven't figured them out yet.
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Properties
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----------
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A property is a pair of signatures linked by one of three provided
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functions. These functions are:
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.. csv-table::
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:header: "Function", "Operator", "Checks that..."
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"``refines``", "``=>=``", "...the left is equivalent to, or strictly refines, the right"
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"``strictlyRefines``", "``->-``", "...the left has strictly fewer behaviours than the right"
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"``equivalentTo``", "``===``", "...the left and right have exactly the same behaviours"
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The signatures can have different state types, as long as the seed and
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observation types are the same. This lets you compare different
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implementations of the same idea: for example, comparing a concurrent
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stack implemented using ``MVar`` with one implemented using ``IORef``.
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Properties can have parameters, given in the obvious way:
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.. code-block:: haskell
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check $ \a b c -> sig1 ... `op` sig2 ...
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Under the hood, seed and parameter values are generated using the
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LeanCheck_ package, an enumerative property-based testing library.
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This means that any types you use will need to have a ``Listable``
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instance.
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.. _LeanCheck: https://hackage.haskell.org/package/leancheck
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You can also think about the three functions in terms of sets of
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results, where a result is a ``(Maybe Failure, o)`` value. A
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``Failure`` is something like deadlocking, or being killed by an
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exception; ``o`` is the observation type. An observation is always
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made, even if execution of the expression fails.
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.. csv-table::
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:header: "Function", "Result-set operation"
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"``refines``", "For all seed and parameter assignments, subset-or-equal"
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"``strictlyRefines``", "For at least one seed and parameter assignment, proper subset; for all others, subset-or-equal"
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"``equivalentTo``", "For all seed and parameter assignments, equality"
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Finally, there is an ``expectFailure`` function, which inverts the
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expected result of a property.
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The Déjà Fu testsuite has `a collection of refinement properties`__,
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which may help you get a feel for this sort of testing.
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.. __: https://github.com/barrucadu/dejafu/blob/2a15549d97c2fa12f5e8b92ab918fdb34da78281/dejafu-tests/Cases/Refinement.hs
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Using HUnit and Tasty
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---------------------
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As for unit testing, HUnit_ and tasty_ integration is provided for
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refinement testing in the hunit-dejafu_ and tasty-dejafu_ packages.
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.. _HUnit: https://hackage.haskell.org/package/HUnit
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.. _Tasty: https://hackage.haskell.org/package/tasty
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.. _hunit-dejafu: https://hackage.haskell.org/package/hunit-dejafu
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.. _tasty-dejafu: https://hackage.haskell.org/package/tasty-dejafu
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The ``testProperty`` function is used to check properties. Our example from the start becomes:
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.. code-block:: haskell
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testProperty "Read is equivalent to Take then Put" prop_mvar_read_take_put
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