{-| __Internal module__: This module does not make any stability guarantees, and may not adhere to the PVP. This module implements the rose-tree data structure used by StrictCheck to monomorphize inputs to functions. We decouple the consumption of input from the production of output by converting any input to an @Input@: a lazily constructed rose tree with nodes each containing a @(Gen a -> Gen a)@ which captures a random perturbation associated with the shape of the value consumed. The tree-shape of an @Input@ matches that of the entire consumed value, and evaluating any subpart of it forces the evaluation of the corresponding part of the original value. -} module Test.StrictCheck.Internal.Inputs ( Variant(..) , Input(..) , Inputs(..) , draw , destruct ) where import Test.QuickCheck (Gen) -------------------------------------------------- -- The core user-facing types: Input and Inputs -- -------------------------------------------------- -- | A variant which can be applied to any generator--kept in a newtype to get -- around lack of impredicativity. newtype Variant = Variant { vary :: forall a. Gen a -> Gen a } instance Semigroup Variant where v <> w = Variant (vary v . vary w) instance Monoid Variant where mappend = (<>) mempty = Variant id -- | A tree representing all possible destruction sequences for a value -- Unfolding the contained lists forces a particular random control path -- for destructing the datatype. data Input = Input Variant [Input] -- ^ Not exposed in safe API -- | A list of inputs given to a function, in abstract form. This lazy structure -- is evaluated piecewise during the course of producing a function, thus -- triggering the partial evaluation of the original input to the function. newtype Inputs = Inputs [Input] -- ^ Not exposed in safe API -- | Extract the list of @Input@s from an @Inputs@ destruct :: Inputs -> [Input] destruct (Inputs is) = is -- | Extract the entropy and subfield-@Input@s from a given @Input@ draw :: Input -> (Variant, [Input]) draw (Input v is) = (v, is)