-- A pruner that uses twee. Does not respect types. {-# OPTIONS_HADDOCK hide #-} {-# LANGUAGE RecordWildCards, FlexibleContexts, FlexibleInstances, GADTs, PatternSynonyms, GeneralizedNewtypeDeriving, MultiParamTypeClasses, UndecidableInstances #-} module QuickSpec.Internal.Pruning.UntypedTwee where import QuickSpec.Internal.Testing import QuickSpec.Internal.Pruning import QuickSpec.Internal.Prop import QuickSpec.Internal.Term import QuickSpec.Internal.Type import Data.Lens.Light import qualified Twee import qualified Twee.Equation as Twee import qualified Twee.KBO as KBO import qualified Twee.Base as Twee import Twee hiding (Config(..)) import Twee.Rule hiding (normalForms) import Twee.Proof hiding (Config, defaultConfig) import Twee.Base(Ordered(..), Extended(..), Arity(..), EqualsBonus) import Control.Monad.Trans.Reader import Control.Monad.Trans.State.Strict hiding (State) import Control.Monad.Trans.Class import Control.Monad.IO.Class import QuickSpec.Internal.Terminal import qualified Data.Set as Set import Data.Set(Set) data Config = Config { cfg_max_term_size :: Int, cfg_max_cp_depth :: Int } lens_max_term_size = lens cfg_max_term_size (\x y -> y { cfg_max_term_size = x }) lens_max_cp_depth = lens cfg_max_cp_depth (\x y -> y { cfg_max_cp_depth = x }) instance (Pretty fun, PrettyTerm fun, Ord fun, Typeable fun, Twee.Sized fun, Arity fun, EqualsBonus fun) => Ordered (Extended fun) where lessEq = KBO.lessEq lessIn = KBO.lessIn newtype Pruner fun m a = Pruner (ReaderT (Twee.Config (Extended fun)) (StateT (State (Extended fun)) m) a) deriving (Functor, Applicative, Monad, MonadIO, MonadTester testcase term, MonadTerminal) instance MonadTrans (Pruner fun) where lift = Pruner . lift . lift run :: (Sized fun, Monad m) => Config -> Pruner fun m a -> m a run Config{..} (Pruner x) = evalStateT (runReaderT x config) initialState where config = defaultConfig { Twee.cfg_accept_term = Just (\t -> size t <= cfg_max_term_size), Twee.cfg_max_cp_depth = cfg_max_cp_depth } instance Sized fun => Sized (Twee.Term fun) where size (Twee.Var _) = 1 size (Twee.App f ts) = size (Twee.fun_value f) + sum (map size (Twee.unpack ts)) instance Sized fun => Sized (Twee.Extended fun) where size Twee.Minimal = 1 size (Twee.Skolem _) = 1 size (Twee.Function f) = size f type Norm fun = Twee.Term (Extended fun) instance (Ord fun, Typeable fun, Arity fun, Twee.Sized fun, PrettyTerm fun, EqualsBonus fun, Monad m) => MonadPruner (Term fun) (Norm fun) (Pruner fun m) where normaliser = Pruner $ do state <- lift get return $ \t -> let u = normaliseTwee state t in u -- traceShow (text "normalise:" <+> pPrint t <+> text "->" <+> pPrint u) u add ([] :=>: t :=: u) = Pruner $ do state <- lift get config <- ask lift (put $! addTwee config t u state) add _ = return () --error "twee pruner doesn't support non-unit equalities" normaliseTwee :: (Ord fun, Typeable fun, Arity fun, Twee.Sized fun, PrettyTerm fun, EqualsBonus fun) => State (Extended fun) -> Term fun -> Norm fun normaliseTwee state t = result (normaliseTerm state (simplifyTerm state (skolemise t))) normalFormsTwee :: (Ord fun, Typeable fun, Arity fun, Twee.Sized fun, PrettyTerm fun, EqualsBonus fun) => State (Extended fun) -> Term fun -> Set (Norm fun) normalFormsTwee state t = Set.map result (normalForms state (skolemise t)) addTwee :: (Ord fun, Typeable fun, Arity fun, Twee.Sized fun, PrettyTerm fun, EqualsBonus fun) => Twee.Config (Extended fun) -> Term fun -> Term fun -> State (Extended fun) -> State (Extended fun) addTwee config t u state = completePure config $ addAxiom config state axiom where axiom = Axiom 0 (prettyShow (t :=: u)) (toTwee t Twee.:=: toTwee u) toTwee :: (Ord f, Typeable f) => Term f -> Twee.Term (Extended f) toTwee = Twee.build . tt where tt (Var (V _ x)) = Twee.var (Twee.V x) tt (Fun f :@: ts) = Twee.app (Twee.fun (Function f)) (map tt ts) tt _ = error "partially applied term" skolemise :: (Ord f, Typeable f) => Term f -> Twee.Term (Extended f) skolemise = Twee.build . sk where sk (Var (V _ x)) = Twee.con (Twee.fun (Skolem (Twee.V x))) sk (Fun f :@: ts) = Twee.app (Twee.fun (Function f)) (map sk ts) sk _ = error "partially applied term"