module Language.Fixpoint.Types.Graduals (
uniquify,
makeSolutions,
GSol,
Gradual (..)
) where
import Language.Fixpoint.Types.Refinements
import Language.Fixpoint.Types.Constraints
import Language.Fixpoint.Types.Config
import Language.Fixpoint.Types.PrettyPrint
import Language.Fixpoint.Types.Environments
import Language.Fixpoint.Types.Substitutions
import Language.Fixpoint.Types.Visitor
import Language.Fixpoint.Types.Spans
import Language.Fixpoint.Types.Theories
import Language.Fixpoint.Types.Names (gradIntSymbol, tidySymbol)
import Language.Fixpoint.Misc (allCombinations, errorstar)
import Control.DeepSeq
import qualified Data.HashMap.Strict as M
import qualified Data.List as L
import Control.Monad.State.Lazy
import Data.Maybe (fromMaybe)
import qualified Language.Fixpoint.SortCheck as So
import Language.Fixpoint.Solver.Sanitize (symbolEnv)
data GSol = GSol !SymEnv !(M.HashMap KVar (Expr, GradInfo))
instance Monoid GSol where
mempty = GSol mempty mempty
mappend (GSol e1 m1) (GSol e2 m2) = GSol (mappend e1 e2) (mappend m1 m2)
instance Show GSol where
show (GSol _ m) = "GSOL = \n" ++ unlines ((\(k,(e, i)) -> showpp k ++ showInfo i ++ " |-> " ++ showpp (tx e)) <$> M.toList m)
where
tx e = subst (mkSubst $ [(x, EVar $ tidySymbol x) | x <- syms e]) e
showInfo i = show i
makeSolutions :: (NFData a, Fixpoint a, Show a)
=> Config -> SInfo a
-> [(KVar, (GWInfo, [[Expr]]))]
-> Maybe [GSol]
makeSolutions _ _ []
= Nothing
makeSolutions cfg fi kes
= Just $ map (GSol env . M.fromList) (allCombinations (go <$> kes))
where
go (k, (i, es)) = [(k, (pAnd (gexpr i:e'), ginfo i)) | e' <- es]
env = symbolEnv cfg fi
uniquify :: (NFData a, Fixpoint a, Loc a) => SInfo a -> (SInfo a)
uniquify fi = fi{cm = cm', ws = ws', bs = bs'}
where
(cm', km, bs') = uniquifyCS (bs fi) (cm fi)
ws' = expandWF km (ws fi)
uniquifyCS :: (NFData a, Fixpoint a, Loc a)
=> BindEnv
-> M.HashMap SubcId (SimpC a)
-> (M.HashMap SubcId (SimpC a), M.HashMap KVar [(KVar, Maybe SrcSpan)], BindEnv)
uniquifyCS bs cs
= (x, km, benv st)
where
(x, st) = runState (uniq cs) (initUniqueST bs)
km = kmap st
class Unique a where
uniq :: a -> UniqueM a
instance Unique a => Unique (M.HashMap SubcId a) where
uniq m = M.fromList <$> mapM (\(i,x) -> (i,) <$> uniq x) (M.toList m)
instance Loc a => Unique (SimpC a) where
uniq cs = do
updateLoc $ srcSpan $ _cinfo cs
rhs <- uniq (_crhs cs)
env <- uniq (_cenv cs)
return cs{_crhs = rhs, _cenv = env}
instance Unique IBindEnv where
uniq env = withCache (fromListIBindEnv <$> mapM uniq (elemsIBindEnv env))
instance Unique BindId where
uniq i = do
bs <- benv <$> get
let (x, t) = lookupBindEnv i bs
resetChange
t' <- uniq t
hasChanged <- change <$> get
if hasChanged
then do let (i', bs') = insertBindEnv x t' bs
updateBEnv i bs'
return i'
else return i
instance Unique SortedReft where
uniq (RR s r) = RR s <$> uniq r
instance Unique Reft where
uniq (Reft (x,e)) = (Reft . (x,)) <$> uniq e
instance Unique Expr where
uniq = mapMExpr go
where
go (PGrad k su i e) = do
k' <- freshK k
src <- uloc <$> get
return $ PGrad k' su (i{gused = src}) e
go e = return e
type UniqueM = State UniqueST
data UniqueST
= UniqueST { freshId :: Integer
, kmap :: M.HashMap KVar [(KVar, Maybe SrcSpan)]
, change :: Bool
, cache :: M.HashMap KVar KVar
, uloc :: Maybe SrcSpan
, ubs :: [BindId]
, benv :: BindEnv
}
updateLoc :: SrcSpan -> UniqueM ()
updateLoc x = modify $ \s -> s{uloc = Just x}
withCache :: UniqueM a -> UniqueM a
withCache act = do
emptyCache
a <- act
emptyCache
return a
emptyCache :: UniqueM ()
emptyCache = modify $ \s -> s{cache = mempty}
addCache :: KVar -> KVar -> UniqueM ()
addCache k k' = modify $ \s -> s{cache = M.insert k k' (cache s)}
updateBEnv :: BindId -> BindEnv -> UniqueM ()
updateBEnv i bs = modify $ \s -> s{benv = bs, ubs = i:(ubs s)}
setChange :: UniqueM ()
setChange = modify $ \s -> s{change = True}
resetChange :: UniqueM ()
resetChange = modify $ \s -> s{change = False}
initUniqueST :: BindEnv -> UniqueST
initUniqueST = UniqueST 0 mempty False mempty Nothing mempty
freshK, freshK' :: KVar -> UniqueM KVar
freshK k = do
setChange
cached <- cache <$> get
case M.lookup k cached of
Just k' -> return k'
Nothing -> freshK' k
freshK' k = do
i <- freshId <$> get
modify $ (\s -> s{freshId = i + 1})
let k' = KV $ gradIntSymbol i
addK k k'
addCache k k'
return k'
addK :: KVar -> KVar -> UniqueM ()
addK key val =
modify $ (\s -> s{kmap = M.insertWith (++) key [(val, uloc s)] (kmap s)})
expandWF :: (NFData a, Fixpoint a)
=> M.HashMap KVar [(KVar, Maybe SrcSpan)]
-> M.HashMap KVar (WfC a)
-> M.HashMap KVar (WfC a)
expandWF km ws
= M.fromList $
([(k, updateKVar k src w) | (i, w) <- gws, (kw, ks) <- km', kw == i, (k, src) <- ks]
++ kws)
where
(gws, kws) = L.partition (isGWfc . snd) $ M.toList ws
km' = M.toList km
updateKVar k src wfc = wfc { wrft = (\(v,s,_) -> (v,s,k)) $ wrft wfc
, wloc = (wloc wfc){gused = src}
}
class Gradual a where
gsubst :: GSol -> a -> a
instance Gradual Expr where
gsubst (GSol env m) e = mapGVars' (\(k, _) -> Just (fromMaybe (err k) (mknew k))) e
where
mknew k = So.elaborate "initBGind.mkPred" env $ fst <$> M.lookup k m
err k = errorstar ("gradual substitution: Cannot find " ++ showpp k)
instance Gradual Reft where
gsubst su (Reft (x, e)) = Reft (x, gsubst su e)
instance Gradual SortedReft where
gsubst su r = r {sr_reft = gsubst su (sr_reft r)}
instance Gradual (SimpC a) where
gsubst su c = c {_crhs = gsubst su (_crhs c)}
instance Gradual BindEnv where
gsubst su = mapBindEnv (\_ (x, r) -> (x, gsubst su r))
instance Gradual v => Gradual (M.HashMap k v) where
gsubst su = M.map (gsubst su)
instance Gradual (SInfo a) where
gsubst su fi = fi { bs = gsubst su (bs fi)
, cm = gsubst su (cm fi)
}