cvObtainTerm, -- :: HscEnv -> Bool -> Maybe Type -> HValue -> IO Term
- ClosureType(..),
- getClosureData, -- :: a -> IO Closure
- Closure ( tipe, infoPtr, ptrs, nonPtrs ),
- isConstr, -- :: ClosureType -> Bool
- isIndirection, -- :: ClosureType -> Bool
-
- Term(..),
- printTerm,
- customPrintTerm,
- customPrintTermBase,
+ Term(..),
+ pprTerm,
+ cPprTerm,
+ cPprTermBase,
termType,
foldTerm,
TermFold(..),
> (('a',_,_),_,('b',_,_)) =
Term ((Char,b,c),d,(Char,e,f)) (,,) (('a',_,_),_,('b',_,_))
- [ Term (Char, b, c) (,,) ('a',_,_) [Term Char C# "a", Thunk, Thunk]
- , Thunk
- , Term (Char, e, f) (,,) ('b',_,_) [Term Char C# "b", Thunk, Thunk]]
+ [ Term (Char, b, c) (,,) ('a',_,_) [Term Char C# "a", Suspension, Suspension]
+ , Suspension
+ , Term (Char, e, f) (,,) ('b',_,_) [Term Char C# "b", Suspension, Suspension]]
-}
data Term = Term { ty :: Type
isFullyEvaluatedTerm Prim {} = True
instance Outputable (Term) where
- ppr = head . customPrintTerm customPrintTermBase
+ ppr = head . cPprTerm cPprTermBase
-------------------------------------------------------------------------
-- Runtime Closure Datatype and functions for retrieving closure related stuff
, infoPtr :: Ptr ()
, infoTable :: StgInfoTable
, ptrs :: Array Int HValue
- -- What would be the type here? HValue is ok? Should I build a Ptr?
, nonPtrs :: ByteArray#
}
-- Pretty printing of terms
----------------------------------
-parensCond True = parens
-parensCond False = id
app_prec::Int
app_prec = 10
-printTerm :: Term -> SDoc
-printTerm Prim{value=value} = text value
-printTerm t@Term{} = printTerm1 0 t
-printTerm Suspension{bound_to=Nothing} = char '_' -- <> ppr ct <> char '_'
-printTerm Suspension{mb_ty=Just ty, bound_to=Just n}
- | Just _ <- splitFunTy_maybe ty = text "<function>"
- | otherwise = parens$ ppr n <> text "::" <> ppr ty
-
-printTerm1 p Term{dc=dc, subTerms=tt}
+pprTerm :: Int -> Term -> SDoc
+pprTerm p Term{dc=dc, subTerms=tt}
{- | dataConIsInfix dc, (t1:t2:tt') <- tt
- = parens (printTerm1 True t1 <+> ppr dc <+> printTerm1 True ppr t2)
- <+> hsep (map (printTerm1 True) tt)
+ = parens (pprTerm1 True t1 <+> ppr dc <+> pprTerm1 True ppr t2)
+ <+> hsep (map (pprTerm1 True) tt)
-}
| null tt = ppr dc
- | otherwise = parensCond (p > app_prec)
- (ppr dc <+> sep (map (printTerm1 (app_prec+1)) tt))
+ | otherwise = cparen (p >= app_prec)
+ (ppr dc <+> sep (map (pprTerm app_prec) tt))
where fixity = undefined
-printTerm1 _ t = printTerm t
+pprTerm _ t = pprTerm1 t
+
+pprTerm1 Prim{value=value} = text value
+pprTerm1 t@Term{} = pprTerm 0 t
+pprTerm1 Suspension{bound_to=Nothing} = char '_' -- <> ppr ct <> char '_'
+pprTerm1 Suspension{mb_ty=Just ty, bound_to=Just n}
+ | Just _ <- splitFunTy_maybe ty = ptext SLIT("<function>")
+ | otherwise = parens$ ppr n <> text "::" <> ppr ty
+
-customPrintTerm :: forall m. Monad m => ((Int->Term->m SDoc)->[Term->m (Maybe SDoc)]) -> Term -> m SDoc
-customPrintTerm custom = go 0 where
--- go :: Monad m => Int -> Term -> m SDoc
+cPprTerm :: forall m. Monad m => ((Int->Term->m SDoc)->[Int->Term->m (Maybe SDoc)]) -> Term -> m SDoc
+cPprTerm custom = go 0 where
go prec t@Term{subTerms=tt, dc=dc} = do
- let mb_customDocs = map ($t) (custom go) :: [m (Maybe SDoc)]
+ let mb_customDocs = map (($t) . ($prec)) (custom go) :: [m (Maybe SDoc)]
first_success <- firstJustM mb_customDocs
case first_success of
- Just doc -> return$ parensCond (prec>app_prec+1) doc
+ Just doc -> return$ cparen (prec>app_prec+1) doc
-- | dataConIsInfix dc, (t1:t2:tt') <- tt =
Nothing -> do pprSubterms <- mapM (go (app_prec+1)) tt
- return$ parensCond (prec>app_prec+1)
- (ppr dc <+> sep pprSubterms)
- go _ t = return$ printTerm t
+ return$ cparen (prec >= app_prec)
+ (ppr dc <+> sep pprSubterms)
+ go _ t = return$ pprTerm1 t
firstJustM (mb:mbs) = mb >>= maybe (firstJustM mbs) (return . Just)
firstJustM [] = return Nothing
-customPrintTermBase :: Monad m => (Int->Term-> m SDoc)->[Term->m (Maybe SDoc)]
-customPrintTermBase showP =
+cPprTermBase :: Monad m => (Int->Term-> m SDoc)->[Int->Term->m (Maybe SDoc)]
+cPprTermBase pprP =
[
- test isTupleDC (liftM (parens . hcat . punctuate comma) . mapM (showP 0) . subTerms)
- , test (isDC consDataCon) (\Term{subTerms=[h,t]} -> doList h t)
- , test (isDC intDataCon) (coerceShow$ \(a::Int)->a)
- , test (isDC charDataCon) (coerceShow$ \(a::Char)->a)
--- , test (isDC wordDataCon) (coerceShow$ \(a::Word)->a)
- , test (isDC floatDataCon) (coerceShow$ \(a::Float)->a)
- , test (isDC doubleDataCon) (coerceShow$ \(a::Double)->a)
- , test isIntegerDC (coerceShow$ \(a::Integer)->a)
+ ifTerm isTupleDC (\_ -> liftM (parens . hcat . punctuate comma)
+ . mapM (pprP (-1)) . subTerms)
+ , ifTerm (isDC consDataCon) (\ p Term{subTerms=[h,t]} -> doList p h t)
+ , ifTerm (isDC intDataCon) (coerceShow$ \(a::Int)->a)
+ , ifTerm (isDC charDataCon) (coerceShow$ \(a::Char)->a)
+-- , ifTerm (isDC wordDataCon) (coerceShow$ \(a::Word)->a)
+ , ifTerm (isDC floatDataCon) (coerceShow$ \(a::Float)->a)
+ , ifTerm (isDC doubleDataCon) (coerceShow$ \(a::Double)->a)
+ , ifTerm isIntegerDC (coerceShow$ \(a::Integer)->a)
]
- where test pred f t = if pred t then liftM Just (f t) else return Nothing
+ where ifTerm pred f p t = if pred t then liftM Just (f p t) else return Nothing
isIntegerDC Term{dc=dc} =
dataConName dc `elem` [ smallIntegerDataConName
, largeIntegerDataConName]
- isTupleDC Term{dc=dc} = dc `elem` snd (unzip (elems boxedTupleArr))
- isDC a_dc Term{dc=dc} = a_dc == dc
- coerceShow f = return . text . show . f . unsafeCoerce# . val
+ isTupleDC Term{dc=dc} = dc `elem` snd (unzip (elems boxedTupleArr))
+ isDC a_dc Term{dc=dc} = a_dc == dc
+ coerceShow f _ = return . text . show . f . unsafeCoerce# . val
--TODO pprinting of list terms is not lazy
- doList h t = do
+ doList p h t = do
let elems = h : getListTerms t
- isConsLast = isSuspension (last elems) &&
- (mb_ty$ last elems) /= (termType h)
- init <- mapM (showP 0) (init elems)
- last0 <- showP 0 (last elems)
- let last = case length elems of
- 1 -> last0
- _ | isConsLast -> text " | " <> last0
- _ -> comma <> last0
- return$ brackets (hcat (punctuate comma init ++ [last]))
+ isConsLast = termType(last elems) /= termType h
+ print_elems <- mapM (pprP 5) elems
+ return$ if isConsLast
+ then cparen (p >= 5) . hsep . punctuate (space<>colon)
+ $ print_elems
+ else brackets (hcat$ punctuate comma print_elems)
where Just a /= Just b = not (a `coreEqType` b)
_ /= _ = True
liftTcM = id
-instScheme :: Type -> TR TcType
-instScheme ty = liftTcM$ liftM trd (tcInstType (liftM fst3 . tcInstTyVars) ty)
- where fst3 (x,y,z) = x
- trd (x,y,z) = z
+-- | Returns the instantiated type scheme ty', and the substitution sigma
+-- such that sigma(ty') = ty
+instScheme :: Type -> TR (TcType, TvSubst)
+instScheme ty | (tvs, rho) <- tcSplitForAllTys ty = liftTcM$ do
+ (tvs',theta,ty') <- tcInstType (mapM tcInstTyVar) ty
+ return (ty', zipTopTvSubst tvs' (mkTyVarTys tvs))
cvObtainTerm :: HscEnv -> Bool -> Maybe Type -> HValue -> IO Term
cvObtainTerm hsc_env force mb_ty a = do
cvObtainTerm1 :: HscEnv -> Bool -> Maybe Type -> HValue -> IO Term
cvObtainTerm1 hsc_env force mb_ty hval = runTR hsc_env $ do
- tv <- case (isMonomorphic `fmap` mb_ty) of
- Just True -> return (fromJust mb_ty)
- _ -> do
- tv_ <- liftM mkTyVarTy (newVar argTypeKind)
- when (isJust mb_ty) $
- instScheme (sigmaType$ fromJust mb_ty) >>= addConstraint tv_
- return tv_
- go tv (fromMaybe tv mb_ty) hval
+ tv <- liftM mkTyVarTy (newVar argTypeKind)
+ case mb_ty of
+ Nothing -> go tv tv hval
+ Just ty | isMonomorphic ty -> go ty ty hval
+ Just ty -> do
+ (ty',rev_subst) <- instScheme (sigmaType$ fromJust mb_ty)
+ addConstraint tv ty'
+ term <- go tv tv hval
+ --restore original Tyvars
+ return$ flip foldTerm term idTermFold {
+ fTerm = \ty dc hval tt -> Term (substTy rev_subst ty) dc hval tt,
+ fSuspension = \ct mb_ty hval n ->
+ Suspension ct (substTy rev_subst `fmap` mb_ty) hval n}
where
go tv ty a = do
let monomorphic = not(isTyVarTy tv) -- This is a convention. The ancestor tests for
-- right here, _before_ the subterms are RTTI reconstructed.
when (not monomorphic) $ do
let myType = mkFunTys (reOrderTerms subTermTvs subTtypesNP subTtypes) tv
- instScheme(dataConRepType dc) >>= addConstraint myType
+ instScheme(dataConRepType dc) >>= addConstraint myType . fst
subTermsP <- sequence $ drop extra_args -- all extra arguments are pointed
[ appArr (go tv t) (ptrs clos) i
| (i,tv,t) <- zip3 [0..] subTermTvs subTtypesP]