X-Git-Url: http://git.megacz.com/?p=ghc-hetmet.git;a=blobdiff_plain;f=compiler%2Ftypecheck%2FTcBinds.lhs;h=c918c9dd89a94f3961d215924d1aec4cf750c1e7;hp=0db76d14f7898d657f0aaad191777f0c5cb1f338;hb=92267aa26adb1ab5a6d8004a80fdf6aa06ea4e44;hpb=861e1d55126391785e93493080d3c7516812675e diff --git a/compiler/typecheck/TcBinds.lhs b/compiler/typecheck/TcBinds.lhs index 0db76d1..c918c9d 100644 --- a/compiler/typecheck/TcBinds.lhs +++ b/compiler/typecheck/TcBinds.lhs @@ -25,6 +25,7 @@ import TcHsType import TcPat import TcMType import TcType +import RnBinds( misplacedSigErr ) import Coercion import TysPrim import Id @@ -43,7 +44,10 @@ import BasicTypes import Outputable import FastString +import Data.List( partition ) import Control.Monad + +#include "HsVersions.h" \end{code} @@ -79,13 +83,19 @@ At the top-level the LIE is sure to contain nothing but constant dictionaries, which we resolve at the module level. \begin{code} -tcTopBinds :: HsValBinds Name -> TcM (LHsBinds TcId, TcLclEnv) +tcTopBinds :: HsValBinds Name + -> TcM ( LHsBinds TcId -- Typechecked bindings + , [LTcSpecPrag] -- SPECIALISE prags for imported Ids + , TcLclEnv) -- Augmented environment + -- Note: returning the TcLclEnv is more than we really -- want. The bit we care about is the local bindings -- and the free type variables thereof tcTopBinds binds - = do { (ValBindsOut prs _, env) <- tcValBinds TopLevel binds getLclEnv - ; return (foldr (unionBags . snd) emptyBag prs, env) } + = do { (ValBindsOut prs sigs, env) <- tcValBinds TopLevel binds getLclEnv + ; let binds = foldr (unionBags . snd) emptyBag prs + ; specs <- tcImpPrags sigs + ; return (binds, specs, env) } -- The top level bindings are flattened into a giant -- implicitly-mutually-recursive LHsBinds @@ -360,7 +370,7 @@ tcPolyNoGen tc_sig_fn prag_fn rec_tc bind_list = do { mono_ty' <- zonkTcTypeCarefully (idType mono_id) -- Zonk, mainly to expose unboxed types to checkStrictBinds ; let mono_id' = setIdType mono_id mono_ty' - ; _specs <- tcSpecPrags False mono_id' (prag_fn name) + ; _specs <- tcSpecPrags mono_id' (prag_fn name) ; return mono_id' } -- NB: tcPrags generates error messages for -- specialisation pragmas for non-overloaded sigs @@ -456,7 +466,7 @@ mkExport prag_fn inferred_tvs theta ; poly_id' <- addInlinePrags poly_id prag_sigs - ; spec_prags <- tcSpecPrags (notNull theta) poly_id prag_sigs + ; spec_prags <- tcSpecPrags poly_id prag_sigs -- tcPrags requires a zonked poly_id ; return (tvs, poly_id', mono_id, SpecPrags spec_prags) } @@ -502,42 +512,74 @@ lhsBindArity (L _ (FunBind { fun_id = id, fun_matches = ms })) env lhsBindArity _ env = env -- PatBind/VarBind ------------------ -tcSpecPrags :: Bool -- True <=> function is overloaded - -> Id -> [LSig Name] - -> TcM [Located TcSpecPrag] +tcSpecPrags :: Id -> [LSig Name] + -> TcM [LTcSpecPrag] -- Add INLINE and SPECIALSE pragmas -- INLINE prags are added to the (polymorphic) Id directly -- SPECIALISE prags are passed to the desugarer via TcSpecPrags -- Pre-condition: the poly_id is zonked -- Reason: required by tcSubExp -tcSpecPrags is_overloaded_id poly_id prag_sigs - = do { unless (null spec_sigs || is_overloaded_id) warn_discarded_spec - ; unless (null bad_sigs) warn_discarded_sigs - ; mapM (wrapLocM tc_spec) spec_sigs } +tcSpecPrags poly_id prag_sigs + = do { unless (null bad_sigs) warn_discarded_sigs + ; mapAndRecoverM (wrapLocM (tcSpec poly_id)) spec_sigs } where spec_sigs = filter isSpecLSig prag_sigs bad_sigs = filter is_bad_sig prag_sigs is_bad_sig s = not (isSpecLSig s || isInlineLSig s) + warn_discarded_sigs = warnPrags poly_id bad_sigs $ + ptext (sLit "Discarding unexpected pragmas for") + + +-------------- +tcSpec :: TcId -> Sig Name -> TcM TcSpecPrag +tcSpec poly_id prag@(SpecSig _ hs_ty inl) + -- The Name in the SpecSig may not be the same as that of the poly_id + -- Example: SPECIALISE for a class method: the Name in the SpecSig is + -- for the selector Id, but the poly_id is something like $cop + = addErrCtxt (spec_ctxt prag) $ + do { spec_ty <- tcHsSigType sig_ctxt hs_ty + ; checkTc (isOverloadedTy poly_ty) + (ptext (sLit "Discarding pragma for non-overloaded function") <+> quotes (ppr poly_id)) + ; wrap <- tcSubType origin skol_info (idType poly_id) spec_ty + ; return (SpecPrag poly_id wrap inl) } + where name = idName poly_id poly_ty = idType poly_id - sig_ctxt = FunSigCtxt name origin = SpecPragOrigin name + sig_ctxt = FunSigCtxt name skol_info = SigSkol sig_ctxt + spec_ctxt prag = hang (ptext (sLit "In the SPECIALISE pragma")) 2 (ppr prag) - tc_spec prag@(SpecSig _ hs_ty inl) - = addErrCtxt (spec_ctxt prag) $ - do { spec_ty <- tcHsSigType sig_ctxt hs_ty - ; wrap <- tcSubType origin skol_info poly_ty spec_ty - ; return (SpecPrag wrap inl) } - tc_spec sig = pprPanic "tcSpecPrag" (ppr sig) - - warn_discarded_spec = warnPrags poly_id spec_sigs $ - ptext (sLit "SPECIALISE pragmas for non-overloaded function") - warn_discarded_sigs = warnPrags poly_id bad_sigs $ - ptext (sLit "Discarding unexpected pragmas for") +tcSpec _ prag = pprPanic "tcSpec" (ppr prag) - spec_ctxt prag = hang (ptext (sLit "In the SPECIALISE pragma")) 2 (ppr prag) +-------------- +tcImpPrags :: [LSig Name] -> TcM [LTcSpecPrag] +tcImpPrags prags + = do { this_mod <- getModule + ; let is_imp prag + = case sigName prag of + Nothing -> False + Just name -> not (nameIsLocalOrFrom this_mod name) + (spec_prags, others) = partition isSpecLSig $ + filter is_imp prags + ; mapM_ misplacedSigErr others + -- Messy that this misplaced-sig error comes here + -- but the others come from the renamer + ; mapAndRecoverM (wrapLocM tcImpSpec) spec_prags } + +tcImpSpec :: Sig Name -> TcM TcSpecPrag +tcImpSpec prag@(SpecSig (L _ name) _ _) + = do { id <- tcLookupId name + ; checkTc (isInlinePragma (idInlinePragma id)) + (impSpecErr name) + ; tcSpec id prag } +tcImpSpec p = pprPanic "tcImpSpec" (ppr p) + +impSpecErr :: Name -> SDoc +impSpecErr name + = hang (ptext (sLit "You cannot SPECIALISE") <+> quotes (ppr name)) + 2 (ptext (sLit "because its definition has no INLINE/INLINABLE pragma")) -------------- -- If typechecking the binds fails, then return with each