lower levels it is preserved with @let@/@letrec@s).
\begin{code}
-module DsBinds ( dsTopLHsBinds, dsLHsBinds, decomposeRuleLhs,
+module DsBinds ( dsTopLHsBinds, dsLHsBinds, decomposeRuleLhs, dsSpec,
dsHsWrapper, dsTcEvBinds, dsEvBinds, wrapDsEvBinds,
DsEvBind(..), AutoScc(..)
) where
%************************************************************************
\begin{code}
-dsTopLHsBinds :: AutoScc -> LHsBinds Id -> DsM [(Id,CoreExpr)]
-dsTopLHsBinds auto_scc binds = do { binds' <- ds_lhs_binds auto_scc binds
- ; return (fromOL binds') }
+dsTopLHsBinds :: AutoScc -> LHsBinds Id -> DsM (OrdList (Id,CoreExpr))
+dsTopLHsBinds auto_scc binds = ds_lhs_binds auto_scc binds
dsLHsBinds :: LHsBinds Id -> DsM [(Id,CoreExpr)]
dsLHsBinds binds = do { binds' <- ds_lhs_binds NoSccs binds
; return (unitOL (var', core_expr')) }
-dsHsBind _ (FunBind { fun_id = L _ fun, fun_matches = matches
+dsHsBind auto_scc (FunBind { fun_id = L _ fun, fun_matches = matches
, fun_co_fn = co_fn, fun_tick = tick
, fun_infix = inf })
= do { (args, body) <- matchWrapper (FunRhs (idName fun) inf) matches
; body' <- mkOptTickBox tick body
; wrap_fn' <- dsHsWrapper co_fn
- ; let rhs = wrap_fn' (mkLams args body')
+ ; let rhs = addAutoScc auto_scc fun $ wrap_fn' (mkLams args body')
; return (unitOL (makeCorePair fun False 0 rhs)) }
-dsHsBind _ (PatBind { pat_lhs = pat, pat_rhs = grhss, pat_rhs_ty = ty })
+dsHsBind auto_scc (PatBind { pat_lhs = pat, pat_rhs = grhss, pat_rhs_ty = ty })
= do { body_expr <- dsGuarded grhss ty
; sel_binds <- mkSelectorBinds pat body_expr
-- We silently ignore inline pragmas; no makeCorePair
-- Not so cool, but really doesn't matter
- ; return (toOL sel_binds) }
+ ; let sel_binds' = [ (v, addAutoScc auto_scc v expr)
+ | (v, expr) <- sel_binds ]
+ ; return (toOL sel_binds') }
-- A common case: one exported variable
-- Non-recursive bindings come through this way
Let core_bind $
Var local
- ; (spec_binds, rules) <- dsSpecs global rhs prags
+ ; (spec_binds, rules) <- dsSpecs rhs prags
; let global' = addIdSpecialisations global rules
main_bind = makeCorePair global' (isDefaultMethod prags)
mkTupleSelector locals' (locals' !! n) tup_id $
mkVarApps (mkTyApps (Var poly_tup_id) ty_args)
dicts
- ; (spec_binds, rules) <- dsSpecs global
- (Let (NonRec poly_tup_id poly_tup_rhs) rhs)
- spec_prags
+ full_rhs = Let (NonRec poly_tup_id poly_tup_rhs) rhs
+ ; (spec_binds, rules) <- dsSpecs full_rhs spec_prags
+
; let global' = addIdSpecialisations global rules
; return ((global', rhs) `consOL` spec_binds) }
where
\begin{code}
------------------------
-dsSpecs :: Id -- The polymorphic Id
- -> CoreExpr -- Its rhs
+dsSpecs :: CoreExpr -- Its rhs
-> TcSpecPrags
-> DsM ( OrdList (Id,CoreExpr) -- Binding for specialised Ids
, [CoreRule] ) -- Rules for the Global Ids
-- See Note [Implementing SPECIALISE pragmas]
-dsSpecs poly_id poly_rhs prags
- = case prags of
- IsDefaultMethod -> return (nilOL, [])
- SpecPrags sps -> do { pairs <- mapMaybeM spec_one sps
- ; let (spec_binds_s, rules) = unzip pairs
- ; return (concatOL spec_binds_s, rules) }
- where
- spec_one :: Located TcSpecPrag -> DsM (Maybe (OrdList (Id,CoreExpr), CoreRule))
- spec_one (L loc (SpecPrag spec_co spec_inl))
- = putSrcSpanDs loc $
- do { let poly_name = idName poly_id
- ; spec_name <- newLocalName poly_name
- ; wrap_fn <- dsHsWrapper spec_co
- ; let (bndrs, ds_lhs) = collectBinders (wrap_fn (Var poly_id))
- spec_ty = mkPiTypes bndrs (exprType ds_lhs)
- ; case decomposeRuleLhs ds_lhs of {
- Nothing -> do { warnDs (decomp_msg spec_co)
- ; return Nothing } ;
-
- Just (_fn, args) ->
-
- -- Check for dead binders: Note [Unused spec binders]
- let arg_fvs = exprsFreeVars args
- bad_bndrs = filterOut (`elemVarSet` arg_fvs) bndrs
- in if not (null bad_bndrs)
- then do { warnDs (dead_msg bad_bndrs); return Nothing }
- else do
-
- { (spec_unf, unf_pairs) <- specUnfolding wrap_fn spec_ty (realIdUnfolding poly_id)
-
- ; let spec_id = mkLocalId spec_name spec_ty
- `setInlinePragma` inl_prag
- `setIdUnfolding` spec_unf
- inl_prag | isDefaultInlinePragma spec_inl = idInlinePragma poly_id
- | otherwise = spec_inl
- -- Get the INLINE pragma from SPECIALISE declaration, or,
- -- failing that, from the original Id
-
- extra_dict_bndrs = [ mkLocalId (localiseName (idName d)) (idType d)
- -- See Note [Constant rule dicts]
- | d <- varSetElems (arg_fvs `delVarSetList` bndrs)
- , isDictId d]
-
- rule = mkLocalRule (mkFastString ("SPEC " ++ showSDoc (ppr poly_name)))
- AlwaysActive poly_name
- (extra_dict_bndrs ++ bndrs) args
- (mkVarApps (Var spec_id) bndrs)
-
- spec_rhs = wrap_fn poly_rhs
- spec_pair = makeCorePair spec_id False (dictArity bndrs) spec_rhs
-
- ; return (Just (spec_pair `consOL` unf_pairs, rule))
- } } }
-
+dsSpecs _ IsDefaultMethod = return (nilOL, [])
+dsSpecs poly_rhs (SpecPrags sps)
+ = do { pairs <- mapMaybeM (dsSpec (Just poly_rhs)) sps
+ ; let (spec_binds_s, rules) = unzip pairs
+ ; return (concatOL spec_binds_s, rules) }
+
+dsSpec :: Maybe CoreExpr -- Just rhs => RULE is for a local binding
+ -- Nothing => RULE is for an imported Id
+ -- rhs is in the Id's unfolding
+ -> Located TcSpecPrag
+ -> DsM (Maybe (OrdList (Id,CoreExpr), CoreRule))
+dsSpec mb_poly_rhs (L loc (SpecPrag poly_id spec_co spec_inl))
+ = putSrcSpanDs loc $
+ do { let poly_name = idName poly_id
+ ; spec_name <- newLocalName poly_name
+ ; wrap_fn <- dsHsWrapper spec_co
+ ; let (bndrs, ds_lhs) = collectBinders (wrap_fn (Var poly_id))
+ spec_ty = mkPiTypes bndrs (exprType ds_lhs)
+ ; case decomposeRuleLhs ds_lhs of {
+ Nothing -> do { warnDs (decomp_msg spec_co)
+ ; return Nothing } ;
+
+ Just (_fn, args) ->
+
+ -- Check for dead binders: Note [Unused spec binders]
+ let arg_fvs = exprsFreeVars args
+ bad_bndrs = filterOut (`elemVarSet` arg_fvs) bndrs
+ in if not (null bad_bndrs)
+ then do { warnDs (dead_msg bad_bndrs); return Nothing }
+ else do
+
+ { (spec_unf, unf_pairs) <- specUnfolding wrap_fn spec_ty (realIdUnfolding poly_id)
+
+ ; let spec_id = mkLocalId spec_name spec_ty
+ `setInlinePragma` inl_prag
+ `setIdUnfolding` spec_unf
+ inl_prag | isDefaultInlinePragma spec_inl = idInlinePragma poly_id
+ | otherwise = spec_inl
+ -- Get the INLINE pragma from SPECIALISE declaration, or,
+ -- failing that, from the original Id
+
+ extra_dict_bndrs = [ mkLocalId (localiseName (idName d)) (idType d)
+ -- See Note [Constant rule dicts]
+ | d <- varSetElems (arg_fvs `delVarSetList` bndrs)
+ , isDictId d]
+
+ rule = mkRule False {- Not auto -} is_local_id
+ (mkFastString ("SPEC " ++ showSDoc (ppr poly_name)))
+ AlwaysActive poly_name
+ (extra_dict_bndrs ++ bndrs) args
+ (mkVarApps (Var spec_id) bndrs)
+
+ spec_rhs = wrap_fn poly_rhs
+ spec_pair = makeCorePair spec_id False (dictArity bndrs) spec_rhs
+
+ ; return (Just (spec_pair `consOL` unf_pairs, rule))
+ } } }
+ where
dead_msg bs = vcat [ sep [ptext (sLit "Useless constraint") <> plural bs
<+> ptext (sLit "in specialied type:"),
nest 2 (pprTheta (map get_pred bs))]
= hang (ptext (sLit "Specialisation too complicated to desugar; ignored"))
2 (pprHsWrapper (ppr poly_id) spec_co)
+ is_local_id = isJust mb_poly_rhs
+ poly_rhs | Just rhs <- mb_poly_rhs
+ = rhs
+ | Just unfolding <- maybeUnfoldingTemplate (idUnfolding poly_id)
+ = unfolding
+ | otherwise = pprPanic "dsImpSpecs" (ppr poly_id)
+ -- In the Nothing case the specialisation is for an imported Id
+ -- whose unfolding gives the RHS to be specialised
+ -- The type checker has checked that it has an unfolding
specUnfolding :: (CoreExpr -> CoreExpr) -> Type
-> Unfolding -> DsM (Unfolding, OrdList (Id,CoreExpr))