#include "HsVersions.h"
-
-import Match ( matchWrapper, matchSimply, matchSinglePat )
+import Match ( matchWrapper, matchSinglePat, matchEquations )
import MatchLit ( dsLit, dsOverLit )
import DsBinds ( dsLHsBinds, dsCoercion )
import DsGRHSs ( dsGuarded )
import DsListComp ( dsListComp, dsPArrComp )
import DsUtils ( mkErrorAppDs, mkStringExpr, mkConsExpr, mkNilExpr,
extractMatchResult, cantFailMatchResult, matchCanFail,
- mkCoreTupTy, selectSimpleMatchVarL, lookupEvidence )
+ mkCoreTupTy, selectSimpleMatchVarL, lookupEvidence, selectMatchVar )
import DsArrows ( dsProcExpr )
import DsMonad
#endif
import HsSyn
-import TcHsSyn ( hsPatType )
+import TcHsSyn ( hsPatType, mkVanillaTuplePat )
-- NB: The desugarer, which straddles the source and Core worlds, sometimes
-- needs to see source types (newtypes etc), and sometimes not
%************************************************************************
%* *
-\subsection{dsLet}
+ dsLocalBinds, dsValBinds
%* *
%************************************************************************
-@dsLet@ is a match-result transformer, taking the @MatchResult@ for the body
-and transforming it into one for the let-bindings enclosing the body.
-
-This may seem a bit odd, but (source) let bindings can contain unboxed
-binds like
-\begin{verbatim}
- C x# = e
-\end{verbatim}
-This must be transformed to a case expression and, if the type has
-more than one constructor, may fail.
-
\begin{code}
dsLocalBinds :: HsLocalBinds Id -> CoreExpr -> DsM CoreExpr
dsLocalBinds EmptyLocalBinds body = return body
-- We need to do a case right away, rather than building
-- a tuple and doing selections.
-- Silently ignore INLINE and SPECIALISE pragmas...
-ds_val_bind (is_rec, hsbinds) body
+ds_val_bind (NonRecursive, hsbinds) body
| [L _ (AbsBinds [] [] exports binds)] <- bagToList hsbinds,
- or [isUnLiftedType (idType g) | (_, g, _, _) <- exports]
- = ASSERT (case is_rec of {NonRecursive -> True; other -> False})
- -- Unlifted bindings are always non-recursive
- -- and are always a Fun or Pat monobind
- --
- -- ToDo: in some bizarre case it's conceivable that there
- -- could be dict binds in the 'binds'. (See the notes
- -- below. Then pattern-match would fail. Urk.)
- let
+ (L loc bind : null_binds) <- bagToList binds,
+ isBangHsBind bind
+ || isUnboxedTupleBind bind
+ || or [isUnLiftedType (idType g) | (_, g, _, _) <- exports]
+ = let
body_w_exports = foldr bind_export body exports
bind_export (tvs, g, l, _) body = ASSERT( null tvs )
bindNonRec g (Var l) body
-
- mk_error_app pat = mkErrorAppDs iRREFUT_PAT_ERROR_ID
- (exprType body)
- (showSDoc (ppr pat))
in
- case bagToList binds of
- [L loc (FunBind { fun_id = L _ fun, fun_matches = matches, fun_co_fn = co_fn })]
- -> putSrcSpanDs loc $
- matchWrapper (FunRhs (idName fun)) matches `thenDs` \ (args, rhs) ->
+ ASSERT (null null_binds)
+ -- Non-recursive, non-overloaded bindings only come in ones
+ -- ToDo: in some bizarre case it's conceivable that there
+ -- could be dict binds in the 'binds'. (See the notes
+ -- below. Then pattern-match would fail. Urk.)
+ putSrcSpanDs loc $
+ case bind of
+ FunBind { fun_id = L _ fun, fun_matches = matches, fun_co_fn = co_fn }
+ -> matchWrapper (FunRhs (idName fun)) matches `thenDs` \ (args, rhs) ->
ASSERT( null args ) -- Functions aren't lifted
ASSERT( isIdCoercion co_fn )
returnDs (bindNonRec fun rhs body_w_exports)
- [L loc (PatBind {pat_lhs = pat, pat_rhs = grhss, pat_rhs_ty = ty })]
- -> putSrcSpanDs loc $
- dsGuarded grhss ty `thenDs` \ rhs ->
- mk_error_app pat `thenDs` \ error_expr ->
- matchSimply rhs PatBindRhs pat body_w_exports error_expr
+ PatBind {pat_lhs = pat, pat_rhs = grhss, pat_rhs_ty = ty }
+ -> -- let C x# y# = rhs in body
+ -- ==> case rhs of C x# y# -> body
+ putSrcSpanDs loc $
+ do { rhs <- dsGuarded grhss ty
+ ; let upat = unLoc pat
+ eqn = EqnInfo { eqn_wrap = idWrapper, eqn_pats = [upat],
+ eqn_rhs = cantFailMatchResult body_w_exports }
+ ; var <- selectMatchVar upat ty
+ ; result <- matchEquations PatBindRhs [var] [eqn] (exprType body)
+ ; return (scrungleMatch var rhs result) }
other -> pprPanic "dsLet: unlifted" (pprLHsBinds hsbinds $$ ppr body)
--- Ordinary case for bindings
+
+-- Ordinary case for bindings; none should be unlifted
ds_val_bind (is_rec, binds) body
- = dsLHsBinds binds `thenDs` \ prs ->
- returnDs (Let (Rec prs) body)
+ = do { prs <- dsLHsBinds binds
+ ; ASSERT( not (any (isUnLiftedType . idType . fst) prs) )
+ case prs of
+ [] -> return body
+ other -> return (Let (Rec prs) body) }
-- Use a Rec regardless of is_rec.
-- Why? Because it allows the binds to be all
-- mixed up, which is what happens in one rare case
--
-- NB The previous case dealt with unlifted bindings, so we
-- only have to deal with lifted ones now; so Rec is ok
+
+isUnboxedTupleBind :: HsBind Id -> Bool
+isUnboxedTupleBind (PatBind { pat_rhs_ty = ty }) = isUnboxedTupleType ty
+isUnboxedTupleBind other = False
+
+scrungleMatch :: Id -> CoreExpr -> CoreExpr -> CoreExpr
+-- Returns something like (let var = scrut in body)
+-- but if var is an unboxed-tuple type, it inlines it in a fragile way
+-- Special case to handle unboxed tuple patterns; they can't appear nested
+-- The idea is that
+-- case e of (# p1, p2 #) -> rhs
+-- should desugar to
+-- case e of (# x1, x2 #) -> ... match p1, p2 ...
+-- NOT
+-- let x = e in case x of ....
+--
+-- But there may be a big
+-- let fail = ... in case e of ...
+-- wrapping the whole case, which complicates matters slightly
+-- It all seems a bit fragile. Test is dsrun013.
+
+scrungleMatch var scrut body
+ | isUnboxedTupleType (idType var) = scrungle body
+ | otherwise = bindNonRec var scrut body
+ where
+ scrungle (Case (Var x) bndr ty alts)
+ | x == var = Case scrut bndr ty alts
+ scrungle (Let binds body) = Let binds (scrungle body)
+ scrungle other = panic ("scrungleMatch: tuple pattern:\n" ++ showSDoc (ppr other))
\end{code}
%************************************************************************
= dsLExpr expr `thenDs` \ core_expr ->
returnDs (Note (CoreNote $ unpackFS fs) core_expr)
--- Special case to handle unboxed tuple patterns; they can't appear nested
--- The idea is that
--- case e of (# p1, p2 #) -> rhs
--- should desugar to
--- case e of (# x1, x2 #) -> ... match p1, p2 ...
--- NOT
--- let x = e in case x of ....
---
--- But there may be a big
--- let fail = ... in case e of ...
--- wrapping the whole case, which complicates matters slightly
--- It all seems a bit fragile. Test is dsrun013.
-
-dsExpr (HsCase discrim matches@(MatchGroup _ ty))
- | isUnboxedTupleType (funArgTy ty)
- = dsLExpr discrim `thenDs` \ core_discrim ->
- matchWrapper CaseAlt matches `thenDs` \ ([discrim_var], matching_code) ->
- let
- scrungle (Case (Var x) bndr ty alts)
- | x == discrim_var = Case core_discrim bndr ty alts
- scrungle (Let binds body) = Let binds (scrungle body)
- scrungle other = panic ("dsLExpr: tuple pattern:\n" ++ showSDoc (ppr other))
- in
- returnDs (scrungle matching_code)
-
dsExpr (HsCase discrim matches)
= dsLExpr discrim `thenDs` \ core_discrim ->
matchWrapper CaseAlt matches `thenDs` \ ([discrim_var], matching_code) ->
- returnDs (bindNonRec discrim_var core_discrim matching_code)
+ returnDs (scrungleMatch discrim_var core_discrim matching_code)
dsExpr (HsLet binds body)
= dsLExpr body `thenDs` \ body' ->
mk_tup_pat :: [LPat Id] -> LPat Id
mk_tup_pat [p] = p
- mk_tup_pat ps = noLoc $ TuplePat ps Boxed
+ mk_tup_pat ps = noLoc $ mkVanillaTuplePat ps Boxed
mk_ret_tup :: [LHsExpr Id] -> LHsExpr Id
mk_ret_tup [r] = r
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