import Name
import Var
import Id
-import PrelInfo
import DataCon
import TysWiredIn
import BasicTypes
import PrelNames
import Outputable
-
+import Bag
import VarSet
import SrcLoc
The input is divided into a local environment, which is a flat tuple
(unless it's too big), and a stack, each element of which is paired
-with the stack in turn. In general, the input has the form
+with the environment in turn. In general, the input has the form
(...((x1,...,xn),s1),...sk)
The idea is to extract the commands from the case, build a balanced tree
of choices, and replace the commands with expressions that build tagged
tuples, obtaining a case expression that can be desugared normally.
-To build all this, we use quadruples decribing segments of the list of
+To build all this, we use triples describing segments of the list of
case bodies, containing the following fields:
-1. an IdSet containing the environment variables free in the case bodies
-2. a list of expressions of the form (Left|Right)* ((xs)*ts), to be put
+ * a list of expressions of the form (Left|Right)* ((xs)*ts), to be put
into the case replacing the commands
-3. a sum type that is the common type of these expressions, and also the
+ * a sum type that is the common type of these expressions, and also the
input type of the arrow
-4. a CoreExpr for an arrow built by combining the translated command
+ * a CoreExpr for an arrow built by combining the translated command
bodies with |||.
\begin{code}
dsCmd ids local_vars env_ids stack res_ty (HsCase exp (MatchGroup matches match_ty)) = do
- core_exp <- dsLExpr exp
stack_ids <- mapM newSysLocalDs stack
-- Extract and desugar the leaf commands in the case, building tuple
let
leaves = concatMap leavesMatch matches
make_branch (leaf, bound_vars) = do
- (core_leaf, fvs, leaf_ids) <-
+ (core_leaf, _fvs, leaf_ids) <-
dsfixCmd ids (local_vars `unionVarSet` bound_vars) stack res_ty leaf
- return (fvs `minusVarSet` bound_vars,
- [mkHsEnvStackExpr leaf_ids stack_ids],
+ return ([mkHsEnvStackExpr leaf_ids stack_ids],
envStackType leaf_ids stack,
core_leaf)
-- Prefix each tuple with a distinct series of Left's and Right's,
-- in a balanced way, keeping track of the types.
- merge_branches (fvs1, builds1, in_ty1, core_exp1)
- (fvs2, builds2, in_ty2, core_exp2)
- = (fvs1 `unionVarSet` fvs2,
- map (left_expr in_ty1 in_ty2) builds1 ++
+ merge_branches (builds1, in_ty1, core_exp1)
+ (builds2, in_ty2, core_exp2)
+ = (map (left_expr in_ty1 in_ty2) builds1 ++
map (right_expr in_ty1 in_ty2) builds2,
mkTyConApp either_con [in_ty1, in_ty2],
do_choice ids in_ty1 in_ty2 res_ty core_exp1 core_exp2)
- (fvs_alts, leaves', sum_ty, core_choices)
- = foldb merge_branches branches
+ (leaves', sum_ty, core_choices) = foldb merge_branches branches
-- Replace the commands in the case with these tagged tuples,
-- yielding a HsExpr Id we can feed to dsExpr.
(_, matches') = mapAccumL (replaceLeavesMatch res_ty) leaves' matches
in_ty = envStackType env_ids stack
- fvs_exp = exprFreeVars core_exp `intersectVarSet` local_vars
pat_ty = funArgTy match_ty
match_ty' = mkFunTy pat_ty sum_ty
core_body <- dsExpr (HsCase exp (MatchGroup matches' match_ty'))
core_matches <- matchEnvStack env_ids stack_ids core_body
return (do_map_arrow ids in_ty sum_ty res_ty core_matches core_choices,
- fvs_exp `unionVarSet` fvs_alts)
+ exprFreeVars core_body `intersectVarSet` local_vars)
-- A | ys |- c :: [ts] t
-- ----------------------------------
these bindings.
\begin{code}
-collectPatBinders :: OutputableBndr a => LPat a -> [a]
+collectPatBinders :: LPat Id -> [Id]
collectPatBinders pat = collectl pat []
-collectPatsBinders :: OutputableBndr a => [LPat a] -> [a]
+collectPatsBinders :: [LPat Id] -> [Id]
collectPatsBinders pats = foldr collectl [] pats
---------------------
-collectl :: OutputableBndr a => LPat a -> [a] -> [a]
+collectl :: LPat Id -> [Id] -> [Id]
-- See Note [Dictionary binders in ConPatOut]
collectl (L _ pat) bndrs
= go pat
where
go (VarPat var) = var : bndrs
- go (VarPatOut var bs) = var : collectHsBindsBinders bs
+ go (VarPatOut var bs) = var : collectEvBinders bs
++ bndrs
go (WildPat _) = bndrs
go (LazyPat pat) = collectl pat bndrs
go (ConPatIn _ ps) = foldr collectl bndrs (hsConPatArgs ps)
go (ConPatOut {pat_args=ps, pat_binds=ds}) =
- collectHsBindsBinders ds
+ collectEvBinders ds
++ foldr collectl bndrs (hsConPatArgs ps)
go (LitPat _) = bndrs
go (NPat _ _ _) = bndrs
go (SigPatOut pat _) = collectl pat bndrs
go (TypePat _) = bndrs
go (CoPat _ pat _) = collectl (noLoc pat) bndrs
- go p = pprPanic "collectl/go" (ppr p)
+ go (ViewPat _ pat _) = collectl pat bndrs
+ go p@(QuasiQuotePat {}) = pprPanic "collectl/go" (ppr p)
+
+collectEvBinders :: TcEvBinds -> [Id]
+collectEvBinders (EvBinds bs) = foldrBag add_ev_bndr [] bs
+collectEvBinders (TcEvBinds {}) = panic "ToDo: collectEvBinders"
+
+add_ev_bndr :: EvBind -> [Id] -> [Id]
+add_ev_bndr (EvBind b _) bs | isId b = b:bs
+ | otherwise = bs
+ -- A worry: what about coercion variable binders??
\end{code}