import TcHsType
import TcExpr
import TcEnv
-import Inst
import Id
+import Var ( Var )
import Name
+import VarSet
import SrcLoc
import Outputable
import FastString
+import Data.List( partition )
\end{code}
Note [Typechecking rules]
tcRules decls = mapM (wrapLocM tcRule) decls
tcRule :: RuleDecl Name -> TcM (RuleDecl TcId)
-tcRule (HsRule name act vars lhs fv_lhs rhs fv_rhs)
- = addErrCtxt (ruleCtxt name) $ do
- traceTc (ptext (sLit "---- Rule ------") <+> ppr name)
-
- -- Deal with the tyvars mentioned in signatures
- (ids, lhs', rhs', lhs_lie, rhs_lie, rule_ty) <-
- tcRuleBndrs vars $ \ ids -> do
- -- Now LHS and RHS; see Note [Typechecking rules]
- ((lhs', rule_ty), lhs_lie) <- getLIE (tcInferRho lhs)
- (rhs', rhs_lie) <- getLIE (tcMonoExpr rhs rule_ty)
- return (ids, lhs', rhs', lhs_lie, rhs_lie, rule_ty)
-
- -- Check that LHS has no overloading at all
- (lhs_dicts, lhs_binds) <- tcSimplifyRuleLhs lhs_lie
-
- -- Gather the template variables and tyvars
- let
- tpl_ids = map instToId lhs_dicts ++ ids
+tcRule (HsRule name act hs_bndrs lhs fv_lhs rhs fv_rhs)
+ = addErrCtxt (ruleCtxt name) $
+ do { traceTc "---- Rule ------" (ppr name)
+
+ -- Note [Typechecking rules]
+ ; vars <- tcRuleBndrs hs_bndrs
+ ; let (id_bndrs, tv_bndrs) = partition isId vars
+ ; (lhs', lhs_lie, rhs', rhs_lie, rule_ty)
+ <- tcExtendTyVarEnv tv_bndrs $
+ tcExtendIdEnv id_bndrs $
+ do { ((lhs', rule_ty), lhs_lie) <- captureConstraints (tcInferRho lhs)
+ ; (rhs', rhs_lie) <- captureConstraints (tcMonoExpr rhs rule_ty)
+ ; return (lhs', lhs_lie, rhs', rhs_lie, rule_ty) }
+
+ ; (lhs_dicts, lhs_ev_binds, rhs_ev_binds)
+ <- simplifyRule name tv_bndrs lhs_lie rhs_lie
-- IMPORTANT! We *quantify* over any dicts that appear in the LHS
-- Reason:
- -- a) The particular dictionary isn't important, because its value
+ -- (a) The particular dictionary isn't important, because its value
-- depends only on the type
-- e.g gcd Int $fIntegralInt
-- Here we'd like to match against (gcd Int any_d) for any 'any_d'
--
- -- b) We'd like to make available the dictionaries bound
- -- on the LHS in the RHS, so quantifying over them is good
- -- See the 'lhs_dicts' in tcSimplifyAndCheck for the RHS
+ -- (b) We'd like to make available the dictionaries bound
+ -- on the LHS in the RHS, so quantifying over them is good
+ -- See the 'lhs_dicts' in tcSimplifyAndCheck for the RHS
- -- We initially quantify over any tyvars free in *either* the rule
+ -- We quantify over any tyvars free in *either* the rule
-- *or* the bound variables. The latter is important. Consider
-- ss (x,(y,z)) = (x,z)
-- RULE: forall v. fst (ss v) = fst v
--
-- We also need to get the free tyvars of the LHS; but we do that
-- during zonking (see TcHsSyn.zonkRule)
- --
- forall_tvs = tyVarsOfTypes (rule_ty : map idType tpl_ids)
- -- RHS can be a bit more lenient. In particular,
- -- we let constant dictionaries etc float outwards
- --
- -- NB: tcSimplifyInferCheck zonks the forall_tvs, and
- -- knocks out any that are constrained by the environment
- loc <- getInstLoc (SigOrigin (RuleSkol name))
- (forall_tvs1, rhs_binds) <- tcSimplifyInferCheck loc
- forall_tvs
- lhs_dicts rhs_lie
-
- return (HsRule name act
- (map (RuleBndr . noLoc) (forall_tvs1 ++ tpl_ids)) -- yuk
- (mkHsDictLet lhs_binds lhs') fv_lhs
- (mkHsDictLet rhs_binds rhs') fv_rhs)
-
-tcRuleBndrs :: [RuleBndr Name] -> ([Id] -> TcM a) -> TcM a
-tcRuleBndrs [] thing_inside = thing_inside []
-tcRuleBndrs (RuleBndr var : vars) thing_inside
+ ; let tpl_ids = lhs_dicts ++ id_bndrs
+ forall_tvs = tyVarsOfTypes (rule_ty : map idType tpl_ids)
+
+ -- Now figure out what to quantify over
+ -- c.f. TcSimplify.simplifyInfer
+ ; zonked_forall_tvs <- zonkTcTyVarsAndFV forall_tvs
+ ; gbl_tvs <- tcGetGlobalTyVars -- Already zonked
+ ; qtvs <- zonkQuantifiedTyVars (varSetElems (zonked_forall_tvs `minusVarSet` gbl_tvs))
+
+ ; return (HsRule name act
+ (map (RuleBndr . noLoc) (qtvs ++ tpl_ids)) -- yuk
+ (mkHsDictLet lhs_ev_binds lhs') fv_lhs
+ (mkHsDictLet rhs_ev_binds rhs') fv_rhs) }
+
+tcRuleBndrs :: [RuleBndr Name] -> TcM [Var]
+tcRuleBndrs []
+ = return []
+tcRuleBndrs (RuleBndr var : rule_bndrs)
= do { ty <- newFlexiTyVarTy openTypeKind
- ; let id = mkLocalId (unLoc var) ty
- ; tcExtendIdEnv [id] $
- tcRuleBndrs vars (\ids -> thing_inside (id:ids)) }
-tcRuleBndrs (RuleBndrSig var rn_ty : vars) thing_inside
+ ; vars <- tcRuleBndrs rule_bndrs
+ ; return (mkLocalId (unLoc var) ty : vars) }
+tcRuleBndrs (RuleBndrSig var rn_ty : rule_bndrs)
-- e.g x :: a->a
-- The tyvar 'a' is brought into scope first, just as if you'd written
-- a::*, x :: a->a
; let skol_tvs = tcSkolSigTyVars (SigSkol ctxt) tyvars
id_ty = substTyWith tyvars (mkTyVarTys skol_tvs) ty
id = mkLocalId (unLoc var) id_ty
- ; tcExtendTyVarEnv skol_tvs $
- tcExtendIdEnv [id] $
- tcRuleBndrs vars (\ids -> thing_inside (id:ids)) }
+
+ -- The type variables scope over subsequent bindings; yuk
+ ; vars <- tcExtendTyVarEnv skol_tvs $
+ tcRuleBndrs rule_bndrs
+ ; return (skol_tvs ++ id : vars) }
ruleCtxt :: FastString -> SDoc
ruleCtxt name = ptext (sLit "When checking the transformation rule") <+>