import TysWiredIn
import TcGadt
import Type
+import Coercion
import StaticFlags
import TyCon
import DataCon
-> TcM (LPat TcId, a)
tcLetPat sig_fn pat pat_ty thing_inside
= do { let init_state = PS { pat_ctxt = LetPat sig_fn,
- pat_reft = emptyRefinement }
+ pat_reft = emptyRefinement,
+ pat_eqs = False }
; (pat', ex_tvs, res) <- tc_lpat pat pat_ty init_state (\ _ -> thing_inside)
-- Don't know how to deal with pattern-bound existentials yet
-> ((Refinement,BoxyRhoType) -> TcM a) -- Checker for body, given its result type
-> TcM ([LPat TcId], a)
tc_lam_pats pat_ty_prs (reft, res_ty) thing_inside
- = do { let init_state = PS { pat_ctxt = LamPat, pat_reft = reft }
+ = do { let init_state = PS { pat_ctxt = LamPat, pat_reft = reft, pat_eqs = False }
; (pats', ex_tvs, res) <- tcMultiple tc_lpat_pr pat_ty_prs init_state $ \ pstate' ->
- refineEnvironment (pat_reft pstate') $
- thing_inside (pat_reft pstate', res_ty)
+ refineEnvironment (pat_reft pstate') (pat_eqs pstate') $
+ if (pat_eqs pstate' && (not $ isRigidTy res_ty))
+ then failWithTc (nonRigidResult res_ty)
+ else thing_inside (pat_reft pstate', res_ty)
; let tys = map snd pat_ty_prs
; tcCheckExistentialPat pats' ex_tvs tys res_ty
data PatState = PS {
pat_ctxt :: PatCtxt,
- pat_reft :: Refinement -- Binds rigid TcTyVars to their refinements
+ pat_reft :: Refinement, -- Binds rigid TcTyVars to their refinements
+ pat_eqs :: Bool -- <=> there are GADT equational constraints
+ -- for refinement
}
data PatCtxt
------------------------
-- Literal patterns
tc_pat pstate (LitPat simple_lit) pat_ty thing_inside
- = do { boxyUnify (hsLitType simple_lit) pat_ty
+ = do { let lit_ty = hsLitType simple_lit
+ ; coi <- boxyUnify lit_ty pat_ty
+ -- coi is of kind: lit_ty ~ pat_ty
; res <- thing_inside pstate
- ; returnM (LitPat simple_lit, [], res) }
+ ; span <- getSrcSpanM
+ -- pattern coercions have to
+ -- be of kind: pat_ty ~ lit_ty
+ -- hence, sym coi
+ ; returnM (wrapPatCoI (mkSymCoI coi) (LitPat simple_lit) pat_ty, [], res) }
------------------------
-- Overloaded patterns: n, and n+k
-> HsConPatDetails Name -> (PatState -> TcM a)
-> TcM (Pat TcId, [TcTyVar], a)
tcConPat pstate con_span data_con tycon pat_ty arg_pats thing_inside
- = do { let (univ_tvs, ex_tvs, eq_spec, theta, arg_tys, _) = dataConFullSig data_con
+ = do { let (univ_tvs, ex_tvs, eq_spec, eq_theta, dict_theta, arg_tys, _) = dataConFullSig data_con
skol_info = PatSkol data_con
origin = SigOrigin skol_info
; let tenv = zipTopTvSubst (univ_tvs ++ ex_tvs)
(ctxt_res_tys ++ mkTyVarTys ex_tvs')
eq_spec' = substEqSpec tenv eq_spec
- theta' = substTheta tenv theta
+ theta' = substTheta tenv (eq_theta ++ dict_theta)
arg_tys' = substTys tenv arg_tys
; co_vars <- newCoVars eq_spec' -- Make coercion variables
; pstate' <- refineAlt data_con pstate ex_tvs' co_vars pat_ty
-
+
; ((arg_pats', inner_tvs, res), lie_req) <- getLIE $
tcConArgs data_con arg_tys' arg_pats pstate' thing_inside
-> TcM PatState
refineAlt con pstate ex_tvs [] pat_ty
+ | null $ dataConEqTheta con
= return pstate -- Common case: no equational constraints
refineAlt con pstate ex_tvs co_vars pat_ty
; case gadtRefine (pat_reft pstate) ex_tvs co_vars of {
Failed msg -> failWithTc (inaccessibleAlt msg) ;
Succeeded reft -> do { traceTc trace_msg
- ; return (pstate { pat_reft = reft }) }
+ ; return (pstate { pat_reft = reft, pat_eqs = (pat_eqs pstate || not (null $ dataConEqTheta con)) }) }
-- DO NOT refine the envt right away, because we
-- might be inside a lazy pattern. Instead, refine pstate
where
existentialExplode pat
= hang (vcat [text "My brain just exploded.",
text "I can't handle pattern bindings for existentially-quantified constructors.",
+ text "Instead, use a case-expression, or do-notation, to unpack the constructor.",
text "In the binding group for"])
4 (ppr pat)
= hang (ptext SLIT("GADT pattern match in non-rigid context for") <+> quotes (ppr con))
2 (ptext SLIT("Tell GHC HQ if you'd like this to unify the context"))
+nonRigidResult res_ty
+ = hang (ptext SLIT("GADT pattern match with non-rigid result type") <+> quotes (ppr res_ty))
+ 2 (ptext SLIT("Tell GHC HQ if you'd like this to unify the context"))
+
inaccessibleAlt msg
= hang (ptext SLIT("Inaccessible case alternative:")) 2 msg
\end{code}
+
+\begin{code}
+wrapPatCoI :: CoercionI -> Pat a -> TcType -> Pat a
+wrapPatCoI IdCo pat ty = pat
+wrapPatCoI (ACo co) pat ty = CoPat (WpCo co) pat ty
+\end{code}