module GHC.Tc.Gen.Arrow ( tcProc ) where
import GHC.Prelude
import GHC.Tc.Gen.Expr( tcCheckMonoExpr, tcInferRho, tcSyntaxOp
, tcCheckPolyExpr )
import GHC.Hs
import GHC.Tc.Gen.Match
import GHC.Tc.Gen.Head( tcCheckId )
import GHC.Tc.Utils.Zonk( hsLPatType )
import GHC.Tc.Utils.TcType
import GHC.Tc.Utils.TcMType
import GHC.Tc.Gen.Bind
import GHC.Tc.Gen.Pat
import GHC.Tc.Utils.Unify
import GHC.Tc.Utils.Monad
import GHC.Tc.Utils.Env
import GHC.Tc.Types.Origin
import GHC.Tc.Types.Evidence
import GHC.Core.Multiplicity
import GHC.Types.Id( mkLocalId )
import GHC.Tc.Utils.Instantiate
import GHC.Builtin.Types
import GHC.Types.Var.Set
import GHC.Builtin.Types.Prim
import GHC.Types.Basic( Arity )
import GHC.Types.SrcLoc
import GHC.Utils.Outputable
import GHC.Utils.Panic
import GHC.Utils.Misc
import Control.Monad
tcProc :: LPat GhcRn -> LHsCmdTop GhcRn
-> ExpRhoType
-> TcM (LPat GhcTc, LHsCmdTop GhcTc, TcCoercion)
tcProc pat cmd@(L _ (HsCmdTop names _)) exp_ty
= do { exp_ty <- expTypeToType exp_ty
; (co, (exp_ty1, res_ty)) <- matchExpectedAppTy exp_ty
; (co1, (arr_ty, arg_ty)) <- matchExpectedAppTy exp_ty1
; names' <- mapM (tcSyntaxName ProcOrigin arr_ty) names
; let cmd_env = CmdEnv { cmd_arr = arr_ty }
; (pat', cmd') <- newArrowScope
$ tcCheckPat ProcExpr pat (unrestricted arg_ty)
$ tcCmdTop cmd_env names' cmd (unitTy, res_ty)
; let res_co = mkTcTransCo co
(mkTcAppCo co1 (mkTcNomReflCo res_ty))
; return (pat', cmd', res_co) }
type CmdType = (CmdArgType, TcTauType)
type CmdArgType = TcTauType
data CmdEnv
= CmdEnv {
cmd_arr :: TcType
}
mkCmdArrTy :: CmdEnv -> TcTauType -> TcTauType -> TcTauType
mkCmdArrTy env t1 t2 = mkAppTys (cmd_arr env) [t1, t2]
tcCmdTop :: CmdEnv
-> CmdSyntaxTable GhcTc
-> LHsCmdTop GhcRn
-> CmdType
-> TcM (LHsCmdTop GhcTc)
tcCmdTop env names (L loc (HsCmdTop _names cmd)) cmd_ty@(cmd_stk, res_ty)
= setSrcSpan loc $
do { cmd' <- tcCmd env cmd cmd_ty
; return (L loc $ HsCmdTop (CmdTopTc cmd_stk res_ty names) cmd') }
tcCmd :: CmdEnv -> LHsCmd GhcRn -> CmdType -> TcM (LHsCmd GhcTc)
tcCmd env (L loc cmd) res_ty
= setSrcSpan (locA loc) $ do
{ cmd' <- tc_cmd env cmd res_ty
; return (L loc cmd') }
tc_cmd :: CmdEnv -> HsCmd GhcRn -> CmdType -> TcM (HsCmd GhcTc)
tc_cmd env (HsCmdPar x cmd) res_ty
= do { cmd' <- tcCmd env cmd res_ty
; return (HsCmdPar x cmd') }
tc_cmd env (HsCmdLet x binds (L body_loc body)) res_ty
= do { (binds', body') <- tcLocalBinds binds $
setSrcSpan (locA body_loc) $
tc_cmd env body res_ty
; return (HsCmdLet x binds' (L body_loc body')) }
tc_cmd env in_cmd@(HsCmdCase x scrut matches) (stk, res_ty)
= addErrCtxt (cmdCtxt in_cmd) $ do
(scrut', scrut_ty) <- tcInferRho scrut
matches' <- tcCmdMatches env scrut_ty matches (stk, res_ty)
return (HsCmdCase x scrut' matches')
tc_cmd env in_cmd@(HsCmdLamCase x matches) (stk, res_ty)
= addErrCtxt (cmdCtxt in_cmd) $ do
(co, [scrut_ty], stk') <- matchExpectedCmdArgs 1 stk
matches' <- tcCmdMatches env scrut_ty matches (stk', res_ty)
return (mkHsCmdWrap (mkWpCastN co) (HsCmdLamCase x matches'))
tc_cmd env (HsCmdIf x NoSyntaxExprRn pred b1 b2) res_ty
= do { pred' <- tcCheckMonoExpr pred boolTy
; b1' <- tcCmd env b1 res_ty
; b2' <- tcCmd env b2 res_ty
; return (HsCmdIf x NoSyntaxExprTc pred' b1' b2')
}
tc_cmd env (HsCmdIf x fun@(SyntaxExprRn {}) pred b1 b2) res_ty
= do { pred_ty <- newOpenFlexiTyVarTy
; (_, [r_tv]) <- tcInstSkolTyVars [alphaTyVar]
; let r_ty = mkTyVarTy r_tv
; checkTc (not (r_tv `elemVarSet` tyCoVarsOfType pred_ty))
(text "Predicate type of `ifThenElse' depends on result type")
; (pred', fun')
<- tcSyntaxOp IfOrigin fun (map synKnownType [pred_ty, r_ty, r_ty])
(mkCheckExpType r_ty) $ \ _ _ ->
tcCheckMonoExpr pred pred_ty
; b1' <- tcCmd env b1 res_ty
; b2' <- tcCmd env b2 res_ty
; return (HsCmdIf x fun' pred' b1' b2')
}
tc_cmd env cmd@(HsCmdArrApp _ fun arg ho_app lr) (_, res_ty)
= addErrCtxt (cmdCtxt cmd) $
do { arg_ty <- newOpenFlexiTyVarTy
; let fun_ty = mkCmdArrTy env arg_ty res_ty
; fun' <- select_arrow_scope (tcCheckMonoExpr fun fun_ty)
; arg' <- tcCheckMonoExpr arg arg_ty
; return (HsCmdArrApp fun_ty fun' arg' ho_app lr) }
where
select_arrow_scope tc = case ho_app of
HsHigherOrderApp -> tc
HsFirstOrderApp -> escapeArrowScope tc
tc_cmd env cmd@(HsCmdApp x fun arg) (cmd_stk, res_ty)
= addErrCtxt (cmdCtxt cmd) $
do { arg_ty <- newOpenFlexiTyVarTy
; fun' <- tcCmd env fun (mkPairTy arg_ty cmd_stk, res_ty)
; arg' <- tcCheckMonoExpr arg arg_ty
; return (HsCmdApp x fun' arg') }
tc_cmd env
(HsCmdLam x (MG { mg_alts = L l [L mtch_loc
(match@(Match { m_pats = pats, m_grhss = grhss }))],
mg_origin = origin }))
(cmd_stk, res_ty)
= addErrCtxt (pprMatchInCtxt match) $
do { (co, arg_tys, cmd_stk') <- matchExpectedCmdArgs n_pats cmd_stk
; (pats', grhss') <- setSrcSpanA mtch_loc $
tcPats LambdaExpr pats (map (unrestricted . mkCheckExpType) arg_tys) $
tc_grhss grhss cmd_stk' (mkCheckExpType res_ty)
; let match' = L mtch_loc (Match { m_ext = noAnn
, m_ctxt = LambdaExpr, m_pats = pats'
, m_grhss = grhss' })
arg_tys = map (unrestricted . hsLPatType) pats'
cmd' = HsCmdLam x (MG { mg_alts = L l [match']
, mg_ext = MatchGroupTc arg_tys res_ty
, mg_origin = origin })
; return (mkHsCmdWrap (mkWpCastN co) cmd') }
where
n_pats = length pats
match_ctxt = (LambdaExpr :: HsMatchContext GhcRn)
pg_ctxt = PatGuard match_ctxt
tc_grhss (GRHSs x grhss binds) stk_ty res_ty
= do { (binds', grhss') <- tcLocalBinds binds $
mapM (wrapLocM (tc_grhs stk_ty res_ty)) grhss
; return (GRHSs x grhss' binds') }
tc_grhs stk_ty res_ty (GRHS x guards body)
= do { (guards', rhs') <- tcStmtsAndThen pg_ctxt tcGuardStmt guards res_ty $
\ res_ty -> tcCmd env body
(stk_ty, checkingExpType "tc_grhs" res_ty)
; return (GRHS x guards' rhs') }
tc_cmd env (HsCmdDo _ (L l stmts) ) (cmd_stk, res_ty)
= do { co <- unifyType Nothing unitTy cmd_stk
; stmts' <- tcStmts ArrowExpr (tcArrDoStmt env) stmts res_ty
; return (mkHsCmdWrap (mkWpCastN co) (HsCmdDo res_ty (L l stmts') )) }
tc_cmd env cmd@(HsCmdArrForm x expr f fixity cmd_args) (cmd_stk, res_ty)
= addErrCtxt (cmdCtxt cmd) $
do { (cmd_args', cmd_tys) <- mapAndUnzipM tc_cmd_arg cmd_args
; let e_ty = mkInfForAllTy alphaTyVar $
mkVisFunTysMany cmd_tys $
mkCmdArrTy env (mkPairTy alphaTy cmd_stk) res_ty
; expr' <- tcCheckPolyExpr expr e_ty
; return (HsCmdArrForm x expr' f fixity cmd_args') }
where
tc_cmd_arg :: LHsCmdTop GhcRn -> TcM (LHsCmdTop GhcTc, TcType)
tc_cmd_arg cmd@(L _ (HsCmdTop names _))
= do { arr_ty <- newFlexiTyVarTy arrowTyConKind
; stk_ty <- newFlexiTyVarTy liftedTypeKind
; res_ty <- newFlexiTyVarTy liftedTypeKind
; names' <- mapM (tcSyntaxName ProcOrigin arr_ty) names
; let env' = env { cmd_arr = arr_ty }
; cmd' <- tcCmdTop env' names' cmd (stk_ty, res_ty)
; return (cmd', mkCmdArrTy env' (mkPairTy alphaTy stk_ty) res_ty) }
tc_cmd _ cmd _
= failWithTc (vcat [text "The expression", nest 2 (ppr cmd),
text "was found where an arrow command was expected"])
tcCmdMatches :: CmdEnv
-> TcType
-> MatchGroup GhcRn (LHsCmd GhcRn)
-> CmdType
-> TcM (MatchGroup GhcTc (LHsCmd GhcTc))
tcCmdMatches env scrut_ty matches (stk, res_ty)
= tcMatchesCase match_ctxt (unrestricted scrut_ty) matches (mkCheckExpType res_ty)
where
match_ctxt = MC { mc_what = CaseAlt,
mc_body = mc_body }
mc_body body res_ty' = do { res_ty' <- expTypeToType res_ty'
; tcCmd env body (stk, res_ty') }
matchExpectedCmdArgs :: Arity -> TcType -> TcM (TcCoercionN, [TcType], TcType)
matchExpectedCmdArgs 0 ty
= return (mkTcNomReflCo ty, [], ty)
matchExpectedCmdArgs n ty
= do { (co1, [ty1, ty2]) <- matchExpectedTyConApp pairTyCon ty
; (co2, tys, res_ty) <- matchExpectedCmdArgs (n1) ty2
; return (mkTcTyConAppCo Nominal pairTyCon [co1, co2], ty1:tys, res_ty) }
tcArrDoStmt :: CmdEnv -> TcCmdStmtChecker
tcArrDoStmt env _ (LastStmt x rhs noret _) res_ty thing_inside
= do { rhs' <- tcCmd env rhs (unitTy, res_ty)
; thing <- thing_inside (panic "tcArrDoStmt")
; return (LastStmt x rhs' noret noSyntaxExpr, thing) }
tcArrDoStmt env _ (BodyStmt _ rhs _ _) res_ty thing_inside
= do { (rhs', elt_ty) <- tc_arr_rhs env rhs
; thing <- thing_inside res_ty
; return (BodyStmt elt_ty rhs' noSyntaxExpr noSyntaxExpr, thing) }
tcArrDoStmt env ctxt (BindStmt _ pat rhs) res_ty thing_inside
= do { (rhs', pat_ty) <- tc_arr_rhs env rhs
; (pat', thing) <- tcCheckPat (StmtCtxt ctxt) pat (unrestricted pat_ty) $
thing_inside res_ty
; return (mkTcBindStmt pat' rhs', thing) }
tcArrDoStmt env ctxt (RecStmt { recS_stmts = L l stmts, recS_later_ids = later_names
, recS_rec_ids = rec_names }) res_ty thing_inside
= do { let tup_names = rec_names ++ filterOut (`elem` rec_names) later_names
; tup_elt_tys <- newFlexiTyVarTys (length tup_names) liftedTypeKind
; let tup_ids = zipWith (\n p -> mkLocalId n Many p) tup_names tup_elt_tys
; tcExtendIdEnv tup_ids $ do
{ (stmts', tup_rets)
<- tcStmtsAndThen ctxt (tcArrDoStmt env) stmts res_ty $ \ _res_ty' ->
zipWithM tcCheckId tup_names (map mkCheckExpType tup_elt_tys)
; thing <- thing_inside res_ty
; let rec_ids = takeList rec_names tup_ids
; later_ids <- tcLookupLocalIds later_names
; let rec_rets = takeList rec_names tup_rets
; let ret_table = zip tup_ids tup_rets
; let later_rets = [r | i <- later_ids, (j, r) <- ret_table, i == j]
; let
stmt :: Stmt GhcTc (LocatedA (HsCmd GhcTc))
stmt = emptyRecStmtId
{ recS_stmts = L l stmts'
, recS_later_ids = later_ids
, recS_rec_ids = rec_ids
, recS_ext = unitRecStmtTc
{ recS_later_rets = later_rets
, recS_rec_rets = rec_rets
, recS_ret_ty = res_ty} }
; return (stmt, thing)
}}
tcArrDoStmt _ _ stmt _ _
= pprPanic "tcArrDoStmt: unexpected Stmt" (ppr stmt)
tc_arr_rhs :: CmdEnv -> LHsCmd GhcRn -> TcM (LHsCmd GhcTc, TcType)
tc_arr_rhs env rhs = do { ty <- newFlexiTyVarTy liftedTypeKind
; rhs' <- tcCmd env rhs (unitTy, ty)
; return (rhs', ty) }
mkPairTy :: Type -> Type -> Type
mkPairTy t1 t2 = mkTyConApp pairTyCon [t1,t2]
arrowTyConKind :: Kind
arrowTyConKind = mkVisFunTysMany [liftedTypeKind, liftedTypeKind] liftedTypeKind
cmdCtxt :: HsCmd GhcRn -> SDoc
cmdCtxt cmd = text "In the command:" <+> ppr cmd