\section[TcIfaceSig]{Type checking of type signatures in interface files}
\begin{code}
-module TcIfaceSig ( tcInterfaceSigs, tcVar, tcCoreExpr, tcCoreLamBndrs ) where
+module TcIfaceSig ( tcInterfaceSigs,
+ tcVar,
+ tcCoreExpr,
+ tcCoreLamBndrs,
+ tcCoreBinds ) where
#include "HsVersions.h"
-import HsSyn ( TyClDecl(..), HsTupCon(..) )
-import TcMonad
-import TcMonoType ( tcIfaceType )
-import TcEnv ( RecTcEnv, tcExtendTyVarEnv,
- tcExtendGlobalValEnv, tcSetEnv, tcEnvIds,
+import HsSyn ( CoreDecl(..), TyClDecl(..), HsTupCon(..) )
+import TcHsSyn ( TypecheckedCoreBind )
+import TcRnMonad
+import TcMonoType ( tcIfaceType, kcHsSigType )
+import TcEnv ( RecTcGblEnv, tcExtendTyVarEnv,
+ tcExtendGlobalValEnv,
tcLookupGlobal_maybe, tcLookupRecId_maybe
)
-import RnHsSyn ( RenamedTyClDecl )
+import RnHsSyn ( RenamedCoreDecl, RenamedTyClDecl )
import HsCore
import Literal ( Literal(..) )
import CoreSyn
import CoreLint ( lintUnfolding )
import WorkWrap ( mkWrapper )
-import Id ( Id, mkVanillaGlobal, mkLocalId, idName, isDataConWrapId_maybe )
-import Module ( Module )
-import MkId ( mkCCallOpId )
+import Id ( Id, mkVanillaGlobal, mkLocalId, isDataConWrapId_maybe )
+import MkId ( mkFCallId )
import IdInfo
-import DataCon ( DataCon, dataConId, dataConSig, dataConArgTys )
-import Type ( mkTyVarTys, splitAlgTyConApp_maybe )
+import TyCon ( tyConDataCons, tyConTyVars )
+import DataCon ( DataCon, dataConWorkId, dataConExistentialTyVars, dataConArgTys )
+import Type ( mkTyVarTys, splitTyConApp )
import TysWiredIn ( tupleCon )
import Var ( mkTyVar, tyVarKind )
-import Name ( Name, nameIsLocalOrFrom )
-import Demand ( wwLazy )
-import ErrUtils ( pprBagOfErrors )
+import Name ( Name )
+import UniqSupply ( initUs_ )
import Outputable
-import Util ( zipWithEqual )
+import Util ( zipWithEqual, dropList, equalLength )
import HscTypes ( TyThing(..) )
+import CmdLineOpts ( DynFlag(..) )
\end{code}
Ultimately, type signatures in interfaces will have pragmatic
signatures.
\begin{code}
-tcInterfaceSigs :: RecTcEnv -- Envt to use when checking unfoldings
- -> Module -- This module
+tcInterfaceSigs :: RecTcGblEnv -- Envt to use when checking unfoldings
-> [RenamedTyClDecl] -- Ignore non-sig-decls in these decls
-> TcM [Id]
-tcInterfaceSigs unf_env mod decls
- = listTc [ do_one name ty id_infos src_loc
- | IfaceSig {tcdName = name, tcdType = ty, tcdIdInfo = id_infos, tcdLoc =src_loc} <- decls]
+tcInterfaceSigs unf_env decls
+ = sequenceM [ do_one name ty id_infos src_loc
+ | IfaceSig {tcdName = name, tcdType = ty,
+ tcdIdInfo = id_infos, tcdLoc =src_loc} <- decls]
where
- in_scope_vars = filter (nameIsLocalOrFrom mod . idName) (tcEnvIds unf_env)
+ in_scope_vars = []
+-- in_scope_vars = filter (nameIsLocalOrFrom mod . idName) (tcEnvIds unf_env)
-- Oops: using isLocalId instead can give a black hole
-- because it looks at the idinfo
-- if -dcore-lint is on.
do_one name ty id_infos src_loc
- = tcAddSrcLoc src_loc $
- tcAddErrCtxt (ifaceSigCtxt name) $
- tcIfaceType ty `thenTc` \ sigma_ty ->
+ = addSrcLoc src_loc $
+ addErrCtxt (ifaceSigCtxt name) $
+ tcIfaceType ty `thenM` \ sigma_ty ->
tcIdInfo unf_env in_scope_vars name
- sigma_ty id_infos `thenTc` \ id_info ->
- returnTc (mkVanillaGlobal name sigma_ty id_info)
+ sigma_ty id_infos `thenM` \ id_info ->
+ returnM (mkVanillaGlobal name sigma_ty id_info)
\end{code}
\begin{code}
tcIdInfo unf_env in_scope_vars name ty info_ins
- = foldlTc tcPrag init_info info_ins
+ = foldlM tcPrag init_info info_ins
where
- -- set the CgInfo to something sensible but uninformative before
- -- we start, because the default CgInfo is a panic.
- init_info = vanillaIdInfo `setCgInfo` vanillaCgInfo
+ -- Set the CgInfo to something sensible but uninformative before
+ -- we start; default assumption is that it has CAFs
+ init_info = hasCafIdInfo
- tcPrag info (HsNoCafRefs) = returnTc (info `setCafInfo` NoCafRefs)
- tcPrag info HsCprInfo = returnTc (info `setCprInfo` ReturnsCPR)
+ tcPrag info (HsNoCafRefs) = returnM (info `setCafInfo` NoCafRefs)
tcPrag info (HsArity arity) =
- returnTc (info `setArityInfo` (ArityExactly arity)
- `setCgArity` arity)
+ returnM (info `setArityInfo` arity)
tcPrag info (HsUnfold inline_prag expr)
- = tcPragExpr unf_env name in_scope_vars expr `thenNF_Tc` \ maybe_expr' ->
+ = tcPragExpr unf_env name in_scope_vars expr `thenM` \ maybe_expr' ->
let
-- maybe_expr doesn't get looked at if the unfolding
-- is never inspected; so the typecheck doesn't even happen
info1 = info `setUnfoldingInfo` unfold_info
info2 = info1 `setInlinePragInfo` inline_prag
in
- returnTc info2
+ returnM info2
tcPrag info (HsStrictness strict_info)
- = returnTc (info `setStrictnessInfo` strict_info)
+ = returnM (info `setAllStrictnessInfo` Just strict_info)
tcPrag info (HsWorker nm arity)
= tcWorkerInfo unf_env ty info nm arity
\begin{code}
tcWorkerInfo unf_env ty info worker_name arity
- = uniqSMToTcM (mkWrapper ty arity demands res_bot cpr_info) `thenNF_Tc` \ wrap_fn ->
+ = newUniqueSupply `thenM` \ us ->
let
+ wrap_fn = initUs_ us (mkWrapper ty strict_sig)
+
-- Watch out! We can't pull on unf_env too eagerly!
info' = case tcLookupRecId_maybe unf_env worker_name of
Just worker_id ->
`setWorkerInfo` HasWorker worker_id arity
Nothing -> pprTrace "tcWorkerInfo failed:"
- (ppr worker_name) info
+ (ppr worker_name) info
in
- returnTc info'
+ returnM info'
where
- -- We are relying here on cpr and strictness info always appearing
+ -- We are relying here on strictness info always appearing
-- before worker info, fingers crossed ....
- cpr_info = cprInfo info
-
- (demands, res_bot)
- = case strictnessInfo info of
- StrictnessInfo d r -> (d,r)
- _ -> (take arity (repeat wwLazy),False)
- -- Noncommittal
+ strict_sig = case newStrictnessInfo info of
+ Just sig -> sig
+ Nothing -> pprPanic "Worker info but no strictness for" (ppr worker_name)
\end{code}
For unfoldings we try to do the job lazily, so that we never type check
\begin{code}
tcPragExpr unf_env name in_scope_vars expr
- = tcDelay unf_env doc $
- tcCoreExpr expr `thenTc` \ core_expr' ->
+ = forkM doc $
+ setGblEnv unf_env $
+
+ tcCoreExpr expr `thenM` \ core_expr' ->
-- Check for type consistency in the unfolding
- tcGetSrcLoc `thenNF_Tc` \ src_loc ->
- getDOptsTc `thenTc` \ dflags ->
- case lintUnfolding dflags src_loc in_scope_vars core_expr' of
- (Nothing,_) -> returnTc core_expr' -- ignore warnings
- (Just fail_msg,_) -> failWithTc ((doc <+> text "failed Lint") $$ fail_msg)
+ ifOptM Opt_DoCoreLinting (
+ getSrcLocM `thenM` \ src_loc ->
+ case lintUnfolding src_loc in_scope_vars core_expr' of
+ Nothing -> returnM ()
+ Just fail_msg -> failWithTc ((doc <+> text "Failed Lint") $$ fail_msg)
+ ) `thenM_`
+
+ returnM core_expr'
where
doc = text "unfolding of" <+> ppr name
-
-tcDelay :: RecTcEnv -> SDoc -> TcM a -> NF_TcM (Maybe a)
-tcDelay unf_env doc thing_inside
- = forkNF_Tc (
- recoverNF_Tc bad_value (
- tcSetEnv unf_env thing_inside `thenTc` \ r ->
- returnTc (Just r)
- ))
- where
- -- The trace tells what wasn't available, for the benefit of
- -- compiler hackers who want to improve it!
- bad_value = getErrsTc `thenNF_Tc` \ (warns,errs) ->
- returnNF_Tc (pprTrace "Failed:"
- (hang doc 4 (pprBagOfErrors errs))
- Nothing)
\end{code}
\begin{code}
tcVar :: Name -> TcM Id
tcVar name
- = tcLookupGlobal_maybe name `thenNF_Tc` \ maybe_id ->
+ = tcLookupGlobal_maybe name `thenM` \ maybe_id ->
case maybe_id of {
- Just (AnId id) -> returnTc id ;
+ Just (AnId id) -> returnM id ;
Nothing -> failWithTc (noDecl name)
}
tcCoreExpr :: UfExpr Name -> TcM CoreExpr
tcCoreExpr (UfType ty)
- = tcIfaceType ty `thenTc` \ ty' ->
+ = tcIfaceType ty `thenM` \ ty' ->
-- It might not be of kind type
- returnTc (Type ty')
+ returnM (Type ty')
tcCoreExpr (UfVar name)
- = tcVar name `thenTc` \ id ->
- returnTc (Var id)
+ = tcVar name `thenM` \ id ->
+ returnM (Var id)
tcCoreExpr (UfLit lit)
- = returnTc (Lit lit)
+ = returnM (Lit lit)
-- The dreaded lit-lits are also similar, except here the type
-- is read in explicitly rather than being implicit
tcCoreExpr (UfLitLit lit ty)
- = tcIfaceType ty `thenTc` \ ty' ->
- returnTc (Lit (MachLitLit lit ty'))
+ = tcIfaceType ty `thenM` \ ty' ->
+ returnM (Lit (MachLitLit lit ty'))
-tcCoreExpr (UfCCall cc ty)
- = tcIfaceType ty `thenTc` \ ty' ->
- tcGetUnique `thenNF_Tc` \ u ->
- returnTc (Var (mkCCallOpId u cc ty'))
+tcCoreExpr (UfFCall cc ty)
+ = tcIfaceType ty `thenM` \ ty' ->
+ newUnique `thenM` \ u ->
+ returnM (Var (mkFCallId u cc ty'))
-tcCoreExpr (UfTuple (HsTupCon _ boxity arity) args)
- = mapTc tcCoreExpr args `thenTc` \ args' ->
+tcCoreExpr (UfTuple (HsTupCon boxity arity) args)
+ = mappM tcCoreExpr args `thenM` \ args' ->
let
-- Put the missing type arguments back in
con_args = map (Type . exprType) args' ++ args'
in
- returnTc (mkApps (Var con_id) con_args)
+ returnM (mkApps (Var con_id) con_args)
where
- con_id = dataConId (tupleCon boxity arity)
+ con_id = dataConWorkId (tupleCon boxity arity)
tcCoreExpr (UfLam bndr body)
= tcCoreLamBndr bndr $ \ bndr' ->
- tcCoreExpr body `thenTc` \ body' ->
- returnTc (Lam bndr' body')
+ tcCoreExpr body `thenM` \ body' ->
+ returnM (Lam bndr' body')
tcCoreExpr (UfApp fun arg)
- = tcCoreExpr fun `thenTc` \ fun' ->
- tcCoreExpr arg `thenTc` \ arg' ->
- returnTc (App fun' arg')
+ = tcCoreExpr fun `thenM` \ fun' ->
+ tcCoreExpr arg `thenM` \ arg' ->
+ returnM (App fun' arg')
tcCoreExpr (UfCase scrut case_bndr alts)
- = tcCoreExpr scrut `thenTc` \ scrut' ->
+ = tcCoreExpr scrut `thenM` \ scrut' ->
let
scrut_ty = exprType scrut'
case_bndr' = mkLocalId case_bndr scrut_ty
in
tcExtendGlobalValEnv [case_bndr'] $
- mapTc (tcCoreAlt scrut_ty) alts `thenTc` \ alts' ->
- returnTc (Case scrut' case_bndr' alts')
+ mappM (tcCoreAlt scrut_ty) alts `thenM` \ alts' ->
+ returnM (Case scrut' case_bndr' alts')
tcCoreExpr (UfLet (UfNonRec bndr rhs) body)
- = tcCoreExpr rhs `thenTc` \ rhs' ->
+ = tcCoreExpr rhs `thenM` \ rhs' ->
tcCoreValBndr bndr $ \ bndr' ->
- tcCoreExpr body `thenTc` \ body' ->
- returnTc (Let (NonRec bndr' rhs') body')
+ tcCoreExpr body `thenM` \ body' ->
+ returnM (Let (NonRec bndr' rhs') body')
tcCoreExpr (UfLet (UfRec pairs) body)
= tcCoreValBndrs bndrs $ \ bndrs' ->
- mapTc tcCoreExpr rhss `thenTc` \ rhss' ->
- tcCoreExpr body `thenTc` \ body' ->
- returnTc (Let (Rec (bndrs' `zip` rhss')) body')
+ mappM tcCoreExpr rhss `thenM` \ rhss' ->
+ tcCoreExpr body `thenM` \ body' ->
+ returnM (Let (Rec (bndrs' `zip` rhss')) body')
where
(bndrs, rhss) = unzip pairs
tcCoreExpr (UfNote note expr)
- = tcCoreExpr expr `thenTc` \ expr' ->
+ = tcCoreExpr expr `thenM` \ expr' ->
case note of
- UfCoerce to_ty -> tcIfaceType to_ty `thenTc` \ to_ty' ->
- returnTc (Note (Coerce to_ty'
+ UfCoerce to_ty -> tcIfaceType to_ty `thenM` \ to_ty' ->
+ returnM (Note (Coerce to_ty'
(exprType expr')) expr')
- UfInlineCall -> returnTc (Note InlineCall expr')
- UfInlineMe -> returnTc (Note InlineMe expr')
- UfSCC cc -> returnTc (Note (SCC cc) expr')
+ UfInlineCall -> returnM (Note InlineCall expr')
+ UfInlineMe -> returnM (Note InlineMe expr')
+ UfSCC cc -> returnM (Note (SCC cc) expr')
\end{code}
\begin{code}
tcCoreLamBndr (UfValBinder name ty) thing_inside
- = tcIfaceType ty `thenTc` \ ty' ->
+ = tcIfaceType ty `thenM` \ ty' ->
let
id = mkLocalId name ty'
in
thing_inside (b':bs')
tcCoreValBndr (UfValBinder name ty) thing_inside
- = tcIfaceType ty `thenTc` \ ty' ->
+ = tcIfaceType ty `thenM` \ ty' ->
let
id = mkLocalId name ty'
in
thing_inside id
tcCoreValBndrs bndrs thing_inside -- Expect them all to be ValBinders
- = mapTc tcIfaceType tys `thenTc` \ tys' ->
+ = mappM tcIfaceType tys `thenM` \ tys' ->
let
ids = zipWithEqual "tcCoreValBndr" mkLocalId names tys'
in
\begin{code}
tcCoreAlt scrut_ty (UfDefault, names, rhs)
= ASSERT( null names )
- tcCoreExpr rhs `thenTc` \ rhs' ->
- returnTc (DEFAULT, [], rhs')
+ tcCoreExpr rhs `thenM` \ rhs' ->
+ returnM (DEFAULT, [], rhs')
tcCoreAlt scrut_ty (UfLitAlt lit, names, rhs)
= ASSERT( null names )
- tcCoreExpr rhs `thenTc` \ rhs' ->
- returnTc (LitAlt lit, [], rhs')
+ tcCoreExpr rhs `thenM` \ rhs' ->
+ returnM (LitAlt lit, [], rhs')
tcCoreAlt scrut_ty (UfLitLitAlt str ty, names, rhs)
= ASSERT( null names )
- tcCoreExpr rhs `thenTc` \ rhs' ->
- tcIfaceType ty `thenTc` \ ty' ->
- returnTc (LitAlt (MachLitLit str ty'), [], rhs')
+ tcCoreExpr rhs `thenM` \ rhs' ->
+ tcIfaceType ty `thenM` \ ty' ->
+ returnM (LitAlt (MachLitLit str ty'), [], rhs')
-- A case alternative is made quite a bit more complicated
-- by the fact that we omit type annotations because we can
-- work them out. True enough, but its not that easy!
tcCoreAlt scrut_ty alt@(con, names, rhs)
- = tcConAlt con `thenTc` \ con ->
+ = tcConAlt con `thenM` \ con ->
let
- (main_tyvars, _, ex_tyvars, _, _, _) = dataConSig con
-
- (_, inst_tys, cons) = case splitAlgTyConApp_maybe scrut_ty of
- Just stuff -> stuff
- Nothing -> pprPanic "tcCoreAlt" (ppr alt)
- ex_tyvars' = [mkTyVar name (tyVarKind tv) | (name,tv) <- names `zip` ex_tyvars]
- ex_tys' = mkTyVarTys ex_tyvars'
- arg_tys = dataConArgTys con (inst_tys ++ ex_tys')
- id_names = drop (length ex_tyvars) names
+ ex_tyvars = dataConExistentialTyVars con
+ (tycon, inst_tys) = splitTyConApp scrut_ty -- NB: not tcSplitTyConApp
+ -- We are looking at Core here
+ main_tyvars = tyConTyVars tycon
+ ex_tyvars' = [mkTyVar name (tyVarKind tv) | (name,tv) <- names `zip` ex_tyvars]
+ ex_tys' = mkTyVarTys ex_tyvars'
+ arg_tys = dataConArgTys con (inst_tys ++ ex_tys')
+ id_names = dropList ex_tyvars names
arg_ids
#ifdef DEBUG
- | length id_names /= length arg_tys
+ | not (equalLength id_names arg_tys)
= pprPanic "tcCoreAlts" (ppr (con, names, rhs) $$
(ppr main_tyvars <+> ppr ex_tyvars) $$
ppr arg_tys)
#endif
= zipWithEqual "tcCoreAlts" mkLocalId id_names arg_tys
in
- ASSERT( con `elem` cons && length inst_tys == length main_tyvars )
+ ASSERT( con `elem` tyConDataCons tycon && equalLength inst_tys main_tyvars )
tcExtendTyVarEnv ex_tyvars' $
tcExtendGlobalValEnv arg_ids $
- tcCoreExpr rhs `thenTc` \ rhs' ->
- returnTc (DataAlt con, ex_tyvars' ++ arg_ids, rhs')
+ tcCoreExpr rhs `thenM` \ rhs' ->
+ returnM (DataAlt con, ex_tyvars' ++ arg_ids, rhs')
tcConAlt :: UfConAlt Name -> TcM DataCon
-tcConAlt (UfTupleAlt (HsTupCon _ boxity arity))
- = returnTc (tupleCon boxity arity)
+tcConAlt (UfTupleAlt (HsTupCon boxity arity))
+ = returnM (tupleCon boxity arity)
tcConAlt (UfDataAlt con_name)
- = tcVar con_name `thenTc` \ con_id ->
- returnTc (case isDataConWrapId_maybe con_id of
+ = tcVar con_name `thenM` \ con_id ->
+ returnM (case isDataConWrapId_maybe con_id of
Just con -> con
Nothing -> pprPanic "tcCoreAlt" (ppr con_id))
\end{code}
+%************************************************************************
+%* *
+\subsection{Core decls}
+%* *
+%************************************************************************
+
+
+\begin{code}
+tcCoreBinds :: [RenamedCoreDecl] -> TcM [TypecheckedCoreBind]
+-- We don't assume the bindings are in dependency order
+-- So first build the environment, then check the RHSs
+tcCoreBinds ls = mappM tcCoreBinder ls `thenM` \ bndrs ->
+ tcExtendGlobalValEnv bndrs $
+ mappM (tcCoreBind bndrs) ls
+
+tcCoreBinder (CoreDecl nm ty _ _)
+ = kcHsSigType ty `thenM_`
+ tcIfaceType ty `thenM` \ ty' ->
+ returnM (mkLocalId nm ty')
+
+tcCoreBind bndrs (CoreDecl nm _ rhs loc)
+ = tcVar nm `thenM` \ id ->
+ tcCoreExpr rhs `thenM` \ rhs' ->
+ let
+ mb_err = lintUnfolding loc bndrs rhs'
+ in
+ (case mb_err of
+ Just err -> addErr err
+ Nothing -> returnM ()) `thenM_`
+
+ returnM (id, rhs')
+\end{code}
+
+
\begin{code}
ifaceSigCtxt sig_name
= hsep [ptext SLIT("In an interface-file signature for"), ppr sig_name]
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