import HsSyn ( emptyLHsBinds )
import HscTypes ( HscEnv(..), ModGuts(..), ModIface(..),
- TyThing, TypeEnv, emptyTypeEnv, HscSource(..), isHsBoot,
+ TyThing, TypeEnv, emptyTypeEnv, HscSource(..),
+ isHsBoot, ModSummary(..),
ExternalPackageState(..), HomePackageTable,
Deprecs(..), FixityEnv, FixItem,
- GhciMode, lookupType, unQualInScope )
+ lookupType, unQualInScope )
import Module ( Module, unitModuleEnv )
import RdrName ( GlobalRdrEnv, emptyGlobalRdrEnv,
LocalRdrEnv, emptyLocalRdrEnv )
-import Name ( Name, isInternalName )
+import Name ( Name, isInternalName, mkInternalName, tidyNameOcc, nameOccName, getSrcLoc )
import Type ( Type )
-import NameEnv ( extendNameEnvList )
+import TcType ( tcIsTyVarTy, tcGetTyVar )
+import NameEnv ( extendNameEnvList, nameEnvElts )
import InstEnv ( emptyInstEnv )
+import Var ( setTyVarName )
import VarSet ( emptyVarSet )
-import VarEnv ( TidyEnv, emptyTidyEnv, emptyVarEnv )
+import VarEnv ( TidyEnv, emptyTidyEnv, extendVarEnv )
import ErrUtils ( Message, Messages, emptyMessages, errorsFound,
mkWarnMsg, printErrorsAndWarnings,
mkLocMessage, mkLongErrMsg )
+import Packages ( mkHomeModules )
import SrcLoc ( mkGeneralSrcSpan, isGoodSrcSpan, SrcSpan, Located(..) )
import NameEnv ( emptyNameEnv )
import NameSet ( NameSet, emptyDUs, emptyNameSet, unionNameSets, addOneToNameSet )
-import OccName ( emptyOccEnv )
+import OccName ( emptyOccEnv, tidyOccName )
import Bag ( emptyBag )
import Outputable
import UniqSupply ( UniqSupply, mkSplitUniqSupply, uniqFromSupply, splitUniqSupply )
import Unique ( Unique )
-import CmdLineOpts ( DynFlags, DynFlag(..), dopt, opt_PprStyle_Debug, dopt_set )
+import DynFlags ( DynFlags(..), DynFlag(..), dopt, dopt_set, GhcMode )
+import StaticFlags ( opt_PprStyle_Debug )
import Bag ( snocBag, unionBags )
import Panic ( showException )
-import Maybe ( isJust )
import IO ( stderr )
import DATA_IOREF ( newIORef, readIORef )
import EXCEPTION ( Exception )
dfuns_var <- newIORef emptyNameSet ;
keep_var <- newIORef emptyNameSet ;
th_var <- newIORef False ;
+ dfun_n_var <- newIORef 1 ;
let {
gbl_env = TcGblEnv {
tcg_th_used = th_var,
tcg_exports = emptyNameSet,
tcg_imports = init_imports,
+ tcg_home_mods = home_mods,
tcg_dus = emptyDUs,
+ tcg_rn_decls = Nothing,
tcg_binds = emptyLHsBinds,
tcg_deprecs = NoDeprecs,
tcg_insts = [],
tcg_rules = [],
tcg_fords = [],
+ tcg_dfun_n = dfun_n_var,
tcg_keep = keep_var
} ;
lcl_env = TcLclEnv {
tcl_ctxt = [],
tcl_rdr = emptyLocalRdrEnv,
tcl_th_ctxt = topStage,
- tcl_arrow_ctxt = topArrowCtxt,
+ tcl_arrow_ctxt = NoArrowCtxt,
tcl_env = emptyNameEnv,
tcl_tyvars = tvs_var,
- tcl_lie = panic "initTc:LIE", -- LIE only valid inside a getLIE
- tcl_gadt = emptyVarEnv
+ tcl_lie = panic "initTc:LIE" -- LIE only valid inside a getLIE
} ;
} ;
return (msgs, final_res)
}
where
- init_imports = emptyImportAvails { imp_env = unitModuleEnv mod emptyNameSet }
+ home_mods = mkHomeModules (map ms_mod (hsc_mod_graph hsc_env))
+ -- A guess at the home modules. This will be correct in
+ -- --make and GHCi modes, but in one-shot mode we need to
+ -- fix it up after we know the real dependencies of the current
+ -- module (see tcRnModule).
+ -- Setting it here is necessary for the typechecker entry points
+ -- other than tcRnModule: tcRnGetInfo, for example. These are
+ -- all called via the GHC module, so hsc_mod_graph will contain
+ -- something sensible.
+
+ init_imports = emptyImportAvails {imp_env = unitModuleEnv mod emptyNameSet}
-- Initialise tcg_imports with an empty set of bindings for
-- this module, so that if we see 'module M' in the export
-- list, and there are no bindings in M, we don't bleat
-> IO (Maybe r)
initTcPrintErrors env mod todo = do
(msgs, res) <- initTc env HsSrcFile mod todo
- printErrorsAndWarnings msgs
+ printErrorsAndWarnings (hsc_dflags env) msgs
return res
-- mkImpTypeEnv makes the imported symbol table
ifOptM flag thing_inside = do { b <- doptM flag;
if b then thing_inside else return () }
-getGhciMode :: TcRnIf gbl lcl GhciMode
-getGhciMode = do { env <- getTopEnv; return (hsc_mode env) }
+getGhciMode :: TcRnIf gbl lcl GhcMode
+getGhciMode = do { env <- getTopEnv; return (ghcMode (hsc_dflags env)) }
\end{code}
\begin{code}
let { (us1, us2) = splitUniqSupply us } ;
writeMutVar u_var us1 ;
return us2 }
+
+newLocalName :: Name -> TcRnIf gbl lcl Name
+newLocalName name -- Make a clone
+ = newUnique `thenM` \ uniq ->
+ returnM (mkInternalName uniq (nameOccName name) (getSrcLoc name))
\end{code}
\begin{code}
traceTc, traceRn :: SDoc -> TcRn ()
-traceRn = dumpOptTcRn Opt_D_dump_rn_trace
-traceTc = dumpOptTcRn Opt_D_dump_tc_trace
-traceSplice = dumpOptTcRn Opt_D_dump_splices
+traceRn = traceOptTcRn Opt_D_dump_rn_trace
+traceTc = traceOptTcRn Opt_D_dump_tc_trace
+traceSplice = traceOptTcRn Opt_D_dump_splices
traceIf :: SDoc -> TcRnIf m n ()
-traceIf = dumpOptIf Opt_D_dump_if_trace
-traceHiDiffs = dumpOptIf Opt_D_dump_hi_diffs
+traceIf = traceOptIf Opt_D_dump_if_trace
+traceHiDiffs = traceOptIf Opt_D_dump_hi_diffs
-dumpOptIf :: DynFlag -> SDoc -> TcRnIf m n () -- No RdrEnv available, so qualify everything
-dumpOptIf flag doc = ifOptM flag $
+traceOptIf :: DynFlag -> SDoc -> TcRnIf m n () -- No RdrEnv available, so qualify everything
+traceOptIf flag doc = ifOptM flag $
ioToIOEnv (printForUser stderr alwaysQualify doc)
-dumpOptTcRn :: DynFlag -> SDoc -> TcRn ()
-dumpOptTcRn flag doc = ifOptM flag $ do
+traceOptTcRn :: DynFlag -> SDoc -> TcRn ()
+traceOptTcRn flag doc = ifOptM flag $ do
{ ctxt <- getErrCtxt
; loc <- getSrcSpanM
- ; ctxt_msgs <- do_ctxt emptyTidyEnv ctxt
+ ; env0 <- tcInitTidyEnv
+ ; ctxt_msgs <- do_ctxt env0 ctxt
; let real_doc = mkLocMessage loc (vcat (doc : ctxt_to_use ctxt_msgs))
; dumpTcRn real_doc }
dumpTcRn :: SDoc -> TcRn ()
dumpTcRn doc = do { rdr_env <- getGlobalRdrEnv ;
ioToTcRn (printForUser stderr (unQualInScope rdr_env) doc) }
+
+dumpOptTcRn :: DynFlag -> SDoc -> TcRn ()
+dumpOptTcRn flag doc = ifOptM flag (dumpTcRn doc)
\end{code}
getModule :: TcRn Module
getModule = do { env <- getGblEnv; return (tcg_mod env) }
+setModule :: Module -> TcRn a -> TcRn a
+setModule mod thing_inside = updGblEnv (\env -> env { tcg_mod = mod }) thing_inside
+
tcIsHsBoot :: TcRn Bool
tcIsHsBoot = do { env <- getGblEnv; return (isHsBoot (tcg_src env)) }
addLongErrAt :: SrcSpan -> Message -> Message -> TcRn ()
addLongErrAt loc msg extra
- = do { errs_var <- getErrsVar ;
+ = do { traceTc (ptext SLIT("Adding error:") <+> (mkLocMessage loc (msg $$ extra))) ;
+ errs_var <- getErrsVar ;
rdr_env <- getGlobalRdrEnv ;
let { err = mkLongErrMsg loc (unQualInScope rdr_env) msg extra } ;
(warns, errs) <- readMutVar errs_var ;
\begin{code}
+try_m :: TcRn r -> TcRn (Either Exception r)
+-- Does try_m, with a debug-trace on failure
+try_m thing
+ = do { mb_r <- tryM thing ;
+ case mb_r of
+ Left exn -> do { traceTc (exn_msg exn); return mb_r }
+ Right r -> return mb_r }
+ where
+ exn_msg exn = text "tryTc/recoverM recovering from" <+> text (showException exn)
+
+-----------------------
recoverM :: TcRn r -- Recovery action; do this if the main one fails
-> TcRn r -- Main action: do this first
-> TcRn r
+-- Errors in 'thing' are retained
recoverM recover thing
= do { mb_res <- try_m thing ;
case mb_res of
Left exn -> recover
Right res -> returnM res }
+-----------------------
tryTc :: TcRn a -> TcRn (Messages, Maybe a)
- -- (tryTc m) executes m, and returns
- -- Just r, if m succeeds (returning r) and caused no errors
- -- Nothing, if m fails, or caused errors
- -- It also returns all the errors accumulated by m
- -- (even in the Just case, there might be warnings)
- --
- -- It always succeeds (never raises an exception)
+-- (tryTc m) executes m, and returns
+-- Just r, if m succeeds (returning r)
+-- Nothing, if m fails
+-- It also returns all the errors and warnings accumulated by m
+-- It always succeeds (never raises an exception)
tryTc m
= do { errs_var <- newMutVar emptyMessages ;
-
- mb_r <- try_m (setErrsVar errs_var m) ;
-
- new_errs <- readMutVar errs_var ;
-
- dflags <- getDOpts ;
-
- return (new_errs,
- case mb_r of
- Left exn -> Nothing
- Right r | errorsFound dflags new_errs -> Nothing
- | otherwise -> Just r)
+ res <- try_m (setErrsVar errs_var m) ;
+ msgs <- readMutVar errs_var ;
+ return (msgs, case res of
+ Left exn -> Nothing
+ Right val -> Just val)
+ -- The exception is always the IOEnv built-in
+ -- in exception; see IOEnv.failM
}
-try_m :: TcRn r -> TcRn (Either Exception r)
--- Does try_m, with a debug-trace on failure
-try_m thing
- = do { mb_r <- tryM thing ;
- case mb_r of
- Left exn -> do { traceTc (exn_msg exn); return mb_r }
- Right r -> return mb_r }
- where
- exn_msg exn = text "tryTc/recoverM recovering from" <+> text (showException exn)
+-----------------------
+tryTcErrs :: TcRn a -> TcRn (Messages, Maybe a)
+-- Run the thing, returning
+-- Just r, if m succceeds with no error messages
+-- Nothing, if m fails, or if it succeeds but has error messages
+-- Either way, the messages are returned; even in the Just case
+-- there might be warnings
+tryTcErrs thing
+ = do { (msgs, res) <- tryTc thing
+ ; dflags <- getDOpts
+ ; let errs_found = errorsFound dflags msgs
+ ; return (msgs, case res of
+ Nothing -> Nothing
+ Just val | errs_found -> Nothing
+ | otherwise -> Just val)
+ }
+-----------------------
tryTcLIE :: TcM a -> TcM (Messages, Maybe a)
--- Just like tryTc, except that it ensures that the LIE
+-- Just like tryTcErrs, except that it ensures that the LIE
-- for the thing is propagated only if there are no errors
-- Hence it's restricted to the type-check monad
tryTcLIE thing_inside
- = do { ((errs, mb_r), lie) <- getLIE (tryTc thing_inside) ;
- ifM (isJust mb_r) (extendLIEs lie) ;
- return (errs, mb_r) }
+ = do { ((msgs, mb_res), lie) <- getLIE (tryTcErrs thing_inside) ;
+ ; case mb_res of
+ Nothing -> return (msgs, Nothing)
+ Just val -> do { extendLIEs lie; return (msgs, Just val) }
+ }
+-----------------------
tryTcLIE_ :: TcM r -> TcM r -> TcM r
--- (tryTcLIE_ r m) tries m; if it succeeds it returns it,
--- otherwise it returns r. Any error messages added by m are discarded,
--- whether or not m succeeds.
+-- (tryTcLIE_ r m) tries m;
+-- if m succeeds with no error messages, it's the answer
+-- otherwise tryTcLIE_ drops everything from m and tries r instead.
tryTcLIE_ recover main
- = do { (_msgs, mb_res) <- tryTcLIE main ;
- case mb_res of
- Just res -> return res
- Nothing -> recover }
+ = do { (msgs, mb_res) <- tryTcLIE main
+ ; case mb_res of
+ Just val -> do { addMessages msgs -- There might be warnings
+ ; return val }
+ Nothing -> recover -- Discard all msgs
+ }
+-----------------------
checkNoErrs :: TcM r -> TcM r
-- (checkNoErrs m) succeeds iff m succeeds and generates no errors
-- If m fails then (checkNoErrsTc m) fails.
-- If so, it fails too.
-- Regardless, any errors generated by m are propagated to the enclosing context.
checkNoErrs main
- = do { (msgs, mb_res) <- tryTcLIE main ;
- addMessages msgs ;
- case mb_res of
- Just r -> return r
- Nothing -> failM
- }
+ = do { (msgs, mb_res) <- tryTcLIE main
+ ; addMessages msgs
+ ; case mb_res of
+ Nothing -> failM
+ Just val -> return val
+ }
ifErrsM :: TcRn r -> TcRn r -> TcRn r
-- ifErrsM bale_out main
setErrCtxt :: ErrCtxt -> TcM a -> TcM a
setErrCtxt ctxt = updLclEnv (\ env -> env { tcl_ctxt = ctxt })
-addErrCtxtM :: (TidyEnv -> TcM (TidyEnv, Message)) -> TcM a -> TcM a
-addErrCtxtM msg = updCtxt (\ msgs -> msg : msgs)
-
addErrCtxt :: Message -> TcM a -> TcM a
addErrCtxt msg = addErrCtxtM (\env -> returnM (env, msg))
+addErrCtxtM :: (TidyEnv -> TcM (TidyEnv, Message)) -> TcM a -> TcM a
+addErrCtxtM msg = updCtxt (\ msgs -> msg : msgs)
+
-- Helper function for the above
updCtxt :: (ErrCtxt -> ErrCtxt) -> TcM a -> TcM a
updCtxt upd = updLclEnv (\ env@(TcLclEnv { tcl_ctxt = ctxt }) ->
\begin{code}
addErrTc :: Message -> TcM ()
-addErrTc err_msg = addErrTcM (emptyTidyEnv, err_msg)
+addErrTc err_msg = do { env0 <- tcInitTidyEnv
+ ; addErrTcM (env0, err_msg) }
addErrsTc :: [Message] -> TcM ()
addErrsTc err_msgs = mappM_ addErrTc err_msgs
addWarnTc :: Message -> TcM ()
addWarnTc msg
= do { ctxt <- getErrCtxt ;
- ctxt_msgs <- do_ctxt emptyTidyEnv ctxt ;
+ env0 <- tcInitTidyEnv ;
+ ctxt_msgs <- do_ctxt env0 ctxt ;
addWarn (vcat (msg : ctxt_to_use ctxt_msgs)) }
warnTc :: Bool -> Message -> TcM ()
| otherwise = return ()
\end{code}
- Helper functions
+-----------------------------------
+ Tidying
+
+We initialise the "tidy-env", used for tidying types before printing,
+by building a reverse map from the in-scope type variables to the
+OccName that the programmer originally used for them
+
+\begin{code}
+tcInitTidyEnv :: TcM TidyEnv
+tcInitTidyEnv
+ = do { lcl_env <- getLclEnv
+ ; let nm_tv_prs = [ (name, tcGetTyVar "tcInitTidyEnv" ty)
+ | ATyVar name ty <- nameEnvElts (tcl_env lcl_env)
+ , tcIsTyVarTy ty ]
+ ; return (foldl add emptyTidyEnv nm_tv_prs) }
+ where
+ add (env,subst) (name, tyvar)
+ = case tidyOccName env (nameOccName name) of
+ (env', occ') -> (env', extendVarEnv subst tyvar tyvar')
+ where
+ tyvar' = setTyVarName tyvar name'
+ name' = tidyNameOcc name occ'
+\end{code}
+
+-----------------------------------
+ Other helper functions
\begin{code}
add_err_tcm tidy_env err_msg loc ctxt
| otherwise = take 3 ctxt
\end{code}
-debugTc is useful for monadi debugging code
+debugTc is useful for monadic debugging code
\begin{code}
debugTc :: TcM () -> TcM ()
%************************************************************************
\begin{code}
+nextDFunIndex :: TcM Int -- Get the next dfun index
+nextDFunIndex = do { env <- getGblEnv
+ ; let dfun_n_var = tcg_dfun_n env
+ ; n <- readMutVar dfun_n_var
+ ; writeMutVar dfun_n_var (n+1)
+ ; return n }
+
getLIEVar :: TcM (TcRef LIE)
getLIEVar = do { env <- getLclEnv; return (tcl_lie env) }
%************************************************************************
%* *
- Arrow context
-%* *
-%************************************************************************
-
-\begin{code}
-popArrowBinders :: TcM a -> TcM a -- Move to the left of a (-<); see comments in TcRnTypes
-popArrowBinders
- = updLclEnv (\ env -> env { tcl_arrow_ctxt = pop (tcl_arrow_ctxt env) })
- where
- pop (ArrCtxt {proc_level = curr_lvl, proc_banned = banned})
- = ASSERT( not (curr_lvl `elem` banned) )
- ArrCtxt {proc_level = curr_lvl, proc_banned = curr_lvl : banned}
-
-getBannedProcLevels :: TcM [ProcLevel]
- = do { env <- getLclEnv; return (proc_banned (tcl_arrow_ctxt env)) }
-
-incProcLevel :: TcM a -> TcM a
-incProcLevel
- = updLclEnv (\ env -> env { tcl_arrow_ctxt = inc (tcl_arrow_ctxt env) })
- where
- inc ctxt = ctxt { proc_level = proc_level ctxt + 1 }
-\end{code}
-
-
-%************************************************************************
-%* *
Stuff for the renamer's local env
%* *
%************************************************************************
; initTcRnIf 'i' hsc_env gbl_env () do_this
}
-initIfaceTc :: HscEnv -> ModIface
- -> (TcRef TypeEnv -> IfL a) -> IO a
+initIfaceTc :: ModIface
+ -> (TcRef TypeEnv -> IfL a) -> TcRnIf gbl lcl a
-- Used when type-checking checking an up-to-date interface file
-- No type envt from the current module, but we do know the module dependencies
-initIfaceTc hsc_env iface do_this
- = do { tc_env_var <- newIORef emptyTypeEnv
+initIfaceTc iface do_this
+ = do { tc_env_var <- newMutVar emptyTypeEnv
; let { gbl_env = IfGblEnv { if_rec_types = Just (mod, readMutVar tc_env_var) } ;
; if_lenv = mkIfLclEnv mod doc
}
- ; initTcRnIf 'i' hsc_env gbl_env if_lenv (do_this tc_env_var)
+ ; setEnvs (gbl_env, if_lenv) (do_this tc_env_var)
}
where
mod = mi_module iface
-- We use IfL here so that we can get context info out of the local env
failIfM msg
= do { env <- getLclEnv
- ; let full_msg = if_loc env $$ nest 2 msg
+ ; let full_msg = (if_loc env <> colon) $$ nest 2 msg
; ioToIOEnv (printErrs (full_msg defaultErrStyle))
; failM }
forkM doc thing_inside
= do { mb_res <- forkM_maybe doc thing_inside
; return (case mb_res of
- Nothing -> pprPanic "forkM" doc
+ Nothing -> pgmError "Cannot continue after interface file error"
+ -- pprPanic "forkM" doc
Just r -> r) }
\end{code}
-%************************************************************************
-%* *
- Stuff for GADTs
-%* *
-%************************************************************************
-
-\begin{code}
-getTypeRefinement :: TcM GadtRefinement
-getTypeRefinement = do { lcl_env <- getLclEnv; return (tcl_gadt lcl_env) }
-setTypeRefinement :: GadtRefinement -> TcM a -> TcM a
-setTypeRefinement gadt = updLclEnv (\env -> env { tcl_gadt = gadt })
-\end{code}