%
% (c) The University of Glasgow 2006
%
\begin{code}
module TcRnMonad(
module TcRnMonad,
module TcRnTypes,
module IOEnv
) where
#include "HsVersions.h"
import TcRnTypes
import IOEnv
import HsSyn hiding (LIE)
import HscTypes
import Module
import RdrName
import Name
import TcType
import InstEnv
import FamInstEnv
import Var
import Id
import VarSet
import VarEnv
import ErrUtils
import SrcLoc
import NameEnv
import NameSet
import Bag
import Outputable
import UniqSupply
import Unique
import UniqFM
import DynFlags
import StaticFlags
import FastString
import Panic
import Util
import System.IO
import Data.IORef
import qualified Data.Set as Set
import Control.Monad
\end{code}
%************************************************************************
%* *
initTc
%* *
%************************************************************************
\begin{code}
initTc :: HscEnv
-> HscSource
-> Bool
-> Module
-> TcM r
-> IO (Messages, Maybe r)
initTc hsc_env hsc_src keep_rn_syntax mod do_this
= do { errs_var <- newIORef (emptyBag, emptyBag) ;
meta_var <- newIORef initTyVarUnique ;
tvs_var <- newIORef emptyVarSet ;
keep_var <- newIORef emptyNameSet ;
used_rdr_var <- newIORef Set.empty ;
th_var <- newIORef False ;
lie_var <- newIORef emptyWC ;
dfun_n_var <- newIORef emptyOccSet ;
type_env_var <- case hsc_type_env_var hsc_env of {
Just (_mod, te_var) -> return te_var ;
Nothing -> newIORef emptyNameEnv } ;
let {
maybe_rn_syntax :: forall a. a -> Maybe a ;
maybe_rn_syntax empty_val
| keep_rn_syntax = Just empty_val
| otherwise = Nothing ;
gbl_env = TcGblEnv {
tcg_mod = mod,
tcg_src = hsc_src,
tcg_rdr_env = emptyGlobalRdrEnv,
tcg_fix_env = emptyNameEnv,
tcg_field_env = RecFields emptyNameEnv emptyNameSet,
tcg_default = Nothing,
tcg_type_env = emptyNameEnv,
tcg_type_env_var = type_env_var,
tcg_inst_env = emptyInstEnv,
tcg_fam_inst_env = emptyFamInstEnv,
tcg_th_used = th_var,
tcg_exports = [],
tcg_imports = emptyImportAvails,
tcg_used_rdrnames = used_rdr_var,
tcg_dus = emptyDUs,
tcg_rn_imports = [],
tcg_rn_exports = maybe_rn_syntax [],
tcg_rn_decls = maybe_rn_syntax emptyRnGroup,
tcg_binds = emptyLHsBinds,
tcg_imp_specs = [],
tcg_sigs = emptyNameSet,
tcg_ev_binds = emptyBag,
tcg_warns = NoWarnings,
tcg_anns = [],
tcg_insts = [],
tcg_fam_insts = [],
tcg_rules = [],
tcg_fords = [],
tcg_dfun_n = dfun_n_var,
tcg_keep = keep_var,
tcg_doc_hdr = Nothing,
tcg_hpc = False,
tcg_main = Nothing
} ;
lcl_env = TcLclEnv {
tcl_errs = errs_var,
tcl_loc = mkGeneralSrcSpan (fsLit "Top level"),
tcl_ctxt = [],
tcl_rdr = emptyLocalRdrEnv,
tcl_th_ctxt = topStage,
tcl_arrow_ctxt = NoArrowCtxt,
tcl_env = emptyNameEnv,
tcl_tyvars = tvs_var,
tcl_lie = lie_var,
tcl_meta = meta_var,
tcl_untch = initTyVarUnique
} ;
} ;
maybe_res <- initTcRnIf 'a' hsc_env gbl_env lcl_env $
do { r <- tryM do_this
; case r of
Right res -> return (Just res)
Left _ -> return Nothing } ;
lie <- readIORef lie_var ;
if isEmptyWC lie
then return ()
else pprPanic "initTc: unsolved constraints"
(pprWantedsWithLocs lie) ;
msgs <- readIORef errs_var ;
let { dflags = hsc_dflags hsc_env
; final_res | errorsFound dflags msgs = Nothing
| otherwise = maybe_res } ;
return (msgs, final_res)
}
initTcPrintErrors
:: HscEnv
-> Module
-> TcM r
-> IO (Messages, Maybe r)
initTcPrintErrors env mod todo = do
(msgs, res) <- initTc env HsSrcFile False mod todo
return (msgs, res)
\end{code}
%************************************************************************
%* *
Initialisation
%* *
%************************************************************************
\begin{code}
initTcRnIf :: Char
-> HscEnv
-> gbl -> lcl
-> TcRnIf gbl lcl a
-> IO a
initTcRnIf uniq_tag hsc_env gbl_env lcl_env thing_inside
= do { us <- mkSplitUniqSupply uniq_tag ;
; us_var <- newIORef us ;
; let { env = Env { env_top = hsc_env,
env_us = us_var,
env_gbl = gbl_env,
env_lcl = lcl_env} }
; runIOEnv env thing_inside
}
\end{code}
%************************************************************************
%* *
Simple accessors
%* *
%************************************************************************
\begin{code}
getTopEnv :: TcRnIf gbl lcl HscEnv
getTopEnv = do { env <- getEnv; return (env_top env) }
getGblEnv :: TcRnIf gbl lcl gbl
getGblEnv = do { env <- getEnv; return (env_gbl env) }
updGblEnv :: (gbl -> gbl) -> TcRnIf gbl lcl a -> TcRnIf gbl lcl a
updGblEnv upd = updEnv (\ env@(Env { env_gbl = gbl }) ->
env { env_gbl = upd gbl })
setGblEnv :: gbl -> TcRnIf gbl lcl a -> TcRnIf gbl lcl a
setGblEnv gbl_env = updEnv (\ env -> env { env_gbl = gbl_env })
getLclEnv :: TcRnIf gbl lcl lcl
getLclEnv = do { env <- getEnv; return (env_lcl env) }
updLclEnv :: (lcl -> lcl) -> TcRnIf gbl lcl a -> TcRnIf gbl lcl a
updLclEnv upd = updEnv (\ env@(Env { env_lcl = lcl }) ->
env { env_lcl = upd lcl })
setLclEnv :: lcl' -> TcRnIf gbl lcl' a -> TcRnIf gbl lcl a
setLclEnv lcl_env = updEnv (\ env -> env { env_lcl = lcl_env })
getEnvs :: TcRnIf gbl lcl (gbl, lcl)
getEnvs = do { env <- getEnv; return (env_gbl env, env_lcl env) }
setEnvs :: (gbl', lcl') -> TcRnIf gbl' lcl' a -> TcRnIf gbl lcl a
setEnvs (gbl_env, lcl_env) = updEnv (\ env -> env { env_gbl = gbl_env, env_lcl = lcl_env })
\end{code}
Command-line flags
\begin{code}
getDOpts :: TcRnIf gbl lcl DynFlags
getDOpts = do { env <- getTopEnv; return (hsc_dflags env) }
xoptM :: ExtensionFlag -> TcRnIf gbl lcl Bool
xoptM flag = do { dflags <- getDOpts; return (xopt flag dflags) }
doptM :: DynFlag -> TcRnIf gbl lcl Bool
doptM flag = do { dflags <- getDOpts; return (dopt flag dflags) }
setOptM :: ExtensionFlag -> TcRnIf gbl lcl a -> TcRnIf gbl lcl a
setOptM flag = updEnv (\ env@(Env { env_top = top }) ->
env { env_top = top { hsc_dflags = xopt_set (hsc_dflags top) flag}} )
unsetOptM :: DynFlag -> TcRnIf gbl lcl a -> TcRnIf gbl lcl a
unsetOptM flag = updEnv (\ env@(Env { env_top = top }) ->
env { env_top = top { hsc_dflags = dopt_unset (hsc_dflags top) flag}} )
ifDOptM :: DynFlag -> TcRnIf gbl lcl () -> TcRnIf gbl lcl ()
ifDOptM flag thing_inside = do { b <- doptM flag;
if b then thing_inside else return () }
ifXOptM :: ExtensionFlag -> TcRnIf gbl lcl () -> TcRnIf gbl lcl ()
ifXOptM flag thing_inside = do { b <- xoptM flag;
if b then thing_inside else return () }
getGhcMode :: TcRnIf gbl lcl GhcMode
getGhcMode = do { env <- getTopEnv; return (ghcMode (hsc_dflags env)) }
\end{code}
\begin{code}
getEpsVar :: TcRnIf gbl lcl (TcRef ExternalPackageState)
getEpsVar = do { env <- getTopEnv; return (hsc_EPS env) }
getEps :: TcRnIf gbl lcl ExternalPackageState
getEps = do { env <- getTopEnv; readMutVar (hsc_EPS env) }
updateEps :: (ExternalPackageState -> (ExternalPackageState, a))
-> TcRnIf gbl lcl a
updateEps upd_fn = do
traceIf (text "updating EPS")
eps_var <- getEpsVar
atomicUpdMutVar' eps_var upd_fn
updateEps_ :: (ExternalPackageState -> ExternalPackageState)
-> TcRnIf gbl lcl ()
updateEps_ upd_fn = do
traceIf (text "updating EPS_")
eps_var <- getEpsVar
atomicUpdMutVar' eps_var (\eps -> (upd_fn eps, ()))
getHpt :: TcRnIf gbl lcl HomePackageTable
getHpt = do { env <- getTopEnv; return (hsc_HPT env) }
getEpsAndHpt :: TcRnIf gbl lcl (ExternalPackageState, HomePackageTable)
getEpsAndHpt = do { env <- getTopEnv; eps <- readMutVar (hsc_EPS env)
; return (eps, hsc_HPT env) }
\end{code}
%************************************************************************
%* *
Unique supply
%* *
%************************************************************************
\begin{code}
newMetaUnique :: TcM Unique
newMetaUnique
= do { env <- getLclEnv
; let meta_var = tcl_meta env
; uniq <- readMutVar meta_var
; writeMutVar meta_var (incrUnique uniq)
; return uniq }
newUnique :: TcRnIf gbl lcl Unique
newUnique
= do { env <- getEnv ;
let { u_var = env_us env } ;
us <- readMutVar u_var ;
case splitUniqSupply us of { (us1,_) -> do {
writeMutVar u_var us1 ;
return $! uniqFromSupply us }}}
newUniqueSupply :: TcRnIf gbl lcl UniqSupply
newUniqueSupply
= do { env <- getEnv ;
let { u_var = env_us env } ;
us <- readMutVar u_var ;
case splitUniqSupply us of { (us1,us2) -> do {
writeMutVar u_var us1 ;
return us2 }}}
newLocalName :: Name -> TcRnIf gbl lcl Name
newLocalName name
= do { uniq <- newUnique
; return (mkInternalName uniq (nameOccName name) (getSrcSpan name)) }
newSysLocalIds :: FastString -> [TcType] -> TcRnIf gbl lcl [TcId]
newSysLocalIds fs tys
= do { us <- newUniqueSupply
; return (zipWith (mkSysLocal fs) (uniqsFromSupply us) tys) }
instance MonadUnique (IOEnv (Env gbl lcl)) where
getUniqueM = newUnique
getUniqueSupplyM = newUniqueSupply
\end{code}
%************************************************************************
%* *
Debugging
%* *
%************************************************************************
\begin{code}
newTcRef :: a -> TcRnIf gbl lcl (TcRef a)
newTcRef = newMutVar
readTcRef :: TcRef a -> TcRnIf gbl lcl a
readTcRef = readMutVar
writeTcRef :: TcRef a -> a -> TcRnIf gbl lcl ()
writeTcRef = writeMutVar
updTcRef :: TcRef a -> (a -> a) -> TcRnIf gbl lcl ()
updTcRef = updMutVar
\end{code}
%************************************************************************
%* *
Debugging
%* *
%************************************************************************
\begin{code}
traceTc :: String -> SDoc -> TcRn ()
traceTc = traceTcN 1
traceTcN :: Int -> String -> SDoc -> TcRn ()
traceTcN level herald doc
| level <= opt_TraceLevel = traceOptTcRn Opt_D_dump_tc_trace $
hang (text herald) 2 doc
| otherwise = return ()
traceRn, traceSplice :: SDoc -> TcRn ()
traceRn = traceOptTcRn Opt_D_dump_rn_trace
traceSplice = traceOptTcRn Opt_D_dump_splices
traceIf, traceHiDiffs :: SDoc -> TcRnIf m n ()
traceIf = traceOptIf Opt_D_dump_if_trace
traceHiDiffs = traceOptIf Opt_D_dump_hi_diffs
traceOptIf :: DynFlag -> SDoc -> TcRnIf m n ()
traceOptIf flag doc = ifDOptM flag $
liftIO (printForUser stderr alwaysQualify doc)
traceOptTcRn :: DynFlag -> SDoc -> TcRn ()
traceOptTcRn flag doc = ifDOptM flag $ do
{ loc <- getSrcSpanM
; let real_doc
| opt_PprStyle_Debug = mkLocMessage loc doc
| otherwise = doc
; dumpTcRn real_doc }
dumpTcRn :: SDoc -> TcRn ()
dumpTcRn doc = do { rdr_env <- getGlobalRdrEnv
; dflags <- getDOpts
; liftIO (printForUser stderr (mkPrintUnqualified dflags rdr_env) doc) }
debugDumpTcRn :: SDoc -> TcRn ()
debugDumpTcRn doc | opt_NoDebugOutput = return ()
| otherwise = dumpTcRn doc
dumpOptTcRn :: DynFlag -> SDoc -> TcRn ()
dumpOptTcRn flag doc = ifDOptM flag (dumpTcRn doc)
\end{code}
%************************************************************************
%* *
Typechecker global environment
%* *
%************************************************************************
\begin{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)) }
getGlobalRdrEnv :: TcRn GlobalRdrEnv
getGlobalRdrEnv = do { env <- getGblEnv; return (tcg_rdr_env env) }
getRdrEnvs :: TcRn (GlobalRdrEnv, LocalRdrEnv)
getRdrEnvs = do { (gbl,lcl) <- getEnvs; return (tcg_rdr_env gbl, tcl_rdr lcl) }
getImports :: TcRn ImportAvails
getImports = do { env <- getGblEnv; return (tcg_imports env) }
getFixityEnv :: TcRn FixityEnv
getFixityEnv = do { env <- getGblEnv; return (tcg_fix_env env) }
extendFixityEnv :: [(Name,FixItem)] -> RnM a -> RnM a
extendFixityEnv new_bit
= updGblEnv (\env@(TcGblEnv { tcg_fix_env = old_fix_env }) ->
env {tcg_fix_env = extendNameEnvList old_fix_env new_bit})
getRecFieldEnv :: TcRn RecFieldEnv
getRecFieldEnv = do { env <- getGblEnv; return (tcg_field_env env) }
getDeclaredDefaultTys :: TcRn (Maybe [Type])
getDeclaredDefaultTys = do { env <- getGblEnv; return (tcg_default env) }
\end{code}
%************************************************************************
%* *
Error management
%* *
%************************************************************************
\begin{code}
getSrcSpanM :: TcRn SrcSpan
getSrcSpanM = do { env <- getLclEnv; return (tcl_loc env) }
setSrcSpan :: SrcSpan -> TcRn a -> TcRn a
setSrcSpan loc thing_inside
| isGoodSrcSpan loc = updLclEnv (\env -> env { tcl_loc = loc }) thing_inside
| otherwise = thing_inside
addLocM :: (a -> TcM b) -> Located a -> TcM b
addLocM fn (L loc a) = setSrcSpan loc $ fn a
wrapLocM :: (a -> TcM b) -> Located a -> TcM (Located b)
wrapLocM fn (L loc a) = setSrcSpan loc $ do b <- fn a; return (L loc b)
wrapLocFstM :: (a -> TcM (b,c)) -> Located a -> TcM (Located b, c)
wrapLocFstM fn (L loc a) =
setSrcSpan loc $ do
(b,c) <- fn a
return (L loc b, c)
wrapLocSndM :: (a -> TcM (b,c)) -> Located a -> TcM (b, Located c)
wrapLocSndM fn (L loc a) =
setSrcSpan loc $ do
(b,c) <- fn a
return (b, L loc c)
\end{code}
Reporting errors
\begin{code}
getErrsVar :: TcRn (TcRef Messages)
getErrsVar = do { env <- getLclEnv; return (tcl_errs env) }
setErrsVar :: TcRef Messages -> TcRn a -> TcRn a
setErrsVar v = updLclEnv (\ env -> env { tcl_errs = v })
addErr :: Message -> TcRn ()
addErr msg = do { loc <- getSrcSpanM ; addErrAt loc msg }
failWith :: Message -> TcRn a
failWith msg = addErr msg >> failM
addErrAt :: SrcSpan -> Message -> TcRn ()
addErrAt loc msg = do { ctxt <- getErrCtxt
; tidy_env <- tcInitTidyEnv
; err_info <- mkErrInfo tidy_env ctxt
; addLongErrAt loc msg err_info }
addErrs :: [(SrcSpan,Message)] -> TcRn ()
addErrs msgs = mapM_ add msgs
where
add (loc,msg) = addErrAt loc msg
addWarn :: Message -> TcRn ()
addWarn msg = addReport (ptext (sLit "Warning:") <+> msg) empty
addWarnAt :: SrcSpan -> Message -> TcRn ()
addWarnAt loc msg = addReportAt loc (ptext (sLit "Warning:") <+> msg) empty
checkErr :: Bool -> Message -> TcRn ()
checkErr ok msg = unless ok (addErr msg)
warnIf :: Bool -> Message -> TcRn ()
warnIf True msg = addWarn msg
warnIf False _ = return ()
addMessages :: Messages -> TcRn ()
addMessages (m_warns, m_errs)
= do { errs_var <- getErrsVar ;
(warns, errs) <- readTcRef errs_var ;
writeTcRef errs_var (warns `unionBags` m_warns,
errs `unionBags` m_errs) }
discardWarnings :: TcRn a -> TcRn a
discardWarnings thing_inside
| opt_PprStyle_Debug = thing_inside
| otherwise
= do { errs_var <- newTcRef emptyMessages
; result <- setErrsVar errs_var thing_inside
; (_warns, errs) <- readTcRef errs_var
; addMessages (emptyBag, errs)
; return result }
\end{code}
%************************************************************************
%* *
Shared error message stuff: renamer and typechecker
%* *
%************************************************************************
\begin{code}
addReport :: Message -> Message -> TcRn ()
addReport msg extra_info = do loc <- getSrcSpanM; addReportAt loc msg extra_info
addReportAt :: SrcSpan -> Message -> Message -> TcRn ()
addReportAt loc msg extra_info
= do { errs_var <- getErrsVar ;
rdr_env <- getGlobalRdrEnv ;
dflags <- getDOpts ;
let { warn = mkLongWarnMsg loc (mkPrintUnqualified dflags rdr_env)
msg extra_info } ;
(warns, errs) <- readTcRef errs_var ;
writeTcRef errs_var (warns `snocBag` warn, errs) }
addLongErrAt :: SrcSpan -> Message -> Message -> TcRn ()
addLongErrAt loc msg extra
= do { traceTc "Adding error:" (mkLocMessage loc (msg $$ extra)) ;
errs_var <- getErrsVar ;
rdr_env <- getGlobalRdrEnv ;
dflags <- getDOpts ;
let { err = mkLongErrMsg loc (mkPrintUnqualified dflags rdr_env) msg extra } ;
(warns, errs) <- readTcRef errs_var ;
writeTcRef errs_var (warns, errs `snocBag` err) }
dumpDerivingInfo :: SDoc -> TcM ()
dumpDerivingInfo doc
= do { dflags <- getDOpts
; when (dopt Opt_D_dump_deriv dflags) $ do
{ rdr_env <- getGlobalRdrEnv
; let unqual = mkPrintUnqualified dflags rdr_env
; liftIO (putMsgWith dflags unqual doc) } }
\end{code}
\begin{code}
try_m :: TcRn r -> TcRn (Either IOEnvFailure r)
try_m thing
= do { mb_r <- tryM thing ;
case mb_r of
Left exn -> do { traceTc "tryTc/recoverM recovering from" $
text (showException exn)
; return mb_r }
Right _ -> return mb_r }
recoverM :: TcRn r
-> TcRn r
-> TcRn r
recoverM recover thing
= do { mb_res <- try_m thing ;
case mb_res of
Left _ -> recover
Right res -> return res }
mapAndRecoverM :: (a -> TcRn b) -> [a] -> TcRn [b]
mapAndRecoverM _ [] = return []
mapAndRecoverM f (x:xs) = do { mb_r <- try_m (f x)
; rs <- mapAndRecoverM f xs
; return (case mb_r of
Left _ -> rs
Right r -> r:rs) }
tryTc :: TcRn a -> TcRn (Messages, Maybe a)
tryTc m
= do { errs_var <- newTcRef emptyMessages ;
res <- try_m (setErrsVar errs_var m) ;
msgs <- readTcRef errs_var ;
return (msgs, case res of
Left _ -> Nothing
Right val -> Just val)
}
tryTcErrs :: TcRn a -> TcRn (Messages, Maybe a)
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)
tryTcLIE thing_inside
= do { ((msgs, mb_res), lie) <- captureConstraints (tryTcErrs thing_inside) ;
; case mb_res of
Nothing -> return (msgs, Nothing)
Just val -> do { emitConstraints lie; return (msgs, Just val) }
}
tryTcLIE_ :: TcM r -> TcM r -> TcM r
tryTcLIE_ recover main
= do { (msgs, mb_res) <- tryTcLIE main
; case mb_res of
Just val -> do { addMessages msgs
; return val }
Nothing -> recover
}
checkNoErrs :: TcM r -> TcM r
checkNoErrs main
= 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 normal
= do { errs_var <- getErrsVar ;
msgs <- readTcRef errs_var ;
dflags <- getDOpts ;
if errorsFound dflags msgs then
bale_out
else
normal }
failIfErrsM :: TcRn ()
failIfErrsM = ifErrsM failM (return ())
\end{code}
%************************************************************************
%* *
Context management for the type checker
%* *
%************************************************************************
\begin{code}
getErrCtxt :: TcM [ErrCtxt]
getErrCtxt = do { env <- getLclEnv; return (tcl_ctxt env) }
setErrCtxt :: [ErrCtxt] -> TcM a -> TcM a
setErrCtxt ctxt = updLclEnv (\ env -> env { tcl_ctxt = ctxt })
addErrCtxt :: Message -> TcM a -> TcM a
addErrCtxt msg = addErrCtxtM (\env -> return (env, msg))
addErrCtxtM :: (TidyEnv -> TcM (TidyEnv, Message)) -> TcM a -> TcM a
addErrCtxtM ctxt = updCtxt (\ ctxts -> (False, ctxt) : ctxts)
addLandmarkErrCtxt :: Message -> TcM a -> TcM a
addLandmarkErrCtxt msg = updCtxt (\ctxts -> (True, \env -> return (env,msg)) : ctxts)
updCtxt :: ([ErrCtxt] -> [ErrCtxt]) -> TcM a -> TcM a
updCtxt upd = updLclEnv (\ env@(TcLclEnv { tcl_ctxt = ctxt }) ->
env { tcl_ctxt = upd ctxt })
maybeAddErrCtxt :: Maybe Message -> TcM a -> TcM a
maybeAddErrCtxt (Just msg) thing_inside = addErrCtxt msg thing_inside
maybeAddErrCtxt Nothing thing_inside = thing_inside
popErrCtxt :: TcM a -> TcM a
popErrCtxt = updCtxt (\ msgs -> case msgs of { [] -> []; (_ : ms) -> ms })
getCtLoc :: orig -> TcM (CtLoc orig)
getCtLoc origin
= do { loc <- getSrcSpanM ; env <- getLclEnv ;
return (CtLoc origin loc (tcl_ctxt env)) }
setCtLoc :: CtLoc orig -> TcM a -> TcM a
setCtLoc (CtLoc _ src_loc ctxt) thing_inside
= setSrcSpan src_loc (setErrCtxt ctxt thing_inside)
\end{code}
%************************************************************************
%* *
Error message generation (type checker)
%* *
%************************************************************************
The addErrTc functions add an error message, but do not cause failure.
The 'M' variants pass a TidyEnv that has already been used to
tidy up the message; we then use it to tidy the context messages
\begin{code}
addErrTc :: Message -> TcM ()
addErrTc err_msg = do { env0 <- tcInitTidyEnv
; addErrTcM (env0, err_msg) }
addErrsTc :: [Message] -> TcM ()
addErrsTc err_msgs = mapM_ addErrTc err_msgs
addErrTcM :: (TidyEnv, Message) -> TcM ()
addErrTcM (tidy_env, err_msg)
= do { ctxt <- getErrCtxt ;
loc <- getSrcSpanM ;
add_err_tcm tidy_env err_msg loc ctxt }
\end{code}
The failWith functions add an error message and cause failure
\begin{code}
failWithTc :: Message -> TcM a
failWithTc err_msg
= addErrTc err_msg >> failM
failWithTcM :: (TidyEnv, Message) -> TcM a
failWithTcM local_and_msg
= addErrTcM local_and_msg >> failM
checkTc :: Bool -> Message -> TcM ()
checkTc True _ = return ()
checkTc False err = failWithTc err
\end{code}
Warnings have no 'M' variant, nor failure
\begin{code}
addWarnTc :: Message -> TcM ()
addWarnTc msg = do { env0 <- tcInitTidyEnv
; addWarnTcM (env0, msg) }
addWarnTcM :: (TidyEnv, Message) -> TcM ()
addWarnTcM (env0, msg)
= do { ctxt <- getErrCtxt ;
err_info <- mkErrInfo env0 ctxt ;
addReport (ptext (sLit "Warning:") <+> msg) err_info }
warnTc :: Bool -> Message -> TcM ()
warnTc warn_if_true warn_msg
| warn_if_true = addWarnTc warn_msg
| otherwise = return ()
\end{code}
-----------------------------------
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 :: TidyEnv -> Message -> SrcSpan
-> [ErrCtxt]
-> TcM ()
add_err_tcm tidy_env err_msg loc ctxt
= do { err_info <- mkErrInfo tidy_env ctxt ;
addLongErrAt loc err_msg err_info }
mkErrInfo :: TidyEnv -> [ErrCtxt] -> TcM SDoc
mkErrInfo env ctxts
= go 0 env ctxts
where
go :: Int -> TidyEnv -> [ErrCtxt] -> TcM SDoc
go _ _ [] = return empty
go n env ((is_landmark, ctxt) : ctxts)
| is_landmark || n < mAX_CONTEXTS
= do { (env', msg) <- ctxt env
; let n' = if is_landmark then n else n+1
; rest <- go n' env' ctxts
; return (msg $$ rest) }
| otherwise
= go n env ctxts
mAX_CONTEXTS :: Int
mAX_CONTEXTS = 3
\end{code}
debugTc is useful for monadic debugging code
\begin{code}
debugTc :: TcM () -> TcM ()
debugTc thing
| debugIsOn = thing
| otherwise = return ()
\end{code}
%************************************************************************
%* *
Type constraints
%* *
%************************************************************************
\begin{code}
newTcEvBinds :: TcM EvBindsVar
newTcEvBinds = do { ref <- newTcRef emptyEvBindMap
; uniq <- newUnique
; return (EvBindsVar ref uniq) }
extendTcEvBinds :: TcEvBinds -> EvVar -> EvTerm -> TcM TcEvBinds
extendTcEvBinds binds@(TcEvBinds binds_var) var rhs
= do { addTcEvBind binds_var var rhs
; return binds }
extendTcEvBinds (EvBinds bnds) var rhs
= return (EvBinds (bnds `snocBag` EvBind var rhs))
addTcEvBind :: EvBindsVar -> EvVar -> EvTerm -> TcM ()
addTcEvBind (EvBindsVar ev_ref _) var rhs
= do { bnds <- readTcRef ev_ref
; writeTcRef ev_ref (extendEvBinds bnds var rhs) }
chooseUniqueOccTc :: (OccSet -> OccName) -> TcM OccName
chooseUniqueOccTc fn =
do { env <- getGblEnv
; let dfun_n_var = tcg_dfun_n env
; set <- readTcRef dfun_n_var
; let occ = fn set
; writeTcRef dfun_n_var (extendOccSet set occ)
; return occ }
getConstraintVar :: TcM (TcRef WantedConstraints)
getConstraintVar = do { env <- getLclEnv; return (tcl_lie env) }
setConstraintVar :: TcRef WantedConstraints -> TcM a -> TcM a
setConstraintVar lie_var = updLclEnv (\ env -> env { tcl_lie = lie_var })
emitConstraints :: WantedConstraints -> TcM ()
emitConstraints ct
= do { lie_var <- getConstraintVar ;
updTcRef lie_var (`andWC` ct) }
emitFlat :: WantedEvVar -> TcM ()
emitFlat ct
= do { lie_var <- getConstraintVar ;
updTcRef lie_var (`addFlats` unitBag ct) }
emitFlats :: Bag WantedEvVar -> TcM ()
emitFlats ct
= do { lie_var <- getConstraintVar ;
updTcRef lie_var (`addFlats` ct) }
emitImplication :: Implication -> TcM ()
emitImplication ct
= do { lie_var <- getConstraintVar ;
updTcRef lie_var (`addImplics` unitBag ct) }
emitImplications :: Bag Implication -> TcM ()
emitImplications ct
= do { lie_var <- getConstraintVar ;
updTcRef lie_var (`addImplics` ct) }
captureConstraints :: TcM a -> TcM (a, WantedConstraints)
captureConstraints thing_inside
= do { lie_var <- newTcRef emptyWC ;
res <- updLclEnv (\ env -> env { tcl_lie = lie_var })
thing_inside ;
lie <- readTcRef lie_var ;
return (res, lie) }
captureUntouchables :: TcM a -> TcM (a, Untouchables)
captureUntouchables thing_inside
= do { env <- getLclEnv
; low_meta <- readTcRef (tcl_meta env)
; res <- setLclEnv (env { tcl_untch = low_meta })
thing_inside
; high_meta <- readTcRef (tcl_meta env)
; return (res, TouchableRange low_meta high_meta) }
isUntouchable :: TcTyVar -> TcM Bool
isUntouchable tv = do { env <- getLclEnv
; return (varUnique tv < tcl_untch env) }
getLclTypeEnv :: TcM (NameEnv TcTyThing)
getLclTypeEnv = do { env <- getLclEnv; return (tcl_env env) }
setLclTypeEnv :: TcLclEnv -> TcM a -> TcM a
setLclTypeEnv lcl_env thing_inside
= updLclEnv upd thing_inside
where
upd env = env { tcl_env = tcl_env lcl_env,
tcl_tyvars = tcl_tyvars lcl_env }
\end{code}
%************************************************************************
%* *
Template Haskell context
%* *
%************************************************************************
\begin{code}
recordThUse :: TcM ()
recordThUse = do { env <- getGblEnv; writeTcRef (tcg_th_used env) True }
keepAliveTc :: Id -> TcM ()
keepAliveTc id
| isLocalId id = do { env <- getGblEnv;
; updTcRef (tcg_keep env) (`addOneToNameSet` idName id) }
| otherwise = return ()
keepAliveSetTc :: NameSet -> TcM ()
keepAliveSetTc ns = do { env <- getGblEnv;
; updTcRef (tcg_keep env) (`unionNameSets` ns) }
getStage :: TcM ThStage
getStage = do { env <- getLclEnv; return (tcl_th_ctxt env) }
setStage :: ThStage -> TcM a -> TcM a
setStage s = updLclEnv (\ env -> env { tcl_th_ctxt = s })
\end{code}
%************************************************************************
%* *
Stuff for the renamer's local env
%* *
%************************************************************************
\begin{code}
getLocalRdrEnv :: RnM LocalRdrEnv
getLocalRdrEnv = do { env <- getLclEnv; return (tcl_rdr env) }
setLocalRdrEnv :: LocalRdrEnv -> RnM a -> RnM a
setLocalRdrEnv rdr_env thing_inside
= updLclEnv (\env -> env {tcl_rdr = rdr_env}) thing_inside
\end{code}
%************************************************************************
%* *
Stuff for interface decls
%* *
%************************************************************************
\begin{code}
mkIfLclEnv :: Module -> SDoc -> IfLclEnv
mkIfLclEnv mod loc = IfLclEnv { if_mod = mod,
if_loc = loc,
if_tv_env = emptyUFM,
if_id_env = emptyUFM }
initIfaceTcRn :: IfG a -> TcRn a
initIfaceTcRn thing_inside
= do { tcg_env <- getGblEnv
; let { if_env = IfGblEnv { if_rec_types = Just (tcg_mod tcg_env, get_type_env) }
; get_type_env = readTcRef (tcg_type_env_var tcg_env) }
; setEnvs (if_env, ()) thing_inside }
initIfaceExtCore :: IfL a -> TcRn a
initIfaceExtCore thing_inside
= do { tcg_env <- getGblEnv
; let { mod = tcg_mod tcg_env
; doc = ptext (sLit "External Core file for") <+> quotes (ppr mod)
; if_env = IfGblEnv {
if_rec_types = Just (mod, return (tcg_type_env tcg_env)) }
; if_lenv = mkIfLclEnv mod doc
}
; setEnvs (if_env, if_lenv) thing_inside }
initIfaceCheck :: HscEnv -> IfG a -> IO a
initIfaceCheck hsc_env do_this
= do let rec_types = case hsc_type_env_var hsc_env of
Just (mod,var) -> Just (mod, readTcRef var)
Nothing -> Nothing
gbl_env = IfGblEnv { if_rec_types = rec_types }
initTcRnIf 'i' hsc_env gbl_env () do_this
initIfaceTc :: ModIface
-> (TcRef TypeEnv -> IfL a) -> TcRnIf gbl lcl a
initIfaceTc iface do_this
= do { tc_env_var <- newTcRef emptyTypeEnv
; let { gbl_env = IfGblEnv { if_rec_types = Just (mod, readTcRef tc_env_var) } ;
; if_lenv = mkIfLclEnv mod doc
}
; setEnvs (gbl_env, if_lenv) (do_this tc_env_var)
}
where
mod = mi_module iface
doc = ptext (sLit "The interface for") <+> quotes (ppr mod)
initIfaceRules :: HscEnv -> ModGuts -> IfG a -> IO a
initIfaceRules hsc_env guts do_this
= do { let {
type_info = (mg_module guts, return (mg_types guts))
; gbl_env = IfGblEnv { if_rec_types = Just type_info } ;
}
; initTcRnIf 'i' hsc_env gbl_env () do_this
}
initIfaceLcl :: Module -> SDoc -> IfL a -> IfM lcl a
initIfaceLcl mod loc_doc thing_inside
= setLclEnv (mkIfLclEnv mod loc_doc) thing_inside
getIfModule :: IfL Module
getIfModule = do { env <- getLclEnv; return (if_mod env) }
failIfM :: Message -> IfL a
failIfM msg
= do { env <- getLclEnv
; let full_msg = (if_loc env <> colon) $$ nest 2 msg
; liftIO (printErrs (full_msg defaultErrStyle))
; failM }
forkM_maybe :: SDoc -> IfL a -> IfL (Maybe a)
forkM_maybe doc thing_inside
= do { unsafeInterleaveM $
do { traceIf (text "Starting fork {" <+> doc)
; mb_res <- tryM $
updLclEnv (\env -> env { if_loc = if_loc env $$ doc }) $
thing_inside
; case mb_res of
Right r -> do { traceIf (text "} ending fork" <+> doc)
; return (Just r) }
Left exn -> do {
ifDOptM Opt_D_dump_if_trace
(print_errs (hang (text "forkM failed:" <+> doc)
2 (text (show exn))))
; traceIf (text "} ending fork (badly)" <+> doc)
; return Nothing }
}}
where
print_errs sdoc = liftIO (printErrs (sdoc defaultErrStyle))
forkM :: SDoc -> IfL a -> IfL a
forkM doc thing_inside
= do { mb_res <- forkM_maybe doc thing_inside
; return (case mb_res of
Nothing -> pgmError "Cannot continue after interface file error"
Just r -> r) }
\end{code}