% % (c) The University of Glasgow 2006 % (c) The GRASP/AQUA Project, Glasgow University, 1992-1998 % @DsMonad@: monadery used in desugaring \begin{code} {-# LANGUAGE FlexibleInstances #-} module DsMonad ( DsM, mapM, mapAndUnzipM, initDs, initDsTc, fixDs, foldlM, foldrM, whenGOptM, unsetGOptM, unsetWOptM, Applicative(..),(<$>), newLocalName, duplicateLocalDs, newSysLocalDs, newSysLocalsDs, newUniqueId, newFailLocalDs, newPredVarDs, getSrcSpanDs, putSrcSpanDs, mkPrintUnqualifiedDs, newUnique, UniqSupply, newUniqueSupply, getGhcModeDs, dsGetFamInstEnvs, dsLookupGlobal, dsLookupGlobalId, dsDPHBuiltin, dsLookupTyCon, dsLookupDataCon, PArrBuiltin(..), dsLookupDPHRdrEnv, dsLookupDPHRdrEnv_maybe, dsInitPArrBuiltin, DsMetaEnv, DsMetaVal(..), dsGetMetaEnv, dsLookupMetaEnv, dsExtendMetaEnv, -- Warnings DsWarning, warnDs, failWithDs, discardWarningsDs, -- Data types DsMatchContext(..), EquationInfo(..), MatchResult(..), DsWrapper, idDsWrapper, CanItFail(..), orFail ) where import TcRnMonad import FamInstEnv import CoreSyn import HsSyn import TcIface import LoadIface import Finder import PrelNames import RdrName import HscTypes import Bag import DataCon import TyCon import Id import Module import Outputable import SrcLoc import Type import UniqSupply import Name import NameEnv import DynFlags import ErrUtils import FastString import Maybes import Data.IORef import Control.Monad \end{code} %************************************************************************ %* * Data types for the desugarer %* * %************************************************************************ \begin{code} data DsMatchContext = DsMatchContext (HsMatchContext Name) SrcSpan deriving () data EquationInfo = EqnInfo { eqn_pats :: [Pat Id], -- The patterns for an eqn eqn_rhs :: MatchResult } -- What to do after match instance Outputable EquationInfo where ppr (EqnInfo pats _) = ppr pats type DsWrapper = CoreExpr -> CoreExpr idDsWrapper :: DsWrapper idDsWrapper e = e -- The semantics of (match vs (EqnInfo wrap pats rhs)) is the MatchResult -- \fail. wrap (case vs of { pats -> rhs fail }) -- where vs are not bound by wrap -- A MatchResult is an expression with a hole in it data MatchResult = MatchResult CanItFail -- Tells whether the failure expression is used (CoreExpr -> DsM CoreExpr) -- Takes a expression to plug in at the -- failure point(s). The expression should -- be duplicatable! data CanItFail = CanFail | CantFail orFail :: CanItFail -> CanItFail -> CanItFail orFail CantFail CantFail = CantFail orFail _ _ = CanFail \end{code} %************************************************************************ %* * Monad stuff %* * %************************************************************************ Now the mondo monad magic (yes, @DsM@ is a silly name)---carry around a @UniqueSupply@ and some annotations, which presumably include source-file location information: \begin{code} type DsM result = TcRnIf DsGblEnv DsLclEnv result -- Compatibility functions fixDs :: (a -> DsM a) -> DsM a fixDs = fixM type DsWarning = (SrcSpan, SDoc) -- Not quite the same as a WarnMsg, we have an SDoc here -- and we'll do the print_unqual stuff later on to turn it -- into a Doc. -- If '-XParallelArrays' is given, the desugarer populates this table with the corresponding -- variables found in 'Data.Array.Parallel'. -- data PArrBuiltin = PArrBuiltin { lengthPVar :: Var -- ^ lengthP , replicatePVar :: Var -- ^ replicateP , singletonPVar :: Var -- ^ singletonP , mapPVar :: Var -- ^ mapP , filterPVar :: Var -- ^ filterP , zipPVar :: Var -- ^ zipP , crossMapPVar :: Var -- ^ crossMapP , indexPVar :: Var -- ^ (!:) , emptyPVar :: Var -- ^ emptyP , appPVar :: Var -- ^ (+:+) , enumFromToPVar :: Var -- ^ enumFromToP , enumFromThenToPVar :: Var -- ^ enumFromThenToP } data DsGblEnv = DsGblEnv { ds_mod :: Module -- For SCC profiling , ds_fam_inst_env :: FamInstEnv -- Like tcg_fam_inst_env , ds_unqual :: PrintUnqualified , ds_msgs :: IORef Messages -- Warning messages , ds_if_env :: (IfGblEnv, IfLclEnv) -- Used for looking up global, -- possibly-imported things , ds_dph_env :: GlobalRdrEnv -- exported entities of 'Data.Array.Parallel.Prim' -- iff '-fvectorise' flag was given as well as -- exported entities of 'Data.Array.Parallel' iff -- '-XParallelArrays' was given; otherwise, empty , ds_parr_bi :: PArrBuiltin -- desugarar names for '-XParallelArrays' } instance ContainsModule DsGblEnv where extractModule = ds_mod data DsLclEnv = DsLclEnv { ds_meta :: DsMetaEnv, -- Template Haskell bindings ds_loc :: SrcSpan -- to put in pattern-matching error msgs } -- Inside [| |] brackets, the desugarer looks -- up variables in the DsMetaEnv type DsMetaEnv = NameEnv DsMetaVal data DsMetaVal = Bound Id -- Bound by a pattern inside the [| |]. -- Will be dynamically alpha renamed. -- The Id has type THSyntax.Var | Splice (HsExpr Id) -- These bindings are introduced by -- the PendingSplices on a HsBracketOut initDs :: HscEnv -> Module -> GlobalRdrEnv -> TypeEnv -> FamInstEnv -> DsM a -> IO (Messages, Maybe a) -- Print errors and warnings, if any arise initDs hsc_env mod rdr_env type_env fam_inst_env thing_inside = do { msg_var <- newIORef (emptyBag, emptyBag) ; let dflags = hsc_dflags hsc_env (ds_gbl_env, ds_lcl_env) = mkDsEnvs dflags mod rdr_env type_env fam_inst_env msg_var ; either_res <- initTcRnIf 'd' hsc_env ds_gbl_env ds_lcl_env $ loadDAP $ initDPHBuiltins $ tryM thing_inside -- Catch exceptions (= errors during desugaring) -- Display any errors and warnings -- Note: if -Werror is used, we don't signal an error here. ; msgs <- readIORef msg_var ; let final_res | errorsFound dflags msgs = Nothing | otherwise = case either_res of Right res -> Just res Left exn -> pprPanic "initDs" (text (show exn)) -- The (Left exn) case happens when the thing_inside throws -- a UserError exception. Then it should have put an error -- message in msg_var, so we just discard the exception ; return (msgs, final_res) } where -- Extend the global environment with a 'GlobalRdrEnv' containing the exported entities of -- * 'Data.Array.Parallel' iff '-XParallalArrays' specified (see also 'checkLoadDAP'). -- * 'Data.Array.Parallel.Prim' iff '-fvectorise' specified. loadDAP thing_inside = do { dapEnv <- loadOneModule dATA_ARRAY_PARALLEL_NAME checkLoadDAP paErr ; dappEnv <- loadOneModule dATA_ARRAY_PARALLEL_PRIM_NAME (goptM Opt_Vectorise) veErr ; updGblEnv (\env -> env {ds_dph_env = dapEnv `plusOccEnv` dappEnv }) thing_inside } where loadOneModule :: ModuleName -- the module to load -> DsM Bool -- under which condition -> MsgDoc -- error message if module not found -> DsM GlobalRdrEnv -- empty if condition 'False' loadOneModule modname check err = do { doLoad <- check ; if not doLoad then return emptyGlobalRdrEnv else do { ; result <- liftIO $ findImportedModule hsc_env modname Nothing ; case result of Found _ mod -> loadModule err mod _ -> pprPgmError "Unable to use Data Parallel Haskell (DPH):" err } } paErr = ptext (sLit "To use ParallelArrays,") <+> specBackend $$ hint1 $$ hint2 veErr = ptext (sLit "To use -fvectorise,") <+> specBackend $$ hint1 $$ hint2 specBackend = ptext (sLit "you must specify a DPH backend package") hint1 = ptext (sLit "Look for packages named 'dph-lifted-*' with 'ghc-pkg'") hint2 = ptext (sLit "You may need to install them with 'cabal install dph-examples'") initDPHBuiltins thing_inside = do { -- If '-XParallelArrays' given, we populate the builtin table for desugaring those ; doInitBuiltins <- checkLoadDAP ; if doInitBuiltins then dsInitPArrBuiltin thing_inside else thing_inside } checkLoadDAP = do { paEnabled <- xoptM Opt_ParallelArrays ; return $ paEnabled && mod /= gHC_PARR' && moduleName mod /= dATA_ARRAY_PARALLEL_NAME } -- do not load 'Data.Array.Parallel' iff compiling 'base:GHC.PArr' or a -- module called 'dATA_ARRAY_PARALLEL_NAME'; see also the comments at the top -- of 'base:GHC.PArr' and 'Data.Array.Parallel' in the DPH libraries initDsTc :: DsM a -> TcM a initDsTc thing_inside = do { this_mod <- getModule ; tcg_env <- getGblEnv ; msg_var <- getErrsVar ; dflags <- getDynFlags ; let type_env = tcg_type_env tcg_env rdr_env = tcg_rdr_env tcg_env fam_inst_env = tcg_fam_inst_env tcg_env ds_envs = mkDsEnvs dflags this_mod rdr_env type_env fam_inst_env msg_var ; setEnvs ds_envs thing_inside } mkDsEnvs :: DynFlags -> Module -> GlobalRdrEnv -> TypeEnv -> FamInstEnv -> IORef Messages -> (DsGblEnv, DsLclEnv) mkDsEnvs dflags mod rdr_env type_env fam_inst_env msg_var = let if_genv = IfGblEnv { if_rec_types = Just (mod, return type_env) } if_lenv = mkIfLclEnv mod (ptext (sLit "GHC error in desugarer lookup in") <+> ppr mod) gbl_env = DsGblEnv { ds_mod = mod , ds_fam_inst_env = fam_inst_env , ds_if_env = (if_genv, if_lenv) , ds_unqual = mkPrintUnqualified dflags rdr_env , ds_msgs = msg_var , ds_dph_env = emptyGlobalRdrEnv , ds_parr_bi = panic "DsMonad: uninitialised ds_parr_bi" } lcl_env = DsLclEnv { ds_meta = emptyNameEnv , ds_loc = noSrcSpan } in (gbl_env, lcl_env) -- Attempt to load the given module and return its exported entities if successful. -- loadModule :: SDoc -> Module -> DsM GlobalRdrEnv loadModule doc mod = do { env <- getGblEnv ; setEnvs (ds_if_env env) $ do { iface <- loadInterface doc mod ImportBySystem ; case iface of Failed err -> pprPanic "DsMonad.loadModule: failed to load" (err $$ doc) Succeeded iface -> return $ mkGlobalRdrEnv . gresFromAvails prov . mi_exports $ iface } } where prov = Imported [ImpSpec { is_decl = imp_spec, is_item = ImpAll }] imp_spec = ImpDeclSpec { is_mod = name, is_qual = True, is_dloc = wiredInSrcSpan, is_as = name } name = moduleName mod \end{code} %************************************************************************ %* * Operations in the monad %* * %************************************************************************ And all this mysterious stuff is so we can occasionally reach out and grab one or more names. @newLocalDs@ isn't exported---exported functions are defined with it. The difference in name-strings makes it easier to read debugging output. \begin{code} -- Make a new Id with the same print name, but different type, and new unique newUniqueId :: Id -> Type -> DsM Id newUniqueId id = mkSysLocalM (occNameFS (nameOccName (idName id))) duplicateLocalDs :: Id -> DsM Id duplicateLocalDs old_local = do { uniq <- newUnique ; return (setIdUnique old_local uniq) } newPredVarDs :: PredType -> DsM Var newPredVarDs pred = newSysLocalDs pred newSysLocalDs, newFailLocalDs :: Type -> DsM Id newSysLocalDs = mkSysLocalM (fsLit "ds") newFailLocalDs = mkSysLocalM (fsLit "fail") newSysLocalsDs :: [Type] -> DsM [Id] newSysLocalsDs tys = mapM newSysLocalDs tys \end{code} We can also reach out and either set/grab location information from the @SrcSpan@ being carried around. \begin{code} getGhcModeDs :: DsM GhcMode getGhcModeDs = getDynFlags >>= return . ghcMode getSrcSpanDs :: DsM SrcSpan getSrcSpanDs = do { env <- getLclEnv; return (ds_loc env) } putSrcSpanDs :: SrcSpan -> DsM a -> DsM a putSrcSpanDs new_loc thing_inside = updLclEnv (\ env -> env {ds_loc = new_loc}) thing_inside warnDs :: SDoc -> DsM () warnDs warn = do { env <- getGblEnv ; loc <- getSrcSpanDs ; dflags <- getDynFlags ; let msg = mkWarnMsg dflags loc (ds_unqual env) warn ; updMutVar (ds_msgs env) (\ (w,e) -> (w `snocBag` msg, e)) } failWithDs :: SDoc -> DsM a failWithDs err = do { env <- getGblEnv ; loc <- getSrcSpanDs ; dflags <- getDynFlags ; let msg = mkErrMsg dflags loc (ds_unqual env) err ; updMutVar (ds_msgs env) (\ (w,e) -> (w, e `snocBag` msg)) ; failM } mkPrintUnqualifiedDs :: DsM PrintUnqualified mkPrintUnqualifiedDs = ds_unqual <$> getGblEnv \end{code} \begin{code} instance MonadThings (IOEnv (Env DsGblEnv DsLclEnv)) where lookupThing = dsLookupGlobal dsLookupGlobal :: Name -> DsM TyThing -- Very like TcEnv.tcLookupGlobal dsLookupGlobal name = do { env <- getGblEnv ; setEnvs (ds_if_env env) (tcIfaceGlobal name) } dsLookupGlobalId :: Name -> DsM Id dsLookupGlobalId name = tyThingId <$> dsLookupGlobal name -- |Get a name from "Data.Array.Parallel" for the desugarer, from the 'ds_parr_bi' component of the -- global desugerar environment. -- dsDPHBuiltin :: (PArrBuiltin -> a) -> DsM a dsDPHBuiltin sel = (sel . ds_parr_bi) <$> getGblEnv dsLookupTyCon :: Name -> DsM TyCon dsLookupTyCon name = tyThingTyCon <$> dsLookupGlobal name dsLookupDataCon :: Name -> DsM DataCon dsLookupDataCon name = tyThingDataCon <$> dsLookupGlobal name \end{code} \begin{code} -- |Lookup a name exported by 'Data.Array.Parallel.Prim' or 'Data.Array.Parallel.Prim'. -- Panic if there isn't one, or if it is defined multiple times. dsLookupDPHRdrEnv :: OccName -> DsM Name dsLookupDPHRdrEnv occ = liftM (fromMaybe (pprPanic nameNotFound (ppr occ))) $ dsLookupDPHRdrEnv_maybe occ where nameNotFound = "Name not found in 'Data.Array.Parallel' or 'Data.Array.Parallel.Prim':" -- |Lookup a name exported by 'Data.Array.Parallel.Prim' or 'Data.Array.Parallel.Prim', -- returning `Nothing` if it's not defined. Panic if it's defined multiple times. dsLookupDPHRdrEnv_maybe :: OccName -> DsM (Maybe Name) dsLookupDPHRdrEnv_maybe occ = do { env <- ds_dph_env <$> getGblEnv ; let gres = lookupGlobalRdrEnv env occ ; case gres of [] -> return $ Nothing [gre] -> return $ Just $ gre_name gre _ -> pprPanic multipleNames (ppr occ) } where multipleNames = "Multiple definitions in 'Data.Array.Parallel' and 'Data.Array.Parallel.Prim':" -- Populate 'ds_parr_bi' from 'ds_dph_env'. -- dsInitPArrBuiltin :: DsM a -> DsM a dsInitPArrBuiltin thing_inside = do { lengthPVar <- externalVar (fsLit "lengthP") ; replicatePVar <- externalVar (fsLit "replicateP") ; singletonPVar <- externalVar (fsLit "singletonP") ; mapPVar <- externalVar (fsLit "mapP") ; filterPVar <- externalVar (fsLit "filterP") ; zipPVar <- externalVar (fsLit "zipP") ; crossMapPVar <- externalVar (fsLit "crossMapP") ; indexPVar <- externalVar (fsLit "!:") ; emptyPVar <- externalVar (fsLit "emptyP") ; appPVar <- externalVar (fsLit "+:+") -- ; enumFromToPVar <- externalVar (fsLit "enumFromToP") -- ; enumFromThenToPVar <- externalVar (fsLit "enumFromThenToP") ; enumFromToPVar <- return arithErr ; enumFromThenToPVar <- return arithErr ; updGblEnv (\env -> env {ds_parr_bi = PArrBuiltin { lengthPVar = lengthPVar , replicatePVar = replicatePVar , singletonPVar = singletonPVar , mapPVar = mapPVar , filterPVar = filterPVar , zipPVar = zipPVar , crossMapPVar = crossMapPVar , indexPVar = indexPVar , emptyPVar = emptyPVar , appPVar = appPVar , enumFromToPVar = enumFromToPVar , enumFromThenToPVar = enumFromThenToPVar } }) thing_inside } where externalVar :: FastString -> DsM Var externalVar fs = dsLookupDPHRdrEnv (mkVarOccFS fs) >>= dsLookupGlobalId arithErr = panic "Arithmetic sequences have to wait until we support type classes" \end{code} \begin{code} dsGetFamInstEnvs :: DsM FamInstEnvs -- Gets both the external-package inst-env -- and the home-pkg inst env (includes module being compiled) dsGetFamInstEnvs = do { eps <- getEps; env <- getGblEnv ; return (eps_fam_inst_env eps, ds_fam_inst_env env) } dsGetMetaEnv :: DsM (NameEnv DsMetaVal) dsGetMetaEnv = do { env <- getLclEnv; return (ds_meta env) } dsLookupMetaEnv :: Name -> DsM (Maybe DsMetaVal) dsLookupMetaEnv name = do { env <- getLclEnv; return (lookupNameEnv (ds_meta env) name) } dsExtendMetaEnv :: DsMetaEnv -> DsM a -> DsM a dsExtendMetaEnv menv thing_inside = updLclEnv (\env -> env { ds_meta = ds_meta env `plusNameEnv` menv }) thing_inside \end{code} \begin{code} discardWarningsDs :: DsM a -> DsM a -- Ignore warnings inside the thing inside; -- used to ignore inaccessable cases etc. inside generated code discardWarningsDs thing_inside = do { env <- getGblEnv ; old_msgs <- readTcRef (ds_msgs env) ; result <- thing_inside -- Revert messages to old_msgs ; writeTcRef (ds_msgs env) old_msgs ; return result } \end{code}