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|
-------------------------------------------------------------------------------
--
-- | Main API for compiling plain Haskell source code.
--
-- This module implements compilation of a Haskell source. It is
-- /not/ concerned with preprocessing of source files; this is handled
-- in "DriverPipeline".
--
-- There are various entry points depending on what mode we're in:
-- "batch" mode (@--make@), "one-shot" mode (@-c@, @-S@ etc.), and
-- "interactive" mode (GHCi). There are also entry points for
-- individual passes: parsing, typechecking/renaming, desugaring, and
-- simplification.
--
-- All the functions here take an 'HscEnv' as a parameter, but none of
-- them return a new one: 'HscEnv' is treated as an immutable value
-- from here on in (although it has mutable components, for the
-- caches).
--
-- Warning messages are dealt with consistently throughout this API:
-- during compilation warnings are collected, and before any function
-- in @HscMain@ returns, the warnings are either printed, or turned
-- into a real compialtion error if the @-Werror@ flag is enabled.
--
-- (c) The GRASP/AQUA Project, Glasgow University, 1993-2000
--
-------------------------------------------------------------------------------
module HscMain
(
-- * Making an HscEnv
newHscEnv
-- * Compiling complete source files
, Compiler
, HscStatus' (..)
, InteractiveStatus, HscStatus
, hscCompileOneShot
, hscCompileBatch
, hscCompileNothing
, hscCompileInteractive
, hscCompileCmmFile
, hscCompileCore
-- * Running passes separately
, hscParse
, hscTypecheckRename
, hscDesugar
, makeSimpleIface
, makeSimpleDetails
, hscSimplify -- ToDo, shouldn't really export this
-- ** Backends
, hscOneShotBackendOnly
, hscBatchBackendOnly
, hscNothingBackendOnly
, hscInteractiveBackendOnly
-- * Support for interactive evaluation
, hscParseIdentifier
, hscTcRcLookupName
, hscTcRnGetInfo
, hscCheckSafe
, hscGetSafe
#ifdef GHCI
, hscIsGHCiMonad
, hscGetModuleInterface
, hscRnImportDecls
, hscTcRnLookupRdrName
, hscStmt, hscStmtWithLocation
, hscDecls, hscDeclsWithLocation
, hscTcExpr, hscImport, hscKcType
, hscCompileCoreExpr
#endif
) where
#ifdef GHCI
import Id
import ByteCodeGen ( byteCodeGen, coreExprToBCOs )
import Linker
import CoreTidy ( tidyExpr )
import Type ( Type )
import PrelNames
import {- Kind parts of -} Type ( Kind )
import CoreLint ( lintUnfolding )
import DsMeta ( templateHaskellNames )
import VarSet
import VarEnv ( emptyTidyEnv )
import Panic
import GHC.Exts
#endif
import Module
import Packages
import RdrName
import HsSyn
import CoreSyn
import StringBuffer
import Parser
import Lexer
import SrcLoc
import TcRnDriver
import TcIface ( typecheckIface )
import TcRnMonad
import IfaceEnv ( initNameCache )
import LoadIface ( ifaceStats, initExternalPackageState )
import PrelInfo
import MkIface
import Desugar
import SimplCore
import TidyPgm
import CorePrep
import CoreToStg ( coreToStg )
import qualified StgCmm ( codeGen )
import StgSyn
import CostCentre
import ProfInit
import TyCon
import Name
import SimplStg ( stg2stg )
import qualified OldCmm as Old
import qualified Cmm as New
import CmmParse ( parseCmmFile )
import CmmBuildInfoTables
import CmmPipeline
import CmmInfo
import CmmCvt
import CodeOutput
import NameEnv ( emptyNameEnv )
import NameSet ( emptyNameSet )
import InstEnv
import FamInstEnv
import Fingerprint ( Fingerprint )
import DynFlags
import ErrUtils
import Outputable
import HscStats ( ppSourceStats )
import HscTypes
import MkExternalCore ( emitExternalCore )
import FastString
import UniqFM ( emptyUFM )
import UniqSupply
import Bag
import Exception
import qualified Stream
import Stream (Stream)
import Util
import Data.List
import Control.Monad
import Data.Maybe
import Data.IORef
import System.FilePath as FilePath
import System.Directory
#include "HsVersions.h"
{- **********************************************************************
%* *
Initialisation
%* *
%********************************************************************* -}
newHscEnv :: DynFlags -> IO HscEnv
newHscEnv dflags = do
eps_var <- newIORef initExternalPackageState
us <- mkSplitUniqSupply 'r'
nc_var <- newIORef (initNameCache us knownKeyNames)
fc_var <- newIORef emptyUFM
mlc_var <- newIORef emptyModuleEnv
return HscEnv { hsc_dflags = dflags,
hsc_targets = [],
hsc_mod_graph = [],
hsc_IC = emptyInteractiveContext dflags,
hsc_HPT = emptyHomePackageTable,
hsc_EPS = eps_var,
hsc_NC = nc_var,
hsc_FC = fc_var,
hsc_MLC = mlc_var,
hsc_type_env_var = Nothing }
knownKeyNames :: [Name] -- Put here to avoid loops involving DsMeta,
knownKeyNames = -- where templateHaskellNames are defined
map getName wiredInThings
++ basicKnownKeyNames
#ifdef GHCI
++ templateHaskellNames
#endif
-- -----------------------------------------------------------------------------
-- The Hsc monad: Passing an enviornment and warning state
newtype Hsc a = Hsc (HscEnv -> WarningMessages -> IO (a, WarningMessages))
instance Monad Hsc where
return a = Hsc $ \_ w -> return (a, w)
Hsc m >>= k = Hsc $ \e w -> do (a, w1) <- m e w
case k a of
Hsc k' -> k' e w1
instance MonadIO Hsc where
liftIO io = Hsc $ \_ w -> do a <- io; return (a, w)
instance Functor Hsc where
fmap f m = m >>= \a -> return $ f a
runHsc :: HscEnv -> Hsc a -> IO a
runHsc hsc_env (Hsc hsc) = do
(a, w) <- hsc hsc_env emptyBag
printOrThrowWarnings (hsc_dflags hsc_env) w
return a
-- A variant of runHsc that switches in the DynFlags from the
-- InteractiveContext before running the Hsc computation.
--
runInteractiveHsc :: HscEnv -> Hsc a -> IO a
runInteractiveHsc hsc_env =
runHsc (hsc_env { hsc_dflags = ic_dflags (hsc_IC hsc_env) })
getWarnings :: Hsc WarningMessages
getWarnings = Hsc $ \_ w -> return (w, w)
clearWarnings :: Hsc ()
clearWarnings = Hsc $ \_ _ -> return ((), emptyBag)
logWarnings :: WarningMessages -> Hsc ()
logWarnings w = Hsc $ \_ w0 -> return ((), w0 `unionBags` w)
getHscEnv :: Hsc HscEnv
getHscEnv = Hsc $ \e w -> return (e, w)
instance HasDynFlags Hsc where
getDynFlags = Hsc $ \e w -> return (hsc_dflags e, w)
handleWarnings :: Hsc ()
handleWarnings = do
dflags <- getDynFlags
w <- getWarnings
liftIO $ printOrThrowWarnings dflags w
clearWarnings
-- | log warning in the monad, and if there are errors then
-- throw a SourceError exception.
logWarningsReportErrors :: Messages -> Hsc ()
logWarningsReportErrors (warns,errs) = do
logWarnings warns
when (not $ isEmptyBag errs) $ throwErrors errs
-- | Throw some errors.
throwErrors :: ErrorMessages -> Hsc a
throwErrors = liftIO . throwIO . mkSrcErr
-- | Deal with errors and warnings returned by a compilation step
--
-- In order to reduce dependencies to other parts of the compiler, functions
-- outside the "main" parts of GHC return warnings and errors as a parameter
-- and signal success via by wrapping the result in a 'Maybe' type. This
-- function logs the returned warnings and propagates errors as exceptions
-- (of type 'SourceError').
--
-- This function assumes the following invariants:
--
-- 1. If the second result indicates success (is of the form 'Just x'),
-- there must be no error messages in the first result.
--
-- 2. If there are no error messages, but the second result indicates failure
-- there should be warnings in the first result. That is, if the action
-- failed, it must have been due to the warnings (i.e., @-Werror@).
ioMsgMaybe :: IO (Messages, Maybe a) -> Hsc a
ioMsgMaybe ioA = do
((warns,errs), mb_r) <- liftIO ioA
logWarnings warns
case mb_r of
Nothing -> throwErrors errs
Just r -> ASSERT( isEmptyBag errs ) return r
-- | like ioMsgMaybe, except that we ignore error messages and return
-- 'Nothing' instead.
ioMsgMaybe' :: IO (Messages, Maybe a) -> Hsc (Maybe a)
ioMsgMaybe' ioA = do
((warns,_errs), mb_r) <- liftIO $ ioA
logWarnings warns
return mb_r
-- -----------------------------------------------------------------------------
-- | Lookup things in the compiler's environment
#ifdef GHCI
hscTcRnLookupRdrName :: HscEnv -> RdrName -> IO [Name]
hscTcRnLookupRdrName hsc_env0 rdr_name = runInteractiveHsc hsc_env0 $ do
hsc_env <- getHscEnv
ioMsgMaybe $ tcRnLookupRdrName hsc_env rdr_name
#endif
hscTcRcLookupName :: HscEnv -> Name -> IO (Maybe TyThing)
hscTcRcLookupName hsc_env0 name = runInteractiveHsc hsc_env0 $ do
hsc_env <- getHscEnv
ioMsgMaybe' $ tcRnLookupName hsc_env name
-- ignore errors: the only error we're likely to get is
-- "name not found", and the Maybe in the return type
-- is used to indicate that.
hscTcRnGetInfo :: HscEnv -> Name -> IO (Maybe (TyThing, Fixity, [ClsInst]))
hscTcRnGetInfo hsc_env0 name = runInteractiveHsc hsc_env0 $ do
hsc_env <- getHscEnv
ioMsgMaybe' $ tcRnGetInfo hsc_env name
#ifdef GHCI
hscIsGHCiMonad :: HscEnv -> String -> IO Name
hscIsGHCiMonad hsc_env name =
let icntxt = hsc_IC hsc_env
in runHsc hsc_env $ ioMsgMaybe $ isGHCiMonad hsc_env icntxt name
hscGetModuleInterface :: HscEnv -> Module -> IO ModIface
hscGetModuleInterface hsc_env0 mod = runInteractiveHsc hsc_env0 $ do
hsc_env <- getHscEnv
ioMsgMaybe $ getModuleInterface hsc_env mod
-- -----------------------------------------------------------------------------
-- | Rename some import declarations
hscRnImportDecls :: HscEnv -> [LImportDecl RdrName] -> IO GlobalRdrEnv
hscRnImportDecls hsc_env0 import_decls = runInteractiveHsc hsc_env0 $ do
hsc_env <- getHscEnv
ioMsgMaybe $ tcRnImportDecls hsc_env import_decls
#endif
-- -----------------------------------------------------------------------------
-- | parse a file, returning the abstract syntax
hscParse :: HscEnv -> ModSummary -> IO HsParsedModule
hscParse hsc_env mod_summary = runHsc hsc_env $ hscParse' mod_summary
-- internal version, that doesn't fail due to -Werror
hscParse' :: ModSummary -> Hsc HsParsedModule
hscParse' mod_summary = do
dflags <- getDynFlags
let src_filename = ms_hspp_file mod_summary
maybe_src_buf = ms_hspp_buf mod_summary
-------------------------- Parser ----------------
liftIO $ showPass dflags "Parser"
{-# SCC "Parser" #-} do
-- sometimes we already have the buffer in memory, perhaps
-- because we needed to parse the imports out of it, or get the
-- module name.
buf <- case maybe_src_buf of
Just b -> return b
Nothing -> liftIO $ hGetStringBuffer src_filename
let loc = mkRealSrcLoc (mkFastString src_filename) 1 1
case unP parseModule (mkPState dflags buf loc) of
PFailed span err ->
liftIO $ throwOneError (mkPlainErrMsg dflags span err)
POk pst rdr_module -> do
logWarningsReportErrors (getMessages pst)
liftIO $ dumpIfSet_dyn dflags Opt_D_dump_parsed "Parser" $
ppr rdr_module
liftIO $ dumpIfSet_dyn dflags Opt_D_source_stats "Source Statistics" $
ppSourceStats False rdr_module
-- To get the list of extra source files, we take the list
-- that the parser gave us,
-- - eliminate files beginning with '<'. gcc likes to use
-- pseudo-filenames like "<built-in>" and "<command-line>"
-- - normalise them (elimiante differences between ./f and f)
-- - filter out the preprocessed source file
-- - filter out anything beginning with tmpdir
-- - remove duplicates
-- - filter out the .hs/.lhs source filename if we have one
--
let n_hspp = FilePath.normalise src_filename
srcs0 = nub $ filter (not . (tmpDir dflags `isPrefixOf`))
$ filter (not . (== n_hspp))
$ map FilePath.normalise
$ filter (not . (isPrefixOf "<"))
$ map unpackFS
$ srcfiles pst
srcs1 = case ml_hs_file (ms_location mod_summary) of
Just f -> filter (/= FilePath.normalise f) srcs0
Nothing -> srcs0
-- sometimes we see source files from earlier
-- preprocessing stages that cannot be found, so just
-- filter them out:
srcs2 <- liftIO $ filterM doesFileExist srcs1
return HsParsedModule {
hpm_module = rdr_module,
hpm_src_files = srcs2
}
-- XXX: should this really be a Maybe X? Check under which circumstances this
-- can become a Nothing and decide whether this should instead throw an
-- exception/signal an error.
type RenamedStuff =
(Maybe (HsGroup Name, [LImportDecl Name], Maybe [LIE Name],
Maybe LHsDocString))
-- | Rename and typecheck a module, additionally returning the renamed syntax
hscTypecheckRename :: HscEnv -> ModSummary -> HsParsedModule
-> IO (TcGblEnv, RenamedStuff)
hscTypecheckRename hsc_env mod_summary rdr_module = runHsc hsc_env $ do
tc_result <- tcRnModule' hsc_env mod_summary True rdr_module
-- This 'do' is in the Maybe monad!
let rn_info = do decl <- tcg_rn_decls tc_result
let imports = tcg_rn_imports tc_result
exports = tcg_rn_exports tc_result
doc_hdr = tcg_doc_hdr tc_result
return (decl,imports,exports,doc_hdr)
return (tc_result, rn_info)
-- wrapper around tcRnModule to handle safe haskell extras
tcRnModule' :: HscEnv -> ModSummary -> Bool -> HsParsedModule
-> Hsc TcGblEnv
tcRnModule' hsc_env sum save_rn_syntax mod = do
tcg_res <- {-# SCC "Typecheck-Rename" #-}
ioMsgMaybe $
tcRnModule hsc_env (ms_hsc_src sum) save_rn_syntax mod
tcSafeOK <- liftIO $ readIORef (tcg_safeInfer tcg_res)
dflags <- getDynFlags
-- end of the Safe Haskell line, how to respond to user?
if not (safeHaskellOn dflags) || (safeInferOn dflags && not tcSafeOK)
-- if safe haskell off or safe infer failed, wipe trust
then wipeTrust tcg_res emptyBag
-- module safe, throw warning if needed
else do
tcg_res' <- hscCheckSafeImports tcg_res
safe <- liftIO $ readIORef (tcg_safeInfer tcg_res')
when (safe && wopt Opt_WarnSafe dflags)
(logWarnings $ unitBag $
mkPlainWarnMsg dflags (warnSafeOnLoc dflags) $ errSafe tcg_res')
return tcg_res'
where
pprMod t = ppr $ moduleName $ tcg_mod t
errSafe t = quotes (pprMod t) <+> text "has been inferred as safe!"
-- | Convert a typechecked module to Core
hscDesugar :: HscEnv -> ModSummary -> TcGblEnv -> IO ModGuts
hscDesugar hsc_env mod_summary tc_result =
runHsc hsc_env $ hscDesugar' (ms_location mod_summary) tc_result
hscDesugar' :: ModLocation -> TcGblEnv -> Hsc ModGuts
hscDesugar' mod_location tc_result = do
hsc_env <- getHscEnv
r <- ioMsgMaybe $
{-# SCC "deSugar" #-}
deSugar hsc_env mod_location tc_result
-- always check -Werror after desugaring, this is the last opportunity for
-- warnings to arise before the backend.
handleWarnings
return r
-- | Make a 'ModIface' from the results of typechecking. Used when
-- not optimising, and the interface doesn't need to contain any
-- unfoldings or other cross-module optimisation info.
-- ToDo: the old interface is only needed to get the version numbers,
-- we should use fingerprint versions instead.
makeSimpleIface :: HscEnv -> Maybe ModIface -> TcGblEnv -> ModDetails
-> IO (ModIface,Bool)
makeSimpleIface hsc_env maybe_old_iface tc_result details = runHsc hsc_env $ do
safe_mode <- hscGetSafeMode tc_result
ioMsgMaybe $ do
mkIfaceTc hsc_env (fmap mi_iface_hash maybe_old_iface) safe_mode
details tc_result
-- | Make a 'ModDetails' from the results of typechecking. Used when
-- typechecking only, as opposed to full compilation.
makeSimpleDetails :: HscEnv -> TcGblEnv -> IO ModDetails
makeSimpleDetails hsc_env tc_result = mkBootModDetailsTc hsc_env tc_result
{- **********************************************************************
%* *
The main compiler pipeline
%* *
%********************************************************************* -}
{-
--------------------------------
The compilation proper
--------------------------------
It's the task of the compilation proper to compile Haskell, hs-boot and core
files to either byte-code, hard-code (C, asm, LLVM, ect) or to nothing at all
(the module is still parsed and type-checked. This feature is mostly used by
IDE's and the likes). Compilation can happen in either 'one-shot', 'batch',
'nothing', or 'interactive' mode. 'One-shot' mode targets hard-code, 'batch'
mode targets hard-code, 'nothing' mode targets nothing and 'interactive' mode
targets byte-code.
The modes are kept separate because of their different types and meanings:
* In 'one-shot' mode, we're only compiling a single file and can therefore
discard the new ModIface and ModDetails. This is also the reason it only
targets hard-code; compiling to byte-code or nothing doesn't make sense when
we discard the result.
* 'Batch' mode is like 'one-shot' except that we keep the resulting ModIface
and ModDetails. 'Batch' mode doesn't target byte-code since that require us to
return the newly compiled byte-code.
* 'Nothing' mode has exactly the same type as 'batch' mode but they're still
kept separate. This is because compiling to nothing is fairly special: We
don't output any interface files, we don't run the simplifier and we don't
generate any code.
* 'Interactive' mode is similar to 'batch' mode except that we return the
compiled byte-code together with the ModIface and ModDetails.
Trying to compile a hs-boot file to byte-code will result in a run-time error.
This is the only thing that isn't caught by the type-system.
-}
-- | Status of a compilation to hard-code or nothing.
data HscStatus' a
= HscNoRecomp
| HscRecomp
(Maybe FilePath) -- Has stub files. This is a hack. We can't compile
-- C files here since it's done in DriverPipeline.
-- For now we just return True if we want the caller
-- to compile them for us.
a
-- This is a bit ugly. Since we use a typeclass below and would like to avoid
-- functional dependencies, we have to parameterise the typeclass over the
-- result type. Therefore we need to artificially distinguish some types. We do
-- this by adding type tags which will simply be ignored by the caller.
type HscStatus = HscStatus' ()
type InteractiveStatus = HscStatus' (Maybe (CompiledByteCode, ModBreaks))
-- INVARIANT: result is @Nothing@ <=> input was a boot file
type OneShotResult = HscStatus
type BatchResult = (HscStatus, ModIface, ModDetails)
type NothingResult = (HscStatus, ModIface, ModDetails)
type InteractiveResult = (InteractiveStatus, ModIface, ModDetails)
-- ToDo: The old interface and module index are only using in 'batch' and
-- 'interactive' mode. They should be removed from 'oneshot' mode.
type Compiler result = HscEnv
-> ModSummary
-> SourceModified
-> Maybe ModIface -- Old interface, if available
-> Maybe (Int,Int) -- Just (i,n) <=> module i of n (for msgs)
-> IO result
data HsCompiler a = HsCompiler {
-- | Called when no recompilation is necessary.
hscNoRecomp :: ModIface
-> Hsc a,
-- | Called to recompile the module.
hscRecompile :: ModSummary -> Maybe Fingerprint
-> Hsc a,
hscBackend :: TcGblEnv -> ModSummary -> Maybe Fingerprint
-> Hsc a,
-- | Code generation for Boot modules.
hscGenBootOutput :: TcGblEnv -> ModSummary -> Maybe Fingerprint
-> Hsc a,
-- | Code generation for normal modules.
hscGenOutput :: ModGuts -> ModSummary -> Maybe Fingerprint
-> Hsc a
}
genericHscCompile :: HsCompiler a
-> (HscEnv -> Maybe (Int,Int) -> RecompileRequired -> ModSummary -> IO ())
-> HscEnv -> ModSummary -> SourceModified
-> Maybe ModIface -> Maybe (Int, Int)
-> IO a
genericHscCompile compiler hscMessage hsc_env
mod_summary source_modified
mb_old_iface0 mb_mod_index
= do
(recomp_reqd, mb_checked_iface)
<- {-# SCC "checkOldIface" #-}
checkOldIface hsc_env mod_summary
source_modified mb_old_iface0
-- save the interface that comes back from checkOldIface.
-- In one-shot mode we don't have the old iface until this
-- point, when checkOldIface reads it from the disk.
let mb_old_hash = fmap mi_iface_hash mb_checked_iface
let skip iface = do
hscMessage hsc_env mb_mod_index UpToDate mod_summary
runHsc hsc_env $ hscNoRecomp compiler iface
compile reason = do
hscMessage hsc_env mb_mod_index reason mod_summary
runHsc hsc_env $ hscRecompile compiler mod_summary mb_old_hash
stable = case source_modified of
SourceUnmodifiedAndStable -> True
_ -> False
-- If the module used TH splices when it was last compiled,
-- then the recompilation check is not accurate enough (#481)
-- and we must ignore it. However, if the module is stable
-- (none of the modules it depends on, directly or indirectly,
-- changed), then we *can* skip recompilation. This is why
-- the SourceModified type contains SourceUnmodifiedAndStable,
-- and it's pretty important: otherwise ghc --make would
-- always recompile TH modules, even if nothing at all has
-- changed. Stability is just the same check that make is
-- doing for us in one-shot mode.
case mb_checked_iface of
Just iface | not (recompileRequired recomp_reqd) ->
if mi_used_th iface && not stable
then compile (RecompBecause "TH")
else skip iface
_otherwise ->
compile recomp_reqd
hscCheckRecompBackend :: HsCompiler a -> TcGblEnv -> Compiler a
hscCheckRecompBackend compiler tc_result hsc_env mod_summary
source_modified mb_old_iface _m_of_n
= do
(recomp_reqd, mb_checked_iface)
<- {-# SCC "checkOldIface" #-}
checkOldIface hsc_env mod_summary
source_modified mb_old_iface
let mb_old_hash = fmap mi_iface_hash mb_checked_iface
case mb_checked_iface of
Just iface | not (recompileRequired recomp_reqd)
-> runHsc hsc_env $
hscNoRecomp compiler
iface{ mi_globals = Just (tcg_rdr_env tc_result) }
_otherwise
-> runHsc hsc_env $
hscBackend compiler tc_result mod_summary mb_old_hash
genericHscRecompile :: HsCompiler a
-> ModSummary -> Maybe Fingerprint
-> Hsc a
genericHscRecompile compiler mod_summary mb_old_hash
| ExtCoreFile <- ms_hsc_src mod_summary =
panic "GHC does not currently support reading External Core files"
| otherwise = do
tc_result <- hscFileFrontEnd mod_summary
hscBackend compiler tc_result mod_summary mb_old_hash
genericHscBackend :: HsCompiler a
-> TcGblEnv -> ModSummary -> Maybe Fingerprint
-> Hsc a
genericHscBackend compiler tc_result mod_summary mb_old_hash
| HsBootFile <- ms_hsc_src mod_summary =
hscGenBootOutput compiler tc_result mod_summary mb_old_hash
| otherwise = do
guts <- hscDesugar' (ms_location mod_summary) tc_result
hscGenOutput compiler guts mod_summary mb_old_hash
compilerBackend :: HsCompiler a -> TcGblEnv -> Compiler a
compilerBackend comp tcg hsc_env ms' _ _mb_old_iface _ =
runHsc hsc_env $ hscBackend comp tcg ms' Nothing
--------------------------------------------------------------
-- Compilers
--------------------------------------------------------------
hscOneShotCompiler :: HsCompiler OneShotResult
hscOneShotCompiler = HsCompiler {
hscNoRecomp = \_old_iface -> do
hsc_env <- getHscEnv
liftIO $ dumpIfaceStats hsc_env
return HscNoRecomp
, hscRecompile = genericHscRecompile hscOneShotCompiler
, hscBackend = \tc_result mod_summary mb_old_hash -> do
dflags <- getDynFlags
case hscTarget dflags of
HscNothing -> return (HscRecomp Nothing ())
_otherw -> genericHscBackend hscOneShotCompiler
tc_result mod_summary mb_old_hash
, hscGenBootOutput = \tc_result mod_summary mb_old_iface -> do
(iface, changed, _) <- hscSimpleIface tc_result mb_old_iface
hscWriteIface iface changed mod_summary
return (HscRecomp Nothing ())
, hscGenOutput = \guts0 mod_summary mb_old_iface -> do
guts <- hscSimplify' guts0
(iface, changed, _details, cgguts) <- hscNormalIface guts mb_old_iface
hscWriteIface iface changed mod_summary
hasStub <- hscGenHardCode cgguts mod_summary
return (HscRecomp hasStub ())
}
-- Compile Haskell, boot and extCore in OneShot mode.
hscCompileOneShot :: Compiler OneShotResult
hscCompileOneShot hsc_env mod_summary src_changed mb_old_iface mb_i_of_n
= do
-- One-shot mode needs a knot-tying mutable variable for interface
-- files. See TcRnTypes.TcGblEnv.tcg_type_env_var.
type_env_var <- newIORef emptyNameEnv
let mod = ms_mod mod_summary
hsc_env' = hsc_env{ hsc_type_env_var = Just (mod, type_env_var) }
genericHscCompile hscOneShotCompiler
oneShotMsg hsc_env' mod_summary src_changed
mb_old_iface mb_i_of_n
hscOneShotBackendOnly :: TcGblEnv -> Compiler OneShotResult
hscOneShotBackendOnly = compilerBackend hscOneShotCompiler
--------------------------------------------------------------
hscBatchCompiler :: HsCompiler BatchResult
hscBatchCompiler = HsCompiler {
hscNoRecomp = \iface -> do
details <- genModDetails iface
return (HscNoRecomp, iface, details)
, hscRecompile = genericHscRecompile hscBatchCompiler
, hscBackend = genericHscBackend hscBatchCompiler
, hscGenBootOutput = \tc_result mod_summary mb_old_iface -> do
(iface, changed, details) <- hscSimpleIface tc_result mb_old_iface
hscWriteIface iface changed mod_summary
return (HscRecomp Nothing (), iface, details)
, hscGenOutput = \guts0 mod_summary mb_old_iface -> do
guts <- hscSimplify' guts0
(iface, changed, details, cgguts) <- hscNormalIface guts mb_old_iface
hscWriteIface iface changed mod_summary
hasStub <- hscGenHardCode cgguts mod_summary
return (HscRecomp hasStub (), iface, details)
}
-- | Compile Haskell, boot and extCore in batch mode.
hscCompileBatch :: Compiler (HscStatus, ModIface, ModDetails)
hscCompileBatch = genericHscCompile hscBatchCompiler batchMsg
hscBatchBackendOnly :: TcGblEnv -> Compiler BatchResult
hscBatchBackendOnly = hscCheckRecompBackend hscBatchCompiler
--------------------------------------------------------------
hscInteractiveCompiler :: HsCompiler InteractiveResult
hscInteractiveCompiler = HsCompiler {
hscNoRecomp = \iface -> do
details <- genModDetails iface
return (HscNoRecomp, iface, details)
, hscRecompile = genericHscRecompile hscInteractiveCompiler
, hscBackend = genericHscBackend hscInteractiveCompiler
, hscGenBootOutput = \tc_result _mod_summary mb_old_iface -> do
(iface, _changed, details) <- hscSimpleIface tc_result mb_old_iface
return (HscRecomp Nothing Nothing, iface, details)
, hscGenOutput = \guts0 mod_summary mb_old_iface -> do
guts <- hscSimplify' guts0
(iface, _changed, details, cgguts) <- hscNormalIface guts mb_old_iface
hscInteractive (iface, details, cgguts) mod_summary
}
-- Compile Haskell, extCore to bytecode.
hscCompileInteractive :: Compiler (InteractiveStatus, ModIface, ModDetails)
hscCompileInteractive = genericHscCompile hscInteractiveCompiler batchMsg
hscInteractiveBackendOnly :: TcGblEnv -> Compiler InteractiveResult
hscInteractiveBackendOnly = compilerBackend hscInteractiveCompiler
--------------------------------------------------------------
hscNothingCompiler :: HsCompiler NothingResult
hscNothingCompiler = HsCompiler {
hscNoRecomp = \iface -> do
details <- genModDetails iface
return (HscNoRecomp, iface, details)
, hscRecompile = genericHscRecompile hscNothingCompiler
, hscBackend = \tc_result _mod_summary mb_old_iface -> do
handleWarnings
(iface, _changed, details) <- hscSimpleIface tc_result mb_old_iface
return (HscRecomp Nothing (), iface, details)
, hscGenBootOutput = \_ _ _ ->
panic "hscCompileNothing: hscGenBootOutput should not be called"
, hscGenOutput = \_ _ _ ->
panic "hscCompileNothing: hscGenOutput should not be called"
}
-- Type-check Haskell and .hs-boot only (no external core)
hscCompileNothing :: Compiler (HscStatus, ModIface, ModDetails)
hscCompileNothing = genericHscCompile hscNothingCompiler batchMsg
hscNothingBackendOnly :: TcGblEnv -> Compiler NothingResult
hscNothingBackendOnly = compilerBackend hscNothingCompiler
--------------------------------------------------------------
-- NoRecomp handlers
--------------------------------------------------------------
genModDetails :: ModIface -> Hsc ModDetails
genModDetails old_iface
= do
hsc_env <- getHscEnv
new_details <- {-# SCC "tcRnIface" #-}
liftIO $ initIfaceCheck hsc_env (typecheckIface old_iface)
liftIO $ dumpIfaceStats hsc_env
return new_details
--------------------------------------------------------------
-- Progress displayers.
--------------------------------------------------------------
oneShotMsg :: HscEnv -> Maybe (Int,Int) -> RecompileRequired -> ModSummary
-> IO ()
oneShotMsg hsc_env _mb_mod_index recomp _mod_summary =
case recomp of
UpToDate ->
compilationProgressMsg (hsc_dflags hsc_env) $
"compilation IS NOT required"
_other ->
return ()
batchMsg :: HscEnv -> Maybe (Int,Int) -> RecompileRequired -> ModSummary
-> IO ()
batchMsg hsc_env mb_mod_index recomp mod_summary =
case recomp of
MustCompile -> showMsg "Compiling " ""
UpToDate
| verbosity (hsc_dflags hsc_env) >= 2 -> showMsg "Skipping " ""
| otherwise -> return ()
RecompBecause reason -> showMsg "Compiling " (" [" ++ reason ++ "]")
where
dflags = hsc_dflags hsc_env
showMsg msg reason =
compilationProgressMsg dflags $
(showModuleIndex mb_mod_index ++
msg ++ showModMsg dflags (hscTarget dflags)
(recompileRequired recomp) mod_summary)
++ reason
--------------------------------------------------------------
-- FrontEnds
--------------------------------------------------------------
hscFileFrontEnd :: ModSummary -> Hsc TcGblEnv
hscFileFrontEnd mod_summary = do
hpm <- hscParse' mod_summary
hsc_env <- getHscEnv
tcg_env <- tcRnModule' hsc_env mod_summary False hpm
return tcg_env
--------------------------------------------------------------
-- Safe Haskell
--------------------------------------------------------------
-- Note [Safe Haskell Trust Check]
-- ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
-- Safe Haskell checks that an import is trusted according to the following
-- rules for an import of module M that resides in Package P:
--
-- * If M is recorded as Safe and all its trust dependencies are OK
-- then M is considered safe.
-- * If M is recorded as Trustworthy and P is considered trusted and
-- all M's trust dependencies are OK then M is considered safe.
--
-- By trust dependencies we mean that the check is transitive. So if
-- a module M that is Safe relies on a module N that is trustworthy,
-- importing module M will first check (according to the second case)
-- that N is trusted before checking M is trusted.
--
-- This is a minimal description, so please refer to the user guide
-- for more details. The user guide is also considered the authoritative
-- source in this matter, not the comments or code.
-- Note [Safe Haskell Inference]
-- ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
-- Safe Haskell does Safe inference on modules that don't have any specific
-- safe haskell mode flag. The basic aproach to this is:
-- * When deciding if we need to do a Safe language check, treat
-- an unmarked module as having -XSafe mode specified.
-- * For checks, don't throw errors but return them to the caller.
-- * Caller checks if there are errors:
-- * For modules explicitly marked -XSafe, we throw the errors.
-- * For unmarked modules (inference mode), we drop the errors
-- and mark the module as being Unsafe.
-- | Check that the safe imports of the module being compiled are valid.
-- If not we either issue a compilation error if the module is explicitly
-- using Safe Haskell, or mark the module as unsafe if we're in safe
-- inference mode.
hscCheckSafeImports :: TcGblEnv -> Hsc TcGblEnv
hscCheckSafeImports tcg_env = do
dflags <- getDynFlags
tcg_env' <- checkSafeImports dflags tcg_env
case safeLanguageOn dflags of
True -> do
-- we nuke user written RULES in -XSafe
logWarnings $ warns dflags (tcg_rules tcg_env')
return tcg_env' { tcg_rules = [] }
False
-- user defined RULES, so not safe or already unsafe
| safeInferOn dflags && not (null $ tcg_rules tcg_env') ||
safeHaskell dflags == Sf_None
-> wipeTrust tcg_env' $ warns dflags (tcg_rules tcg_env')
-- trustworthy OR safe inferred with no RULES
| otherwise
-> return tcg_env'
where
warns dflags rules = listToBag $ map (warnRules dflags) rules
warnRules dflags (L loc (HsRule n _ _ _ _ _ _)) =
mkPlainWarnMsg dflags loc $
text "Rule \"" <> ftext n <> text "\" ignored" $+$
text "User defined rules are disabled under Safe Haskell"
-- | Validate that safe imported modules are actually safe. For modules in the
-- HomePackage (the package the module we are compiling in resides) this just
-- involves checking its trust type is 'Safe' or 'Trustworthy'. For modules
-- that reside in another package we also must check that the external pacakge
-- is trusted. See the Note [Safe Haskell Trust Check] above for more
-- information.
--
-- The code for this is quite tricky as the whole algorithm is done in a few
-- distinct phases in different parts of the code base. See
-- RnNames.rnImportDecl for where package trust dependencies for a module are
-- collected and unioned. Specifically see the Note [RnNames . Tracking Trust
-- Transitively] and the Note [RnNames . Trust Own Package].
checkSafeImports :: DynFlags -> TcGblEnv -> Hsc TcGblEnv
checkSafeImports dflags tcg_env
= do
-- We want to use the warning state specifically for detecting if safe
-- inference has failed, so store and clear any existing warnings.
oldErrs <- getWarnings
clearWarnings
imps <- mapM condense imports'
pkgs <- mapM checkSafe imps
-- grab any safe haskell specific errors and restore old warnings
errs <- getWarnings
clearWarnings
logWarnings oldErrs
-- See the Note [Safe Haskell Inference]
case (not $ isEmptyBag errs) of
-- We have errors!
True ->
-- did we fail safe inference or fail -XSafe?
case safeInferOn dflags of
True -> wipeTrust tcg_env errs
False -> liftIO . throwIO . mkSrcErr $ errs
-- All good matey!
False -> do
when (packageTrustOn dflags) $ checkPkgTrust dflags pkg_reqs
-- add in trusted package requirements for this module
let new_trust = emptyImportAvails { imp_trust_pkgs = catMaybes pkgs }
return tcg_env { tcg_imports = imp_info `plusImportAvails` new_trust }
where
imp_info = tcg_imports tcg_env -- ImportAvails
imports = imp_mods imp_info -- ImportedMods
imports' = moduleEnvToList imports -- (Module, [ImportedModsVal])
pkg_reqs = imp_trust_pkgs imp_info -- [PackageId]
condense :: (Module, [ImportedModsVal]) -> Hsc (Module, SrcSpan, IsSafeImport)
condense (_, []) = panic "HscMain.condense: Pattern match failure!"
condense (m, x:xs) = do (_,_,l,s) <- foldlM cond' x xs
-- we turn all imports into safe ones when
-- inference mode is on.
let s' = if safeInferOn dflags then True else s
return (m, l, s')
-- ImportedModsVal = (ModuleName, Bool, SrcSpan, IsSafeImport)
cond' :: ImportedModsVal -> ImportedModsVal -> Hsc ImportedModsVal
cond' v1@(m1,_,l1,s1) (_,_,_,s2)
| s1 /= s2
= throwErrors $ unitBag $ mkPlainErrMsg dflags l1
(text "Module" <+> ppr m1 <+>
(text $ "is imported both as a safe and unsafe import!"))
| otherwise
= return v1
-- easier interface to work with
checkSafe (_, _, False) = return Nothing
checkSafe (m, l, True ) = fst `fmap` hscCheckSafe' dflags m l
-- | Check that a module is safe to import.
--
-- We return True to indicate the import is safe and False otherwise
-- although in the False case an exception may be thrown first.
hscCheckSafe :: HscEnv -> Module -> SrcSpan -> IO Bool
hscCheckSafe hsc_env m l = runHsc hsc_env $ do
dflags <- getDynFlags
pkgs <- snd `fmap` hscCheckSafe' dflags m l
when (packageTrustOn dflags) $ checkPkgTrust dflags pkgs
errs <- getWarnings
return $ isEmptyBag errs
-- | Return if a module is trusted and the pkgs it depends on to be trusted.
hscGetSafe :: HscEnv -> Module -> SrcSpan -> IO (Bool, [PackageId])
hscGetSafe hsc_env m l = runHsc hsc_env $ do
dflags <- getDynFlags
(self, pkgs) <- hscCheckSafe' dflags m l
good <- isEmptyBag `fmap` getWarnings
clearWarnings -- don't want them printed...
let pkgs' | Just p <- self = p:pkgs
| otherwise = pkgs
return (good, pkgs')
-- | Is a module trusted? If not, throw or log errors depending on the type.
-- Return (regardless of trusted or not) if the trust type requires the modules
-- own package be trusted and a list of other packages required to be trusted
-- (these later ones haven't been checked) but the own package trust has been.
hscCheckSafe' :: DynFlags -> Module -> SrcSpan -> Hsc (Maybe PackageId, [PackageId])
hscCheckSafe' dflags m l = do
(tw, pkgs) <- isModSafe m l
case tw of
False -> return (Nothing, pkgs)
True | isHomePkg m -> return (Nothing, pkgs)
| otherwise -> return (Just $ modulePackageId m, pkgs)
where
isModSafe :: Module -> SrcSpan -> Hsc (Bool, [PackageId])
isModSafe m l = do
iface <- lookup' m
case iface of
-- can't load iface to check trust!
Nothing -> throwErrors $ unitBag $ mkPlainErrMsg dflags l
$ text "Can't load the interface file for" <+> ppr m
<> text ", to check that it can be safely imported"
-- got iface, check trust
Just iface' ->
let trust = getSafeMode $ mi_trust iface'
trust_own_pkg = mi_trust_pkg iface'
-- check module is trusted
safeM = trust `elem` [Sf_SafeInferred, Sf_Safe, Sf_Trustworthy]
-- check package is trusted
safeP = packageTrusted trust trust_own_pkg m
-- pkg trust reqs
pkgRs = map fst $ filter snd $ dep_pkgs $ mi_deps iface'
-- General errors we throw but Safe errors we log
errs = case (safeM, safeP) of
(True, True ) -> emptyBag
(True, False) -> pkgTrustErr
(False, _ ) -> modTrustErr
in do
logWarnings errs
return (trust == Sf_Trustworthy, pkgRs)
where
pkgTrustErr = unitBag $ mkPlainErrMsg dflags l $
sep [ ppr (moduleName m)
<> text ": Can't be safely imported!"
, text "The package (" <> ppr (modulePackageId m)
<> text ") the module resides in isn't trusted."
]
modTrustErr = unitBag $ mkPlainErrMsg dflags l $
sep [ ppr (moduleName m)
<> text ": Can't be safely imported!"
, text "The module itself isn't safe." ]
-- | Check the package a module resides in is trusted. Safe compiled
-- modules are trusted without requiring that their package is trusted. For
-- trustworthy modules, modules in the home package are trusted but
-- otherwise we check the package trust flag.
packageTrusted :: SafeHaskellMode -> Bool -> Module -> Bool
packageTrusted Sf_None _ _ = False -- shouldn't hit these cases
packageTrusted Sf_Unsafe _ _ = False -- prefer for completeness.
packageTrusted _ _ _
| not (packageTrustOn dflags) = True
packageTrusted Sf_Safe False _ = True
packageTrusted Sf_SafeInferred False _ = True
packageTrusted _ _ m
| isHomePkg m = True
| otherwise = trusted $ getPackageDetails (pkgState dflags)
(modulePackageId m)
lookup' :: Module -> Hsc (Maybe ModIface)
lookup' m = do
hsc_env <- getHscEnv
hsc_eps <- liftIO $ hscEPS hsc_env
let pkgIfaceT = eps_PIT hsc_eps
homePkgT = hsc_HPT hsc_env
iface = lookupIfaceByModule dflags homePkgT pkgIfaceT m
#ifdef GHCI
-- the 'lookupIfaceByModule' method will always fail when calling from GHCi
-- as the compiler hasn't filled in the various module tables
-- so we need to call 'getModuleInterface' to load from disk
iface' <- case iface of
Just _ -> return iface
Nothing -> snd `fmap` (liftIO $ getModuleInterface hsc_env m)
return iface'
#else
return iface
#endif
isHomePkg :: Module -> Bool
isHomePkg m
| thisPackage dflags == modulePackageId m = True
| otherwise = False
-- | Check the list of packages are trusted.
checkPkgTrust :: DynFlags -> [PackageId] -> Hsc ()
checkPkgTrust dflags pkgs =
case errors of
[] -> return ()
_ -> (liftIO . throwIO . mkSrcErr . listToBag) errors
where
errors = catMaybes $ map go pkgs
go pkg
| trusted $ getPackageDetails (pkgState dflags) pkg
= Nothing
| otherwise
= Just $ mkPlainErrMsg dflags noSrcSpan
$ text "The package (" <> ppr pkg <> text ") is required" <>
text " to be trusted but it isn't!"
-- | Set module to unsafe and wipe trust information.
--
-- Make sure to call this method to set a module to inferred unsafe,
-- it should be a central and single failure method.
wipeTrust :: TcGblEnv -> WarningMessages -> Hsc TcGblEnv
wipeTrust tcg_env whyUnsafe = do
dflags <- getDynFlags
when (wopt Opt_WarnUnsafe dflags)
(logWarnings $ unitBag $
mkPlainWarnMsg dflags (warnUnsafeOnLoc dflags) (whyUnsafe' dflags))
liftIO $ writeIORef (tcg_safeInfer tcg_env) False
return $ tcg_env { tcg_imports = wiped_trust }
where
wiped_trust = (tcg_imports tcg_env) { imp_trust_pkgs = [] }
pprMod = ppr $ moduleName $ tcg_mod tcg_env
whyUnsafe' df = vcat [ quotes pprMod <+> text "has been inferred as unsafe!"
, text "Reason:"
, nest 4 $ (vcat $ badFlags df) $+$
(vcat $ pprErrMsgBagWithLoc whyUnsafe)
]
badFlags df = concat $ map (badFlag df) unsafeFlags
badFlag df (str,loc,on,_)
| on df = [mkLocMessage SevOutput (loc df) $
text str <+> text "is not allowed in Safe Haskell"]
| otherwise = []
-- | Figure out the final correct safe haskell mode
hscGetSafeMode :: TcGblEnv -> Hsc SafeHaskellMode
hscGetSafeMode tcg_env = do
dflags <- getDynFlags
liftIO $ finalSafeMode dflags tcg_env
--------------------------------------------------------------
-- Simplifiers
--------------------------------------------------------------
hscSimplify :: HscEnv -> ModGuts -> IO ModGuts
hscSimplify hsc_env modguts = runHsc hsc_env $ hscSimplify' modguts
hscSimplify' :: ModGuts -> Hsc ModGuts
hscSimplify' ds_result = do
hsc_env <- getHscEnv
{-# SCC "Core2Core" #-}
liftIO $ core2core hsc_env ds_result
--------------------------------------------------------------
-- Interface generators
--------------------------------------------------------------
hscSimpleIface :: TcGblEnv
-> Maybe Fingerprint
-> Hsc (ModIface, Bool, ModDetails)
hscSimpleIface tc_result mb_old_iface = do
hsc_env <- getHscEnv
details <- liftIO $ mkBootModDetailsTc hsc_env tc_result
safe_mode <- hscGetSafeMode tc_result
(new_iface, no_change)
<- {-# SCC "MkFinalIface" #-}
ioMsgMaybe $
mkIfaceTc hsc_env mb_old_iface safe_mode details tc_result
-- And the answer is ...
liftIO $ dumpIfaceStats hsc_env
return (new_iface, no_change, details)
hscNormalIface :: ModGuts
-> Maybe Fingerprint
-> Hsc (ModIface, Bool, ModDetails, CgGuts)
hscNormalIface simpl_result mb_old_iface = do
hsc_env <- getHscEnv
(cg_guts, details) <- {-# SCC "CoreTidy" #-}
liftIO $ tidyProgram hsc_env simpl_result
-- BUILD THE NEW ModIface and ModDetails
-- and emit external core if necessary
-- This has to happen *after* code gen so that the back-end
-- info has been set. Not yet clear if it matters waiting
-- until after code output
(new_iface, no_change)
<- {-# SCC "MkFinalIface" #-}
ioMsgMaybe $
mkIface hsc_env mb_old_iface details simpl_result
-- Emit external core
-- This should definitely be here and not after CorePrep,
-- because CorePrep produces unqualified constructor wrapper declarations,
-- so its output isn't valid External Core (without some preprocessing).
liftIO $ emitExternalCore (hsc_dflags hsc_env) cg_guts
liftIO $ dumpIfaceStats hsc_env
-- Return the prepared code.
return (new_iface, no_change, details, cg_guts)
--------------------------------------------------------------
-- BackEnd combinators
--------------------------------------------------------------
hscWriteIface :: ModIface -> Bool -> ModSummary -> Hsc ()
hscWriteIface iface no_change mod_summary = do
dflags <- getDynFlags
unless no_change $
{-# SCC "writeIface" #-}
liftIO $ writeIfaceFile dflags (ms_location mod_summary) iface
-- | Compile to hard-code.
hscGenHardCode :: CgGuts -> ModSummary
-> Hsc (Maybe FilePath) -- ^ @Just f@ <=> _stub.c is f
hscGenHardCode cgguts mod_summary = do
hsc_env <- getHscEnv
liftIO $ do
let CgGuts{ -- This is the last use of the ModGuts in a compilation.
-- From now on, we just use the bits we need.
cg_module = this_mod,
cg_binds = core_binds,
cg_tycons = tycons,
cg_foreign = foreign_stubs0,
cg_dep_pkgs = dependencies,
cg_hpc_info = hpc_info } = cgguts
dflags = hsc_dflags hsc_env
location = ms_location mod_summary
data_tycons = filter isDataTyCon tycons
-- cg_tycons includes newtypes, for the benefit of External Core,
-- but we don't generate any code for newtypes
-------------------
-- PREPARE FOR CODE GENERATION
-- Do saturation and convert to A-normal form
prepd_binds <- {-# SCC "CorePrep" #-}
corePrepPgm dflags hsc_env core_binds data_tycons ;
----------------- Convert to STG ------------------
(stg_binds, cost_centre_info)
<- {-# SCC "CoreToStg" #-}
myCoreToStg dflags this_mod prepd_binds
let prof_init = profilingInitCode this_mod cost_centre_info
foreign_stubs = foreign_stubs0 `appendStubC` prof_init
------------------ Code generation ------------------
cmms <- {-# SCC "NewCodeGen" #-}
tryNewCodeGen hsc_env this_mod data_tycons
cost_centre_info
stg_binds hpc_info
------------------ Code output -----------------------
rawcmms0 <- {-# SCC "cmmToRawCmm" #-}
cmmToRawCmm dflags cmms
let dump a = do dumpIfSet_dyn dflags Opt_D_dump_raw_cmm "Raw Cmm"
(ppr a)
return a
rawcmms1 = Stream.mapM dump rawcmms0
(_stub_h_exists, stub_c_exists)
<- {-# SCC "codeOutput" #-}
codeOutput dflags this_mod location foreign_stubs
dependencies rawcmms1
return stub_c_exists
hscInteractive :: (ModIface, ModDetails, CgGuts)
-> ModSummary
-> Hsc (InteractiveStatus, ModIface, ModDetails)
#ifdef GHCI
hscInteractive (iface, details, cgguts) mod_summary = do
dflags <- getDynFlags
let CgGuts{ -- This is the last use of the ModGuts in a compilation.
-- From now on, we just use the bits we need.
cg_module = this_mod,
cg_binds = core_binds,
cg_tycons = tycons,
cg_foreign = foreign_stubs,
cg_modBreaks = mod_breaks } = cgguts
location = ms_location mod_summary
data_tycons = filter isDataTyCon tycons
-- cg_tycons includes newtypes, for the benefit of External Core,
-- but we don't generate any code for newtypes
-------------------
-- PREPARE FOR CODE GENERATION
-- Do saturation and convert to A-normal form
hsc_env <- getHscEnv
prepd_binds <- {-# SCC "CorePrep" #-}
liftIO $ corePrepPgm dflags hsc_env core_binds data_tycons
----------------- Generate byte code ------------------
comp_bc <- liftIO $ byteCodeGen dflags this_mod prepd_binds
data_tycons mod_breaks
------------------ Create f-x-dynamic C-side stuff ---
(_istub_h_exists, istub_c_exists)
<- liftIO $ outputForeignStubs dflags this_mod
location foreign_stubs
return (HscRecomp istub_c_exists (Just (comp_bc, mod_breaks))
, iface, details)
#else
hscInteractive _ _ = panic "GHC not compiled with interpreter"
#endif
------------------------------
hscCompileCmmFile :: HscEnv -> FilePath -> IO ()
hscCompileCmmFile hsc_env filename = runHsc hsc_env $ do
let dflags = hsc_dflags hsc_env
cmm <- ioMsgMaybe $ parseCmmFile dflags filename
liftIO $ do
rawCmms <- cmmToRawCmm dflags (Stream.yield cmm)
_ <- codeOutput dflags no_mod no_loc NoStubs [] rawCmms
return ()
where
no_mod = panic "hscCmmFile: no_mod"
no_loc = ModLocation{ ml_hs_file = Just filename,
ml_hi_file = panic "hscCmmFile: no hi file",
ml_obj_file = panic "hscCmmFile: no obj file" }
-------------------- Stuff for new code gen ---------------------
tryNewCodeGen :: HscEnv -> Module -> [TyCon]
-> CollectedCCs
-> [StgBinding]
-> HpcInfo
-> IO (Stream IO Old.CmmGroup ())
-- Note we produce a 'Stream' of CmmGroups, so that the
-- backend can be run incrementally. Otherwise it generates all
-- the C-- up front, which has a significant space cost.
tryNewCodeGen hsc_env this_mod data_tycons
cost_centre_info stg_binds hpc_info = do
let dflags = hsc_dflags hsc_env
let cmm_stream :: Stream IO New.CmmGroup ()
cmm_stream = {-# SCC "StgCmm" #-}
StgCmm.codeGen dflags this_mod data_tycons
cost_centre_info stg_binds hpc_info
-- codegen consumes a stream of CmmGroup, and produces a new
-- stream of CmmGroup (not necessarily synchronised: one
-- CmmGroup on input may produce many CmmGroups on output due
-- to proc-point splitting).
let dump1 a = do dumpIfSet_dyn dflags Opt_D_dump_cmmz
"Cmm produced by new codegen" (ppr a)
return a
ppr_stream1 = Stream.mapM dump1 cmm_stream
-- We are building a single SRT for the entire module, so
-- we must thread it through all the procedures as we cps-convert them.
us <- mkSplitUniqSupply 'S'
-- When splitting, we generate one SRT per split chunk, otherwise
-- we generate one SRT for the whole module.
let
pipeline_stream
| dopt Opt_SplitObjs dflags
= {-# SCC "cmmPipeline" #-}
let run_pipeline us cmmgroup = do
let (topSRT', us') = initUs us emptySRT
(topSRT, cmmgroup) <- cmmPipeline hsc_env topSRT' cmmgroup
let srt | isEmptySRT topSRT = []
| otherwise = srtToData topSRT
return (us',cmmOfZgraph (srt ++ cmmgroup))
in do _ <- Stream.mapAccumL run_pipeline us ppr_stream1
return ()
| otherwise
= {-# SCC "cmmPipeline" #-}
let initTopSRT = initUs_ us emptySRT in
let run_pipeline topSRT cmmgroup = do
(topSRT, cmmgroup) <- cmmPipeline hsc_env topSRT cmmgroup
return (topSRT,cmmOfZgraph cmmgroup)
in do topSRT <- Stream.mapAccumL run_pipeline initTopSRT ppr_stream1
Stream.yield (cmmOfZgraph (srtToData topSRT))
let
dump2 a = do dumpIfSet_dyn dflags Opt_D_dump_cmmz "Output Cmm" $ ppr a
return a
ppr_stream2 = Stream.mapM dump2 pipeline_stream
return ppr_stream2
myCoreToStg :: DynFlags -> Module -> CoreProgram
-> IO ( [StgBinding] -- output program
, CollectedCCs) -- cost centre info (declared and used)
myCoreToStg dflags this_mod prepd_binds = do
stg_binds
<- {-# SCC "Core2Stg" #-}
coreToStg dflags prepd_binds
(stg_binds2, cost_centre_info)
<- {-# SCC "Stg2Stg" #-}
stg2stg dflags this_mod stg_binds
return (stg_binds2, cost_centre_info)
{- **********************************************************************
%* *
\subsection{Compiling a do-statement}
%* *
%********************************************************************* -}
{-
When the UnlinkedBCOExpr is linked you get an HValue of type *IO [HValue]* When
you run it you get a list of HValues that should be the same length as the list
of names; add them to the ClosureEnv.
A naked expression returns a singleton Name [it]. The stmt is lifted into the
IO monad as explained in Note [Interactively-bound Ids in GHCi] in TcRnDriver
-}
#ifdef GHCI
-- | Compile a stmt all the way to an HValue, but don't run it
--
-- We return Nothing to indicate an empty statement (or comment only), not a
-- parse error.
hscStmt :: HscEnv -> String -> IO (Maybe ([Id], IO [HValue], FixityEnv))
hscStmt hsc_env stmt = hscStmtWithLocation hsc_env stmt "<interactive>" 1
-- | Compile a stmt all the way to an HValue, but don't run it
--
-- We return Nothing to indicate an empty statement (or comment only), not a
-- parse error.
hscStmtWithLocation :: HscEnv
-> String -- ^ The statement
-> String -- ^ The source
-> Int -- ^ Starting line
-> IO (Maybe ([Id], IO [HValue], FixityEnv))
hscStmtWithLocation hsc_env0 stmt source linenumber =
runInteractiveHsc hsc_env0 $ do
hsc_env <- getHscEnv
maybe_stmt <- hscParseStmtWithLocation source linenumber stmt
case maybe_stmt of
Nothing -> return Nothing
Just parsed_stmt -> do
let icntxt = hsc_IC hsc_env
rdr_env = ic_rn_gbl_env icntxt
type_env = mkTypeEnvWithImplicits (ic_tythings icntxt)
src_span = srcLocSpan interactiveSrcLoc
-- Rename and typecheck it
-- Here we lift the stmt into the IO monad, see Note
-- [Interactively-bound Ids in GHCi] in TcRnDriver
(ids, tc_expr, fix_env) <- ioMsgMaybe $ tcRnStmt hsc_env icntxt parsed_stmt
-- Desugar it
ds_expr <- ioMsgMaybe $
deSugarExpr hsc_env iNTERACTIVE rdr_env type_env tc_expr
handleWarnings
-- Then code-gen, and link it
hsc_env <- getHscEnv
hval <- liftIO $ hscCompileCoreExpr hsc_env src_span ds_expr
let hval_io = unsafeCoerce# hval :: IO [HValue]
return $ Just (ids, hval_io, fix_env)
-- | Compile a decls
hscDecls :: HscEnv
-> String -- ^ The statement
-> IO ([TyThing], InteractiveContext)
hscDecls hsc_env str = hscDeclsWithLocation hsc_env str "<interactive>" 1
-- | Compile a decls
hscDeclsWithLocation :: HscEnv
-> String -- ^ The statement
-> String -- ^ The source
-> Int -- ^ Starting line
-> IO ([TyThing], InteractiveContext)
hscDeclsWithLocation hsc_env0 str source linenumber =
runInteractiveHsc hsc_env0 $ do
hsc_env <- getHscEnv
L _ (HsModule{ hsmodDecls = decls }) <-
hscParseThingWithLocation source linenumber parseModule str
{- Rename and typecheck it -}
let icontext = hsc_IC hsc_env
tc_gblenv <- ioMsgMaybe $ tcRnDeclsi hsc_env icontext decls
{- Grab the new instances -}
-- We grab the whole environment because of the overlapping that may have
-- been done. See the notes at the definition of InteractiveContext
-- (ic_instances) for more details.
let finsts = tcg_fam_insts tc_gblenv
insts = tcg_insts tc_gblenv
let defaults = tcg_default tc_gblenv
{- Desugar it -}
-- We use a basically null location for iNTERACTIVE
let iNTERACTIVELoc = ModLocation{ ml_hs_file = Nothing,
ml_hi_file = panic "hsDeclsWithLocation:ml_hi_file",
ml_obj_file = panic "hsDeclsWithLocation:ml_hi_file"}
ds_result <- hscDesugar' iNTERACTIVELoc tc_gblenv
{- Simplify -}
simpl_mg <- liftIO $ hscSimplify hsc_env ds_result
{- Tidy -}
(tidy_cg, _mod_details) <- liftIO $ tidyProgram hsc_env simpl_mg
let dflags = hsc_dflags hsc_env
!CgGuts{ cg_module = this_mod,
cg_binds = core_binds,
cg_tycons = tycons,
cg_modBreaks = mod_breaks } = tidy_cg
data_tycons = filter isDataTyCon tycons
{- Prepare For Code Generation -}
-- Do saturation and convert to A-normal form
prepd_binds <- {-# SCC "CorePrep" #-}
liftIO $ corePrepPgm dflags hsc_env core_binds data_tycons
{- Generate byte code -}
cbc <- liftIO $ byteCodeGen dflags this_mod
prepd_binds data_tycons mod_breaks
let src_span = srcLocSpan interactiveSrcLoc
hsc_env <- getHscEnv
liftIO $ linkDecls hsc_env src_span cbc
let tcs = filter (not . isImplicitTyCon) $ (mg_tcs simpl_mg)
ext_vars = filter (isExternalName . idName) $
bindersOfBinds core_binds
(sys_vars, user_vars) = partition is_sys_var ext_vars
is_sys_var id = isDFunId id
|| isRecordSelector id
|| isJust (isClassOpId_maybe id)
-- we only need to keep around the external bindings
-- (as decided by TidyPgm), since those are the only ones
-- that might be referenced elsewhere.
tythings = map AnId user_vars
++ map ATyCon tcs
let ictxt1 = extendInteractiveContext icontext tythings
ictxt = ictxt1 { ic_sys_vars = sys_vars ++ ic_sys_vars ictxt1,
ic_instances = (insts, finsts),
ic_default = defaults }
return (tythings, ictxt)
hscImport :: HscEnv -> String -> IO (ImportDecl RdrName)
hscImport hsc_env str = runInteractiveHsc hsc_env $ do
(L _ (HsModule{hsmodImports=is})) <-
hscParseThing parseModule str
case is of
[i] -> return (unLoc i)
_ -> liftIO $ throwOneError $
mkPlainErrMsg (hsc_dflags hsc_env) noSrcSpan $
ptext (sLit "parse error in import declaration")
-- | Typecheck an expression (but don't run it)
hscTcExpr :: HscEnv
-> String -- ^ The expression
-> IO Type
hscTcExpr hsc_env0 expr = runInteractiveHsc hsc_env0 $ do
hsc_env <- getHscEnv
maybe_stmt <- hscParseStmt expr
case maybe_stmt of
Just (L _ (ExprStmt expr _ _ _)) ->
ioMsgMaybe $ tcRnExpr hsc_env (hsc_IC hsc_env) expr
_ ->
throwErrors $ unitBag $ mkPlainErrMsg (hsc_dflags hsc_env) noSrcSpan
(text "not an expression:" <+> quotes (text expr))
-- | Find the kind of a type
hscKcType
:: HscEnv
-> Bool -- ^ Normalise the type
-> String -- ^ The type as a string
-> IO (Type, Kind) -- ^ Resulting type (possibly normalised) and kind
hscKcType hsc_env0 normalise str = runInteractiveHsc hsc_env0 $ do
hsc_env <- getHscEnv
ty <- hscParseType str
ioMsgMaybe $ tcRnType hsc_env (hsc_IC hsc_env) normalise ty
hscParseStmt :: String -> Hsc (Maybe (LStmt RdrName))
hscParseStmt = hscParseThing parseStmt
hscParseStmtWithLocation :: String -> Int -> String
-> Hsc (Maybe (LStmt RdrName))
hscParseStmtWithLocation source linenumber stmt =
hscParseThingWithLocation source linenumber parseStmt stmt
hscParseType :: String -> Hsc (LHsType RdrName)
hscParseType = hscParseThing parseType
#endif
hscParseIdentifier :: HscEnv -> String -> IO (Located RdrName)
hscParseIdentifier hsc_env str =
runInteractiveHsc hsc_env $ hscParseThing parseIdentifier str
hscParseThing :: (Outputable thing) => Lexer.P thing -> String -> Hsc thing
hscParseThing = hscParseThingWithLocation "<interactive>" 1
hscParseThingWithLocation :: (Outputable thing) => String -> Int
-> Lexer.P thing -> String -> Hsc thing
hscParseThingWithLocation source linenumber parser str
= {-# SCC "Parser" #-} do
dflags <- getDynFlags
liftIO $ showPass dflags "Parser"
let buf = stringToStringBuffer str
loc = mkRealSrcLoc (fsLit source) linenumber 1
case unP parser (mkPState dflags buf loc) of
PFailed span err -> do
let msg = mkPlainErrMsg dflags span err
throwErrors $ unitBag msg
POk pst thing -> do
logWarningsReportErrors (getMessages pst)
liftIO $ dumpIfSet_dyn dflags Opt_D_dump_parsed "Parser" (ppr thing)
return thing
hscCompileCore :: HscEnv -> Bool -> SafeHaskellMode -> ModSummary
-> CoreProgram -> IO ()
hscCompileCore hsc_env simplify safe_mode mod_summary binds
= runHsc hsc_env $ do
guts <- maybe_simplify (mkModGuts (ms_mod mod_summary) safe_mode binds)
(iface, changed, _details, cgguts) <- hscNormalIface guts Nothing
hscWriteIface iface changed mod_summary
_ <- hscGenHardCode cgguts mod_summary
return ()
where
maybe_simplify mod_guts | simplify = hscSimplify' mod_guts
| otherwise = return mod_guts
-- Makes a "vanilla" ModGuts.
mkModGuts :: Module -> SafeHaskellMode -> CoreProgram -> ModGuts
mkModGuts mod safe binds =
ModGuts {
mg_module = mod,
mg_boot = False,
mg_exports = [],
mg_deps = noDependencies,
mg_dir_imps = emptyModuleEnv,
mg_used_names = emptyNameSet,
mg_used_th = False,
mg_rdr_env = emptyGlobalRdrEnv,
mg_fix_env = emptyFixityEnv,
mg_tcs = [],
mg_insts = [],
mg_fam_insts = [],
mg_rules = [],
mg_vect_decls = [],
mg_binds = binds,
mg_foreign = NoStubs,
mg_warns = NoWarnings,
mg_anns = [],
mg_hpc_info = emptyHpcInfo False,
mg_modBreaks = emptyModBreaks,
mg_vect_info = noVectInfo,
mg_inst_env = emptyInstEnv,
mg_fam_inst_env = emptyFamInstEnv,
mg_safe_haskell = safe,
mg_trust_pkg = False,
mg_dependent_files = []
}
{- **********************************************************************
%* *
Desugar, simplify, convert to bytecode, and link an expression
%* *
%********************************************************************* -}
#ifdef GHCI
hscCompileCoreExpr :: HscEnv -> SrcSpan -> CoreExpr -> IO HValue
hscCompileCoreExpr hsc_env srcspan ds_expr
| rtsIsProfiled
= throwIO (InstallationError "You can't call hscCompileCoreExpr in a profiled compiler")
-- Otherwise you get a seg-fault when you run it
| otherwise = do
let dflags = hsc_dflags hsc_env
let lint_on = dopt Opt_DoCoreLinting dflags
{- Simplify it -}
simpl_expr <- simplifyExpr dflags ds_expr
{- Tidy it (temporary, until coreSat does cloning) -}
let tidy_expr = tidyExpr emptyTidyEnv simpl_expr
{- Prepare for codegen -}
prepd_expr <- corePrepExpr dflags hsc_env tidy_expr
{- Lint if necessary -}
-- ToDo: improve SrcLoc
when lint_on $
let ictxt = hsc_IC hsc_env
te = mkTypeEnvWithImplicits (ic_tythings ictxt ++ map AnId (ic_sys_vars ictxt))
tyvars = varSetElems $ tyThingsTyVars $ typeEnvElts $ te
vars = typeEnvIds te
in case lintUnfolding noSrcLoc (tyvars ++ vars) prepd_expr of
Just err -> pprPanic "hscCompileCoreExpr" err
Nothing -> return ()
{- Convert to BCOs -}
bcos <- coreExprToBCOs dflags iNTERACTIVE prepd_expr
{- link it -}
hval <- linkExpr hsc_env srcspan bcos
return hval
#endif
{- **********************************************************************
%* *
Statistics on reading interfaces
%* *
%********************************************************************* -}
dumpIfaceStats :: HscEnv -> IO ()
dumpIfaceStats hsc_env = do
eps <- readIORef (hsc_EPS hsc_env)
dumpIfSet dflags (dump_if_trace || dump_rn_stats)
"Interface statistics"
(ifaceStats eps)
where
dflags = hsc_dflags hsc_env
dump_rn_stats = dopt Opt_D_dump_rn_stats dflags
dump_if_trace = dopt Opt_D_dump_if_trace dflags
{- **********************************************************************
%* *
Progress Messages: Module i of n
%* *
%********************************************************************* -}
showModuleIndex :: Maybe (Int, Int) -> String
showModuleIndex Nothing = ""
showModuleIndex (Just (i,n)) = "[" ++ padded ++ " of " ++ n_str ++ "] "
where
n_str = show n
i_str = show i
padded = replicate (length n_str - length i_str) ' ' ++ i_str
|