ghcide-1.6.0.0: src/Development/IDE/Core/Compile.hs
-- Copyright (c) 2019 The DAML Authors. All rights reserved.
-- SPDX-License-Identifier: Apache-2.0
{-# LANGUAGE CPP #-}
{-# LANGUAGE GADTs #-}
{-# LANGUAGE RankNTypes #-}
-- | Based on https://ghc.haskell.org/trac/ghc/wiki/Commentary/Compiler/API.
-- Given a list of paths to find libraries, and a file to compile, produce a list of 'CoreModule' values.
module Development.IDE.Core.Compile
( TcModuleResult(..)
, RunSimplifier(..)
, compileModule
, parseModule
, typecheckModule
, computePackageDeps
, addRelativeImport
, mkHiFileResultCompile
, mkHiFileResultNoCompile
, generateObjectCode
, generateByteCode
, generateHieAsts
, writeAndIndexHieFile
, indexHieFile
, writeHiFile
, getModSummaryFromImports
, loadHieFile
, loadInterface
, loadModulesHome
, getDocsBatch
, lookupName
,mergeEnvs) where
import Development.IDE.Core.Preprocessor
import Development.IDE.Core.RuleTypes
import Development.IDE.Core.Shake
import Development.IDE.GHC.Error
import Development.IDE.GHC.Orphans ()
import Development.IDE.GHC.Util
import Development.IDE.GHC.Warnings
import Development.IDE.Spans.Common
import Development.IDE.Types.Diagnostics
import Development.IDE.Types.Location
import Development.IDE.Types.Options
import Development.IDE.GHC.Compat hiding (loadInterface,
parseHeader, parseModule,
tcRnModule, writeHieFile)
import qualified Development.IDE.GHC.Compat as Compat
import qualified Development.IDE.GHC.Compat as GHC
import qualified Development.IDE.GHC.Compat.Util as Util
import HieDb
import Language.LSP.Types (DiagnosticTag (..))
#if MIN_VERSION_ghc(8,10,0)
import Control.DeepSeq (force, liftRnf, rnf, rwhnf)
#else
import Control.DeepSeq (liftRnf, rnf, rwhnf)
import ErrUtils
#endif
#if MIN_VERSION_ghc(9,0,1)
import GHC.Tc.Gen.Splice
#else
import TcSplice
#endif
#if MIN_VERSION_ghc(9,2,0)
import qualified GHC.Types.Error as Error
#endif
import Control.Exception (evaluate)
import Control.Exception.Safe
import Control.Lens hiding (List)
import Control.Monad.Except
import Control.Monad.Extra
import Control.Monad.Trans.Except
import Data.Bifunctor (first, second)
import qualified Data.ByteString as BS
import qualified Data.DList as DL
import Data.IORef
import qualified Data.IntMap.Strict as IntMap
import Data.List.Extra
import qualified Data.Map.Strict as Map
import Data.Maybe
import qualified Data.Text as T
import Data.Time (UTCTime, getCurrentTime)
import qualified GHC.LanguageExtensions as LangExt
import System.Directory
import System.FilePath
import System.IO.Extra (fixIO, newTempFileWithin)
-- GHC API imports
-- GHC API imports
import GHC (GetDocsFailure (..),
mgModSummaries,
parsedSource)
import Control.Concurrent.Extra
import Control.Concurrent.STM.Stats hiding (orElse)
import Data.Aeson (toJSON)
import Data.Binary
import Data.Coerce
import Data.Functor
import qualified Data.HashMap.Strict as HashMap
import Data.IntMap (IntMap)
import Data.Map (Map)
import Data.Tuple.Extra (dupe)
import Data.Unique as Unique
import Development.IDE.Core.Tracing (withTrace)
import Development.IDE.GHC.Compat.Util (emptyUDFM, plusUDFM_C)
import qualified Language.LSP.Server as LSP
import qualified Language.LSP.Types as LSP
import Unsafe.Coerce
-- | Given a string buffer, return the string (after preprocessing) and the 'ParsedModule'.
parseModule
:: IdeOptions
-> HscEnv
-> FilePath
-> ModSummary
-> IO (IdeResult ParsedModule)
parseModule IdeOptions{..} env filename ms =
fmap (either (, Nothing) id) $
runExceptT $ do
(diag, modu) <- parseFileContents env optPreprocessor filename ms
return (diag, Just modu)
-- | Given a package identifier, what packages does it depend on
computePackageDeps
:: HscEnv
-> Unit
-> IO (Either [FileDiagnostic] [UnitId])
computePackageDeps env pkg = do
case lookupUnit env pkg of
Nothing -> return $ Left [ideErrorText (toNormalizedFilePath' noFilePath) $
T.pack $ "unknown package: " ++ show pkg]
Just pkgInfo -> return $ Right $ unitDepends pkgInfo
typecheckModule :: IdeDefer
-> HscEnv
-> [Linkable] -- ^ linkables not to unload
-> ParsedModule
-> IO (IdeResult TcModuleResult)
typecheckModule (IdeDefer defer) hsc keep_lbls pm = do
let modSummary = pm_mod_summary pm
dflags = ms_hspp_opts modSummary
mmodSummary' <- catchSrcErrors (hsc_dflags hsc) "typecheck (initialize plugins)"
(initPlugins hsc modSummary)
case mmodSummary' of
Left errs -> return (errs, Nothing)
Right modSummary' -> do
(warnings, etcm) <- withWarnings "typecheck" $ \tweak ->
let
session = tweak (hscSetFlags dflags hsc)
-- TODO: maybe settings ms_hspp_opts is unnecessary?
mod_summary'' = modSummary' { ms_hspp_opts = hsc_dflags session}
in
catchSrcErrors (hsc_dflags hsc) "typecheck" $ do
tcRnModule session keep_lbls $ demoteIfDefer pm{pm_mod_summary = mod_summary''}
let errorPipeline = unDefer . hideDiag dflags . tagDiag
diags = map errorPipeline warnings
deferedError = any fst diags
case etcm of
Left errs -> return (map snd diags ++ errs, Nothing)
Right tcm -> return (map snd diags, Just $ tcm{tmrDeferedError = deferedError})
where
demoteIfDefer = if defer then demoteTypeErrorsToWarnings else id
-- | Add a Hook to the DynFlags which captures and returns the
-- typechecked splices before they are run. This information
-- is used for hover.
captureSplices :: HscEnv -> (HscEnv -> IO a) -> IO (a, Splices)
captureSplices env k = do
splice_ref <- newIORef mempty
res <- k (hscSetHooks (addSpliceHook splice_ref (hsc_hooks env)) env)
splices <- readIORef splice_ref
return (res, splices)
where
addSpliceHook :: IORef Splices -> Hooks -> Hooks
addSpliceHook var h = h { runMetaHook = Just (splice_hook (runMetaHook h) var) }
splice_hook :: Maybe (MetaHook TcM) -> IORef Splices -> MetaHook TcM
splice_hook (fromMaybe defaultRunMeta -> hook) var metaReq e = case metaReq of
(MetaE f) -> do
expr' <- metaRequestE hook e
liftIO $ modifyIORef' var $ exprSplicesL %~ ((e, expr') :)
pure $ f expr'
(MetaP f) -> do
pat' <- metaRequestP hook e
liftIO $ modifyIORef' var $ patSplicesL %~ ((e, pat') :)
pure $ f pat'
(MetaT f) -> do
type' <- metaRequestT hook e
liftIO $ modifyIORef' var $ typeSplicesL %~ ((e, type') :)
pure $ f type'
(MetaD f) -> do
decl' <- metaRequestD hook e
liftIO $ modifyIORef' var $ declSplicesL %~ ((e, decl') :)
pure $ f decl'
(MetaAW f) -> do
aw' <- metaRequestAW hook e
liftIO $ modifyIORef' var $ awSplicesL %~ ((e, aw') :)
pure $ f aw'
tcRnModule :: HscEnv -> [Linkable] -> ParsedModule -> IO TcModuleResult
tcRnModule hsc_env keep_lbls pmod = do
let ms = pm_mod_summary pmod
hsc_env_tmp = hscSetFlags (ms_hspp_opts ms) hsc_env
unload hsc_env_tmp keep_lbls
((tc_gbl_env, mrn_info), splices)
<- liftIO $ captureSplices hsc_env_tmp $ \hsc_env_tmp ->
do hscTypecheckRename hsc_env_tmp ms $
HsParsedModule { hpm_module = parsedSource pmod,
hpm_src_files = pm_extra_src_files pmod,
hpm_annotations = pm_annotations pmod }
let rn_info = case mrn_info of
Just x -> x
Nothing -> error "no renamed info tcRnModule"
pure (TcModuleResult pmod rn_info tc_gbl_env splices False)
mkHiFileResultNoCompile :: HscEnv -> TcModuleResult -> IO HiFileResult
mkHiFileResultNoCompile session tcm = do
let hsc_env_tmp = hscSetFlags (ms_hspp_opts ms) session
ms = pm_mod_summary $ tmrParsed tcm
tcGblEnv = tmrTypechecked tcm
details <- makeSimpleDetails hsc_env_tmp tcGblEnv
sf <- finalSafeMode (ms_hspp_opts ms) tcGblEnv
#if MIN_VERSION_ghc(8,10,0)
iface <- mkIfaceTc hsc_env_tmp sf details tcGblEnv
#else
(iface, _) <- mkIfaceTc hsc_env_tmp Nothing sf details tcGblEnv
#endif
let mod_info = HomeModInfo iface details Nothing
pure $! mkHiFileResult ms mod_info
mkHiFileResultCompile
:: HscEnv
-> TcModuleResult
-> ModGuts
-> LinkableType -- ^ use object code or byte code?
-> IO (IdeResult HiFileResult)
mkHiFileResultCompile session' tcm simplified_guts ltype = catchErrs $ do
let session = hscSetFlags (ms_hspp_opts ms) session'
ms = pm_mod_summary $ tmrParsed tcm
tcGblEnv = tmrTypechecked tcm
let genLinkable = case ltype of
ObjectLinkable -> generateObjectCode
BCOLinkable -> generateByteCode
(linkable, details, diags) <-
if mg_hsc_src simplified_guts == HsBootFile
then do
-- give variables unique OccNames
details <- mkBootModDetailsTc session tcGblEnv
pure (Nothing, details, [])
else do
-- give variables unique OccNames
(guts, details) <- tidyProgram session simplified_guts
(diags, linkable) <- genLinkable session ms guts
pure (linkable, details, diags)
#if MIN_VERSION_ghc(9,0,1)
let !partial_iface = force (mkPartialIface session details simplified_guts)
final_iface <- mkFullIface session partial_iface Nothing
#elif MIN_VERSION_ghc(8,10,0)
let !partial_iface = force (mkPartialIface session details simplified_guts)
final_iface <- mkFullIface session partial_iface
#else
(final_iface,_) <- mkIface session Nothing details simplified_guts
#endif
let mod_info = HomeModInfo final_iface details linkable
pure (diags, Just $! mkHiFileResult ms mod_info)
where
dflags = hsc_dflags session'
source = "compile"
catchErrs x = x `catches`
[ Handler $ return . (,Nothing) . diagFromGhcException source dflags
, Handler $ return . (,Nothing) . diagFromString source DsError (noSpan "<internal>")
. (("Error during " ++ T.unpack source) ++) . show @SomeException
]
initPlugins :: HscEnv -> ModSummary -> IO ModSummary
initPlugins session modSummary = do
session1 <- liftIO $ initializePlugins (hscSetFlags (ms_hspp_opts modSummary) session)
return modSummary{ms_hspp_opts = hsc_dflags session1}
-- | Whether we should run the -O0 simplifier when generating core.
--
-- This is required for template Haskell to work but we disable this in DAML.
-- See #256
newtype RunSimplifier = RunSimplifier Bool
-- | Compile a single type-checked module to a 'CoreModule' value, or
-- provide errors.
compileModule
:: RunSimplifier
-> HscEnv
-> ModSummary
-> TcGblEnv
-> IO (IdeResult ModGuts)
compileModule (RunSimplifier simplify) session ms tcg =
fmap (either (, Nothing) (second Just)) $
catchSrcErrors (hsc_dflags session) "compile" $ do
(warnings,desugared_guts) <- withWarnings "compile" $ \tweak -> do
let session' = tweak (hscSetFlags (ms_hspp_opts ms) session)
-- TODO: maybe settings ms_hspp_opts is unnecessary?
-- MP: the flags in ModSummary should be right, if they are wrong then
-- the correct place to fix this is when the ModSummary is created.
desugar <- hscDesugar session' (ms { ms_hspp_opts = hsc_dflags session' }) tcg
if simplify
then do
plugins <- readIORef (tcg_th_coreplugins tcg)
hscSimplify session' plugins desugar
else pure desugar
return (map snd warnings, desugared_guts)
generateObjectCode :: HscEnv -> ModSummary -> CgGuts -> IO (IdeResult Linkable)
generateObjectCode session summary guts = do
fmap (either (, Nothing) (second Just)) $
catchSrcErrors (hsc_dflags session) "object" $ do
let dot_o = ml_obj_file (ms_location summary)
mod = ms_mod summary
fp = replaceExtension dot_o "s"
createDirectoryIfMissing True (takeDirectory fp)
(warnings, dot_o_fp) <-
withWarnings "object" $ \tweak -> do
let env' = tweak (hscSetFlags (ms_hspp_opts summary) session)
target = platformDefaultBackend (hsc_dflags env')
newFlags = setBackend target $ updOptLevel 0 $ setOutputFile dot_o $ hsc_dflags env'
session' = hscSetFlags newFlags session
#if MIN_VERSION_ghc(9,0,1)
(outputFilename, _mStub, _foreign_files, _cinfos) <- hscGenHardCode session' guts
#else
(outputFilename, _mStub, _foreign_files) <- hscGenHardCode session' guts
#endif
#if MIN_VERSION_ghc(8,10,0)
(ms_location summary)
#else
summary
#endif
fp
compileFile session' StopLn (outputFilename, Just (As False))
let unlinked = DotO dot_o_fp
-- Need time to be the modification time for recompilation checking
t <- liftIO $ getModificationTime dot_o_fp
let linkable = LM t mod [unlinked]
pure (map snd warnings, linkable)
generateByteCode :: HscEnv -> ModSummary -> CgGuts -> IO (IdeResult Linkable)
generateByteCode hscEnv summary guts = do
fmap (either (, Nothing) (second Just)) $
catchSrcErrors (hsc_dflags hscEnv) "bytecode" $ do
(warnings, (_, bytecode, sptEntries)) <-
withWarnings "bytecode" $ \_tweak -> do
let session = _tweak (hscSetFlags (ms_hspp_opts summary) hscEnv)
-- TODO: maybe settings ms_hspp_opts is unnecessary?
summary' = summary { ms_hspp_opts = hsc_dflags session }
hscInteractive session guts
#if MIN_VERSION_ghc(8,10,0)
(ms_location summary')
#else
summary'
#endif
let unlinked = BCOs bytecode sptEntries
time <- liftIO getCurrentTime
let linkable = LM time (ms_mod summary) [unlinked]
pure (map snd warnings, linkable)
demoteTypeErrorsToWarnings :: ParsedModule -> ParsedModule
demoteTypeErrorsToWarnings =
(update_pm_mod_summary . update_hspp_opts) demoteTEsToWarns where
demoteTEsToWarns :: DynFlags -> DynFlags
-- convert the errors into warnings, and also check the warnings are enabled
demoteTEsToWarns = (`wopt_set` Opt_WarnDeferredTypeErrors)
. (`wopt_set` Opt_WarnTypedHoles)
. (`wopt_set` Opt_WarnDeferredOutOfScopeVariables)
. (`gopt_set` Opt_DeferTypeErrors)
. (`gopt_set` Opt_DeferTypedHoles)
. (`gopt_set` Opt_DeferOutOfScopeVariables)
update_hspp_opts :: (DynFlags -> DynFlags) -> ModSummary -> ModSummary
update_hspp_opts up ms = ms{ms_hspp_opts = up $ ms_hspp_opts ms}
update_pm_mod_summary :: (ModSummary -> ModSummary) -> ParsedModule -> ParsedModule
update_pm_mod_summary up pm =
pm{pm_mod_summary = up $ pm_mod_summary pm}
unDefer :: (WarnReason, FileDiagnostic) -> (Bool, FileDiagnostic)
unDefer (Reason Opt_WarnDeferredTypeErrors , fd) = (True, upgradeWarningToError fd)
unDefer (Reason Opt_WarnTypedHoles , fd) = (True, upgradeWarningToError fd)
unDefer (Reason Opt_WarnDeferredOutOfScopeVariables, fd) = (True, upgradeWarningToError fd)
unDefer ( _ , fd) = (False, fd)
upgradeWarningToError :: FileDiagnostic -> FileDiagnostic
upgradeWarningToError (nfp, sh, fd) =
(nfp, sh, fd{_severity = Just DsError, _message = warn2err $ _message fd}) where
warn2err :: T.Text -> T.Text
warn2err = T.intercalate ": error:" . T.splitOn ": warning:"
hideDiag :: DynFlags -> (WarnReason, FileDiagnostic) -> (WarnReason, FileDiagnostic)
hideDiag originalFlags (Reason warning, (nfp, _sh, fd))
| not (wopt warning originalFlags)
= (Reason warning, (nfp, HideDiag, fd))
hideDiag _originalFlags t = t
-- | Warnings which lead to a diagnostic tag
unnecessaryDeprecationWarningFlags :: [WarningFlag]
unnecessaryDeprecationWarningFlags
= [ Opt_WarnUnusedTopBinds
, Opt_WarnUnusedLocalBinds
, Opt_WarnUnusedPatternBinds
, Opt_WarnUnusedImports
, Opt_WarnUnusedMatches
, Opt_WarnUnusedTypePatterns
, Opt_WarnUnusedForalls
#if MIN_VERSION_ghc(8,10,0)
, Opt_WarnUnusedRecordWildcards
#endif
, Opt_WarnInaccessibleCode
, Opt_WarnWarningsDeprecations
]
-- | Add a unnecessary/deprecated tag to the required diagnostics.
tagDiag :: (WarnReason, FileDiagnostic) -> (WarnReason, FileDiagnostic)
tagDiag (Reason warning, (nfp, sh, fd))
| Just tag <- requiresTag warning
= (Reason warning, (nfp, sh, fd { _tags = addTag tag (_tags fd) }))
where
requiresTag :: WarningFlag -> Maybe DiagnosticTag
requiresTag Opt_WarnWarningsDeprecations
= Just DtDeprecated
requiresTag wflag -- deprecation was already considered above
| wflag `elem` unnecessaryDeprecationWarningFlags
= Just DtUnnecessary
requiresTag _ = Nothing
addTag :: DiagnosticTag -> Maybe (List DiagnosticTag) -> Maybe (List DiagnosticTag)
addTag t Nothing = Just (List [t])
addTag t (Just (List ts)) = Just (List (t : ts))
-- other diagnostics are left unaffected
tagDiag t = t
addRelativeImport :: NormalizedFilePath -> ModuleName -> DynFlags -> DynFlags
addRelativeImport fp modu dflags = dflags
{importPaths = nubOrd $ maybeToList (moduleImportPath fp modu) ++ importPaths dflags}
atomicFileWrite :: FilePath -> (FilePath -> IO a) -> IO ()
atomicFileWrite targetPath write = do
let dir = takeDirectory targetPath
createDirectoryIfMissing True dir
(tempFilePath, cleanUp) <- newTempFileWithin dir
(write tempFilePath >> renameFile tempFilePath targetPath) `onException` cleanUp
generateHieAsts :: HscEnv -> TcModuleResult -> IO ([FileDiagnostic], Maybe (HieASTs Type))
generateHieAsts hscEnv tcm =
handleGenerationErrors' dflags "extended interface generation" $ runHsc hscEnv $ do
-- These varBinds use unitDataConId but it could be anything as the id name is not used
-- during the hie file generation process. It's a workaround for the fact that the hie modules
-- don't export an interface which allows for additional information to be added to hie files.
let fake_splice_binds = Util.listToBag (map (mkVarBind unitDataConId) (spliceExpresions $ tmrTopLevelSplices tcm))
real_binds = tcg_binds $ tmrTypechecked tcm
#if MIN_VERSION_ghc(9,0,1)
ts = tmrTypechecked tcm :: TcGblEnv
top_ev_binds = tcg_ev_binds ts :: Util.Bag EvBind
insts = tcg_insts ts :: [ClsInst]
tcs = tcg_tcs ts :: [TyCon]
run ts $
Just <$> GHC.enrichHie (fake_splice_binds `Util.unionBags` real_binds) (tmrRenamed tcm) top_ev_binds insts tcs
#else
Just <$> GHC.enrichHie (fake_splice_binds `Util.unionBags` real_binds) (tmrRenamed tcm)
#endif
where
dflags = hsc_dflags hscEnv
run ts =
#if MIN_VERSION_ghc(9,2,0)
fmap (join . snd) . liftIO . initDs hscEnv ts
#else
id
#endif
spliceExpresions :: Splices -> [LHsExpr GhcTc]
spliceExpresions Splices{..} =
DL.toList $ mconcat
[ DL.fromList $ map fst exprSplices
, DL.fromList $ map fst patSplices
, DL.fromList $ map fst typeSplices
, DL.fromList $ map fst declSplices
, DL.fromList $ map fst awSplices
]
-- | In addition to indexing the `.hie` file, this function is responsible for
-- maintaining the 'IndexQueue' state and notfiying the user about indexing
-- progress.
--
-- We maintain a record of all pending index operations in the 'indexPending'
-- TVar.
-- When 'indexHieFile' is called, it must check to ensure that the file hasn't
-- already be queued up for indexing. If it has, then we can just skip it
--
-- Otherwise, we record the current file as pending and write an indexing
-- operation to the queue
--
-- When the indexing operation is picked up and executed by the worker thread,
-- the first thing it does is ensure that a newer index for the same file hasn't
-- been scheduled by looking at 'indexPending'. If a newer index has been
-- scheduled, we can safely skip this one
--
-- Otherwise, we start or continue a progress reporting session, telling it
-- about progress so far and the current file we are attempting to index. Then
-- we can go ahead and call in to hiedb to actually do the indexing operation
--
-- Once this completes, we have to update the 'IndexQueue' state. First, we
-- must remove the just indexed file from 'indexPending' Then we check if
-- 'indexPending' is now empty. In that case, we end the progress session and
-- report the total number of file indexed. We also set the 'indexCompleted'
-- TVar to 0 in order to set it up for a fresh indexing session. Otherwise, we
-- can just increment the 'indexCompleted' TVar and exit.
--
indexHieFile :: ShakeExtras -> ModSummary -> NormalizedFilePath -> Util.Fingerprint -> Compat.HieFile -> IO ()
indexHieFile se mod_summary srcPath !hash hf = do
IdeOptions{optProgressStyle} <- getIdeOptionsIO se
atomically $ do
pending <- readTVar indexPending
case HashMap.lookup srcPath pending of
Just pendingHash | pendingHash == hash -> pure () -- An index is already scheduled
_ -> do
-- hiedb doesn't use the Haskell src, so we clear it to avoid unnecessarily keeping it around
let !hf' = hf{hie_hs_src = mempty}
modifyTVar' indexPending $ HashMap.insert srcPath hash
writeTQueue indexQueue $ \withHieDb -> do
-- We are now in the worker thread
-- Check if a newer index of this file has been scheduled, and if so skip this one
newerScheduled <- atomically $ do
pending <- readTVar indexPending
pure $ case HashMap.lookup srcPath pending of
Nothing -> False
-- If the hash in the pending list doesn't match the current hash, then skip
Just pendingHash -> pendingHash /= hash
unless newerScheduled $ do
pre optProgressStyle
withHieDb (\db -> HieDb.addRefsFromLoaded db targetPath (HieDb.RealFile $ fromNormalizedFilePath srcPath) hash hf')
post
where
mod_location = ms_location mod_summary
targetPath = Compat.ml_hie_file mod_location
HieDbWriter{..} = hiedbWriter se
-- Get a progress token to report progress and update it for the current file
pre style = do
tok <- modifyVar indexProgressToken $ fmap dupe . \case
x@(Just _) -> pure x
-- Create a token if we don't already have one
Nothing -> do
case lspEnv se of
Nothing -> pure Nothing
Just env -> LSP.runLspT env $ do
u <- LSP.ProgressTextToken . T.pack . show . hashUnique <$> liftIO Unique.newUnique
-- TODO: Wait for the progress create response to use the token
_ <- LSP.sendRequest LSP.SWindowWorkDoneProgressCreate (LSP.WorkDoneProgressCreateParams u) (const $ pure ())
LSP.sendNotification LSP.SProgress $ LSP.ProgressParams u $
LSP.Begin $ LSP.WorkDoneProgressBeginParams
{ _title = "Indexing"
, _cancellable = Nothing
, _message = Nothing
, _percentage = Nothing
}
pure (Just u)
(!done, !remaining) <- atomically $ do
done <- readTVar indexCompleted
remaining <- HashMap.size <$> readTVar indexPending
pure (done, remaining)
let
progressFrac :: Double
progressFrac = fromIntegral done / fromIntegral (done + remaining)
progressPct :: LSP.UInt
progressPct = floor $ 100 * progressFrac
whenJust (lspEnv se) $ \env -> whenJust tok $ \tok -> LSP.runLspT env $
LSP.sendNotification LSP.SProgress $ LSP.ProgressParams tok $
LSP.Report $
case style of
Percentage -> LSP.WorkDoneProgressReportParams
{ _cancellable = Nothing
, _message = Nothing
, _percentage = Just progressPct
}
Explicit -> LSP.WorkDoneProgressReportParams
{ _cancellable = Nothing
, _message = Just $
T.pack " (" <> T.pack (show done) <> "/" <> T.pack (show $ done + remaining) <> ")..."
, _percentage = Nothing
}
NoProgress -> LSP.WorkDoneProgressReportParams
{ _cancellable = Nothing
, _message = Nothing
, _percentage = Nothing
}
-- Report the progress once we are done indexing this file
post = do
mdone <- atomically $ do
-- Remove current element from pending
pending <- stateTVar indexPending $
dupe . HashMap.update (\pendingHash -> guard (pendingHash /= hash) $> pendingHash) srcPath
modifyTVar' indexCompleted (+1)
-- If we are done, report and reset completed
whenMaybe (HashMap.null pending) $
swapTVar indexCompleted 0
whenJust (lspEnv se) $ \env -> LSP.runLspT env $
when (coerce $ ideTesting se) $
LSP.sendNotification (LSP.SCustomMethod "ghcide/reference/ready") $
toJSON $ fromNormalizedFilePath srcPath
whenJust mdone $ \done ->
modifyVar_ indexProgressToken $ \tok -> do
whenJust (lspEnv se) $ \env -> LSP.runLspT env $
whenJust tok $ \tok ->
LSP.sendNotification LSP.SProgress $ LSP.ProgressParams tok $
LSP.End $ LSP.WorkDoneProgressEndParams
{ _message = Just $ "Finished indexing " <> T.pack (show done) <> " files"
}
-- We are done with the current indexing cycle, so destroy the token
pure Nothing
writeAndIndexHieFile :: HscEnv -> ShakeExtras -> ModSummary -> NormalizedFilePath -> [GHC.AvailInfo] -> HieASTs Type -> BS.ByteString -> IO [FileDiagnostic]
writeAndIndexHieFile hscEnv se mod_summary srcPath exports ast source =
handleGenerationErrors dflags "extended interface write/compression" $ do
hf <- runHsc hscEnv $
GHC.mkHieFile' mod_summary exports ast source
atomicFileWrite targetPath $ flip GHC.writeHieFile hf
hash <- Util.getFileHash targetPath
indexHieFile se mod_summary srcPath hash hf
where
dflags = hsc_dflags hscEnv
mod_location = ms_location mod_summary
targetPath = Compat.ml_hie_file mod_location
writeHiFile :: HscEnv -> HiFileResult -> IO [FileDiagnostic]
writeHiFile hscEnv tc =
handleGenerationErrors dflags "interface write" $ do
atomicFileWrite targetPath $ \fp ->
writeIfaceFile hscEnv fp modIface
where
modIface = hm_iface $ hirHomeMod tc
targetPath = ml_hi_file $ ms_location $ hirModSummary tc
dflags = hsc_dflags hscEnv
handleGenerationErrors :: DynFlags -> T.Text -> IO () -> IO [FileDiagnostic]
handleGenerationErrors dflags source action =
action >> return [] `catches`
[ Handler $ return . diagFromGhcException source dflags
, Handler $ return . diagFromString source DsError (noSpan "<internal>")
. (("Error during " ++ T.unpack source) ++) . show @SomeException
]
handleGenerationErrors' :: DynFlags -> T.Text -> IO (Maybe a) -> IO ([FileDiagnostic], Maybe a)
handleGenerationErrors' dflags source action =
fmap ([],) action `catches`
[ Handler $ return . (,Nothing) . diagFromGhcException source dflags
, Handler $ return . (,Nothing) . diagFromString source DsError (noSpan "<internal>")
. (("Error during " ++ T.unpack source) ++) . show @SomeException
]
-- | Load modules, quickly. Input doesn't need to be desugared.
-- A module must be loaded before dependent modules can be typechecked.
-- This variant of loadModuleHome will *never* cause recompilation, it just
-- modifies the session.
-- The order modules are loaded is important when there are hs-boot files.
-- In particular you should make sure to load the .hs version of a file after the
-- .hs-boot version.
loadModulesHome
:: [HomeModInfo]
-> HscEnv
-> HscEnv
loadModulesHome mod_infos e =
let !new_modules = addListToHpt (hsc_HPT e) [(mod_name x, x) | x <- mod_infos]
in e { hsc_HPT = new_modules
, hsc_type_env_var = Nothing }
where
mod_name = moduleName . mi_module . hm_iface
-- Merge the HPTs, module graphs and FinderCaches
mergeEnvs :: HscEnv -> [ModSummary] -> [HomeModInfo] -> [HscEnv] -> IO HscEnv
mergeEnvs env extraModSummaries extraMods envs = do
prevFinderCache <- concatFC <$> mapM (readIORef . hsc_FC) envs
let ims = map (\ms -> Compat.installedModule (toUnitId $ moduleUnit $ ms_mod ms) (moduleName (ms_mod ms))) extraModSummaries
ifrs = zipWith (\ms -> InstalledFound (ms_location ms)) extraModSummaries ims
-- Very important to force this as otherwise the hsc_mod_graph field is not
-- forced and ends up retaining a reference to all the old hsc_envs we have merged to get
-- this new one, which in turn leads to the EPS referencing the HPT.
module_graph_nodes =
#if MIN_VERSION_ghc(9,2,0)
-- We don't do any instantiation for backpack at this point of time, so it is OK to use
-- 'extendModSummaryNoDeps'.
-- This may have to change in the future.
map extendModSummaryNoDeps $
#endif
extraModSummaries ++ nubOrdOn ms_mod (concatMap (mgModSummaries . hsc_mod_graph) envs)
newFinderCache <- newIORef $
foldl'
(\fc (im, ifr) -> Compat.extendInstalledModuleEnv fc im ifr) prevFinderCache
$ zip ims ifrs
liftRnf rwhnf module_graph_nodes `seq` (return $ loadModulesHome extraMods $ env{
hsc_HPT = foldMapBy mergeUDFM emptyUDFM hsc_HPT envs,
hsc_FC = newFinderCache,
hsc_mod_graph = mkModuleGraph module_graph_nodes
})
where
mergeUDFM = plusUDFM_C combineModules
combineModules a b
| HsSrcFile <- mi_hsc_src (hm_iface a) = a
| otherwise = b
-- required because 'FinderCache':
-- 1) doesn't have a 'Monoid' instance,
-- 2) is abstract and doesn't export constructors
-- To work around this, we coerce to the underlying type
-- To remove this, I plan to upstream the missing Monoid instance
concatFC :: [FinderCache] -> FinderCache
concatFC = unsafeCoerce (mconcat @(Map InstalledModule InstalledFindResult))
withBootSuffix :: HscSource -> ModLocation -> ModLocation
withBootSuffix HsBootFile = addBootSuffixLocnOut
withBootSuffix _ = id
-- | Given a buffer, env and filepath, produce a module summary by parsing only the imports.
-- Runs preprocessors as needed.
getModSummaryFromImports
:: HscEnv
-> FilePath
-> UTCTime
-> Maybe Util.StringBuffer
-> ExceptT [FileDiagnostic] IO ModSummaryResult
getModSummaryFromImports env fp modTime contents = do
(contents, opts, dflags) <- preprocessor env fp contents
-- The warns will hopefully be reported when we actually parse the module
(_warns, L main_loc hsmod) <- parseHeader dflags fp contents
-- Copied from `HeaderInfo.getImports`, but we also need to keep the parsed imports
let mb_mod = hsmodName hsmod
imps = hsmodImports hsmod
mod = fmap unLoc mb_mod `Util.orElse` mAIN_NAME
(src_idecls, ord_idecls) = partition ((== IsBoot) . ideclSource.unLoc) imps
-- GHC.Prim doesn't exist physically, so don't go looking for it.
ordinary_imps = filter ((/= moduleName gHC_PRIM) . unLoc
. ideclName . unLoc)
ord_idecls
implicit_prelude = xopt LangExt.ImplicitPrelude dflags
implicit_imports = mkPrelImports mod main_loc
implicit_prelude imps
convImport (L _ i) = (fmap sl_fs (ideclPkgQual i)
, reLoc $ ideclName i)
srcImports = map convImport src_idecls
textualImports = map convImport (implicit_imports ++ ordinary_imps)
msrImports = implicit_imports ++ imps
-- Force bits that might keep the string buffer and DynFlags alive unnecessarily
liftIO $ evaluate $ rnf srcImports
liftIO $ evaluate $ rnf textualImports
modLoc <- liftIO $ if mod == mAIN_NAME
-- specially in tests it's common to have lots of nameless modules
-- mkHomeModLocation will map them to the same hi/hie locations
then mkHomeModLocation dflags (pathToModuleName fp) fp
else mkHomeModLocation dflags mod fp
let modl = mkHomeModule (hscHomeUnit (hscSetFlags dflags env)) mod
sourceType = if "-boot" `isSuffixOf` takeExtension fp then HsBootFile else HsSrcFile
msrModSummary =
ModSummary
{ ms_mod = modl
#if MIN_VERSION_ghc(8,8,0)
, ms_hie_date = Nothing
#endif
, ms_hs_date = modTime
, ms_hsc_src = sourceType
-- The contents are used by the GetModSummary rule
, ms_hspp_buf = Just contents
, ms_hspp_file = fp
, ms_hspp_opts = dflags
, ms_iface_date = Nothing
, ms_location = withBootSuffix sourceType modLoc
, ms_obj_date = Nothing
, ms_parsed_mod = Nothing
, ms_srcimps = srcImports
, ms_textual_imps = textualImports
}
msrFingerprint <- liftIO $ computeFingerprint opts msrModSummary
return ModSummaryResult{..}
where
-- Compute a fingerprint from the contents of `ModSummary`,
-- eliding the timestamps, the preprocessed source and other non relevant fields
computeFingerprint opts ModSummary{..} = do
fingerPrintImports <- fingerprintFromPut $ do
put $ Util.uniq $ moduleNameFS $ moduleName ms_mod
forM_ (ms_srcimps ++ ms_textual_imps) $ \(mb_p, m) -> do
put $ Util.uniq $ moduleNameFS $ unLoc m
whenJust mb_p $ put . Util.uniq
return $! Util.fingerprintFingerprints $
[ Util.fingerprintString fp
, fingerPrintImports
] ++ map Util.fingerprintString opts
-- | Parse only the module header
parseHeader
:: Monad m
=> DynFlags -- ^ flags to use
-> FilePath -- ^ the filename (for source locations)
-> Util.StringBuffer -- ^ Haskell module source text (full Unicode is supported)
#if MIN_VERSION_ghc(9,0,1)
-> ExceptT [FileDiagnostic] m ([FileDiagnostic], Located(HsModule))
#else
-> ExceptT [FileDiagnostic] m ([FileDiagnostic], Located(HsModule GhcPs))
#endif
parseHeader dflags filename contents = do
let loc = mkRealSrcLoc (Util.mkFastString filename) 1 1
case unP Compat.parseHeader (initParserState (initParserOpts dflags) contents loc) of
PFailedWithErrorMessages msgs ->
throwE $ diagFromErrMsgs "parser" dflags $ msgs dflags
POk pst rdr_module -> do
let (warns, errs) = getMessages' pst dflags
-- Just because we got a `POk`, it doesn't mean there
-- weren't errors! To clarify, the GHC parser
-- distinguishes between fatal and non-fatal
-- errors. Non-fatal errors are the sort that don't
-- prevent parsing from continuing (that is, a parse
-- tree can still be produced despite the error so that
-- further errors/warnings can be collected). Fatal
-- errors are those from which a parse tree just can't
-- be produced.
unless (null errs) $
throwE $ diagFromErrMsgs "parser" dflags errs
let warnings = diagFromErrMsgs "parser" dflags warns
return (warnings, rdr_module)
-- | Given a buffer, flags, and file path, produce a
-- parsed module (or errors) and any parse warnings. Does not run any preprocessors
-- ModSummary must contain the (preprocessed) contents of the buffer
parseFileContents
:: HscEnv
-> (GHC.ParsedSource -> IdePreprocessedSource)
-> FilePath -- ^ the filename (for source locations)
-> ModSummary
-> ExceptT [FileDiagnostic] IO ([FileDiagnostic], ParsedModule)
parseFileContents env customPreprocessor filename ms = do
let loc = mkRealSrcLoc (Util.mkFastString filename) 1 1
dflags = ms_hspp_opts ms
contents = fromJust $ ms_hspp_buf ms
case unP Compat.parseModule (initParserState (initParserOpts dflags) contents loc) of
PFailedWithErrorMessages msgs -> throwE $ diagFromErrMsgs "parser" dflags $ msgs dflags
POk pst rdr_module ->
let
hpm_annotations = mkApiAnns pst
(warns, errs) = getMessages' pst dflags
in
do
-- Just because we got a `POk`, it doesn't mean there
-- weren't errors! To clarify, the GHC parser
-- distinguishes between fatal and non-fatal
-- errors. Non-fatal errors are the sort that don't
-- prevent parsing from continuing (that is, a parse
-- tree can still be produced despite the error so that
-- further errors/warnings can be collected). Fatal
-- errors are those from which a parse tree just can't
-- be produced.
unless (null errs) $
throwE $ diagFromErrMsgs "parser" dflags errs
-- Ok, we got here. It's safe to continue.
let IdePreprocessedSource preproc_warns errs parsed = customPreprocessor rdr_module
unless (null errs) $
throwE $ diagFromStrings "parser" DsError errs
let preproc_warnings = diagFromStrings "parser" DsWarning preproc_warns
parsed' <- liftIO $ applyPluginsParsedResultAction env dflags ms hpm_annotations parsed
-- 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 (eliminate 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 = normalise filename
srcs0 = nubOrd $ filter (not . (tmpDir dflags `isPrefixOf`))
$ filter (/= n_hspp)
$ map normalise
$ filter (not . isPrefixOf "<")
$ map Util.unpackFS
$ srcfiles pst
srcs1 = case ml_hs_file (ms_location ms) of
Just f -> filter (/= 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
let pm = ParsedModule ms parsed' srcs2 hpm_annotations
warnings = diagFromErrMsgs "parser" dflags warns
pure (warnings ++ preproc_warnings, pm)
loadHieFile :: Compat.NameCacheUpdater -> FilePath -> IO GHC.HieFile
loadHieFile ncu f = do
GHC.hie_file_result <$> GHC.readHieFile ncu f
-- | Retuns an up-to-date module interface, regenerating if needed.
-- Assumes file exists.
-- Requires the 'HscEnv' to be set up with dependencies
loadInterface
:: (MonadIO m, MonadMask m)
=> HscEnv
-> ModSummary
-> SourceModified
-> Maybe LinkableType
-> (Maybe LinkableType -> m ([FileDiagnostic], Maybe HiFileResult)) -- ^ Action to regenerate an interface
-> m ([FileDiagnostic], Maybe HiFileResult)
loadInterface session ms sourceMod linkableNeeded regen = do
let sessionWithMsDynFlags = hscSetFlags (ms_hspp_opts ms) session
res <- liftIO $ checkOldIface sessionWithMsDynFlags ms sourceMod Nothing
case res of
(UpToDate, Just iface)
-- If the module used TH splices when it was last
-- compiled, then the recompilation check is not
-- accurate enough (https://gitlab.haskell.org/ghc/ghc/-/issues/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.
| not (mi_used_th iface) || SourceUnmodifiedAndStable == sourceMod
-> do
linkable <- case linkableNeeded of
Just ObjectLinkable -> liftIO $ findObjectLinkableMaybe (ms_mod ms) (ms_location ms)
_ -> pure Nothing
-- We don't need to regenerate if the object is up do date, or we don't need one
let objUpToDate = isNothing linkableNeeded || case linkable of
Nothing -> False
Just (LM obj_time _ _) -> obj_time > ms_hs_date ms
if objUpToDate
then do
hmi <- liftIO $ mkDetailsFromIface sessionWithMsDynFlags iface linkable
return ([], Just $ mkHiFileResult ms hmi)
else regen linkableNeeded
(_reason, _) -> withTrace "regenerate interface" $ \setTag -> do
setTag "Module" $ moduleNameString $ moduleName $ ms_mod ms
setTag "Reason" $ showReason _reason
regen linkableNeeded
showReason :: RecompileRequired -> String
showReason UpToDate = "UpToDate"
showReason MustCompile = "MustCompile"
showReason (RecompBecause s) = s
mkDetailsFromIface :: HscEnv -> ModIface -> Maybe Linkable -> IO HomeModInfo
mkDetailsFromIface session iface linkable = do
details <- liftIO $ fixIO $ \details -> do
let hsc' = session { hsc_HPT = addToHpt (hsc_HPT session) (moduleName $ mi_module iface) (HomeModInfo iface details linkable) }
initIfaceLoad hsc' (typecheckIface iface)
return (HomeModInfo iface details linkable)
-- | Non-interactive, batch version of 'InteractiveEval.getDocs'.
-- The interactive paths create problems in ghc-lib builds
--- and leads to fun errors like "Cannot continue after interface file error".
getDocsBatch
:: HscEnv
-> Module -- ^ a moudle where the names are in scope
-> [Name]
-> IO [Either String (Maybe HsDocString, IntMap HsDocString)]
getDocsBatch hsc_env _mod _names = do
(msgs, res) <- initTc hsc_env HsSrcFile False _mod fakeSpan $ forM _names $ \name ->
case nameModule_maybe name of
Nothing -> return (Left $ NameHasNoModule name)
Just mod -> do
ModIface { mi_doc_hdr = mb_doc_hdr
, mi_decl_docs = DeclDocMap dmap
, mi_arg_docs = ArgDocMap amap
} <- loadModuleInterface "getModuleInterface" mod
if isNothing mb_doc_hdr && Map.null dmap && null amap
then pure (Left (NoDocsInIface mod $ compiled name))
else pure (Right ( Map.lookup name dmap ,
#if !MIN_VERSION_ghc(9,2,0)
IntMap.fromAscList $ Map.toAscList $
#endif
Map.findWithDefault mempty name amap))
case res of
Just x -> return $ map (first $ T.unpack . showGhc) x
Nothing -> throwErrors
#if MIN_VERSION_ghc(9,2,0)
$ Error.getErrorMessages msgs
#else
$ snd msgs
#endif
where
throwErrors = liftIO . throwIO . mkSrcErr
compiled n =
-- TODO: Find a more direct indicator.
case nameSrcLoc n of
RealSrcLoc {} -> False
UnhelpfulLoc {} -> True
fakeSpan :: RealSrcSpan
fakeSpan = realSrcLocSpan $ mkRealSrcLoc (Util.fsLit "<ghcide>") 1 1
-- | Non-interactive, batch version of 'InteractiveEval.lookupNames'.
-- The interactive paths create problems in ghc-lib builds
--- and leads to fun errors like "Cannot continue after interface file error".
lookupName :: HscEnv
-> Module -- ^ A module where the Names are in scope
-> Name
-> IO (Maybe TyThing)
lookupName hsc_env mod name = do
(_messages, res) <- initTc hsc_env HsSrcFile False mod fakeSpan $ do
tcthing <- tcLookup name
case tcthing of
AGlobal thing -> return thing
ATcId{tct_id=id} -> return (AnId id)
_ -> panic "tcRnLookupName'"
return res
pathToModuleName :: FilePath -> ModuleName
pathToModuleName = mkModuleName . map rep
where
rep c | isPathSeparator c = '_'
rep ':' = '_'
rep c = c