ghcide-1.10.0.0: src/Development/IDE/Core/Rules.hs
-- Copyright (c) 2019 The DAML Authors. All rights reserved.
-- SPDX-License-Identifier: Apache-2.0
{-# LANGUAGE CPP #-}
{-# LANGUAGE DuplicateRecordFields #-}
{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE TypeFamilies #-}
-- | A Shake implementation of the compiler service, built
-- using the "Shaker" abstraction layer for in-memory use.
--
module Development.IDE.Core.Rules(
-- * Types
IdeState, GetParsedModule(..), TransitiveDependencies(..),
Priority(..), GhcSessionIO(..), GetClientSettings(..),
-- * Functions
priorityTypeCheck,
priorityGenerateCore,
priorityFilesOfInterest,
runAction,
toIdeResult,
defineNoFile,
defineEarlyCutOffNoFile,
mainRule,
RulesConfig(..),
getDependencies,
getParsedModule,
getParsedModuleWithComments,
getClientConfigAction,
usePropertyAction,
getHieFile,
-- * Rules
CompiledLinkables(..),
getParsedModuleRule,
getParsedModuleWithCommentsRule,
getLocatedImportsRule,
getDependencyInformationRule,
reportImportCyclesRule,
typeCheckRule,
getDocMapRule,
loadGhcSession,
getModIfaceFromDiskRule,
getModIfaceRule,
getModSummaryRule,
getModuleGraphRule,
knownFilesRule,
getClientSettingsRule,
getHieAstsRule,
getBindingsRule,
needsCompilationRule,
computeLinkableTypeForDynFlags,
generateCoreRule,
getImportMapRule,
regenerateHiFile,
ghcSessionDepsDefinition,
getParsedModuleDefinition,
typeCheckRuleDefinition,
getRebuildCount,
getSourceFileSource,
currentLinkables,
GhcSessionDepsConfig(..),
Log(..),
DisplayTHWarning(..),
) where
import Control.Applicative
import Control.Concurrent.Async (concurrently)
import Control.Concurrent.Strict
import Control.DeepSeq
import Control.Exception.Safe
import Control.Monad.Extra
import Control.Monad.Reader
import Control.Monad.State
import Control.Monad.Trans.Except (ExceptT, except,
runExceptT)
import Control.Monad.Trans.Maybe
import Data.Aeson (Result (Success),
toJSON)
import qualified Data.Aeson.Types as A
import qualified Data.Binary as B
import qualified Data.ByteString as BS
import qualified Data.ByteString.Lazy as LBS
import Data.Coerce
import Data.Foldable
import qualified Data.HashMap.Strict as HM
import qualified Data.HashSet as HashSet
import Data.Hashable
import Data.IORef
import Control.Concurrent.STM.TVar
import Data.IntMap.Strict (IntMap)
import qualified Data.IntMap.Strict as IntMap
import Data.List
import qualified Data.Map as M
import Data.Maybe
import qualified Data.Text.Utf16.Rope as Rope
import qualified Data.Set as Set
import qualified Data.Text as T
import qualified Data.Text.Encoding as T
import Data.Time (UTCTime (..))
import Data.Tuple.Extra
import Data.Typeable (cast)
import Development.IDE.Core.Compile
import Development.IDE.Core.FileExists hiding (LogShake, Log)
import Development.IDE.Core.FileStore (getFileContents,
getModTime)
import Development.IDE.Core.IdeConfiguration
import Development.IDE.Core.OfInterest hiding (LogShake, Log)
import Development.IDE.Core.PositionMapping
import Development.IDE.Core.RuleTypes
import Development.IDE.Core.Service hiding (LogShake, Log)
import Development.IDE.Core.Shake hiding (Log)
import Development.IDE.GHC.Compat.Env
import Development.IDE.GHC.Compat hiding
(vcat, nest, parseModule,
TargetId(..),
loadInterface,
Var,
(<+>))
import qualified Development.IDE.GHC.Compat as Compat hiding (vcat, nest)
import qualified Development.IDE.GHC.Compat.Util as Util
import Development.IDE.GHC.Error
import Development.IDE.GHC.Util hiding
(modifyDynFlags)
import Development.IDE.Graph
import Development.IDE.Import.DependencyInformation
import Development.IDE.Import.FindImports
import qualified Development.IDE.Spans.AtPoint as AtPoint
import Development.IDE.Spans.Documentation
import Development.IDE.Spans.LocalBindings
import Development.IDE.Types.Diagnostics as Diag
import Development.IDE.Types.HscEnvEq
import Development.IDE.Types.Location
import Development.IDE.Types.Options
import qualified GHC.LanguageExtensions as LangExt
import qualified HieDb
import Ide.Plugin.Config
import qualified Language.LSP.Server as LSP
import Language.LSP.Types (SMethod (SCustomMethod, SWindowShowMessage), ShowMessageParams (ShowMessageParams), MessageType (MtInfo))
import Language.LSP.VFS
import System.Directory (makeAbsolute, doesFileExist)
import Data.Default (def, Default)
import Ide.Plugin.Properties (HasProperty,
KeyNameProxy,
Properties,
ToHsType,
useProperty)
import Ide.PluginUtils (configForPlugin)
import Ide.Types (DynFlagsModifications (dynFlagsModifyGlobal, dynFlagsModifyParser),
PluginId, PluginDescriptor (pluginId), IdePlugins (IdePlugins))
import Control.Concurrent.STM.Stats (atomically)
import Language.LSP.Server (LspT)
import System.Info.Extra (isWindows)
import HIE.Bios.Ghc.Gap (hostIsDynamic)
import Development.IDE.Types.Logger (Recorder, logWith, cmapWithPrio, WithPriority, Pretty (pretty), (<+>), nest, vcat)
import qualified Development.IDE.Core.Shake as Shake
import qualified Development.IDE.Types.Logger as Logger
import qualified Development.IDE.Types.Shake as Shake
import Development.IDE.GHC.CoreFile
import Data.Time.Clock.POSIX (posixSecondsToUTCTime)
import Control.Monad.IO.Unlift
#if MIN_VERSION_ghc(9,3,0)
import GHC.Unit.Module.Graph
import GHC.Unit.Env
#endif
#if MIN_VERSION_ghc(9,5,0)
import GHC.Unit.Home.ModInfo
#endif
data Log
= LogShake Shake.Log
| LogReindexingHieFile !NormalizedFilePath
| LogLoadingHieFile !NormalizedFilePath
| LogLoadingHieFileFail !FilePath !SomeException
| LogLoadingHieFileSuccess !FilePath
| LogTypecheckedFOI !NormalizedFilePath
deriving Show
instance Pretty Log where
pretty = \case
LogShake log -> pretty log
LogReindexingHieFile path ->
"Re-indexing hie file for" <+> pretty (fromNormalizedFilePath path)
LogLoadingHieFile path ->
"LOADING HIE FILE FOR" <+> pretty (fromNormalizedFilePath path)
LogLoadingHieFileFail path e ->
nest 2 $
vcat
[ "FAILED LOADING HIE FILE FOR" <+> pretty path
, pretty (displayException e) ]
LogLoadingHieFileSuccess path ->
"SUCCEEDED LOADING HIE FILE FOR" <+> pretty path
LogTypecheckedFOI path -> vcat
[ "Typechecked a file which is not currently open in the editor:" <+> pretty (fromNormalizedFilePath path)
, "This can indicate a bug which results in excessive memory usage."
, "This may be a spurious warning if you have recently closed the file."
, "If you haven't opened this file recently, please file a report on the issue tracker mentioning"
<+> "the HLS version being used, the plugins enabled, and if possible the codebase and file which"
<+> "triggered this warning."
]
templateHaskellInstructions :: T.Text
templateHaskellInstructions = "https://haskell-language-server.readthedocs.io/en/latest/troubleshooting.html#static-binaries"
-- | This is useful for rules to convert rules that can only produce errors or
-- a result into the more general IdeResult type that supports producing
-- warnings while also producing a result.
toIdeResult :: Either [FileDiagnostic] v -> IdeResult v
toIdeResult = either (, Nothing) (([],) . Just)
------------------------------------------------------------
-- Exposed API
------------------------------------------------------------
-- | Get all transitive file dependencies of a given module.
-- Does not include the file itself.
getDependencies :: NormalizedFilePath -> Action (Maybe [NormalizedFilePath])
getDependencies file =
fmap transitiveModuleDeps . (`transitiveDeps` file) <$> use_ GetDependencyInformation file
getSourceFileSource :: NormalizedFilePath -> Action BS.ByteString
getSourceFileSource nfp = do
(_, msource) <- getFileContents nfp
case msource of
Nothing -> liftIO $ BS.readFile (fromNormalizedFilePath nfp)
Just source -> pure $ T.encodeUtf8 source
-- | Parse the contents of a haskell file.
getParsedModule :: NormalizedFilePath -> Action (Maybe ParsedModule)
getParsedModule = use GetParsedModule
-- | Parse the contents of a haskell file,
-- ensuring comments are preserved in annotations
getParsedModuleWithComments :: NormalizedFilePath -> Action (Maybe ParsedModule)
getParsedModuleWithComments = use GetParsedModuleWithComments
------------------------------------------------------------
-- Rules
-- These typically go from key to value and are oracles.
priorityTypeCheck :: Priority
priorityTypeCheck = Priority 0
priorityGenerateCore :: Priority
priorityGenerateCore = Priority (-1)
priorityFilesOfInterest :: Priority
priorityFilesOfInterest = Priority (-2)
-- | WARNING:
-- We currently parse the module both with and without Opt_Haddock, and
-- return the one with Haddocks if it -- succeeds. However, this may not work
-- for hlint or any client code that might need the parsed source with all
-- annotations, including comments.
-- For that use case you might want to use `getParsedModuleWithCommentsRule`
-- See https://github.com/haskell/ghcide/pull/350#discussion_r370878197
-- and https://github.com/mpickering/ghcide/pull/22#issuecomment-625070490
-- GHC wiki about: https://gitlab.haskell.org/ghc/ghc/-/wikis/api-annotations
getParsedModuleRule :: Recorder (WithPriority Log) -> Rules ()
getParsedModuleRule recorder =
-- this rule does not have early cutoff since all its dependencies already have it
define (cmapWithPrio LogShake recorder) $ \GetParsedModule file -> do
ModSummaryResult{msrModSummary = ms', msrHscEnv = hsc} <- use_ GetModSummary file
opt <- getIdeOptions
modify_dflags <- getModifyDynFlags dynFlagsModifyParser
let ms = ms' { ms_hspp_opts = modify_dflags $ ms_hspp_opts ms' }
reset_ms pm = pm { pm_mod_summary = ms' }
-- We still parse with Haddocks whether Opt_Haddock is True or False to collect information
-- but we no longer need to parse with and without Haddocks separately for above GHC90.
res@(_,pmod) <- if Compat.ghcVersion >= Compat.GHC90 then
liftIO $ (fmap.fmap.fmap) reset_ms $ getParsedModuleDefinition hsc opt file (withOptHaddock ms)
else do
let dflags = ms_hspp_opts ms
mainParse = getParsedModuleDefinition hsc opt file ms
-- Parse again (if necessary) to capture Haddock parse errors
if gopt Opt_Haddock dflags
then
liftIO $ (fmap.fmap.fmap) reset_ms mainParse
else do
let haddockParse = getParsedModuleDefinition hsc opt file (withOptHaddock ms)
-- parse twice, with and without Haddocks, concurrently
-- we cannot ignore Haddock parse errors because files of
-- non-interest are always parsed with Haddocks
-- If we can parse Haddocks, might as well use them
((diags,res),(diagsh,resh)) <- liftIO $ (fmap.fmap.fmap.fmap) reset_ms $ concurrently mainParse haddockParse
-- Merge haddock and regular diagnostics so we can always report haddock
-- parse errors
let diagsM = mergeParseErrorsHaddock diags diagsh
case resh of
Just _
| HaddockParse <- optHaddockParse opt
-> pure (diagsM, resh)
-- If we fail to parse haddocks, report the haddock diagnostics as well and
-- return the non-haddock parse.
-- This seems to be the correct behaviour because the Haddock flag is added
-- by us and not the user, so our IDE shouldn't stop working because of it.
_ -> pure (diagsM, res)
-- Add dependencies on included files
_ <- uses GetModificationTime $ map toNormalizedFilePath' (maybe [] pm_extra_src_files pmod)
pure res
withOptHaddock :: ModSummary -> ModSummary
withOptHaddock = withOption Opt_Haddock
withOption :: GeneralFlag -> ModSummary -> ModSummary
withOption opt ms = ms{ms_hspp_opts= gopt_set (ms_hspp_opts ms) opt}
withoutOption :: GeneralFlag -> ModSummary -> ModSummary
withoutOption opt ms = ms{ms_hspp_opts= gopt_unset (ms_hspp_opts ms) opt}
-- | Given some normal parse errors (first) and some from Haddock (second), merge them.
-- Ignore Haddock errors that are in both. Demote Haddock-only errors to warnings.
mergeParseErrorsHaddock :: [FileDiagnostic] -> [FileDiagnostic] -> [FileDiagnostic]
mergeParseErrorsHaddock normal haddock = normal ++
[ (a,b,c{_severity = Just DsWarning, _message = fixMessage $ _message c})
| (a,b,c) <- haddock, Diag._range c `Set.notMember` locations]
where
locations = Set.fromList $ map (Diag._range . thd3) normal
fixMessage x | "parse error " `T.isPrefixOf` x = "Haddock " <> x
| otherwise = "Haddock: " <> x
-- | This rule provides a ParsedModule preserving all annotations,
-- including keywords, punctuation and comments.
-- So it is suitable for use cases where you need a perfect edit.
getParsedModuleWithCommentsRule :: Recorder (WithPriority Log) -> Rules ()
getParsedModuleWithCommentsRule recorder =
-- The parse diagnostics are owned by the GetParsedModule rule
-- For this reason, this rule does not produce any diagnostics
defineNoDiagnostics (cmapWithPrio LogShake recorder) $ \GetParsedModuleWithComments file -> do
ModSummaryResult{msrModSummary = ms, msrHscEnv = hsc} <- use_ GetModSummary file
opt <- getIdeOptions
let ms' = withoutOption Opt_Haddock $ withOption Opt_KeepRawTokenStream ms
modify_dflags <- getModifyDynFlags dynFlagsModifyParser
let ms = ms' { ms_hspp_opts = modify_dflags $ ms_hspp_opts ms' }
reset_ms pm = pm { pm_mod_summary = ms' }
liftIO $ fmap (fmap reset_ms) $ snd <$> getParsedModuleDefinition hsc opt file ms
getModifyDynFlags :: (DynFlagsModifications -> a) -> Action a
getModifyDynFlags f = do
opts <- getIdeOptions
cfg <- getClientConfigAction
pure $ f $ optModifyDynFlags opts cfg
getParsedModuleDefinition
:: HscEnv
-> IdeOptions
-> NormalizedFilePath
-> ModSummary -> IO ([FileDiagnostic], Maybe ParsedModule)
getParsedModuleDefinition packageState opt file ms = do
let fp = fromNormalizedFilePath file
(diag, res) <- parseModule opt packageState fp ms
case res of
Nothing -> pure (diag, Nothing)
Just modu -> pure (diag, Just modu)
getLocatedImportsRule :: Recorder (WithPriority Log) -> Rules ()
getLocatedImportsRule recorder =
define (cmapWithPrio LogShake recorder) $ \GetLocatedImports file -> do
ModSummaryResult{msrModSummary = ms} <- use_ GetModSummaryWithoutTimestamps file
targets <- useNoFile_ GetKnownTargets
let targetsMap = HM.mapWithKey const targets
let imports = [(False, imp) | imp <- ms_textual_imps ms] ++ [(True, imp) | imp <- ms_srcimps ms]
env_eq <- use_ GhcSession file
let env = hscEnvWithImportPaths env_eq
let import_dirs = deps env_eq
let dflags = hsc_dflags env
isImplicitCradle = isNothing $ envImportPaths env_eq
dflags <- return $ if isImplicitCradle
then addRelativeImport file (moduleName $ ms_mod ms) dflags
else dflags
opt <- getIdeOptions
let getTargetFor modName nfp
| isImplicitCradle = do
itExists <- getFileExists nfp
return $ if itExists then Just nfp else Nothing
| Just (TargetFile nfp') <- HM.lookup (TargetFile nfp) targetsMap = do
-- reuse the existing NormalizedFilePath in order to maximize sharing
itExists <- getFileExists nfp'
return $ if itExists then Just nfp' else Nothing
| Just tt <- HM.lookup (TargetModule modName) targets = do
-- reuse the existing NormalizedFilePath in order to maximize sharing
let ttmap = HM.mapWithKey const (HashSet.toMap tt)
nfp' = HM.lookupDefault nfp nfp ttmap
itExists <- getFileExists nfp'
return $ if itExists then Just nfp' else Nothing
| otherwise
= return Nothing
(diags, imports') <- fmap unzip $ forM imports $ \(isSource, (mbPkgName, modName)) -> do
diagOrImp <- locateModule (hscSetFlags dflags env) import_dirs (optExtensions opt) getTargetFor modName mbPkgName isSource
case diagOrImp of
Left diags -> pure (diags, Just (modName, Nothing))
Right (FileImport path) -> pure ([], Just (modName, Just path))
Right PackageImport -> pure ([], Nothing)
{- IS THIS REALLY NEEDED? DOESNT SEEM SO
-- does this module have an hs-boot file? If so add a direct dependency
let bootPath = toNormalizedFilePath' $ fromNormalizedFilePath file <.> "hs-boot"
boot <- use GetFileExists bootPath
bootArtifact <- if boot == Just True
then do
let modName = ms_mod_name ms
loc <- liftIO $ mkHomeModLocation dflags modName (fromNormalizedFilePath bootPath)
return $ Just (noLoc modName, Just (ArtifactsLocation bootPath (Just loc) True))
else pure Nothing
-}
let bootArtifact = Nothing
let moduleImports = catMaybes $ bootArtifact : imports'
pure (concat diags, Just moduleImports)
type RawDepM a = StateT (RawDependencyInformation, IntMap ArtifactsLocation) Action a
execRawDepM :: Monad m => StateT (RawDependencyInformation, IntMap a1) m a2 -> m (RawDependencyInformation, IntMap a1)
execRawDepM act =
execStateT act
( RawDependencyInformation IntMap.empty emptyPathIdMap IntMap.empty IntMap.empty
, IntMap.empty
)
-- | Given a target file path, construct the raw dependency results by following
-- imports recursively.
rawDependencyInformation :: [NormalizedFilePath] -> Action RawDependencyInformation
rawDependencyInformation fs = do
(rdi, ss) <- execRawDepM (goPlural fs)
let bm = IntMap.foldrWithKey (updateBootMap rdi) IntMap.empty ss
return (rdi { rawBootMap = bm })
where
goPlural ff = do
mss <- lift $ (fmap.fmap) msrModSummary <$> uses GetModSummaryWithoutTimestamps ff
zipWithM go ff mss
go :: NormalizedFilePath -- ^ Current module being processed
-> Maybe ModSummary -- ^ ModSummary of the module
-> RawDepM FilePathId
go f msum = do
-- First check to see if we have already processed the FilePath
-- If we have, just return its Id but don't update any of the state.
-- Otherwise, we need to process its imports.
checkAlreadyProcessed f $ do
let al = modSummaryToArtifactsLocation f msum
-- Get a fresh FilePathId for the new file
fId <- getFreshFid al
-- Record this module and its location
whenJust msum $ \ms ->
modifyRawDepInfo (\rd -> rd { rawModuleNameMap = IntMap.insert (getFilePathId fId)
(ShowableModuleName (moduleName $ ms_mod ms))
(rawModuleNameMap rd)})
-- Adding an edge to the bootmap so we can make sure to
-- insert boot nodes before the real files.
addBootMap al fId
-- Try to parse the imports of the file
importsOrErr <- lift $ use GetLocatedImports f
case importsOrErr of
Nothing -> do
-- File doesn't parse so add the module as a failure into the
-- dependency information, continue processing the other
-- elements in the queue
modifyRawDepInfo (insertImport fId (Left ModuleParseError))
return fId
Just modImports -> do
-- Get NFPs of the imports which have corresponding files
-- Imports either come locally from a file or from a package.
let (no_file, with_file) = splitImports modImports
(mns, ls) = unzip with_file
-- Recursively process all the imports we just learnt about
-- and get back a list of their FilePathIds
fids <- goPlural $ map artifactFilePath ls
-- Associate together the ModuleName with the FilePathId
let moduleImports' = map (,Nothing) no_file ++ zip mns (map Just fids)
-- Insert into the map the information about this modules
-- imports.
modifyRawDepInfo $ insertImport fId (Right $ ModuleImports moduleImports')
return fId
checkAlreadyProcessed :: NormalizedFilePath -> RawDepM FilePathId -> RawDepM FilePathId
checkAlreadyProcessed nfp k = do
(rawDepInfo, _) <- get
maybe k return (lookupPathToId (rawPathIdMap rawDepInfo) nfp)
modifyRawDepInfo :: (RawDependencyInformation -> RawDependencyInformation) -> RawDepM ()
modifyRawDepInfo f = modify (first f)
addBootMap :: ArtifactsLocation -> FilePathId -> RawDepM ()
addBootMap al fId =
modify (\(rd, ss) -> (rd, if isBootLocation al
then IntMap.insert (getFilePathId fId) al ss
else ss))
getFreshFid :: ArtifactsLocation -> RawDepM FilePathId
getFreshFid al = do
(rawDepInfo, ss) <- get
let (fId, path_map) = getPathId al (rawPathIdMap rawDepInfo)
-- Insert the File into the bootmap if it's a boot module
let rawDepInfo' = rawDepInfo { rawPathIdMap = path_map }
put (rawDepInfo', ss)
return fId
-- Split in (package imports, local imports)
splitImports :: [(Located ModuleName, Maybe ArtifactsLocation)]
-> ([Located ModuleName], [(Located ModuleName, ArtifactsLocation)])
splitImports = foldr splitImportsLoop ([],[])
splitImportsLoop (imp, Nothing) (ns, ls) = (imp:ns, ls)
splitImportsLoop (imp, Just artifact) (ns, ls) = (ns, (imp,artifact) : ls)
updateBootMap pm boot_mod_id ArtifactsLocation{..} bm =
if not artifactIsSource
then
let msource_mod_id = lookupPathToId (rawPathIdMap pm) (toNormalizedFilePath' $ dropBootSuffix $ fromNormalizedFilePath artifactFilePath)
in case msource_mod_id of
Just source_mod_id -> insertBootId source_mod_id (FilePathId boot_mod_id) bm
Nothing -> bm
else bm
dropBootSuffix :: FilePath -> FilePath
dropBootSuffix hs_src = reverse . drop (length @[] "-boot") . reverse $ hs_src
getDependencyInformationRule :: Recorder (WithPriority Log) -> Rules ()
getDependencyInformationRule recorder =
define (cmapWithPrio LogShake recorder) $ \GetDependencyInformation file -> do
rawDepInfo <- rawDependencyInformation [file]
pure ([], Just $ processDependencyInformation rawDepInfo)
reportImportCyclesRule :: Recorder (WithPriority Log) -> Rules ()
reportImportCyclesRule recorder =
define (cmapWithPrio LogShake recorder) $ \ReportImportCycles file -> fmap (\errs -> if null errs then ([], Just ()) else (errs, Nothing)) $ do
DependencyInformation{..} <- use_ GetDependencyInformation file
let fileId = pathToId depPathIdMap file
case IntMap.lookup (getFilePathId fileId) depErrorNodes of
Nothing -> pure []
Just errs -> do
let cycles = mapMaybe (cycleErrorInFile fileId) (toList errs)
-- Convert cycles of files into cycles of module names
forM cycles $ \(imp, files) -> do
modNames <- forM files $ \fileId -> do
let file = idToPath depPathIdMap fileId
getModuleName file
pure $ toDiag imp $ sort modNames
where cycleErrorInFile f (PartOfCycle imp fs)
| f `elem` fs = Just (imp, fs)
cycleErrorInFile _ _ = Nothing
toDiag imp mods = (fp , ShowDiag , ) $ Diagnostic
{ _range = rng
, _severity = Just DsError
, _source = Just "Import cycle detection"
, _message = "Cyclic module dependency between " <> showCycle mods
, _code = Nothing
, _relatedInformation = Nothing
, _tags = Nothing
}
where rng = fromMaybe noRange $ srcSpanToRange (getLoc imp)
fp = toNormalizedFilePath' $ fromMaybe noFilePath $ srcSpanToFilename (getLoc imp)
getModuleName file = do
ms <- msrModSummary <$> use_ GetModSummaryWithoutTimestamps file
pure (moduleNameString . moduleName . ms_mod $ ms)
showCycle mods = T.intercalate ", " (map T.pack mods)
getHieAstsRule :: Recorder (WithPriority Log) -> Rules ()
getHieAstsRule recorder =
define (cmapWithPrio LogShake recorder) $ \GetHieAst f -> do
tmr <- use_ TypeCheck f
hsc <- hscEnv <$> use_ GhcSessionDeps f
getHieAstRuleDefinition f hsc tmr
persistentHieFileRule :: Recorder (WithPriority Log) -> Rules ()
persistentHieFileRule recorder = addPersistentRule GetHieAst $ \file -> runMaybeT $ do
res <- readHieFileForSrcFromDisk recorder file
vfsRef <- asks vfsVar
vfsData <- liftIO $ _vfsMap <$> readTVarIO vfsRef
(currentSource, ver) <- liftIO $ case M.lookup (filePathToUri' file) vfsData of
Nothing -> (,Nothing) . T.decodeUtf8 <$> BS.readFile (fromNormalizedFilePath file)
Just vf -> pure (Rope.toText $ _file_text vf, Just $ _lsp_version vf)
let refmap = Compat.generateReferencesMap . Compat.getAsts . Compat.hie_asts $ res
del = deltaFromDiff (T.decodeUtf8 $ Compat.hie_hs_src res) currentSource
pure (HAR (Compat.hie_module res) (Compat.hie_asts res) refmap mempty (HieFromDisk res),del,ver)
getHieAstRuleDefinition :: NormalizedFilePath -> HscEnv -> TcModuleResult -> Action (IdeResult HieAstResult)
getHieAstRuleDefinition f hsc tmr = do
(diags, masts) <- liftIO $ generateHieAsts hsc tmr
se <- getShakeExtras
isFoi <- use_ IsFileOfInterest f
diagsWrite <- case isFoi of
IsFOI Modified{firstOpen = False} -> do
when (coerce $ ideTesting se) $ liftIO $ mRunLspT (lspEnv se) $
LSP.sendNotification (SCustomMethod "ghcide/reference/ready") $
toJSON $ fromNormalizedFilePath f
pure []
_ | Just asts <- masts -> do
source <- getSourceFileSource f
let exports = tcg_exports $ tmrTypechecked tmr
msum = tmrModSummary tmr
liftIO $ writeAndIndexHieFile hsc se msum f exports asts source
_ -> pure []
let refmap = Compat.generateReferencesMap . Compat.getAsts <$> masts
typemap = AtPoint.computeTypeReferences . Compat.getAsts <$> masts
pure (diags <> diagsWrite, HAR (ms_mod $ tmrModSummary tmr) <$> masts <*> refmap <*> typemap <*> pure HieFresh)
getImportMapRule :: Recorder (WithPriority Log) -> Rules ()
getImportMapRule recorder = define (cmapWithPrio LogShake recorder) $ \GetImportMap f -> do
im <- use GetLocatedImports f
let mkImports fileImports = M.fromList $ mapMaybe (\(m, mfp) -> (unLoc m,) . artifactFilePath <$> mfp) fileImports
pure ([], ImportMap . mkImports <$> im)
-- | Ensure that go to definition doesn't block on startup
persistentImportMapRule :: Rules ()
persistentImportMapRule = addPersistentRule GetImportMap $ \_ -> pure $ Just (ImportMap mempty, idDelta, Nothing)
getBindingsRule :: Recorder (WithPriority Log) -> Rules ()
getBindingsRule recorder =
define (cmapWithPrio LogShake recorder) $ \GetBindings f -> do
HAR{hieKind=kind, refMap=rm} <- use_ GetHieAst f
case kind of
HieFresh -> pure ([], Just $ bindings rm)
HieFromDisk _ -> pure ([], Nothing)
getDocMapRule :: Recorder (WithPriority Log) -> Rules ()
getDocMapRule recorder =
define (cmapWithPrio LogShake recorder) $ \GetDocMap file -> do
-- Stale data for the scenario where a broken module has previously typechecked
-- but we never generated a DocMap for it
(tmrTypechecked -> tc, _) <- useWithStale_ TypeCheck file
(hscEnv -> hsc, _) <- useWithStale_ GhcSessionDeps file
(HAR{refMap=rf}, _) <- useWithStale_ GetHieAst file
dkMap <- liftIO $ mkDocMap hsc rf tc
return ([],Just dkMap)
-- | Persistent rule to ensure that hover doesn't block on startup
persistentDocMapRule :: Rules ()
persistentDocMapRule = addPersistentRule GetDocMap $ \_ -> pure $ Just (DKMap mempty mempty, idDelta, Nothing)
readHieFileForSrcFromDisk :: Recorder (WithPriority Log) -> NormalizedFilePath -> MaybeT IdeAction Compat.HieFile
readHieFileForSrcFromDisk recorder file = do
ShakeExtras{withHieDb} <- ask
row <- MaybeT $ liftIO $ withHieDb (\hieDb -> HieDb.lookupHieFileFromSource hieDb $ fromNormalizedFilePath file)
let hie_loc = HieDb.hieModuleHieFile row
liftIO $ logWith recorder Logger.Debug $ LogLoadingHieFile file
exceptToMaybeT $ readHieFileFromDisk recorder hie_loc
readHieFileFromDisk :: Recorder (WithPriority Log) -> FilePath -> ExceptT SomeException IdeAction Compat.HieFile
readHieFileFromDisk recorder hie_loc = do
nc <- asks ideNc
res <- liftIO $ tryAny $ loadHieFile (mkUpdater nc) hie_loc
let log = (liftIO .) . logWith recorder
case res of
Left e -> log Logger.Debug $ LogLoadingHieFileFail hie_loc e
Right _ -> log Logger.Debug $ LogLoadingHieFileSuccess hie_loc
except res
-- | Typechecks a module.
typeCheckRule :: Recorder (WithPriority Log) -> Rules ()
typeCheckRule recorder = define (cmapWithPrio LogShake recorder) $ \TypeCheck file -> do
pm <- use_ GetParsedModule file
hsc <- hscEnv <$> use_ GhcSessionDeps file
foi <- use_ IsFileOfInterest file
-- We should only call the typecheck rule for files of interest.
-- Keeping typechecked modules in memory for other files is
-- very expensive.
when (foi == NotFOI) $
logWith recorder Logger.Warning $ LogTypecheckedFOI file
typeCheckRuleDefinition hsc pm
knownFilesRule :: Recorder (WithPriority Log) -> Rules ()
knownFilesRule recorder = defineEarlyCutOffNoFile (cmapWithPrio LogShake recorder) $ \GetKnownTargets -> do
alwaysRerun
fs <- knownTargets
pure (LBS.toStrict $ B.encode $ hash fs, unhashed fs)
getModuleGraphRule :: Recorder (WithPriority Log) -> Rules ()
getModuleGraphRule recorder = defineNoFile (cmapWithPrio LogShake recorder) $ \GetModuleGraph -> do
fs <- toKnownFiles <$> useNoFile_ GetKnownTargets
rawDepInfo <- rawDependencyInformation (HashSet.toList fs)
pure $ processDependencyInformation rawDepInfo
-- This is factored out so it can be directly called from the GetModIface
-- rule. Directly calling this rule means that on the initial load we can
-- garbage collect all the intermediate typechecked modules rather than
-- retain the information forever in the shake graph.
typeCheckRuleDefinition
:: HscEnv
-> ParsedModule
-> Action (IdeResult TcModuleResult)
typeCheckRuleDefinition hsc pm = do
setPriority priorityTypeCheck
IdeOptions { optDefer = defer } <- getIdeOptions
unlift <- askUnliftIO
let dets = TypecheckHelpers
{ getLinkables = unliftIO unlift . uses_ GetLinkable
}
addUsageDependencies $ liftIO $
typecheckModule defer hsc dets pm
where
addUsageDependencies :: Action (a, Maybe TcModuleResult) -> Action (a, Maybe TcModuleResult)
addUsageDependencies a = do
r@(_, mtc) <- a
forM_ mtc $ \tc -> do
used_files <- liftIO $ readIORef $ tcg_dependent_files $ tmrTypechecked tc
void $ uses_ GetModificationTime (map toNormalizedFilePath' used_files)
return r
-- | Get all the linkables stored in the graph, i.e. the ones we *do not* need to unload.
-- Doesn't actually contain the code, since we don't need it to unload
currentLinkables :: Action (ModuleEnv UTCTime)
currentLinkables = do
compiledLinkables <- getCompiledLinkables <$> getIdeGlobalAction
liftIO $ readVar compiledLinkables
loadGhcSession :: Recorder (WithPriority Log) -> GhcSessionDepsConfig -> Rules ()
loadGhcSession recorder ghcSessionDepsConfig = do
-- This function should always be rerun because it tracks changes
-- to the version of the collection of HscEnv's.
defineEarlyCutOffNoFile (cmapWithPrio LogShake recorder) $ \GhcSessionIO -> do
alwaysRerun
opts <- getIdeOptions
res <- optGhcSession opts
let fingerprint = LBS.toStrict $ B.encode $ hash (sessionVersion res)
return (fingerprint, res)
defineEarlyCutoff (cmapWithPrio LogShake recorder) $ Rule $ \GhcSession file -> do
IdeGhcSession{loadSessionFun} <- useNoFile_ GhcSessionIO
(val,deps) <- liftIO $ loadSessionFun $ fromNormalizedFilePath file
-- add the deps to the Shake graph
let addDependency fp = do
-- VSCode uses absolute paths in its filewatch notifications
afp <- liftIO $ makeAbsolute fp
let nfp = toNormalizedFilePath' afp
itExists <- getFileExists nfp
when itExists $ void $ do
use_ GetModificationTime nfp
mapM_ addDependency deps
let cutoffHash = LBS.toStrict $ B.encode (hash (snd val))
return (Just cutoffHash, val)
defineNoDiagnostics (cmapWithPrio LogShake recorder) $ \(GhcSessionDeps_ fullModSummary) file -> do
env <- use_ GhcSession file
ghcSessionDepsDefinition fullModSummary ghcSessionDepsConfig env file
newtype GhcSessionDepsConfig = GhcSessionDepsConfig
{ checkForImportCycles :: Bool
}
instance Default GhcSessionDepsConfig where
def = GhcSessionDepsConfig
{ checkForImportCycles = True
}
-- | Note [GhcSessionDeps]
-- For a file 'Foo', GhcSessionDeps "Foo.hs" results in an HscEnv which includes
-- 1. HomeModInfo's (in the HUG/HPT) for all modules in the transitive closure of "Foo", **NOT** including "Foo" itself.
-- 2. ModSummary's (in the ModuleGraph) for all modules in the transitive closure of "Foo", including "Foo" itself.
-- 3. ModLocation's (in the FinderCache) all modules in the transitive closure of "Foo", including "Foo" itself.
ghcSessionDepsDefinition
:: -- | full mod summary
Bool ->
GhcSessionDepsConfig -> HscEnvEq -> NormalizedFilePath -> Action (Maybe HscEnvEq)
ghcSessionDepsDefinition fullModSummary GhcSessionDepsConfig{..} env file = do
let hsc = hscEnv env
mbdeps <- mapM(fmap artifactFilePath . snd) <$> use_ GetLocatedImports file
case mbdeps of
Nothing -> return Nothing
Just deps -> do
when checkForImportCycles $ void $ uses_ ReportImportCycles deps
ms <- msrModSummary <$> if fullModSummary
then use_ GetModSummary file
else use_ GetModSummaryWithoutTimestamps file
depSessions <- map hscEnv <$> uses_ (GhcSessionDeps_ fullModSummary) deps
ifaces <- uses_ GetModIface deps
let inLoadOrder = map (\HiFileResult{..} -> HomeModInfo hirModIface hirModDetails emptyHomeModInfoLinkable) ifaces
#if MIN_VERSION_ghc(9,3,0)
-- On GHC 9.4+, the module graph contains not only ModSummary's but each `ModuleNode` in the graph
-- also points to all the direct descendants of the current module. To get the keys for the descendants
-- we must get their `ModSummary`s
!final_deps <- do
dep_mss <- map msrModSummary <$> uses_ GetModSummaryWithoutTimestamps deps
-- Don't want to retain references to the entire ModSummary when just the key will do
return $!! map (NodeKey_Module . msKey) dep_mss
let moduleNode = (ms, final_deps)
#else
let moduleNode = ms
#endif
session' <- liftIO $ mergeEnvs hsc moduleNode inLoadOrder depSessions
Just <$> liftIO (newHscEnvEqWithImportPaths (envImportPaths env) session' [])
-- | Load a iface from disk, or generate it if there isn't one or it is out of date
-- This rule also ensures that the `.hie` and `.o` (if needed) files are written out.
getModIfaceFromDiskRule :: Recorder (WithPriority Log) -> Rules ()
getModIfaceFromDiskRule recorder = defineEarlyCutoff (cmapWithPrio LogShake recorder) $ RuleWithOldValue $ \GetModIfaceFromDisk f old -> do
ms <- msrModSummary <$> use_ GetModSummary f
mb_session <- use GhcSessionDeps f
case mb_session of
Nothing -> return (Nothing, ([], Nothing))
Just session -> do
linkableType <- getLinkableType f
ver <- use_ GetModificationTime f
ShakeExtras{ideNc} <- getShakeExtras
let m_old = case old of
Shake.Succeeded (Just old_version) v -> Just (v, old_version)
Shake.Stale _ (Just old_version) v -> Just (v, old_version)
_ -> Nothing
recompInfo = RecompilationInfo
{ source_version = ver
, old_value = m_old
, get_file_version = use GetModificationTime_{missingFileDiagnostics = False}
, get_linkable_hashes = \fs -> map (snd . fromJust . hirCoreFp) <$> uses_ GetModIface fs
, regenerate = regenerateHiFile session f ms
}
r <- loadInterface (hscEnv session) ms linkableType recompInfo
case r of
(diags, Nothing) -> return (Nothing, (diags, Nothing))
(diags, Just x) -> do
let !fp = Just $! hiFileFingerPrint x
return (fp, (diags, Just x))
-- | Check state of hiedb after loading an iface from disk - have we indexed the corresponding `.hie` file?
-- This function is responsible for ensuring database consistency
-- Whenever we read a `.hi` file, we must check to ensure we have also
-- indexed the corresponding `.hie` file. If this is not the case (for example,
-- `ghcide` could be killed before indexing finishes), we must re-index the
-- `.hie` file. There should be an up2date `.hie` file on
-- disk since we are careful to write out the `.hie` file before writing the
-- `.hi` file
getModIfaceFromDiskAndIndexRule :: Recorder (WithPriority Log) -> Rules ()
getModIfaceFromDiskAndIndexRule recorder =
-- doesn't need early cutoff since all its dependencies already have it
defineNoDiagnostics (cmapWithPrio LogShake recorder) $ \GetModIfaceFromDiskAndIndex f -> do
x <- use_ GetModIfaceFromDisk f
se@ShakeExtras{withHieDb} <- getShakeExtras
-- GetModIfaceFromDisk should have written a `.hie` file, must check if it matches version in db
let ms = hirModSummary x
hie_loc = Compat.ml_hie_file $ ms_location ms
hash <- liftIO $ Util.getFileHash hie_loc
mrow <- liftIO $ withHieDb (\hieDb -> HieDb.lookupHieFileFromSource hieDb (fromNormalizedFilePath f))
hie_loc' <- liftIO $ traverse (makeAbsolute . HieDb.hieModuleHieFile) mrow
case mrow of
Just row
| hash == HieDb.modInfoHash (HieDb.hieModInfo row)
&& Just hie_loc == hie_loc'
-> do
-- All good, the db has indexed the file
when (coerce $ ideTesting se) $ liftIO $ mRunLspT (lspEnv se) $
LSP.sendNotification (SCustomMethod "ghcide/reference/ready") $
toJSON $ fromNormalizedFilePath f
-- Not in db, must re-index
_ -> do
ehf <- liftIO $ runIdeAction "GetModIfaceFromDiskAndIndex" se $ runExceptT $
readHieFileFromDisk recorder hie_loc
case ehf of
-- Uh oh, we failed to read the file for some reason, need to regenerate it
Left err -> fail $ "failed to read .hie file " ++ show hie_loc ++ ": " ++ displayException err
-- can just re-index the file we read from disk
Right hf -> liftIO $ do
logWith recorder Logger.Debug $ LogReindexingHieFile f
indexHieFile se ms f hash hf
return (Just x)
newtype DisplayTHWarning = DisplayTHWarning (IO())
instance IsIdeGlobal DisplayTHWarning
getModSummaryRule :: LspT Config IO () -> Recorder (WithPriority Log) -> Rules ()
getModSummaryRule displayTHWarning recorder = do
menv <- lspEnv <$> getShakeExtrasRules
case menv of
Just env -> do
displayItOnce <- liftIO $ once $ LSP.runLspT env displayTHWarning
addIdeGlobal (DisplayTHWarning displayItOnce)
Nothing -> do
logItOnce <- liftIO $ once $ putStrLn ""
addIdeGlobal (DisplayTHWarning logItOnce)
defineEarlyCutoff (cmapWithPrio LogShake recorder) $ Rule $ \GetModSummary f -> do
session' <- hscEnv <$> use_ GhcSession f
modify_dflags <- getModifyDynFlags dynFlagsModifyGlobal
let session = hscSetFlags (modify_dflags $ hsc_dflags session') session'
(modTime, mFileContent) <- getFileContents f
let fp = fromNormalizedFilePath f
modS <- liftIO $ runExceptT $
getModSummaryFromImports session fp modTime (textToStringBuffer <$> mFileContent)
case modS of
Right res -> do
-- Check for Template Haskell
when (uses_th_qq $ msrModSummary res) $ do
DisplayTHWarning act <- getIdeGlobalAction
liftIO act
#if MIN_VERSION_ghc(9,3,0)
let bufFingerPrint = ms_hs_hash (msrModSummary res)
#else
bufFingerPrint <- liftIO $
fingerprintFromStringBuffer $ fromJust $ ms_hspp_buf $ msrModSummary res
#endif
let fingerPrint = Util.fingerprintFingerprints
[ msrFingerprint res, bufFingerPrint ]
return ( Just (fingerprintToBS fingerPrint) , ([], Just res))
Left diags -> return (Nothing, (diags, Nothing))
defineEarlyCutoff (cmapWithPrio LogShake recorder) $ RuleNoDiagnostics $ \GetModSummaryWithoutTimestamps f -> do
ms <- use GetModSummary f
case ms of
Just res@ModSummaryResult{..} -> do
let ms = msrModSummary {
#if !MIN_VERSION_ghc(9,3,0)
ms_hs_date = error "use GetModSummary instead of GetModSummaryWithoutTimestamps",
#endif
ms_hspp_buf = error "use GetModSummary instead of GetModSummaryWithoutTimestamps"
}
fp = fingerprintToBS msrFingerprint
return (Just fp, Just res{msrModSummary = ms})
Nothing -> return (Nothing, Nothing)
generateCore :: RunSimplifier -> NormalizedFilePath -> Action (IdeResult ModGuts)
generateCore runSimplifier file = do
packageState <- hscEnv <$> use_ GhcSessionDeps file
tm <- use_ TypeCheck file
setPriority priorityGenerateCore
liftIO $ compileModule runSimplifier packageState (tmrModSummary tm) (tmrTypechecked tm)
generateCoreRule :: Recorder (WithPriority Log) -> Rules ()
generateCoreRule recorder =
define (cmapWithPrio LogShake recorder) $ \GenerateCore -> generateCore (RunSimplifier True)
getModIfaceRule :: Recorder (WithPriority Log) -> Rules ()
getModIfaceRule recorder = defineEarlyCutoff (cmapWithPrio LogShake recorder) $ Rule $ \GetModIface f -> do
fileOfInterest <- use_ IsFileOfInterest f
res@(_,(_,mhmi)) <- case fileOfInterest of
IsFOI status -> do
-- Never load from disk for files of interest
tmr <- use_ TypeCheck f
linkableType <- getLinkableType f
hsc <- hscEnv <$> use_ GhcSessionDeps f
let compile = fmap ([],) $ use GenerateCore f
se <- getShakeExtras
(diags, !hiFile) <- writeCoreFileIfNeeded se hsc linkableType compile tmr
let fp = hiFileFingerPrint <$> hiFile
hiDiags <- case hiFile of
Just hiFile
| OnDisk <- status
, not (tmrDeferredError tmr) -> liftIO $ writeHiFile se hsc hiFile
_ -> pure []
return (fp, (diags++hiDiags, hiFile))
NotFOI -> do
hiFile <- use GetModIfaceFromDiskAndIndex f
let fp = hiFileFingerPrint <$> hiFile
return (fp, ([], hiFile))
pure res
-- | Count of total times we asked GHC to recompile
newtype RebuildCounter = RebuildCounter { getRebuildCountVar :: TVar Int }
instance IsIdeGlobal RebuildCounter
getRebuildCount :: Action Int
getRebuildCount = do
count <- getRebuildCountVar <$> getIdeGlobalAction
liftIO $ readTVarIO count
incrementRebuildCount :: Action ()
incrementRebuildCount = do
count <- getRebuildCountVar <$> getIdeGlobalAction
liftIO $ atomically $ modifyTVar' count (+1)
-- | Also generates and indexes the `.hie` file, along with the `.o` file if needed
-- Invariant maintained is that if the `.hi` file was successfully written, then the
-- `.hie` and `.o` file (if needed) were also successfully written
regenerateHiFile :: HscEnvEq -> NormalizedFilePath -> ModSummary -> Maybe LinkableType -> Action ([FileDiagnostic], Maybe HiFileResult)
regenerateHiFile sess f ms compNeeded = do
let hsc = hscEnv sess
opt <- getIdeOptions
-- Embed haddocks in the interface file
(diags, mb_pm) <- liftIO $ getParsedModuleDefinition hsc opt f (withOptHaddock ms)
(diags, mb_pm) <-
-- We no longer need to parse again if GHC version is above 9.0. https://github.com/haskell/haskell-language-server/issues/1892
if Compat.ghcVersion >= Compat.GHC90 || isJust mb_pm then do
return (diags, mb_pm)
else do
-- if parsing fails, try parsing again with Haddock turned off
(diagsNoHaddock, mb_pm) <- liftIO $ getParsedModuleDefinition hsc opt f ms
return (mergeParseErrorsHaddock diagsNoHaddock diags, mb_pm)
case mb_pm of
Nothing -> return (diags, Nothing)
Just pm -> do
-- Invoke typechecking directly to update it without incurring a dependency
-- on the parsed module and the typecheck rules
(diags', mtmr) <- typeCheckRuleDefinition hsc pm
case mtmr of
Nothing -> pure (diags', Nothing)
Just tmr -> do
let compile = liftIO $ compileModule (RunSimplifier True) hsc (pm_mod_summary pm) $ tmrTypechecked tmr
se <- getShakeExtras
-- Bang pattern is important to avoid leaking 'tmr'
(diags'', !res) <- writeCoreFileIfNeeded se hsc compNeeded compile tmr
-- Write hi file
hiDiags <- case res of
Just !hiFile -> do
-- Write hie file. Do this before writing the .hi file to
-- ensure that we always have a up2date .hie file if we have
-- a .hi file
se <- getShakeExtras
(gDiags, masts) <- liftIO $ generateHieAsts hsc tmr
source <- getSourceFileSource f
wDiags <- forM masts $ \asts ->
liftIO $ writeAndIndexHieFile hsc se (tmrModSummary tmr) f (tcg_exports $ tmrTypechecked tmr) asts source
-- We don't write the `.hi` file if there are deferred errors, since we won't get
-- accurate diagnostics next time if we do
hiDiags <- if not $ tmrDeferredError tmr
then liftIO $ writeHiFile se hsc hiFile
else pure []
pure (hiDiags <> gDiags <> concat wDiags)
Nothing -> pure []
return (diags <> diags' <> diags'' <> hiDiags, res)
-- | HscEnv should have deps included already
-- This writes the core file if a linkable is required
-- The actual linkable will be generated on demand when required by `GetLinkable`
writeCoreFileIfNeeded :: ShakeExtras -> HscEnv -> Maybe LinkableType -> Action (IdeResult ModGuts) -> TcModuleResult -> Action (IdeResult HiFileResult)
writeCoreFileIfNeeded _ hsc Nothing _ tmr = do
incrementRebuildCount
res <- liftIO $ mkHiFileResultNoCompile hsc tmr
pure ([], Just $! res)
writeCoreFileIfNeeded se hsc (Just _) getGuts tmr = do
incrementRebuildCount
(diags, mguts) <- getGuts
case mguts of
Nothing -> pure (diags, Nothing)
Just guts -> do
(diags', !res) <- liftIO $ mkHiFileResultCompile se hsc tmr guts
pure (diags++diags', res)
getClientSettingsRule :: Recorder (WithPriority Log) -> Rules ()
getClientSettingsRule recorder = defineEarlyCutOffNoFile (cmapWithPrio LogShake recorder) $ \GetClientSettings -> do
alwaysRerun
settings <- clientSettings <$> getIdeConfiguration
return (LBS.toStrict $ B.encode $ hash settings, settings)
usePropertyAction ::
(HasProperty s k t r) =>
KeyNameProxy s ->
PluginId ->
Properties r ->
Action (ToHsType t)
usePropertyAction kn plId p = do
pluginConfig <- getPluginConfigAction plId
pure $ useProperty kn p $ plcConfig pluginConfig
-- ---------------------------------------------------------------------
getLinkableRule :: Recorder (WithPriority Log) -> Rules ()
getLinkableRule recorder =
defineEarlyCutoff (cmapWithPrio LogShake recorder) $ Rule $ \GetLinkable f -> do
ModSummaryResult{msrModSummary = ms} <- use_ GetModSummary f
HiFileResult{hirModIface, hirModDetails, hirCoreFp} <- use_ GetModIface f
let obj_file = ml_obj_file (ms_location ms)
core_file = ml_core_file (ms_location ms)
-- Can't use `GetModificationTime` rule because the core file was possibly written in this
-- very session, so the results aren't reliable
core_t <- liftIO $ getModTime core_file
case hirCoreFp of
Nothing -> error "called GetLinkable for a file without a linkable"
Just (bin_core, hash) -> do
session <- use_ GhcSessionDeps f
ShakeExtras{ideNc} <- getShakeExtras
let namecache_updater = mkUpdater ideNc
linkableType <- getLinkableType f >>= \case
Nothing -> error "called GetLinkable for a file which doesn't need compilation"
Just t -> pure t
(warns, hmi) <- case linkableType of
-- Bytecode needs to be regenerated from the core file
BCOLinkable -> liftIO $ coreFileToLinkable linkableType (hscEnv session) ms hirModIface hirModDetails bin_core (posixSecondsToUTCTime core_t)
-- Object code can be read from the disk
ObjectLinkable -> do
-- object file is up to date if it is newer than the core file
-- Can't use a rule like 'GetModificationTime' or 'GetFileExists' because 'coreFileToLinkable' will write the object file, and
-- thus bump its modification time, forcing this rule to be rerun every time.
exists <- liftIO $ doesFileExist obj_file
mobj_time <- liftIO $
if exists
then Just <$> getModTime obj_file
else pure Nothing
case mobj_time of
Just obj_t
| obj_t >= core_t -> pure ([], Just $ HomeModInfo hirModIface hirModDetails (justObjects $ LM (posixSecondsToUTCTime obj_t) (ms_mod ms) [DotO obj_file]))
_ -> liftIO $ coreFileToLinkable linkableType (hscEnv session) ms hirModIface hirModDetails bin_core (error "object doesn't have time")
-- Record the linkable so we know not to unload it, and unload old versions
whenJust ((homeModInfoByteCode =<< hmi) <|> (homeModInfoObject =<< hmi)) $ \(LM time mod _) -> do
compiledLinkables <- getCompiledLinkables <$> getIdeGlobalAction
liftIO $ modifyVar compiledLinkables $ \old -> do
let !to_keep = extendModuleEnv old mod time
--We need to unload old linkables before we can load in new linkables. However,
--the unload function in the GHC API takes a list of linkables to keep (i.e.
--not unload). Earlier we unloaded right before loading in new linkables, which
--is effectively once per splice. This can be slow as unload needs to walk over
--the list of all loaded linkables, for each splice.
--
--Solution: now we unload old linkables right after we generate a new linkable and
--just before returning it to be loaded. This has a substantial effect on recompile
--times as the number of loaded modules and splices increases.
--
unload (hscEnv session) (map (\(mod, time) -> LM time mod []) $ moduleEnvToList to_keep)
return (to_keep, ())
return (hash <$ hmi, (warns, LinkableResult <$> hmi <*> pure hash))
-- | For now we always use bytecode unless something uses unboxed sums and tuples along with TH
getLinkableType :: NormalizedFilePath -> Action (Maybe LinkableType)
getLinkableType f = use_ NeedsCompilation f
-- needsCompilationRule :: Rules ()
needsCompilationRule :: NormalizedFilePath -> Action (IdeResultNoDiagnosticsEarlyCutoff (Maybe LinkableType))
needsCompilationRule file
| "boot" `isSuffixOf` (fromNormalizedFilePath file) =
pure (Just $ encodeLinkableType Nothing, Just Nothing)
needsCompilationRule file = do
graph <- useNoFile GetModuleGraph
res <- case graph of
-- Treat as False if some reverse dependency header fails to parse
Nothing -> pure Nothing
Just depinfo -> case immediateReverseDependencies file depinfo of
-- If we fail to get immediate reverse dependencies, fail with an error message
Nothing -> fail $ "Failed to get the immediate reverse dependencies of " ++ show file
Just revdeps -> do
-- It's important to use stale data here to avoid wasted work.
-- if NeedsCompilation fails for a module M its result will be under-approximated
-- to False in its dependencies. However, if M actually used TH, this will
-- cause a re-evaluation of GetModIface for all dependencies
-- (since we don't need to generate object code anymore).
-- Once M is fixed we will discover that we actually needed all the object code
-- that we just threw away, and thus have to recompile all dependencies once
-- again, this time keeping the object code.
-- A file needs to be compiled if any file that depends on it uses TemplateHaskell or needs to be compiled
ms <- msrModSummary . fst <$> useWithStale_ GetModSummaryWithoutTimestamps file
(modsums,needsComps) <- liftA2
(,) (map (fmap (msrModSummary . fst)) <$> usesWithStale GetModSummaryWithoutTimestamps revdeps)
(uses NeedsCompilation revdeps)
pure $ computeLinkableType ms modsums (map join needsComps)
pure (Just $ encodeLinkableType res, Just res)
where
computeLinkableType :: ModSummary -> [Maybe ModSummary] -> [Maybe LinkableType] -> Maybe LinkableType
computeLinkableType this deps xs
| Just ObjectLinkable `elem` xs = Just ObjectLinkable -- If any dependent needs object code, so do we
| Just BCOLinkable `elem` xs = Just this_type -- If any dependent needs bytecode, then we need to be compiled
| any (maybe False uses_th_qq) deps = Just this_type -- If any dependent needs TH, then we need to be compiled
| otherwise = Nothing -- If none of these conditions are satisfied, we don't need to compile
where
this_type = computeLinkableTypeForDynFlags (ms_hspp_opts this)
uses_th_qq :: ModSummary -> Bool
uses_th_qq (ms_hspp_opts -> dflags) =
xopt LangExt.TemplateHaskell dflags || xopt LangExt.QuasiQuotes dflags
-- | How should we compile this module?
-- (assuming we do in fact need to compile it).
-- Depends on whether it uses unboxed tuples or sums
computeLinkableTypeForDynFlags :: DynFlags -> LinkableType
computeLinkableTypeForDynFlags d
#if defined(GHC_PATCHED_UNBOXED_BYTECODE) || MIN_VERSION_ghc(9,2,0)
= BCOLinkable
#else
| unboxed_tuples_or_sums = ObjectLinkable
| otherwise = BCOLinkable
#endif
where
unboxed_tuples_or_sums =
xopt LangExt.UnboxedTuples d || xopt LangExt.UnboxedSums d
-- | Tracks which linkables are current, so we don't need to unload them
newtype CompiledLinkables = CompiledLinkables { getCompiledLinkables :: Var (ModuleEnv UTCTime) }
instance IsIdeGlobal CompiledLinkables
data RulesConfig = RulesConfig
{ -- | Disable import cycle checking for improved performance in large codebases
checkForImportCycles :: Bool
-- | Disable TH for improved performance in large codebases
, enableTemplateHaskell :: Bool
-- | Warning to show when TH is not supported by the current HLS binary
, templateHaskellWarning :: LspT Config IO ()
}
instance Default RulesConfig where
def = RulesConfig True True displayTHWarning
where
displayTHWarning :: LspT c IO ()
displayTHWarning
| not isWindows && not hostIsDynamic = do
LSP.sendNotification SWindowShowMessage $
ShowMessageParams MtInfo thWarningMessage
| otherwise = return ()
thWarningMessage :: T.Text
thWarningMessage = T.unwords
[ "This HLS binary does not support Template Haskell."
, "Follow the [instructions](" <> templateHaskellInstructions <> ")"
, "to build an HLS binary with support for Template Haskell."
]
-- | A rule that wires per-file rules together
mainRule :: Recorder (WithPriority Log) -> RulesConfig -> Rules ()
mainRule recorder RulesConfig{..} = do
linkables <- liftIO $ newVar emptyModuleEnv
addIdeGlobal $ CompiledLinkables linkables
rebuildCountVar <- liftIO $ newTVarIO 0
addIdeGlobal $ RebuildCounter rebuildCountVar
getParsedModuleRule recorder
getParsedModuleWithCommentsRule recorder
getLocatedImportsRule recorder
getDependencyInformationRule recorder
reportImportCyclesRule recorder
typeCheckRule recorder
getDocMapRule recorder
loadGhcSession recorder def{checkForImportCycles}
getModIfaceFromDiskRule recorder
getModIfaceFromDiskAndIndexRule recorder
getModIfaceRule recorder
getModSummaryRule templateHaskellWarning recorder
getModuleGraphRule recorder
knownFilesRule recorder
getClientSettingsRule recorder
getHieAstsRule recorder
getBindingsRule recorder
-- This rule uses a custom newness check that relies on the encoding
-- produced by 'encodeLinkable'. This works as follows:
-- * <previous> -> <new>
-- * ObjectLinkable -> BCOLinkable : the prev linkable can be reused, signal "no change"
-- * Object/BCO -> NoLinkable : the prev linkable can be ignored, signal "no change"
-- * otherwise : the prev linkable cannot be reused, signal "value has changed"
if enableTemplateHaskell
then defineEarlyCutoff (cmapWithPrio LogShake recorder) $ RuleWithCustomNewnessCheck (<=) $ \NeedsCompilation file ->
needsCompilationRule file
else defineNoDiagnostics (cmapWithPrio LogShake recorder) $ \NeedsCompilation _ -> return $ Just Nothing
generateCoreRule recorder
getImportMapRule recorder
persistentHieFileRule recorder
persistentDocMapRule
persistentImportMapRule
getLinkableRule recorder
-- | Get HieFile for haskell file on NormalizedFilePath
getHieFile :: NormalizedFilePath -> Action (Maybe HieFile)
getHieFile nfp = runMaybeT $ do
HAR {hieAst} <- MaybeT $ use GetHieAst nfp
tmr <- MaybeT $ use TypeCheck nfp
ghc <- MaybeT $ use GhcSession nfp
msr <- MaybeT $ use GetModSummaryWithoutTimestamps nfp
source <- lift $ getSourceFileSource nfp
let exports = tcg_exports $ tmrTypechecked tmr
typedAst <- MaybeT $ pure $ cast hieAst
liftIO $ runHsc (hscEnv ghc) $ mkHieFile' (msrModSummary msr) exports typedAst source