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{-# LANGUAGE LambdaCase #-}
{-# LANGUAGE RankNTypes #-}
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE ScopedTypeVariables #-}
{-# LANGUAGE ViewPatterns #-}
{-# OPTIONS -fno-warn-name-shadowing #-}
-- | Get information on modules, expressions, and identifiers
module GHCi.UI.Info
( ModInfo(..)
, SpanInfo(..)
, spanInfoFromRealSrcSpan
, collectInfo
, findLoc
, findNameUses
, findType
, getModInfo
) where
import Control.Exception
import Control.Monad
import Control.Monad.Catch as MC
import Control.Monad.Trans.Class
import Control.Monad.Trans.Except
import Control.Monad.Trans.Maybe
import Data.Data
import Data.Function
import Data.List (find, sortBy)
import Data.Map.Strict (Map)
import qualified Data.Map.Strict as M
import Data.Maybe
import Data.Time
import Prelude hiding (mod,(<>))
import System.Directory
import GHC.Hs.Syn.Type
import GHC.Driver.Session (HasDynFlags(..))
import GHC.Data.FastString
import GHC
import GHC.Driver.Monad
import GHC.Driver.Env
import GHC.Driver.Ppr
import GHC.Types.Name
import GHC.Types.Name.Set
import GHC.Utils.Outputable
import GHC.Types.SrcLoc
import GHC.Types.Var
import qualified GHC.Data.Strict as Strict
-- | Info about a module. This information is generated every time a
-- module is loaded.
data ModInfo = ModInfo
{ modinfoSummary :: !ModSummary
-- ^ Summary generated by GHC. Can be used to access more
-- information about the module.
, modinfoSpans :: [SpanInfo]
-- ^ Generated set of information about all spans in the
-- module that correspond to some kind of identifier for
-- which there will be type info and/or location info.
, modinfoInfo :: !ModuleInfo
-- ^ Again, useful from GHC for accessing information
-- (exports, instances, scope) from a module.
, modinfoLastUpdate :: !UTCTime
-- ^ The timestamp of the file used to generate this record.
}
-- | Type of some span of source code. Most of these fields are
-- unboxed but Haddock doesn't show that.
data SpanInfo = SpanInfo
{ spaninfoSrcSpan :: {-# UNPACK #-} !RealSrcSpan
-- ^ The span we associate information with
, spaninfoType :: !(Maybe Type)
-- ^ The 'Type' associated with the span
, spaninfoVar :: !(Maybe Id)
-- ^ The actual 'Var' associated with the span, if
-- any. This can be useful for accessing a variety of
-- information about the identifier such as module,
-- locality, definition location, etc.
}
instance Outputable SpanInfo where
ppr (SpanInfo s t i) = ppr s <+> ppr t <+> ppr i
-- | Test whether second span is contained in (or equal to) first span.
-- This is basically 'containsSpan' for 'SpanInfo'
containsSpanInfo :: SpanInfo -> SpanInfo -> Bool
containsSpanInfo = containsSpan `on` spaninfoSrcSpan
-- | Filter all 'SpanInfo' which are contained in 'SpanInfo'
spaninfosWithin :: [SpanInfo] -> SpanInfo -> [SpanInfo]
spaninfosWithin spans' si = filter (si `containsSpanInfo`) spans'
-- | Construct a 'SpanInfo' from a 'RealSrcSpan' and optionally a
-- 'Type' and an 'Id' (for 'spaninfoType' and 'spaninfoVar'
-- respectively)
spanInfoFromRealSrcSpan :: RealSrcSpan -> Maybe Type -> Maybe Id -> SpanInfo
spanInfoFromRealSrcSpan spn mty mvar =
SpanInfo spn mty mvar
-- | Convenience wrapper around 'spanInfoFromRealSrcSpan' which needs
-- only a 'RealSrcSpan'
spanInfoFromRealSrcSpan' :: RealSrcSpan -> SpanInfo
spanInfoFromRealSrcSpan' s = spanInfoFromRealSrcSpan s Nothing Nothing
-- | Convenience wrapper around 'srcSpanFile' which results in a 'FilePath'
srcSpanFilePath :: RealSrcSpan -> FilePath
srcSpanFilePath = unpackFS . srcSpanFile
-- | Try to find the location of the given identifier at the given
-- position in the module.
findLoc :: GhcMonad m
=> Map ModuleName ModInfo
-> RealSrcSpan
-> String
-> ExceptT SDoc m (ModInfo,Name,SrcSpan)
findLoc infos span0 string = do
name <- maybeToExceptT "Couldn't guess that module name. Does it exist?" $
guessModule infos (srcSpanFilePath span0)
info <- maybeToExceptT "No module info for current file! Try loading it?" $
MaybeT $ pure $ M.lookup name infos
name' <- findName infos span0 info string
case getSrcSpan name' of
UnhelpfulSpan{} -> do
throwE ("Found a name, but no location information." <+>
"The module is:" <+>
maybe "<unknown>" (ppr . moduleName)
(nameModule_maybe name'))
span' -> return (info,name',span')
-- | Find any uses of the given identifier in the codebase.
findNameUses :: (GhcMonad m)
=> Map ModuleName ModInfo
-> RealSrcSpan
-> String
-> ExceptT SDoc m [SrcSpan]
findNameUses infos span0 string =
locToSpans <$> findLoc infos span0 string
where
locToSpans (modinfo,name',span') =
stripSurrounding (span' : map toSrcSpan spans)
where
toSrcSpan s = RealSrcSpan (spaninfoSrcSpan s) Strict.Nothing
spans = filter ((== Just name') . fmap getName . spaninfoVar)
(modinfoSpans modinfo)
-- | Filter out redundant spans which surround/contain other spans.
stripSurrounding :: [SrcSpan] -> [SrcSpan]
stripSurrounding xs = filter (not . isRedundant) xs
where
isRedundant x = any (x `strictlyContains`) xs
(RealSrcSpan s1 _) `strictlyContains` (RealSrcSpan s2 _)
= s1 /= s2 && s1 `containsSpan` s2
_ `strictlyContains` _ = False
-- | Try to resolve the name located at the given position, or
-- otherwise resolve based on the current module's scope.
findName :: GhcMonad m
=> Map ModuleName ModInfo
-> RealSrcSpan
-> ModInfo
-> String
-> ExceptT SDoc m Name
findName infos span0 mi string =
case resolveName (modinfoSpans mi) (spanInfoFromRealSrcSpan' span0) of
Nothing -> tryExternalModuleResolution
Just name ->
case getSrcSpan name of
UnhelpfulSpan {} -> tryExternalModuleResolution
RealSrcSpan {} -> return (getName name)
where
tryExternalModuleResolution =
case find (matchName $ mkFastString string)
(fromMaybe [] (modInfoTopLevelScope (modinfoInfo mi))) of
Nothing -> throwE "Couldn't resolve to any modules."
Just imported -> resolveNameFromModule infos imported
matchName :: FastString -> Name -> Bool
matchName str name =
str ==
occNameFS (getOccName name)
-- | Try to resolve the name from another (loaded) module's exports.
resolveNameFromModule :: GhcMonad m
=> Map ModuleName ModInfo
-> Name
-> ExceptT SDoc m Name
resolveNameFromModule infos name = do
modL <- maybe (throwE $ "No module for" <+> ppr name) return $
nameModule_maybe name
info <- maybe (throwE (ppr (moduleUnit modL) <> ":" <>
ppr modL)) return $
M.lookup (moduleName modL) infos
maybe (throwE "No matching export in any local modules.") return $
find (matchName name) (modInfoExports (modinfoInfo info))
where
matchName :: Name -> Name -> Bool
matchName x y = occNameFS (getOccName x) ==
occNameFS (getOccName y)
-- | Try to resolve the type display from the given span.
resolveName :: [SpanInfo] -> SpanInfo -> Maybe Var
resolveName spans' si = listToMaybe $ mapMaybe spaninfoVar $
reverse spans' `spaninfosWithin` si
-- | Try to find the type of the given span.
findType :: GhcMonad m
=> Map ModuleName ModInfo
-> RealSrcSpan
-> String
-> ExceptT SDoc m (ModInfo, Type)
findType infos span0 string = do
name <- maybeToExceptT "Couldn't guess that module name. Does it exist?" $
guessModule infos (srcSpanFilePath span0)
info <- maybeToExceptT "No module info for current file! Try loading it?" $
MaybeT $ pure $ M.lookup name infos
case resolveType (modinfoSpans info) (spanInfoFromRealSrcSpan' span0) of
Nothing -> (,) info <$> lift (exprType TM_Inst string)
Just ty -> return (info, ty)
where
-- | Try to resolve the type display from the given span.
resolveType :: [SpanInfo] -> SpanInfo -> Maybe Type
resolveType spans' si = listToMaybe $ mapMaybe spaninfoType $
reverse spans' `spaninfosWithin` si
-- | Guess a module name from a file path.
guessModule :: GhcMonad m
=> Map ModuleName ModInfo -> FilePath -> MaybeT m ModuleName
guessModule infos fp = do
target <- lift $ guessTarget fp Nothing Nothing
case targetId target of
TargetModule mn -> return mn
TargetFile fp' _ -> guessModule' fp'
where
guessModule' :: GhcMonad m => FilePath -> MaybeT m ModuleName
guessModule' fp' = case findModByFp fp' of
Just mn -> return mn
Nothing -> do
fp'' <- liftIO (makeRelativeToCurrentDirectory fp')
target' <- lift $ guessTarget fp'' Nothing Nothing
case targetId target' of
TargetModule mn -> return mn
_ -> MaybeT . pure $ findModByFp fp''
findModByFp :: FilePath -> Maybe ModuleName
findModByFp fp' = fst <$> find ((Just fp' ==) . mifp) (M.toList infos)
where
mifp :: (ModuleName, ModInfo) -> Maybe FilePath
mifp = ml_hs_file . ms_location . modinfoSummary . snd
-- | Collect type info data for the loaded modules.
collectInfo :: (GhcMonad m) => Map ModuleName ModInfo -> [ModuleName]
-> m (Map ModuleName ModInfo)
collectInfo ms loaded = do
df <- getDynFlags
unit_state <- hsc_units <$> getSession
liftIO (filterM cacheInvalid loaded) >>= \case
[] -> return ms
invalidated -> do
liftIO (putStrLn ("Collecting type info for " ++
show (length invalidated) ++
" module(s) ... "))
foldM (go df unit_state) ms invalidated
where
go df unit_state m name = do { info <- getModInfo name; return (M.insert name info m) }
`MC.catch`
(\(e :: SomeException) -> do
liftIO $ putStrLn
$ showSDocForUser df unit_state alwaysQualify
$ "Error while getting type info from" <+>
ppr name <> ":" <+> text (show e)
return m)
cacheInvalid name = case M.lookup name ms of
Nothing -> return True
Just mi -> do
let fp = srcFilePath (modinfoSummary mi)
last' = modinfoLastUpdate mi
current <- getModificationTime fp
exists <- doesFileExist fp
if exists
then return $ current /= last'
else return True
-- | Get the source file path from a ModSummary.
-- If the .hs file is missing, and the .o file exists,
-- we return the .o file path.
srcFilePath :: ModSummary -> FilePath
srcFilePath modSum = fromMaybe obj_fp src_fp
where
src_fp = ml_hs_file ms_loc
obj_fp = ml_obj_file ms_loc
ms_loc = ms_location modSum
-- | Get info about the module: summary, types, etc.
getModInfo :: (GhcMonad m) => ModuleName -> m ModInfo
getModInfo name = do
m <- getModSummary name
p <- parseModule m
typechecked <- typecheckModule p
let allTypes = processAllTypeCheckedModule typechecked
let i = tm_checked_module_info typechecked
ts <- liftIO $ getModificationTime $ srcFilePath m
return (ModInfo m allTypes i ts)
-- | Get ALL source spans in the module.
processAllTypeCheckedModule :: TypecheckedModule -> [SpanInfo]
processAllTypeCheckedModule tcm
= mapMaybe toSpanInfo
$ sortBy cmpSpan
$ catMaybes (bts ++ ets ++ pts)
where
bts = map getTypeLHsBind $ listifyAllSpans tcs
ets = map getTypeLHsExpr $ listifyAllSpans tcs
pts = map getTypeLPat $ listifyAllSpans tcs
tcs = tm_typechecked_source tcm
-- | Extract 'Id', 'SrcSpan', and 'Type' for 'LHsBind's
getTypeLHsBind :: LHsBind GhcTc -> Maybe (Maybe Id,SrcSpan,Type)
getTypeLHsBind (L _spn FunBind{fun_id = pid,fun_matches = MG _ _ _})
= Just (Just (unLoc pid), getLocA pid,varType (unLoc pid))
getTypeLHsBind _ = Nothing
-- | Extract 'Id', 'SrcSpan', and 'Type' for 'LHsExpr's
getTypeLHsExpr :: LHsExpr GhcTc -> Maybe (Maybe Id,SrcSpan,Type)
getTypeLHsExpr e = Just (mid, getLocA e, lhsExprType e)
where
mid :: Maybe Id
mid | HsVar _ (L _ i) <- unwrapVar (unLoc e) = Just i
| otherwise = Nothing
unwrapVar (XExpr (WrapExpr (HsWrap _ var))) = var
unwrapVar e' = e'
-- | Extract 'Id', 'SrcSpan', and 'Type' for 'LPats's
getTypeLPat :: LPat GhcTc -> Maybe (Maybe Id,SrcSpan,Type)
getTypeLPat (L spn pat) = Just (getMaybeId pat,locA spn,hsPatType pat)
where
getMaybeId :: Pat GhcTc -> Maybe Id
getMaybeId (VarPat _ (L _ vid)) = Just vid
getMaybeId _ = Nothing
-- | Get ALL source spans in the source.
listifyAllSpans :: Typeable a => TypecheckedSource -> [LocatedA a]
listifyAllSpans = everythingAllSpans (++) [] ([] `mkQ` (\x -> [x | p x]))
where
p (L spn _) = isGoodSrcSpan (locA spn)
-- | Variant of @syb@'s @everything@ (which summarises all nodes
-- in top-down, left-to-right order) with a stop-condition on 'NameSet's
everythingAllSpans :: (r -> r -> r) -> r -> GenericQ r -> GenericQ r
everythingAllSpans k z f x
| (False `mkQ` (const True :: NameSet -> Bool)) x = z
| otherwise = foldl k (f x) (gmapQ (everythingAllSpans k z f) x)
cmpSpan (_,a,_) (_,b,_)
| a `isSubspanOf` b = LT
| b `isSubspanOf` a = GT
| otherwise = EQ
-- | Pretty print the types into a 'SpanInfo'.
toSpanInfo :: (Maybe Id,SrcSpan,Type) -> Maybe SpanInfo
toSpanInfo (n,RealSrcSpan spn _,typ)
= Just $ spanInfoFromRealSrcSpan spn (Just typ) n
toSpanInfo _ = Nothing
-- helper stolen from @syb@ package
type GenericQ r = forall a. Data a => a -> r
mkQ :: (Typeable a, Typeable b) => r -> (b -> r) -> a -> r
(r `mkQ` br) a = maybe r br (cast a)
|