%
-% (c) The University of Glasgow, 2000
+% (c) The University of Glasgow, 2002
+%
+% The Compilation Manager
%
-\section[CompManager]{The Compilation Manager}
-
\begin{code}
+{-# OPTIONS -fvia-C #-}
module CompManager (
- cmInit, -- :: GhciMode -> IO CmState
+ ModuleGraph,
+
+ CmState, emptyCmState, -- abstract
+
+ cmInit, -- :: GhciMode -> IO CmState
- cmLoadModule, -- :: CmState -> FilePath -> IO (CmState, [String])
+ cmDepAnal, -- :: CmState -> DynFlags -> [FilePath] -> IO ModuleGraph
- cmUnload, -- :: CmState -> DynFlags -> IO CmState
+ cmLoadModules, -- :: CmState -> DynFlags -> ModuleGraph
+ -- -> IO (CmState, [String])
- cmSetContext, -- :: CmState -> String -> IO CmState
+ cmUnload, -- :: CmState -> DynFlags -> IO CmState
- cmGetContext, -- :: CmState -> IO String
+ cmSetContext, -- :: CmState -> String -> IO CmState
+
+ cmGetContext, -- :: CmState -> IO String
#ifdef GHCI
- cmInfoThing, -- :: CmState -> DynFlags -> String -> IO (Maybe TyThing)
+ cmInfoThing, -- :: CmState -> DynFlags -> String -> IO (Maybe TyThing)
- cmRunStmt, -- :: CmState -> DynFlags -> String -> IO (CmState, [Name])
+ CmRunResult(..),
+ cmRunStmt, -- :: CmState -> DynFlags -> String
+ -- -> IO (CmState, CmRunResult)
- cmTypeOfExpr, -- :: CmState -> DynFlags -> String
- -- -> IO (CmState, Maybe String)
+ cmTypeOfExpr, -- :: CmState -> DynFlags -> String
+ -- -> IO (CmState, Maybe String)
- cmTypeOfName, -- :: CmState -> Name -> IO (Maybe String)
+ cmTypeOfName, -- :: CmState -> Name -> IO (Maybe String)
- cmCompileExpr,-- :: CmState -> DynFlags -> String
- -- -> IO (CmState, Maybe HValue)#endif
+ cmCompileExpr, -- :: CmState -> DynFlags -> String
+ -- -> IO (CmState, Maybe HValue)#endif
#endif
- CmState, emptyCmState -- abstract
)
where
import CmTypes
import DriverPipeline
import DriverFlags ( getDynFlags )
+import DriverState ( v_Output_file )
import DriverPhases
import DriverUtil
import Finder
import HscMain ( initPersistentCompilerState )
#endif
import HscTypes
-import RnEnv ( unQualInScope )
-import Id ( idType, idName )
-import Name ( Name, NamedThing(..), nameRdrName )
-import NameEnv
+import Name ( Name, NamedThing(..), nameRdrName, nameModule,
+ isHomePackageName )
import RdrName ( lookupRdrEnv, emptyRdrEnv )
import Module
import GetImports
-import Type ( tidyType )
-import VarEnv ( emptyTidyEnv )
import UniqFM
import Unique ( Uniquable )
-import Digraph ( SCC(..), stronglyConnComp, flattenSCC )
+import Digraph ( SCC(..), stronglyConnComp, flattenSCC, flattenSCCs )
import ErrUtils ( showPass )
import SysTools ( cleanTempFilesExcept )
import Util
import Outputable
import Panic
import CmdLineOpts ( DynFlags(..) )
+
import IOExts
#ifdef GHCI
+import Id ( idType, idName )
+import NameEnv
+import Type ( tidyType )
+import VarEnv ( emptyTidyEnv )
+import RnEnv ( unQualInScope, mkIfaceGlobalRdrEnv )
+import BasicTypes ( Fixity, defaultFixity )
import Interpreter ( HValue )
import HscMain ( hscStmt )
import PrelGHC ( unsafeCoerce# )
+
+import Foreign
+import CForeign
+import Exception ( Exception, try )
#endif
-- lang
cmSetContext :: CmState -> String -> IO CmState
cmSetContext cmstate str
= do let mn = mkModuleName str
- modules_loaded = [ (name_of_summary s, ms_mod s) | s <- mg cmstate ]
+ modules_loaded = [ (name_of_summary s, ms_mod s) | s <- mg cmstate ]
m <- case lookup mn modules_loaded of
Just m -> return m
Just (m,_) -> return m
-----------------------------------------------------------------------------
+-- cmInfoThing: convert a String to a TyThing
+
+-- A string may refer to more than one TyThing (eg. a constructor,
+-- and type constructor), so we return a list of all the possible TyThings.
+
+#ifdef GHCI
+cmInfoThing :: CmState -> DynFlags -> String
+ -> IO (CmState, PrintUnqualified, [(TyThing,Fixity)])
+cmInfoThing cmstate dflags id
+ = do (new_pcs, things) <- hscThing dflags hst hit pcs icontext id
+ let pairs = map (\x -> (x, getFixity new_pcs (getName x))) things
+ return (cmstate{ pcs=new_pcs }, unqual, pairs)
+ where
+ CmState{ hst=hst, hit=hit, pcs=pcs, pls=pls, ic=icontext } = cmstate
+ unqual = getUnqual pcs hit icontext
+
+ getFixity :: PersistentCompilerState -> Name -> Fixity
+ getFixity pcs name
+ | Just iface <- lookupModuleEnv iface_table (nameModule name),
+ Just fixity <- lookupNameEnv (mi_fixities iface) name
+ = fixity
+ | otherwise
+ = defaultFixity
+ where iface_table | isHomePackageName name = hit
+ | otherwise = pcs_PIT pcs
+#endif
+
+-----------------------------------------------------------------------------
-- cmRunStmt: Run a statement/expr.
#ifdef GHCI
-cmInfoThing :: CmState -> DynFlags -> String -> IO (Maybe TyThing)
-cmInfoThing CmState{ hst=hst, hit=hit, pcs=pcs, pls=pls, ic=icontext } dflags id
- = do (pcs, thing) <- hscThing dflags hst hit pcs icontext id
- return thing
-
-cmRunStmt :: CmState -> DynFlags -> String
- -> IO (CmState, -- new state
- [Name]) -- names bound by this evaluation
-cmRunStmt cmstate dflags expr
+data CmRunResult
+ = CmRunOk [Name] -- names bound by this evaluation
+ | CmRunFailed
+ | CmRunDeadlocked -- statement deadlocked
+ | CmRunException Exception -- statement raised an exception
+
+cmRunStmt :: CmState -> DynFlags -> String -> IO (CmState, CmRunResult)
+cmRunStmt cmstate@CmState{ hst=hst, hit=hit, pcs=pcs, pls=pls, ic=icontext }
+ dflags expr
= do
let InteractiveContext {
ic_rn_env = rn_env,
- ic_type_env = type_env,
- ic_module = this_mod } = icontext
+ ic_type_env = type_env } = icontext
(new_pcs, maybe_stuff)
<- hscStmt dflags hst hit pcs icontext expr False{-stmt-}
case maybe_stuff of
- Nothing -> return (cmstate{ pcs=new_pcs }, [])
+ Nothing -> return (cmstate{ pcs=new_pcs }, CmRunFailed)
Just (ids, _, bcos) -> do
-- update the interactive context
-- run it!
let thing_to_run = unsafeCoerce# hval :: IO [HValue]
- hvals <- thing_to_run
-
- -- Get the newly bound things, and bind them. Don't forget
- -- to delete any shadowed bindings from the closure_env, lest
- -- we end up with a space leak.
- pls <- delListFromClosureEnv pls shadowed
- new_pls <- addListToClosureEnv pls (zip names hvals)
-
- return (cmstate{ pcs=new_pcs, pls=new_pls, ic=new_ic }, names)
- where
- CmState{ hst=hst, hit=hit, pcs=pcs, pls=pls, ic=icontext } = cmstate
+ either_hvals <- sandboxIO thing_to_run
+ case either_hvals of
+ Left err
+ | err == dEADLOCKED
+ -> return ( cmstate{ pcs=new_pcs, ic=new_ic },
+ CmRunDeadlocked )
+ | otherwise
+ -> do hPutStrLn stderr ("unknown failure, code " ++ show err)
+ return ( cmstate{ pcs=new_pcs, ic=new_ic }, CmRunFailed )
+
+ Right maybe_hvals ->
+ case maybe_hvals of
+ Left e ->
+ return ( cmstate{ pcs=new_pcs, ic=new_ic },
+ CmRunException e )
+ Right hvals -> do
+ -- Get the newly bound things, and bind them.
+ -- Don't forget to delete any shadowed bindings from the
+ -- closure_env, lest we end up with a space leak.
+ pls <- delListFromClosureEnv pls shadowed
+ new_pls <- addListToClosureEnv pls (zip names hvals)
+
+ return (cmstate{ pcs=new_pcs, pls=new_pls, ic=new_ic },
+ CmRunOk names)
+
+-- We run the statement in a "sandbox", which amounts to calling into
+-- the RTS to request a new main thread. The main benefit is that we
+-- get to detect a deadlock this way, but also there's no danger that
+-- exceptions raised by the expression can affect the interpreter.
+
+sandboxIO :: IO a -> IO (Either Int (Either Exception a))
+sandboxIO thing = do
+ st_thing <- newStablePtr (Exception.try thing)
+ alloca $ \ p_st_result -> do
+ stat <- rts_evalStableIO st_thing p_st_result
+ freeStablePtr st_thing
+ if stat == 1
+ then do st_result <- peek p_st_result
+ result <- deRefStablePtr st_result
+ freeStablePtr st_result
+ return (Right result)
+ else do
+ return (Left (fromIntegral stat))
+
+-- ToDo: slurp this in from ghc/includes/RtsAPI.h somehow
+dEADLOCKED = 4 :: Int
+
+foreign import "rts_evalStableIO" {- safe -}
+ rts_evalStableIO :: StablePtr (IO a) -> Ptr (StablePtr a) -> IO CInt
+ -- more informative than the C type!
#endif
-----------------------------------------------------------------------------
case maybe_stuff of
Nothing -> return (new_cmstate, Nothing)
- Just (_, ty, _) ->
- let pit = pcs_PIT pcs
- modname = moduleName (ic_module ic)
- tidy_ty = tidyType emptyTidyEnv ty
- str = case lookupIfaceByModName hit pit modname of
- Nothing -> showSDoc (ppr tidy_ty)
- Just iface -> showSDocForUser unqual (ppr tidy_ty)
- where unqual = unQualInScope (mi_globals iface)
- in return (new_cmstate, Just str)
+ Just (_, ty, _) -> return (new_cmstate, Just str)
+ where
+ str = showSDocForUser unqual (ppr tidy_ty)
+ unqual = getUnqual pcs hit ic
+ tidy_ty = tidyType emptyTidyEnv ty
where
CmState{ hst=hst, hit=hit, pcs=pcs, ic=ic } = cmstate
+
+getUnqual pcs hit ic
+ = case lookupIfaceByModName hit pit modname of
+ Nothing -> alwaysQualify
+ Just iface ->
+ case mi_globals iface of
+ Just env -> unQualInScope env
+ Nothing -> unQualInScope (mkIfaceGlobalRdrEnv (mi_exports iface))
+ where
+ pit = pcs_PIT pcs
+ modname = moduleName (ic_module ic)
#endif
-----------------------------------------------------------------------------
cmTypeOfName CmState{ hit=hit, pcs=pcs, ic=ic } name
= case lookupNameEnv (ic_type_env ic) name of
Nothing -> return Nothing
- Just (AnId id) ->
- let pit = pcs_PIT pcs
- modname = moduleName (ic_module ic)
- ty = tidyType emptyTidyEnv (idType id)
- str = case lookupIfaceByModName hit pit modname of
- Nothing -> showSDoc (ppr ty)
- Just iface -> showSDocForUser unqual (ppr ty)
- where unqual = unQualInScope (mi_globals iface)
- in return (Just str)
+ Just (AnId id) -> return (Just str)
+ where
+ unqual = getUnqual pcs hit ic
+ ty = tidyType emptyTidyEnv (idType id)
+ str = showSDocForUser unqual (ppr ty)
_ -> panic "cmTypeOfName"
#endif
#endif
-----------------------------------------------------------------------------
--- cmInfo: return "info" about an expression. The info might be:
---
--- * its type, for an expression,
--- * the class definition, for a class
--- * the datatype definition, for a tycon (or synonym)
--- * the export list, for a module
---
--- Can be used to find the type of the last expression compiled, by looking
--- for "it".
-
-cmInfo :: CmState -> String -> IO (Maybe String)
-cmInfo cmstate str
- = do error "cmInfo not implemented yet"
-
------------------------------------------------------------------------------
-- Unload the compilation manager's state: everything it knows about the
-- current collection of modules in the Home package.
new_state <- cmInit mode
return new_state{ pcs=pcs, pls=new_pls }
+
+-----------------------------------------------------------------------------
+-- Trace dependency graph
+
+-- This is a seperate pass so that the caller can back off and keep
+-- the current state if the downsweep fails.
+
+cmDepAnal :: CmState -> DynFlags -> [FilePath] -> IO ModuleGraph
+cmDepAnal cmstate dflags rootnames
+ = do showPass dflags "Chasing dependencies"
+ when (verbosity dflags >= 1 && gmode cmstate == Batch) $
+ hPutStrLn stderr (showSDoc (hcat [
+ text progName, text ": chasing modules from: ",
+ hcat (punctuate comma (map text rootnames))]))
+ downsweep rootnames (mg cmstate)
+
-----------------------------------------------------------------------------
-- The real business of the compilation manager: given a system state and
-- a module name, try and bring the module up to date, probably changing
-- the system state at the same time.
-cmLoadModule :: CmState
- -> [FilePath]
+cmLoadModules :: CmState
+ -> DynFlags
+ -> ModuleGraph
-> IO (CmState, -- new state
Bool, -- was successful
[String]) -- list of modules loaded
-cmLoadModule cmstate1 rootnames
+cmLoadModules cmstate1 dflags mg2unsorted
= do -- version 1's are the original, before downsweep
let pls1 = pls cmstate1
let pcs1 = pcs cmstate1
-- similarly, ui1 is the (complete) set of linkables from
-- the previous pass, if any.
let ui1 = ui cmstate1
- let mg1 = mg cmstate1
- let ic1 = ic cmstate1
let ghci_mode = gmode cmstate1 -- this never changes
-- Do the downsweep to reestablish the module graph
- dflags <- getDynFlags
let verb = verbosity dflags
- showPass dflags "Chasing dependencies"
- when (verb >= 1 && ghci_mode == Batch) $
- hPutStrLn stderr (showSDoc (hcat [
- text progName, text ": chasing modules from: ",
- hcat (punctuate comma (map text rootnames))]))
+ -- Find out if we have a Main module
+ let a_root_is_Main
+ = any ((=="Main").moduleNameUserString.name_of_summary)
+ mg2unsorted
- (mg2unsorted, a_root_is_Main) <- downsweep rootnames mg1
let mg2unsorted_names = map name_of_summary mg2unsorted
-- reachable_from follows source as well as normal imports
-- unload any modules which aren't going to be re-linked this
-- time around.
- pls2 <- unload ghci_mode dflags stable_linkables pls1
+ pls2 <- CmLink.unload ghci_mode dflags stable_linkables pls1
-- We could at this point detect cycles which aren't broken by
-- a source-import, and complain immediately, but it seems better
let threaded2 = CmThreaded pcs1 hst1 hit1
+ -- clean up between compilations
+ let cleanup = cleanTempFilesExcept verb
+ (ppFilesFromSummaries (flattenSCCs upsweep_these))
+
(upsweep_complete_success, threaded3, modsUpswept, newLis)
<- upsweep_mods ghci_mode dflags valid_linkables reachable_from
- threaded2 upsweep_these
+ threaded2 cleanup upsweep_these
let ui3 = add_to_ui valid_linkables newLis
let (CmThreaded pcs3 hst3 hit3) = threaded3
-- clean up after ourselves
cleanTempFilesExcept verb (ppFilesFromSummaries modsDone)
+ -- issue a warning for the confusing case where the user said '-o foo'
+ -- but we're not going to do any linking.
+ ofile <- readIORef v_Output_file
+ when (ghci_mode == Batch && isJust ofile && not a_root_is_Main
+ && verb > 0) $
+ hPutStrLn stderr "Warning: output was redirected with -o, but no output will be generated\nbecause there is no Main module."
+
-- link everything together
linkresult <- link ghci_mode dflags a_root_is_Main ui3 pls2
-- Finish up after a cmLoad.
---
+
+-- If the link failed, unload everything and return.
+cmLoadFinish ok (LinkFailed pls) hst hit ui mods ghci_mode pcs = do
+ dflags <- getDynFlags
+ new_pls <- CmLink.unload ghci_mode dflags [] pls
+ new_state <- cmInit ghci_mode
+ return (new_state{ pcs=pcs, pls=new_pls }, False, [])
+
-- Empty the interactive context and set the module context to the topmost
-- newly loaded module, or the Prelude if none were loaded.
-cmLoadFinish ok linkresult hst hit ui mods ghci_mode pcs
- = do case linkresult of {
- LinkErrs _ _ -> panic "cmLoadModule: link failed (2)";
- LinkOK pls -> do
-
- def_mod <- readIORef defaultCurrentModule
+cmLoadFinish ok (LinkOK pls) hst hit ui mods ghci_mode pcs
+ = do def_mod <- readIORef defaultCurrentModule
let current_mod = case mods of
[] -> def_mod
(x:_) -> ms_mod x
new_ic = emptyInteractiveContext current_mod
- new_cmstate = CmState{ hst=hst, hit=hit,
- ui=ui, mg=mods,
- gmode=ghci_mode, pcs=pcs,
- pls=pls,
+ new_cmstate = CmState{ hst=hst, hit=hit, ui=ui, mg=mods,
+ gmode=ghci_mode, pcs=pcs, pls=pls,
ic = new_ic }
mods_loaded = map (moduleNameUserString.name_of_summary) mods
return (new_cmstate, ok, mods_loaded)
- }
-- used to fish out the preprocess output files for the purposes
-- of cleaning up.
-> UnlinkedImage -- valid linkables
-> (ModuleName -> [ModuleName]) -- to construct downward closures
-> CmThreaded -- PCS & HST & HIT
+ -> IO () -- how to clean up unwanted tmp files
-> [SCC ModSummary] -- mods to do (the worklist)
-- ...... RETURNING ......
-> IO (Bool{-complete success?-},
[ModSummary], -- mods which succeeded
[Linkable]) -- new linkables
-upsweep_mods ghci_mode dflags oldUI reachable_from threaded
+upsweep_mods ghci_mode dflags oldUI reachable_from threaded cleanup
[]
= return (True, threaded, [], [])
-upsweep_mods ghci_mode dflags oldUI reachable_from threaded
+upsweep_mods ghci_mode dflags oldUI reachable_from threaded cleanup
((CyclicSCC ms):_)
= do hPutStrLn stderr ("Module imports form a cycle for modules:\n\t" ++
unwords (map (moduleNameUserString.name_of_summary) ms))
return (False, threaded, [], [])
-upsweep_mods ghci_mode dflags oldUI reachable_from threaded
+upsweep_mods ghci_mode dflags oldUI reachable_from threaded cleanup
((AcyclicSCC mod):mods)
= do --case threaded of
-- CmThreaded pcsz hstz hitz
(threaded1, maybe_linkable)
<- upsweep_mod ghci_mode dflags oldUI threaded mod
(reachable_from (name_of_summary mod))
+
+ -- remove unwanted tmp files between compilations
+ cleanup
+
case maybe_linkable of
Just linkable
-> -- No errors; do the rest
do (restOK, threaded2, modOKs, linkables)
<- upsweep_mods ghci_mode dflags oldUI reachable_from
- threaded1 mods
+ threaded1 cleanup mods
return (restOK, threaded2, mod:modOKs, linkable:linkables)
Nothing -- we got a compilation error; give up now
-> return (False, threaded1, [], [])
upsweep_mod ghci_mode dflags oldUI threaded1 summary1 reachable_inc_me
= do
let mod_name = name_of_summary summary1
- let verb = verbosity dflags
let (CmThreaded pcs1 hst1 hit1) = threaded1
let old_iface = lookupUFM hit1 mod_name
sccs
+-----------------------------------------------------------------------------
+-- Downsweep (dependency analysis)
+
-- Chase downwards from the specified root set, returning summaries
-- for all home modules encountered. Only follow source-import
--- links. Also returns a Bool to indicate whether any of the roots
--- are module Main.
-downsweep :: [FilePath] -> [ModSummary] -> IO ([ModSummary], Bool)
-downsweep rootNm old_summaries
- = do rootSummaries <- mapM getRootSummary rootNm
- let a_root_is_Main
- = any ((=="Main").moduleNameUserString.name_of_summary)
- rootSummaries
+-- links.
+
+-- We pass in the previous collection of summaries, which is used as a
+-- cache to avoid recalculating a module summary if the source is
+-- unchanged.
+
+downsweep :: [FilePath] -> [ModSummary] -> IO [ModSummary]
+downsweep roots old_summaries
+ = do rootSummaries <- mapM getRootSummary roots
all_summaries
<- loop (concat (map ms_imps rootSummaries))
(mkModuleEnv [ (mod, s) | s <- rootSummaries,
let mod = ms_mod s, isHomeModule mod
])
- return (all_summaries, a_root_is_Main)
+ return all_summaries
where
getRootSummary :: FilePath -> IO ModSummary
getRootSummary file
-- We have two types of summarisation:
--
--- * Summarise a file. This is used for the root module passed to
--- cmLoadModule. The file is read, and used to determine the root
+-- * Summarise a file. This is used for the root module(s) passed to
+-- cmLoadModules. The file is read, and used to determine the root
-- module name. The module name may differ from the filename.
--
-- * Summarise a module. We are given a module name, and must provide
= do hspp_fn <- preprocess file
(srcimps,imps,mod_name) <- getImportsFromFile hspp_fn
- let (path, basename, ext) = splitFilename3 file
+ let (path, basename, _ext) = splitFilename3 file
- Just (mod, location)
- <- mkHomeModuleLocn mod_name (path ++ '/':basename) (Just file)
+ (mod, location)
+ <- mkHomeModuleLocn mod_name (path ++ '/':basename) file
src_timestamp
<- case ml_hs_file location of
= do let hs_fn = unJust "summarise" (ml_hs_file location)
case ml_hs_file location of {
- Nothing -> do {
- dflags <- getDynFlags;
- when (verbosity dflags >= 1) $
- hPutStrLn stderr ("WARNING: module `" ++
- moduleUserString mod ++ "' has no source file.");
- return Nothing;
- };
-
+ Nothing -> noHsFileErr mod;
Just src_fn -> do
src_timestamp <- getModificationTime src_fn