--
-----------------------------------------------------------------------------
+{-# OPTIONS -w #-}
+-- The above warning supression flag is a temporary kludge.
+-- While working on this module you are encouraged to remove it and fix
+-- any warnings in the module. See
+-- http://hackage.haskell.org/trac/ghc/wiki/Commentary/CodingStyle#Warnings
+-- for details
+
module GhciMonad where
#include "HsVersions.h"
import qualified GHC
-import {-#SOURCE#-} Debugger
-import Breakpoints
-import Outputable
-import Panic hiding (showException)
+import Outputable hiding (printForUser, printForUserPartWay)
+import qualified Outputable
+import Panic hiding (showException)
import Util
-
+import DynFlags
+import HscTypes
+import SrcLoc
+import Module
+import ObjLink
+import StaticFlags
+
+import Data.Maybe
import Numeric
import Control.Exception as Exception
+import Data.Array
import Data.Char
-import Data.Dynamic
import Data.Int ( Int64 )
import Data.IORef
import Data.List
import Data.Typeable
import System.CPUTime
+import System.Directory
+import System.Environment
import System.IO
import Control.Monad as Monad
import GHC.Exts
-----------------------------------------------------------------------------
-- GHCi monad
+type Command = (String, String -> GHCi Bool, Maybe String, String -> IO [String])
+
data GHCiState = GHCiState
{
progname :: String,
args :: [String],
prompt :: String,
editor :: String,
+ stop :: String,
session :: GHC.Session,
options :: [GHCiOption],
prelude :: GHC.Module,
- bkptTable :: IORef (BkptTable GHC.Module),
- topLevel :: Bool
+ break_ctr :: !Int,
+ breaks :: ![(Int, BreakLocation)],
+ tickarrays :: ModuleEnv TickArray,
+ -- tickarrays caches the TickArray for loaded modules,
+ -- so that we don't rebuild it each time the user sets
+ -- a breakpoint.
+ -- ":" at the GHCi prompt repeats the last command, so we
+ -- remember is here:
+ last_command :: Maybe Command,
+ cmdqueue :: [String],
+ remembered_ctx :: [(CtxtCmd, [String], [String])],
+ -- we remember the :module commands between :loads, so that
+ -- on a :reload we can replay them. See bugs #2049,
+ -- #1873, #1360. Previously we tried to remember modules that
+ -- were supposed to be in the context but currently had errors,
+ -- but this was complicated. Just replaying the :module commands
+ -- seems to be the right thing.
+ virtual_path :: FilePath
}
+data CtxtCmd
+ = SetContext
+ | AddModules
+ | RemModules
+
+type TickArray = Array Int [(BreakIndex,SrcSpan)]
+
data GHCiOption
= ShowTiming -- show time/allocs after evaluation
| ShowType -- show the type of expressions
| RevertCAFs -- revert CAFs after every evaluation
deriving Eq
+data BreakLocation
+ = BreakLocation
+ { breakModule :: !GHC.Module
+ , breakLoc :: !SrcSpan
+ , breakTick :: {-# UNPACK #-} !Int
+ , onBreakCmd :: String
+ }
+
+instance Eq BreakLocation where
+ loc1 == loc2 = breakModule loc1 == breakModule loc2 &&
+ breakTick loc1 == breakTick loc2
+
+prettyLocations :: [(Int, BreakLocation)] -> SDoc
+prettyLocations [] = text "No active breakpoints."
+prettyLocations locs = vcat $ map (\(i, loc) -> brackets (int i) <+> ppr loc) $ reverse $ locs
+
+instance Outputable BreakLocation where
+ ppr loc = (ppr $ breakModule loc) <+> ppr (breakLoc loc) <+>
+ if null (onBreakCmd loc)
+ then empty
+ else doubleQuotes (text (onBreakCmd loc))
+
+recordBreak :: BreakLocation -> GHCi (Bool{- was already present -}, Int)
+recordBreak brkLoc = do
+ st <- getGHCiState
+ let oldActiveBreaks = breaks st
+ -- don't store the same break point twice
+ case [ nm | (nm, loc) <- oldActiveBreaks, loc == brkLoc ] of
+ (nm:_) -> return (True, nm)
+ [] -> do
+ let oldCounter = break_ctr st
+ newCounter = oldCounter + 1
+ setGHCiState $ st { break_ctr = newCounter,
+ breaks = (oldCounter, brkLoc) : oldActiveBreaks
+ }
+ return (False, oldCounter)
+
newtype GHCi a = GHCi { unGHCi :: IORef GHCiState -> IO a }
startGHCi :: GHCi a -> GHCiState -> IO a
(GHCi m) >>= k = GHCi $ \s -> m s >>= \a -> unGHCi (k a) s
return a = GHCi $ \s -> return a
+instance Functor GHCi where
+ fmap f m = m >>= return . f
+
ghciHandleDyn :: Typeable t => (t -> GHCi a) -> GHCi a -> GHCi a
ghciHandleDyn h (GHCi m) = GHCi $ \s ->
Exception.catchDyn (m s) (\e -> unGHCi (h e) s)
io :: IO a -> GHCi a
io m = GHCi { unGHCi = \s -> m >>= return }
-isTopLevel :: GHCi Bool
-isTopLevel = getGHCiState >>= return . topLevel
-
-getBkptTable :: GHCi (BkptTable GHC.Module)
-getBkptTable = do table_ref <- getGHCiState >>= return . bkptTable
- io$ readIORef table_ref
-
-setBkptTable :: BkptTable GHC.Module -> GHCi ()
-setBkptTable new_table = do
- table_ref <- getGHCiState >>= return . bkptTable
- io$ writeIORef table_ref new_table
-
-modifyBkptTable :: (BkptTable GHC.Module -> BkptTable GHC.Module) -> GHCi ()
-modifyBkptTable f = do
- bt <- getBkptTable
- new_bt <- io . evaluate$ f bt
- setBkptTable new_bt
-
-showForUser :: SDoc -> GHCi String
-showForUser doc = do
+printForUser :: SDoc -> GHCi ()
+printForUser doc = do
session <- getSession
unqual <- io (GHC.getPrintUnqual session)
- return $! showSDocForUser unqual doc
+ io $ Outputable.printForUser stdout unqual doc
--- --------------------------------------------------------------------------
--- Inferior Sessions Exceptions (used by the debugger)
+printForUserPartWay :: SDoc -> GHCi ()
+printForUserPartWay doc = do
+ session <- getSession
+ unqual <- io (GHC.getPrintUnqual session)
+ io $ Outputable.printForUserPartWay stdout opt_PprUserLength unqual doc
+
+withVirtualPath :: GHCi a -> GHCi a
+withVirtualPath m = do
+ ghci_wd <- io getCurrentDirectory -- Store the cwd of GHCi
+ st <- getGHCiState
+ io$ setCurrentDirectory (virtual_path st)
+ result <- m -- Evaluate in the virtual wd..
+ vwd <- io getCurrentDirectory
+ setGHCiState (st{ virtual_path = vwd}) -- Update the virtual path
+ io$ setCurrentDirectory ghci_wd -- ..and restore GHCi wd
+ return result
+
+runStmt :: String -> GHC.SingleStep -> GHCi GHC.RunResult
+runStmt expr step = withVirtualPath$ do
+ session <- getSession
+ st <- getGHCiState
+ io$ withProgName (progname st) $ withArgs (args st) $
+ GHC.runStmt session expr step
-data InfSessionException =
- StopChildSession -- A child session requests to be stopped
- | StopParentSession -- A child session requests to be stopped
- -- AND that the parent session quits after that
- | ChildSessionStopped String -- A child session has stopped
- deriving Typeable
+resume :: GHC.SingleStep -> GHCi GHC.RunResult
+resume step = withVirtualPath$ do
+ session <- getSession
+ io$ GHC.resume session step
-- --------------------------------------------------------------------------
-- To flush buffers for the *interpreted* computation we need
-- to refer to *its* stdout/stderr handles
-GLOBAL_VAR(flush_interp, error "no flush_interp", IO ())
-GLOBAL_VAR(turn_off_buffering, error "no flush_stdout", IO ())
+GLOBAL_VAR(stdin_ptr, error "no stdin_ptr", Ptr ())
+GLOBAL_VAR(stdout_ptr, error "no stdout_ptr", Ptr ())
+GLOBAL_VAR(stderr_ptr, error "no stderr_ptr", Ptr ())
-command_sequence :: [String] -> String
-command_sequence = unwords . intersperse "Prelude.>>"
-
-no_buffer :: String -> String
-no_buffer h = unwords ["System.IO.hSetBuffering",
- "System.IO." ++ h,
- "System.IO.NoBuffering"]
-
-no_buf_cmd :: String
-no_buf_cmd = command_sequence $ map no_buffer ["stdout", "stderr", "stdin"]
-
-flush_buffer :: String -> String
-flush_buffer h = unwords ["System.IO.hFlush", "System.IO." ++ h]
-
-flush_cmd :: String
-flush_cmd = command_sequence [flush_buffer "stdout", flush_buffer "stderr"]
+-- After various attempts, I believe this is the least bad way to do
+-- what we want. We know look up the address of the static stdin,
+-- stdout, and stderr closures in the loaded base package, and each
+-- time we need to refer to them we cast the pointer to a Handle.
+-- This avoids any problems with the CAF having been reverted, because
+-- we'll always get the current value.
+--
+-- The previous attempt that didn't work was to compile an expression
+-- like "hSetBuffering stdout NoBuffering" into an expression of type
+-- IO () and run this expression each time we needed it, but the
+-- problem is that evaluating the expression might cache the contents
+-- of the Handle rather than referring to it from its static address
+-- each time. There's no safe workaround for this.
initInterpBuffering :: GHC.Session -> IO ()
initInterpBuffering session
- = do maybe_hval <- GHC.compileExpr session no_buf_cmd
-
- case maybe_hval of
- Just hval -> writeIORef turn_off_buffering (unsafeCoerce# hval :: IO ())
- other -> panic "interactiveUI:setBuffering"
-
- maybe_hval <- GHC.compileExpr session flush_cmd
- case maybe_hval of
- Just hval -> writeIORef flush_interp (unsafeCoerce# hval :: IO ())
- _ -> panic "interactiveUI:flush"
-
+ = do -- make sure these are linked
+ mb_hval1 <- GHC.compileExpr session "System.IO.stdout"
+ mb_hval2 <- GHC.compileExpr session "System.IO.stderr"
+ mb_hval3 <- GHC.compileExpr session "System.IO.stdin"
+ when (any isNothing [mb_hval1,mb_hval2,mb_hval3]) $
+ panic "interactiveUI:setBuffering"
+
+ -- ToDo: we should really look up these names properly, but
+ -- it's a fiddle and not all the bits are exposed via the GHC
+ -- interface.
+ mb_stdin_ptr <- ObjLink.lookupSymbol "base_GHCziHandle_stdin_closure"
+ mb_stdout_ptr <- ObjLink.lookupSymbol "base_GHCziHandle_stdout_closure"
+ mb_stderr_ptr <- ObjLink.lookupSymbol "base_GHCziHandle_stderr_closure"
+
+ let f ref (Just ptr) = writeIORef ref ptr
+ f ref Nothing = panic "interactiveUI:setBuffering2"
+ zipWithM f [stdin_ptr,stdout_ptr,stderr_ptr]
+ [mb_stdin_ptr,mb_stdout_ptr,mb_stderr_ptr]
return ()
-
flushInterpBuffers :: GHCi ()
flushInterpBuffers
- = io $ do Monad.join (readIORef flush_interp)
- return ()
+ = io $ do getHandle stdout_ptr >>= hFlush
+ getHandle stderr_ptr >>= hFlush
turnOffBuffering :: IO ()
turnOffBuffering
- = do Monad.join (readIORef turn_off_buffering)
- return ()
+ = do hdls <- mapM getHandle [stdin_ptr,stdout_ptr,stderr_ptr]
+ mapM_ (\h -> hSetBuffering h NoBuffering) hdls
+
+getHandle :: IORef (Ptr ()) -> IO Handle
+getHandle ref = do
+ (Ptr addr) <- readIORef ref
+ case addrToHValue# addr of (# hval #) -> return (unsafeCoerce# hval)