module SysTools (
-- Initialisation
initSysTools,
- setPgm, -- String -> IO ()
+
+ setPgmP, -- String -> IO ()
+ setPgmF,
+ setPgmc,
+ setPgmm,
+ setPgms,
+ setPgma,
+ setPgml,
+#ifdef ILX
+ setPgmI,
+ setPgmi,
+#endif
-- Command-line override
setDryRun,
#else
import List ( isPrefixOf )
import MarshalArray
+import Foreign
#endif
--- This is a kludge for bootstrapping with 4.08.X. Given that
--- all distributed compilers >= 5.0 will be compiled with themselves.
--- I don't think this kludge is a problem. And we have to start
--- building with >= 5.0 on Win32 anyway.
#if __GLASGOW_HASKELL__ > 408
--- use the line below when we can be sure of compiling with GHC >=
--- 5.02, and remove the implementation of rawSystem at the end of this
--- file
# if __GLASGOW_HASKELL__ >= 503
import GHC.IOBase
# else
-import PrelIOBase -- this can be removed when SystemExts is used
# endif
+# ifdef mingw32_TARGET_OS
import SystemExts ( rawSystem )
+# endif
#else
-import CError ( throwErrnoIfMinus1 ) -- as can this
import System ( system )
#endif
tdir <-
if ret == 0 then do
-- failed, consult TEMP.
- destructArray len buf
+ free buf
getEnv "TMP"
else do
s <- peekCString buf
- destructArray len buf
+ free buf
return s
let
-- strip the trailing backslash (awful, but
#endif
\end{code}
-setPgm is called when a command-line option like
+The various setPgm functions are called when a command-line option
+like
+
-pgmLld
+
is used to override a particular program with a new one
\begin{code}
-setPgm :: String -> IO ()
--- The string is the flag, minus the '-pgm' prefix
--- So the first character says which program to override
-
-setPgm ('P' : pgm) = writeIORef v_Pgm_P pgm
-setPgm ('F' : pgm) = writeIORef v_Pgm_F pgm
-setPgm ('c' : pgm) = writeIORef v_Pgm_c pgm
-setPgm ('m' : pgm) = writeIORef v_Pgm_m pgm
-setPgm ('s' : pgm) = writeIORef v_Pgm_s pgm
-setPgm ('a' : pgm) = writeIORef v_Pgm_a pgm
-setPgm ('l' : pgm) = writeIORef v_Pgm_l pgm
+setPgmP = writeIORef v_Pgm_P
+setPgmF = writeIORef v_Pgm_F
+setPgmc = writeIORef v_Pgm_c
+setPgmm = writeIORef v_Pgm_m
+setPgms = writeIORef v_Pgm_s
+setPgma = writeIORef v_Pgm_a
+setPgml = writeIORef v_Pgm_l
#ifdef ILX
-setPgm ('I' : pgm) = writeIORef v_Pgm_I pgm
-setPgm ('i' : pgm) = writeIORef v_Pgm_i pgm
+setPgmI = writeIORef v_Pgm_I
+setPgmi = writeIORef v_Pgm_i
#endif
-setPgm pgm = unknownFlagErr ("-pgm" ++ pgm)
\end{code}
getExecDir = do let len = (2048::Int) -- plenty, PATH_MAX is 512 under Win32.
buf <- mallocArray len
ret <- getModuleFileName nullAddr buf len
- if ret == 0 then destructArray len buf >> return Nothing
+ if ret == 0 then free buf >> return Nothing
else do s <- peekCString buf
- destructArray len buf
+ free buf
return (Just (reverse (dropList "/bin/ghc.exe" (reverse (unDosifyPath s)))))
#if defined(mingw32_TARGET_OS) && (__GLASGOW_HASKELL__ <= 408)
rawSystem :: String -> IO ExitCode
-rawSystem "" = ioException (IOError Nothing InvalidArgument "rawSystem" "null command" Nothing)
-rawSystem cmd =
- withCString cmd $ \s -> do
- status <- throwErrnoIfMinus1 "rawSystem" (primRawSystem s)
- case status of
- 0 -> return ExitSuccess
- n -> return (ExitFailure n)
-
-foreign import ccall "rawSystemCmd" unsafe primRawSystem :: CString -> IO Int
+rawSystem cmd = system cmd
+ -- mingw only: if you try to build a stage2 compiler with a stage1
+ -- that has been bootstrapped with 4.08 (or earlier), this will run
+ -- into problems with limits on command-line lengths with the std.
+ -- Win32 command interpreters. So don't this - use 5.00 or later
+ -- to compile up the GHC sources.
#endif