1 -----------------------------------------------------------------------------
3 -- (c) The University of Glasgow 2001
5 -- Access to system tools: gcc, cp, rm etc
7 -----------------------------------------------------------------------------
14 setPgmP, -- String -> IO ()
25 -- Command-line override
28 getTopDir, -- IO String -- The value of $libdir
29 getPackageConfigPath, -- IO String -- Where package.conf is
31 -- Interface to system tools
32 runUnlit, runCpp, runCc, -- [Option] -> IO ()
33 runPp, -- [Option] -> IO ()
34 runMangle, runSplit, -- [Option] -> IO ()
35 runAs, runLink, -- [Option] -> IO ()
38 runIlx2il, runIlasm, -- [String] -> IO ()
42 touch, -- String -> String -> IO ()
43 copy, -- String -> String -> String -> IO ()
44 unDosifyPath, -- String -> String
46 -- Temporary-file management
49 cleanTempFiles, cleanTempFilesExcept, removeTmpFiles,
53 getProcessID, -- IO Int
54 system, -- String -> IO ExitCode
57 showGhcUsage, -- IO () Shows usage message and exits
58 getSysMan, -- IO String Parallel system only
67 import Panic ( progName, GhcException(..) )
68 import Util ( global, dropList, notNull )
69 import CmdLineOpts ( dynFlag, verbosity )
71 import Exception ( throwDyn )
72 #if __GLASGOW_HASKELL__ > 408
73 import qualified Exception ( catch )
75 import Exception ( catchAllIO )
78 import Directory ( doesFileExist, removeFile )
79 import IOExts ( IORef, readIORef, writeIORef )
80 import Monad ( when, unless )
81 import System ( ExitCode(..), exitWith, getEnv, system )
86 #include "../includes/config.h"
88 #ifndef mingw32_HOST_OS
89 import qualified Posix
91 import List ( isPrefixOf )
96 #if __GLASGOW_HASKELL__ > 408
97 # if __GLASGOW_HASKELL__ >= 503
101 # ifdef mingw32_HOST_OS
102 import SystemExts ( rawSystem )
105 import System ( system )
109 #include "HsVersions.h"
111 -- Make catch work on older GHCs
112 #if __GLASGOW_HASKELL__ > 408
113 myCatch = Exception.catch
121 The configuration story
122 ~~~~~~~~~~~~~~~~~~~~~~~
124 GHC needs various support files (library packages, RTS etc), plus
125 various auxiliary programs (cp, gcc, etc). It finds these in one
128 * When running as an *installed program*, GHC finds most of this support
129 stuff in the installed library tree. The path to this tree is passed
130 to GHC via the -B flag, and given to initSysTools .
132 * When running *in-place* in a build tree, GHC finds most of this support
133 stuff in the build tree. The path to the build tree is, again passed
136 GHC tells which of the two is the case by seeing whether package.conf
137 is in TopDir [installed] or in TopDir/ghc/driver [inplace] (what a hack).
140 SysTools.initSysProgs figures out exactly where all the auxiliary programs
141 are, and initialises mutable variables to make it easy to call them.
142 To to this, it makes use of definitions in Config.hs, which is a Haskell
143 file containing variables whose value is figured out by the build system.
145 Config.hs contains two sorts of things
147 cGCC, The *names* of the programs
150 etc They do *not* include paths
153 cUNLIT_DIR_REL The *path* to the directory containing unlit, split etc
154 cSPLIT_DIR_REL *relative* to the root of the build tree,
155 for use when running *in-place* in a build tree (only)
159 ---------------------------------------------
160 NOTES for an ALTERNATIVE scheme (i.e *not* what is currently implemented):
162 Another hair-brained scheme for simplifying the current tool location
163 nightmare in GHC: Simon originally suggested using another
164 configuration file along the lines of GCC's specs file - which is fine
165 except that it means adding code to read yet another configuration
166 file. What I didn't notice is that the current package.conf is
167 general enough to do this:
170 {name = "tools", import_dirs = [], source_dirs = [],
171 library_dirs = [], hs_libraries = [], extra_libraries = [],
172 include_dirs = [], c_includes = [], package_deps = [],
173 extra_ghc_opts = ["-pgmc/usr/bin/gcc","-pgml${libdir}/bin/unlit", ... etc.],
174 extra_cc_opts = [], extra_ld_opts = []}
176 Which would have the advantage that we get to collect together in one
177 place the path-specific package stuff with the path-specific tool
180 ---------------------------------------------
183 %************************************************************************
185 \subsection{Global variables to contain system programs}
187 %************************************************************************
189 All these pathnames are maintained IN THE NATIVE FORMAT OF THE HOST MACHINE.
190 (See remarks under pathnames below)
193 GLOBAL_VAR(v_Pgm_L, error "pgm_L", String) -- unlit
194 GLOBAL_VAR(v_Pgm_P, error "pgm_P", String) -- cpp
195 GLOBAL_VAR(v_Pgm_F, error "pgm_F", String) -- pp
196 GLOBAL_VAR(v_Pgm_c, error "pgm_c", String) -- gcc
197 GLOBAL_VAR(v_Pgm_m, error "pgm_m", String) -- asm code mangler
198 GLOBAL_VAR(v_Pgm_s, error "pgm_s", String) -- asm code splitter
199 GLOBAL_VAR(v_Pgm_a, error "pgm_a", String) -- as
201 GLOBAL_VAR(v_Pgm_I, error "pgm_I", String) -- ilx2il
202 GLOBAL_VAR(v_Pgm_i, error "pgm_i", String) -- ilasm
204 GLOBAL_VAR(v_Pgm_l, error "pgm_l", String) -- ld
205 GLOBAL_VAR(v_Pgm_MkDLL, error "pgm_dll", String) -- mkdll
207 GLOBAL_VAR(v_Pgm_T, error "pgm_T", String) -- touch
208 GLOBAL_VAR(v_Pgm_CP, error "pgm_CP", String) -- cp
210 GLOBAL_VAR(v_Path_package_config, error "path_package_config", String)
211 GLOBAL_VAR(v_Path_usage, error "ghc_usage.txt", String)
213 GLOBAL_VAR(v_TopDir, error "TopDir", String) -- -B<dir>
215 -- Parallel system only
216 GLOBAL_VAR(v_Pgm_sysman, error "pgm_sysman", String) -- system manager
218 -- ways to get at some of these variables from outside this module
219 getPackageConfigPath = readIORef v_Path_package_config
220 getTopDir = readIORef v_TopDir
224 %************************************************************************
226 \subsection{Initialisation}
228 %************************************************************************
231 initSysTools :: [String] -- Command-line arguments starting "-B"
233 -> IO () -- Set all the mutable variables above, holding
234 -- (a) the system programs
235 -- (b) the package-config file
236 -- (c) the GHC usage message
239 initSysTools minusB_args
240 = do { (am_installed, top_dir) <- findTopDir minusB_args
241 ; writeIORef v_TopDir top_dir
243 -- for "installed" this is the root of GHC's support files
244 -- for "in-place" it is the root of the build tree
245 -- NB: top_dir is assumed to be in standard Unix format '/' separated
247 ; let installed, installed_bin :: FilePath -> FilePath
248 installed_bin pgm = pgmPath top_dir pgm
249 installed file = pgmPath top_dir file
250 inplace dir pgm = pgmPath (top_dir `slash`
251 cPROJECT_DIR `slash` dir) pgm
254 | am_installed = installed "package.conf"
255 | otherwise = inplace cGHC_DRIVER_DIR_REL "package.conf.inplace"
258 | am_installed = installed "ghc-usage.txt"
259 | otherwise = inplace cGHC_DRIVER_DIR_REL "ghc-usage.txt"
261 -- For all systems, unlit, split, mangle are GHC utilities
262 -- architecture-specific stuff is done when building Config.hs
264 | am_installed = installed_bin cGHC_UNLIT_PGM
265 | otherwise = inplace cGHC_UNLIT_DIR_REL cGHC_UNLIT_PGM
267 -- split and mangle are Perl scripts
269 | am_installed = installed_bin cGHC_SPLIT_PGM
270 | otherwise = inplace cGHC_SPLIT_DIR_REL cGHC_SPLIT_PGM
273 | am_installed = installed_bin cGHC_MANGLER_PGM
274 | otherwise = inplace cGHC_MANGLER_DIR_REL cGHC_MANGLER_PGM
276 #ifndef mingw32_HOST_OS
277 -- check whether TMPDIR is set in the environment
278 ; IO.try (do dir <- getEnv "TMPDIR" -- fails if not set
283 -- On Win32, consult GetTempPath() for a temp dir.
284 -- => it first tries TMP, TEMP, then finally the
285 -- Windows directory(!). The directory is in short-path
286 -- form and *does* have a trailing backslash.
288 let len = (2048::Int)
289 buf <- mallocArray len
290 ret <- getTempPath len buf
293 -- failed, consult TEMP.
301 -- strip the trailing backslash (awful, but
302 -- we only do this once).
312 -- Check that the package config exists
313 ; config_exists <- doesFileExist pkgconfig_path
314 ; when (not config_exists) $
315 throwDyn (InstallationError
316 ("Can't find package.conf as " ++ pkgconfig_path))
318 #if defined(mingw32_HOST_OS)
319 -- WINDOWS-SPECIFIC STUFF
320 -- On Windows, gcc and friends are distributed with GHC,
321 -- so when "installed" we look in TopDir/bin
322 -- When "in-place" we look wherever the build-time configure
324 -- When "install" we tell gcc where its specs file + exes are (-B)
325 -- and also some places to pick up include files. We need
326 -- to be careful to put all necessary exes in the -B place
327 -- (as, ld, cc1, etc) since if they don't get found there, gcc
328 -- then tries to run unadorned "as", "ld", etc, and will
329 -- pick up whatever happens to be lying around in the path,
330 -- possibly including those from a cygwin install on the target,
331 -- which is exactly what we're trying to avoid.
332 ; let gcc_path | am_installed = installed_bin ("gcc -B\"" ++ installed "gcc-lib/\"")
334 -- The trailing "/" is absolutely essential; gcc seems
335 -- to construct file names simply by concatenating to this
336 -- -B path with no extra slash
337 -- We use "/" rather than "\\" because otherwise "\\\" is mangled
338 -- later on; although gcc_path is in NATIVE format, gcc can cope
339 -- (see comments with declarations of global variables)
341 -- The quotes round the -B argument are in case TopDir has spaces in it
343 perl_path | am_installed = installed_bin cGHC_PERL
344 | otherwise = cGHC_PERL
346 -- 'touch' is a GHC util for Windows, and similarly unlit, mangle
347 ; let touch_path | am_installed = installed_bin cGHC_TOUCHY_PGM
348 | otherwise = inplace cGHC_TOUCHY_DIR_REL cGHC_TOUCHY_PGM
350 -- On Win32 we don't want to rely on #!/bin/perl, so we prepend
351 -- a call to Perl to get the invocation of split and mangle
352 ; let split_path = perl_path ++ " \"" ++ split_script ++ "\""
353 mangle_path = perl_path ++ " \"" ++ mangle_script ++ "\""
356 | am_installed = pgmPath (installed "gcc-lib/") cMKDLL ++
357 " --dlltool-name " ++ pgmPath (installed "gcc-lib/") "dlltool" ++
358 " --driver-name " ++ gcc_path
361 -- UNIX-SPECIFIC STUFF
362 -- On Unix, the "standard" tools are assumed to be
363 -- in the same place whether we are running "in-place" or "installed"
364 -- That place is wherever the build-time configure script found them.
365 ; let gcc_path = cGCC
367 mkdll_path = panic "Can't build DLLs on a non-Win32 system"
369 -- On Unix, scripts are invoked using the '#!' method. Binary
370 -- installations of GHC on Unix place the correct line on the front
371 -- of the script at installation time, so we don't want to wire-in
372 -- our knowledge of $(PERL) on the host system here.
373 ; let split_path = split_script
374 mangle_path = mangle_script
377 -- cpp is derived from gcc on all platforms
378 ; let cpp_path = gcc_path ++ " -E " ++ cRAWCPP_FLAGS
380 -- For all systems, copy and remove are provided by the host
381 -- system; architecture-specific stuff is done when building Config.hs
382 ; let cp_path = cGHC_CP
384 -- Other things being equal, as and ld are simply gcc
385 ; let as_path = gcc_path
389 -- ilx2il and ilasm are specified in Config.hs
390 ; let ilx2il_path = cILX2IL
394 -- Initialise the global vars
395 ; writeIORef v_Path_package_config pkgconfig_path
396 ; writeIORef v_Path_usage ghc_usage_msg_path
398 ; writeIORef v_Pgm_sysman (top_dir ++ "/ghc/rts/parallel/SysMan")
399 -- Hans: this isn't right in general, but you can
400 -- elaborate it in the same way as the others
402 ; writeIORef v_Pgm_L unlit_path
403 ; writeIORef v_Pgm_P cpp_path
404 ; writeIORef v_Pgm_F ""
405 ; writeIORef v_Pgm_c gcc_path
406 ; writeIORef v_Pgm_m mangle_path
407 ; writeIORef v_Pgm_s split_path
408 ; writeIORef v_Pgm_a as_path
410 ; writeIORef v_Pgm_I ilx2il_path
411 ; writeIORef v_Pgm_i ilasm_path
413 ; writeIORef v_Pgm_l ld_path
414 ; writeIORef v_Pgm_MkDLL mkdll_path
415 ; writeIORef v_Pgm_T touch_path
416 ; writeIORef v_Pgm_CP cp_path
421 #if defined(mingw32_HOST_OS)
422 foreign import stdcall "GetTempPathA" unsafe getTempPath :: Int -> CString -> IO Int32
426 The various setPgm functions are called when a command-line option
431 is used to override a particular program with a new one
434 setPgmP = writeIORef v_Pgm_P
435 setPgmF = writeIORef v_Pgm_F
436 setPgmc = writeIORef v_Pgm_c
437 setPgmm = writeIORef v_Pgm_m
438 setPgms = writeIORef v_Pgm_s
439 setPgma = writeIORef v_Pgm_a
440 setPgml = writeIORef v_Pgm_l
442 setPgmI = writeIORef v_Pgm_I
443 setPgmi = writeIORef v_Pgm_i
450 -- for "installed" this is the root of GHC's support files
451 -- for "in-place" it is the root of the build tree
454 -- 1. Set proto_top_dir
455 -- a) look for (the last) -B flag, and use it
456 -- b) if there are no -B flags, get the directory
457 -- where GHC is running (only on Windows)
459 -- 2. If package.conf exists in proto_top_dir, we are running
460 -- installed; and TopDir = proto_top_dir
462 -- 3. Otherwise we are running in-place, so
463 -- proto_top_dir will be /...stuff.../ghc/compiler
464 -- Set TopDir to /...stuff..., which is the root of the build tree
466 -- This is very gruesome indeed
468 findTopDir :: [String]
469 -> IO (Bool, -- True <=> am installed, False <=> in-place
470 String) -- TopDir (in Unix format '/' separated)
473 = do { top_dir <- get_proto
474 -- Discover whether we're running in a build tree or in an installation,
475 -- by looking for the package configuration file.
476 ; am_installed <- doesFileExist (top_dir `slash` "package.conf")
478 ; return (am_installed, top_dir)
481 -- get_proto returns a Unix-format path (relying on getExecDir to do so too)
482 get_proto | notNull minusbs
483 = return (unDosifyPath (drop 2 (last minusbs))) -- 2 for "-B"
485 = do { maybe_exec_dir <- getExecDir -- Get directory of executable
486 ; case maybe_exec_dir of -- (only works on Windows;
487 -- returns Nothing on Unix)
488 Nothing -> throwDyn (InstallationError "missing -B<dir> option")
489 Just dir -> return dir
494 %************************************************************************
496 \subsection{Command-line options}
498 %************************************************************************
500 When invoking external tools as part of the compilation pipeline, we
501 pass these a sequence of options on the command-line. Rather than
502 just using a list of Strings, we use a type that allows us to distinguish
503 between filepaths and 'other stuff'. [The reason being, of course, that
504 this type gives us a handle on transforming filenames, and filenames only,
505 to whatever format they're expected to be on a particular platform.]
509 = FileOption -- an entry that _contains_ filename(s) / filepaths.
510 String -- a non-filepath prefix that shouldn't be transformed (e.g., "/out="
511 String -- the filepath/filename portion
514 showOptions :: [Option] -> String
515 showOptions ls = unwords (map (quote.showOpt) ls)
517 showOpt (FileOption pre f) = pre ++ dosifyPath f
518 showOpt (Option s) = s
523 %************************************************************************
525 \subsection{Running an external program}
527 %************************************************************************
531 runUnlit :: [Option] -> IO ()
532 runUnlit args = do p <- readIORef v_Pgm_L
533 runSomething "Literate pre-processor" p args
535 runCpp :: [Option] -> IO ()
536 runCpp args = do p <- readIORef v_Pgm_P
537 runSomething "C pre-processor" p args
539 runPp :: [Option] -> IO ()
540 runPp args = do p <- readIORef v_Pgm_F
541 runSomething "Haskell pre-processor" p args
543 runCc :: [Option] -> IO ()
544 runCc args = do p <- readIORef v_Pgm_c
545 runSomething "C Compiler" p args
547 runMangle :: [Option] -> IO ()
548 runMangle args = do p <- readIORef v_Pgm_m
549 runSomething "Mangler" p args
551 runSplit :: [Option] -> IO ()
552 runSplit args = do p <- readIORef v_Pgm_s
553 runSomething "Splitter" p args
555 runAs :: [Option] -> IO ()
556 runAs args = do p <- readIORef v_Pgm_a
557 runSomething "Assembler" p args
559 runLink :: [Option] -> IO ()
560 runLink args = do p <- readIORef v_Pgm_l
561 runSomething "Linker" p args
564 runIlx2il :: [Option] -> IO ()
565 runIlx2il args = do p <- readIORef v_Pgm_I
566 runSomething "Ilx2Il" p args
568 runIlasm :: [Option] -> IO ()
569 runIlasm args = do p <- readIORef v_Pgm_i
570 runSomething "Ilasm" p args
573 runMkDLL :: [Option] -> IO ()
574 runMkDLL args = do p <- readIORef v_Pgm_MkDLL
575 runSomething "Make DLL" p args
577 touch :: String -> String -> IO ()
578 touch purpose arg = do p <- readIORef v_Pgm_T
579 runSomething purpose p [FileOption "" arg]
581 copy :: String -> String -> String -> IO ()
582 copy purpose from to = do
583 verb <- dynFlag verbosity
584 when (verb >= 2) $ hPutStrLn stderr ("*** " ++ purpose)
586 h <- openFile to WriteMode
587 ls <- readFile from -- inefficient, but it'll do for now.
588 -- ToDo: speed up via slurping.
594 getSysMan :: IO String -- How to invoke the system manager
595 -- (parallel system only)
596 getSysMan = readIORef v_Pgm_sysman
599 %************************************************************************
601 \subsection{GHC Usage message}
603 %************************************************************************
605 Show the usage message and exit
608 showGhcUsage = do { usage_path <- readIORef v_Path_usage
609 ; usage <- readFile usage_path
611 ; exitWith ExitSuccess }
614 dump ('$':'$':s) = hPutStr stderr progName >> dump s
615 dump (c:s) = hPutChar stderr c >> dump s
619 %************************************************************************
621 \subsection{Managing temporary files
623 %************************************************************************
626 GLOBAL_VAR(v_FilesToClean, [], [String] )
627 GLOBAL_VAR(v_TmpDir, cDEFAULT_TMPDIR, String )
628 -- v_TmpDir has no closing '/'
632 setTmpDir dir = writeIORef v_TmpDir dir
634 cleanTempFiles :: Int -> IO ()
635 cleanTempFiles verb = do fs <- readIORef v_FilesToClean
636 removeTmpFiles verb fs
638 cleanTempFilesExcept :: Int -> [FilePath] -> IO ()
639 cleanTempFilesExcept verb dont_delete
640 = do fs <- readIORef v_FilesToClean
641 let leftovers = filter (`notElem` dont_delete) fs
642 removeTmpFiles verb leftovers
643 writeIORef v_FilesToClean dont_delete
646 -- find a temporary name that doesn't already exist.
647 newTempName :: Suffix -> IO FilePath
649 = do x <- getProcessID
650 tmp_dir <- readIORef v_TmpDir
651 findTempName tmp_dir x
653 findTempName tmp_dir x
654 = do let filename = tmp_dir ++ "/ghc" ++ show x ++ '.':extn
655 b <- doesFileExist filename
656 if b then findTempName tmp_dir (x+1)
657 else do add v_FilesToClean filename -- clean it up later
660 addFilesToClean :: [FilePath] -> IO ()
661 -- May include wildcards [used by DriverPipeline.run_phase SplitMangle]
662 addFilesToClean files = mapM_ (add v_FilesToClean) files
664 removeTmpFiles :: Int -> [FilePath] -> IO ()
665 removeTmpFiles verb fs
666 = traceCmd "Deleting temp files"
667 ("Deleting: " ++ unwords fs)
670 rm f = removeFile f `myCatch`
673 hPutStrLn stderr ("Warning: deleting non-existent " ++ f)
679 %************************************************************************
681 \subsection{Running a program}
683 %************************************************************************
686 GLOBAL_VAR(v_Dry_run, False, Bool)
689 setDryRun = writeIORef v_Dry_run True
691 -----------------------------------------------------------------------------
692 -- Running an external program
694 runSomething :: String -- For -v message
695 -> String -- Command name (possibly a full path)
696 -- assumed already dos-ified
697 -> [Option] -- Arguments
698 -- runSomething will dos-ify them
701 runSomething phase_name pgm args
702 = traceCmd phase_name cmd_line $
704 #ifndef mingw32_HOST_OS
705 exit_code <- system cmd_line
707 exit_code <- rawSystem cmd_line
709 ; if exit_code /= ExitSuccess
710 then throwDyn (PhaseFailed phase_name exit_code)
714 -- The pgm is already in native format (appropriate dir separators)
715 cmd_line = pgm ++ ' ':showOptions args
716 -- unwords (pgm : dosifyPaths (map quote args))
718 traceCmd :: String -> String -> IO () -> IO ()
719 -- a) trace the command (at two levels of verbosity)
720 -- b) don't do it at all if dry-run is set
721 traceCmd phase_name cmd_line action
722 = do { verb <- dynFlag verbosity
723 ; when (verb >= 2) $ hPutStrLn stderr ("*** " ++ phase_name)
724 ; when (verb >= 3) $ hPutStrLn stderr cmd_line
728 ; n <- readIORef v_Dry_run
732 ; action `myCatch` handle_exn verb
735 handle_exn verb exn = do { when (verb >= 2) (hPutStr stderr "\n")
736 ; when (verb >= 3) (hPutStrLn stderr ("Failed: " ++ cmd_line))
737 ; throwDyn (PhaseFailed phase_name (ExitFailure 1)) }
741 %************************************************************************
743 \subsection{Path names}
745 %************************************************************************
747 We maintain path names in Unix form ('/'-separated) right until
748 the last moment. On Windows we dos-ify them just before passing them
749 to the Windows command.
751 The alternative, of using '/' consistently on Unix and '\' on Windows,
752 proved quite awkward. There were a lot more calls to dosifyPath,
753 and even on Windows we might invoke a unix-like utility (eg 'sh'), which
754 interpreted a command line 'foo\baz' as 'foobaz'.
757 -----------------------------------------------------------------------------
758 -- Convert filepath into MSDOS form.
760 dosifyPaths :: [String] -> [String]
761 -- dosifyPaths does two things
762 -- a) change '/' to '\'
763 -- b) remove initial '/cygdrive/'
765 unDosifyPath :: String -> String
766 -- Just change '\' to '/'
768 pgmPath :: String -- Directory string in Unix format
769 -> String -- Program name with no directory separators
771 -> String -- Program invocation string in native format
775 #if defined(mingw32_HOST_OS)
777 --------------------- Windows version ------------------
778 dosifyPaths xs = map dosifyPath xs
780 unDosifyPath xs = subst '\\' '/' xs
782 pgmPath dir pgm = dosifyPath dir ++ '\\' : pgm
785 = subst '/' '\\' real_stuff
787 -- fully convince myself that /cygdrive/ prefixes cannot
788 -- really appear here.
789 cygdrive_prefix = "/cygdrive/"
792 | cygdrive_prefix `isPrefixOf` stuff = dropList cygdrive_prefix stuff
797 --------------------- Unix version ---------------------
800 pgmPath dir pgm = dir ++ '/' : pgm
801 dosifyPath stuff = stuff
802 --------------------------------------------------------
805 subst a b ls = map (\ x -> if x == a then b else x) ls
809 -----------------------------------------------------------------------------
810 Path name construction
813 slash :: String -> String -> String
814 absPath, relPath :: [String] -> String
817 relPath xs = foldr1 slash xs
819 absPath xs = "" `slash` relPath xs
821 slash s1 s2 = s1 ++ ('/' : s2)
825 %************************************************************************
827 \subsection{Support code}
829 %************************************************************************
832 -----------------------------------------------------------------------------
833 -- Define getExecDir :: IO (Maybe String)
835 #if defined(mingw32_HOST_OS)
836 getExecDir :: IO (Maybe String)
837 getExecDir = do let len = (2048::Int) -- plenty, PATH_MAX is 512 under Win32.
838 buf <- mallocArray len
839 ret <- getModuleFileName nullAddr buf len
840 if ret == 0 then free buf >> return Nothing
841 else do s <- peekCString buf
843 return (Just (reverse (dropList "/bin/ghc.exe" (reverse (unDosifyPath s)))))
846 foreign import stdcall "GetModuleFileNameA" unsafe getModuleFileName :: Addr -> CString -> Int -> IO Int32
848 getExecDir :: IO (Maybe String) = do return Nothing
851 #ifdef mingw32_HOST_OS
852 foreign import "_getpid" unsafe getProcessID :: IO Int -- relies on Int == Int32 on Windows
854 getProcessID :: IO Int
855 getProcessID = Posix.getProcessID
858 #if defined(mingw32_HOST_OS) && (__GLASGOW_HASKELL__ <= 408)
859 rawSystem :: String -> IO ExitCode
860 rawSystem cmd = system cmd
861 -- mingw only: if you try to build a stage2 compiler with a stage1
862 -- that has been bootstrapped with 4.08 (or earlier), this will run
863 -- into problems with limits on command-line lengths with the std.
864 -- Win32 command interpreters. So don't this - use 5.00 or later
865 -- to compile up the GHC sources.
868 quote :: String -> String
869 #if defined(mingw32_HOST_OS)
871 quote s = "\"" ++ s ++ "\""