9 files changed, 1296 insertions, 1467 deletions

diff --git a/ANNOUNCE b/ANNOUNCE
index 7e47bd4..795eec0 100644
--- a/ANNOUNCE
+++ b/ANNOUNCE
@@ -1,8 +1,8 @@
-                 PTHREADS-WIN32 SNAPSHOT 2002-??-??

-                 ----------------------------------

-       Web Site: http://sources.redhat.com/pthreads-win32/

-      FTP Site: ftp://sources.redhat.com/pub/pthreads-win32

-        Coordinator: Ross Johnson <rpj@ise.canberra.edu.au>

+		 PTHREADS-WIN32 SNAPSHOT 2002-03-02

+		 ----------------------------------

+	 Web Site: http://sources.redhat.com/pthreads-win32/

+	FTP Site: ftp://sources.redhat.com/pub/pthreads-win32

+	 Maintainer: Ross Johnson <rpj@ise.canberra.edu.au>

 

 

 We are pleased to announce the availability of a new snapshot of

@@ -23,366 +23,43 @@ Please see the 'Acknowledgements' section at the end of this
 announcement for the list of contributors.

 

 

--------------------------------

-Changes since the last snapshot

--------------------------------

+Acknowledgements

+----------------

+This library is based substantially on a Win32 pthreads

+implementation contributed by John Bossom <John.Bossom@cognos.com>.

 

-Cleanup code default style. (IMPORTANT)

-----------------------------------------------------------------------

-Previously, if not defined, the cleanup style was determined automatically

-from the compiler/language, and one of the following was defined accordingly:

-

-	__CLEANUP_SEH	MSVC only

-	__CLEANUP_CXX	C++, including MSVC++, GNU G++

-	__CLEANUP_C		C, including GNU GCC, not MSVC

-

-These defines determine the style of cleanup (see pthread.h) and,

-most importantly, the way that cancelation and thread exit (via

-pthread_exit) is performed (see the routine ptw32_throw() in private.c).

-

-In short, the exceptions versions of the library throw an exception

-when a thread is canceled or exits (via pthread_exit()), which is

-caught by a handler in the thread startup routine, so that the

-the correct stack unwinding occurs regardless of where the thread

-is when it's canceled or exits via pthread_exit().

-

-In this and future snapshots, unless the build explicitly defines (e.g.

-via a compiler option) __CLEANUP_SEH, __CLEANUP_CXX, or __CLEANUP_C, then

-the build NOW always defaults to __CLEANUP_C style cleanup. This style

-uses setjmp/longjmp in the cancelation and pthread_exit implementations,

-and therefore won't do stack unwinding even when linked to applications

-that have it (e.g. C++ apps). This is for consistency with most

-current commercial Unix POSIX threads implementations. Compaq's TRU64

-may be an exception (no pun intended) and possible future trend.

-

-Although it was not clearly documented before, it is still necessary to

-build your application using the same __CLEANUP_* define as was

-used for the version of the library that you link with, so that the

-correct parts of pthread.h are included. That is, the possible

-defines require the following library versions:

-

-	__CLEANUP_SEH	pthreadVSE.dll

-	__CLEANUP_CXX	pthreadVCE.dll or pthreadGCE.dll

-	__CLEANUP_C	pthreadVC.dll or pthreadGC.dll

-

-E.g. regardless of whether your app is C or C++, if you link with

-pthreadVC.lib or libpthreadGC.a, then you must define __CLEANUP_C.

-

-

-THE POINT OF ALL THIS IS: if you have not been defining one of these

-explicitly, then the defaults as described at the top of this

-section were being used.

-

-THIS NOW CHANGES, as has been explained above, but to try to make this

-clearer here's an example:

-

-If you were building your application with MSVC++ i.e. using C++

-exceptions and not explicitly defining one of __CLEANUP_*, then

-__CLEANUP_C++ was automatically defined for you in pthread.h.

-You should have been linking with pthreadVCE.dll, which does

-stack unwinding.

-

-If you now build your application as you had before, pthread.h will now

-automatically set __CLEANUP_C as the default style, and you will need to

-link with pthreadVC.dll. Stack unwinding will now NOT occur when a thread

-is canceled, or the thread calls pthread_exit().

-

-Your application will now most likely behave differently to previous

-versions, and in non-obvious ways. Most likely is that locally

-instantiated objects may not be destroyed or cleaned up after a thread

-is canceled.

-

-If you want the same behaviour as before, then you must now define

-__CLEANUP_C++ explicitly using a compiler option and link with

-pthreadVCE.dll as you did before.

-

-

-WHY ARE WE MAKING THE DEFAULT STYLE LESS EXCEPTION-FRIENDLY?

-Because no commercial Unix POSIX threads implementation allows you to

-choose to have stack unwinding. Therefore, providing it in pthread-win32

-as a default is dangerous. We still provide the choice but unless

-you consciously choose to do otherwise, your pthreads applications will

-now run or crash in similar ways irrespective of the threads platform

-you use. Or at least this is the hope.

-

-

-WHY NOT REMOVE THE EXCEPTIONS VERSIONS OF THE LIBRARY ALTOGETHER?

-There are a few reasons:

-- because there are well respected POSIX threads people who believe

-  that POSIX threads implementations should be exceptions aware and

-  do the expected thing in that context. (There are equally respected

-  people who believe it should not be easily accessible, if it's there

-  at all, for unconditional conformity to other implementations.)

-- because pthreads-win32 is one of the few implementations that has

-  the choice, perhaps the only freely available one, and so offers

-  a laboratory to people who may want to explore the effects;

-- although the code will always be around somewhere for anyone who

-  wants it, once it's removed from the current version it will not be

-  nearly as visible to people who may have a use for it.

-

-

-Source module splitting

------------------------

-In order to enable smaller image sizes to be generated

-for applications that link statically with the library,

-most routines have been separated out into individual

-source code files.

-

-This is being done in such a way as to be backward compatible.

-The old source files are reused to congregate the individual

-routine files into larger translation units (via a bunch of

-# includes) so that the compiler can still optimise wherever

-possible, e.g. through inlining, which can only be done

-within the same translation unit.

-

-It is also possible to build the entire library by compiling

-the single file named "pthread.c", which just #includes all

-the secondary congregation source files. The compiler

-may be able to use this to do more inlining of routines.

-

-Although the GNU compiler is able to produce libraries with

-the necessary separation (the -ffunction-segments switch),

-AFAIK, the MSVC and other compilers don't have this feature.

-

-Finally, since I use makefiles and command-line compilation,

-I don't know what havoc this reorganisation may wreak amongst

-IDE project file users. You should be able to continue

-using your existing project files without modification.

-

-

-New non-portable function

--------------------------

-pthread_num_processors_np(): Returns the number of processors

-in the system that are available to the process, as determined

-from the processor affinity mask.

-

-

-Platform dependence

--------------------

-As Win95 doesn't provide one, the library now contains

-it's own InterlockedCompareExchange() routine, which is used

-whenever Windows doesn't provide it. InterlockedCompareExchange()

-is used to implement spinlocks and barriers, and also in mutexes.

-This routine relies on the CMPXCHG machine instruction which

-is not available on i386 CPUs. This library (from snapshot

-20010712 onwards) is therefore no longer supported on i386

-processor platforms.

-

-

-New standard routines

----------------------

-For source code portability only - rwlocks cannot be process shared yet.

-

-        pthread_rwlockattr_init()

-        pthread_rwlockattr_destroy()

-        pthread_rwlockattr_setpshared()

-        pthread_rwlockattr_getpshared()

-

-As defined in the new POSIX standard, and the Single Unix Spec version 3:

-

-        sem_timedwait()

-        pthread_mutex_timedlock()    - Alexander Terekhov and Thomas Pfaff

-        pthread_rwlock_timedrdlock() - adapted from pthread_rwlock_rdlock()

-        pthread_rwlock_timedwrlock() - adapted from pthread_rwlock_wrlock()

-

-

-New non-portable routine

-------------------------

-To improve tolerance against operator or time service initiated

-system clock changes, the following routine is provided:

-

-        pthread_timechange_handler_np()

-

-This routine can be called by an application when it

-receives a WM_TIMECHANGE message from the system. At present

-it broadcasts all condition variables so that waiting threads

-can wake up and re-evaluate their conditions and restart

-their timed waits if required.

-- Suggested by Alexander Terekhov

-

-

-pthread.h no longer includes windows.h

---------------------------------------

-[Not yet for G++]

-

-This was done to prevent conflicts.

-

-HANDLE, DWORD, and NULL are temporarily defined within pthread.h if

-they are not already.

-

-

-pthread.h, sched.h and semaphore.h now use dllexport/dllimport

---------------------------------------------------------------

-Not only to avoid the need for the pthread.def file, but to

-improve performance. Apparently, declaring functions with dllimport

-generates a direct call to the function and avoids the overhead

-of a stub function call.

-

-Bug fixes

----------

-* Fixed potential NULL pointer dereferences in pthread_mutexattr_init,

-pthread_mutexattr_getpshared, pthread_barrierattr_init,

-pthread_barrierattr_getpshared, and pthread_condattr_getpshared.

-- Scott McCaskill <scott@magruder.org>

-

-* Removed potential race condition in pthread_mutex_trylock and

-pthread_mutex_lock;

-- Alexander Terekhov <TEREKHOV@de.ibm.com>

-

-* The behaviour of pthread_mutex_trylock in relation to

-recursive mutexes was inconsistent with commercial implementations.

-Trylock would return EBUSY if the lock was owned already by the

-calling thread regardless of mutex type. Trylock now increments the

-recursion count and returns 0 for RECURSIVE mutexes, and will

-return EDEADLK rather than EBUSY for ERRORCHECK mutexes. This is

-consistent with Solaris.

-- Thomas Pfaff <tpfaff@gmx.net>

-

-* Found a fix for the library and workaround for applications for

-the known bug #2, i.e. where __CLEANUP_CXX or __CLEANUP_SEH is defined.

-See the "Known Bugs in this snapshot" section below.

-

-This could be made transparent to applications by replacing the macros that

-define the current C++ and SEH versions of pthread_cleanup_push/pop

-with the C version, but AFAIK cleanup handlers would not then run in the

-correct sequence with destructors and exception cleanup handlers when

-an exception occurs.

-

-* Cancelation once started in a thread cannot now be inadvertantly

-double canceled. That is, once a thread begins it's cancelation run,

-cancelation is disabled and a subsequent cancel request will

-return an error (ESRCH).

-

-

----------------------------

-Known bugs in this snapshot

----------------------------

-

-1. Under MS VC++ (only tested with version 6.0), a term_func

-   set via the standard C++ set_terminate() function is not called.

-

-   Notes from the MSVC++ manual:

-         1) A term_func() should call exit(), otherwise

-            abort() will be called on return to the caller.

-            A call to abort() raises SIGABRT and the default signal handler

-            for all signals terminates the calling program with

-            exit code 3.

-         2) A term_func() must not throw an exception. Therefore

-            term_func() should not call pthread_exit(), which

-            works by throwing an exception (pthreadVCE or pthreadVSE)

-            or by calling longjmp (pthreadVC).

-

-   Workaround: avoid using pthread_exit() in C++ applications. Exit

-   threads by dropping through the end of the thread routine.

-

-2. Cancellation problems in optimised code

-   - Milan Gardian

+The implementation of Condition Variables uses algorithms developed

+by Alexander Terekhov and Louis Thomas.

 

-   Workaround [rpj - 2 Feb 2002]

-   -----------------------------

-   The problem disappears when /Ob0 is used, i.e. /O2 /Ob0 works OK,

-   but if you want to use inlining optimisation you can be much more

-   specific about where it's switched off and on by using a pragma.

-

-   So the inlining optimisation is interfering with the way that cleanup

-   handlers are run. It appears to relate to auto-inlining of class methods

-   since this is the only auto inlining that is performed at /O1 optimisation

-   (functions with the "inline" qualifier are also inlined, but the problem

-   doesn't appear to involve any such functions in the library or testsuite).

-

-   In order to confirm the inlining culprit, the following use of pragmas

-   eliminate the problem but I don't know how to make it transparent, putting

-   it in, say, pthread.h where pthread_cleanup_push defined as a macro.

-

-   #pragma inline_depth(0)

-     pthread_cleanup_push(handlerFunc, (void *) &arg);

-

-        /* ... */

-

-     pthread_cleanup_pop(0);

-   #pragma inline_depth()

-

-   Note the empty () pragma value after the pop macro. This resets depth to the

-   default. Or you can specify a non-zero depth here.

-

-   The pragma is also needed (and now used) within the library itself wherever

-   cleanup handlers are used (condvar.c and rwlock.c).

-

-   Use of these pragmas allows compiler optimisations /O1 and /O2 to be

-   used for either or both the library and applications.

-

-   Experimenting further, I found that wrapping the actual cleanup handler

-   function with #pragma auto_inline(off|on) does NOT work.

-

-   MSVC6.0 doesn't appear to support the C99 standard's _Pragma directive,

-   however, later versions may. This form is embeddable inside #define

-   macros, which would be ideal because it would mean that it could be added

-   to the push/pop macro definitions in pthread.h and hidden from the

-   application programmer.

-

-   [/rpj]

-

-   Original problem description

-   ----------------------------

-

-   The cancellation (actually, cleanup-after-cancel) tests fail when using VC

-   (professional) optimisation switches (/O1 or /O2) in pthreads library. I

-   have not investigated which concrete optimisation technique causes this

-   problem (/Og, /Oi, /Ot, /Oy, /Ob1, /Gs, /Gf, /Gy, etc.), but here is a

-   summary of builds and corresponding failures:

-

-     * pthreads VSE (optimised tests): OK

-     * pthreads VCE (optimised tests): Failed "cleanup1" test (runtime)

-   

-     * pthreads VSE (DLL in CRT, optimised tests): OK

-     * pthreads VCE (DLL in CRT, optimised tests): Failed "cleanup1" test

-   (runtime)

+The implementation of POSIX mutexes has been improved by Thomas Pfaff.

 

-   Please note that while in VSE version of the pthreads library the

-   optimisation does not really have any impact on the tests (they pass OK), in

-   VCE version addition of optimisation (/O2 in this case) causes the tests to

-   fail uniformly - either in "cleanup0" or "cleanup1" test cases.

-   

-   Please note that all the tests above use default pthreads DLL (no

-   optimisations, linked with either static or DLL CRT, based on test type).

-   Therefore the problem lies not within the pthreads DLL but within the

-   compiled client code (the application using pthreads -> involvement of

-   "pthread.h").

-

-   I think the message of this section is that usage of VCE version of pthreads

-   in applications relying on cancellation/cleanup AND using optimisations for

-   creation of production code is highly unreliable for the current version of

-   the pthreads library.

+The implementation of Spinlocks and Barriers was contributed

+by Ross Johnson.

 

-3. errno

-

-   Under MSVC, errno isn't working.

+The implementation of read/write locks was contributed by

+Aurelio Medina and improved by Alexander Terekhov.

 

+Many others have contributed significant time and effort to solve crutial

+problems in order to make the library workable, robust and reliable.

+

+There is also a separate CONTRIBUTORS file. This file and others are

+on the web site:

+

+	http://sources.redhat.com/pthreads-win32

+

+As much as possible, the ChangeLog file acknowledges contributions to the

+code base in more detail.

 

-Special notes

--------------

-

-1. [See also the discussion in the FAQ file - Q2, Q4, and Q5]

 

-Due to what is believed to be a C++ compliance error in VC++ whereby

-you may not have multiple handlers for the same exception in the same

-try/catch block, if your application contains catch(...) blocks in your POSIX

-threads then you will need to replace the "catch(...)" with the macro

-"PtW32Catch", eg.

+Changes since the last snapshot

+-------------------------------

+These are now documented in the NEWS file.

+See the ChangeLog file also.

 

-	#ifdef PtW32Catch

-		PtW32Catch {

-			...

-		}

-	#else

-		catch(...) {

-			...

-		}

-	#endif

 

-Otherwise neither pthreads cancelation nor pthread_exit() will work

-reliably when using versions of the library that use C++ exceptions

-for cancelation and thread exit.

+Known Bugs

+----------

+These are now documented in the BUGS file.

 

 

 Level of standards conformance

@@ -436,7 +113,7 @@ The following functions are implemented:
       pthread_setcancelstate

       pthread_setcanceltype

       pthread_testcancel

-          

+	  

       ---------------------------

       Thread Specific Data   

       ---------------------------

@@ -444,7 +121,7 @@ The following functions are implemented:
       pthread_key_delete

       pthread_setspecific

       pthread_getspecific

-                

+		

       ---------------------------

       Mutexes

       ---------------------------

@@ -454,9 +131,9 @@ The following functions are implemented:
       pthread_mutexattr_setpshared

       pthread_mutexattr_gettype

       pthread_mutexattr_settype (types: PTHREAD_MUTEX_DEFAULT

-                                        PTHREAD_MUTEX_NORMAL

-                                        PTHREAD_MUTEX_ERRORCHECK

-                                        PTHREAD_MUTEX_RECURSIVE  )

+					PTHREAD_MUTEX_NORMAL

+					PTHREAD_MUTEX_ERRORCHECK

+					PTHREAD_MUTEX_RECURSIVE  )

       pthread_mutex_init

       pthread_mutex_destroy

       pthread_mutex_lock

@@ -525,10 +202,10 @@ The following functions are implemented:
       sem_wait

       sem_trywait

       sem_timedwait

-      sem_open               (returns an error ENOSYS)

-      sem_close              (returns an error ENOSYS)

-      sem_unlink             (returns an error ENOSYS)

-      sem_getvalue           (returns an error ENOSYS)

+      sem_open		     (returns an error ENOSYS)

+      sem_close 	     (returns an error ENOSYS)

+      sem_unlink	     (returns an error ENOSYS)

+      sem_getvalue	     (returns an error ENOSYS)

 

       ---------------------------

       RealTime Scheduling

@@ -564,16 +241,16 @@ The following functions are implemented:
       pthread_timechange_handler_np

       pthread_delay_np

       pthread_mutexattr_getkind_np

-      pthread_mutexattr_setkind_np      (types: PTHREAD_MUTEX_FAST_NP,

-                                                PTHREAD_MUTEX_ERRORCHECK_NP,

-                                                PTHREAD_MUTEX_RECURSIVE_NP,

-                                                PTHREAD_MUTEX_ADAPTIVE_NP,

-                                                PTHREAD_MUTEX_TIMED_NP)

+      pthread_mutexattr_setkind_np	(types: PTHREAD_MUTEX_FAST_NP,

+						PTHREAD_MUTEX_ERRORCHECK_NP,

+						PTHREAD_MUTEX_RECURSIVE_NP,

+						PTHREAD_MUTEX_ADAPTIVE_NP,

+						PTHREAD_MUTEX_TIMED_NP)

       pthread_num_processors_np

-      pthread_win32_process_attach_np   (Required when statically linking the library)

-      pthread_win32_process_detach_np   (Required when statically linking the library)

-      pthread_win32_thread_attach_np    (Required when statically linking the library)

-      pthread_win32_thread_detach_np    (Required when statically linking the library)

+      pthread_win32_process_attach_np	(Required when statically linking the library)

+      pthread_win32_process_detach_np	(Required when statically linking the library)

+      pthread_win32_thread_attach_np	(Required when statically linking the library)

+      pthread_win32_thread_detach_np	(Required when statically linking the library)

 

       ---------------------------

       Static Initializers

@@ -606,7 +283,7 @@ The following functions are not implemented:
       pthread_mutex_attr_getprotocol

       pthread_mutex_attr_setprioceiling

       pthread_mutex_attr_setprotocol

-      

+

       ---------------------------

       Fork Handlers

       ---------------------------

@@ -619,7 +296,7 @@ The following functions are not implemented:
       ftrylockfile

       funlockfile

       getc_unlocked

-      getchar_unlocked  

+      getchar_unlocked	

       putc_unlocked

       putchar_unlocked

 

@@ -675,7 +352,7 @@ Mailing List
 There is a mailing list for discussing pthreads on Win32. To join,

 send email to:

 

-        pthreads-win32-subscribe@sourceware.cygnus.com

+	pthreads-win32-subscribe@sourceware.cygnus.com

       

 

 Application Development Environments

@@ -690,7 +367,7 @@ MSVC using C setjmp/longjmp works. Distribute pthreadVC.dll with your applicatio
 

 

 Mingw32:

-See FAQ Questions 6 and 10.

+See the FAQ, Questions 6 and 10.

 

 Mingw using C++ EH works. Distribute pthreadGCE.dll with your application.

 Mingw using C setjmp/longjmp works. Distribute pthreadGC.dll with your application.

@@ -712,7 +389,7 @@ For convenience, the following pre-built files are available on the FTP site
 

 	pthread.h	- for POSIX 1c threads

 	semaphore.h	- for POSIX 1b semaphores

-	sched.h		- for POSIX 1b scheduling

+	sched.h 	- for POSIX 1b scheduling

 	pthreadVCE.dll	- built with MSVC++ compiler using C++ EH

 	pthreadVCE.lib

 	pthreadVC.dll	- built with MSVC compiler using C setjmp/longjmp

@@ -721,62 +398,45 @@ For convenience, the following pre-built files are available on the FTP site
 	pthreadVSE.lib

 	pthreadGCE.dll	- built with Mingw32 G++ 2.95.2-1

 	pthreadGC.dll	- built with Mingw32 GCC 2.95.2-1 using setjmp/longjmp

-	libpthreadGCE.a	- derived from pthreadGCE.dll

+	libpthreadGCE.a - derived from pthreadGCE.dll

 	libpthreadGC.a	- derived from pthreadGC.dll

-        gcc.dll         - needed if distributing applications that use pthreadGCE.dll

+	gcc.dll 	- needed if distributing applications that use

+			  pthreadGCE.dll (but see the FAQ Q 10 for the latest

+			  related information)

 

 These are the only files you need in order to build POSIX threads

 applications for Win32 using either MSVC or Mingw32.

-      

+

 See the FAQ file in the source tree for additional information.

 

 

 Documentation

 -------------

 

-Currently, there is no documentation included in the package apart

-from the copious comments in the source code.

+For the authoritative reference, see the online POSIX

+standard reference:

+

+       http://www.UNIX-systems.org/version3/ieee_std.html

 

 For POSIX Thread API programming, several reference books are

-available:  

+available:

 

-        Programming with POSIX Threads

-        David R. Butenhof

-        Addison-Wesley (pub)

+       Programming with POSIX Threads

+       David R. Butenhof

+       Addison-Wesley (pub)

 

-        Pthreads Programming

-        By Bradford Nichols, Dick Buttlar & Jacqueline Proulx Farrell

-        O'Reilly (pub)

+       Pthreads Programming

+       By Bradford Nichols, Dick Buttlar & Jacqueline Proulx Farrell

+       O'Reilly (pub)

 

 On the web: see the links at the bottom of the pthreads-win32 site:

 

-        http://sources.redhat.com/pthreads-win32/

-

-

-Acknowledgements

-----------------

-      

-This library is based substantially on a Win32 pthreads

-implementation contributed by John Bossom <John.Bossom@cognos.com>.

-      

-The implementation of Condition Variables uses algorithms developed

-by Alexander Terekhov and Louis Thomas.

-

-The implementation of POSIX mutexes has been improved by Thomas Pfaff.

-

-The implementation of read/write locks was contributed by

-Aurelio Medina and improved by Alexander Terekhov.

-

-Many others have contributed significant time and effort to solve critical

-problems in order to make the library workable, robust and reliable.

+       http://sources.redhat.com/pthreads-win32/

 

-There is also a separate CONTRIBUTORS file. This file and others are

-on the web site:

+       Currently, there is no documentation included in the package apart

+       from the copious comments in the source code.

 

-        http://sources.redhat.com/pthreads-win32

 

-As much as possible, the ChangeLog file acknowledges contributions to the

-code base in more detail.

 

 Enjoy!

 

diff --git a/FAQ b/FAQ
index 2efc820..9bed82a 100644
--- a/FAQ
+++ b/FAQ
@@ -1,393 +1,392 @@
-                  =========================================
-                  PTHREADS-WIN32 Frequently Asked Questions
-                  =========================================
-
-INDEX
------
-
-Q 1	What is it?
-
-Q 2	Which of the several dll versions do I use?
-	or,
-	What are all these pthread*.dll and pthread*.lib files?
-
-Q 3	What is the library naming convention?
-
-Q 4	Cleanup code default style or: it used to work when I built
-	the library myself, but now it doesn't - why?
-
-Q 5	Why is the default library version now less exception-friendly?
-
-Q 6	Should I use Cygwin or Mingw32 as a development environment?
-
-Q 7	Now that pthreads-win32 builds under Mingw32, why do I get
-	memory access violations (segfaults)?
-
-Q 8	How do I use pthread.dll for Win32 (Visual C++ 5.0)
-
-Q 9	Cancelation doesn't work for me, why?
-
-Q 10	Thread won't block after two calls to mutex_lock
-
-Q 11	How do I generate pthreadGCE.dll and libpthreadw32.a for use with Mingw32?
-
-=============================================================================
-
-Q 1	What is it?
----
-
-Pthreads-win32 is an Open Source Software implementation of the
-Threads component of the POSIX 1003.1c 1995 Standard for Microsoft's
-Win32 environment. Some functions from POSIX 1003.1b are also
-supported including semaphores. Other related functions include
-the set of read-write lock functions. The library also supports
-some of the functionality of the Open Group's Single Unix
-specification, version 2, namely mutex types.
-
-See the file "ANNOUNCE" for more information including standards
-conformance details and list of supported routines.
-
-
-------------------------------------------------------------------------------
-
-Q 2	Which of the several dll versions do I use?
----	or,
-	What are all these pthread*.dll and pthread*.lib files?
-
-Simply, you only use one of them, but you need to choose carefully.
-
-The most important choice you need to make is whether to use a
-version that uses exceptions internally, or not (there are versions
-of the library that use exceptions as part of the thread
-cancelation and exit implementation, and one that uses
-setjmp/longjmp instead).
-
-There is some contension amongst POSIX threads experts as
-to how POSIX threads cancelation and exit should work
-with languages that include exceptions and handlers, e.g.
-C++ and even C (Microsoft's Structured Exceptions).
-
-The issue is: should cancelation of a thread in, say,
-a C++ application cause object destructors and C++ exception
-handlers to be invoked as the stack unwinds during thread
-exit, or not?
-
-There seems to be more opinion in favour of using the
-standard C version of the library (no EH) with C++ applications
-since this appears to be the assumption commercial pthreads
-implementations make. Therefore, if you use an EH version
-of pthreads-win32 then you may be under the illusion that
-your application will be portable, when in fact it is likely to
-behave very differently linked with other pthreads libraries.
-
-Now you may be asking: why have you kept the EH versions of
-the library?
-
-There are a couple of reasons:
-- there is division amongst the experts and so the code may
-  be needed in the future. (Yes, it's in the repository and we
-  can get it out anytime in the future, but ...)
-- pthreads-win32 is one of the few implementations, and possibly
-  the only freely available one, that has EH versions. It may be
-  useful to people who want to play with or study application
-  behaviour under these conditions.
-
-
-------------------------------------------------------------------------------
-
-Q 3	What is the library naming convention?
----
-
-Because the library is being built using various exception
-handling schemes and compilers - and because the library
-may not work reliably if these are mixed in an application,
-each different version of the library has it's own name.
-
-Note 1: the incompatibility is really between EH implementations
-of the different compilers. It should be possible to use the
-standard C version from either compiler with C++ applications
-built with a different compiler. If you use an EH version of
-the library, then you must use the same compiler for the
-application. This is another complication and dependency that
-can be avoided by using only the standard C library version.
-
-Note 2: if you use a standard C pthread*.dll with a C++
-application, then any functions that you define that are
-intended to be called via pthread_cleanup_push() must be
-__cdecl.
-
-Note 3: the intention is to also name either the VC or GC
-version (it should be arbitrary) as pthread.dll, including
-pthread.lib and libpthread.a as appropriate.
-
-In general:
-	pthread[VG]{SE,CE,C}.dll
-	pthread[VG]{SE,CE,C}.lib
-
-where:
-	[VG] indicates the compiler
-	V	- MS VC
-	G	- GNU C
-
-	{SE,CE,C} indicates the exception handling scheme
-	SE	- Structured EH
-	CE	- C++ EH
-	C       - no exceptions - uses setjmp/longjmp
-
-For example:
-	pthreadVSE.dll	(MSVC/SEH)
-	pthreadGCE.dll	(GNUC/C++ EH)
-	pthreadGC.dll   (GNUC/not dependent on exceptions)
-
-The GNU library archive file names have changed to:
-
-	libpthreadGCE.a
-	libpthreadGC.a
-
-
-------------------------------------------------------------------------------
-
-Q 4	Cleanup code default style or: it used to work when I built
----	the library myself, but now it doesn't - why?
-
-Up to and including snapshot 2001-07-12, if not defined, the cleanup
-style was determined automatically from the compiler used, and one
-of the following was defined accordingly:
-
-	__CLEANUP_SEH	MSVC only
-	__CLEANUP_CXX	C++, including MSVC++, GNU G++
-	__CLEANUP_C		C, including GNU GCC, not MSVC
-
-These defines determine the style of cleanup (see pthread.h) and,
-most importantly, the way that cancelation and thread exit (via
-pthread_exit) is performed (see the routine ptw32_throw() in private.c).
-
-In short, the exceptions versions of the library throw an exception
-when a thread is canceled or exits (via pthread_exit()), which is
-caught by a handler in the thread startup routine, so that the
-the correct stack unwinding occurs regardless of where the thread
-is when it's canceled or exits via pthread_exit().
-
-After snapshot 2001-07-12, unless your build explicitly defines (e.g.
-via a compiler option) __CLEANUP_SEH, __CLEANUP_CXX, or __CLEANUP_C, then
-the build now ALWAYS defaults to __CLEANUP_C style cleanup. This style
-uses setjmp/longjmp in the cancelation and pthread_exit implementations,
-and therefore won't do stack unwinding even when linked to applications
-that have it (e.g. C++ apps). This is for consistency with most/all
-commercial Unix POSIX threads implementations.
-
-Although it was not clearly documented before, it is still necessary to
-build your application using the same __CLEANUP_* define as was
-used for the version of the library that you link with, so that the
-correct parts of pthread.h are included. That is, the possible
-defines require the following library versions:
-
-	__CLEANUP_SEH	pthreadVSE.dll
-	__CLEANUP_CXX	pthreadVCE.dll or pthreadGCE.dll
-	__CLEANUP_C		pthreadVC.dll or pthreadGC.dll
-
-THE POINT OF ALL THIS IS: if you have not been defining one of these
-explicitly, then the defaults have been set according to the compiler
-and language you are using, as described at the top of this
-section.
-
-THIS NOW CHANGES, as has been explained above. For example:
-
-If you were building your application with MSVC++ i.e. using C++
-exceptions (rather than SEH) and not explicitly defining one of
-__CLEANUP_*, then __CLEANUP_C++ was defined for you in pthread.h.
-You should have been linking with pthreadVCE.dll, which does
-stack unwinding.
-
-If you now build your application as you had before, pthread.h will now
-set __CLEANUP_C as the default style, and you will need to link
-with pthreadVC.dll. Stack unwinding will now NOT occur when a
-thread is canceled, nor when the thread calls pthread_exit().
-
-Your application will now most likely behave differently to previous
-versions, and in non-obvious ways. Most likely is that local
-objects may not be destroyed or cleaned up after a thread
-is canceled.
-
-If you want the same behaviour as before, then you must now define
-__CLEANUP_C++ explicitly using a compiler option and link with
-pthreadVCE.dll as you did before.
-
-
-------------------------------------------------------------------------------
-
-Q 5	Why is the default library version now less exception-friendly?
----
-
-Because most commercial Unix POSIX threads implementations don't allow you to
-choose to have stack unwinding. (Compaq's TRU64 Unix is possibly an exception.)
-
-Therefore, providing it in pthread-win32 as a default could be dangerous. We
-still provide the choice but you must now consciously make it.
-
-WHY NOT REMOVE THE EXCEPTIONS VERSIONS OF THE LIBRARY ALTOGETHER?
-There are a few reasons:
-- because there are well respected POSIX threads people who believe
-  that POSIX threads implementations should be exceptions-aware and
-  do the expected thing in that context. (There are equally respected
-  people who believe it should not be easily accessible, if it's there
-  at all.)
-- because pthreads-win32 is one of the few implementations that has
-  the choice, perhaps the only freely available one, and so offers
-  a laboratory to people who may want to explore the effects;
-- although the code will always be around somewhere for anyone who
-  wants it, once it's removed from the current version it will not be
-  nearly as visible to people who may have a use for it.
-
-
-------------------------------------------------------------------------------
-
-Q 6	Should I use Cygwin or Mingw32 as a development environment?
----
-
-Important: see Q7 also.
-
-Use Mingw32 with the MSVCRT library to build applications that use
-the pthreads DLL.
-
-Cygwin's own internal support for POSIX threads is growing.
-Consult that project's documentation for more information.
-
-------------------------------------------------------------------------------
-
-Q 7	Now that pthreads-win32 builds under Mingw32, why do I get
----	memory access violations (segfaults)?
-
-The latest Mingw32 package has thread-safe exception handling (see Q10).
-Also, see Q6 above.
-
-------------------------------------------------------------------------------
-
-Q 8	How do I use pthread.dll for Win32 (Visual C++ 5.0)
----	
-
->
-> I'm a "rookie" when it comes to your pthread implementation.  I'm currently
-> desperately trying to install the prebuilt .dll file into my MSVC compiler.
-> Could you please provide me with explicit instructions on how to do this (or
-> direct me to a resource(s) where I can acquire such information)?
->
-> Thank you,
->
-
-You should have a .dll, .lib, .def, and three .h files. It is recommended
-that you use pthreadVC.dll, rather than pthreadVCE.dll or pthreadVSE.dll
-(see Q2 above).
-
-The .dll can go in any directory listed in your PATH environment
-variable, so putting it into C:\WINDOWS should work.
-
-The .lib file can go in any directory listed in your LIB environment
-variable.
-
-The .h files can go in any directory listed in your INCLUDE
-environment variable.
-
-Or you might prefer to put the .lib and .h files into a new directory
-and add its path to LIB and INCLUDE. You can probably do this easiest
-by editing the file:-
-
-C:\Program Files\DevStudio\vc\bin\vcvars32.bat
-
-The .def file isn't used by anything in the pre-compiled version but 
-is included for information.
-
-Cheers.
-Ross
-
-------------------------------------------------------------------------------
-
-Q 9	Cancelation doesn't work for me, why?
----
-
-> I'm investigating a problem regarding thread cancelation. The thread I want
-> to cancel has PTHREAD_CANCEL_ASYNCHRONOUS, however, this piece of code
-> blocks on the join():
->
->               if ((retv = Pthread_cancel( recvThread )) == 0)
->               {
->                       retv = Pthread_join( recvThread, 0 );
->               }
->
-> Pthread_* are just macro's; they call pthread_*.
->
-> The thread recvThread seems to block on a select() call. It doesn't get
-> cancelled.
->
-> Two questions:
->
-> 1) is this normal behaviour?
->
-> 2) if not, how does the cancel mechanism work? I'm not very familliar to
-> win32 programming, so I don't really understand how the *Event() family of
-> calls work.
-
-Async cancelation should be in versions post snapshot-1999-11-02
-of pthreads-win32 (currently only for x86 architectures).
-
-The answer to your first question is, normal POSIX behaviour would  
-be to asynchronously cancel the thread. However, even that doesn't
-guarantee cancelation as the standard only says it should be
-cancelled as soon as possible.
-
-However ...
-
-Snapshot 99-11-02 or earlier only partially supports asynchronous cancellation.
-Snapshots since then simulate async cancelation by poking the address of
-a cancelation routine into the PC of the threads context. This requires
-the thread to be resumed in some way for the cancelation to actually
-proceed. This is not true async cancelation, but it is as close as we've
-been able to get to it.
-
-If the thread you're trying to cancel is blocked (for instance, it could be
-waiting for data from the network), it will only get cancelled when it unblocks
-(when the data arrives). Unfortunately, there is no way to do so from
-outside the thread.
-
-Using deferred cancelation would normally be the way to go, however,
-even though the POSIX threads standard lists a number of C library
-functions that are defined as deferred cancelation points, there is
-no hookup between those which are provided by Windows and the
-pthreads-win32 library.
-
-Incidently, it's worth noting for code portability that the POSIX
-threads standard list doesn't include "select" because (as I read in
-Butenhof) it isn't part of POSIX.
-
-Effectively, the only cancelation points that pthreads-win32 can
-recognise are those the library implements itself, ie.
-        
-        pthread_testcancel
-        pthread_cond_wait
-        pthread_cond_timedwait
-	pthread_join
-        sem_wait
-        pthread_delay_np
-
-Pthreads-win32 also provides two functions that allow you to create
-cancelation points within your application, but only for cases where
-a thread is going to block on a Win32 handle. These are:
-
-        pthreadCancelableWait(HANDLE waitHandle) /* Infinite wait */
- 
-        pthreadCancelableTimedWait(HANDLE waitHandle, DWORD timeout)
-
-Regards.
-Ross
-
-------------------------------------------------------------------------------
- 
-
-Q 10	How do I create thread-safe applications using
-----    pthreadGCE.dll, libpthreadw32.a and Mingw32?
-
-See Thomas Pfaff's email at:
-http://sources.redhat.com/ml/pthreads-win32/2002/msg00000.html
-
-------------------------------------------------------------------------------
- 
+		  =========================================

+		  PTHREADS-WIN32 Frequently Asked Questions

+		  =========================================

+

+INDEX

+-----

+

+Q 1	What is it?

+

+Q 2	Which of the several dll versions do I use?

+	or,

+	What are all these pthread*.dll and pthread*.lib files?

+

+Q 3	What is the library naming convention?

+

+Q 4	Cleanup code default style or: it used to work when I built

+	the library myself, but now it doesn't - why?

+

+Q 5	Why is the default library version now less exception-friendly?

+

+Q 6	Should I use Cygwin or Mingw32 as a development environment?

+

+Q 7	Now that pthreads-win32 builds under Mingw32, why do I get

+	memory access violations (segfaults)?

+

+Q 8	How do I use pthread.dll for Win32 (Visual C++ 5.0)

+

+Q 9	Cancelation doesn't work for me, why?

+

+Q 10	How do I generate pthreadGCE.dll and libpthreadw32.a for use

+	with Mingw32?

+

+=============================================================================

+

+Q 1	What is it?

+---

+

+Pthreads-win32 is an Open Source Software implementation of the

+Threads component of the POSIX 1003.1c 1995 Standard for Microsoft's

+Win32 environment. Some functions from POSIX 1003.1b are also

+supported including semaphores. Other related functions include

+the set of read-write lock functions. The library also supports

+some of the functionality of the Open Group's Single Unix

+specification, version 2, namely mutex types.

+

+See the file "ANNOUNCE" for more information including standards

+conformance details and list of supported routines.

+

+

+------------------------------------------------------------------------------

+

+Q 2	Which of the several dll versions do I use?

+---	or,

+	What are all these pthread*.dll and pthread*.lib files?

+

+Simply, you only use one of them, but you need to choose carefully.

+

+The most important choice you need to make is whether to use a

+version that uses exceptions internally, or not (there are versions

+of the library that use exceptions as part of the thread

+cancelation and exit implementation, and one that uses

+setjmp/longjmp instead).

+

+There is some contension amongst POSIX threads experts as

+to how POSIX threads cancelation and exit should work

+with languages that include exceptions and handlers, e.g.

+C++ and even C (Microsoft's Structured Exceptions).

+

+The issue is: should cancelation of a thread in, say,

+a C++ application cause object destructors and C++ exception

+handlers to be invoked as the stack unwinds during thread

+exit, or not?

+

+There seems to be more opinion in favour of using the

+standard C version of the library (no EH) with C++ applications

+since this appears to be the assumption commercial pthreads

+implementations make. Therefore, if you use an EH version

+of pthreads-win32 then you may be under the illusion that

+your application will be portable, when in fact it is likely to

+behave very differently linked with other pthreads libraries.

+

+Now you may be asking: why have you kept the EH versions of

+the library?

+

+There are a couple of reasons:

+- there is division amongst the experts and so the code may

+  be needed in the future. (Yes, it's in the repository and we

+  can get it out anytime in the future, but ...)

+- pthreads-win32 is one of the few implementations, and possibly

+  the only freely available one, that has EH versions. It may be

+  useful to people who want to play with or study application

+  behaviour under these conditions.

+

+

+------------------------------------------------------------------------------

+

+Q 3	What is the library naming convention?

+---

+

+Because the library is being built using various exception

+handling schemes and compilers - and because the library

+may not work reliably if these are mixed in an application,

+each different version of the library has it's own name.

+

+Note 1: the incompatibility is really between EH implementations

+of the different compilers. It should be possible to use the

+standard C version from either compiler with C++ applications

+built with a different compiler. If you use an EH version of

+the library, then you must use the same compiler for the

+application. This is another complication and dependency that

+can be avoided by using only the standard C library version.

+

+Note 2: if you use a standard C pthread*.dll with a C++

+application, then any functions that you define that are

+intended to be called via pthread_cleanup_push() must be

+__cdecl.

+

+Note 3: the intention is to also name either the VC or GC

+version (it should be arbitrary) as pthread.dll, including

+pthread.lib and libpthread.a as appropriate.

+

+In general:

+	pthread[VG]{SE,CE,C}.dll

+	pthread[VG]{SE,CE,C}.lib

+

+where:

+	[VG] indicates the compiler

+	V	- MS VC

+	G	- GNU C

+

+	{SE,CE,C} indicates the exception handling scheme

+	SE	- Structured EH

+	CE	- C++ EH

+	C	- no exceptions - uses setjmp/longjmp

+

+For example:

+	pthreadVSE.dll	(MSVC/SEH)

+	pthreadGCE.dll	(GNUC/C++ EH)

+	pthreadGC.dll	(GNUC/not dependent on exceptions)

+

+The GNU library archive file names have changed to:

+

+	libpthreadGCE.a

+	libpthreadGC.a

+

+

+------------------------------------------------------------------------------

+

+Q 4	Cleanup code default style or: it used to work when I built

+---	the library myself, but now it doesn't - why?

+

+Up to and including snapshot 2001-07-12, if not defined, the cleanup

+style was determined automatically from the compiler used, and one

+of the following was defined accordingly:

+

+	__CLEANUP_SEH	MSVC only

+	__CLEANUP_CXX	C++, including MSVC++, GNU G++

+	__CLEANUP_C		C, including GNU GCC, not MSVC

+

+These defines determine the style of cleanup (see pthread.h) and,

+most importantly, the way that cancelation and thread exit (via

+pthread_exit) is performed (see the routine ptw32_throw() in private.c).

+

+In short, the exceptions versions of the library throw an exception

+when a thread is canceled or exits (via pthread_exit()), which is

+caught by a handler in the thread startup routine, so that the

+the correct stack unwinding occurs regardless of where the thread

+is when it's canceled or exits via pthread_exit().

+

+After snapshot 2001-07-12, unless your build explicitly defines (e.g.

+via a compiler option) __CLEANUP_SEH, __CLEANUP_CXX, or __CLEANUP_C, then

+the build now ALWAYS defaults to __CLEANUP_C style cleanup. This style

+uses setjmp/longjmp in the cancelation and pthread_exit implementations,

+and therefore won't do stack unwinding even when linked to applications

+that have it (e.g. C++ apps). This is for consistency with most/all

+commercial Unix POSIX threads implementations.

+

+Although it was not clearly documented before, it is still necessary to

+build your application using the same __CLEANUP_* define as was

+used for the version of the library that you link with, so that the

+correct parts of pthread.h are included. That is, the possible

+defines require the following library versions:

+

+	__CLEANUP_SEH	pthreadVSE.dll

+	__CLEANUP_CXX	pthreadVCE.dll or pthreadGCE.dll

+	__CLEANUP_C		pthreadVC.dll or pthreadGC.dll

+

+THE POINT OF ALL THIS IS: if you have not been defining one of these

+explicitly, then the defaults have been set according to the compiler

+and language you are using, as described at the top of this

+section.

+

+THIS NOW CHANGES, as has been explained above. For example:

+

+If you were building your application with MSVC++ i.e. using C++

+exceptions (rather than SEH) and not explicitly defining one of

+__CLEANUP_*, then __CLEANUP_C++ was defined for you in pthread.h.

+You should have been linking with pthreadVCE.dll, which does

+stack unwinding.

+

+If you now build your application as you had before, pthread.h will now

+set __CLEANUP_C as the default style, and you will need to link

+with pthreadVC.dll. Stack unwinding will now NOT occur when a

+thread is canceled, nor when the thread calls pthread_exit().

+

+Your application will now most likely behave differently to previous

+versions, and in non-obvious ways. Most likely is that local

+objects may not be destroyed or cleaned up after a thread

+is canceled.

+

+If you want the same behaviour as before, then you must now define

+__CLEANUP_C++ explicitly using a compiler option and link with

+pthreadVCE.dll as you did before.

+

+

+------------------------------------------------------------------------------

+

+Q 5	Why is the default library version now less exception-friendly?

+---

+

+Because most commercial Unix POSIX threads implementations don't allow you to

+choose to have stack unwinding. (Compaq's TRU64 Unix is possibly an exception.)

+

+Therefore, providing it in pthread-win32 as a default could be dangerous. We

+still provide the choice but you must now consciously make it.

+

+WHY NOT REMOVE THE EXCEPTIONS VERSIONS OF THE LIBRARY ALTOGETHER?

+There are a few reasons:

+- because there are well respected POSIX threads people who believe

+  that POSIX threads implementations should be exceptions-aware and

+  do the expected thing in that context. (There are equally respected

+  people who believe it should not be easily accessible, if it's there

+  at all.)

+- because pthreads-win32 is one of the few implementations that has

+  the choice, perhaps the only freely available one, and so offers

+  a laboratory to people who may want to explore the effects;

+- although the code will always be around somewhere for anyone who

+  wants it, once it's removed from the current version it will not be

+  nearly as visible to people who may have a use for it.

+

+

+------------------------------------------------------------------------------

+

+Q 6	Should I use Cygwin or Mingw32 as a development environment?

+---

+

+Important: see Q7 also.

+

+Use Mingw32 with the MSVCRT library to build applications that use

+the pthreads DLL.

+

+Cygwin's own internal support for POSIX threads is growing.

+Consult that project's documentation for more information.

+

+------------------------------------------------------------------------------

+

+Q 7	Now that pthreads-win32 builds under Mingw32, why do I get

+---	memory access violations (segfaults)?

+

+The latest Mingw32 package has thread-safe exception handling (see Q10).

+Also, see Q6 above.

+

+------------------------------------------------------------------------------

+

+Q 8	How do I use pthread.dll for Win32 (Visual C++ 5.0)

+---	

+

+>

+> I'm a "rookie" when it comes to your pthread implementation.	I'm currently

+> desperately trying to install the prebuilt .dll file into my MSVC compiler.

+> Could you please provide me with explicit instructions on how to do this (or

+> direct me to a resource(s) where I can acquire such information)?

+>

+> Thank you,

+>

+

+You should have a .dll, .lib, .def, and three .h files. It is recommended

+that you use pthreadVC.dll, rather than pthreadVCE.dll or pthreadVSE.dll

+(see Q2 above).

+

+The .dll can go in any directory listed in your PATH environment

+variable, so putting it into C:\WINDOWS should work.

+

+The .lib file can go in any directory listed in your LIB environment

+variable.

+

+The .h files can go in any directory listed in your INCLUDE

+environment variable.

+

+Or you might prefer to put the .lib and .h files into a new directory

+and add its path to LIB and INCLUDE. You can probably do this easiest

+by editing the file:-

+

+C:\Program Files\DevStudio\vc\bin\vcvars32.bat

+

+The .def file isn't used by anything in the pre-compiled version but 

+is included for information.

+

+Cheers.

+Ross

+

+------------------------------------------------------------------------------

+

+Q 9	Cancelation doesn't work for me, why?

+---

+

+> I'm investigating a problem regarding thread cancelation. The thread I want

+> to cancel has PTHREAD_CANCEL_ASYNCHRONOUS, however, this piece of code

+> blocks on the join():

+>

+>		if ((retv = Pthread_cancel( recvThread )) == 0)

+>		{

+>			retv = Pthread_join( recvThread, 0 );

+>		}

+>

+> Pthread_* are just macro's; they call pthread_*.

+>

+> The thread recvThread seems to block on a select() call. It doesn't get

+> cancelled.

+>

+> Two questions:

+>

+> 1) is this normal behaviour?

+>

+> 2) if not, how does the cancel mechanism work? I'm not very familliar to

+> win32 programming, so I don't really understand how the *Event() family of

+> calls work.

+

+Async cancelation should be in versions post snapshot-1999-11-02

+of pthreads-win32 (currently only for x86 architectures).

+

+The answer to your first question is, normal POSIX behaviour would  

+be to asynchronously cancel the thread. However, even that doesn't

+guarantee cancelation as the standard only says it should be

+cancelled as soon as possible.

+

+However ...

+

+Snapshot 99-11-02 or earlier only partially supports asynchronous cancellation.

+Snapshots since then simulate async cancelation by poking the address of

+a cancelation routine into the PC of the threads context. This requires

+the thread to be resumed in some way for the cancelation to actually

+proceed. This is not true async cancelation, but it is as close as we've

+been able to get to it.

+

+If the thread you're trying to cancel is blocked (for instance, it could be

+waiting for data from the network), it will only get cancelled when it unblocks

+(when the data arrives). Unfortunately, there is no way to do so from

+outside the thread.

+

+Using deferred cancelation would normally be the way to go, however,

+even though the POSIX threads standard lists a number of C library

+functions that are defined as deferred cancelation points, there is

+no hookup between those which are provided by Windows and the

+pthreads-win32 library.

+

+Incidently, it's worth noting for code portability that the POSIX

+threads standard list doesn't include "select" because (as I read in

+Butenhof) it isn't part of POSIX.

+

+Effectively, the only cancelation points that pthreads-win32 can

+recognise are those the library implements itself, ie.

+	

+	pthread_testcancel

+	pthread_cond_wait

+	pthread_cond_timedwait

+	pthread_join

+	sem_wait

+	pthread_delay_np

+

+Pthreads-win32 also provides two functions that allow you to create

+cancelation points within your application, but only for cases where

+a thread is going to block on a Win32 handle. These are:

+

+	pthreadCancelableWait(HANDLE waitHandle) /* Infinite wait */

+ 

+	pthreadCancelableTimedWait(HANDLE waitHandle, DWORD timeout)

+

+Regards.

+Ross

+

+------------------------------------------------------------------------------

+ 

+

+Q 10	How do I create thread-safe applications using

+----	pthreadGCE.dll, libpthreadw32.a and Mingw32?

+

+See Thomas Pfaff's email at:

+http://sources.redhat.com/ml/pthreads-win32/2002/msg00000.html

+

+------------------------------------------------------------------------------

+ 

diff --git a/NEWS b/NEWS
index 0ba7e58..d4cd9c0 100644
--- a/NEWS
+++ b/NEWS
@@ -1,118 +1,364 @@
-SNAPSHOT 2000-08-13
--------------------
-
-New:
--       Renamed DLL and LIB files:
-                pthreadVSE.dll  (MS VC++/Structured EH)
-                pthreadVSE.lib
-                pthreadVCE.dll  (MS VC++/C++ EH)
-                pthreadVCE.lib
-                pthreadGCE.dll  (GNU G++/C++ EH)
-                libpthreadw32.a
-
-        Both your application and the pthread dll should use the
-        same exception handling scheme.
-
-Bugs fixed:
--       MSVC++ C++ exception handling.
-
-Some new tests have been added.
-
-
-SNAPSHOT 2000-08-10
--------------------
-
-New:
--       asynchronous cancelation on X86 (Jason Nye)
--       Makefile compatible with MS nmake to replace
-        buildlib.bat
--       GNUmakefile for Mingw32
--       tests/Makefile for MS nmake replaces runall.bat
--       tests/GNUmakefile for Mingw32
-
-Bugs fixed:
--       kernel32 load/free problem
--       attempt to hide internel exceptions from application
-        exception handlers (__try/__except and try/catch blocks)
--       Win32 thread handle leakage bug
-        (David Baggett/Paul Redondo/Eyal Lebedinsky)
-
-Some new tests have been added.
-
-
-SNAPSHOT 1999-11-02
--------------------
-
-Bugs fixed:
--       ctime_r macro had an incorrect argument (Erik Hensema),
--       threads were not being created 
-        PTHREAD_CANCEL_DEFERRED. This should have
-        had little effect as deferred is the only
-        supported type. (Ross Johnson).
-
-Some compatibility improvements added, eg.
--       pthread_setcancelstate accepts NULL pointer
-        for the previous value argument. Ditto for
-        pthread_setcanceltype. This is compatible
-        with Solaris but should not affect
-        standard applications (Erik Hensema)
-
-Some new tests have been added.
-
-
-SNAPSHOT 1999-10-17
--------------------
-
-Bug fix - Cancelation of threads waiting on condition variables
-now works properly (Lorin Hochstein and Peter Slacik)
-
-
-SNAPSHOT 1999-08-12
--------------------
-
-Fixed exception stack cleanup if calling pthread_exit()
-- (Lorin Hochstein and John Bossom).
-
-Fixed bugs in condition variables - (Peter Slacik):
-        - additional contention checks
-        - properly adjust number of waiting threads after timed
-          condvar timeout.
-
-
-SNAPSHOT 1999-05-30
--------------------
-
-Some minor bugs have been fixed. See the ChangeLog file for details.
-
-Some more POSIX 1b functions are now included but ony return an
-error (ENOSYS) if called. They are:
-
-        sem_open
-        sem_close
-        sem_unlink
-        sem_getvalue
-
-
-SNAPSHOT 1999-04-07
--------------------
-
-Some POSIX 1b functions which were internally supported are now
-available as exported functions:
-
-        sem_init
-        sem_destroy
-        sem_wait
-        sem_trywait
-        sem_post
-        sched_yield
-        sched_get_priority_min
-        sched_get_priority_max
-
-Some minor bugs have been fixed. See the ChangeLog file for details.
-
-
-SNAPSHOT 1999-03-16
--------------------
-
-Initial release.
-
+SNAPSHOT 2002-03-02

+-------------------

+

+Cleanup code default style. (IMPORTANT)

+----------------------------------------------------------------------

+Previously, if not defined, the cleanup style was determined automatically

+from the compiler/language, and one of the following was defined accordingly:

+

+        __CLEANUP_SEH   MSVC only

+        __CLEANUP_CXX   C++, including MSVC++, GNU G++

+        __CLEANUP_C             C, including GNU GCC, not MSVC

+

+These defines determine the style of cleanup (see pthread.h) and,

+most importantly, the way that cancelation and thread exit (via

+pthread_exit) is performed (see the routine ptw32_throw() in private.c).

+

+In short, the exceptions versions of the library throw an exception

+when a thread is canceled or exits (via pthread_exit()), which is

+caught by a handler in the thread startup routine, so that the

+the correct stack unwinding occurs regardless of where the thread

+is when it's canceled or exits via pthread_exit().

+

+In this and future snapshots, unless the build explicitly defines (e.g.

+via a compiler option) __CLEANUP_SEH, __CLEANUP_CXX, or __CLEANUP_C, then

+the build NOW always defaults to __CLEANUP_C style cleanup. This style

+uses setjmp/longjmp in the cancelation and pthread_exit implementations,

+and therefore won't do stack unwinding even when linked to applications

+that have it (e.g. C++ apps). This is for consistency with most

+current commercial Unix POSIX threads implementations. Compaq's TRU64

+may be an exception (no pun intended) and possible future trend.

+

+Although it was not clearly documented before, it is still necessary to

+build your application using the same __CLEANUP_* define as was

+used for the version of the library that you link with, so that the

+correct parts of pthread.h are included. That is, the possible

+defines require the following library versions:

+

+        __CLEANUP_SEH   pthreadVSE.dll

+        __CLEANUP_CXX   pthreadVCE.dll or pthreadGCE.dll

+        __CLEANUP_C     pthreadVC.dll or pthreadGC.dll

+

+E.g. regardless of whether your app is C or C++, if you link with

+pthreadVC.lib or libpthreadGC.a, then you must define __CLEANUP_C.

+

+

+THE POINT OF ALL THIS IS: if you have not been defining one of these

+explicitly, then the defaults as described at the top of this

+section were being used.

+

+THIS NOW CHANGES, as has been explained above, but to try to make this

+clearer here's an example:

+

+If you were building your application with MSVC++ i.e. using C++

+exceptions and not explicitly defining one of __CLEANUP_*, then

+__CLEANUP_C++ was automatically defined for you in pthread.h.

+You should have been linking with pthreadVCE.dll, which does

+stack unwinding.

+

+If you now build your application as you had before, pthread.h will now

+automatically set __CLEANUP_C as the default style, and you will need to

+link with pthreadVC.dll. Stack unwinding will now NOT occur when a thread

+is canceled, or the thread calls pthread_exit().

+

+Your application will now most likely behave differently to previous

+versions, and in non-obvious ways. Most likely is that locally

+instantiated objects may not be destroyed or cleaned up after a thread

+is canceled.

+

+If you want the same behaviour as before, then you must now define

+__CLEANUP_C++ explicitly using a compiler option and link with

+pthreadVCE.dll as you did before.

+

+

+WHY ARE WE MAKING THE DEFAULT STYLE LESS EXCEPTION-FRIENDLY?

+Because no commercial Unix POSIX threads implementation allows you to

+choose to have stack unwinding. Therefore, providing it in pthread-win32

+as a default is dangerous. We still provide the choice but unless

+you consciously choose to do otherwise, your pthreads applications will

+now run or crash in similar ways irrespective of the threads platform

+you use. Or at least this is the hope.

+

+

+WHY NOT REMOVE THE EXCEPTIONS VERSIONS OF THE LIBRARY ALTOGETHER?

+There are a few reasons:

+- because there are well respected POSIX threads people who believe

+  that POSIX threads implementations should be exceptions aware and

+  do the expected thing in that context. (There are equally respected

+  people who believe it should not be easily accessible, if it's there

+  at all, for unconditional conformity to other implementations.)

+- because pthreads-win32 is one of the few implementations that has

+  the choice, perhaps the only freely available one, and so offers

+  a laboratory to people who may want to explore the effects;

+- although the code will always be around somewhere for anyone who

+  wants it, once it's removed from the current version it will not be

+  nearly as visible to people who may have a use for it.

+

+

+Source module splitting

+-----------------------

+In order to enable smaller image sizes to be generated

+for applications that link statically with the library,

+most routines have been separated out into individual

+source code files.

+

+This is being done in such a way as to be backward compatible.

+The old source files are reused to congregate the individual

+routine files into larger translation units (via a bunch of

+# includes) so that the compiler can still optimise wherever

+possible, e.g. through inlining, which can only be done

+within the same translation unit.

+

+It is also possible to build the entire library by compiling

+the single file named "pthread.c", which just #includes all

+the secondary congregation source files. The compiler

+may be able to use this to do more inlining of routines.

+

+Although the GNU compiler is able to produce libraries with

+the necessary separation (the -ffunction-segments switch),

+AFAIK, the MSVC and other compilers don't have this feature.

+

+Finally, since I use makefiles and command-line compilation,

+I don't know what havoc this reorganisation may wreak amongst

+IDE project file users. You should be able to continue

+using your existing project files without modification.

+

+

+New non-portable functions

+--------------------------

+pthread_num_processors_np():

+  Returns the number of processors in the system that are

+  available to the process, as determined from the processor

+  affinity mask.

+

+pthread_timechange_handler_np():

+  To improve tolerance against operator or time service initiated

+  system clock changes.

+

+  This routine can be called by an application when it

+  receives a WM_TIMECHANGE message from the system. At present

+  it broadcasts all condition variables so that waiting threads

+  can wake up and re-evaluate their conditions and restart

+  their timed waits if required.

+  - Suggested by Alexander Terekhov

+

+

+Platform dependence

+-------------------

+As Win95 doesn't provide one, the library now contains

+it's own InterlockedCompareExchange() routine, which is used

+whenever Windows doesn't provide it. InterlockedCompareExchange()

+is used to implement spinlocks and barriers, and also in mutexes.

+This routine relies on the CMPXCHG machine instruction which

+is not available on i386 CPUs. This library (from snapshot

+20010712 onwards) is therefore no longer supported on i386

+processor platforms.

+

+

+New standard routines

+---------------------

+For source code portability only - rwlocks cannot be process shared yet.

+

+        pthread_rwlockattr_init()

+        pthread_rwlockattr_destroy()

+        pthread_rwlockattr_setpshared()

+        pthread_rwlockattr_getpshared()

+

+As defined in the new POSIX standard, and the Single Unix Spec version 3:

+

+        sem_timedwait()

+        pthread_mutex_timedlock()    - Alexander Terekhov and Thomas Pfaff

+        pthread_rwlock_timedrdlock() - adapted from pthread_rwlock_rdlock()

+        pthread_rwlock_timedwrlock() - adapted from pthread_rwlock_wrlock()

+

+

+pthread.h no longer includes windows.h

+--------------------------------------

+[Not yet for G++]

+

+This was done to prevent conflicts.

+

+HANDLE, DWORD, and NULL are temporarily defined within pthread.h if

+they are not already.

+

+

+pthread.h, sched.h and semaphore.h now use dllexport/dllimport

+--------------------------------------------------------------

+Not only to avoid the need for the pthread.def file, but to

+improve performance. Apparently, declaring functions with dllimport

+generates a direct call to the function and avoids the overhead

+of a stub function call.

+

+Bug fixes

+---------

+* Fixed potential NULL pointer dereferences in pthread_mutexattr_init,

+pthread_mutexattr_getpshared, pthread_barrierattr_init,

+pthread_barrierattr_getpshared, and pthread_condattr_getpshared.

+- Scott McCaskill <scott@magruder.org>

+

+* Removed potential race condition in pthread_mutex_trylock and

+pthread_mutex_lock;

+- Alexander Terekhov <TEREKHOV@de.ibm.com>

+

+* The behaviour of pthread_mutex_trylock in relation to

+recursive mutexes was inconsistent with commercial implementations.

+Trylock would return EBUSY if the lock was owned already by the

+calling thread regardless of mutex type. Trylock now increments the

+recursion count and returns 0 for RECURSIVE mutexes, and will

+return EDEADLK rather than EBUSY for ERRORCHECK mutexes. This is

+consistent with Solaris.

+- Thomas Pfaff <tpfaff@gmx.net>

+

+* Found a fix for the library and workaround for applications for

+the known bug #2, i.e. where __CLEANUP_CXX or __CLEANUP_SEH is defined.

+See the "Known Bugs in this snapshot" section below.

+

+This could be made transparent to applications by replacing the macros that

+define the current C++ and SEH versions of pthread_cleanup_push/pop

+with the C version, but AFAIK cleanup handlers would not then run in the

+correct sequence with destructors and exception cleanup handlers when

+an exception occurs.

+

+* Cancelation once started in a thread cannot now be inadvertantly

+double canceled. That is, once a thread begins it's cancelation run,

+cancelation is disabled and a subsequent cancel request will

+return an error (ESRCH).

+

+* errno: An incorrect compiler directive caused a local version

+of errno to be used instead of the Win32 errno. Both instances are

+thread-safe but applications checking errno after a pthreads-win32

+call would be wrong. Fixing this also fixed a bad compiler

+option in the testsuite (/MT should have been /MD) which is

+needed to link with the correct library MSVCRT.LIB.

+

+

+SNAPSHOT 2001-07-12

+-------------------

+

+To be added

+

+

+SNAPSHOT 2001-07-03

+-------------------

+

+To be added

+

+

+SNAPSHOT 2000-08-13

+-------------------

+

+New:

+-       Renamed DLL and LIB files:

+                pthreadVSE.dll  (MS VC++/Structured EH)

+                pthreadVSE.lib

+                pthreadVCE.dll  (MS VC++/C++ EH)

+                pthreadVCE.lib

+                pthreadGCE.dll  (GNU G++/C++ EH)

+                libpthreadw32.a

+

+        Both your application and the pthread dll should use the

+        same exception handling scheme.

+

+Bugs fixed:

+-       MSVC++ C++ exception handling.

+

+Some new tests have been added.

+

+

+SNAPSHOT 2000-08-10

+-------------------

+

+New:

+-       asynchronous cancelation on X86 (Jason Nye)

+-       Makefile compatible with MS nmake to replace

+        buildlib.bat

+-       GNUmakefile for Mingw32

+-       tests/Makefile for MS nmake replaces runall.bat

+-       tests/GNUmakefile for Mingw32

+

+Bugs fixed:

+-       kernel32 load/free problem

+-       attempt to hide internel exceptions from application

+        exception handlers (__try/__except and try/catch blocks)

+-       Win32 thread handle leakage bug

+        (David Baggett/Paul Redondo/Eyal Lebedinsky)

+

+Some new tests have been added.

+

+

+SNAPSHOT 1999-11-02

+-------------------

+

+Bugs fixed:

+-       ctime_r macro had an incorrect argument (Erik Hensema),

+-       threads were not being created 

+        PTHREAD_CANCEL_DEFERRED. This should have

+        had little effect as deferred is the only

+        supported type. (Ross Johnson).

+

+Some compatibility improvements added, eg.

+-       pthread_setcancelstate accepts NULL pointer

+        for the previous value argument. Ditto for

+        pthread_setcanceltype. This is compatible

+        with Solaris but should not affect

+        standard applications (Erik Hensema)

+

+Some new tests have been added.

+

+

+SNAPSHOT 1999-10-17

+-------------------

+

+Bug fix - Cancelation of threads waiting on condition variables

+now works properly (Lorin Hochstein and Peter Slacik)

+

+

+SNAPSHOT 1999-08-12

+-------------------

+

+Fixed exception stack cleanup if calling pthread_exit()

+- (Lorin Hochstein and John Bossom).

+

+Fixed bugs in condition variables - (Peter Slacik):

+        - additional contention checks

+        - properly adjust number of waiting threads after timed

+          condvar timeout.

+

+

+SNAPSHOT 1999-05-30

+-------------------

+

+Some minor bugs have been fixed. See the ChangeLog file for details.

+

+Some more POSIX 1b functions are now included but ony return an

+error (ENOSYS) if called. They are:

+

+        sem_open

+        sem_close

+        sem_unlink

+        sem_getvalue

+

+

+SNAPSHOT 1999-04-07

+-------------------

+

+Some POSIX 1b functions which were internally supported are now

+available as exported functions:

+

+        sem_init

+        sem_destroy

+        sem_wait

+        sem_trywait

+        sem_post

+        sched_yield

+        sched_get_priority_min

+        sched_get_priority_max

+

+Some minor bugs have been fixed. See the ChangeLog file for details.

+

+

+SNAPSHOT 1999-03-16

+-------------------

+

+Initial release.

+

diff --git a/PROGRESS b/PROGRESS
index 230e76a..3e90bec 100644
--- a/PROGRESS
+++ b/PROGRESS
@@ -1,4 +1,4 @@
-Please see the ANNOUNCE file "Level of Standards Conformance"
-or the web page:
-
-http://sourceware.cygnus.com/pthreads-win32/conformance.html
+Please see the ANNOUNCE file "Level of Standards Conformance"

+or the web page:

+

+http://sources.redhat.com/pthreads-win32/conformance.html

diff --git a/README b/README
index b4e0288..1e49e74 100644
--- a/README
+++ b/README
@@ -1,419 +1,451 @@
-PTHREADS-WIN32
-==============
-
-Pthreads-win32 is free software, distributed under the GNU Lesser
-General Public License (LGPL). See the file 'COPYING.LIB' for terms
-and conditions. Also see the file 'COPYING' for information
-specific to pthreads-win32, copyrights and the LGPL.
-
-
-What is it?
------------
-
-Pthreads-win32 is an Open Source Software implementation of the
-Threads component of the POSIX 1003.1c 1995 Standard for Microsoft's
-Win32 environment. Some functions from POSIX 1003.1b are also
-supported including semaphores. Other related functions include
-the set of read-write lock functions. The library also supports
-some of the functionality of the Open Group's Single Unix
-specification, version 2, namely mutex types.
-
-See the file "ANNOUNCE" for more information including standards
-conformance details and list of supported routines.
-
-
-Which of the several dll versions to use?
------------------------------------------
-or,
----
-What are all these pthread*.dll and pthread*.lib files?
--------------------------------------------------------
-
-Simply, you only use one of them, but you need to choose carefully.
-
-The most important choice you need to make is whether to use a
-version that uses exceptions internally, or not (there are versions
-of the library that use exceptions as part of the thread
-cancelation and exit implementation, and one that uses
-setjmp/longjmp instead).
-
-There is some contension amongst POSIX threads experts as
-to how POSIX threads cancelation and exit should work
-with languages that include exceptions and handlers, e.g.
-C++ and even C (Microsoft's Structured Exceptions).
-
-The issue is: should cancelation of a thread in, say,
-a C++ application cause object destructors and C++ exception
-handlers to be invoked as the stack unwinds during thread
-exit, or not?
-
-There seems to be more opinion in favour of using the
-standard C version of the library (no EH) with C++ applications
-since this appears to be the assumption commercial pthreads
-implementations make. Therefore, if you use an EH version
-of pthreads-win32 then you may be under the illusion that
-your application will be portable, when in fact it is likely to
-behave very differently linked with other pthreads libraries.
-
-Now you may be asking: why have you kept the EH versions of
-the library?
-
-There are a couple of reasons:
-- there is division amongst the experts and so the code may
-  be needed in the future. (Yes, it's in the repository and we
-  can get it out anytime in the future, but ...)
-- pthreads-win32 is one of the few implementations, and possibly
-  the only freely available one, that has EH versions. It may be
-  useful to people who want to play with or study application
-  behaviour under these conditions.
-
-
-Library naming
---------------
-
-Because the library is being built using various exception
-handling schemes and compilers - and because the library
-may not work reliably if these are mixed in an application,
-each different version of the library has it's own name.
-
-Note 1: the incompatibility is really between EH implementations
-of the different compilers. It should be possible to use the
-standard C version from either compiler with C++ applications
-built with a different compiler. If you use an EH version of
-the library, then you must use the same compiler for the
-application. This is another complication and dependency that
-can be avoided by using only the standard C library version.
-
-Note 2: if you use a standard C pthread*.dll with a C++
-application, then any functions that you define that are
-intended to be called via pthread_cleanup_push() must be
-__cdecl.
-
-Note 3: the intention is to also name either the VC or GC
-version (it should be arbitrary) as pthread.dll, including
-pthread.lib and libpthread.a as appropriate.
-
-In general:
-	pthread[VG]{SE,CE,C}.dll
-	pthread[VG]{SE,CE,C}.lib
-
-where:
-	[VG] indicates the compiler
-	V	- MS VC
-	G	- GNU C
-
-	{SE,CE,C} indicates the exception handling scheme
-	SE	- Structured EH
-	CE	- C++ EH
-	C       - no exceptions - uses setjmp/longjmp
-
-For example:
-	pthreadVSE.dll	(MSVC/SEH)
-	pthreadGCE.dll	(GNUC/C++ EH)
-	pthreadGC.dll   (GNUC/not dependent on exceptions)
-
-The GNU library archive file names have changed to:
-
-	libpthreadGCE.a
-	libpthreadGC.a
-
-
-Other name changes
-------------------
-
-All snapshots prior to and including snapshot 2000-08-13
-used "_pthread_" as the prefix to library internal
-functions, and "_PTHREAD_" to many library internal
-macros. These have now been changed to "ptw32_" and "PTW32_"
-respectively so as to not conflict with the ANSI standard's
-reservation of identifiers beginning with "_" and "__" for
-use by compiler implementations only.
-
-If you have written any applications and you are linking
-statically with the pthreads-win32 library then you may have
-included a call to _pthread_processInitialize. You will
-now have to change that to ptw32_processInitialize.
-
-
-A note on Cleanup code default style
-------------------------------------
-
-Previously, if not defined, the cleanup style was determined automatically
-from the compiler used, and one of the following was defined accordingly:
-
-	__CLEANUP_SEH	MSVC only
-	__CLEANUP_CXX	C++, including MSVC++, GNU G++
-	__CLEANUP_C		C, including GNU GCC, not MSVC
-
-These defines determine the style of cleanup (see pthread.h) and,
-most importantly, the way that cancelation and thread exit (via
-pthread_exit) is performed (see the routine ptw32_throw() in private.c).
-
-In short, the exceptions versions of the library throw an exception
-when a thread is canceled or exits (via pthread_exit()), which is
-caught by a handler in the thread startup routine, so that the
-the correct stack unwinding occurs regardless of where the thread
-is when it's canceled or exits via pthread_exit().
-
-In this snapshot, unless the build explicitly defines (e.g. via a
-compiler option) __CLEANUP_SEH, __CLEANUP_CXX, or __CLEANUP_C, then
-the build NOW always defaults to __CLEANUP_C style cleanup. This style
-uses setjmp/longjmp in the cancelation and pthread_exit implementations,
-and therefore won't do stack unwinding even when linked to applications
-that have it (e.g. C++ apps). This is for consistency with most/all
-commercial Unix POSIX threads implementations.
-
-Although it was not clearly documented before, it is still necessary to
-build your application using the same __CLEANUP_* define as was
-used for the version of the library that you link with, so that the
-correct parts of pthread.h are included. That is, the possible
-defines require the following library versions:
-
-	__CLEANUP_SEH	pthreadVSE.dll
-	__CLEANUP_CXX	pthreadVCE.dll or pthreadGCE.dll
-	__CLEANUP_C		pthreadVC.dll or pthreadGC.dll
-
-THE POINT OF ALL THIS IS: if you have not been defining one of these
-explicitly, then the defaults as described at the top of this
-section were being used.
-
-THIS NOW CHANGES, as has been explained above, but to try to make this
-clearer here's an example:
-
-If you were building your application with MSVC++ i.e. using C++
-exceptions (rather than SEH) and not explicitly defining one of
-__CLEANUP_*, then __CLEANUP_C++ was defined for you in pthread.h.
-You should have been linking with pthreadVCE.dll, which does
-stack unwinding.
-
-If you now build your application as you had before, pthread.h will now
-set __CLEANUP_C as the default style, and you will need to link
-with pthreadVC.dll. Stack unwinding will now NOT occur when a thread
-is canceled, or the thread calls pthread_exit().
-
-Your application will now most likely behave differently to previous
-versions, and in non-obvious ways. Most likely is that locally
-instantiated objects may not be destroyed or cleaned up after a thread
-is canceled.
-
-If you want the same behaviour as before, then you must now define
-__CLEANUP_C++ explicitly using a compiler option and link with
-pthreadVCE.dll as you did before.
-
-
-WHY ARE WE MAKING THE DEFAULT STYLE LESS EXCEPTION-FRIENDLY?
-Because no commercial Unix POSIX threads implementation allows you to
-choose to have stack unwinding. Therefore, providing it in pthread-win32
-as a default is dangerous. We still provide the choice but unless
-you consciously choose to do otherwise, your pthreads applications will
-now run or crash in similar ways irrespective of the threads platform
-you use. Or at least this is the hope.
-
-
-
-Building under VC++ using C++ EH, Structured EH, or just C
-----------------------------------------------------------
-
-From the source directory run one of the following:
-
-nmake clean VCE	(builds the VC++ C++ EH version pthreadVCE.dll)
-
-or:
-
-nmake clean VSE	(builds the VC++ structured EH version pthreadVSE.dll)
-
-or:
-
-nmake clean VC	(builds the VC setjmp/longjmp version of pthreadVC.dll)
-
-You can run the testsuite by changing to the "tests" directory and
-running the target corresponding to the DLL version you built:
-
-nmake clean VCE
-
-or:
-
-nmake clean VSE
-
-or:
-
-nmake clean VC
-
-or:
-
-nmake clean VCX	(tests the VC version of the library with C++ (EH)
-			 applications)
-
-
-Building under Mingw32
-----------------------
-
-The dll can be built with Mingw32 gcc-2.95.2-1 after you've
-made the changes to Mingw32 desribed in Question 6 of the FAQ.
-
-From the source directory, run
-
-make clean GCE
-
-or:
-
-make clean GC
-
-You can run the testsuite by changing to the "tests" directory and
-running
-
-make clean GCE
-
-or:
-
-make clean GC
-
-or:
-
-make clean GCX	(tests the GC version of the library with C++ (EH)
-			 applications)
-
-
-Building the library under Cygwin
----------------------------------
-
-Not tested by me although I think some people have done this.
-Not sure how successfully though.
-
-Cygwin is implementing it's own POSIX threads routines and these
-will be the ones to use if you develop using Cygwin.
-
-
-Ready to run binaries
----------------------
-
-For convenience, the following ready-to-run files can be downloaded
-from the FTP site (see under "Availability" below):
-
-	pthread.h
-	semaphore.h
-	sched.h
-	pthread.def
-	pthreadVCE.dll	- built with MSVC++ compiler using C++ EH
-	pthreadVCE.lib
-	pthreadVC.dll	- built with MSVC compiler using C setjmp/longjmp
-	pthreadVC.lib
-	pthreadVSE.dll	- built with MSVC compiler using SEH
-	pthreadVSE.lib
-	pthreadGCE.dll	- built with Mingw32 G++
-	pthreadGCE.a	- derived from pthreadGCE.dll
-	pthreadGC.dll	- built with Mingw32 GCC
-	pthreadGC.a	- derived from pthreadGC.dll
-        gcc.dll         - needed to build and run applications that use
-                          pthreadGCE.dll.
-
-
-Building applications with the library
---------------------------------------
-
-Use the appropriate DLL and LIB files to match the exception handing
-that you use in your application, or specifically, in your POSIX
-threads. Don't mix them or neither thread cancelation nor
-pthread_exit() will work reliably if at all.
-
-If in doubt use the C (no-exceptions) versions of the library.
-
-
-Building applications with GNU compilers
-----------------------------------------
-
-If you're using pthreadGCE.dll:
-
-Use gcc-2.95.2-1 or later modified as per pthreads-win32 FAQ question 11.
-
-With the three header files, pthreadGCE.dll, gcc.dll and libpthreadGCE.a
-in the same directory as your application myapp.c, you could compile,
-link and run myapp.c under Mingw32 as follows:
-
-	gcc -x c++ -o myapp.exe myapp.c -I. -L. -lpthreadGCE
-	myapp
-
-Or put pthreadGCE.dll and gcc.dll in an appropriate directory in
-your PATH, put libpthreadGCE.a in MINGW_ROOT\i386-mingw32\lib, and
-put the three header files in MINGW_ROOT\i386-mingw32\include,
-then use:
-
-	gcc -x c++ -o myapp.exe myapp.c -lpthreadGCE
-	myapp
-
-If you're using pthreadGC.dll:
-
-With the three header files, pthreadGC.dll and libpthreadGC.a in the
-same directory as your application myapp.c, you could compile, link
-and run myapp.c under Mingw32 as follows:
-
-	gcc -o myapp.exe myapp.c -I. -L. -lpthreadGC
-	myapp
-
-Or put pthreadGC.dll in an appropriate directory in your PATH,
-put libpthreadGC.a in MINGW_ROOT\i386-mingw32\lib, and
-put the three header files in MINGW_ROOT\i386-mingw32\include,
-then use:
-
-	gcc -o myapp.exe myapp.c -lpthreadGC
-	myapp
-
-
-Availability
-------------
-
-The complete source code in either unbundled, self-extracting
-Zip file, or tar/gzipped format can be found at:
-
-	ftp://sources.redhat.com/pub/pthreads-win32
-
-The pre-built DLL, export libraries and matching pthread.h can
-be found at:
-
-	ftp://sources.redhat.com/pub/pthreads-win32/dll-latest
-
-Home page:
-
-	http://sources.redhat.com/pthreads-win32/
-
-
-Mailing list
-------------
-
-There is a mailing list for discussing pthreads on Win32.
-To join, send email to:
-
-	pthreads-win32-subscribe@sources.redhat.com
-
-Unsubscribe by sending mail to:
-
-	pthreads-win32-unsubscribe@sources.redhat.com
-
-
-Acknowledgements
-----------------
-
-Pthreads-win32 is based substantially on a Win32 Pthreads
-implementation contributed by John E. Bossom.
-Many others have contributed important new code,
-improvements and bug fixes. Thanks go to Alexander Terekhov
-and Louis Thomas for their improvements to the implementation
-of condition variables.
-
-See the 'CONTRIBUTORS' file for the list of contributors.
-
-As much as possible, the ChangeLog file also attributes
-contributions and patches that have been incorporated
-in the library.
-
-----
-Ross Johnson
-<rpj@ise.canberra.edu.au>
-
-
-
-
-
-
-
-
+PTHREADS-WIN32

+==============

+

+Pthreads-win32 is free software, distributed under the GNU Lesser

+General Public License (LGPL). See the file 'COPYING.LIB' for terms

+and conditions. Also see the file 'COPYING' for information

+specific to pthreads-win32, copyrights and the LGPL.

+

+

+What is it?

+-----------

+

+Pthreads-win32 is an Open Source Software implementation of the

+Threads component of the POSIX 1003.1c 1995 Standard for Microsoft's

+Win32 environment. Some functions from POSIX 1003.1b are also

+supported including semaphores. Other related functions include

+the set of read-write lock functions. The library also supports

+some of the functionality of the Open Group's Single Unix

+specification, version 2, namely mutex types.

+

+See the file "ANNOUNCE" for more information including standards

+conformance details and list of supported routines.

+

+

+Which of the several dll versions to use?

+-----------------------------------------

+or,

+---

+What are all these pthread*.dll and pthread*.lib files?

+-------------------------------------------------------

+

+Simply, you only use one of them, but you need to choose carefully.

+

+The most important choice you need to make is whether to use a

+version that uses exceptions internally, or not (there are versions

+of the library that use exceptions as part of the thread

+cancelation and exit implementation, and one that uses

+setjmp/longjmp instead).

+

+There is some contension amongst POSIX threads experts as

+to how POSIX threads cancelation and exit should work

+with languages that include exceptions and handlers, e.g.

+C++ and even C (Microsoft's Structured Exceptions).

+

+The issue is: should cancelation of a thread in, say,

+a C++ application cause object destructors and C++ exception

+handlers to be invoked as the stack unwinds during thread

+exit, or not?

+

+There seems to be more opinion in favour of using the

+standard C version of the library (no EH) with C++ applications

+since this appears to be the assumption commercial pthreads

+implementations make. Therefore, if you use an EH version

+of pthreads-win32 then you may be under the illusion that

+your application will be portable, when in fact it is likely to

+behave very differently linked with other pthreads libraries.

+

+Now you may be asking: why have you kept the EH versions of

+the library?

+

+There are a couple of reasons:

+- there is division amongst the experts and so the code may

+  be needed in the future. (Yes, it's in the repository and we

+  can get it out anytime in the future, but ...)

+- pthreads-win32 is one of the few implementations, and possibly

+  the only freely available one, that has EH versions. It may be

+  useful to people who want to play with or study application

+  behaviour under these conditions.

+

+Finally, for a proper version of the library with no internal

+exceptions to be usable with C++ applications, the C version

+should compiled as C++ so that it knows about and can propagate

+exceptions even if it doesn't use C++ features.

+

+

+Notes:

+

+[If you use either pthreadVCE or pthreadGCE]

+

+1. [See also the discussion in the FAQ file - Q2, Q4, and Q5]

+

+Due to what is believed to be a C++ compliance error in VC++ whereby

+you may not have multiple handlers for the same exception in the same

+try/catch block, if your application contains catch(...) blocks in your POSIX

+threads then you will need to replace the "catch(...)" with the macro

+"PtW32Catch", eg.

+

+	#ifdef PtW32Catch

+		PtW32Catch {

+			...

+		}

+	#else

+		catch(...) {

+			...

+		}

+	#endif

+

+Otherwise neither pthreads cancelation nor pthread_exit() will work

+reliably when using versions of the library that use C++ exceptions

+for cancelation and thread exit.

+

+

+Library naming

+--------------

+

+Because the library is being built using various exception

+handling schemes and compilers - and because the library

+may not work reliably if these are mixed in an application,

+each different version of the library has it's own name.

+

+Note 1: the incompatibility is really between EH implementations

+of the different compilers. It should be possible to use the

+standard C version from either compiler with C++ applications

+built with a different compiler. If you use an EH version of

+the library, then you must use the same compiler for the

+application. This is another complication and dependency that

+can be avoided by using only the standard C library version.

+

+Note 2: if you use a standard C pthread*.dll with a C++

+application, then any functions that you define that are

+intended to be called via pthread_cleanup_push() must be

+__cdecl.

+

+Note 3: the intention is to also name either the VC or GC

+version (it should be arbitrary) as pthread.dll, including

+pthread.lib and libpthread.a as appropriate.

+

+In general:

+	pthread[VG]{SE,CE,C}.dll

+	pthread[VG]{SE,CE,C}.lib

+

+where:

+	[VG] indicates the compiler

+	V	- MS VC

+	G	- GNU C

+

+	{SE,CE,C} indicates the exception handling scheme

+	SE	- Structured EH

+	CE	- C++ EH

+	C	- no exceptions - uses setjmp/longjmp

+

+For example:

+	pthreadVSE.dll	(MSVC/SEH)

+	pthreadGCE.dll	(GNUC/C++ EH)

+	pthreadGC.dll	(GNUC/not dependent on exceptions)

+

+The GNU library archive file names have changed to:

+

+	libpthreadGCE.a

+	libpthreadGC.a

+

+

+Other name changes

+------------------

+

+All snapshots prior to and including snapshot 2000-08-13

+used "_pthread_" as the prefix to library internal

+functions, and "_PTHREAD_" to many library internal

+macros. These have now been changed to "ptw32_" and "PTW32_"

+respectively so as to not conflict with the ANSI standard's

+reservation of identifiers beginning with "_" and "__" for

+use by compiler implementations only.

+

+If you have written any applications and you are linking

+statically with the pthreads-win32 library then you may have

+included a call to _pthread_processInitialize. You will

+now have to change that to ptw32_processInitialize.

+

+

+A note on Cleanup code default style

+------------------------------------

+

+Previously, if not defined, the cleanup style was determined automatically

+from the compiler used, and one of the following was defined accordingly:

+

+	__CLEANUP_SEH	MSVC only

+	__CLEANUP_CXX	C++, including MSVC++, GNU G++

+	__CLEANUP_C		C, including GNU GCC, not MSVC

+

+These defines determine the style of cleanup (see pthread.h) and,

+most importantly, the way that cancelation and thread exit (via

+pthread_exit) is performed (see the routine ptw32_throw() in private.c).

+

+In short, the exceptions versions of the library throw an exception

+when a thread is canceled or exits (via pthread_exit()), which is

+caught by a handler in the thread startup routine, so that the

+the correct stack unwinding occurs regardless of where the thread

+is when it's canceled or exits via pthread_exit().

+

+In this snapshot, unless the build explicitly defines (e.g. via a

+compiler option) __CLEANUP_SEH, __CLEANUP_CXX, or __CLEANUP_C, then

+the build NOW always defaults to __CLEANUP_C style cleanup. This style

+uses setjmp/longjmp in the cancelation and pthread_exit implementations,

+and therefore won't do stack unwinding even when linked to applications

+that have it (e.g. C++ apps). This is for consistency with most/all

+commercial Unix POSIX threads implementations.

+

+Although it was not clearly documented before, it is still necessary to

+build your application using the same __CLEANUP_* define as was

+used for the version of the library that you link with, so that the

+correct parts of pthread.h are included. That is, the possible

+defines require the following library versions:

+

+	__CLEANUP_SEH	pthreadVSE.dll

+	__CLEANUP_CXX	pthreadVCE.dll or pthreadGCE.dll

+	__CLEANUP_C		pthreadVC.dll or pthreadGC.dll

+

+THE POINT OF ALL THIS IS: if you have not been defining one of these

+explicitly, then the defaults as described at the top of this

+section were being used.

+

+THIS NOW CHANGES, as has been explained above, but to try to make this

+clearer here's an example:

+

+If you were building your application with MSVC++ i.e. using C++

+exceptions (rather than SEH) and not explicitly defining one of

+__CLEANUP_*, then __CLEANUP_C++ was defined for you in pthread.h.

+You should have been linking with pthreadVCE.dll, which does

+stack unwinding.

+

+If you now build your application as you had before, pthread.h will now

+set __CLEANUP_C as the default style, and you will need to link

+with pthreadVC.dll. Stack unwinding will now NOT occur when a thread

+is canceled, or the thread calls pthread_exit().

+

+Your application will now most likely behave differently to previous

+versions, and in non-obvious ways. Most likely is that locally

+instantiated objects may not be destroyed or cleaned up after a thread

+is canceled.

+

+If you want the same behaviour as before, then you must now define

+__CLEANUP_C++ explicitly using a compiler option and link with

+pthreadVCE.dll as you did before.

+

+

+WHY ARE WE MAKING THE DEFAULT STYLE LESS EXCEPTION-FRIENDLY?

+Because no commercial Unix POSIX threads implementation allows you to

+choose to have stack unwinding. Therefore, providing it in pthread-win32

+as a default is dangerous. We still provide the choice but unless

+you consciously choose to do otherwise, your pthreads applications will

+now run or crash in similar ways irrespective of the threads platform

+you use. Or at least this is the hope.

+

+

+

+Building under VC++ using C++ EH, Structured EH, or just C

+----------------------------------------------------------

+

+From the source directory run one of the following:

+

+nmake clean VCE (builds the VC++ C++ EH version pthreadVCE.dll)

+

+or:

+

+nmake clean VSE (builds the VC++ structured EH version pthreadVSE.dll)

+

+or:

+

+nmake clean VC	(builds the VC setjmp/longjmp version of pthreadVC.dll)

+

+You can run the testsuite by changing to the "tests" directory and

+running the target corresponding to the DLL version you built:

+

+nmake clean VCE

+

+or:

+

+nmake clean VSE

+

+or:

+

+nmake clean VC

+

+or:

+

+nmake clean VCX (tests the VC version of the library with C++ (EH)

+			 applications)

+

+

+Building under Mingw32

+----------------------

+

+The dll can be built with Mingw32 gcc-2.95.2-1 after you've

+made the changes to Mingw32 desribed in Question 6 of the FAQ.

+

+From the source directory, run

+

+make clean GCE

+

+or:

+

+make clean GC

+

+You can run the testsuite by changing to the "tests" directory and

+running

+

+make clean GCE

+

+or:

+

+make clean GC

+

+or:

+

+make clean GCX	(tests the GC version of the library with C++ (EH)

+			 applications)

+

+

+Building the library under Cygwin

+---------------------------------

+

+Not tested by me although I think some people have done this.

+Not sure how successfully though.

+

+Cygwin is implementing it's own POSIX threads routines and these

+will be the ones to use if you develop using Cygwin.

+

+

+Ready to run binaries

+---------------------

+

+For convenience, the following ready-to-run files can be downloaded

+from the FTP site (see under "Availability" below):

+

+	pthread.h

+	semaphore.h

+	sched.h

+	pthread.def

+	pthreadVCE.dll	- built with MSVC++ compiler using C++ EH

+	pthreadVCE.lib

+	pthreadVC.dll	- built with MSVC compiler using C setjmp/longjmp

+	pthreadVC.lib

+	pthreadVSE.dll	- built with MSVC compiler using SEH

+	pthreadVSE.lib

+	pthreadGCE.dll	- built with Mingw32 G++

+	pthreadGCE.a	- derived from pthreadGCE.dll

+	pthreadGC.dll	- built with Mingw32 GCC

+	pthreadGC.a	- derived from pthreadGC.dll

+	gcc.dll 	- needed to build and run applications that use

+			  pthreadGCE.dll.

+

+

+Building applications with the library

+--------------------------------------

+

+Use the appropriate DLL and LIB files to match the exception handing

+that you use in your application, or specifically, in your POSIX

+threads. Don't mix them or neither thread cancelation nor

+pthread_exit() will work reliably if at all.

+

+If in doubt use the C (no-exceptions) versions of the library.

+

+

+Building applications with GNU compilers

+----------------------------------------

+

+If you're using pthreadGCE.dll:

+

+Use gcc-2.95.2-1 or later modified as per pthreads-win32 FAQ question 11.

+

+With the three header files, pthreadGCE.dll, gcc.dll and libpthreadGCE.a

+in the same directory as your application myapp.c, you could compile,

+link and run myapp.c under Mingw32 as follows:

+

+	gcc -x c++ -o myapp.exe myapp.c -I. -L. -lpthreadGCE

+	myapp

+

+Or put pthreadGCE.dll and gcc.dll in an appropriate directory in

+your PATH, put libpthreadGCE.a in MINGW_ROOT\i386-mingw32\lib, and

+put the three header files in MINGW_ROOT\i386-mingw32\include,

+then use:

+

+	gcc -x c++ -o myapp.exe myapp.c -lpthreadGCE

+	myapp

+

+If you're using pthreadGC.dll:

+

+With the three header files, pthreadGC.dll and libpthreadGC.a in the

+same directory as your application myapp.c, you could compile, link

+and run myapp.c under Mingw32 as follows:

+

+	gcc -o myapp.exe myapp.c -I. -L. -lpthreadGC

+	myapp

+

+Or put pthreadGC.dll in an appropriate directory in your PATH,

+put libpthreadGC.a in MINGW_ROOT\i386-mingw32\lib, and

+put the three header files in MINGW_ROOT\i386-mingw32\include,

+then use:

+

+	gcc -o myapp.exe myapp.c -lpthreadGC

+	myapp

+

+

+Availability

+------------

+

+The complete source code in either unbundled, self-extracting

+Zip file, or tar/gzipped format can be found at:

+

+	ftp://sources.redhat.com/pub/pthreads-win32

+

+The pre-built DLL, export libraries and matching pthread.h can

+be found at:

+

+	ftp://sources.redhat.com/pub/pthreads-win32/dll-latest

+

+Home page:

+

+	http://sources.redhat.com/pthreads-win32/

+

+

+Mailing list

+------------

+

+There is a mailing list for discussing pthreads on Win32.

+To join, send email to:

+

+	pthreads-win32-subscribe@sources.redhat.com

+

+Unsubscribe by sending mail to:

+

+	pthreads-win32-unsubscribe@sources.redhat.com

+

+

+Acknowledgements

+----------------

+

+Pthreads-win32 is based substantially on a Win32 Pthreads

+implementation contributed by John E. Bossom.

+Many others have contributed important new code,

+improvements and bug fixes. Thanks go to Alexander Terekhov

+and Louis Thomas for their improvements to the implementation

+of condition variables.

+

+See the 'CONTRIBUTORS' file for the list of contributors.

+

+As much as possible, the ChangeLog file also attributes

+contributions and patches that have been incorporated

+in the library.

+

+----

+Ross Johnson

+<rpj@ise.canberra.edu.au>

+

+

+

+

+

+

+

+

diff --git a/TODO b/TODO
index f0e11bf..f798e76 100644
--- a/TODO
+++ b/TODO
@@ -1,7 +1,7 @@
-                   Things that should be doable but aren't yet
-                   -------------------------------------------
-
-1. Implement PTHREAD_PROCESS_SHARED for semaphores, mutexes,
-   condition variables, read/write locks, barriers.
-
-
+                   Things that aren't done yet

+                   ---------------------------

+

+1. Implement PTHREAD_PROCESS_SHARED for semaphores, mutexes,

+   condition variables, read/write locks, barriers.

+

+

diff --git a/tests/GNUmakefile b/tests/GNUmakefile
index 9a0902e..cdae2d9 100644
--- a/tests/GNUmakefile
+++ b/tests/GNUmakefile
@@ -83,8 +83,7 @@ TESTS	= loadfree \
 	  priority1 priority2 inherit1 \
 	  spin1 spin2 spin3 spin4 \
 	  barrier1 barrier2 barrier3 barrier4 barrier5 \
-	  exception1 exception2 exception3 \
-	  exit4
+	  exception1 exception2 exception3
 
 BENCHTESTS = \
 	benchtest1 benchtest2 benchtest3 benchtest4 benchtest5
@@ -177,7 +176,6 @@ exception3.pass: exception2.pass
 exit1.pass:
 exit2.pass: create1.pass
 exit3.pass: create1.pass
-exit4.pass: exit3.pass
 eyal1.pass: tsd1.pass
 inherit1.pass: join1.pass
 join0.pass: create1.pass
diff --git a/tests/Makefile b/tests/Makefile
index f684f31..a3fa7f3 100644
--- a/tests/Makefile
+++ b/tests/Makefile
@@ -57,7 +57,7 @@ VCDLL	= pthreadVC.dll
 # C++ Exceptions in application - using VC version of pthreads dll

 VCXFLAGS	= /GX /TP /D__CLEANUP_C

 

-CFLAGS= $(OPTIM) /W3 /WX /MT /nologo /Yd /Zi -D_WIN32_WINNT=0x400

+CFLAGS= $(OPTIM) /W3 /WX /MD /nologo /Yd /Zi -D_WIN32_WINNT=0x400

 LFLAGS= /INCREMENTAL:NO

 INCLUDES=-I.

 BUILD_DIR=..

@@ -96,8 +96,7 @@ PASSES= loadfree.pass \
 	  priority1.pass priority2.pass inherit1.pass  \

 	  spin1.pass  spin2.pass  spin3.pass  spin4.pass  \

 	  barrier1.pass  barrier2.pass  barrier3.pass  barrier4.pass  barrier5.pass  \

-	  exception1.pass  exception2.pass  exception3.pass  \

-	  exit4

+	  exception1.pass  exception2.pass  exception3.pass

 

 BENCHRESULTS = \

 	  benchtest1.bench benchtest2.bench benchtest3.bench benchtest4.bench benchtest5.bench

@@ -243,7 +242,6 @@ exception3.pass: exception2.pass
 exit1.pass:

 exit2.pass: create1.pass

 exit3.pass: create1.pass

-exit4.pass: exit3.pass

 eyal1.pass: tsd1.pass

 inherit1.pass: join1.pass

 join0.pass: create1.pass

diff --git a/tests/exit4.c b/tests/exit4.c
deleted file mode 100644
index 480fc2e..0000000
--- a/tests/exit4.c
+++ /dev/null
@@ -1,104 +0,0 @@
-/*
- * Test for pthread_exit().
- *
- * --------------------------------------------------------------------------
- *
- *      Pthreads-win32 - POSIX Threads Library for Win32
- *      Copyright(C) 1998 John E. Bossom
- *      Copyright(C) 1999,2002 Pthreads-win32 contributors
- * 
- *      Contact Email: rpj@ise.canberra.edu.au
- * 
- *      The current list of contributors is contained
- *      in the file CONTRIBUTORS included with the source
- *      code distribution. The list can also be seen at the
- *      following World Wide Web location:
- *      http://sources.redhat.com/pthreads-win32/contributors.html
- * 
- *      This library is free software; you can redistribute it and/or
- *      modify it under the terms of the GNU Lesser General Public
- *      License as published by the Free Software Foundation; either
- *      version 2 of the License, or (at your option) any later version.
- * 
- *      This library is distributed in the hope that it will be useful,
- *      but WITHOUT ANY WARRANTY; without even the implied warranty of
- *      MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
- *      Lesser General Public License for more details.
- * 
- *      You should have received a copy of the GNU Lesser General Public
- *      License along with this library in the file COPYING.LIB;
- *      if not, write to the Free Software Foundation, Inc.,
- *      59 Temple Place - Suite 330, Boston, MA 02111-1307, USA
- *
- * --------------------------------------------------------------------------
- *
- * Depends on API functions: pthread_create().
- */
-
-#include "test.h"
-
-#ifdef __CLEANUP_CXX
-
-#define USE_PTHREAD_EXIT
-static const int init_counter_value = 3;
-static void *ret_value = reinterpret_cast<void *>(1);
-static int counter = init_counter_value;
-
-class Guard
-{
-    const char * const _str;
-    int &_ref;
-    Guard &operator=(const Guard&);
-    Guard(const Guard&);
-public:
-    Guard(const char * const str, int &ref) : _str(str), _ref(ref) {
-        printf("Construct %s [%d->%d]\n", _str, _ref, _ref+++1);
-    };
-    ~Guard() {
-        printf("~Destruct %s [%d->%d]\n", _str, _ref, _ref---1);
-    };
-};
-
-
-void *
-func(void * arg)
-{
-    Guard g("func", counter);
-
-#ifdef USE_PTHREAD_EXIT
-
-    pthread_exit(arg);
-    assert(0); //Never reached with pthread_exit
-
-#endif //USE_PTHREAD_EXIT
-
-    return ret_value;
-}
-
-
-#endif /*__CLEANUP_CXX */
-
-int
-main()
-{
-#ifndef __CLEANUP_CXX
-
-    printf("Test requires C++ cleanup enabled. Skipped.\n");
-
-#else
-
-    {
-        void *ret = 0;
-        Guard g("main", counter);
-        pthread_t id;
-        assert(0 == pthread_create(&id, 0, func, ret_value));
-        assert(0 == pthread_join(id, &ret));
-        assert(ret == ret_value);
-    }
-
-    assert(counter == init_counter_value);
-
-#endif /*__CLEANUP_CXX */
-
-    return 0;
-}