tests/support/atomic_xchg.cpp - stdcxx - Git at Google

 /***************************************************************************
  *
  * 18.atomic.xchg.cpp - test exercising the __rw_atomic_exchange() function
  *                      template
  *
  * $Id$
  *
  ***************************************************************************
  *
  * Licensed to the Apache Software  Foundation (ASF) under one or more
  * contributor  license agreements.  See  the NOTICE  file distributed
  * with  this  work  for  additional information  regarding  copyright
  * ownership.   The ASF  licenses this  file to  you under  the Apache
  * License, Version  2.0 (the  "License"); you may  not use  this file
  * except in  compliance with the License.   You may obtain  a copy of
  * the License at
  *
  * http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the  License is distributed on an  "AS IS" BASIS,
  * WITHOUT  WARRANTIES OR CONDITIONS  OF ANY  KIND, either  express or
  * implied.   See  the License  for  the  specific language  governing
  * permissions and limitations under the License.
  *
  * Copyright 2003-2006 Rogue Wave Software.
  *
  **************************************************************************/

 #include <stdio.h>
 #include <string.h>

 #include <rw/_mutex.h>

 #include <any.h>
 #include <cmdopt.h>
 #include <driver.h>
 #include <rw_thread.h>   // for rw_thread_create()

 /**************************************************************************/

 struct thr_args_base
 {
     static enum tag_t {
         Char, SChar, UChar,
         Short, UShort, Int, UInt, Long, ULong,
         LLong, ULLong
     } type_tag_;

     unsigned long threadno_;     // thread ordinal number
     unsigned long niter_;        // number of iterations
     unsigned long nxchg_;        // number of exchanges
 };

 thr_args_base::tag_t thr_args_base::type_tag_;

 template <class intT>
 struct thr_args: thr_args_base
 {
     static unsigned long  nincr_;        // number of increments
     static intT          *shared_;       // shared variables
     static unsigned long  nthreads_;     // number of threads

     static intT* get_array ();
 };

 template <class intT>
 unsigned long thr_args<intT>::nincr_;

 template <class intT>
 intT* thr_args<intT>::shared_ = thr_args<intT>::get_array ();

 template <class intT>
 unsigned long thr_args<intT>::nthreads_;

 // working around compiler bugs that prevent us from defining
 // a static array data member of a class template (PR #30009)
 template <class intT>
 /* static */ intT* thr_args<intT>::get_array ()
 {
     static intT array [2];
     return array;
 }

 /**************************************************************************/

 template <class intT>
 intT exchange (intT &x, intT y)
 {
 #ifndef _RWSTD_REENTRANT

     intT save (x);

     x = y;

     return save;

 #else   // if defined (_RWSTD_REENTRANT)

     return _RW::__rw_atomic_exchange (x, y, false);

 #endif   // _RWSTD_REENTRANT
 }

 /**************************************************************************/

 template <class intT>
 void* thread_routine (thr_args<intT> *args)
 {
     // each thread operates on one of two shared values to exercise
     // problems due to operating on adjacent bytes or half-words
     const unsigned long inx = args->threadno_ % 2;

     static volatile int failed;

     // exercise atomic_exchange() in a tight loop

     // perform the requested number increments, or until the
     // shared `failed' variable is set to a non-zero value

     for (unsigned long i = 0; i != args->nincr_ && !failed; ++i) {

         for (unsigned long j = 0; !failed; ++j) {

             // increment the number of iterations of this thread
             ++args->niter_;

             // use intT() as a special "lock" value
             const intT old = exchange (args->shared_ [inx], intT ());

             // increment the number of exchanges performed by this thread
             ++args->nxchg_;

             if (intT () != old) {

                 // shared variable was not locked by any other thread

                 // increment the value of the shared variable, taking
                 // care to avoid the special "lock" value of intT()
                 intT newval = intT (old + 1);

                 if (intT () == newval)
                     ++newval;

                 const intT lock = exchange (args->shared_ [inx], newval);

                 // increment the number of exchanges
                 ++args->nxchg_;

                 // the returned value must be the special "lock" value
                 if (intT () == lock)
                     break;

                 // fail by setting the shared failed variable (to
                 // prevent deadlock) if the returned value is not
                 // the special "lock" value

                 printf ("*** line %d: error: thread %lu failed "
                         "at increment %lu after %lu iterations\n",
                         __LINE__, args->threadno_, i, args->niter_);
                 failed = 1;
                 return 0;
             }

             if (100UL * args->nincr_ == j) {

                 // fail by setting the shared failed variable (to
                 // prevent deadlock) if the number of failed attempts
                 // to lock the shared variable reaches the requested
                 // number of increments * 100 (an arbitrary number)

                 printf ("*** line %d: error thread %lu \"timed out\" after "
                         "%lu increments and %lu iterations\n",
                         __LINE__, args->threadno_, i, args->niter_);
                 failed = 1;
                 return 0;
             }
         }
     }

     return 0;
 }

 /**************************************************************************/

 extern "C" void* thread_routine (void *arg)
 {
     thr_args_base* const args = (thr_args_base*)arg;

     printf ("thread %lu starting\n", args->threadno_);

     switch (args->type_tag_) {

     case thr_args_base::Char:
         return thread_routine ((thr_args<char>*)(arg));
     case thr_args_base::SChar:
         return thread_routine ((thr_args<signed char>*)(arg));
     case thr_args_base::UChar:
         return thread_routine ((thr_args<unsigned char>*)(arg));

     case thr_args_base::Short:
         return thread_routine ((thr_args<short>*)(arg));
     case thr_args_base::UShort:
         return thread_routine ((thr_args<unsigned short>*)(arg));

     case thr_args_base::Int:
         return thread_routine ((thr_args<int>*)(arg));
     case thr_args_base::UInt:
         return thread_routine ((thr_args<unsigned int>*)(arg));

     case thr_args_base::Long:
         return thread_routine ((thr_args<long>*)(arg));
     case thr_args_base::ULong:
         return thread_routine ((thr_args<unsigned long>*)(arg));

 #ifdef _RWSTD_LONG_LONG

     case thr_args_base::LLong:
         return thread_routine ((thr_args<_RWSTD_LONG_LONG>*)(arg));
     case thr_args_base::ULLong:
         return thread_routine ((thr_args<unsigned _RWSTD_LONG_LONG>*)(arg));

 #endif   // _RWSTD_LONG_LONG

     };

     return 0;
 }

 /**************************************************************************/

 /* extern */ int rw_opt_nloops   = 1024 * 1024;
 /* extern */ int rw_opt_nthreads = 4;

 #define MAX_THREADS   32


 template <class intT>
 void run_test (intT, thr_args_base::tag_t tag)
 {
     static const char* const tname = rw_any_t (intT ()).type_name ();

     if (!rw_enabled (tname)) {
         rw_note (0, 0, 0, "%s test disabled", tname);
         return;
     }

 #ifdef _RWSTD_REENTRANT

     static const char* const fun = "__rw_atomic_exchange";

     rw_info (0, 0, 0, "__rw::%s (%s&, %2$s): %d iterations in %d threads",
              fun, tname, rw_opt_nloops, rw_opt_nthreads);

     rw_thread_t tid [MAX_THREADS];

     typedef thr_args<intT> Args;

     Args::nthreads_   = unsigned (rw_opt_nthreads);
     Args::type_tag_   = tag;
     Args::nincr_      = unsigned (rw_opt_nloops);
     Args::shared_ [0] = intT (1);
     Args::shared_ [1] = intT (1);

     _RWSTD_ASSERT (Args::nthreads_ < sizeof tid / sizeof *tid);

     Args args [sizeof tid / sizeof *tid];

     for (unsigned long i = 0; i != Args::nthreads_; ++i) {

         args [i].threadno_ = i;
         args [i].niter_    = 0;
         args [i].nxchg_    = 0;

         rw_fatal (0 == rw_thread_create (tid + i, 0, thread_routine, args + i),
                   0, __LINE__, "thread_create() failed");
     }

     for (unsigned long i = 0; i != Args::nthreads_; ++i) {

         rw_error (0 == rw_thread_join (tid [i], 0), 0, __LINE__,
                   "thread_join() failed");

         if (args [i].niter_) {
             // compute the percantage of thread iterations that resulted
             // in increments of one of the shared variables
             const unsigned long incrpcnt =
                 (100U * Args::nincr_) / args [i].niter_;

             printf ("thread %lu performed %lu exchanges in %lu iterations "
                     "(%lu%% increments)\n",
                     args [i].threadno_, args [i].nxchg_,
                     args [i].niter_, incrpcnt);
         }
     }

     // compute the expected result, "skipping" zeros by incrementing
     // expect twice when it overflows and wraps around to 0 (zero is
     // used as the lock variable in thread_routine() above)
     intT expect = intT (1);

     const unsigned long nincr = (Args::nthreads_ * Args::nincr_) / 2U;

     for (unsigned long i = 0; i != nincr; ++i) {
         if (intT () == ++expect)
             ++expect;
     }

     // verify that the final value of the variables shared among all
     // threads equals the number of increments performed by the threads
     rw_assert (Args::shared_ [0] == expect, 0, __LINE__,
                "1. %s (%s&, %2$s); %s == %s failed",
                fun, tname, TOSTR (Args::shared_ [0]), TOSTR (expect));

     rw_assert (Args::shared_ [1] == expect, 0, __LINE__,
                "2. %s (%s&, %2$s); %s == %s failed",
                fun, tname, TOSTR (Args::shared_ [1]), TOSTR (expect));

 #else   // if !defined (_RWSTD_REENTRANT)

     _RWSTD_UNUSED (tag);

 #endif   // _RWSTD_REENTRANT
 }

 /**************************************************************************/

 static int
 run_test (int, char**)
 {
     // exercise atomic exchange
     run_test ((char)0, thr_args_base::Char);
     run_test ((signed char)0, thr_args_base::SChar);
     run_test ((unsigned char)0, thr_args_base::UChar);

     run_test ((short)0, thr_args_base::Short);
     run_test ((unsigned short)0, thr_args_base::UShort);

     run_test ((int)0, thr_args_base::Int);
     run_test ((unsigned int)0, thr_args_base::UInt);

     run_test ((long)0, thr_args_base::Long);
     run_test ((unsigned long)0, thr_args_base::ULong);

 #ifdef _RWSTD_LONG_LONG

     run_test ((_RWSTD_LONG_LONG)0, thr_args_base::LLong);
     run_test ((unsigned _RWSTD_LONG_LONG)0, thr_args_base::ULLong);

 #endif    // _RWSTD_LONG_LONG

     return 0;

 }

 /**************************************************************************/

 int main (int argc, char *argv[])
 {
     return rw_test (argc, argv, __FILE__,
                     0 /* no clause */,
                     0 /* no comment */, run_test,
                     "|-nloops#0 "        // must be non-negative
                     "|-nthreads#0-*",    // must be in [0, MAX_THREADS]
                     &rw_opt_nloops,
                     int (MAX_THREADS),
                     &rw_opt_nthreads);
 }
	/***************************************************************************
	*
	* 18.atomic.xchg.cpp - test exercising the __rw_atomic_exchange() function
	* template
	*
	* $Id$
	*
	***************************************************************************
	*
	* Licensed to the Apache Software Foundation (ASF) under one or more
	* contributor license agreements. See the NOTICE file distributed
	* with this work for additional information regarding copyright
	* ownership. The ASF licenses this file to you under the Apache
	* License, Version 2.0 (the "License"); you may not use this file
	* except in compliance with the License. You may obtain a copy of
	* the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or
	* implied. See the License for the specific language governing
	* permissions and limitations under the License.
	*
	* Copyright 2003-2006 Rogue Wave Software.
	*
	**************************************************************************/

	#include <stdio.h>
	#include <string.h>

	#include <rw/_mutex.h>

	#include <any.h>
	#include <cmdopt.h>
	#include <driver.h>
	#include <rw_thread.h> // for rw_thread_create()

	/**************************************************************************/

	struct thr_args_base
	{
	static enum tag_t {
	Char, SChar, UChar,
	Short, UShort, Int, UInt, Long, ULong,
	LLong, ULLong
	} type_tag_;

	unsigned long threadno_; // thread ordinal number
	unsigned long niter_; // number of iterations
	unsigned long nxchg_; // number of exchanges
	};

	thr_args_base::tag_t thr_args_base::type_tag_;

	template <class intT>
	struct thr_args: thr_args_base
	{
	static unsigned long nincr_; // number of increments
	static intT *shared_; // shared variables
	static unsigned long nthreads_; // number of threads

	static intT* get_array ();
	};

	template <class intT>
	unsigned long thr_args<intT>::nincr_;

	template <class intT>
	intT* thr_args<intT>::shared_ = thr_args<intT>::get_array ();

	template <class intT>
	unsigned long thr_args<intT>::nthreads_;

	// working around compiler bugs that prevent us from defining
	// a static array data member of a class template (PR #30009)
	template <class intT>
	/* static / intT thr_args<intT>::get_array ()
	{
	static intT array [2];
	return array;
	}

	/**************************************************************************/

	template <class intT>
	intT exchange (intT &x, intT y)
	{
	#ifndef _RWSTD_REENTRANT

	intT save (x);

	x = y;

	return save;

	#else // if defined (_RWSTD_REENTRANT)

	return _RW::__rw_atomic_exchange (x, y, false);

	#endif // _RWSTD_REENTRANT
	}

	/**************************************************************************/

	template <class intT>
	void* thread_routine (thr_args<intT> *args)
	{
	// each thread operates on one of two shared values to exercise
	// problems due to operating on adjacent bytes or half-words
	const unsigned long inx = args->threadno_ % 2;

	static volatile int failed;

	// exercise atomic_exchange() in a tight loop

	// perform the requested number increments, or until the
	// shared `failed' variable is set to a non-zero value

	for (unsigned long i = 0; i != args->nincr_ && !failed; ++i) {

	for (unsigned long j = 0; !failed; ++j) {

	// increment the number of iterations of this thread
	++args->niter_;

	// use intT() as a special "lock" value
	const intT old = exchange (args->shared_ [inx], intT ());

	// increment the number of exchanges performed by this thread
	++args->nxchg_;

	if (intT () != old) {

	// shared variable was not locked by any other thread

	// increment the value of the shared variable, taking
	// care to avoid the special "lock" value of intT()
	intT newval = intT (old + 1);

	if (intT () == newval)
	++newval;

	const intT lock = exchange (args->shared_ [inx], newval);

	// increment the number of exchanges
	++args->nxchg_;

	// the returned value must be the special "lock" value
	if (intT () == lock)
	break;

	// fail by setting the shared failed variable (to
	// prevent deadlock) if the returned value is not
	// the special "lock" value

	printf ("*** line %d: error: thread %lu failed "
	"at increment %lu after %lu iterations\n",
	__LINE__, args->threadno_, i, args->niter_);
	failed = 1;
	return 0;
	}

	if (100UL * args->nincr_ == j) {

	// fail by setting the shared failed variable (to
	// prevent deadlock) if the number of failed attempts
	// to lock the shared variable reaches the requested
	// number of increments * 100 (an arbitrary number)

	printf ("*** line %d: error thread %lu \"timed out\" after "
	"%lu increments and %lu iterations\n",
	__LINE__, args->threadno_, i, args->niter_);
	failed = 1;
	return 0;
	}
	}
	}

	return 0;
	}

	/**************************************************************************/

	extern "C" void* thread_routine (void *arg)
	{
	thr_args_base* const args = (thr_args_base*)arg;

	printf ("thread %lu starting\n", args->threadno_);

	switch (args->type_tag_) {

	case thr_args_base::Char:
	return thread_routine ((thr_args<char>*)(arg));
	case thr_args_base::SChar:
	return thread_routine ((thr_args<signed char>*)(arg));
	case thr_args_base::UChar:
	return thread_routine ((thr_args<unsigned char>*)(arg));

	case thr_args_base::Short:
	return thread_routine ((thr_args<short>*)(arg));
	case thr_args_base::UShort:
	return thread_routine ((thr_args<unsigned short>*)(arg));

	case thr_args_base::Int:
	return thread_routine ((thr_args<int>*)(arg));
	case thr_args_base::UInt:
	return thread_routine ((thr_args<unsigned int>*)(arg));

	case thr_args_base::Long:
	return thread_routine ((thr_args<long>*)(arg));
	case thr_args_base::ULong:
	return thread_routine ((thr_args<unsigned long>*)(arg));

	#ifdef _RWSTD_LONG_LONG

	case thr_args_base::LLong:
	return thread_routine ((thr_args<_RWSTD_LONG_LONG>*)(arg));
	case thr_args_base::ULLong:
	return thread_routine ((thr_args<unsigned _RWSTD_LONG_LONG>*)(arg));

	#endif // _RWSTD_LONG_LONG

	};

	return 0;
	}

	/**************************************************************************/

	/* extern / int rw_opt_nloops = 1024 1024;
	/* extern */ int rw_opt_nthreads = 4;

	#define MAX_THREADS 32


	template <class intT>
	void run_test (intT, thr_args_base::tag_t tag)
	{
	static const char* const tname = rw_any_t (intT ()).type_name ();

	if (!rw_enabled (tname)) {
	rw_note (0, 0, 0, "%s test disabled", tname);
	return;
	}

	#ifdef _RWSTD_REENTRANT

	static const char* const fun = "__rw_atomic_exchange";

	rw_info (0, 0, 0, "__rw::%s (%s&, %2$s): %d iterations in %d threads",
	fun, tname, rw_opt_nloops, rw_opt_nthreads);

	rw_thread_t tid [MAX_THREADS];

	typedef thr_args<intT> Args;

	Args::nthreads_ = unsigned (rw_opt_nthreads);
	Args::type_tag_ = tag;
	Args::nincr_ = unsigned (rw_opt_nloops);
	Args::shared_ [0] = intT (1);
	Args::shared_ [1] = intT (1);

	_RWSTD_ASSERT (Args::nthreads_ < sizeof tid / sizeof *tid);

	Args args [sizeof tid / sizeof *tid];

	for (unsigned long i = 0; i != Args::nthreads_; ++i) {

	args [i].threadno_ = i;
	args [i].niter_ = 0;
	args [i].nxchg_ = 0;

	rw_fatal (0 == rw_thread_create (tid + i, 0, thread_routine, args + i),
	0, __LINE__, "thread_create() failed");
	}

	for (unsigned long i = 0; i != Args::nthreads_; ++i) {

	rw_error (0 == rw_thread_join (tid [i], 0), 0, __LINE__,
	"thread_join() failed");

	if (args [i].niter_) {
	// compute the percantage of thread iterations that resulted
	// in increments of one of the shared variables
	const unsigned long incrpcnt =
	(100U * Args::nincr_) / args [i].niter_;

	printf ("thread %lu performed %lu exchanges in %lu iterations "
	"(%lu%% increments)\n",
	args [i].threadno_, args [i].nxchg_,
	args [i].niter_, incrpcnt);
	}
	}

	// compute the expected result, "skipping" zeros by incrementing
	// expect twice when it overflows and wraps around to 0 (zero is
	// used as the lock variable in thread_routine() above)
	intT expect = intT (1);

	const unsigned long nincr = (Args::nthreads_ * Args::nincr_) / 2U;

	for (unsigned long i = 0; i != nincr; ++i) {
	if (intT () == ++expect)
	++expect;
	}

	// verify that the final value of the variables shared among all
	// threads equals the number of increments performed by the threads
	rw_assert (Args::shared_ [0] == expect, 0, __LINE__,
	"1. %s (%s&, %2$s); %s == %s failed",
	fun, tname, TOSTR (Args::shared_ [0]), TOSTR (expect));

	rw_assert (Args::shared_ [1] == expect, 0, __LINE__,
	"2. %s (%s&, %2$s); %s == %s failed",
	fun, tname, TOSTR (Args::shared_ [1]), TOSTR (expect));

	#else // if !defined (_RWSTD_REENTRANT)

	_RWSTD_UNUSED (tag);

	#endif // _RWSTD_REENTRANT
	}

	/**************************************************************************/

	static int
	run_test (int, char**)
	{
	// exercise atomic exchange
	run_test ((char)0, thr_args_base::Char);
	run_test ((signed char)0, thr_args_base::SChar);
	run_test ((unsigned char)0, thr_args_base::UChar);

	run_test ((short)0, thr_args_base::Short);
	run_test ((unsigned short)0, thr_args_base::UShort);

	run_test ((int)0, thr_args_base::Int);
	run_test ((unsigned int)0, thr_args_base::UInt);

	run_test ((long)0, thr_args_base::Long);
	run_test ((unsigned long)0, thr_args_base::ULong);

	#ifdef _RWSTD_LONG_LONG

	run_test ((_RWSTD_LONG_LONG)0, thr_args_base::LLong);
	run_test ((unsigned _RWSTD_LONG_LONG)0, thr_args_base::ULLong);

	#endif // _RWSTD_LONG_LONG

	return 0;

	}

	/**************************************************************************/

	int main (int argc, char *argv[])
	{
	return rw_test (argc, argv, __FILE__,
	0 /* no clause */,
	0 /* no comment */, run_test,
	"\|-nloops#0 " // must be non-negative
	"\|-nthreads#0-*", // must be in [0, MAX_THREADS]
	&rw_opt_nloops,
	int (MAX_THREADS),
	&rw_opt_nthreads);
	}