kernel/parallel-test.cpp - tuscany-sca-cpp - Git at Google

 /*
  * 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.
  */

 /* $Rev$ $Date$ */

 /**
  * Test parallel functions.
  */

 #include <assert.h>
 #include "stream.hpp"
 #include "string.hpp"
 #include "function.hpp"
 #include "list.hpp"
 #include "perf.hpp"
 #include "parallel.hpp"

 namespace tuscany {

 int inci = 0;

 const gc_ptr<int> tlsic() {
     const gc_ptr<int> i = new (gc_new<int>()) int();
     *i = 0;
     return i;
 }
 const perthread_ptr<int> tlsi(tlsic);

 #ifdef WANT_THREADS

 int addi = 0;
 int muxi = 0;

 #endif

 const bool testAtomicPerf() {
     const int count = 100000;
     {
         const blambda l = []() -> const bool {
             inci = inci + 1;
             return true;
         };
         cout << "Non-atomic inc test " << time(l, 1000, count) << " ms" << endl;
         assert(inci == count + 1000);
     }
 #ifdef WANT_THREADS
     {
         const blambda l = []() -> const bool {
             __sync_add_and_fetch(&addi, 1);
             return true;
         };
         cout << "Atomic inc test " << time(l, 1000, count) << " ms" << endl;
         assert(addi == count + 1000);
     }
     {
         pthread_mutex_t mutex;
         pthread_mutex_init(&mutex, NULL);
         const blambda l = [&mutex]() -> const bool {
             pthread_mutex_lock(&mutex);
             muxi = muxi + 1;
             pthread_mutex_unlock(&mutex);
             return true;
         };
         cout << "Locked inc test " << time(l, 1000, count) << " ms" << endl;
         assert(muxi == count + 1000);
         pthread_mutex_destroy(&mutex);
     }
 #endif
     {
         const blambda l = []() -> const bool {
             *tlsi = *tlsi + 1;
             return true;
         };
         cout << "Thread local inc test " << time(l, 1000, count) << " ms" << endl;
         assert(*tlsi == count + 1000);
     }
     return true;
 }

 #ifdef WANT_THREADS

 const int mtsquare(const int x) {
     for(int i = 0; i < 10000000; i++)
         ;
     return x * x;
 }

 const list<future<int> > submitSquares(worker& w, const int max, const int i) {
     if (i == max)
         return list<future<int> >();
     const lambda<const int()> func = curry(lambda<const int(const int)> (mtsquare), i);
     return cons(submit(w, func), submitSquares(w, max, i + 1));
 }

 bool checkSquareResults(const list<future<int> > r, int i) {
     if (isNil(r))
         return true;
     assert(car(r) == i * i);
     checkSquareResults(cdr(r), i + 1);
     return true;
 }

 const gc_ptr<unsigned long> tlsvc() {
     const gc_ptr<unsigned long> i = new (gc_new<unsigned long>()) unsigned long();
     *i = 0l;
     return i;
 }
 const perthread_ptr<unsigned long> tlsv(tlsvc);

 const long int tlsset(gc_ptr<wqueue<bool>> wq, gc_ptr<wqueue<bool>> xq) {
     const unsigned long v = *tlsv;
     *tlsv = threadId();
     enqueue(*xq, true);
     dequeue(*wq);
     return v;
 }

 const bool tlscheck(gc_ptr<wqueue<bool>> wq, gc_ptr<wqueue<bool>> xq) {
     const bool r = *tlsv == threadId();
     enqueue(*xq, true);
     dequeue(*wq);
     return r;
 }

 const bool waitForWorkers(wqueue<bool>& xq, const int n) {
     if (n == 0)
         return true;
     dequeue(xq);
     return waitForWorkers(xq, n - 1);
 }

 const bool unblockWorkers(wqueue<bool>& wq, const int n) {
     if (n == 0)
         return true;
     enqueue(wq, true);
     return unblockWorkers(wq, n - 1);
 }

 const list<future<long int> > submitTLSSets(worker& w, wqueue<bool>& wq, wqueue<bool>& xq, const int max, const int i) {
     if (i == max)
         return list<future<long int> >();
     const lambda<const long int()> func = curry(lambda<const long int(gc_ptr<wqueue<bool>>, gc_ptr<wqueue<bool>>)>(tlsset), (gc_ptr<wqueue<bool>>)&wq, (gc_ptr<wqueue<bool>>)&xq);
     return cons(submit(w, func), submitTLSSets(w, wq, xq, max, i + 1));
 }

 const bool checkTLSSets(const list<future<long int> > s) {
     if (isNil(s))
         return true;
     assert(car(s) == 0);
     return checkTLSSets(cdr(s));
 }

 const list<future<bool> > submitTLSChecks(worker& w, wqueue<bool>& wq, wqueue<bool>& xq, const int max, const int i) {
     if (i == max)
         return list<future<bool> >();
     const blambda func = curry(lambda<const bool(gc_ptr<wqueue<bool>>, gc_ptr<wqueue<bool>>)>(tlscheck), (gc_ptr<wqueue<bool>>)&wq, (gc_ptr<wqueue<bool>>)&xq);
     return cons(submit(w, func), submitTLSChecks(w, wq, xq, max, i + 1));
 }

 const bool checkTLSResults(const list<future<bool> > r) {
     if (isNil(r))
         return true;
     assert(car(r) == true);
     return checkTLSResults(cdr(r));
 }

 const bool testWorker() {
     const int max = 100;
     worker w(max);
     {
         const lambda<const int()> func = curry(lambda<const int(const int)> (mtsquare), 2);
         assert(submit(w, func) == 4);
     }
     {
         const list<future<int> > r(submitSquares(w, max, 0));
         checkSquareResults(r, 0);
     }
     {
         wqueue<bool> wq(max);
         unblockWorkers(wq, max);
         waitForWorkers(wq, max);
         unblockWorkers(wq, max);
         waitForWorkers(wq, max);
     }
     {
         wqueue<bool> wq(max);
         wqueue<bool> xq(max);
         const list<future<long int> > s(submitTLSSets(w, wq, xq, max, 0));
         waitForWorkers(xq, max);
         unblockWorkers(wq, max);
         checkTLSSets(s);
         const list<future<bool> > r(submitTLSChecks(w, wq, xq, max, 0));
         waitForWorkers(xq, max);
         unblockWorkers(wq, max);
         checkTLSResults(r);
     }
     shutdown(w);
     return true;
 }

 #endif

 }

 int main() {
     const tuscany::gc_scoped_pool p;
     tuscany::cout << "Testing..." << tuscany::endl;

     tuscany::testAtomicPerf();
 #ifdef WANT_THREADS
     tuscany::testWorker();
 #else
     tuscany::cout << "Skipped multi-thread tests" << tuscany::endl;
 #endif

     tuscany::cout << "OK" << tuscany::endl;

     return 0;
 }
	/*
	* 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.
	*/

	/* $Rev$ $Date$ */

	/**
	* Test parallel functions.
	*/

	#include <assert.h>
	#include "stream.hpp"
	#include "string.hpp"
	#include "function.hpp"
	#include "list.hpp"
	#include "perf.hpp"
	#include "parallel.hpp"

	namespace tuscany {

	int inci = 0;

	const gc_ptr<int> tlsic() {
	const gc_ptr<int> i = new (gc_new<int>()) int();
	*i = 0;
	return i;
	}
	const perthread_ptr<int> tlsi(tlsic);

	#ifdef WANT_THREADS

	int addi = 0;
	int muxi = 0;

	#endif

	const bool testAtomicPerf() {
	const int count = 100000;
	{
	const blambda l = []() -> const bool {
	inci = inci + 1;
	return true;
	};
	cout << "Non-atomic inc test " << time(l, 1000, count) << " ms" << endl;
	assert(inci == count + 1000);
	}
	#ifdef WANT_THREADS
	{
	const blambda l = []() -> const bool {
	__sync_add_and_fetch(&addi, 1);
	return true;
	};
	cout << "Atomic inc test " << time(l, 1000, count) << " ms" << endl;
	assert(addi == count + 1000);
	}
	{
	pthread_mutex_t mutex;
	pthread_mutex_init(&mutex, NULL);
	const blambda l = [&mutex]() -> const bool {
	pthread_mutex_lock(&mutex);
	muxi = muxi + 1;
	pthread_mutex_unlock(&mutex);
	return true;
	};
	cout << "Locked inc test " << time(l, 1000, count) << " ms" << endl;
	assert(muxi == count + 1000);
	pthread_mutex_destroy(&mutex);
	}
	#endif
	{
	const blambda l = []() -> const bool {
	tlsi = tlsi + 1;
	return true;
	};
	cout << "Thread local inc test " << time(l, 1000, count) << " ms" << endl;
	assert(*tlsi == count + 1000);
	}
	return true;
	}

	#ifdef WANT_THREADS

	const int mtsquare(const int x) {
	for(int i = 0; i < 10000000; i++)
	;
	return x * x;
	}

	const list<future<int> > submitSquares(worker& w, const int max, const int i) {
	if (i == max)
	return list<future<int> >();
	const lambda<const int()> func = curry(lambda<const int(const int)> (mtsquare), i);
	return cons(submit(w, func), submitSquares(w, max, i + 1));
	}

	bool checkSquareResults(const list<future<int> > r, int i) {
	if (isNil(r))
	return true;
	assert(car(r) == i * i);
	checkSquareResults(cdr(r), i + 1);
	return true;
	}

	const gc_ptr<unsigned long> tlsvc() {
	const gc_ptr<unsigned long> i = new (gc_new<unsigned long>()) unsigned long();
	*i = 0l;
	return i;
	}
	const perthread_ptr<unsigned long> tlsv(tlsvc);

	const long int tlsset(gc_ptr<wqueue<bool>> wq, gc_ptr<wqueue<bool>> xq) {
	const unsigned long v = *tlsv;
	*tlsv = threadId();
	enqueue(*xq, true);
	dequeue(*wq);
	return v;
	}

	const bool tlscheck(gc_ptr<wqueue<bool>> wq, gc_ptr<wqueue<bool>> xq) {
	const bool r = *tlsv == threadId();
	enqueue(*xq, true);
	dequeue(*wq);
	return r;
	}

	const bool waitForWorkers(wqueue<bool>& xq, const int n) {
	if (n == 0)
	return true;
	dequeue(xq);
	return waitForWorkers(xq, n - 1);
	}

	const bool unblockWorkers(wqueue<bool>& wq, const int n) {
	if (n == 0)
	return true;
	enqueue(wq, true);
	return unblockWorkers(wq, n - 1);
	}

	const list<future<long int> > submitTLSSets(worker& w, wqueue<bool>& wq, wqueue<bool>& xq, const int max, const int i) {
	if (i == max)
	return list<future<long int> >();
	const lambda<const long int()> func = curry(lambda<const long int(gc_ptr<wqueue<bool>>, gc_ptr<wqueue<bool>>)>(tlsset), (gc_ptr<wqueue<bool>>)&wq, (gc_ptr<wqueue<bool>>)&xq);
	return cons(submit(w, func), submitTLSSets(w, wq, xq, max, i + 1));
	}

	const bool checkTLSSets(const list<future<long int> > s) {
	if (isNil(s))
	return true;
	assert(car(s) == 0);
	return checkTLSSets(cdr(s));
	}

	const list<future<bool> > submitTLSChecks(worker& w, wqueue<bool>& wq, wqueue<bool>& xq, const int max, const int i) {
	if (i == max)
	return list<future<bool> >();
	const blambda func = curry(lambda<const bool(gc_ptr<wqueue<bool>>, gc_ptr<wqueue<bool>>)>(tlscheck), (gc_ptr<wqueue<bool>>)&wq, (gc_ptr<wqueue<bool>>)&xq);
	return cons(submit(w, func), submitTLSChecks(w, wq, xq, max, i + 1));
	}

	const bool checkTLSResults(const list<future<bool> > r) {
	if (isNil(r))
	return true;
	assert(car(r) == true);
	return checkTLSResults(cdr(r));
	}

	const bool testWorker() {
	const int max = 100;
	worker w(max);
	{
	const lambda<const int()> func = curry(lambda<const int(const int)> (mtsquare), 2);
	assert(submit(w, func) == 4);
	}
	{
	const list<future<int> > r(submitSquares(w, max, 0));
	checkSquareResults(r, 0);
	}
	{
	wqueue<bool> wq(max);
	unblockWorkers(wq, max);
	waitForWorkers(wq, max);
	unblockWorkers(wq, max);
	waitForWorkers(wq, max);
	}
	{
	wqueue<bool> wq(max);
	wqueue<bool> xq(max);
	const list<future<long int> > s(submitTLSSets(w, wq, xq, max, 0));
	waitForWorkers(xq, max);
	unblockWorkers(wq, max);
	checkTLSSets(s);
	const list<future<bool> > r(submitTLSChecks(w, wq, xq, max, 0));
	waitForWorkers(xq, max);
	unblockWorkers(wq, max);
	checkTLSResults(r);
	}
	shutdown(w);
	return true;
	}

	#endif

	}

	int main() {
	const tuscany::gc_scoped_pool p;
	tuscany::cout << "Testing..." << tuscany::endl;

	tuscany::testAtomicPerf();
	#ifdef WANT_THREADS
	tuscany::testWorker();
	#else
	tuscany::cout << "Skipped multi-thread tests" << tuscany::endl;
	#endif

	tuscany::cout << "OK" << tuscany::endl;

	return 0;
	}