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LUMIERA.clone/tests/basics/call-queue-test.cpp
Ichthyostega 4d783770d0 Bugfix: CallQueue_test initialisation was not threadsafe (see also #1131) 
...which showed up under high system load.
The initialisation of the member variables for the check sum
could be delayed while the corresponding thread was already running
2018-03-26 04:40:54 +02:00

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/*
CallQueue(Test) - verify queue based dispatch of bound function objects
Copyright (C) Lumiera.org
2017, Hermann Vosseler <Ichthyostega@web.de>
This program is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License as
published by the Free Software Foundation; either version 2 of
the License, or (at your option) any later version.
This program 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 General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
* *****************************************************/
/** @file call-queue-test.cpp
** unit test \ref CallQueue_test
*/
#include "lib/test/run.hpp"
#include "lib/scoped-collection.hpp"
#include "backend/thread-wrapper.hpp"
#include "lib/sync.hpp"
#include "lib/util.hpp"
#include "lib/call-queue.hpp"
#include <functional>
#include <string>
namespace lib {
namespace test{
using lib::Sync;
using backend::ThreadJoinable;
using util::isnil;
using std::string;
using std::bind;
namespace { // test fixture
// --------random-stress-test------
uint const NUM_OF_THREADS = 50;
uint const MAX_RAND_INCMT = 200;
uint const MAX_RAND_STEPS = 500;
uint const MAX_RAND_DELAY = 1000;
// --------random-stress-test------
uint calc_sum = 0;
uint ctor_sum = 0;
uint dtor_sum = 0;
template<uint i>
struct Dummy
{
uint val_;
Dummy()
: val_(i)
{
ctor_sum += (val_+1);
}
~Dummy()
{
dtor_sum += val_;
}
int
operator++()
{
return ++val_;
}
};
template<uint i>
void
increment (Dummy<i>&& dummy) //NOTE: dummy is consumed here
{
calc_sum += ++dummy;
}
}//(End) test fixture
/**********************************************************************************//**
* @test verify a helper component for dispatching functors through a threadsafe queue.
* - simple usage
* - enqueue and dequeue several functors
* - multithreaded stress test
*
* @see lib::CallQueue
* @see gui::NotificationService usage example
* @see [DemoGuiRoundtrip](http://issues.lumiera.org/ticket/1099 "Ticket #1099")
*/
class CallQueue_test : public Test
{
virtual void
run (Arg)
{
verify_SimpleUse();
verify_Consistency();
verify_ThreadSafety();
}
void
verify_SimpleUse ()
{
CallQueue queue;
CHECK (isnil (queue));
int val = 2;
queue.feed ([&]() { val = -1; });
CHECK (1 == queue.size());
CHECK (val == 2);
queue.invoke();
CHECK (val == -1);
CHECK (0 == queue.size());
queue.invoke();
CHECK (0 == queue.size());
}
/**
* @test consistency of queue data handling
* - functors of various types can be mixed
* - entries are moved in and out of the queue
* - no copying whatsoever happens
* - each entry gets invoked
* - all entries are invoked in order
* - enqueuing and dequeuing can be interspersed
* - no memory leaks in bound argument data
*/
void
verify_Consistency ()
{
calc_sum = 0;
ctor_sum = 0;
dtor_sum = 0;
CallQueue queue;
queue.feed ([]() { increment(Dummy<0>{}); }); //NOTE: each lambda binds a different instantiation of the increment template
queue.feed ([]() { increment(Dummy<1>{}); }); // and each invocation closes over an anonymous rvalue instance
queue.feed ([]() { increment(Dummy<2>{}); });
queue.invoke();
queue.invoke();
queue.feed ([]() { increment(Dummy<3>{}); });
queue.feed ([]() { increment(Dummy<4>{}); });
queue.invoke();
queue.invoke();
queue.invoke();
uint expected = (5+1)*5/2;
CHECK (calc_sum = expected);
CHECK (ctor_sum = expected);
CHECK (dtor_sum = expected);
}
struct Worker
: ThreadJoinable
, Sync<>
{
uint64_t producerSum = 0;
uint64_t consumerSum = 0;
void
countConsumerCall (uint increment)
{
Lock sync(this); // NOTE: will be invoked from some random other thread
consumerSum += increment;
}
Worker(CallQueue& queue)
: ThreadJoinable{"CallQueue_test: concurrent dispatch"
, [&]() {
uint cnt = rand() % MAX_RAND_STEPS;
uint delay = rand() % MAX_RAND_DELAY;
syncPoint(); // block until all threads are ready
for (uint i=0; i<cnt; ++i)
{
uint increment = rand() % MAX_RAND_INCMT;
queue.feed ([=]() { countConsumerCall(increment); });
producerSum += increment;
usleep (delay);
queue.invoke(); // NOTE: dequeue one functor added during our sleep
} // and thus belonging to some random other thread
}}
{ }
};
using Workers = lib::ScopedCollection<Worker>;
/**
* @test torture the CallQueue by massively multithreaded dispatch
* - start #NUM_OF_THREADS (e.g. 50) threads in parallel
* - each of those has a randomised execution pattern to
* add new functors and dispatch other thread's functors
*/
void
verify_ThreadSafety()
{
CallQueue queue;
// Start a bunch of threads with random access pattern
Workers workers{NUM_OF_THREADS,
[&](Workers::ElementHolder& storage)
{
storage.create<Worker>(queue);
}
};
// unleash all worker functions
for (auto& thread : workers)
thread.sync();
// wait for termination of all threads
for (auto& worker : workers)
worker.join();
// collect the results of all worker threads
uint64_t globalProducerSum = 0;
uint64_t globalConsumerSum = 0;
for (auto& worker : workers)
{
globalProducerSum += worker.producerSum;
globalConsumerSum += worker.consumerSum;
}
// VERIFY: locally recorded partial sums match total sum
CHECK (globalProducerSum == globalConsumerSum);
}
};
/** Register this test class... */
LAUNCHER (CallQueue_test, "unit common");
}} // namespace lib::test
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