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shared_mutex.cpp 18.33 KB
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// Copyright (C) 2012 Vicente J. Botet Escriba
//
// Distributed under the Boost Software License, Version 1.0. (See accompanying
// file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
#define BOOST_THREAD_PROVIDES_SHARED_MUTEX_UPWARDS_CONVERSIONS
#define BOOST_THREAD_PROVIDES_EXPLICIT_LOCK_CONVERSION
#define BOOST_THREAD_PROVIDES_GENERIC_SHARED_MUTEX_ON_WIN
#include <iostream>
#include <boost/thread/mutex.hpp>
#include <boost/thread/shared_mutex.hpp>
#include <boost/thread/lock_algorithms.hpp>
#include <boost/thread/thread_only.hpp>
#include <vector>
#if defined BOOST_THREAD_USES_CHRONO
#include <boost/chrono/chrono_io.hpp>
enum {reading, writing};
int state = reading;
#if 1
boost::mutex&
cout_mut()
{
static boost::mutex m;
return m;
}
void
print(const char* tag, unsigned count, char ch)
{
boost::lock_guard<boost::mutex> _(cout_mut());
std::cout << tag << count << ch;
}
#elif 0
boost::recursive_mutex&
cout_mut()
{
static boost::recursive_mutex m;
return m;
}
void print() {}
template <class A0, class ...Args>
void
print(const A0& a0, const Args& ...args)
{
boost::lock_guard<boost::recursive_mutex> _(cout_mut());
std::cout << a0;
print(args...);
}
#else
template <class A0, class A1, class A2>
void
print(const A0&, const A1& a1, const A2&)
{
assert(a1 > 10000);
}
#endif
namespace S
{
boost::shared_mutex mut;
void reader()
{
typedef boost::chrono::steady_clock Clock;
unsigned count = 0;
Clock::time_point until = Clock::now() + boost::chrono::seconds(3);
while (Clock::now() < until)
{
mut.lock_shared();
assert(state == reading);
++count;
mut.unlock_shared();
}
print("reader = ", count, '\n');
}
void writer()
{
typedef boost::chrono::steady_clock Clock;
unsigned count = 0;
Clock::time_point until = Clock::now() + boost::chrono::seconds(3);
while (Clock::now() < until)
{
mut.lock();
state = writing;
assert(state == writing);
state = reading;
++count;
mut.unlock();
}
print("writer = ", count, '\n');
}
void try_reader()
{
typedef boost::chrono::steady_clock Clock;
unsigned count = 0;
Clock::time_point until = Clock::now() + boost::chrono::seconds(3);
while (Clock::now() < until)
{
if (mut.try_lock_shared())
{
assert(state == reading);
++count;
mut.unlock_shared();
}
}
print("try_reader = ", count, '\n');
}
void try_writer()
{
typedef boost::chrono::steady_clock Clock;
unsigned count = 0;
Clock::time_point until = Clock::now() + boost::chrono::seconds(3);
while (Clock::now() < until)
{
if (mut.try_lock())
{
state = writing;
assert(state == writing);
state = reading;
++count;
mut.unlock();
}
}
print("try_writer = ", count, '\n');
}
void try_for_reader()
{
typedef boost::chrono::steady_clock Clock;
unsigned count = 0;
Clock::time_point until = Clock::now() + boost::chrono::seconds(3);
while (Clock::now() < until)
{
if (mut.try_lock_shared_for(boost::chrono::microseconds(5)))
{
assert(state == reading);
++count;
mut.unlock_shared();
}
}
print("try_for_reader = ", count, '\n');
}
void try_for_writer()
{
typedef boost::chrono::steady_clock Clock;
unsigned count = 0;
Clock::time_point until = Clock::now() + boost::chrono::seconds(3);
while (Clock::now() < until)
{
if (mut.try_lock_for(boost::chrono::microseconds(5)))
{
state = writing;
assert(state == writing);
state = reading;
++count;
mut.unlock();
}
}
print("try_for_writer = ", count, '\n');
}
void
test_shared_mutex()
{
std::cout << __FILE__ << "[" <<__LINE__ << "]" << std::endl;
{
boost::thread t1(reader);
boost::thread t2(writer);
boost::thread t3(reader);
t1.join();
t2.join();
t3.join();
}
std::cout << __FILE__ << "[" <<__LINE__ << "]" << std::endl;
{
boost::thread t1(try_reader);
boost::thread t2(try_writer);
boost::thread t3(try_reader);
t1.join();
t2.join();
t3.join();
}
std::cout << __FILE__ << "[" <<__LINE__ << "]" << std::endl;
{
boost::thread t1(try_for_reader);
boost::thread t2(try_for_writer);
boost::thread t3(try_for_reader);
t1.join();
t2.join();
t3.join();
}
std::cout << __FILE__ << "[" <<__LINE__ << "]" << std::endl;
}
}
namespace U
{
boost::upgrade_mutex mut;
void reader()
{
typedef boost::chrono::steady_clock Clock;
unsigned count = 0;
Clock::time_point until = Clock::now() + boost::chrono::seconds(3);
while (Clock::now() < until)
{
mut.lock_shared();
assert(state == reading);
++count;
mut.unlock_shared();
}
print("reader = ", count, '\n');
}
void writer()
{
typedef boost::chrono::steady_clock Clock;
unsigned count = 0;
Clock::time_point until = Clock::now() + boost::chrono::seconds(3);
while (Clock::now() < until)
{
mut.lock();
state = writing;
assert(state == writing);
state = reading;
++count;
mut.unlock();
}
print("writer = ", count, '\n');
}
void try_reader()
{
typedef boost::chrono::steady_clock Clock;
unsigned count = 0;
Clock::time_point until = Clock::now() + boost::chrono::seconds(3);
while (Clock::now() < until)
{
if (mut.try_lock_shared())
{
assert(state == reading);
++count;
mut.unlock_shared();
}
}
print("try_reader = ", count, '\n');
}
void try_writer()
{
typedef boost::chrono::steady_clock Clock;
unsigned count = 0;
Clock::time_point until = Clock::now() + boost::chrono::seconds(3);
while (Clock::now() < until)
{
if (mut.try_lock())
{
state = writing;
assert(state == writing);
state = reading;
++count;
mut.unlock();
}
}
print("try_writer = ", count, '\n');
}
void try_for_reader()
{
typedef boost::chrono::steady_clock Clock;
unsigned count = 0;
Clock::time_point until = Clock::now() + boost::chrono::seconds(3);
while (Clock::now() < until)
{
if (mut.try_lock_shared_for(boost::chrono::microseconds(5)))
{
assert(state == reading);
++count;
mut.unlock_shared();
}
}
print("try_for_reader = ", count, '\n');
}
void try_for_writer()
{
typedef boost::chrono::steady_clock Clock;
unsigned count = 0;
Clock::time_point until = Clock::now() + boost::chrono::seconds(3);
while (Clock::now() < until)
{
if (mut.try_lock_for(boost::chrono::microseconds(5)))
{
state = writing;
assert(state == writing);
state = reading;
++count;
mut.unlock();
}
}
print("try_for_writer = ", count, '\n');
}
void upgradable()
{
typedef boost::chrono::steady_clock Clock;
unsigned count = 0;
Clock::time_point until = Clock::now() + boost::chrono::seconds(3);
while (Clock::now() < until)
{
mut.lock_upgrade();
assert(state == reading);
++count;
mut.unlock_upgrade();
}
print("upgradable = ", count, '\n');
}
void try_upgradable()
{
typedef boost::chrono::steady_clock Clock;
unsigned count = 0;
Clock::time_point until = Clock::now() + boost::chrono::seconds(3);
while (Clock::now() < until)
{
if (mut.try_lock_upgrade())
{
assert(state == reading);
++count;
mut.unlock_upgrade();
}
}
print("try_upgradable = ", count, '\n');
}
void try_for_upgradable()
{
typedef boost::chrono::steady_clock Clock;
unsigned count = 0;
Clock::time_point until = Clock::now() + boost::chrono::seconds(3);
while (Clock::now() < until)
{
if (mut.try_lock_upgrade_for(boost::chrono::microseconds(5)))
{
assert(state == reading);
++count;
mut.unlock_upgrade();
}
}
print("try_for_upgradable = ", count, '\n');
}
void clockwise()
{
typedef boost::chrono::steady_clock Clock;
unsigned count = 0;
Clock::time_point until = Clock::now() + boost::chrono::seconds(3);
while (Clock::now() < until)
{
mut.lock_shared();
assert(state == reading);
if (mut.try_unlock_shared_and_lock())
{
state = writing;
}
else if (mut.try_unlock_shared_and_lock_upgrade())
{
assert(state == reading);
mut.unlock_upgrade_and_lock();
state = writing;
}
else
{
mut.unlock_shared();
continue;
}
assert(state == writing);
state = reading;
mut.unlock_and_lock_upgrade();
assert(state == reading);
mut.unlock_upgrade_and_lock_shared();
assert(state == reading);
mut.unlock_shared();
++count;
}
print("clockwise = ", count, '\n');
}
void counter_clockwise()
{
typedef boost::chrono::steady_clock Clock;
unsigned count = 0;
Clock::time_point until = Clock::now() + boost::chrono::seconds(3);
while (Clock::now() < until)
{
mut.lock_upgrade();
assert(state == reading);
mut.unlock_upgrade_and_lock();
assert(state == reading);
state = writing;
assert(state == writing);
state = reading;
mut.unlock_and_lock_shared();
assert(state == reading);
mut.unlock_shared();
++count;
}
print("counter_clockwise = ", count, '\n');
}
void try_clockwise()
{
typedef boost::chrono::steady_clock Clock;
unsigned count = 0;
Clock::time_point until = Clock::now() + boost::chrono::seconds(3);
while (Clock::now() < until)
{
if (mut.try_lock_shared())
{
assert(state == reading);
if (mut.try_unlock_shared_and_lock())
{
state = writing;
}
else if (mut.try_unlock_shared_and_lock_upgrade())
{
assert(state == reading);
mut.unlock_upgrade_and_lock();
state = writing;
}
else
{
mut.unlock_shared();
continue;
}
assert(state == writing);
state = reading;
mut.unlock_and_lock_upgrade();
assert(state == reading);
mut.unlock_upgrade_and_lock_shared();
assert(state == reading);
mut.unlock_shared();
++count;
}
}
print("try_clockwise = ", count, '\n');
}
void try_for_clockwise()
{
typedef boost::chrono::steady_clock Clock;
unsigned count = 0;
Clock::time_point until = Clock::now() + boost::chrono::seconds(3);
while (Clock::now() < until)
{
if (mut.try_lock_shared_for(boost::chrono::microseconds(5)))
{
assert(state == reading);
if (mut.try_unlock_shared_and_lock_for(boost::chrono::microseconds(5)))
{
state = writing;
}
else if (mut.try_unlock_shared_and_lock_upgrade_for(boost::chrono::microseconds(5)))
{
assert(state == reading);
mut.unlock_upgrade_and_lock();
state = writing;
}
else
{
mut.unlock_shared();
continue;
}
assert(state == writing);
state = reading;
mut.unlock_and_lock_upgrade();
assert(state == reading);
mut.unlock_upgrade_and_lock_shared();
assert(state == reading);
mut.unlock_shared();
++count;
}
}
print("try_for_clockwise = ", count, '\n');
}
void try_counter_clockwise()
{
typedef boost::chrono::steady_clock Clock;
unsigned count = 0;
Clock::time_point until = Clock::now() + boost::chrono::seconds(3);
while (Clock::now() < until)
{
if (mut.try_lock_upgrade())
{
assert(state == reading);
if (mut.try_unlock_upgrade_and_lock())
{
assert(state == reading);
state = writing;
assert(state == writing);
state = reading;
mut.unlock_and_lock_shared();
assert(state == reading);
mut.unlock_shared();
++count;
}
else
{
mut.unlock_upgrade();
}
}
}
print("try_counter_clockwise = ", count, '\n');
}
void try_for_counter_clockwise()
{
typedef boost::chrono::steady_clock Clock;
unsigned count = 0;
Clock::time_point until = Clock::now() + boost::chrono::seconds(3);
while (Clock::now() < until)
{
if (mut.try_lock_upgrade_for(boost::chrono::microseconds(5)))
{
assert(state == reading);
if (mut.try_unlock_upgrade_and_lock_for(boost::chrono::microseconds(5)))
{
assert(state == reading);
state = writing;
assert(state == writing);
state = reading;
mut.unlock_and_lock_shared();
assert(state == reading);
mut.unlock_shared();
++count;
}
else
{
mut.unlock_upgrade();
}
}
}
print("try_for_counter_clockwise = ", count, '\n');
}
void
test_upgrade_mutex()
{
std::cout << __FILE__ << "[" <<__LINE__ << "]" << std::endl;
{
boost::thread t1(reader);
boost::thread t2(writer);
boost::thread t3(reader);
t1.join();
t2.join();
t3.join();
}
std::cout << __FILE__ << "[" <<__LINE__ << "]" << std::endl;
{
boost::thread t1(try_reader);
boost::thread t2(try_writer);
boost::thread t3(try_reader);
t1.join();
t2.join();
t3.join();
}
std::cout << __FILE__ << "[" <<__LINE__ << "]" << std::endl;
{
boost::thread t1(try_for_reader);
boost::thread t2(try_for_writer);
boost::thread t3(try_for_reader);
t1.join();
t2.join();
t3.join();
}
std::cout << __FILE__ << "[" <<__LINE__ << "]" << std::endl;
{
boost::thread t1(reader);
boost::thread t2(writer);
boost::thread t3(upgradable);
t1.join();
t2.join();
t3.join();
}
std::cout << __FILE__ << "[" <<__LINE__ << "]" << std::endl;
{
boost::thread t1(reader);
boost::thread t2(writer);
boost::thread t3(try_upgradable);
t1.join();
t2.join();
t3.join();
}
std::cout << __FILE__ << "[" <<__LINE__ << "]" << std::endl;
{
boost::thread t1(reader);
boost::thread t2(writer);
boost::thread t3(try_for_upgradable);
t1.join();
t2.join();
t3.join();
}
std::cout << __FILE__ << "[" <<__LINE__ << "]" << std::endl;
{
state = reading;
boost::thread t1(clockwise);
boost::thread t2(counter_clockwise);
boost::thread t3(clockwise);
boost::thread t4(counter_clockwise);
t1.join();
t2.join();
t3.join();
t4.join();
}
std::cout << __FILE__ << "[" <<__LINE__ << "]" << std::endl;
{
state = reading;
boost::thread t1(try_clockwise);
boost::thread t2(try_counter_clockwise);
t1.join();
t2.join();
}
std::cout << __FILE__ << "[" <<__LINE__ << "]" << std::endl;
// {
// state = reading;
// boost::thread t1(try_for_clockwise);
// boost::thread t2(try_for_counter_clockwise);
// t1.join();
// t2.join();
// }
// std::cout << __FILE__ << "[" <<__LINE__ << "]" << std::endl;
}
}
namespace Assignment
{
class A
{
typedef boost::upgrade_mutex mutex_type;
typedef boost::shared_lock<mutex_type> SharedLock;
typedef boost::upgrade_lock<mutex_type> UpgradeLock;
typedef boost::unique_lock<mutex_type> Lock;
mutable mutex_type mut_;
std::vector<double> data_;
public:
A(const A& a)
{
SharedLock _(a.mut_);
data_ = a.data_;
}
A& operator=(const A& a)
{
if (this != &a)
{
Lock this_lock(mut_, boost::defer_lock);
SharedLock that_lock(a.mut_, boost::defer_lock);
boost::lock(this_lock, that_lock);
data_ = a.data_;
}
return *this;
}
void swap(A& a)
{
Lock this_lock(mut_, boost::defer_lock);
Lock that_lock(a.mut_, boost::defer_lock);
boost::lock(this_lock, that_lock);
data_.swap(a.data_);
}
void average(A& a)
{
assert(data_.size() == a.data_.size());
assert(this != &a);
Lock this_lock(mut_, boost::defer_lock);
UpgradeLock share_that_lock(a.mut_, boost::defer_lock);
boost::lock(this_lock, share_that_lock);
for (unsigned i = 0; i < data_.size(); ++i)
data_[i] = (data_[i] + a.data_[i]) / 2;
SharedLock share_this_lock(boost::move(this_lock));
Lock that_lock(boost::move(share_that_lock));
a.data_ = data_;
}
};
} // Assignment
void temp()
{
using namespace boost;
static upgrade_mutex mut;
unique_lock<upgrade_mutex> ul(mut);
shared_lock<upgrade_mutex> sl;
sl = BOOST_THREAD_MAKE_RV_REF(shared_lock<upgrade_mutex>(boost::move(ul)));
}
int main()
{
std::cout << __FILE__ << "[" <<__LINE__ << "]" << std::endl;
typedef boost::chrono::high_resolution_clock Clock;
typedef boost::chrono::duration<double> sec;
Clock::time_point t0 = Clock::now();
std::cout << __FILE__ << "[" <<__LINE__ << "]" << std::endl;
S::test_shared_mutex();
std::cout << __FILE__ << "[" <<__LINE__ << "]" << std::endl;
U::test_upgrade_mutex();
std::cout << __FILE__ << "[" <<__LINE__ << "]" << std::endl;
Clock::time_point t1 = Clock::now();
std::cout << sec(t1 - t0) << '\n';
return 0;
}
#else
#error "This platform doesn't support Boost.Chrono"
#endif
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