Rocket.Chat.ReactNative/ios/Pods/boost-for-react-native/boost/log/detail/locks.hpp

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5.1 KiB
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/*
* Copyright Andrey Semashev 2007 - 2015.
* 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)
*/
/*!
* \file locks.hpp
* \author Andrey Semashev
* \date 30.05.2010
*
* \brief This header is the Boost.Log library implementation, see the library documentation
* at http://www.boost.org/doc/libs/release/libs/log/doc/html/index.html.
*/
#ifndef BOOST_LOG_DETAIL_LOCKS_HPP_INCLUDED_
#define BOOST_LOG_DETAIL_LOCKS_HPP_INCLUDED_
#include <boost/log/detail/config.hpp>
#include <boost/log/detail/header.hpp>
#ifdef BOOST_HAS_PRAGMA_ONCE
#pragma once
#endif
namespace boost {
#ifndef BOOST_LOG_NO_THREADS
// Forward declaration of Boost.Thread locks. Specified here to avoid including Boost.Thread,
// which would bring in many dependent headers, including a great deal of Boost.DateTime.
template< typename >
class lock_guard;
template< typename >
class shared_lock_guard;
template< typename >
class shared_lock;
template< typename >
class upgrade_lock;
template< typename >
class unique_lock;
template< typename >
struct is_mutex_type;
#endif // BOOST_LOG_NO_THREADS
BOOST_LOG_OPEN_NAMESPACE
//! An auxiliary pseudo-lock to express no locking requirements in logger features
template< typename MutexT >
class no_lock
{
public:
/*!
* Constructs the pseudo-lock. The mutex is not affected during the construction.
*/
explicit no_lock(MutexT&) {}
private:
no_lock(no_lock const&);
no_lock& operator= (no_lock const&);
};
namespace aux {
#ifndef BOOST_LOG_NO_THREADS
//! A trait to detect if the mutex supports exclusive locking
template< typename MutexT >
struct is_exclusively_lockable
{
typedef char true_type;
struct false_type { char t[2]; };
template< typename T >
static true_type check_lockable(T*, void (T::*)() = &T::lock, void (T::*)() = &T::unlock);
static false_type check_lockable(void*);
enum value_t { value = sizeof(check_lockable((MutexT*)NULL)) == sizeof(true_type) };
};
//! A trait to detect if the mutex supports shared locking
template< typename MutexT >
struct is_shared_lockable
{
typedef char true_type;
struct false_type { char t[2]; };
template< typename T >
static true_type check_shared_lockable(T*, void (T::*)() = &T::lock_shared, void (T::*)() = &T::unlock_shared);
static false_type check_shared_lockable(void*);
enum value_t { value = sizeof(check_shared_lockable((MutexT*)NULL)) == sizeof(true_type) };
};
//! A scope guard that automatically unlocks the mutex on destruction
template< typename MutexT >
struct exclusive_auto_unlocker
{
explicit exclusive_auto_unlocker(MutexT& m) BOOST_NOEXCEPT : m_Mutex(m)
{
}
~exclusive_auto_unlocker()
{
m_Mutex.unlock();
}
BOOST_DELETED_FUNCTION(exclusive_auto_unlocker(exclusive_auto_unlocker const&))
BOOST_DELETED_FUNCTION(exclusive_auto_unlocker& operator= (exclusive_auto_unlocker const&))
protected:
MutexT& m_Mutex;
};
//! An analogue to the minimalistic \c lock_guard template. Defined here to avoid including Boost.Thread.
template< typename MutexT >
struct exclusive_lock_guard
{
explicit exclusive_lock_guard(MutexT& m) : m_Mutex(m)
{
m.lock();
}
~exclusive_lock_guard()
{
m_Mutex.unlock();
}
BOOST_DELETED_FUNCTION(exclusive_lock_guard(exclusive_lock_guard const&))
BOOST_DELETED_FUNCTION(exclusive_lock_guard& operator= (exclusive_lock_guard const&))
private:
MutexT& m_Mutex;
};
//! An analogue to the minimalistic \c lock_guard template that locks \c shared_mutex with shared ownership.
template< typename MutexT >
struct shared_lock_guard
{
explicit shared_lock_guard(MutexT& m) : m_Mutex(m)
{
m.lock_shared();
}
~shared_lock_guard()
{
m_Mutex.unlock_shared();
}
BOOST_DELETED_FUNCTION(shared_lock_guard(shared_lock_guard const&))
BOOST_DELETED_FUNCTION(shared_lock_guard& operator= (shared_lock_guard const&))
private:
MutexT& m_Mutex;
};
//! A deadlock-safe lock type that exclusively locks two mutexes
template< typename MutexT1, typename MutexT2 >
class multiple_unique_lock2
{
public:
multiple_unique_lock2(MutexT1& m1, MutexT2& m2) :
m_p1(&m1),
m_p2(&m2)
{
// Yes, it's not conforming, but it works
// and it doesn't require to #include <functional>
if (static_cast< void* >(m_p1) < static_cast< void* >(m_p2))
{
m_p1->lock();
m_p2->lock();
}
else
{
m_p2->lock();
m_p1->lock();
}
}
~multiple_unique_lock2()
{
m_p2->unlock();
m_p1->unlock();
}
private:
MutexT1* m_p1;
MutexT2* m_p2;
};
#endif // BOOST_LOG_NO_THREADS
} // namespace aux
BOOST_LOG_CLOSE_NAMESPACE // namespace log
} // namespace boost
#include <boost/log/detail/footer.hpp>
#endif // BOOST_LOG_DETAIL_LOCKS_HPP_INCLUDED_