boost/log/attributes/mutable_constant.hpp
/* * 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 mutable_constant.hpp * \author Andrey Semashev * \date 06.11.2007 * * The header contains implementation of a mutable constant attribute. */ #ifndef BOOST_LOG_ATTRIBUTES_MUTABLE_CONSTANT_HPP_INCLUDED_ #define BOOST_LOG_ATTRIBUTES_MUTABLE_CONSTANT_HPP_INCLUDED_ #include <boost/static_assert.hpp> #include <boost/smart_ptr/intrusive_ptr.hpp> #include <boost/move/core.hpp> #include <boost/move/utility_core.hpp> #include <boost/type_traits/is_void.hpp> #include <boost/type_traits/conditional.hpp> #include <boost/log/detail/config.hpp> #include <boost/log/detail/locks.hpp> #include <boost/log/attributes/attribute.hpp> #include <boost/log/attributes/attribute_cast.hpp> #include <boost/log/attributes/attribute_value_impl.hpp> #include <boost/log/detail/header.hpp> #ifdef BOOST_HAS_PRAGMA_ONCE #pragma once #endif namespace boost { BOOST_LOG_OPEN_NAMESPACE namespace attributes { /*! * \brief A class of an attribute that holds a single constant value with ability to change it * * The mutable_constant attribute stores a single value of type, specified as the first template argument. * This value is returned on each attribute value acquisition. * * The attribute also allows to modify the stored value, even if the attribute is registered in an attribute set. * In order to ensure thread safety of such modifications the \c mutable_constant class is also parametrized * with three additional template arguments: mutex type, scoped write and scoped read lock types. If not specified, * the lock types are automatically deduced based on the mutex type. * * The implementation may avoid using these types to actually create and use the mutex, if a more efficient synchronization method is * available (such as atomic operations on the value type). By default no synchronization is done. */ #ifdef BOOST_LOG_DOXYGEN_PASS template< typename T, typename MutexT = void, typename ScopedWriteLockT = auto, typename ScopedReadLockT = auto > #else // BOOST_LOG_DOXYGEN_PASS template< typename T, typename MutexT = void, typename ScopedWriteLockT = #ifndef BOOST_LOG_NO_THREADS typename boost::conditional< boost::log::aux::is_exclusively_lockable< MutexT >::value, boost::log::aux::exclusive_lock_guard< MutexT >, void >::type, #else void, #endif // BOOST_LOG_NO_THREADS typename ScopedReadLockT = #ifndef BOOST_LOG_NO_THREADS typename boost::conditional< boost::log::aux::is_shared_lockable< MutexT >::value, boost::log::aux::shared_lock_guard< MutexT >, ScopedWriteLockT >::type #else ScopedWriteLockT #endif // BOOST_LOG_NO_THREADS #endif // BOOST_LOG_DOXYGEN_PASS > class mutable_constant : public attribute { public: //! The attribute value type typedef T value_type; protected: //! Factory implementation class BOOST_SYMBOL_VISIBLE impl : public attribute::impl { private: //! Mutex type typedef MutexT mutex_type; //! Shared lock type typedef ScopedReadLockT scoped_read_lock; //! Exclusive lock type typedef ScopedWriteLockT scoped_write_lock; BOOST_STATIC_ASSERT_MSG(!(is_void< mutex_type >::value || is_void< scoped_read_lock >::value || is_void< scoped_write_lock >::value), "Boost.Log: Mutex and both lock types either must not be void or must all be void"); //! Attribute value wrapper typedef attribute_value_impl< value_type > attr_value; private: //! Thread protection mutex mutable mutex_type m_Mutex; //! Pointer to the actual attribute value intrusive_ptr< attr_value > m_Value; public: /*! * Initializing constructor */ explicit impl(value_type const& value) : m_Value(new attr_value(value)) { } /*! * Initializing constructor */ explicit impl(BOOST_RV_REF(value_type) value) : m_Value(new attr_value(boost::move(value))) { } attribute_value get_value() { scoped_read_lock lock(m_Mutex); return attribute_value(m_Value); } void set(value_type const& value) { intrusive_ptr< attr_value > p = new attr_value(value); scoped_write_lock lock(m_Mutex); m_Value.swap(p); } void set(BOOST_RV_REF(value_type) value) { intrusive_ptr< attr_value > p = new attr_value(boost::move(value)); scoped_write_lock lock(m_Mutex); m_Value.swap(p); } value_type get() const { scoped_read_lock lock(m_Mutex); return m_Value->get(); } }; public: /*! * Constructor with the stored value initialization */ explicit mutable_constant(value_type const& value) : attribute(new impl(value)) { } /*! * Constructor with the stored value initialization */ explicit mutable_constant(BOOST_RV_REF(value_type) value) : attribute(new impl(boost::move(value))) { } /*! * Constructor for casting support */ explicit mutable_constant(cast_source const& source) : attribute(source.as< impl >()) { } /*! * The method sets a new attribute value. The implementation exclusively locks the mutex in order * to protect the value assignment. */ void set(value_type const& value) { get_impl()->set(value); } /*! * The method sets a new attribute value. */ void set(BOOST_RV_REF(value_type) value) { get_impl()->set(boost::move(value)); } /*! * The method acquires the current attribute value. The implementation non-exclusively locks the mutex in order * to protect the value acquisition. */ value_type get() const { return get_impl()->get(); } protected: /*! * \returns Pointer to the factory implementation */ impl* get_impl() const { return static_cast< impl* >(attribute::get_impl()); } }; /*! * \brief Specialization for unlocked case * * This version of attribute does not perform thread synchronization to access the stored value. */ template< typename T > class mutable_constant< T, void, void, void > : public attribute { public: //! The attribute value type typedef T value_type; protected: //! Factory implementation class BOOST_SYMBOL_VISIBLE impl : public attribute::impl { private: //! Attribute value wrapper typedef attribute_value_impl< value_type > attr_value; private: //! The actual value intrusive_ptr< attr_value > m_Value; public: /*! * Initializing constructor */ explicit impl(value_type const& value) : m_Value(new attr_value(value)) { } /*! * Initializing constructor */ explicit impl(BOOST_RV_REF(value_type) value) : m_Value(new attr_value(boost::move(value))) { } attribute_value get_value() { return attribute_value(m_Value); } void set(value_type const& value) { m_Value = new attr_value(value); } void set(BOOST_RV_REF(value_type) value) { m_Value = new attr_value(boost::move(value)); } value_type get() const { return m_Value->get(); } }; public: /*! * Constructor with the stored value initialization */ explicit mutable_constant(value_type const& value) : attribute(new impl(value)) { } /*! * Constructor with the stored value initialization */ explicit mutable_constant(BOOST_RV_REF(value_type) value) : attribute(new impl(boost::move(value))) { } /*! * Constructor for casting support */ explicit mutable_constant(cast_source const& source) : attribute(source.as< impl >()) { } /*! * The method sets a new attribute value. */ void set(value_type const& value) { get_impl()->set(value); } /*! * The method sets a new attribute value. */ void set(BOOST_RV_REF(value_type) value) { get_impl()->set(boost::move(value)); } /*! * The method acquires the current attribute value. */ value_type get() const { return get_impl()->get(); } protected: /*! * \returns Pointer to the factory implementation */ impl* get_impl() const { return static_cast< impl* >(attribute::get_impl()); } }; } // namespace attributes BOOST_LOG_CLOSE_NAMESPACE // namespace log } // namespace boost #include <boost/log/detail/footer.hpp> #endif // BOOST_LOG_ATTRIBUTES_MUTABLE_CONSTANT_HPP_INCLUDED_