boost/thread/detail/lock.hpp
// Copyright (C) 2001-2003 // William E. Kempf // // 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) #ifndef BOOST_XLOCK_WEK070601_HPP #define BOOST_XLOCK_WEK070601_HPP #include <boost/thread/detail/config.hpp> #include <boost/utility.hpp> #include <boost/thread/exceptions.hpp> namespace boost { class condition; struct xtime; namespace detail { namespace thread { template <typename Mutex> class lock_ops : private noncopyable { private: lock_ops() { } public: typedef typename Mutex::cv_state lock_state; static void lock(Mutex& m) { m.do_lock(); } static bool trylock(Mutex& m) { return m.do_trylock(); } static bool timedlock(Mutex& m, const xtime& xt) { return m.do_timedlock(xt); } static void unlock(Mutex& m) { m.do_unlock(); } static void lock(Mutex& m, lock_state& state) { m.do_lock(state); } static void unlock(Mutex& m, lock_state& state) { m.do_unlock(state); } }; template <typename Mutex> class scoped_lock : private noncopyable { public: typedef Mutex mutex_type; explicit scoped_lock(Mutex& mx, bool initially_locked=true) : m_mutex(mx), m_locked(false) { if (initially_locked) lock(); } ~scoped_lock() { if (m_locked) unlock(); } void lock() { if (m_locked) throw lock_error(); lock_ops<Mutex>::lock(m_mutex); m_locked = true; } void unlock() { if (!m_locked) throw lock_error(); lock_ops<Mutex>::unlock(m_mutex); m_locked = false; } bool locked() const { return m_locked; } operator const void*() const { return m_locked ? this : 0; } private: friend class boost::condition; Mutex& m_mutex; bool m_locked; }; template <typename TryMutex> class scoped_try_lock : private noncopyable { public: typedef TryMutex mutex_type; explicit scoped_try_lock(TryMutex& mx) : m_mutex(mx), m_locked(false) { try_lock(); } scoped_try_lock(TryMutex& mx, bool initially_locked) : m_mutex(mx), m_locked(false) { if (initially_locked) lock(); } ~scoped_try_lock() { if (m_locked) unlock(); } void lock() { if (m_locked) throw lock_error(); lock_ops<TryMutex>::lock(m_mutex); m_locked = true; } bool try_lock() { if (m_locked) throw lock_error(); return (m_locked = lock_ops<TryMutex>::trylock(m_mutex)); } void unlock() { if (!m_locked) throw lock_error(); lock_ops<TryMutex>::unlock(m_mutex); m_locked = false; } bool locked() const { return m_locked; } operator const void*() const { return m_locked ? this : 0; } private: friend class boost::condition; TryMutex& m_mutex; bool m_locked; }; template <typename TimedMutex> class scoped_timed_lock : private noncopyable { public: typedef TimedMutex mutex_type; scoped_timed_lock(TimedMutex& mx, const xtime& xt) : m_mutex(mx), m_locked(false) { timed_lock(xt); } scoped_timed_lock(TimedMutex& mx, bool initially_locked) : m_mutex(mx), m_locked(false) { if (initially_locked) lock(); } ~scoped_timed_lock() { if (m_locked) unlock(); } void lock() { if (m_locked) throw lock_error(); lock_ops<TimedMutex>::lock(m_mutex); m_locked = true; } bool try_lock() { if (m_locked) throw lock_error(); return (m_locked = lock_ops<TimedMutex>::trylock(m_mutex)); } bool timed_lock(const xtime& xt) { if (m_locked) throw lock_error(); return (m_locked = lock_ops<TimedMutex>::timedlock(m_mutex, xt)); } void unlock() { if (!m_locked) throw lock_error(); lock_ops<TimedMutex>::unlock(m_mutex); m_locked = false; } bool locked() const { return m_locked; } operator const void*() const { return m_locked ? this : 0; } private: friend class boost::condition; TimedMutex& m_mutex; bool m_locked; }; } // namespace thread } // namespace detail } // namespace boost #endif // BOOST_XLOCK_WEK070601_HPP // Change Log: // 8 Feb 01 WEKEMPF Initial version. // 22 May 01 WEKEMPF Modified to use xtime for time outs. // 30 Jul 01 WEKEMPF Moved lock types into boost::detail::thread. Renamed // some types. Added locked() methods.