/* Copyright 2005-2016 Intel Corporation. All Rights Reserved. This file is part of Threading Building Blocks. Threading Building Blocks is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License version 2 as published by the Free Software Foundation. Threading Building Blocks 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 Threading Building Blocks; if not, write to the Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA As a special exception, you may use this file as part of a free software library without restriction. Specifically, if other files instantiate templates or use macros or inline functions from this file, or you compile this file and link it with other files to produce an executable, this file does not by itself cause the resulting executable to be covered by the GNU General Public License. This exception does not however invalidate any other reasons why the executable file might be covered by the GNU General Public License. */ #ifndef __TBB_mutex_H #define __TBB_mutex_H #if _WIN32||_WIN64 #include "machine/windows_api.h" #else #include #endif /* _WIN32||_WIN64 */ #include #include "aligned_space.h" #include "tbb_stddef.h" #include "tbb_profiling.h" namespace tbb { //! Wrapper around the platform's native reader-writer lock. /** For testing purposes only. @ingroup synchronization */ class mutex : internal::mutex_copy_deprecated_and_disabled { public: //! Construct unacquired mutex. mutex() { #if TBB_USE_ASSERT || TBB_USE_THREADING_TOOLS internal_construct(); #else #if _WIN32||_WIN64 InitializeCriticalSectionEx(&impl, 4000, 0); #else int error_code = pthread_mutex_init(&impl,NULL); if( error_code ) tbb::internal::handle_perror(error_code,"mutex: pthread_mutex_init failed"); #endif /* _WIN32||_WIN64*/ #endif /* TBB_USE_ASSERT */ }; ~mutex() { #if TBB_USE_ASSERT internal_destroy(); #else #if _WIN32||_WIN64 DeleteCriticalSection(&impl); #else pthread_mutex_destroy(&impl); #endif /* _WIN32||_WIN64 */ #endif /* TBB_USE_ASSERT */ }; class scoped_lock; friend class scoped_lock; //! The scoped locking pattern /** It helps to avoid the common problem of forgetting to release lock. It also nicely provides the "node" for queuing locks. */ class scoped_lock : internal::no_copy { public: //! Construct lock that has not acquired a mutex. scoped_lock() : my_mutex(NULL) {}; //! Acquire lock on given mutex. scoped_lock( mutex& mutex ) { acquire( mutex ); } //! Release lock (if lock is held). ~scoped_lock() { if( my_mutex ) release(); } //! Acquire lock on given mutex. void acquire( mutex& mutex ) { #if TBB_USE_ASSERT internal_acquire(mutex); #else mutex.lock(); my_mutex = &mutex; #endif /* TBB_USE_ASSERT */ } //! Try acquire lock on given mutex. bool try_acquire( mutex& mutex ) { #if TBB_USE_ASSERT return internal_try_acquire (mutex); #else bool result = mutex.try_lock(); if( result ) my_mutex = &mutex; return result; #endif /* TBB_USE_ASSERT */ } //! Release lock void release() { #if TBB_USE_ASSERT internal_release (); #else my_mutex->unlock(); my_mutex = NULL; #endif /* TBB_USE_ASSERT */ } private: //! The pointer to the current mutex to work mutex* my_mutex; //! All checks from acquire using mutex.state were moved here void __TBB_EXPORTED_METHOD internal_acquire( mutex& m ); //! All checks from try_acquire using mutex.state were moved here bool __TBB_EXPORTED_METHOD internal_try_acquire( mutex& m ); //! All checks from release using mutex.state were moved here void __TBB_EXPORTED_METHOD internal_release(); friend class mutex; }; // Mutex traits static const bool is_rw_mutex = false; static const bool is_recursive_mutex = false; static const bool is_fair_mutex = false; // ISO C++0x compatibility methods //! Acquire lock void lock() { #if TBB_USE_ASSERT aligned_space tmp; new(tmp.begin()) scoped_lock(*this); #else #if _WIN32||_WIN64 EnterCriticalSection(&impl); #else int error_code = pthread_mutex_lock(&impl); if( error_code ) tbb::internal::handle_perror(error_code,"mutex: pthread_mutex_lock failed"); #endif /* _WIN32||_WIN64 */ #endif /* TBB_USE_ASSERT */ } //! Try acquiring lock (non-blocking) /** Return true if lock acquired; false otherwise. */ bool try_lock() { #if TBB_USE_ASSERT aligned_space tmp; scoped_lock& s = *tmp.begin(); s.my_mutex = NULL; return s.internal_try_acquire(*this); #else #if _WIN32||_WIN64 return TryEnterCriticalSection(&impl)!=0; #else return pthread_mutex_trylock(&impl)==0; #endif /* _WIN32||_WIN64 */ #endif /* TBB_USE_ASSERT */ } //! Release lock void unlock() { #if TBB_USE_ASSERT aligned_space tmp; scoped_lock& s = *tmp.begin(); s.my_mutex = this; s.internal_release(); #else #if _WIN32||_WIN64 LeaveCriticalSection(&impl); #else pthread_mutex_unlock(&impl); #endif /* _WIN32||_WIN64 */ #endif /* TBB_USE_ASSERT */ } //! Return native_handle #if _WIN32||_WIN64 typedef LPCRITICAL_SECTION native_handle_type; #else typedef pthread_mutex_t* native_handle_type; #endif native_handle_type native_handle() { return (native_handle_type) &impl; } enum state_t { INITIALIZED=0x1234, DESTROYED=0x789A, HELD=0x56CD }; private: #if _WIN32||_WIN64 CRITICAL_SECTION impl; enum state_t state; #else pthread_mutex_t impl; #endif /* _WIN32||_WIN64 */ //! All checks from mutex constructor using mutex.state were moved here void __TBB_EXPORTED_METHOD internal_construct(); //! All checks from mutex destructor using mutex.state were moved here void __TBB_EXPORTED_METHOD internal_destroy(); #if _WIN32||_WIN64 public: //! Set the internal state void set_state( state_t to ) { state = to; } #endif }; __TBB_DEFINE_PROFILING_SET_NAME(mutex) } // namespace tbb #endif /* __TBB_mutex_H */