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//===- llvm/Support/Mutex.h - Mutex Operating System Concept -----*- C++ -*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // This file declares the llvm::sys::Mutex class. // //===----------------------------------------------------------------------===// #ifndef LLVM_SYSTEM_MUTEX_H #define LLVM_SYSTEM_MUTEX_H #include "llvm/Support/Threading.h" #include <cassert> namespace llvm { namespace sys { /// @brief Platform agnostic Mutex class. class MutexImpl { /// @name Constructors /// @{ public: /// Initializes the lock but doesn't acquire it. if \p recursive is set /// to false, the lock will not be recursive which makes it cheaper but /// also more likely to deadlock (same thread can't acquire more than /// once). /// @brief Default Constructor. explicit MutexImpl(bool recursive = true); /// Releases and removes the lock /// @brief Destructor ~MutexImpl(); /// @} /// @name Methods /// @{ public: /// Attempts to unconditionally acquire the lock. If the lock is held by /// another thread, this method will wait until it can acquire the lock. /// @returns false if any kind of error occurs, true otherwise. /// @brief Unconditionally acquire the lock. bool acquire(); /// Attempts to release the lock. If the lock is held by the current /// thread, the lock is released allowing other threads to acquire the /// lock. /// @returns false if any kind of error occurs, true otherwise. /// @brief Unconditionally release the lock. bool release(); /// Attempts to acquire the lock without blocking. If the lock is not /// available, this function returns false quickly (without blocking). If /// the lock is available, it is acquired. /// @returns false if any kind of error occurs or the lock is not /// available, true otherwise. /// @brief Try to acquire the lock. bool tryacquire(); //@} /// @name Platform Dependent Data /// @{ private: void* data_; ///< We don't know what the data will be /// @} /// @name Do Not Implement /// @{ private: MutexImpl(const MutexImpl & original); void operator=(const MutexImpl &); /// @} }; /// SmartMutex - A mutex with a compile time constant parameter that /// indicates whether this mutex should become a no-op when we're not /// running in multithreaded mode. template<bool mt_only> class SmartMutex : public MutexImpl { unsigned acquired; bool recursive; public: explicit SmartMutex(bool rec = true) : MutexImpl(rec), acquired(0), recursive(rec) { } bool acquire() { if (!mt_only || llvm_is_multithreaded()) { return MutexImpl::acquire(); } else { // Single-threaded debugging code. This would be racy in // multithreaded mode, but provides not sanity checks in single // threaded mode. assert((recursive || acquired == 0) && "Lock already acquired!!"); ++acquired; return true; } } bool release() { if (!mt_only || llvm_is_multithreaded()) { return MutexImpl::release(); } else { // Single-threaded debugging code. This would be racy in // multithreaded mode, but provides not sanity checks in single // threaded mode. assert(((recursive && acquired) || (acquired == 1)) && "Lock not acquired before release!"); --acquired; return true; } } bool tryacquire() { if (!mt_only || llvm_is_multithreaded()) return MutexImpl::tryacquire(); else return true; } private: SmartMutex(const SmartMutex<mt_only> & original); void operator=(const SmartMutex<mt_only> &); }; /// Mutex - A standard, always enforced mutex. typedef SmartMutex<false> Mutex; template<bool mt_only> class SmartScopedLock { SmartMutex<mt_only>& mtx; public: SmartScopedLock(SmartMutex<mt_only>& m) : mtx(m) { mtx.acquire(); } ~SmartScopedLock() { mtx.release(); } }; typedef SmartScopedLock<false> ScopedLock; } } #endif