/* -*- C++ -*- */ //============================================================================= /** * @file Atomic_Op_T.h * * $Id$ * * @author Douglas C. Schmidt */ //============================================================================= #ifndef ACE_ATOMIC_OP_T_H #define ACE_ATOMIC_OP_T_H #include /**/ "ace/pre.h" #include "ace/config-all.h" #if !defined (ACE_LACKS_PRAGMA_ONCE) # pragma once #endif /* ACE_LACKS_PRAGMA_ONCE */ /** * @class ACE_Atomic_Op_Ex * * @brief Transparently parameterizes synchronization into basic * arithmetic operations. * * This class is described in an article in the July/August 1994 * issue of the C++ Report magazine. It implements a * templatized version of the Decorator pattern from the GoF book. * * ACE_Atomic_Op_Ex objects must be constructed with a reference * to an existing lock. A single lock can be shared between * multiple ACE_Atomic_Op_Ex objects. If you do not require this * ability consider using the ACE_Atomic_Op class instead, which * may be able to take advantage of platform-specific * optimisations to provide atomic operations without requiring a * lock. */ template class ACE_Atomic_Op_Ex { public: // = Initialization methods. /// Initialize to 0. ACE_Atomic_Op_Ex (ACE_LOCK &mtx); /// Initialize to c. ACE_Atomic_Op_Ex (ACE_LOCK &mtx, const TYPE &c); // = Accessors. /// Atomically pre-increment . TYPE operator++ (void); /// Atomically post-increment . TYPE operator++ (int); /// Atomically increment by rhs. TYPE operator+= (const TYPE &rhs); /// Atomically pre-decrement . TYPE operator-- (void); /// Atomically post-decrement . TYPE operator-- (int); /// Atomically decrement by rhs. TYPE operator-= (const TYPE &rhs); /// Atomically compare with rhs. bool operator== (const TYPE &rhs) const; /// Atomically compare with rhs. bool operator!= (const TYPE &rhs) const; /// Atomically check if greater than or equal to rhs. bool operator>= (const TYPE &rhs) const; /// Atomically check if greater than rhs. bool operator> (const TYPE &rhs) const; /// Atomically check if less than or equal to rhs. bool operator<= (const TYPE &rhs) const; /// Atomically check if less than rhs. bool operator< (const TYPE &rhs) const; /// Atomically assign rhs to . ACE_Atomic_Op_Ex &operator= (const TYPE &rhs); /// Atomically assign to . ACE_Atomic_Op_Ex &operator= (const ACE_Atomic_Op_Ex &rhs); /// Explicitly return . TYPE value (void) const; /// Dump the state of an object. void dump (void) const; // ACE_ALLOC_HOOK_DECLARE; // Declare the dynamic allocation hooks. /// Manage copying... ACE_Atomic_Op_Ex (const ACE_Atomic_Op_Ex &); /** * Returns a reference to the underlying . This makes it * possible to acquire the lock explicitly, which can be useful in * some cases if you instantiate the with an * or . NOTE: the right * name would be lock_, but HP/C++ will choke on that! */ ACE_LOCK &mutex (void); /** * Explicitly return (by reference). This gives the user * full, unrestricted access to the underlying value. This method * will usually be used in conjunction with explicit access to the * lock. Use with care ;-) */ TYPE &value_i (void); private: /// Type of synchronization mechanism. ACE_LOCK &mutex_; /// Current object decorated by the atomic op. TYPE value_; }; /** * @class ACE_Atomic_Op * * @brief Transparently parameterizes synchronization into basic * arithmetic operations. * * This class is described in an article in the July/August 1994 * issue of the C++ Report magazine. It implements a * templatized version of the Decorator pattern from the GoF book. * * Certain platforms may provide a template specialization for * ACE_Atomic_Op that provides optimized * atomic integer operations without actually requiring a mutex. */ template class ACE_Atomic_Op { public: /// Initialize to 0. ACE_Atomic_Op (void); /// Initialize to c. ACE_Atomic_Op (const TYPE &c); /// Manage copying... ACE_Atomic_Op (const ACE_Atomic_Op &c); /// Atomically assign rhs to . ACE_Atomic_Op &operator= (const TYPE &rhs); /// Atomically assign to . ACE_Atomic_Op &operator= (const ACE_Atomic_Op &rhs); /// Atomically pre-increment . TYPE operator++ (void); /// Atomically post-increment . TYPE operator++ (int); /// Atomically increment by rhs. TYPE operator+= (const TYPE &rhs); /// Atomically pre-decrement . TYPE operator-- (void); /// Atomically post-decrement . TYPE operator-- (int); /// Atomically decrement by rhs. TYPE operator-= (const TYPE &rhs); /// Atomically compare with rhs. bool operator== (const TYPE &rhs) const; /// Atomically compare with rhs. bool operator!= (const TYPE &rhs) const; /// Atomically check if greater than or equal to rhs. bool operator>= (const TYPE &rhs) const; /// Atomically check if greater than rhs. bool operator> (const TYPE &rhs) const; /// Atomically check if less than or equal to rhs. bool operator<= (const TYPE &rhs) const; /// Atomically check if less than rhs. bool operator< (const TYPE &rhs) const; /// Explicitly return . TYPE value (void) const; /// Dump the state of an object. void dump (void) const; /** * Returns a reference to the underlying . This makes it * possible to acquire the lock explicitly, which can be useful in * some cases if you instantiate the with an * or . * * @deprecated This member function is deprecated and so may go away in * the future. If you need access to the underlying mutex, consider * using the ACE_Atomic_Op_Ex template instead. */ ACE_LOCK &mutex (void); /** * Explicitly return (by reference). This gives the user * full, unrestricted access to the underlying value. This method * will usually be used in conjunction with explicit access to the * lock. Use with care ;-) */ TYPE &value_i (void); private: /// Type of synchronization mechanism. ACE_LOCK own_mutex_; /// Underlying atomic op implementation. ACE_Atomic_Op_Ex impl_; }; #if defined (__ACE_INLINE__) #include "ace/Atomic_Op_T.inl" #endif /* __ACE_INLINE__ */ #if defined (ACE_TEMPLATES_REQUIRE_SOURCE) #include "ace/Atomic_Op_T.cpp" #endif /* ACE_TEMPLATES_REQUIRE_SOURCE */ #if defined (ACE_TEMPLATES_REQUIRE_PRAGMA) #pragma implementation ("Atomic_Op_T.cpp") #endif /* ACE_TEMPLATES_REQUIRE_PRAGMA */ #include /**/ "ace/post.h" #endif /*ACE_ATOMIC_OP_T_H*/