#ifndef THREADS_H_ #define THREADS_H_ //////////////////////////////////////////////////////////////////////////////// // macro DEFAULT_THREADING // Selects the default threading model for certain components of Loki // If you don't define it, it defaults to single-threaded // All classes in Loki have configurable threading model; DEFAULT_THREADING // affects only default template arguments //////////////////////////////////////////////////////////////////////////////// // Last update: Feb 20, 2003 // note: In this VC 6 port all template policies become non-templates with // either member-template functions or a nested template struct named In // Changed wrong ctor/dtor names in ObjectLevelLockable. // Thanks to Adi Shavit for pointing that out #ifndef DEFAULT_THREADING #define DEFAULT_THREADING /**/ ::Loki::SingleThreaded #endif namespace Loki { //////////////////////////////////////////////////////////////////////////////// // class template SingleThreaded // Implementation of the ThreadingModel policy used by various classes // Implements a single-threaded model; no synchronization //////////////////////////////////////////////////////////////////////////////// class SingleThreaded { public: template struct In { struct Lock { Lock() {} explicit Lock(const SingleThreaded&) {} }; typedef Host VolatileType; typedef int IntType; static IntType AtomicAdd(volatile IntType& lval, IntType val) { return lval += val; } static IntType AtomicSubtract(volatile IntType& lval, IntType val) { return lval -= val; } static IntType AtomicMultiply(volatile IntType& lval, IntType val) { return lval *= val; } static IntType AtomicDivide(volatile IntType& lval, IntType val) { return lval /= val; } static IntType AtomicIncrement(volatile IntType& lval) { return ++lval; } static IntType AtomicDecrement(volatile IntType& lval) { return --lval; } // The following function uses the undefined variable val. // Moreover I couldn't find the function in the orginial loki-lib. // I therefore commented the function out /* static IntType AtomicDivide(volatile IntType& lval) { return lval /= val; } */ static void AtomicAssign(volatile IntType & lval, IntType val) { lval = val; } static void AtomicAssign(IntType & lval, volatile IntType & val) { lval = val; } }; }; #ifdef _WINDOWS_ //////////////////////////////////////////////////////////////////////////////// // class template ObjectLevelLockable // Implementation of the ThreadingModel policy used by various classes // Implements a object-level locking scheme //////////////////////////////////////////////////////////////////////////////// struct ObjectLevelLockable { template struct In { private: CRITICAL_SECTION mtx_; public: In() { ::InitializeCriticalSection(&mtx_); } ~In() { ::DeleteCriticalSection(&mtx_); } class Lock; friend class Lock; class Lock { ObjectLevelLockable::In& host_; Lock(const Lock&); Lock& operator=(const Lock&); //Lock(); // buggy design public: explicit Lock(ObjectLevelLockable::In& host) : host_(host) { ::EnterCriticalSection(&host_.mtx_); } ~Lock() { ::LeaveCriticalSection(&host_.mtx_); } }; typedef volatile Host VolatileType; typedef LONG IntType; static IntType AtomicIncrement(volatile IntType& lval) { return InterlockedIncrement(&const_cast(lval)); } static IntType AtomicDecrement(volatile IntType& lval) { return InterlockedDecrement(&const_cast(lval)); } static void AtomicAssign(volatile IntType& lval, IntType val) { InterlockedExchange(&const_cast(lval), val); } static void AtomicAssign(IntType& lval, volatile IntType& val) { InterlockedExchange(&lval, val); } }; }; struct ClassLevelLockable { template struct In { public: struct Initializer; friend struct Initializer; struct Initializer { CRITICAL_SECTION mtx_; Initializer() { ::InitializeCriticalSection(&mtx_); } ~Initializer() { ::DeleteCriticalSection(&mtx_); } }; static Initializer initializer_; public: class Lock; friend class Lock; class Lock { Lock(const Lock&); Lock& operator=(const Lock&); public: Lock() { ::EnterCriticalSection(&initializer_.mtx_); } explicit Lock(ClassLevelLockable&) { ::EnterCriticalSection(&initializer_.mtx_); } ~Lock() { ::LeaveCriticalSection(&initializer_.mtx_); } }; typedef volatile Host VolatileType; typedef LONG IntType; static IntType AtomicIncrement(volatile IntType& lval) { return InterlockedIncrement(&const_cast(lval)); } static IntType AtomicDecrement(volatile IntType& lval) { return InterlockedDecrement(&const_cast(lval)); } static void AtomicAssign(volatile IntType& lval, IntType val) { InterlockedExchange(&const_cast(lval), val); } static void AtomicAssign(IntType& lval, volatile IntType& val) { InterlockedExchange(&lval, val); } }; }; template typename ClassLevelLockable::template In::Initializer ClassLevelLockable::template In::initializer_; #endif } //////////////////////////////////////////////////////////////////////////////// // Change log: // June 20, 2001: ported by Nick Thurn to gcc 2.95.3. Kudos, Nick!!! // Oct 06, 2002: ported by Benjamin Kaufmann to MSVC 6.0 // Feb 20, 2003: corrected constructor parameter in ObjectLevelLockable::Lock //////////////////////////////////////////////////////////////////////////////// #endif