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492 lines
15 KiB
C++
492 lines
15 KiB
C++
/**
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* @file mingw.mutex.h
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* @brief std::mutex et al implementation for MinGW
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** (c) 2013-2016 by Mega Limited, Auckland, New Zealand
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* @author Alexander Vassilev
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*
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* @copyright Simplified (2-clause) BSD License.
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* You should have received a copy of the license along with this
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* program.
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*
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* This code is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
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* @note
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* This file may become part of the mingw-w64 runtime package. If/when this happens,
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* the appropriate license will be added, i.e. this code will become dual-licensed,
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* and the current BSD 2-clause license will stay.
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*/
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#ifndef WIN32STDMUTEX_H
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#define WIN32STDMUTEX_H
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#if !defined(__cplusplus) || (__cplusplus < 201103L)
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#error A C++11 compiler is required!
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#endif
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// Recursion checks on non-recursive locks have some performance penalty, and
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// the C++ standard does not mandate them. The user might want to explicitly
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// enable or disable such checks. If the user has no preference, enable such
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// checks in debug builds, but not in release builds.
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#ifdef STDMUTEX_RECURSION_CHECKS
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#elif defined(NDEBUG)
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#define STDMUTEX_RECURSION_CHECKS 0
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#else
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#define STDMUTEX_RECURSION_CHECKS 1
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#endif
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#include <chrono>
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#include <system_error>
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#include <atomic>
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#include <mutex> //need for call_once()
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#if STDMUTEX_RECURSION_CHECKS || !defined(NDEBUG)
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#include <cstdio>
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#endif
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#include <sdkddkver.h> // Detect Windows version.
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#if (defined(__MINGW32__) && !defined(__MINGW64_VERSION_MAJOR))
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#pragma message "The Windows API that MinGW-w32 provides is not fully compatible\
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with Microsoft's API. We'll try to work around this, but we can make no\
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guarantees. This problem does not exist in MinGW-w64."
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#include <windows.h> // No further granularity can be expected.
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#else
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#if STDMUTEX_RECURSION_CHECKS
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#include <processthreadsapi.h> // For GetCurrentThreadId
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#endif
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#include <synchapi.h> // For InitializeCriticalSection, etc.
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#include <errhandlingapi.h> // For GetLastError
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#include <handleapi.h>
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#endif
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// Need for the implementation of invoke
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#include "mingw.invoke.h"
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#if !defined(_WIN32_WINNT) || (_WIN32_WINNT < 0x0501)
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#error To use the MinGW-std-threads library, you will need to define the macro _WIN32_WINNT to be 0x0501 (Windows XP) or higher.
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#endif
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namespace mingw_stdthread
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{
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// The _NonRecursive class has mechanisms that do not play nice with direct
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// manipulation of the native handle. This forward declaration is part of
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// a friend class declaration.
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#if STDMUTEX_RECURSION_CHECKS
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namespace vista
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{
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class condition_variable;
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}
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#endif
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// To make this namespace equivalent to the thread-related subset of std,
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// pull in the classes and class templates supplied by std but not by this
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// implementation.
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using std::lock_guard;
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using std::unique_lock;
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using std::adopt_lock_t;
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using std::defer_lock_t;
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using std::try_to_lock_t;
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using std::adopt_lock;
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using std::defer_lock;
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using std::try_to_lock;
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class recursive_mutex
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{
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CRITICAL_SECTION mHandle;
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public:
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typedef LPCRITICAL_SECTION native_handle_type;
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native_handle_type native_handle() {return &mHandle;}
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recursive_mutex() noexcept : mHandle()
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{
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InitializeCriticalSection(&mHandle);
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}
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recursive_mutex (const recursive_mutex&) = delete;
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recursive_mutex& operator=(const recursive_mutex&) = delete;
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~recursive_mutex() noexcept
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{
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DeleteCriticalSection(&mHandle);
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}
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void lock()
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{
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EnterCriticalSection(&mHandle);
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}
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void unlock()
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{
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LeaveCriticalSection(&mHandle);
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}
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bool try_lock()
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{
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return (TryEnterCriticalSection(&mHandle)!=0);
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}
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};
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#if STDMUTEX_RECURSION_CHECKS
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struct _OwnerThread
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{
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// If this is to be read before locking, then the owner-thread variable must
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// be atomic to prevent a torn read from spuriously causing errors.
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std::atomic<DWORD> mOwnerThread;
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constexpr _OwnerThread () noexcept : mOwnerThread(0) {}
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static void on_deadlock (void)
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{
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using namespace std;
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fprintf(stderr, "FATAL: Recursive locking of non-recursive mutex\
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detected. Throwing system exception\n");
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fflush(stderr);
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throw system_error(make_error_code(errc::resource_deadlock_would_occur));
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}
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DWORD checkOwnerBeforeLock() const
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{
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DWORD self = GetCurrentThreadId();
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if (mOwnerThread.load(std::memory_order_relaxed) == self)
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on_deadlock();
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return self;
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}
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void setOwnerAfterLock(DWORD id)
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{
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mOwnerThread.store(id, std::memory_order_relaxed);
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}
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void checkSetOwnerBeforeUnlock()
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{
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DWORD self = GetCurrentThreadId();
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if (mOwnerThread.load(std::memory_order_relaxed) != self)
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on_deadlock();
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mOwnerThread.store(0, std::memory_order_relaxed);
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}
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};
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#endif
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// Though the Slim Reader-Writer (SRW) locks used here are not complete until
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// Windows 7, implementing partial functionality in Vista will simplify the
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// interaction with condition variables.
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#if defined(_WIN32) && (WINVER >= _WIN32_WINNT_VISTA)
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namespace windows7
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{
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class mutex
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{
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SRWLOCK mHandle;
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// Track locking thread for error checking.
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#if STDMUTEX_RECURSION_CHECKS
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friend class vista::condition_variable;
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_OwnerThread mOwnerThread {};
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#endif
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public:
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typedef PSRWLOCK native_handle_type;
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#pragma GCC diagnostic push
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#pragma GCC diagnostic ignored "-Wzero-as-null-pointer-constant"
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constexpr mutex () noexcept : mHandle(SRWLOCK_INIT) { }
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#pragma GCC diagnostic pop
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mutex (const mutex&) = delete;
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mutex & operator= (const mutex&) = delete;
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void lock (void)
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{
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// Note: Undefined behavior if called recursively.
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#if STDMUTEX_RECURSION_CHECKS
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DWORD self = mOwnerThread.checkOwnerBeforeLock();
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#endif
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AcquireSRWLockExclusive(&mHandle);
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#if STDMUTEX_RECURSION_CHECKS
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mOwnerThread.setOwnerAfterLock(self);
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#endif
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}
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void unlock (void)
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{
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#if STDMUTEX_RECURSION_CHECKS
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mOwnerThread.checkSetOwnerBeforeUnlock();
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#endif
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ReleaseSRWLockExclusive(&mHandle);
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}
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// TryAcquireSRW functions are a Windows 7 feature.
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#if (WINVER >= _WIN32_WINNT_WIN7)
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bool try_lock (void)
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{
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#if STDMUTEX_RECURSION_CHECKS
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DWORD self = mOwnerThread.checkOwnerBeforeLock();
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#endif
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BOOL ret = TryAcquireSRWLockExclusive(&mHandle);
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#if STDMUTEX_RECURSION_CHECKS
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if (ret)
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mOwnerThread.setOwnerAfterLock(self);
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#endif
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return ret;
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}
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#endif
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native_handle_type native_handle (void)
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{
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return &mHandle;
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}
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};
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} // Namespace windows7
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#endif // Compiling for Vista
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namespace xp
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{
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class mutex
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{
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CRITICAL_SECTION mHandle;
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std::atomic_uchar mState;
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// Track locking thread for error checking.
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#if STDMUTEX_RECURSION_CHECKS
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friend class vista::condition_variable;
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_OwnerThread mOwnerThread {};
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#endif
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public:
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typedef PCRITICAL_SECTION native_handle_type;
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constexpr mutex () noexcept : mHandle(), mState(2) { }
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mutex (const mutex&) = delete;
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mutex & operator= (const mutex&) = delete;
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~mutex() noexcept
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{
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// Undefined behavior if the mutex is held (locked) by any thread.
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// Undefined behavior if a thread terminates while holding ownership of the
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// mutex.
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DeleteCriticalSection(&mHandle);
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}
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void lock (void)
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{
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unsigned char state = mState.load(std::memory_order_acquire);
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while (state) {
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if ((state == 2) && mState.compare_exchange_weak(state, 1, std::memory_order_acquire))
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{
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InitializeCriticalSection(&mHandle);
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mState.store(0, std::memory_order_release);
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break;
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}
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if (state == 1)
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{
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Sleep(0);
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state = mState.load(std::memory_order_acquire);
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}
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}
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#if STDMUTEX_RECURSION_CHECKS
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DWORD self = mOwnerThread.checkOwnerBeforeLock();
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#endif
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EnterCriticalSection(&mHandle);
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#if STDMUTEX_RECURSION_CHECKS
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mOwnerThread.setOwnerAfterLock(self);
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#endif
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}
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void unlock (void)
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{
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#if STDMUTEX_RECURSION_CHECKS
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mOwnerThread.checkSetOwnerBeforeUnlock();
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#endif
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LeaveCriticalSection(&mHandle);
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}
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bool try_lock (void)
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{
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unsigned char state = mState.load(std::memory_order_acquire);
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if ((state == 2) && mState.compare_exchange_strong(state, 1, std::memory_order_acquire))
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{
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InitializeCriticalSection(&mHandle);
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mState.store(0, std::memory_order_release);
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}
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if (state == 1)
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return false;
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#if STDMUTEX_RECURSION_CHECKS
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DWORD self = mOwnerThread.checkOwnerBeforeLock();
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#endif
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BOOL ret = TryEnterCriticalSection(&mHandle);
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#if STDMUTEX_RECURSION_CHECKS
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if (ret)
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mOwnerThread.setOwnerAfterLock(self);
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#endif
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return ret;
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}
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native_handle_type native_handle (void)
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{
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return &mHandle;
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}
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};
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} // Namespace "xp"
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#if (WINVER >= _WIN32_WINNT_WIN7)
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using windows7::mutex;
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#else
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using xp::mutex;
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#endif
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class recursive_timed_mutex
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{
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static constexpr DWORD kWaitAbandoned = 0x00000080l;
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static constexpr DWORD kWaitObject0 = 0x00000000l;
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static constexpr DWORD kInfinite = 0xffffffffl;
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inline bool try_lock_internal (DWORD ms) noexcept
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{
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DWORD ret = WaitForSingleObject(mHandle, ms);
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#ifndef NDEBUG
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if (ret == kWaitAbandoned)
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{
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using namespace std;
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fprintf(stderr, "FATAL: Thread terminated while holding a mutex.");
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terminate();
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}
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#endif
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return (ret == kWaitObject0) || (ret == kWaitAbandoned);
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}
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protected:
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HANDLE mHandle;
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// Track locking thread for error checking of non-recursive timed_mutex. For
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// standard compliance, this must be defined in same class and at the same
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// access-control level as every other variable in the timed_mutex.
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#if STDMUTEX_RECURSION_CHECKS
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friend class vista::condition_variable;
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_OwnerThread mOwnerThread {};
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#endif
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public:
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typedef HANDLE native_handle_type;
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native_handle_type native_handle() const {return mHandle;}
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recursive_timed_mutex(const recursive_timed_mutex&) = delete;
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recursive_timed_mutex& operator=(const recursive_timed_mutex&) = delete;
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recursive_timed_mutex(): mHandle(CreateMutex(NULL, FALSE, NULL)) {}
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~recursive_timed_mutex()
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{
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CloseHandle(mHandle);
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}
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void lock()
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{
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DWORD ret = WaitForSingleObject(mHandle, kInfinite);
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// If (ret == WAIT_ABANDONED), then the thread that held ownership was
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// terminated. Behavior is undefined, but Windows will pass ownership to this
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// thread.
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#ifndef NDEBUG
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if (ret == kWaitAbandoned)
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{
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using namespace std;
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fprintf(stderr, "FATAL: Thread terminated while holding a mutex.");
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terminate();
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}
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#endif
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if ((ret != kWaitObject0) && (ret != kWaitAbandoned))
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{
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throw std::system_error(GetLastError(), std::system_category());
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}
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}
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void unlock()
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{
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if (!ReleaseMutex(mHandle))
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throw std::system_error(GetLastError(), std::system_category());
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}
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bool try_lock()
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{
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return try_lock_internal(0);
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}
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template <class Rep, class Period>
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bool try_lock_for(const std::chrono::duration<Rep,Period>& dur)
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{
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using namespace std::chrono;
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auto timeout = duration_cast<milliseconds>(dur).count();
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while (timeout > 0)
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{
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constexpr auto kMaxStep = static_cast<decltype(timeout)>(kInfinite-1);
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auto step = (timeout < kMaxStep) ? timeout : kMaxStep;
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if (try_lock_internal(static_cast<DWORD>(step)))
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return true;
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timeout -= step;
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}
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return false;
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}
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template <class Clock, class Duration>
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bool try_lock_until(const std::chrono::time_point<Clock,Duration>& timeout_time)
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{
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return try_lock_for(timeout_time - Clock::now());
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}
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};
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// Override if, and only if, it is necessary for error-checking.
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#if STDMUTEX_RECURSION_CHECKS
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class timed_mutex: recursive_timed_mutex
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{
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public:
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timed_mutex(const timed_mutex&) = delete;
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timed_mutex& operator=(const timed_mutex&) = delete;
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void lock()
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{
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DWORD self = mOwnerThread.checkOwnerBeforeLock();
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recursive_timed_mutex::lock();
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mOwnerThread.setOwnerAfterLock(self);
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}
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void unlock()
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{
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mOwnerThread.checkSetOwnerBeforeUnlock();
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recursive_timed_mutex::unlock();
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}
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template <class Rep, class Period>
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bool try_lock_for(const std::chrono::duration<Rep,Period>& dur)
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{
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DWORD self = mOwnerThread.checkOwnerBeforeLock();
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bool ret = recursive_timed_mutex::try_lock_for(dur);
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if (ret)
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mOwnerThread.setOwnerAfterLock(self);
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return ret;
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}
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template <class Clock, class Duration>
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bool try_lock_until(const std::chrono::time_point<Clock,Duration>& timeout_time)
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{
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return try_lock_for(timeout_time - Clock::now());
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}
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bool try_lock ()
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{
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return try_lock_for(std::chrono::milliseconds(0));
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}
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};
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#else
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typedef recursive_timed_mutex timed_mutex;
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#endif
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class once_flag
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{
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// When available, the SRW-based mutexes should be faster than the
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// CriticalSection-based mutexes. Only try_lock will be unavailable in Vista,
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// and try_lock is not used by once_flag.
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#if (_WIN32_WINNT == _WIN32_WINNT_VISTA)
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windows7::mutex mMutex;
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#else
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mutex mMutex;
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#endif
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std::atomic_bool mHasRun;
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once_flag(const once_flag&) = delete;
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once_flag& operator=(const once_flag&) = delete;
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template<class Callable, class... Args>
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friend void call_once(once_flag& once, Callable&& f, Args&&... args);
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public:
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constexpr once_flag() noexcept: mMutex(), mHasRun(false) {}
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};
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template<class Callable, class... Args>
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void call_once(once_flag& flag, Callable&& func, Args&&... args)
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{
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if (flag.mHasRun.load(std::memory_order_acquire))
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return;
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lock_guard<decltype(flag.mMutex)> lock(flag.mMutex);
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if (flag.mHasRun.load(std::memory_order_acquire))
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return;
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detail::invoke(std::forward<Callable>(func),std::forward<Args>(args)...);
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flag.mHasRun.store(true, std::memory_order_release);
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}
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} // Namespace mingw_stdthread
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// Push objects into std, but only if they are not already there.
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namespace std
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{
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// Because of quirks of the compiler, the common "using namespace std;"
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// directive would flatten the namespaces and introduce ambiguity where there
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// was none. Direct specification (std::), however, would be unaffected.
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// Take the safe option, and include only in the presence of MinGW's win32
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// implementation.
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#if defined(__MINGW32__ ) && !defined(_GLIBCXX_HAS_GTHREADS)
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using mingw_stdthread::recursive_mutex;
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using mingw_stdthread::mutex;
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using mingw_stdthread::recursive_timed_mutex;
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using mingw_stdthread::timed_mutex;
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using mingw_stdthread::once_flag;
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using mingw_stdthread::call_once;
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#elif !defined(MINGW_STDTHREAD_REDUNDANCY_WARNING) // Skip repetition
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#define MINGW_STDTHREAD_REDUNDANCY_WARNING
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#pragma message "This version of MinGW seems to include a win32 port of\
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pthreads, and probably already has C++11 std threading classes implemented,\
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based on pthreads. These classes, found in namespace std, are not overridden\
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by the mingw-std-thread library. If you would still like to use this\
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implementation (as it is more lightweight), use the classes provided in\
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namespace mingw_stdthread."
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#endif
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}
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#endif // WIN32STDMUTEX_H
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