std::unique_lock
From cppreference.com
Defined in header
<mutex>
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template< class Mutex >
class unique_lock; |
(since C++11) | |
The class unique_lock is a general-purpose mutex ownership wrapper allowing deferred locking, timed locking, recursive locking, transfer of lock ownership, and use with condition variables.
The unique_lock
class is non-copyable, but it is movable. The supplied Mutex
type shall implement the BasicLockable
concept.
Contents |
[edit] Member types
Type | Definition |
mutex_type
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Mutex |
[edit] Member functions
constructs a unique_lock , optionally locking the supplied mutex (public member function) |
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unlocks the associated mutex, if owned (public member function) |
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unlocks the mutex, if owned, and acquires ownership of another (public member function) |
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Locking |
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locks the associated mutex (public member function) |
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tries to lock the associated mutex, returns if the mutex is not available (public member function) |
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attempts to lock the associated TimedLockable mutex, returns if the mutex has been unavailable for the specified time duration (public member function) |
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tries to lock the associated TimedLockable mutex, returns if the mutex has been unavailable until specified time point has been reached (public member function) |
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unlocks the associated mutex (public member function) |
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Modifiers |
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swaps state with another std::unique_lock (public member function) |
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disassociates the associated mutex without unlocking it (public member function) |
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Observers |
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returns a pointer to the associated mutex (public member function) |
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tests whether the lock owns its associated mutex (public member function) |
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tests whether the lock owns its associated mutex (public member function) |
[edit] Non-member functions
specialization of std::swap for unique_lock (function template) |
[edit] Example
#include <mutex> #include <thread> #include <chrono> struct Box { explicit Box(int num) : num_things{num} {} int num_things; std::mutex m; }; void transfer(Box &from, Box &to, int num) { // don't actually take the locks yet std::unique_lock<std::mutex> lock1(from.m, std::defer_lock); std::unique_lock<std::mutex> lock2(to.m, std::defer_lock); // lock both unique_locks without deadlock std::lock(lock1, lock2); from.num_things -= num; to.num_things += num; lock1.unlock(); lock2.unlock(); } int main() { Box acc1(100); Box acc2(50); std::thread t1(transfer, std::ref(acc1), std::ref(acc2), 10); std::thread t2(transfer, std::ref(acc2), std::ref(acc1), 5); t1.join(); t2.join(); }