void lock(); | (since C++11) |
Locks the mutex. If another thread has already locked the mutex, a call to lock
will block execution until the lock is acquired.
If lock
is called by a thread that already owns the mutex
, the behavior is undefined: for example, the program may deadlock. An implementation that can detect the invalid usage is encouraged to throw a std::system_error
with error condition resource_deadlock_would_occur
instead of deadlocking.
Prior unlock()
operations on the same mutex synchronize-with (as defined in std::memory_order
) this operation.
(none).
(none).
Throws std::system_error
when errors occur, including errors from the underlying operating system that would prevent lock
from meeting its specifications. The mutex is not locked in the case of any exception being thrown.
lock()
is usually not called directly: std::unique_lock
, std::scoped_lock
, and std::lock_guard
are used to manage exclusive locking.
This example shows how lock
and unlock
can be used to protect shared data.
#include <iostream> #include <chrono> #include <thread> #include <mutex> int g_num = 0; // protected by g_num_mutex std::mutex g_num_mutex; void slow_increment(int id) { for (int i = 0; i < 3; ++i) { g_num_mutex.lock(); ++g_num; // note, that the mutex also syncronizes the output std::cout << "id: " << id << ", g_num: " << g_num << '\n'; g_num_mutex.unlock(); std::this_thread::sleep_for(std::chrono::milliseconds(234)); } } int main() { std::thread t1{slow_increment, 0}; std::thread t2{slow_increment, 1}; t1.join(); t2.join(); }
Possible output:
id: 0, g_num: 1 id: 1, g_num: 2 id: 1, g_num: 3 id: 0, g_num: 4 id: 0, g_num: 5 id: 1, g_num: 6
tries to lock the mutex, returns if the mutex is not available (public member function) |
|
unlocks the mutex (public member function) |
|
C documentation for mtx_lock |
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