std:: lock_guard
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Defined in header
<mutex>
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template
<
class
Mutex
>
class lock_guard ; |
(since C++11) | |
The class
lock_guard
is a mutex wrapper that provides a convenient
RAII-style
mechanism for owning a mutex for the duration of a scoped block.
When a
lock_guard
object is created, it attempts to take ownership of the mutex it is given. When control leaves the scope in which the
lock_guard
object was created, the
lock_guard
is destructed and the mutex is released.
The
lock_guard
class is non-copyable.
Template parameters
| Mutex | - | the type of the mutex to lock. The type must meet the BasicLockable requirements |
Member types
| Member type | Definition |
mutex_type
|
Mutex |
Member functions
constructs a
lock_guard
, optionally locking the given mutex
(public member function) |
|
destructs the
lock_guard
object, unlocks the underlying mutex
(public member function) |
|
|
operator=
[deleted]
|
not copy-assignable
(public member function) |
Notes
A common beginner error is to "forget" to give a
lock_guard
variable a name, e.g.
std
::
lock_guard
(
mtx
)
;
(which default constructs a
lock_guard
variable named
mtx
) or
std
::
lock_guard
{
mtx
}
;
(which constructs a prvalue object that is immediately destroyed), thereby not actually constructing a lock that holds a mutex for the rest of the scope.
|
std::scoped_lock
offers an alternative for
|
(since C++17) |
Example
Demonstrates safe and unsafe increments of a volatile variable by two threads.
#include <iostream> #include <mutex> #include <string_view> #include <syncstream> #include <thread> volatile int g_i = 0; std::mutex g_i_mutex; // protects g_i void safe_increment(int iterations) { const std::lock_guard<std::mutex> lock(g_i_mutex); while (iterations-- > 0) g_i = g_i + 1; std::cout << "thread #" << std::this_thread::get_id() << ", g_i: " << g_i << '\n'; // g_i_mutex is automatically released when lock goes out of scope } void unsafe_increment(int iterations) { while (iterations-- > 0) g_i = g_i + 1; std::osyncstream(std::cout) << "thread #" << std::this_thread::get_id() << ", g_i: " << g_i << '\n'; } int main() { auto test = [](std::string_view fun_name, auto fun) { g_i = 0; std::cout << fun_name << ":\nbefore, g_i: " << g_i << '\n'; { std::jthread t1(fun, 1'000'000); std::jthread t2(fun, 1'000'000); } std::cout << "after, g_i: " << g_i << "\n\n"; }; test("safe_increment", safe_increment); test("unsafe_increment", unsafe_increment); }
Possible output:
safe_increment: before, g_i: 0 thread #140121493231360, g_i: 1000000 thread #140121484838656, g_i: 2000000 after, g_i: 2000000 unsafe_increment: before, g_i: 0 thread #140121484838656, g_i: 1028945 thread #140121493231360, g_i: 1034337 after, g_i: 1034337
Defect reports
The following behavior-changing defect reports were applied retroactively to previously published C++ standards.
| DR | Applied to | Behavior as published | Correct behavior |
|---|---|---|---|
| LWG 2981 | C++17 |
redundant deduction guide from
lock_guard<Mutex>
was provided
|
removed |
See also
|
(C++11)
|
implements movable mutex ownership wrapper
(class template) |
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(C++17)
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deadlock-avoiding RAII wrapper for multiple mutexes
(class template) |