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std::atomic_fetch_and_explicit

STD::原子[医]去取[医]和,STD::原子[医]去取[医]和[医]显式

Defined in header
(1)(since C++11)
template< class Integral > Integral atomic_fetch_and( std::atomic<Integral>* obj, Integral arg
template< class Integral > Integral atomic_fetch_and( volatile std::atomic<Integral>* obj, Integral arg
(2)(since C++11)
template< class Integral > Integral atomic_fetch_and_explicit( std::atomic<Integral>* obj, Integral arg, std::memory_order order
template< class Integral > Integral atomic_fetch_and_explicit( volatile std::atomic<Integral>* obj, Integral arg, std::memory_order order

原子地替换obj与按位和旧值之间的结果objarg返回值obj以前持有。

执行该操作时,就好像执行了以下操作一样:

1%29obj->fetch_and(arg)

2%29obj->fetch_and(arg, order)

参数

obj-pointer to the atomic object to modify. bool is not an Integral type for the purposes of the atomic operations.
arg-the value to bitwise AND to the value stored in the atomic object
order-the memory synchronization ordering for this operation: all values are permitted.

返回值

中此函数的效果之前的值。修改顺序成*obj...

例外

noexcept规格:

noexcept

可能的实施

模板<class T>TypeName STD::Enable[医]如果<std::is[医]积分<T>*价值&%21 std::is[医]相同<T,bool>::value,T>:type原子[医]去取[医]和%28 std::原子<T>%2AOBJ,T Arg%29;{返回obj->提取[医]和%28 arg%29;}

*。

二次

#include <iostream> #include <atomic> #include <thread> #include <chrono> #include <functional> // Binary semaphore for demonstrative purposes only // This is a simple yet meaningful example: atomic operations // are unnecessary without threads. class Semaphore { std::atomic_char m_signaled; public: Semaphore(bool initial = false) { m_signaled = initial; } // Block until semaphore is signaled void take() { while (!std::atomic_fetch_and(&m_signaled, false)) { std::this_thread::sleep_for(std::chrono::milliseconds(10) } } void put() { std::atomic_fetch_or(&m_signaled, true } }; class ThreadedCounter { static const int N = 100; static const int REPORT_INTERVAL = 10; int m_count; bool m_done; Semaphore m_count_sem; Semaphore m_print_sem; void count_up() { for (m_count = 1; m_count <= N; m_count++) { if (m_count % REPORT_INTERVAL == 0) { if (m_count == N) m_done = true; m_print_sem.put( // signal printing to occur m_count_sem.take( // wait until printing is complete proceeding } } std::cout << "count_up() done\n"; m_done = true; m_print_sem.put( } void print_count() { do { m_print_sem.take( std::cout << m_count << '\n'; m_count_sem.put( } while (!m_done std::cout << "print_count() done\n"; } public: ThreadedCounter() : m_done(false) {} void run() { auto print_thread = std::thread(&ThreadedCounter::print_count, this auto count_thread = std::thread(&ThreadedCounter::count_up, this print_thread.join( count_thread.join( } }; int main() { ThreadedCounter m_counter; m_counter.run( }

二次

产出:

二次

10 20 30 40 50 60 70 80 90 100 print_count() done count_up() done

二次

另见

fetch_andatomically performs bitwise AND between the argument and the value of the atomic object and obtains the value held previously (public member function of std::atomic)
atomic_fetch_oratomic_fetch_or_explicit (C++11)(C++11)replaces the atomic object with the result of logical OR with a non-atomic argument and obtains the previous value of the atomic (function template)
atomic_fetch_xoratomic_fetch_xor_explicit (C++11)(C++11)replaces the atomic object with the result of logical XOR with a non-atomic argument and obtains the previous value of the atomic (function template)

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