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std::atomic::compare_exchange_strong

STD::原子::比较[医]交换[医]弱,STD::原子::比较[医]交换[医]强

Defined in header
(1)(since C++11)
bool compare_exchange_weak( T& expected, T desired, std::memory_order success, std::memory_order failure
bool compare_exchange_weak( T& expected, T desired, std::memory_order success, std::memory_order failure ) volatile;
(2)(since C++11)
bool compare_exchange_weak( T& expected, T desired, std::memory_order order = std::memory_order_seq_cst
bool compare_exchange_weak( T& expected, T desired, std::memory_order order = std::memory_order_seq_cst ) volatile;
(3)(since C++11)
bool compare_exchange_strong( T& expected, T desired, std::memory_order success, std::memory_order failure
bool compare_exchange_strong( T& expected, T desired, std::memory_order success, std::memory_order failure ) volatile;
(4)(since C++11)
bool compare_exchange_strong( T& expected, T desired, std::memory_order order = std::memory_order_seq_cst
bool compare_exchange_strong( T& expected, T desired, std::memory_order order = std::memory_order_seq_cst ) volatile;

原子比较对象表示成*this的对象表示形式expected,好像std::memcmp,如果这些是按位相等的,则将前者替换为desired%28执行读-修改-写操作%29。否则,加载存储在*thisexpected%28执行加载操作%29。复制就像std::memcpy...

读-修改-写入和加载操作的内存模型包括successfailure分别。在%282%29和%284%29版本中order用于读-修改-写入和加载操作,但std::memory_order_acquirestd::memory_order_relaxed用于加载操作,如果order ==std::memory_order_acq_rel,或order ==std::memory_order_release分别。

参数

expected-reference to the value expected to be found in the atomic object
desired-the value to store in the atomic object if it is as expected
success-the memory synchronization ordering for the read-modify-write operation if the comparison succeeds. All values are permitted.
failure-the memory synchronization ordering for the load operation if the comparison fails. Cannot be std::memory_order_release or std::memory_order_acq_rel and cannot specify stronger ordering than success (until C++17)
order-the memory synchronization ordering for both operations

返回值

true如果成功地更改了基础原子值,false否则。

例外

noexcept规格:

noexcept

注记

弱窗体%281-2%29的函数被允许伪造地失败,也就是说,表现为*this != expected即使他们是平等的。当比较和交换处于循环状态时,弱版本将在某些平台上获得更好的性能。

当弱比较和交换需要一个循环,而强比较和交换不需要循环时,强比较和交换就更好了,除非T可以包括填充位、陷阱位,或者为相同值%28例如提供多个对象表示。浮点南%29.。在这些情况下,弱比较和交换通常是有效的,因为它能快速地收敛于某些稳定的对象表示上。

比较和交换操作通常用作无锁数据结构的基本构建块。

二次

#include <atomic> template<typename T> struct node { T data; node* next; node(const T& data) : data(data), next(nullptr) {} }; template<typename T> class stack { std::atomic<node<T>*> head; public: void push(const T& data) { node<T>* new_node = new node<T>(data // put the current value of head into new_node->next new_node->next = head.load(std::memory_order_relaxed // now make new_node the new head, but if the head // is no longer what's stored in new_node->next // (some other thread must have inserted a node just now) // then put that new head into new_node->next and try again while(!head.compare_exchange_weak(new_node->next, new_node, std::memory_order_release, std::memory_order_relaxed)) ; // the body of the loop is empty // Note: the above use is not thread-safe in at least // GCC prior to 4.8.3 (bug 60272), clang prior to 2014-05-05 (bug 18899) // MSVC prior to 2014-03-17 (bug 819819). The following is a workaround: // node<T>* old_head = head.load(std::memory_order_relaxed // do { // new_node->next = old_head; // } while(!head.compare_exchange_weak(old_head, new_node, // std::memory_order_release, // std::memory_order_relaxed) } }; int main() { stack<int> s; s.push(1 s.push(2 s.push(3 }

二次

演示如何比较[医]交换[医]强可以更改原子变量或用于比较的变量的值。

二次

#include <atomic> #include <iostream> std::atomic<int> ai; int tst_val= 4; int new_val= 5; bool exchanged= false; void valsout() { std::cout << "ai= " << ai << " tst_val= " << tst_val << " new_val= " << new_val << " exchanged= " << std::boolalpha << exchanged << "\n"; } int main() { ai= 3; valsout( // tst_val != ai ==> tst_val is modified exchanged= ai.compare_exchange_strong( tst_val, new_val valsout( // tst_val == ai ==> ai is modified exchanged= ai.compare_exchange_strong( tst_val, new_val valsout( }

二次

产出:

二次

ai= 3 tst_val= 4 new_val= 5 exchanged= false ai= 3 tst_val= 3 new_val= 5 exchanged= false ai= 5 tst_val= 3 new_val= 5 exchanged= true

二次

另见

atomic_compare_exchange_weakatomic_compare_exchange_weak_explicitatomic_compare_exchange_strongatomic_compare_exchange_strong_explicit (C++11)(C++11)(C++11)(C++11)atomically compares the value of the atomic object with non-atomic argument and performs atomic exchange if equal or atomic load if not (function template)

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