std::atomic_fetch_add
STD::原子[医]去取[医]添加,STD::原子[医]去取[医]加[医]显式
Defined in header | | |
---|---|---|
| (1) | (since C++11) |
template< class Integral > Integral atomic_fetch_add( std::atomic<Integral>* obj, Integral arg | | |
template< class Integral > Integral atomic_fetch_add( volatile std::atomic<Integral>* obj, Integral arg | | |
| (2) | (since C++11) |
template< class Integral > Integral atomic_fetch_add_explicit( std::atomic<Integral>* obj, Integral arg, std::memory_order order | | |
template< class Integral > Integral atomic_fetch_add_explicit( volatile std::atomic<Integral>* obj, Integral arg, std::memory_order order | | |
| (3) | (since C++11) |
template< class T > T* atomic_fetch_add( std::atomic<T*>* obj, std::ptrdiff_t arg | | |
template< class T > T* atomic_fetch_add( volatile std::atomic<T*>* obj, std::ptrdiff_t arg | | |
| (4) | (since C++11) |
template< class T > T* atomic_fetch_add_explicit( std::atomic<T*>* obj, std::ptrdiff_t arg, std::memory_order order | | |
template< class T > T* atomic_fetch_add_explicit( volatile std::atomic<T*>* obj, std::ptrdiff_t arg, std::memory_order order | |
执行原子加法。
1-2%29原子相加arg
指向的值obj
并返回值。obj
以前持有。执行该操作时,就像执行了以下操作一样:
1%29obj->fetch_add(arg)
2%29obj->fetch_add(arg, order)
3-4%29原子地增加指针值,obj
,通过arg
,并返回值obj
以前持有。执行该操作时,就像执行了以下操作一样:
3%29obj->fetch_add(arg)
4%29obj->fetch_add(arg, order)
参数
obj | - | pointer to the atomic object to modify |
---|---|---|
arg | - | the value to add to the value stored in the atomic object |
order | - | the memory sycnhronization 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
第一版
*。
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]添加%28 st::原子<T>%2AOBJ,T Arg%29;{返回obj->提取[医]添加%28 arg%29;}
第二版
模板<类T>T%2A原子[医]去取[医]添加%28 std::原子<T%2A>%2AOBJ,STD::ptrdiff[医]t arg%29{返回obj->获取[医]添加%28 arg%29;}
例
单写/多读取器锁可以用FETCH来实现。[医]加。请注意,这个简单的实现并不是没有锁定的。
二次
#include <string>
#include <thread>
#include <vector>
#include <iostream>
#include <atomic>
#include <chrono>
// meaning of cnt:
// 10: there are no active readers or writers.
// 1...9: there are 9...1 readers active, The writer is blocked
// 0: temporary value between fetch_sub and fetch_add in reader lock
// -1: there is a writer active. The readers are blocked.
const int N = 10; // nine concurrent readers are allowed
std::atomic<int> cnt = ATOMIC_VAR_INIT(N
std::vector<int> data;
void reader(int id)
{
for(;;)
{
// lock
while(std::atomic_fetch_sub(&cnt, 1) <= 0)
std::atomic_fetch_add(&cnt, 1
// read
if(!data.empty())
std::cout << ( "reader " + std::to_string(id)
+ " sees " + std::to_string(*data.rbegin()) + '\n'
if(data.size() == 100)
break;
// unlock
std::atomic_fetch_add(&cnt, 1
// pause
std::this_thread::sleep_for(std::chrono::milliseconds(1)
}
}
void writer()
{
for(int n = 0; n < 100; ++n)
{
// lock
while(std::atomic_fetch_sub(&cnt, N+1) != N)
std::atomic_fetch_add(&cnt, N+1
// write
data.push_back(n
std::cout << "writer pushed back " << n << '\n';
// unlock
std::atomic_fetch_add(&cnt, N+1
// pause
std::this_thread::sleep_for(std::chrono::milliseconds(1)
}
}
int main()
{
std::vector<std::thread> v;
for (int n = 0; n < N; ++n) {
v.emplace_back(reader, n
}
v.emplace_back(writer
for (auto& t : v) {
t.join(
}
}
二次
产出:
二次
writer pushed back 0
reader 8 sees 0
reader 3 sees 0
reader 1 sees 0
<...>
reader 2 sees 99
reader 6 sees 99
reader 1 sees 99
二次
另见
fetch_add | atomically adds the argument to the value stored in the atomic object and obtains the value held previously (public member function of std::atomic) |
---|---|
atomic_fetch_subatomic_fetch_sub_explicit (C++11)(C++11) | subtracts a non-atomic value from an atomic object and obtains the previous value of the atomic (function template) |
C原子文档[医]去取[医]加法,原子的[医]去取[医]加[医]显式
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