全局变量,多线程操作不安全,可能会导致结果不安全
互斥锁,操作很慢,但是结果正确
原子变量,操作很快,结果正确
代码示例
1 #include <Windows.h> 2 #include <thread> 3 #include <iostream> 4 #include <tuple> 5 using namespace std; 6 7 void run() 8 { 9 MessageBox(0, L"hello", L"hello", 0); 10 } 11 12 void runA(const wchar_t *s, const wchar_t *b) 13 { 14 MessageBox(0, s, b, 0); 15 } 16 17 class myclass 18 { 19 public: 20 void operator()()//C++重载 21 { 22 MessageBox(0, L"hello", L"hello", 0); 23 } 24 }; 25 26 void main1() 27 { 28 thread t1[3]{ thread(run),thread(run),thread(run) }; 29 30 thread *p1 = new thread(run); 31 thread *p2 = new thread(run); 32 33 thread *p(new thread[3]{ thread(run),thread(run),thread(run) }); 34 //伪函数 35 thread t3[3]{ thread(myclass()),thread(myclass()) ,thread(myclass()) }; 36 system("pause"); 37 } 38 39 void main() 40 { 41 //多线程带参数 42 thread t1(runA, L"木头人1", L"HELLO"); 43 thread t2(runA, L"木头人1", L"HELLO"); 44 thread t3(runA, L"木头人1", L"HELLO"); 45 46 //tuple数组 47 char ch = 'X'; 48 short sh = 129; 49 int num = 1234; 50 char *p = "木头人"; 51 tuple<char, short, int, char *>mytuple(ch, sh, num, p); 52 auto i0 = get<0>(mytuple); 53 cout << i0 << endl; 54 auto i1 = get<1>(mytuple); 55 cout << i1 << endl; 56 auto i2 = get<2>(mytuple); 57 cout << i2 << endl; 58 auto i3 = get<3>(mytuple); 59 cout << i3 << endl; 60 cin.get(); 61 }