本文介绍了一种通过使用线程本地存储来避免多线程环境下共享资源冲突的方法。通过为每个线程创建独立的存储单元,使得多个线程能够同时操作相同变量名的实例而不会相互干扰。
消除任务在共享资源上发生冲突问题的第二种方法是 消除共享变量,对使用同一个变量的不同线程,可以为同一个变量创建不同的存储单元。因此,如果有5个线程使用一个含有变量x的对象,线程本地存储会自动为变量产生5个不同的存储单元。
- #include "stdafx.h"
- #include <iostream>
- #include <fstream>
- #include "zthread/ThreadLocal.h"
- #include "zthread/Guard.h"
- #include "zthread/Mutex.h"
- #include "zthread/ThreadedExecutor.h"
- #include "zthread/Cancelable.h"
- #include "zthread/Runnable.h"
- #include "zthread/Thread.h"
- using namespace ZThread;
- using namespace std;
- class ThreadVariables : public Cancelable
- {
- public:
- ThreadVariables(): canceled(false)
- {
- Value.set(0);
- }
- void increament() {Value.set(Value.get() + 1);}
- int get() {return Value.get();}
- void cancel()
- {
- Guard<Mutex> g(Lock);
- canceled = true;
- }
- bool isCanceled()
- {
- Guard<Mutex> g(Lock);
- return canceled;
- }
- private:
- ThreadLocal<int> Value;
- bool canceled;
- Mutex Lock;
- };
- class Accessor : public Runnable
- {
- public:
- Accessor(const
- CountedPtr<ThreadVariables>& tl, int idn = 0):
- id(idn), pTlv(tl) {}
- void run()
- {
- while (!pTlv->isCanceled())
- {
- pTlv->increament();
- cout<<*this<<endl;
- }
- }
- friend ostream& operator <<(ostream& os, Accessor& a)
- {
- Thread::sleep(200);
- return os << " # " << a.id << " : " << a.pTlv->get()<<endl;
- }
- private:
- int id;
- CountedPtr<ThreadVariables> pTlv;
- };
- int _tmain(int argc, _TCHAR* argv[])
- {
- try
- {
- CountedPtr<ThreadVariables> tlv(new ThreadVariables);
- ThreadedExecutor executor;
- for (int i = 0; i < 5; i++)
- {
- executor.execute(new Accessor(tlv, i));
- }
- cin.get();
- tlv->cancel();
- }
- catch (Synchronization_Exception& e)
- {
- cerr << e.what() <<endl;
- }
- cin.get();
- return 0;
- }
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