1.涉及类
ACE_RW_Thread_Mutex //ACE读写锁
ACE_Read_Guard //ACE加读锁
ACE_Write_Guard //ACE加写锁
ACE_Thread_Manager //ACE线程管理
2.简介
ACE读/写锁
读/写锁与互斥体相类似。例如,获取读/写锁的线程也必须释放它。多个线程可同时获取一个读/写锁用于读,但只有一个线程可以获取该锁用于写。当互斥体保护的资源用于读远比用于写要频繁时,读/写互斥体有助于改善并发的执行。
ACE线程库提供了一个叫作ACE_RW_Mutex的类,在C++封装类中可移植地实现了读/写锁的语义。读/写锁将优先选择权给写。因而,如果有多个读和一个写在锁上等待,写将会首先获取它。
3.示例代码
#include <iostream>
#include "ace/Thread_Manager.h"
#include "ace/Guard_T.h"
#include "ace/OS_NS_time.h" using namespace std;
ACE_RW_Thread_Mutex mutex; ACE_THR_FUNC_RETURN ThreadFunRead(void *arg)
{
ACE_thread_t threadId=ACE_Thread_Manager::instance()->thr_self(); ACE_Read_Guard<ACE_RW_Thread_Mutex> guard(mutex);
cout<<"Thread ReadLock begin NO:"<<threadId<<endl; //ACE_OS::sleep(4);
cout<<"Thread ReadLock end NO:"<<threadId<<endl;
return NULL;
}
ACE_THR_FUNC_RETURN ThreadFunWrite(void *arg)
{
ACE_thread_t threadId=ACE_Thread_Manager::instance()->thr_self(); ACE_Write_Guard<ACE_RW_Thread_Mutex> guard(mutex);
cout<<"Thread WriteLock begin NO:"<<threadId<<endl; ACE_OS::sleep();//休眠1s
cout<<"Thread WriteLock end NO:"<<threadId<<endl;
return NULL;
} int main(int argc, char *argv[])
{
//1000纳秒=1ms
timespec_t t;
t.tv_sec=;t.tv_nsec=; ACE_Thread_Manager* pThrMgr = ACE_Thread_Manager::instance();
//依次一读一写依次3个循环,结果显示是此读写锁写优先。即:加锁等待队列里写操作永远在读前面!
for(int i=;i<;i++)
{
pThrMgr->spawn((ACE_THR_FUNC)ThreadFunRead);
ACE_OS::nanosleep (&t);
pThrMgr->spawn((ACE_THR_FUNC)ThreadFunWrite);
ACE_OS::nanosleep (&t);
}
pThrMgr->wait(); return ;
}
RW_lock.cpp
4.示例运行结果
$ ./tt
Thread ReadLock begin NO:
Thread ReadLock end NO:
Thread WriteLock begin NO:
Thread WriteLock end NO:
Thread WriteLock begin NO:
Thread WriteLock end NO:
Thread WriteLock begin NO:
Thread WriteLock end NO:
Thread WriteLock begin NO:
Thread WriteLock end NO:
Thread ReadLock begin NO:
Thread ReadLock end NO:
Thread ReadLock begin NO:
Thread ReadLock end NO:
Thread ReadLock begin NO:
Thread ReadLock end NO:
执行结果
5.Makefile
#bin
THE_INCLUDE = -I./ \
-I${ACE_ROOT}/ THE_LIBPATH = -L./ \
-L${ACE_ROOT}/lib/
THE_LIB = -g -D_DEBUG_ -lACE# -lxti CFLAGS = ${THE_LIB} ${THE_INCLUDE} ${THE_LIBPATH}
CC=g++
SRC=$(wildcard *.cpp)
OBJ=$(addprefix ./, $(addsuffix .o, $(basename $(SRC))))
TARGET=tt
all: $(TARGET)
$(TARGET): $(SRC)
$(CC) -o $@ $^ $(CFLAGS)
@echo make all done
%.o: %.cpp
$(CC) $(CFLAGS) -o $@ -c $<
clean:
rm -f $(TARGET) $(OBJ)
Makefile
********************************************************************
高级线程(任务)ACE_Task_Base类来创建线程是更方便和优雅
6.示例代码
#include <iostream>
#include "ace/Task.h" using namespace std; //静态锁
struct Resource
{
static ACE_RW_Thread_Mutex mutex;
};
ACE_RW_Thread_Mutex Resource::mutex; class ThreadFunRead : public ACE_Task_Base {
public:
virtual int svc()
{
ACE_Read_Guard<ACE_RW_Thread_Mutex> guard(Resource::mutex);
cout<<"Thread ReadLock begin NO:"<<ACE_Thread::self()<<endl; //ACE_OS::sleep(4);
cout<<"Thread ReadLock end NO:"<<ACE_Thread::self()<<endl;
return ;
}
}; class ThreadFunWrite : public ACE_Task_Base {
public:
virtual int svc()
{
ACE_Write_Guard<ACE_RW_Thread_Mutex> guard(Resource::mutex);
cout<<"Thread WriteLock begin NO:"<<ACE_Thread::self()<<endl; ACE_OS::sleep();//休眠1s
cout<<"Thread WriteLock end NO:"<<ACE_Thread::self()<<endl;
return ;
}
}; int main(int argc, char *argv[])
{
//1000纳秒=1ms
timespec_t t;
t.tv_sec=;t.tv_nsec=; ACE_Thread_Manager* pThrMgr = ACE_Thread_Manager::instance();
//依次一读一写依次3个循环,结果显示是此读写锁写优先。即:加锁等待队列里写操作永远在读前面!
for(int i=;i<;i++)
{
ThreadFunRead threadRead;
ThreadFunWrite threadWrite;
threadRead.activate();
ACE_OS::nanosleep (&t);
threadWrite.activate();
ACE_OS::nanosleep (&t);
} pThrMgr->wait(); return ;
}
RW_lock.cpp