互斥锁操作
功能:封装对互斥锁的操作
知识点:
- MCHECK()宏的实现
#define MCHECK(ret) ({ __typeof__ (ret) errnum = (ret); \
if (__builtin_expect(errnum != 0, 0)) \
__assert_perror_fail (errnum, __FILE__, __LINE__, __func__);})- 线程与锁的对应关系
用途:
可用于多线程互斥锁的操作
亮点程序:
//对锁进行解锁,加锁操作
class MutexLockGuard : boost::noncopyable
{
public:
explicit MutexLockGuard(MutexLock& mutex)
: mutex_(mutex)
{
mutex_.lock();
}
~MutexLockGuard()
{
mutex_.unlock();
}
private:
MutexLock& mutex_;
};上述代码在使用过程中非常方便,其可以对作用域内的内容上锁,并实现自动解锁
{
MutexLockGuard mu = MutexLockGuard(mutex_)
...
}代码及分析:
Mutex.h
// Use of this source code is governed by a BSD-style license
// that can be found in the License file.
//
// Author: Shuo Chen (chenshuo at chenshuo dot com)
#ifndef MUDUO_BASE_MUTEX_H
#define MUDUO_BASE_MUTEX_H
#include <muduo/base/CurrentThread.h>
#include <boost/noncopyable.hpp>
#include <assert.h>
#include <pthread.h>
#ifdef CHECK_PTHREAD_RETURN_VALUE
#ifdef NDEBUG
//用C++编译器统一处理
__BEGIN_DECLS
extern void __assert_perror_fail (int errnum,
const char *file,
unsigned int line,
const char *function)
//无返回值
__THROW __attribute__ ((__noreturn__));
__END_DECLS
#endif
//检查是否出错 ,__typeof__定义与ret类型相同的errnum,大多数情况下不执行if语句
#define MCHECK(ret) ({ __typeof__ (ret) errnum = (ret); \
if (__builtin_expect(errnum != 0, 0)) \
__assert_perror_fail (errnum, __FILE__, __LINE__, __func__);})
#else // CHECK_PTHREAD_RETURN_VALUE
#define MCHECK(ret) ({ __typeof__ (ret) errnum = (ret); \
assert(errnum == 0); (void) errnum;})
#endif // CHECK_PTHREAD_RETURN_VALUE
namespace muduo
{
// Use as data member of a class, eg.
//
// class Foo
// {
// public:
// int size() const;
//
// private:
// mutable MutexLock mutex_;
// std::vector<int> data_; // GUARDED BY mutex_
// };
class MutexLock : boost::noncopyable
{
public:
//构造函数,初始化线程ID,初始化锁
MutexLock()
: holder_(0)
{
MCHECK(pthread_mutex_init(&mutex_, NULL));
}
//析构函数,销毁锁
~MutexLock()
{
assert(holder_ == 0);
MCHECK(pthread_mutex_destroy(&mutex_));
}
//互斥锁是否作用于当前线程
// must be called when locked, i.e. for assertion
bool isLockedByThisThread() const
{
return holder_ == CurrentThread::tid();
}
//如果不是作用于当前线程,则退出
void assertLocked() const
{
assert(isLockedByThisThread());
}
// internal usage
//上锁,并存储上锁的线程ID
void lock()
{
MCHECK(pthread_mutex_lock(&mutex_));
assignHolder();
}
//解锁,并置当前线程ID标记为0
void unlock()
{
unassignHolder();
MCHECK(pthread_mutex_unlock(&mutex_));
}
//返回锁地址
pthread_mutex_t* getPthreadMutex() /* non-const */
{
return &mutex_;
}
private:
friend class Condition;
//对加锁的线程进行线程ID的改变
class UnassignGuard : boost::noncopyable
{
public:
UnassignGuard(MutexLock& owner)
: owner_(owner)
{
owner_.unassignHolder();
}
~UnassignGuard()
{
owner_.assignHolder();
}
private:
MutexLock& owner_;
};
//对holder_置零
void unassignHolder()
{
holder_ = 0;
}
//给holder_赋值为当前线程ID
void assignHolder()
{
holder_ = CurrentThread::tid();
}
pthread_mutex_t mutex_;//互斥锁
pid_t holder_;//线程ID
};
// Use as a stack variable, eg.
// int Foo::size() const
// {
// MutexLockGuard lock(mutex_);
// return data_.size();
// }
//对锁进行解锁,加锁操作
class MutexLockGuard : boost::noncopyable
{
public:
explicit MutexLockGuard(MutexLock& mutex)
: mutex_(mutex)
{
mutex_.lock();
}
~MutexLockGuard()
{
mutex_.unlock();
}
private:
MutexLock& mutex_;
};
}
// Prevent misuse like:
// MutexLockGuard(mutex_);
// A tempory object doesn't hold the lock for long!
#define MutexLockGuard(x) error "Missing guard object name"
#endif // MUDUO_BASE_MUTEX_H