操作系统实验进程同步--读者优先

王朝other·作者佚名  2006-01-09
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实习1:进程同步--读者优先

实习要求

在Windows 2000 环境下,创建一个包含n 个线程的控制台进程。用这n 个线程来表示n

个读者或写者。每个线程按相应测试数据文件的要求,进行读写操作。请用信号量机制分别

实现读者优先和写者优先的读者-写者问题。

读者-写者问题的读写操作限制:

1)写-写互斥;

2)读-写互斥;

3)读-读允许;

读者优先的附加限制:如果一个读者申请进行读操作时已有另一读者正在进行读操作,

则该读者可直接开始读操作。

写者优先的附加限制:如果一个读者申请进行读操作时已有另一写者在等待访问共享资

源,则该读者必须等到没有写者处于等待状态后才能开始读操作。

运行结果显示要求:要求在每个线程创建、发出读写操作申请、开始读写操作和结束读

写操作时分别显示一行提示信息,以确信所有处理都遵守相应的读写操作限制。

测试数据文件格式

测试数据文件包括n 行测试数据,分别描述创建的n 个线程是读者还是写者,以及读写

操作的开始时间和持续时间。每行测试数据包括四个字段,各字段间用空格分隔。第一字段

为一个正整数,表示线程序号。第二字段表示相应线程角色,R 表示读者是,W 表示写者。

第三字段为一个正数,表示读写操作的开始时间。线程创建后,延时相应时间(单位为秒)

后发出对共享资源的读写申请。第四字段为一个正数,表示读写操作的持续时间。当线程读

写申请成功后,开始对共享资源的读写操作,该操作持续相应时间后结束,并释放共享资源。

下面是一个测试数据文件的例子:

1 R 3 5

2 W 4 5

3 R 5 2

4 R 6 5

源代码如下:

/************************************************************************/

/* 操作系统实践-- 读者写者问题

/* 读者优先算法实现

/* 时间: 2004-12.10

/* 作者: 唐良

/************************************************************************/

#include <windows.h>

#include <ctype.h>

#include <stdio.h>

#include <string.h>

#include <stdlib.h>

#include <malloc.h>

#define MAX_PERSON 100

#define READER 0

#define WRITER 1

#define END -1

#define R READER

#define W WRITER

typedef struct _Person

{

HANDLE m_hThread;

int m_nType;

int m_nStartTime;

int m_nWorkTime;

int m_nID;

}Person;

Person g_Persons[MAX_PERSON];

int g_NumPerson = 0;

long g_CurrentTime= 0;

int g_PersonLists[] = {

1, R, 3, 5,

2, W, 4, 5,

3, R, 5, 2,

4, R, 6, 5,

END,

};

int g_NumOfReading = 0;

HANDLE g_hReadSemaphore;

HANDLE g_hWriteSemaphore;

void CreatePersonList(int *pPersonList);

bool CreateReader(int StartTime,int WorkTime,int ID);

bool CreateWriter(int StartTime,int WorkTime,int ID);

DWORD WINAPI ReaderProc(LPVOID lpParam);

DWORD WINAPI WriterProc(LPVOID lpParam);

int main()

{

g_hReadSemaphore = CreateSemaphore(NULL,1,100,NULL);

g_hWriteSemaphore = CreateSemaphore(NULL,1,100,NULL); // CreateSemaphore(NULL,FALSE,NULL);

CreatePersonList(g_PersonLists); // Create All the reader and writers

printf("Created all the reader and writer\n...\n");

g_CurrentTime = 0;

while(true)

{

g_CurrentTime++;

Sleep(300); // 300 ms

printf("CurrentTime = %d\n",g_CurrentTime);

}

return 0;

}

void CreatePersonList(int *pPersonLists)

{

int i=0;

int *pList = pPersonLists;

bool Ret;

while(pList[0] != END)

{

switch(pList[1])

{

case R:

Ret = CreateReader(pList[2],pList[3],pList[0]);

break;

case W:

Ret = CreateWriter(pList[2],pList[3],pList[0]);

break;

}

if(!Ret)

printf("Create Person %d is wrong\n",pList[0]);

pList += 4; // move to next person list

}

}

DWORD WINAPI ReaderProc(LPVOID lpParam)

{

Person *pPerson = (Person*)lpParam;

// wait for the start time

while(g_CurrentTime != pPerson->m_nStartTime)

{

}

printf("Reader %d is Requesting ...\n",pPerson->m_nID);

WaitForSingleObject(g_hReadSemaphore,INFINITE);

if(g_NumOfReading ==0)

{

WaitForSingleObject(g_hWriteSemaphore,INFINITE);

}

g_NumOfReading++;

ReleaseSemaphore(g_hReadSemaphore,1,NULL);

// modify the reader's real start time

pPerson->m_nStartTime = g_CurrentTime;

printf("Reader %d is Reading the Shared Buffer...\n",pPerson->m_nID);

while(g_CurrentTime <= pPerson->m_nStartTime + pPerson->m_nWorkTime)

{

// .. perform read operations

}

printf("Reader %d is Exit...\n",pPerson->m_nID);

WaitForSingleObject(g_hReadSemaphore,INFINITE);

g_NumOfReading--;

if(g_NumOfReading == 0)

{

ReleaseSemaphore(g_hWriteSemaphore,1,NULL);

}

ReleaseSemaphore(g_hReadSemaphore,1,NULL);

ExitThread(0);

return 0;

}

DWORD WINAPI WriterProc(LPVOID lpParam)

{

Person *pPerson = (Person*)lpParam;

// wait for the start time

while(g_CurrentTime != pPerson->m_nStartTime)

{

}

printf("Writer %d is Requesting ...\n",pPerson->m_nID);

WaitForSingleObject(g_hWriteSemaphore,INFINITE);

// modify the writer's real start time

pPerson->m_nStartTime = g_CurrentTime;

printf("Writer %d is Writting the Shared Buffer...\n",pPerson->m_nID);

while(g_CurrentTime <= pPerson->m_nStartTime + pPerson->m_nWorkTime)

{

// .. perform write operations

}

printf("Writer %d is Exit...\n",pPerson->m_nID);

ReleaseSemaphore(g_hWriteSemaphore,1,NULL);

ExitThread(0);

return 0;

}

bool CreateReader(int StartTime,int WorkTime,int ID)

{

DWORD dwThreadID;

if(g_NumPerson >= MAX_PERSON)

return false;

Person *pPerson = &g_Persons[g_NumPerson];

pPerson->m_nID = ID;

pPerson->m_nStartTime = StartTime;

pPerson->m_nWorkTime = WorkTime;

pPerson->m_nType = READER;

g_NumPerson++;

// Create an New Thread

pPerson->m_hThread = CreateThread(NULL,0,ReaderProc,(LPVOID)pPerson,0,&dwThreadID);

if(pPerson->m_hThread == NULL)

return false;

return true;

}

bool CreateWriter(int StartTime,int WorkTime,int ID)

{

DWORD dwThreadID;

if(g_NumPerson >= MAX_PERSON)

return false;

Person *pPerson = &g_Persons[g_NumPerson];

pPerson->m_nID = ID;

pPerson->m_nStartTime = StartTime;

pPerson->m_nWorkTime = WorkTime;

pPerson->m_nType = WRITER;

g_NumPerson++;

// Create an New Thread

pPerson->m_hThread = CreateThread(NULL,0,WriterProc,(LPVOID)pPerson,0,&dwThreadID);

if(pPerson->m_hThread == NULL)

return false;

return true;

}

 
 
 
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