(八)作业调度

作业调度主要有FIFO,运算时间短的作业优先,优先数调度算法,响应比最高者优先调度算法,均衡调度算法
模拟最高响应比优先作业调度算法
输入:作业流文件,其中存储的是一系列要执行的作业,
每个作业包括三个数据项:
作业号、作业进入系统的时间(用一整数表示,如10:10,表示成1010)、估计执行时间(单位分)优先级(0级最高)
参数用空格隔开,下面是示例:
1 800 50
2 815 30
3 830 25
4 835 20
5 845 15
6 900 10
7 920 5
其中调度时刻为最后一个作业到达系统的时间!
输出作业号!进入内存的时间!每行输出一个作业信息
本程序包括:FIFO,运算时间短的作业优先,优先数调度算法,响应比最高者优先调度算法

作业调度
#include<stdio.h>
#include
<iostream.h>
#include
<iomanip.h>
#include
<string.h>

const int MAXJOB=50; //定义最大作业

//定义数据结构体
typedef struct node{
int number;
int reach_time;
int reach_hour;
int reach_minite;
int need_time;

int privilege;

float excellent;

int start_time;
int wait_time;

int visited;
}job;

job jobs[MAXJOB];
int quantity;

//初始化函数
void initial()
{
int i;

for(i=0;i<MAXJOB;i++){
jobs[i].number
=0;
jobs[i].reach_time
=0;
jobs[i].reach_hour
=0;
jobs[i].reach_minite
=0;

jobs[i].privilege
=0;

jobs[i].excellent
=0;

jobs[i].start_time
=0;
jobs[i].wait_time
=0;

jobs[i].visited
=0;
}
quantity
=0;
}

//重置作业数据函数
void reset()
{
int i;

for(i=0;i<MAXJOB;i++){
jobs[i].start_time
=0;
jobs[i].wait_time
=0;

jobs[i].visited
=0;
}

}

//读入作业数据函数
void readData()
{
FILE
*fp;
char fname[20];
int i;

cout
<<"请输入作业数据文件名:";
strcpy(fname,
"8job.txt");
cin
>>fname;

if((fp=fopen(fname,"r"))==NULL){
cout
<<"错误,文件打不开,请检查文件名:)"<<endl;
}
else{
while(!feof(fp)){
fscanf(fp,
"%d %d %d %d",&jobs[quantity].number,&jobs[quantity].reach_time,&jobs[quantity].need_time,&jo
bs[quantity].privilege);
jobs[quantity].reach_hour
=jobs[quantity].reach_time/100;
jobs[quantity].reach_minite
=jobs[quantity].reach_time%100;
quantity
++;
}
//输出初始作业数据
cout<<"输出初始作业数据"<<endl;
cout
<<"---------------------------------------------------------------"<<endl;
cout.setf(
2);
cout
<<setw(10)<<"作业号"<<setw(12)<<"到达时间"<<setw(14)<<"所需时间(分)"<<setw(14)<<"优先级(0>1)"<<endl;

for(i=0;i<quantity;i++){
cout
<<setw(10)<<jobs[i].number<<setw(12)<<jobs[i].reach_time<<setw(14)<<jobs[i].need_time<<setw(14)<<jobs[i].privil
ege
<<endl;
}
}

}

//FIFO算法
void FIFO()
{
int i;
int current_hour;
int current_minute;

int total_time=0;

//输出作业流
cout<<endl;
cout
<<endl<<"FIFO算法作业流"<<endl;
cout
<<"---------------------------------------------------------------"<<endl;
cout.setf(
2);
cout
<<setw(10)<<"作业号"<<setw(12)<<"到达时间"<<setw(12)<<"开始时间"<<setw(14)<<"周转时间(分)"<<endl;

current_hour
=jobs[0].reach_hour;
current_minute
=jobs[0].reach_minite;
for(i=0;i<quantity;i++){
jobs[i].start_time
=current_hour*100+current_minute;
jobs[i].wait_time
=(current_hour-jobs[i].reach_hour)*60+(current_minute-jobs[i].reach_minite)+jobs[i
].need_time;

cout
<<setw(10)<<jobs[i].number<<setw(12)<<jobs[i].reach_time<<setw(12)<<jobs[i].start_time<<setw(14)<<jobs[i].wait_
time
<<endl;

current_hour
=current_hour+(jobs[i].need_time+current_minute)/60;
current_minute
=(jobs[i].need_time+current_minute)%60;

total_time
+=jobs[i].wait_time;
}

cout
<<endl<<"总周转时间:"<<total_time<<" 平均周转时间:"<<total_time/quantity<<endl;
}


//运算时间短的作业优先算法
void shorter()
{
int i,j,p;
int current_hour;
int current_minute;
int current_need_time;

int total_time=0;

//输出作业流
cout<<endl;
cout
<<endl<<"时间短作业优先算法作业流(开始调度时刻为最后一个作业到达系统的时间)"<<endl;
cout
<<"------------------------------------------------------------------------"<<endl;
cout.setf(
2);
cout
<<setw(10)<<"作业号"<<setw(12)<<"到达时间"<<setw(14)<<"所需时间(分)"<<setw(12)<<"开始时间"<<setw(14)<<"周转时间(分)"<<endl;

current_hour
=jobs[quantity-1].reach_hour;
current_minute
=jobs[quantity-1].reach_minite;
for(i=0;i<quantity;i++){
current_need_time
=30000;
for(j=0;j<quantity;j++){
if((jobs[j].visited==0)&&(jobs[j].need_time<current_need_time)){
p
=j;
current_need_time
=jobs[j].need_time;
}
}

jobs[p].start_time
=current_hour*100+current_minute;
jobs[p].wait_time
=(current_hour-jobs[p].reach_hour)*60+(current_minute-jobs[p].reach_minite)+jobs[p
].need_time;

cout
<<setw(10)<<jobs[p].number<<setw(12)<<jobs[p].reach_time<<setw(14)<<jobs[p].need_time<<setw(12)<<jobs[p].start_
time
<<setw(14)<<jobs[p].wait_time<<endl;

current_hour
=current_hour+(jobs[p].need_time+current_minute)/60;
current_minute
=(jobs[p].need_time+current_minute)%60;

jobs[p].visited
=1;

total_time
+=jobs[p].wait_time;
}
cout
<<endl<<"总周转时间:"<<total_time<<" 平均周转时间:"<<total_time/quantity<<endl;
}

//优先数调度算法
void privilege()
{
int i,j,p;
int current_hour;
int current_minute;
int current_privilege;

int total_time=0;

//输出作业流
cout<<endl;
cout
<<endl<<"优先数调度算法作业流(开始调度时刻为最后一个作业到达系统的时间)"<<endl;
cout
<<"------------------------------------------------------------------------"<<endl;
cout.setf(
2);
cout
<<setw(10)<<"作业号"<<setw(12)<<"到达时间"<<setw(14)<<"优先级(0>1)"<<setw(12)<<"开始时间"<<setw(14)<<"周转时间(分)"<<endl;

current_hour
=jobs[quantity-1].reach_hour;
current_minute
=jobs[quantity-1].reach_minite;
for(i=0;i<quantity;i++){
current_privilege
=30000;
for(j=0;j<quantity;j++){
if((jobs[j].visited==0)&&(jobs[j].privilege<current_privilege)){
p
=j;
current_privilege
=jobs[j].privilege;
}
}
jobs[p].start_time
=current_hour*100+current_minute;
jobs[p].wait_time
=(current_hour-jobs[p].reach_hour)*60+(current_minute-jobs[p].reach_minite)+jobs[p
].need_time;

cout
<<setw(10)<<jobs[p].number<<setw(12)<<jobs[p].reach_time<<setw(14)<<jobs[p].privilege<<setw(12)<<jobs[p].start_
time
<<setw(14)<<jobs[p].wait_time<<endl;

current_hour
=current_hour+(jobs[p].need_time+current_minute)/60;
current_minute
=(jobs[p].need_time+current_minute)%60;

jobs[p].visited
=1;

total_time
+=jobs[p].wait_time;
}
cout
<<endl<<"总周转时间:"<<total_time<<" 平均周转时间:"<<total_time/quantity<<endl;
}

//响应比最高者优先调度算法
void excellent()
{
int i,j,p;
int current_hour;
int current_minute;
float current_excellent;

int total_time=0;
//输出作业流
cout<<endl;
cout
<<endl<<"响应比高者优先调度算法作业流(开始调度时刻为最后一个作业到达系统的时间)"<<endl;
cout
<<"------------------------------------------------------------------------"<<endl;
cout.setf(
2);
cout
<<setw(10)<<"作业号"<<setw(12)<<"到达时间"<<setw(12)<<"开始时间"<<setw(14)<<"周转时间(分)"<<endl;

current_hour
=jobs[quantity-1].reach_hour;
current_minute
=jobs[quantity-1].reach_minite;
for(i=0;i<quantity;i++){
current_excellent
=-1;
for(j=0;j<quantity;j++){
if(jobs[j].visited==0){
jobs[j].wait_time
=(current_hour-jobs[j].reach_hour)*60+(current_minute-jobs[j].reach_minite);
jobs[j].excellent
=(float)(jobs[j].wait_time/jobs[j].need_time);
}
}

for(j=0;j<quantity;j++){
if((jobs[j].visited==0)&&(jobs[j].excellent>current_excellent)){
p
=j;
current_excellent
=jobs[j].excellent;
}
}
jobs[p].start_time
=current_hour*100+current_minute;
jobs[p].wait_time
=(current_hour-jobs[p].reach_hour)*60+(current_minute-jobs[p].reach_minite)+jobs[p
].need_time;

cout
<<setw(10)<<jobs[p].number<<setw(12)<<jobs[p].reach_time<<setw(12)<<jobs[p].start_time<<setw(14)<<jobs[p].wait_
time
<<endl;

current_hour
=current_hour+(jobs[p].need_time+current_minute)/60;
current_minute
=(jobs[p].need_time+current_minute)%60;

jobs[p].visited
=1;

total_time
+=jobs[p].wait_time;
}
cout
<<endl<<"总周转时间:"<<total_time<<" 平均周转时间:"<<total_time/quantity<<endl;

}

//显示版权信息函数
void version()
{
cout
<<endl<<endl;

cout
<<" ┏━━━━━━━━━━━━━━━━━━━━━━━┓"<<endl;
cout
<<" ┃     作业调度模拟系统        ┃"<<endl;
cout
<<" ┠───────────────────────┨"<<endl;
cout
<<" ┃   (c)All Right Reserved Neo       ┃"<<endl;
cout
<<" ┃      sony006@163.com          ┃"<<endl;
cout
<<" ┃     version 2004 build 1122      ┃"<<endl;
cout
<<" ┗━━━━━━━━━━━━━━━━━━━━━━━┛"<<endl;

cout
<<endl<<endl;
}

void main()
{
version();
initial();

readData();

FIFO();

shorter();
reset();

privilege();
reset();

excellent();


}

 

 

posted @ 2010-12-04 14:09  聊聊IT那些事  阅读(641)  评论(0编辑  收藏  举报