RR算法代码实现： #include<> #define MAX 10 struct task_struct { char name[10]; /*进程名称*/ int number; /*进程编号*/ float come_time; /*到达时间*/ float run_begin_time; /*开始运行时间*/ float run_time; /*运行时间*/ float run_end_time; /*运行结束时间*/ int priority; /*优先级*/ int run_flag; /*调度标志*/ int start_flag; //是否为第一次开始调度 } tasks[MAX]; int counter; /*实际进程个数*/ int time_counter=0; int poutput(); /*调度结果输出*/ int time(); int charge();//判断是否所有的进程都被执行过 void main() { pinput(); printf("时间片轮转算法。\n\n"); time(); poutput(); } int time() { float time_temp=0; int i; int j=0; int k=0; struct task_struct copy_task[MAX];//备份 for(i=0; i<counter; i++) { copy_task[j++]=tasks[i];//对进程的初始化信息备份 } time_temp=tasks[0].come_time; while(charge()) { for(i=0; i<counter; i++) { if(tasks[i].come_time>time_temp) { time_temp=tasks[i].come_time; } if(tasks[i].run_flag==0)//该进程还未结束 { if(tasks[i].start_flag==0) //该条件成立则说明，该进程是第一次执行，记录开始执行时间 { tasks[i].run_begin_time=time_temp; tasks[i].start_flag=1; } if(tasks[i].run_time/time_counter>1)//至少有两倍的时间片未执行 { tasks[i].run_time=tasks[i].run_time-time_counter; time_temp=time_temp+time_counter; } else if(tasks[i].run_time-time_counter==0) { time_temp=time_temp+time_counter; tasks[i].run_end_time=time_temp; tasks[i].run_flag=1; tasks[i].run_time=copy_task[i].run_time; } else//仅剩下不足一倍的时间片 { time_temp=time_temp+tasks[i].run_time; tasks[i].run_end_time=time_temp; tasks[i].run_flag=1; tasks[i].run_time=copy_task[i].run_time; } } } } } int charge()//判断是否全部进程都执行完毕 { int k; int super_flag=0;//判断是否全部的进程都执行完毕 for(k=0; k<counter; k++) { if(tasks[k].run_flag==0) { super_flag=1; return super_flag; break; } else { super_flag=0; } } return super_flag; } int pinput() /*进程参数输入*/ { int i; printf("please input the process counter:\n"); scanf("%d",&counter); printf("please input the length of time:\n"); scanf("%d",&time_counter); for(i=0; i<counter; i++) { printf("******************************************\n"); printf("please input the process of %d th :\n",i+1); printf("please input the name:\n"); scanf("%s",tasks[i].name); printf("please input the number:\n"); scanf("%d",&tasks[i].number); printf("please input the come_time:\n"); scanf("%f",&tasks[i].come_time); printf("please input the run_time:\n"); scanf("%f",&tasks[i].run_time); printf("please input the priority:\n"); scanf("%d",&tasks[i].priority); tasks[i].run_begin_time=0; tasks[i].run_end_time=0; tasks[i].run_flag=0; //运行是否结束 tasks[i].start_flag=0;//是否首次被执行 } return 0; } int poutput() /*调度结果输出*/ { int i; float turn_round_time=0,f1,w=0; printf("进程名 进程号 到达时间 运行时间 开始时间 结束时间 优先级 周转时间\n"); for(i=0; i<counter; i++) { f1=tasks[i].run_end_time-tasks[i].come_time; turn_round_time+=f1; printf("%s\t%d\t%5.3f\t%5.3f\t%5.3f\t %5.3f\t %d\t %5.3f\n",tasks[i].name,tasks[i].number,tasks[i].come_time,tasks[i].run_time,tasks[i].run_begin_time,tasks[i].run_end_time,tasks[i].priority,f1); } printf("average_turn_round_timer=%5.2f\n",turn_round_time/counter); return 0; }