[c++]代码库
#include<iostream>
#include<stdlib.h>
using namespace std;
#define Free 0 //空闲状态
#define Busy 1 //已用状态
#define OK 1 //完成
#define ERROR 0 //出错
#define MAX_length 640 //最大内存空间为640KB
typedef int Status;
int flag;
typedef struct freearea//定义一个空闲区说明表结构
{
long size; //分区大小
long address; //分区地址
int state; //状态
}ElemType;
// 线性表的双向链表存储结构
typedef struct DuLNode
{
ElemType data;
struct DuLNode *prior; //前趋指针
struct DuLNode *next; //后继指针
}
DuLNode,*DuLinkList;
DuLinkList block_first; //头结点
DuLinkList block_last; //尾结点
Status alloc(int);//内存分配
Status free(int); //内存回收
Status First_fit(int);//首次适应算法
Status Best_fit(int); //最佳适应算法
Status Worst_fit(int); //最差适应算法
void show();//查看分配
Status Initblock();//开创空间表
Status Initblock()//开创带头结点的内存空间链表
{
block_first=(DuLinkList)malloc(sizeof(DuLNode));
block_last=(DuLinkList)malloc(sizeof(DuLNode));
block_first->prior=NULL;
block_first->next=block_last;
block_last->prior=block_first;
block_last->next=NULL;
block_last->data.address=0;
block_last->data.size=MAX_length;
block_last->data.state=Free;
return OK;
}
//分配主存
Status alloc(int ch)
{
int request = 0;
cout<<"请输入需要分配的主存大小(单位:KB):";
cin>>request;
if(request<0 ||request==0)
{
cout<<"分配大小不合适,请重试!"<<endl;
return ERROR;
}
if(ch==2) //选择最佳适应算法
{
if(Best_fit(request)==OK) cout<<"分配成功!"<<endl;
else cout<<"内存不足,分配失败!"<<endl;
return OK;
}
if(ch==3) //选择最差适应算法
{
if(Worst_fit(request)==OK) cout<<"分配成功!"<<endl;
else cout<<"内存不足,分配失败!"<<endl;
return OK;
}
else //默认首次适应算法
{
if(First_fit(request)==OK) cout<<"分配成功!"<<endl;
else cout<<"内存不足,分配失败!"<<endl;
return OK;
}
}
//首次适应算法
Status First_fit(int request)
{
//为申请作业开辟新空间且初始化
DuLinkList temp=(DuLinkList)malloc(sizeof(DuLNode));
temp->data.size=request;
temp->data.state=Busy;
DuLNode *p=block_first->next;
while(p)
{
if(p->data.state==Free && p->data.size==request)
{//有大小恰好合适的空闲块
p->data.state=Busy;
return OK;
break;
}
if(p->data.state==Free && p->data.size>request)
{//有空闲块能满足需求且有剩余
temp->prior=p->prior;
temp->next=p;
temp->data.address=p->data.address;
p->prior->next=temp;
p->prior=temp;
p->data.address=temp->data.address+temp->data.size;
p->data.size-=request;
return OK;
break;
}
p=p->next;
}
return ERROR;
}
//最佳适应算法
Status Best_fit(int request)
{
int ch; //记录最小剩余空间
DuLinkList temp=(DuLinkList)malloc(sizeof(DuLNode));
temp->data.size=request;
temp->data.state=Busy;
DuLNode *p=block_first->next;
DuLNode *q=NULL; //记录最佳插入位置
while(p) //初始化最小空间和最佳位置
{
if(p->data.state==Free && (p->data.size>=request) )
{
if(q==NULL)
{
q=p;
ch=p->data.size-request;
}
else if(q->data.size > p->data.size)
{
q=p;
ch=p->data.size-request;
}
}
p=p->next;
}
if(q==NULL) return ERROR;//没有找到空闲块
else if(q->data.size==request)
{
q->data.state=Busy;
return OK;
}
else
{
temp->prior=q->prior;
temp->next=q;
temp->data.address=q->data.address;
q->prior->next=temp;
q->prior=temp;
q->data.address+=request;
q->data.size=ch;
return OK;
}
return OK;
}
//最差适应算法
Status Worst_fit(int request)
{
int ch; //记录最大剩余空间
DuLinkList temp=(DuLinkList)malloc(sizeof(DuLNode));
temp->data.size=request;
temp->data.state=Busy;
DuLNode *p=block_first->next;
DuLNode *q=NULL; //记录最佳插入位置
while(p) //初始化最大空间和最佳位置
{
if(p->data.state==Free && (p->data.size>=request) )
{
if(q==NULL)
{
q=p;
ch=p->data.size-request;
}
else if(q->data.size < p->data.size)
{
q=p;
ch=p->data.size-request;
}
}
p=p->next;
}
if(q==NULL) return ERROR;//没有找到空闲块
else if(q->data.size==request)
{
q->data.state=Busy;
return OK;
}
else
{
temp->prior=q->prior;
temp->next=q;
temp->data.address=q->data.address;
q->prior->next=temp;
q->prior=temp;
q->data.address+=request;
q->data.size=ch;
return OK;
}
return OK;
}
//主存回收
Status free(int flag)
{
DuLNode *p=block_first;
for(int i= 0; i <= flag; i++)
if(p!=NULL)
p=p->next;
else
return ERROR;
p->data.state=Free;
if(p->prior!=block_first && p->prior->data.state==Free)//与前面的空闲块相连
{
p->prior->data.size+=p->data.size;
p->prior->next=p->next;
p->next->prior=p->prior;
p=p->prior;
}
if(p->next!=block_last && p->next->data.state==Free)//与后面的空闲块相连
{
p->data.size+=p->next->data.size;
p->next->next->prior=p;
p->next=p->next->next;
}
if(p->next==block_last && p->next->data.state==Free)//与最后的空闲块相连
{
p->data.size+=p->next->data.size;
p->next=NULL;
}
return OK;
}
//显示主存分配情况
void show()
{
int flag = 0;
cout<<"\n主存分配情况:\n";
cout<<"++++++++++++++++++++++++++++++++++++++++++++++\n\n";
DuLNode *p=block_first->next;
cout<<"分区号\t起始地址\t分区大小\t状态\n\n";
while(p)
{
cout<<" "<<flag++<<"\t";
cout<<" "<<p->data.address<<"\t\t";
cout<<" "<<p->data.size<<"KB\t\t";
if(p->data.state==Free) cout<<"空闲\n\n";
else cout<<"已分配\n\n";
p=p->next;
}
cout<<"++++++++++++++++++++++++++++++++++++++++++++++\n\n";
}
//主函数
void main()
{
int ch;//算法选择标记
cout<<"请输入所使用的内存分配算法:\n";
cout<<"(1)首次适应算法\n(2)最佳适应算法\n(3)最差适应算法\n";
cin>>ch;
while(ch<1||ch>3)
{
cout<<"输入错误,请重新输入所使用的内存分配算法:\n";
cin>>ch;
}
Initblock(); //开创空间表
int choice; //操作选择标记
while(1)
{
show();
cout<<"请输入您的操作:";
cout<<"\n1: 分配内存\n2: 回收内存\n0: 退出\n";
cin>>choice;
if(choice==1) alloc(ch); // 分配内存
else if(choice==2) // 内存回收
{
int flag;
cout<<"请输入您要释放的分区号:";
cin>>flag;
free(flag);
}
else if(choice==0) break; //退出
else //输入操作有误
{
cout<<"输入有误,请重试!"<<endl;
continue;
}
}
}
初级程序员
by: 云代码会员 发表于:2016-12-28 20:23:20 顶(9) | 踩(9) 回复
这儿应该这样写吧
p->next->prior = p->prior;
p->prior->next = p->next;
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