1、存储器的分配及回收算法实现实验容:模拟操作系统的主存分配,运用可变分区的存储管理算法设计主存分配和回收程序,并不实际启动装入作业。采用最先适应法、最佳适应法、最坏适应法分配主存空间。当一个新作业要求装入主存时,必须查空闲区表,从中找出一个足够大的空闲区。若找到的空闲区大于作业需要量,这是应把它分成二部分,一部分为占用区,加一部分又成为一个空闲区。当一个作业撤离时,归还的区域如果与其他空闲区相邻,则应合并成一个较大的空闲区,登在空闲区表中。运行所设计的程序,输出有关数据结构表项的变化和存的当前状态。实验要求:详细描述实验设计思想、程序结构及各模块设计思路;详细描述程序所用数据结构及算法;明确给出
2、测试用例和实验结果;为增加程序可读性,在程序中进行适当注释说明;认真进行实验总结,包括:设计中遇到的问题、解决方法与收获等;实验报告撰写要求结构清晰、描述准确逻辑性强;【实验过程记录(源程序、测试用例、测试结果及心得体会等)】#include#include#define NULL 0#define LEN1 sizeof(struct job)/作业大小#define LEN2 sizeof(struct idle)/空闲区单元大小#define LEN3 sizeof(struct allocate)/已分配区单元大小int SPACE=100;/定义存空间大小int ORIGI=1;/定
3、义存起始地址struct job/定义作业 int name; int size; int address;struct idle/定义空闲区 int size; int address; struct idle *next;struct allocate/定义已分配区 int name; int size; int address; struct allocate *next;struct idle *creatidle(void)/建立空闲表 struct idle *head; struct idle *p1; p1=(struct idle*)malloc(LEN2); p1-size
4、=SPACE; p1-address=ORIGI; p1-next=NULL; head=p1; return(head);struct allocate *creatallocate(void)/建立已分配表 struct allocate *head; head=NULL; return(head);struct job *creatjob(void)/建立作业 struct job *p; p=(struct job*)malloc(LEN1); printf(请输入要运行的作业的名称与大小:n); scanf(%d%d,&p-name,&p-size); return(p);struc
5、t idle *init1(struct idle *head,struct job *p)/首次适应算法分配存 struct idle *p0,*p1; struct job *a; a=p; p0=head; p1=p0; while(p0-next!=NULL&p0-sizesize) p0=p0-next; if(p0-sizea-size) p0-size=p0-size-a-size; a-address=p0-address; p0-address=p0-address+a-size; else printf(无法分配n); return(head);struct idle *i
6、nit2(struct idle *head,struct job *p)/最优 struct idle *p0,*p1; struct job *a; a=p; p0=head; if(p0=NULL) printf(无法进行分配!n); while(p0-next!=NULL&p0-sizesize) p0=p0-next; if(p0-sizea-size) p1=p0; p0=p0-next; else printf(无法分配!n); while(p0!=NULL) if(p0-sizep1-size) p0=p0-next; else if(p0-sizesize)&(p0-size
7、a-size) p1=p0; p0=p0-next; p1-size=(p1-size)-(a-size); a-address=p1-address; p1-address=(p1-address)+(a-size); return(head);struct idle *init3(struct idle *head,struct job *p)/最差 struct idle *p0,*p1; struct job *a; a=p; p0=head; if(p0=NULL) printf(无法进行分配!); while(p0-next!=NULL&p0-sizesize) p0=p0-nex
8、t; if(p0-sizea-size) p1=p0; p0=p0-next; else printf(无法分配!n); while(p0!=NULL) if(p0-sizesize) p0=p0-next; else if(p0-sizep1-size) p1=p0; p0=p0-next; p1-size=(p1-size)-(a-size); a-address=p1-address; p1-address=(p1-address)+(a-size); return(head);struct allocate *reallocate(struct allocate *head,struc
9、t job *p)/重置已分配表 struct allocate *p0,*p1,*p2;/*p3,*p4; struct job *a; /struct idle *b; a=p; p0=(struct allocate*)malloc(LEN3); p1=(struct allocate*)malloc(LEN3); if(head=NULL) p0-name=a-name; p0-size=a-size; p0-address=ORIGI; p0-next=NULL; head=p0; Else p1-name=a-name; p1-size=a-size; p1-address=a-a
10、ddress; p2=head; while(p2-next!=NULL) p2=p2-next; p2-next=p1; p1-next=NULL; return(head);struct allocate *del(struct allocate *head,struct job *p)/删除指定的作业 struct job *p1; struct allocate *p2,*p3; p2=head; p1=p; while(p1-name!=p2-name)&(p2-next!=NULL) p3=p2; p2=p2-next; if(p1-name=p2-name) if(p2=head
11、) head=p2-next; else p3-next=p2-next; return(head);struct job *delejob(struct allocate *head) struct job *p1; struct allocate *p2; int num; p1=(struct job*)malloc(LEN1); printf(请输入要删除的作业的名称n); scanf(%d,&num); p2=head;while(num!=p2-name)&(p2-next!=NULL) p2=p2-next; if(num=p2-name) p1-name=p2-name; p1
12、-size=p2-size; p1-address=p2-address; return(p1);struct idle *unite(struct job *p,struct idle *head)/合并相邻存空间 struct idle *p1,*p2,*p3; struct job *m; m=p; p1=head; p3=(struct idle*)malloc(LEN2); while(p1-addressaddress)&(p1-next!=NULL) p2=p1; p1=p1-next; if(m-addressaddress) if(head=p1) p3-size=m-siz
13、e; p3-address=m-address; if(p1-address-p3-address)=(p3-size) p1-address=p3-address; p1-size=p3-size+p1-size; else head=p3; p3-next=p1; else p3-size=m-size; p3-address=m-address; if(p1-address-p3-address)=(p3-size) p1-address=p3-address; p1-size=p3-size+p1-size; if(p3-address-p2-address)=(p2-size) p2
14、-size=p1-size+p2-size; p2-next=p1-next; else p2-next=p1; else if(p3-address-p2-address)=(p2-size) p2-size=p2-size+p3-size; else p3-next=p1; p2-next=p3; else p3-size=m-size; p3-address=m-address; if(p3-address-p1-address)=(p1-size) p1-size=p1-size+p3-size; else p1-next=p3; p3-next=NULL; return(head);
15、void print(struct idle *h1,struct allocate *h2) struct idle *m1; struct allocate *n1; m1=h1; n1=h2; if(m1=NULL) printf(空闲表为空!n); else while(m1!=NULL) printf(空闲单元地址为%d,其大小为%dn,m1-address,m1-size); m1=m1-next; if(n1=NULL) printf(已分配表为空!n); else while(n1!=NULL) printf(已分配单元地址为%d,其大小为%d,其名称为%dn,n1-addre
16、ss,n1-size,n1-name); n1=n1-next; void FF(void) struct idle *p1; struct allocate *p2; struct job *p,*q; int y=1; int n=0; int a=1; int c; p1=creatidle(); p2=creatallocate(); printf(初始情况为:n); print(p1,p2); while(a=y) printf(请输入要进行的操作:1.建立作业 2.删除作业 3.结束操作n); scanf(%d,&c); switch(c) case 1: p=creatjob()
17、; p1=init1(p1,p); p2=reallocate(p2,p); print(p1,p2);break; case 2: q=delejob(p2); p2=del(p2,q); /p2=reallocate(p2,q); p1=unite(q,p1); print(p1,p2);break; case 3: y=0;break; void BF(void) struct idle *p1; struct allocate *p2; struct job *p,*q; int y=1; int n=0; int a=1; int c; p1=creatidle(); p2=crea
18、tallocate(); printf(初始情况为:n); print(p1,p2); while(a=y) printf(请输入要进行的操作:1.建立作业 2.删除作业 3.结束操作n); scanf(%d,&c); switch(c) case 1: p=creatjob(); p1=init2(p1,p); p2=reallocate(p2,p); print(p1,p2);break; case 2: q=delejob(p2); p2=del(p2,q); /p2=reallocate(p2,q); p1=unite(q,p1); print(p1,p2);break; case 3
19、: y=0;break; void WF(void) struct idle *p1; struct allocate *p2; struct job *p,*q; int y=1; int n=0; int a=1; int c; p1=creatidle(); p2=creatallocate(); printf(初始情况为:n); print(p1,p2); while(a=y) printf(请输入要进行的操作:1.建立作业 2.删除作业 3.结束操作n); scanf(%d,&c); switch(c) case 1: p=creatjob(); p1=init3(p1,p); p2=reallocate(p2,p); print(p1,p2);break; case 2: q=delejob(p2); p2=del(p2,q); /p2=reallocate(p2,q); p1=unite(q,p1); print(p1,p2);break; case 3: y=0;break; 运行结果如下1.首次适应算法建立作业2.最优适应算法建立作业3.最差适应算法建立并删除作业
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