拜托哪位大侠帮我用C/C++实现银行家算法模拟??急急
进程名_NAME〔5〕
要求资源数目_COMMAND〔M〕
还需要资源数目_NEED〔M〕
已分配资源数目_ALLO〔M〕
2.编写三个算法,分别用以完成:
A,申请资源;
B,显示资源;
C,释放资源.
注意:动态完成
拜托注释清楚 要不我笨看不明白
课程设计的作业 还要答辩的~
555555
最新回答
七月别困
2024-04-19 01:52:54
1. 安全状态: 在某时刻系统中所有进程可以排列一个安全序列:{P1,P2,`````Pn},刚称此时,系统是安全的.
所谓安全序列{P1,P2,`````Pn}是指对于P2,都有它所需要剩余资源数量不大于系统掌握的剩余的空间资源与所有Pi(j<i)所占的资源之和.
2.不安全状态可能产生死锁.
目前状态 最大需求 尚需
P1 3 9 6
P2 5 10 5
P3 2 4 2
在每一次进程中申请的资源,判定一下,若实际分配的话,之后系统是否安全.
3.银行家算法的思路:
1),进程一开始向系统提出最大需求量.
2),进程每次提出新的需求(分期贷款)都统计是否超出它事先提出的最大需求量.
3),若正常,则判断该进程所需剩余剩余量(包括本次申请)是否超出系统所掌握的
剩余资源量,若不超出,则分配,否则等待.
4.银行家算法的数据结构.
1),系统剩余资源量A[n],其中A[n]表示第I类资源剩余量.
2),各进程最大需求量,B[m][n],其中B[j][i]表示进程j对i
类资源最大需求.
3),已分配资源量C[m][n],其中C[j][i]表示系统j程已得到的第i资源的数量.
4),剩余需求量.D[m][n],其中D[j][i]对第i资源尚需的数目.
5.银行家算法流程:当某时刻,某进程时,提出新的资源申请,系统作以下操作:
1),判定E[n]是否大于D[j][n],若大于,表示出错.
2),判定E[n]是否大于系统剩余量A[n],若大于,则该进程等待.
3),若以上两步没有问题,尝试分配,即各变量作调整.
4),按照安全性推测算法,判断,分配过后,系统是否安全,若安全,则实际分配,否则,撤消分配,让进程等待.
6."安全性检测"算法
1),先定义两个变量,用来表示推算过程的数据.
F[n]=A[n],表示推算过程中,系统中剩余资源量的变化.
J[n]=False表示推算过程中各进程是否假设"已完成"
2),流程:
在"剩余"的进程中(在推算)过程中,一些进程假设已完成,查找D[j][n]<=F[n]的进程,找到后令J[j]=True
(假设该进程完成),F[n]+D[j][n](该进程所占资源释放),如此循环执行.
若最后,所有的F[n]=True(在推算过程中,所有进程均可以完成),则表示(分配过后)系统是安全的,否则系统是不安全的.
#include "malloc.h"
#include "stdio.h"
#define alloclen sizeof(struct allocation)
#define maxlen sizeof(struct max)
#define avalen sizeof(struct available)
#define needlen sizeof(struct need)
#define finilen sizeof(struct finish)
#define pathlen sizeof(struct path)
struct allocation
{
int value;
struct allocation *next;
};
struct max
{
int value;
struct max *next;
};
struct available
{
int value;
struct available *next;
};
struct need
{
int value;
struct need *next;
};
struct path
{
int value;
struct path *next;
};
struct finish
{
int stat;
struct finish *next;
};
int main()
{
int row,colum,status=0,i,j,t,temp,processtest;
struct allocation *allochead,*alloc1,*alloc2,*alloctemp;
struct max *maxhead,*maxium1,*maxium2,*maxtemp;
struct available *avahead,*available1,*available2,*availabletemp,*workhead,*work1,*work2,*worktemp,*worktemp1;
struct need *needhead,*need1,*need2,*needtemp;
struct finish *finihead,*finish1,*finish2,*finishtemp;
struct path *pathhead,*path1,*path2,*pathtemp;
char c;
printf("\nPlease enter the type of sources the system has:\n");
scanf("%d",&colum);
printf("Please enter the number of processes now in the memory:\n");
scanf("%d",&row);
printf("Please enter the allocation array:\n");
for(i=0;i<row;i++)
{
printf("The allocation for process p%d:\n",i);
for (j=0;j<colum;j++)
{
printf("The type %c system resource allocated:\n",'A'+j);
if(status==0)
{
allochead=alloc1=alloc2=(struct allocation*)malloc(alloclen);
alloc1->next=alloc2->next=NULL;
scanf("%d",&allochead->value);
status++;
}
else
{
alloc2=(struct allocation *)malloc(alloclen);
scanf("%d,%d",&alloc2->value);
if(status==1)
{
allochead->next=alloc2;
status++;
}
alloc1->next=alloc2;
alloc1=alloc2;
}
}
}
alloc2->next=NULL;
status=0;
printf("Please enter the max array:\n");
for(i=0;i<row;i++)
{
printf("The max needed from process p%d:\n",i);
for (j=0;j<colum;j++)
{
printf("The type %c maxium system resource may needed:\n",'A'+j);
if(status==0)
{
maxhead=maxium1=maxium2=(struct max*)malloc(maxlen);
maxium1->next=maxium2->next=NULL;
scanf("%d",&maxium1->value);
status++;
}
else
{
maxium2=(struct max *)malloc(maxlen);
scanf("%d,%d",&maxium2->value);
if(status==1)
{
maxhead->next=maxium2;
status++;
}
maxium1->next=maxium2;
maxium1=maxium2;
}
}
}
maxium2->next=NULL;
status=0;
printf("Please enter the available array now exists in the system:\n");
for (j=0;j<colum;j++)
{
printf("The type %c available system resource number:\n",'A'+j);
if(status==0)
{
avahead=available1=available2=(struct available*)malloc(avalen);
workhead=work1=work2=(struct available*)malloc(avalen);
available1->next=available2->next=NULL;
work1->next=work2->next=NULL;
scanf("%d",&available1->value);
work1->value=available1->value;
status++;
}
else
{
available2=(struct available*)malloc(avalen);
work2=(struct available*)malloc(avalen);
scanf("%d,%d",&available2->value);
work2->value=available2->value;
if(status==1)
{
avahead->next=available2;
workhead->next=work2;
status++;
}
available1->next=available2;
available1=available2;
work1->next=work2;
work1=work2;
}
}
available2->next=NULL;
work2->next=NULL;
status=0;
alloctemp=allochead;
maxtemp=maxhead;
for(i=0;i<row;i++)
for (j=0;j<colum;j++)
{
if(status==0)
{
needhead=need1=need2=(struct need*)malloc(needlen);
need1->next=need2->next=NULL;
need1->value=maxtemp->value-alloctemp->value;
status++;
}
else
{
need2=(struct need *)malloc(needlen);
need2->value=(maxtemp->value)-(alloctemp->value);
if(status==1)
{
needhead->next=need2;
status++;
}
need1->next=need2;
need1=need2;
}
maxtemp=maxtemp->next;
alloctemp=alloctemp->next;
}
need2->next=NULL;
status=0;
for(i=0;i<row;i++)
{
if(status==0)
{
finihead=finish1=finish2=(struct finish*)malloc(finilen);
finish1->next=finish2->next=NULL;
finish1->stat=0;
status++;
}
else
{
finish2=(struct finish*)malloc(finilen);
finish2->stat=0;
if(status==1)
{
finihead->next=finish2;
status++;
}
finish1->next=finish2;
finish1=finish2;
}
}
finish2->next=NULL; /*Initialization compleated*/
status=0;
processtest=0;
for(temp=0;temp<row;temp++)
{
alloctemp=allochead;
needtemp=needhead;
finishtemp=finihead;
worktemp=workhead;
for(i=0;i<row;i++)
{
worktemp1=worktemp;
if(finishtemp->stat==0)
{
for(j=0;j<colum;j++,needtemp=needtemp->next,worktemp=worktemp->next)
if(needtemp->value<=worktemp->value)
processtest++;
if(processtest==colum)
{
for(j=0;j<colum;j++)
{
worktemp1->value+=alloctemp->value;
worktemp1=worktemp1->next;
alloctemp=alloctemp->next;
}
if(status==0)
{
pathhead=path1=path2=(struct path*)malloc(pathlen);
path1->next=path2->next=NULL;
path1->value=i;
status++;
}
else
{
path2=(struct path*)malloc(pathlen);
path2->value=i;
if(status==1)
{
pathhead->next=path2;
status++;
}
path1->next=path2;
path1=path2;
}
finishtemp->stat=1;
}
else
{
for(t=0;t<colum;t++)
alloctemp=alloctemp->next;
finishtemp->stat=0;
}
}
else
for(t=0;t<colum;t++)
{
needtemp=needtemp->next;
alloctemp=alloctemp->next;
}
processtest=0;
worktemp=workhead;
finishtemp=finishtemp->next;
}
}
path2->next=NULL;
finishtemp=finihead;
for(temp=0;temp<row;temp++)
{
if(finishtemp->value==0)
{
printf("\nWARNING,the system is in nonsafe status!\n");
exit(0);
}
finishtemp=finishtemp->next;
}
printf("\nThe system is in safe status!\n");
printf("\nThe safe sequence is: \n");
do
{
printf("p%d ",pathhead->value);
}
while(pathhead=pathhead->next);
}
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