介绍

list.h

#ifndef _List_h_
#define _List_h_#include "Data.h"//*******           链表            *******//
Status InitLinkList(LinkList *L);
void PCBAssign(PCBType *e1, PCBType e2);
Status GetElemt_L(LinkList L,int i,PCBType *e);
Status ListInsert_L(LinkList L,PCBType e);
Status ListDelete_L(LinkList L,int i,PCBType *e);//******         动态顺序表           ******//
void PartiAssign(PartiType *e1, PartiType e2);
Status InitList_Sq(SqList *L);
Status ListInsert_Sq(SqList *L,int i,PartiType e);
Status ListDelete_Sq(SqList *L,int i,PartiType *e);#endif

MemoryManage.h

#ifndef _MemoryManage_h_
#define _MemoryManage_h_#include "List.h"//*****         PCB链表操作        *****//
Status InsertProcess(LinkList Q,PCBType e);
Status DeleteProsess(LinkList Q,int i,PCBType *e);
//*****         分区表操作        *****//
Status InsertTable(SqList *L, int i, PartiType e);
Status DeleteTable(SqList *L, int i, PartiType *e);
int SelectPart(PCB* pPCB, SqList *pPartTable, AllocatStrategy AS);
int MallocMemory(PCB *pe, SqList *pPartTable,int i);
void SearchSpace(PCBList PCBdata, SqList *partTable, AllocatStrategy AS);
void FreeMemory(int pos, SqList *pPartTable);
void InitAllocation(PCBList PCBdata, PartTable *partTable, AllocatStrategy AS);
void PrintProQueue(LinkList L);
void PrintPartTable(PartTable L);#endif

实现

list.c

#include "List.h"Status InitLinkList(LinkList *L)
{*L = (LinkList)malloc(sizeof(LNode));strcpy((*L)->data.Name, "");(*L)->Next = NULL;return OK;
}void PCBAssign(PCBType *e1, PCBType e2)
{strcpy(e1->Name,e2.Name);e1->DistbutSt = e2.DistbutSt;e1->MemorySize = e2.MemorySize;e1->StartAddress = e2.StartAddress;
}Status GetElemt_L(LinkList L,int i,PCBType *e)
{LinkList p = L->Next;	//指向第j个结点int j = 1;				//从第一个开始往后找while ( p && j < i )	//p不为空且j < i{p = p->Next;++j;}						//p为空，说明链表循环结束，也没有到第i个结点   j==iif (!p || j > i)		//因为此处对i   没有做判断   如果 i==0  或 负数  条件成立//对于 i == j == 1 的情况则不用循环正好  返回{return ERROR;}*e = p->data;			//通过寻址改变了 该地址内存中元素的值return OK;
}
//链表中按照优先级：从大到小排序插入
Status ListInsert_L(LinkList L,PCBType e)	//这样修改应该不对 p = *L出错
{LinkList p = L, s;while (p->Next)	p = p->Next;s = (LinkList)malloc(sizeof(LNode));PCBAssign(&s->data, e);s->Next = p->Next;p->Next = s;return OK;
}
//链表中头部删除
Status ListDelete_L(LinkList L,int i,PCBType *e)
{LinkList p = L, q;int j = 0;while (p->Next && j < i-1){p = p->Next; ++j;}if(!p->Next || j > i - 1)return ERROR;q = p->Next;p->Next = q->Next;PCBAssign(e, q->data);free(q);return OK;
}//           初始化         ///
void PartiAssign(PartiType *e1, PartiType e2)
{e1->PartitionSize = e2.PartitionSize;e1->PartStartAddr = e2.PartStartAddr;strcpy(e1->Name, e2.Name);
}Status InitList_Sq(SqList *L)
{//构造一个空的线性表LL->elem = (PartiType *)malloc((LIST_INIT_SIZE)*sizeof(PartiType));if(!L->elem) return ERROR;        //存储分配失败L->length = 0;                 //空表长度为0L->listsize = LIST_INIT_SIZE;  //初始存储的容量return OK;
}//在顺序线性表L中第i个位置之前插入新的元素e
Status ListInsert_Sq(SqList *L,int i,PartiType e)
{//在顺序线性表L中第i个位置之前插入新的元素e//i的合法值为1 <= i <= ListLength_Sq(L)+1PartiType *q, *p, *newbase;if(i < 1 || i > L->length + 1 ) return ERROR;     //i值不合法if(L->length >= L->listsize){               //当前存储空间已满，增加分配newbase = (PartiType *)realloc(L->elem,(L->listsize + LISTINCREMENT)*sizeof(PartiType));if(!newbase) return ERROR;				//存储分配失败L->elem = newbase;						//新基址L->listsize += LISTINCREMENT;			//增加存储容量} q = &(L->elem[i - 1]);			         	//q为插入位置for(p = &(L->elem[L->length-1]);p >= q; --p)PartiAssign((p+1),*p); 					//插入位置及之后的元素右移PartiAssign(q ,e);							//插入eL->length++;return OK;
}//在顺序线性表L中删除第i个元素，并用e返回其值
Status ListDelete_Sq(SqList *L,int i,PartiType *e)
{//在顺序线性表L中删除第i个元素，并用e返回其值//i的合法值为1 <= i <= ListLength_Sq(L)PartiType *p,*q;if((i < 1) || (i > L->length))	return ERROR;							 //i值不合法p = &(L->elem[i-1]);						 //p为被删除元素的位置PartiAssign(e, *p);							 //将被删除元素的值赋给e （待定）q = L->elem + L->length-1;					 //移动到表尾元素的位置for (++p;p<=q;++p)PartiAssign((p-1), *p);					 //被删除元素之后的元素左移L->length--;return OK;
}

 

#include "MemoryManage.h"
extern int CF_i;//*****         PCB链表操作        *****//
Status InsertProcess(LinkList Q,PCBType e)
{return ListInsert_L(Q, e);
}Status DeleteProsess(LinkList Q,int i,PCBType *e)
{return ListDelete_L(Q ,i,e);
}//*****         分区表操作        *****//
Status InsertTable(SqList *L, int i, PartiType e) 
{return ListInsert_Sq(L,i, e);
}Status DeleteTable(SqList *L, int i, PartiType *e)
{return ListDelete_Sq(L, i, e);
}//返回第几个内存块，从1开始，若返回0，则代表错误
int SelectPart(PCB* pPCB, SqList *pPartTable,AllocatStrategy AS)
{int i;int BestArr[20] = {0}, k = 0, min = 500, min_i = -1;if(AS == FirstPriority){for (i = 0; i < pPartTable->length; ++i)if(!strcmp(pPartTable->elem[i].Name, "") && pPartTable->elem[i].PartitionSize >= pPCB->MemorySize)return i + 1;}else if(AS == BestAdapt){以下补充   /for(i = 0; i < pPartTable->length; ++i){if(!strcmp(pPartTable->elem[i].Name, "") && pPartTable->elem[i].PartitionSize >= pPCB->MemorySize)if(pPartTable->elem[i].PartitionSize - pPCB->MemorySize < min){min = pPartTable->elem[i].PartitionSize - pPCB->MemorySize;min_i = i;}}return min_i+1;}else if(AS == CycleFirst){int flag = 0;以下补充   /for(i = CF_i; i < pPartTable->length; i = (i+1)%(pPartTable->length)){if(!strcmp(pPartTable->elem[i].Name, "") && pPartTable->elem[i].PartitionSize >= pPCB->MemorySize){CF_i = (i+1)%pPartTable->length;return i + 1;}if(flag && i == CF_i){break;}if(i == CF_i){flag = 1;}}return 0;}else{printf("算法选择有误！\n");}return ERROR;
}//通过SelectPart查找是否存在可以分配的分区，在main函数中进行调用本方法进行内存的分配
int MallocMemory(PCB *pe, SqList *pPartTable,int i)
{PartiType se = {0, 0, {0}};以下补充   ///修改PCBpe->DistbutSt = Allocated;pe->StartAddress = pPartTable->elem[i].PartStartAddr;if(pPartTable->elem[i].PartitionSize == pe->MemorySize){strcpy(pPartTable->elem[i].Name, pe->Name);} else {//修改分区使用说明表strcpy(pPartTable->elem[i].Name, "");pPartTable->elem[i].PartitionSize -= pe->MemorySize;pPartTable->elem[i].PartStartAddr += pe->MemorySize;//新建一个表目, 并插入分区表使用说明表strcpy(se.Name, pe->Name);se.PartitionSize = pe->MemorySize;se.PartStartAddr = pe->StartAddress;InsertTable(pPartTable, i+1, se);}return OK;
}void InitAllocation(PCBList PCBdata, PartTable *pPartTable,AllocatStrategy AS)
{LNode *p;int pos;p = PCBdata->Next;while (p){if(p->data.DistbutSt == Unallocated){pos = SelectPart(&(p->data), pPartTable, AS);//从1开始if(pos){MallocMemory( &(p->data), pPartTable, pos - 1);}}p = p->Next;}
}//回收指定位置的内存空间
void FreeMemory(int pos, SqList *pPartTable)//没考虑  pos为0情况，没考虑删除后修改起始地址情况
{PartiType se = {0, 0, {0}};int flag = 0;以下补充   /if(pos != pPartTable->length-1){//为后一块分配if(!strcmp(pPartTable->elem[pos+1].Name, "")){strcpy(pPartTable->elem[pos].Name, "");pPartTable->elem[pos].PartitionSize += pPartTable->elem[pos+1].PartitionSize;strcpy(se.Name, pPartTable->elem[pos+1].Name);se.PartitionSize = pPartTable->elem[pos+1].PartitionSize;se.PartStartAddr = pPartTable->elem[pos+1].PartStartAddr;DeleteTable(pPartTable, pos+1, &se);flag = 1;}}if(pos != 0){//为前一块分配if(!strcmp(pPartTable->elem[pos-1].Name, "")){strcpy(pPartTable->elem[pos-1].Name, "");pPartTable->elem[pos-1].PartitionSize += pPartTable->elem[pos].PartitionSize;strcpy(se.Name, pPartTable->elem[pos-1].Name);se.PartitionSize = pPartTable->elem[pos-1].PartitionSize;se.PartStartAddr = pPartTable->elem[pos-1].PartStartAddr;DeleteTable(pPartTable, pos-1, &se);flag = 1;}}if(!flag){strcpy(pPartTable->elem[pos].Name, "");}
}void SearchSpace(PCBList PCBdata, SqList *partTable, AllocatStrategy AS)
{int pos;LNode *p;p = PCBdata->Next;while (p){if(p->data.DistbutSt == Unallocated){pos = SelectPart(&(p->data), partTable, AS);//从1开始if(pos){MallocMemory(&(p->data), partTable, pos - 1);}}p = p->Next;}}void PrintProQueue(LinkList L)
{int i = 0;L = L->Next;printf(" ----------------------------------------\n");printf("|进程名 | 起始位置 | 申请大小 | 是否分配 |\n");while(L){printf("|  %s   |  %4d    |  %4d    |  %4s    |\n",L->data.Name, L->data.StartAddress, L->data.MemorySize, L->data.DistbutSt == Allocated?  "是" : "否");L = L->Next;}printf(" ----------------------------------------\n");
}void PrintPartTable(PartTable L)
{int i = 0, j = 0;printf(" ----------------------------------------\n");printf("|分区号 | 起始位置 | 分区大小 | 是否分配 |\n");for (i = 0; i < L.length; ++i)printf("|  %2d   |  %4d    |  %4d    |  %4s    |\n",i + 1 , L.elem[i].PartStartAddr, L.elem[i].PartitionSize , strcmp(L.elem[i].Name, "") ? L.elem[i].Name :"否");printf(" ----------------------------------------\n");
}

main

#include "MemoryManage.h"/*实验06 动态分区分配
*/int CF_i;void InputPCBData(PCBList * pPCBdata)
{PCBType e = {{0}, 0, 0, Unallocated};strcpy(e.Name,"P1");e.MemorySize = 16;InsertProcess(*pPCBdata,e);strcpy(e.Name,"P2");e.MemorySize = 32;InsertProcess(*pPCBdata,e);strcpy(e.Name,"P3");e.MemorySize = 48;InsertProcess(*pPCBdata,e);strcpy(e.Name,"P4");e.MemorySize = 96;InsertProcess(*pPCBdata,e);strcpy(e.Name,"P5");e.MemorySize = 100;InsertProcess(*pPCBdata,e);
}void SetFixedZone(PartTable * pPartdata)
{PartiType se = {0, 0, {0}};se.PartStartAddr = 16;se.PartitionSize = 512 - 16;strcpy(se.Name, "");InsertTable(pPartdata, 1, se);
}
//0 - 15Kb 操作系统占用  总大小512KB
int main(void)
{PCBList PCBdata;		//PCBdata里面存放原始PCB数据PartTable partTable;	//分区表char PcbName[NAME_MAXSIZE] = {0}, choice;PCBType PCBe = {{0}, 0, 0, Unallocated};PartiType Parte = {0, 0};PCBType *pcb = NULL;LNode *p; AllocatStrategy AS = CycleFirst; //FirstPriority, BestAdapt, CycleFirst//AllocatStrategy AS = BestAdapt;int i, size, pos;//分区表InitList_Sq(&partTable);SetFixedZone(&partTable);//进程表InitLinkList(&PCBdata);InputPCBData(&PCBdata);//初始化InitAllocation(PCBdata, &partTable, AS);CF_i = 0;PrintProQueue(PCBdata);PrintPartTable(partTable);while(true){system("cls");PrintProQueue(PCBdata);PrintPartTable(partTable);printf(" ================================================\n");printf("|           1.结 束 进 程                        |\n");printf("|           2.添 加 进 程                        |\n");printf("|           3.退 出 系 统                        |\n");printf(" ================================================\n");printf("请选择:");fflush(stdin);scanf("%c",&choice);switch (choice){case '1':printf("要结束的进程名:");scanf("%s",PcbName);for (p = PCBdata->Next, i = 1; p && strcmp(PcbName, p->data.Name); i++, p = p->Next);if(!p){printf("进程名输入错误!\n");break;}DeleteProsess(PCBdata, i, &PCBe);for(i = 0; i < partTable.length; i++){if(!strcmp(PcbName, partTable.elem[i].Name)){FreeMemory(i ,&partTable);break;}}SearchSpace( PCBdata, &partTable, AS);break;case '2':printf("请输入添加的进程名，进程所占内存大小:");scanf("%s%d",PcbName , &size);PCBe.DistbutSt = Unallocated;PCBe.StartAddress = 0;strcpy(PCBe.Name, PcbName);PCBe.MemorySize = size;pos = SelectPart(&(PCBe), &partTable, AS);//从1开始if(pos)MallocMemory(&(PCBe), &partTable, pos - 1);InsertProcess(PCBdata, PCBe);break;case '3':return 0;default:printf("选择项输入错误，重新选择！\n");break;}PrintProQueue(PCBdata);PrintPartTable(partTable);system("pause");}return 0;
}