一、内存泄露
1、正常的链表操作
下面程序建立一个10元素的链表,输出它们的节点,每个节点是一个员工的工号和年龄。最后删除每个节点,释放列表。
dp@dp:~/memorytest % cat 1.c
#include
#include
typedef struct listnode mynode;
struct listnode{
mynode *next;
int number;
int age;
};
mynode *addnode(mynode *prevnd,int number,int age){
mynode *ndtemp=(mynode*)malloc(sizeof(mynode));
prevnd->next=ndtemp;
ndtemp->number=number;
ndtemp->age=age;
ndtemp->next=NULL;
return ndtemp;
}
mynode *initlist(){
mynode *temp=(mynode*)malloc(sizeof(mynode));
temp->number=0;
temp->age=0;
temp->next=NULL;
return temp;
}
int main(){
mynode *mylist=initlist();
mynode *mytempnd=mylist;
int i=0;
for(i=0;i<10;i++){
mytempnd=addnode(mytempnd,i,20+i);
}
//下面是正常的链表操作
//先输出链表元素
for (mytempnd=mylist->next;mytempnd!=NULL;mytempnd=mytempnd->next){
printf("id:%d,age:%d\n",mytempnd->number,mytempnd->age);
}
//然后删除链表中的所有元素
for (mytempnd=mylist->next;mytempnd!=NULL;mytempnd=mytempnd->next){
printf("delete id:%d\n",mytempnd->number);
free(mytempnd);
}
free(mylist);
return 0;
}
麦好的AI乐园博客所有内容是原创,如果转载请注明来源
http://blog.csdn.net/myhaspl/
下面是程序运行效果
dp@dp:~/memorytest % ./mytest
id:0,age:20
id:1,age:21
id:2,age:22
id:3,age:23
id:4,age:24
id:5,age:25
id:6,age:26
id:7,age:27
id:8,age:28
id:9,age:29
delete id:0
delete id:1
delete id:2
delete id:3
delete id:4
delete id:5
delete id:6
delete id:7
delete id:8
delete id:9
下面演示了垃圾的形成,这是内存泄露的一种方式,即在链表中,某些节点与链表中的其它节点失去联系,导致无法删除,下面故意让第4个结点的next指针指向null,失去与后面6个元素的联系。
dp@dp:~/memorytest % cat 1.c
#include
#include
//code:myhaspl@myhaspl.com
//author:myhaspl
//date:2014-01-10
typedef struct listnode mynode;
struct listnode{
mynode *next;
int number;
int age;
};
mynode *addnode(mynode *prevnd,int number,int age){
mynode *ndtemp=(mynode*)malloc(sizeof(mynode));
prevnd->next=ndtemp;
ndtemp->number=number;
ndtemp->age=age;
ndtemp->next=NULL;
return ndtemp;
}
mynode *initlist(){
mynode *temp=(mynode*)malloc(sizeof(mynode));
temp->number=0;
temp->age=0;
temp->next=NULL;
return temp;
}
int main(){
mynode *mylist=initlist();
mynode *mytempnd=mylist;
int i=0;
for(i=0;i<10;i++){
mytempnd=addnode(mytempnd,i,20+i);
}
//下面是正常的链表操作
//先输出链表元素
for (mytempnd=mylist->next;mytempnd!=NULL;mytempnd=mytempnd->next){
printf("id:%d,age:%d\n",mytempnd->number,mytempnd->age);
}
//然后删除链表中的所有元素
for (mytempnd=mylist->next;mytempnd!=NULL;mytempnd=mytempnd->next){
printf("delete id:%d\n",mytempnd->number);
free(mytempnd);
}
free(mylist);
//下面是形成内存泄露第一种情况-垃圾的演示
//生成并输出链表,这个与前面相同
mylist=initlist();
mytempnd=mylist;
i=0;
for(i=0;i<10;i++){
mytempnd=addnode(mytempnd,i,20+i);
}
for (mytempnd=mylist->next;mytempnd!=NULL;mytempnd=mytempnd->next){
printf("id:%d,age:%d\n",mytempnd->number,mytempnd->age);
}
//删除链表,我们故意留下后面6个链表节点无法删除,导致后面6个链表节点形成垃圾
int j=0;
for (mytempnd=mylist->next;mytempnd!=NULL;mytempnd=mytempnd->next){
if (++j>3){
mytempnd->next=NULL;
break;
}
}
for (mytempnd=mylist->next;mytempnd!=NULL;mytempnd=mytempnd->next){
printf("delete id:%d\n",mytempnd->number);
free(mytempnd);
j++;
}
return 0;
}
下面是程序运行效果
dp@dp:~/memorytest % gcc 1.c -o mytest
dp@dp:~/memorytest % ./mytest
id:0,age:20
id:1,age:21
id:2,age:22
id:3,age:23
id:4,age:24
id:5,age:25
id:6,a