Here is my implementation of count:

```
int count(node *start)
{
static int l ;
node *current; /* Node for travelling the linked list*/
current=start;
if(current->next!=start)
{
l = 1 + count ( current->next ) ;
return ( l ) ;
}
else
{
return(1);
}
}
```

Here is a fragment of main function where I am calling it:

```
void main()
{
node *head;
printf ( "Length of linked list = %d", count ( head ) ) ;
}
```

Here is the structure:

```
struct cirdoublelinklist
{
struct cirdoublelinklist *prev; /** Stores address of previous node **/
int value; /** stores value **/
struct cirdoublelinklist *next; /** stores address of next node **/
};
/** Redefining list as node **/
typedef struct cirdoublelinklist node;
```

On running and trying to see the length of a list, it crashes with out of bound memory. Please help me with this, I have been working on this for a long time now.

Method to add the first node:

```
void initialize(node *start)
{
start->prev=start;
printf("\nEnter Value\n");
scanf("%d",&start->value);
start->next=start;
}
```

Method to add subsequent nodes after the location specified:

```
void insert_after(node *start)
{
int num; /* value for inserting a node */
int flag=0;
node *newnode; /* New inputed node*/
node *current; /* Node for travelling the linked list*/
newnode=(node*)malloc(sizeof(node));
printf("\nEnter the value after which you want to insert a node\n");
scanf("%d",&num);
init(newnode);
current=start;
while(current->next!=start)
{
if(current->value==num)
{
newnode->next=current->next;
current->next->prev=newnode;
current->next=newnode;
newnode->prev=current;
flag=1;
}
current=current->next;
}
if(flag==0 && current->next==start && current->value==num)
{
/*** Insertion checking for last node ***/
newnode->next=current->next; /* Start is being copied */
current->next->prev=newnode;
current->next=newnode;
newnode->prev=current;
flag=1;
}
if(flag==0 && current->next==NULL)
printf("\nNo match found\n");
}
```

`l`

static? That just prevents the function from being fully reentrant, which is usually a requirement for proper recursion. – Ignacio Vazquez-Abrams Oct 28 '11 at 2:45