Double Linked List
Double linked list hampir sama dengan single linked list akan tetapi pada double linked list ini terdapat dua pointer next dan prev sehingga dapat mengakses 2 arah tidak seperti single linked list. Keuntungan dari double linked list adalah dapat memudahkan untuk memasukan data dan lebih tertata.
[_] <- - -> [_] <- - -> [_] <- - -> [_]
Keterangan :
<- - -> artinya 2 pointer sehinga dapat menunjuk ke arah depan dan mundur.
[_] nodenya.
Double Linked List in c :
#include <stdio.h>
#include <stdlib.h>
// A linked list node
struct Node {
int data;
struct Node* next;
struct Node* prev;
};
/* Given a reference (pointer to pointer) to the head of a list
and an int, inserts a new node on the front of the list. */
void push(struct Node** head_ref, int new_data)
{
/* 1. allocate node */
struct Node* new_node = (struct Node*)malloc(sizeof(struct Node));
/* 2. put in the data */
new_node->data = new_data;
/* 3. Make next of new node as head and previous as NULL */
new_node->next = (*head_ref);
new_node->prev = NULL;
/* 4. change prev of head node to new node */
if ((*head_ref) != NULL)
(*head_ref)->prev = new_node;
/* 5. move the head to point to the new node */
(*head_ref) = new_node;
}
/* Given a node as prev_node, insert a new node after the given node */
void insertAfter(struct Node* prev_node, int new_data)
{
/*1. check if the given prev_node is NULL */
if (prev_node == NULL) {
printf("the given previous node cannot be NULL");
return;
}
/* 2. allocate new node */
struct Node* new_node = (struct Node*)malloc(sizeof(struct Node));
/* 3. put in the data */
new_node->data = new_data;
/* 4. Make next of new node as next of prev_node */
new_node->next = prev_node->next;
/* 5. Make the next of prev_node as new_node */
prev_node->next = new_node;
/* 6. Make prev_node as previous of new_node */
new_node->prev = prev_node;
/* 7. Change previous of new_node's next node */
if (new_node->next != NULL)
new_node->next->prev = new_node;
}
/* Given a reference (pointer to pointer) to the head
of a DLL and an int, appends a new node at the end */
void append(struct Node** head_ref, int new_data)
{
/* 1. allocate node */
struct Node* new_node = (struct Node*)malloc(sizeof(struct Node));
struct Node* last = *head_ref; /* used in step 5*/
/* 2. put in the data */
new_node->data = new_data;
/* 3. This new node is going to be the last node, so
make next of it as NULL*/
new_node->next = NULL;
/* 4. If the Linked List is empty, then make the new
node as head */
if (*head_ref == NULL) {
new_node->prev = NULL;
*head_ref = new_node;
return;
}
/* 5. Else traverse till the last node */
while (last->next != NULL)
last = last->next;
/* 6. Change the next of last node */
last->next = new_node;
/* 7. Make last node as previous of new node */
new_node->prev = last;
return;
}
// This function prints contents of linked list starting from the given node
void printList(struct Node* node)
{
struct Node* last;
printf("\nTraversal in forward direction \n");
while (node != NULL) {
printf(" %d ", node->data);
last = node;
node = node->next;
}
printf("\nTraversal in reverse direction \n");
while (last != NULL) {
printf(" %d ", last->data);
last = last->prev;
}
}
/* Drier program to test above functions*/
int main()
{
/* Start with the empty list */
struct Node* head = NULL;
// Insert 6. So linked list becomes 6->NULL
append(&head, 6);
// Insert 7 at the beginning. So linked list becomes 7->6->NULL
push(&head, 7);
// Insert 1 at the beginning. So linked list becomes 1->7->6->NULL
push(&head, 1);
// Insert 4 at the end. So linked list becomes 1->7->6->4->NULL
append(&head, 4);
// Insert 8, after 7. So linked list becomes 1->7->8->6->4->NULL
insertAfter(head->next, 8);
printf("Created DLL is: ");
printList(head);
getchar();
return 0;
}
reference:
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