How to use C language link list
In C language, a linked list is a dynamic data structure composed of nodes connected to each other, each node contains data and a pointer to the next node. The use of linked lists includes operations such as creating linked lists, traversing linked lists, inserting nodes and deleting nodes.
Use of linked lists in C language
1. Introduction
A linked list is a dynamic data structure consisting of a series of nodes connected to each other. In C language, linked lists are usually implemented as structures, each node contains data and a pointer to the next node.
2. Node structure
A typical linked list node structure might look like this:
<code class="c">struct node { int data; struct node *next; };</code>in:
-
datafield stores node data. - The
nextfield stores a pointer to the next node.
3. Create a link table
Creating a linked list involves the following steps:
- Allocate memory for the first node.
- Set the
datafield of the first node to the data to be stored. - Set the
nextfield of the first node toNULLto indicate the end of the linked list.
4. Traverse the linked list
To traverse a linked list, follow these steps:
- Start with the first node.
- Access the data of the current node.
- Move to the next node (via the
nextpointer). - Repeat steps 2 and 3 until the last node is reached (nULL
nextfield isNULL).
5. Insert node
-
Insert at the head:
- Create a new node.
- Point the
nextfield of the new node to the current head node. - Set the new node as the head node.
-
Insert at the tail:
- Iterate over the linked list and find the last node.
- Create a new node.
- Point the
nextfield of the last node to the new node.
-
Insert at a specific location:
- Iterate over the linked list and find the node before the position you want to insert.
- Create a new node.
- Point the
nextfield of the new node to the node where you want to insert. - Insert the new node into the
nextfield of the previous node.
6. Delete nodes
-
Delete the head node:
- Move the head node to the next node.
-
Delete the tail node:
- Iterate over the linked list and find the last node.
- Set the
nextfield of the previous node of the last node toNULL.
-
Delete nodes in a specific location:
- Iterate over the linked list and find the node before the node you want to delete.
- The
nextfield of the node to be deleted points to the next node to which the node to be deleted.
7. Destroy the link list
Destroying a linked list involves freeing all nodes allocated memory:
- Start from the beginning node.
- Saves the pointer of the current node to the next node.
- Release the current node.
- Continue with steps 2 and 3 until the linked list is empty.
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