本文详细介绍了如何从零开始设计并实现一个链表数据结构,包括单链表和双链表的选择,节点属性的设计,以及关键操作如获取、插入、删除等的实现。通过具体的代码示例,展示了链表的基本原理和操作流程。
Design your implementation of the linked list. You can choose to use the singly linked list or the doubly linked list. A node in a singly linked list should have two attributes: val and next. val is the value of the current node, and next is a pointer/reference to the next node. If you want to use the doubly linked list, you will need one more attribute prev to indicate the previous node in the linked list. Assume all nodes in the linked list are 0-indexed.
Implement these functions in your linked list class:
- get(index) : Get the value of the
index-th node in the linked list. If the index is invalid, return-1. - addAtHead(val) : Add a node of value
valbefore the first element of the linked list. After the insertion, the new node will be the first node of the linked list. - addAtTail(val) : Append a node of value
valto the last element of the linked list. - addAtIndex(index, val) : Add a node of value
valbefore theindex-th node in the linked list. Ifindexequals to the length of linked list, the node will be appended to the end of linked list. If index is greater than the length, the node will not be inserted. - deleteAtIndex(index) : Delete the
index-th node in the linked list, if the index is valid.
Example:
MyLinkedList linkedList = new MyLinkedList(); linkedList.addAtHead(1); linkedList.addAtTail(3); linkedList.addAtIndex(1, 2); // linked list becomes 1->2->3 linkedList.get(1); // returns 2 linkedList.deleteAtIndex(1); // now the linked list is 1->3 linkedList.get(1); // returns 3
Note:
- All values will be in the range of
[1, 1000]. - The number of operations will be in the range of
[1, 1000]. - Please do not use the built-in LinkedList library.
class MyLinkedList {
private int size = 0;
private Node head;
@Override
public String toString() {
return "MyLinkedList{" +
"size=" + size +
", head=" + head +
'}';
}
class Node {
Integer value;
Node next;
public Node(Integer value, Node next) {
this.value = value;
this.next = next;
}
public Node(Node next) {
this.next = next;
}
@Override
public String toString() {
return "Node{" +
"value=" + value +
", next=" + next +
'}';
}
}
/** Initialize your data structure here. */
public MyLinkedList() {
head = new Node(null);
}
/** Get the value of the index-th node in the linked list. If the index is invalid, return -1. */
public int get(int index) {
if (index < 0 || index > size-1) return -1;
int p = 0;
Node temp = new Node(head.next);
while (p++ <= index) {
temp = temp.next;
}
return temp.value;
}
/** Add a node of value val before the first element of the linked list. After the insertion, the new node will be the first node of the linked list. */
public void addAtHead(int val) {
size++;
Node first = head.next;
head.next = new Node(val, first);
}
/** Append a node of value val to the last element of the linked list. */
public void addAtTail(int val) {
size++;
Node temp = new Node(head.next);
while (temp.next != null) {
temp = temp.next;
}
temp.next = new Node(val, null);
}
/** Add a node of value val before the index-th node in the linked list. If index equals to the length of linked list, the node will be appended to the end of linked list. If index is greater than the length, the node will not be inserted. */
public void addAtIndex(int index, int val) {
if (index > size) return;
size++;
if (index == 0) {
head.next = new Node(val, null);
} else {
Node temp = new Node(head.next);
for (int i = 0; i < index; i++) {
temp = temp.next;
}
Node next = temp.next;
temp.next = new Node(val, next);
}
}
/** Delete the index-th node in the linked list, if the index is valid. */
public void deleteAtIndex(int index) {
if (index >= 0 && index <= size-1){
size--;
Node temp = new Node(head.next);
for (int i = 0; i < index; i++) {
temp = temp.next;
}
temp.next = temp.next.next;
}
}
}
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