目录
LeetCode 单链表专题 <c++>
\([2]\) Add Two Numbers
模拟,注意最后判断进位是否为1。
时间复杂度 \(O(n)\)
class Solution {
public:
ListNode *addTwoNumbers(ListNode *l1, ListNode *l2) {
ListNode ans(-1);
int carry = 0;
auto p1 = l1, p2 = l2;
auto p = &ans;
while (p1 != nullptr || p2 != nullptr) {
int val1, val2;
if (p1 == nullptr) { val1 = 0; }
else {
val1 = p1->val;
p1 = p1->next;
}
if (p2 == nullptr) { val2 = 0; }
else {
val2 = p2->val;
p2 = p2->next;
}
int sum = (val1 + val2 + carry) % 10;
carry = (val1 + val2 + carry) / 10;
p = p->next = new ListNode(sum);
}
if(carry) p->next = new ListNode(carry);
return ans.next;
}
};
\([92]\) Reverse Linked List II
给定链表,翻转第m个结点到第n个结点。
从第m+1个结点开始,在第m-1个结点之后的位置用头插法插入新结点,可以避免使用栈。
时间复杂度 \(O(n)\)
class Solution {
public:
ListNode* reverseBetween(ListNode* head, int m, int n) {
ListNode res(-1);
auto p = head, p_res = &res;
for(int i = 1; i <= m-1; i++){
p_res = p_res->next = new ListNode(p->val); // new list next node
p = p->next; // origin list next node
}
auto prev = p_res;
p_res = p_res->next = new ListNode(p->val);
auto last = p_res;
p = p->next;
for(int i = m+1; i <= n; i++){
prev->next = new ListNode(p->val);
prev->next->next = p_res;
p_res = prev->next;
p = p->next;
}
last->next = p;
return res.next;
}
};
\([86]\) Partition List
链表拼接。
时间复杂度 \(O(n)\)
(c++)搞清楚了实体用.,指针用->调用属性和方法。
(c++)new 构造方法(参数)返回的是同类型指针。
class Solution {
public:
ListNode* partition(ListNode* head, int x) {
ListNode dummy_l(-1);
ListNode dummy_r(-1);
auto dummy_l_p = &dummy_l, dummy_r_p = &dummy_r;
for(auto p = head; p; p = p->next){
if(p->val<x){
dummy_l_p = dummy_l_p->next = p;
}
else {
dummy_r_p = dummy_r_p->next = p;
}
}
dummy_l_p->next = dummy_r.next;
dummy_r_p->next = nullptr;
return dummy_l.next;
}
};
\([82]\) Remove Duplicates from Sorted List II
如果有元素重复出现,删掉该元素及其复制。
时间复杂度 \(O(n)\)
class Solution {
public:
ListNode* deleteDuplicates(ListNode* head) {
ListNode dummy(-1);
auto prev = &dummy;
bool flag = false;
for(auto p = head; p; p = p->next){
while(p->next!=nullptr && p->next->val == p->val){
p->next = p->next->next;
flag = true;
}
if(flag){
flag = false;
prev->next = p->next;
}
else prev = prev->next = p;
}
return dummy.next;
}
};
\([61]\) Rotate List
先遍历求出长度length。k可能大于等于length,所以对length取模。从length-k处断开原链表,断开处为新链表头结点,原头结点接到原尾结点后面。
时间复杂度 \(O(n)\)
class Solution {
public:
ListNode* rotateRight(ListNode* head, int k) {
if(head == nullptr) return head;
int length = 1;
auto cur = head;
for(; cur->next; cur = cur->next) length++;
k = k % length;
if(k == 0) return head;
ListNode dummy(-1);
dummy.next = head;
auto cut = &dummy;
for(int i = 0; i<length - k; i++) cut = cut->next;
dummy.next = cut->next;
cur->next = head;
cut->next = nullptr; // 记得断开,避免形成环,会TLE。
return dummy.next;
}
};
\([19]\) Remove Nth Node From End of List
删掉链表倒数第n个结点,要求只遍历一遍。
两个指针p,q。一个先走n步,然后两个一起走。
时间复杂度 \(O(n)\)
/**
* Status: Accepted
* Runtime: 12 ms
*/
class Solution {
public:
ListNode* removeNthFromEnd(ListNode* head, int n) {
ListNode dummy(-1);
dummy.next = head;
auto p = &dummy, q = &dummy;
int cnt = 0;
while(p!=nullptr) {
if(cnt>n) q = q->next;
p = p->next;
cnt++;
}
q->next = q->next->next;
return dummy.next;
}
};
这份代码跑了12ms。因为循环中有判断语句。
下面是优化后的代码
/**
* Status: Accepted
* Runtime: 8 ms
*/
class Solution {
public:
ListNode* removeNthFromEnd(ListNode* head, int n) {
ListNode dummy(-1);
dummy.next = head;
auto p = &dummy, q = &dummy;
for(int i = 0; i<=n; i++) p = p->next;
while(p!=nullptr) {
q = q->next;
p = p->next;
}
auto tmp = q->next;
q->next = q->next->next;
delete tmp;
return dummy.next;
}
};