链表OJ(十二)23. 合并 K 个升序链表 困难 优先级队列中存放指针结点
给你一个链表数组,每个链表都已经按升序排列。
请你将所有链表合并到一个升序链表中,返回合并后的链表。
示例 1:
输入:lists = [[1,4,5],[1,3,4],[2,6]] 输出:[1,1,2,3,4,4,5,6] 解释:链表数组如下: [ 1->4->5, 1->3->4, 2->6 ] 将它们合并到一个有序链表中得到。 1->1->2->3->4->4->5->6示例 2:
输入:lists = [] 输出:[]示例 3:
输入:lists = [[]] 输出:[]提示:
k == lists.length0 <= k <= 10^40 <= lists[i].length <= 500-10^4 <= lists[i][j] <= 10^4lists[i]按 升序 排列lists[i].length的总和不超过10^4
对于仿函数的复习
priority_queue 接口使用(仿函数、函数指针解决优先级队列存放自定义类型元素、指针类型元素)_priority queue接口-CSDN博客
struct ListNode {
int val;
ListNode *next;
ListNode() : val(0), next(nullptr) {}
ListNode(int x) : val(x), next(nullptr) {}
ListNode(int x, ListNode *next) : val(x), next(next) {}
};
class Com {
public:
bool operator()(ListNode* left, ListNode* right) {
return left->val > right->val; 出错点1 大于小于关系判断
}
};
class Solution {
public:
ListNode* mergeKLists(vector<ListNode*>& lists) {
priority_queue<ListNode*, vector<ListNode*>, Com> q;
for (auto& e : lists)
if (e) 出错点2 没有对访问的节点进行判空处理
q.push(e);
ListNode* newhead = new ListNode(-1);
newhead->next = nullptr;
ListNode* pre = newhead;
while (!q.empty()) {
ListNode* cur = q.top();
q.pop();
pre->next = cur;
pre = pre->next;
cur = cur->next;
if (cur)
q.push(cur);
}
return newhead->next;
}
};
int main()
{
Solution s;
ListNode* l1 = new ListNode(0);
ListNode* l2 = new ListNode(2);
ListNode* l3 = new ListNode(3);
ListNode* l4 = new ListNode(4);
ListNode* l5 = new ListNode(5);
l1->next = l2;
l2->next = l3;
l3->next = l4;
l4->next = l5;
ListNode* p1 = new ListNode(1);
ListNode* p2 = new ListNode(3);
ListNode* p3 = new ListNode(6);
ListNode* p4 = new ListNode(9);
p1->next = p2;
p2->next = p3;
p3->next = p4;
ListNode* z1 = new ListNode(2);
ListNode* z2 = new ListNode(3);
ListNode* z3 = new ListNode(6);
z1->next = z2;
z2->next = z3;
vector<ListNode*> v = { l1, p1, z1 };
s.mergeKLists(v);
return 0;
}