LeetCode|LeetCode 445——两数相加 II LeetCode445——两数相加II

1. 题目

2. 解答 2.1 方法一在 LeetCode 206——反转链表和 LeetCode 2——两数相加的基础上，先对两个链表进行反转，然后求出和后再进行反转即可。

/** * Definition for singly-linked list. * struct ListNode { *int val; *ListNode *next; *ListNode(int x) : val(x), next(NULL) {} * }; */ class Solution { public: ListNode* addTwoNumbers(ListNode* l1, ListNode* l2) {// 先将两个链表反序 l1 = reverseList(l1); l2 = reverseList(l2); ListNode *head = new ListNode(0); // 建立哨兵结点 ListNode *temp = head; int carry = 0; // 保留进位 int sum = 0; while(l1 || l2) { if (l1 && l2) // 两个链表都非空 { sum = l1->val + l2->val + carry; l1 = l1->next; l2 = l2->next; } else if (l1) // l2 链表为空，只对进位和 l1 元素求和 { sum = l1->val + carry; l1 = l1->next; } else // l1 链表为空，只对进位和 l2 元素求和 { sum = l2->val + carry; l2 = l2->next; } // 求出和以及进位，将和添加到新链表中 carry = sum >= 10 ? 1 : 0; sum = sum % 10; head->next = new ListNode(sum); head = head->next; if ( (l1 == NULL || l2 == NULL) && carry == 0 ) { head->next = l1 ? l1 : l2; return reverseList(temp->next); }}if (carry) // 若最后一位还有进位，进位即为最后一位的和 { head->next = new ListNode(carry); } head->next->next = NULL; return reverseList(temp->next); }ListNode* reverseList(ListNode* head) {if (head == NULL || head->next == NULL) return head; else { ListNode * p1 = head; ListNode * p2 = p1->next; ListNode * p3 = p2->next; while (p2) { p3 = p2->next; p2->next = p1; p1 = p2; p2 = p3; } head->next = NULL; head = p1; return head; }}}; 复制代码

2.2 方法二先求出两个链表的长度，然后对齐两个链表，按照对应位分别求出每一位的和以及进位，最后从最低位也就是最右边开始，将和与进位相加，新建节点在链表头部插入即可。

例 1
l1	7	2	4	3
l2		5	6	4
和	7	7	0	7
进位	0	1	0	0
结果	7	8	0	7

例 2
l1		9	9	9
l2			9	9
和	0	9	8	8
进位	0	1	1	0
结果	1	0	9	8

class Solution { public: ListNode* addTwoNumbers(ListNode* l1, ListNode* l2) {int n1 = countListNodeNumber(l1); int n2 = countListNodeNumber(l2); ListNode* long_list = NULL; ListNode* short_list = NULL; int bigger_n = 0; int smaller_n = 0; if (n1 <= n2) { long_list = l2; short_list = l1; bigger_n = n2; smaller_n = n1; } else { long_list = l1; short_list = l2; bigger_n = n1; smaller_n = n2; } int temp = bigger_n - smaller_n + 1; int sum_array[bigger_n + 1] = {0}; int carry_array[bigger_n + 1] = {0}; int sum = 0; int carry = 0; ListNode* long_temp = long_list; ListNode* short_temp = short_list; for (unsigned int i = 1; i <= bigger_n; i++) { carry = 0; if (i < temp) { sum = long_temp->val; } else { sum = long_temp->val + short_temp->val; if (sum >= 10) { sum = sum % 10; carry = 1; } short_temp = short_temp->next; } sum_array[i] = sum; carry_array[i-1] = carry; long_temp = long_temp->next; }ListNode* new_head = new ListNode(0); long_temp = new_head; for (unsigned int i = bigger_n; i > 0; i--) { // 在链表头部进行插入 sum = sum_array[i] + carry_array[i]; if (sum >= 10) { sum = sum % 10; carry_array[i-1] = 1; } short_temp = new ListNode(sum); short_temp->next = long_temp->next; long_temp->next = short_temp; }sum = sum_array[0] + carry_array[0]; if (sum) { short_temp = new ListNode(sum); short_temp->next = long_temp->next; long_temp->next = short_temp; }return new_head->next; }int countListNodeNumber(ListNode *head) { int node_num = 0; ListNode* slow = head; ListNode* fast = head; while(fast && fast->next) { slow = slow->next; fast = fast->next->next; node_num++; } if (fast) { node_num = node_num * 2 + 1; } else { node_num = node_num * 2; }return node_num; }}; 复制代码

2.3 方法三将两个链表的节点分别放入两个栈中，若两个栈都非空，拿两个栈顶元素和进位，求出和以及新的进位；若其中一个栈为空，则拿一个栈顶元素和进位，求出和以及新的进位。然后新建节点，在链表头部进行插入，最后只用处理一下最高位的进位即可。

class Solution { public: ListNode* addTwoNumbers(ListNode* l1, ListNode* l2) {stack stack1; stack stack2; while (l1) { stack1.push(l1); l1 = l1->next; }while (l2) { stack2.push(l2); l2 = l2->next; }int sum = 0; int carry = 0; ListNode *new_head = new ListNode(0); ListNode *temp = NULL; while (!stack1.empty() && !stack2.empty()) { sum = stack1.top()->val + stack2.top()->val + carry; if (sum >= 10) { sum = sum % 10; carry = 1; } else carry = 0; temp = new ListNode(sum); temp->next = new_head->next; new_head->next = temp; stack1.pop(); stack2.pop(); }while (!stack1.empty()) { sum = stack1.top()->val + carry; if (sum >= 10) { sum = sum % 10; carry = 1; } else carry = 0; temp = new ListNode(sum); temp->next = new_head->next; new_head->next = temp; stack1.pop(); }while (!stack2.empty()) { sum = stack2.top()->val + carry; if (sum >= 10) { sum = sum % 10; carry = 1; } else carry = 0; temp = new ListNode(sum); temp->next = new_head->next; new_head->next = temp; stack2.pop(); }if (carry) { temp = new ListNode(carry); temp->next = new_head->next; new_head->next = temp; }return new_head->next; } }; 复制代码

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【LeetCode|LeetCode 445——两数相加 II】