其实仔细想想是挺简单的,我们要做的只是记得进位。
LinkedListNode addLists(LinkedListNode l1, LinkedListNode l2, int carry) //LinkedListNode addLists(LinkedListNode l1, LinkedListNode l2, int carry = 0) { if (l1 == null && l2 == null $$ carry == 0) { return null; } LinkedListNode result = new LinkedListNode(); int value = carry; if (l1 != null) { value += l1.data; } if (l2 != null) { value += l2.data; } result.data = value%10; LinkedListNode more = addLists(l1 == null? null : l1.next, l2 == null? null : l2.next, value >= 10? 1 :0); result.setNext(more); }
进阶:假设是正向存放的。
坑:1,注意双方长度,双方是末尾对齐的,不足的地方需要用0补足。
//2.5b进阶:假设这些数位是正向存放的 public class PartialSum { public LinkedListNode sum = null; public int carry = 0; } LinkedListNode addLists(LinkedListNode l1, LinkedListNode l2) { int len1 = length(l1); int len2 = length(l2); //用零填充较短的链表 if (len1 < len2) { l1 = padList(l1, len2 - len1); } else { l2 = padList(l2, len1 - len2); } //对两个链表求和 PartialSum sum = addListsHelper(l1, l2); //如有进位,则插入链表首部,否则,直接返回整个链表 if (sum.carry == 0) { return sum.sum; } else { LinkedListNode result = insertBefore(sum.sum, sum.carry); return result; } } PartialSum addListsHelper(LinkedListNode l1, LinkedListNode l2) { if (l1 == null && l2 == null) { PartialSum sum = new PartialSum(); return sum; } //先递归为较小数字求和 PartialSum sum = addListsHelper(l1.next, l2.next); //将进位和当前数据相加 int val = sum.carry + l1.data + l2.data; //插入当前数字的求和结果 LinkedListNode full_result = insertBefore(sum.sum, val % 10); //返回求和结果与进位值 sum.sum = full_result; sum.carry = val/10; return sum; } //用零填充链表 LinkedListNode padList(LinkedListNode l,int padding) { LinkedListNode head = l; for (int i = 0; i < padding; i++) { LinkedListNode n = new LinkedListNode(0, null, null); head.prev = n; n.next = head; head = n; } return head; } //辅助函数,将结点插入链表首部 LinkedListNode insertBefore(LinkedListNode list, int data) { LinkedListNode node = new LinkedListNode(data, null, null); if (list != null) { list.prev = node; node.next = list; } return node; }