在一个排序的链表中,存在重复的结点,请删除该链表中重复的结点,重复的结点不保留,返回链表头指针。 例如,链表1->2->3->3->4->4->5 处理后为 1->2->5
输入
{1,2,3,3,4,4,5}返回值
{1,2,5}大概思想:采用vector保存链表中的不重复元素,然后将链表从表头开始挨个对比,一样就将当前结点保存下来,然后index++,不一样就继续向下遍历,注意边界条件。
ListNode* deleteDuplication(ListNode* pHead)
{
if (pHead == nullptr || pHead->next == nullptr) return pHead;
ListNode* node = (ListNode*)malloc(sizeof(struct ListNode));
node = pHead;
vector<int> result;
result.push_back(node->val);
node = node->next;
while (node != nullptr) {
if (result.size()!=0 && result.back() == node->val) {
while (node!=nullptr && result.back() == node->val) {
node = node->next;
}
result.pop_back();
}
else if (result.size() == 0 || (result.size()!=0 && result.back()!=node->val))
{
result.push_back(node->val);
node = node->next;
}
else
node = node->next;
}
if (result.size() == 0) {
return nullptr;
}
node = pHead;
int index = 0;
int len = result.size();
ListNode* resultNode = (ListNode*)malloc(sizeof(struct ListNode));
while (node != nullptr) {
if (index<len && node->val == result[index]) {
index++;
resultNode = node;
break;
} node = node->next;
}
pHead = resultNode;
while (node != nullptr) {
if (index < len && node->val == result[index]) {
index++;
pHead->next = node;
pHead = pHead->next;
} node = node->next;
}
pHead->next = nullptr;//最后要设置尾点结束
return resultNode;
} 2.设置 pre ,cur指针, pre指针指向当前确定不重复的那个节点,而last指针相当于工作指针,一直往后面搜索。
if (pHead == nullptr || pHead->next == nullptr) { return pHead; }
ListNode *Head = (ListNode*)malloc(sizeof(struct ListNode));
ListNode* pre = (ListNode*)malloc(sizeof(struct ListNode));
ListNode* cur = (ListNode*)malloc(sizeof(struct ListNode));
Head->next = pHead;
pre = Head; //pre相当于原来节点的前一个节点
cur = Head->next; //cur相当于 原来的节点
while (cur != nullptr) {
if (cur->next != nullptr && cur->val == cur->next->val) {
// 找到最后的一个相同节点
while (cur->next != nullptr && cur->val == cur->next->val) {
cur = cur->next;
}
pre->next = cur->next; //这里等于cur->next真的很棒
cur = cur->next;
}
else {
pre = pre->next;
cur = cur->next;
}
}
return Head->next;ListNode* deleteDuplication(ListNode* pHead)
{
if(pHead == nullptr || pHead->next == nullptr) return pHead;
ListNode dummpyHead(0);
dummpyHead.next = pHead;
ListNode *pre = &dummpyHead;
ListNode *cur = dummpyHead.next;//cur是真正工作的节点
while(cur != nullptr){
if(cur->next != nullptr && cur->val == cur->next->val){
while(cur->next != nullptr && cur->val == cur->next->val)
{
cur = cur->next;
}
pre->next = cur->next;//这里还不要马上把 pre 赋值过来
cur = cur->next;
}else{
pre = pre->next;
cur = cur->next;
}
}
return dummpyHead.next;
}在一个排序的链表中,存在重复的结点,请删除该链表中重复的结点,重复的结点保留,返回链表头指针。 例如,链表1->2->3->3->4->4->5 处理后为 1->2->3->4->5
ListNode* deleteDuplication(ListNode* pHead)
{
if (pHead == nullptr) return nullptr;
ListNode* node = (ListNode*)malloc(sizeof(struct ListNode));
node = pHead;
while (node != nullptr) {
if (node->next!=nullptr && node->val == node->next->val) {//这里千万要判断node->next也不为空才可以
while (node->next != nullptr && node->val == node->next->val) {
node->next = node->next->next;
}
}
node = node->next;
}
return pHead;
}ListNode* deleteDuplication(ListNode* pHead)
{
if (pHead == nullptr || pHead->next == nullptr) return pHead;
ListNode dummpyHead(0);
dummpyHead.next = pHead;
ListNode* pre = &dummpyHead;
ListNode* cur = dummpyHead.next;
while (cur != nullptr) {
if (cur->next != nullptr && cur->val == cur->next->val) {
while (cur->next != nullptr && cur->val == cur->next->val)
{
cur = cur->next;
}
pre->next = cur;
pre = pre->next;
cur = cur->next;
}
else {
pre = pre->next;
cur = cur->next;
}
}
return dummpyHead.next;
}