#14 Longest Common Prefix
Write a function to find the longest common prefix string amongst an array of strings.
这个题求多个字符串的公共前缀,除了要考虑串空外,假设存在公共前缀,那么必然也是第一个串的前缀。
所以能够以第一个串为基准,比較其它串的前缀是否与第一个串同样。
char* longestCommonPrefix(char** strs, int strsSize) {
char *s0,*si;
int index;//指示比較位置
if (strsSize <= 0 || strs == NULL) return strs;
if (strsSize == 1) return strs[0];
s0 = strs[0];//以第一个字符串为基准
for (int i = 1; i < strsSize; ++i)
{
si = strs[i];
index = 0;//每一个字符串从0位置開始比較
while (true)
{
if (s0[index] != si[index] || s0[index] == NULL || si[index] == NULL)
{
s0[index] = '�';//对于不相等的位置,必然不是公共前缀
break;
}
index++;
}
}
return strs[0];
}#19 Remove Nth Node From End of List
Given a linked list, remove the nth node from the end of list and return its head.
For example,
Given linked list: 1->2->3->4->5, and n = 2. After removing the second node from the end, the linked list becomes 1->2->3->5.
Note:
Given n will always be valid.
Try to do this in one pass.
//0ms
/**
* Definition for singly-linked list.
* struct ListNode {
* int val;
* struct ListNode *next;
* };
*/
struct ListNode* removeNthFromEnd(struct ListNode* head, int n) {
int len=0,j=0;
struct ListNode *p,*q;
p = head;//指向第一个元素 没有头结点
//求链表长度
while(p!=NULL)
{
p = p->next;
len++;
}
//边界条件
if(len-n<0)
return NULL;
if(len==1 &&n==1)
return NULL;
p = head;//指向第一个元素
q=p;
//删除的元素是第一个位置,不存在q全部先讨论
if(n==len)
{
p =head->next;
return p;
}
//一般条件---待删除元素位于第len-n+1个位置,倒数第n个位置
for(j=1;j<=len-n;j++)
{
q = p;//q指向待删除元素前一个元素第len-n个元素
p = p->next;//p指向待删除元素---第len-n+1个元素
}
q->next = p->next;
return head;
}在leetcode discuss里面又看到第二种写法,一次遍历得到待删除节点位置
struct ListNode* removeNthFromEnd(struct ListNode* head, int n)
{
struct ListNode* front = head;
struct ListNode* behind = head;
//front后移len长度,behind后移len-n长度。behind->next即为待删除节点
while (front != NULL)
{
front = front->next;
if (n-- < 0)
behind = behind->next;
}
if (n == 0)//len==n
head = head->next;
else
behind->next = behind->next->next;
return head;
}#20 Valid Parentheses
Given a string containing just the characters '(', ')', '{', '}', '[' and ']',
determine if the input string is valid.
The brackets must close in the correct order, "()" and "()[]{}" are
all valid but "(]" and "([)]" are
not.
bool isValid(char* s) {
int i,top,len;
char *a;
char ch;
len = strlen(s);
a = (char *)malloc(sizeof(char)*len);
top =-1;
for(i=0;i<len;i++)
{
ch = s[i];
if(ch=='{'||ch=='('||ch=='[')
a[++top] = ch;
if(ch==']'||ch==')'||ch=='}')
{
if(top==-1)
return false;
else if(ch==']'&& a[top]=='[')
top--;
else if(ch=='}'&& a[top]=='{')
top--;
else if(ch==')'&& a[top]=='(')
top--;
else
return false;
}
}
if(top==-1)
return true;
else
return false;
}#21 Merge Two Sorted Lists
Merge two sorted linked lists and return it as a new list. The new list should be made by splicing together the nodes of the first two lists.
合并两个有序链表---首先想到了归并排序最后的合并两个有序数组,写法全然类似。查了下面discuss 发现一种递归的写法。
/**4ms
* Definition for singly-linked list.
* struct ListNode {
* int val;
* struct ListNode *next;
* };
*/
struct ListNode* mergeTwoLists(struct ListNode* l1, struct ListNode* l2) {
struct ListNode *p,*head;
head = p;
if(l1==NULL)
return l2;
if(l2==NULL)
return l1;
while(l1&&l2)
{
if(l1->val <= l2->val)
{
p->next = l1;
l1 = l1->next;
}
else
{
p->next = l2;
l2 = l2->next;
}
p = p->next;
}
if(l1)
p->next = l1;
if(l2)
p->next = l2;
return head->next;
}/**4ms
* Definition for singly-linked list.
* struct ListNode {
* int val;
* struct ListNode *next;
* };
*/
struct ListNode* mergeTwoLists(struct ListNode* l1, struct ListNode* l2)
{
struct ListNode* l3;
if(l1==NULL)
return l2;
if(l2==NULL)
return l1;
if(l1->val < l2->val)
{
l3 = l1;
l3->next = mergeTwoLists(l1->next,l2);
}
else
{
l3 = l2;
l3->next = mergeTwoLists(l1,l2->next);
}
return l3;
}