标签:[1] 一个 repeat return bsp mat ted lse 数组
Given an input string (s) and a pattern (p), implement regular expression matching with support for ‘.‘ and ‘*‘.
‘.‘ Matches any single character.
‘*‘ Matches zero or more of the preceding element.
The matching should cover the entire input string (not partial).
Note:
s could be empty and contains only lowercase letters a-z.
p could be empty and contains only lowercase letters a-z, and characters like . or *.
Example 1:
Input:
s = "aa"
p = "a"
Output: false
Explanation: "a" does not match the entire string "aa".
Example 2:
Input:
s = "aa"
p = "a*"
Output: true
Explanation: ‘*‘ means zero or more of the precedeng element, ‘a‘. Therefore, by repeating ‘a‘ once, it becomes "aa".
Example 3:
Input:
s = "ab"
p = ".*"
Output: true
Explanation: ".*" means "zero or more (*) of any character (.)".
Example 4:
Input:
s = "aab"
p = "c*a*b"
Output: true
Explanation: c can be repeated 0 times, a can be repeated 1 time. Therefore it matches "aab".
Example 5:
Input:
s = "mississippi"
p = "mis*is*p*."
Output: false
题目要求判断给出的表达式p能否匹配字符串s,其中"."能匹配任意字符,"*"能匹配前一个字符任意多次,比如"a*",可以匹配空字符,或者任意多个a,基于本题中
"*"可以是0个,所以不能由前面不匹配就得出后面也不匹配的结论,比如s=b,p=a*b,一开始a!=b,我们不能由这个结论得出整个字符串不匹配,所以这题我们需要把整个字符串匹配完。
这题我的做法是DP,假设dp[i][j]表示匹配到S[:i]与P[:j]
(1)p[j]=!‘*‘,此时p[j]可能是字符,那就需要S[i]==P[j],可能是".",肯定匹配
dp[i][j] = dp[i-1][j-1] && ( s[i]==p[j] || p[j]==‘.‘ )
(2)P[j]==‘*‘,此时需要根据*的重复次数分情况讨论
1)重复0次,此时p[j]的作用就是消去前一个字符的作用,所以dp[i][j] = dp[i][j-2]
2)重复1次或以上,需要看p[j-1]的这个字符能否匹配S[i]这个位置的字符,
也就是S[i]==P[j-1]&&P[j-1]==‘.‘,再来看dp[i][j]是从哪一个状态转化来的,假设
S=abbbb,p=ab*,要求dp[1][1]时,此时dp[0][]已经全部得出来了,dp[1][1]=dp[0][1],
dp[0][1]到dp[1][1]是"*"从重复0次到1次的变化,然后是dp[2][2]=dp[1][2],我们可以总结出,
dp[i][j]的状态是"*"重复次数增加带来的状态变化,变化前是dp[i-1][j],也就是"*"重复次数增加前的状态。所以dp[i][j] = dp[i-1][j] && ( S[i]==P[j-1] || P[j-1]==‘.‘ )
综上所述
dp[i][j] = dp[i-1][j-1] && ( s[i]==p[j] || p[j]==‘.‘ ) ,条件是p[j]=!‘*‘
dp[i][j] = dp[i][j-2],条件是P[j]==‘*‘,并且重复0次
dp[i][j] = dp[i-1][j] && ( S[i]==P[j-1] || P[j-1]==‘.‘ ),条件是P[j]==‘*‘并重复不止1次
因为存在i-1,j-2这样的状态,为了防止数组越界,我们把S和P都向后移动一个位置,就当添加了一个空格" "进去,这样S和P的比较都是从1开始了,所有的判断条件需要多减一位
同时,简化"*"重复次数的不同状态,因为"*"重复0次不需要任何条件,dp[i][j] = dp[i][j - 2] || i > 0 && dp[i - 1][j] && (s.charAt(i - 1) == p.charAt(j - 2) || p.charAt(j - 2) == ‘.‘)
class Solution { public boolean isMatch(String s, String p) { int m = s.length(), n = p.length(); boolean dp[][] = new boolean[m + 1][n + 1]; dp[0][0] = true; for(int i = 0; i <= m; ++i) { for(int j = 1; j <= n; ++j) { if(p.charAt(j - 1) == ‘*‘) { dp[i][j] = dp[i][j - 2] || i > 0 && dp[i - 1][j] && (s.charAt(i - 1) == p.charAt(j - 2) || p.charAt(j - 2) == ‘.‘); } else { dp[i][j] = i > 0 && dp[i - 1][j - 1] && (s.charAt(i - 1) == p.charAt(j - 1) || p.charAt(j - 1) == ‘.‘); } } } return dp[m][n]; } }
[LeetCode]10. Regular Expression Matching正则表达式匹配
标签:[1] 一个 repeat return bsp mat ted lse 数组
原文地址:https://www.cnblogs.com/jchen104/p/10199823.html