Given a string s containing only three types of characters: '(', ')' and '*', return true if s is valid.
The following rules define a valid string:
- Any left parenthesis
'('must have a corresponding right parenthesis')'. - Any right parenthesis
')'must have a corresponding left parenthesis'('. - Left parenthesis
'('must go before the corresponding right parenthesis')'. '*'could be treated as a single right parenthesis')'or a single left parenthesis'('or an empty string"".
Example 1:
Input: s = "()" Output: true
Example 2:
Input: s = "(*)" Output: true
Example 3:
Input: s = "(*))" Output: true
Constraints:
1 <= s.length <= 100s[i]is'(',')'or'*'.
Companies:
LinkedIn, Rubrik, Apple, Microsoft, Amazon, Facebook, Oracle
Related Topics:
String, Dynamic Programming, Stack, Greedy
Similar Questions:
This solution is not performant if s contains lots of "*".
// OJ: https://leetcode.com/problems/valid-parenthesis-string/
// Author: github.com/lzl124631x
// Time: O(3^S) where S is the length of string s. In the worst case every character
// is "*", so every step has 3 choices.
// Space: O(S)
class Solution {
private:
bool dfs(string &s, int start, int leftParenCnt) {
if (start == s.size()) return !leftParenCnt;
if (s[start] == '(') {
return dfs(s, start + 1, leftParenCnt + 1);
} else if (s[start] == ')') {
if (--leftParenCnt < 0) return false;
return dfs(s, start + 1, leftParenCnt);
} else {
if (dfs(s, start + 1, leftParenCnt + 1)) return true;
if (leftParenCnt >= 1 && dfs(s, start + 1, leftParenCnt - 1)) return true;
return dfs(s, start + 1, leftParenCnt);
}
}
public:
bool checkValidString(string s) {
return dfs(s, 0, 0);
}
};Let diff be count of left parenthesis minus count of right parenthesis.
When we meet:
(, we incrementdiff.), we decrementdiff.*, we have three choices which makes thediffbecome a range --[diff - 1, diff + 1].
So we use maxDiff/minDiff to record the maximum/minimum diff we can get.
When we meet:
(,++maxDiffand++minDiff.),--maxDiffand--minDiff.*,++maxDiffand--minDiff.
If maxDiff become negative, it means it's already invalid, we should return false.
Whenever minDiff falls below 0, we should force it to be 0 because we never accept negative diff during the process.
After scanning through string s, as long as minDiff is 0, this string can be a valid one.
Whenever
minDifffalls below0, we should force it to be0because we never accept negativediffduring the process.
minDiff means the diff we got if we always try to replace * with ). If minDiff become -1, it means that this replacement results in more ) than (, so it should be avoided. To avoid it, we simply reset minDiff from -1 to 0 which implies we only replace * with ( or empty string.
Example: (**)
- Seeing
(, the range becomes[1, 1]. - Seeing
*, the range becomes[0, 2].0correponds to(),1to(_,2to((. - Seeing
*, the range becomes[-1,3]. But-1is invalid because it means())and should be avoided. So we correct the range to[0, 3]. - Seeing
), the range becomes[-1, 2]. Again, we correct the range to[0, 2](because-1means()_)or(_)))
The final [0, 2] range means that we can either get a perfect string, or has 1 or 2 more ( available (which are created by *).
// OJ: https://leetcode.com/problems/valid-parenthesis-string/
// Author: github.com/lzl124631x
// Time: O(S)
// Space: O(1)
class Solution {
public:
bool checkValidString(string s) {
int maxDiff = 0, minDiff = 0;
for (char c : s) {
maxDiff += (c == '(' || c == '*') ? 1 : -1;
minDiff += (c == ')' || c == '*') ? -1 : 1;
if (maxDiff < 0) return false;
if (minDiff < 0) minDiff = 0;
}
return minDiff == 0;
}
};