给定一个字符串S,通过将字符串S中的每个字母转变大小写,我们可以获得一个新的字符串。返回所有可能得到的字符串集合。
示例: 输入:S = "a1b2" 输出:["a1b2", "a1B2", "A1b2", "A1B2"] 输入:S = "3z4" 输出:["3z4", "3Z4"] 输入:S = "12345" 输出:["12345"]
提示:
S的长度不超过12。S仅由数字和字母组成。
DFS 回溯法。
class Solution:
def letterCasePermutation(self, s: str) -> List[str]:
def dfs(i, t):
if i == len(t):
ans.append(''.join(t))
return
dfs(i + 1, t)
if t[i].isalpha():
t[i] = t[i].upper() if t[i].islower() else t[i].lower()
dfs(i + 1, t)
ans = []
t = list(s)
dfs(0, t)
return ansclass Solution:
def letterCasePermutation(self, s: str) -> List[str]:
def dfs(i, t):
if i == len(s):
ans.append(t)
return
if s[i].isalpha():
dfs(i + 1, t + s[i].upper())
dfs(i + 1, t + s[i].lower())
else:
dfs(i + 1, t + s[i])
ans = []
dfs(0, '')
return ansclass Solution {
public List<String> letterCasePermutation(String S) {
char[] cs = S.toCharArray();
List<String> res = new ArrayList<>();
dfs(cs, 0, res);
return res;
}
private void dfs(char[] cs, int i, List<String> res) {
if (i == cs.length) {
res.add(String.valueOf(cs));
return;
}
dfs(cs, i + 1, res);
if (cs[i] >= 'A') {
cs[i] ^= 32;
dfs(cs, i + 1, res);
}
}
}class Solution {
public:
vector<string> ans;
string s;
vector<string> letterCasePermutation(string s) {
this->s = s;
string t = "";
dfs(0, t);
return ans;
}
void dfs(int i, string t) {
if (i == s.size())
{
ans.push_back(t);
return;
}
if (isalpha(s[i]))
{
char c1 = toupper(s[i]);
char c2 = tolower(s[i]);
dfs(i + 1, t + c1);
dfs(i + 1, t + c2);
}
else
{
dfs(i + 1, t + s[i]);
}
}
};