1202 Smallest String With Swaps 交换字符串中的元素
Description:
You are given a string s, and an array of pairs of indices in the string pairs where pairs[i] = [a, b] indicates 2 indices(0-indexed) of the string.
You can swap the characters at any pair of indices in the given pairs any number of times.
Return the lexicographically smallest string that s can be changed to after using the swaps.
Example:
Example 1:
Input: s = "dcab", pairs = [[0,3],[1,2]]
Output: "bacd"
Explaination:
Swap s[0] and s[3], s = "bcad"
Swap s[1] and s[2], s = "bacd"
Example 2:
Input: s = "dcab", pairs = [[0,3],[1,2],[0,2]]
Output: "abcd"
Explaination:
Swap s[0] and s[3], s = "bcad"
Swap s[0] and s[2], s = "acbd"
Swap s[1] and s[2], s = "abcd"
Example 3:
Input: s = "cba", pairs = [[0,1],[1,2]]
Output: "abc"
Explaination:
Swap s[0] and s[1], s = "bca"
Swap s[1] and s[2], s = "bac"
Swap s[0] and s[1], s = "abc"
Constraints:
1 <= s.length <= 10^5
0 <= pairs.length <= 10^5
0 <= pairs[i][0], pairs[i][1] < s.length
s only contains lower case English letters.
题目描述:
给你一个字符串 s,以及该字符串中的一些「索引对」数组 pairs,其中 pairs[i] = [a, b] 表示字符串中的两个索引(编号从 0 开始)。
你可以 任意多次交换 在 pairs 中任意一对索引处的字符。
返回在经过若干次交换后,s 可以变成的按字典序最小的字符串。
示例 :
示例 1:
输入:s = "dcab", pairs = [[0,3],[1,2]]
输出:"bacd"
解释:
交换 s[0] 和 s[3], s = "bcad"
交换 s[1] 和 s[2], s = "bacd"
示例 2:
输入:s = "dcab", pairs = [[0,3],[1,2],[0,2]]
输出:"abcd"
解释:
交换 s[0] 和 s[3], s = "bcad"
交换 s[0] 和 s[2], s = "acbd"
交换 s[1] 和 s[2], s = "abcd"
示例 3:
输入:s = "cba", pairs = [[0,1],[1,2]]
输出:"abc"
解释:
交换 s[0] 和 s[1], s = "bca"
交换 s[1] 和 s[2], s = "bac"
交换 s[0] 和 s[1], s = "abc"
提示:
1 <= s.length <= 10^5
0 <= pairs.length <= 10^5
0 <= pairs[i][0], pairs[i][1] < s.length
s 中只含有小写英文字母
思路:
并查集
两个可交换的字符可以归并到一个并查集中
将相同并查集的字符存放到哈希表中并排序, 也可以使用优先队列
然后按照同一并查集弹出字符串到结果中
时间复杂度为 O(m + n + nlgn), 空间复杂度为 O(n), m 是 pairs 数组的长度, n 为 s 的长度
代码:
C++:
class Solution
{
private:
int father[100010];
int find(int x)
{
return x == father[x] ? x : (father[x] = find(father[x]));
}
void merge(int x,int y)
{
father[find(x)] = find(y);
}
public:
string smallestStringWithSwaps(string s, vector<vector<int>>& pairs)
{
int n = s.size();
unordered_map<int, vector<char>> m;
string result;
for (int i = 0; i < n; i++) father[i] = i;
for (const auto& pair: pairs) merge(pair.front(), pair.back());
for (int i = 0; i < n; i++) m[find(i)].emplace_back(s[i]);
for (auto& [k, v] : m) sort(v.begin(), v.end(), greater<char>());
for (int i = 0; i < n; i++)
{
int x = find(i);
result += m[x].back();
m[x].pop_back();
}
return result;
}
};
Java:
class Solution {
public String smallestStringWithSwaps(String s, List<List<Integer>> pairs) {
int n = s.length(), p[] = new int[n];
for (int i = 0; i < n; i++) p[i] = i;
for (List<Integer> pair : pairs) union(pair.get(0), pair.get(1), p);
Map<Integer, PriorityQueue<Character>> map = new HashMap<>();
for (int i = 0; i < n; i++) {
int cur = find(i, p);
if (!map.containsKey(cur)) map.put(cur, new PriorityQueue<>());
map.get(cur).offer(s.charAt(i));
}
StringBuilder result = new StringBuilder();
for (int i = 0; i < n; i++) result.append(map.get(find(i, p)).poll());
return result.toString();
}
private int find(int x, int[] p) {
return p[x] == x ? x : (p[x] = find(p[x], p));
}
private void union(int x, int y, int[] p) {
p[find(x, p)] = find(y, p);
}
}
Python:
class UF:
def __init__(self, n: int) -> None:
self.parent = [i for i in range(n)]
self.weight = [1] * n
self.count = n
def union(self, p: int, q: int) -> None:
"""
连接两个点
:param p: 一个节点
:param q: 另一个节点
:return:
"""
p = self.find(p)
q = self.find(q)
if p == q:
return
if self.weight[p] > self.weight[q]:
self.parent[q] = p
self.weight[p] += self.weight[q]
else:
self.parent[p] = q
self.weight[q] += self.weight[p]
self.count -= 1
def connected(self, p: int, q: int) -> bool:
"""
检查两个点是否在同一分量
:param p: 一个节点
:param q: 另一个节点
:return: 返回两个点是否在同一个分量
"""
return self.find(p) == self.find(q)
def find(self, p: int) -> int:
"""
查找根节点, 并进行路径压缩
:param p: 一个节点
:return: 根节点
"""
while self.parent[p] != p:
self.parent[p] = self.parent[self.parent[p]]
p = self.parent[p]
return p
class Solution:
def smallestStringWithSwaps(self, s: str, pairs: List[List[int]]) -> str:
uf, d, result = UF((n := len(s))), defaultdict(list), []
for x, y in pairs:
uf.union(x, y)
for i, c in enumerate(s):
d[uf.find(i)].append(c)
for vec in d.values():
vec.sort(reverse=True)
for i in range(n):
result.append(d[x := uf.find(i)][-1])
d[x].pop()
return "".join(result)
