We can represent a sentence as an array of words, for example, the sentence "I am happy with leetcode" can be represented as arr = ["I","am",happy","with","leetcode"].
Given two sentences sentence1 and sentence2 each represented as a string array and given an array of string pairs similarPairs where similarPairs[i] = [xi, yi] indicates that the two words xi and yi are similar.
Return true if sentence1 and sentence2 are similar, or false if they are not similar.
Two sentences are similar if:
- They have the same length (i.e., the same number of words)
sentence1[i]andsentence2[i]are similar.
Notice that a word is always similar to itself, also notice that the similarity relation is transitive. For example, if the words a and b are similar, and the words b and c are similar, then a and c are similar.
Example 1:
Input: sentence1 = ["great","acting","skills"], sentence2 = ["fine","drama","talent"], similarPairs = [["great","good"],["fine","good"],["drama","acting"],["skills","talent"]] Output: true Explanation: The two sentences have the same length and each word i of sentence1 is also similar to the corresponding word in sentence2.
Example 2:
Input: sentence1 = ["I","love","leetcode"], sentence2 = ["I","love","onepiece"], similarPairs = [["manga","onepiece"],["platform","anime"],["leetcode","platform"],["anime","manga"]] Output: true Explanation: "leetcode" --> "platform" --> "anime" --> "manga" --> "onepiece". Since "leetcode is similar to "onepiece" and the first two words are the same, the two sentences are similar.
Example 3:
Input: sentence1 = ["I","love","leetcode"], sentence2 = ["I","love","onepiece"], similarPairs = [["manga","hunterXhunter"],["platform","anime"],["leetcode","platform"],["anime","manga"]] Output: false Explanation: "leetcode" is not similar to "onepiece".
Constraints:
1 <= sentence1.length, sentence2.length <= 10001 <= sentence1[i].length, sentence2[i].length <= 20sentence1[i]andsentence2[i]consist of lower-case and upper-case English letters.0 <= similarPairs.length <= 2000similarPairs[i].length == 21 <= xi.length, yi.length <= 20xiandyiconsist of English letters.
Companies: Uber, Amazon, Google
Related Topics:
Array, Hash Table, String, Depth-First Search, Breadth-First Search, Union Find
Similar Questions:
// OJ: https://leetcode.com/problems/sentence-similarity-ii
// Author: github.com/lzl124631x
// Time: O(N)
// Space: O(N)
class UnionFind {
vector<int> id;
public:
UnionFind(int n) : id(n) {
iota(begin(id), end(id), 0);
}
int find(int a) {
return id[a] == a ? a : (id[a] = find(id[a]));
}
void connect(int a, int b) {
id[find(a)] = find(b);
}
bool connected(int a, int b) {
return find(a) == find(b);
}
};
class Solution {
public:
bool areSentencesSimilarTwo(vector<string>& A, vector<string>& B, vector<vector<string>>& P) {
if (A.size() != B.size()) return false;
unordered_map<string, int> id;
int index = 0;
for (auto &s : A) {
if (id.count(s) == 0) id[s] = index++;
}
for (auto &s : B) {
if (id.count(s) == 0) id[s] = index++;
}
UnionFind uf(index);
for (auto &v : P) uf.connect(id[v[0]], id[v[1]]);
for (int i = 0; i < A.size(); ++i) {
if (!uf.connected(id[A[i]], id[B[i]])) return false;
}
return true;
}
};