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This approach utilizes arrays to count the frequency of each letter from 'a' to 'z' for both strings. By iterating through the characters of each word, we can populate two frequency arrays. Then, by comparing the absolute differences between corresponding elements of these arrays, we can determine if the words are almost equivalent.
Time Complexity: O(n + 26), which simplifies to O(n) where n is the length of the words.
Space Complexity: O(1) since the frequency arrays have a constant size of 26.
1function areAlmostEquivalent(word1, word2) {
2 const freq1 = Array(26).fill(0);
3 const freq2 = Array(26).fill(0);
4
5 for (let i = 0; i < word1.length; i++) {
6 freq1[word1.charCodeAt(i) - 97]++;
7 freq2[word2.charCodeAt(i) - 97]++;
8 }
9
10 for (let i = 0; i < 26; i++) {
11 if (Math.abs(freq1[i] - freq2[i]) > 3) {
12 return false;
13 }
14 }
15 return true;
16}
17
18console.log(areAlmostEquivalent("abcdeef", "abaaacc"));JavaScript approach follows the same logic, using arrays to track character frequencies and checking frequency deviations. The method loops through both strings and checks each letter's deviation with respect to another string.
This alternate approach uses the hashmap or hash table data structure to record character frequencies for both strings. Hash maps are dynamic, allowing insertion without specifying a fixed field size. The hash maps' keys are characters, and their values are frequencies. The function calculates differences between frequency keys of two maps.
Time Complexity: O(n), limited by character frequency computation.
Space Complexity: O(1), determined by number of distinct characters, since max 26 distinct alphabets.
1#include <iostream>
2#include <unordered_map>
#include <string>
#include <cmath>
using namespace std;
bool areAlmostEquivalent(string word1, string word2) {
unordered_map<char, int> freq1, freq2;
for (char ch : word1) freq1[ch]++;
for (char ch : word2) freq2[ch]++;
for (char ch = 'a'; ch <= 'z'; ch++) {
if (abs(freq1[ch] - freq2[ch]) > 3) {
return false;
}
}
return true;
}
int main() {
cout << areAlmostEquivalent("abcdeef", "abaaacc") << endl; // Output: 1 (true)
return 0;
}The C++ code uses unordered_map containers to store character frequencies. The frequency difference analysis is done by iterating through alphabetical characters, ensuring deviations do not surpass 3.