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In this approach, you start with the first string as a reference and gradually compare it with each subsequent string in the array. The reference prefix is shortened until it matches the prefixes of all strings.
Time Complexity: O(S), where S is the sum of all characters in all strings.
Space Complexity: O(1), as we are using constant extra space.
1function longestCommonPrefix(strs) {
2 if (strs.length === 0) return "";
3 let prefix = strs[0];
4 for (let i = 1; i < strs.length; i++) {
5 while (strs[i].indexOf(prefix) !== 0) {
6 prefix = prefix.substring(0, prefix.length - 1);
7 if (prefix === "") return "";
8 }
9 }
10 return prefix;
11}
12
13console.log(longestCommonPrefix(["flower", "flow", "flight"]));The JavaScript version employs comparable logic with indexOf to evaluate prefixes. The operation trims the prefix incrementally until it fits all given strings.
This approach involves dividing the array of strings into two halves, recursively finding the longest common prefix for each half, and merging the results. The merge step compares characters from the two strings to find the common prefix.
Time Complexity: O(S), where S is the sum of all characters in the strings.
Space Complexity: O(M*logN), where M is the length of the common prefix and N is the number of strings.
1
This C solution reduces the problem into finding the longest common prefix of smaller sections, leading to a combination of results using a helper function to merge prefixes by character comparison.