Another Casual Coder

If you look at the constraints for this problem, the length of the string is 1000. You can solve it in N^2 with a constant of 26, which means O(26N^2) which would mean 26,000,000 steps. That's totally feasible and you shouldn't be ashamed if it gets the job done - and fast enough. Code is down below, cheers, ACC. Longest Balanced Substring I - LeetCode You are given a string  s  consisting of lowercase English letters. A  substring  of  s  is called  balanced  if all  distinct  characters in the  substring  appear the  same  number of times. Return the  length  of the  longest balanced substring  of  s .   Example 1: Input:   s = "abbac" Output:   4 Explanation: The longest balanced substring is  "abba"  because both distinct characters  'a'  and  'b'  each appear exactly 2 times. Example 2: Input:   s = "zzabccy" Output:   4 Explanation: ...

Very classic DP solution for this problem  Climbing Stairs II - LeetCode  with the typical hints: 1/ Min/Max problem 2/ Exponentially intractable with brute-force 3/ If you have the solutions for [0.....N-1], you can derive a formula for the solution for [N] One thing that you can do now that you have access to all LLM out there is to still continue to solve LC problems but use them to keep: A/ Improve your prompt engineering B/ Learn the capabilities of each of these models C/ Understand the solutions that they come up with, and how they might be different than yours My code is down below, along with the PROMPT used for the different models. Cheers, ACC. Code: public int ClimbStairs(int n, int[] costs) { int[] dp = new int[n + 1]; dp[0] = 0; for (int i = 1; i <= n; i++) { dp[i] = Int32.MaxValue; for (int j = 1; j <= 3; j++) { int indexFrom = i - j; int indexTo = i; if (indexFrom >= 0) ...