Another Casual Coder

It has been a while since I had solved a PE problem. This one is simple, difficulty is 5%. As always I cannot share the solution or full code due to the rules of engagement with PE, but I can share the overall approach: 1/ Figure out a way to quickly find the Pisano Period. Hint: AI is your friend, so is Google or Bing 2/ Brute force it up to 1B. Takes a couple of minutes Cheers, ACC #853 Pisano Periods 1 - Project Euler

This problem requires a solution similar to the longest increasing subsequence one. Basically on each step you either reset the current streak or increments it, adding the value to the return value. Code is down below, cheers, ACC. Count Alternating Subarrays - LeetCode 3101. Count Alternating Subarrays Medium 150 7 Add to List Share You are given a  binary array   nums . We call a  subarray   alternating  if  no  two  adjacent  elements in the subarray have the  same  value. Return  the number of alternating subarrays in  nums .   Example 1: Input:   nums = [0,1,1,1] Output:   5 Explanation: The following subarrays are alternating:  [0] ,  [1] ,  [1] ,  [1] , and  [0,1] . Example 2: Input:   nums = [1,0,1,0] Output:   10 Explanation: Every subarray of the array is alternating. There are 10 possible subarrays that we can choose.   Constraints: 1 <= nums.length <= 10 5 nums[i]  is either  0  or  1 . Accepted 26,802 Submissions 47,966 public long CountAlternatingSubarrays(int[] num