Problem Statement Possible Bipartition LeetCode Solution – We want to split a group of n people (labeled from 1 to n) into two groups of any size. Each person may dislike some other people, and they should not go into the same group. Given the integer n and the array dislikes where dislikes[i] = [ai, bi] indicates that the person labeled ai does …
Problem Statement Employee Importance LeetCode Solution – You have a data structure of employee information, including the employee’s unique ID, importance value, and direct subordinates’ IDs. You are given an array of employees employees where: employees[i].id is the ID of the ith employee. employees[i].importance is the important value of the ith employee. employees[i].subordinates is a list of the …
Problem Statement Integer Break LeetCode Solution – Given an integer n, break it into the sum of k positive integers, where k >= 2, and maximize the product of those integers. We need to Return the maximum product we can get. Input: n = 2 Output: 1 Explanation: 2 = 1 + 1, …
Problem Statement Kth Smallest Product of Two Sorted Arrays LeetCode Solution – Given two sorted 0-indexed integer arrays nums1 and nums2 as well as an integer k, return the kth (1-based) smallest product of nums1[i] * nums2[j] where 0 <= i < nums1.length and 0 <= j < nums2.length. Input: nums1 = [2,5], nums2 = [3,4], k = 2 Output: 8 Explanation: The 2 …
Problem Statement Kill Process LeetCode Solution – You have n processes forming a rooted tree structure. You are given two integer arrays pid and ppid, where pid[i] is the ID of the ith process and ppid[i] is the ID of the ith process’s parent process. Each process has only one parent process but may have multiple children processes. Only one process has ppid[i] = 0, …
Problem Statement Path With Maximum Minimum Value LeetCode Solution – Given an m x n integer matrix grid, return the maximum score of a path starting at (0, 0) and ending at (m – 1, n – 1) moving in the 4 cardinal directions. The score of a path is the minimum value in that path. For example, the score of …
Problem Statement Maximum Product of Splitted Binary Tree LeetCode Solution – Given the root of a binary tree, split the binary tree into two subtrees by removing one edge such that the product of the sums of the subtrees is maximized. Return the maximum product of the sums of the two subtrees. …
Problem Statement The Implement Trie (Prefix Tree) LeetCode Solution – “Implement Trie (Prefix Tree)” asks you to implement the Trie Data Structure that performs inserting, searching and prefix searching efficiently. Example: Input: [“Trie”, “insert”, “search”, “search”, “startsWith”, “insert”, “search”] [[], [“apple”], [“apple”], [“app”], [“app”], [“app”], [“app”]] Output: [null, null, true, false, true, null, true] Explanation: After inserting all the strings, trie looks like this. Word apple is searched which …
Problem Statement The Palindrome Partitioning LeetCode Solution – “Palindrome Partitioning” states that you’re given a string, partition the input string such that every substring of the partition is a palindrome. Return all possible palindrome partitioning of the input string. Example: Input: s = “aab” Output: [[“a”,”a”,”b”],[“aa”,”b”]] Explanation: There exist exactly 2 valid …
Problem Statement The Symmetric Tree LeetCode Solution – “Symmetric Tree” states that given the root of the binary tree and we need to check if the given binary tree is a mirror of itself(symmetric around its center) or not? If Yes, we need to return true otherwise, false. Example: …