Interview_Practive

Practice interview for general interview questions, answered in python 2.7, mostly tested with pytest

General

• Find the most frequent integer in an array
• Find pairs in an integer array whose sum is equal to 10 (bonus: do it in linear time)
• Given 2 integer arrays, determine of the 2nd array is a rotated version of the 1st array. Ex. Original Array A={1,2,3,5,6,7,8} Rotated Array B={5,6,7,8,1,2,3}
• Write fibbonaci iteratively and recursively (bonus: use dynamic programming)
• Find the only element in an array that only occurs once.
• Find the common elements of 2 int arrays
• Implement binary search of a sorted array of integers

• Implement binary search in a rotated array (ex. {5,6,7,8,1,2,3})
• Use dynamic programming to find the first X prime numbers
• Write a function that prints out the binary form of an int
• Implement parseInt
• Implement squareroot function
• Implement an exponent function (bonus: now try in log(n) time)
• Write a multiply function that multiplies 2 integers without using *
• HARD: Given a function rand5() that returns a random int between 0 and 5, implement rand7()
• HARD: Given a 2D array of 1s and 0s, count the number of "islands of 1s" (e.g. groups of connecting 1s)

Strings

• Find the first non-repeated character in a String
• Reverse a String iteratively and recursively
• Determine if 2 Strings are anagrams
• Check if String is a palindrome
• Check if a String is composed of all unique characters

• Determine if a String is an int or a double
• HARD: Find the shortest palindrome in a String
• HARD: Print all permutations of a String
• HARD: Given a single-line text String and a maximum width value, write the function 'String justify(String text, int maxWidth)' that formats the input text using full-justification, i.e., extra spaces on each line are equally distributed between the words; the first word on each line is flushed left and the last word on each line is flushed right

Trees

• Implement a BST with insert and delete functions
• Print a tree using BFS and DFS
• Write a function that determines if a tree is a BST
• Find the smallest element in a BST
• Find the 2nd largest number in a BST
• Given a binary tree which is a sum tree (child nodes add to parent), write an algorithm to determine whether the tree is a valid sum tree
• Find the distance between 2 nodes in a BST and a normal binary tree
• Print the coordinates of every node in a binary tree, where root is 0,0
• Print a tree by levels
• Given a binary tree which is a sum tree, write an algorithm to determine whether the tree is a valid sum tree
• Given a tree, verify that it contains a subtree.
• HARD: Find the max distance between 2 nodes in a BST.
• HARD: Construct a BST given the pre-order and in-order traversal Strings

Stacks, Queues, and Heaps

• Implement a stack with push and pop functions
• Implement a queue with queue and dequeue functions
• Find the minimum element in a stack in O(1) time
• Write a function that sorts a stack (bonus: sort the stack in place without extra memory)
• Implement a binary min heap. Turn it into a binary max heap
• HARD: Implement a queue using 2 stacks

Linked Lists

• Implement a linked list (with insert and delete functions)
• Find the Nth element in a linked list
• Remove the Nth element of a linked list
• Check if a linked list has cycles
• Given a circular linked list, find the node at the beginning of the loop. Example: A-->B-->C --> D-->E -->C, C is the node that begins the loop
• Check whether a link list is a palindrome
• Reverse a linked list iteratively and recursively

Sorting

• Implement bubble sort
• Implement selection sort
• Implement insertion sort
• Implement merge sort
• Implement quick sort