What is Hashing? Last Updated : 23 Nov, 2024 Comments Improve Suggest changes Like Article Like Report Hashing refers to the process of generating a fixed-size output from an input of variable size using the mathematical formulas known as hash functions. This technique determines an index or location for the storage of an item in a data structure. Need for Hash data structureThe amount of data on the internet is growing exponentially every day, making it difficult to store it all effectively. In day-to-day programming, this amount of data might not be that big, but still, it needs to be stored, accessed, and processed easily and efficiently. A very common data structure that is used for such a purpose is the Array data structure.Now the question arises if Array was already there, what was the need for a new data structure! The answer to this is in the word “efficiency“. Though storing in Array takes O(1) time, searching in it takes at least O(log n) time. This time appears to be small, but for a large data set, it can cause a lot of problems and this, in turn, makes the Array data structure inefficient. So now we are looking for a data structure that can store the data and search in it in constant time, i.e. in O(1) time. This is how Hashing data structure came into play. With the introduction of the Hash data structure, it is now possible to easily store data in constant time and retrieve them in constant time as well.Components of HashingThere are majorly three components of hashing:Key: A Key can be anything string or integer which is fed as input in the hash function the technique that determines an index or location for storage of an item in a data structure. Hash Function: The hash function receives the input key and returns the index of an element in an array called a hash table. The index is known as the hash index.Hash Table: Hash table is a data structure that maps keys to values using a special function called a hash function. Hash stores the data in an associative manner in an array where each data value has its own unique index.Components of HashingWhat is Collision?The hashing process generates a small number for a big key, so there is a possibility that two keys could produce the same value. The situation where the newly inserted key maps to an already occupied, and it must be handled using some collision handling technology.Collision in HashingAdvantages of Hashing in Data StructuresKey-value support: Hashing is ideal for implementing key-value data structures.Fast data retrieval: Hashing allows for quick access to elements with constant-time complexity.Efficiency: Insertion, deletion, and searching operations are highly efficient.Memory usage reduction: Hashing requires less memory as it allocates a fixed space for storing elements.Scalability: Hashing performs well with large data sets, maintaining constant access time.Security and encryption: Hashing is essential for secure data storage and integrity verification.To learn more about Hashing Please refer to the Introduction to Hashing – Data Structure and Algorithm Tutorials Comment More infoAdvertise with us Next Article Index Mapping (or Trivial Hashing) with negatives allowed kartik Follow Improve Article Tags : Hash DSA Practice Tags : Hash Similar Reads Hashing in Data Structure Hashing is a technique used in data structures that efficiently stores and retrieves data in a way that allows for quick access. Hashing involves mapping data to a specific index in a hash table (an array of items) using a hash function. It enables fast retrieval of information based on its key. The 3 min read Introduction to Hashing Hashing refers to the process of generating a small sized output (that can be used as index in a table) from an input of typically large and variable size. Hashing uses mathematical formulas known as hash functions to do the transformation. This technique determines an index or location for the stor 7 min read What is Hashing? Hashing refers to the process of generating a fixed-size output from an input of variable size using the mathematical formulas known as hash functions. This technique determines an index or location for the storage of an item in a data structure. Need for Hash data structureThe amount of data on the 3 min read Index Mapping (or Trivial Hashing) with negatives allowed Index Mapping (also known as Trivial Hashing) is a simple form of hashing where the data is directly mapped to an index in a hash table. The hash function used in this method is typically the identity function, which maps the input data to itself. In this case, the key of the data is used as the ind 7 min read Separate Chaining Collision Handling Technique in Hashing Separate Chaining is a collision handling technique. Separate chaining is one of the most popular and commonly used techniques in order to handle collisions. In this article, we will discuss about what is Separate Chain collision handling technique, its advantages, disadvantages, etc.There are mainl 3 min read Open Addressing Collision Handling technique in Hashing Open Addressing is a method for handling collisions. In Open Addressing, all elements are stored in the hash table itself. So at any point, the size of the table must be greater than or equal to the total number of keys (Note that we can increase table size by copying old data if needed). This appro 7 min read Double Hashing Double hashing is a collision resolution technique used in hash tables. It works by using two hash functions to compute two different hash values for a given key. The first hash function is used to compute the initial hash value, and the second hash function is used to compute the step size for the 15+ min read Load Factor and Rehashing Prerequisites: Hashing Introduction and Collision handling by separate chaining How hashing works: For insertion of a key(K) - value(V) pair into a hash map, 2 steps are required: K is converted into a small integer (called its hash code) using a hash function.The hash code is used to find an index 15+ min read Easy problems on HashingCheck if an array is subset of another arrayGiven two arrays a[] and b[] of size m and n respectively, the task is to determine whether b[] is a subset of a[]. Both arrays are not sorted, and elements are distinct.Examples: Input: a[] = [11, 1, 13, 21, 3, 7], b[] = [11, 3, 7, 1] Output: trueInput: a[]= [1, 2, 3, 4, 5, 6], b = [1, 2, 4] Output 13 min read Union and Intersection of two Linked List using HashingGiven two singly Linked Lists, create union and intersection lists that contain the union and intersection of the elements present in the given lists. Each of the two linked lists contains distinct node values.Note: The order of elements in output lists doesn’t matter. Examples:Input:head1 : 10 - 10 min read Two Sum - Pair with given SumGiven an array arr[] of n integers and a target value, the task is to find whether there is a pair of elements in the array whose sum is equal to target. This problem is a variation of 2Sum problem.Examples: Input: arr[] = [0, -1, 2, -3, 1], target = -2Output: trueExplanation: There is a pair (1, -3 15+ min read Max Distance Between Two OccurrencesGiven an array arr[], the task is to find the maximum distance between two occurrences of any element. If no element occurs twice, return 0.Examples: Input: arr = [1, 1, 2, 2, 2, 1]Output: 5Explanation: distance for 1 is: 5-0 = 5, distance for 2 is: 4-2 = 2, So max distance is 5.Input : arr[] = [3, 8 min read Most frequent element in an arrayGiven an array, the task is to find the most frequent element in it. If there are multiple elements that appear a maximum number of times, return the maximum element.Examples: Input : arr[] = [1, 3, 2, 1, 4, 1]Output : 1Explanation: 1 appears three times in array which is maximum frequency.Input : a 10 min read Only Repeating From 1 To n-1Given an array arr[] of size n filled with numbers from 1 to n-1 in random order. The array has only one repetitive element. The task is to find the repetitive element.Examples:Input: arr[] = [1, 3, 2, 3, 4]Output: 3Explanation: The number 3 is the only repeating element.Input: arr[] = [1, 5, 1, 2, 15+ min read Check for Disjoint Arrays or SetsGiven two arrays a and b, check if they are disjoint, i.e., there is no element common between both the arrays.Examples: Input: a[] = {12, 34, 11, 9, 3}, b[] = {2, 1, 3, 5} Output: FalseExplanation: 3 is common in both the arrays.Input: a[] = {12, 34, 11, 9, 3}, b[] = {7, 2, 1, 5} Output: True Expla 11 min read Non-overlapping sum of two setsGiven two arrays A[] and B[] of size n. It is given that both array individually contains distinct elements. We need to find the sum of all elements that are not common.Examples: Input : A[] = {1, 5, 3, 8} B[] = {5, 4, 6, 7}Output : 291 + 3 + 4 + 6 + 7 + 8 = 29Input : A[] = {1, 5, 3, 8} B[] = {5, 1, 9 min read Check if two arrays are equal or notGiven two arrays, a and b of equal length. The task is to determine if the given arrays are equal or not. Two arrays are considered equal if:Both arrays contain the same set of elements.The arrangements (or permutations) of elements may be different.If there are repeated elements, the counts of each 6 min read Find missing elements of a rangeGiven an array, arr[0..n-1] of distinct elements and a range [low, high], find all numbers that are in a range, but not the array. The missing elements should be printed in sorted order.Examples: Input: arr[] = {10, 12, 11, 15}, low = 10, high = 15Output: 13, 14Input: arr[] = {1, 14, 11, 51, 15}, lo 15+ min read Minimum Subsets with Distinct ElementsYou are given an array of n-element. You have to make subsets from the array such that no subset contain duplicate elements. Find out minimum number of subset possible.Examples : Input : arr[] = {1, 2, 3, 4}Output :1Explanation : A single subset can contains all values and all values are distinct.In 9 min read Remove minimum elements such that no common elements exist in two arraysGiven two arrays arr1[] and arr2[] consisting of n and m elements respectively. The task is to find the minimum number of elements to remove from each array such that intersection of both arrays becomes empty and both arrays become mutually exclusive.Examples: Input: arr[] = { 1, 2, 3, 4}, arr2[] = 8 min read 2 Sum - Count pairs with given sumGiven an array arr[] of n integers and a target value, the task is to find the number of pairs of integers in the array whose sum is equal to target.Examples: Input: arr[] = {1, 5, 7, -1, 5}, target = 6Output: 3Explanation: Pairs with sum 6 are (1, 5), (7, -1) & (1, 5). Input: arr[] = {1, 1, 1, 9 min read Count quadruples from four sorted arrays whose sum is equal to a given value xGiven four sorted arrays each of size n of distinct elements. Given a value x. The problem is to count all quadruples(group of four numbers) from all the four arrays whose sum is equal to x.Note: The quadruple has an element from each of the four arrays. Examples: Input : arr1 = {1, 4, 5, 6}, arr2 = 15+ min read Sort elements by frequency | Set 4 (Efficient approach using hash)Print the elements of an array in the decreasing frequency if 2 numbers have the same frequency then print the one which came first. Examples: Input : arr[] = {2, 5, 2, 8, 5, 6, 8, 8} Output : arr[] = {8, 8, 8, 2, 2, 5, 5, 6} Input : arr[] = {2, 5, 2, 6, -1, 9999999, 5, 8, 8, 8} Output : arr[] = {8, 12 min read Find all pairs (a, b) in an array such that a % b = kGiven an array with distinct elements, the task is to find the pairs in the array such that a % b = k, where k is a given integer. You may assume that a and b are in small range Examples : Input : arr[] = {2, 3, 5, 4, 7} k = 3Output : (7, 4), (3, 4), (3, 5), (3, 7)7 % 4 = 33 % 4 = 33 % 5 = 33 % 7 = 15 min read Group words with same set of charactersGiven a list of words with lower cases. Implement a function to find all Words that have the same unique character set. Example: Input: words[] = { "may", "student", "students", "dog", "studentssess", "god", "cat", "act", "tab", "bat", "flow", "wolf", "lambs", "amy", "yam", "balms", "looped", "poodl 8 min read k-th distinct (or non-repeating) element among unique elements in an array.Given an integer array arr[], print kth distinct element in this array. The given array may contain duplicates and the output should print the k-th element among all unique elements. If k is more than the number of distinct elements, print -1.Examples:Input: arr[] = {1, 2, 1, 3, 4, 2}, k = 2Output: 7 min read Intermediate problems on HashingFind Itinerary from a given list of ticketsGiven a list of tickets, find the itinerary in order using the given list.Note: It may be assumed that the input list of tickets is not cyclic and there is one ticket from every city except the final destination.Examples:Input: "Chennai" -> "Bangalore" "Bombay" -> "Delhi" "Goa" -> "Chennai" 11 min read Find number of Employees Under every ManagerGiven a 2d matrix of strings arr[][] of order n * 2, where each array arr[i] contains two strings, where the first string arr[i][0] is the employee and arr[i][1] is his manager. The task is to find the count of the number of employees under each manager in the hierarchy and not just their direct rep 9 min read Longest Subarray With Sum Divisible By KGiven an arr[] containing n integers and a positive integer k, he problem is to find the longest subarray's length with the sum of the elements divisible by k.Examples:Input: arr[] = [2, 7, 6, 1, 4, 5], k = 3Output: 4Explanation: The subarray [7, 6, 1, 4] has sum = 18, which is divisible by 3.Input: 10 min read Longest Subarray with 0 Sum Given an array arr[] of size n, the task is to find the length of the longest subarray with sum equal to 0.Examples:Input: arr[] = {15, -2, 2, -8, 1, 7, 10, 23}Output: 5Explanation: The longest subarray with sum equals to 0 is {-2, 2, -8, 1, 7}Input: arr[] = {1, 2, 3}Output: 0Explanation: There is n 10 min read Longest Increasing consecutive subsequenceGiven N elements, write a program that prints the length of the longest increasing consecutive subsequence. Examples: Input : a[] = {3, 10, 3, 11, 4, 5, 6, 7, 8, 12} Output : 6 Explanation: 3, 4, 5, 6, 7, 8 is the longest increasing subsequence whose adjacent element differs by one. Input : a[] = {6 10 min read Count Distinct Elements In Every Window of Size KGiven an array arr[] of size n and an integer k, return the count of distinct numbers in all windows of size k. Examples: Input: arr[] = [1, 2, 1, 3, 4, 2, 3], k = 4Output: [3, 4, 4, 3]Explanation: First window is [1, 2, 1, 3], count of distinct numbers is 3. Second window is [2, 1, 3, 4] count of d 10 min read Design a data structure that supports insert, delete, search and getRandom in constant timeDesign a data structure that supports the following operations in O(1) time.insert(x): Inserts an item x to the data structure if not already present.remove(x): Removes item x from the data structure if present. search(x): Searches an item x in the data structure.getRandom(): Returns a random elemen 5 min read Subarray with Given Sum - Handles Negative NumbersGiven an unsorted array of integers, find a subarray that adds to a given number. If there is more than one subarray with the sum of the given number, print any of them.Examples: Input: arr[] = {1, 4, 20, 3, 10, 5}, sum = 33Output: Sum found between indexes 2 and 4Explanation: Sum of elements betwee 13 min read Implementing our Own Hash Table with Separate Chaining in JavaAll data structure has their own special characteristics, for example, a BST is used when quick searching of an element (in log(n)) is required. A heap or a priority queue is used when the minimum or maximum element needs to be fetched in constant time. Similarly, a hash table is used to fetch, add 10 min read Implementing own Hash Table with Open Addressing Linear ProbingIn Open Addressing, all elements are stored in the hash table itself. So at any point, size of table must be greater than or equal to total number of keys (Note that we can increase table size by copying old data if needed).Insert(k) - Keep probing until an empty slot is found. Once an empty slot is 13 min read Maximum possible difference of two subsets of an arrayGiven an array of n-integers. The array may contain repetitive elements but the highest frequency of any element must not exceed two. You have to make two subsets such that the difference of the sum of their elements is maximum and both of them jointly contain all elements of the given array along w 15+ min read Sorting using trivial hash functionWe have read about various sorting algorithms such as heap sort, bubble sort, merge sort and others. Here we will see how can we sort N elements using a hash array. But this algorithm has a limitation. We can sort only those N elements, where the value of elements is not large (typically not above 1 15+ min read Smallest subarray with k distinct numbersWe are given an array consisting of n integers and an integer k. We need to find the smallest subarray [l, r] (both l and r are inclusive) such that there are exactly k different numbers. If no such subarray exists, print -1 and If multiple subarrays meet the criteria, return the one with the smalle 14 min read Like