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Competitive Programming

Deal Score+1
Deal Score+1

Description

Ready to take your programming skills to the next level? In this course, which will help both novice and advanced programmers alike, you will dominate the algorithms and data structures necessary to do well in contests and to gain a competitive edge over other candidates in software interviews.

There are many tricks that are gained through experience and competitive programmers have a sixth sense when it comes to breaking problems down into the building blocks that make up a solution and which many are reluctant to share. Here I will let you in on the techniques and the applications that are useful for the field, focusing on real problems and how they are solved, while giving you an intuition on what is going on under the hood and why these ideas work.

From dynamic programming to graph algorithms and backtracking, you will get to practise and feel confident about many topics, learning advanced concepts such as union-find disjoint sets, tries, and game theory without feeling lost, and to apply new content as soon as you learn it, with over 100 suggested problems, both from past olympiads and online judges and some created by me specifically for this course. All of them come with detailed solutions. With this course, you will be ready to participate in online contests and informatics olympiads, and will have the experience necessary to continue advancing in this field. Are you ready to take this big step in your journey?

What you’ll learn

  • Competitive Programming
  • Algorithms
  • Data Structures
  • Programming
  • Merge Sort, QuickSort, Count Sort, Bucket Sort
  • Linear Search, Binary Search, QuickSelect, Two Pointer Technique
  • Stacks, Queues, Hash Tables, Hash Sets, Heap-Based Structures, Binary Search Tree-Based Data Structures, Coordinate Compression, Custom Comparators
  • Hash Functions, Collisions, Rabin-Karp, Sliding Window Technique
  • Greedy Algorithms
  • Iterative Complete Search, Backtracking, Permutations, Subsets, Pruning
  • Divide and Conquer, Binary Search the Answer, the Bisection Method
  • Dynamic Programming: Competitive Approach, Top-Down and Bottom-Up DP, Space Optimisation, Prefix Sums, Backtracking to Find Solutions
  • Graph Representation: Adjacency Lists, Adjacency Matrices, Edge Lists, Weighted and Unweighted Graphs
  • Graph Exploration: Breadth-First Search (BFS), Depth-First Search (DFS), Connected Components, Multi-Source BFS
  • Directed Graphs and Cycles: Topological Sort, Strongly Connected Components, BFS for Single-Source Shortest Paths
  • Shortest Paths: Dijkstra, Floyd-Warshall’s, Bellman-Ford and Negative-Weight Cycles, Arbitrages and the Logarithm Trick
  • Trees: Special Properties, Faster Shortest Paths, Diameter, Minimum Spanning Trees
  • Union-Find Disjoint Sets: Optimised Implementation, Kruskal’s Algorithm, Minimum Spanning Tree Variants
  • Strings: Dynamic Programming on Strings, Longest Common Subsequence, Edit Distance, Longest Palindromic Substring, Tries, Suffix Tries
  • Game Theory: States and Transitions, Minimax for Optimal Game Playing, Dynamic Programming To Recover Optimal Strategies
  • Approaching Interactive Problems

Requirements

Basic C++, such as conditionals, loops, variables or functions. No Object-Oriented Programming (OOP) is required.

Who this course is for:

  • Students and engineers wishing to delve into competitive programming, diving into the details and soaring up the rankings
  • Developers with a desire to master algorithms to succeed in technical interviews
  • High school students with a passion for Mathematics interested in seeing algorithms applied to technology
  • Anyone interested in gaining insights and learning the details of algorithms and data structures
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