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Complete Coding Interview Prep In Python, Java And C++! - BaDshaH - 06-03-2023 Published 6/2023 MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz Language: English | Size: 6.71 GB | Duration: 12h 16m Master Data Structures & Algorithms: Python, Java, C++ implementations, code visualization & LeetCode practice. [b]What you'll learn[/b] Understand the fundamental concepts and principles of data structures and algorithms. Gain proficiency in implementing data structures and Algorithms using Python, Java, and C++. Develop a solid understanding of time and space complexity analysis. Explore and apply various data structures such as arrays, hash maps, pointers, strings, linked lists, stacks, queues, binary trees, graphs, and tries. Master essential algorithms including depth-first search (DFS), breadth-first search (BFS), search algorithms, backtracking, dynamic programming (DP), and greed Utilize custom code execution visualization tools to enhance comprehension of complex concepts. Strengthen problem-solving skills through practical exercises and LeetCode platform practice. Apply data structures and algorithms to solve real-world programming challenges efficiently. Enhance coding efficiency and optimize algorithm performance through time and space analysis. [b]Requirements[/b] Computer and Internet Connection No experience with data structures or algorithms needed Basic understanding of any programming language No previous computer science knowledge necessary [b]Description[/b] Embark on a transformative journey into the realm of Data Structures and Algorithms with our comprehensive course. Designed to empower programmers of all levels, this course offers a rich learning experience in Python, Java, and C++ implementations. Delve into the art of efficient coding as you master the intricacies of Time Space Analysis. Gain a deep understanding of key topics including Arrays, Hashmaps, Pointers, Strings, Recursions, Stacks, Queues, Linked Lists, Binary Trees, Graphs, DFS, BFS, Search, Backtracking, DP, Greedy, and Tries. But it doesn't stop there. We believe in the power of visualization to unlock complex concepts. Our custom code execution visualization tool will immerse you in a dynamic learning experience, allowing you to witness the inner workings of algorithms in action. Say goodbye to confusion and embrace crystal-clear comprehension.As you progress, challenge yourself on the renowned LeetCode platform. Strengthen your problem-solving skills by tackling mind-bending coding problems that mirror real-world scenarios. LeetCode practice will prepare you for technical interviews, honing your abilities and boosting your confidence.Unlock your coding potential and elevate your skills to new heights. Enroll today in our Data Structures and Algorithms course, and become a master problem solver equipped to tackle any coding challenge that comes your way. Overview Section 1: Introduction to Course Lecture 1 Introduction to Course Curriculum Section 2: LeetCode #1 Qns. Two Sum (Array, Hash Table) Lecture 2 Question Requirements Lecture 3 Algorithm Explanation Lecture 4 Time Space Analysis Lecture 5 Python Solution Lecture 6 Java Solution Lecture 7 C++ Solution Section 3: LeetCode #2 Qns. Group Anagrams (Array, Hash Table, String,Sorting) Lecture 8 Question Requirements Lecture 9 Algorithm Explanation Lecture 10 Time Space Analysis Lecture 11 Python Solution Lecture 12 Java Solution Lecture 13 C++ Solution Section 4: LeetCode #3 Valid Palindrome (Pointers) Lecture 14 Question Requirements Lecture 15 Algorithm Explanation Lecture 16 Time Space Analysis Lecture 17 Python Solution Lecture 18 Java Solution Lecture 19 C++ Solution Section 5: LeetCode #4 Contains Duplicates (HashSets, Arrays) Lecture 20 Question Requirements Lecture 21 Algorithm Explanation Lecture 22 Time Space Analysis Lecture 23 Python Solution Lecture 24 Java Solution Lecture 25 C++ Solution Section 6: LeetCode #5 Valid Parenthesis (Stack, Array, String) Lecture 26 Question Requirements Lecture 27 Algorithm Explanation Lecture 28 Time Space Analysis Lecture 29 Python Solution Lecture 30 Java Solution Lecture 31 C++ Solution Section 7: LeetCode #6 Fibonacci Number (Recursion) Lecture 32 Question Requirements Lecture 33 Algorithm Explanation Lecture 34 Indepth Code execution example on Lalgo Lecture 35 Time Space Analysis Lecture 36 Python Solution Lecture 37 Java Solution Lecture 38 C++ Solution Section 8: LeetCode #7 Same Tree (Binary Trees, Recursion) Lecture 39 Question Requirements Lecture 40 Tree Data Structure Explanation Lecture 41 Algorithm Explanation Lecture 42 Time Space Analysis Lecture 43 Python Solution Lecture 44 Java Solution Lecture 45 C++ Solution Section 9: LeetCode #8 Validate BST (Binary Tree, Recursion, Stacks) Lecture 46 Question Requirements Lecture 47 Intuition Lecture 48 Recursive Approach Explanation Lecture 49 Time Space Analysis Lecture 50 Python Solution Lecture 51 Java Solution Lecture 52 C++ Solution Lecture 53 Iterative Approach Explanation Lecture 54 Time Space Analysis Lecture 55 Python Solution Lecture 56 Java Solution Lecture 57 C++ Solution Section 10: LeetCode #9 Reversed Linked List (Linked List, Recursion) Lecture 58 Question Requirements Lecture 59 Linked List explanation Lecture 60 Algorithm Explanation Lecture 61 Time Space Analysis Lecture 62 Python Solution Lecture 63 Java Solution Lecture 64 C++ Solution Section 11: LeetCode #10 Merge Two Sorted Lists (Linked List, Recursion) Lecture 65 Question Requirements Lecture 66 Algorithm Explanation Lecture 67 Time Space Analysis Lecture 68 Python Solution Lecture 69 Java Solution Lecture 70 C++ Solution Section 12: LeetCode #11 Invert Binary Tree (Binary Tree, Recursion) Lecture 71 Question Analysis Lecture 72 Algorithm Explanation Lecture 73 Time Space Anlaysis Lecture 74 Python Solution Lecture 75 Java Solution Lecture 76 C++ Solution Section 13: LeetCode #12 Search Insert Position (Binary Search) Lecture 77 Question Requirements Lecture 78 Wrong Approach Lecture 79 Algorithm Explanation Lecture 80 Time Space Analysis Lecture 81 Python Solution Lecture 82 Java Solution Lecture 83 C++ Solution Section 14: LeetCode #13 Sqrt(x) (Binary Search) Lecture 84 Question Requirements Lecture 85 Algorithm Explanation Lecture 86 Time Space Analysis Lecture 87 Python Solution Lecture 88 Java Solution Lecture 89 C++ Solution Section 15: LeetCode #14 Minimum Depth of Binary Tree (BFS, DFS) Lecture 90 Question Requirements Lecture 91 BFS Algorithm Explanation Lecture 92 Time Space Analysis Lecture 93 Python Solution Lecture 94 Java Solution Lecture 95 C++ Solution Lecture 96 DFS Algorithm Explanation Lecture 97 Time Space Analysis Lecture 98 Python Solution Lecture 99 Java Solution Lecture 100 C++ Solution Section 16: LeetCode #15 Symmetric Tree (DFS, BFS) Lecture 101 Question Requirements Lecture 102 BFS Algorithm Explanation Lecture 103 Time Space Analysis Lecture 104 Python Solution Lecture 105 Java Solution Lecture 106 C++ Solution Lecture 107 DFS Algorithm Explanation Lecture 108 Time Space Analysis Lecture 109 Python Solution Lecture 110 Java Solution Lecture 111 C++ Solution Section 17: LeetCode #16 Binary Tree Inorder Traversal (DFS) Lecture 112 Question Requirements Lecture 113 Algorithm Explanation Lecture 114 Time Space Analysis Lecture 115 Python Solution Lecture 116 Java Solution Lecture 117 C++ Solution Section 18: LeetCode #17 Clone Graph (Graphs, DFS) Lecture 118 Question Requirements Lecture 119 Graph Data Structure Concept Explanation Lecture 120 Algorithm Explanation Lecture 121 Time Space Analysis Lecture 122 Python Solution Lecture 123 Java Solution Lecture 124 C++ Solution Section 19: LeetCode #18 Number of Islands (Graph, DFS) Lecture 125 Question Requirements Lecture 126 Algorithm Explanation Lecture 127 Time Space Analysis Lecture 128 Python Solution Lecture 129 Java Solution Lecture 130 C++ Solution Section 20: LeetCode #19 Max Area of Island (Graph, DFS) Lecture 131 Question Analysis Lecture 132 Algorithm Explanation Lecture 133 Time Space Analysis Lecture 134 Python Solution Lecture 135 Java Solution Lecture 136 C++ Solution Section 21: LeetCode #20 Implement Queue Using Stacks Lecture 137 Question Requirements Lecture 138 Solution Explanation Lecture 139 Time Space Analysis Lecture 140 Python Solution Lecture 141 Java Solution Lecture 142 C++ Solution Section 22: LeetCode #21 Implement Stack Using Queues Lecture 143 Question Requirements Lecture 144 Approach 1: 2 Queues Explanation Lecture 145 Time Space Analysis Lecture 146 Python Solution Lecture 147 Java Solution Lecture 148 C++ Solution Lecture 149 Approach 2: 1 Queue Explanation Lecture 150 Time Space Analysis Lecture 151 Python Solution Lecture 152 Java Solution Lecture 153 C++ Solution Section 23: LeetCode #22 Subsets (Backtracking, DFS) Lecture 154 Question Requirements Lecture 155 Algorithm Explanation Lecture 156 Indepth Code execution example on Lalgo Lecture 157 Time Space Analysis Lecture 158 Python Solution Lecture 159 Java Solution Lecture 160 C++ Solution Section 24: LeetCode #23 Subsets 2 (Backtracking, DFS) Lecture 161 Question Requirements Lecture 162 Algorithm Explanation Lecture 163 Indepth Code execution example on Lalgo Lecture 164 Time Space Analysis Lecture 165 Python Solution Lecture 166 Java Solution Lecture 167 C++ Solution Section 25: LeetCode #24 Permutations (Backtracking, DFS) Lecture 168 Question Requirements Lecture 169 Algorithm Explanation Lecture 170 Indepth Code Execution Example on Lalgo Lecture 171 Time Space Analysis Lecture 172 Python Solution Lecture 173 Java Solution Lecture 174 C++ Solution Section 26: LeetCode #25 Permutations II (Backtracking, DFS) Lecture 175 Question Requirements Lecture 176 Algorithm Explanation Lecture 177 Indepth Code Execution Example on Lalgo Lecture 178 Time Space Analysis Lecture 179 Python Solution Lecture 180 Java Solution Lecture 181 C++ Solution Section 27: LeetCode #26 Combination Sum (Backtracking, DFS) Lecture 182 Question Requirements Lecture 183 Algorithm Explanation Lecture 184 Time Space Analysis Lecture 185 Python Solution Lecture 186 Java Solution Lecture 187 C++ Solution Section 28: LeetCode #27 Combination Sum 2 (DFS, Backtracking) Lecture 188 Question Analysis Lecture 189 Algorithm Explanation Lecture 190 Time Space Analysis Lecture 191 Python Solution Lecture 192 Java Solution Lecture 193 C++ Solution Section 29: LeetCode #28 NQueens (Backtracking, DFS) Lecture 194 Question Analysis Lecture 195 Algorithm Explanation Lecture 196 Time Space Analysis Lecture 197 Python Solution Lecture 198 Java Solution Lecture 199 C++ Solution Section 30: LeetCode #29 Climbing Stairs (Dynammic Programming, Memoization) Lecture 200 Question Analysis Lecture 201 Algorithm Explanation Lecture 202 Time Space Analysis Lecture 203 Python Solution Lecture 204 Java Solution Lecture 205 C++ Solution Section 31: LeetCode #30 House Robber (Dynamic Programming, Memoization) Lecture 206 Question Requirements Lecture 207 Algorithm Explanation Lecture 208 Time Space Analysis Lecture 209 Python Solution Lecture 210 Java Solution Lecture 211 C++ Solution Section 32: LeetCode #31 Jump Game (Greedy Algorithm, Dynamic Programming) Lecture 212 Question Requirements Lecture 213 Algorithm Explanation Lecture 214 Time Space Analysis Lecture 215 Python Solution Lecture 216 Java Solution Lecture 217 C++ Solution Section 33: LeetCode #32 Candy (Greedy Algorithm) Lecture 218 Question Requirements Lecture 219 Algorithm Explanation Lecture 220 Time Space Analysis Lecture 221 Python Solution Lecture 222 Java Solution Lecture 223 C++ Solution Section 34: LeetCode #33 Implement Trie (Trie) Lecture 224 Question Requirements Lecture 225 Algorithm Explanation Lecture 226 Time Space Analysis Lecture 227 Python Solution Lecture 228 Java Solution Lecture 229 C++ Solution This course is designed for aspiring programmers, computer science students, software engineers, and anyone interested in strengthening their coding skills and understanding the underlying principles of data structures and algorithms. Whether you are a beginner looking to establish a strong foundation or an experienced developer aiming to sharpen your problem-solving abilities, this course is tailored to meet your needs.,The course content is valuable for individuals who want to gain proficiency in implementing data structures and algorithms using popular programming languages such as Python, Java, and C++. If you are eager to dive into the world of efficient coding and understand how to analyze the time and space complexity of your programs, this course will provide you with the necessary tools. Homepage Download From Rapidgator Download From DDownload Download From Nitroflare |