Algorithms and Data Structures implemented in Java
This is a collection of algorithms and data structures which I've implement over the years in my academic and professional life. The code isn't overly-optimized but is written to be correct and readable. The algorithms and data structures are well tested and, unless noted, are believe to be 100% correct.
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- AVL Tree
- B-Tree
- Binary Heap (backed by an array or a tree)
- Binary Search Tree
- Compact Suffix Trie (backed by a Patricia Trie)
- Disjoint Set
- Fenwick Tree {Binary Indexed Tree (BIT)}
- Graph
- Undirected
- Directed (Digraph)
- Hash Array Mapped Trie (HAMT)
- Hash Map (associative array)
- Interval Tree
- Implicit Key Treap
- KD Tree (k-dimensional tree or k-d tree)
- List [backed by an array or a linked list]
- LCP Array (Longest Common Prefix) [backed by a Suffix Array]
- Matrix
- Patricia Trie
- Quad-Tree (Point-Region or MX-CIF)
- Queue [backed by an array or a linked list]
- Radix Trie (associative array) [backed by a Patricia Trie]
- Red-Black Tree
- Segment Tree
- Skip List
- Splay Tree
- Stack [backed by an array or a linked list]
- Suffix Array
- Suffix Tree (Ukkonen's algorithm)
- Suffix Trie [backed by a Trie]
- Ternary Search Tree
- Treap
- Tree
- Tree Map (associative array) [backed by an AVL Tree]
- Trie
- Trie Map (associative array) [backed by a Trie]
- Distance
- chebyshev
- euclidean
- Division
- using a loop
- using recursion
- using shifts and multiplication
- using only shifts
- using logarithm
- Multiplication
- using a loop
- using recursion
- using only shifts
- using logarithms
- Fast Fourier Transform
- Exponentiation
- recursive exponentiation
- fast recursive exponentiation
- fast modular recursive exponentiation
- Primes
- is prime
- prime factorization
- sieve of eratosthenes
- Miller-Rabin test
- Co-Primes (relatively prime, mutually prime)
- Greatest Common Divisor
- using Euclid's algorithm
- using recursion
- Permutations
- strings
- numbers
- Modular arithmetic
- add
- subtract
- multiply
- divide
- power
- Knapsack
- Ramer Douglas Peucker
- Integers
- to binary String
- using divide and modulus
- using right shift and modulus
- using BigDecimal
- using divide and double
- is a power of 2
- using a loop
- using recursion
- using logarithm
- using bits
- to English (e.g. 1 would return "one")
- to binary String
- Longs
- to binary String
- using divide and modulus
- using right shift and modulus
- using BigDecimal
- to binary String
- Complex
- addition
- subtraction
- multiplication
- absolute value
- polar value
- Find shortest path(s) in a Graph from a starting Vertex
- Find minimum spanning tree
- Find all pairs shortest path
- Cycle detection
- Depth first search while keeping track of visited Verticies
- Connected Components
- Topological sort
- A* path finding algorithm
- Maximum flow
- Graph Traversal
- Edmonds Karp
- Matching
- Lowest common ancestor in tree
- Get index of value in array
- Linear
- Quickselect
- Binary [sorted array input only]
- Lower bound [sorted array input only]
- Upper bound [sorted array input only]
- Optimized binary (binary until a threashold then linear) [sorted array input only]
- Interpolation [sorted array input only]
- Find longest common subsequence (dynamic programming)
- Find longest increasing subsequence (dynamic programming)
- Find number of times a subsequence occurs in a sequence (dynamic programming)
- Find i-th element in a Fibonacci sequence
- using a loop
- using recursion
- using matrix multiplication
- using Binet's formula
- Find total of all elements in a sequence(Arithmetic Progression)
- using a loop
- using Triangular numbers
- Largest sum of contiguous subarray (Kadane's algorithm)
- Longest palindromic subsequence (dynamic programming)
- American Flag Sort
- Bubble Sort
- Counting Sort (Integers only)
- Heap Sort
- Insertion Sort
- Merge Sort
- Quick Sort
- Radix Sort (Integers only)
- Shell's Sort
- Reverse characters in a string
- using additional storage (a String or StringBuilder)
- using in-place swaps
- using in-place XOR
- Reverse words in a string
- using char swaps and additional storage (a StringBuilder)
- using StringTokenizer and additional (a String)
- using split() method and additional storage (a StringBuilder and String[])
- using in-place swaps
- Is Palindrome
- using additional storage (a StringBuilder)
- using in-place symetric element compares
- Subsets of characters in a String
- Edit (Levenshtein) Distance of two Strings (Recursive, Iterative)
- Find in lexicographically minimal string rotation
- Find in lexicographically maximal string rotation