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A fast, extensible Dart library for algorithms and data structures, offering search, sort, and AI utilities. Over 500 algorithms planned in future versions.

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🧠 POFK Algorithm #

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A comprehensive, fast, and extensible algorithms library for Dart. Includes classic and modern techniques for lists, sets, maps, strings, and graphs β€” built with clean APIs and strong generics.

  • Actively maintained with ambitious roadmap (1,000+ algorithms planned)
  • Type-safe generics across the library
  • Readable code with clear documentation and tests

Environment: Dart SDK β‰₯ 3.7.2 (see pubspec.yaml).

πŸ“¦ Install #

Use in your Dart or Flutter project.

Dart #

dart pub add pofk_algorithm

Flutter #

flutter pub add pofk_algorithm

πŸš€ Quick start #

import 'package:pofk_algorithm/pofk_algorithm.dart';
import 'package:pofk_algorithm/graph_algorithms/weighted_edge.dart';

void main() {
  // List: binary search and sorting
  final idx = binarySearch<int>([1, 3, 5, 7, 9], 7);
  final sorted = mergeSort<int>([5, 2, 4, 6, 1, 3]);

  // String: algorithms
  final isPal = isPalindrome('A man a plan a canal Panama');
  final lcp = longestCommonPrefix(['flower', 'flow', 'flight']);

  // Graph: Dijkstra over weighted edges
  final graph = <String, List<WeightedEdge<String>>>{
    'A': [WeightedEdge('A', 'B', 1), WeightedEdge('A', 'C', 4)],
    'B': [WeightedEdge('B', 'C', 2)],
    'C': [],
  };
  final dist = dijkstra(graph, 'A');

  // Tree: binary tree operations
  final root = BinaryTreeNode<int>(10);
  root.left = BinaryTreeNode<int>(5);
  root.right = BinaryTreeNode<int>(15);
  final inorder = inorderTraversal(root);
  final isValid = validateBST(root);

  // Linked List: basic operations
  final list = LinkedListNode.fromList<int>([1, 2, 3, 4, 5]);
  final reversed = reverseLinkedList(list);
  final hasCycle = detectCycle(list);

  print([idx, sorted, isPal, lcp, dist, inorder, isValid, reversed, hasCycle]);
}

For a full tour, see example/pofk_algorithm_example.dart, example/tree_algorithms_example.dart, and example/linked_list_algorithms_example.dart.

🧩 Algorithms included #

List algorithms #

  • binary_search, linear_search
  • merge_sort, quick_sort, bubble_sort, insertion_sort, selection_sort
  • counting_sort (non-negative ints)
  • reverse_list, find_max_min, find_duplicates, remove_duplicates
  • kadanes_algorithm
  • max_sum_subarray_of_size_k, min_sum, average_subarray, prefix_sum, two_sum_sorted
  • rotate_array_right

Set algorithms #

  • has_duplicates, has_two_sum, has_unique_window
  • disjoint_set (Union-Find), find_intersection, set_difference, is_frequency_unique

Map algorithms #

  • frequency_count, most_frequent_element, top_k_frequent
  • group_by_key, first_non_repeated_element
  • anagram_checker (generic list-based)
  • two_sum (indices), lru_cache, length_of_longest_substring

String algorithms #

  • reverse_string, palindrome_checker, anagram_checker
  • brute_force_search, kmp_search, rabin_karp_search
  • longest_common_prefix, longest_palindromic_substring
  • edit_distance, string_compression, count_vowels_consonants

Graph algorithms (new) #

  • bfs, dfs, topological_sort
  • connected_components, cycle_detection (directed/undirected), bipartite_graph
  • shortest_path (unweighted BFS), weighted_edge (utility)
  • dijkstra, bellman_ford, floyd_warshall
  • mst_kruskal, mst_prim
  • kosaraju_scc, articulation_points, union_find (typedef)

Tree algorithms (new) #

  • binary_tree_node (generic tree node)
  • tree_traversals (inorder, preorder, postorder)
  • level_order_traversal (BFS)
  • tree_depth (height calculation)
  • invert_tree (mirror tree)
  • lowest_common_ancestor (LCA)
  • validate_bst (BST validation)
  • tree_diameter (longest path)
  • balanced_tree_check (height-balanced check)
  • tree_serialization (serialize/deserialize)
  • zigzag_traversal (alternating level order)

Linked List algorithms (new) #

  • linked_list_node (generic singly linked list node)
  • doubly_linked_list_node (generic doubly linked list node)
  • insert_delete_at_position (insert/delete at specific positions)
  • reverse_linked_list (iterative, recursive, group reverse, reverse between)
  • detect_cycle (Floyd's cycle detection algorithm)
  • merge_sorted_lists (merge two sorted linked lists)
  • remove_nth_from_end (remove nth node from end)
  • palindrome_linked_list (check if linked list is palindrome)
  • intersection_of_lists (find intersection point of two lists)

Each function includes Dartdoc with usage and time/space complexity.

πŸ“š Usage notes #

  • Import everything via package:pofk_algorithm/pofk_algorithm.dart.
  • Sorting/searching functions use T extends Comparable where appropriate.
  • Weighted graph utilities use WeightedEdge<T>.
  • Algorithms are pure and side-effect free unless documented otherwise.

πŸ§ͺ Running tests #

dart test

All tests pass in the repository (see test/).

🀝 Contributing #

Contributions are welcome!

  • Add new algorithms or optimize existing ones
  • Improve docs and examples
  • Increase test coverage

Open a PR with a brief description and test cases.

πŸ—ΊοΈ Roadmap (short-term) #

  • Expand graph algorithms (SPFA, Johnson, Edmonds-Karp, Dinic)
  • Add tree/heap/DP/geometry modules
  • Benchmarks and performance docs

πŸ“„ License #

MIT. See LICENSE.

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A fast, extensible Dart library for algorithms and data structures, offering search, sort, and AI utilities. Over 500 algorithms planned in future versions.

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