Open data structures : an introduction /

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Offered as an introduction to the field of data structures and algorithms, Open Data Structures covers the implementation and analysis of data structures for sequences (lists), queues, priority queues, unordered dictionaries, ordered dictionaries, and graphs. Analyzed and implemented in Java, with a...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Morin, Pat, 1973- (Autor)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Edmonton, AB : AU Press, Athabasca University, [2013]
Colección:Open paths to enriched learning.
Temas:
Data structures (Computer science)
Computer algorithms.
Algorithms.
Algorithms
Structures de données (Informatique)
Algorithmes.
algorithms.
COMPUTERS > Programming Languages > General.
Computer algorithms
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Cover; Front Matter; Contents; Acknowledgments; Why This Book?; 1. Introduction; 1.1 The Need for Efficiency; 1.2 Interfaces; 1.2.1 The Queue, Stack, and Deque Interfaces; 1.2.2 The List Interface: Linear Sequences; 1.2.3 The USet Interface: Unordered Sets; 1.2.4 The SSet Interface: Sorted Sets; 1.3 Mathematical Background; 1.3.1 Exponentials and Logarithms; 1.3.2 Factorials; 1.3.3 Asymptotic Notation; 1.3.4 Randomization and Probability; 1.4 The Model of Computation; 1.5 Correctness, Time Complexity, and Space Complexity; 1.6 Code Samples; 1.7 List of Data Structures.
  • 1.8 Discussion and Exercises2. Array-Based Lists; 2.1 ArrayStack: Fast Stack Operations Using an Array; The Basics; Growing and Shrinking; Summary; 2.2 FastArrayStack: An Optimized ArrayStack; 2.3 ArrayQueue: An Array-Based Queue; 2.3.1 Summary; 2.4 ArrayDeque: Fast Deque Operations Using an Array; 2.4.1 Summary; 2.5 DualArrayDeque: Building a Deque from Two Stacks; 2.5.1 Balancing; 2.5.2 Summary; 2.6 RootishArrayStack: A Space-Efficient Array Stack; 2.6.1 Analysis of Growing and Shrinking; 2.6.2 Space Usage; 2.6.3 Summary; 2.6.4 Computing Square Roots; 2.7 Discussion and Exercises.
  • 3. Linked Lists3.1 SLList: A Singly-Linked List; 3.1.1 Queue Operations; 3.1.2 Summary; 3.2 DLList: A Doubly-Linked List; 3.2.1 Adding and Removing; 3.2.2 Summary; 3.3 SEList: A Space-Efficient Linked List; 3.3.1 Space Requirements; 3.3.2 Finding Elements; 3.3.3 Adding an Element; 3.3.4 Removing an Element; 3.3.5 Amortized Analysis of Spreading and Gathering; 3.3.6 Summary; 3.4 Discussion and Exercises; 4. Skiplists; 4.1 The Basic Structure; 4.2 SkiplistSSet: An Efficient SSet; 4.2.1 Summary; 4.3 SkiplistList: An Efficient Random-Access List; 4.3.1 Summary; 4.4 Analysis of Skiplists.
  • 4.5 Discussion and Exercises5. Hash Tables; 5.1 ChainedHashTable: Hashing with Chaining; 5.1.1 Multiplicative Hashing; 5.1.2 Summary; 5.2 LinearHashTable: Linear Probing; 5.2.1 Analysis of Linear Probing; 5.2.2 Summary; 5.2.3 Tabulation Hashing; 5.3 Hash Codes; 5.3.1 Hash Codes for Primitive Data Types; 5.3.2 Hash Codes for Compound Objects; 5.3.3 Hash Codes for Arrays and Strings; 5.4 Discussion and Exercises; 6. Binary Trees; 6.1 BinaryTree: A Basic Binary Tree; 6.1.1 Recursive Algorithms; 6.1.2 Traversing Binary Trees; 6.2 BinarySearchTree: An Unbalanced Binary Search Tree; 6.2.1 Searching.
  • 6.2.2 Addition6.2.3 Removal; 6.2.4 Summary; 6.3 Discussion and Exercises; 7. Random Binary Search Trees; 7.1 Random Binary Search Trees; 7.1.1 Proof of Lemma 7.1; 7.1.2 Summary; 7.2 Treap: A Randomized Binary Search Tree; 7.2.1 Summary; 7.3 Discussion and Exercises; 8. Scapegoat Trees; 8.1 ScapegoatTree: A Binary Search Tree with Partial Rebuilding; 8.1.1 Analysis of Correctness and Running-Time; 8.1.2 Summary; 8.2 Discussion and Exercises; 9. Red-Black Trees; 9.1 2-4 Trees; 9.1.1 Adding a Leaf; 9.1.2 Removing a Leaf; 9.2 RedBlackTree: A Simulated 2-4 Tree; 9.2.1 Red-Black Trees and 2-4 Trees.

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