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Data structures and algorithm analyis in C++ / (Record no. 8343)

MARC details
000 -LEADER
fixed length control field 09396cam a2200349 i 4500
001 - CONTROL NUMBER
control field 8343
003 - CONTROL NUMBER IDENTIFIER
control field BD-DhEWU
005 - DATE AND TIME OF LATEST TRANSACTION
control field 20180306175320.0
008 - FIXED-LENGTH DATA ELEMENTS--GENERAL INFORMATION
fixed length control field 130507t20142014maua 000 0 eng
020 ## - INTERNATIONAL STANDARD BOOK NUMBER
International Standard Book Number 9780132847377 (alk. paper)
International Standard Book Number 013284737X (alk. paper)
040 ## - CATALOGING SOURCE
Original cataloging agency DLC
Language of cataloging eng
Transcribing agency DLC
Description conventions rda
Modifying agency DLC
-- BD-DhEWU
041 ## - LANGUAGE CODE
Language code of text/sound track or separate title eng
050 00 - LIBRARY OF CONGRESS CALL NUMBER
Classification number QA76.73.C153
Item number W46 2014
082 04 - DEWEY DECIMAL CLASSIFICATION NUMBER
Classification number 005.73
Item number WED 2014
Edition number 23
100 1# - MAIN ENTRY--PERSONAL NAME
Personal name Weiss, Mark Allen.
9 (RLIN) 3093
245 10 - TITLE STATEMENT
Title Data structures and algorithm analyis in C++ /
Statement of responsibility, etc Mark Allen Weiss, Florida International University.
250 ## - EDITION STATEMENT
Edition statement 4th ed.
260 ## - PUBLICATION, DISTRIBUTION, ETC. (IMPRINT)
Place of publication, distribution, etc New Delhi :
Name of publisher, distributor, etc Pearson Education,
Date of publication, distribution, etc 2014.
300 ## - PHYSICAL DESCRIPTION
Extent xviii, 635 p. :
Other physical details illustrations ;
Dimensions 24 cm.
505 ## - FORMATTED CONTENTS NOTE
Formatted contents note Chapter 1 Programming: A General Overview 1 1.1 What's This Book About? 1 1.2 Mathematics Review 2 1.2.1 Exponents 3 1.2.2 Logarithms 3 1.2.3 Series 4 1.2.4 Modular Arithmetic 5 1.2.5 The P Word 6 1.3 A Brief Introduction to Recursion 8 1.4 C++ Classes 12 1.4.1 Basic class Syntax 12 1.4.2 Extra Constructor Syntax and Accessors 13 1.4.3 Separation of Interface and Implementation 16 1.4.4 vector and string 19 1.5 C++ Details 21 1.5.1 Pointers 21 1.5.2 Lvalues, Rvalues, and References 23 1.5.3 Parameter Passing 25 1.5.4 Return Passing 27 1.5.5 std::swap and std::move 29 1.5.6 The Big-Five: Destructor, Copy Constructor, Move Constructor, Copy Assignment operator=, Move Assignment operator= 30 1.5.7 C-style Arrays and Strings 35 1.6 Templates 36 1.6.1 Function Templates 37 1.6.2 Class Templates 38 1.6.3 Object, Comparable, and an Example 39 1.6.4 Function Objects 41 1.6.5 Separate Compilation of Class Templates 44 1.7 Using Matrices 44 1.7.1 The Data Members, Constructor, and Basic Accessors 44 1.7.2 operator[] 45 1.7.3 Big-Five 46 Summary 46 Exercises 46 References 48 Chapter 2 Algorithm Analysis 51 2.1 Mathematical Background 51 2.2 Model 54 2.3 What to Analyze 54 2.4 Running-Time Calculations 57 2.4.1 A Simple Example 58 2.4.2 General Rules 58 2.4.3 Solutions for the Maximum Subsequence Sum Problem 60 2.4.4 Logarithms in the Running Time 66 2.4.5 Limitations of Worst Case Analysis 70 Summary 70 Exercises 71 References 76 Chapter 3 Lists, Stacks, and Queues 77 3.1 Abstract Data Types (ADTs) 77 3.2 The List ADT 78 3.2.1 Simple Array Implementation of Lists 78 3.2.2 Simple Linked Lists 79 3.3 vector and list in the STL 80 3.3.1 Iterators 82 3.3.2 Example: Using erase on a List 83 3.3.3 const_iterators 84 3.4 Implementation of vector 86 3.5 Implementation of list 91 3.6 The Stack ADT 103 3.6.1 Stack Model 103 3.6.2 Implementation of Stacks 104 3.6.3 Applications 104 3.7 The Queue ADT 112 3.7.1 Queue Model 113 3.7.2 Array Implementation of Queues 113 3.7.3 Applications of Queues 115 Summary 116 Exercises 116 Chapter 4 Trees 121 4.1 Preliminaries 121 4.1.1 Implementation of Trees 122 4.1.2 Tree Traversals with an Application 123 4.2 Binary Trees 126 4.2.1 Implementation 128 4.2.2 An Example: Expression Trees 128 4.3 The Search Tree ADT-Binary Search Trees 132 4.3.1 contains 134 4.3.2 findMin and findMax 135 4.3.3 insert 136 4.3.4 remove 139 4.3.5 Destructor and Copy Constructor 141 4.3.6 Average-Case Analysis 141 4.4 AVL Trees 144 4.4.1 Single Rotation 147 4.4.2 Double Rotation 149 4.5 Splay Trees 158 4.5.1 A Simple Idea (That Does Not Work) 158 4.5.2 Splaying 160 4.6 Tree Traversals (Revisited) 166 4.7 B-Trees 168 4.8 Sets and Maps in the Standard Library 173 4.8.1 Sets 173 4.8.2 Maps 174 4.8.3 Implementation of set and map 175 4.8.4 An Example That Uses Several Maps 176 Summary 181 Exercises 182 References 189 Chapter 5 Hashing 193 5.1 General Idea 193 5.2 Hash Function 194 5.3 Separate Chaining 196 5.4 Hash Tables without Linked Lists 201 5.4.1 Linear Probing 201 5.4.2 Quadratic Probing 202 5.4.3 Double Hashing 207 5.5 Rehashing 208 5.6 Hash Tables in the Standard Library 210 5.7 Hash Tables with Worst-Case O(1) Access 212 5.7.1 Perfect Hashing 213 5.7.2 Cuckoo Hashing 215 5.7.3 Hopscotch Hashing 224 5.8 Universal Hashing 230 5.9 Extendible Hashing 233 Summary 236 Exercises 238 References 242 Chapter 6 Priority Queues (Heaps) 245 6.1 Model 245 6.2 Simple Implementations 246 6.3 Binary Heap 247 6.3.1 Structure Property 247 6.3.2 Heap-Order Property 248 6.3.3 Basic Heap Operations 249 6.3.4 Other Heap Operations 252 6.4 Applications of Priority Queues 257 6.4.1 The Selection Problem 258 6.4.2 Event Simulation 259 6.5 d-Heaps 260 6.6 Leftist Heaps 261 6.6.1 Leftist Heap Property 261 6.6.2 Leftist Heap Operations 262 6.7 Skew Heaps 269 6.8 Binomial Queues 271 6.8.1 Binomial Queue Structure 271 6.8.2 Binomial Queue Operations 271 6.8.3 Implementation of Binomial Queues 276 6.9 Priority Queues in the Standard Library 283 Summary 283 Exercises 283 References 288 Chapter 7 Sorting 291 7.1 Preliminaries 291 7.2 Insertion Sort 292 7.2.1 The Algorithm 292 7.2.2 STL Implementation of Insertion Sort 293 7.2.3 Analysis of Insertion Sort 294 7.3 A Lower Bound for Simple Sorting Algorithms 295 7.4 Shellsort 296 7.4.1 Worst-Case Analysis of Shellsort 297 7.5 Heapsort 300 7.5.1 Analysis of Heapsort 301 7.6 Mergesort 304 7.6.1 Analysis of Mergesort 306 7.7 Quicksort 309 7.7.1 Picking the Pivot 311 7.7.2 Partitioning Strategy 313 7.7.3 Small Arrays 315 7.7.4 Actual Quicksort Routines 315 7.7.5 Analysis of Quicksort 318 7.7.6 A Linear-Expected-Time Algorithm for Selection 321 7.8 A General Lower Bound for Sorting 323 7.8.1 Decision Trees 323 7.9 Decision-Tree Lower Bounds for Selection Problems 325 7.10 Adversary Lower Bounds 328 7.11 Linear-Time Sorts: Bucket Sort and Radix Sort 331 7.12 External Sorting 336 7.12.1 Why We Need New Algorithms 336 7.12.2 Model for External Sorting 336 7.12.3 The Simple Algorithm 337 7.12.4 Multiway Merge 338 7.12.5 Polyphase Merge 339 7.12.6 Replacement Selection 340 Summary 341 Exercises 341 References 347 Chapter 8 The Disjoint Sets Class 351 8.1 Equivalence Relations 351 8.2 The Dynamic Equivalence Problem 352 8.3 Basic Data Structure 353 8.4 Smart Union Algorithms 357 8.5 Path Compression 360 8.6 Worst Case for Union-by-Rank and Path Compression 361 8.6.1 Slowly Growing Functions 362 8.6.2 An Analysis by Recursive Decomposition 362 8.6.3 An O( M log *N ) Bound 369 8.6.4 An O( M α(M, N) ) Bound 370 8.7 An Application 372 Summary 374 Exercises 375 References 376 Chapter 9 Graph Algorithms 379 9.1 Definitions 379 9.1.1 Representation of Graphs 380 9.2 Topological Sort 382 9.3 Shortest-Path Algorithms 386 9.3.1 Unweighted Shortest Paths 387 9.3.2 Dijkstra's Algorithm 391 9.3.3 Graphs with Negative Edge Costs 400 9.3.4 Acyclic Graphs 400 9.3.5 All-Pairs Shortest Path 404 9.3.6 Shortest Path Example 404 9.4 Network Flow Problems 406 9.4.1 A Simple Maximum-Flow Algorithm 408 9.5 Minimum Spanning Tree 413 9.5.1 Prim's Algorithm 414 9.5.2 Kruskal's Algorithm 417 9.6 Applications of Depth-First Search 419 9.6.1 Undirected Graphs 420 9.6.2 Biconnectivity 421 9.6.3 Euler Circuits 425 9.6.4 Directed Graphs 429 9.6.5 Finding Strong Components 431 9.7 Introduction to NP-Completeness 432 9.7.1 Easy vs. Hard 433 9.7.2 The Class NP 434 9.7.3 NP-Complete Problems 434 Summary 437 Exercises 437 References 445 Chapter 10 Algorithm Design Techniques 449 10.1 Greedy Algorithms 449 10.1.1 A Simple Scheduling Problem 450 10.1.2 Huffman Codes 453 10.1.3 Approximate Bin Packing 459 10.2 Divide and Conquer 467 10.2.1 Running Time of Divide-and-Conquer Algorithms 468 10.2.2 Closest-Points Problem 470 10.2.3 The Selection Problem 475 10.2.4 Theoretical Improvements for Arithmetic Problems 478 10.3 Dynamic Programming 482 10.3.1 Using a Table Instead of Recursion 483 10.3.2 Ordering Matrix Multiplications 485 10.3.3 Optimal Binary Search Tree 487 10.3.4 All-Pairs Shortest Path 491 10.4 Randomized Algorithms 494 10.4.1 Random-Number Generators 495 10.4.2 Skip Lists 500 10.4.3 Primality Testing 503 10.5 Backtracking Algorithms 506 10.5.1 The Turnpike Reconstruction Problem 506 10.5.2 Games 511 Summary 518 Exercises 518 References 527 Chapter 11 Amortized Analysis 533 11.1 An Unrelated Puzzle 534 11.2 Binomial Queues 534 11.3 Skew Heaps 539 11.4 Fibonacci Heaps 541 11.4.1 Cutting Nodes in Leftist Heaps 542 11.4.2 Lazy Merging for Binomial Queues 544 11.4.3 The Fibonacci Heap Operations 548 11.4.4 Proof of the Time Bound 549 11.5 Splay Trees 551 Summary 555 Exercises 556 References 557 Chapter 12 Advanced Data Structures and Implementation 559 12.1 Top-Down Splay Trees 559 12.2 Red-Black Trees 566 12.2.1 Bottom-Up Insertion 567 12.2.2 Top-Down Red-Black Trees 568 12.2.3 Top-Down Deletion 570 12.3 Treaps 576 12.4 Suffix Arrays and Suffix Trees 579 12.4.1 Suffix Arrays 580 12.4.2 Suffix Trees 583 12.4.3 Linear-Time Construction of Suffix Arrays and Suffix Trees 586 12.5 k-d Trees 596 12.6 Pairing Heaps 602 Summary 606 Exercises 608 References 612 Appendix A Separate Compilation of Class Templates 615 A.1 Everything in the Header 616 A.2 Explicit Instantiation 616 Index 619
526 ## - STUDY PROGRAM INFORMATION NOTE
Program name CSE
590 ## - LOCAL NOTE (RLIN)
Local note Abdul Gani
650 #0 - SUBJECT ADDED ENTRY--TOPICAL TERM
Topical term or geographic name as entry element C++ (Computer program language)
9 (RLIN) 22280
Topical term or geographic name as entry element Data structures (Computer science)
9 (RLIN) 1380
Topical term or geographic name as entry element Computer algorithms.
9 (RLIN) 1561
856 42 - ELECTRONIC LOCATION AND ACCESS
Materials specified WorldCat details
Uniform Resource Identifier https://www.worldcat.org/title/data-structures-and-algorithm-analysis-in-c/oclc/940604103&referer=brief_results
Materials specified E-Book Fulltext
Uniform Resource Identifier http://lib.ewubd.edu/ebook/8343
942 ## - ADDED ENTRY ELEMENTS (KOHA)
Source of classification or shelving scheme Dewey Decimal Classification
Koha item type E-Book
953 ## - Fulltext in GSDL
Is Fulltext Available in GSDL? Not Avaialable
Holdings
Withdrawn status Lost status Source of classification or shelving scheme Damaged status Not for loan Collection code Home library Current library Shelving location Date acquired Total Checkouts Full call number Date last seen Price effective from Koha item type
    Dewey Decimal Classification     Non-fiction Dr. S. R. Lasker Library, EWU Dr. S. R. Lasker Library, EWU E-book 05/03/2018   005.73 WED 2014 05/03/2018 05/03/2018 E-Book