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Data Structures, Algorithms, & Applications

Data Structures, Algorithms, & Applications. Dr. Manuel E. Bermudez Alter ego to Dr. Sartaj Sahni. Clip Art Sources. www.barrysclipart.com www.livinggraphics.com www.rad.kumc.edu www.graphicmaps.com. What The Course Is About.

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Data Structures, Algorithms, & Applications

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  1. Data Structures, Algorithms, & Applications Dr. Manuel E. Bermudez Alter ego to Dr. Sartaj Sahni

  2. Clip Art Sources • www.barrysclipart.com • www.livinggraphics.com • www.rad.kumc.edu • www.graphicmaps.com

  3. What The Course Is About • Data structures is concerned with the representation and manipulation of data. • All programs manipulate data. • So, all programs represent data in some way. • Data manipulation requires an algorithm.

  4. The study of data structures and algorithms is fundamental to Computer Science. What The Course Is About • Algorithm design methods needed to develop programs that do the data manipulation.

  5. Prerequisites • Java • Asymptotic Complexity • Big Oh, Theta, and Omega notations

  6. Syllabus, text, source codes, exercise solutions, lectures, assignments, past exams, past exam solutions, TAs, etc. • READ ALL OF IT. Web Site • www.cise.ufl.edu/~manuel Follow link to COP-3530.

  7. Do Assignment 1 by THIS FRIDAY . Assignments • Assignment guidelines. • Submission procedures.

  8. Source Codes • Read download and use instructions. • Must have Java 1.2 or higher. • See ProgramIndex.htm, AllNames.html and other html files produced by Javadoc for Java codes.

  9. Discussion Sections • Go to any one. • TA will answer your questions. • TA will go through a few exercises from the book. • TA will also cover topics relevant to your assignment.

  10. Organization of Text • Three parts. • Part I … Chapters 1-4, Background. • Part 2 … Chapters 5-17, Data Structures. • Part 3 … Chapters 18-22, Algorithms. • Each chapter … concepts + applications.

  11. Grades • 40% for assignments (about 12 of them). • 20% midterm 1. • 20% midterm 2. • 20% final exam.

  12. Grades (Rough Cutoffs) NOTE: These differ from those in Dr. Sahni’s course ! • A >= 90% • B+ >= 85% • B >= 80% • C+ >= 75% • C >= 70% • D+ >= 65% • D >= 60% • E < 60%

  13. Sorting • Rearrange a[0], a[1], …, a[n-1] into ascending order. When done, a[0] <= a[1] <= … <= a[n-1] • 8, 6, 9, 4, 3 => 3, 4, 6, 8, 9

  14. Sort Methods • Insertion Sort • Bubble Sort • Selection Sort • Count Sort • Shaker Sort • Shell Sort • Heap Sort • Merge Sort • Quick Sort

  15. Insert An Element • Given a sorted list/sequence, insert a new element. • Given 3, 6, 9, 14. • Insert 5. • Result 3, 5, 6, 9, 14.

  16. Insert an Element • 3, 6, 9, 14 insert 5 • Compare new element (5) and last one (14) • Shift 14 right to get 3, 6, 9, , 14 • Shift 9 right to get 3, 6, , 9, 14 • Shift 6 right to get 3, , 6, 9, 14 • Insert 5 to get 3, 5, 6, 9, 14

  17. Insert An Element // insert t into a[0:i-1] int j; for (j = i - 1; j >= 0 && t < a[j]; j--) a[j + 1] = a[j]; a[j + 1] = t;

  18. Insertion Sort • Start with a sequence of size 1 • Repeatedly insert remaining elements

  19. Insertion Sort • Sort 7, 3, 5, 6, 1 • Start with 7 and insert 3 => 3, 7 • Insert 5 => 3, 5, 7 • Insert 6 => 3, 5, 6, 7 • Insert 1 => 1, 3, 5, 6, 7

  20. Insertion Sort for (int i = 1; i < a.length; i++) {// insert a[i] into a[0:i-1] // code to insert comes here }

  21. Insertion Sort for (int i = 1; i < a.length; i++) {// insert a[i] into a[0:i-1] int t = a[i]; int j; for (j = i - 1; j >= 0 && t < a[j]; j--) a[j + 1] = a[j]; a[j + 1] = t; }

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