Learning objectives
The aim is to provide students with skills in the context of design and analysis of computer algorithms, and in particular:
- Fundamentals of static and dynamic data structures
- Sorting and searching algorithms
- Generic programming
Applying knowledge and understanding:
- Design and development of algorithms in C++ language
- Use of basic data structures for problem solving
- Analyze and describe the complexity of algorithms
Prerequisites
Adequate knowledge of C++ is recommended.
Course unit content
This course introduces the fundamental concepts about algorithms and data structures in C++
Full programme
Part A (44 hours):
Introduction to C++ language. (18 hours)
Array and pointers. (2 hours)
Lists. (10 hours)
Stacks. (3 hours)
Queues. (3 hours)
Recursion. (2 hours)
Sorting algorithms. (6 hours)
Exercises on part A (4 hours)
Part B: (28 hours)
Symbol tables and binary trees. (6 hours)
Priority queues and heap. (6 hours)
Binary search trees. (6 hours)
Introduction to Standard Template Library. (6 hours)
Graphs. (4 hours)
Bibliography
Robert Sedgewick, Algorithms in C++, Parts 1-4: Fundamentals, Data Structure, Sorting, Searching, Third Edition.
Clifford A. Shaffer, Data Structures and Algorithm Analysis Edition 3.2 (C++ Version)
Teaching methods
Classroom lectures (34 hours).
Classroom exercises (18 hours).
Laboratory lectures (20 hours).
The course material is available through the Elly portal.
Assessment methods and criteria
The exam consists of a laboratory examination in C++ (3 hours).
There will be two midterm examinations only for students at the first year:
Midterm 1) topics: part A.
Incidence on the final vote: 50%.
Midterm 2) topics: part B, only after sufficient evaluation of the first Midterm exam. Incidence on the final vote: 50%
The laboratory examinations consist on exercises and quizzes.
Other information
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2030 agenda goals for sustainable development
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