Introduction to programming

5.00 credits

30.0 h + 30.0 h

Teacher(s)

Mens Kim; Nijssen Siegfried; Pecheur Charles;

Language

French

Main themes

Fundamental concepts of object-oriented programming;
Python programming language;
Analysis of a computer problem, design, specification and implementation of a solution;
Linear data structures.

Learning outcomes

At the end of this learning unit, the student is able to :

Given the learning outcomes of the "Bachelor in Computer science" program, this course contributes to the development, acquisition and evaluation of the following learning outcomes:

S1.I2
S2.2, S2.4

Students who have successfully completed this course will be able to :

Apply the concepts, laws, reasonings to a disciplinary problem of squared complexity.
Describe adequate modeling and calculation tools to solve a disciplined disciplinary problem.
Model a problem and design one or more technical solutions that meet the specifications
Implement and test a solution in the form of a model, a prototype and / or a digital model.
Commit collectively to a work plan, a timetable (and roles to keep).
Communicate in graphical and schematic form interpret a diagram, present the results of a work, structure information.
Read, analyze and exploit technical documents (standards, plans, specifications, specifications, ...).
Write written summary documents taking into account the requirements of the missions (projects and problems).
Demonstrate a good understanding of the concepts and methodology of object-oriented programming.
Make good use of the elements of an object-oriented language such as Python.

Content

Programs, source code and program execution
Identifiers, variables, values, types, assignment
Expressions, statements
Conditional structures and loops
Functions, parameters, calls, results, execution, variable scoping
Specifications and tests
Modules
Data structures, lists, strings and their operations
References and nested data structures
Nestsed lists, tuples, matrices, dictionnaries
Dichotomic search algorithms
File handling, input/output
Exception handling
Object-oriented programming and garbage collection
Classes, objects, constructors, methods
References to an object, self-references and self-calls
Class, instance and local variables, scope and visibility
Class composition, inheritance and encapsulation
Polymorphism, super calls and dynamic binding
Object equality
Linked data structures

Teaching methods

The chosen teaching method relies on active student participation, through a mixture of :

course lectures,
partical exercice sessions with tutors,
programming exercices on the INGInious platform?

Even though preference will be given to face-to-face teaching sessions, depending on the health situation and the number of students enrolled, other forms of teaching and evaluation (online, co-modal or hybrid) may be considered.

Evaluation methods

A programming assignment is due each week.
A mid-term evaluation will be organised halfway throughout the quadrimester.
The end-of-term exam aims to assess both the understanding of the course material and the capacity to apply it to write simple but correct Python programs.
The final course mark takes into account the mid-term evaluation and assignments during the quadrimester, in addition to the mark of the end-term exam.
The assignments and mid-term evaluation cannot be retaken for the June or September sessions.
If the mark for the mid-term evaluation is higher than that for the end-term exam, it will count for 1/3 and the mark of the end-term exam for 2/3.
If the mark for the mid-term evaluation is lower than that for the end-term exam, only the mark for the exam will be used to calculate the final course mark.
A bonus of 1 point will be granted to students who have participated in and regularly submitted their programming assignments during the quadrimester.
In case of plagiarism detection confirmed by a plagiarism detection tool the course teachers reserve the right to invite the student to pass an oral interrogation.

Online resources

All course material will be made available online: slides, syllabus, exercices, ...

Faculty or entity

INFO

Programmes / formations proposant cette unité d'enseignement (UE)

Title of the programme

Sigle

Credits

Prerequisites

Learning outcomes

Minor in numerical technologies and society

MINSTIC

Master [120] in Data Science : Statistic

DATS2M

Master [120] in Linguistics

LING2M

Additionnal module in Geography

APPGEOG

Bachelor in Mathematics

MATH1BA

Bachelor in Computer Science

SINF1BA

Approfondissement en statistique et sciences des données

APPSTAT

Minor in Computer Sciences

MINSINF

Minor in Statistics, Actuarial Sciences and Data Sciences

MINSTAT

Certificat d'université : Statistique et science des données (15/30 crédits)

STAT2FC