Official course description:
Full info last published 27/01-23

Advanced Programming, MSc CS

Course info
ECTS points:
Course code:
Participants max:
Offered to guest students:
Offered to exchange students:
Offered as a single subject:
Price for EU/EEA citizens (Single Subject):
10625 DKK
MSc. Master
MSc in Computer Science
Course manager
Full Professor
PhD student
PhD student
Course semester
Efterår 2022
29 August 2022
31 January 2023
Exam type
ekstern censur
Grade Scale
Exam Language

This course addresses advanced programming techniques, with a special attention on functional programming and its applications. The course is a perfect balance of theory and practice, with focus on the Scala programming language.


The student who passes this course will know relevant advanced programming techniques for designing, testing and executing challenging realistic programs in Scala, in a correct and efficient way. Such techniques, although learned in the Scala programming language, are relevant for many other mainstream programming languages used in industry.

  • Introduction to Scala 3
  • Property-based testing 
  • Monads and streams 
  • Call-by-name and lazy programming 
  • Immutable data-structures 
  • Purely functional parallel programming 
  • Examples of purely functional data structures and algorithms 
  • Functional probabilistic programming

Formal prerequisites
  • Important: Advanced Programming builds on basic functional programming including higher-order functions, anonymous functions (or lambdas, delegates or anonymous inner classes), side-effect-free programming, generic types, and methods. This can be obtained by following Functional Programming on BSWU or KSD. If you have not studied functional programming in your bachelor, then you should register out of Advanced Programming (take it next year) and take an elective on functional programming now.
  • Note for SD students: It is important that SD students have taken the course Functional Programming before entering Advanced Programming.
  • You should know basic concepts of programming language theory and implementation (for instance by having followed Programmer som Data or Programming Language Concepts and Implementation)
  • You should also be able to program in Java (You will survive the course if you can program well in C# or any other mainstream object-oriented language, but your experience may be steeper).
  • You should know basic discrete mathematics (sets, functions, relations).
  • You should know basic algorithms and data structures (sorting, searching, collection data structures and basics of algorithms complexity).
Intended learning outcomes

After the course, the student should be able to:

  • Design, test and execute functional programs in Scala
  • Use expressive types (polymorphism, type functions, higher-kinded types) to document library interfaces
  • Recognize monadic structures in computation, use libraries following monadic structure and design monadic libraries
  • Reason about eager and lazy evaluation, including advantages and disadvantages of either
  • Reason about API designs in pure and stateful style, including exploring various designs and considering advantages and disadvantages of either
  • Use eager and lazy evaluation to design data structures and benefit from existing lazy data structures such as streams
  • Implement solutions based on research-based methods presented in relevant papers in library and language design
  • Design and implement solutions using lenses, reason about lenses
Learning activities

We organize  weekly lectures and exercises, as well as some warm-up pre-course activities, and extra homework help (ADPRO Cafe).

In the exercises (and the associated homework exercises) you learn to test and design functional programs in Scala, with a particular emphasis on API and library design.

The lectures provide an overarching reflection over the patterns and techniques used, as well as they prepare you for solving the exercises.

Most time is spent on small practical exercises and projects, resembling the exam questions. Training building solutions based on research happens by reading research papers and implementing programs based on them.  We use the study of the paper on Lenses to experience mathematical modeling and formal reasoning about practical programming tasks.

Mandatory activities

You have to complete and pass 5 out of 10 home-works in order to be admitted to the exam. Home-works are handed-in in by every student individually.

The hand-ins must show a genuine and original effort towards solving the problems, but handing in incomplete solutions is permitted. The code handed in must compile as we use automatic grading (partly). Solutions that do not compile will fail. If you cannot complete some code, comment out the parts that make the compiler fail.

Handing in solutions prepared by others is not acceptable, and will be reported to the program administration.

Homework assignments are published approximately weekly. If you missed a deadline for a hand-in, or if failed it, you have a second chance a week later, after the original deadline.

The student will receive the grade NA (not approved) at the ordinary exam, if the mandatory activities are not approved and the student will use an exam attempt.

Course literature

Michael Pilquist, Rúnar Bjarnason, and Paul Chiusano. Functional Programming in Scala. 2nd edition. Manning 2022

Student Activity Budget
Estimated distribution of learning activities for the typical student
  • Preparation for lectures and exercises: 20%
  • Lectures: 10%
  • Exercises: 10%
  • Assignments: 50%
  • Exam with preparation: 10%
Ordinary exam
Exam type:
A: Written exam on premises, External (7-point scale)
Exam variation:
A11: Written exam on premises. Open book exam.
Exam duration:
4 hours

Exam type:
B: Oral exam, External (7-point scale)
Exam variation:
B1I: Oral exam with time for preparation. In-house.
Exam duration per student for the preparation:
30 minutes
Invigilator present for the preparation:
Exam duration per student for the oral exam:
40 minutes

Time and date
Ordinary Exam - on premises Wed, 4 Jan 2023, 09:00 - 13:00
Reexam Tue, 28 Feb 2023, 14:20 - 18:00
Reexam Wed, 1 Mar 2023, 08:00 - 18:00