Course details
Functional and Logic Programming
FLP Acad. year 2015/2016 Summer semester 5 credits
Practical applications and broader introduction into lambda calculus and predicate logic within the context of functional and logic programming languages. Within functional programming, abstract data types are discussed, as well as the use of recursion and induction, manipulation of lists and infinite data structures in language Haskell. Experience in logic programming is gained in programming languages Prolog (cut operator, state space search, database modification), CLP, and Goedel. Moreover, principles of their implementation are mentioned too.
Guarantor
Language of instruction
Completion
Time span
- 26 hrs lectures
- 12 hrs pc labs
- 14 hrs projects
Department
Subject specific learning outcomes and competences
Students will get basic knowledge and practical experience in functional and logic programming (two important representatives of declarative programming). Moreover, they will get basic information about theoretical basis of both paradigms and implementation techniques.
Use and understanding of recursion for expression of algorithms.
Learning objectives
Obtaining a basic knowledge and practical experience in functional and logic programming. Introduction into formal concepts used as a theoretical basis for both paradigms.
Prerequisite knowledge and skills
Processing (analysis, evaluation/interpretation/compilation) of programming languages, predicate logic.
Study literature
- Thompson, S.: Haskell, The Craft of Functional Programming, ADDISON-WESLEY, 1999, ISBN 0-201-34275-8
- Nilsson, U., Maluszynski, J.: Logic, Programming and Prolog (2ed), John Wiley & Sons Ltd., 1995
- Hill, P., Lloyd, J.: The Gödel Programming Language, MIT Press, 1994, ISBN 0-262-08229-2
- Bieliková, M., Návrat, P.: Funkcionálne a logické programovanie, Vydavateĺstvo STU, Vazovova 5, Bratislava, 2000.
Fundamental literature
- Thompson, S.: Haskell, The Craft of Functional Programming, ADDISON-WESLEY, 1999, ISBN 0-201-34275-8
- Nilsson, U., Maluszynski, J.: Logic, Programming and Prolog (2ed), John Wiley & Sons Ltd., 1995
- Hill, P., Lloyd, J.: The Gödel Programming Language, MIT Press, 1994, ISBN 0-262-08229-2
- Bieliková, M., Návrat, P.: Funkcionálne a logické programovanie, Vydavateĺstvo STU, Vazovova 5, Bratislava, 2000.
- Jones, S.P.: Haskell 98 Language and Libraries, Cambridge University Press, 2003, p. 272, ISBN 0521826144
Syllabus of lectures
- Introduction to functional programming
- Lambda calculus
- Programming language Haskell, introduction, lists
- User-defined data types, type classes, and arrays in Haskell
- Input/Output in Haskell - type classes IO and Monad
- Proofs in functional programming
- Denotational semantics, implementation of functional languages
- Introduction to logic programming, Prolog
- Lists, cut operator, and sorting in Prolog
- Data structures, text strings, operators - extensions of SWI Prolog
- Searching state space, clause management, and parsing in Prolog
- Goedel - logic programming language not using Horn clauses
- Implementation of logic languages, CLP, conclusion
Syllabus of computer exercises
- Haskell - basic language features, recursion, lists, partial application, higher-order functions (map, filter, foldX), infinite lists, partial evaluation
- Haskell - data types, monads, I/O
- Haskell - demonstration - construction of a simple interpreter using library Parsec
- Prolog - program structure, recursion, lists
- Prolog - dynamic predicates, advanced example on dynamic predicates
- Prolog - more advanced examples, tests on variable instantiation, state space search
Progress assessment
At the end of a term, a student should have at least 50% of points that he or she could obtain during the term; that means at least 20 points out of 40. Plagiarism and not allowed cooperation will cause that involved students are not classified and disciplinary action can be initiated.
Controlled instruction
- Mid-term exam - written form, questions and exercises to be answered and solved, no possibility to have a second/alternative trial - 20 points.
- Projects realization - 2 projects, implementation of a simple program according to the given specification - one in a functional programming language the other in a logic programming language - 20 points all projects together.
- Final exam - written form, questions and exercises to be answered and solved, 2 another corrections trials possible (60 points - the minimal number of points which can be obtained from the final exam is 25, otherwise, no points will be assigned to a student).
Course inclusion in study plans