TY  - THES
A3  - Kuchen, Herbert
AB  - Sometimes, business applications perform constraint-logic search, e. g., for finding solutions to planning problems. Most business applications are written in object-oriented programming languages that are not particularly suited for search applications. In contrast, logic and constraint-logic programming languages offer useful features for search. However, such programming languages are less suited for the development of arbitrary (business) software. Consequently, there currently is a gap that established programming languages can only bridge by using impractical solutions. Intending to improve this situation, this work describes the multi-paradigm programming language Muli (short for the Münster Logic-Imperative Language). Muli is based on Java, adding support for constraint-logic features. Most notably, Muli offers logic variables, symbolic execution, and encapsulated search. It is accompanied by a compiler and a sophisticated runtime environment. So far, Muli has been successfully applied to several domains, namely to logistics, the development of neural networks, and classical search problems.
AU  - Dageförde, Jan Christoph
AU  - Dageförde, Jan C.
AU  - Dageförde, Jan
DA  - 2020
KW  - constraint-logic object-oriented programming
KW  - programming language
KW  - virtual machine
KW  - integrated programming paradigms
KW  - constraint-logic search
LA  - eng
N1  - Teilw. zugl.: Münster (Westfalen), Univ., kum. Diss., 2020
N1  - Vollständige Druckausgabe der kumulativen Dissertation: Dageförde, Jan Christoph: An integrated constraint-logic and object-oriented programming language : the Münster Logic-Imperative language. (kumulative Dissertation, Westfälische Wilhelms-Universität Münster, 2020) Münster, 2020, XVII, 313 Seiten
PY  - 2020
TI  - An Integrated Constraint-Logic and Object-Oriented Programming Language: The Münster Logic-Imperative Language
UR  - https://nbn-resolving.org/urn:nbn:de:hbz:6-89089640681
Y2  - 2024-11-24T04:24:12
ER  -