Ground Setting Properties for an Efficient Translation of OCL in SMT-based Model Finding

Nils Przigoda; Robert Wille; Rolf Drechsler

Ground Setting Properties for an Efficient Translation of OCL in SMT-based Model Finding

Nils Przigoda, Robert Wille, Rolf Drechsler

Department of Quantum Computing

Research output: Chapter in Book/Report/Conference proceeding › Conference proceedings › peer-review

Abstract

Model Finding is an established method to increase the condence in the correctness of a UML/OCL model, e. g., by automatically determining valid system states or counterexamples. In the recent past, numerous approaches have been proposed for this purpose. In order to cope with the underlying complexity, approaches based on satis ability solvers have been found promising. They require a translation of all OCL constraints of the model for a corresponding solver. In this paper, SMT-based model finding is investigated. It is shown that certain OCL operations are causing huge SMT formulations which harm the solving process. However, this is not necessary if a fixed structure of the model can be assumed. Motivated by this, a new concept called ground setting properties is introduced which allows for an efficient translation of OCL into SMT. This concept is illustrated by means of a running example and compared to existing solutions.

Original language	English
Title of host publication	International Conference on Model Driven Engineering Languages and Systems (MODELS)
Number of pages	11
Publication status	Published - 2016

Fields of science

102 Computer Sciences
202 Electrical Engineering, Electronics, Information Engineering

Cite this

@inproceedings{daae62eb3cf5421a8a8d7bdaa8424d03,

title = "Ground Setting Properties for an Efficient Translation of OCL in SMT-based Model Finding",

abstract = "Model Finding is an established method to increase the condence in the correctness of a UML/OCL model, e. g., by automatically determining valid system states or counterexamples. In the recent past, numerous approaches have been proposed for this purpose. In order to cope with the underlying complexity, approaches based on satis ability solvers have been found promising. They require a translation of all OCL constraints of the model for a corresponding solver. In this paper, SMT-based model finding is investigated. It is shown that certain OCL operations are causing huge SMT formulations which harm the solving process. However, this is not necessary if a fixed structure of the model can be assumed. Motivated by this, a new concept called ground setting properties is introduced which allows for an efficient translation of OCL into SMT. This concept is illustrated by means of a running example and compared to existing solutions.",

author = "Nils Przigoda and Robert Wille and Rolf Drechsler",

year = "2016",

language = "English",

booktitle = "International Conference on Model Driven Engineering Languages and Systems (MODELS)",

}

TY - GEN

T1 - Ground Setting Properties for an Efficient Translation of OCL in SMT-based Model Finding

AU - Przigoda, Nils

AU - Wille, Robert

AU - Drechsler, Rolf

PY - 2016

Y1 - 2016

N2 - Model Finding is an established method to increase the condence in the correctness of a UML/OCL model, e. g., by automatically determining valid system states or counterexamples. In the recent past, numerous approaches have been proposed for this purpose. In order to cope with the underlying complexity, approaches based on satis ability solvers have been found promising. They require a translation of all OCL constraints of the model for a corresponding solver. In this paper, SMT-based model finding is investigated. It is shown that certain OCL operations are causing huge SMT formulations which harm the solving process. However, this is not necessary if a fixed structure of the model can be assumed. Motivated by this, a new concept called ground setting properties is introduced which allows for an efficient translation of OCL into SMT. This concept is illustrated by means of a running example and compared to existing solutions.

AB - Model Finding is an established method to increase the condence in the correctness of a UML/OCL model, e. g., by automatically determining valid system states or counterexamples. In the recent past, numerous approaches have been proposed for this purpose. In order to cope with the underlying complexity, approaches based on satis ability solvers have been found promising. They require a translation of all OCL constraints of the model for a corresponding solver. In this paper, SMT-based model finding is investigated. It is shown that certain OCL operations are causing huge SMT formulations which harm the solving process. However, this is not necessary if a fixed structure of the model can be assumed. Motivated by this, a new concept called ground setting properties is introduced which allows for an efficient translation of OCL into SMT. This concept is illustrated by means of a running example and compared to existing solutions.

M3 - Conference proceedings

BT - International Conference on Model Driven Engineering Languages and Systems (MODELS)

ER -