HOTTest: A model-based test design technique for enhanced testing of domain-specific applications
Abstract
Model-based testing is an effective black-box test generation technique for applications. Existing model-based testing techniques, however, fail to capture implicit domain-specific properties, as they overtly rely on software artifacts such as design documents, requirement specifications, etc., for completeness of the test model. This article presents a technique, HOTTest, which uses a strongly typed domain-specific language to model the system under test. This allows extraction of type-related system invariants, which can be related to various domain-specific properties of the application. Thus, using HOTTest, it is possible to automatically extract and embed domain-specific requirements into the test models. In this article we describe HOTTest, its principles and methodology, and how it is possible to relate domain-specific properties to specific type constraints. HOTTest is described using the example of HaskellDB, which is a Haskell-based embedded domain-specific language for relational databases. We present an example application of the technique and compare the results to some other commonly used Model-based test automation techniques like ASML-based testing, UML-based testing, and EFSM-based testing. © 2006 ACM.