International audienceSoftware Product Lines (SPL) are difficult to validate due to combinatorics induced by variability, which in turn leads to combinatorial explosion of the number of derivable products. Exhaustive testing in such a large products space is hardly feasible. Hence, one possible option is to test SPLs by generating test configurations that cover all possible t feature interactions (t-wise). It dramatically reduces the number of test products while ensuring reasonable SPL coverage. In this paper, we report our experience on applying t-wise techniques for SPL with two independent toolsets developed by the authors. One focuses on generality and splits the generation problem according to strategies. The other emphasizes providin...
Exhaustively testing every product of a software product line (SPL) is a difficult task due to the c...
Software Product Line (SPL) engineering is a popular approach for the systematic reuse of software a...
A new software engineering methodology, software product line (SPL) engineering, has been increasing...
International audienceSoftware Product Lines (SPL) are difficult to validate due to combinatorics in...
Software Product Lines (SPL) are difficult to validate due to combinatorics induced by variability, w...
International audienceOne key challenge for software product lines is efficiently managing variabili...
Software Product Line (SPL) is a software engineering paradigm that is inspired by the concept of re...
Software Product Lines (SPLs) are families of products whose commonalities and variability can be ca...
International audienceSoftware Product Lines (SPL) are difficult to validate due to combinatorics in...
International audienceSoftware Product Lines (SPLs) are inherently difficult to test due to the comb...
Software Product Line (SPL) is a software engineering paradigm that is inspired by the concept of re...
Software Product Line (SPL) focuses on common features reusability, formulated for different softwa...
Testing is an important activity in engineering of industrial software. For such software, testing i...
Exhaustively testing every product of a software product line (SPL) is a difficult task due to the c...
Software Product Line (SPL) engineering is a popular approach for the systematic reuse of software a...
A new software engineering methodology, software product line (SPL) engineering, has been increasing...
International audienceSoftware Product Lines (SPL) are difficult to validate due to combinatorics in...
Software Product Lines (SPL) are difficult to validate due to combinatorics induced by variability, w...
International audienceOne key challenge for software product lines is efficiently managing variabili...
Software Product Line (SPL) is a software engineering paradigm that is inspired by the concept of re...
Software Product Lines (SPLs) are families of products whose commonalities and variability can be ca...
International audienceSoftware Product Lines (SPL) are difficult to validate due to combinatorics in...
International audienceSoftware Product Lines (SPLs) are inherently difficult to test due to the comb...
Software Product Line (SPL) is a software engineering paradigm that is inspired by the concept of re...
Software Product Line (SPL) focuses on common features reusability, formulated for different softwa...
Testing is an important activity in engineering of industrial software. For such software, testing i...
Exhaustively testing every product of a software product line (SPL) is a difficult task due to the c...
Software Product Line (SPL) engineering is a popular approach for the systematic reuse of software a...
A new software engineering methodology, software product line (SPL) engineering, has been increasing...