Jun 26, 2011 · In this paper, we propose a technique that both generates test cases that execute yet uncovered branches and identifies infeasible branches that ...

In this paper, we propose a technique that both generates test cases that execute yet uncovered branches and identifies infeasible branches that can be ...

In this paper, we propose a technique that both generates test cases that execute yet uncovered branches and identifies infeasible branches that can be ...

Bibliographic details on Enhancing structural software coverage by incrementally computing branch executability.

In this paper, we propose a technique that both generates test cases that execute yet uncovered branches and identifies infeasible branches that can be ...

Enhancing structural software coverage by incrementally computing branch executability. Additional information. Authors. Baluda M., Braione P., Denaro G ...

Enhancing structural software coverage by incrementally computing branch executability. M Baluda, P Braione, G Denaro, M Pezzè. Software Quality Journal 19, 725 ...

RapiCover is the leading tool for structural code coverage analysis of critical software. Used globally in the aerospace and automotive industries, it ...

Infeasible execution paths reduce the precision of structural testing coverage and limit the industrial applicability of struc-tural testing criteria.

Apr 20, 2024 · We modified the existing code-coverage infrastructure to fully compute the coverage information, but not display it for change- lists in the ...