1 research outputs found
An Exercise in Invariant-based Programming with Interactive and Automatic Theorem Prover Support
Invariant-Based Programming (IBP) is a diagram-based correct-by-construction
programming methodology in which the program is structured around the
invariants, which are additionally formulated before the actual code. Socos is
a program construction and verification environment built specifically to
support IBP. The front-end to Socos is a graphical diagram editor, allowing the
programmer to construct invariant-based programs and check their correctness.
The back-end component of Socos, the program checker, computes the verification
conditions of the program and tries to prove them automatically. It uses the
theorem prover PVS and the SMT solver Yices to discharge as many of the
verification conditions as possible without user interaction. In this paper, we
first describe the Socos environment from a user and systems level perspective;
we then exemplify the IBP workflow by building a verified implementation of
heapsort in Socos. The case study highlights the role of both automatic and
interactive theorem proving in three sequential stages of the IBP workflow:
developing the background theory, formulating the program specification and
invariants, and proving the correctness of the final implementation.Comment: In Proceedings THedu'11, arXiv:1202.453