409 research outputs found
The Dafny Integrated Development Environment
In recent years, program verifiers and interactive theorem provers have
become more powerful and more suitable for verifying large programs or proofs.
This has demonstrated the need for improving the user experience of these tools
to increase productivity and to make them more accessible to non-experts. This
paper presents an integrated development environment for Dafny-a programming
language, verifier, and proof assistant-that addresses issues present in most
state-of-the-art verifiers: low responsiveness and lack of support for
understanding non-obvious verification failures. The paper demonstrates several
new features that move the state-of-the-art closer towards a verification
environment that can provide verification feedback as the user types and can
present more helpful information about the program or failed verifications in a
demand-driven and unobtrusive way.Comment: In Proceedings F-IDE 2014, arXiv:1404.578
Specification Reuse using Data Refinement in Dafny
Data refinement is a technique for transforming system specifications into system implementation that differs in data types. It gives us the freedom to write specifications in a way that is independent of its implementation; moreover we can generate multiple implementations without changing the system specifications, the client does not have to worry about the underlying implementation. Abstraction Invariant is used to relate the high level abstract specification to its concrete implementation.
Dafny is a research language developed by Microsoft. Its main focus is data refinement. The language provides the rich mathematical properties such as sequences, sets and multi-set, along with functions, predicates, methods and user defined data types. In Dafny the Abstraction Invariant is in the form of a function, which is added as a pre and post conditions to all of methods and functions. Given this function one can verify that the code is providing the implementation that satisfies its specifications even when the specification is defined in term of one data structure and the code is implemented in term of another data structure. Dafny works with Boogie which is a static program verifier and the SMT solver Z3. These are the main underlying technologies for verification: Dafny code is translated in to Boogie from which the verification conditions are generated for Z3 in order to verify the program.
In this research the programmer over head is identified when replacing one implementation to another in terms of underlying data structure change while preserving the client specification. The motivation behind this work is to assist programmers to come up with a quick solution in situations such as “slow system performance” with new system implementation. Moreover, a semi automatic tool is developed for transforming one implementation to another without changing the client specifications. The result is the generation of a semi verified program whose implementation is in terms of a data structure other than that used in the specifications. The verification can be fully automatic through the provision of implementation details from the user
Dafny meets the Verification Benchmarks Challenge
A suite of verification benchmarks for software verification tools and
techniques, presented at VSTTE 2008 [11], provides an initial catalogue of benchmark
challenges for the Verified Software Initiative. This paper presents solutions
to these eight benchmarks using the language and verifier Dafny. A Dafny program
includes specifications, code, inductive invariants, and termination metrics.
Each of the eight programs is fed to the Dafny verifier, which without further user
interaction automatically performs the verification in a few seconds
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