Alexandria

To report a compiler bug, one must often find a small test case that triggers the bug. The existing approach to automated test-case reduction, delta debugging, works by removing substrings of the original input; the result is a concatenation of substrings that delta cannot remove. We have found this approach less than ideal for reducing C programs because it typically yields test cases that are too large or even invalid (relying on undefined behavior). To obtain small and valid test cases consistently, we designed and implemented three new, domain-specific test-case reducers. The best of these is based on a novel framework in which a generic fixpoint computation invokes modular transformations that perform reduction operations. This reducer produces outputs that are, on average, more than 25 times smaller than those produced by our other reducers or by the existing reducer that is most commonly used by compiler developers. We conclude that effective program reduction requires more than straightforward delta debugging.

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Spec# is a programming system that facilitates the development of correct software. The Spec# language extends C# with contracts that allow programmers to express their design intent in the code. The Spec# tool suite consists of a compiler that emits run-time checks for contracts, a static program verifier that attempts to mathematically prove the correctness of programs, and an integration into the Visual Studio development environment. Spec# shows how contracts and verifiers can be integrated seamlessly into the software development process. This paper reflects on the six-year history of the Spec# project, scientific contributions it has made, remaining challenges for tools that seek to establish program correctness, and prospects of incorporating verification into everyday software engineering.

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