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In program debugging, finding a failing run is only the first step; what about correcting the fault? Can we automate the second task as well as the first? The AutoFix-E tool automatically generates and validates fixes for software faults. The key insights behind AutoFix-E are to rely on contracts present in the software to ensure that the proposed fixes are(More)
Initial research in automated program fixing has generally limited itself to specific areas, such as data structure classes with carefully designed interfaces, and relied on simple approaches. To provide high-quality fix suggestions in a broad area of applicability, the present work relies on the presence of contracts in the code, and on the availability of(More)
Experience with lightweight formal methods suggests that programmers are willing to write specification if it brings tangible benefits to their usual development activities. This paper considers stronger specifications and studies whether they can be deployed as an incremental practice that brings additional benefits without being unacceptably expensive. We(More)
Automated random testing has shown to be an effective approach to finding faults but still faces a major unsolved issue: how to generate test inputs diverse enough to find many faults and find them quickly. Stateful testing, the automated testing technique introduced in this article, generates new test cases that improve an existing test suite. The(More)
Many programmers, when they encounter an error, would like to have the benefit of automatic fix suggestions—as long as they are, most of the time, adequate. Initial research in this direction has generally limited itself to specific areas, such as data structure classes with carefully designed interfaces, and relied on simple approaches. To provide(More)
We present the integration of the AutoFix automated program repair technique into the EiffelStudio Development Environment. AutoFix presents itself like a recommendation system capable of automatically finding bugs and suggesting fixes in the form of source-code patches. Its performance suggests usage scenarios where it runs in the background or during work(More)
While most debugging techniques focus on patching implementations, there are bugs whose most appropriate corrections consist in fixing the specification to prevent invalid executions—such as to define the correct input domain of a function. In this paper, we present a fully automatic technique that fixes bugs by proposing changes to contracts (simple(More)
2013 Acknowledgments First and foremost I would like to thank Bertrand Meyer for giving me the opportunity to do a PhD under his supervision at ETH Zurich. His support and the research freedom he granted me made the work presented here possible. I also thank the co-examiners of this dissertation, Hausi Müller, Richard Paige and Manuel Oriol, who kindly made(More)
Analysis the mechanism detailed for the high permeability of micro grid to distribution network, including the voltage quality and current quality of distribution networks. By the analysis and comparison of the similarity for the original power quality Conditioner and the grid-connected inverter unit and complete the customization of the power quality(More)