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30 Reverse Engineering – Recent Advances and Applications 28 Will-be-set-by-IN-TECH Storch, M. & Liu, J.-S. (1996). DRTSS: A Simulation Framework for Complex Real-Time Systems, 2nd IEEE Real-Time Technology and Applications Symposium (RTAS’96), pp. 160–169. The Economist (2008). Driven to distraction: Why autonomous cars are still a pipe-dream. April 25, http://www.economist.com/node/11113185. Tihinen, M. & Kuvaja, P. (2004). Embedded software development: State of the practice. http://www.vtt.fi/moose/docs/oulu/embedded_sw_development_ tihinen_kuvaja.pdf. Ulrich, A. & Petrenko, A. (2007). 3rd European conference on Model driven architecture-foundations and applications (ECMDA-FA’07), Vol. 4530 of Lecture Notes in Computer Science, Springer-Verlag, chapter Reverse Engineering Models from Traces to Validate Distributed Systems – An Industrial Case Study, pp. 184–193. van de Laar, P., Douglas, A. U. & America, P. (2011). Views on the Evolvability of Embedded Systems, Springer-Verlag, chapter Researching Evolvability, pp. 1–20. van de Laar, P., van Loo, S., Muller, G., Punter, T., Watts, D., America, P. & Rutgers, J. (2007). The Darwin project: Evolvability of software-intensive systems, 3rd IEEE Workshop on Software Evolvability (EVOL’07) pp. 48–53. van den Brand, M. G. J., Klint, P. & Verhoef, C. (1997). Reverse engineering and system renovation–an annotated bibliography, SIGSOFT Software Engineering Notes 22(1): 57–68. Ward, M. P. (2004). Pigs from sausages? reengineering from assembler to C via FermaT transformations, Science of Computer Programming 52(1–3): 213–255. Weidl, J. & Gall, H. (1998). Binding object models to source code: An approach to object-oriented re-architecting, 22nd IEEE International Computer Software and Applications Conference (COMPSAC’98) pp. 26–31. Weiser, M. (1981). Program Slicing, 5th International Conference on Software Engineering (ICSE’81), pp. 439–449. Wilhelm, R., Engblom, J., Ermedahl, A., Holst, N., Thesing, S. et al. (2008). The worst-case execution-time problem—overview of methods and survey of tools, Transactions on Embedded Computing Systems 7(3): 36:1–36:50. Yazdanshenas, A. R. & Moonen, L. (2011). Crossing the boundaries while analyzing heterogeneous component-based software systems, 27th IEEE International Conference on Software Maintenance (ICSM’11) pp. 193–202. Zhao, M., Childers, B. & Soffa, M. L. (2003). Predicting the impact of optimizations for embedded systems, ACM SIGPLAN conference on Language, compiler, and tool for embedded systems (LCTES’03) pp. 1–11.
GUIsurfer: A Reverse Engineering Framework for User Interface Software José Creissac Campos 1 , João Saraiva 1 , Carlos Silva 1 and João Carlos Silva 2 1 Departamento de Informática, Universidade do Minho 2 Escola Superior de Tecnologia, Instituto Politécnico do Cávado e do Ave Portugal 1. Introduction In the context of developing tool support to the automated analysis of interactive systems implementations, this chapter proposal aims to investigate the applicability of reverse engineering approaches to the derivation of user interfaces behavioural models. The ultimate goal is that these models might be used to reason about the quality of the system, both from an usability and an implementation perspective, as well as being used to help systems’ maintenance, evolution and redesign. 1.1 Motivation Developers of interactive systems are faced with a fast changing technological landscape, where a growing multitude of technologies (consider, for example, the case of web applications) can be used to develop user interfaces for a multitude of form factors, using a growing number of input/output techniques. Additionally, they have to take into consideration non-functional requirements such as the usability and the maintainability of the system. This means considering the quality of the system both from the user’s (i.e. external) perspective, and from the implementation’s (i.e. internal) perspective. A system that is poorly designed from a usability perspective will most probably fail to be accepted by its end users. A poorly implemented system will be hard to maintain and evolve, and might fail to fulfill all intended requirements. Furthermore, when subsystems are subcontracted, the problem is faced of how to guarantee the quality of the implemented system during acceptance testing. The generation of user interface models from source code has the potential to mitigate these problems. The analysis of these models enables some degree of reasoning about the usability of the system, reducing the need to resort to costly user testing (cf. (Dix et al., 2003)), and can support acceptance testing processes. Moreover, the manipulation of the models supports the evolution, redesign and comparison of systems. 1.2 Objectives Human-Computer interaction is an important and evolving area. Therefore, it is very important to reason about GUIs. In several situations (for example the mobile industry) it is the quality of the GUI that influences the adoption of certain software. In order for a user interface to have good usability characteristics it must both be adequately designed and adequately implemented. Tools are currently available to developers that allow 20
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1. Introduction 60 Surface Reconstr
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1. Introduction A Systematic Approa
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Integrating Reverse Engineering and
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272 3. Results Reverse Engineering
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