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Design Pattern Detection

Design Pattern Detection. Design Patterns. A design pattern systematically names, explains and evaluates an important and recurring design problem and its solution Good designers know not to solve every problem from first principles They reuse solutions

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Design Pattern Detection

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  1. Design Pattern Detection

  2. Design Patterns • A design pattern systematically names, explains and evaluates an important and recurring design problem and its solution • Good designers know not to solve every problem from first principles • They reuse solutions • This is very different from code reuse COSC6431

  3. Design Patterns – 2 • Definition • “We propose design patterns as a new mechanism for expressing object oriented design experience. Design patterns identify, name and abstract common themes in object oriented design. They capture the intent behind a design by identifying objects, collaborations and distribution of responsibilities.” • Erich Gamma, Richard Helm, Ralph Johnson, John Vlissides ,“Design Patterns”, Addison-Wesley, 1995. ISBN 0-201-63361-2 COSC6431

  4. Others On Design Patterns • Christopher Alexander • “Each person describes a problem which occurs over and over and over again in our environment and then describes the core of the solution to that problem, in such a way that you can use this solution a million times over, without ever doing it the same way twice.” • Cunningham • “Patterns are the recurring solutions to the problem of design. People learn patterns by seeing them and recall them when need be without a lot of effort” COSC6431

  5. Others On Design Patterns – 2 • Booch • “A pattern is a solution to a problem in a specific context. A pattern codifies specific knowledge collected from experience in a domain.” COSC6431

  6. Design Problems • Finding appropriate classes • Determine class granularity • Specify interfaces • Specify implementation • Put reuse to work • Client-supplier vs inheritance • Design for change COSC6431

  7. Common problems • Explicit object creation • Dependence on particular operations • Dependencies on hardware or software platforms • Dependencies on object representation • Dependencies on algorithms • Tight coupling COSC6431

  8. Claims of the Pattern Community • Well defined design principles have a positive impact on software engineering • Achievable reusability • Provide common vocabulary for designers • communicate, document, explore alternatives • Patterns are like micro architectures • Useful for building small parts of a system • Reduce the learning time for understanding class libraries • Avoid redesign stages by using encapsulated experience COSC6431

  9. When to Use Patterns • Solutions to problems that recur with variations • No need for pattern if the problem occurs in only one context • Solutions that require several steps • Not all problems need all steps • Patterns can be overkill if solution is a simple linear set of interactions • Solutions where the solver is more interested in “does there exist a solution?” than in a solution’s complete derivation • Patterns often leave out lots of detail COSC6431

  10. Pattern Benefits • Enable large scale reuse of software architectures • Explicitly capture expert knowledge and design trade-offs • Help improve developer communication • Help ease the transition to OO methods COSC6431

  11. Pattern Drawbacks • Patterns do not lead to direct code reuse • Patterns are often deceptively simple • You may suffer from pattern overload • Patterns must be validated by experience and debate rather than automated testing • Integrating patterns into a process is human intensive rather than a technical activity COSC6431

  12. General Template • Name • Intent • What does the pattern do? What problems does it address? • Motivation • A scenario of pattern applicability • Applicability • In which situations can this pattern be applied • Participants • Describe participating classes/objects COSC6431

  13. General Template – 2 • Collaborations • How do the participants carry out their responsibilities? • Diagram • Graphical representation of the pattern • Consequences • How does the pattern support its objectives? • Implementation • Pitfalls, language specific issues • Examples COSC6431

  14. Classification • Structural • Deal with decoupling interface and implementation of classes and objects • Behavioural • Deal with dynamic interaction among collections of classes and objects • Creational • Deal with initializing and configuring collections of classes and objects COSC6431

  15. Detecting design patterns • A difficult task • Patterns are primarily a literary form • No rigorous mathematical definitions • Automatic detection beyond the state of the art of Artificial Intelligence • Instead, detect the artifacts of implementing the solution of the design pattern COSC6431

  16. Detecting design patterns • Purely structural patterns are easier to detect • Purely behavioural patterns are much harder • Most patterns are somewhere in the middle COSC6431

  17. Template solution • A template solution needs to be both: • Distinctive • The static structure is not likely to be represented in a design that does not use the pattern • Unambiguous • Can only be done in one way (or in a small number of variants) • An object adapter is unambiguous but not distinctive COSC6431

  18. Adapter – Example • EDITOR expects a SHAPE • TEXT_VIEW is not a SHAPE • TEXT is a SHAPE • Features are mapped (body calls relevant method) to TEXT_VIEW SHAPE EDITOR FIGURE TEXT TEXT_VIEW COSC6431

  19. Analysis synergy • Both static and dynamic analysis are necessary in order to detect patterns • Static analysis • The static structure of the pattern has to match a subgraph of the static structure of the software system • Dynamic analysis • Message passing during run-time has to match the message flow that implements the behaviour of the pattern COSC6431

  20. An exampleComposite vs. Decorator • A Decorator is sometimes referred to as a degenerate Composite. • The static structure of the two patterns is very similar • The dynamic behaviour is also the same • The difference is in the intent. The Composite pattern groups components into a whole. The Decorator patterns enhances the responsibility of a component. COSC6431

  21. Kramer – Prechelt 96 • Patterns detected: Structural (Adapter, Bridge, Composite, Decorator, Proxy) • Each pattern expressed as a set of Prolog rules • No dynamic information used • Reported precision: 40% COSC6431

  22. Antoniol et al. 98 • Same patterns detected • No handling of polymorphism • Metrics were employed to help reduce false positives • Precision: 14 – 50% COSC6431

  23. SPOOL • A Bell Canada / University of Montreal project • Patterns detected: Template Method, Factory Method, Bridge • Design information stored in an OODBMS • Querying the database was able to recover many instances of patterns from three large C++ systems COSC6431

  24. Niere et al. 01 • Semi-automatic approach • Programs described in the form of Abstract Syntax Graphs • Patterns described as graph transformations • Limitation: Each variant has to be described as a separate transformation COSC6431

  25. IDEA • Detects patterns in UML diagrams • May suggest improvements on the application of the pattern (better naming, export status for features etc). • Many patterns cannot be accurately detected from diagrams COSC6431

  26. Heuzeroth et al. • We covered this one already… COSC6431

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