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Aspect-oriented programming

Aspect-oriented programming. Laura Ricci A.A. 2001-2002. Index. Introduction to AOP What are aspects? The role of aspects in software design AOP issues AspectJ What next?. Introduction. Currently, the dominant programming paradigm is object-oriented programming that:

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Aspect-oriented programming

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  1. Aspect-oriented programming Laura Ricci A.A. 2001-2002

  2. Index • Introduction to AOP • What are aspects? • The role of aspects in software design • AOP issues • AspectJ • What next?

  3. Introduction • Currently, the dominant programming paradigm is object-oriented programming that: • Object orientation is a clever idea, but has certain limitations • has been presented as a technology that can fundamentally aid software engineering • is reflected in the entire spectrum of current software development methodologies and tools

  4. Introduction • A new programming technique called aspect-oriented programming (AOP): • makes it possible to clearly express those programs that OOP fail to support • enables the modularization of crosscutting concerns by supporting a new unit of sw modularity – aspects – that provide encapsulation for crosscutting concerns

  5. What are aspects? • The current working definition is (May 99, Gregor Kiczales): • modular units that cross-cut the structure of other modular units • units that is defined in terms of partial information from other units • exist in both design and implementation

  6. Concerns • AOP is based on the idea that computer systems are better programmed by separately specifying the various concerns of a system • Separation of concerns is an important software engineering principle guiding all stage of a sw development methodology • Concerns: • are properties or areas of interest • can range from high-level notion ot low level-notion • can be functional or nonfunctional (systemic) back

  7. Example of crosscutting concerns • Consider: • This requires every method that moves a figure element to do the notification It is taken from C. of the ACM • the UML for a simple figure editor in which there are two concrete classes of figure element, points and lines • the concern that the screen manager should be notified whenever a figure element moves

  8. Example of crosscutting concerns The red box is drawn around every method that must implement this concern Display DisplayUpdating fits neither inside of nor around the other boxes in the figure DisplayUpdating cuts across the other boxes * Figure FigureElement Point Line 2 getX() getY() getP1 setP1 setX(int) setY(int) setP1(Point) setP2(Point) DisplayUpdating

  9. What are aspects? • Aspects are similar to classes because: • have type • can extend classes and other aspects • can be abstract or concrete • can have fields, methods, and types as members

  10. What are aspects? • Aspect are different than classes because: • can additionally include as members pointcuts (picks out join points), advice (code that executes at each join point ) • do not have constructor or finalizer and they cannot be created with the new operator • priviliged aspects can access private members of other types

  11. What are aspect? • Aspects may arise at any stage of the software lifecycle • Common example of crosscutting aspects are design or architectural constraints, systemic properties or behaviours and features

  12. Examples of how aspects cross-cut components It is taken from AOP document We wanted to implement a distributed digital library that stores documents in many forms and provides a wide range of operations on those documents application components aspects digital database, minimizing network Library printers, traffic, services synchronization constraints, failure handling

  13. Examples of how aspects cross-cut components • There are several aspects of concerns, including: • communication, by which we mean controlling the amount of network bandwidth the application uses by being careful about which objects get copied in remote method calls • coordination constraints, by which we mean the synchronization rules require to ensure that the component program behaves correctly • failure handling, by which we mean handling the many different forms of failure that can arise in a distributed system

  14. The role of aspects in software design • AOP aims at providing better means of addressing the well-known problem of separation of concerns • Three basic approaches to addressing the process of separation of concerns: • language-based • framework-based • architecture-oriented

  15. Language-based approach • It is based on the definition of a set of language constructs • Relevant concerns are identified at the problem domain and translated to aspectual construct • The final application is obtained by weaving the primary structure with the crosscutting aspects

  16. Framework-based approach • Provides more flexible constructs • Concerns are materialized as aspectual classes at the framework level • Developers can customize these aspects using the mechanism supported by the framework • These types of framework are known as AO frameworks (explicitly engineers concerns)

  17. Architecture-oriented approach • Early identification of concerns using architectural organizational models • Architectural view-point involves a higher level of abstraction than the previous approaches • It tipically comprises two stages

  18. Architecture-oriented approach • First, developers should determine the problem architecture • Then, the approach enables several kinds of aspect materialization through different frameworks Concerns are initially mapped to architectural construct

  19. AOP technologies example • Empirical analysis based on a simulation case study of the temperature control system (TCS) of a building () • This comprises a building with rooms requiring specific temperatures and a network consisting of radiators, pipes and a boiler • To simulate TCS, a simple mathematical model of temporal differential equations specifies the heat flow among the different components It is taken from C. of the ACM

  20. AOP technologies example Relevant aspects in TCS Aspect Description Relationships Scheduling It refers to how the simulated entities should run It works together with synchronization Synchronization It basically involves access to shared variables and race condition It works together with scheduling

  21. AOP technologies example • Four different groups of programmers implementing: • typical OO view • aspect language (AL) • reflective AO framework (R-AO) • event-based architectural framework (EBA)

  22. AOP technologies example • TCS evaluation according to the different implementation • Analyzed features: scheduling and synchronization • OO modeling: SS are scattered across the components requiring these facilities (inheritance anomalies) • EBA: SS are provided as built-in features in the framework. It may be difficult to customize some of these policies • R-AO – AL: There are specific aspects dealing with SS. They are kept separated, but some problems about the way they interact (aspect composition) may arise

  23. AOP technologies example • Several execution of the simulation programs are maded • TCS performance with the different implementation: • results were very similar except in the case of R-AO • similarities found in the study seem to indicate that both EBA and AL run almost like standard code

  24. AOP technologies example • To obtain a measure of the complexity of the implementations, it is gathered code statistics (NCSS) about: • number of methods per class • the NCSS per methods • cyclomatic complexity (CNN per methods) In particular, the best results were obtained with EBA (this payoff comes mainly from the autonomy of component and decoupling prescribed by framework).

  25. The role of aspects in software design The central problem of aspect technologies, whatever the approach we consider, is not just about crosscutting or separation of concerns, but it involves deeper research about how to understand a number of software parts as separated artifacts and then integrate some of then into a coherent system

  26. AOP issues • AOP must address both what the programmer can say and how the computer system will realize the program in a program system • AOP system: • provides a way of expressing crosscutting concerns • also ensures these mechanisms are conceptually straighforward and have efficient implementations

  27. AOP issues • How an AOP system specifies aspects: • What composition mechanisms the system provides: • join points • aspect parameterization • dominant decomposition • visibility • mechanism provided

  28. AOP issues • Implementation mechanisms: • Software process: • static/dinamic distinction • modular compilation • target representation • methodology or framework (the system provides for organizing the system-building activity) • reusability • domain-specificity

  29. AspectJ • Aspectj is: • Aspectj enables the modular implementation of a wide range of crosscutting concerns • a general-purpose Ao extension to Java • Java platform compatible • easy to learn and use • freely available under an Open Source license

  30. AspectJ • When written as an aspect the structure of a crosscutting concern is explicit and easy to reason about • Aspects are modular • AspectJ enables: • name-based crosscutting (tend to affect a small number of other classes) • property-based crosscutting (range from small to large scale)

  31. AspectJ • Adoption of it into an existing project can be a straightforward and incremental task: • The goals of the AspectJ project are to make AOP technology available to a wide range of programmers, to build and support an AspectJ user community • to begin with development aspects • other paths are possible,depending on the needs of the projects Example

  32. What next? • Software engineering researchers provide some help to determine if it is beneficial for sw development organization to adopt AOP for building their sw products • A number of study have been conducted to asses the usefulness of AOP • Two basic techniques for assessing a programming technology: • experiments • case study

  33. What next? • Three areas emerge as important in supporting the use of AOP: • exposing join points • managing aspect interface • structuring aspects

  34. References • Communications of the ACM (October 2001-Volume 44, Number 10) AOP official web site: • http://aosd.net/ AspectJ official web site: • http://aspectj.org/ Sites from which you can find documents about conferences and several informations: • http://www.ccs.neu.edu/home/lieber/connection-to-aop.html • http://www.cs.man.ac.uk/cnc/mscprojects/aspect/node1.html • http://www.cs.ubc.ca/labs/se/papers/1999/icse99-aop.html • http://www.eclipse.net/~tomo/pisa/oopsla2000/p_netinant.html

  35. Crosscutting • Crosscutting is how to characterize a concern than spans multiple units of OO modularity • Crosscutting concerns resist modularization using normal OO construct back

  36. Pointcut • Picks out join points • Can be defined in classes or in aspects and can be named or be anonymous back

  37. Advice • It is code that executes at each join point picked out by pointcut • His power comes from the advice being able to access value in the execution context of a pointcut back

  38. Join points • Are well-defined points in the execution of a program • Only those points that can be used in a disciplined and principled manner back

  39. Framework • It is based on decomposition of aspects in system design that consists of components, aspects, and layers. • By separating the different aspects of each component, we can separate components, aspects, and layers from each other back

  40. AspectJ example It is taken from C. of the ACM • An aspect is defined very much like a classand can have methods, fielsd, constructors, initializers, named pointcuts and advice • An example is tracing aspect that prints messages before certain display operation • The overall effect of this aspect is to print a descriptive message whenever the traced methods are called

  41. AspectJ example Aspect SimpleTracing { pointcut traced() : call (void Display.update () ) || call (void Display.repaint (..) ); before() : traced () { println(“Entering:” + thisJoinPoint); } void println (String str) { <write to appropriate stream> } } Traced identifies calls to several key methods on Display Before advice on this pointcut uses a helper method of the aspect to print a message Advice uses the thisJoinPoint special variable to an object that describes the current join point back

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