aspect-oriented programming - meaning and definition. What is aspect-oriented programming
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What (who) is aspect-oriented programming - definition

PROGRAMMING PARADIGM
Aspect oriented; Aspect programming; Aspect oriented software development; Aspect Oriented Software Development; Aspect Oriented Programming; Post-object programming; Aspect oriented programming; Aspect-oriented software development; Aspect-Oriented Programming; Aspect-Oriented Software Development; Aspect-Orientation; Aspect-oriented software; Aspect-oriented; Aspect-oriented Programming; Aspect-oriented language; Aspect oriented development; Aspect-oriented development

aspect-oriented programming         
<programming> (AOP) A style of programming that attempts to abstract out features common to many parts of the code beyond simple functional modules and thereby improve the quality of software. Mechanisms for defining and composing abstractions are essential elements of programming languages. The design style supported by the abstraction mechanisms of most current languages is one of breaking a system down into parameterised components that can be called upon to perform a function. But many systems have properties that don't necessarily align with the system's functional components, such as failure handling, persistence, communication, replication, coordination, memory management, or real-time constraints, and tend to cut across groups of functional components. While they can be thought about and analysed relatively separately from the basic functionality, programming them using current component-oriented languages tends to result in these aspects being spread throughout the code. The source code becomes a tangled mess of instructions for different purposes. This "tangling" phenomenon is at the heart of much needless complexity in existing software systems. A number of researchers have begun working on approaches to this problem that allow programmers to express each of a system's aspects of concern in a separate and natural form, and then automatically combine those separate descriptions into a final executable form. These approaches have been called aspect-oriented programming. {Xerox AOP homepage (http://parc.xerox.com/csl/projects/aop/)}. AspectJ (http://AspectJ.org/). {ECOOPP'99 AOP workshop (http://wwwtrese.cs.utwente.nl/aop-ecoop99/)}. (1999-11-21)
Aspect-oriented programming         
In computing, aspect-oriented programming (AOP) is a programming paradigm that aims to increase modularity by allowing the separation of cross-cutting concerns. It does so by adding behavior to existing code (an advice) without modifying the code itself, instead separately specifying which code is modified via a "pointcut" specification, such as "log all function calls when the function's name begins with 'set.
object-oriented         
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PROGRAMMING PARADIGM BASED ON THE CONCEPT OF OBJECTS
Object-oriented; Object-oriented language; Object oriented; Object-oriented (programming); Object oriented programming; Object oriented language; Object orientated programming; Object-orientated programming; Object-oriented computer programming; Object-oriented languages; Object-Oriented Programming; Object-oriented SQL; Object-Oriented programming; Checking type instead of membership; Object system; Object Orientated; Object-oriented technology; Object orientated; Object Oriented; OOPL; Objected-oriented programming language; Object technology; Object oriented programming language; Object orentation; Object-oriented code; Obect-oriented programming; Object-oriented programming language; Object oriented programing; History of object oriented programming; Object Oriented Programming; Principles of OOP; Object-oriented Programming; Object-Oriented Software Engineering; Object decoupling; Object-oriented computing; Criticism of object-oriented programming; Object-oriented programming languages; OOSE; Dot notation (object-oriented programming); Object-oriented programming system; Object-oriented design patterns; Object-oriented software engineering; Formal semantics of object-oriented languages

Wikipedia

Aspect-oriented programming

In computing, aspect-oriented programming (AOP) is a programming paradigm that aims to increase modularity by allowing the separation of cross-cutting concerns. It does so by adding behavior to existing code (an advice) without modifying the code itself, instead separately specifying which code is modified via a "pointcut" specification, such as "log all function calls when the function's name begins with 'set'". This allows behaviors that are not central to the business logic (such as logging) to be added to a program without cluttering the code core to the functionality.

AOP includes programming methods and tools that support the modularization of concerns at the level of the source code, while aspect-oriented software development refers to a whole engineering discipline.

Aspect-oriented programming entails breaking down program logic into distinct parts (so-called concerns, cohesive areas of functionality). Nearly all programming paradigms support some level of grouping and encapsulation of concerns into separate, independent entities by providing abstractions (e.g., functions, procedures, modules, classes, methods) that can be used for implementing, abstracting and composing these concerns. Some concerns "cut across" multiple abstractions in a program, and defy these forms of implementation. These concerns are called cross-cutting concerns or horizontal concerns.

Logging exemplifies a crosscutting concern because a logging strategy necessarily affects every logged part of the system. Logging thereby crosscuts all logged classes and methods.

All AOP implementations have some crosscutting expressions that encapsulate each concern in one place. The difference between implementations lies in the power, safety, and usability of the constructs provided. For example, interceptors that specify the methods to express a limited form of crosscutting, without much support for type-safety or debugging. AspectJ has a number of such expressions and encapsulates them in a special class, an aspect. For example, an aspect can alter the behavior of the base code (the non-aspect part of a program) by applying advice (additional behavior) at various join points (points in a program) specified in a quantification or query called a pointcut (that detects whether a given join point matches). An aspect can also make binary-compatible structural changes to other classes, like adding members or parents.