Extreme programming practices: Difference between revisions

'''[[Extreme programming]]''' ('''XP''') is an [[agile software development]] methodology used to implement [[software]] projectssystems. This article details the practices used in this methodology. Extreme programming has 12 practices, grouped into four areas, derived from the [[best practices]] of [[software engineering]].<ref name="XPExplained">Beck, K. ''Extreme Programming Explained: Embrace Change'' 2nd. ed. Addison-Wesley, 2000 pp. 54</ref>

==Fine -scale feedback==

[[Pair programming]] meansis a method of programming thatin allwhich code is produced by two people programming on one tasktogether on one workstationtask. One programmer has control over the workstation and is thinking mostly about the coding in detail. The other programmer is more focused on the big picture, and is continually reviewing the code that is being produced by the first programmer. Programmers trade roles after minute to hour periods.

|titlechapter=Introducing Agile Methods: Three Years of Experience

}}</ref> The Planning Game approach hasis alsoused beenin adopteddevelopment byframeworks beyond just non-software projectssystems. andFor example, it is used by teams in the context of [[business agility]].<ref>Leybourn, E. (2013). Directing the Agile Organisation: A Lean Approach to Business Management. London: IT Governance Publishing: 146–150.</ref>

*Set Velocity: Development determines at what speed they can perform the project.

==== ''Iteration planningPlanning'' ====

* Find a Partnerpartner: The programmer will implement this task along with another programmer. This is further discussed in the practice of [[Pairpair Programmingprogramming]].

* Implement the task using [[Testtest-driven development]] (TDD) (see below)

* Run Functionalfunctional test: Functional tests (based on the requirements in the associated user story and task card) are run.

Within XP, the "customer" is not the one who pays the bill, but the one who really uses the system. XP says that the customer should be on hand at all times and available for questions. For instance, the team developing a financial administration system should include a financial administrator. All the skills necessary to deliver the software product should be present on the team.

Because XP doctrine advocates programming only what is needed today, and implementing it as simply as possible, at times this may result in a system that is stuck. One of the symptoms of this is the need for dual (or multiple) maintenance: functional changes start requiring changes to multiple copies of the same (or similar) code. Another symptom is that changes in one part of the code affect lots ofmany other parts. XP doctrine says that when this occurs, the system is telling you to [[refactoring|refactor]] your code by changing the architecture, making it simpler and more generic.

[[Coding conventions|Coding standard]] is an agreed upon set of rules that the entire development team agree to adhere to throughout the project. The standard specifies a consistent style and format for source code, within the chosen programming language, as well as various programming constructs and patterns that should be avoided in order to reduce the probability of defects.<ref>{{cite book | last = Kolawa | first = Adam |author2=Huizinga, Dorota | title = Automated Defect Prevention: Best Practices in Software Management | url = http://www.wiley.com/WileyCDA/WileyTitle/productCd-0470042125.html | year = 2007 | publisher = Wiley-IEEE Computer Society Press | ___location =| page=75| isbn = 978-0-470-04212-0 }}</ref> The coding standard may be a standard conventions specified by the language vendor (e.g. The Code Conventions for the Java Programming Language, recommended by Sun), or custom defined by the development team.

Extreme Programming backers advocate code that is [[self-documenting]] to the furthest degree possible. This reduces the need for [[Comment (computer programming)|code comments]], which can get out of sync with the code itself.<ref>{{Cite web |url=http://guzdial.cc.gatech.edu/squeakbook/new-lecture-slides/xp.ppt |title=XP-eXtreme Programming | format=PPT| access-date=2015-01-31 |archive-date=2021-12-17 |archive-url=https://web.archive.org/web/20211217175200/http://guzdial.cc.gatech.edu/squeakbook/new-lecture-slides/xp.ppt |url-status=dead }}</ref>

Collective code ownership (also known as "team [[code ownership]]" and "shared code") means that everyone is responsible for all the code; therefore, everybody is allowed to change any part of the code. Collective code ownership is not only an organizational policy but also a feeling. "Developers feel team code ownership more when they understand the system context, have contributed to the code in question, perceive code quality as high, believe the product will satisfy the user needs, and perceive high team cohesion."<ref>{{cite webbook|last1=Sedano|first1=Todd|last2=Ralph|first2=Paul|last3=Péraire|first3=Cécile|title=Proceedings of the 20th International Conference on Evaluation and Assessment in Software Engineering|chapter=Practice and Perception of Team Code Ownership|year=2016|pages=1–6|chapter-url=http://dl.acm.org/citation.cfm?doid=2915970.2916002|publisher=ACM|doi=10.1145/2915970.2916002|isbn=9781450336918|s2cid=10016345}}</ref> Pair programming, especially overlapping pair rotation, contributes to this practice: by working in different pairs, programmers better understand the system context and contribute to more areas of the code base.

{{RefimproveMore citations needed|date=December 2008}}