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Extreme programming Extreme programming (XP) is a software development methodology intended to improve software quality and responsiveness to changing customer requirements. As a type of agile software development,"Human Centred Technology Workshop 2006 ", 2006, PD ...
(XP) is an
agile software development In software development, agile (sometimes written Agile) practices include requirements discovery and solutions improvement through the collaborative effort of self-organizing and cross-functional teams with their customer(s)/ end user(s), ad ...
methodology used to implement
software Software is a set of computer programs and associated documentation and data. This is in contrast to hardware, from which the system is built and which actually performs the work. At the lowest programming level, executable code consists ...
projects. This article details the practices used in this methodology. Extreme programming has 12 practices, grouped into four areas, derived from the
best practices A best practice is a method or technique that has been generally accepted as superior to other known alternatives because it often produces results that are superior to those achieved by other means or because it has become a standard way of doing ...
of
software engineering Software engineering is a systematic engineering approach to software development. A software engineer is a person who applies the principles of software engineering to design, develop, maintain, test, and evaluate computer software. The term '' ...
.Beck, K. ''Extreme Programming Explained: Embrace Change'' 2nd. ed. Addison-Wesley, 2000 pp. 54


Fine scale feedback


Pair programming

Pair programming Pair programming is an software development technique in which two programmers work together at one workstation. One, the ''driver'', writes code while the other, the ''observer'' or ''navigator'', reviews each line of code as it is typed in. The ...
means that all the codes which is produced by two people programming on one task on one workstation. 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. The pairs are not fixed; programmers switch partners frequently, so that everyone knows what everyone is doing, and everybody remains familiar with the whole system, even the parts outside their skill set. This way, pair programming also can enhance team-wide communication. (This also goes hand-in-hand with the concept of Collective Ownership).


Planning game

The main planning process within extreme programming is called the Planning Game. The game is a meeting that occurs once per iteration, typically once a week. The planning process is divided into two parts: *''Release Planning'': This is focused on determining what requirements are included in which near-term releases, and when they should be delivered. The customers and developers are both part of this. Release Planning consists of three phases: **Exploration Phase: In this phase the customer will provide a shortlist of high-value requirements for the system. These will be written down on
user story In software development and product management, a user story is an informal, natural language description of features of a software system. They are written from the perspective of an end user or user of a system, and may be recorded on index ...
cards. **Commitment Phase: Within the commitment phase business and developers will commit themselves to the functionality that will be included and the date of the next release. **Steering Phase: In the steering phase the plan can be adjusted, new requirements can be added and/or existing requirements can be changed or removed. *''Iteration Planning'': This plans the activities and tasks of the developers. In this process the customer is not involved. Iteration Planning also consists of three phases: **Exploration Phase: Within this phase the requirement will be translated to different tasks. The tasks are recorded on task cards. **Commitment Phase: The tasks will be assigned to the programmers and the time it takes to complete will be estimated. **Steering Phase: The tasks are performed and the end result is matched with the original user story. The purpose of the Planning Game is to guide the product into delivery. Instead of predicting the exact dates of when deliverables will be needed and produced, which is difficult to do, it aims to "steer the project" into delivery using a straightforward approach. The Planning Game approach has also been adopted by non-software projects and teams in the context of
business agility Business agility refers to rapid, continuous, and systematic evolutionary adaptation and entrepreneurial innovation directed at gaining and maintaining competitive advantage. Business agility can be sustained by maintaining and adapting the goods an ...
.


''Release planning''


= Exploration phase

= This is an iterative process of gathering requirements and estimating the work impact of each of those requirements. *Write a Story: Business has come with a problem; during a meeting, development will try to define this problem and get requirements. Based on the business problem, a story (
user story In software development and product management, a user story is an informal, natural language description of features of a software system. They are written from the perspective of an end user or user of a system, and may be recorded on index ...
) has to be written. This is done by business, where they point out what they want a part of the system to do. It is important that development has no influence on this story. The story is written on a user story card. *Estimate a Story: Development estimates how long it will take to implement the work implied by the story card. Development can also create spike solutions to analyze or solve the problem. These solutions are used for estimation and discarded once everyone gets clear visualization of the problem. Again, this may not influence the business requirements. *Split a Story: Every design critical complexity has to be addressed before starting the iteration planning. If development isn't able to estimate the story, it needs to be split up and written again. When business cannot come up with any more requirements, one proceeds to the commitment phase.


= Commitment phase

= This phase involves the determination of costs, benefits, and schedule impact. It has four components: *Sort by Value: Business sorts the user stories by
Business Value In management, business value is an informal term that includes all forms of value that determine the health and well-being of the firm in the long run. Business value expands concept of value of the firm beyond economic value (also known as economi ...
. *Sort by Risk: Development sorts the stories by risk. *Set Velocity: Development determines at what speed they can perform the project. *Choose scope: The user stories that will be finished in the next release will be picked. Based on the user stories the release date is determined.


Sort by value

The business side sorts the user stories by business value. They will arrange them into three piles: *Critical: stories without which the system cannot function or has no meaning. *Significant
Business Value In management, business value is an informal term that includes all forms of value that determine the health and well-being of the firm in the long run. Business value expands concept of value of the firm beyond economic value (also known as economi ...
: Non-critical user stories that have significant business value. *Nice to have: User stories that do not have significant business value.


Sort by risk

The developers sort the user stories by risk. They also categorize into three piles: low, medium and high risk user stories. The following is an example of an approach to this: *Determine Risk Index: Give each user story an index from 0 to 2 on each of the following factors: **Completeness (do we know all of the story details?) ***Complete (0) ***Incomplete (1) ***Unknown (2) **Volatility (is it likely to change?) ***low (0) ***medium (1) ***high (2) **Complexity (how hard is it to build?) ***simple (0) ***standard (1) ***complex (2) All indexes for a user story are added, assigning the user stories a risk index of low (0–1), medium (2–4), or high (5–6).


= Steering phase

= Within the steering phase the programmers and business people can "steer" the process. That is to say, they can make changes. Individual user stories, or relative priorities of different user stories, might change; estimates might prove wrong. This is the chance to adjust the plan accordingly.


''Iteration Planning''

Considering team velocity storypoints to be planned. Iteration duration can be 1 to 3 weeks.


= Exploration phase

= The exploration phase of the iteration planning is about creating tasks and estimating their implementation time. *Translate the requirement to tasks: Place on task cards. *Combine/Split task: If the programmer cannot estimate the task because it is too small or too big, the programmer will need to combine or split the task. *Estimate task: Estimate the time it will take to implement the task.


= Commitment phase

= Within the commitment phase of the iteration planning programmers are assigned tasks that reference the different user stories. *A programmer accepts a task: Each programmer picks a task for which he or she takes responsibility. *Programmer estimates the task: Because the programmer is now responsible for the task, he or she should give the eventual estimation of the task. *Set load factor: The load factor represents the ideal amount of hands-on development time per programmer within one iteration. For example, in a 40-hour week, with 5 hours dedicated to meetings, this would be no more than 35 hours. *Balancing: When all programmers within the team have been assigned tasks, a comparison is made between the estimated time of the tasks and the load factor. Then the tasks are balanced out among the programmers. If a programmer is overcommitted, other programmers must take over some of his or her tasks and vice versa.


= Steering phase

= The implementation of the tasks is done during the steering phase of the iteration. * Get a task card: The programmer gets the task card for one of the tasks to which he or she has committed. * Find a Partner: The programmer will implement this task along with another programmer. This is further discussed in the practice
Pair Programming Pair programming is an software development technique in which two programmers work together at one workstation. One, the ''driver'', writes code while the other, the ''observer'' or ''navigator'', reviews each line of code as it is typed in. The ...
. * Design the task: If needed, the programmers will design the functionality of the task. * Implement the task using
Test-driven development Test-driven development (TDD) is a software development process relying on software requirements being converted to test cases before software is fully developed, and tracking all software development by repeatedly testing the software against al ...
(TDD) (see below) * Run Functional test: Functional tests (based on the requirements in the associated user story and task card) are run.


Test driven development

Unit tests In computer programming, unit testing is a software testing method by which individual units of source code—sets of one or more computer program modules together with associated control data, usage procedures, and operating procedures&mda ...
are automated tests that test the functionality of pieces of the code (e.g. classes, methods). Within XP, unit tests are written before the eventual code is coded. This approach is intended to stimulate the programmer to think about conditions in which his or her code could fail. XP says that the programmer is finished with a certain piece of code when he or she cannot come up with any further conditions under which the code may fail. Test driven development proceeds by quickly cycling through the following steps, with each step taking minutes at most, preferably much less. Since each user story will usually require one to two days of work, a very large number of such cycles will be necessary per story. * Write
unit test In computer programming, unit testing is a software testing method by which individual units of source code—sets of one or more computer program modules together with associated control data, usage procedures, and operating procedures&mda ...
: The programmers write a minimal test that should fail because the functionality hasn't been fully implemented in the production code. * Watch the new test fail: The programmers verify the test does indeed fail. While it may seem like a waste of time, this step is critical because it verifies that your belief about the state of the production code is correct. If the test does not fail, the programmers should determine whether there is a bug in the test code, or that the production code does support the functionality described by the new test. * Write code: The programmers write just enough production code so the new test will pass. * Run test: The unit tests are executed to verify that the new production code passes the new test, and that no other tests are failing. *
Refactor In computer programming and software design, code refactoring is the process of restructuring existing computer code—changing the '' factoring''—without changing its external behavior. Refactoring is intended to improve the design, structure ...
: Remove any
code smells In computer programming, a code smell is any characteristic in the source code of a program that possibly indicates a deeper problem. Determining what is and is not a code smell is subjective, and varies by language, developer, and development meth ...
from both the production and test code. For a more intense version of the above process, see Uncle Bob's Three Rules of TDD.


Whole team

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.


Continuous process


Continuous integration

The development team should always be working on the latest version of the software. Since different team members may have versions saved locally with various changes and improvements, they should try to upload their current version to the code repository every few hours, or when a significant break presents itself. Continuous integration will avoid delays later on in the project cycle, caused by integration problems.


Design improvement

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 many other parts. XP doctrine says that when this occurs, the system is telling you to
refactor In computer programming and software design, code refactoring is the process of restructuring existing computer code—changing the '' factoring''—without changing its external behavior. Refactoring is intended to improve the design, structure ...
your code by changing the architecture, making it simpler and more generic.


Small releases

The delivery of the software is done via frequent releases of live functionality creating concrete value. The small releases help the customer to gain confidence in the progress of the project. This helps maintain the concept of the whole team as the customer can now come up with his suggestions on the project based on real experience.


Shared understanding


Coding standard

Coding standard Coding conventions are a set of guidelines for a specific programming language that recommend programming style, practices, and methods for each aspect of a program written in that language. These conventions usually cover file organization, in ...
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. 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 In computer programming, self-documenting (or self-describing) source code and user interfaces follow naming conventions and structured programming conventions that enable use of the system without prior specific knowledge. In web development, se ...
to the furthest degree possible. This reduces the need for code comments, which can get out of sync with the code itself.


Collective code ownership

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." 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. Collective code ownership may accelerate development because a developer who spots an error can fix it immediately, which can reduce bugs overall. However, programmers may also introduce bugs when changing code that they do not understand well. Sufficiently well-defined unit tests should mitigate this problem: if unforeseen dependencies create errors, then when unit tests are run, they will show failures. Collective code ownership may lead to better member backup, greater distribution of knowledge and learning, shared responsibility of the code, greater code quality, and reduced rework. But it may as well lead to increased member conflict, increase of bugs, changes of developers mental flow and breaks of their reasoning, increased development time, or less understanding of the code.Ribeiro, Danilo & Silva, Fabio & Valença, Diana & Freitas, Elyda & França, César. (2016). Advantages and Disadvantages of using Shared code from the Developers Perspective: A qualitative study.


Simple design

Programmers should take a "simple is best" approach to software design. Whenever a new piece of code is written, the author should ask themselves 'is there a simpler way to introduce the same functionality?'. If the answer is yes, the simpler course should be chosen. Refactoring should also be used to make complex code simpler.


System metaphor

The system metaphor is a story that everyone - customers, programmers, and managers - can tell about how the system works. It's a naming concept for classes and methods that should make it easy for a team member to guess the functionality of a particular class/method, from its name only. For example a library system may create loan_records(class) for borrowers(class), and if the item were to become overdue it may perform a make_overdue operation on a catalogue(class). For each class or operation the functionality is obvious to the entire team.


Programmer welfare


Sustainable pace

The concept is that programmers or software developers should not work more than 40 hour weeks, and if there is overtime one week, that the next week should not include more overtime. Since the development cycles are short cycles of continuous integration, and full development (release) cycles are more frequent, the projects in XP do not follow the typical crunch time that other projects require (requiring overtime). Also, included in this concept is that people perform best and most creatively if they are well rested. A key enabler to achieve sustainable pace is frequent code-merge and always executable & test covered high quality code. The constant refactoring way of working enforces team members with fresh and alert minds. The intense collaborative way of working within the team drives a need to recharge over weekends. Well-tested, continuously integrated, frequently deployed code and environments also minimize the frequency of unexpected production problems and outages, and the associated after-hours nights and weekends work that is required.


See also

*
Extreme programming Extreme programming (XP) is a software development methodology intended to improve software quality and responsiveness to changing customer requirements. As a type of agile software development,"Human Centred Technology Workshop 2006 ", 2006, PD ...
* Continuous integration *
Multi-stage continuous integration Multi-stage continuous integration is a software development technique intended to achieve highly integrated parallel development activity while reducing the scope of integration problems. Theory Multi-stage continuous integration takes advantage ...
*
Class-responsibility-collaboration card Class-responsibility-collaboration (CRC) cards are a brainstorming tool used in the design of object-oriented software. They were originally proposed by Ward Cunningham and Kent Beck as a teaching tool but are also popular among expert designersMar ...


References


External links


XP Practices
{{DEFAULTSORT:Extreme Programming Practices Software development process Extreme programming