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1. Extreme Programming (XP) 2. Introduction Extreme Programming? An agile development methodology XP is “a light- weight methodology for small to medium-sized teams…
  • 1. Extreme Programming (XP)
  • 2. Introduction Extreme Programming? An agile development methodology XP is “a light- weight methodology for small to medium-sized teams developing software in the face of vague or rapidly changing requirements It works by bringing the whole team together in the presence of simple practices, with enough feedback to enable the team to see where they are and to tune the practices to their unique situation? Created by Kent Beck in the mid 1990’s A set of 12 key practices taken to their “extremes” A mindset for developers and customers
  • 3. Extreme Programming Hence XP is a lightweight (agile) process:  Instead of lots of documentation nailing down what customer wants up front, XP emphasizes plenty of feedback  Embrace change: iterate often, design and redesign, code and test frequently, keep the customer involved  Deliver software to the customer in short (2 week) iterations  Eliminate defects early, thus reducing costs
  • 4. XP MODEL(from www.extremeprogramming.org)
  • 5. XP emphasizes iteration
  • 6. XP emphasizes communication
  • 7. Test-driven development
  • 8. Four Core Values of XP Communication Simplicity Feedback Courage
  • 9. XP Practices The Planning Game Small Releases Metaphor Simple Design Testing Refactoring Pair Programming Collective Ownership Continuous Integration 40-Hour Workweek On-site Customer Coding Standards
  • 10. The Planning Game Planning for the upcoming iteration Uses stories provided by the customer Technical persons determine schedules, estimates, costs, etc A result of collaboration between the customer and the developers Advantages  Reduction in time wasted on useless features  Greater customer appreciation of the cost of a feature  Less guesswork in planning Disadvantages  Customer availability  Is planning this often necessary?
  • 11. Small Releases Small in terms of functionality Less functionality means releases happen more frequently Support the planning game Advantages  Frequent feedback  Tracking  Reduce chance of overall project slippage Disadvantages  Not easy for all projects  Not needed for all projects  Versioning issues
  • 12. Metaphor The oral architecture of the system A common set of terminology Advantages  Encourages a common set of terms for the system  Reduction of buzz words and jargon  A quick and easy way to explain the system Disadvantages  Often the metaphor is the system  Another opportunity for miscommunication  The system is often not well understood as a metaphor
  • 13. Simple Design K.I.S.S (Keep it simple Stupid) Do as little as needed, nothing more Advantages  Time is not wasted adding superfluous functionality  Easier to understand what is going on  Refactoring and collective ownership is made possible  Helps keeps programmers on track Disadvantages  What is “simple?”  Simple isn’t always best
  • 14. Testing Unit testing Test-first design All automated Advantages  Unit testing promote testing completeness  Test-first gives developers a goal  Automation gives a suite of regression test Disadvantages  Automated unit testing isn’t for everything  Reliance on unit testing isn’t a good idea  A test result is only as good as the test itself
  • 15. Refactoring Changing how the system does something but not what is done Improves the quality of the system in some way Advantages  Prompts developers to proactively improve the product as a whole  Increases developer knowledge of the system Disadvantages  Not everyone is capable of refactoring  Refactoring may not always be appropriate  Would upfront design eliminate refactoring?
  • 16. Pair Programming Two Developers, One monitor, One Keyboard One “drives” and the other thinks Switch roles as neededAdvantages  Two heads are better than one  Focus  Two people are more likely to answer the following questions:  Is this whole approach going to work?  What are some test cases that may not work yet?  Is there a way to simplify this? Disadvantages  Many tasks really don’t require two programmers  A hard sell to the customers
  • 17. Collective Ownership The idea that all developers own all of the code Enables refactoring Advantages  Helps mitigate the loss of a team member leaving  Promotes developers to take responsibility for the system as a whole rather then parts of the system Disadvantages  Loss of accountability  Limitation to how much of a large system that an individual can practically “own”
  • 18. Continuous Integration New features and changes are worked into the system immediately Code is not worked on without being integrated for more than a day Advantages  Reduces to lengthy process  Enables the Small Releases practice Disadvantages  The one day limit is not always practical  Reduces the importance of a well-thought-out architecture
  • 19. 40-Hour Week The work week should be limited to 40 hours Regular overtime is a symptom of a problem and not a long term solution Advantages  Most developers lose effectiveness past 40-Hours  Value is placed on the developers well-being  Management is forced to find real solutions Disadvantages  The underlying principle is flawed  40-Hours is a magic number  Some may like to work more than 40-Hours
  • 20. On-Site Customer Acts to “steer” the project Gives quick and continuous feedback to the development team Advantages  Can give quick and knowledgeable answers to real development questions  Makes sure that what is developed is what is needed  Functionality is prioritized correctly Disadvantages  Difficult to get an On-Site Customer  The On-Site customer that is given may not be fully knowledgeable about what the company  May not have authority to make many decisions  Loss of work to the customer’s company
  • 21. Coding Standards All code should look the same It should not possible to determine who coded what based on the code itself Advantages  Reduces the amount of time developers spend reformatting other peoples’ code  Reduces the need for internal commenting  Call for clear, unambiguous code Disadvantages  Degrading the quality of inline documentation
  • 22. Extreme Programming Roles  Customer  Writes User Stories and specifies Functional Tests  Sets priorities, explains stories  May or may not be an end-user  Has authority to decide questions about the stories  Programmer  Estimates stories  Defines Tasks from stories, and estimates  Implements Stories and Unit Tests  Coach  Watches everything, sends obscure signals, makes sure the project stays on course  Helps with anything
  • 23. XP Roles continued Tracker  Monitors Programmers’ progress, takes action if things seem to be going off track.  Actions include setting up a meeting with Customer,  Coach or another Programmer to help Tester  Implements and runs Functional Tests (not Unit Tests!)  Graphs results, and makes sure people know when test results decline. Doomsayer  Ensures that everybody knows the risks involved  Ensures that bad news isnt hidden, glossed over, or blown out of proportion
  • 24. XP Roles continued Manager  Schedules meetings (e.g. Iteration Plan, Release Plan), makes sure the meeting process is followed, records results of meeting for future reporting, and passes to the Tracker  Possibly responsible to the Gold Owner.  Goes to meetings, brings back useful information  Gold Owner  The person funding the project, which may or may not be the same as the Customer
  • 25. Extreme ProgrammingActivities Coding: You code because if you dont code, at the end of the day you havent done anything. Testing: You test because if you dont test, you dont know when you are done coding Listening: You listen because if you dont listen you dont know what to code or what to test Designing: And you design so you can keep coding and testing and listening indefinitely (good design allows extension of the system with changes in only one place)
  • 26. Release Planning 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 cards. Commitment Phase: Within the commitment phase customer 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
  • 27. Exploration Phase Iterative process of gathering requirements and estimating the work impact of each of those requirements. Write a Story: Customer has come with a problem; during a meeting, Developer will try to define this problem and get requirements. Based on the business problem, a story (user story) has to be written. This is done by Customer, where they point out what they want a part of the system to do. It is important that developer has no influence on this story. The story is written on a user story card. Roles : Customer , Developer Artifact : User Stories
  • 28. Exploration Phase Estimate a Story: Developer estimates how long it will take to implement the work implied by the story card. Developer can 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: Design critical complexity has to be addressed before starting the iteration planning. If developer isnt able to estimate the story, it needs to be split up and written again.
  • 29. Commitment phase This phase involves the determination of costs, benefits, and schedule impact. It has four components:  Sort by Value: Customer sorts the user stories by business value  Sort by Risk: Developer sorts the stories by risk.  Set Velocity: Developer 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.
  • 30. Steering phase Within the steering phase the developer and customer 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.
  • 31. Iteration Planning Plans the activities and tasks of the developers. In this process the customer is not involved.. Role : Developers 3 Phases of Iteration Planning
  • 32. Iteration Planning Phases Exploration Phase: 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
  • 33. Exploration phase It 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
  • 34. 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.
  • 35. Commitment phase Cont…. 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.
  • 36. Implementation The implementation of the tasks is done during the steering phase of the iteration planning. 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. Design the task: If needed, the programmers will design the functionality of the task.
  • 37. Implementation Cont… Write unit test: Before the programmers start coding the functionality they first write automated tests. This is further discussed in the practice Unit Testing. Write code: The programmers start to code. Run test: The unit tests are run to test the code. Refactor: Remove any code smell from the code. Run Functional test: Functional tests (based on the requirements in the associated user story and task card) are run.
  • 38. XP Artifacts Story Cards Task Cards
  • 39. User Stories A short description of the behavior of the system from the point of view of the Customer Use the Customer’s terminology without technical jargon One for each major feature in the system Must be written by the users Are used to create time estimates for release planning Replace a large Requirements Document
  • 40. User Stories continued Drive the creation of the acceptance tests Must be one or more tests to verify that a story has been properly implemented Should only provide enough detail to make a reasonably low risk estimate of how long the story will take to implement. Written by the Customer, not the Programmers, using the Customer’s terminology More “friendly” than formal Use Cases
  • 41. User Stories continued User stories have three crucial aspects: Card  Enough information to identify the story Conversation  Customer and Programmers discuss the story to elaborate on the details  Verbal when possible, but documented when required Confirmation  Acceptance tests to confirm that the story has been properly implemented
  • 42. User Story Examples A user wants access to the system, so they find a system administrator, who enters in the users First Name, Last Name, Middle Initial, E-Mail Address, Username (unique), and Phone Number. Risk: Low Cost: 2 points
  • 43. Research Issues What kind of projects can benefit from XP? What projects are “too big” and therefore outside the scope of XP? How do we reconcile past research, which suggests that the lack of a formal specification is a recipe for project disaster? What is the effect of the lack of focus, in general, with a formal requirements engineering process? XP requires customers that can write user stories, assist in planning releases, perform acceptance tests, and be available to answer questions on-site with the developers. Ideally, this is one person who can represent a group of users.
  • 44. Research Issues What are the “ideal” characteristics that this person must possess? How are different, and potentially conflicting, stories from multiple “customers” handled? What are the implications of not having a formal document (such as an SRS) to serve as a binding contract? How is change managed after release? How is the potential impact of changes assessed? Can the “cost of change” curve truly be flattened with XP? Does the use of XP indeed result in project “success”? Are the success factors for XP implementation different than for the traditional methodologies?
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