Web application development is the process and practice of developing web applications.
Just as with a traditional desktop application, web applications have varying levels of risk. A personal home page is much less risky than, for example, a stock trading web site. For some projects security, software bugs, etc. are major issues. If time to market, or technical complexity is a concern, documentation, test planning, change control, requirements analysis, architectural description and formal design and construction practices can mitigate risk.
Video Web application development
Technologies
- Ajax
- ASP
- ASP.NET
- ActionScript
- CSS
- ColdFusion
- CGI
- HTML
- Java
- JavaScript
- Visual LANSA
- Lasso
- Node.js
- OSGI
- Perl
- PHP
- Python
- Ruby
- Xojo
Maps Web application development
Lifecycle model
Time to market, company-growth and requirements churn, three things that are emphasized in web-based business, coincide with the principles of the Agile practices. Some agile lifecycle models are:
- Extreme programming
- Scrum
- Timebox development
- Feature-driven development
Testing
Web applications undergo the same unit, integration and system testing as traditional desktop applications. But because web application clients vary so greatly, teams might perform some additional testing, such as:
- Security
- Performance, Load, and Stress
- HTML/CSS validation
- Accessibility
- Usability
- Cross-browser
Many types of tests are automatable. At the component level, one of the xUnit packages can be a helpful tool. Or an organization can create its own unit testing framework. At the GUI level, Watir or iMacros are useful.
Tools
In the case of ASP.NET, developers can use Microsoft Visual Studio to write code. But, as with most other programming languages, they can also use a text editor (Notepad++ for example). WebORB Integration Server for .NET can be used to integrate .NET services, data and media with any web client. It includes developer-productivity tools and APIs for remoting, messaging and data management.
For ColdFusion and the related open-source CFML engines, there are several tools available for writing code. These include Adobe Dreamweaver CS4, the CFEclipse plugin for Eclipse (software) and Adobe CF Builder. One can also use any text editor, such as Notepad++ or TextEdit.
Many tools support the Java programming language. The most popular include Apache Tomcat, GlassFish, JDeveloper and Netbeans, but there are numerous others.
For PHP, the Zend Development Environment provides numerous debugging tools and provides a rich feature-set to make PHP development easier. WebORB Integration Server for PHP can be used to integrate PHP classes and data with any web client. It includes developer productivity tools and APIs for remoting, messaging and data management. Tools such as Hammerkit abstract PHP into a visual programming environment and utilise component-based software methods to accelerate development.
Other tools include Caribou, various browsers, FTP clients, etc. See Category:Web development software.
Frameworks and use
Practicing code reuse and using web application frameworks can greatly improve both productivity and time to market (McConnell 1996:537). Reusing externally developed components can allow an organization to reap the above benefits, while potentially saving money. However, for smaller components, it might be just as easy to develop your own components as it would be to learn new APIs. Also, if a component is essential to the business, an organization might want to control its development.
See also
- Device Independence
- List of Web-based applications
- Web Interoperability
- Web application framework
References
- McConnell, Steve (June 2004). Code Complete, Second Edition. Microsoft Press. p. 960. ISBN 0-7356-1967-0.
- McConnell, Steve (July 2, 1996). Rapid Development. Microsoft Press. p. 680. ISBN 1-55615-900-5.
- Rozanski, Nick; Eóin Woods (April 20, 2005). Software Systems Architecture: Working With Stakeholders Using Viewpoints and Perspectives. Addison-Wesley Professional. p. 576. ISBN 0-321-11229-6.
- Leffingwell, Dean; Don Widrig (May 16, 2003). Managing Software Requirements: A Use Case Approach, Second Edition. Addison-Wesley Professional. p. 544. ISBN 0-321-12247-X.
- Notes
Further reading
- Whittaker, James A.; Mike Andrews (February 2, 2006). How to Break Web Software: Functional and Security Testing of Web Applications and Web Services. Addison-Wesley Professional. p. 240. ISBN 0-321-36944-0.
Source of article : Wikipedia