A guide to unit testing Java applications (including J2EE applications) using the JUnit framework and its extensions, this book provides techniques for solving real-world problems such as unit testing legacy applications, writing real tests for real objects, automating tests, testing in isolation, and unit testing J2EE and database applications. Using a sample-driven approach, various unit testing strategies are covered, such as how to unit test EJBs, database applications, JSPs, and Taglibs. Also addressed are testing strategies using freely available open source frameworks and tools, and how to unit test in isolation with Mock Objects. Testing J2EE applications by running tests from inside the container for performing integration unit tests is discussed, as is how to automate unit testing in automated builds (such as Ant and Maven) for performing continuous integration.
If you're a Java programmer, you'll be armed with all the critical information you need to get up to speed on this powerful new build tool. In the end, you'll find yourself spending less time working on your project's build system and more time working on your project's code.
If you're a Java programmer, you'll be armed with all the critical information you need to get up to speed on this powerful new build tool. In the end, you'll find yourself spending less time working on your project's build system and more time working on your project's code.
The book provides basic and recent research insights concerning the small scale modeling and simulation of turbulent multi-phase flows. By small scale, it has to be understood that the grid size for the simulation is smaller than most of the physical time and space scales of the problem. Small scale modeling of multi-phase flows is a very popular topic since the capabilities of massively parallel computers allows to go deeper into the comprehension and characterization of realistic flow configurations and at the same time, many environmental and industrial applications are concerned such as nuclear industry, material processing, chemical reactors, engine design, ocean dynamics, pollution and erosion in rivers or on beaches. The work proposes a complete and exhaustive presentation of models and numerical methods devoted to small scale simulation of incompressible turbulent multi-phase flows from specialists of the research community. Attention has also been paid to promote illustrations and applications, multi-phase flows and collaborations with industry. The idea is also to bring together developers and users of different numerical approaches and codes to share their experience in the development and validation of the algorithms and discuss the difficulties and limitations of the different methods and their pros and cons. The focus will be mainly on fixed-grid methods, however adaptive grids will be also partly broached, with the aim to compare and validate the different approaches and models.
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