The export your UML to ActionScript 3.0 through the StarUML Generator dialog. Once you've installed the necessary template files, you access With these files in place, StarUML will be able to recognize the ActionScriptģ.0 export as a valid export option no restart is required. This should result in the following file locations:Ĭ:\Program Files\StarUML\modules\staruml-generator\templates\ActionScript t, the template script used to generate the source code. The ActionScript 3.0 folder contains two files: template description.tdf,Ī description file providing basic information specific to the export, and Which with a standard Windows installation would be:Ĭ:\Program Files\StarUML\modules\staruml-generator\templates Download ActionScript 3.0 Export Template.Using the ActionScript 3.0 Export Installation Source code using a custom export script. The use of StarUML to export UML class diagrams to ActionScript 3.0 Script is required to supply that functionality. StarUML can export to a number of different programming languages out of theīox but does not support ActionScript natively. Support an export to a programming language's source code. Once you have that defined, implementation becomesĪ lot simpler and smoother to incorporate. There are many different kinds of diagrams that UML support, but our focusĬlass diagrams represent the structure of a collection of classes by showingīoth how they're defined (inheritance hierarchy) and how they relate to oneīy creating a class diagram before you even begin writing a single line ofĬode, you can place focus on one of the more important aspects of an application, Used for creating diagrams related to application design. To model the hardware details of a distributed application.Using StarUML to Generate ActionScript 3.0 To model the hardware details for a client/server system. To model the hardware topology of a system. Hence, it is very important to design the hardware components efficiently. Software applications can be standalone, web-based, distributed, mainframe-based and many more. Now-a-days software applications are very complex in nature. To meet these types of requirements, hardware components should be designed efficiently and in a cost-effective way. Business requirements can be described as the need to support the increasing number of users, Efficient software applications are not sufficient to meet the business requirements. Software applications are developed to model complex business processes. These diagrams are used to describe the physical components (hardware), their distribution, and association.ĭeployment diagrams can be visualized as the hardware components/nodes on which the software components reside. Where to Use Deployment Diagrams?ĭeployment diagrams are mainly used by system engineers. The following deployment diagram has been drawn considering all the points mentioned above. The control flows from the caching server to the clustered environment. The user connects to the application using the Internet. The application is assumed to be a web-based application, which is deployed in a clusteredĮnvironment using server 1, server 2, and server 3. An efficient deployment diagram is very important as it controls the following parameters −īefore drawing a deployment diagram, the following artifacts should be identified −įollowing is a sample deployment diagram to provide an idea of the deployment view of order management system. Nodes are nothing but physicalĭeployment diagrams are useful for system engineers. It is related to the component diagram because the components are deployed using the deployment diagrams. Visualize the hardware topology of a system.ĭescribe the hardware components used to deploy software components.ĭeployment diagram represents the deployment view of a system. The purpose of deployment diagrams can be described as − Deployment diagrams are used by the system engineers. Most of the UML diagrams are used to handle logical components but deployment diagrams are made to focus on the hardware topology of a system. However, these two diagrams are special diagrams used to focus on software and hardware components. UML is mainly designed to focus on the software artifacts of a system. Component diagrams and deployment diagrams are closely related.Ĭomponent diagrams are used to describe the components and deployment diagrams shows how they are deployed in hardware. Deployment diagrams are used for describing the hardware components, where software components are deployed. The term Deployment itself describes the purpose of the diagram. Deployment diagrams consist of nodes and their relationships. Deployment diagrams are used to visualize the topology of the physical components of a system, where the software components are deployed.ĭeployment diagrams are used to describe the static deployment view of a system.
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