- 浏览: 1037910 次
- 性别:
- 来自: 北京
文章分类
最新评论
-
liaozhaijk:
都太较真了。。。其实水平高低能说明什么呢? 印度过CMMI5那 ...
只会SSH成了低薪的代名词? -
xiaofagn:
ffffff
Weblogic 忘了控制台密码怎么办? -
saieuler:
多么想去啊
如何成为一名 Google 软件工程师? -
pudong:
只有大纲吗?
甲方项目管理培训课程大纲 -
dyllove98:
进入页面后眼睛有点花,建议楼主整理一下
重温士兵突击之后 职场风云
VSTS阵营最近发布了VSTS建模策略和FAQ,下面是我的小小读后感,只是草草一读,姑妄言之,姑妄听之
(为方便起见,还是把原文拷贝过来了,中间有少许点评,最后有小结 ;))
Visual Studio 2005 Team System Modeling Strategy and FAQ
May 2005
Applies to:
Microsoft Visual Studio 2005 Team System
Summary: Customers and partners are keen to understand Microsoft's strategy for model-driven development and its support in Visual Studio Team System. When we explain our strategy to them, they frequently express interest in some of the same topics, and raise some of the same concerns. In this document we set out our strategy for model-driven development as a series of questions and responses that address these topics and concerns. The first five questions deal with the main pillars of our strategy, which we have described with detailed answers and explanations. Other frequently asked questions are gathered in a conventional FAQ in the last section. (15 printed pages)
Contents
Why Modeling?
How Are DSLs Used in Model-Driven Development?
What About UML?
What About MDA?
What Are Software Factories?
Other Frequently Asked Questions
Customers have told us that many of the CASE tools they bought in the '80s and early '90s did not add sufficient value to the development process. Benefits by which they were sold failed to materialize, and even good products were swamped by the over-hyping of the promise of the technology.
If the models they supported did not reflect the code and other implementation artifacts, they quickly became irrelevant. If the models they supported were used to generate code, they typically got out of sync once the developers added other code around the generated code. Even products that did a good job of "round tripping" the generated code, eventually overwhelmed developers with the complexity of solving this problem. Often these problems were exacerbated because CASE tools tried to operate at too high a level of abstraction relative to the implementation platform beneath. This forced them to generate large amounts of code, making it even harder to solve the problems caused by mixing hand-written and generated code.
点评:对传统CASE工具结合较高层次模型和实现代码的方式提出了质疑。
Despite these issues, there is a belief among those involved in software development that somehow, modeling can be applied to make their lives easier. Our vision is to change the way developers perceive the value of modeling. To shift their perception that modeling is a marginally useful activity that precedes real development, to recognition that modeling is an important mainstream development task and not an activity primarily focused on documentation. When models are regarded as first-class development artifacts, developers write less conventional code since more powerful application abstractions can be employed. Model-driven development is thus inherently more productive and agile. Moreover, others involved in development, from business analysts, architects, designers to network staff, and system management specialists, will perceive modeling as adding value to the tasks for which they are responsible. When models span development and run-time activities in this way, communication between people can be optimized, and traceability enabled across the life cycle in any direction. We hold that making modeling mainstream in this way can ultimately change the economics of software development and ensure software systems meet the needs of a business. This approach to model-driven development is part of an initiative at Microsoft called Software Factories.
点评:反对先建模、后编码,而是应该建模和编码同时开展。
点评:模型是开发中的first-class开发工件,贯穿整个开发生命周期,联系不同stakeholder……这些都和MDA并无而异,但微软把它叫做软件工厂。
NoteSoftware Factories are described in depth in the book "Software Factories: Assembling Applications with Patterns, Models, Frameworks and Tools" by Jack Greenfield and Keith Short, with Steve Cook and Stuart Kent.
How Are DSLs Used in Model-Driven Development?
Microsoft has learned from past industry experiences, and plans to avoid the pitfalls of CASE by adopting an approach to model-driven development based on the following ideas:
· A model should be a first-class artifact in a project—not just a piece of documentation waiting to become outdated. Models have a precise syntax, are often best edited and viewed using a graphical tool, and embody semantics that determine how domain-specific concepts in models map to other implementation artifacts, such as code, project structures, and configuration files. In this way, a model is a lot like a source code file, and the mechanisms that synchronize it with other implementation artifacts are a lot like compilers.
· A model represents a set of abstractions that support a developer in a well-defined aspect of development. For example, consider the task of producing a service-oriented application that connects components using Web services. Given all the other tasks a developer must focus on to build such an application, there should be a time where he can just focus on defining overall application connectivity in terms of service contracts and the messages they interchange. The Visual Studio Team Edition for Software Architects' Application Designer supports exactly that aspect of development, and manages the relationships between an application connectivity model and all of the other artifacts (WSDL files, project file, code file, configuration files, etc.) that must be developed to implement the interconnections defined by the model. Models designed to be used as source artifacts in this way have the added benefit of providing a holistic view of otherwise scattered details, and can streamline communication between different groups involved in designing, building, and deploying complex modern applications.
· Since models can abstract and aggregate information from a number of artifacts, they can more readily support consistency checks and other forms of analysis. For example, an application connectivity model might support contract protocol validation, security analysis, or performance analysis.
· Models can be implemented by a process similar to compilation, where the code, configuration files, and other implementation artifacts generated by the compiler are never edited by hand. More often, however, they are implemented by a combination of generated and hand-edited artifacts. In such cases, it is critically important to carefully manage the way the generated and hand-edited artifacts fit together. As mentioned above, the failure to do this effectively was one of the primary shortcomings of CASE products. We have been using several techniques to ensure that generated and hand-edited artifacts are kept separate, and that code added by a developer is never disturbed when boilerplate code required by a tool is generated. These techniques include the use of class delegation and inheritance, and particularly the use of "partial classes," a new feature of the .NET languages in Visual Studio 2005, which has been specifically defined with this task in mind.
点评:对模型的操作直接操作在模型上,而不是对模型生成的代码等进行操作,这样避免了模型和代码不同步的问题。微软用了几种技术来分离模型生成的代码和手工书写的代码。这些技术包括class delegation and inheritance,以及"partial classes"的使用,后者是Visual Studio 2005中.NET语言的一种新功能。
We call modeling languages defined in these ways Domain Specific Languages or DSLs. Think of a DSL as a small, highly focused language for solving some clearly identifiable problem that an analyst, architect, developer, tester, or system administrator must wrestle with. Developers are already familiar with examples of DSLs; SQL for data manipulation, XSD for XML document structure definition, and so on. Another example from Visual Studio Team Edition for Software Architects is a DSL for modeling the logical structure of datacenter hardware and host software configurations. This DSL and its related graphical designer can be used to validate during design time that applications are configured to match their intended deployment targets, alerting the developer to problems when they can be fixed more cheaply.
点评:看不出DSL和MDA中的M2层元模型有什么区别,除了不遵守MOF规范。Btw,目前MOF规范也没有表现出多大的让其他语言遵守的说服力和吸引力,其优越性很大程度停留在理论上,而缺乏更清晰的有示范性说服力的工具支持,这也许是OMG作为一个标准化组织,在面对微软这样一个直接面对市场的竞争对手时,所表现出来的先天弱势?
Good ways to find candidate DSLs are to identify the patterns used by developers, and then to encapsulate them into a modeling language, or to surface the concepts in a software framework as abstractions in a modeling language that can then generate small amounts of code that extend the framework. These techniques allow us to control the amount and complexity of generated code, offering real value to the developers, without the hassles that characterized CASE products.
点评:恩,DSL也罢,pattern也罢,都是重用的手段。
Microsoft recently announced the DSL Tools, which will enable customers and partners to build DSLs using the same technology in Visual Studio 2005 that we used to build the modeling tools that will ship with Visual Studio Team Edition for Software Architects. This technology, which can be thought of as "tools to build tools," simplifies the task of defining DSLs and reduces the effort and skills required to build graphical editors and compilers for them.
点评:微软的DSL工具真正好用吗?没用过,真该用用看如何 。
Many people who read our views on model-driven development assume that our emphasis on DSLs somehow has put us into an anti-UML position. We want to make it clear that this is not true. Before UML, there was an unproductive diversity of modeling approaches, and their convergence into UML 1.0 was a significant step forward in using models in software development.
But for whatever reasons, the existence of UML and UML-based tools has not significantly changed the way developers build applications. Nor has it significantly contributed to developer productivity. Since Microsoft ships one of the most-used UML tools—a Visio based tool that first shipped with Visual Studio Enterprise Architect - we anonymously survey developers (not just our customers) on tool usage. We have discovered that it's a very small population who claim to use UML tools in support of their tasks, and most usage clusters around class diagrams. When we drill into those who claim to use class diagrams, it's a tiny fraction that actually uses them to generate code.
This was one of the driving forces behind the model-driven development tools in Visual Studio Team Edition for Software Architects. We really wanted to take tasks that developers and architects find difficult, and figure out ways that modeling tools could add value and help them. We are enthusiastic supporters of UML notation and diagrams. A walk around the developers' offices in any corridor at Microsoft reveals whiteboards covered with UML class diagrams and sequence diagrams. We use UML notation in specification documents and in many other diagrams prepared for presentations and sketched on napkins in the cafeteria. To support the need for our customers to produce documentation and conceptual sketches we'll continue to ship the UML toolset with Visual Studio 2005. In fact, at Microsoft generally, we use UML for many purposes such as documentation or sharing of conceptual ideas, but almost never for any purpose where those documents are actual software development artifacts.
Those same whiteboards in offices and corridors are also covered with scrawled code. But again, these are sketches. They are rarely point-perfect compilable program source. That's a key difference for developers. Any artifact that contributes to actual software development must be capable of manipulation digitally. Source code has a well-defined syntax, a comprehensible semantics - often defined behaviorally by the compiler's transformation of it to lower level code or IL - and can be manipulated consistently by compilers, debuggers, and refactoring programs, to name but a few. To be useful to developers, a model must have the same status as source code. It too must have a precise syntax, a comprehensible semantics, and well-defined mappings to source code or other well-defined models. It must be more than just documentation.
点评:这不是Martin所说的UMLasSketch吗?本来MDA的目的也是要让UML(准确地说,不仅是UML,而是元模型)不仅成为开发中的文档。同样也是要增强UML的语义表达能力阿。
Take the Visual Studio Team Edition for Software Architects' Application Designer, for example. It's not just documentation, although it can serve that purpose. Rather it allows a developer (or architect) to focus on one aspect of her system; the connectivity between services in a service-based architecture. She can design this aspect of the system before building projects, WSDL files, code and schemas, or ask the tool to document connectivity between services if those artifacts already exist. Since connectivity information is scattered throughout many development artifacts, the holistic view such a diagram gives is fundamentally useful even though all the information it conveys could be deduced by careful scrutiny of the implementation artifacts. Application Designer has a well-defined syntax (its DSL metamodel), and predictable, always-synchronized mappings to the various implementation artifacts. The underlying designer framework plays the role of a compiler for Application Designer diagrams, much like the role played by a traditional compiler with respect to source code files.
But why couldn't we have just built this new "language" of service connectivity as an extension to UML—especially with the improvements made to UML 2.0?
Well, when we looked at the direction the UML 2.0 specification had taken, we realized that there were several reasons it still could not be the basis for anything more than documentation. The UML 2.0 specification has added complexity to the standard with yet more intertwined sublanguages, but it still does not address critical issues for modern application development, such as database design, testing, deployment, service orientation, component-based development, and user interface construction, in a natural way. Since no natural sublanguage of UML fits the requirements for service connectivity, we would have had to resort to describing our Application Design DSL using stereotypes and tags on an existing UML sub-language. This would have led to an overly complicated model within what has been described by many in the industry as an already bloated and complex specification. Using standard UML notation, in which an existing shape corresponding to whatever sublanguage we had extended is reused, would have compromised the readability and clarity of the diagrams. Lastly, we would have been dogged by the lack of precision in the specification in key areas, and the mismatch of type-systems inherent in UML compared to the .Net and XML languages.
点评:UML的这些缺点确实是有,这不奇怪阿。不过“软件工厂”能规避这些吗?
For these reasons, we elected to define the Application Design DSL using a purpose-built metamodel, itself defined as a member of a family of related metamodels. This gives us a natural and precise foundation for service connectivity, and a high-fidelity mapping to the underlying implementation artifacts which includes, of course, some amount of code. This is the same conclusion we have reached on other focused development tasks, and led to similar DSLs for the Class Designer and the Logical Data Center Designer described in other whitepapers. Support for extensible DSLs, built as a family, with well-defined mappings between them and other development artifacts has thus become the basis of Microsoft's model-driven development strategy.
To summarize, we would recommend using UML and UML-based tools for:
· Sketching.
· White boarding.
· Napkins.
· Documentation.
· Conceptual drawings that do not directly relate to code.
We would recommend precisely defined DSLs and DSL-based tools for:
· Precise abstractions from which code is generated.
· Precise abstractions that map to variation points in frameworks and components.
· Precise mappings between DSLs.
· Conceptual drawings that have precisely specifiable mappings to other DSLs or to code artifacts.
We would recommend neither of the above for visual programming of detailed program logic (or at least not for many years yet).
点评:UML当然可以作上面那些用途,但UML2.0和MDA面向的也包括下面这些用途。微软可以参与到OMG中去推动它,也可以另起炉灶。作为一个以盈利为第一目的的公司,微软选择后者是毫不奇怪的事情,我佩服的是,好家伙,绉出这么多唬人的“道道”出来,呵呵。
What About MDA?
MDA is a brand licensed to the OMG that is based on using UML for model-driven development. It places a strong emphasis on platform independent models and generative techniques. According to the OMG FAQ,
"MDA is a new way of writing specifications and developing applications, based on a platform-independent model (PIM). A complete MDA specification consists of a definitive platform independent base UML model, plus one or more platform-specific models (PSM) and interface definition sets, each describing how the base model is implemented on a different middleware platform. A complete MDA application consists of a definitive PIM, plus one or more PSMs and complete implementations, one for each platform that the application developer decides to support."
MDA, as defined by the OMG, addresses only a small subset of what we believe are the real issues that must be addressed to enable effective model-driven development. An effective model-driven development methodology must address pragmatic questions, such as:
· What types of systems can be developed? Since there are very real differences between different systems, a model-driven development methodology must recognize these differences. To be effective, it should start by describing the problem to be solved, and then identify specific technologies that can be used to solve it, showing where each technology fits in the solution, and how the various technologies work together to provide the solution.
· What is the architecture of a given type of system? The answer to this question deals not only with the technologies that can be used, but also with identifying the characteristics of those technologies that are important to the design of each part of the system, and with configuring each use of each technology. This is the subject of software architecture, which is widely recognized as one of the most important disciplines in the software life cycle. A software architecture defines the high-level design decisions that give a system its structure and that determine its quality attributes. Since models are primarily used to describe the architecturally significant parts of a system, they should be closely integrated with the development of the software architecture.
· What should be modeled for a given type of system? Since different systems can have very different architectures, no single set of models can describe all possible systems effectively. The answer to this question will therefore vary for different types of systems. In our opinion, a single PIM and a single PSM per target platform, all developed using a general purpose modeling language, as prescribed by MDA, are insufficient to support the significantly greater levels of automation promised by model-driven development. Rich automation of the software life cycle requires many additional types of models, such as models that:
点评:MDA中提供PIM建模的M2层元模型并不是a general purpose modeling language,它甚至是可以为一个项目所定义的,和DSL并不存在粒度上的差别。关键是微软怀疑PIM和PSM是否足够支持自动化的映射。说到底,微软对MDA实现从PIM到PSM转换的技术能力表示怀疑。
· Capture, analyze, and manage requirements; identifying trace relationships between requirements, architectural design and implementation constructs, enabling validation that requirements have been implemented, and supporting impact analysis when requirements change.
· Define software architecture in a way that supports security, performance and reliability analysis, and other forms of evaluation; and in a way that enables predictable assembly of systems from components, and efficient and reversible step-by-step transformations from requirements and deployment,
· Define how the executable components of a system are packaged, identifying the types of resources in the deployment environment required by each component, and binding the components to specific instances of those resource types,
· Define test cases, test data sets, test harnesses, and other artifacts, making it easier to evaluate the quality of software developed using models, and to manage and display the test results
· Identify traceability relationships between models and other artifacts, making it easier to support business impact analysis when systems go down, configure systems to satisfy requirements, and enforce constraints during system configuration,
· Define configurations of source artifacts used to build executables, making it easier to version those configurations, and to associate defect reports and feature change requests with specific versions.
· How should model-driven techniques be integrated with code-focused development techniques? Models should be used to assist developers with implementation tasks, such as querying and navigating the code base, debugging, profiling, coverage analysis, pattern application and refactoring, and should be tightly integrated into file-oriented development environments.
Also, for reasons stated above, the emphasis on using the published UML metamodel is problematic for us. Lastly, while the emphasis on platform independence is a concern for some customers, we hear more about their need for productivity, predictability, security, governance, and effective ways to deploy and manage applications. We do, however, agree with the focus in MDA on the use of models to build applications, and on the importance of well-defined mappings between models, and we recognize the value that models can provide for building applications that span heterogeneous platforms with interoperating components.
Some organizations pursuing model-driven development accept a wider interpretation of the term MDA than the interpretation prescribed by the OMG; indeed, as we've described, they must do so in order to succeed. The use of any of the OMG's specifications to drive model-driven development is typically marketed as MDA, whether or not it involves PIMs and PSMs. Some organizations, for example, see the OMG's MOF specification as key to MDA. This view relies on new modeling languages defined using MOF, not the modeling languages that are predefined in UML, and is effectively similar to our approach. We will support interchange with popular UML and MOF tools on other platforms, either via XMI or native formats, to help customers who are using them succeed with model-driven development.
点评:还是一个问题:为什么不可以基于MOF来定义微软的各种DSL呢?除了商业原因之外。
As we said above, our approach to model–driven development is part of an initiative at Microsoft called Software Factories. Instead of taking a generic, one-size-fits-all approach, Software Factories use custom collections of DSLs to provide sets of abstractions customized to meet the needs of specific families of systems like ecommerce, financial arbitrage, or home banking applications. With Software Factories, models are used not only for analysis and design, but to support many varied types of computation across the entire software life cycle—even at run time. This is a fundamental principle of Software Factories, and also of Microsoft's Dynamic Systems Initiative (DSI), which implements and complements the Software Factories Initiative.
You might think of Software Factories as encompassing and extending MDA, where MDA is defined in a broader sense than the official definition based on PIMs and PSMs. Software Factories go beyond generic platform independent and specific models to address the additional issues described in the preceding section.
点评:微软提供的是一种MDA的实现方式,但又不使用MDA的核心标准:UML和MOF。
ASoftware Factory defines a tailored methodology for a specific family of systems using a graph of viewpoints. Each viewpoint defines some aspect of the life cycle for members of the system family, such as requirements capture, database design, or service contract definition. The factory associates reusable assets with each viewpoint, and delivers them in the context of that viewpoint to the team's development members of the system family, eliminating the need to search for applicable assets, enabling validation, and supporting manual and automatic guidance enactment.
The graph of viewpoints, called a software factory schema, relates work done at one level of abstraction, in one part of the system, or in one phase of the life cycle, to work done at other levels, or in other parts and phases. It can be used to fully or partially generate artifacts, including models, source code, configuration files, and so on; from other artifacts, especially from models; to keep artifacts synchronized during development; to validate hand developed artifacts; to assess the impact of defects or changes in requirements; to organize and apply patterns and other best practices; to capture metadata during system development to support system operation and maintenance; and to provide other forms of guidance and governance.
Software Factories automate the packaging and delivery of the reusable assets, including models and model-driven tools, other types of tools, such as wizards, templates and utilities, development processes, implementation components, such as class libraries, frameworks and services, and content assets, such as patterns, style sheets, help files, configuration files, and documentation. Since the software factory schema is a model, factories can be manipulated using tools. Larger factories can be created by combining smaller ones and specialized factories by customizing generic ones.
Building a factory is a lot like building a framework. It involves harvesting and implementing patterns and other best practices to make them easy for developers to apply. Using a factory is more efficient than building systems by hand from scratch because instead of scanning through catalogs and repositories, hoping to find reusable components, developers using a factory have reusable components appropriate for each aspect of the system under development immediately available in the context of the system architecture and development process.
Of course, the Software Factories Initiative is not just about Microsoft and the products we provide. Instead, we see factories as the basis of a broad ecosystem in which our customers and partners participate, building custom factories on top of foundations we supply, and supplying factory components to other members of the ecosystem.
点评:在构建一个工具开发的生态环境方面,中立、开放的框架和标准更有说服力。如果软件工厂大获成功,在这个新的工具市场上的生存者无疑是必须依存于微软的。
Customer and partner reaction to the Software Factories Initiative is very positive. We recommend Software Factories as the best direction for modern organizations wishing to improve their development approach inline with business expectations, and we are delivering Visual Studio Team Edition for Software Architects, the DSL Tools, and other new features in VSTS as initial products in the Software Factories Initiative.
For more information, see Software Factories Workbench.
Other Frequently Asked Questions
General
What support for model-driven development is provided in Visual Studio 2005?
Visual Studio 2005 contains a powerful new modeling framework which powers the Visual Studio 2005 Class Designer and the Distributed System Designers in Visual Studio 2005 Team System. Over time, we will expose the underlying modeling platform to end-users to enable others to create rich model-driven development tools. Microsoft's DSL Tools are a first step towards this goal.
The Visual Studio 2005 Class Designer is a developer productivity enhancement which lets you visualize the structure of classes and their relationships, create new classes using a visual design environment, and easily refactor classes. Class Designer treats .NET-specific constructs such as partial classes and generics as first-class citizens, enabling you to model .NET applications with high-fidelity. By remaining in continuous sync with the code, Class Designer provides the developer with a visual representation of his/her code at all times. For more information, see Visual Studio 2005 Class Designer.
Visual Studio 2005 Team Edition for Software Architects includes the Distributed System Designers which target the design of service-oriented applications, specifically those relying on ASMX-based Web services.
The Distributed System Designers consist of four designers:
· Application Designer—allows developers and architects to define applications that will be configured into systems for deployment.
· Logical Datacenter Designer—used to create diagrams of interconnected hosts that represent the logical structure of a datacenter for the purpose of communicating important information to the developer about the target deployment environment.
· System Designer—used to compose applications into systems.
· Deployment Designer—used to bind applications within a system to logical servers (application hosts) modeled in the Logical Datacenter Designer.
Application architects can visualize their service-oriented applications and developers can work with the generated code while keeping the code changes synchronized with the visual design. Infrastructure architects can create logical abstractions of their datacenter and validate it against the constraints of the application/datacenter designed by the application architect prior to actual deployment. Reports generated from this validation help to document the deployment mapping.
For customers requiring traditional Object-Oriented Analysis and Design (OOA&D) tools, we continue to provide support for Visio for Enterprise Architects as part of Visual Studio 2005 Team System. Visio for Enterprise Architects provides a complete drawing, diagramming, code-generation, and reverse-engineering solution for those customers desiring traditional UML modeling tools. A number of third-party providers will also deliver UML tools integrated into Visual Studio 2005.
What functionality is provided by Visio for <city w:st="on"><place w:st="on">Enterprise</place></city> Architects?
Using Microsoft Visio for Enterprise Architects, users can create and communicate application architecture, business requirements, database design, and business processes. Architects using Microsoft Visual C++ .NET, Microsoft Visual Basic .NET, or Microsoft Visual C# .NET can use Unified Modeling Language (UML) 1.3 models to specify application architecture and functionality, reduce development time by directly generating classes, functions, and methods, and document existing application code by reverse-engineering projects. Visio for Enterprise Architects enables developers to create architectural designs and models that they can share with the rest of their team.
Visio for Enterprise Architects provides end-to-end support for database modeling, including conceptual, logical, and physical views. Business analysts can easily enter business rules using the Fact Editor, which in turn generates an underlying database model that can be refined by a database analyst. Roundtrip engineering guarantees that changes made at any of the views will be reflected throughout, improving communication across the development team.
What version of UML does Visual Studio Team System support?
Visio for Enterprise Architects supports the UML 1.3 language specification.
Does Microsoft continue to believe in the value of UML modeling tools? If so, why isn't Microsoft supporting UML 2.0?
Yes, absolutely. We believe that UML continues to have its place in the early stages of the software development life cycle and we are continuing to support a number of partners who will deliver UML 2.0 tools for Visual Studio 2005. Our own domain-specific designers will also support UML notational conventions where they make sense.
From Microsoft, you will see a number of new designers that treat models as first-class citizens and that can be used to truly drive development, not just to create documentation. The Distributed System Designers in Visual Studio 2005 Team Edition for Software Architects are the first example of this type of tool.
Is Microsoft trying to ignore the UML standard and lock customers into their own modeling language?
No. The UML standard is a weak one, and for this reason, most UML tools are unable to seamlessly interoperate. While we recognize the value of UML for documentation and for understanding software design, domain specific languages will enable you to work at higher levels of abstraction, and to focus with precision on issues relevant to specific domains.
Over time, Microsoft will provide additional domain-specific modeling tools, and we will continue to work with our partners to bring UML tools to Visual Studio 2005 that are built on top of our modeling framework.
Can I import my existing UML diagrams into Visual Studio Team System?
Most of the popular UML-based class design tools use idiosyncratic variants of XMI to export and import information that reflect their implementations of the UML standards. We are not committing to producing a custom XMI import/export tool for every one of these tools. It is possible to logically "import" existing UML class diagrams by first generating code from the diagrams and viewing that code via Class Designer.
Does Visual Studio Team System support behavioral modeling and Use Case diagrams?
Yes, behavioral modeling and Use Case diagrams with code generation and reverse engineering are supported via Visio for Enterprise Architects, which is included with Visual Studio Team System. Visual Studio Team Edition for Software Architects, however, does not natively support these diagram types. Custom diagram types can also be created on top of the powerful Visual Studio 2005 modeling framework using the recently released Microsoft Tools for Domain Specific Languages.
Microsoft Tools for Domain Specific Languages
What are domain-specific languages?
A domain-specific language (DSL) is a language designed to be useful for a specific task in a fixed problem domain, in contrast to a general-purpose language. DSLs are gaining popularity in the field of software engineering to enhance productivity, maintainability, and reusability of software artifacts, and enable expression and validation of concepts at the level of abstraction of the problem domain.
Using domain-specific languages, one can build customized modeling tools and essentially define a new modeling language and implement it very simply. For example, a specialized language may be used to describe a user interface, a business process, a database, or the flow of information, and then used to generate code from those descriptions.
Visual Studio 2005 Team Edition for Software Architects includes several high-quality visual designers, based on domain-specific languages, for the design of distributed systems and the validation of those systems with a logical datacenter.
What are Microsoft's Tools for Domain Specific Languages?
Microsoft's Tools for Domain Specific Languages allow you to describe the concepts relevant to a specific problem domain and serve as the basis for creating custom visual designers in Visual Studio 2005. They allow you to build your own custom designers on top of the same infrastructure that powers the Visual Studio Team System Distributed System Designers (Visual Studio 2005 Team System: Designing Distributed Systems for Deployment) and Class Designer (Visual Studio 2005 Class Designer), and are central to eventually realizing the vision of Software Factories. These tools and a corresponding walkthroughs can be found in the DSL Tools workbench in the Visual Studio Team System workshop.
Which Visual Studio products will support Microsoft's DSL tools?
DSL authoring will be supported in Visual Studio Professional Edition and above. DSL consumption will be supported in Visual Studio Standard Edition and above.
What types of designers can be built using the recently released DSL tools?
相关推荐
微软在《Visual Studio Team System 建模策略与 FAQ》中阐述了模型驱动开发的核心理念及其在Visual Studio Team System (VSTS)中的应用。 **历史背景**:上世纪80年代至90年代初,许多案例研究工具未能达到预期的...
外接程序(MDA,Managed Add-in)是微软Office应用程序如Word、Excel和Outlook等支持的一种扩展机制,允许开发者创建可插入到Office应用中的独立组件。这些组件能够增强或自定义Office应用的功能,使用户能够执行...
MDA是一种基于统一建模语言(Unified Modeling Language,简称UML)和其他行业标准的软件开发方法论。它强调在不依赖特定硬件、操作系统或中间件的情况下,根据业务逻辑和数据构建系统。MDA的核心在于创建机器可读的...
- Visual Studio 2005 Team System(尤其是Software Architect版本)支持UML建模,包括但不限于类图、序列图、用例图等。 - 支持特定领域语言(DSLs)和模型驱动开发(MDA)的概念,以实现更高级别的抽象和自动化...
MDA(Model Driven Architecture)和UML(Unified Modeling Language)是软件开发中两种重要的建模工具和技术。MDA是一种架构驱动的建模方法,它将业务模型与平台无关模型(PIM)和平台相关模型(PSM)相结合,帮助...
MDA(Model Driven Architecture)模型驱动架构,是由OMG(Object Management Group)提出的一种软件设计和实现的方法论。MDA旨在将系统的设计与实现分离,通过使用模型和元模型来描述系统的各个层面,从而提高软件...
MDA Distilled is an accessible introduction to the MDA standard and its tools and technologies. The book describes the fundamental features of MDA, how they fit together, and how you can use them in ...
本文档详细介绍了UML支持MDA开发的相关知识点,包括技术实践、管理和运营实践、UML建模工具开发实践等内容。通过对这些内容的学习和理解,可以帮助开发人员更好地掌握UML和MDA的核心技术和方法论,从而提升软件开发...
MDA是由OMG组织提出的一种软件开发方法,其核心是通过使用统一建模语言(UML)和其他建模工具来促进软件的可重用性和可维护性。相比之下,DSL则是一种专注于解决特定领域问题的语言,如WebML专注于Web应用程序的设计...
- 微软Visual Studio .Net试图垄断未来的Windows开发市场,其他IDE厂商则强调其跨平台能力作为回应。 - IBM通过Eclipse开源IDE的推出展示了其在软件开发领域的领导地位。 - MDA的快速崛起,相关产品和服务的出现...
### MDA驱动的多智能体系统开发方法 #### 摘要与背景介绍 随着信息技术的发展,多智能体系统(Multi-Agent Systems, MAS)已成为构建复杂、大规模系统的关键技术之一。MAS的应用范围广泛,包括数字图书馆、虚拟...
模型驱动架构(Model Driven Architecture, MDA)是一种软件开发方法,它强调使用模型作为软件开发的核心,并通过一系列转换过程将高层的抽象模型转化为具体的平台实现。MDA旨在提高软件开发的效率,可重用性,并...
3. MDA工具:讨论支持MDA的工具链,如UML建模工具,以及如何使用这些工具来创建和管理模型。 4. 模型转换:深入探讨模型转换的概念,包括何时、为什么以及如何进行转换,以及常见的转换技术,如XSLT和QVT。 5. 实战...
MDA(Model Driven Architecture,模型驱动架构)是一种软件开发方法论,旨在通过将软件开发过程中的核心元素——模型——提升到主导地位,提高软件工程的效率和质量。MDA由OMG(Object Management Group)制定,其...