这个层级较高,是指太极图模式的层级性。
These levels refer to the different levels in the model of Taiji symbol.
将事件和订阅表示成资源描述框架(RDF)图和RDF图模式。
Publication and subscription was represented as resource description framework(RDF) graph and RDF graph patterns.
该系统采用本体来表示事件的概念模型,采用RDF图来表示事件,采用图模式来表示订阅条件。
In this system, the concept model of events is represented as ontologies, the events are represented as RDF graphs, and the subscriptions are represented as graph patterns.
随着对大量结构化数据分析需求的增长,从图集合中挖掘频繁子图模式已经成为数据挖掘领域的研究热点。
With the increasing demand of massive structured data analysis, mining frequent subgraph patterns from graph datasets has been an attention-deserving field.
其中的关键就是模式匹配,如图1 所示。您不需要编写命令,需要编写的是模式。
The key is pattern matching, as in Figure 1. Instead of coding commands, you code patterns.
在图6中,模式作者拥有一个拓扑结构,其中包含定制的节点,但是不包含部署管理器部件。
In Figure 6, the pattern author has a topology that contains custom nodes but no deployment manager part.
已链接的模式模板参数在图31 中高亮显示。
The linked pattern template parameter appears highlighted in Figure 31.
图3.SOA模式及其协作和功能性分解。
FIGURE 3. SOA patterns and their collaborations and functional decomposition.
这时将提示您选择哪种模式来转换模型(图4)。
You will be prompted to select the pattern with which to transform the model (Figure 4).
图4展示了混合架构模式。
图25中的模式显示了使用数据流表示事件的方法。
The pattern in Figure 25 illustrates the approach of using data flow to represent events.
图4中所示的类关系图显示了该模式中涉及的缓存中介的详细结构。
The class diagram, illustrated in Figure 4, shows the detailed structure of the cache mediations involved in the pattern.
图3显示了WS响应模板模式的序列关系图。
Figure 3 shows the sequence diagram for the ws response template pattern.
图7显示了WS响应模板模式的序列关系图。
Figure 7 shows the sequence diagram for the ws response template pattern.
混合运行时模式,如图14 所示,给出了完整合理的运行结构的描述。
The Merged Run-time patterns, shown in Figure 14, give a complete picture of the logical run-time architecture.
图17显示了应用请求端缓存模式后的序列关系图。
Figure 17 shows the sequence diagram after having applied the requester-side caching pattern.
图6显示了WS响应模板模式的类关系图。
Figure 6 shows the class diagram from the WS response template pattern.
至此为止识别过的模式,在图2中予以总结。
Based on the patterns identified so far, we summarize the solution in Figure 2.
图3显示了这些模式如何在社区内发挥作用。
Figure 3 shows how some of these patterns can start to take effect within the community.
图3显示了迭代器模式的类图。
图1显示了适配器模式的类图。
图5显示了委托模式的类图。
图4显示了装饰器模式的类图。
查找包含某个模式的图。
图14显示了应用模式后模型的情况。
Figure 14 shows what the model looks like after applying the pattern.
图5:observer模式中的结构化元素。
如果有的话,那么就可能从uml图自动生成模式,供应商和开放源码工具可以提供这种功能。
If so, automatic generation of schemas from UML diagrams is possible and vendor and open source tools can provide this functionality.
要在配置模式组件页面(图3)上创建一个新模式,请在模式名称字段中指定一个模式名并单击添加。
To create a new pattern, on the Configure pattern Components page (figure 3), specify a pattern name in pattern name field and click Add.
图1说明了模式和反模式之间的区别。
Figure 1 expresses the difference between patterns and antipatterns.
例如,IBM提供了用于电子商务的模式,图4显示了那些模式的示例。
For example, IBM provides the Patterns for e-business, an example of which is shown in Figure 4.
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