This script package is required on the second and third parts in the pattern (Figure 7).
模式中的第二个和第三个部件上需要这个脚本包(图7)。
A panel will display that asks for information about the new pattern you are creating (Figure 19).
将显示一个面板,要求您提供有关正在创建的新模式的信息(图19)。
We propose the representation pattern shown in Figure 5 to enable the visualisation of process variability.
我们提议使用如图5所示的表示模式来实现流程变化的可视化。
The key is pattern matching, as in Figure 1. Instead of coding commands, you code patterns.
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 pattern in Figure 28 summarizes our discussion and recommends that you rejoin parallel branches before adding a stop node to terminate the process.
图28中的模式总结了我们的讨论和意见,提出在添加一个用来终止流程的终止节点之前,应重新联接并行的分支。
The linked pattern template parameter appears highlighted in Figure 31.
已链接的模式模板参数在图 31 中高亮显示。
The pattern in Figure 31 shows correctly matching process output interfaces and a correctly placed stop node that does not lead to an unintended global shutdown.
图31中的模式显示了当前正在匹配的流程输出接口和一个被放置在正确位置的停止节点,后者不会导致意外的全局关闭现象。
Figure 1 illustrates how the Observer pattern works.
图1显示了观察者模式的机制。
Figure 4 illustrates the mixed architecture pattern.
图4展示了混合架构模式。
To create a new pattern, on the Configure pattern Components page (figure 3), specify a pattern name in pattern name field and click Add.
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。
The pattern in Figure 25 illustrates the approach of using data flow to represent events.
图25中的模式显示了使用数据流表示事件的方法。
The ESB, however, encorages the use of the asynchronous message bus style interaction pattern illustrated in Figure 4 earlier.
不过,ESB 推荐使用异步消息总线样式的交互模式(如前面的 图4 所示)。
Figure 1 illustrates the TCF architectural pattern.
图1说明了TCF体系结构模式。
Combining the data consolidation pattern with the data event publishing pattern, as shown in Figure 4, further improves the data currency.
将数据整合模式与数据事件发布模式结合起来,如图4中所示,可以进一步地提高数据的传播。
The architectural pattern shown in figure 7 is the most basic in that it enables a simple query for multiple data sets.
图7中显示的架构模式是最基本的,它支持对多个数据集进行简单的查询。
To set properties, click on the properties icon in the upper right corner of each pattern part or script figure.
要设置属性,单击每个模式部件或脚本区域的右上角的属性图标。
In the pattern shown in Figure 2, a link specifies that the enterprise application has a dependency on the database component in the pattern.
在图2所示的模式中,链接指定该企业应用程序依赖于该模式中的数据库组件。
Either the Exposed Router Run-time pattern (Figure 12), or the Exposed Enterprise Service Bus (ESB) pattern (Figure 13), support that requirement (see Resources).
公开路由器运行时模式(图12)或公开企业服务总线(esb)模式(图13)能够满足那种需求(详见参考资料)。
Since it not connected as an output, i.e., it is not used by any subsequent activity, we removed it from the merge in the pattern in Figure 4.
由于它不是作为输出进行连接的(即它没有被任何一个后继活动所使用),我们在图 4的模式中,将它从merge 中移除。
Finally, update the setter and getter tags as shown in bold text in Listing 13, and apply the pattern (Figure 43).
最后,如清单13中的粗体文本所示,对setter和getter标记进行更新,并应用该模式(图43)。
The pattern in Figure 21 shows the second solution by defining several input and output criteria for Task 4 that correctly match the alternative branches.
图21的模式显示了第二种解决方案,它为Task4定义了几个输入和输出条件,这些条件可与可选分支正确匹配。
The pattern in Figure 14 presents the correct way to model parallel branching by using a matching fork-join pair.
图14中的模式展示了使用匹配的 fork-join 对建立并行分支模型的正确方法。
The pattern in Figure 20 shows the first solution, where the minimum multiplicity of item D as input of Task 4 is set to zero.
图20中的模式显示的是第一种解决方案,在其中,项目D被作为Task4的输入,它的最小增殖次数被设置为零。
The pattern in Figure 13 presents the correct way to model alternative branching by using a matching decision-merge pair.
图13中的模式展示了使用匹配的decision - merge对建立可选分支模型的正确方法。
The simulation in Business Modeler 6.0.2 currently shows that two as and two Cs leave the join in the pattern in Figure 13, which causes Task 4 to execute twice.
目前在Business Modeler6.0.2中进行的模拟表明,各有两个a和c离开了图13所示的模式中的join,这使Task4被执行了两次。
Creating and deploying the pattern in Figure 6 requires a few simple drag and drop actions followed by a click of the deploy button.
创建和部署图6中的模式需要几个简单的拖放操作,最后单击Deploy按钮。
This strategy uses the pattern "A" illustrated in Figure 3 - Using Web Services Gateway.
该策略使用了图3(使用Web服务网关)中的模式A。
The directory structure of the Manage Customer application follows the same pattern shown in Figure 4.
ManageCustomer应用程序的目录结构遵循图 4中相同的模式。
After you fill in the required properties, you are ready to save and deploy your pattern. Figure 6 shows an example of the properties view.
填充这些必要属性后,就可以保存和部署您的模式了。
The managed resource pattern employs the following extensions to create the cloud resource pattern (see Figure 4).
托管资源模式使用以下扩展来创建云资源模式(见图4)。
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