这是可以从多个NSF甚至其他表选取数据到查询视图的一种方式。
This is one of the ways we can get data from multiple NSFs, or even other tables, into a Query View.
它以控制器作为Web应用程序中的主要角色,决定流程,委托到其他层并选取视图来呈现,因此它只关心应用程序的流程逻辑。
It puts controllers as the main player in a web application, deciding the flow, delegating to other layers and choosing views to render, hence it only CARES about application flow logic.
要应用一个概要文件,在项目浏览器或图表(如果它是代表在这里)中选取模型(包)并且定位到Profiles标签页在属性视图中,如图17所示。
To apply a profile, select the model (package) in Project Explorer or on a diagram (if it is present there) and navigate to the Profiles TAB in the Properties view, as shown in Figure 17.
当您选取数组的层面时 --我们将会看到,多维数组中的分层方法非常灵活且强大 -- 您得到的不是一个拷贝而是一个“视图”。
When you take slices of arrays -- and we will see that slicing is quite flexible and powerful for multiple dimensions -- what you get is not a copy but a "view."
在该视图中,可以选取表单元素。
在该视图中,可以选取表单元素。
这一章还介绍了地形纹理的生成算法,视图平截头体选取算法,这些算法使得计算机可以用来处理大规模的可视化工作。
With the feather of them, they can be used to developing visualization simulation engine. These algorithms also include the terrain texture generation algorithms and the frustum culling algorithms.
这一章还介绍了地形纹理的生成算法,视图平截头体选取算法,这些算法使得计算机可以用来处理大规模的可视化工作。
With the feather of them, they can be used to developing visualization simulation engine. These algorithms also include the terrain texture generation algorithms and the frustum culling algorithms.
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