文件系统的树状结构在每次创建一个新目录时,自动把. .和。目录项捆在一起。
The filesystem's tree structure, tied together with.. and. Entries, is built automatically each time you create a new directory.
在整个目录(树状结构),而不是单个文件中运行合并管理器,会让您意识到,该目录下的所有文件,哪些是添加的,删除的,或者修改的。
Running the merge manager on a whole directory (tree) instead of a single file will make you aware of all files in that directory that have been added, deleted, or modified.
这个作法在逐一查看大型目录树状结构时比较快,尽管处理时间相较于第一个范例可能会根据许多因素而不同。
This approach can be faster when you are iterating over large directory trees, although the processing time compared to the first example can depend on many factors.
这个范例显示如何查询所指定目录树状结构中的所有档案、开启每个档案,然后检查档案的内容。
This example shows how to query over all the files in a specified directory tree, open each file, and inspect its contents.
这类技巧可以用来建立索引,或将目录树状结构内容的索引反转。
This type of technique could be used to create indexes or reverse indexes of the contents of a directory tree.
这项功能的实际用途是可以将不同的视觉化树状结构(装饰项)重叠在控制项呈现透过其样板建立的视觉化树状目录上。
What the feature actually does is to overlay a different visual tree (an adorner) on top of the visual tree as created by a control's rendering through its template.
这项功能的实际用途是可以将不同的视觉化树状结构(装饰项)重叠在控制项呈现透过其样板建立的视觉化树状目录上。
What the feature actually does is to overlay a different visual tree (an adorner) on top of the visual tree as created by a control's rendering through its template.
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