By using this approach, you can keep the mapping metadata out of your application code.
通过使用此方法,您可以将映射元数据放在应用程序代码外部。
Even creating mapping metadata is not an overly complex task once you've mastered the basics.
一旦你掌握了基本知识,创建映射元数据甚至不是一个过于复杂的任务。
You could modify the mapping metadata file (this tip does not go into details on the mapping metadata file).
您可以修改映射元数据文件(本技巧没有详述映射元数据文件的细节)。
Web services for J2EE (commonly referred to as JSR-109) defines a mapping metadata file which allows you to bypass some of the JAX-RPC mapping rules.
J2EE 的Web服务(通常被称为JSR-109)定义了映射元数据文件,它使您能够绕开某些JAX-RPC 映射规则。
Web services for J2EE (commonly referred to as JSR-109 — see Resources) defines a mapping metadata file which lets you bypass some of the JAX-RPC mapping rules.
针对J2EE的Web服务(一般指jsr- 109——参阅参考资料)定义了映射元数据文件,使您可以回避某些JAX - RPC映射规则。
Hibernate allows you to define a fetching strategy at two locations. One is to declare it in the mapping metadata; the other is to override it in either the HQL or the Criteria.
Hibernate允许在两个地方定义数据抓取策略,一处是在映射元数据中,另一处是在HQL或Criteria中覆盖它。
In this way, mapping of placement groups (and replicas) to storage devices does not rely on any metadata but instead on a pseudo-random mapping function.
这样一来,放置组(以及副本)到存储设备的映射就不用依赖任何元数据,而是依赖一个伪随机的映射函数。
Document definitions can inherit information from other document definitions allowing you to define a complex mapping of XML content to RDF metadata information.
文档定义可以从其它文档继承定义的信息,这允许您定义XML内容到RD f元数据信息的复杂映射。
The metadata model is used to define EPCIS events and their mapping to the underlying database schema.
元数据模型用来定义EPCIS事件以及它们到底层数据库模式的映射。
As I mentioned earlier, you have two ways to define the mapping: metadata (annotations) and a mapping file.
正如前面所述,有两种定义映射的方法:元数据(注释)和映射文件。
In 4ss's XML repository, document definitions allow you to specify a mapping between XML content and RDF metadata.
在4ss的XML资源库中,文档定义允许您指定XML内容和RD f元数据之间的一个映射。
Automatic discovery, mapping, and transformation among diverse metadata sources are critical to improve metadata manageability.
在不同元数据源之间进行自动发现、映射和转换对改进元数据的可管理性都是非常重要。
Listing 5 shows how a whole directory of extension mapping document files can be imported into the Metadata Workbench with a single command.
清单5展示了如何通过一个简单的命令将包含扩展映射文档文件的完整目录导入到MetadataWorkbench。
Instead of creating and maintaining many extension mapping documents in the edit window (Figure 5), you can import them from CSV files into the Metadata Workbench.
与在编辑窗口(见图5)中创建并维护大量扩展映射文档不同的是,您可以将它们从csv文件中导入到MetadataWorkbench。
Create extension mapping documents in the Metadata Workbench by following these steps.
通过以下步骤在MetadataWorkbench中创建扩展映射文档。
Creating, importing, and deleting extension mapping documents are administrative tasks that require an Information Server user with Metadata Workbench administrator access.
创建、导入和删除扩展映射文档属于管理任务,要求InformationServer用户具有MetadataWorkbench管理员访问权。
A Metadata Workbench administrator can import extension mapping documents by doing the following.
MetadataWorkbench管理员可以通过执行下面的步骤导入扩展映射文档。
You can import and delete extension mapping documents through the Metadata Workbench Web interface or from the command-line interface.
可以通过MetadataWorkbenchWeb界面或命令行界面导入和删除扩展映射文档。
Finally, I'll need to use a new assembler to fetch MBeanInfo metadata from my mapping files.
最后,还需要用一个新的装配器从映射文件中提取mbeaninfo元数据。
Create the XML metadata for the object-relational mapping.
为对象-关系映射创建XM l元数据。
The metadata indicates the file mapping of the DataNode.
元数据说明DataNode的文件映射。
Metadata Workbench provides an automated way to create extension mapping documents by enabling import of mapping documents from csv files.
MetadataWorkbench提供了一种自动化的方式创建扩展映射文档,即支持从csv文件导入映射文档。
To manually modify mappings in an extended mapping document, a Metadata Workbench administrator can access the edit window for an extended mapping document in one the following ways.
要手动修改扩展映射文档中的映射,MetadataWorkbench管理员可以通过以下任意一种方式访问某个扩展映射文档的编辑窗口。
The metadata-based mapping approach proved to be more time-efficient for the PetStore application.
基于元数据的映射方法证实是PetStore应用程序更加节省时间的方法。
Metadata – Since there is a mapping between logical and physical location, the storage metadata and its management becomes key to a working reliable system.
元数据——由于有着逻辑与物理位置之间的映射关系,因此对于一个运行的可靠系统来说存储元数据的管理显得极为关键。
The article expatiates on a method of establishing heterogeneous data sources to connect the information model and the metadata mapping model by using the XML DTD modeling technique.
本文论述了使用XMLDTD建模技术,分别建立各个异构数据源连接信息模型与元数据映射模型的方法。
The study was focus on the key technologies–the express of mapping schema, Describe and storage with metadata.
对其中的关键技术-映射模式的元数据表示进行了重点研究,用元数据对映射模式进行描述与存储。
And through the development of a simple metadata-driven data mapping tool for understanding metadata for data integration tools of the importance of the development.
并通过开发一个简单的元数据驱动的数据映射工具来说明了元数据对数据集成工具开发的重要性。
Sets the table metadata and default value mapping for the specified data control.
设定所指定资料控制项的资料表中继资料及预设值对应。
Sets the table metadata and default value mapping for the specified data control.
设定所指定资料控制项的资料表中继资料及预设值对应。
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