Intelligent detection and adaptation for mixed device - specific and device - independent markup is not supported . for example , note the 混合使用特定于设备的标记和与设备无关的标记时,不支持智能检测和匹配。
When added to a web form , these controls render browser - specific html and script to create a device - independent web user interface 当添加到web窗体时,这些控件将呈现浏览器特定的html和脚本,用以创建与设备无关的web用户界面。
Html forms have been around for a long time , but they don t address the need to create forms in a device - independent manner for mobile devices Html表单已经使用了很长时间,但是它们没有解决需要以与设备无关的方式为移动设备创建表单的问题。
Intelligent detection and adaptation for mixed device - specific and device - independent markup is not supported . example of incorrect mixing in the following incorrect example , the contents of the 混合使用特定于设备的标记和与设备无关的标记时,不支持智能检测和匹配。
Among the capabilities of mobile portal is the ability to convert a form written in xdime , a device - independent markup , into markup suitable for the device issuing the request Mobile portal的功能之一就是能够将用xdime (一种与设备无关的标记)编写的表单转换为适合发出请求的设备的标记。
This paper introduces a device - independent design model having nothing to do with the platform of operating system and individual applications . on the basis of the design philosophy of the components , synchronization system can be divided into sync manger and sync components 本文提出了一个与操作系统平台无关、与具体应用程序无关、底层数据传输与设备无关的设计模型,并且基于组件化的设计思想,将同步系统划分为同步管理器和同步组件。
This paper introduces a device - independent design model that is based on components and has nothing to do with the platform of operating system and individual applications . on the basis of the design philosophy of the components , synchronization system can be divided into sync manger and sync components , each of them works according to uniform interfaces 本文提出了一个基于组件化的、与操作系统平台无关、与具体应用程序无关、底层数据传输与设备无关的设计模型,整个同步系统分为同步服务端组件和同步客户端组件,把不同的功能制作成组件的形式并按照统一的接口实现同步。
The implementation of deltafile 3 . 0 can be divided into two modules ? real - time file system module and manage module for both facilities and drives . the real - time file system contains four parts ? system call api layer , file node manage layer , virtual file system layer , concrete file system layer , which perform the abstraction of the facility 实时文件系统模块包含系统调用api层、文件节点管理层、虚拟文件系统层、具体逻辑文件系统层四部分,主要完成与设备无关的数据存取接口抽象和各种文件系统标准的实现;设备与驱动管理模块包含逻辑设备管理层、物理设备管理层、设备缓冲区高速缓存层、设备驱动管理层四部分,主要完成外部存储设备管理及其驱动接口抽象功能。