Weinre also supports viewing and editing the DOM and CSS styles of the debug target.
Weinre同样也支持调试目标的DOM和CSS查看和修改。
As was mentioned before, each new debug session is represented by a debug target in the debug view.
正如您在前面提到的那样,每一个新的调试过程都由调试视图中的一个调试目标所代表。
Changing the selected debug target in the debug view will switch between sessions and update the remaining views.
在调试视图中更改选择的调试目标,将会在操作之间进行切换,并更新剩余的视图。
A debug session is made active by selecting the debug target, or any of its components (for example, threads, stack frames) in the debug view.
通过选择一个调试目标,或者调试视图中的任意其构件(例如,线程、栈框架),可以激活一个调试操作。
To access the debug target, Weinre ships with a server that is connected to the debug target and relays messages and commands to/from the debugger GUI.
Weinre需要一个服务器来连接到调试目标,并且将消息转发给调试器GUI。
You can easily debug apps in desktop emulators which provide a close representation of the target device.
你可以很容易地在桌面的模拟器中调试应用,这些模拟器提供了与目标设备很相近的表示。
You can debug as many kernel images (which are residing on target machines) as you want to debug; it becomes transparent to users once debugging starts.
您可以调试尽可能多的内核映像(位于目标计算机上),一旦调试开始,它对于用户来说就是透明的。
It is important that you use a null modem cable; if you use a typical serial cable, the target computer expects a serial device and not another serial port, and you cannot debug the computer.
有一点很重要,那就是要使用零调制解调器电缆,如果您使用普通的串行电缆,目标计算机则期望与串行设备通信,而不是与另一个串行端口通信,这样您就无法调试该计算机。
Embedded targets are often resource-constrained, and it can be difficult to allocate resources to debug the application on the target.
嵌入式目标通常都是资源受限的,分配资源以调试目标上的程序可以变得十分困难。
While it would be relatively easy to create a new GDB target for the SPU itself, most users need to debug interaction between PPE and SPE.
虽然为SPU自己创建一个新的GDB目标非常简单,但是大部分用户都需要对PPE和SPE之间的交互进行调试。
Each thread in your program appears as a node in the tree, and the Debug View displays the process for each target you are running.
程序中的每个线程都作为树中的一个节点出现,Debug视图显示正在运行的每个目标的进程。
Target VM acts as debug client
作为调试客户机的目标VM
Target VM ACTS as debug server.
作为调试服务器的目标vm。
Each thread in your program appears as a node in the tree, and the Debug view displays the process for each target you're running.
程序中的每个线程都显示为树中的一个节点,Debug视图显示了每个运行目标的进程。
Copy the link target and the make rule for the executable that you plan to monitor with Quantify, preferably the debug version of both.
为您计划用Quantify来监控的可执行工件复制连接目标和make规则,最好是两者的调试版本。
When equal to true, debug mode only attempts to recreate the target directory structure, but won't copy any documents.
参数值为true时,调试模式只会尝试重新创建目标目录结构,但不会复制任何文档。
Allows you to easily debug or run code coverage on any target tests.
可以轻松对任何目标测试进行调试或执行代码覆盖率测试。
The launch configuration is used to run or debug your plug-ins using the Lotus Sametime V7.5.1 target platform you specified in the previous section.
启动配置用于使用前一节指定的LotusSametimeV7.5.1目标平台运行或调试插件。
Because you need to debug the new kernel.debug image, you have to reboot the target machine with the kernel.debug.
由于需要调试新kernel .debug映像,您必须使用kernel . debug映像重新启动目标计算机。
The architecture of the target monitor in the design consists of four parts: boot procedure of the target machine, generating debug environment, task management and implement of the debug function.
本文设计的引导型目标监控器,主体结构分为四个部分:目标机引导部分、产生监控环境部分、任务管理部分和实现监控功能部分。
After debug, amendment and test, the system realizes the design target. With proper improvement, it can becomes a kind of online sales management system with practical value.
系统通过调试、修改和测试,实现了设计目标,经过适当完善后,可成为具有实用价值的网上销售管理系统。
MULTI is also ideal for debugging Linux applications, utilizing an Ethernet link and a small debug agent running under Linux to communicate with the target system.
多也是理想的调试Linux应用,利用以太网连接和一个小调试代理在Linux下运行的沟通与目标系统。
This thesis talk about millimeter wave (MMW) and LFMCW, its main mission is design and debug hardware of the radar target processor.
本文研究的雷达目标识别器结合了毫米波(MMW)和LFMCW雷达的优点,课题主要完成了对毫米波lfmcw雷达目标识别器的硬件设计和调试。
This thesis talk about millimeter wave (MMW) and LFMCW, its main mission is design and debug hardware of the radar target processor.
本文研究的雷达目标识别器结合了毫米波(MMW)和LFMCW雷达的优点,课题主要完成了对毫米波lfmcw雷达目标识别器的硬件设计和调试。
应用推荐