要做的一件事是寻找一个预测范围很大的数字,看一下当读取高位优先和低位优先时到底是什么情况。
One thing to do is look for a number whose range you can predict broadly, and just see what it comes out as when read both big-endian and little-endian.
而little -endian意味着最低位字节存储在最低地址(按低位优先的顺序存储字)。
Little-endian means that the least significant byte has the lowest address (the word is stored little-end-first).
不幸的是,所使用的Linux发行版并没有提供对应的低位优先库来进行链接,因此就不能对低位优先测试。
Unfortunately, the Linux distribution used doesn't provide corresponding little-endian libraries to link with, so you can't test little-endian code.
这是在POWER 5上可用但是在G5上无法使用的功能之一;理论上来说,您可以为低位优先的用法来构建自己的代码。
This is one of the things that's available on a POWER5 that you can't do on a G5; you could, in theory, build your code for little-endian usage.
但是,如果一个运行在高位优先的IBMPowerPC上的客户端发送一个32位的整数到一个低位优先的Intelx86,那将会发生什么呢?
But what happens if a client running on a big endian IBM PowerPC attempts to send a 32-bit integer to a little endian Intel x86?
资料显示没有证据支持低位脐动脉导管的置入,应该优先选择将脐动脉导管置于高位。
There appears to be no evidence to support the use of low placed umbilical artery catheters. High catheters should be used exclusively.
资料显示没有证据支持低位脐动脉导管的置入,应该优先选择将脐动脉导管置于高位。
There appears to be no evidence to support the use of low placed umbilical artery catheters. High catheters should be used exclusively.
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