Intel microprocessors are little-endian.
intel微处理器是little - endian。
UTF-16LE: 16-bit UCS Transformation format, little-endian byte order.
UTF - 16le:16位UCS转换格式,小尾数法字节顺序。
The byte ordering (Big-Endian or Little-Endian) for a storage access is specified by the operating system.
存储器存取的字节顺序(Big - Endian或Little - Endian)是由操作系统指定的。
Little-endian means that the least significant byte has the lowest address (the word is stored little-end-first).
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)。
Big-endian and little-endian UTF-8 are identical, because UTF-8 is defined in terms of 8-bit bytes rather than 16-bit words.
UTF - 8用Big - endian和little - endian来表示都是一样的,因为UTF - 8是按8位字节而不是16位字定义的。
All three of these may or may not be preceded by a Unicode byte order mark in either UTF-8, big-endian UTF-16, or little-endian UTF-16.
所有这三行之前都可能有Unicode字节序标记,如utf - 8、big - endianUTF - 16或little - endian UTF - 16。
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.
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。
Unfortunately, the Linux distribution used doesn't provide corresponding little-endian libraries to link with, so you can't test little-endian code.
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。
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.
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。
When students do these embedded experiments, they do often face the problem of the transformation between big-endian and little-endian about byte order.
学生在做嵌入式系统的实验时,经常会遇到字节顺序的大小端转化问题。
Little-endian means that the least significant byte is stored at the lowest memory address and the most significant byte is stored at the highest memory address.
Little - endian是将低位字节存储在内存的低地址中,将高位字节存储在内存的高地址中。
Following is a typical code snippet you can use to determine if the operating environment is big - or little-endian; you can set a specific flag for your convenience.
您可以使用下面的典型代码片断来确定操作环境是big- endian还是little - endian;您可以方便地设置具体的标记。
Note: Depending on the platform and whether the mem structure is big endian or little endian, you may need to swap the order in which bytes are read.
注意:根据不同平台,以及men结构是大端字节序还是小端字节序,您可能需要交换读取字节的顺序。
All processors of the Intel x86 family are little endian.
所有Intelx86家族的处理器使用的都是小端字节。
Or, how are arguments transmitted between machines with different addressing schemes, big endian vs. little endian?
或者,变量如何在使用不同寻址方案(大尾数法,小尾数法)的机器间发送?
Byte order: big endian or little endian.
字节次序:大尾数法还是小尾数法。
Listing 2. Big endian vs. little endian.
清单2.bigendian与little endian。
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?
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?
The sound effects we selected are in different formats, two being signed 16 bit Little Endian, Rate 22050 Hz and two others being Unsigned 8 bit, Rate 11025 Hz.
我们选择的声音效果格式不同,其中两个是signed16bitLittle Endian,采样率为22050Hz,另外两个是Unsigned8bit,采样率为11025 Hz。
However, on a little endian machine, the word 0x12345678 will be laid out as follows.
然而,在little endian机器上,字0x12345678的布局如下所示。
However, there is no standard set of functions for 64-bit. But Linux provides the following macros on both big and little endian systems.
然而,对于64位整数来说,并没有标准的函数集。
Generate "little endian" format output.
生成“小端”格式输出。
Generate "little endian" format output.
生成“小端”格式输出。
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