endian
- 网络字节序;字节存储次序;端
endianendian
字节序
字节序(Endian),大端(Big-Endian),小端(Little-Endian) 图文并茂http://www.cppblog.com/tx7do/archive/2009/01/06/7…
字节存储次序
超全的英语短句汇集 - 嘟嘟老窝 - 博客频道 ... ... end 末端 endian 字节存储次序 endpoint 端点 ...
端
“端”(endian)的起源以下是Jonathan Swift在1726年关于大小端之争历史的描述:“……我下面要告诉你的是,Lilliput和Blefuscu …
字节顺序
字节顺序(Endian)现代的计算机系统一般采用字节(Octet, 8 bit Byte)作为逻辑寻址单位。
字节序问题
字节序问题(Endian)因64位平台的差异,在移植32位程序时,可能会失败,原因可归咎于机器上字节序的不同。Intel、IBM P…
端模式
端模式(Endian)的这个词出自Jonathan Swift书写的《格列佛游记》。这本书根据将鸡蛋敲开的方法不同将所有的人分为两类…
指示数据的字节顺序
E 索引 (Flex 3.2) ... endDate — 播放窗口结束的日期。 endian — 指示数据的字节顺序。 endIndex — 选择结束处的索引。 ...
字节序这个英文单词
...在终于想明白,其实我当时之所以这么难明白,主要就是字节序这个英文单词(endian)太能误导人。
1
Except for the limitations described below, you can take a backup from any big-endian server and restore it to any other big-endian server.
除了以下限制外,可以为任何big-endian服务器做备份,然后将它恢复到另一个big-endian服务器。
2
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)。
3
Big-endian means that the most significant byte has the lowest address (the word is stored big-end-first).
big-endian意味着最高位字节存储在最低地址(按高位优先的顺序存储字)。
4
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。
5
Note that networks usually use big-endian byte order, so an application running on System z does not need conversion here.
注意,网络通常使用大端字节顺序,因此在Systemz上运行的应用程序在这里不需要转换。
6
The first four bytes of the system default file format contain a 32-bit signed integer in little-endian format (see Encoding).
系统默认文件格式的前四个字节中包括一个Little-Endian格式(请参见Encoding)的32位有符号整数。
7
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?
8
If the -u option has been specified, the output will always be little-endian Unicode.
如果已指定-u选项,输出将始终为Little-endianUnicode。
9
Defines the image internal characterset for JIS encoded user comments if image is in motorola byte order (big-endian).
定义了JIS编码的用户注释的图像内部字符集,如果图像是摩托罗拉字节顺序(big-endian)的话。
10
Little-endian format: the high byte of word data is stored in high address, and the low byte of word data is stored in the lower address.
小端格式:字数据的高字节存储在高地址中,而字数据的低字节则存放在低地址中。
11
For instance, PNG documents (a competitor to TIFF) are always big endian.
例如,PNG文档(TIFF的一个竞争者)始终使用大尾数法。
12
If an integer is four bytes in length with a big-endian encoding, then the message uses that same representation.
如果整数采用big-endian法编码、用四个字节表示,那么消息中也使用同样的表示。
13
However, the majority of current system implementation uses little-endian mode.
但是当前绝大多少系统的实现都是使用little-endian模式。
14
The following example illustrates the difference in byte order between big endian and little endian machines.
下面这个例子解释了bigendian和littleendian机器上字节顺序之间的区别。
15
The IA-64 Linux kernel uses little-endian by default, but allows for the possibility of using big-endian byte order.
IA-64Linux内核默认使用little-endian,但是也可以使用big-endian的字节顺序。
16
Intel microprocessors are little-endian.
Intel微处理器是little-endian。
17
Big-endian format: the high byte of word data stored in the lower address, while the low byte of word data is stored in high address.
大端格式:字数据的高字节存储在低地址中,而字数据的低字节则存放在高地址中。
18
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。
19
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。
20
BinaryWriter stores this data type in little endian format.
BinaryWriter以小结尾格式存储此数据类型。
21
We have bit fields in C and C++ that help to deal with endian issues.
在C和C++中有位域来帮助处理endian的问题。
22
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?
23
Since SPARC is big-endian and x86 is little-endian, you need to consider endianness issues.
由于SPARC采用的是big-endian,而x86采用的是little-endian,因此您需要考虑endianness的问题。
24
The example that caught us was compiling PINE on a big-endian system.
我们要使用的例子是在一个高位优先系统上编译PINE。
25
So, on a big-endian system, it thought every file was empty.
因此,在高位优先系统上,它认为每个文件都是空的。
26
Save selected characters to file in UTF-8, UTF-16 (Big or Little Endian) or UTF-32 (Big or Little Endian) encoding.
保存到文件选定的字符在UTF-8,UTF-16的(大或小端)或UTF-32(大或小端)编码。
27
Because x86 CPUs are little-endian, the value 0x0042 is stored in memory as 42 00.
因为x86CPU是little-endian,值0x0042在内存中的存储形式是4200。
28
A character constant with more than one character will be arranged with little-endian order in mind: if you code
多于一个字符的字符常量将按倒序排列:如果你编码
29
For example, the 32-bit word 0x12345678 will be laid out on a big endian machine as follows
例如,32位的字0x12345678在bigendian机器上的布局如下
30
If we view 0x12345678 as two half words, 0x1234 and 0x5678, we would see the following in a big endian machine
如果将0x12345678当作两个半字来看待,分别是0x1234和0x5678,那么就会看到在bigendian机器上是下面的情况