Outside of compression, supporting variable block sizes also means that you can tune the block size for the particular workload expected for improved performance.
在压缩以外,支持可变块大小还意味着您可以针对所期望的特定工作量优化块大小,以便改进性能。
It builds a tabulated list of announcements for use in the announcement block content variable.
它构建一个表格式的公告列表,这将用在公告区块内容变量中。
If the variable wasn't declared in any block, its scope is from the place it was declared to the end of the file.
假如变量未在任何块里申明,它的作用域就是从申明它的地方开始,到文件的结尾。
The buffer variable shown above represents an actual XML block.
上面显示的缓冲区变量表示实际的XML块。
The lifetime of a local variable is limited to the lifetime of the block in which it is declared.
局部变量的生存期被限制为定义它的块的生存期。
When the variable is filled, the filled block in the VXML is parsed.
填充变量之后,解析VXML中填充的块。
That code block does nothing but increment the value of the local variable and return it.
代码段做的事就是增加本地变量的值并返回。
[END_VARIABLE] Block containing the variable names and the corresponding data types of input and output parameters of the Web service function.
[end _ VARIABLE]这个块包含Web服务函数的输入和输出参数的变量名和对应的数据类型。
The respond_to method accepts a single code block and passes one instance variable (labeled wants) into the code block.
respond _ to方法接受单个代码块,并传递一个实例变量(标为wants)到代码块。
Call with continuation gives you a code block, and the continuation (or a saved call stack, with instance variables), which you assign to a variable.
用continuation进行调用使您获得一个代码块和指派给变量的continuation(或已保存的调用堆栈,其中有实例变量)。
It tries to do this by introducing the local variable inst and a second synchronized block. The theory works as follows.
它试图通过引入局部变量inst和第二个synchronized块来解决这一问题。
ZFS implements variable block sizes for a variety of uses (commonly up to 128KB in size, but you can change this value).
ZFS为各种不同的使用实现了可变块大小(通常大小达到 128KB,但是您可以变更此值)。
puts a In Ruby 1.8, this code prints "42", because the block variable a is actually the same a of the containing scope.
putsa在Ruby 1.8中,这段代码会打印出“42”,因为块变量a和所包含域中的a就是一个变量。
To ensure integrity across multiple instances of this flow, the use and updating of the variable is enclosed within a "begin atomic...end" block.
为了跨此流的多个实例确保完整性,变量的使用和更新都包含在“beginatomic...end”块中。
I'm using Groovy's syntactic sugar to execute a code block, which is to place a set of parentheses adjacent to the code block's variable.
我使用了Groovy的语法糖(syntactic sugar)来执行此代码段,结果放置在代码段变量旁边的圆括号中。
One important use of variable block sizes is compression (because the resulting block size when compressed will ideally be less than the original).
可变块大小的一个重要使用是压缩(因为压缩时的结果块大小理想情况下将小于初始大小)。
The code here USES a local variable diff, which is only defined within this block of code, while later in the constructor a separate variable, fill, is declared at the same level.
这里的代码使用了一个局部变量diff,这个局部变量只定义在这一块代码范围内,之后在构造函数中又声明了另一个相同级别的变量fill。
While no one would ever directly use the idiom in Listing 1, this code is very similar to the case where the lock associated with a synchronized block can be proven to be a thread-local variable.
虽然没有人会直接使用清单1中的形式,但是与这个代码非常类似的情况是:可以证实与synchronized块关联的锁是一个线程本地变量。
But lambda expressions are treated as values and can therefore be stored in a variable and executed after the block in which the captured variable was declared has gone out of scope.
但是,lambda表达式被视为值,因此可存储在变量中并在将捕获的变量声明为超出范围的代码块执行之后执行。
If C99 lifted "variable declaration at top of block" constraint, why doing so in a "for loop" showing error?
如果C99解除“变量声明块”的约束,为什么这样做在一个“循环”显示错误吗?
For a class of linear systems with uncertainties of unknown bound, a variable structure control (VSC) design method is proposed based on Block control principle.
针对一类非匹配不确定性的线性系统,基于块控原理,提出了一种变结构控制设计方法。
Can I really check an instance variable in a block like this?
我真的可以检查一块这样的实例变量?
If the pointer was set in a fixed block, the variable to which it points may no longer be fixed.
如果将指针设置在固定的块中,它所指向的变量可能不再是固定的。
A half pel accuracy and variable block size motion estimation scheme is discussed lastly.
最后讨论了半像素精度和变块大小运动估计方案。
How can I assign a variable while inside a block?
我如何分配一个变量在一块?
Its structure is quite complex, fault block well developed, lithology complex, formation water salinity variable and oil zones universally exhibit low resistivity.
其油藏结构复杂、断块发育、岩性与水性复杂多变,同时油层低阻现象普遍。
Its structure is quite complex, fault block well developed, lithology complex, formation water salinity variable and oil zones universally exhibit low resistivity.
其油藏结构复杂、断块发育、岩性与水性复杂多变,同时油层低阻现象普遍。
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