当然,在某些机器上所有的寄存器都是对等的,没有定义寄存器类型。那么就不用处理上面的复杂性了。
Of course, on some machines all registers are equivalent, and no register classes are defined. Then none of this complexity is relevant.
这包括关于运行进程的平台的信息:物理内存、CPU数量和类型、库、命令行、线程堆栈和寄存器。
This includes information about the platform on which the process is running: physical memory, CPU number and type, libraries, command line, thread stacks, and registers.
正被寻址的Modbus寄存器的类型(input、hold、coil、status)。
The type of Modbus register being addressed (input, hold, coil, status).
dsirr(数据存储中断原因寄存器)表示发生的页面错误的类型。
The dsirr (Data Storage Interrupt reason Register) indicates the type of page fault that has occurred.
[requestcommand]的长度也是一个字节,它的值基于正被寻址的寄存器的类型设置。
[Request command] is also 1 byte long, and its value is set based on the type of registers being addressed. For reading register values.
CURRENTMAINTAINEDTABLETYPES专用寄存器控制被考虑用于路由的 MQT的类型。
The CURRENT MAINTAINED TABLE TYPES special register controls the kinds of MQTs that are considered for routing.
specific intrinsic 的所有操作数都会映射为一个称为qword 的特殊类型,它实际上是一个opaque寄存器值类型。
All operands to specific intrinsics are cast to a special type called qword, which is essentially an opaque register value type.
PowerPCABI中的寄存器被划分成3种基本类型:专用寄存器、易失性寄存器和非易失性寄存器。
Registers in the PowerPC ABI are divided into three basic classes: dedicated, volatile, and non-volatile.
使用,还可以有其他的C数据类型直接对应硬件寄存器的方法相同。
Using the same method you can also have other C data types to correspond directly hardware registers.
可用于全部数据类型的主要优点体现在系统编程过程中的任何结构,(包括硬件控制寄存器)都可用C 语言来表达。
The major advantage of this full set of data types is that any construction that arises in system programming, including hardware control registers, can be represented in C.
在一些实施例中,本发明包含芯片,它具有寄存器以包含操作类型信号。
In some embodiments, the invention includes a chip having a register to include an operation type signal.
每个函数中只有很少的变量能够存放在寄存器中,而且,只是确定的类型可以存放在寄存器中。
Only a few variables in each function may be ketp in registers, and only certain types are allowed.
微处理器的一般结构:寄存器组,寄存器管理,总线时序,工作模式以及类型提供配置。
The general composition of microprocessor: register group, register management, bus line sequential, working mode and type offer configuration.
微处理器的一般结构:寄存器组,寄存器管理,总线时序,工作模式以及类型提供配置。
The general composition of microprocessor: register group, register management, bus line sequential, working mode and type offer configuration.
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