为获得更大的灵活性,动态SQL允许通过SETCURRENTdegree语句在一个计划或包中更改这个选项,该语句可以控制专用寄存器中的值。
For further flexibility, dynamic SQL allows for changing this option within a plan or package by the SET CURRENT DEGREE statement, which controls the value in a special register.
特殊寄存器CURRENTSCHEMA包含默认的限定符,用于对特定DB 2连接中发出的动态sql语句所引用的未限定对象进行限定。
The CURRENT SCHEMA special register contains the default qualifier to be used for unqualified objects referenced for dynamic SQL statements issued from within a specific DB2 connection.
它还将该缺省值提供给用于动态sql语句的CURRENTFEDERATEDASYNCHRONY专用寄存器。
It also provides the default value to the CURRENT FEDERATED ASYNCHRONY special register for dynamic SQL statements.
将专用寄存器CURRENTEXPLAINSNAPSHOT 设置为YES以捕获动态SQL语句的快照。
Set the special register CURRENT EXPLAIN SNAPSHOT to YES to capture the snapshot for dynamic SQL statements.
对于动态sql应用程序而言,就要使用APPLICATIONENCODING专用寄存器来覆盖CCSID。
For dynamic SQL applications, use the application ENCODING special register to override the CCSID.
对于动态sql语句,SQL路径为CURRENTPATH特殊寄存器的值。
For dynamic SQL statements, the SQL path is the value of the CURRENT path special register.
无需任何约束,它就能够动态优化寄存器的使用。
It can optimize register usage dynamically without any arbitrary constraints.
如果发出一条动态语句,并且设置了CURRENTFEDERATEDASYNCHRONY专用寄存器,那么这个专用寄存器的值就被用来优化查询。
If a dynamic statement is issued and the CURRENT FEDERATED ASYNCHRONY special register is set, the value of the special register is used to optimize the query.
因为他准确知道中断会用到哪个寄存器,所以它能够以程序编缉时的状态为基础,动态决定代码大小。
Since it knows exactly which registers will be used for any interrupt, it can determine the context size dynamically, based on the state of the program at the time of compilation.
另外,本文从实现出发,详细地实现了动态多应用虚拟机的内存管理、寄存器处理、处理器和虚拟机上下文等功能。
In addition, this article carries out dynamic multi-application virtual machine including memory management, register management, processor, virtual machine context, etc.
从静态和动态功耗两个方面入手,从编译角度对寄存器文件分配方案引起的功耗降低做了一系列的研究;
We have a study on the register assignment and the low-power design of the components of SOC system, meanwhile we design a low-power TLB module.
从静态和动态功耗两个方面入手,从编译角度对寄存器文件分配方案引起的功耗降低做了一系列的研究;
We have a study on the register assignment and the low-power design of the components of SOC system, meanwhile we design a low-power TLB module.
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