使用新的编译器,尽可能为多种体系结构维持一个详尽的通用代码基(codebase)。
Maintaining as thorough a common code base for various architectures as possible, using a new compiler
1964年5月1日早上4点,学院的通用电器的GE- 225主机开始运行Basic编译器。
The college's General Electric GE-225 mainframe started running a Basic compiler at 4 a.m. on May 1, 1964.
这样可能会更加整洁,因为它保留了代码的通用性,并可以简化开发过程,因为JET编译器并不能总是给出最正确的错误消息。
This is a little cleaner, as it keeps the common code common, and it makes development easier as the JET compiler doesn't always give the nicest error messages.
这是一个简单的例子:输入一个模式,XMLBeans编译器会将其编译成通用的接口。
Consider a simple example in which a schema is taken as input and an XMLBeans compiler compiles this schema into generic Interfaces.
清单5是另外一个经过编译器转换之后的for/in,这次没有通用化类型。
Listing 5 is another for/in after compiler transformation, this time without a genericized type.
通过在FPGA内部实现PLC逻辑,并提供能够编译PLC指令的编译器,实现了数控系统对通用PLC编程语言的支持。
Through realizing PLC logic in FPGA and providing a compiler which can be used to compile PLC command to implement the sup - port of NC system to universal PLC program language.
本文介绍了一种通用硬件描述语言——UHDL及其编译器的设计与实现。
UHDL-A Universal Hardware Description Language and its compiler is presented in this paper.
文章针对传统功耗优化缺乏通用性的缺点,提出一个基于可重定向编译器的功耗优化框架。
This paper proposes a low power optimization framework based on retargetable compiler, which aims at the shortcomings of traditional low power optimization in generalization.
汇编语言是有用,因为它为不同的高级语言不同的编译器提供了通用的输出语言。
Assembly language is useful because it provides a common output language for different compilers for different high-level languages.
为此,本文针对上述问题,研究了通用数控代码编译器的技术构成,开发出了一个具有通用意义的NC代码编译系统。
For this, this dissertation develops a general concept of nc Code Compiler, based on studies the technical structure of general nc Code Compier.
对于全域通用子运算式最佳化,编译器会搜寻整个函式中有没有通用子运算式。
For global common subexpression optimization, the compiler searches entire functions for common subexpressions.
对于区域通用子运算式最佳化,编译器会检查程序码的短区段中有没有通用子运算式。
For local common subexpression optimization, the compiler examines short sections of code for common subexpressions.
对于区域通用子运算式最佳化,编译器会检查程序码的短区段中有没有通用子运算式。
For local common subexpression optimization, the compiler examines short sections of code for common subexpressions.
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