1.
Design & Realization of NC G Code Interpreter Based on VC
基于VC的数控G代码解释器的设计与实现
2.
a device for deciphering codes and ciphers.
用来解释密码或代码的装置。
3.
&Generate event support code
产生事件支持代码(&g)
4.
interpreter used in code generatio
代码生成中使用的解释程序
5.
The JVM then interprets the application code for the hardware.
然后Java虚拟机为硬件解释应用程序代码。
6.
Design of NC Code Interpreter in Embedded NC System Based on WinCE
基于WinCE嵌入式数控系统NC代码解释器的设计
7.
Multiple CNC Code Interpreter Based on Lex & Yacc
基于Lex和Yacc的多数控代码解释器研究与应用
8.
Research and Implementation of NC Code Interpreter in Virtual NC Machining System
虚拟数控加工中NC代码解释技术的研究与实现
9.
The Realization and Optimization of G.729B on DM642;
G.729B编解码算法在DM642上的实现与优化
10.
Research on G.729A Speech Codec Algorithm and Implementation on FPGA;
G.729A语音编解码算法研究及FPGA实现
11.
Optimization of G.723.1 Speech Codec Based on MCF5249;
基于MCF5249的G.723.1编解码器的优化
12.
ASIC Design of G.723.1 Decoder;
基于G.723.1语音解码器的ASIC设计
13.
Cluttering up the source code with lots of comments explaining what the code is trying to do is distracting and slows down the compiler
散落于代码各处,解释代码在做什么的注释让人分心,也会让编译变慢。
14.
Code should be self explanatory. Good code with readable variable and method names should not require comments.
代码应该是自解释的。由可读性强的变量和方法组成的好的代码应该不需要注释。
15.
Research on Algebraic Codebook Transcoding between AMR-NB and G.729AB
AMR-NB与G.729AB间代数码书的转码技术研究
16.
differential equation pseudocode interpreter
微分方程伪码解释器
17.
The following list explains the main data structures defined and used by the bridging code. All of them have dedicated sections with field-by-field descriptions in Chapter17.
下面的列表解释了桥源代码中定义和使用的主要的数据结构。在17节中会对每个域逐个解释。
18.
Research and Realization of G.729 Speech Codec Algorithm Based on DSP;
基于DSP的G.729语音编解码算法的研究与实现