程序切片算法必须建立在对源程序信息正确、完整分析的基础上。
Program slicing algorithm must be based on accurate and complete source code analysis.
现提出一种新的基于程序切片技术对XML文档进行切片的方法。
A XML slice method which is based on the program slicing technique to solve this problem is presented.
将程序切片技术应用于程序错误定位可以大量减少需要测试的语句数。
The statements need to be tested can be decreased by applying the program slicing technology to locate program fault.
提出在PASCAL抽象实现结构图上,采用数据流方程算法实现程序切片的自动化。
An automatic program slicing method is proposed which applies the data flow equation algorithm to the abstract implementation structure diagram for PASCAL.
程序切片技术是一种分析和理解程序的技术,其中面向过程程序切片技术已趋于成熟。
Program slicing is a technology of analyzing and understanding program. The technology of process-oriented program slicing is becoming more mature.
把程序切片技术应用于软件测试数据生成中,可以有效地提高基于路径的测试数据生成效率。
The program slicing technique is employed in software test data generation so that the efficiency of test data generation can thus be enhanced.
系统依赖图的概念及两阶段图形可达性算法的出现,则有效解决了程序切片的过程调用问题。
To program slicing, the concept of SDG and a two-pass algorithm are effective to solve "calling-context" problem.
通过获得分支结点(或兴趣点)的程序切片,及时调整输入,使得程序执行沿指定的程序路径进行。
By computing program slices of the branch node (or interest node), program input can be adjusted on time and the program can be executed along the specified path.
程序切片技术是一种分析和理解程序的技术,具有可以简化问题,缩小目标范围的特点,在软件维护、程序调试、测试、代码理解等诸多领域有着广泛的应用。
The program slicing technique is a kind of technique used to analyse and understand a program, which possesses the characteristics of problem simplification and target localization.
一个切片(slice)表示一个数组内的连续分段,支持程序员指定底层存储的明确部分。
A slice represents a contiguous segment of an array, allowing a programmer to refer to specific sections of the underlying storage.
通常,一个切片就是一个程序所需要的全部了,在这种情况下,程序员根本用不着一个数组,Go有两种方式直接创建切片而不用引用底层存储。
In that case, a programmer need not have an array at all. Go offers two ways to make slices directly without ever referencing the underlying storage.
含指针程序的模块单子切片。
介绍了动态切片的基本概念,并将程序依赖图算法应用于动态切片,从而达到缩小程序分析范围的目的,讨论了动态切片在程序调试和软件测试中的应用。
The basic conceptions of dynamic slicing are introduced, to which the program dependence graph arithmatic is tried to apply, thus reducing the scope of program analysis.
传统的算法是通过建立程序的依赖图得到动态切片,但依赖图需要占用大量的空间,因此算法效率较低。
Traditional algorithms usually get dynamic program slices by building dependence graphs of the programs, but dependence graphs take lots of memory space, so they are inefficient.
任何一种切片程序皆无造成死亡。
详细地描述了一种基于分层切片模型思想的程序信息提取方案。
In this paper, an analysis scheme based on a model of hierarchical slice is described in great details.
应遵循临床检查、影像学检查、手术探查和病理识别及切片检查相结合的诊断程序。
A diagnostic procedure combining with clinical and imaging examinations. operative exploration and pathological recognition, and microscopic examination should be obtained.
根据解决方案的不同,此位置可能在主机筛选器驱动程序级别上,也可能在存储阵列中的某个磁盘切片上。
Depending upon the solution, this location can be at the host filter driver level or at a disk slice within a storage array.
方法将正常尸体头颅冰冻横断切片后,使用自制的三维重建程序,应用计算机对横断切片重建,并进行相应的立体观测。
Methods With human head frozen and transversely sectioned, self-made 3-d reconstruction program was used to reconstruct transverse section in computer for corresponding observation.
介绍了动态切片的基本概念,并将程序依赖图算法应用于动态切片,从而达到缩小程序分析范围的目的,讨论了动态切片在程序调试和软件测试中的应用。
The paper discusses basic concepts in dynamic slicing at first, then presents a dynamic slicing method based-on dynamic flow, it′s application in software test and program debugg.
提出了把波动效应分析和系统依赖图结合起来进行切片的方法,通过波动效应分析反映面向对象程序中单元间的波动关系,基于系统依赖图切片侧重于分析控制依赖和数据依赖。
This method can be used to analyze the semantic relations in object-oriented program units by ripple effect analysis, and the control dependency and data dependency by use of system dependency graph.
开发了一套适用于控制系统的软件系统。软件系统包括切片程序模块、测试程序模块、成形程序模块和监控程序模块。
A software system which matches the control system is developed, which includes the model-slice program, motion-test program, prototyping program and monitor program.
开发了一套适用于控制系统的软件系统。软件系统包括切片程序模块、测试程序模块、成形程序模块和监控程序模块。
A software system which matches the control system is developed, which includes the model-slice program, motion-test program, prototyping program and monitor program.
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