在非垃圾收集语言中需要避免两个主要的内存管理危险:内存泄漏和悬空指针。
There are two major memory-management hazards to avoid in non-garbage-collected languages: memory leaks and dangling Pointers.
经典的C语言方式进行面向对象编程的一种方式就是使用晦涩的指针,比如句柄。
The classic C language approach to object oriented programming is the usage of opaque pointers, i.e., handles.
开发人员不必担心基于c语言的PHP实现中出现的分段(segmentation)错误和c指针溢出。
Developers do not have to worry about segmentation faults and C pointer overruns seen in C-based PHP implementations.
环境指针在大多数语言中并未使用。
对于任何使用c语言的人,如果问他们c语言的最大烦恼是什么,其中许多人可能会回答说是指针和内存泄漏。
Ask anybody working with C what bothers them the most about C, and many of them will probably answer Pointers and memory leaks.
常规控制字符(字符值小于32):还特别包括字符0,传统上称做NUL;我把它称为NIL以区别于c语言中的NULL指针。
Normal control characters (characters with values less than 32) : This especially includes character 0, traditionally called NUL; I call it NIL to distinguish it from c's NULL pointer.
好,基本上来说这是因为,这是当Python的创造者,决定创造这门语言的时候,的一个设计决定,他们主要的说了说,我们要有一个明确的,指向实例的指针。
Well, basically because it was a design choice when the creators of Python decided to create the language, they basically said, we're always going to have an explicit pointer to the instance.
第三个域是语言的一个环境指针(如果该语言使用了环境指针的话),不过通常都会被设置为0。
The third field is an environment pointer for languages that use one, but is normally just set to zero.
当你的程序持续不断的收到系统发送的低内存警告;当你不得不与低级语言、字节级精度的指针与C结构打交道的时候,你怎么嗨的起来?
It's hard to get worked up about still dealing with low-level, per-byte-precise entities like pointers and C structs when your application is constantly receiving low-memory warnings from the OS.
每个对象都有一些附加字节,通用语言运行库用来管理对象,如对象的虚表指针和同步锁定引用。
Every object has some additional bytes that the common language runtime USES to manage the object, such as the object's virtual table pointer and a reference to a sync block.
委托是封装方法的特殊类型,它类似于其它编程语言中的函数指针。
Delegates are special types that encapsulate a method, similar to function Pointers found in other programming languages.
从概念上讲,那是“无效的指针”,“指针指向虚无”,无论。有一个很好的理由是在语言。
NULL. Conceptually, that's the "invalid pointer", "pointer that points to nothing", whatever. There's a very good reason it's in the language.
文中根据作者所设想的安全程序的设计和证明框架,为类c语言的一个子集设计了一个指针逻辑系统。
In terms of the authors sketch of design and verification of safety programs, a pointer logic system is designed for a subset of C-like language.
尤其当处理的语言文法规则过多时,过于频繁的指针操作会降低系统的稳定性和可靠性。
If grammars of the language has too much rules, over frequently operating pointer will decrease the stability and reliability of a system.
其他的面相对象编程的语言,没有提供这个指针。
Some other object-oriented programming languages do not provide that pointer.
语言在指针和数组方面的强大功能,以及面向对象技术,极大地方便了程序的编写。
C plus plus language has the powerful function in pointer and array and object-oriented programming (OOP) technology which are in favor of programming.
对指针变量以及过程间的数据的分析是嵌套式语言全程分析的关键问题之一。
The analysis of pointer variable and inter procedure data is one of the key problem in the whole program analysis of nested language.
由于C语言允许通过指针进行间接内存访问,但并不进行边界检查,因此可能存在缓冲区溢出。
The C language allows indirect access memory location by pointer without boundary check, which may cause buffer overflow.
多维数组指针和递归是C语言教学中的难点。
Multi-dimensional array pointer and recursion are the difficult sections of teaching C language.
在C语言中,我们通过使用空指针,而不是通过维护非公开的数据备份,使数据结构存储任何类型的数据。
In C, we make a data structure store data of any type by using void pointers to the data rather than by maintaining private copies of the data in the data structure itself.
以具体实例详细介绍了C语言指针复杂说明的理解方法;
The understanding method is in detail introduced of complex specifications of the guide finger of language C by means of illustrations.
例如,包含函数指针的多数语言都可用于可靠地支持函数编程。
For example, most languages that contain function Pointers can be used to credibly support functional programming.
在第二语言学习中,反馈指针对学习者的言语行为给予学习者的评价性信息。
In second language learning, feedback refers to the evaluative information available to learners concerning their linguistic performance.
在软件开发中,常需要开辟数百KB的内存缓冲区,而在C语言中设置这样大的内存缓冲区会出现数据跨段的问题,采用指针数组的使用机制能解决以上难题。
In the development of soft ware, it is always necessary to design a memory buffer with hundreds of KB, which will probably lead to the problem of data span limit in the dvice of C language.
强制公共语言运行时(CLR)释放保留在运行时可调用包装(RCW)内的所有接口指针。
Forces the common language runtime (CLR) to release all interface Pointers it holds inside runtime callable wrappers (RCW).
本文主要介绍了如何在CML语言中实现带指针类型的编译器。
This paper mainly introduced how to implement pointer type in CML language.
语言与指针的经典教材,我就是靠这本书学习的,个人感觉不错!大家也看看吧。
C language and the classic indicators of teaching materials, I rely on this book learning, personal feel good! We also take a look at it.
尤其指针部分,更是C语言的精华,也是C语言的难点。
Particularly, needle part is an essence of language c, and is also difficult part.
C语言是仅有的教你什么是真正的指针的语言。
C is the only language that teaches you what Pointers really are.
在C语言子程序中由于使用了全局变量,或是使用了静态变量,或是使用了指针参数,从而产生副作用。
The side effect of the subprogram is produced by using public variable, or static variable, or pointer parameter in C Program.
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