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731 lines
29 KiB
Plaintext
@node Introduction, Error Reporting, Top, Top
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@chapter Introduction
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@c %MENU% Purpose of the GNU C Library
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The C language provides no built-in facilities for performing such
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common operations as input/output, memory management, string
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manipulation, and the like. Instead, these facilities are defined
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in a standard @dfn{library}, which you compile and link with your
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programs.
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@cindex library
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@Theglibc{}, described in this document, defines all of the
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library functions that are specified by the @w{ISO C} standard, as well as
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additional features specific to POSIX and other derivatives of the Unix
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operating system, and extensions specific to @gnusystems{}.
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The purpose of this manual is to tell you how to use the facilities
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of @theglibc{}. We have mentioned which features belong to which
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standards to help you identify things that are potentially non-portable
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to other systems. But the emphasis in this manual is not on strict
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portability.
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@menu
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* Getting Started:: What this manual is for and how to use it.
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* Standards and Portability:: Standards and sources upon which the GNU
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C library is based.
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* Using the Library:: Some practical uses for the library.
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* Roadmap to the Manual:: Overview of the remaining chapters in
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this manual.
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@end menu
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@node Getting Started, Standards and Portability, , Introduction
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@section Getting Started
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This manual is written with the assumption that you are at least
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somewhat familiar with the C programming language and basic programming
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concepts. Specifically, familiarity with ISO standard C
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(@pxref{ISO C}), rather than ``traditional'' pre-ISO C dialects, is
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assumed.
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@Theglibc{} includes several @dfn{header files}, each of which
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provides definitions and declarations for a group of related facilities;
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this information is used by the C compiler when processing your program.
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For example, the header file @file{stdio.h} declares facilities for
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performing input and output, and the header file @file{string.h}
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declares string processing utilities. The organization of this manual
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generally follows the same division as the header files.
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If you are reading this manual for the first time, you should read all
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of the introductory material and skim the remaining chapters. There are
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a @emph{lot} of functions in @theglibc{} and it's not realistic to
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expect that you will be able to remember exactly @emph{how} to use each
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and every one of them. It's more important to become generally familiar
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with the kinds of facilities that the library provides, so that when you
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are writing your programs you can recognize @emph{when} to make use of
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library functions, and @emph{where} in this manual you can find more
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specific information about them.
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@node Standards and Portability, Using the Library, Getting Started, Introduction
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@section Standards and Portability
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@cindex standards
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This section discusses the various standards and other sources that @theglibc{}
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is based upon. These sources include the @w{ISO C} and
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POSIX standards, and the System V and Berkeley Unix implementations.
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The primary focus of this manual is to tell you how to make effective
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use of the @glibcadj{} facilities. But if you are concerned about
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making your programs compatible with these standards, or portable to
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operating systems other than GNU, this can affect how you use the
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library. This section gives you an overview of these standards, so that
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you will know what they are when they are mentioned in other parts of
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the manual.
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@xref{Library Summary}, for an alphabetical list of the functions and
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other symbols provided by the library. This list also states which
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standards each function or symbol comes from.
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@menu
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* ISO C:: The international standard for the C
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programming language.
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* POSIX:: The ISO/IEC 9945 (aka IEEE 1003) standards
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for operating systems.
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* Berkeley Unix:: BSD and SunOS.
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* SVID:: The System V Interface Description.
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* XPG:: The X/Open Portability Guide.
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@end menu
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@node ISO C, POSIX, , Standards and Portability
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@subsection ISO C
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@cindex ISO C
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@Theglibc{} is compatible with the C standard adopted by the
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American National Standards Institute (ANSI):
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@cite{American National Standard X3.159-1989---``ANSI C''} and later
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by the International Standardization Organization (ISO):
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@cite{ISO/IEC 9899:1990, ``Programming languages---C''}.
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We here refer to the standard as @w{ISO C} since this is the more
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general standard in respect of ratification.
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The header files and library facilities that make up @theglibc{} are
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a superset of those specified by the @w{ISO C} standard.@refill
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@pindex gcc
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If you are concerned about strict adherence to the @w{ISO C} standard, you
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should use the @samp{-ansi} option when you compile your programs with
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the GNU C compiler. This tells the compiler to define @emph{only} ISO
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standard features from the library header files, unless you explicitly
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ask for additional features. @xref{Feature Test Macros}, for
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information on how to do this.
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Being able to restrict the library to include only @w{ISO C} features is
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important because @w{ISO C} puts limitations on what names can be defined
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by the library implementation, and the GNU extensions don't fit these
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limitations. @xref{Reserved Names}, for more information about these
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restrictions.
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This manual does not attempt to give you complete details on the
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differences between @w{ISO C} and older dialects. It gives advice on how
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to write programs to work portably under multiple C dialects, but does
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not aim for completeness.
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@node POSIX, Berkeley Unix, ISO C, Standards and Portability
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@subsection POSIX (The Portable Operating System Interface)
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@cindex POSIX
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@cindex POSIX.1
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@cindex IEEE Std 1003.1
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@cindex ISO/IEC 9945-1
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@cindex POSIX.2
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@cindex IEEE Std 1003.2
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@cindex ISO/IEC 9945-2
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@Theglibc{} is also compatible with the ISO @dfn{POSIX} family of
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standards, known more formally as the @dfn{Portable Operating System
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Interface for Computer Environments} (ISO/IEC 9945). They were also
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published as ANSI/IEEE Std 1003. POSIX is derived mostly from various
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versions of the Unix operating system.
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The library facilities specified by the POSIX standards are a superset
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of those required by @w{ISO C}; POSIX specifies additional features for
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@w{ISO C} functions, as well as specifying new additional functions. In
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general, the additional requirements and functionality defined by the
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POSIX standards are aimed at providing lower-level support for a
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particular kind of operating system environment, rather than general
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programming language support which can run in many diverse operating
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system environments.@refill
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@Theglibc{} implements all of the functions specified in
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@cite{ISO/IEC 9945-1:1996, the POSIX System Application Program
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Interface}, commonly referred to as POSIX.1. The primary extensions to
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the @w{ISO C} facilities specified by this standard include file system
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interface primitives (@pxref{File System Interface}), device-specific
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terminal control functions (@pxref{Low-Level Terminal Interface}), and
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process control functions (@pxref{Processes}).
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Some facilities from @cite{ISO/IEC 9945-2:1993, the POSIX Shell and
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Utilities standard} (POSIX.2) are also implemented in @theglibc{}.
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These include utilities for dealing with regular expressions and other
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pattern matching facilities (@pxref{Pattern Matching}).
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@comment Roland sez:
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@comment The GNU C library as it stands conforms to 1003.2 draft 11, which
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@comment specifies:
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@comment
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@comment Several new macros in <limits.h>.
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@comment popen, pclose
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@comment <regex.h> (which is not yet fully implemented--wait on this)
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@comment fnmatch
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@comment getopt
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@comment <glob.h>
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@comment <wordexp.h> (not yet implemented)
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@comment confstr
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@node Berkeley Unix, SVID, POSIX, Standards and Portability
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@subsection Berkeley Unix
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@cindex BSD Unix
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@cindex 4.@var{n} BSD Unix
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@cindex Berkeley Unix
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@cindex SunOS
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@cindex Unix, Berkeley
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@Theglibc{} defines facilities from some versions of Unix which
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are not formally standardized, specifically from the 4.2 BSD, 4.3 BSD,
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and 4.4 BSD Unix systems (also known as @dfn{Berkeley Unix}) and from
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@dfn{SunOS} (a popular 4.2 BSD derivative that includes some Unix System
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V functionality). These systems support most of the @w{ISO C} and POSIX
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facilities, and 4.4 BSD and newer releases of SunOS in fact support them all.
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The BSD facilities include symbolic links (@pxref{Symbolic Links}), the
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@code{select} function (@pxref{Waiting for I/O}), the BSD signal
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functions (@pxref{BSD Signal Handling}), and sockets (@pxref{Sockets}).
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@node SVID, XPG, Berkeley Unix, Standards and Portability
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@subsection SVID (The System V Interface Description)
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@cindex SVID
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@cindex System V Unix
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@cindex Unix, System V
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The @dfn{System V Interface Description} (SVID) is a document describing
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the AT&T Unix System V operating system. It is to some extent a
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superset of the POSIX standard (@pxref{POSIX}).
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@Theglibc{} defines most of the facilities required by the SVID
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that are not also required by the @w{ISO C} or POSIX standards, for
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compatibility with System V Unix and other Unix systems (such as
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SunOS) which include these facilities. However, many of the more
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obscure and less generally useful facilities required by the SVID are
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not included. (In fact, Unix System V itself does not provide them all.)
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The supported facilities from System V include the methods for
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inter-process communication and shared memory, the @code{hsearch} and
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@code{drand48} families of functions, @code{fmtmsg} and several of the
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mathematical functions.
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@node XPG, , SVID, Standards and Portability
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@subsection XPG (The X/Open Portability Guide)
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The X/Open Portability Guide, published by the X/Open Company, Ltd., is
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a more general standard than POSIX. X/Open owns the Unix copyright and
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the XPG specifies the requirements for systems which are intended to be
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a Unix system.
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@Theglibc{} complies to the X/Open Portability Guide, Issue 4.2,
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with all extensions common to XSI (X/Open System Interface)
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compliant systems and also all X/Open UNIX extensions.
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The additions on top of POSIX are mainly derived from functionality
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available in @w{System V} and BSD systems. Some of the really bad
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mistakes in @w{System V} systems were corrected, though. Since
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fulfilling the XPG standard with the Unix extensions is a
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precondition for getting the Unix brand chances are good that the
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functionality is available on commercial systems.
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@node Using the Library, Roadmap to the Manual, Standards and Portability, Introduction
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@section Using the Library
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This section describes some of the practical issues involved in using
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@theglibc{}.
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@menu
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* Header Files:: How to include the header files in your
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programs.
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* Macro Definitions:: Some functions in the library may really
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be implemented as macros.
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* Reserved Names:: The C standard reserves some names for
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the library, and some for users.
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* Feature Test Macros:: How to control what names are defined.
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@end menu
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@node Header Files, Macro Definitions, , Using the Library
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@subsection Header Files
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@cindex header files
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Libraries for use by C programs really consist of two parts: @dfn{header
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files} that define types and macros and declare variables and
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functions; and the actual library or @dfn{archive} that contains the
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definitions of the variables and functions.
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(Recall that in C, a @dfn{declaration} merely provides information that
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a function or variable exists and gives its type. For a function
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declaration, information about the types of its arguments might be
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provided as well. The purpose of declarations is to allow the compiler
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to correctly process references to the declared variables and functions.
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A @dfn{definition}, on the other hand, actually allocates storage for a
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variable or says what a function does.)
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@cindex definition (compared to declaration)
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@cindex declaration (compared to definition)
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In order to use the facilities in @theglibc{}, you should be sure
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that your program source files include the appropriate header files.
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This is so that the compiler has declarations of these facilities
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available and can correctly process references to them. Once your
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program has been compiled, the linker resolves these references to
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the actual definitions provided in the archive file.
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Header files are included into a program source file by the
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@samp{#include} preprocessor directive. The C language supports two
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forms of this directive; the first,
|
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@smallexample
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#include "@var{header}"
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@end smallexample
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@noindent
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is typically used to include a header file @var{header} that you write
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yourself; this would contain definitions and declarations describing the
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interfaces between the different parts of your particular application.
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By contrast,
|
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@smallexample
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#include <file.h>
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@end smallexample
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@noindent
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is typically used to include a header file @file{file.h} that contains
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definitions and declarations for a standard library. This file would
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normally be installed in a standard place by your system administrator.
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You should use this second form for the C library header files.
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Typically, @samp{#include} directives are placed at the top of the C
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source file, before any other code. If you begin your source files with
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some comments explaining what the code in the file does (a good idea),
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put the @samp{#include} directives immediately afterwards, following the
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feature test macro definition (@pxref{Feature Test Macros}).
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For more information about the use of header files and @samp{#include}
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directives, @pxref{Header Files,,, cpp.info, The GNU C Preprocessor
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Manual}.@refill
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@Theglibc{} provides several header files, each of which contains
|
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the type and macro definitions and variable and function declarations
|
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for a group of related facilities. This means that your programs may
|
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need to include several header files, depending on exactly which
|
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facilities you are using.
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Some library header files include other library header files
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automatically. However, as a matter of programming style, you should
|
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not rely on this; it is better to explicitly include all the header
|
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files required for the library facilities you are using. The @glibcadj{}
|
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header files have been written in such a way that it doesn't
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matter if a header file is accidentally included more than once;
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including a header file a second time has no effect. Likewise, if your
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program needs to include multiple header files, the order in which they
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are included doesn't matter.
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@strong{Compatibility Note:} Inclusion of standard header files in any
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order and any number of times works in any @w{ISO C} implementation.
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However, this has traditionally not been the case in many older C
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implementations.
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Strictly speaking, you don't @emph{have to} include a header file to use
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a function it declares; you could declare the function explicitly
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yourself, according to the specifications in this manual. But it is
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usually better to include the header file because it may define types
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and macros that are not otherwise available and because it may define
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more efficient macro replacements for some functions. It is also a sure
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way to have the correct declaration.
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@node Macro Definitions, Reserved Names, Header Files, Using the Library
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@subsection Macro Definitions of Functions
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@cindex shadowing functions with macros
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@cindex removing macros that shadow functions
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@cindex undefining macros that shadow functions
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If we describe something as a function in this manual, it may have a
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macro definition as well. This normally has no effect on how your
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program runs---the macro definition does the same thing as the function
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would. In particular, macro equivalents for library functions evaluate
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arguments exactly once, in the same way that a function call would. The
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main reason for these macro definitions is that sometimes they can
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produce an inline expansion that is considerably faster than an actual
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function call.
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Taking the address of a library function works even if it is also
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defined as a macro. This is because, in this context, the name of the
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function isn't followed by the left parenthesis that is syntactically
|
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necessary to recognize a macro call.
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You might occasionally want to avoid using the macro definition of a
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function---perhaps to make your program easier to debug. There are
|
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two ways you can do this:
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@itemize @bullet
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@item
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You can avoid a macro definition in a specific use by enclosing the name
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of the function in parentheses. This works because the name of the
|
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function doesn't appear in a syntactic context where it is recognizable
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as a macro call.
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@item
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You can suppress any macro definition for a whole source file by using
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the @samp{#undef} preprocessor directive, unless otherwise stated
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explicitly in the description of that facility.
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@end itemize
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|
For example, suppose the header file @file{stdlib.h} declares a function
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named @code{abs} with
|
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@smallexample
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extern int abs (int);
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@end smallexample
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@noindent
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|
and also provides a macro definition for @code{abs}. Then, in:
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|
|
|
@smallexample
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#include <stdlib.h>
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int f (int *i) @{ return abs (++*i); @}
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@end smallexample
|
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|
|
@noindent
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the reference to @code{abs} might refer to either a macro or a function.
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On the other hand, in each of the following examples the reference is
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to a function and not a macro.
|
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|
|
@smallexample
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#include <stdlib.h>
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int g (int *i) @{ return (abs) (++*i); @}
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#undef abs
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int h (int *i) @{ return abs (++*i); @}
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@end smallexample
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|
Since macro definitions that double for a function behave in
|
|
exactly the same way as the actual function version, there is usually no
|
|
need for any of these methods. In fact, removing macro definitions usually
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|
just makes your program slower.
|
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|
|
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|
@node Reserved Names, Feature Test Macros, Macro Definitions, Using the Library
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|
@subsection Reserved Names
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|
@cindex reserved names
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|
@cindex name space
|
|
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|
The names of all library types, macros, variables and functions that
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|
come from the @w{ISO C} standard are reserved unconditionally; your program
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|
@strong{may not} redefine these names. All other library names are
|
|
reserved if your program explicitly includes the header file that
|
|
defines or declares them. There are several reasons for these
|
|
restrictions:
|
|
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|
@itemize @bullet
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|
@item
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|
Other people reading your code could get very confused if you were using
|
|
a function named @code{exit} to do something completely different from
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|
what the standard @code{exit} function does, for example. Preventing
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|
this situation helps to make your programs easier to understand and
|
|
contributes to modularity and maintainability.
|
|
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|
@item
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|
It avoids the possibility of a user accidentally redefining a library
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|
function that is called by other library functions. If redefinition
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|
were allowed, those other functions would not work properly.
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|
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|
@item
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|
It allows the compiler to do whatever special optimizations it pleases
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|
on calls to these functions, without the possibility that they may have
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|
been redefined by the user. Some library facilities, such as those for
|
|
dealing with variadic arguments (@pxref{Variadic Functions})
|
|
and non-local exits (@pxref{Non-Local Exits}), actually require a
|
|
considerable amount of cooperation on the part of the C compiler, and
|
|
with respect to the implementation, it might be easier for the compiler
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|
to treat these as built-in parts of the language.
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|
@end itemize
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|
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|
In addition to the names documented in this manual, reserved names
|
|
include all external identifiers (global functions and variables) that
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|
begin with an underscore (@samp{_}) and all identifiers regardless of
|
|
use that begin with either two underscores or an underscore followed by
|
|
a capital letter are reserved names. This is so that the library and
|
|
header files can define functions, variables, and macros for internal
|
|
purposes without risk of conflict with names in user programs.
|
|
|
|
Some additional classes of identifier names are reserved for future
|
|
extensions to the C language or the POSIX.1 environment. While using these
|
|
names for your own purposes right now might not cause a problem, they do
|
|
raise the possibility of conflict with future versions of the C
|
|
or POSIX standards, so you should avoid these names.
|
|
|
|
@itemize @bullet
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|
@item
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|
Names beginning with a capital @samp{E} followed a digit or uppercase
|
|
letter may be used for additional error code names. @xref{Error
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|
Reporting}.
|
|
|
|
@item
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|
Names that begin with either @samp{is} or @samp{to} followed by a
|
|
lowercase letter may be used for additional character testing and
|
|
conversion functions. @xref{Character Handling}.
|
|
|
|
@item
|
|
Names that begin with @samp{LC_} followed by an uppercase letter may be
|
|
used for additional macros specifying locale attributes.
|
|
@xref{Locales}.
|
|
|
|
@item
|
|
Names of all existing mathematics functions (@pxref{Mathematics})
|
|
suffixed with @samp{f} or @samp{l} are reserved for corresponding
|
|
functions that operate on @code{float} and @code{long double} arguments,
|
|
respectively.
|
|
|
|
@item
|
|
Names that begin with @samp{SIG} followed by an uppercase letter are
|
|
reserved for additional signal names. @xref{Standard Signals}.
|
|
|
|
@item
|
|
Names that begin with @samp{SIG_} followed by an uppercase letter are
|
|
reserved for additional signal actions. @xref{Basic Signal Handling}.
|
|
|
|
@item
|
|
Names beginning with @samp{str}, @samp{mem}, or @samp{wcs} followed by a
|
|
lowercase letter are reserved for additional string and array functions.
|
|
@xref{String and Array Utilities}.
|
|
|
|
@item
|
|
Names that end with @samp{_t} are reserved for additional type names.
|
|
@end itemize
|
|
|
|
In addition, some individual header files reserve names beyond
|
|
those that they actually define. You only need to worry about these
|
|
restrictions if your program includes that particular header file.
|
|
|
|
@itemize @bullet
|
|
@item
|
|
The header file @file{dirent.h} reserves names prefixed with
|
|
@samp{d_}.
|
|
@pindex dirent.h
|
|
|
|
@item
|
|
The header file @file{fcntl.h} reserves names prefixed with
|
|
@samp{l_}, @samp{F_}, @samp{O_}, and @samp{S_}.
|
|
@pindex fcntl.h
|
|
|
|
@item
|
|
The header file @file{grp.h} reserves names prefixed with @samp{gr_}.
|
|
@pindex grp.h
|
|
|
|
@item
|
|
The header file @file{limits.h} reserves names suffixed with @samp{_MAX}.
|
|
@pindex limits.h
|
|
|
|
@item
|
|
The header file @file{pwd.h} reserves names prefixed with @samp{pw_}.
|
|
@pindex pwd.h
|
|
|
|
@item
|
|
The header file @file{signal.h} reserves names prefixed with @samp{sa_}
|
|
and @samp{SA_}.
|
|
@pindex signal.h
|
|
|
|
@item
|
|
The header file @file{sys/stat.h} reserves names prefixed with @samp{st_}
|
|
and @samp{S_}.
|
|
@pindex sys/stat.h
|
|
|
|
@item
|
|
The header file @file{sys/times.h} reserves names prefixed with @samp{tms_}.
|
|
@pindex sys/times.h
|
|
|
|
@item
|
|
The header file @file{termios.h} reserves names prefixed with @samp{c_},
|
|
@samp{V}, @samp{I}, @samp{O}, and @samp{TC}; and names prefixed with
|
|
@samp{B} followed by a digit.
|
|
@pindex termios.h
|
|
@end itemize
|
|
|
|
@comment Include the section on Creature Nest Macros.
|
|
@include creature.texi
|
|
|
|
@node Roadmap to the Manual, , Using the Library, Introduction
|
|
@section Roadmap to the Manual
|
|
|
|
Here is an overview of the contents of the remaining chapters of
|
|
this manual.
|
|
|
|
@itemize @bullet
|
|
@item
|
|
@ref{Error Reporting}, describes how errors detected by the library
|
|
are reported.
|
|
|
|
@item
|
|
@ref{Language Features}, contains information about library support for
|
|
standard parts of the C language, including things like the @code{sizeof}
|
|
operator and the symbolic constant @code{NULL}, how to write functions
|
|
accepting variable numbers of arguments, and constants describing the
|
|
ranges and other properties of the numerical types. There is also a simple
|
|
debugging mechanism which allows you to put assertions in your code, and
|
|
have diagnostic messages printed if the tests fail.
|
|
|
|
@item
|
|
@ref{Memory}, describes @theglibc{}'s facilities for managing and
|
|
using virtual and real memory, including dynamic allocation of virtual
|
|
memory. If you do not know in advance how much memory your program
|
|
needs, you can allocate it dynamically instead, and manipulate it via
|
|
pointers.
|
|
|
|
@item
|
|
@ref{Character Handling}, contains information about character
|
|
classification functions (such as @code{isspace}) and functions for
|
|
performing case conversion.
|
|
|
|
@item
|
|
@ref{String and Array Utilities}, has descriptions of functions for
|
|
manipulating strings (null-terminated character arrays) and general
|
|
byte arrays, including operations such as copying and comparison.
|
|
|
|
@item
|
|
@ref{I/O Overview}, gives an overall look at the input and output
|
|
facilities in the library, and contains information about basic concepts
|
|
such as file names.
|
|
|
|
@item
|
|
@ref{I/O on Streams}, describes I/O operations involving streams (or
|
|
@w{@code{FILE *}} objects). These are the normal C library functions
|
|
from @file{stdio.h}.
|
|
|
|
@item
|
|
@ref{Low-Level I/O}, contains information about I/O operations
|
|
on file descriptors. File descriptors are a lower-level mechanism
|
|
specific to the Unix family of operating systems.
|
|
|
|
@item
|
|
@ref{File System Interface}, has descriptions of operations on entire
|
|
files, such as functions for deleting and renaming them and for creating
|
|
new directories. This chapter also contains information about how you
|
|
can access the attributes of a file, such as its owner and file protection
|
|
modes.
|
|
|
|
@item
|
|
@ref{Pipes and FIFOs}, contains information about simple interprocess
|
|
communication mechanisms. Pipes allow communication between two related
|
|
processes (such as between a parent and child), while FIFOs allow
|
|
communication between processes sharing a common file system on the same
|
|
machine.
|
|
|
|
@item
|
|
@ref{Sockets}, describes a more complicated interprocess communication
|
|
mechanism that allows processes running on different machines to
|
|
communicate over a network. This chapter also contains information about
|
|
Internet host addressing and how to use the system network databases.
|
|
|
|
@item
|
|
@ref{Low-Level Terminal Interface}, describes how you can change the
|
|
attributes of a terminal device. If you want to disable echo of
|
|
characters typed by the user, for example, read this chapter.
|
|
|
|
@item
|
|
@ref{Mathematics}, contains information about the math library
|
|
functions. These include things like random-number generators and
|
|
remainder functions on integers as well as the usual trigonometric and
|
|
exponential functions on floating-point numbers.
|
|
|
|
@item
|
|
@ref{Arithmetic,, Low-Level Arithmetic Functions}, describes functions
|
|
for simple arithmetic, analysis of floating-point values, and reading
|
|
numbers from strings.
|
|
|
|
@item
|
|
@ref{Searching and Sorting}, contains information about functions
|
|
for searching and sorting arrays. You can use these functions on any
|
|
kind of array by providing an appropriate comparison function.
|
|
|
|
@item
|
|
@ref{Pattern Matching}, presents functions for matching regular expressions
|
|
and shell file name patterns, and for expanding words as the shell does.
|
|
|
|
@item
|
|
@ref{Date and Time}, describes functions for measuring both calendar time
|
|
and CPU time, as well as functions for setting alarms and timers.
|
|
|
|
@item
|
|
@ref{Character Set Handling}, contains information about manipulating
|
|
characters and strings using character sets larger than will fit in
|
|
the usual @code{char} data type.
|
|
|
|
@item
|
|
@ref{Locales}, describes how selecting a particular country
|
|
or language affects the behavior of the library. For example, the locale
|
|
affects collation sequences for strings and how monetary values are
|
|
formatted.
|
|
|
|
@item
|
|
@ref{Non-Local Exits}, contains descriptions of the @code{setjmp} and
|
|
@code{longjmp} functions. These functions provide a facility for
|
|
@code{goto}-like jumps which can jump from one function to another.
|
|
|
|
@item
|
|
@ref{Signal Handling}, tells you all about signals---what they are,
|
|
how to establish a handler that is called when a particular kind of
|
|
signal is delivered, and how to prevent signals from arriving during
|
|
critical sections of your program.
|
|
|
|
@item
|
|
@ref{Program Basics}, tells how your programs can access their
|
|
command-line arguments and environment variables.
|
|
|
|
@item
|
|
@ref{Processes}, contains information about how to start new processes
|
|
and run programs.
|
|
|
|
@item
|
|
@ref{Job Control}, describes functions for manipulating process groups
|
|
and the controlling terminal. This material is probably only of
|
|
interest if you are writing a shell or other program which handles job
|
|
control specially.
|
|
|
|
@item
|
|
@ref{Name Service Switch}, describes the services which are available
|
|
for looking up names in the system databases, how to determine which
|
|
service is used for which database, and how these services are
|
|
implemented so that contributors can design their own services.
|
|
|
|
@item
|
|
@ref{User Database}, and @ref{Group Database}, tell you how to access
|
|
the system user and group databases.
|
|
|
|
@item
|
|
@ref{System Management}, describes functions for controlling and getting
|
|
information about the hardware and software configuration your program
|
|
is executing under.
|
|
|
|
@item
|
|
@ref{System Configuration}, tells you how you can get information about
|
|
various operating system limits. Most of these parameters are provided for
|
|
compatibility with POSIX.
|
|
|
|
@item
|
|
@ref{Library Summary}, gives a summary of all the functions, variables, and
|
|
macros in the library, with complete data types and function prototypes,
|
|
and says what standard or system each is derived from.
|
|
|
|
@item
|
|
@ref{Installation}, explains how to build and install @theglibc{} on
|
|
your system, and how to report any bugs you might find.
|
|
|
|
@item
|
|
@ref{Maintenance}, explains how to add new functions or port the
|
|
library to a new system.
|
|
@end itemize
|
|
|
|
If you already know the name of the facility you are interested in, you
|
|
can look it up in @ref{Library Summary}. This gives you a summary of
|
|
its syntax and a pointer to where you can find a more detailed
|
|
description. This appendix is particularly useful if you just want to
|
|
verify the order and type of arguments to a function, for example. It
|
|
also tells you what standard or system each function, variable, or macro
|
|
is derived from.
|