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ASCI C - C89 Standard - https://web.archive.org/web/20161223125339/http://flash-gordon.me.uk/ansi.c.txt
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(This foreword is not a part of American National Standard for | |
Information Systems --- Programming Language C, X3.???-1988.) | |
American National Standard Programming Language C specifies the | |
syntax and semantics of programs written in the C programming | |
language. It specifies the C program's interactions with the | |
execution environment via input and output data. It also specifies | |
restrictions and limits imposed upon conforming implementations of C | |
language translators. | |
The standard was developed by the X3J11 Technical Committee on the | |
C Programming Language under project 381-D by American National | |
Standards Committee on Computers and Information Processing (X3). | |
SPARC document number 83-079 describes the purpose of this project to | |
``provide an unambiguous and machine-independent definition of the | |
language C.'' | |
The need for a single clearly defined standard had arisen in the C | |
community due to a rapidly expanding use of the C programming language | |
and the variety of differing translator implementations that had been | |
and were being developed. The existence of similar but incompatible | |
implementations was a serious problem for program developers who | |
wished to develop code that would compile and execute as expected in | |
several different environments. | |
Part of this problem could be traced to the fact that implementors | |
did not have an adequate definition of the C language upon which to | |
base their implementations. The de facto C programming language | |
standard, The C Programming Language by Brian W. Kernighan and Dennis | |
M. Ritchie, is an excellent book; however, it is not precise or | |
complete enough to specify the C language fully. In addition, the | |
language has grown over years of use to incorporate new ideas in | |
programming and to address some of the weaknesses of the original | |
language. | |
American National Standard Programming Language C addresses the | |
problems of both the program developer and the translator implementor | |
by specifying the C language precisely. | |
The work of X3J11 began in the summer of 1983, based on the several | |
documents that were made available to the Committee (see $1.5, Base | |
Documents). The Committee divided the effort into three pieces: the | |
environment, the language, and the library. A complete specification | |
in each of these areas is necessary if truly portable programs are to | |
be developed. Each of these areas is addressed in the Standard. The | |
Committee evaluated many proposals for additions, deletions, and | |
changes to the base documents during its deliberations. A concerted | |
effort was made to codify existing practice wherever unambiguous and | |
consistent practice could be identified. However, where no consistent | |
practice could be identified, the Committee worked to establish clear | |
rules that were consistent with the overall flavor of the language. | |
This document was approved as an American National Standard by the | |
American National Standards Institute (ANSI) on DD MM, 1988. | |
Suggestions for improvement of this Standard are welcome. They should | |
be sent to the American National Standards Institute, 1430 Broadway, | |
New York, NY 10018. | |
The Standard was processed and approved for submittal to ANSI by | |
the American National Standards Committee on Computers and Information | |
Processing, X3. Committee approval of the Standard does not | |
necessarily imply that all members voted for its approval. At the | |
time that it approved this Standard, the X3 Committee had the | |
following members: | |
Organization Name of Representative | |
(To be completed on approval of the Standard.) | |
Technical Committee X3J11 on the C Programming Language had the | |
following members at the time they forwarded this document to X3 for | |
processing as an American National Standard: | |
Chair | |
Jim Brodie | |
Vice-Chair | |
Thomas Plum Plum Hall Secretary | |
P. J. Plauger Whitesmiths, Ltd. | |
International Representative | |
P. J. Plauger Whitesmiths, Ltd. | |
Steve Hersee Lattice, Inc. | |
Vocabulary Representative | |
Andrew Johnson Prime Computer | |
Environment Subcommittee Chairs | |
Ralph Ryan Microsoft | |
Ralph Phraner Phraner Associates | |
Language Subcommittee Chair | |
Lawrence Rosler AT&T | |
Library Subcommittee Chair | |
P. J. Plauger Whitesmiths, Ltd. | |
Draft Redactor | |
David F. Prosser AT&T | |
Lawrence Rosler AT&T | |
Rationale Redactor | |
Randy Hudson Intermetrics, Inc. | |
In the following list, unmarked names denote principal members and * | |
denotes alternate members. | |
David F. Prosser, AT&T | |
Steven J. Adamski, AT&T* (X3H2 SQL liaison) | |
Bob Gottlieb, Alliant Computer Systems | |
Kevin Brosnan, Alliant Computer Systems | |
Neal Weidenhofer, Amdahl | |
Philip C. Steel, American Cimflex | |
Eric McGlohon, American Cimflex* | |
Stephen Kafka, Analog Devices | |
Kevin Leary, Analog Devices* | |
Gordon Sterling, Analog Devices* | |
John Peyton, Apollo Computer | |
Elizabeth Crockett, Apple Computers | |
Ed Wells, Arinc | |
Tom Ketterhagen, Arinc* | |
Vaughn Vernon, Aspen Scientific | |
Craig Bordelon, Bell Communications Research | |
Steve Carter, Bell Communications Research* | |
William Puig, Bell Communications Research* | |
Bob Jervis, Borland International | |
Yom-Tov Meged, Boston Systems Office | |
Rose Thomson, Boston Systems Office* | |
Maurice Fathi, COSMIC | |
John Wu, Charles River Data Systems | |
Daniel Mickey, Chemical Abstracts Service | |
Thomas Mimlitch, Chemical Abstracts Service* | |
Alan Losoff, Chicago Research & Trading Group | |
Edward Briggs, Citibank | |
Firmo Freire, Cobra S/A | |
Jim Patterson, Cognos | |
Bruce Tetelman, Columbia U. Center for Computing | |
Terry Moore, CompuDas | |
Mark Barrenechea, Computer Associates | |
George Eberhardt, Computer Innovations | |
Dave Neathery, Computer Innovations* | |
Joseph Bibbo, Computrition | |
Steve Davies, Concurrent Computer Corporation | |
Don Fosbury, Control Data | |
George VandeBunte, Control Data* | |
Lloyd Irons, Cormorant Communications | |
Tom MacDonald, Cray Research | |
Lynne Johnson, Cray Research* | |
Dave Becker, Cray Research* | |
Jean Risley, Custom Development Environments | |
Rex Jaeschke, DEC Professional | |
Mike Terrazas, DECUS Representative | |
Michael Meissner, Data General | |
Mark Harris, Data General* | |
Leonard Ohmes, Datapoint | |
James Stanley, Data Systems Analysts | |
Samuel J. Kendall, Delft Consulting | |
Randy Meyers, Digital Equipment Corporation | |
Art Bjork, Digital Equipment Corporation* | |
Lu Anne Van de Pas, Digital Equipment Corporation* | |
Ben Patel, EDS | |
Richard Relph, EPI | |
Graham Andrews, Edinburgh Portable Compilers | |
Colin McPhail, Edinburgh Portable Compilers* | |
J. Stephen Adamczyk, Edison Design Group | |
Eric Schwarz, Edison Design Group* | |
Dmitry Lenkov, Everest Solutions | |
Frank Farance, Farance Inc. | |
Peter Hayes, Farance Inc.* | |
Florin Jordan, Floradin | |
Philip Provin, General Electric Information Services | |
Liz Sanville, Gould CSD | |
Tina Aleksa, Gould CSD* | |
Thomas Kelly, HCR Corporation | |
Paul Jackson, HCR Corporation* | |
Gary Jeter, Harris Computer Systems | |
Sue Meloy, Hewlett Packard | |
Larry Rosler, Hewlett Packard* | |
Michelle Ruscetta, Hewlett Packard* | |
Thomas E. Osten, Honeywell Information Systems | |
David Kayden, Honeywell Information Systems* | |
Shawn Elliott, IBM | |
Larry Breed, IBM* | |
Mel Goldberg, IBM* | |
Mike Banahan, Instruction Set | |
Clark Nelson, Intel | |
Dan Lau, Intel* | |
John Wolfe, InterACT | |
Lillian Toll, InterACT* | |
Randy Hudson, Intermetrics | |
Keith Winter, International Computers Ltd. | |
Honey M. Schrecker, International Computers Ltd.* | |
Jim Brodie, J. Brodie & Associates | |
Jacklin Kotikian, Kendall Square Research | |
W. Peter Hesse, LSI Logic Europe Ltd. | |
John Kaminski, Language Processors Inc. | |
David Yost, Laurel Arts | |
Mike Branstetter, Lawrence Livermore National Laboratory | |
Bob Weaver, Los Alamos National Laboratory | |
Lidia Eberhart, Modcomp | |
Robert Sherry, Manx Software | |
Courtney Meissen, Mark Williams Co. | |
Patricia Jenkins, Masscomp | |
Dave Hinman, Masscomp* | |
Michael Kearns, MetaLink | |
Tom Pennello, MetaWare Incorporated | |
David F. Weil, Microsoft | |
Mitch Harder, Microsoft* | |
Kim Kempf, Microware Systems | |
Shane McCarron, Minnesota Educational Computing | |
Bruce Olsen, Mosaic Technologies | |
Michael Paton, Motorola | |
Rick Schubert, NCR | |
Brian Johnson, NCR* | |
Joseph Mueller, National Semiconductor | |
Derek Godfrey, National Semiconductor* | |
Jim Upperman, National Bureau of Standards | |
James W. Williams, Naval Research Laboratory | |
Lisa Simon, OCLC | |
Paul Amaranth, Oakland University | |
August R. Hansen, Omniware | |
Michael Rolle, Oracle | |
Carl Ellis, Oregon Software | |
Barry Hedquist, Perennial | |
Sassan Hazeghi, Peritus International | |
James Holmlund, Peritus International* | |
Thomas Plum, Plum Hall | |
Christopher Skelly, Plum Hall* | |
Andrew Johnson, Prime Computer | |
Fran Litterio, Prime Computer* | |
Daniel J. Conrad, Prismatics | |
David Fritz, Production Languages | |
Kenneth Pugh, Pugh | |
Killeen Ed Ramsey, Purdue University | |
Stephen Roberts, Purdue University* | |
Kevin Nolan, Quantitative Technology Corp. | |
Robert Mueller, Quantitative Technology Corp.* | |
Chris DeVoney, Que Corporation | |
Jon Tulk, Rabbit Software | |
Terry Colligan, Rational Systems | |
Daniel Saks, Saks & Associates | |
Nancy Saks, Saks & Associates* | |
Oliver Bradley, SAS Institute | |
Alan Beale, SAS Institute* | |
Larry Jones, SDRC | |
Donald Kossman, SEI Information Technology | |
Kenneth Harrenstien, SRI International | |
Larry Rosenthal, Sierra Systems | |
Phil Hempfner, Southern Bell Telephone | |
Purshotam Rajani, Spruce Technology | |
Savu Savulescu, Stagg Systems | |
Peter Darnell, Stellar Computer | |
Lee W. Cooprider, Stellar Computer* | |
Paul Gilmartin, Storage Technology Corp. | |
Steve Muchnick, Sun Microsystems | |
Chuck Rasbold, Supercomputer Systems, Inc. | |
Kelly O'Hair, Supercomputer Systems, Inc.* | |
Henry Richardson, Tandem | |
John M. Hausman, Tandem* | |
Samuel Harbison, Tartan Laboratories | |
Michael S. Ball, TauMetric | |
Carl Sutton, Tektronix | |
Jim Besemer, Tektronix* | |
Reid Tatge, Texas Instruments | |
Ed Brower, Tokheim | |
Robert Mansfield, Tokheim* | |
Monika Khushf, Tymlabs | |
Morgan Jones, Tymlabs* | |
Don Bixler, Unisys | |
Steve Bartels, Unisys* | |
Glenda Berkheimer, Unisys* | |
Annice Jackson, Unisys* | |
Fred Blonder, University of Maryland | |
Fred Schwarz, University of Michigan | |
R. Jordan Kreindler, University of Southern California CTC | |
Mike Carmody, University of Waterloo | |
Douglas Gwyn, US Army BRL (IEEE P1003 liaison) | |
C. Dale Pierce, US Army Management Engineering* | |
John C. Black, VideoFinancial | |
Joseph Musacchia, Wang Labs | |
Fred Rozakis, Wang Labs* | |
P. J. Plauger, Whitesmiths, Ltd. | |
Kim Leeper, Wick Hill | |
Mark Wittenberg, Zehntel | |
Jim Balter | |
Robert Bradbury | |
Edward Chin | |
Neil Daniels | |
Stephen Desofi | |
Michael Duffy | |
Phillip Escue | |
Ralph Phraner | |
D. Hugh Redelmeier | |
Arnold Davi | |
Robbins Roger | |
Wilks Michael | |
J. Young | |
purpose: 1.1 | |
scope: 1.2 | |
references: 1.3 | |
organization of the document: 1.4 | |
base documents: 1.5 | |
definitions of terms: 1.6 | |
compliance: 1.7 | |
translation environment: 2. | |
execution environment: 2. | |
separate compilation: 2.1.1.1 | |
separate translation: 2.1.1.1 | |
source file: 2.1.1.1 | |
translation unit: 2.1.1.1 | |
program execution: 2.1.2.3 | |
side effects: 2.1.2.3 | |
sequence point: 2.1.2.3 | |
character set: 2.2.1 | |
signals: 2.2.3 | |
interrupts: 2.2.3 | |
syntax notation: 3. | |
lexical elements: 3.1 | |
comment: 3.1 | |
white space: 3.1 | |
list of keywords: 3.1.1 | |
reserved words: 3.1.1 | |
underscore character: 3.1.2 | |
enumeration constant: 3.1.2 | |
length of names: 3.1.2 | |
internal name, length of: 3.1.2 | |
external name, length of: 3.1.2 | |
function name, length of: 3.1.2 | |
scopes: 3.1.2.1 | |
prototype, function: 3.1.2.1 | |
function scope: 3.1.2.1 | |
file scope: 3.1.2.1 | |
block scope: 3.1.2.1 | |
block structure: 3.1.2.1 | |
function prototype scope: 3.1.2.1 | |
linkage: 3.1.2.2 | |
external linkage: 3.1.2.2 | |
internal linkage: 3.1.2.2 | |
no linkage: 3.1.2.2 | |
name spaces: 3.1.2.3 | |
named label: 3.1.2.3 | |
structure tag: 3.1.2.3 | |
union tag: 3.1.2.3 | |
enumeration tag: 3.1.2.3 | |
structure member name: 3.1.2.3 | |
union member name: 3.1.2.3 | |
storage duration: 3.1.2.4 | |
static storage duration: 3.1.2.4 | |
automatic storage duration: 3.1.2.4 | |
types: 3.1.2.5 | |
object types: 3.1.2.5 | |
function types: 3.1.2.5 | |
incomplete types: 3.1.2.5 | |
char type: 3.1.2.5 | |
signed character: 3.1.2.5 | |
signed char type: 3.1.2.5 | |
short type: 3.1.2.5 | |
long type: 3.1.2.5 | |
unsigned type: 3.1.2.5 | |
float type: 3.1.2.5 | |
double type: 3.1.2.5 | |
long double type: 3.1.2.5 | |
basic types: 3.1.2.5 | |
character types: 3.1.2.5 | |
enumerated type: 3.1.2.5 | |
void type: 3.1.2.5 | |
derived types: 3.1.2.5 | |
integral types: 3.1.2.5 | |
arithmetic types: 3.1.2.5 | |
scalar types: 3.1.2.5 | |
aggregate types: 3.1.2.5 | |
constants: 3.1.3 | |
floating constant: 3.1.3.1 | |
double constant: 3.1.3.1 | |
integer constant: 3.1.3.2 | |
decimal constant: 3.1.3.2 | |
octal constant: 3.1.3.2 | |
hexadecimal constant: 3.1.3.2 | |
unsigned constant: 3.1.3.2 | |
long constant: 3.1.3.2 | |
enumeration constant: 3.1.3.3 | |
character constant: 3.1.3.4 | |
backslash character: 3.1.3.4 | |
escape character: 3.1.3.4 | |
escape sequence: 3.1.3.4 | |
string literal: 3.1.4 | |
character string: 3.1.4 | |
operator: 3.1.5 | |
evaluation: 3.1.5 | |
operand: 3.1.5 | |
punctuator: 3.1.6 | |
character-integer conversion: 3.2.1.1 | |
integer-character conversion: 3.2.1.1 | |
integral promotions: 3.2.1.1 | |
integer-long conversion: 3.2.1.1 | |
signed character: 3.2.1.1 | |
unsigned-integer conversion: 3.2.1.2 | |
integer-unsigned conversion: 3.2.1.2 | |
long-unsigned conversion: 3.2.1.2 | |
long-integer conversion: 3.2.1.2 | |
floating-integer conversion: 3.2.1.3 | |
integer-floating conversion: 3.2.1.3 | |
float-double conversion: 3.2.1.4 | |
double-float conversion: 3.2.1.4 | |
arithmetic conversions: 3.2.1.5 | |
type conversion rules: 3.2.1.5 | |
lvalue: 3.2.2.1 | |
function designator: 3.2.2.1 | |
conversion of array: 3.2.2.1 | |
conversion of function name: 3.2.2.1 | |
void type: 3.2.2.2 | |
pointer-pointer conversion: 3.2.2.3 | |
integer-pointer conversion: 3.2.2.3 | |
null pointer: 3.2.2.3 | |
expression: 3.3 | |
precedence of operators: 3.3 | |
associativity of operators: 3.3 | |
order of evaluation of expressions: 3.3 | |
order of evaluation: 3.3 | |
bitwise operators: 3.3 | |
exceptions: 3.3 | |
primary expression: 3.3.1 | |
type of string: 3.3.1 | |
parenthesized expression: 3.3.1 | |
subscript operator: 3.3.2 | |
function call: 3.3.2 | |
structure member operator: 3.3.2 | |
structure pointer operator: 3.3.2 | |
++ increment operator: 3.3.2 | |
-- decrement operator: 3.3.2 | |
array, explanation of subscripting: 3.3.2.1 | |
subscripting, explanation of: 3.3.2.1 | |
multi-dimensional array: 3.3.2.1 | |
storage order of array: 3.3.2.1 | |
function call: 3.3.2.2 | |
implicit declaration of function: 3.3.2.2 | |
function argument: 3.3.2.2 | |
call by value: 3.3.2.2 | |
recursion: 3.3.2.2 | |
structure reference: 3.3.2.3 | |
union reference: 3.3.2.3 | |
common initial sequence: 3.3.2.3 | |
postfix ++ and --: 3.3.2.4 | |
-- decrement operator: 3.3.2.4 | |
unary expression: 3.3.3 | |
++ increment operator: 3.3.3 | |
-- decrement operator: 3.3.3 | |
sizeof operator: 3.3.3 | |
& address operator: 3.3.3 | |
* indirection operator: 3.3.3 | |
+ unary plus operator: 3.3.3 | |
- unary minus operator: 3.3.3 | |
~ bitwise complement operator: 3.3.3 | |
! logical negation operator: 3.3.3 | |
++ increment operator: 3.3.3.1 | |
prefix ++ and --: 3.3.3.1 | |
-- decrement operator: 3.3.3.1 | |
+ unary plus operator: 3.3.3.3 | |
- unary minus operator: 3.3.3.3 | |
~ bitwise complement operator: 3.3.3.3 | |
! logical negation operator: 3.3.3.3 | |
byte: 3.3.3.4 | |
storage allocator: 3.3.3.4 | |
cast expression: 3.3.4 | |
cast operator: 3.3.4 | |
explicit conversion operator: 3.3.4 | |
cast operator: 3.3.4 | |
pointer conversion: 3.3.4 | |
explicit conversion operator: 3.3.4 | |
pointer-integer conversion: 3.3.4 | |
integer-pointer conversion: 3.3.4 | |
alignment restriction: 3.3.4 | |
arithmetic operators: 3.3.5 | |
multiplicative operators: 3.3.5 | |
* multiplication operator: 3.3.5 | |
/ division operator: 3.3.5 | |
% modulus operator: 3.3.5 | |
additive operators: 3.3.6 | |
+ addition operator: 3.3.6 | |
- subtraction operator: 3.3.6 | |
pointer arithmetic: 3.3.6 | |
pointer arithmetic: 3.3.6 | |
shift operators: 3.3.7 | |
<< left shift operator: 3.3.7 | |
>> right shift operator: 3.3.7 | |
relational operators: 3.3.8 | |
< less than operator: 3.3.8 | |
> greater than operator: 3.3.8 | |
<= less than or equal to operator: 3.3.8 | |
>= greater than or equal to operator: 3.3.8 | |
pointer comparison: 3.3.8 | |
equality operators: 3.3.9 | |
== equality operator: 3.3.9 | |
!= inequality operator: 3.3.9 | |
& bitwise AND operator: 3.3.10 | |
^ bitwise exclusive OR operator: 3.3.11 | |
| bitwise inclusive OR operator: 3.3.12 | |
&& logical AND operator: 3.3.13 | |
|| logical OR operator: 3.3.14 | |
?: conditional expression: 3.3.15 | |
assignment operators: 3.3.16 | |
assignment expression: 3.3.16 | |
simple assignment: 3.3.16.1 | |
conversion by assignment: 3.3.16.1 | |
compound assignment: 3.3.16.2 | |
comma operator: 3.3.17 | |
constant expression: 3.4 | |
permitted form of initializer: 3.4 | |
declarations: 3.5 | |
storage-class specifier: 3.5.1 | |
storage-class declaration: 3.5.1 | |
typedef declaration: 3.5.1 | |
extern storage class: 3.5.1 | |
static storage class: 3.5.1 | |
auto storage class: 3.5.1 | |
register storage class: 3.5.1 | |
type specifier: 3.5.2 | |
void type: 3.5.2 | |
char type: 3.5.2 | |
short type: 3.5.2 | |
int type: 3.5.2 | |
long type: 3.5.2 | |
float type: 3.5.2 | |
double type: 3.5.2 | |
signed type: 3.5.2 | |
unsigned type: 3.5.2 | |
structure declaration: 3.5.2.1 | |
union declaration: 3.5.2.1 | |
bit-field declaration: 3.5.2.1 | |
bit-field: 3.5.2.1 | |
member alignment: 3.5.2.1 | |
enumeration: 3.5.2.2 | |
enum-specifier: 3.5.2.2 | |
enumerator: 3.5.2.2 | |
structure tag: 3.5.2.3 | |
union tag: 3.5.2.3 | |
structure content: 3.5.2.3 | |
union content: 3.5.2.3 | |
enumeration content: 3.5.2.3 | |
self-referential structure: 3.5.2.3 | |
type qualifier: 3.5.3 | |
const type qualifier: 3.5.3 | |
volatile type qualifier: 3.5.3 | |
declarator: 3.5.4 | |
type declaration: 3.5.4 | |
declaration of pointer: 3.5.4.1 | |
array declaration: 3.5.4.2 | |
declaration of function: 3.5.4.3 | |
type names: 3.5.5 | |
abstract declarator: 3.5.5 | |
typedef declaration: 3.5.6 | |
initialization: 3.5.7 | |
initialization of statics: 3.5.7 | |
implicit initialization: 3.5.7 | |
default initialization: 3.5.7 | |
initialization of automatics: 3.5.7 | |
aggregate initialization: 3.5.7 | |
array initialization: 3.5.7 | |
structure initialization: 3.5.7 | |
character array initialization: 3.5.7 | |
wchar_t array initialization: 3.5.7 | |
statements: 3.6 | |
sequencing of statements: 3.6 | |
full expression: 3.6 | |
labeled statement: 3.6.1 | |
named label: 3.6.1 | |
case label: 3.6.1 | |
default label: 3.6.1 | |
compound statement: 3.6.2 | |
block: 3.6.2 | |
block structure: 3.6.2 | |
initialization in blocks: 3.6.2 | |
expression statement: 3.6.3 | |
null statement: 3.6.3 | |
empty statement: 3.6.3 | |
if-else statement: 3.6.4.1 | |
switch statement: 3.6.4.2 | |
switch body: 3.6.4.2 | |
loop body: 3.6.5 | |
while statement: 3.6.5.1 | |
do statement: 3.6.5.2 | |
for statement: 3.6.5.3 | |
goto statement: 3.6.6.1 | |
continue statement: 3.6.6.2 | |
break statement: 3.6.6.3 | |
return statement: 3.6.6.4 | |
type conversion by return: 3.6.6.4 | |
conversion by return: 3.6.6.4 | |
external definition: 3.7 | |
function definition: 3.7.1 | |
parameter: 3.7.1 | |
array argument: 3.7.1 | |
function name argument: 3.7.1 | |
pointer to function: 3.7.1 | |
object definitions: 3.7.2 | |
scope of externals: 3.7.2 | |
tentative definition: 3.7.2 | |
preprocessing directives: 3.8 | |
macro preprocessor: 3.8 | |
preprocessing directive lines: 3.8 | |
conditional inclusion: 3.8.1 | |
#if: 3.8.1 | |
#elif 3.8.1 | |
#ifdef: 3.8.1 | |
#ifndef: 3.8.1 | |
#else: 3.8.1 | |
#endif: 3.8.1 | |
#include: 3.8.2 | |
source file inclusion: 3.8.2 | |
macro replacement: 3.8.3 | |
object-like macro: 3.8.3 | |
function-like macro: 3.8.3 | |
macro name: 3.8.3 | |
#define: 3.8.3 | |
macro parameters: 3.8.3 | |
macro invocation: 3.8.3 | |
argument substitution: 3.8.3.1 | |
# operator: 3.8.3.2 | |
## operator: 3.8.3.3 | |
rescanning and replacement: 3.8.3.4 | |
macro definition scope: 3.8.3.5 | |
#undef: 3.8.3.5 | |
#line: 3.8.4 | |
error directive: 3.8.5 | |
pragma directive: 3.8.6 | |
null directive: 3.8.7 | |
introduction: 4.1 | |
string definition: 4.1.1 | |
letter definition: 4.1.1 | |
decimal-point definition: 4.1.1 | |
reserved identifier: 4.1.2 | |
printing character: 4.3 | |
control character: 4.3 | |
variable arguments: 4.8 | |
unbuffered stream: 4.9.3 | |
fully buffered stream: 4.9.3 | |
line buffered stream: 4.9.3 | |
appendices: A. | |
language syntax summary: A.1 | |
sequence points: A.2 | |
library summary: A.3 | |
implementation limits: A.4 | |
warnings: A.5 | |
portability: A.6 | |
order of evaluation: A.6.1 | |
machine dependency: A.6.3 | |
restrictions on registers: A.6.3.7 | |
function pointer casts: A.6.5.7 | |
bit-field types: A.6.5.8 | |
fortran keyword: A.6.5.9 | |
asm keyword: A.6.5.10 | |
multiple external definitions: A.6.5.11 | |
empty macro arguments: A.6.5.12 | |
predefined macro names: A.6.5.13 | |
signal handler arguments: A.6.5.14 | |
stream types: A.6.5.15 | |
file-opening modes: A.6.5.15 | |
file position indicator: A.6.5.16 | |
foreword: A.7 | |
1. INTRODUCTION | |
1.1 PURPOSE | |
This Standard specifies the form and establishes the interpretation | |
of programs written in the C programming language./1/ | |
1.2 SCOPE | |
This Standard specifies: | |
* the representation of C programs; | |
* the syntax and constraints of the C language; | |
* the semantic rules for interpreting C programs; | |
* the representation of input data to be processed by C programs; | |
* the representation of output data produced by C programs; | |
* the restrictions and limits imposed by a conforming implementation of C. | |
This Standard does not specify: | |
* the mechanism by which C programs are transformed for use by a | |
data-processing system; | |
* the mechanism by which C programs are invoked for use by a | |
data-processing system; | |
* the mechanism by which input data are transformed for use by a C program; | |
* the mechanism by which output data are transformed after being | |
produced by a C program; | |
* the size or complexity of a program and its data that will exceed | |
the capacity of any specific data-processing system or the capacity of | |
a particular processor; | |
* all minimal requirements of a data-processing system that is | |
capable of supporting a conforming implementation. | |
1.3 REFERENCES | |
1. ``The C Reference Manual'' by Dennis M. Ritchie, a version of | |
which was published in The C Programming Language by Brian | |
W. Kernighan and Dennis M. Ritchie, Prentice-Hall, Inc., (1978). | |
Copyright owned by AT&T. | |
2. 1984 /usr/group Standard by the /usr/group Standards Committee, | |
Santa Clara, California, USA (November, 1984). | |
3. American National Dictionary for Information Processing Systems, | |
Information Processing Systems Technical Report ANSI X3/TR-1-82 (1982). | |
4. ISO 646-1983 Invariant Code Set. | |
5. IEEE Standard for Binary Floating-Point Arithmetic (ANSI/IEEE Std 754-1985). | |
6. ISO 4217 Codes for the Representation of Currency and Funds. | |
1.4 ORGANIZATION OF THE DOCUMENT | |
This document is divided into four major sections: | |
1. this introduction; | |
2. the characteristics of environments that translate and execute C programs; | |
3. the language syntax, constraints, and semantics; | |
4. the library facilities. | |
Examples are provided to illustrate possible forms of the | |
constructions described. Footnotes are provided to emphasize | |
consequences of the rules described in the section or elsewhere in the | |
Standard. References are used to refer to other related sections. A | |
set of appendices summarizes information contained in the Standard. | |
The abstract, the foreword, the examples, the footnotes, the | |
references, and the appendices are not part of the Standard. | |
1.5 BASE DOCUMENTS | |
The language section ($3) is derived from ``The C Reference | |
Manual'' by Dennis M. Ritchie, a version of which was published as | |
Appendix A of The C Programming Language by Brian W. Kernighan and | |
Dennis M. Ritchie, Prentice-Hall, Inc., 1978; copyright owned by AT&T. | |
The library section ($4) is based on the 1984 /usr/group Standard by | |
the /usr/group Standards Committee, Santa Clara, California, USA | |
(November 14, 1984). | |
1.6 DEFINITIONS OF TERMS | |
In this Standard, ``shall'' is to be interpreted as a requirement | |
on an implementation or on a program; conversely, ``shall not'' is to | |
be interpreted as a prohibition. | |
The following terms are used in this document: | |
* Implementation --- a particular set of software, running in a | |
particular translation environment under particular control options, | |
that performs translation of programs for, and supports execution of | |
functions in, a particular execution environment. | |
* Bit --- the unit of data storage in the execution environment large | |
enough to hold an object that may have one of two values. It need not | |
be possible to express the address of each individual bit of an | |
object. | |
* Byte --- the unit of data storage in the execution environment | |
large enough to hold any member of the basic character set of the | |
execution environment. It shall be possible to express the address of | |
each individual byte of an object uniquely. A byte is composed of a | |
contiguous sequence of bits, the number of which is | |
implementation-defined. The least significant bit is called the | |
low-order bit; the most significant bit is called the high-order bit. | |
* Object --- a region of data storage in the execution environment, | |
the contents of which can represent values. Except for bit-fields, | |
objects are composed of contiguous sequences of one or more bytes, the | |
number, order, and encoding of which are either explicitly specified | |
or implementation-defined. | |
* Character --- a single byte representing a member of the basic | |
character set of either the source or the execution environment. | |
* Multibyte character --- a sequence of one or more bytes | |
representing a member of the extended character set of either the | |
source or the execution environment. The extended character set is a | |
superset of the basic character set. | |
* Alignment --- a requirement that objects of a particular type be | |
located on storage boundaries with addresses that are particular | |
multiples of a byte address. | |
* Argument --- an expression in the comma-separated list bounded by | |
the parentheses in a function call expression, or a sequence of | |
preprocessing tokens in the comma-separated list bounded by the | |
parentheses in a function-like macro invocation. Also known as | |
``actual argument'' or ``actual parameter.'' | |
* Parameter --- an object declared as part of a function declaration | |
or definition that acquires a value on entry to the function, or an | |
identifier from the comma-separated list bounded by the parentheses | |
immediately following the macro name in a function-like macro | |
definition. Also known as ``formal argument'' or ``formal | |
parameter.'' | |
* Unspecified behavior --- behavior, for a correct program construct | |
and correct data, for which the Standard imposes no requirements. | |
* Undefined behavior --- behavior, upon use of a nonportable or | |
erroneous program construct, of erroneous data, or of | |
indeterminately-valued objects, for which the Standard imposes no | |
requirements. Permissible undefined behavior ranges from ignoring the | |
situation completely with unpredictable results, to behaving during | |
translation or program execution in a documented manner characteristic | |
of the environment (with or without the issuance of a diagnostic | |
message), to terminating a translation or execution (with the issuance | |
of a diagnostic message). | |
If a ``shall'' or ``shall not'' requirement that appears outside of | |
a constraint is violated, the behavior is undefined. Undefined | |
behavior is otherwise indicated in this Standard by the words | |
``undefined behavior'' or by the omission of any explicit definition | |
of behavior. There is no difference in emphasis among these three; | |
they all describe ``behavior that is undefined.'' | |
* Implementation-defined behavior --- behavior, for a correct program | |
construct and correct data, that depends on the characteristics of the | |
implementation and that each implementation shall document. | |
* Locale-specific behavior --- behavior that depends on local | |
conventions of nationality, culture, and language that each | |
implementation shall document. | |
* Diagnostic message --- a message belonging to an | |
implementation-defined subset of the implementation's message output. | |
* Constraints --- syntactic and semantic restrictions by which the | |
exposition of language elements is to be interpreted. | |
* Implementation limits --- restrictions imposed upon programs by the | |
implementation. | |
* Forward references --- references to later sections of the Standard | |
that contain additional information relevant to this section. | |
Other terms are defined at their first appearance, indicated by italic | |
type. Terms explicitly defined in this Standard are not to be | |
presumed to refer implicitly to similar terms defined elsewhere. | |
Terms not defined in this Standard are to be interpreted according to | |
the American National Dictionary for Information Processing Systems, | |
Information Processing Systems Technical Report ANSI X3/TR-1-82 (1982). | |
Forward references: localization ($4.4). | |
"Examples" | |
An example of unspecified behavior is the order in which the | |
arguments to a function are evaluated. | |
An example of undefined behavior is the behavior on integer overflow. | |
An example of implementation-defined behavior is the propagation of | |
the high-order bit when a signed integer is shifted right. | |
An example of locale-specific behavior is whether the islower | |
function returns true for characters other than the 26 lower-case | |
English letters. | |
Forward references: bitwise shift operators ($3.3.7), expressions | |
($3.3), function calls ($3.3.2.2), the islower function ($4.3.1.6). | |
1.7 COMPLIANCE | |
A strictly conforming program shall use only those features of the | |
language and library specified in this Standard. It shall not produce | |
output dependent on any unspecified, undefined, or | |
implementation-defined behavior, and shall not exceed any minimum | |
implementation limit. | |
The two forms of conforming implementation are hosted and | |
freestanding. A conforming hosted implementation shall accept any | |
strictly conforming program. A conforming freestanding implementation | |
shall accept any strictly conforming program in which the use of the | |
features specified in the library section ($4) is confined to the | |
contents of the standard headers <float.h> , <limits.h> , <stdarg.h> , | |
and <stddef.h> . A conforming implementation may have extensions | |
(including additional library functions), provided they do not alter | |
the behavior of any strictly conforming program. | |
A conforming program is one that is acceptable to a conforming | |
implementation./2/ | |
An implementation shall be accompanied by a document that defines | |
all implementation-defined characteristics and all extensions. | |
Forward references: limits <float.h> and <limits.h> ($4.1.4), variable | |
arguments <stdarg.h> ($4.8), common definitions <stddef.h> ($4.1.5). | |
1.8 FUTURE DIRECTIONS | |
With the introduction of new devices and extended character sets, | |
new features may be added to the Standard. Subsections in the | |
language and library sections warn implementors and programmers of | |
usages which, though valid in themselves, may conflict with future | |
additions. | |
Certain features are obsolescent , which means that they may be | |
considered for withdrawal in future revisions of the Standard. They | |
are retained in the Standard because of their widespread use, but | |
their use in new implementations (for implementation features) or new | |
programs (for language or library features) is discouraged. | |
Forward references: future language directions ($3.9.9), future | |
library directions ($4.13). | |
1.9 ABOUT THIS DRAFT | |
Symbols in the right margin mark substantive differences between | |
this draft and its predecessor (ANSI X3J11/88-001, January 11, 1988). | |
A plus sign indicates an addition, a minus sign a deletion, and a | |
vertical bar a replacement. | |
This section and the difference marks themselves will not appear in | |
the published document. | |
2. ENVIRONMENT | |
An implementation translates C source files and executes C programs | |
in two data-processing-system environments, which will be called the | |
translation environment and the execution environment in this | |
Standard. Their characteristics define and constrain the results of | |
executing conforming C programs constructed according to the syntactic | |
and semantic rules for conforming implementations. | |
Forward references: In the environment section ($2), only a few of | |
many possible forward references have been noted. | |
2.1 CONCEPTUAL MODELS | |
2.1.1 Translation environment | |
2.1.1.1 Program structure | |
A C program need not all be translated at the same time. The text | |
of the program is kept in units called source files in this Standard. | |
A source file together with all the headers and source files included | |
via the preprocessing directive #include , less any source lines | |
skipped by any of the conditional inclusion preprocessing directives, | |
is called a translation unit. Previously translated translation units | |
may be preserved individually or in libraries. The separate | |
translation units of a program communicate by (for example) calls to | |
functions whose identifiers have external linkage, by manipulation of | |
objects whose identifiers have external linkage, and by manipulation | |
of data files. Translation units may be separately translated and | |
then later linked to produce an executable program. | |
Forward references: conditional inclusion ($3.8.1), linkages of | |
identifiers ($3.1.2.2), source file inclusion ($3.8.2). | |
2.1.1.2 Translation phases | |
The precedence among the syntax rules of translation is specified | |
by the following phases./3/ | |
1. Physical source file characters are mapped to the source character | |
set (introducing new-line characters for end-of-line indicators) if | |
necessary. Trigraph sequences are replaced by corresponding | |
single-character internal representations. | |
2. Each instance of a new-line character and an immediately preceding | |
backslash character is deleted, splicing physical source lines to form | |
logical source lines. A source file that is not empty shall end in a | |
new-line character, which shall not be immediately preceded by a | |
backslash character. | |
3. The source file is decomposed into preprocessing tokens/4/ and | |
sequences of white-space characters (including comments). A source | |
file shall not end in a partial preprocessing token or comment. Each | |
comment is replaced by one space character. New-line characters are | |
retained. Whether each nonempty sequence of other white-space | |
characters is retained or replaced by one space character is | |
implementation-defined. | |
4. Preprocessing directives are executed and macro invocations are | |
expanded. A #include preprocessing directive causes the named header | |
or source file to be processed from phase 1 through phase 4, | |
recursively. | |
5. Each escape sequence in character constants and string literals is | |
converted to a member of the execution character set. | |
6. Adjacent character string literal tokens are concatenated and | |
adjacent wide string literal tokens are concatenated. | |
7. White-space characters separating tokens are no longer | |
significant. Preprocessing tokens are converted into tokens. The | |
resulting tokens are syntactically and semantically analyzed and | |
translated. | |
8. All external object and function references are resolved. Library | |
components are linked to satisfy external references to functions and | |
objects not defined in the current translation. All such translator | |
output is collected into a program image which contains information | |
needed for execution in its execution environment. | |
Forward references: lexical elements ($3.1), preprocessing directives | |
($3.8), trigraph sequences ($2.2.1.1). | |
2.1.1.3 Diagnostics | |
A conforming implementation shall produce at least one diagnostic | |
message (identified in an implementation-defined manner) for every | |
translation unit that contains a violation of any syntax rule or | |
constraint. Diagnostic messages need not be produced in other | |
circumstances. | |
2.1.2 Execution environments | |
Two execution environments are defined: freestanding and hosted. | |
In both cases, program startup occurs when a designated C function | |
is called by the execution environment. All objects in static storage | |
shall be initialized (set to their initial values) before program | |
startup. The manner and timing of such initialization are otherwise | |
unspecified. Program termination returns control to the execution | |
environment. | |
Forward references: initialization ($3.5.7). | |
2.1.2.1 Freestanding environment | |
In a freestanding environment (in which C program execution may | |
take place without any benefit of an operating system), the name and | |
type of the function called at program startup are | |
implementation-defined. There are otherwise no reserved external | |
identifiers. Any library facilities available to a freestanding | |
program are implementation-defined. | |
The effect of program termination in a freestanding environment is | |
implementation-defined. | |
2.1.2.2 Hosted environment | |
A hosted environment need not be provided, but shall conform to the | |
following specifications if present. | |
"Program startup" | |
The function called at program startup is named main . The | |
implementation declares no prototype for this function. It can be | |
defined with no parameters: | |
int main(void) { /*...*/ } | |
or with two parameters (referred to here as argc and argv , though any | |
names may be used, as they are local to the function in which they are | |
declared): | |
int main(int argc, char *argv[]) { /*...*/ } | |
If they are defined, the parameters to the main function shall obey | |
the following constraints: | |
* The value of argc shall be nonnegative. | |
* argv[argc] shall be a null pointer. | |
* If the value of argc is greater than zero, the array members | |
argv[0] through argv[argc-1] inclusive shall contain pointers to | |
strings, which are given implementation-defined values by the host | |
environment prior to program startup. The intent is to supply to the | |
program information determined prior to program startup from elsewhere | |
in the hosted environment. If the host environment is not capable of | |
supplying strings with letters in both upper-case and lower-case, the | |
implementation shall ensure that the strings are received in | |
lower-case. | |
* If the value of argc is greater than zero, the string pointed to by | |
argv[0] represents the program name ;argv[0][0] shall be the null | |
character if the program name is not available from the host | |
environment. If the value of argc is greater than one, the strings | |
pointed to by argv[1] through argv[argc-1] represent the program | |
parameters . | |
* The parameters argc and argv and the strings pointed to by the argv | |
array shall be modifiable by the program, and retain their last-stored | |
values between program startup and program termination. | |
"Program execution" | |
In a hosted environment, a program may use all the functions, | |
macros, type definitions, and objects described in the library section ($4). | |
"Program termination" | |
A return from the initial call to the main function is equivalent | |
to calling the exit function with the value returned by the main | |
function as its argument. If the main function executes a return that | |
specifies no value, the termination status returned to the host | |
environment is undefined. | |
Forward references: definition of terms ($4.1.1), the exit function | |
($4.10.4.3). | |
2.1.2.3 Program execution | |
The semantic descriptions in this Standard describe the behavior of | |
an abstract machine in which issues of optimization are irrelevant. | |
Accessing a volatile object, modifying an object, modifying a file, | |
or calling a function that does any of those operations are all side | |
effects ,which are changes in the state of the execution environment. | |
Evaluation of an expression may produce side effects. At certain | |
specified points in the execution sequence called sequence points, all | |
side effects of previous evaluations shall be complete and no side | |
effects of subsequent evaluations shall have taken place. | |
In the abstract machine, all expressions are evaluated as specified | |
by the semantics. An actual implementation need not evaluate part of | |
an expression if it can deduce that its value is not used and that no | |
needed side effects are produced (including any caused by calling a | |
function or accessing a volatile object). | |
When the processing of the abstract machine is interrupted by | |
receipt of a signal, only the values of objects as of the previous | |
sequence point may be relied on. Objects that may be modified between | |
the previous sequence point and the next sequence point need not have | |
received their correct values yet. | |
An instance of each object with automatic storage duration is | |
associated with each entry into a block. Such an object exists and | |
retains its last-stored value during the execution of the block and | |
while the block is suspended (by a call of a function or receipt of a | |
signal). | |
The least requirements on a conforming implementation are: | |
* At sequence points, volatile objects are stable in the sense that | |
previous evaluations are complete and subsequent evaluations have not | |
yet occurred. | |
* At program termination, all data written into files shall be | |
identical to the result that execution of the program according to the | |
abstract semantics would have produced. | |
* The input and output dynamics of interactive devices shall take | |
place as specified in $4.9.3. The intent of these requirements is | |
that unbuffered or line-buffered output appear as soon as possible, to | |
ensure that prompting messages actually appear prior to a program | |
waiting for input. | |
What constitutes an interactive device is implementation-defined. | |
More stringent correspondences between abstract and actual | |
semantics may be defined by each implementation. | |
"Examples" | |
An implementation might define a one-to-one correspondence between | |
abstract and actual semantics: at every sequence point, the values of | |
the actual objects would agree with those specified by the abstract | |
semantics. The keyword volatile would then be redundant. | |
Alternatively, an implementation might perform various | |
optimizations within each translation unit, such that the actual | |
semantics would agree with the abstract semantics only when making | |
function calls across translation unit boundaries. In such an | |
implementation, at the time of each function entry and function return | |
where the calling function and the called function are in different | |
translation units, the values of all externally linked objects and of | |
all objects accessible via pointers therein would agree with the | |
abstract semantics. Furthermore, at the time of each such function | |
entry the values of the parameters of the called function and of all | |
objects accessible via pointers therein would agree with the abstract | |
semantics. In this type of implementation, objects referred to by | |
interrupt service routines activated by the signal function would | |
require explicit specification of volatile storage, as well as other | |
implementation-defined restrictions. | |
In executing the fragment | |
char c1, c2; | |
/*...*/ | |
c1 = c1 + c2; | |
the ``integral promotions'' require that the abstract machine promote | |
the value of each variable to int size and then add the two int s and | |
truncate the sum. Provided the addition of two char s can be done | |
without creating an overflow exception, the actual execution need only | |
produce the same result, possibly omitting the promotions. | |
Similarly, in the fragment | |
float f1, f2; | |
double d; | |
/*...*/ | |
f1 = f2 * d; | |
the multiplication may be executed using single-precision arithmetic | |
if the implementation can ascertain that the result would be the same | |
as if it were executed using double-precision arithmetic (for example, | |
if d were replaced by the constant 2.0, which has type double ). | |
Alternatively, an operation involving only int s or float s may be | |
executed using double-precision operations if neither range nor | |
precision is lost thereby. | |
Forward references: compound statement, or block ($3.6.2), files | |
($4.9.3), sequence points ($3.3, $3.6), the signal function ($4.7), | |
type qualifiers ($3.5.3). | |
2.2 ENVIRONMENTAL CONSIDERATIONS | |
2.2.1 Character sets | |
Two sets of characters and their associated collating sequences | |
shall be defined: the set in which source files are written, and the | |
set interpreted in the execution environment. The values of the | |
members of the execution character set are implementation-defined; any | |
additional members beyond those required by this section are | |
locale-specific. | |
In a character constant or string literal, members of the execution | |
character set shall be represented by corresponding members of the | |
source character set or by escape sequences consisting of the | |
backslash \ followed by one or more characters. A byte with all bits | |
set to 0, called the null character, shall exist in the basic | |
execution character set; it is used to terminate a character string | |
literal. | |
Both the basic source and basic execution character sets shall have | |
at least the following members: the 26 upper-case letters of the | |
English alphabet | |
A B C D E F G H I J K L M | |
N O P Q R S T U V W X Y Z | |
the 26 lower-case letters of the English alphabet | |
a b c d e f g h i j k l m | |
n o p q r s t u v w x y z | |
the 10 decimal digits | |
0 1 2 3 4 5 6 7 8 9 | |
the following 29 graphic characters | |
! " # % & ' ( ) * + , - . / : | |
; < = > ? [ \ ] ^ _ { | } ~ | |
the space character, and control characters representing horizontal | |
tab, vertical tab, and form feed. In both the source and execution | |
basic character sets, the value of each character after 0 in the above | |
list of decimal digits shall be one greater than the value of the | |
previous. In source files, there shall be some way of indicating the | |
end of each line of text; this Standard treats such an end-of-line | |
indicator as if it were a single new-line character. In the execution | |
character set, there shall be control characters representing alert, | |
backspace, carriage return, and new line. If any other characters are | |
encountered in a source file (except in a preprocessing token that is | |
never converted to a token, a character constant, a string literal, or | |
a comment), the behavior is undefined. | |
Forward references: character constants ($3.1.3.4), preprocessing | |
directives ($3.8), string literals ($3.1.4), comments ($3.1.9). | |
2.2.1.1 Trigraph sequences | |
All occurrences in a source file of the following sequences of | |
three characters (called trigraph sequences /5/)are replaced with the | |
corresponding single character. | |
??= # | |
??( [ | |
??/ \ | |
??) ] | |
??' ^ | |
??< { | |
??! | | |
??> } | |
??- ~ | |
No other trigraph sequences exist. Each ? that does not begin one of | |
the trigraphs listed above is not changed. | |
Example | |
The following source line | |
printf("Eh???/n"); | |
becomes (after replacement of the trigraph sequence ??/ ) | |
printf("Eh?\n"); | |
2.2.1.2 Multibyte characters | |
The source character set may contain multibyte characters, used to | |
represent members of the extended character set. The execution | |
character set may also contain multibyte characters, which need not | |
have the same encoding as for the source character set. For both | |
character sets, the following shall hold: | |
* The single-byte characters defined in $2.2.1 shall be present. | |
* The presence, meaning, and representation of any additional members | |
is locale-specific. | |
* A multibyte character may have a state-dependent encoding ,wherein | |
each sequence of multibyte characters begins in an initial shift state | |
and enters other implementation-defined shift states when specific | |
multibyte characters are encountered in the sequence. While in the | |
initial shift state, all single-byte characters retain their usual | |
interpretation and do not alter the shift state. The interpretation | |
for subsequent bytes in the sequence is a function of the current | |
shift state. | |
* A byte with all bits zero shall be interpreted as a null character | |
independent of shift state. | |
* A byte with all bits zero shall not occur in the second or | |
subsequent bytes of a multibyte character. | |
For the source character set, the following shall hold: | |
* A comment, string literal, character constant, or header name shall | |
begin and end in the initial shift state. | |
* A comment, string literal, character constant, or header name shall | |
consist of a sequence of valid multibyte characters. | |
2.2.2 Character display semantics | |
The active position is that location on a display device where the | |
next character output by the fputc function would appear. The intent | |
of writing a printable character (as defined by the isprint function) | |
to a display device is to display a graphic representation of that | |
character at the active position and then advance the active position | |
to the next position on the current line. The direction of printing | |
is locale-specific. If the active position is at the final position | |
of a line (if there is one), the behavior is unspecified. | |
Alphabetic escape sequences representing nongraphic characters in | |
the execution character set are intended to produce actions on display | |
devices as follows: ( alert ) Produces an audible or visible alert. | |
The active position shall not be changed. ( backspace ) Moves the | |
active position to the previous position on the current line. If the | |
active position is at the initial position of a line, the behavior is | |
unspecified. ( "form feed" ) Moves the active position to the initial | |
position at the start of the next logical page. ( "new line" ) Moves | |
the active position to the initial position of the next line. | |
( "carriage return" ) Moves the active position to the initial position | |
of the current line. ( "horizontal tab" ) Moves the active position | |
to the next horizontal tabulation position on the current line. If | |
the active position is at or past the last defined horizontal | |
tabulation position, the behavior is unspecified. ( "vertical tab" ) | |
Moves the active position to the initial position of the next vertical | |
tabulation position. If the active position is at or past the last | |
defined vertical tabulation position, the behavior is unspecified. | |
Each of these escape sequences shall produce a unique | |
implementation-defined value which can be stored in a single char | |
object. The external representations in a text file need not be | |
identical to the internal representations, and are outside the scope | |
of this Standard. | |
Forward references: the fputc function ($4.9.7.3), the isprint | |
function ($4.3.1.7). | |
2.2.3 Signals and interrupts | |
Functions shall be implemented such that they may be interrupted at | |
any time by a signal, or may be called by a signal handler, or both, | |
with no alteration to earlier, but still active, invocations' control | |
flow (after the interruption), function return values, or objects with | |
automatic storage duration. All such objects shall be maintained | |
outside the function image (the instructions that comprise the | |
executable representation of a function) on a per-invocation basis. | |
The functions in the standard library are not guaranteed to be | |
reentrant and may modify objects with static storage duration. | |
2.2.4 Environmental limits | |
Both the translation and execution environments constrain the | |
implementation of language translators and libraries. The following | |
summarizes the environmental limits on a conforming implementation. | |
2.2.4.1 Translation limits | |
The implementation shall be able to translate and execute at least | |
one program that contains at least one instance of every one of the | |
following limits:/6/ | |
* 15 nesting levels of compound statements, iteration control | |
structures, and selection control structures | |
* 8 nesting levels of conditional inclusion | |
* 12 pointer, array, and function declarators (in any combinations) | |
modifying an arithmetic, a structure, a union, or an incomplete type | |
in a declaration | |
* 31 declarators nested by parentheses within a full declarator | |
* 32 expressions nested by parentheses within a full expression | |
* 31 significant initial characters in an internal identifier or a | |
macro name | |
* 6 significant initial characters in an external identifier | |
* 511 external identifiers in one translation unit | |
* 127 identifiers with block scope declared in one block | |
* 1024 macro identifiers simultaneously defined in one translation unit | |
* 31 parameters in one function definition | |
* 31 arguments in one function call | |
* 31 parameters in one macro definition | |
* 31 arguments in one macro invocation | |
* 509 characters in a logical source line | |
* 509 characters in a character string literal or wide string literal | |
(after concatenation) | |
* 32767 bytes in an object (in a hosted environment only) | |
* 8 nesting levels for #include'd files | |
* 257 case labels for a switch statement (excluding those for any | |
nested switch statements) | |
* 127 members in a single structure or union | |
* 127 enumeration constants in a single enumeration | |
* 15 levels of nested structure or union definitions in a single | |
struct-declaration-list | |
2.2.4.2 Numerical limits | |
A conforming implementation shall document all the limits specified | |
in this section, which shall be specified in the headers <limits.h> | |
and <float.h> . | |
"Sizes of integral types <limits.h>" | |
The values given below shall be replaced by constant expressions | |
suitable for use in #if preprocessing directives. Their | |
implementation-defined values shall be equal or greater in magnitude | |
(absolute value) to those shown, with the same sign. | |
* maximum number of bits for smallest object that is not a bit-field (byte) | |
CHAR_BIT 8 | |
* minimum value for an object of type signed char | |
SCHAR_MIN -127 | |
* maximum value for an object of type signed char | |
SCHAR_MAX +127 | |
* maximum value for an object of type unsigned char | |
UCHAR_MAX 255 | |
* minimum value for an object of type char | |
CHAR_MIN see below | |
* maximum value for an object of type char | |
CHAR_MAX see below | |
* maximum number of bytes in a multibyte character, for any supported locale | |
MB_LEN_MAX 1 | |
* minimum value for an object of type short int | |
SHRT_MIN -32767 | |
* maximum value for an object of type short int | |
SHRT_MAX +32767 | |
* maximum value for an object of type unsigned short int | |
USHRT_MAX 65535 | |
* minimum value for an object of type int | |
INT_MIN -32767 | |
* maximum value for an object of type int | |
INT_MAX +32767 | |
* maximum value for an object of type unsigned int | |
UINT_MAX 65535 | |
* minimum value for an object of type long int | |
LONG_MIN -2147483647 | |
* maximum value for an object of type long int | |
LONG_MAX +2147483647 | |
* maximum value for an object of type unsigned long int | |
ULONG_MAX 4294967295 | |
If the value of an object of type char sign-extends when used in an | |
expression, the value of CHAR_MIN shall be the same as that of | |
SCHAR_MIN and the value of CHAR_MAX shall be the same as that of | |
SCHAR_MAX . If the value of an object of type char does not | |
sign-extend when used in an expression, the value of CHAR_MIN shall be | |
0 and the value of CHAR_MAX shall be the same as that of UCHAR_MAX | |
./7/ | |
"Characteristics of floating types <float.h>" | |
delim $$ The characteristics of floating types are defined in terms | |
of a model that describes a representation of floating-point numbers | |
and values that provide information about an implementation's | |
floating-point arithmetic. The following parameters are used to | |
define the model for each floating-point type: | |
A normalized floating-point number x ($f sub 1$ > 0 if x is defined | |
by the following model:/8/ $x~=~s~times~b sup e~times~sum from k=1 to | |
p~f sub k~times~b sup -k~,~~~e sub min~<=~e~<=~e sub max$ | |
Of the values in the <float.h> header, FLT_RADIX shall be a | |
constant expression suitable for use in #if preprocessing directives; | |
all other values need not be constant expressions. All except | |
FLT_RADIX and FLT_ROUNDS have separate names for all three | |
floating-point types. The floating-point model representation is | |
provided for all values except FLT_ROUNDS . | |
The rounding mode for floating-point addition is characterized by | |
the value of FLT_ROUNDS : -1 indeterminable, 0 toward zero, 1 to nearest, | |
2 toward positive infinity, 3 toward negative infinity. All other values | |
for FLT_ROUNDS characterize implementation-defined rounding behavior. | |
The values given in the following list shall be replaced by | |
implementation-defined expressions that shall be equal or greater in | |
magnitude (absolute value) to those shown, with the same sign. | |
* radix of exponent representation, b | |
FLT_RADIX 2 | |
* number of base- FLT_RADIX digits in the floating-point mantissa, p | |
FLT_MANT_DIG | |
DBL_MANT_DIG | |
LDBL_MANT_DIG | |
* number of decimal digits of precision, $left floor~(p~-~1)~times~{ | |
log sub 10 } b~right floor ~+~ left { lpile { 1 above 0 } ~~ lpile { | |
roman "if " b roman " is a power of 10" above roman otherwise }$ | |
FLT_DIG 6 | |
DBL_DIG 10 | |
LDBL_DIG 10 | |
* minimum negative integer such that FLT_RADIX raised to that power | |
minus 1 is a normalized floating-point number, $e sub min$ | |
FLT_MIN_EXP | |
DBL_MIN_EXP | |
LDBL_MIN_EXP | |
* minimum negative integer such that 10 raised to that power is in | |
the range of normalized floating-point numbers, | |
FLT_MIN_10_EXP -37 | |
DBL_MIN_10_EXP -37 | |
LDBL_MIN_10_EXP -37 | |
* maximum integer such that FLT_RADIX raised to that power minus 1 is | |
a representable finite floating-point number, $e sub max$ | |
FLT_MAX_EXP | |
DBL_MAX_EXP | |
LDBL_MAX_EXP | |
* maximum integer such that 10 raised to that power is in the range | |
of representable finite floating-point numbers, | |
FLT_MAX_10_EXP +37 | |
DBL_MAX_10_EXP +37 | |
LDBL_MAX_10_EXP +37 | |
The values given in the following list shall be replaced by | |
implementation-defined expressions with values that shall be equal to | |
or greater than those shown. | |
* maximum representable finite floating-point number, | |
FLT_MAX 1E+37 | |
DBL_MAX 1E+37 | |
LDBL_MAX 1E+37 | |
The values given in the following list shall be replaced by | |
implementation-defined expressions with values that shall be equal to | |
or smaller than those shown. | |
* minimum positive floating-point number x such that 1.0 + x | |
FLT_EPSILON 1E-5 | |
DBL_EPSILON 1E-9 | |
LDBL_EPSILON 1E-9 | |
* minimum normalized positive floating-point number, $b sup { e sub | |
min - 1 }$ | |
FLT_MIN 1E-37 | |
DBL_MIN 1E-37 | |
LDBL_MIN 1E-37 | |
Examples | |
The following describes an artificial floating-point representation | |
that meets the minimum requirements of the Standard, and the | |
appropriate values in a <float.h> header for type float : | |
$x~=~s~times~16 sup e~times~sum from k=1 to 6~f sub k~times~16 sup | |
-k~,~~~-31~<=~e~<=~+32$ | |
FLT_RADIX 16 | |
FLT_MANT_DIG 6 | |
FLT_EPSILON 9.53674316E-07F | |
FLT_DIG 6 | |
FLT_MIN_EXP -31 | |
FLT_MIN 2.93873588E-39F | |
FLT_MIN_10_EXP -38 | |
FLT_MAX_EXP +32 | |
FLT_MAX 3.40282347E+38F | |
FLT_MAX_10_EXP +38 | |
The following describes floating-point representations that also | |
meet the requirements for single-precision and double-precision | |
normalized numbers in the IEEE Standard for Binary Floating-Point | |
Arithmetic (ANSI/IEEE Std 754-1985),/9/ b and the appropriate values | |
in a <float.h> header for types float and double : $x sub | |
f~=~s~times~2 sup e~times~{ sum from k=1 to 24~f sub k~times~2 sup -k | |
},~~~-125~<=~e~<=~+128$ $x sub d~=~s~times~2 sup e~times~{ sum from | |
k=1 to 53~f sub k~times~2 sup -k },~~~-1021~<=~e~<=~+1024$ | |
FLT_RADIX 2 | |
FLT_MANT_DIG 24 | |
FLT_EPSILON 1.19209290E-07F | |
FLT_DIG 6 | |
FLT_MIN_EXP -125 | |
FLT_MIN 1.17549435E-38F | |
FLT_MIN_10_EXP -37 | |
FLT_MAX_EXP +128 | |
FLT_MAX 3.40282347E+38F | |
FLT_MAX_10_EXP +38 | |
DBL_MANT_DIG 53 | |
DBL_EPSILON 2.2204460492503131E-16 | |
DBL_DIG 15 | |
DBL_MIN_EXP -1021 | |
DBL_MIN 2.2250738585072016E-308 | |
DBL_MIN_10_EXP -307 | |
DBL_MAX_EXP +1024 | |
DBL_MAX 1.7976931348623157E+308 | |
DBL_MAX_10_EXP +308 | |
The values shown above for FLT_EPSILON and DBL_EPSILON are | |
appropriate for the ANSI/IEEE Std 754-1985 default rounding mode (to | |
nearest). Their values may differ for other rounding modes. | |
Forward references: conditional inclusion ($3.8.1). conditional | |
inclusion ($3.8.1). | |
3. LANGUAGE | |
In the syntax notation used in the language section ($3), syntactic | |
categories (nonterminals) are indicated by italic type, and literal | |
words and character set members (terminals) by bold type. A colon (:) | |
following a nonterminal introduces its definition. Alternative | |
definitions are listed on separate lines, except when prefaced by the | |
words ``one of.'' An optional symbol is indicated by the so that | |
{ expression<opt> } | |
indicates an optional expression enclosed in braces. | |
3.1 LEXICAL ELEMENTS | |
Syntax | |
token: | |
keyword | |
identifier | |
constant | |
string-literal | |
operator | |
punctuator | |
preprocessing-token: | |
header-name | |
identifier | |
pp-number | |
character-constant | |
string-literal | |
operator | |
punctuator | |
each non-white-space character that cannot be one of | |
the above | |
Constraints | |
Each preprocessing token that is converted to a token shall have | |
the lexical form of a keyword, an identifier, a constant, a string | |
literal, an operator, or a punctuator. | |
Semantics | |
A token is the minimal lexical element of the language in | |
translation phases 7 and 8. The categories of tokens are: keywords, | |
identifiers, constants, string literals, operators, and punctuators. | |
A preprocessing token is the minimal lexical element of the language | |
in translation phases 3 through 6. The categories of preprocessing | |
token are: header names, identifiers, preprocessing numbers, | |
character constants, string literals, operators, punctuators, and | |
single non-white-space characters that do not lexically match the | |
other preprocessing token categories. If a ' or a " character matches | |
the last category, the behavior is undefined. Comments (described | |
later) and the characters space, horizontal tab, new-line, vertical | |
tab, and form-feed---collectively called white space ---canseparate | |
preprocessing tokens. As described in $3.8, in certain circumstances | |
during translation phase 4, white space (or the absence thereof) | |
serves as more than preprocessing token separation. White space may | |
appear within a preprocessing token only as part of a header name or | |
between the quotation characters in a character constant or string | |
literal. | |
If the input stream has been parsed into preprocessing tokens up to | |
a given character, the next preprocessing token is the longest | |
sequence of characters that could constitute a preprocessing token. | |
Examples | |
The program fragment 1Ex is parsed as a preprocessing number token | |
(one that is not a valid floating or integer constant token), even | |
though a parse as the pair of preprocessing tokens 1 and Ex might | |
produce a valid expression (for example, if Ex were a macro defined as | |
+1 ). Similarly, the program fragment 1E1 is parsed as a | |
preprocessing number (one that is a valid floating constant token), | |
whether or not E is a macro name. | |
The program fragment x+++++y is parsed as x ++ ++ + y, which | |
violates a constraint on increment operators, even though the parse x | |
++ + ++ y might yield a correct expression. | |
Forward references: character constants ($3.1.3.4), comments ($3.1.9), | |
expressions ($3.3), floating constants ($3.1.3.1), header names | |
($3.1.7), macro replacement ($3.8.3), postfix increment and decrement | |
operators ($3.3.2.4), prefix increment and decrement operators | |
($3.3.3.1), preprocessing directives ($3.8), preprocessing numbers | |
($3.1.8), string literals ($3.1.4). | |
3.1.1 Keywords | |
Syntax | |
keyword: one of | |
auto double int struct | |
break else long switch | |
case enum register typedef | |
char extern return union | |
const float short unsigned | |
continue for signed void | |
default goto sizeof volatile | |
do if static while | |
Semantics | |
The above tokens (entirely in lower-case) are reserved (in | |
translation phases 7 and 8) for use as keywords, and shall not be used | |
otherwise. | |
3.1.2 Identifiers | |
Syntax | |
identifier: | |
nondigit | |
identifier nondigit | |
identifier digit | |
nondigit: one of | |
_ a b c d e f g h i j k l m | |
n o p q r s t u v w x y z | |
A B C D E F G H I J K L M | |
N O P Q R S T U V W X Y Z | |
digit: one of | |
0 1 2 3 4 5 6 7 8 9 | |
Description | |
An identifier is a sequence of nondigit characters (including the | |
underscore _ and the lower-case and upper-case letters) and digits. | |
The first character shall be a nondigit character. | |
Constraints | |
In translation phases 7 and 8, an identifier shall not consist of | |
the same sequence of characters as a keyword. | |
Semantics | |
An identifier denotes an object, a function, or one of the | |
following entities that will be described later: a tag or a member of | |
a structure, union, or enumeration; a typedef name; a label name; a | |
macro name; or a macro parameter. A member of an enumeration is | |
called an enumeration constant. Macro names and macro parameters are | |
not considered further here, because prior to the semantic phase of | |
program translation any occurrences of macro names in the source file | |
are replaced by the preprocessing token sequences that constitute | |
their macro definitions. | |
There is no specific limit on the maximum length of an identifier. | |
"Implementation limits" | |
The implementation shall treat at least the first 31 characters of | |
an internal name (a macro name or an identifier that does not have | |
external linkage) as significant. Corresponding lower-case and | |
upper-case letters are different. The implementation may further | |
restrict the significance of an external name (an identifier that has | |
external linkage) to six characters and may ignore distinctions of | |
alphabetical case for such names./10/ These limitations on identifiers | |
are all implementation-defined. | |
Any identifiers that differ in a significant character are | |
different identifiers. If two identifiers differ in a non-significant | |
character, the behavior is undefined. | |
Forward references: linkages of identifiers ($3.1.2.2), macro | |
replacement ($3.8.3). | |
3.1.2.1 Scopes of identifiers | |
An identifier is visible (i.e., can be used) only within a region | |
of program text called its scope . There are four kinds of scopes: | |
function, file, block, and function prototype. (A function prototype | |
is a declaration of a function that declares the types of its | |
parameters.) | |
A label name is the only kind of identifier that has function scope. | |
It can be used (in a goto statement) anywhere in the function in | |
which it appears, and is declared implicitly by its syntactic | |
appearance (followed by a : and a statement). Label names shall be | |
unique within a function. | |
Every other identifier has scope determined by the placement of its | |
declaration (in a declarator or type specifier). If the declarator or | |
type specifier that declares the identifier appears outside of any | |
block or list of parameters, the identifier has file scope, which | |
terminates at the end of the translation unit. If the declarator or | |
type specifier that declares the identifier appears inside a block or | |
within the list of parameter declarations in a function definition, | |
the identifier has block scope, which terminates at the } that closes | |
the associated block. If the declarator or type specifier that | |
declares the identifier appears within the list of parameter | |
declarations in a function prototype (not part of a function | |
definition), the identifier has function prototype scope ,which | |
terminates at the end of the function declarator. If an outer | |
declaration of a lexically identical identifier exists in the same | |
name space, it is hidden until the current scope terminates, after | |
which it again becomes visible. | |
Structure, union, and enumeration tags have scope that begins just | |
after the appearance of the tag in a type specifier that declares the | |
tag. Each enumeration constant has scope that begins just after the | |
appearance of its defining enumerator in an enumerator list. Any | |
other identifier has scope that begins just after the completion of | |
its declarator. | |
Forward references: compound statement, or block ($3.6.2), | |
declarations ($3.5), enumeration specifiers ($3.5.2.2), function calls | |
($3.3.2.2), function declarators (including prototypes) ($3.5.4.3), | |
function definitions ($3.7.1), the goto statement ($3.6.6.1), labeled | |
statements ($3.6.1), name spaces of identifiers ($3.1.2.3), scope of | |
macro definitions ($3.8.3.5), source file inclusion ($3.8.2), tags | |
($3.5.2.3), type specifiers ($3.5.2). | |
3.1.2.2 Linkages of identifiers | |
An identifier declared in different scopes or in the same scope | |
more than once can be made to refer to the same object or function by | |
a process called linkage . There are three kinds of linkage: external, | |
internal, and none. | |
In the set of translation units and libraries that constitutes an | |
entire program, each instance of a particular identifier with external | |
linkage denotes the same object or function. Within one translation | |
unit, each instance of an identifier with internal linkage denotes the | |
same object or function. Identifiers with no linkage denote unique | |
entities. | |
If the declaration of an identifier for an object or a function has | |
file scope and contains the storage-class specifier static, the | |
identifier has internal linkage. | |
If the declaration of an identifier for an object or a function | |
contains the storage-class specifier extern , the identifier has the | |
same linkage as any visible declaration of the identifier with file | |
scope. If there is no visible declaration with file scope, the | |
identifier has external linkage. | |
If the declaration of an identifier for a function has no | |
storage-class specifier, its linkage is determined exactly as if it | |
were declared with the storage-class specifier extern . If the | |
declaration of an identifier for an object has file scope and no | |
storage-class specifier, its linkage is external. | |
The following identifiers have no linkage: an identifier declared | |
to be anything other than an object or a function; an identifier | |
declared to be a function parameter; an identifier declared to be an | |
object inside a block without the storage-class specifier extern. | |
If, within a translation unit, the same identifier appears with | |
both internal and external linkage, the behavior is undefined. | |
Forward references: compound statement, or block ($3.6.2), | |
declarations ($3.5), expressions ($3.3), external definitions ($3.7). | |
3.1.2.3 Name spaces of identifiers | |
If more than one declaration of a particular identifier is visible | |
at any point in a translation unit, the syntactic context | |
disambiguates uses that refer to different entities. Thus, there are | |
separate name spaces for various categories of identifiers, as | |
follows: | |
* label names (disambiguated by the syntax of the label declaration | |
and use); | |
* the tags of structures, unions, and enumerations (disambiguated by | |
following any/11/ of the keywords struct , union , or enum ); | |
* the members of structures or unions; each structure or union has a | |
separate name space for its members (disambiguated by the type of the | |
expression used to access the member via the . or -> operator); | |
* all other identifiers, called ordinary identifiers (declared in | |
ordinary declarators or as enumeration constants). | |
Forward references: declarators ($3.5.4), enumeration specifiers | |
($3.5.2.2), labeled statements ($3.6.1), structure and union | |
specifiers ($3.5.2.1), structure and union members ($3.3.2.3), tags | |
($3.5.2.3). | |
3.1.2.4 Storage durations of objects | |
An object has a storage duration that determines its lifetime. | |
There are two storage durations: static and automatic. | |
An object declared with external or internal linkage, or with the | |
storage-class specifier static has static storage duration. For such | |
an object, storage is reserved and its stored value is initialized | |
only once, prior to program startup. The object exists and retains | |
its last-stored value throughout the execution of the entire | |
program./12/ | |
An object declared with no linkage and without the storage-class | |
specifier static has automatic storage duration. Storage is guaranteed | |
to be reserved for a new instance of such an object on each normal | |
entry into the block in which it is declared, or on a jump from | |
outside the block to a label in the block or in an enclosed block. If | |
an initialization is specified for the value stored in the object, it | |
is performed on each normal entry, but not if the block is entered by | |
a jump to a label. Storage for the object is no longer guaranteed to | |
be reserved when execution of the block ends in any way. (Entering an | |
enclosed block suspends but does not end execution of the enclosing | |
block. Calling a function that returns suspends but does not end | |
execution of the block containing the call.) The value of a pointer | |
that referred to an object with automatic storage duration that is no | |
longer guaranteed to be reserved is indeterminate. | |
Forward references: compound statement, or block ($3.6.2), function | |
calls ($3.3.2.2), initialization ($3.5.7). | |
3.1.2.5 Types | |
The meaning of a value stored in an object or returned by a | |
function is determined by the type of the expression used to access | |
it. (An identifier declared to be an object is the simplest such | |
expression; the type is specified in the declaration of the | |
identifier.) Types are partitioned into object types (types that | |
describe objects), function types (types that describe functions), and | |
incomplete types (types that describe objects but lack information | |
needed to determine their sizes). | |
An object declared as type char is large enough to store any member | |
of the basic execution character set. If a member of the required | |
source character set enumerated in $2.2.1 is stored in a char object, | |
its value is guaranteed to be positive. If other quantities are | |
stored in a char object, the behavior is implementation-defined: the | |
values are treated as either signed or nonnegative integers. | |
There are four signed integer types, designated as signed char, | |
short int, int, and long int. (The signed integer and other types | |
may be designated in several additional ways, as described in $3.5.2.) | |
An object declared as type signed char occupies the same amount of | |
storage as a ``plain'' char object. A ``plain'' int object has the | |
natural size suggested by the architecture of the execution | |
environment (large enough to contain any value in the range INT_MIN to | |
INT_MAX as defined in the header <limits.h> ). In the list of signed | |
integer types above, the range of values of each type is a subrange of | |
the values of the next type in the list. | |
For each of the signed integer types, there is a corresponding (but | |
different) unsigned integer type (designated with the keyword unsigned) | |
that uses the same amount of storage (including sign information) | |
and has the same alignment requirements. The range of nonnegative | |
values of a signed integer type is a subrange of the corresponding | |
unsigned integer type, and the representation of the same value in | |
each type is the same. A computation involving unsigned operands can | |
never overflow, because a result that cannot be represented by the | |
resulting unsigned integer type is reduced modulo the number that is | |
one greater than the largest value that can be represented by the | |
resulting unsigned integer type. | |
There are three floating types, designated as float , double , and | |
long double . The set of values of the type float is a subset of the | |
set of values of the type double ; the set of values of the type | |
double is a subset of the set of values of the type long double. | |
The type char, the signed and unsigned integer types, and the | |
floating types are collectively called the basic types. Even if the | |
implementation defines two or more basic types to have the same | |
representation, they are nevertheless different types. | |
There are three character types, designated as char , signed char , | |
and unsigned char. | |
An enumeration comprises a set of named integer constant values. | |
Each distinct enumeration constitutes a different enumerated type. | |
The void type comprises an empty set of values; it is an incomplete | |
type that cannot be completed. | |
Any number of derived types can be constructed from the basic, | |
enumerated, and incomplete types, as follows: | |
* An array type describes a contiguously allocated set of objects | |
with a particular member object type, called the element type .Array | |
types are characterized by their element type and by the number of | |
members of the array. An array type is said to be derived from its | |
element type, and if its element type is T , the array type is | |
sometimes called ``array of T .'' The construction of an array type | |
from an element type is called ``array type derivation.'' | |
* A structure type describes a sequentially allocated set of member | |
objects, each of which has an optionally specified name and possibly | |
distinct type. | |
* A union type describes an overlapping set of member objects, each | |
of which has an optionally specified name and possibly distinct type. | |
* A function type describes a function with specified return type. A | |
function type is characterized by its return type and the number and | |
types of its parameters. A function type is said to be derived from | |
its return type, and if its return type is T , the function type is | |
sometimes called ``function returning T.'' The construction of a | |
function type from a return type is called ``function type | |
derivation.'' | |
* A pointer type may be derived from a function type, an object type, | |
or an incomplete type, called the referenced type. A pointer type | |
describes an object whose value provides a reference to an entity of | |
the referenced type. A pointer type derived from the referenced type | |
T is sometimes called ``pointer to T .'' The construction of a pointer | |
type from a referenced type is called ``pointer type derivation.'' | |
These methods of constructing derived types can be applied | |
recursively. | |
The type char, the signed and unsigned integer types, and the | |
enumerated types are collectively called integral types. The | |
representations of integral types shall define values by use of a pure | |
binary numeration system./13/ American National Dictionary for | |
Information Processing Systems.) The representations of floating types | |
are unspecified. | |
Integral and floating types are collectively called arithmetic | |
types. Arithmetic types and pointer types are collectively called | |
scalar types. Array and structure types are collectively called | |
aggregate types. /14/ | |
A pointer to void shall have the same representation and alignment | |
requirements as a pointer to a character type. Other pointer types | |
need not have the same representation or alignment requirements. | |
An array type of unknown size is an incomplete type. It is | |
completed, for an identifier of that type, by specifying the size in a | |
later declaration (with internal or external linkage). A structure or | |
union type of unknown content (as described in $3.5.2.3) is an | |
incomplete type. It is completed, for all declarations of that type, | |
by declaring the same structure or union tag with its defining content | |
later in the same scope. | |
Array, function, and pointer types are collectively called derived | |
declarator types. A declarator type derivation from a type T is the | |
construction of a derived declarator type from T by the application of | |
an array, a function, or a pointer type derivation to T. | |
A type is characterized by its top type, which is either the first | |
type named in describing a derived type (as noted above in the | |
construction of derived types), or the type itself if the type | |
consists of no derived types. | |
A type has qualified type if its top type is specified with a type | |
qualifier; otherwise it has unqualified type. The type qualifiers | |
const and volatile respectively designate const-qualified type and | |
volatile-qualified type. /15/ For each qualified type there is an | |
unqualified type that is specified the same way as the qualified type, | |
but without any type qualifiers in its top type. This type is known | |
as the unqualified version of the qualified type. Similarly, there | |
are appropriately qualified versions of types (such as a | |
const-qualified version of a type), just as there are appropriately | |
non-qualified versions of types (such as a non-const-qualified version | |
of a type). | |
Examples | |
The type designated as ``float *'' is called ``pointer to float'' | |
and its top type is a pointer type, not a floating type. The | |
const-qualified version of this type is designated as ``float * const'' | |
whereas the type designated as `` const float * '' is not a | |
qualified type --- it is called ``pointer to const float '' and is a | |
pointer to a qualified type. | |
Finally, the type designated as `` struct tag (*[5])(float) '' is | |
called ``array of pointer to function returning struct tag.'' Its top | |
type is array type. The array has length five and the function has a | |
single parameter of type float. | |
Forward references: character constants ($3.1.3.4), declarations | |
($3.5), tags ($3.5.2.3), type qualifiers ($3.5.3). | |
3.1.2.6 Compatible type and composite type | |
Two types have compatible type if their types are the same. | |
Additional rules for determining whether two types are compatible are | |
described in $3.5.2 for type specifiers, in $3.5.3 for type | |
qualifiers, and in $3.5.4 for declarators. /16/ Moreover, two | |
structure, union, or enumeration types declared in separate | |
translation units are compatible if they have the same number of | |
members, the same member names, and compatible member types; for two | |
structures, the members shall be in the same order; for two | |
enumerations, the members shall have the same values. | |
All declarations that refer to the same object or function shall | |
have compatible type; otherwise the behavior is undefined. | |
A composite type can be constructed from two types that are | |
compatible; it is a type that is compatible with both of the two types | |
and has the following additions: | |
* If one type is an array of known size, the composite type is an | |
array of that size. | |
* If only one type is a function type with a parameter type list (a | |
function prototype), the composite type is a function prototype with | |
the parameter type list. | |
* If both types have parameter type lists, the type of each parameter | |
in the composite parameter type list is the composite type of the | |
corresponding parameters. | |
These rules apply recursively to the types from which the two types | |
are derived. | |
For an identifier with external or internal linkage declared in the | |
same scope as another declaration for that identifier, the type of the | |
identifier becomes the composite type. | |
Example | |
Given the following two file scope declarations: | |
int f(int (*)(), double (*)[3]); | |
int f(int (*)(char *), double (*)[]); | |
The resulting composite type for the function is: | |
int f(int (*)(char *), double (*)[3]); | |
Forward references: declarators ($3.5.4), enumeration specifiers | |
($3.5.2.2), structure and union specifiers ($3.5.2.1), type | |
definitions ($3.5.6), type qualifiers ($3.5.3), type specifiers | |
($3.5.2). | |
3.1.3 Constants | |
Syntax | |
constant: | |
floating-constant | |
integer-constant | |
enumeration-constant | |
character-constant | |
Constraints | |
The value of a constant shall be in the range of representable | |
values for its type. | |
Semantics | |
Each constant has a type, determined by its form and value, as | |
detailed later. | |
3.1.3.1 Floating constants | |
Syntax | |
floating-constant: | |
fractional-constant exponent-part<opt> floating-suffix<opt> | |
digit-sequence exponent-part floating-suffix<opt> | |
fractional-constant: | |
digit-sequence<opt>.digit-sequence | |
digit-sequence. | |
exponent-part: | |
e sign<opt> digit-sequence | |
E sign<opt> digit-sequence | |
sign: one of | |
+ - | |
digit-sequence: | |
digit | |
digit-sequence digit | |
floating-suffix: one of | |
f l F L | |
Description | |
A floating constant has a value part that may be followed by an | |
exponent part and a suffix that specifies its type. The components of | |
the value part may include a digit sequence representing the | |
whole-number part, followed by a period (.), followed by a digit | |
sequence representing the fraction part. The components of the | |
exponent part are an e or E followed by an exponent consisting of an | |
optionally signed digit sequence. Either the whole-number part or the | |
fraction part shall be present; either the period or the exponent part | |
shall be present. | |
Semantics | |
The value part is interpreted as a decimal rational number; the | |
digit sequence in the exponent part is interpreted as a decimal | |
integer. The exponent indicates the power of 10 by which the value | |
part is to be scaled. If the scaled value is in the range of | |
representable values (for its type) but cannot be represented exactly, | |
the result is either the nearest higher or nearest lower value, chosen | |
in an implementation-defined manner. | |
An unsuffixed floating constant has type double. If suffixed by | |
the letter f or F, it has type float. If suffixed by the letter l | |
or L, it has type long double. | |
3.1.3.2 Integer constants | |
Syntax | |
integer-constant: | |
decimal-constant integer-suffix<opt> | |
octal-constant integer-suffix<opt> | |
hexadecimal-constant integer-suffix<opt> | |
decimal-constant: | |
nonzero-digit | |
decimal-constant digit | |
octal-constant: | |
0 | |
octal-constant octal-digit | |
hexadecimal-constant: | |
0x hexadecimal-digit | |
0X hexadecimal-digit | |
hexadecimal-constant hexadecimal-digit | |
nonzero-digit: one of | |
1 2 3 4 5 6 7 8 9 | |
octal-digit: one of | |
0 1 2 3 4 5 6 7 | |
hexadecimal-digit: one of | |
0 1 2 3 4 5 6 7 8 9 | |
a b c d e f | |
A B C D E F | |
integer-suffix: | |
unsigned-suffix long-suffix<opt> | |
long-suffix unsigned-suffix<opt> | |
unsigned-suffix: one of | |
u U | |
long-suffix: one of | |
l L | |
Description | |
An integer constant begins with a digit, but has no period or | |
exponent part. It may have a prefix that specifies its base and a | |
suffix that specifies its type. | |
A decimal constant begins with a nonzero digit and consists of a | |
sequence of decimal digits. An octal constant consists of the prefix | |
0 optionally followed by a sequence of the digits 0 through 7 only. A | |
hexadecimal constant consists of the prefix 0x or 0X followed by a | |
sequence of the decimal digits and the letters a (or A ) through f (or | |
F) with values 10 through 15 respectively. | |
Semantics | |
The value of a decimal constant is computed base 10; that of an | |
octal constant, base 8; that of a hexadecimal constant, base 16. The | |
lexically first digit is the most significant. | |
The type of an integer constant is the first of the corresponding | |
list in which its value can be represented. Unsuffixed decimal: int, | |
long int, unsigned long int; unsuffixed octal or hexadecimal: int, | |
unsigned int, long int, unsigned long int; suffixed by the letter u | |
or U: unsigned int, unsigned long int; suffixed by the letter l or | |
L: long int, unsigned long int; suffixed by both the letters u or U | |
and l or L: unsigned long int . | |
3.1.3.3 Enumeration constants | |
Syntax | |
enumeration-constant: | |
identifier | |
Semantics | |
An identifier declared as an enumeration constant has type int. | |
Forward references: enumeration specifiers ($3.5.2.2). | |
3.1.3.4 Character constants | |
Syntax | |
character-constant: | |
' c-char-sequence' | |
L' c-char-sequence' | |
c-char-sequence: | |
c-char | |
c-char-sequence c-char | |
c-char: | |
any member of the source character set except | |
the single-quote ', backslash \, or new-line character | |
escape-sequence | |
escape-sequence: | |
simple-escape-sequence | |
octal-escape-sequence | |
hexadecimal-escape-sequence | |
simple-escape-sequence: one of | |
\' \" \? \\ | |
\a \b \f \n \r \t \v | |
octal-escape-sequence: | |
\ octal-digit | |
\ octal-digit octal-digit | |
\ octal-digit octal-digit octal-digit | |
hexadecimal-escape-sequence: | |
\x hexadecimal-digit | |
hexadecimal-escape-sequence hexadecimal-digit | |
Description | |
An integer character constant is a sequence of one or more | |
multibyte characters enclosed in single-quotes, as in 'x' or 'ab'. A | |
wide character constant is the same, except prefixed by the letter L . | |
With a few exceptions detailed later, the elements of the sequence are | |
any members of the source character set; they are mapped in an | |
implementation-defined manner to members of the execution character | |
set. | |
The single-quote ', the double-quote , the question-mark ?, the | |
backslash \ , and arbitrary integral values, are representable | |
according to the following table of escape sequences: | |
single-quote ' \' | |
double-quote " \" | |
question-mark ? \? | |
backslash \ \\ | |
octal integer \ octal digits | |
hexadecimal integer \x hexadecimal digits | |
The double-quote and question-mark ? are representable either by | |
themselves or by the escape sequences \" and \? respectively, but the | |
single-quote ' and the backslash \ shall be represented, respectively, | |
by the escape sequences \' and \\ . | |
The octal digits that follow the backslash in an octal escape | |
sequence are taken to be part of the construction of a single | |
character for an integer character constant or of a single wide | |
character for a wide character constant. The numerical value of the | |
octal integer so formed specifies the value of the desired character. | |
The hexadecimal digits that follow the backslash and the letter x | |
in a hexadecimal escape sequence are taken to be part of the | |
construction of a single character for an integer character constant | |
or of a single wide character for a wide character constant. The | |
numerical value of the hexadecimal integer so formed specifies the | |
value of the desired character. | |
Each octal or hexadecimal escape sequence is the longest sequence | |
of characters that can constitute the escape sequence. | |
In addition, certain nongraphic characters are representable by | |
escape sequences consisting of the backslash \ followed by a | |
lower-case letter: \a , \b , \f , \n , \r , \t , and \v ./17/ If any | |
other escape sequence is encountered, the behavior is undefined./18/ | |
Constraints | |
The value of an octal or hexadecimal escape sequence shall be in | |
the range of representable values for the unsigned type corresponding | |
to its type. | |
Semantics | |
An integer character constant has type int. The value of an | |
integer character constant containing a single character that maps | |
into a member of the basic execution character set is the numerical | |
value of the representation of the mapped character interpreted as an | |
integer. The value of an integer character constant containing more | |
than one character, or containing a character or escape sequence not | |
represented in the basic execution character set, is | |
implementation-defined. In particular, in an implementation in which | |
type char has the same range of values as signed char, the high-order | |
bit position of a single-character integer character constant is | |
treated as a sign bit. | |
A wide character constant has type wchar_t , an integral type | |
defined in the <stddef.h> header. The value of a wide character | |
constant containing a single multibyte character that maps into a | |
member of the extended execution character set is the wide character | |
(code) corresponding to that multibyte character, as defined by the | |
mbtowc function, with an implementation-defined current locale. The | |
value of a wide character constant containing more than one multibyte | |
character, or containing a multibyte character or escape sequence not | |
represented in the extended execution character set, is | |
implementation-defined. | |
Examples | |
The construction '\0' is commonly used to represent the null character. | |
Consider implementations that use two's-complement representation | |
for integers and eight bits for objects that have type char. In an | |
implementation in which type char has the same range of values as | |
signed char, the integer character constant '\xFF' has the value if | |
type char has the same range of values as unsigned char, the | |
character constant '\xFF' has the value | |
Even if eight bits are used for objects that have type char , the | |
construction '\x123' specifies an integer character constant | |
containing only one character. (The value of this single-character | |
integer character constant is implementation-defined and violates the | |
above constraint.) To specify an integer character constant containing | |
the two characters whose values are 0x12 and '3', the construction | |
'\0223' may be used, since a hexadecimal escape sequence is terminated | |
only by a non-hexadecimal character. (The value of this two-character | |
integer character constant is implementation-defined also.) | |
Even if 12 or more bits are used for objects that have type wchar_t, | |
the construction L'\1234' specifies the implementation-defined value | |
that results from the combination of the values 0123 and '4'. | |
Forward references: characters and integers ($3.2.1.1) common | |
definitions <stddef.h> ($4.1.5), the mbtowc function ($4.10.7.2). | |
3.1.4 String literals | |
Syntax | |
string-literal: | |
" s-char-sequence<opt>" | |
L" s-char-sequence<opt>" | |
s-char-sequence: | |
s-char | |
s-char-sequence s-char | |
s-char: | |
any member of the source character set except | |
the double-quote ", backslash \, or new-line character | |
escape-sequence | |
Description | |
A character string literal is a sequence of zero or more multibyte | |
characters enclosed in double-quotes, as in xyz. A wide string | |
literal is the same, except prefixed by the letter L. | |
The same considerations apply to each element of the sequence in a | |
character string literal or a wide string literal as if it were in an | |
integer character constant or a wide character constant, except that | |
the single-quote ' is representable either by itself or by the escape | |
sequence \', but the double-quote shall be represented by the escape | |
sequence \. | |
Semantics | |
A character string literal has static storage duration and type | |
``array of char ,'' and is initialized with the given characters. A | |
wide string literal has static storage duration and type ``array of | |
wchar_t,'' and is initialized with the wide characters corresponding | |
to the given multibyte characters. Character string literals that are | |
adjacent tokens are concatenated into a single character string | |
literal. A null character is then appended. /19/ Likewise, adjacent | |
wide string literal tokens are concatenated into a single wide string | |
literal to which a code with value zero is then appended. If a | |
character string literal token is adjacent to a wide string literal | |
token, the behavior is undefined. | |
Identical string literals of either form need not be distinct. If | |
the program attempts to modify a string literal of either form, the | |
behavior is undefined. | |
Example | |
This pair of adjacent character string literals | |
"\x12" "3" | |
produces a single character string literal containing the two | |
characters whose values are \x12 and '3', because escape sequences are | |
converted into single members of the execution character set just | |
prior to adjacent string literal concatenation. | |
Forward references: common definitions <stddef.h> ($4.1.5). | |
3.1.5 Operators | |
Syntax | |
operator: one of | |
[ ] ( ) . -> | |
++ -- & * + - ~ ! sizeof | |
/ % << >> < > <= >= == != ^ | && || | |
? : | |
= *= /= %= += -= <<= >>= &= ^= |= | |
, # ## | |
Constraints | |
The operators [ ] , ( ) , and ? : shall occur in pairs, possibly | |
separated by expressions. The operators # and ## shall occur in | |
macro-defining preprocessing directives only. | |
Semantics | |
An operator specifies an operation to be performed (an evaluation ) | |
that yields a value, or yields a designator, or produces a side | |
effect, or a combination thereof. An operand is an entity on which an | |
operator acts. | |
Forward references: expressions ($3.3), macro replacement ($3.8.3). | |
3.1.6 Punctuators | |
Syntax | |
punctuator: one of | |
[ ] ( ) { } * , : = ; ... # | |
Constraints | |
The punctuators [ ] , ( ) , and { } shall occur in pairs, possibly | |
separated by expressions, declarations, or statements. The punctuator | |
# shall occur in preprocessing directives only. | |
Semantics | |
A punctuator is a symbol that has independent syntactic and | |
semantic significance but does not specify an operation to be | |
performed that yields a value. Depending on context, the same symbol | |
may also represent an operator or part of an operator. | |
Forward references: expressions ($3.3), declarations ($3.5), | |
preprocessing directives ($3.8), statements ($3.6). | |
3.1.7 Header names | |
Syntax | |
header-name: | |
< h-char-sequence> | |
" q-char-sequence" | |
h-char-sequence: | |
h-char | |
h-char-sequence h-char | |
h-char: | |
any member of the source character set except | |
the new-line character and > | |
q-char-sequence: | |
q-char | |
q-char-sequence q-char | |
q-char: | |
any member of the source character set except | |
the new-line character and " | |
Constraints | |
Header name preprocessing tokens shall only appear within a | |
#include preprocessing directive. | |
Semantics | |
The sequences in both forms of header names are mapped in an | |
implementation-defined manner to headers or external source file names | |
as specified in $3.8.2. | |
If the characters ', \ , , or /* occur in the sequence between the | |
< and > delimiters, the behavior is undefined. Similarly, if the | |
characters ', \ , or /* occur in the sequence between the " delimiters, | |
the behavior is undefined. /20/ | |
Example | |
The following sequence of characters: | |
0x3<1/a.h>1e2 | |
#include <1/a.h> | |
#define const.member@$ | |
forms the following sequence of preprocessing tokens (with each | |
individual preprocessing token delimited by a { on the left and a } on | |
the right). | |
{0x3}{<}{1}{/}{a}{.}{h}{>}{1e2} | |
{#}{include} {<1/a.h>} | |
{#}{define} {const}{.}{member}{@}{$} | |
Forward references: source file inclusion ($3.8.2). | |
3.1.8 Preprocessing numbers | |
Syntax | |
pp-number: | |
digit | |
. digit | |
pp-number digit | |
pp-number nondigit | |
pp-number e sign | |
pp-number E sign | |
pp-number . | |
Description | |
A preprocessing number begins with a digit optionally preceded by a | |
period (.) and may be followed by letters, underscores, digits, | |
periods, and e+, e-, E+, or E- character sequences. | |
Preprocessing number tokens lexically include all floating and | |
integer constant tokens. | |
Semantics | |
A preprocessing number does not have type or a value; it acquires | |
both after a successful conversion (as part of translation phase 7) to | |
a floating constant token or an integer constant token. | |
3.1.9 Comments | |
Except within a character constant, a string literal, or a comment, | |
the characters /* introduce a comment. The contents of a comment are | |
examined only to identify multibyte characters and to find the | |
characters */ that terminate it. /21/ | |
3.2 CONVERSIONS | |
Several operators convert operand values from one type to another | |
automatically. This section specifies the result required from such | |
an implicit conversion, as well as those that result from a cast | |
operation (an explicit conversion). The list in $3.2.1.5 summarizes | |
the conversions performed by most ordinary operators; it is | |
supplemented as required by the discussion of each operator in $3.3. | |
Conversion of an operand value to a compatible type causes no change. | |
Forward references: cast operators ($3.3.4). | |
3.2.1 Arithmetic operands | |
3.2.1.1 Characters and integers | |
A char, a short int, or an int bit-field, or their signed or | |
unsigned varieties, or an object that has enumeration type, may be | |
used in an expression wherever an int or unsigned int may be used. If | |
an int can represent all values of the original type, the value is | |
converted to an int; otherwise it is converted to an unsigned int. | |
These are called the integral promotions. | |
The integral promotions preserve value including sign. As | |
discussed earlier, whether a ``plain'' char is treated as signed is | |
implementation-defined. | |
Forward references: enumeration specifiers ($3.5.2.2), structure and | |
union specifiers ($3.5.2.1). | |
3.2.1.2 Signed and unsigned integers | |
When an unsigned integer is converted to another integral type, if | |
the value can be represented by the new type, its value is unchanged. | |
When a signed integer is converted to an unsigned integer with | |
equal or greater size, if the value of the signed integer is | |
nonnegative, its value is unchanged. Otherwise: if the unsigned | |
integer has greater size, the signed integer is first promoted to the | |
signed integer corresponding to the unsigned integer; the value is | |
converted to unsigned by adding to it one greater than the largest | |
number that can be represented in the unsigned integer type. /22/ | |
When an integer is demoted to an unsigned integer with smaller | |
size, the result is the nonnegative remainder on division by the | |
number one greater than the largest unsigned number that can be | |
represented in the type with smaller size. When an integer is demoted | |
to a signed integer with smaller size, or an unsigned integer is | |
converted to its corresponding signed integer, if the value cannot be | |
represented the result is implementation-defined. | |
3.2.1.3 Floating and integral | |
When a value of floating type is converted to integral type, the | |
fractional part is discarded. If the value of the integral part | |
cannot be represented by the integral type, the behavior is | |
undefined. /23/ | |
When a value of integral type is converted to floating type, if the | |
value being converted is in the range of values that can be | |
represented but cannot be represented exactly, the result is either | |
the nearest higher or nearest lower value, chosen in an | |
implementation-defined manner. | |
3.2.1.4 Floating types | |
When a float is promoted to double or long double , or a double is | |
promoted to long double , its value is unchanged. | |
When a double is demoted to float or a long double to double or | |
float, if the value being converted is outside the range of values | |
that can be represented, the behavior is undefined. If the value | |
being converted is in the range of values that can be represented but | |
cannot be represented exactly, the result is either the nearest higher | |
or nearest lower value, chosen in an implementation-defined manner. | |
3.2.1.5 Usual arithmetic conversions | |
Many binary operators that expect operands of arithmetic type cause | |
conversions and yield result types in a similar way. The purpose is | |
to yield a common type, which is also the type of the result. This | |
pattern is called the usual arithmetic conversions: First, if either | |
operand has type long double, the other operand is converted to long | |
double . Otherwise, if either operand has type double, the other | |
operand is converted to double. Otherwise, if either operand has | |
type float, the other operand is converted to float. Otherwise, the | |
integral promotions are performed on both operands. Then the | |
following rules are applied: If either operand has type unsigned long | |
int, the other operand is converted to unsigned long int. | |
Otherwise, if one operand has type long int and the other has type | |
unsigned int, if a long int can represent all values of an unsigned | |
int, the operand of type unsigned int is converted to long int ; if a | |
long int cannot represent all the values of an unsigned int, both | |
operands are converted to unsigned long int. Otherwise, if either | |
operand has type long int, the other operand is converted to long int. | |
Otherwise, if either operand has type unsigned int, the other | |
operand is converted to unsigned int. Otherwise, both operands have | |
type int. | |
The values of operands and of the results of expressions may be | |
represented in greater precision and range than that required by the | |
type; the types are not changed thereby. | |
3.2.2 Other operands | |
3.2.2.1 Lvalues and function designators | |
An lvalue is an expression (with an object type or an incomplete | |
type other than void) that designates an object. /24/ When an object | |
is said to have a particular type, the type is specified by the lvalue | |
used to designate the object. A modifiable lvalue is an lvalue that | |
does not have array type, does not have an incomplete type, does not | |
have a const-qualified type, and if it is a structure or union, does | |
not have any member (including, recursively, any member of all | |
contained structures or unions) with a const-qualified type. | |
Except when it is the operand of the sizeof operator, the unary & | |
operator, the ++ operator, the -- operator, or the left operand of the . | |
operator or an assignment operator, an lvalue that does not have | |
array type is converted to the value stored in the designated object | |
(and is no longer an lvalue). If the lvalue has qualified type, the | |
value has the unqualified version of the type of the lvalue; otherwise | |
the value has the type of the lvalue. If the lvalue has an incomplete | |
type and does not have array type, the behavior is undefined. | |
Except when it is the operand of the sizeof operator or the unary & | |
operator, or is a character string literal used to initialize an array | |
of character type, or is a wide string literal used to initialize an | |
array with element type compatible with wchar_t, an lvalue that has | |
type ``array of type '' is converted to an expression that has type | |
``pointer to type '' that points to the initial member of the array | |
object and is not an lvalue. | |
A function designator is an expression that has function type. | |
Except when it is the operand of the sizeof operator /25/ or the unary | |
& operator, a function designator with type ``function returning type | |
'' is converted to an expression that has type ``pointer to function | |
returning type .'' | |
Forward references: address and indirection operators ($3.3.3.2), | |
assignment operators ($3.3.16), common definitions <stddef.h> | |
($4.1.5), initialization ($3.5.7), postfix increment and decrement | |
operators ($3.3.2.4), prefix increment and decrement operators | |
($3.3.3.1), the sizeof operator ($3.3.3.4), structure and union | |
members ($3.3.2.3). | |
3.2.2.2 void | |
The (nonexistent) value of a void expression (an expression that | |
has type void) shall not be used in any way, and implicit or explicit | |
conversions (except to void ) shall not be applied to such an | |
expression. If an expression of any other type occurs in a context | |
where a void expression is required, its value or designator is | |
discarded. (A void expression is evaluated for its side effects.) | |
3.2.2.3 Pointers | |
A pointer to void may be converted to or from a pointer to any | |
incomplete or object type. A pointer to any incomplete or object type | |
may be converted to a pointer to void and back again; the result shall | |
compare equal to the original pointer. | |
A pointer to a non-q-qualified type may be converted to a pointer | |
to the q-qualified version of the type; the values stored in the | |
original and converted pointers shall compare equal. | |
An integral constant expression with the value 0, or such an | |
expression cast to type void * , is called a null pointer constant. If | |
a null pointer constant is assigned to or compared for equality to a | |
pointer, the constant is converted to a pointer of that type. Such a | |
pointer, called a null pointer, is guaranteed to compare unequal to a | |
pointer to any object or function. | |
Two null pointers, converted through possibly different sequences | |
of casts to pointer types, shall compare equal. | |
Forward references: cast operators ($3.3.4), equality operators | |
($3.3.9), simple assignment ($3.3.16.1). | |
3.3 EXPRESSIONS | |
An expression is a sequence of operators and operands that | |
specifies computation of a value, or that designates an object or a | |
function, or that generates side effects, or that performs a | |
combination thereof. | |
Between the previous and next sequence point an object shall have | |
its stored value modified at most once by the evaluation of an | |
expression. Furthermore, the prior value shall be accessed only to | |
determine the value to be stored. /26/ | |
Except as indicated by the syntax /27/ or otherwise specified later | |
(for the function-call operator () , && , || , ?: , and comma | |
operators), the order of evaluation of subexpressions and the order in | |
which side effects take place are both unspecified. | |
Some operators (the unary operator ~ , and the binary operators << , | |
>> , & , ^ , and | , collectively described as bitwise operators | |
)shall have operands that have integral type. These operators return | |
values that depend on the internal representations of integers, and | |
thus have implementation-defined aspects for signed types. | |
If an exception occurs during the evaluation of an expression (that | |
is, if the result is not mathematically defined or not representable), | |
the behavior is undefined. | |
An object shall have its stored value accessed only by an lvalue | |
that has one of the following types: /28/ | |
* the declared type of the object, | |
* a qualified version of the declared type of the object, | |
* a type that is the signed or unsigned type corresponding to the | |
declared type of the object, | |
* a type that is the signed or unsigned type corresponding to a | |
qualified version of the declared type of the object, | |
* an aggregate or union type that includes one of the aforementioned | |
types among its members (including, recursively, a member of a | |
subaggregate or contained union), or | |
* a character type. | |
3.3.1 Primary expressions | |
Syntax | |
primary-expression: | |
identifier | |
constant | |
string-literal | |
( expression ) | |
Semantics | |
An identifier is a primary expression, provided it has been | |
declared as designating an object (in which case it is an lvalue) or a | |
function (in which case it is a function designator). | |
A constant is a primary expression. Its type depends on its form, | |
as detailed in $3.1.3. | |
A string literal is a primary expression. It is an lvalue with | |
type as detailed in $3.1.4. | |
A parenthesized expression is a primary expression. Its type and | |
value are identical to those of the unparenthesized expression. It is | |
an lvalue, a function designator, or a void expression if the | |
unparenthesized expression is, respectively, an lvalue, a function | |
designator, or a void expression. | |
Forward references: declarations ($3.5). | |
3.3.2 Postfix operators | |
Syntax | |
postfix-expression: | |
primary-expression | |
postfix-expression [ expression ] | |
postfix-expression ( argument-expression-list<opt> ) | |
postfix-expression . identifier | |
postfix-expression -> identifier | |
postfix-expression ++ | |
postfix-expression -- | |
argument-expression-list: | |
assignment-expression | |
argument-expression-list , assignment-expression | |
3.3.2.1 Array subscripting | |
Constraints | |
One of the expressions shall have type ``pointer to object type ,'' | |
the other expression shall have integral type, and the result has type | |
`` type .'' | |
Semantics | |
A postfix expression followed by an expression in square brackets | |
[] is a subscripted designation of a member of an array object. The | |
definition of the subscript operator [] is that E1[E2] is identical to | |
(*(E1+(E2))) . Because of the conversion rules that apply to the | |
binary + operator, if E1 is an array object (equivalently, a pointer | |
to the initial member of an array object) and E2 is an integer, E1[E2] | |
designates the E2 -th member of E1 (counting from zero). | |
Successive subscript operators designate a member of a | |
multi-dimensional array object. If E is an n -dimensional array ( n | |
>=2) with dimensions i x j "x ... x" k , then E (used as other than an | |
lvalue) is converted to a pointer to an ( n -1)-dimensional array with | |
dimensions j "x ... x" k . If the unary * operator is applied to this | |
pointer explicitly, or implicitly as a result of subscripting, the | |
result is the pointed-to ( n -1)-dimensional array, which itself is | |
converted into a pointer if used as other than an lvalue. It follows | |
from this that arrays are stored in row-major order (last subscript | |
varies fastest). | |
Example | |
Consider the array object defined by the declaration | |
int x[3][5]; | |
Here x is a 3x5 array of int s; more precisely, x is an array of three | |
member objects, each of which is an array of five int s. In the | |
expression x[i] , which is equivalent to (*(x+(i))) , x is first | |
converted to a pointer to the initial array of five int s. Then i is | |
adjusted according to the type of x , which conceptually entails | |
multiplying i by the size of the object to which the pointer points, | |
namely an array of five int objects. The results are added and | |
indirection is applied to yield an array of five int s. When used in | |
the expression x[i][j] , that in turn is converted to a pointer to the | |
first of the int s, so x[i][j] yields an int. | |
Forward references: additive operators ($3.3.6), address and | |
indirection operators ($3.3.3.2), array declarators ($3.5.4.2). | |
3.3.2.2 Function calls | |
Constraints | |
The expression that denotes the called function/29/ shall have type | |
pointer to function returning void or returning an object type other | |
than array. | |
If the expression that denotes the called function has a type that | |
includes a prototype, the number of arguments shall agree with the | |
number of parameters. Each argument shall have a type such that its | |
value may be assigned to an object with the unqualified version of the | |
type of its corresponding parameter. | |
Semantics | |
A postfix expression followed by parentheses () containing a | |
possibly empty, comma-separated list of expressions is a function | |
call. The postfix expression denotes the called function. The list | |
of expressions specifies the arguments to the function. | |
If the expression that precedes the parenthesized argument list in | |
a function call consists solely of an identifier, and if no | |
declaration is visible for this identifier, the identifier is | |
implicitly declared exactly as if, in the innermost block containing | |
the function call, the declaration | |
extern int identifier(); | |
appeared. /30/ | |
An argument may be an expression of any object type. In preparing | |
for the call to a function, the arguments are evaluated, and each | |
parameter is assigned the value of the corresponding argument./31/ The | |
value of the function call expression is specified in $3.6.6.4. | |
If the expression that denotes the called function has a type that | |
does not include a prototype, the integral promotions are performed on | |
each argument and arguments that have type float are promoted to | |
double. These are called the default argument promotions. If the | |
number of arguments does not agree with the number of parameters, the | |
behavior is undefined. If the function is defined with a type that | |
does not include a prototype, and the types of the arguments after | |
promotion are not compatible with those of the parameters after | |
promotion, the behavior is undefined. If the function is defined with | |
a type that includes a prototype, and the types of the arguments after | |
promotion are not compatible with the types of the parameters, or if | |
the prototype ends with an ellipsis ( ", ..." ), the behavior is | |
undefined. | |
If the expression that denotes the called function has a type that | |
includes a prototype, the arguments are implicitly converted, as if by | |
assignment, to the types of the corresponding parameters. The | |
ellipsis notation in a function prototype declarator causes argument | |
type conversion to stop after the last declared parameter. The | |
default argument promotions are performed on trailing arguments. If | |
the function is defined with a type that is not compatible with the | |
type (of the expression) pointed to by the expression that denotes the | |
called function, the behavior is undefined. | |
No other conversions are performed implicitly; in particular, the | |
number and types of arguments are not compared with those of the | |
parameters in a function definition that does not include a function | |
prototype declarator. | |
The order of evaluation of the function designator, the arguments, | |
and subexpressions within the arguments is unspecified, but there is a | |
sequence point before the actual call. | |
Recursive function calls shall be permitted, both directly and | |
indirectly through any chain of other functions. | |
Example | |
In the function call | |
(*pf[f1()]) (f2(), f3() + f4()) | |
the functions f1 , f2 , f3 , and f4 may be called in any order. All | |
side effects shall be completed before the function pointed to by | |
pf[f1()] is entered. | |
Forward references: function declarators (including prototypes) | |
($3.5.4.3), function definitions ($3.7.1), the return statement | |
($3.6.6.4), simple assignment ($3.3.16.1). | |
3.3.2.3 Structure and union members | |
Constraints | |
The first operand of the . operator shall have a qualified or | |
unqualified structure or union type, and the second operand shall name | |
a member of that type. | |
The first operand of the -> operator shall have type ``pointer to | |
qualified or unqualified structure'' or ``pointer to qualified or | |
unqualified union,'' and the second operand shall name a member of the | |
type pointed to. | |
Semantics | |
A postfix expression followed by a dot . and an identifier | |
designates a member of a structure or union object. The value is that | |
of the named member, and is an lvalue if the first expression is an | |
lvalue. If the first expression has qualified type, the result has | |
the so-qualified version of the type of the designated member. | |
A postfix expression followed by an arrow -> and an identifier | |
designates a member of a structure or union object. The value is that | |
of the named member of the object to which the first expression | |
points, and is an lvalue./32/ If the first expression is a pointer to | |
a qualified type, the result has the so-qualified version of the type | |
of the designated member. | |
With one exception, if a member of a union object is accessed after | |
a value has been stored in a different member of the object, the | |
behavior is implementation-defined./33/ One special guarantee is made | |
in order to simplify the use of unions: If a union contains several | |
structures that share a common initial sequence, and if the union | |
object currently contains one of these structures, it is permitted to | |
inspect the common initial part of any of them. Two structures share | |
a common initial sequence if corresponding members have compatible | |
types for a sequence of one or more initial members. | |
Example | |
If f is a function returning a structure or union, and x is a | |
member of that structure or union, f().x is a valid postfix expression | |
but is not an lvalue. | |
The following is a valid fragment: | |
union { | |
struct { | |
int alltypes; | |
} n; | |
struct { | |
int type; | |
int intnode; | |
} ni; | |
struct { | |
int type; | |
double doublenode; | |
} nf; | |
} u; | |
/*...*/ | |
u.nf.type = 1; | |
u.nf.doublenode = 3.14; | |
/*...*/ | |
if (u.n.alltypes == 1) | |
/*...*/ sin(u.nf.doublenode) /*...*/ | |
Forward references: address and indirection operators ($3.3.3.2), | |
structure and union specifiers ($3.5.2.1). | |
3.3.2.4 Postfix increment and decrement operators | |
Constraints | |
The operand of the postfix increment or decrement operator shall | |
have qualified or unqualified scalar type and shall be a modifiable | |
lvalue. | |
Semantics | |
The result of the postfix ++ operator is the value of the operand. | |
After the result is obtained, the value of the operand is incremented. | |
(That is, the value 1 of the appropriate type is added to it.) See the | |
discussions of additive operators and compound assignment for | |
information on constraints, types and conversions and the effects of | |
operations on pointers. The side effect of updating the stored value | |
of the operand shall occur between the previous and the next sequence | |
point. | |
The postfix -- operator is analogous to the postfix ++ operator, | |
except that the value of the operand is decremented (that is, the | |
value 1 of the appropriate type is subtracted from it). | |
Forward references: additive operators ($3.3.6), compound assignment | |
($3.3.16.2). | |
3.3.3 Unary operators | |
Syntax | |
unary-expression: | |
postfix-expression | |
++ unary-expression | |
-- unary-expression | |
unary-operator cast-expression | |
sizeof unary-expression | |
sizeof ( type-name ) | |
unary-operator: one of | |
& * + - ~ ! | |
3.3.3.1 Prefix increment and decrement operators | |
Constraints | |
The operand of the prefix increment or decrement operator shall | |
have qualified or unqualified scalar type and shall be a modifiable | |
lvalue. | |
Semantics | |
The value of the operand of the prefix ++ operator is incremented. | |
The result is the new value of the operand after incrementation. The | |
expression ++E is equivalent to (E+=1) . See the discussions of | |
additive operators and compound assignment for information on | |
constraints, types, side effects, and conversions and the effects of | |
operations on pointers. | |
The prefix -- operator is analogous to the prefix ++ operator, | |
except that the value of the operand is decremented. | |
Forward references: additive operators ($3.3.6), compound assignment | |
($3.3.16.2). | |
3.3.3.2 Address and indirection operators | |
Constraints | |
The operand of the unary & operator shall be either a function | |
designator or an lvalue that designates an object that is not a | |
bit-field and is not declared with the register storage-class | |
specifier. | |
The operand of the unary * operator shall have pointer type. | |
Semantics | |
The result of the unary & (address-of) operator is a pointer to the | |
object or function designated by its operand. If the operand has type | |
`` type ,'' the result has type ``pointer to type .'' | |
The unary * operator denotes indirection. If the operand points to | |
a function, the result is a function designator; if it points to an | |
object, the result is an lvalue designating the object. If the | |
operand has type ``pointer to type ,'' the result has type `` type .'' | |
If an invalid value has been assigned to the pointer, the behavior of | |
the unary * operator is undefined./34/ | |
Forward references: storage-class specifiers ($3.5.1), structure and | |
union specifiers ($3.5.2.1). | |
3.3.3.3 Unary arithmetic operators | |
Constraints | |
The operand of the unary + or - operator shall have arithmetic | |
type; of the ~ operator, integral type; of the ! operator, scalar | |
type. | |
Semantics | |
The result of the unary + operator is the value of its operand. | |
The integral promotion is performed on the operand, and the result has | |
the promoted type. | |
The result of the unary - operator is the negative of its operand. | |
The integral promotion is performed on the operand, and the result has | |
the promoted type. | |
The result of the ~ operator is the bitwise complement of its | |
operand (that is, each bit in the result is set if and only if the | |
corresponding bit in the converted operand is not set). The integral | |
promotion is performed on the operand, and the result has the promoted | |
type. The expression ~E is equivalent to (ULONG_MAX-E) if E is | |
promoted to type unsigned long , to (UINT_MAX-E) if E is promoted to | |
type unsigned int . (The constants ULONG_MAX and UINT_MAX are defined | |
in the header <limits.h> .) | |
The result of the logical negation operator ! is 0 if the value of | |
its operand compares unequal to 0, 1 if the value of its operand | |
compares equal to 0. The result has type int . The expression !E is | |
equivalent to (0==E) . | |
Forward references: limits <float.h> and <limits.h> ($4.1.4). | |
3.3.3.4 The sizeof operator | |
Constraints | |
The sizeof operator shall not be applied to an expression that has | |
function type or an incomplete type, to the parenthesized name of such | |
a type, or to an lvalue that designates a bit-field object. | |
Semantics | |
The sizeof operator yields the size (in bytes) of its operand, | |
which may be an expression or the parenthesized name of a type. The | |
size is determined from the type of the operand, which is not itself | |
evaluated. The result is an integer constant. | |
When applied to an operand that has type char , unsigned char , or | |
signed char , (or a qualified version thereof) the result is 1. When | |
applied to an operand that has array type, the result is the total | |
number of bytes in the array./35/ When applied to an operand that has | |
structure or union type, the result is the total number of bytes in | |
such an object, including internal and trailing padding. | |
The value of the result is implementation-defined, and its type (an | |
unsigned integral type) is size_t defined in the <stddef.h> header. | |
Examples | |
A principal use of the sizeof operator is in communication with | |
routines such as storage allocators and I/O systems. A | |
storage-allocation function might accept a size (in bytes) of an | |
object to allocate and return a pointer to void. For example: | |
extern void *alloc(); | |
double *dp = alloc(sizeof *dp); | |
The implementation of the alloc function should ensure that its return | |
value is aligned suitably for conversion to a pointer to double. | |
Another use of the sizeof operator is to compute the number of | |
members in an array: | |
sizeof array / sizeof array[0] | |
Forward references: common definitions <stddef.h> ($4.1.5), | |
declarations ($3.5), structure and union specifiers ($3.5.2.1), type | |
names ($3.5.5). | |
3.3.4 Cast operators | |
Syntax | |
cast-expression: | |
unary-expression | |
( type-name ) cast-expression | |
Constraints | |
Unless the type name specifies void type, the type name shall | |
specify qualified or unqualified scalar type and the operand shall | |
have scalar type. | |
Semantics | |
Preceding an expression by a parenthesized type name converts the | |
value of the expression to the named type. This construction is | |
called a cast. /36/ A cast that specifies an implicit conversion or no | |
conversion has no effect on the type or value of an expression. | |
Conversions that involve pointers (other than as permitted by the | |
constraints of $3.3.16.1) shall be specified by means of an explicit | |
cast; they have implementation-defined aspects: A pointer may be | |
converted to an integral type. The size of integer required and the | |
result are implementation-defined. If the space provided is not long | |
enough, the behavior is undefined. An arbitrary integer may be | |
converted to a pointer. The result is implementation-defined./37/ A | |
pointer to an object or incomplete type may be converted to a pointer | |
to a different object type or a different incomplete type. The | |
resulting pointer might not be valid if it is improperly aligned for | |
the type pointed to. It is guaranteed, however, that a pointer to an | |
object of a given alignment may be converted to a pointer to an object | |
of the same alignment or a less strict alignment and back again; the | |
result shall compare equal to the original pointer. (An object that | |
has character type has the least strict alignment.) A pointer to a | |
function of one type may be converted to a pointer to a function of | |
another type and back again; the result shall compare equal to the | |
original pointer. If a converted pointer is used to call a function | |
that has a type that is not compatible with the type of the called | |
function, the behavior is undefined. | |
Forward references: equality operators ($3.3.9), function declarators | |
(including prototypes) ($3.5.4.3), simple assignment ($3.3.16.1), type | |
names ($3.5.5). | |
3.3.5 Multiplicative operators | |
Syntax | |
multiplicative-expression: | |
cast-expression | |
multiplicative-expression * cast-expression | |
multiplicative-expression / cast-expression | |
multiplicative-expression % cast-expression | |
Constraints | |
Each of the operands shall have arithmetic type. The operands of | |
the % operator shall have integral type. | |
Semantics | |
The usual arithmetic conversions are performed on the operands. | |
The result of the binary * operator is the product of the operands. | |
The result of the / operator is the quotient from the division of | |
the first operand by the second; the result of the % operator is the | |
remainder. In both operations, if the value of the second operand is | |
zero, the behavior is undefined. | |
When integers are divided and the division is inexact, if both | |
operands are positive the result of the / operator is the largest | |
integer less than the algebraic quotient and the result of the % | |
operator is positive. If either operand is negative, whether the | |
result of the / operator is the largest integer less than the | |
algebraic quotient or the smallest integer greater than the algebraic | |
quotient is implementation-defined, as is the sign of the result of | |
the % operator. If the quotient a/b is representable, the expression | |
(a/b)*b + a%b shall equal a . | |
3.3.6 Additive operators | |
Syntax | |
additive-expression: | |
multiplicative-expression | |
additive-expression + multiplicative-expression | |
additive-expression - multiplicative-expression | |
Constraints | |
For addition, either both operands shall have arithmetic type, or | |
one operand shall be a pointer to an object type and the other shall | |
have integral type. (Incrementing is equivalent to adding 1.) | |
For subtraction, one of the following shall hold: | |
* both operands have arithmetic type; | |
* both operands are pointers to qualified or unqualified versions of | |
compatible object types; or | |
* the left operand is a pointer to an object type and the right | |
operand has integral type. (Decrementing is equivalent to subtracting 1.) | |
Semantics | |
If both operands have arithmetic type, the usual arithmetic | |
conversions are performed on them. | |
The result of the binary + operator is the sum of the operands. | |
The result of the binary - operator is the difference resulting | |
from the subtraction of the second operand from the first. | |
When an expression that has integral type is added to or subtracted | |
from a pointer, the integral value is first multiplied by the size of | |
the object pointed to. The result has the type of the pointer | |
operand. If the pointer operand points to a member of an array | |
object, and the array object is large enough, the result points to a | |
member of the same array object, appropriately offset from the | |
original member. Thus if P points to a member of an array object, the | |
expression P+1 points to the next member of the array object. Unless | |
both the pointer operand and the result point to a member of the same | |
array object, or one past the last member of the array object, the | |
behavior is undefined. Unless both the pointer operand and the result | |
point to a member of the same array object, or the pointer operand | |
points one past the last member of an array object and the result | |
points to a member of the same array object, the behavior is undefined | |
if the result is used as the operand of a unary * operator. | |
When two pointers to members of the same array object are | |
subtracted, the difference is divided by the size of a member. The | |
result represents the difference of the subscripts of the two array | |
members. The size of the result is implementation-defined, and its | |
type (a signed integral type) is ptrdiff_t defined in the <stddef.h> | |
header. As with any other arithmetic overflow, if the result does not | |
fit in the space provided, the behavior is undefined. If two pointers | |
that do not point to members of the same array object are subtracted, | |
the behavior is undefined. However, if P points either to a member of | |
an array object or one past the last member of an array object, and Q | |
points to the last member of the same array object, the expression | |
(Q+1) - P has the same value as (Q-P) + 1 , even though Q+1 does not | |
point to a member of the array object. | |
Forward references: common definitions <stddef.h> ($4.1.5). | |
3.3.7 Bitwise shift operators | |
Syntax | |
shift-expression: | |
additive-expression | |
shift-expression << additive-expression | |
shift-expression >> additive-expression | |
Constraints | |
Each of the operands shall have integral type. | |
Semantics | |
The integral promotions are performed on each of the operands. The | |
type of the result is that of the promoted left operand. If the value | |
of the right operand is negative or is greater than or equal to the | |
width in bits of the promoted left operand, the behavior is undefined. | |
The result of E1 << E2 is E1 left-shifted E2 bit positions; vacated | |
bits are filled with zeros. If E1 has an unsigned type, the value of | |
the result is E1 multiplied by the quantity, 2 raised to the power E2, | |
reduced modulo ULONG_MAX+1 if E1 has type unsigned long, UINT_MAX+1 | |
otherwise. (The constants ULONG_MAX and UINT_MAX are defined in the | |
header <limits.h> .) | |
The result of E1 >> E2 is E1 right-shifted E2 bit positions. If E1 | |
has an unsigned type or if E1 has a signed type and a nonnegative | |
value, the value of the result is the integral part of the quotient of | |
E1 divided by the quantity, 2 raised to the power E2 . If E1 has a | |
signed type and a negative value, the resulting value is | |
implementation-defined. | |
3.3.8 Relational operators | |
Syntax | |
relational-expression: | |
shift-expression | |
relational-expression < shift-expression | |
relational-expression > shift-expression | |
relational-expression <= shift-expression | |
relational-expression >= shift-expression | |
Constraints | |
One of the following shall hold: | |
* both operands have arithmetic type; | |
* both operands are pointers to qualified or unqualified versions of | |
compatible object types; or | |
* both operands are pointers to qualified or unqualified versions of | |
compatible incomplete types. | |
Semantics | |
If both of the operands have arithmetic type, the usual arithmetic | |
conversions are performed. | |
When two pointers are compared, the result depends on the relative | |
locations in the address space of the objects pointed to. If the | |
objects pointed to are members of the same aggregate object, pointers | |
to structure members declared later compare higher than pointers to | |
members declared earlier in the structure, and pointers to array | |
elements with larger subscript values compare higher than pointers to | |
elements of the same array with lower subscript values. All pointers | |
to members of the same union object compare equal. If the objects | |
pointed to are not members of the same aggregate or union object, the | |
result is undefined, with the following exception. If P points to the | |
last member of an array object and Q points to a member of the same | |
array object, the pointer expression P+1 compares higher than Q , even | |
though P+1 does not point to a member of the array object. | |
Each of the operators < (less than), > (greater than), <= (less | |
than or equal to), and >= (greater than or equal to) shall yield 1 if | |
the specified relation is true and 0 if it is false./38/ The result | |
has type int. | |
3.3.9 Equality operators | |
Syntax | |
equality-expression: | |
relational-expression | |
equality-expression == relational-expression | |
equality-expression != relational-expression | |
Constraints | |
One of the following shall hold: | |
* both operands have arithmetic type; | |
* both operands are pointers to qualified or unqualified versions of | |
compatible types; | |
* one operand is a pointer to an object or incomplete type and the | |
other is a qualified or unqualified version of void ; or | |
* one operand is a pointer and the other is a null pointer constant. | |
Semantics | |
The == (equal to) and the != (not equal to) operators are analogous | |
to the relational operators except for their lower precedence./39/ | |
If two pointers to object or incomplete types compare equal, they | |
point to the same object. If two pointers to functions compare equal, | |
they point to the same function. If two pointers point to the same | |
object or function, they compare equal./40/ If one of the operands is | |
a pointer to an object or incomplete type and the other has type | |
pointer to a qualified or unqualified version of void , the pointer to | |
an object or incomplete type is converted to the type of the other | |
operand. | |
3.3.10 Bitwise AND operator | |
Syntax | |
AND-expression: | |
equality-expression | |
AND-expression & equality-expression | |
Constraints | |
Each of the operands shall have integral type. | |
Semantics | |
The usual arithmetic conversions are performed on the operands. | |
The result of the binary & operator is the bitwise AND of the | |
operands (that is, each bit in the result is set if and only if each | |
of the corresponding bits in the converted operands is set). | |
3.3.11 Bitwise exclusive OR operator | |
Syntax | |
exclusive-OR-expression: | |
AND-expression | |
exclusive-OR-expression ^ AND-expression | |
Constraints | |
Each of the operands shall have integral type. | |
Semantics | |
The usual arithmetic conversions are performed on the operands. | |
The result of the ^ operator is the bitwise exclusive OR of the | |
operands (that is, each bit in the result is set if and only if | |
exactly one of the corresponding bits in the converted operands is | |
set). | |
3.3.12 Bitwise inclusive OR operator | |
Syntax | |
inclusive-OR-expression: | |
exclusive-OR-expression | |
inclusive-OR-expression | exclusive-OR-expression | |
Constraints | |
Each of the operands shall have integral type. | |
Semantics | |
The usual arithmetic conversions are performed on the operands. | |
The result of the | operator is the bitwise inclusive OR of the | |
operands (that is, each bit in the result is set if and only if at | |
least one of the corresponding bits in the converted operands is set). | |
3.3.13 Logical AND operator | |
Syntax | |
logical-AND-expression: | |
inclusive-OR-expression | |
logical-AND-expression && inclusive-OR-expression | |
Constraints | |
Each of the operands shall have scalar type. | |
Semantics | |
The && operator shall yield 1 if both of its operands compare | |
unequal to 0, otherwise it yields 0. The result has type int. | |
Unlike the bitwise binary & operator, the && operator guarantees | |
left-to-right evaluation; there is a sequence point after the | |
evaluation of the first operand. If the first operand compares equal | |
to 0, the second operand is not evaluated. | |
3.3.14 Logical OR operator | |
Syntax | |
logical-OR-expression: | |
logical-AND-expression | |
logical-OR-expression || logical-AND-expression | |
Constraints | |
Each of the operands shall have scalar type. | |
Semantics | |
The || operator shall yield 1 if either of its operands compare | |
unequal to 0, otherwise it yields 0. The result has type int. | |
Unlike the bitwise | operator, the || operator guarantees | |
left-to-right evaluation; there is a sequence point after the | |
evaluation of the first operand. If the first operand compares | |
unequal to 0, the second operand is not evaluated. | |
3.3.15 Conditional operator | |
Syntax | |
conditional-expression: | |
logical-OR-expression | |
logical-OR-expression ? expression : conditional-expression | |
Constraints | |
The first operand shall have scalar type. | |
One of the following shall hold for the second and third operands: | |
* both operands have arithmetic type; | |
* both operands have compatible structure or union types; | |
* both operands have void type; | |
* both operands are pointers to qualified or unqualified versions of | |
compatible types; | |
* one operand is a pointer and the other is a null pointer constant; or | |
* one operand is a pointer to an object or incomplete type and the | |
other is a pointer to a qualified or unqualified version of void . | |
Semantics | |
The first operand is evaluated; there is a sequence point after its | |
evaluation. The second operand is evaluated only if the first | |
compares unequal to 0; the third operand is evaluated only if the | |
first compares equal to 0; the value of the second or third operand | |
(whichever is evaluated) is the result./41/ | |
If both the second and third operands have arithmetic type, the | |
usual arithmetic conversions are performed to bring them to a common | |
type and the result has that type. If both the operands have | |
structure or union type, the result has that type. If both operands | |
have void type, the result has void type. | |
If both the second and third operands are pointers or one is a null | |
pointer constant and the other is a pointer, the result type is a | |
pointer to a type qualified with all the type qualifiers of the types | |
pointed-to by both operands. Furthermore, if both operands are | |
pointers to compatible types or differently qualified versions of a | |
compatible type, the result has the composite type; if one operand is | |
a null pointer constant, the result has the type of the other operand; | |
otherwise, one operand is a pointer to void or a qualified version of | |
void, in which case the other operand is converted to type pointer to | |
void, and the result has that type. | |
3.3.16 Assignment operators | |
Syntax | |
assignment-expression: | |
conditional-expression | |
unary-expression assignment-operator assignment-expression | |
assignment-operator: one of | |
= *= /= %= += -= <<= >>= &= ^= |= | |
Constraints | |
An assignment operator shall have a modifiable lvalue as its left operand. | |
Semantics | |
An assignment operator stores a value in the object designated by | |
the left operand. An assignment expression has the value of the left | |
operand after the assignment, but is not an lvalue. The type of an | |
assignment expression is the type of the left operand unless the left | |
operand has qualified type, in which case it is the unqualified | |
version of the type of the left operand. The side effect of updating | |
the stored value of the left operand shall occur between the previous | |
and the next sequence point. | |
The order of evaluation of the operands is unspecified. | |
3.3.16.1 Simple assignment | |
Constraints | |
One of the following shall hold:/42/ | |
* the left operand has qualified or unqualified arithmetic type and | |
the right has arithmetic type; | |
* the left operand has a qualified or unqualified version of a | |
structure or union type compatible with the type of the right; | |
* both operands are pointers to qualified or unqualified versions of | |
compatible types, and the type pointed to by the left has all the | |
qualifiers of the type pointed to by the right; | |
* one operand is a pointer to an object or incomplete type and the | |
other is a pointer to a qualified or unqualified version of void, and | |
the type pointed to by the left has all the qualifiers of the type | |
pointed to by the right; or | |
* the left operand is a pointer and the right is a null pointer constant. | |
Semantics | |
In simple assignment ( = ), the value of the right operand is | |
converted to the type of the assignment expression and replaces the | |
value stored in the object designated by the left operand. | |
If the value being stored in an object is accessed from another | |
object that overlaps in any way the storage of the first object, then | |
the overlap shall be exact and the two objects shall have qualified or | |
unqualified versions of a compatible type; otherwise the behavior is | |
undefined. | |
Example | |
In the program fragment | |
int f(void); | |
char c; | |
/*...*/ | |
/*...*/ ((c = f()) == -1) /*...*/ | |
the int value returned by the function may be truncated when stored in | |
the char, and then converted back to int width prior to the | |
comparison. In an implementation in which ``plain'' char has the same | |
range of values as unsigned char (and char is narrower than int ), the | |
result of the conversion cannot be negative, so the operands of the | |
comparison can never compare equal. Therefore, for full portability | |
the variable c should be declared as int. | |
3.3.16.2 Compound assignment | |
Constraints | |
For the operators += and -= only, either the left operand shall be | |
a pointer to an object type and the right shall have integral type, or | |
the left operand shall have qualified or unqualified arithmetic type | |
and the right shall have arithmetic type. | |
For the other operators, each operand shall have arithmetic type | |
consistent with those allowed by the corresponding binary operator. | |
Semantics | |
A compound assignment of the form E1 op = E2 differs from the | |
simple assignment expression E1 = E1 op (E2) only in that the lvalue | |
E1 is evaluated only once. | |
3.3.17 Comma operator | |
Syntax | |
expression: | |
assignment-expression | |
expression , assignment-expression | |
Semantics | |
The left operand of a comma operator is evaluated as a void | |
expression; there is a sequence point after its evaluation. Then the | |
right operand is evaluated; the result has its type and value./43/ | |
Example | |
As indicated by the syntax, in contexts where a comma is a | |
punctuator (in lists of arguments to functions and lists of | |
initializers) the comma operator as described in this section cannot | |
appear. On the other hand, it can be used within a parenthesized | |
expression or within the second expression of a conditional operator | |
in such contexts. In the function call | |
f(a, (t=3, t+2), c) | |
the function has three arguments, the second of which has the value 5. | |
Forward references: initialization ($3.5.7). | |
3.4 CONSTANT EXPRESSIONS | |
Syntax | |
constant-expression: | |
conditional-expression | |
Description | |
A constant expression can be evaluated during translation rather | |
than runtime, and accordingly may be used in any place that a constant | |
may be. | |
Constraints | |
Constant expressions shall not contain assignment, increment, | |
decrement, function-call, or comma operators, except when they are | |
contained within the operand of a sizeof operator./44/ | |
Each constant expression shall evaluate to a constant that is in | |
the range of representable values for its type. | |
Semantics | |
An expression that evaluates to a constant is required in several | |
contexts./45/ If the expression is evaluated in the translation | |
environment, the arithmetic precision and range shall be at least as | |
great as if the expression were being evaluated in the execution | |
environment. | |
An integral constant expression shall have integral type and shall | |
only have operands that are integer constants, enumeration constants, | |
character constants, sizeof expressions, and floating constants that | |
are the immediate operands of casts. Cast operators in an integral | |
constant expression shall only convert arithmetic types to integral | |
types, except as part of an operand to the sizeof operator. | |
More latitude is permitted for constant expressions in | |
initializers. Such a constant expression shall evaluate to one of the | |
following: | |
* an arithmetic constant expression, | |
* an address constant, or | |
* an address constant for an object type plus or minus an integral | |
constant expression. | |
An arithmetic constant expression shall have arithmetic type and | |
shall only have operands that are integer constants, floating | |
constants, enumeration constants, character constants, and sizeof | |
expressions. Cast operators in an arithmetic constant expression | |
shall only convert arithmetic types to arithmetic types, except as | |
part of an operand to the sizeof operator. | |
An address constant is a pointer to an lvalue designating an object | |
of static storage duration, or to a function designator; it shall be | |
created explicitly, using the unary & operator, or implicitly, by the | |
use of an expression of array or function type. The array-subscript | |
[] and member-access . and -> operators, the address & and | |
indirection * unary operators, and pointer casts may be used in the | |
creation an address constant, but the value of an object shall not be | |
accessed by use of these operators. | |
The semantic rules for the evaluation of a constant expression are | |
the same as for non-constant expressions./46/ | |
Forward references: initialization ($3.5.7). | |
3.5 DECLARATIONS | |
Syntax | |
declaration: | |
declaration-specifiers init-declarator-list<opt> ; | |
declaration-specifiers: | |
storage-class-specifier declaration-specifiers<opt> | |
type-specifier declaration-specifiers<opt> | |
type-qualifier declaration-specifiers<opt> | |
init-declarator-list: | |
init-declarator | |
init-declarator-list , init-declarator | |
init-declarator: | |
declarator | |
declarator = initializer | |
Constraints | |
A declaration shall declare at least a declarator, a tag, or the | |
members of an enumeration. | |
If an identifier has no linkage, there shall be no more than one | |
declaration of the identifier (in a declarator or type specifier) with | |
the same scope and in the same name space, except for tags as | |
specified in $3.5.2.3. | |
All declarations in the same scope that refer to the same object or | |
function shall specify compatible types. | |
Semantics | |
A declaration specifies the interpretation and attributes of a set | |
of identifiers. A declaration that also causes storage to be reserved | |
for an object or function named by an identifier is a definition ./47/ | |
The declaration specifiers consist of a sequence of specifiers that | |
indicate the linkage, storage duration, and part of the type of the | |
entities that the declarators denote. The init-declarator-list is a | |
comma-separated sequence of declarators, each of which may have | |
additional type information, or an initializer, or both. The | |
declarators contain the identifiers (if any) being declared. | |
If an identifier for an object is declared with no linkage, the | |
type for the object shall be complete by the end of its declarator, or | |
by the end of its init-declarator if it has an initializer. | |
Forward references: declarators ($3.5.4), enumeration specifiers | |
($3.5.2.2), initialization ($3.5.7), tags ($3.5.2.3). | |
3.5.1 Storage-class specifiers | |
Syntax | |
storage-class-specifier: | |
typedef | |
extern | |
static | |
auto | |
register | |
Constraints | |
At most one storage-class specifier may be given in the declaration | |
specifiers in a declaration./48/ | |
Semantics | |
The typedef specifier is called a ``storage-class specifier'' for | |
syntactic convenience only; it is discussed in $3.5.6. The meanings | |
of the various linkages and storage durations were discussed in | |
$3.1.2.2 and $3.1.2.4. | |
A declaration of an identifier for an object with storage-class | |
specifier register suggests that access to the object be as fast as | |
possible. The extent to which such suggestions are effective is | |
implementation-defined./49/ | |
The declaration of an identifier for a function that has block | |
scope shall have no explicit storage-class specifier other than extern. | |
Forward references: type definitions ($3.5.6). | |
3.5.2 Type specifiers | |
Syntax | |
type-specifier: | |
void | |
char | |
short | |
int | |
long | |
float | |
double | |
signed | |
unsigned | |
struct-or-union-specifier | |
enum-specifier | |
typedef-name | |
Constraints | |
Each list of type specifiers shall be one of the following sets; the | |
type specifiers may occur in any order, possibly intermixed with the | |
other declaration specifiers. | |
* void | |
* char | |
* signed char | |
* unsigned char | |
* short , signed short , short int , or signed short int | |
* unsigned short , or unsigned short int | |
* int , signed , signed int , or no type specifiers | |
* unsigned , or unsigned int | |
* long , signed long , long int , or signed long int | |
* unsigned long , or unsigned long int | |
* float | |
* double | |
* long double | |
* struct-or-union specifier | |
* enum-specifier | |
* typedef-name | |
Semantics | |
Specifiers for structures, unions, and enumerations are discussed | |
in $3.5.2.1 through $3.5.2.3. Declarations of typedef names are | |
discussed in $3.5.6. The characteristics of the other types are | |
discussed in $3.1.2.5. | |
Each of the above comma-separated lists designates the same type, | |
except that for bit-field declarations, signed int (or signed ) may | |
differ from int (or no type specifiers). | |
Forward references: enumeration specifiers ($3.5.2.2), structure and | |
union specifiers ($3.5.2.1), tags ($3.5.2.3), type definitions ($3.5.6). | |
3.5.2.1 Structure and union specifiers | |
Syntax | |
struct-or-union-specifier: | |
struct-or-union identifier<opt> { struct-declaration-list } | |
struct-or-union identifier | |
struct-or-union: | |
struct | |
union | |
struct-declaration-list: | |
struct-declaration | |
struct-declaration-list struct-declaration | |
struct-declaration: | |
specifier-qualifier-list struct-declarator-list ; | |
specifier-qualifier-list: | |
type-specifier specifier-qualifier-list<opt> | |
type-qualifier specifier-qualifier-list<opt> | |
struct-declarator-list: | |
struct-declarator | |
struct-declarator-list , struct-declarator | |
struct-declarator: | |
declarator | |
declarator<opt> : constant-expression | |
Constraints | |
A structure or union shall not contain a member with incomplete or | |
function type. Hence it shall not contain an instance of itself (but | |
may contain a pointer to an instance of itself). | |
The expression that specifies the width of a bit-field shall be an | |
integral constant expression that has nonnegative value that shall not | |
exceed the number of bits in an ordinary object of compatible type. | |
If the value is zero, the declaration shall have no declarator. | |
Semantics | |
As discussed in $3.1.2.5, a structure is a type consisting of a | |
sequence of named members, whose storage is allocated in an ordered | |
sequence, and a union is a type consisting of a sequence of named | |
members, whose storage overlap. | |
Structure and union specifiers have the same form. | |
The presence of a struct-declaration-list in a | |
struct-or-union-specifier declares a new type, within a translation | |
unit. The struct-declaration-list is a sequence of declarations for | |
the members of the structure or union. The type is incomplete until | |
after the } that terminates the list. | |
A member of a structure or union may have any object type. In | |
addition, a member may be declared to consist of a specified number of | |
bits (including a sign bit, if any). Such a member is called a | |
bit-field ;/50/ its width is preceded by a colon. | |
A bit-field may have type int , unsigned int , or signed int . | |
Whether the high-order bit position of a ``plain'' int bit-field is | |
treated as a sign bit is implementation-defined. A bit-field is | |
interpreted as an integral type consisting of the specified number of | |
bits. | |
An implementation may allocate any addressable storage unit large | |
enough to hold a bit-field. If enough space remains, a bit-field that | |
immediately follows another bit-field in a structure shall be packed | |
into adjacent bits of the same unit. If insufficient space remains, | |
whether a bit-field that does not fit is put into the next unit or | |
overlaps adjacent units is implementation-defined. The order of | |
allocation of bit-fields within a unit (high-order to low-order or | |
low-order to high-order) is implementation-defined. The alignment of | |
the addressable storage unit is unspecified. | |
A bit-field declaration with no declarator, but only a colon and a | |
width, indicates an unnamed bit-field./51/ As a special case of this, | |
a bit-field with a width of 0 indicates that no further bit-field is | |
to be packed into the unit in which the previous bit-field, if any, | |
was placed. | |
Each non-bit-field member of a structure or union object is aligned | |
in an implementation-defined manner appropriate to its type. | |
Within a structure object, the non-bit-field members and the units | |
in which bit-fields reside have addresses that increase in the order | |
in which they are declared. A pointer to a structure object, suitably | |
cast, points to its initial member (or if that member is a bit-field, | |
then to the unit in which it resides), and vice versa. There may | |
therefore be unnamed holes within a structure object, but not at its | |
beginning, as necessary to achieve the appropriate alignment. | |
The size of a union is sufficient to contain the largest of its | |
members. The value of at most one of the members can be stored in a | |
union object at any time. A pointer to a union object, suitably cast, | |
points to each of its members (or if a member is a bit-field, then to | |
the unit in which it resides), and vice versa. | |
There may also be unnamed padding at the end of a structure or | |
union, as necessary to achieve the appropriate alignment were the | |
structure or union to be a member of an array. | |
3.5.2.2 Enumeration specifiers | |
Syntax | |
enum-specifier: | |
enum identifier<opt> { enumerator-list } | |
enum identifier | |
enumerator-list: | |
enumerator | |
enumerator-list , enumerator | |
enumerator: | |
enumeration-constant | |
enumeration-constant = constant-expression | |
Constraints | |
The expression that defines the value of an enumeration constant | |
shall be an integral constant expression that has a value | |
representable as an int. | |
Semantics | |
The identifiers in an enumerator list are declared as constants | |
that have type int and may appear wherever such are permitted./52/ An | |
enumerator with = defines its enumeration constant as the value of the | |
constant expression. If the first enumerator has no = , the value of | |
its enumeration constant is 0. Each subsequent enumerator with no = | |
defines its enumeration constant as the value of the constant | |
expression obtained by adding 1 to the value of the previous | |
enumeration constant. (A combination of both forms of enumerators may | |
produce enumeration constants with values that duplicate other values | |
in the same enumeration.) The enumerators of an enumeration are also | |
known as its members. | |
Each enumerated type shall be compatible with an integer type; the | |
choice of type is implementation-defined. | |
Example | |
enum hue { chartreuse, burgundy, claret=20, winedark }; | |
/*...*/ | |
enum hue col, *cp; | |
/*...*/ | |
col = claret; | |
cp = &col; | |
/*...*/ | |
/*...*/ (*cp != burgundy) /*...*/ | |
makes hue the tag of an enumeration, and then declares col as an | |
object that has that type and cp as a pointer to an object that has | |
that type. The enumerated values are in the set {0, 1, 20, 21}. | |
3.5.2.3 Tags | |
A type specifier of the form | |
struct-or-union identifier { struct-declaration-list } | |
enum identifier { enumerator-list } | |
declares the identifier to be the tag of the structure, union, or | |
enumeration specified by the list. The list defines the structure | |
content ,union content ,or enumeration content .If this declaration of | |
the tag is visible, a subsequent declaration that uses the tag and | |
that omits the bracketed list specifies the declared structure, union, | |
or enumerated type. Subsequent declarations in the same scope shall | |
omit the bracketed list. | |
If a type specifier of the form | |
struct-or-union identifier | |
occurs prior to the declaration that defines the content, the | |
structure or union is an incomplete type./53/ It declares a tag that | |
specifies a type that may be used only when the size of an object of | |
the specified type is not needed./54/ If the type is to be completed, | |
another declaration of the tag in the same scope (but not in an | |
enclosed block, which declares a new type known only within that | |
block) shall define the content. A declaration of the form | |
struct-or-union identifier ; | |
specifies a structure or union type and declares a tag, both visible | |
only within the scope in which the declaration occurs. It specifies a | |
new type distinct from any type with the same tag in an enclosing | |
scope (if any). | |
A type specifier of the form | |
struct-or-union { struct-declaration-list } | |
enum { enumerator-list } | |
specifies a new structure, union, or enumerated type, within the | |
translation unit, that can only be referred to by the declaration of | |
which it is a part./55/ | |
Examples | |
This mechanism allows declaration of a self-referential structure. | |
struct tnode { | |
int count; | |
struct tnode *left, *right; | |
}; | |
specifies a structure that contains an integer and two pointers to | |
objects of the same type. Once this declaration has been given, the | |
declaration | |
struct tnode s, *sp; | |
declares s to be an object of the given type and sp to be a pointer to | |
an object of the given type. With these declarations, the expression | |
sp->left refers to the left struct tnode pointer of the object to | |
which sp points; the expression s.right->count designates the count | |
member of the right struct tnode pointed to from s . | |
The following alternative formulation uses the typedef mechanism: | |
typedef struct tnode TNODE; | |
struct tnode { | |
int count; | |
TNODE *left, *right; | |
}; | |
TNODE s, *sp; | |
To illustrate the use of prior declaration of a tag to specify a | |
pair of mutually-referential structures, the declarations | |
struct s1 { struct s2 *s2p; /*...*/ }; /* D1 */ | |
struct s2 { struct s1 *s1p; /*...*/ }; /* D2 */ | |
specify a pair of structures that contain pointers to each other. | |
Note, however, that if s2 were already declared as a tag in an | |
enclosing scope, the declaration D1 would refer to it, not to the tag | |
s2 declared in D2 . To eliminate this context sensitivity, the | |
otherwise vacuous declaration | |
struct s2; | |
may be inserted ahead of D1. This declares a new tag s2 in the inner | |
scope; the declaration D2 then completes the specification of the new type. | |
Forward references: type definitions ($3.5.6). | |
3.5.3 Type qualifiers | |
Syntax | |
type-qualifier: | |
const | |
volatile | |
Constraints | |
The same type qualifier shall not appear more than once in the same | |
specifier list or qualifier list, either directly or via one or more | |
typedef s. | |
Semantics | |
The properties associated with qualified types are meaningful only | |
for expressions that are lvalues./56/ | |
If an attempt is made to modify an object defined with a | |
const-qualified type through use of an lvalue with non-const-qualified | |
type, the behavior is undefined. If an attempt is made to refer to an | |
object defined with a volatile-qualified type through use of an lvalue | |
with non-volatile-qualified type, the behavior is undefined./57/ | |
An object that has volatile-qualified type may be modified in ways | |
unknown to the implementation or have other unknown side effects. | |
Therefore any expression referring to such an object shall be | |
evaluated strictly according to the rules of the abstract machine, as | |
described in $2.1.2.3. Furthermore, at every sequence point the value | |
last stored in the object shall agree with that prescribed by the | |
abstract machine, except as modified by the unknown factors mentioned | |
previously./58/ What constitutes an access to an object that has | |
volatile-qualified type is implementation-defined. | |
If the specification of an array type includes any type qualifiers, | |
the element type is so-qualified, not the array type. If the | |
specification of a function type includes any type qualifiers, the | |
behavior is undefined./59/ | |
For two qualified types to be compatible, both shall have the | |
identically qualified version of a compatible type; the order of type | |
qualifiers within a list of specifiers or qualifiers does not affect | |
the specified type. | |
Examples | |
An object declared | |
extern const volatile int real_time_clock; | |
may be modifiable by hardware, but cannot be assigned to, incremented, | |
or decremented. | |
The following declarations and expressions illustrate the behavior | |
when type qualifiers modify an aggregate type: | |
const struct s { int mem; } cs = { 1 }; | |
struct s ncs; /* the object ncs is modifiable */ | |
typedef int A[2][3]; | |
const A a = {{4, 5, 6}, {7, 8, 9}}; /* array of array of const int */ | |
int *pi; | |
const int *pci; | |
ncs = cs; /* valid */ | |
cs = ncs; /* violates modifiable lvalue constraint for = */ | |
pi = &ncs.mem; /* valid */ | |
pi = &cs.mem; /* violates type constraints for = */ | |
pci = &cs.mem; /* valid */ | |
pi = a[0]; /* invalid: a[0] has type ``const int * '' */ | |
3.5.4 Declarators | |
Syntax | |
declarator: | |
pointer<opt> direct-declarator | |
direct-declarator: | |
identifier | |
( declarator ) | |
direct-declarator [ constant-expression<opt> ] | |
direct-declarator ( parameter-type-list ) | |
direct-declarator ( identifier-list<opt> ) | |
pointer: | |
* type-qualifier-list<opt> | |
* type-qualifier-list<opt> pointer | |
type-qualifier-list: | |
type-qualifier | |
type-qualifier-list type-qualifier | |
parameter-type-list: | |
parameter-list | |
parameter-list , ... | |
parameter-list: | |
parameter-declaration | |
parameter-list , parameter-declaration | |
parameter-declaration: | |
declaration-specifiers declarator | |
declaration-specifiers abstract-declarator<opt> | |
identifier-list: | |
identifier | |
identifier-list , identifier | |
Semantics | |
Each declarator declares one identifier, and asserts that when an | |
operand of the same form as the declarator appears in an expression, | |
it designates a function or object with the scope, storage duration, | |
and type indicated by the declaration specifiers. | |
In the following subsections, consider a declaration | |
T D1 | |
where T contains the declaration specifiers that specify a type T | |
(such as int) and D1 is a declarator that contains an identifier | |
ident . The type specified for the identifier ident in the various | |
forms of declarator is described inductively using this notation. | |
If, in the declaration `` T D1 ,'' D1 has the form | |
identifier | |
then the type specified for ident is T . | |
If, in the declaration `` T D1 ,'' D1 has the form | |
( D ) | |
then ident has the type specified by the declaration `` T D .'' Thus, | |
a declarator in parentheses is identical to the unparenthesized | |
declarator, but the binding of complex declarators may be altered by | |
parentheses. | |
"Implementation limits" | |
The implementation shall allow the specification of types that have | |
at least 12 pointer, array, and function declarators (in any valid | |
combinations) modifying an arithmetic, a structure, a union, or an | |
incomplete type, either directly or via one or more typedef s. | |
Forward references: type definitions ($3.5.6). | |
3.5.4.1 Pointer declarators | |
Semantics | |
If, in the declaration `` T D1 ,'' D1 has the form | |
* type-qualifier-list<opt> D | |
and the type specified for ident in the declaration `` T D '' is `` | |
"derived-declarator-type-list T" ,'' then the type specified for ident | |
is `` "derived-declarator-type-list type-qualifier-list" pointer to T.'' | |
For each type qualifier in the list, ident is a so-qualified pointer. | |
For two pointer types to be compatible, both shall be identically | |
qualified and both shall be pointers to compatible types. | |
Examples | |
The following pair of declarations demonstrates the difference | |
between a ``variable pointer to a constant value'' and a ``constant | |
pointer to a variable value.'' | |
const int *ptr_to_constant; | |
int *const constant_ptr; | |
The contents of the const int pointed to by ptr_to_constant shall not | |
be modified, but ptr_to_constant itself may be changed to point to | |
another const int . Similarly, the contents of the int pointed to by | |
constant_ptr may be modified, but constant_ptr itself shall always | |
point to the same location. | |
The declaration of the constant pointer constant_ptr may be | |
clarified by including a definition for the type ``pointer to int .'' | |
typedef int *int_ptr; | |
const int_ptr constant_ptr; | |
declares constant_ptr as an object that has type ``const-qualified | |
pointer to int .'' | |
3.5.4.2 Array declarators | |
Constraints | |
The expression that specifies the size of an array shall be an | |
integral constant expression that has a value greater than zero. | |
Semantics | |
If, in the declaration `` T D1 ,'' D1 has the form | |
D[ constant-expression<opt>] | |
and the type specified for ident in the declaration `` T D '' is `` | |
"derived-declarator-type-list T" ,'' then the type specified for ident | |
is `` derived-declarator-type-list array of T .''/60/ If the size is | |
not present, the array type is an incomplete type. | |
For two array types to be compatible, both shall have compatible | |
element types, and if both size specifiers are present, they shall | |
have the same value. | |
Examples | |
float fa[11], *afp[17]; | |
declares an array of float numbers and an array of pointers to float | |
numbers. | |
Note the distinction between the declarations | |
extern int *x; | |
extern int y[]; | |
The first declares x to be a pointer to int ; the second declares y to | |
be an array of int of unspecified size (an incomplete type), the | |
storage for which is defined elsewhere. | |
Forward references: function definitions ($3.7.1), initialization ($3.5.7). | |
3.5.4.3 Function declarators (including prototypes) | |
Constraints | |
A function declarator shall not specify a return type that is a | |
function type or an array type. | |
The only storage-class specifier that shall occur in a parameter | |
declaration is register. | |
An identifier list in a function declarator that is not part of a | |
function definition shall be empty. | |
Semantics | |
If, in the declaration `` T D1 ,'' D1 has the form | |
D( parameter-type-list) | |
D( identifier-list<opt>) | |
and the type specified for ident in the declaration `` T D '' is `` | |
"derived-declarator-type-list T" ,'' then the type specified for ident | |
is `` derived-declarator-type-list function returning T .'' | |
A parameter type list specifies the types of, and may declare | |
identifiers for, the parameters of the function. If the list | |
terminates with an ellipsis ( , ... ), no information about the number | |
or types of the parameters after the comma is supplied./61/ The | |
special case of void as the only item in the list specifies that the | |
function has no parameters. | |
In a parameter declaration, a single typedef name in parentheses is | |
taken to be an abstract declarator that specifies a function with a | |
single parameter, not as redundant parentheses around the identifier | |
for a declarator. | |
The storage-class specifier in the declaration specifiers for a | |
parameter declaration, if present, is ignored unless the declared | |
parameter is one of the members of the parameter type list for a | |
function definition. | |
An identifier list declares only the identifiers of the parameters | |
of the function. An empty list in a function declarator that is part | |
of a function definition specifies that the function has no | |
parameters. The empty list in a function declarator that is not part | |
of a function definition specifies that no information about the | |
number or types of the parameters is supplied./62/ | |
For two function types to be compatible, both shall specify | |
compatible return types./63/ Moreover, the parameter type lists, if | |
both are present, shall agree in the number of parameters and in use | |
of the ellipsis terminator; corresponding parameters shall have | |
compatible types. If one type has a parameter type list and the other | |
type is specified by a function declarator that is not part of a | |
function definition and that contains an empty identifier list, the | |
parameter list shall not have an ellipsis terminator and the type of | |
each parameter shall be compatible with the type that results from the | |
application of the default argument promotions. If one type has a | |
parameter type list and the other type is specified by a function | |
definition that contains a (possibly empty) identifier list, both | |
shall agree in the number of parameters, and the type of each | |
prototype parameter shall be compatible with the type that results | |
from the application of the default argument promotions to the type of | |
the corresponding identifier. (For each parameter declared with | |
function or array type, its type for these comparisons is the one that | |
results from conversion to a pointer type, as in $3.7.1. For each | |
parameter declared with qualified type, its type for these comparisons | |
is the unqualified version of its declared type.) | |
Examples | |
The declaration | |
int f(void), *fip(), (*pfi)(); | |
declares a function f with no parameters returning an int , a function | |
fip with no parameter specification returning a pointer to an int , | |
and a pointer pfi to a function with no parameter specification | |
returning an int . It is especially useful to compare the last two. | |
The binding of *fip() is *(fip()) , so that the declaration suggests, | |
and the same construction in an expression requires, the calling of a | |
function fip , and then using indirection through the pointer result | |
to yield an int . In the declarator (*pfi)() , the extra parentheses | |
are necessary to indicate that indirection through a pointer to a | |
function yields a function designator, which is then used to call the | |
function; it returns an int. | |
If the declaration occurs outside of any function, the identifiers | |
have file scope and external linkage. If the declaration occurs | |
inside a function, the identifiers of the functions f and fip have | |
block scope and external linkage, and the identifier of the pointer | |
pfi has block scope and no linkage. | |
Here are two more intricate examples. | |
int (*apfi[3])(int *x, int *y); | |
declares an array apfi of three pointers to functions returning int . | |
Each of these functions has two parameters that are pointers to int . | |
The identifiers x and y are declared for descriptive purposes only and | |
go out of scope at the end of the declaration of apfi . The | |
declaration | |
int (*fpfi(int (*)(long), int))(int, ...); | |
declares a function fpfi that returns a pointer to a function | |
returning an int. The function fpfi has two parameters: a pointer to | |
a function returning an int (with one parameter of type long ), and an | |
int . The pointer returned by fpfi points to a function that has at | |
least one parameter, which has type int . | |
Forward references: function definitions ($3.7.1), type names ($3.5.5). | |
3.5.5 Type names | |
Syntax | |
type-name: | |
specifier-qualifier-list abstract-declarator<opt> | |
abstract-declarator: | |
pointer | |
pointer<opt> direct-abstract-declarator | |
direct-abstract-declarator: | |
( abstract-declarator ) | |
direct-abstract-declarator<opt> [ constant-expression<opt> ] | |
direct-abstract-declarator<opt> ( parameter-type-list<opt> ) | |
Semantics | |
In several contexts it is desired to specify a type. This is | |
accomplished using a type name, which is syntactically a declaration | |
for a function or an object of that type that omits the | |
identifier./64/ | |
Examples | |
The constructions | |
(a) int | |
(b) int * | |
(c) int *[3] | |
(d) int (*)[3] | |
(e) int *() | |
(f) int (*)(void) | |
(g) int (*const [])(unsigned int, ...) | |
name respectively the types (a) int , (b) pointer to int , (c) array | |
of three pointers to int , (d) pointer to an array of three int's, (e) | |
function with no parameter specification returning a pointer to int , | |
(f) pointer to function with no parameters returning an int , and (g) | |
array of an unspecified number of constant pointers to functions, each | |
with one parameter that has type unsigned int and an unspecified | |
number of other parameters, returning an int . | |
3.5.6 Type definitions | |
Syntax | |
typedef-name: | |
identifier | |
Semantics | |
In a declaration whose storage-class specifier is typedef , each | |
declarator defines an identifier to be a typedef name that specifies | |
the type specified for the identifier in the way described in $3.5.4. | |
A typedef declaration does not introduce a new type, only a synonym | |
for the type so specified. That is, in the following declarations: | |
typedef T type_ident; | |
type_ident D; | |
type_ident is defined as a typedef name with the type specified by the | |
declaration specifiers in T (known as T ), and the identifier in D has | |
the type `` "derived-declarator-type-list T" '' where the | |
derived-declarator-type-list is specified by the declarators of D . A | |
typedef name shares the same name space as other identifiers declared | |
in ordinary declarators. If the identifier is redeclared in an inner | |
scope or is declared as a member of a structure or union in the same | |
or an inner scope, the type specifiers shall not be omitted in the | |
inner declaration. | |
Examples | |
After | |
typedef int MILES, KLICKSP(); | |
typedef struct { double re, im; } complex; | |
the constructions | |
MILES distance; | |
extern KLICKSP *metricp; | |
complex x; | |
complex z, *zp; | |
are all valid declarations. The type of distance is int , that of | |
metricp is ``pointer to function with no parameter specification | |
returning int ,'' and that of x and z is the specified structure; zp | |
is a pointer to such a structure. The object distance has a type | |
compatible with any other int object. | |
After the declarations | |
typedef struct s1 { int x; } t1, *tp1; | |
typedef struct s2 { int x; } t2, *tp2; | |
type t1 and the type pointed to by tp1 are compatible. Type t1 is | |
also compatible with type struct s1 , but not compatible with the | |
types struct s2 , t2 , the type pointed to by tp2 , and int . | |
The following constructions | |
typedef signed int t; | |
typedef int plain; | |
struct tag { | |
unsigned t:4; | |
const t:5; | |
plain r:5; | |
}; | |
declare a typedef name t with type signed int , a typedef name plain | |
with type int , and a structure with three bit-field members, one | |
named t that contains values in the range [0,15], an unnamed | |
const-qualified bit-field which (if it could be accessed) would | |
contain values in at least the range [-15,+15], and one named r that | |
contains values in the range [0,31] or values in at least the range | |
[-15,+15]. (The choice of range is implementation-defined.) If these | |
declarations are followed in an inner scope by | |
t f(t (t)); | |
long t; | |
then a function f is declared with type ``function returning signed | |
int with one unnamed parameter with type pointer to function returning | |
signed int with one unnamed parameter with type signed int ,'' and an | |
identifier t with type long . | |
3.5.7 Initialization | |
Syntax | |
initializer: | |
assignment-expression | |
{ initializer-list } | |
{ initializer-list , } | |
initializer-list: | |
initializer | |
initializer-list , initializer | |
Constraints | |
There shall be no more initializers in an initializer list than | |
there are objects to be initialized. | |
The type of the entity to be initialized shall be an object type or | |
an array of unknown size. | |
All the expressions in an initializer for an object that has static | |
storage duration or in an initializer list for an object that has | |
aggregate or union type shall be constant expressions. | |
If the declaration of an identifier has block scope, and the | |
identifier has external or internal linkage, there shall be no | |
initializer for the identifier. | |
Semantics | |
An initializer specifies the initial value stored in an object. | |
All unnamed structure or union members are ignored during initialization. | |
If an object that has static storage duration is not initialized | |
explicitly, it is initialized implicitly as if every member that has | |
arithmetic type were assigned 0 and every member that has pointer type | |
were assigned a null pointer constant. If an object that has | |
automatic storage duration is not initialized explicitly, its value is | |
indeterminate./65/ | |
The initializer for a scalar shall be a single expression, | |
optionally enclosed in braces. The initial value of the object is | |
that of the expression; the same type constraints and conversions as | |
for simple assignment apply. | |
A brace-enclosed initializer for a union object initializes the | |
member that appears first in the declaration list of the union type. | |
The initializer for a structure or union object that has automatic | |
storage duration either shall be an initializer list as described | |
below, or shall be a single expression that has compatible structure | |
or union type. In the latter case, the initial value of the object is | |
that of the expression. | |
The rest of this section deals with initializers for objects that | |
have aggregate or union type. | |
An array of character type may be initialized by a character string | |
literal, optionally enclosed in braces. Successive characters of the | |
character string literal (including the terminating null character if | |
there is room or if the array is of unknown size) initialize the | |
members of the array. | |
An array with element type compatible with wchar_t may be | |
initialized by a wide string literal, optionally enclosed in braces. | |
Successive codes of the wide string literal (including the terminating | |
zero-valued code if there is room or if the array is of unknown size) | |
initialize the members of the array. | |
Otherwise, the initializer for an object that has aggregate type | |
shall be a brace-enclosed list of initializers for the members of the | |
aggregate, written in increasing subscript or member order; and the | |
initializer for an object that has union type shall be a | |
brace-enclosed initializer for the first member of the union. | |
If the aggregate contains members that are aggregates or unions, or | |
if the first member of a union is an aggregate or union, the rules | |
apply recursively to the subaggregates or contained unions. If the | |
initializer of a subaggregate or contained union begins with a left | |
brace, the initializers enclosed by that brace and its matching right | |
brace initialize the members of the subaggregate or the first member | |
of the contained union. Otherwise, only enough initializers from the | |
list are taken to account for the members of the first subaggregate or | |
the first member of the contained union; any remaining initializers | |
are left to initialize the next member of the aggregate of which the | |
current subaggregate or contained union is a part. | |
If there are fewer initializers in a list than there are members of | |
an aggregate, the remainder of the aggregate shall be initialized | |
implicitly the same as objects that have static storage duration. | |
If an array of unknown size is initialized, its size is determined | |
by the number of initializers provided for its members. At the end of | |
its initializer list, the array no longer has incomplete type. | |
Examples | |
The declaration | |
int x[] = { 1, 3, 5 }; | |
defines and initializes x as a one-dimensional array object that has | |
three members, as no size was specified and there are three | |
initializers. | |
float y[4][3] = { | |
{ 1, 3, 5 }, | |
{ 2, 4, 6 }, | |
{ 3, 5, 7 }, | |
}; | |
is a definition with a fully bracketed initialization: 1, 3, and 5 | |
initialize the first row of the array object y[0] , namely y[0][0] , | |
y[0][1] , and y[0][2] . Likewise the next two lines initialize y[1] | |
and y[2] . The initializer ends early, so y[3] is initialized with | |
zeros. Precisely the same effect could have been achieved by | |
float y[4][3] = { | |
1, 3, 5, 2, 4, 6, 3, 5, 7 | |
}; | |
The initializer for y[0] does not begin with a left brace, so three | |
items from the list are used. Likewise the next three are taken | |
successively for y[1] and y[2] . Also, | |
float z[4][3] = { | |
{ 1 }, { 2 }, { 3 }, { 4 } | |
}; | |
initializes the first column of z as specified and initializes the | |
rest with zeros. | |
struct { int a[3], b; } w[] = { { 1 }, 2 }; | |
is a definition with an inconsistently bracketed initialization. It | |
defines an array with two member structures: w[0].a[0] is 1 and | |
w[1].a[0] is 2; all the other elements are zero. | |
The declaration | |
short q[4][3][2] = { | |
{ 1 }, | |
{ 2, 3 }, | |
{ 4, 5, 6 } | |
}; | |
contains an incompletely but consistently bracketed initialization. | |
It defines a three-dimensional array object: q[0][0][0] is 1, | |
q[1][0][0] is 2, q[1][0][1] is 3, and 4, 5, and 6 initialize | |
q[2][0][0] , q[2][0][1] , and q[2][1][0] , respectively; all the rest | |
are zero. The initializer for q[0][0][0] does not begin with a left | |
brace, so up to six items from the current list may be used. There is | |
only one, so the values for the remaining five members are initialized | |
with zero. Likewise, the initializers for q[1][0][0] and q[2][0][0] | |
do not begin with a left brace, so each uses up to six items, | |
initializing their respective two-dimensional subaggregates. If there | |
had been more than six items in any of the lists, a diagnostic message | |
would occur. The same initialization result could have been achieved | |
by: | |
short q[4][3][2] = { | |
1, 0, 0, 0, 0, 0, | |
2, 3, 0, 0, 0, 0, | |
4, 5, 6 | |
}; | |
or by: | |
short q[4][3][2] = { | |
{ | |
{ 1 }, | |
}, | |
{ | |
{ 2, 3 }, | |
}, | |
{ | |
{ 4, 5 }, | |
{ 6 }, | |
} | |
}; | |
in a fully-bracketed form. | |
Note that the fully-bracketed and minimally-bracketed forms of | |
initialization are, in general, less likely to cause confusion. | |
Finally, the declaration | |
char s[] = "abc", t[3] = "abc"; | |
defines ``plain'' char array objects s and t whose members are | |
initialized with character string literals. This declaration is | |
identical to | |
char s[] = { 'a', 'b', 'c', '\0' }, | |
t[] = { 'a', 'b', 'c' }; | |
The contents of the arrays are modifiable. On the other hand, the | |
declaration | |
char *p = "abc"; | |
defines p with type ``pointer to char '' that is initialized to point | |
to an object with type ``array of char '' whose members are | |
initialized with a character string literal. If an attempt is made to | |
use p to modify the contents of the array, the behavior is undefined. | |
Forward references: common definitions <stddef.h> ($4.1.5). | |
3.6 STATEMENTS | |
Syntax | |
statement: | |
labeled-statement | |
compound-statement | |
expression-statement | |
selection-statement | |
iteration-statement | |
jump-statement | |
Semantics | |
A statement specifies an action to be performed. Except as | |
indicated, statements are executed in sequence. | |
A full expression is an expression that is not part of another | |
expression. Each of the following is a full expression: an | |
initializer; the expression in an expression statement; the | |
controlling expression of a selection statement ( if or switch ); the | |
controlling expression of a while or do statement; each of the three | |
expressions of a for statement; the expression in a return statement. | |
The end of a full expression is a sequence point. | |
Forward references: expression and null statements ($3.6.3), selection | |
statements ($3.6.4), iteration statements ($3.6.5), the return | |
statement ($3.6.6.4). | |
3.6.1 Labeled statements | |
Syntax | |
labeled-statement: | |
identifier : statement | |
case constant-expression : statement | |
default : statement | |
Constraints | |
A case or default label shall appear only in a switch statement. | |
Further constraints on such labels are discussed under the switch | |
statement. | |
Semantics | |
Any statement may be preceded by a prefix that declares an | |
identifier as a label name. Labels in themselves do not alter the | |
flow of control, which continues unimpeded across them. | |
Forward references: the goto statement ($3.6.6.1), the switch | |
statement ($3.6.4.2). | |
3.6.2 Compound statement, or block | |
Syntax | |
compound-statement: | |
{ declaration-list<opt> statement-list<opt> } | |
declaration-list: | |
declaration | |
declaration-list declaration | |
statement-list: | |
statement | |
statement-list statement | |
Semantics | |
A compound statement (also called a block )allows a set of | |
statements to be grouped into one syntactic unit, which may have its | |
own set of declarations and initializations (as discussed in | |
$3.1.2.4). The initializers of objects that have automatic storage | |
duration are evaluated and the values are stored in the objects in the | |
order their declarators appear in the translation unit. | |
3.6.3 Expression and null statements | |
Syntax | |
expression-statement: | |
expression<opt> ; | |
Semantics | |
The expression in an expression statement is evaluated as a void | |
expression for its side effects./66/ | |
A null statement (consisting of just a semicolon) performs no | |
operations. | |
Examples | |
If a function call is evaluated as an expression statement for its | |
side effects only, the discarding of its value may be made explicit by | |
converting the expression to a void expression by means of a cast: | |
int p(int); | |
/*...*/ | |
(void)p(0); | |
In the program fragment | |
char *s; | |
/*...*/ | |
while (*s++ != '\0') | |
; | |
a null statement is used to supply an empty loop body to the iteration | |
statement. | |
A null statement may also be used to carry a label just before the | |
closing } of a compound statement. | |
while (loop1) { | |
/*...*/ | |
while (loop2) { | |
/*...*/ | |
if (want_out) | |
goto end_loop1; | |
/*...*/ | |
} | |
/*...*/ | |
end_loop1: ; | |
} | |
Forward references: iteration statements ($3.6.5). | |
3.6.4 Selection statements | |
Syntax | |
selection-statement: | |
if ( expression ) statement | |
if ( expression ) statement else statement | |
switch ( expression ) statement | |
Semantics | |
A selection statement selects among a set of statements depending | |
on the value of a controlling expression. | |
3.6.4.1 The if statement | |
Constraints | |
The controlling expression of an if statement shall have scalar type. | |
Semantics | |
In both forms, the first substatement is executed if the expression | |
compares unequal to 0. In the else form, the second substatement is | |
executed if the expression compares equal to 0. If the first | |
substatement is reached via a label, the second substatement is not | |
executed. | |
An else is associated with the lexically immediately preceding else | |
-less if that is in the same block (but not in an enclosed block). | |
3.6.4.2 The switch statement | |
Constraints | |
The controlling expression of a switch statement shall have | |
integral type. The expression of each case label shall be an integral | |
constant expression. No two of the case constant expressions in the | |
same switch statement shall have the same value after conversion. | |
There may be at most one default label in a switch statement. (Any | |
enclosed switch statement may have a default label or case constant | |
expressions with values that duplicate case constant expressions in | |
the enclosing switch statement.) | |
Semantics | |
A switch statement causes control to jump to, into, or past the | |
statement that is the switch body, depending on the value of a | |
controlling expression, and on the presence of a default label and the | |
values of any case labels on or in the switch body. A case or default | |
label is accessible only within the closest enclosing switch | |
statement. | |
The integral promotions are performed on the controlling | |
expression. The constant expression in each case label is converted | |
to the promoted type of the controlling expression. If a converted | |
value matches that of the promoted controlling expression, control | |
jumps to the statement following the matched case label. Otherwise, | |
if there is a default label, control jumps to the labeled statement. | |
If no converted case constant expression matches and there is no | |
default label, no part of the switch body is executed. | |
"Implementation limits" | |
As discussed previously ($2.2.4.1), the implementation may limit | |
the number of case values in a switch statement. | |
3.6.5 Iteration statements | |
Syntax | |
iteration-statement: | |
while ( expression ) statement | |
do statement while ( expression ) ; | |
for ( expression<opt> ; expression<opt> ; | |
expression<opt> ) statement | |
Constraints | |
The controlling expression of an iteration statement shall have scalar type. | |
Semantics | |
An iteration statement causes a statement called the loop body to | |
be executed repeatedly until the controlling expression compares equal | |
to 0. | |
3.6.5.1 The while statement | |
The evaluation of the controlling expression takes place before | |
each execution of the loop body. | |
3.6.5.2 The do statement | |
The evaluation of the controlling expression takes place after each | |
execution of the loop body. | |
3.6.5.3 The for statement | |
Except for the behavior of a continue statement in the loop body, | |
the statement | |
for ( expression-1 ; expression-2 ; expression-3 ) statement | |
and the sequence of statements | |
expression-1 ; | |
while ( expression-2) { | |
statement | |
expression-3 ; | |
} | |
are equivalent./67/ expression-1 expression-2 , expression-3 | |
Both expression-1 and expression-3 may be omitted. Each is | |
evaluated as a void expression. An omitted expression-2 is replaced | |
by a nonzero constant. | |
Forward references: the continue statement ($3.6.6.2). | |
3.6.6 Jump statements | |
Syntax | |
jump-statement: | |
goto identifier ; | |
continue ; | |
break ; | |
return expression<opt> ; | |
Semantics | |
A jump statement causes an unconditional jump to another place. | |
3.6.6.1 The goto statement | |
Constraints | |
The identifier in a goto statement shall name a label located | |
somewhere in the current function. | |
Semantics | |
A goto statement causes an unconditional jump to the statement | |
prefixed by the named label in the current function. | |
3.6.6.2 The continue statement | |
Constraints | |
A continue statement shall appear only in or as a loop body. | |
Semantics | |
A continue statement causes a jump to the loop-continuation portion | |
of the smallest enclosing iteration statement; that is, to the end of | |
the loop body. More precisely, in each of the statements | |
while (/*...*/) { do { for (/*...*/) { | |
/*...*/ /*...*/ /*...*/ | |
continue; continue; continue; | |
/*...*/ /*...*/ /*...*/ | |
contin: ; contin: ; contin: ; | |
} } while (/*...*/); } | |
unless the continue statement shown is in an enclosed iteration | |
statement (in which case it is interpreted within that statement), it | |
is equivalent to goto contin; ./68/ | |
3.6.6.3 The break statement | |
Constraints | |
A break statement shall appear only in or as a switch body or loop body. | |
Semantics | |
A break statement terminates execution of the smallest enclosing | |
switch or iteration statement. | |
3.6.6.4 The return statement | |
Constraints | |
A return statement with an expression shall not appear in a | |
function whose return type is void . | |
Semantics | |
A return statement terminates execution of the current function and | |
returns control to its caller. A function may have any number of | |
return statements, with and without expressions. | |
If a return statement with an expression is executed, the value of | |
the expression is returned to the caller as the value of the function | |
call expression. If the expression has a type different from that of | |
the function in which it appears, it is converted as if it were | |
assigned to an object of that type. | |
If a return statement without an expression is executed, and the | |
value of the function call is used by the caller, the behavior is | |
undefined. Reaching the } that terminates a function is equivalent to | |
executing a return statement without an expression. | |
3.7 EXTERNAL DEFINITIONS | |
Syntax | |
translation-unit: | |
external-declaration | |
translation-unit external-declaration | |
external-declaration: | |
function-definition | |
declaration | |
Constraints | |
The storage-class specifiers auto and register shall not appear in | |
the declaration specifiers in an external declaration. | |
There shall be no more than one external definition for each | |
identifier declared with internal linkage in a translation unit. | |
Moreover, if an identifier declared with internal linkage is used in | |
an expression (other than as a part of the operand of a sizeof | |
operator), there shall be exactly one external definition for the | |
identifier in the translation unit. | |
Semantics | |
As discussed in $2.1.1.1, the unit of program text after | |
preprocessing is a translation unit, which consists of a sequence of | |
external declarations. These are described as ``external'' because | |
they appear outside any function (and hence have file scope). As | |
discussed in $3.5, a declaration that also causes storage to be | |
reserved for an object or a function named by the identifier is a | |
definition. | |
An external definition is an external declaration that is also a | |
definition of a function or an object. If an identifier declared with | |
external linkage is used in an expression (other than as part of the | |
operand of a sizeof operator), somewhere in the entire program there | |
shall be exactly one external definition for the identifier./69/ | |
3.7.1 Function definitions | |
Syntax | |
function-definition: | |
declaration-specifiers<opt> declarator | |
declaration-list<opt> compound-statement | |
Constraints | |
The identifier declared in a function definition (which is the name | |
of the function) shall have a function type, as specified by the | |
declarator portion of the function definition./70/ | |
The return type of a function shall be void or an object type other | |
than array. | |
The storage-class specifier, if any, in the declaration specifiers | |
shall be either extern or static . | |
If the declarator includes a parameter type list, the declaration | |
of each parameter shall include an identifier (except for the special | |
case of a parameter list consisting of a single parameter of type void, | |
in which there shall not be an identifier). No declaration list | |
shall follow. | |
If the declarator includes an identifier list, only the identifiers | |
it names shall be declared in the declaration list. An identifier | |
declared as a typedef name shall not be redeclared as a parameter. | |
The declarations in the declaration list shall contain no | |
storage-class specifier other than register and no initializations. | |
Semantics | |
The declarator in a function definition specifies the name of the | |
function being defined and the identifiers of its parameters. If the | |
declarator includes a parameter type list, the list also specifies the | |
types of all the parameters; such a declarator also serves as a | |
function prototype for later calls to the same function in the same | |
translation unit. If the declarator includes an identifier list,/71/ | |
the types of the parameters may be declared in a following declaration | |
list. Any parameter that is not declared has type int . | |
If a function that accepts a variable number of arguments is | |
defined without a parameter type list that ends with the ellipsis | |
notation, the behavior is undefined. | |
On entry to the function the value of each argument expression | |
shall be converted to the type of its corresponding parameter, as if | |
by assignment to the parameter. Array expressions and function | |
designators as arguments are converted to pointers before the call. A | |
declaration of a parameter as ``array of type '' shall be adjusted to | |
``pointer to type ,'' and a declaration of a parameter as ``function | |
returning type '' shall be adjusted to ``pointer to function returning | |
type ,'' as in $3.2.2.1. The resulting parameter type shall be an | |
object type. | |
Each parameter has automatic storage duration. Its identifier is | |
an lvalue./72/ The layout of the storage for parameters is | |
unspecified. | |
Examples | |
extern int max(int a, int b) | |
{ | |
return a > b ? a : b; | |
} | |
Here extern is the storage-class specifier and int is the type | |
specifier (each of which may be omitted as those are the defaults); | |
max(int a, int b) is the function declarator; and | |
{ return a > b ? a : b; } | |
is the function body. The following similar definition uses the | |
identifier-list form for the parameter declarations: | |
extern int max(a, b) | |
int a, b; | |
{ | |
return a > b ? a : b; | |
} | |
Here int a, b; is the declaration list for the parameters, which may | |
be omitted because those are the defaults. The difference between | |
these two definitions is that the first form acts as a prototype | |
declaration that forces conversion of the arguments of subsequent | |
calls to the function, whereas the second form may not. | |
To pass one function to another, one might say | |
int f(void); | |
/*...*/ | |
g(f); | |
Note that f must be declared explicitly in the calling function, as | |
its appearance in the expression g(f) was not followed by ( . Then | |
the definition of g might read | |
g(int (*funcp)(void)) | |
{ | |
/*...*/ (*funcp)() /* or funcp() ... */ | |
} | |
or, equivalently, | |
g(int func(void)) | |
{ | |
/*...*/ func() /* or (*func)() ... */ | |
} | |
3.7.2 External object definitions | |
Semantics | |
If the declaration of an identifier for an object has file scope | |
and an initializer, the declaration is an external definition for the | |
identifier. | |
A declaration of an identifier for an object that has file scope | |
without an initializer, and without a storage-class specifier or with | |
the storage-class specifier static , constitutes a tentative | |
definition. If a translation unit contains one or more tentative | |
definitions for an identifier, and the translation unit contains no | |
external definition for that identifier, then the behavior is exactly | |
as if the translation unit contains a file scope declaration of that | |
identifier, with the composite type as of the end of the translation | |
unit, with an initializer equal to 0. | |
If the declaration of an identifier for an object is a tentative | |
definition and has internal linkage, the declared type shall not be an | |
incomplete type. | |
Examples | |
int i1 = 1; /* definition, external linkage */ | |
static int i2 = 2; /* definition, internal linkage */ | |
extern int i3 = 3; /* definition, external linkage */ | |
int i4; /* tentative definition, external linkage */ | |
static int i5; /* tentative definition, internal linkage */ | |
int i1; /* valid tentative definition, refers to previous */ | |
int i2; /* $3.1.2.2 renders undefined, linkage disagreement */ | |
int i3; /* valid tentative definition, refers to previous */ | |
int i4; /* valid tentative definition, refers to previous */ | |
int i5; /* $3.1.2.2 renders undefined, linkage disagreement */ | |
extern int i1; /* refers to previous, whose linkage is external */ | |
extern int i2; /* refers to previous, whose linkage is internal */ | |
extern int i3; /* refers to previous, whose linkage is external */ | |
extern int i4; /* refers to previous, whose linkage is external */ | |
extern int i5; /* refers to previous, whose linkage is internal */ | |
3.8 PREPROCESSING DIRECTIVES | |
Syntax | |
preprocessing-file: | |
group<opt> | |
group: | |
group-part | |
group group-part | |
group-part: | |
pp-tokens<opt> new-line | |
if-section | |
control-line | |
if-section: | |
if-group elif-groups<opt> else-group<opt> endif-line | |
if-group: | |
# if constant-expression new-line group<opt> | |
# ifdef identifier new-line group<opt> | |
# ifndef identifier new-line group<opt> | |
elif-groups: | |
elif-group | |
elif-groups elif-group | |
elif-group: | |
# elif constant-expression new-line group<opt> | |
else-group: | |
# else new-line group<opt> | |
endif-line: | |
# endif new-line | |
control-line: | |
# include pp-tokens new-line | |
# define identifier replacement-list new-line | |
# define identifier lparen identifier-list<opt> ) | |
replacement-list new-line | |
# undef identifier new-line | |
# line pp-tokens new-line | |
# error pp-tokens<opt> new-line | |
# pragma pp-tokens<opt> new-line | |
# new-line | |
lparen: | |
the left-parenthesis character without preceding white-space | |
replacement-list: | |
pp-tokens<opt> | |
pp-tokens: | |
preprocessing-token | |
pp-tokens preprocessing-token | |
new-line: | |
the new-line character | |
Description | |
A preprocessing directive consists of a sequence of preprocessing | |
tokens that begins with a # preprocessing token that is either the | |
first character in the source file (optionally after white space | |
containing no new-line characters) or that follows white space | |
containing at least one new-line character, and is ended by the next | |
new-line character./73/ | |
Constraints | |
The only white-space characters that shall appear between | |
preprocessing tokens within a preprocessing directive (from just after | |
the introducing # preprocessing token through just before the | |
terminating new-line character) are space and horizontal-tab | |
(including spaces that have replaced comments in translation phase 3). | |
Semantics | |
The implementation can process and skip sections of source files | |
conditionally, include other source files, and replace macros. These | |
capabilities are called preprocessing , because conceptually they | |
occur before translation of the resulting translation unit. | |
The preprocessing tokens within a preprocessing directive are not | |
subject to macro expansion unless otherwise stated. | |
3.8.1 Conditional inclusion | |
Constraints | |
The expression that controls conditional inclusion shall be an | |
integral constant expression except that: it shall not contain a cast; | |
identifiers (including those lexically identical to keywords) are | |
interpreted as described below;/74/ and it may contain unary operator | |
expressions of the form | |
defined identifier | |
defined ( identifier ) | |
which evaluate to 1 if the identifier is currently defined as a macro | |
name (that is, if it is predefined or if it has been the subject of a | |
#define preprocessing directive without an intervening #undef | |
directive with the same subject identifier), 0 if it is not. | |
Each preprocessing token that remains after all macro replacements | |
have occurred shall be in the lexical form of a token. | |
Semantics | |
Preprocessing directives of the forms | |
# if constant-expression new-line group<opt> | |
# elif constant-expression new-line group<opt> | |
check whether the controlling constant expression evaluates to | |
nonzero. | |
Prior to evaluation, macro invocations in the list of preprocessing | |
tokens that will become the controlling constant expression are | |
replaced (except for those macro names modified by the defined unary | |
operator), just as in normal text. If the token defined is generated | |
as a result of this replacement process, the behavior is undefined. | |
After all replacements are finished, the resulting preprocessing | |
tokens are converted into tokens, and then all remaining identifiers | |
are replaced with 0 . The resulting tokens comprise the controlling | |
constant expression which is evaluated according to the rules of $3.4 | |
using arithmetic that has at least the ranges specified in $2.2.4.2, | |
except that int and unsigned int act as if they have the same | |
representation as, respectively, long and unsigned long . This | |
includes interpreting character constants, which may involve | |
converting escape sequences into execution character set members. | |
Whether the numeric value for these character constants matches the | |
value obtained when an identical character constant occurs in an | |
expression (other than within a #if or #elif directive) is | |
implementation-defined./75/ Also, whether a single-character character | |
constant may have a negative value is implementation-defined. | |
Preprocessing directives of the forms | |
# ifdef identifier new-line group<opt> | |
# ifndef identifier new-line group<opt> | |
check whether the identifier is or is not currently defined as a macro | |
name. Their conditions are equivalent to #if defined identifier and | |
#if !defined identifier respectively. | |
Each directive's condition is checked in order. If it evaluates to | |
false (zero), the group that it controls is skipped: directives are | |
processed only through the name that determines the directive in order | |
to keep track of the level of nested conditionals; the rest of the | |
directives' preprocessing tokens are ignored, as are the other | |
preprocessing tokens in the group. Only the first group whose control | |
condition evaluates to true (nonzero) is processed. If none of the | |
conditions evaluates to true, and there is a #else directive, the | |
group controlled by the #else is processed; lacking a #else directive, | |
all the groups until the #endif are skipped./76/ | |
Forward references: macro replacement ($3.8.3), source file inclusion | |
($3.8.2). | |
3.8.2 Source file inclusion | |
Constraints | |
A #include directive shall identify a header or source file that | |
can be processed by the implementation. | |
Semantics | |
A preprocessing directive of the form | |
# include <h-char-sequence> new-line | |
searches a sequence of implementation-defined places for a header | |
identified uniquely by the specified sequence between the < and > | |
delimiters, and causes the replacement of that directive by the entire | |
contents of the header. How the places are specified or the header | |
identified is implementation-defined. | |
A preprocessing directive of the form | |
# include "q-char-sequence" new-line | |
causes the replacement of that directive by the entire contents of the | |
source file identified by the specified sequence between the | |
delimiters. The named source file is searched for in an | |
implementation-defined manner. If this search is not supported, or if | |
the search fails, the directive is reprocessed as if it read | |
# include <h-char-sequence> new-line | |
with the identical contained sequence (including > characters, if any) | |
from the original directive. | |
A preprocessing directive of the form | |
# include pp-tokens new-line | |
(that does not match one of the two previous forms) is permitted. The | |
preprocessing tokens after include in the directive are processed just | |
as in normal text. (Each identifier currently defined as a macro name | |
is replaced by its replacement list of preprocessing tokens.) The | |
directive resulting after all replacements shall match one of the two | |
previous forms./77/ The method by which a sequence of preprocessing | |
tokens between a < and a > preprocessing token pair or a pair of | |
characters is combined into a single header name preprocessing token | |
is implementation-defined. | |
There shall be an implementation-defined mapping between the | |
delimited sequence and the external source file name. The | |
implementation shall provide unique mappings for sequences consisting | |
of one or more letters (as defined in $2.2.1) followed by a period (.) | |
and a single letter. The implementation may ignore the distinctions | |
of alphabetical case and restrict the mapping to six significant | |
characters before the period. | |
A #include preprocessing directive may appear in a source file that | |
has been read because of a #include directive in another file, up to | |
an implementation-defined nesting limit (see $2.2.4.1). | |
Examples | |
The most common uses of #include preprocessing directives are as in | |
the following: | |
#include <stdio.h> | |
#include "myprog.h" | |
This example illustrates a macro-replaced #include directive: | |
#if VERSION == 1 | |
#define INCFILE "vers1.h" | |
#elif VERSION == 2 | |
#define INCFILE "vers2.h" | |
/* and so on */ | |
#else | |
#define INCFILE "versN.h" | |
#endif | |
/*...*/ | |
#include INCFILE | |
Forward references: macro replacement ($3.8.3). | |
3.8.3 Macro replacement | |
Constraints | |
Two replacement lists are identical if and only if the | |
preprocessing tokens in both have the same number, ordering, spelling, | |
and white-space separation, where all white-space separations are | |
considered identical. | |
An identifier currently defined as a macro without use of lparen | |
(an object-like macro) may be redefined by another #define | |
preprocessing directive provided that the second definition is an | |
object-like macro definition and the two replacement lists are | |
identical. | |
An identifier currently defined as a macro using lparen (a | |
function-like macro) may be redefined by another #define preprocessing | |
directive provided that the second definition is a function-like macro | |
definition that has the same number and spelling of parameters, and | |
the two replacement lists are identical. | |
The number of arguments in an invocation of a function-like macro | |
shall agree with the number of parameters in the macro definition, and | |
there shall exist a ) preprocessing token that terminates the | |
invocation. | |
A parameter identifier in a function-like macro shall be uniquely | |
declared within its scope. | |
Semantics | |
The identifier immediately following the define is called the macro | |
name. Any white-space characters preceding or following the | |
replacement list of preprocessing tokens are not considered part of | |
the replacement list for either form of macro. | |
If a # preprocessing token, followed by an identifier, occurs | |
lexically at the point at which a preprocessing directive could begin, | |
the identifier is not subject to macro replacement. | |
A preprocessing directive of the form | |
# define identifier replacement-list new-line | |
defines an object-like macro that causes each subsequent instance of | |
the macro name/78/ to be replaced by the replacement list of | |
preprocessing tokens that constitute the remainder of the directive. | |
The replacement list is then rescanned for more macro names as | |
specified below. | |
A preprocessing directive of the form | |
# define identifier lparen identifier-list<opt> ) | |
replacement-list new-line | |
defines a function-like macro with arguments, similar syntactically to | |
a function call. The parameters are specified by the optional list of | |
identifiers, whose scope extends from their declaration in the | |
identifier list until the new-line character that terminates the | |
#define preprocessing directive. Each subsequent instance of the | |
function-like macro name followed by a ( as the next preprocessing | |
token introduces the sequence of preprocessing tokens that is replaced | |
by the replacement list in the definition (an invocation of the | |
macro). The replaced sequence of preprocessing tokens is terminated | |
by the matching ) preprocessing token, skipping intervening matched | |
pairs of left and right parenthesis preprocessing tokens. Within the | |
sequence of preprocessing tokens making up an invocation of a | |
function-like macro, new-line is considered a normal white-space | |
character. | |
The sequence of preprocessing tokens bounded by the outside-most | |
matching parentheses forms the list of arguments for the function-like | |
macro. The individual arguments within the list are separated by | |
comma preprocessing tokens, but comma preprocessing tokens bounded by | |
nested parentheses do not separate arguments. If (before argument | |
substitution) any argument consists of no preprocessing tokens, the | |
behavior is undefined. If there are sequences of preprocessing tokens | |
within the list of arguments that would otherwise act as preprocessing | |
directives, the behavior is undefined. | |
3.8.3.1 Argument substitution | |
After the arguments for the invocation of a function-like macro | |
have been identified, argument substitution takes place. A parameter | |
in the replacement list, unless preceded by a # or ## preprocessing | |
token or followed by a ## preprocessing token (see below), is replaced | |
by the corresponding argument after all macros contained therein have | |
been expanded. Before being substituted, each argument's | |
preprocessing tokens are completely macro replaced as if they formed | |
the rest of the source file; no other preprocessing tokens are | |
available. | |
3.8.3.2 The # operator | |
Constraints | |
Each # preprocessing token in the replacement list for a | |
function-like macro shall be followed by a parameter as the next | |
preprocessing token in the replacement list. | |
Semantics | |
If, in the replacement list, a parameter is immediately preceded by | |
a # preprocessing token, both are replaced by a single character | |
string literal preprocessing token that contains the spelling of the | |
preprocessing token sequence for the corresponding argument. Each | |
occurrence of white space between the argument's preprocessing tokens | |
becomes a single space character in the character string literal. | |
White space before the first preprocessing token and after the last | |
preprocessing token comprising the argument is deleted. Otherwise, | |
the original spelling of each preprocessing token in the argument is | |
retained in the character string literal, except for special handling | |
for producing the spelling of string literals and character constants: | |
a \ character is inserted before each and \ character of a character | |
constant or string literal (including the delimiting characters). If | |
the replacement that results is not a valid character string literal, | |
the behavior is undefined. The order of evaluation of # and ## | |
operators is unspecified. | |
3.8.3.3 The ## operator | |
Constraints | |
A ## preprocessing token shall not occur at the beginning or at the | |
end of a replacement list for either form of macro definition. | |
Semantics | |
If, in the replacement list, a parameter is immediately preceded or | |
followed by a ## preprocessing token, the parameter is replaced by the | |
corresponding argument's preprocessing token sequence. | |
For both object-like and function-like macro invocations, before | |
the replacement list is reexamined for more macro names to replace, | |
each instance of a ## preprocessing token in the replacement list (not | |
from an argument) is deleted and the preceding preprocessing token is | |
concatenated with the following preprocessing token. If the result is | |
not a valid preprocessing token, the behavior is undefined. The | |
resulting token is available for further macro replacement. The order | |
of evaluation of ## operators is unspecified. | |
3.8.3.4 Rescanning and further replacement | |
After all parameters in the replacement list have been substituted, | |
the resulting preprocessing token sequence is rescanned with the rest | |
of the source file's preprocessing tokens for more macro names to | |
replace. | |
If the name of the macro being replaced is found during this scan | |
of the replacement list (not including the rest of the source file's | |
preprocessing tokens), it is not replaced. Further, if any nested | |
replacements encounter the name of the macro being replaced, it is not | |
replaced. These nonreplaced macro name preprocessing tokens are no | |
longer available for further replacement even if they are later | |
(re)examined in contexts in which that macro name preprocessing token | |
would otherwise have been replaced. | |
The resulting completely macro-replaced preprocessing token | |
sequence is not processed as a preprocessing directive even if it | |
resembles one. | |
3.8.3.5 Scope of macro definitions | |
A macro definition lasts (independent of block structure) until a | |
corresponding #undef directive is encountered or (if none is | |
encountered) until the end of the translation unit. | |
A preprocessing directive of the form | |
# undef identifier new-line | |
causes the specified identifier no longer to be defined as a macro | |
name. It is ignored if the specified identifier is not currently | |
defined as a macro name. | |
Examples | |
The simplest use of this facility is to define a ``manifest | |
constant,'' as in | |
#define TABSIZE 100 | |
int table[TABSIZE]; | |
The following defines a function-like macro whose value is the | |
maximum of its arguments. It has the advantages of working for any | |
compatible types of the arguments and of generating in-line code | |
without the overhead of function calling. It has the disadvantages of | |
evaluating one or the other of its arguments a second time (including | |
side effects) and of generating more code than a function if invoked | |
several times. | |
#define max(a, b) ((a) > (b) ? (a) : (b)) | |
The parentheses ensure that the arguments and the resulting expression | |
are bound properly. | |
To illustrate the rules for redefinition and reexamination, the | |
sequence | |
#define x 3 | |
#define f(a) f(x * (a)) | |
#undef x | |
#define x 2 | |
#define g f | |
#define z z[0] | |
#define h g(~ | |
#define m(a) a(w) | |
#define w 0,1 | |
#define t(a) a | |
f(y+1) + f(f(z)) % t(t(g)(0) + t)(1); | |
g(x+(3,4)-w) | h 5) & m | |
(f)^m(m); | |
results in | |
f(2 * (y+1)) + f(2 * (f(2 * (z[0])))) % f(2 * (0)) + t(1); | |
f(2 * (2+(3,4)-0,1)) | f(2 * (~ 5)) & f(2 * (0,1))^m(0,1); | |
To illustrate the rules for creating character string literals and | |
concatenating tokens, the sequence | |
#define str(s) # s | |
#define xstr(s) str(s) | |
#define debug(s, t) printf("x" # s "= %d, x" # t "= %s", \ | |
x ## s, x ## t) | |
#define INCFILE(n) vers ## n /* from previous #include example */ | |
#define glue(a, b) a ## b | |
#define xglue(a, b) glue(a, b) | |
#define HIGHLOW "hello" | |
#define LOW LOW ", world" | |
debug(1, 2); | |
fputs(str(strncmp("abc\0d", "abc", '\4') /* this goes away */ | |
== 0) str(: @\n), s); | |
#include xstr(INCFILE(2).h) | |
glue(HIGH, LOW); | |
xglue(HIGH, LOW) | |
results in | |
printf("x" "1" "= %d, x" "2" "= %s", x1, x2); | |
fputs("strncmp(\"abc\\0d\", \"abc\", '\\4') == 0" ": @\n", s); | |
#include "vers2.h" (after macro replacement, before file access) | |
"hello"; | |
"hello" ", world" | |
or, after concatenation of the character string literals, | |
printf("x1= %d, x2= %s", x1, x2); | |
fputs("strncmp(\"abc\\0d\", \"abc\", '\\4') == 0: @\n", s); | |
#include "vers2.h" (after macro replacement, before file access) | |
"hello"; | |
"hello, world" | |
Space around the # and ## tokens in the macro definition is optional. | |
And finally, to demonstrate the redefinition rules, the following | |
sequence is valid. | |
#define OBJ_LIKE (1-1) | |
#define OBJ_LIKE /* white space */ (1-1) /* other */ | |
#define FTN_LIKE(a) ( a ) | |
#define FTN_LIKE( a )( /* note the white space */ \ | |
a /* other stuff on this line | |
*/ ) | |
But the following redefinitions are invalid: | |
#define OBJ_LIKE (0) /* different token sequence */ | |
#define OBJ_LIKE (1 - 1) /* different white space */ | |
#define FTN_LIKE(b) ( a ) /* different parameter usage */ | |
#define FTN_LIKE(b) ( b ) /* different parameter spelling */ | |
3.8.4 Line control | |
Constraints | |
The string literal of a #line directive, if present, shall be a | |
character string literal. | |
Semantics | |
The line number of the current source line is one greater than the | |
number of new-line characters read or introduced in translation phase | |
1 ($2.1.1.2) while processing the source file to the current token. | |
A preprocessing directive of the form | |
# line digit-sequence new-line | |
causes the implementation to behave as if the following sequence of | |
source lines begins with a source line that has a line number as | |
specified by the digit sequence (interpreted as a decimal integer). | |
A preprocessing directive of the form | |
# line digit-sequence " s-char-sequence<opt>" new-line | |
sets the line number similarly and changes the presumed name of the | |
source file to be the contents of the character string literal. | |
A preprocessing directive of the form | |
# line pp-tokens new-line | |
(that does not match one of the two previous forms) is permitted. The | |
preprocessing tokens after line on the directive are processed just as | |
in normal text (each identifier currently defined as a macro name is | |
replaced by its replacement list of preprocessing tokens). The | |
directive resulting after all replacements shall match one of the two | |
previous forms and is then processed as appropriate. | |
3.8.5 Error directive | |
Semantics | |
A preprocessing directive of the form | |
# error pp-tokens<opt> new-line | |
causes the implementation to produce a diagnostic message that | |
includes the specified sequence of preprocessing tokens. | |
3.8.6 Pragma directive | |
Semantics | |
A preprocessing directive of the form | |
# pragma pp-tokens<opt> new-line | |
causes the implementation to behave in an implementation-defined | |
manner. Any pragma that is not recognized by the implementation is | |
ignored. | |
3.8.7 Null directive | |
Semantics | |
A preprocessing directive of the form | |
# new-line | |
has no effect. | |
3.8.8 Predefined macro names | |
The following macro names shall be defined by the implementation: | |
The line number of the current source line (a decimal constant). The | |
presumed name of the source file (a character string literal). The | |
date of translation of the source file (a character string literal of | |
the form Mmm dd yyyy , where the names of the months are the same as | |
those generated by the asctime function, and the first character of dd | |
is a space character if the value is less than 10). If the date of | |
translation is not available, an implementation-defined valid date | |
shall be supplied. The time of translation of the source file (a | |
character string literal of the form hh:mm:ss as in the time generated | |
by the asctime function). If the time of translation is not | |
available, an implementation-defined valid time shall be supplied. | |
the decimal constant 1./79/ | |
The values of the predefined macros (except for __LINE__ and | |
__FILE__ ) remain constant throughout the translation unit. | |
None of these macro names, nor the identifier defined , shall be | |
the subject of a #define or a #undef preprocessing directive. All | |
predefined macro names shall begin with a leading underscore followed | |
by an upper-case letter or a second underscore. | |
Forward references: the asctime function ($4.12.3.1). | |
3.9 FUTURE LANGUAGE DIRECTIONS | |
3.9.1 External names | |
Restriction of the significance of an external name to fewer than | |
31 characters or to only one case is an obsolescent feature that is a | |
concession to existing implementations. | |
3.9.2 Character escape sequences | |
Lower-case letters as escape sequences are reserved for future | |
standardization. Other characters may be used in extensions. | |
3.9.3 Storage-class specifiers | |
The placement of a storage-class specifier other than at the | |
beginning of the declaration specifiers in a declaration is an | |
obsolescent feature. | |
3.9.4 Function declarators | |
The use of function declarators with empty parentheses (not | |
prototype-format parameter type declarators) is an obsolescent | |
feature. | |
3.9.5 Function definitions | |
The use of function definitions with separate parameter identifier | |
and declaration lists (not prototype-format parameter type and | |
identifier declarators) is an obsolescent feature. | |
4. LIBRARY | |
4.1 INTRODUCTION | |
4.1.1 Definitions of terms | |
A string is a contiguous sequence of characters terminated by and | |
including the first null character. It is represented by a pointer to | |
its initial (lowest addressed) character and its length is the number | |
of characters preceding the null character. | |
A letter is a printing character in the execution character set | |
corresponding to any of the 52 required lower-case and upper-case | |
letters in the source character set, listed in $2.2.1. | |
The decimal-point character is the character used by functions that | |
convert floating-point numbers to or from character sequences to | |
denote the beginning of the fractional part of such character | |
sequences./80/ It is represented in the text and examples by a period, | |
but may be changed by the setlocale function. | |
Forward references: character handling ($4.3), the setlocale function | |
($4.4.1.1). | |
4.1.2 Standard headers | |
Each library function is declared in a header, /81/ whose contents | |
are made available by the #include preprocessing directive. The | |
header declares a set of related functions, plus any necessary types | |
and additional macros needed to facilitate their use. Each header | |
declares and defines only those identifiers listed in its associated | |
section. All external identifiers declared in any of the headers are | |
reserved, whether or not the associated header is included. All | |
external identifiers that begin with an underscore are reserved. All | |
other identifiers that begin with an underscore and either an | |
upper-case letter or another underscore are reserved. If the program | |
defines an external identifier with the same name as a reserved | |
external identifier, even in a semantically equivalent form, the | |
behavior is undefined./82/ | |
The standard headers are | |
<assert.h> <locale.h> <stddef.h> | |
<ctype.h> <math.h> <stdio.h> | |
<errno.h> <setjmp.h> <stdlib.h> | |
<float.h> <signal.h> <string.h> | |
<limits.h> <stdarg.h> <time.h> | |
If a file with the same name as one of the above < and > delimited | |
sequences, not provided as part of the implementation, is placed in | |
any of the standard places for a source file to be included, the | |
behavior is undefined. | |
Headers may be included in any order; each may be included more | |
than once in a given scope, with no effect different from being | |
included only once, except that the effect of including <assert.h> | |
depends on the definition of NDEBUG . If used, a header shall be | |
included outside of any external declaration or definition, and it | |
shall first be included before the first reference to any of the | |
functions or objects it declares, or to any of the types or macros it | |
defines. Furthermore, the program shall not have any macros with | |
names lexically identical to keywords currently defined prior to the | |
inclusion. | |
Forward references: diagnostics ($4.2). | |
4.1.3 Errors <errno.h> | |
The header <errno.h> defines several macros, all relating to the | |
reporting of error conditions. | |
The macros are | |
EDOM | |
ERANGE | |
which expand to distinct nonzero integral constant expressions; and | |
errno | |
which expands to a modifiable lvalue/83/ that has type int , the value | |
of which is set to a positive error number by several library | |
functions. It is unspecified whether errno is a macro or an | |
identifier declared with external linkage. If a macro definition is | |
suppressed in order to access an actual object, or a program defines | |
an external identifier with the name errno , the behavior is | |
undefined. | |
The value of errno is zero at program startup, but is never set to | |
zero by any library function./84/ The value of errno may be set to | |
nonzero by a library function call whether or not there is an error, | |
provided the use of errno is not documented in the description of the | |
function in the Standard. | |
Additional macro definitions, beginning with E and a digit or E and | |
an upper-case letter,/85/ may also be specified by the implementation. | |
4.1.4 Limits <float.h> and <limits.h> | |
The headers <float.h> and <limits.h> define several macros that | |
expand to various limits and parameters. | |
The macros, their meanings, and their minimum magnitudes are listed | |
in $2.2.4.2. | |
4.1.5 Common definitions <stddef.h> | |
The following types and macros are defined in the standard header | |
<stddef.h> . Some are also defined in other headers, as noted in | |
their respective sections. | |
The types are | |
ptrdiff_t | |
which is the signed integral type of the result of subtracting two | |
pointers; | |
size_t | |
which is the unsigned integral type of the result of the sizeof | |
operator; and | |
wchar_t | |
which is an integral type whose range of values can represent distinct | |
codes for all members of the largest extended character set specified | |
among the supported locales; the null character shall have the code | |
value zero and each member of the basic character set defined in | |
$2.2.1 shall have a code value equal to its value when used as the | |
lone character in an integer character constant. | |
The macros are | |
NULL | |
which expands to an implementation-defined null pointer constant; and | |
offsetof( type, member-designator) | |
which expands to an integral constant expression that has type size_t, | |
the value of which is the offset in bytes, to the structure member | |
(designated by member-designator ), from the beginning of its | |
structure (designated by type ). The member-designator shall be such | |
that given | |
static type t; | |
then the expression &(t. member-designator ) evaluates to an address | |
constant. (If the specified member is a bit-field, the behavior is | |
undefined.) | |
Forward references: localization ($4.4). | |
4.1.6 Use of library functions | |
Each of the following statements applies unless explicitly stated | |
otherwise in the detailed descriptions that follow. If an argument to | |
a function has an invalid value (such as a value outside the domain of | |
the function, or a pointer outside the address space of the program, | |
or a null pointer), the behavior is undefined. Any function declared | |
in a header may be implemented as a macro defined in the header, so a | |
library function should not be declared explicitly if its header is | |
included. Any macro definition of a function can be suppressed | |
locally by enclosing the name of the function in parentheses, because | |
the name is then not followed by the left parenthesis that indicates | |
expansion of a macro function name. For the same syntactic reason, it | |
is permitted to take the address of a library function even if it is | |
also defined as a macro./86/ The use of #undef to remove any macro | |
definition will also ensure that an actual function is referred to. | |
Any invocation of a library function that is implemented as a macro | |
will expand to code that evaluates each of its arguments exactly once, | |
fully protected by parentheses where necessary, so it is generally | |
safe to use arbitrary expressions as arguments. Likewise, those | |
function-like macros described in the following sections may be | |
invoked in an expression anywhere a function with a compatible return | |
type could be called./87/ | |
Provided that a library function can be declared without reference | |
to any type defined in a header, it is also permissible to declare the | |
function, either explicitly or implicitly, and use it without | |
including its associated header. If a function that accepts a | |
variable number of arguments is not declared (explicitly or by | |
including its associated header), the behavior is undefined. | |
Examples | |
The function atoi may be used in any of several ways: | |
* by use of its associated header (possibly generating a macro expansion) | |
#include <stdlib.h> | |
const char *str; | |
/*...*/ | |
i = atoi(str); | |
* by use of its associated header (assuredly generating a true | |
function reference) | |
#include <stdlib.h> | |
#undef atoi | |
const char *str; | |
/*...*/ | |
i = atoi(str); | |
or | |
#include <stdlib.h> | |
const char *str; | |
/*...*/ | |
i = (atoi)(str); | |
* by explicit declaration | |
extern int atoi(const char *); | |
const char *str; | |
/*...*/ | |
i = atoi(str); | |
* by implicit declaration | |
const char *str; | |
/*...*/ | |
i = atoi(str); | |
4.2 DIAGNOSTICS <assert.h> | |
The header <assert.h> defines the assert macro and refers to | |
another macro, | |
NDEBUG | |
which is not defined by <assert.h> . If NDEBUG is defined as a macro | |
name at the point in the source file where <assert.h> is included, the | |
assert macro is defined simply as | |
#define assert(ignore) ((void)0) | |
The assert macro shall be implemented as a macro, not as an actual | |
function. If the macro definition is suppressed in order to access an | |
actual function, the behavior is undefined. | |
4.2.1 Program diagnostics | |
4.2.1.1 The assert macro | |
Synopsis | |
#include <assert.h> | |
void assert(int expression); | |
Description | |
The assert macro puts diagnostics into programs. When it is | |
executed, if expression is false (that is, compares equal to 0), the | |
assert macro writes information about the particular call that failed | |
(including the text of the argument, the name of the source file, and | |
the source line number EM the latter are respectively the values of | |
the preprocessing macros __FILE__ and __LINE__ ) on the standard error | |
file in an implementation-defined format./88/ | |
expression , xyz , nnn It then calls the abort function. | |
Returns | |
The assert macro returns no value. | |
Forward references: the abort function ($4.10.4.1). | |
4.3 CHARACTER HANDLING <ctype.h> | |
The header <ctype.h> declares several functions useful for testing | |
and mapping characters./89/ In all cases the argument is an int , the | |
value of which shall be representable as an unsigned char or shall | |
equal the value of the macro EOF . If the argument has any other | |
value, the behavior is undefined. | |
The behavior of these functions is affected by the current locale. | |
Those functions that have no implementation-defined aspects in the C | |
locale are noted below. | |
The term printing character refers to a member of an | |
implementation-defined set of characters, each of which occupies one | |
printing position on a display device; the term control character | |
refers to a member of an implementation-defined set of characters that | |
are not printing characters./90/ | |
Forward references: EOF ($4.9.1), localization ($4.4). | |
4.3.1 Character testing functions | |
The functions in this section return nonzero (true) if and only if | |
the value of the argument c conforms to that in the description of the | |
function. | |
4.3.1.1 The isalnum function | |
Synopsis | |
#include <ctype.h> | |
int isalnum(int c); | |
Description | |
The isalnum function tests for any character for which isalpha or | |
isdigit is true. | |
4.3.1.2 The isalpha function | |
Synopsis | |
#include <ctype.h> | |
int isalpha(int c); | |
Description | |
The isalpha function tests for any character for which isupper or | |
islower is true, or any of an implementation-defined set of characters | |
for which none of iscntrl , isdigit , ispunct , or isspace is true. | |
In the C locale, isalpha returns true only for the characters for | |
which isupper or islower is true. | |
4.3.1.3 The iscntrl function | |
Synopsis | |
#include <ctype.h> | |
int iscntrl(int c); | |
Description | |
The iscntrl function tests for any control character. | |
4.3.1.4 The isdigit function | |
Synopsis | |
#include <ctype.h> | |
int isdigit(int c); | |
Description | |
The isdigit function tests for any decimal-digit character (as | |
defined in $2.2.1). | |
4.3.1.5 The isgraph function | |
Synopsis | |
#include <ctype.h> | |
int isgraph(int c); | |
Description | |
The isgraph function tests for any printing character except space (' '). | |
4.3.1.6 The islower function | |
Synopsis | |
#include <ctype.h> | |
int islower(int c); | |
Description | |
The islower function tests for any lower-case letter or any of an | |
implementation-defined set of characters for which none of iscntrl , | |
isdigit , ispunct , or isspace is true. In the C locale, islower | |
returns true only for the characters defined as lower-case letters (as | |
defined in $2.2.1). | |
4.3.1.7 The isprint function | |
Synopsis | |
#include <ctype.h> | |
int isprint(int c); | |
Description | |
The isprint function tests for any printing character including | |
space (' '). | |
4.3.1.8 The ispunct function | |
Synopsis | |
#include <ctype.h> | |
int ispunct(int c); | |
Description | |
The ispunct function tests for any printing character except space | |
(' ') or a character for which isalnum is true. | |
4.3.1.9 The isspace function | |
Synopsis | |
#include <ctype.h> | |
int isspace(int c); | |
Description | |
The isspace function tests for the standard white-space characters | |
or for any of an implementation-defined set of characters for which | |
isalnum is false. The standard white-space characters are the | |
following: space (' '), form feed ('\f'), new-line ('\n'), carriage | |
return ('\r'), horizontal tab ('\t'), and vertical tab ('\v'). In the | |
C locale, isspace returns true only for the standard white-space | |
characters. | |
4.3.1.10 The isupper function | |
Synopsis | |
#include <ctype.h> | |
int isupper(int c); | |
Description | |
The isupper function tests for any upper-case letter or any of an | |
implementation-defined set of characters for which none of iscntrl , | |
isdigit , ispunct , or isspace is true. In the C locale, isupper | |
returns true only for the characters defined as upper-case letters (as | |
defined in $2.2.1). | |
4.3.1.11 The isxdigit function | |
Synopsis | |
#include <ctype.h> | |
int isxdigit(int c); | |
Description | |
The isxdigit function tests for any hexadecimal-digit character (as | |
defined in $3.1.3.2). | |
4.3.2 Character case mapping functions | |
4.3.2.1 The tolower function | |
Synopsis | |
#include <ctype.h> | |
int tolower(int c); | |
Description | |
The tolower function converts an upper-case letter to the | |
corresponding lower-case letter. | |
Returns | |
If the argument is an upper-case letter, the tolower function | |
returns the corresponding lower-case letter if there is one; otherwise | |
the argument is returned unchanged. In the C locale, tolower maps | |
only the characters for which isupper is true to the corresponding | |
characters for which islower is true. | |
4.3.2.2 The toupper function | |
Synopsis | |
#include <ctype.h> | |
int toupper(int c); | |
Description | |
The toupper function converts a lower-case letter to the corresponding upper-case letter. | |
Returns | |
If the argument is a lower-case letter, the toupper function | |
returns the corresponding upper-case letter if there is one; otherwise | |
the argument is returned unchanged. In the C locale, toupper maps | |
only the characters for which islower is true to the corresponding | |
characters for which isupper is true. | |
4.4 LOCALIZATION <locale.h> | |
The header <locale.h> declares two functions, one type, and defines | |
several macros. | |
The type is | |
struct lconv | |
which contains members related to the formatting of numeric values. | |
The structure shall contain at least the following members, in any | |
order. The semantics of the members and their normal ranges is | |
explained in $4.4.2.1. In the C locale, the members shall have the | |
values specified in the comments. | |
char *decimal_point; /* "." */ | |
char *thousands_sep; /* "" */ | |
char *grouping; /* "" */ | |
char *int_curr_symbol; /* "" */ | |
char *currency_symbol; /* "" */ | |
char *mon_decimal_point; /* "" */ | |
char *mon_thousands_sep; /* "" */ | |
char *mon_grouping; /* "" */ | |
char *positive_sign; /* "" */ | |
char *negative_sign; /* "" */ | |
char int_frac_digits; /* CHAR_MAX */ | |
char frac_digits; /* CHAR_MAX */ | |
char p_cs_precedes; /* CHAR_MAX */ | |
char p_sep_by_space; /* CHAR_MAX */ | |
char n_cs_precedes; /* CHAR_MAX */ | |
char n_sep_by_space; /* CHAR_MAX */ | |
char p_sign_posn; /* CHAR_MAX */ | |
char n_sign_posn; /* CHAR_MAX */ | |
The macros defined are NULL (described in $4.1.5); and | |
LC_ALL | |
LC_COLLATE | |
LC_CTYPE | |
LC_MONETARY | |
LC_NUMERIC | |
LC_TIME | |
which expand to distinct integral constant expressions, suitable for | |
use as the first argument to the setlocale function. Additional macro | |
definitions, beginning with the characters LC_ and an upper-case | |
letter,/91/ may also be specified by the implementation. | |
4.4.1 Locale control | |
4.4.1.1 The setlocale function | |
Synopsis | |
#include <locale.h> | |
char *setlocale(int category, const char *locale); | |
Description | |
The setlocale function selects the appropriate portion of the | |
program's locale as specified by the category and locale arguments. | |
The setlocale function may be used to change or query the program's | |
entire current locale or portions thereof. The value LC_ALL for | |
category names the program's entire locale; the other values for | |
category name only a portion of the program's locale. LC_COLLATE | |
affects the behavior of the strcoll and strxfrm functions. LC_CTYPE | |
affects the behavior of the character handling functions/92/ and the | |
multibyte functions. LC_MONETARY affects the monetary formatting | |
information returned by the localeconv function. LC_NUMERIC affects | |
the decimal-point character for the formatted input/output functions | |
and the string conversion functions, as well as the non-monetary | |
formatting information returned by the localeconv function. LC_TIME | |
affects the behavior of the strftime function. | |
A value of "C" for locale specifies the minimal environment for C | |
translation; a value of "" for locale specifies the implementation-defined | |
native environment. Other implementation-defined strings may be passed | |
as the second argument to setlocale . | |
At program startup, the equivalent of | |
setlocale(LC_ALL, "C"); | |
is executed. | |
The implementation shall behave as if no library function calls the | |
setlocale function. | |
Returns | |
If a pointer to a string is given for locale and the selection can | |
be honored, the setlocale function returns the string associated with | |
the specified category for the new locale. If the selection cannot be | |
honored, the setlocale function returns a null pointer and the | |
program's locale is not changed. | |
A null pointer for locale causes the setlocale function to return | |
the string associated with the category for the program's current | |
locale; the program's locale is not changed. | |
The string returned by the setlocale function is such that a | |
subsequent call with that string and its associated category will | |
restore that part of the program's locale. The string returned shall | |
not be modified by the program, but may be overwritten by a subsequent | |
call to the setlocale function. | |
Forward references: formatted input/output functions ($4.9.6), the | |
multibyte character functions ($4.10.7), the multibyte string | |
functions ($4.10.8), string conversion functions ($4.10.1), the | |
strcoll function ($4.11.4.3), the strftime function ($4.12.3.5), the | |
strxfrm function ($4.11.4.5). | |
4.4.2 Numeric formatting convention inquiry | |
4.4.2.1 The localeconv function | |
Synopsis | |
#include <locale.h> | |
struct lconv *localeconv(void); | |
Description | |
The localeconv function sets the components of an object with type | |
struct lconv with values appropriate for the formatting of numeric | |
quantities (monetary and otherwise) according to the rules of the | |
current locale. | |
The members of the structure with type char * are strings, any of | |
which (except decimal_point ) can point to , to indicate that the | |
value is not available in the current locale or is of zero length. | |
The members with type char are nonnegative numbers, any of which can | |
be CHAR_MAX to indicate that the value is not available in the current | |
locale. The members include the following: The decimal-point | |
character used to format non-monetary quantities. The character used | |
to separate groups of digits to the left of the decimal-point | |
character in formatted non-monetary quantities. A string whose | |
elements indicate the size of each group of digits in formatted | |
non-monetary quantities. The international currency symbol applicable | |
to the current locale. The first three characters contain the | |
alphabetic international currency symbol in accordance with those | |
specified in ISO 4217 Codes for the Representation of Currency and | |
Funds .The fourth character (immediately preceding the null character) | |
is the character used to separate the international currency symbol | |
from the monetary quantity. The local currency symbol applicable to | |
the current locale. The decimal-point used to format monetary | |
quantities. The separator for groups of digits to the left of the | |
decimal-point in formatted monetary quantities. A string whose | |
elements indicate the size of each group of digits in formatted | |
monetary quantities. The string used to indicate a nonnegative-valued | |
formatted monetary quantity. The string used to indicate a | |
negative-valued formatted monetary quantity. The number of fractional | |
digits (those to the right of the decimal-point) to be displayed in a | |
internationally formatted monetary quantity. The number of fractional | |
digits (those to the right of the decimal-point) to be displayed in a | |
formatted monetary quantity. Set to 1 or 0 if the currency_symbol | |
respectively precedes or succeeds the value for a nonnegative | |
formatted monetary quantity. Set to 1 or 0 if the currency_symbol | |
respectively is or is not separated by a space from the value for a | |
nonnegative formatted monetary quantity. Set to 1 or 0 if the | |
currency_symbol respectively precedes or succeeds the value for a | |
negative formatted monetary quantity. Set to 1 or 0 if the | |
currency_symbol respectively is or is not separated by a space from | |
the value for a negative formatted monetary quantity. Set to a value | |
indicating the positioning of the positive_sign for a nonnegative | |
formatted monetary quantity. Set to a value indicating the | |
positioning of the negative_sign for a negative formatted monetary | |
quantity. | |
The elements of grouping and mon_grouping are interpreted according | |
to the following: No further grouping is to be performed. The | |
previous element is to be repeatedly used for the remainder of the | |
digits. The value is the number of digits that comprise the current | |
group. The next element is examined to determine the size of the next | |
group of digits to the left of the current group. | |
The value of p_sign_posn and n_sign_posn is interpreted according | |
to the following: Parentheses surround the quantity and | |
currency_symbol. The sign string precedes the quantity and | |
currency_symbol. The sign string succeeds the quantity and | |
currency_symbol. The sign string immediately precedes the | |
currency_symbol. The sign string immediately succeeds the | |
currency_symbol. | |
The implementation shall behave as if no library function calls the | |
localeconv function. | |
Returns | |
The localeconv function returns a pointer to the filled-in object. | |
The structure pointed to by the return value shall not be modified by | |
the program, but may be overwritten by a subsequent call to the | |
localeconv function. In addition, calls to the setlocale function | |
with categories LC_ALL , LC_MONETARY , or LC_NUMERIC may overwrite the | |
contents of the structure. | |
Examples | |
The following table illustrates the rules used by four countries to | |
format monetary quantities. | |
Country Positive format Negative format International format | |
Italy L.1.234 -L.1.234 ITL.1.234 | |
Netherlands F 1.234,56 F -1.234,56 NLG 1.234,56 | |
Norway kr1.234,56 kr1.234,56- NOK 1.234,56 | |
Switzerland SFrs.1,234.56 SFrs.1,234.56C CHF 1,234.56 | |
For these four countries, the respective values for the monetary | |
members of the structure returned by localeconv are: | |
Italy Netherlands Norway Switzerland | |
int_curr_symbol "ITL." "NLG " "NOK " "CHF " | |
currency_symbol "L." "F" "kr" "SFrs." | |
mon_decimal_point "" "," "," "." | |
mon_thousands_sep "." "." "." "," | |
mon_grouping "\3" "\3" "\3" "\3" | |
positive_sign "" "" "" "" | |
negative_sign "-" "-" "-" "C" | |
int_frac_digits 0 2 2 2 | |
frac_digits 0 2 2 2 | |
p_cs_precedes 1 1 1 1 | |
p_sep_by_space 0 1 0 0 | |
n_cs_precedes 1 1 1 1 | |
n_sep_by_space 0 1 0 0 | |
p_sign_posn 1 1 1 1 | |
n_sign_posn 1 4 2 2 | |
4.5 MATHEMATICS <math.h> | |
The header <math.h> declares several mathematical functions and | |
defines one macro. The functions take double-precision arguments and | |
return double-precision values./93/ Integer arithmetic functions and | |
conversion functions are discussed later. | |
The macro defined is | |
HUGE_VAL | |
which expands to a positive double expression, not necessarily | |
representable as a float . | |
Forward references: integer arithmetic functions ($4.10.6), the atof | |
function ($4.10.1.1), the strtod function ($4.10.1.4). | |
4.5.1 Treatment of error conditions | |
The behavior of each of these functions is defined for all | |
representable values of its input arguments. Each function shall | |
execute as if it were a single operation, without generating any | |
externally visible exceptions. | |
For all functions, a domain error occurs if an input argument is | |
outside the domain over which the mathematical function is defined. | |
The description of each function lists any required domain errors; an | |
implementation may define additional domain errors, provided that such | |
errors are consistent with the mathematical definition of the | |
function./94/ On a domain error, the function returns an | |
implementation-defined value; the value of the macro EDOM is stored in | |
errno . | |
Similarly, a range error occurs if the result of the function | |
cannot be represented as a double value. If the result overflows (the | |
magnitude of the result is so large that it cannot be represented in | |
an object of the specified type), the function returns the value of | |
the macro HUGE_VAL , with the same sign as the correct value of the | |
function; the value of the macro ERANGE is stored in errno . If the | |
result underflows (the magnitude of the result is so small that it | |
cannot be represented in an object of the specified type), the | |
function returns zero; whether the integer expression errno acquires | |
the value of the macro ERANGE is implementation-defined. | |
4.5.2 Trigonometric functions | |
4.5.2.1 The acos function | |
Synopsis | |
#include <math.h> | |
double acos(double x); | |
Description | |
The acos function computes the principal value of the arc cosine of x. | |
A domain error occurs for arguments not in the range [-1, +1]. | |
Returns | |
The acos function returns the arc cosine in the range [0, PI] radians. | |
4.5.2.2 The asin function | |
Synopsis | |
#include <math.h> | |
double asin(double x); | |
Description | |
The asin function computes the principal value of the arc sine of x. | |
A domain error occurs for arguments not in the range [-1, +1]. | |
Returns | |
The asin function returns the arc sine in the range [-PI/2, +PI/2] | |
radians. | |
4.5.2.3 The atan function | |
Synopsis | |
#include <math.h> | |
double atan(double x); | |
Description | |
The atan function computes the principal value of the arc tangent of x. | |
Returns | |
The atan function returns the arc tangent in the range [-PI/2, +PI/2] | |
radians. | |
4.5.2.4 The atan2 function | |
Synopsis | |
#include <math.h> | |
double atan2(double y, double x); | |
Description | |
The atan2 function computes the principal value of the arc tangent | |
of y/x , using the signs of both arguments to determine the quadrant | |
of the return value. A domain error may occur if both arguments are | |
zero. | |
Returns | |
The atan2 function returns the arc tangent of y/x , in the range | |
[-PI, +PI] radians. | |
4.5.2.5 The cos function | |
Synopsis | |
#include <math.h> | |
double cos(double x); | |
Description | |
The cos function computes the cosine of x (measured in radians). A | |
large magnitude argument may yield a result with little or no | |
significance. | |
Returns | |
The cos function returns the cosine value. | |
4.5.2.6 The sin function | |
Synopsis | |
#include <math.h> | |
double sin(double x); | |
Description | |
The sin function computes the sine of x (measured in radians). A | |
large magnitude argument may yield a result with little or no | |
significance. | |
Returns | |
The sin function returns the sine value. | |
4.5.2.7 The tan function | |
Synopsis | |
#include <math.h> | |
double tan(double x); | |
Description | |
The tan function returns the tangent of x (measured in radians). A large magnitude argument may yield a result with little or no significance. | |
Returns | |
The tan function returns the tangent value. | |
4.5.3 Hyperbolic functions | |
4.5.3.1 The cosh function | |
Synopsis | |
#include <math.h> | |
double cosh(double x); | |
Description | |
The cosh function computes the hyperbolic cosine of x. A range | |
error occurs if the magnitude of x is too large. | |
Returns | |
The cosh function returns the hyperbolic cosine value. | |
4.5.3.2 The sinh function | |
Synopsis | |
#include <math.h> | |
double sinh(double x); | |
Description | |
The sinh function computes the hyperbolic sine of x . A range error occurs if the magnitude of x is too large. | |
Returns | |
The sinh function returns the hyperbolic sine value. | |
4.5.3.3 The tanh function | |
Synopsis | |
#include <math.h> | |
double tanh(double x); | |
Description | |
The tanh function computes the hyperbolic tangent of x . | |
Returns | |
The tanh function returns the hyperbolic tangent value. | |
4.5.4 Exponential and logarithmic functions | |
4.5.4.1 The exp function | |
Synopsis | |
#include <math.h> | |
double exp(double x); | |
Description | |
The exp function computes the exponential function of x . A range | |
error occurs if the magnitude of x is too large. | |
Returns | |
The exp function returns the exponential value. | |
4.5.4.2 The frexp function | |
Synopsis | |
#include <math.h> | |
double frexp(double value, int *exp); | |
Description | |
The frexp function breaks a floating-point number into a normalized | |
fraction and an integral power of 2. It stores the integer in the int | |
object pointed to by exp . | |
Returns | |
The frexp function returns the value x , such that x is a double | |
with magnitude in the interval [1/2, 1) or zero, and value equals x | |
times 2 raised to the power *exp . If value is zero, both parts of | |
the result are zero. | |
4.5.4.3 The ldexp function | |
Synopsis | |
#include <math.h> | |
double ldexp(double x, int exp); | |
Description | |
The ldexp function multiplies a floating-point number by an | |
integral power of 2. A range error may occur. | |
Returns | |
The ldexp function returns the value of x times 2 raised to the | |
power exp . | |
4.5.4.4 The log function | |
Synopsis | |
#include <math.h> | |
double log(double x); | |
Description | |
The log function computes the natural logarithm of x. A domain | |
error occurs if the argument is negative. A range error occurs if the | |
argument is zero and the logarithm of zero cannot be represented. | |
Returns | |
The log function returns the natural logarithm. | |
4.5.4.5 The log10 function | |
Synopsis | |
#include <math.h> | |
double log10(double x); | |
Description | |
The log10 function computes the base-ten logarithm of x . A domain | |
error occurs if the argument is negative. A range error occurs if the | |
argument is zero and the logarithm of zero cannot be represented. | |
Returns | |
The log10 function returns the base-ten logarithm. | |
4.5.4.6 The modf function | |
Synopsis | |
#include <math.h> | |
double modf(double value, double *iptr); | |
Description | |
The modf function breaks the argument value into integral and | |
fractional parts, each of which has the same sign as the argument. It | |
stores the integral part as a double in the object pointed to by iptr. | |
Returns | |
The modf function returns the signed fractional part of value . | |
4.5.5 Power functions | |
4.5.5.1 The pow function | |
Synopsis | |
#include <math.h> | |
double pow(double x, double y); | |
Description | |
The pow function computes x raised to the power y . A domain error | |
occurs if x is negative and y is not an integer. A domain error | |
occurs if the result cannot be represented when x is zero and y is | |
less than or equal to zero. A range error may occur. | |
Returns | |
The pow function returns the value of x raised to the power y . | |
4.5.5.2 The sqrt function | |
Synopsis | |
#include <math.h> | |
double sqrt(double x); | |
Description | |
The sqrt function computes the nonnegative square root of x . A | |
domain error occurs if the argument is negative. | |
Returns | |
The sqrt function returns the value of the square root. | |
4.5.6 Nearest integer, absolute value, and remainder functions | |
4.5.6.1 The ceil function | |
Synopsis | |
#include <math.h> | |
double ceil(double x); | |
Description | |
The ceil function computes the smallest integral value not less than x . | |
Returns | |
The ceil function returns the smallest integral value not less than | |
x , expressed as a double. | |
4.5.6.2 The fabs function | |
Synopsis | |
#include <math.h> | |
double fabs(double x); | |
Description | |
The fabs function computes the absolute value of a floating-point | |
number x . | |
Returns | |
The fabs function returns the absolute value of x. | |
4.5.6.3 The floor function | |
Synopsis | |
#include <math.h> | |
double floor(double x); | |
Description | |
The floor function computes the largest integral value not greater | |
than x . | |
Returns | |
The floor function returns the largest integral value not greater | |
than x , expressed as a double. | |
4.5.6.4 The fmod function | |
Synopsis | |
#include <math.h> | |
double fmod(double x, double y); | |
Description | |
The fmod function computes the floating-point remainder of x/y . | |
Returns | |
The fmod function returns the value x i y , for some integer i such | |
that, if y is nonzero, the result has the same sign as x and magnitude | |
less than the magnitude of y . If y is zero, whether a domain error | |
occurs or the fmod function returns zero is implementation-defined. | |
4.6 NON-LOCAL JUMPS <setjmp.h> | |
The header <setjmp.h> defines the macro setjmp , and declares one | |
function and one type, for bypassing the normal function call and | |
return discipline./95/ | |
The type declared is | |
jmp_buf | |
which is an array type suitable for holding the information needed to | |
restore a calling environment. | |
It is unspecified whether setjmp is a macro or an identifier | |
declared with external linkage. If a macro definition is suppressed | |
in order to access an actual function, or a program defines an | |
external identifier with the name setjmp , the behavior is undefined. | |
4.6.1 Save calling environment | |
4.6.1.1 The setjmp macro | |
Synopsis | |
#include <setjmp.h> | |
int setjmp(jmp_buf env); | |
Description | |
The setjmp macro saves its calling environment in its jmp_buf | |
argument for later use by the longjmp function. | |
Returns | |
If the return is from a direct invocation, the setjmp macro returns | |
the value zero. If the return is from a call to the longjmp function, | |
the setjmp macro returns a nonzero value. | |
"Environmental constraint" | |
An invocation of the setjmp macro shall appear only in one of the | |
following contexts: | |
* the entire controlling expression of a selection or iteration statement; | |
* one operand of a relational or equality operator with the other | |
operand an integral constant expression, with the resulting expression | |
being the entire controlling expression of a selection or iteration | |
statement; | |
* the operand of a unary ! operator with the resulting expression | |
being the entire controlling expression of a selection or iteration | |
statement; or | |
* the entire expression of an expression statement (possibly cast to void). | |
4.6.2 Restore calling environment | |
4.6.2.1 The longjmp function | |
Synopsis | |
#include <setjmp.h> | |
void longjmp(jmp_buf env, int val); | |
Description | |
The longjmp function restores the environment saved by the most | |
recent invocation of the setjmp macro in the same invocation of the | |
program, with the corresponding jmp_buf argument. If there has been | |
no such invocation, or if the function containing the invocation of | |
the setjmp macro has terminated execution/96/ in the interim, the | |
behavior is undefined. | |
All accessible objects have values as of the time longjmp was | |
called, except that the values of objects of automatic storage | |
duration that do not have volatile type and have been changed between | |
the setjmp invocation and longjmp call are indeterminate. | |
As it bypasses the usual function call and return mechanisms, the | |
longjmp function shall execute correctly in contexts of interrupts, | |
signals and any of their associated functions. However, if the | |
longjmp function is invoked from a nested signal handler (that is, | |
from a function invoked as a result of a signal raised during the | |
handling of another signal), the behavior is undefined. | |
Returns | |
After longjmp is completed, program execution continues as if the | |
corresponding invocation of the setjmp macro had just returned the | |
value specified by val . The longjmp function cannot cause the setjmp | |
macro to return the value 0; if val is 0, the setjmp macro returns the | |
value 1. | |
4.7 SIGNAL HANDLING <signal.h> | |
The header <signal.h> declares a type and two functions and defines | |
several macros, for handling various signals (conditions that may be | |
reported during program execution). | |
The type defined is | |
sig_atomic_t | |
which is the integral type of an object that can be accessed as an | |
atomic entity, even in the presence of asynchronous interrupts. | |
The macros defined are | |
SIG_DFL | |
SIG_ERR | |
SIG_IGN | |
which expand to distinct constant expressions that have type | |
compatible with the second argument to and the return value of the | |
signal function, and whose value compares unequal to the address of | |
any declarable function; and the following, each of which expands to a | |
positive integral constant expression that is the signal number | |
corresponding to the specified condition: | |
SIGABRT abnormal termination, such as is initiated by the abort function | |
SIGFPE an erroneous arithmetic operation, such as zero divide or an | |
operation resulting in overflow | |
SIGILL detection of an invalid function image, such as an illegal | |
instruction | |
SIGINT receipt of an interactive attention signal | |
SIGSEGV an invalid access to storage | |
SIGTERM a termination request sent to the program | |
An implementation need not generate any of these signals, except as | |
a result of explicit calls to the raise function. Additional signals | |
and pointers to undeclarable functions, with macro definitions | |
beginning, respectively, with the letters SIG and an upper-case letter | |
or with SIG_ and an upper-case letter,/97/ may also be specified by | |
the implementation. The complete set of signals, their semantics, and | |
their default handling is implementation-defined; all signal values | |
shall be positive. | |
4.7.1 Specify signal handling | |
4.7.1.1 The signal function | |
Synopsis | |
#include <signal.h> | |
void (*signal(int sig, void (*func)(int)))(int); | |
Description | |
The signal function chooses one of three ways in which receipt of | |
the signal number sig is to be subsequently handled. If the value of | |
func is SIG_DFL , default handling for that signal will occur. If the | |
value of func is SIG_IGN , the signal will be ignored. Otherwise, | |
func shall point to a function to be called when that signal occurs. | |
Such a function is called a signal handler . | |
When a signal occurs, if func points to a function, first the | |
equivalent of signal(sig, SIG_DFL); is executed or an | |
implementation-defined blocking of the signal is performed. (If the | |
value of sig is SIGILL, whether the reset to SIG_DFL occurs is | |
implementation-defined.) Next the equivalent of (*func)(sig); is | |
executed. The function func may terminate by executing a return | |
statement or by calling the abort , exit , or longjmp function. If | |
func executes a return statement and the value of sig was SIGFPE or | |
any other implementation-defined value corresponding to a | |
computational exception, the behavior is undefined. Otherwise, the | |
program will resume execution at the point it was interrupted. | |
If the signal occurs other than as the result of calling the abort | |
or raise function, the behavior is undefined if the signal handler | |
calls any function in the standard library other than the signal | |
function itself or refers to any object with static storage duration | |
other than by assigning a value to a static storage duration variable | |
of type volatile sig_atomic_t . Furthermore, if such a call to the | |
signal function results in a SIG_ERR return, the value of errno is | |
indeterminate. | |
At program startup, the equivalent of | |
signal(sig, SIG_IGN); | |
may be executed for some signals selected in an implementation-defined | |
manner; the equivalent of | |
signal(sig, SIG_DFL); | |
is executed for all other signals defined by the implementation. | |
The implementation shall behave as if no library function calls the | |
signal function. | |
Returns | |
If the request can be honored, the signal function returns the | |
value of func for the most recent call to signal for the specified | |
signal sig . Otherwise, a value of SIG_ERR is returned and a positive | |
value is stored in errno . | |
Forward references: the abort function ($4.10.4.1). | |
4.7.2 Send signal | |
4.7.2.1 The raise function | |
Synopsis | |
#include <signal.h> | |
int raise(int sig); | |
Description | |
The raise function sends the signal sig to the executing program. | |
Returns | |
The raise function returns zero if successful, nonzero if unsuccessful. | |
4.8 VARIABLE ARGUMENTS <stdarg.h> | |
The header <stdarg.h> declares a type and defines three macros, for | |
advancing through a list of arguments whose number and types are not | |
known to the called function when it is translated. | |
A function may be called with a variable number of arguments of | |
varying types. As described in $3.7.1, its parameter list contains | |
one or more parameters. The rightmost parameter plays a special role | |
in the access mechanism, and will be designated parmN in this | |
description. | |
The type declared is | |
va_list | |
which is a type suitable for holding information needed by the macros | |
va_start , va_arg , and va_end . If access to the varying arguments | |
is desired, the called function shall declare an object (referred to | |
as ap in this section) having type va_list . The object ap may be | |
passed as an argument to another function; if that function invokes | |
the va_arg macro with parameter ap , the value of ap in the calling | |
function is indeterminate and shall be passed to the va_end macro | |
prior to any further reference to ap . | |
4.8.1 Variable argument list access macros | |
The va_start and va_arg macros described in this section shall be | |
implemented as macros, not as actual functions. It is unspecified | |
whether va_end is a macro or an identifier declared with external | |
linkage. If a macro definition is suppressed in order to access an | |
actual function, or a program defines an external identifier with the | |
name va_end , the behavior is undefined. The va_start and va_end | |
macros shall be invoked in the function accepting a varying number of | |
arguments, if access to the varying arguments is desired. | |
4.8.1.1 The va_start macro | |
Synopsis | |
#include <stdarg.h> | |
void va_start(va_list ap, parmN); | |
Description | |
The va_start macro shall be invoked before any access to the | |
unnamed arguments. | |
The va_start macro initializes ap for subsequent use by va_arg and | |
va_end . | |
The parameter parmN is the identifier of the rightmost parameter in | |
the variable parameter list in the function definition (the one just | |
before the , ... ). If the parameter parmN is declared with the | |
register storage class, with a function or array type, or with a type | |
that is not compatible with the type that results after application of | |
the default argument promotions, the behavior is undefined. | |
Returns | |
The va_start macro returns no value. | |
4.8.1.2 The va_arg macro | |
Synopsis | |
#include <stdarg.h> | |
type va_arg(va_list ap, type); | |
Description | |
The va_arg macro expands to an expression that has the type and | |
value of the next argument in the call. The parameter ap shall be the | |
same as the va_list ap initialized by va_start . Each invocation of | |
va_arg modifies ap so that the values of successive arguments are | |
returned in turn. The parameter type is a type name specified such | |
that the type of a pointer to an object that has the specified type | |
can be obtained simply by postfixing a * to type . If there is no | |
actual next argument, or if type is not compatible with the type of | |
the actual next argument (as promoted according to the default | |
argument promotions), the behavior is undefined. | |
Returns | |
The first invocation of the va_arg macro after that of the va_start | |
macro returns the value of the argument after that specified by parmN. | |
Successive invocations return the values of the remaining arguments | |
in succession. | |
4.8.1.3 The va_end macro | |
Synopsis | |
#include <stdarg.h> | |
void va_end(va_list ap); | |
Description | |
The va_end macro facilitates a normal return from the function | |
whose variable argument list was referred to by the expansion of | |
va_start that initialized the va_list ap . The va_end macro may | |
modify ap so that it is no longer usable (without an intervening | |
invocation of va_start ). If there is no corresponding invocation of | |
the va_start macro, or if the va_end macro is not invoked before the | |
return, the behavior is undefined. | |
Returns | |
The va_end macro returns no value. | |
Example | |
The function f1 gathers into an array a list of arguments that are | |
pointers to strings (but not more than MAXARGS arguments), then passes | |
the array as a single argument to function f2 . The number of | |
pointers is specified by the first argument to f1 . | |
#include <stdarg.h> | |
#define MAXARGS 31 | |
void f1(int n_ptrs, ...) | |
{ | |
va_list ap; | |
char *array[MAXARGS]; | |
int ptr_no = 0; | |
if (n_ptrs > MAXARGS) | |
n_ptrs = MAXARGS; | |
va_start(ap, n_ptrs); | |
while (ptr_no < n_ptrs) | |
array[ptr_no++] = va_arg(ap, char *); | |
va_end(ap); | |
f2(n_ptrs, array); | |
} | |
Each call to f1 shall have visible the definition of the function or a | |
declaration such as | |
void f1(int, ...); | |
4.9 INPUT/OUTPUT <stdio.h> | |
4.9.1 Introduction | |
The header <stdio.h> declares three types, several macros, and many | |
functions for performing input and output. | |
The types declared are size_t (described in $4.1.5); | |
FILE | |
which is an object type capable of recording all the information | |
needed to control a stream, including its file position indicator, a | |
pointer to its associated buffer, an error indicator that records | |
whether a read/write error has occurred, and an end-of-file indicator | |
that records whether the end of the file has been reached; and | |
fpos_t | |
which is an object type capable of recording all the information | |
needed to specify uniquely every position within a file. | |
The macros are NULL (described in $4.1.5); | |
_IOFBF | |
_IOLBF | |
_IONBF | |
which expand to distinct integral constant expressions, suitable for | |
use as the third argument to the setvbuf function; | |
BUFSIZ | |
which expands to an integral constant expression, which is the size of | |
the buffer used by the setbuf function; | |
EOF | |
which expands to a negative integral constant expression that is | |
returned by several functions to indicate end-of-file ,that is, no | |
more input from a stream; | |
FOPEN_MAX | |
which expands to an integral constant expression that is the minimum | |
number of files that the implementation guarantees can be open | |
simultaneously; | |
FILENAME_MAX | |
which expands to an integral constant expression that is the maximum | |
length for a file name string that the implementation guarantees can | |
be opened;/98/ | |
L_tmpnam | |
which expands to an integral constant expression that is the size of | |
an array of char large enough to hold a temporary file name string | |
generated by the tmpnam function; | |
SEEK_CUR | |
SEEK_END | |
SEEK_SET | |
which expand to distinct integral constant expressions, suitable for | |
use as the third argument to the fseek function; | |
TMP_MAX | |
which expands to an integral constant expression that is the minimum | |
number of unique file names that shall be generated by the tmpnam | |
function; | |
stderr | |
stdin | |
stdout | |
which are expressions of type ``pointer to FILE '' that point to the | |
FILE objects associated, respectively, with the standard error, input, | |
and output streams. | |
Forward references: files ($4.9.3), the fseek function ($4.9.9.2), | |
streams ($4.9.2), the tmpnam function ($4.9.4.4). | |
4.9.2 Streams | |
Input and output, whether to or from physical devices such as | |
terminals and tape drives, or whether to or from files supported on | |
structured storage devices, are mapped into logical data streams | |
,whose properties are more uniform than their various inputs and | |
outputs. Two forms of mapping are supported, for text streams and for | |
binary streams ./99/ | |
A text stream is an ordered sequence of characters composed into | |
lines , each line consisting of zero or more characters plus a | |
terminating new-line character. Whether the last line requires a | |
terminating new-line character is implementation-defined. Characters | |
may have to be added, altered, or deleted on input and output to | |
conform to differing conventions for representing text in the host | |
environment. Thus, there need not be a one-to-one correspondence | |
between the characters in a stream and those in the external | |
representation. Data read in from a text stream will necessarily | |
compare equal to the data that were earlier written out to that stream | |
only if: the data consist only of printable characters and the control | |
characters horizontal tab and new-line; no new-line character is | |
immediately preceded by space characters; and the last character is a | |
new-line character. Whether space characters that are written out | |
immediately before a new-line character appear when read in is | |
implementation-defined. | |
A binary stream is an ordered sequence of characters that can | |
transparently record internal data. Data read in from a binary stream | |
shall compare equal to the data that were earlier written out to that | |
stream, under the same implementation. Such a stream may, however, | |
have an implementation-defined number of null characters appended. | |
"Environmental limits" | |
An implementation shall support text files with lines containing at | |
least 254 characters, including the terminating new-line character. | |
The value of the macro BUFSIZ shall be at least 256. | |
4.9.3 Files | |
A stream is associated with an external file (which may be a | |
physical device) by opening a file, which may involve creating a new | |
file. Creating an existing file causes its former contents to be | |
discarded, if necessary, so that it appears as if newly created. If a | |
file can support positioning requests (such as a disk file, as opposed | |
to a terminal), then a file position indicator /100/ associated with | |
the stream is positioned at the start (character number zero) of the | |
file, unless the file is opened with append mode in which case it is | |
implementation-defined whether the file position indicator is | |
positioned at the beginning or the end of the file. The file position | |
indicator is maintained by subsequent reads, writes, and positioning | |
requests, to facilitate an orderly progression through the file. All | |
input takes place as if characters were read by successive calls to the | |
fgetc function; all output takes place as if characters were written by | |
successive calls to the fputc function. | |
Binary files are not truncated, except as defined in $4.9.5.3. | |
Whether a write on a text stream causes the associated file to be | |
truncated beyond that point is implementation-defined. | |
When a stream is unbuffered, characters are intended to appear | |
from the source or at the destination as soon as possible. Otherwise | |
characters may be accumulated and transmitted to or from the host | |
environment as a block. When a stream is fully buffered, characters | |
are intended to be transmitted to or from the host environment as a | |
block when a buffer is filled. When a stream is line buffered, | |
characters are intended to be transmitted to or from the host | |
environment as a block when a new-line character is encountered. | |
Furthermore, characters are intended to be transmitted as a block to | |
the host environment when a buffer is filled, when input is requested | |
on an unbuffered stream, or when input is requested on a line buffered | |
stream that requires the transmission of characters from the host | |
environment. Support for these characteristics is | |
implementation-defined, and may be affected via the setbuf and setvbuf | |
functions. | |
A file may be disassociated from its controlling stream by closing | |
the file. Output streams are flushed (any unwritten buffer contents | |
are transmitted to the host environment) before the stream is | |
disassociated from the file. The value of a pointer to a FILE object | |
is indeterminate after the associated file is closed (including the | |
standard text streams). Whether a file of zero length (on which no | |
characters have been written by an output stream) actually exists is | |
implementation-defined. | |
The file may be subsequently reopened, by the same or another | |
program execution, and its contents reclaimed or modified (if it can | |
be repositioned at its start). If the main function returns to its | |
original caller, or if the exit function is called, all open files are | |
closed (hence all output streams are flushed) before program | |
termination. Other paths to program termination, such as calling the | |
abort function, need not close all files properly. | |
The address of the FILE object used to control a stream may be | |
significant; a copy of a FILE object may not necessarily serve in | |
place of the original. | |
At program startup, three text streams are predefined and need not | |
be opened explicitly --- standard input (for reading conventional | |
input), standard output (for writing conventional output), and | |
standard error (for writing diagnostic output). When opened, the | |
standard error stream is not fully buffered; the standard input and | |
standard output streams are fully buffered if and only if the stream | |
can be determined not to refer to an interactive device. | |
Functions that open additional (nontemporary) files require a file | |
name, which is a string. The rules for composing valid file names are | |
implementation-defined. Whether the same file can be simultaneously | |
open multiple times is also implementation-defined. | |
"Environmental limits" | |
The value of the macro FOPEN_MAX shall be at least eight, including | |
the three standard text streams. | |
Forward references: the exit function ($4.10.4.3), the fgetc function | |
($4.9.7.1), the fopen function ($4.9.5.3), the fputc function | |
($4.9.7.3), the setbuf function ($4.9.5.5), the setvbuf function | |
($4.9.5.6). | |
4.9.4 Operations on files | |
4.9.4.1 The remove function | |
Synopsis | |
#include <stdio.h> | |
int remove(const char *filename); | |
Description | |
The remove function causes the file whose name is the string | |
pointed to by filename to be no longer accessible by that name. A | |
subsequent attempt to open that file using that name will fail, unless | |
it is created anew. If the file is open, the behavior of the remove | |
function is implementation-defined. | |
Returns | |
The remove function returns zero if the operation succeeds, nonzero | |
if it fails. | |
4.9.4.2 The rename function | |
Synopsis | |
#include <stdio.h> | |
int rename(const char *old, const char *new); | |
Description | |
The rename function causes the file whose name is the string | |
pointed to by old to be henceforth known by the name given by the | |
string pointed to by new . The file named old is effectively removed. | |
If a file named by the string pointed to by new exists prior to the | |
call to the rename function, the behavior is implementation-defined. | |
Returns | |
The rename function returns zero if the operation succeeds, nonzero | |
if it fails,/101/ in which case if the file existed previously it is | |
still known by its original name. | |
4.9.4.3 The tmpfile function | |
Synopsis | |
#include <stdio.h> | |
FILE *tmpfile(void); | |
Description | |
The tmpfile function creates a temporary binary file that will | |
automatically be removed when it is closed or at program termination. | |
If the program terminates abnormally, whether an open temporary file | |
is removed is implementation-defined. The file is opened for update | |
with wb+ mode. | |
Returns | |
The tmpfile function returns a pointer to the stream of the file | |
that it created. If the file cannot be created, the tmpfile function | |
returns a null pointer. | |
Forward references: the fopen function ($4.9.5.3). | |
4.9.4.4 The tmpnam function | |
Synopsis | |
#include <stdio.h> | |
char *tmpnam(char *s); | |
Description | |
The tmpnam function generates a string that is a valid file name | |
and that is not the same as the name of an existing file./102/ | |
The tmpnam function generates a different string each time it is | |
called, up to TMP_MAX times. If it is called more than TMP_MAX times, | |
the behavior is implementation-defined. | |
The implementation shall behave as if no library function calls the | |
tmpnam function. | |
Returns | |
If the argument is a null pointer, the tmpnam function leaves its | |
result in an internal static object and returns a pointer to that | |
object. Subsequent calls to the tmpnam function may modify the same | |
object. If the argument is not a null pointer, it is assumed to point | |
to an array of at least L_tmpnam char s; the tmpnam function writes | |
its result in that array and returns the argument as its value. | |
"Environmental limits" | |
The value of the macro TMP_MAX shall be at least 25. | |
4.9.5 File access functions | |
4.9.5.1 The fclose function | |
Synopsis | |
#include <stdio.h> | |
int fclose(FILE *stream); | |
Description | |
The fclose function causes the stream pointed to by stream to be | |
flushed and the associated file to be closed. Any unwritten buffered | |
data for the stream are delivered to the host environment to be | |
written to the file; any unread buffered data are discarded. The | |
stream is disassociated from the file. If the associated buffer was | |
automatically allocated, it is deallocated. | |
Returns | |
The fclose function returns zero if the stream was successfully | |
closed, or EOF if any errors were detected. | |
4.9.5.2 The fflush function | |
Synopsis | |
#include <stdio.h> | |
int fflush(FILE *stream); | |
Description | |
If stream points to an output stream or an update stream in which | |
the most recent operation was output, the fflush function causes any | |
unwritten data for that stream to be delivered to the host environment | |
to be written to the file; otherwise, the behavior is undefined. | |
If stream is a null pointer, the fflush function performs this | |
flushing action on all streams for which the behavior is defined | |
above. | |
Returns | |
The fflush function returns EOF if a write error occurs, otherwise zero. | |
Forward references: the ungetc function ($4.9.7.11). | |
4.9.5.3 The fopen function | |
Synopsis | |
#include <stdio.h> | |
FILE *fopen(const char *filename, const char *mode); | |
Description | |
The fopen function opens the file whose name is the string pointed | |
to by filename , and associates a stream with it. | |
The argument mode points to a string beginning with one of the | |
following sequences:/103/ | |
"r" open text file for reading | |
"w" truncate to zero length or create text file for writing | |
"a" append; open or create text file for writing at end-of-file | |
"rb" open binary file for reading | |
"wb" truncate to zero length or create binary file for writing | |
"ab" append; open or create binary file for writing at end-of-file | |
"r+" open text file for update (reading and writing) | |
"w+" truncate to zero length or create text file for update | |
"a+" append; open or create text file for update, writing at | |
end-of-file | |
"r+b" or "rb+" open binary file for update (reading and writing) | |
"w+b" or "wb+" truncate to zero length or create binary file for update | |
"a+b" or "ab+" append; open or create binary file for update, writing at | |
end-of-file | |
Opening a file with read mode ('r' as the first character in the | |
mode argument) fails if the file does not exist or cannot be read. | |
Opening a file with append mode ('a' as the first character in the | |
mode argument) causes all subsequent writes to the file to be forced | |
to the then current end-of-file, regardless of intervening calls to | |
the fseek function. In some implementations, opening a binary file | |
with append mode ('b' as the second or third character in the mode | |
argument) may initially position the file position indicator for the | |
stream beyond the last data written, because of null character | |
padding. | |
When a file is opened with update mode ('+' as the second or third | |
character in the mode argument), both input and output may be | |
performed on the associated stream. However, output may not be | |
directly followed by input without an intervening call to the fflush | |
function or to a file positioning function ( fseek , fsetpos , or | |
rewind ), and input may not be directly followed by output without an | |
intervening call to a file positioning function, unless the input | |
operation encounters end-of-file. Opening a file with update mode may | |
open or create a binary stream in some implementations. | |
When opened, a stream is fully buffered if and only if it can be | |
determined not to refer to an interactive device. The error and | |
end-of-file indicators for the stream are cleared. | |
Returns | |
The fopen function returns a pointer to the object controlling the | |
stream. If the open operation fails, fopen returns a null pointer. | |
Forward references: file positioning functions ($4.9.9). | |
4.9.5.4 The freopen function | |
Synopsis | |
#include <stdio.h> | |
FILE *freopen(const char *filename, const char *mode, | |
FILE *stream); | |
Description | |
The freopen function opens the file whose name is the string | |
pointed to by filename and associates the stream pointed to by stream | |
with it. The mode argument is used just as in the fopen | |
function./104/ | |
The freopen function first attempts to close any file that is | |
associated with the specified stream. Failure to close the file | |
successfully is ignored. The error and end-of-file indicators for the | |
stream are cleared. | |
Returns | |
The freopen function returns a null pointer if the open operation | |
fails. Otherwise, freopen returns the value of stream . | |
4.9.5.5 The setbuf function | |
Synopsis | |
#include <stdio.h> | |
void setbuf(FILE *stream, char *buf); | |
Description | |
Except that it returns no value, the setbuf function is equivalent | |
to the setvbuf function invoked with the values _IOFBF for mode and | |
BUFSIZ for size , or (if buf is a null pointer), with the value _IONBF | |
for mode . | |
Returns | |
The setbuf function returns no value. | |
Forward references: the setvbuf function ($4.9.5.6). | |
4.9.5.6 The setvbuf function | |
Synopsis | |
#include <stdio.h> | |
int setvbuf(FILE *stream, char *buf, int mode, size_t size); | |
Description | |
The setvbuf function may be used after the stream pointed to by | |
stream has been associated with an open file but before any other | |
operation is performed on the stream. The argument mode determines | |
how stream will be buffered, as follows: _IOFBF causes input/output to | |
be fully buffered; _IOLBF causes output to be line buffered; _IONBF | |
causes input/output to be unbuffered. If buf is not a null pointer, | |
the array it points to may be used instead of a buffer allocated by | |
the setvbuf function./105/ The argument size specifies the size of the | |
array. The contents of the array at any time are indeterminate. | |
Returns | |
The setvbuf function returns zero on success, or nonzero if an | |
invalid value is given for mode or if the request cannot be honored. | |
4.9.6 Formatted input/output functions | |
4.9.6.1 The fprintf function | |
Synopsis | |
#include <stdio.h> | |
int fprintf(FILE *stream, const char *format, ...); | |
Description | |
The fprintf function writes output to the stream pointed to by | |
stream , under control of the string pointed to by format that | |
specifies how subsequent arguments are converted for output. If there | |
are insufficient arguments for the format, the behavior is undefined. | |
If the format is exhausted while arguments remain, the excess | |
arguments are evaluated (as always) but are otherwise ignored. The | |
fprintf function returns when the end of the format string is | |
encountered. | |
The format shall be a multibyte character sequence, beginning and | |
ending in its initial shift state. The format is composed of zero or | |
more directives: ordinary multibyte characters (not % ), which are | |
copied unchanged to the output stream; and conversion specifications, | |
each of which results in fetching zero or more subsequent arguments. | |
Each conversion specification is introduced by the character % . | |
After the % , the following appear in sequence: | |
* Zero or more flags that modify the meaning of the conversion | |
specification. | |
* An optional decimal integer specifying a minimum field width ./106/ | |
If the converted value has fewer characters than the field width, it | |
will be padded with spaces on the left (or right, if the left | |
adjustment flag, described later, has been given) to the field width. | |
* An optional precision that gives the minimum number of digits to | |
appear for the d , i , o , u , x , and X conversions, the number of | |
digits to appear after the decimal-point character for e , E , and f | |
conversions, the maximum number of significant digits for the g and G | |
conversions, or the maximum number of characters to be written from a | |
string in s conversion. The precision takes the form of a period (.) | |
followed by an optional decimal integer; if the integer is | |
omitted, it is treated as zero. | |
* An optional h specifying that a following d , i , o , u , x , or X | |
conversion specifier applies to a short int or unsigned short int | |
argument (the argument will have been promoted according to the | |
integral promotions, and its value shall be converted to short int or | |
unsigned short int before printing); an optional h specifying that a | |
following n conversion specifier applies to a pointer to a short int | |
argument; an optional l (ell) specifying that a following d , i , o , | |
u , x , or X conversion specifier applies to a long int or unsigned | |
long int argument; an optional l specifying that a following n | |
conversion specifier applies to a pointer to a long int argument; or | |
an optional L specifying that a following e , E , f , g , or G | |
conversion specifier applies to a long double argument. If an h , l , | |
or L appears with any other conversion specifier, the behavior is | |
undefined. | |
* A character that specifies the type of conversion to be applied. | |
A field width or precision, or both, may be indicated by an | |
asterisk * instead of a digit string. In this case, an int argument | |
supplies the field width or precision. The arguments specifying field | |
width or precision, or both, shall appear (in that order) before the | |
argument (if any) to be converted. A negative field width argument is | |
taken as a - flag followed by a positive field width. A negative | |
precision argument is taken as if it were missing. | |
The flag characters and their meanings are | |
- The result of the conversion will be left-justified within the field. | |
+ The result of a signed conversion will always begin with a plus or | |
minus sign. | |
space If the first character of a signed conversion is not a sign, | |
or if a signed conversion results in no characters, a space will be | |
prepended to the result. If the space and + flags both appear, the | |
space flag will be ignored. | |
# The result is to be converted to an ``alternate form.'' For | |
o conversion, it increases the precision to force the first digit of | |
the result to be a zero. For x (or X ) conversion, a nonzero result | |
will have 0x (or 0X ) prepended to it. For e , E , f , g , and G | |
conversions, the result will always contain a decimal-point character, | |
even if no digits follow it (normally, a decimal-point character | |
appears in the result of these conversions only if a digit follows | |
it). For g and G conversions, trailing zeros will not be removed from | |
the result. For other conversions, the behavior is undefined. | |
0 For d, i, o, u, x, X, e, E, f, g and G conversions, leading zeros | |
(following any indication of sign or base) are used to pad to the | |
field width; no space padding is performed. If the 0 and - flags | |
both appear, the 0 flag will be ignored. For d, i, o, u, x and X | |
conversions, if a precision is specified, the 0 flag will be | |
ignored. For other conversions, the behavior is undefined. | |
The conversion specifiers and their meanings are | |
d, i, o, u, x, X The int argument is converted to signed decimal ( d | |
or i ), unsigned octal ( o ), unsigned decimal ( u ), or unsigned | |
hexadecimal notation ( x or X ); the letters abcdef are used for x | |
conversion and the letters ABCDEF for X conversion. The precision | |
specifies the minimum number of digits to appear; if the value being | |
converted can be represented in fewer digits, it will be expanded with | |
leading zeros. The default precision is 1. The result of converting | |
a zero value with an explicit precision of zero is no characters. | |
f The double argument is converted to decimal notation in the style | |
[-]ddd.ddd , where the number of digits after the decimal-point | |
character is equal to the precision specification. If the precision | |
is missing, it is taken as 6; if the precision is explicitly zero, no | |
decimal-point character appears. If a decimal-point character | |
appears, at least one digit appears before it. The value is rounded | |
to the appropriate number of digits. | |
e, E The double argument is converted in the style [-]d.ddde+- dd , | |
where there is one digit before the decimal-point character (which is | |
nonzero if the argument is nonzero) and the number of digits after it | |
is equal to the precision; if the precision is missing, it is taken as | |
6; if the precision is zero, no decimal-point character appears. The | |
value is rounded to the appropriate number of digits. The E | |
conversion specifier will produce a number with E instead of e | |
introducing the exponent. The exponent always contains at least two | |
digits. If the value is zero, the exponent is zero. | |
g, G The double argument is converted in style f or e (or in style E | |
in the case of a G conversion specifier), with the precision | |
specifying the number of significant digits. If an explicit precision | |
is zero, it is taken as 1. The style used depends on the value | |
converted; style e will be used only if the exponent resulting from | |
such a conversion is less than -4 or greater than or equal to the | |
precision. Trailing zeros are removed from the fractional portion of | |
the result; a decimal-point character appears only if it is followed | |
by a digit. | |
c The int argument is converted to an unsigned char , and the resulting | |
character is written. | |
s The argument shall be a pointer to an array of character type./107/ | |
Characters from the array are written up to (but not including) a | |
terminating null character; if the precision is specified, no more | |
than that many characters are written. If the precision is not | |
specified or is greater than the size of the array, the array shall | |
contain a null character. | |
p The argument shall be a pointer to void . The value of the pointer | |
is converted to a sequence of printable characters, in an | |
implementation-defined manner. | |
n The argument shall be a pointer to an integer into which is written | |
the number of characters written to the output stream so far by this | |
call to fprintf . No argument is converted. | |
% A % is written. No argument is converted. The complete conversion | |
specification shall be %% . | |
If a conversion specification is invalid, the behavior is | |
undefined./108/ | |
If any argument is, or points to, a union or an aggregate (except | |
for an array of character type using %s conversion, or a pointer cast | |
to be a pointer to void using %p conversion), the behavior is | |
undefined. | |
In no case does a nonexistent or small field width cause truncation | |
of a field; if the result of a conversion is wider than the field | |
width, the field is expanded to contain the conversion result. | |
Returns | |
The fprintf function returns the number of characters transmitted, | |
or a negative value if an output error occurred. | |
"Environmental limit" | |
The minimum value for the maximum number of characters produced by | |
any single conversion shall be 509. | |
Examples | |
To print a date and time in the form ``Sunday, July 3, 10:02,'' | |
where weekday and month are pointers to strings: | |
#include <stdio.h> | |
fprintf(stdout, "%s, %s %d, %.2d:%.2d\n", | |
weekday, month, day, hour, min); | |
To print PI to five decimal places: | |
#include <math.h> | |
#include <stdio.h> | |
fprintf(stdout, "pi = %.5f\n", 4 * atan(1.0)); | |
4.9.6.2 The fscanf function | |
Synopsis | |
#include <stdio.h> | |
int fscanf(FILE *stream, const char *format, ...); | |
Description | |
The fscanf function reads input from the stream pointed to by | |
stream , under control of the string pointed to by format that | |
specifies the admissible input sequences and how they are to be | |
converted for assignment, using subsequent arguments as pointers to | |
the objects to receive the converted input. If there are insufficient | |
arguments for the format, the behavior is undefined. If the format is | |
exhausted while arguments remain, the excess arguments are evaluated | |
(as always) but are otherwise ignored. | |
The format shall be a multibyte character sequence, beginning and | |
ending in its initial shift state. The format is composed of zero or | |
more directives: one or more white-space characters; an ordinary | |
multibyte character (not % ); or a conversion specification. Each | |
conversion specification is introduced by the character % . After the %, | |
the following appear in sequence: | |
* An optional assignment-suppressing character * . | |
* An optional decimal integer that specifies the maximum field width. | |
* An optional h , l (ell) or L indicating the size of the receiving | |
object. The conversion specifiers d , i , and n shall be preceded by | |
h if the corresponding argument is a pointer to short int rather than | |
a pointer to int , or by l if it is a pointer to long int . | |
Similarly, the conversion specifiers o , u , and x shall be preceded | |
by h if the corresponding argument is a pointer to unsigned short int | |
rather than a pointer to unsigned int , or by l if it is a pointer to | |
unsigned long int . Finally, the conversion specifiers e , f , and g | |
shall be preceded by l if the corresponding argument is a pointer to | |
double rather than a pointer to float , or by L if it is a pointer to | |
long double . If an h , l , or L appears with any other conversion | |
specifier, the behavior is undefined. | |
* A character that specifies the type of conversion to be applied. | |
The valid conversion specifiers are described below. | |
The fscanf function executes each directive of the format in turn. | |
If a directive fails, as detailed below, the fscanf function returns. | |
Failures are described as input failures (due to the unavailability of | |
input characters), or matching failures (due to inappropriate input). | |
A directive composed of white space is executed by reading input up | |
to the first non-white-space character (which remains unread), or | |
until no more characters can be read. | |
A directive that is an ordinary multibyte character is executed by | |
reading the next characters of the stream. If one of the characters | |
differs from one comprising the directive, the directive fails, and | |
the differing and subsequent characters remain unread. | |
A directive that is a conversion specification defines a set of | |
matching input sequences, as described below for each specifier. A | |
conversion specification is executed in the following steps: | |
Input white-space characters (as specified by the isspace function) | |
are skipped, unless the specification includes a [ , c , or n | |
specifier. | |
An input item is read from the stream, unless the specification | |
includes an n specifier. An input item is defined as the longest | |
sequence of input characters (up to any specified maximum field width) | |
which is an initial subsequence of a matching sequence. The first | |
character, if any, after the input item remains unread. If the length | |
of the input item is zero, the execution of the directive fails: this | |
condition is a matching failure, unless an error prevented input from | |
the stream, in which case it is an input failure. | |
Except in the case of a % specifier, the input item (or, in the | |
case of a %n directive, the count of input characters) is converted to | |
a type appropriate to the conversion specifier. If the input item is | |
not a matching sequence, the execution of the directive fails: this | |
condition is a matching failure. Unless assignment suppression was | |
indicated by a * , the result of the conversion is placed in the | |
object pointed to by the first argument following the format argument | |
that has not already received a conversion result. If this object | |
does not have an appropriate type, or if the result of the conversion | |
cannot be represented in the space provided, the behavior is | |
undefined. | |
The following conversion specifiers are valid: | |
d Matches an optionally signed decimal integer, whose format is the | |
same as expected for the subject sequence of the strtol function with | |
the value 10 for the base argument. The corresponding argument shall | |
be a pointer to integer. | |
i Matches an optionally signed integer, whose format is the same as | |
expected for the subject sequence of the strtol function with the | |
value 0 for the base argument. The corresponding argument shall be a | |
pointer to integer. | |
o Matches an optionally signed octal integer, whose format is the same | |
as expected for the subject sequence of the strtoul function with the | |
value 8 for the base argument. The corresponding argument shall be a | |
pointer to unsigned integer. | |
u Matches an optionally signed decimal integer, whose format is the same | |
as expected for the subject sequence of the strtoul function with the | |
value 10 for the base argument. The corresponding argument shall be a | |
pointer to unsigned integer. | |
x Matches an optionally signed hexadecimal integer, whose format is the | |
same as expected for the subject sequence of the strtoul function with | |
the value 16 for the base argument. The corresponding argument shall | |
be a pointer to unsigned integer. | |
e,f,g Matches an optionally signed floating-point number, whose format is | |
the same as expected for the subject string of the strtod function. | |
The corresponding argument shall be a pointer to floating. | |
s Matches a sequence of non-white-space characters. The corresponding | |
argument shall be a pointer to the initial character of an array large | |
enough to accept the sequence and a terminating null character, which | |
will be added automatically. | |
[ Matches a nonempty sequence of characters from a set of expected | |
characters (the scanset ). The corresponding argument shall be a | |
pointer to the initial character of an array large enough to accept | |
the sequence and a terminating null character, which will be added | |
automatically. The conversion specifier includes all subsequent | |
characters in the format string, up to and including the matching | |
right bracket ( ] ). The characters between the brackets (the | |
scanlist ) comprise the scanset, unless the character after the left | |
bracket is a circumflex ( ^ ), in which case the scanset contains all | |
characters that do not appear in the scanlist between the circumflex | |
and the right bracket. As a special case, if the conversion specifier | |
begins with [] or [^] , the right bracket character is in the scanlist | |
and the next right bracket character is the matching right bracket | |
that ends the specification. If a - character is in the scanlist and | |
is not the first, nor the second where the first character is a ^ , | |
nor the last character, the behavior is implementation-defined. | |
c Matches a sequence of characters of the number specified by the | |
field width (1 if no field width is present in the directive). The | |
corresponding argument shall be a pointer to the initial character of | |
an array large enough to accept the sequence. No null character is | |
added. | |
p Matches an implementation-defined set of sequences, which should be | |
the same as the set of sequences that may be produced by the %p | |
conversion of the fprintf function. The corresponding argument shall | |
be a pointer to a pointer to void . The interpretation of the input | |
item is implementation-defined; however, for any input item other than | |
a value converted earlier during the same program execution, the | |
behavior of the %p conversion is undefined. | |
n No input is consumed. The corresponding argument shall be a pointer | |
to integer into which is to be written the number of characters read | |
from the input stream so far by this call to the fscanf function. | |
Execution of a %n directive does not increment the assignment count | |
returned at the completion of execution of the fscanf function. | |
% Matches a single % ; no conversion or assignment occurs. The complete | |
conversion specification shall be %% . | |
If a conversion specification is invalid, the behavior is | |
undefined./110/ | |
The conversion specifiers E , G , and X are also valid and behave | |
the same as, respectively, e , g , and x . | |
If end-of-file is encountered during input, conversion is | |
terminated. If end-of-file occurs before any characters matching the | |
current directive have been read (other than leading white space, | |
where permitted), execution of the current directive terminates with | |
an input failure; otherwise, unless execution of the current directive | |
is terminated with a matching failure, execution of the following | |
directive (if any) is terminated with an input failure. | |
If conversion terminates on a conflicting input character, the | |
offending input character is left unread in the input stream. | |
Trailing white space (including new-line characters) is left unread | |
unless matched by a directive. The success of literal matches and | |
suppressed assignments is not directly determinable other than via the | |
%n directive. | |
Returns | |
The fscanf function returns the value of the macro EOF if an input | |
failure occurs before any conversion. Otherwise, the fscanf function | |
returns the number of input items assigned, which can be fewer than | |
provided for, or even zero, in the event of an early matching failure. | |
Examples | |
The call: | |
#include <stdio.h> | |
int n, i; float x; char name[50]; | |
n = fscanf(stdin, "%d%f%s", &i, &x, name); | |
with the input line: | |
25 54.32E-1 thompson | |
will assign to n the value 3, to i the value 25, to x the value 5.432, | |
and name will contain thompson\0 . Or: | |
#include <stdio.h> | |
int i; float x; char name[50]; | |
fscanf(stdin, "%2d%f%*d %[0123456789]", &i, &x, name); | |
with input: | |
56789 0123 56a72 | |
will assign to i the value 56 and to x the value 789.0, will skip | |
0123, and name will contain 56\0 . The next character read from the | |
input stream will be a . | |
To accept repeatedly from stdin a quantity, a unit of measure and | |
an item name: | |
#include <stdio.h> | |
int count; float quant; char units[21], item[21]; | |
while (!feof(stdin) && !ferror(stdin)) { | |
count = fscanf(stdin, "%f%20s of %20s", | |
&quant, units, item); | |
fscanf(stdin,"%*[^\n]"); | |
} | |
If the stdin stream contains the following lines: | |
2 quarts of oil | |
-12.8degrees Celsius | |
lots of luck | |
10.0LBS of fertilizer | |
100ergs of energy | |
the execution of the above example will be equivalent to the following | |
assignments: | |
quant = 2; strcpy(units, "quarts"); strcpy(item, "oil"); | |
count = 3; | |
quant = -12.8; strcpy(units, "degrees"); | |
count = 2; /* "C" fails to match "o" */ | |
count = 0; /* "l" fails to match "%f" */ | |
quant = 10.0; strcpy(units, "LBS"); strcpy(item, "fertilizer"); | |
count = 3; | |
count = 0; /* "100e" fails to match "%f" */ | |
count = EOF; | |
Forward references: the strtod function ($4.10.1.4), the strtol | |
function ($4.10.1.5), the strtoul function ($4.10.1.6). | |
4.9.6.3 The printf function | |
Synopsis | |
#include <stdio.h> | |
int printf(const char *format, ...); | |
Description | |
The printf function is equivalent to fprintf with the argument | |
stdout interposed before the arguments to printf . | |
Returns | |
The printf function returns the number of characters transmitted, | |
or a negative value if an output error occurred. | |
4.9.6.4 The scanf function | |
Synopsis | |
#include <stdio.h> | |
int scanf(const char *format, ...); | |
Description | |
The scanf function is equivalent to fscanf with the argument stdin | |
interposed before the arguments to scanf . | |
Returns | |
The scanf function returns the value of the macro EOF if an input | |
failure occurs before any conversion. Otherwise, the scanf function | |
returns the number of input items assigned, which can be fewer than | |
provided for, or even zero, in the event of an early matching failure. | |
4.9.6.5 The sprintf function | |
Synopsis | |
#include <stdio.h> | |
int sprintf(char *s, const char *format, ...); | |
Description | |
The sprintf function is equivalent to fprintf , except that the | |
argument s specifies an array into which the generated output is to be | |
written, rather than to a stream. A null character is written at the | |
end of the characters written; it is not counted as part of the | |
returned sum. If copying takes place between objects that overlap, | |
the behavior is undefined. | |
Returns | |
The sprintf function returns the number of characters written in | |
the array, not counting the terminating null character. | |
4.9.6.6 The sscanf function | |
Synopsis | |
#include <stdio.h> | |
int sscanf(const char *s, const char *format, ...); | |
Description | |
The sscanf function is equivalent to fscanf , except that the | |
argument s specifies a string from which the input is to be obtained, | |
rather than from a stream. Reaching the end of the string is | |
equivalent to encountering end-of-file for the fscanf function. If | |
copying takes place between objects that overlap, the behavior is | |
undefined. | |
Returns | |
The sscanf function returns the value of the macro EOF if an input | |
failure occurs before any conversion. Otherwise, the sscanf function | |
returns the number of input items assigned, which can be fewer than | |
provided for, or even zero, in the event of an early matching failure. | |
4.9.6.7 The vfprintf function | |
Synopsis | |
#include <stdarg.h> | |
#include <stdio.h> | |
int vfprintf(FILE *stream, const char *format, va_list arg); | |
Description | |
The vfprintf function is equivalent to fprintf , with the variable | |
argument list replaced by arg , which has been initialized by the | |
va_start macro (and possibly subsequent va_arg calls). The vfprintf | |
function does not invoke the va_end macro. | |
Returns | |
The vfprintf function returns the number of characters transmitted, | |
or a negative value if an output error occurred. | |
Example | |
The following shows the use of the vfprintf function in a general | |
error-reporting routine. | |
#include <stdarg.h> | |
#include <stdio.h> | |
void error(char *function_name, char *format, ...) | |
{ | |
va_list args; | |
va_start(args, format); | |
/* print out name of function causing error */ | |
fprintf(stderr, "ERROR in %s: ", function_name); | |
/* print out remainder of message */ | |
vfprintf(stderr, format, args); | |
va_end(args); | |
} | |
4.9.6.8 The vprintf function | |
Synopsis | |
#include <stdarg.h> | |
#include <stdio.h> | |
int vprintf(const char *format, va_list arg); | |
Description | |
The vprintf function is equivalent to printf , with the variable | |
argument list replaced by arg , which has been initialized by the | |
va_start macro (and possibly subsequent va_arg calls). The vprintf | |
function does not invoke the va_end macro.rN | |
Returns | |
The vprintf function returns the number of characters transmitted, | |
or a negative value if an output error occurred. | |
4.9.6.9 The vsprintf function | |
Synopsis | |
#include <stdarg.h> | |
#include <stdio.h> | |
int vsprintf(char *s, const char *format, va_list arg); | |
Description | |
The vsprintf function is equivalent to sprintf , with the variable | |
argument list replaced by arg , which has been initialized by the | |
va_start macro (and possibly subsequent va_arg calls). The vsprintf | |
function does not invoke the va_end macro.rN If copying takes place | |
between objects that overlap, the behavior is undefined. | |
Returns | |
The vsprintf function returns the number of characters written in | |
the array, not counting the terminating null character. | |
4.9.7 Character input/output functions | |
4.9.7.1 The fgetc function | |
Synopsis | |
#include <stdio.h> | |
int fgetc(FILE *stream); | |
Description | |
The fgetc function obtains the next character (if present) as an | |
unsigned char converted to an int , from the input stream pointed to | |
by stream , and advances the associated file position indicator for | |
the stream (if defined). | |
Returns | |
The fgetc function returns the next character from the input stream | |
pointed to by stream . If the stream is at end-of-file, the | |
end-of-file indicator for the stream is set and fgetc returns EOF . | |
If a read error occurs, the error indicator for the stream is set and | |
fgetc returns EOF ./112/ | |
4.9.7.2 The fgets function | |
Synopsis | |
#include <stdio.h> | |
char *fgets(char *s, int n, FILE *stream); | |
Description | |
The fgets function reads at most one less than the number of | |
characters specified by n from the stream pointed to by stream into | |
the array pointed to by s . No additional characters are read after a | |
new-line character (which is retained) or after end-of-file. A null | |
character is written immediately after the last character read into | |
the array. | |
Returns | |
The fgets function returns s if successful. If end-of-file is | |
encountered and no characters have been read into the array, the | |
contents of the array remain unchanged and a null pointer is returned. | |
If a read error occurs during the operation, the array contents are | |
indeterminate and a null pointer is returned. | |
4.9.7.3 The fputc function | |
Synopsis | |
#include <stdio.h> | |
int fputc(int c, FILE *stream); | |
Description | |
The fputc function writes the character specified by c (converted | |
to an unsigned char ) to the output stream pointed to by stream , at | |
the position indicated by the associated file position indicator for | |
the stream (if defined), and advances the indicator appropriately. If | |
the file cannot support positioning requests, or if the stream was | |
opened with append mode, the character is appended to the output | |
stream. | |
Returns | |
The fputc function returns the character written. If a write error | |
occurs, the error indicator for the stream is set and fputc returns EOF. | |
4.9.7.4 The fputs function | |
Synopsis | |
#include <stdio.h> | |
int fputs(const char *s, FILE *stream); | |
Description | |
The fputs function writes the string pointed to by s to the stream | |
pointed to by stream . The terminating null character is not written. | |
Returns | |
The fputs function returns EOF if a write error occurs; otherwise | |
it returns a nonnegative value. | |
4.9.7.5 The getc function | |
Synopsis | |
#include <stdio.h> | |
int getc(FILE *stream); | |
Description | |
The getc function is equivalent to fgetc , except that if it is | |
implemented as a macro, it may evaluate stream more than once, so the | |
argument should never be an expression with side effects. | |
Returns | |
The getc function returns the next character from the input stream | |
pointed to by stream . If the stream is at end-of-file, the | |
end-of-file indicator for the stream is set and getc returns EOF . If | |
a read error occurs, the error indicator for the stream is set and | |
getc returns EOF . | |
4.9.7.6 The getchar function | |
Synopsis | |
#include <stdio.h> | |
int getchar(void); | |
Description | |
The getchar function is equivalent to getc with the argument stdin . | |
Returns | |
The getchar function returns the next character from the input | |
stream pointed to by stdin . If the stream is at end-of-file, the | |
end-of-file indicator for the stream is set and getchar returns EOF . | |
If a read error occurs, the error indicator for the stream is set and | |
getchar returns EOF . | |
4.9.7.7 The gets function | |
Synopsis | |
#include <stdio.h> | |
char *gets(char *s); | |
Description | |
The gets function reads characters from the input stream pointed to | |
by stdin , into the array pointed to by s , until end-of-file is | |
encountered or a new-line character is read. Any new-line character | |
is discarded, and a null character is written immediately after the | |
last character read into the array. | |
Returns | |
The gets function returns s if successful. If end-of-file is | |
encountered and no characters have been read into the array, the | |
contents of the array remain unchanged and a null pointer is returned. | |
If a read error occurs during the operation, the array contents are | |
indeterminate and a null pointer is returned. | |
4.9.7.8 The putc function | |
Synopsis | |
#include <stdio.h> | |
int putc(int c, FILE *stream); | |
Description | |
The putc function is equivalent to fputc , except that if it is | |
implemented as a macro, it may evaluate stream more than once, so the | |
argument should never be an expression with side effects. | |
Returns | |
The putc function returns the character written. If a write error | |
occurs, the error indicator for the stream is set and putc returns EOF. | |
4.9.7.9 The putchar function | |
Synopsis | |
#include <stdio.h> | |
int putchar(int c); | |
Description | |
The putchar function is equivalent to putc with the second argument | |
stdout. | |
Returns | |
The putchar function returns the character written. If a write | |
error occurs, the error indicator for the stream is set and putchar | |
returns EOF. | |
4.9.7.10 The puts function | |
Synopsis | |
#include <stdio.h> | |
int puts(const char *s); | |
Description | |
The puts function writes the string pointed to by s to the stream | |
pointed to by stdout , and appends a new-line character to the output. | |
The terminating null character is not written. | |
Returns | |
The puts function returns EOF if a write error occurs; otherwise it | |
returns a nonnegative value. | |
4.9.7.11 The ungetc function | |
Synopsis | |
#include <stdio.h> | |
int ungetc(int c, FILE *stream); | |
Description | |
The ungetc function pushes the character specified by c (converted | |
to an unsigned char ) back onto the input stream pointed to by stream. | |
The pushed-back characters will be returned by subsequent reads on | |
that stream in the reverse order of their pushing. A successful | |
intervening call (with the stream pointed to by stream ) to a file | |
positioning function ( fseek , fsetpos , or rewind ) discards any | |
pushed-back characters for the stream. The external storage | |
corresponding to the stream is unchanged. | |
One character of pushback is guaranteed. If the ungetc function is | |
called too many times on the same stream without an intervening read | |
or file positioning operation on that stream, the operation may fail. | |
If the value of c equals that of the macro EOF , the operation | |
fails and the input stream is unchanged. | |
A successful call to the ungetc function clears the end-of-file | |
indicator for the stream. The value of the file position indicator | |
for the stream after reading or discarding all pushed-back characters | |
shall be the same as it was before the characters were pushed back. | |
For a text stream, the value of its file position indicator after a | |
successful call to the ungetc function is unspecified until all | |
pushed-back characters are read or discarded. For a binary stream, | |
its file position indicator is decremented by each successful call to | |
the ungetc function; if its value was zero before a call, it is | |
indeterminate after the call. | |
Returns | |
The ungetc function returns the character pushed back after | |
conversion, or EOF if the operation fails. | |
Forward references: file positioning functions ($4.9.9). | |
4.9.8 Direct input/output functions | |
4.9.8.1 The fread function | |
Synopsis | |
#include <stdio.h> | |
size_t fread(void *ptr, size_t size, size_t nmemb, | |
FILE *stream); | |
Description | |
The fread function reads, into the array pointed to by ptr , up to | |
nmemb members whose size is specified by size , from the stream | |
pointed to by stream . The file position indicator for the stream (if | |
defined) is advanced by the number of characters successfully read. | |
If an error occurs, the resulting value of the file position indicator | |
for the stream is indeterminate. If a partial member is read, its | |
value is indeterminate. | |
Returns | |
The fread function returns the number of members successfully read, | |
which may be less than nmemb if a read error or end-of-file is | |
encountered. If size or nmemb is zero, fread returns zero and the | |
contents of the array and the state of the stream remain unchanged. | |
4.9.8.2 The fwrite function | |
Synopsis | |
#include <stdio.h> | |
size_t fwrite(const void *ptr, size_t size, size_t nmemb, | |
FILE *stream); | |
Description | |
The fwrite function writes, from the array pointed to by ptr , up | |
to nmemb members whose size is specified by size , to the stream | |
pointed to by stream . The file position indicator for the stream (if | |
defined) is advanced by the number of characters successfully written. | |
If an error occurs, the resulting value of the file position indicator | |
for the stream is indeterminate. | |
Returns | |
The fwrite function returns the number of members successfully | |
written, which will be less than nmemb only if a write error is | |
encountered. | |
4.9.9 File positioning functions | |
4.9.9.1 The fgetpos function | |
Synopsis | |
#include <stdio.h> | |
int fgetpos(FILE *stream, fpos_t *pos); | |
Description | |
The fgetpos function stores the current value of the file position | |
indicator for the stream pointed to by stream in the object pointed to | |
by pos . The value stored contains unspecified information usable by | |
the fsetpos function for repositioning the stream to its position at | |
the time of the call to the fgetpos function. | |
Returns | |
If successful, the fgetpos function returns zero; on failure, the | |
fgetpos function returns nonzero and stores an implementation-defined | |
positive value in errno . | |
Forward references: the fsetpos function ($4.9.9.3). | |
4.9.9.2 The fseek function | |
Synopsis | |
#include <stdio.h> | |
int fseek(FILE *stream, long int offset, int whence); | |
Description | |
The fseek function sets the file position indicator for the stream | |
pointed to by stream . | |
For a binary stream, the new position, measured in characters from | |
the beginning of the file, is obtained by adding offset to the | |
position specified by whence. The specified point is the beginning | |
of the file for SEEK_SET, the current value of the file position | |
indicator for SEEK_CUR, or end-of-file for SEEK_END. A binary | |
stream need not meaningfully support fseek calls with a whence value | |
of SEEK_END. | |
For a text stream, either offset shall be zero, or offset shall be | |
a value returned by an earlier call to the ftell function on the same | |
stream and whence shall be SEEK_SET . | |
A successful call to the fseek function clears the end-of-file | |
indicator for the stream and undoes any effects of the ungetc function | |
on the same stream. After an fseek call, the next operation on an | |
update stream may be either input or output. | |
Returns | |
The fseek function returns nonzero only for a request that cannot | |
be satisfied. | |
Forward references: the ftell function ($4.9.9.4). | |
4.9.9.3 The fsetpos function | |
Synopsis | |
#include <stdio.h> | |
int fsetpos(FILE *stream, const fpos_t *pos); | |
Description | |
The fsetpos function sets the file position indicator for the | |
stream pointed to by stream according to the value of the object | |
pointed to by pos , which shall be a value returned by an earlier call | |
to the fgetpos function on the same stream. | |
A successful call to the fsetpos function clears the end-of-file | |
indicator for the stream and undoes any effects of the ungetc function | |
on the same stream. After an fsetpos call, the next operation on an | |
update stream may be either input or output. | |
Returns | |
If successful, the fsetpos function returns zero; on failure, the | |
fsetpos function returns nonzero and stores an implementation-defined | |
positive value in errno . | |
4.9.9.4 The ftell function | |
Synopsis | |
#include <stdio.h> | |
long int ftell(FILE *stream); | |
Description | |
The ftell function obtains the current value of the file position | |
indicator for the stream pointed to by stream . For a binary stream, | |
the value is the number of characters from the beginning of the file. | |
For a text stream, its file position indicator contains unspecified | |
information, usable by the fseek function for returning the file | |
position indicator for the stream to its position at the time of the | |
ftell call; the difference between two such return values is not | |
necessarily a meaningful measure of the number of characters written | |
or read. | |
Returns | |
If successful, the ftell function returns the current value of the | |
file position indicator for the stream. On failure, the ftell | |
function returns -1L and stores an implementation-defined positive | |
value in errno . | |
4.9.9.5 The rewind function | |
Synopsis | |
#include <stdio.h> | |
void rewind(FILE *stream); | |
Description | |
The rewind function sets the file position indicator for the stream | |
pointed to by stream to the beginning of the file. It is equivalent to | |
(void)fseek(stream, 0L, SEEK_SET) | |
except that the error indicator for the stream is also cleared. | |
Returns | |
The rewind function returns no value. | |
4.9.10 Error-handling functions | |
4.9.10.1 The clearerr function | |
Synopsis | |
#include <stdio.h> | |
void clearerr(FILE *stream); | |
Description | |
The clearerr function clears the end-of-file and error indicators | |
for the stream pointed to by stream . | |
Returns | |
The clearerr function returns no value. | |
4.9.10.2 The feof function | |
Synopsis | |
#include <stdio.h> | |
int feof(FILE *stream); | |
Description | |
The feof function tests the end-of-file indicator for the stream | |
pointed to by stream . | |
Returns | |
The feof function returns nonzero if and only if the end-of-file | |
indicator is set for stream . | |
4.9.10.3 The ferror function | |
Synopsis | |
#include <stdio.h> | |
int ferror(FILE *stream); | |
Description | |
The ferror function tests the error indicator for the stream | |
pointed to by stream . | |
Returns | |
The ferror function returns nonzero if and only if the error | |
indicator is set for stream . | |
4.9.10.4 The perror function | |
Synopsis | |
#include <stdio.h> | |
void perror(const char *s); | |
Description | |
The perror function maps the error number in the integer expression | |
errno to an error message. It writes a sequence of characters to the | |
standard error stream thus: first (if s is not a null pointer and the | |
character pointed to by s is not the null character), the string | |
pointed to by s followed by a colon and a space; then an appropriate | |
error message string followed by a new-line character. The contents | |
of the error message strings are the same as those returned by the | |
strerror function with argument errno , which are | |
implementation-defined. | |
Returns | |
The perror function returns no value. | |
Forward references: the strerror function ($4.11.6.2). | |
4.10 GENERAL UTILITIES <stdlib.h> | |
The header <stdlib.h> declares four types and several functions of | |
general utility, and defines several macros./113/ | |
The types declared are size_t and wchar_t (both described in $4.1.5), | |
div_t | |
which is a structure type that is the type of the value returned by | |
the div function, and | |
ldiv_t | |
which is a structure type that is the type of the value returned by | |
the ldiv function. | |
The macros defined are NULL (described in $4.1.5); | |
EXIT_FAILURE | |
and | |
EXIT_SUCCESS | |
which expand to integral expressions that may be used as the argument | |
to the exit function to return unsuccessful or successful termination | |
status, respectively, to the host environment; | |
RAND_MAX | |
which expands to an integral constant expression, the value of which | |
is the maximum value returned by the rand function; and | |
MB_CUR_MAX | |
which expands to a positive integer expression whose value is the | |
maximum number of bytes in a multibyte character for the extended | |
character set specified by the current locale (category LC_CTYPE ), | |
and whose value is never greater than MB_LEN_MAX . | |
4.10.1 String conversion functions | |
The functions atof , atoi , and atol need not affect the value of | |
the integer expression errno on an error. If the value of the result | |
cannot be represented, the behavior is undefined. | |
4.10.1.1 The atof function | |
Synopsis | |
#include <stdlib.h> | |
double atof(const char *nptr); | |
Description | |
The atof function converts the initial portion of the string | |
pointed to by nptr to double representation. Except for the behavior | |
on error, it is equivalent to | |
strtod(nptr, (char **)NULL) | |
Returns | |
The atof function returns the converted value. | |
Forward references: the strtod function ($4.10.1.4). | |
4.10.1.2 The atoi function | |
Synopsis | |
#include <stdlib.h> | |
int atoi(const char *nptr); | |
Description | |
The atoi function converts the initial portion of the string | |
pointed to by nptr to int representation. Except for the behavior on | |
error, it is equivalent to | |
(int)strtol(nptr, (char **)NULL, 10) | |
Returns | |
The atoi function returns the converted value. | |
Forward references: the strtol function ($4.10.1.5). | |
4.10.1.3 The atol function | |
Synopsis | |
#include <stdlib.h> | |
long int atol(const char *nptr); | |
Description | |
The atol function converts the initial portion of the string | |
pointed to by nptr to long int representation. Except for the | |
behavior on error, it is equivalent to | |
strtol(nptr, (char **)NULL, 10) | |
Returns | |
The atol function returns the converted value. | |
Forward references: the strtol function ($4.10.1.5). | |
4.10.1.4 The strtod function | |
Synopsis | |
#include <stdlib.h> | |
double strtod(const char *nptr, char **endptr); | |
Description | |
The strtod function converts the initial portion of the string | |
pointed to by nptr to double representation. First it decomposes the | |
input string into three parts: an initial, possibly empty, sequence of | |
white-space characters (as specified by the isspace function), a | |
subject sequence resembling a floating-point constant; and a final | |
string of one or more unrecognized characters, including the | |
terminating null character of the input string. Then it attempts to | |
convert the subject sequence to a floating-point number, and returns | |
the result. | |
The expected form of the subject sequence is an optional plus or | |
minus sign, then a nonempty sequence of digits optionally containing a | |
decimal-point character, then an optional exponent part as defined in | |
$3.1.3.1, but no floating suffix. The subject sequence is defined as | |
the longest subsequence of the input string, starting with the first | |
non-white-space character, that is an initial subsequence of a | |
sequence of the expected form. The subject sequence contains no | |
characters if the input string is empty or consists entirely of white | |
space, or if the first non-white-space character is other than a sign, | |
a digit, or a decimal-point character. | |
If the subject sequence has the expected form, the sequence of | |
characters starting with the first digit or the decimal-point | |
character (whichever occurs first) is interpreted as a floating | |
constant according to the rules of $3.1.3.1, except that the | |
decimal-point character is used in place of a period, and that if | |
neither an exponent part nor a decimal-point character appears, a | |
decimal point is assumed to follow the last digit in the string. If | |
the subject sequence begins with a minus sign, the value resulting | |
from the conversion is negated. A pointer to the final string is | |
stored in the object pointed to by endptr , provided that endptr is | |
not a null pointer. | |
In other than the C locale, additional implementation-defined | |
subject sequence forms may be accepted. | |
If the subject sequence is empty or does not have the expected | |
form, no conversion is performed; the value of nptr is stored in the | |
object pointed to by endptr , provided that endptr is not a null | |
pointer. | |
Returns | |
The strtod function returns the converted value, if any. If no | |
conversion could be performed, zero is returned. If the correct value | |
would cause overflow, plus or minus HUGE_VAL is returned (according to | |
the sign of the value), and the value of the macro ERANGE is stored in | |
errno . If the correct value would cause underflow, zero is returned | |
and the value of the macro ERANGE is stored in errno . | |
4.10.1.5 The strtol function | |
Synopsis | |
#include <stdlib.h> | |
long int strtol(const char *nptr, char **endptr, int base); | |
Description | |
The strtol function converts the initial portion of the string | |
pointed to by nptr to long int representation. First it decomposes | |
the input string into three parts: an initial, possibly empty, | |
sequence of white-space characters (as specified by the isspace | |
function), a subject sequence resembling an integer represented in | |
some radix determined by the value of base , and a final string of one | |
or more unrecognized characters, including the terminating null | |
character of the input string. Then it attempts to convert the | |
subject sequence to an integer, and returns the result. | |
If the value of base is zero, the expected form of the subject | |
sequence is that of an integer constant as described in $3.1.3.2, | |
optionally preceded by a plus or minus sign, but not including an | |
integer suffix. If the value of base is between 2 and 36, the | |
expected form of the subject sequence is a sequence of letters and | |
digits representing an integer with the radix specified by base , | |
optionally preceded by a plus or minus sign, but not including an | |
integer suffix. The letters from a (or A ) through z (or Z ) are | |
ascribed the values 10 to 35; only letters whose ascribed values are | |
less than that of base are permitted. If the value of base is 16, the | |
characters 0x or 0X may optionally precede the sequence of letters and | |
digits, following the sign if present. | |
The subject sequence is defined as the longest subsequence of the | |
input string, starting with the first non-white-space character, that | |
is an initial subsequence of a sequence of the expected form. The | |
subject sequence contains no characters if the input string is empty | |
or consists entirely of white space, or if the first non-white-space | |
character is other than a sign or a permissible letter or digit. | |
If the subject sequence has the expected form and the value of base | |
is zero, the sequence of characters starting with the first digit is | |
interpreted as an integer constant according to the rules of $3.1.3.2. | |
If the subject sequence has the expected form and the value of base is | |
between 2 and 36, it is used as the base for conversion, ascribing to | |
each letter its value as given above. If the subject sequence begins | |
with a minus sign, the value resulting from the conversion is negated. | |
A pointer to the final string is stored in the object pointed to by | |
endptr , provided that endptr is not a null pointer. | |
In other than the C locale, additional implementation-defined | |
subject sequence forms may be accepted. | |
If the subject sequence is empty or does not have the expected | |
form, no conversion is performed; the value of nptr is stored in the | |
object pointed to by endptr , provided that endptr is not a null | |
pointer. | |
Returns | |
The strtol function returns the converted value, if any. If no | |
conversion could be performed, zero is returned. If the correct value | |
would cause overflow, LONG_MAX or LONG_MIN is returned (according to | |
the sign of the value), and the value of the macro ERANGE is stored in | |
errno . | |
4.10.1.6 The strtoul function | |
Synopsis | |
#include <stdlib.h> | |
unsigned long int strtoul(const char *nptr, char **endptr, | |
int base); | |
Description | |
The strtoul function converts the initial portion of the string | |
pointed to by nptr to unsigned long int representation. First it | |
decomposes the input string into three parts: an initial, possibly | |
empty, sequence of white-space characters (as specified by the isspace | |
function), a subject sequence resembling an unsigned integer | |
represented in some radix determined by the value of base , and a | |
final string of one or more unrecognized characters, including the | |
terminating null character of the input string. Then it attempts to | |
convert the subject sequence to an unsigned integer, and returns the | |
result. | |
If the value of base is zero, the expected form of the subject | |
sequence is that of an integer constant as described in $3.1.3.2, | |
optionally preceded by a plus or minus sign, but not including an | |
integer suffix. If the value of base is between 2 and 36, the | |
expected form of the subject sequence is a sequence of letters and | |
digits representing an integer with the radix specified by base , | |
optionally preceded by a plus or minus sign, but not including an | |
integer suffix. The letters from a (or A ) through z (or Z ) are | |
ascribed the values 10 to 35; only letters whose ascribed values are | |
less than that of base are permitted. If the value of base is 16, the | |
characters 0x or 0X may optionally precede the sequence of letters and | |
digits, following the sign if present. | |
The subject sequence is defined as the longest subsequence of the | |
input string, starting with the first non-white-space character, that | |
is an initial subsequence of a sequence of the expected form. The | |
subject sequence contains no characters if the input string is empty | |
or consists entirely of white space, or if the first non-white-space | |
character is other than a sign or a permissible letter or digit. | |
If the subject sequence has the expected form and the value of base | |
is zero, the sequence of characters starting with the first digit is | |
interpreted as an integer constant according to the rules of $3.1.3.2. | |
If the subject sequence has the expected form and the value of base is | |
between 2 and 36, it is used as the base for conversion, ascribing to | |
each letter its value as given above. If the subject sequence begins | |
with a minus sign, the value resulting from the conversion is negated. | |
A pointer to the final string is stored in the object pointed to by | |
endptr , provided that endptr is not a null pointer. | |
In other than the C locale, additional implementation-defined | |
subject sequence forms may be accepted. | |
If the subject sequence is empty or does not have the expected | |
form, no conversion is performed; the value of nptr is stored in the | |
object pointed to by endptr , provided that endptr is not a null | |
pointer. | |
Returns | |
The strtoul function returns the converted value, if any. If no | |
conversion could be performed, zero is returned. If the correct value | |
would cause overflow, ULONG_MAX is returned, and the value of the | |
macro ERANGE is stored in errno . | |
4.10.2 Pseudo-random sequence generation functions | |
4.10.2.1 The rand function | |
Synopsis | |
#include <stdlib.h> | |
int rand(void); | |
Description | |
The rand function computes a sequence of pseudo-random integers in | |
the range 0 to RAND_MAX . | |
The implementation shall behave as if no library function calls the | |
rand function. | |
Returns | |
The rand function returns a pseudo-random integer. | |
"Environmental limit" | |
The value of the RAND_MAX macro shall be at least 32767. | |
4.10.2.2 The srand function | |
Synopsis | |
#include <stdlib.h> | |
void srand(unsigned int seed); | |
Description | |
The srand function uses the argument as a seed for a new sequence | |
of pseudo-random numbers to be returned by subsequent calls to rand . | |
If srand is then called with the same seed value, the sequence of | |
pseudo-random numbers shall be repeated. If rand is called before any | |
calls to srand have been made, the same sequence shall be generated as | |
when srand is first called with a seed value of 1. | |
The implementation shall behave as if no library function calls the | |
srand function. | |
Returns | |
The srand function returns no value. | |
Example | |
The following functions define a portable implementation of rand | |
and srand. Specifying the semantics makes it possible to determine | |
reproducibly the behavior of programs that use pseudo-random | |
sequences. This facilitates the testing of portable applications in | |
different implementations. | |
static unsigned long int next = 1; | |
int rand(void) /* RAND_MAX assumed to be 32767 */ | |
{ | |
next = next * 1103515245 + 12345; | |
return (unsigned int)(next/65536) % 32768; | |
} | |
void srand(unsigned int seed) | |
{ | |
next = seed; | |
} | |
4.10.3 Memory management functions | |
The order and contiguity of storage allocated by successive calls | |
to the calloc , malloc , and realloc functions is unspecified. The | |
pointer returned if the allocation succeeds is suitably aligned so | |
that it may be assigned to a pointer to any type of object and then | |
used to access such an object in the space allocated (until the space | |
is explicitly freed or reallocated). Each such allocation shall yield | |
a pointer to an object disjoint from any other object. The pointer | |
returned points to the start (lowest byte address) of the allocated | |
space. If the space cannot be allocated, a null pointer is returned. | |
If the size of the space requested is zero, the behavior is | |
implementation-defined; the value returned shall be either a null | |
pointer or a unique pointer. The value of a pointer that refers to | |
freed space is indeterminate. | |
4.10.3.1 The calloc function | |
Synopsis | |
#include <stdlib.h> | |
void *calloc(size_t nmemb, size_t size); | |
Description | |
The calloc function allocates space for an array of nmemb objects, | |
each of whose size is size . The space is initialized to all bits | |
zero./114/ | |
Returns | |
The calloc function returns either a null pointer or a pointer to | |
the allocated space. | |
4.10.3.2 The free function | |
Synopsis | |
#include <stdlib.h> | |
void free(void *ptr); | |
Description | |
The free function causes the space pointed to by ptr to be | |
deallocated, that is, made available for further allocation. If ptr | |
is a null pointer, no action occurs. Otherwise, if the argument does | |
not match a pointer earlier returned by the calloc , malloc , or | |
realloc function, or if the space has been deallocated by a call to | |
free or realloc , the behavior is undefined. | |
Returns | |
The free function returns no value. | |
4.10.3.3 The malloc function | |
Synopsis | |
#include <stdlib.h> | |
void *malloc(size_t size); | |
Description | |
The malloc function allocates space for an object whose size is | |
specified by size and whose value is indeterminate. | |
Returns | |
The malloc function returns either a null pointer or a pointer to | |
the allocated space. | |
4.10.3.4 The realloc function | |
Synopsis | |
#include <stdlib.h> | |
void *realloc(void *ptr, size_t size); | |
Description | |
The realloc function changes the size of the object pointed to by | |
ptr to the size specified by size . The contents of the object shall | |
be unchanged up to the lesser of the new and old sizes. If the new | |
size is larger, the value of the newly allocated portion of the object | |
is indeterminate. If ptr is a null pointer, the realloc function | |
behaves like the malloc function for the specified size. Otherwise, | |
if ptr does not match a pointer earlier returned by the calloc , | |
malloc , or realloc function, or if the space has been deallocated by | |
a call to the free or realloc function, the behavior is undefined. If | |
the space cannot be allocated, the object pointed to by ptr is | |
unchanged. If size is zero and ptr is not a null pointer, the object | |
it points to is freed. | |
Returns | |
The realloc function returns either a null pointer or a pointer to | |
the possibly moved allocated space. | |
4.10.4 Communication with the environment | |
4.10.4.1 The abort function | |
Synopsis | |
#include <stdlib.h> | |
void abort(void); | |
Description | |
The abort function causes abnormal program termination to occur, | |
unless the signal SIGABRT is being caught and the signal handler does | |
not return. Whether open output streams are flushed or open streams | |
closed or temporary files removed is implementation-defined. An | |
implementation-defined form of the status unsuccessful termination is | |
returned to the host environment by means of the function call | |
raise(SIGABRT) . | |
Returns | |
The abort function cannot return to its caller. | |
4.10.4.2 The atexit function | |
Synopsis | |
#include <stdlib.h> | |
int atexit(void (*func)(void)); | |
Description | |
The atexit function registers the function pointed to by func , to | |
be called without arguments at normal program termination. | |
"Implementation limits" | |
The implementation shall support the registration of at least 32 | |
functions. | |
Returns | |
The atexit function returns zero if the registration succeeds, | |
nonzero if it fails. | |
Forward references: the exit function ($4.10.4.3). | |
4.10.4.3 The exit function | |
Synopsis | |
#include <stdlib.h> | |
void exit(int status); | |
Description | |
The exit function causes normal program termination to occur. If | |
more than one call to the exit function is executed by a program, the | |
behavior is undefined. | |
First, all functions registered by the atexit function are called, | |
in the reverse order of their registration./115/ | |
Next, all open output streams are flushed, all open streams are | |
closed, and all files created by the tmpfile function are removed. | |
Finally, control is returned to the host environment. If the value | |
of status is zero or EXIT_SUCCESS , an implementation-defined form of | |
the status successful termination is returned. If the value of status | |
is EXIT_FAILURE , an implementation-defined form of the status | |
unsuccessful termination is returned. Otherwise the status returned | |
is implementation-defined. | |
Returns | |
The exit function cannot return to its caller. | |
4.10.4.4 The getenv function | |
Synopsis | |
#include <stdlib.h> | |
char *getenv(const char *name); | |
Description | |
The getenv function searches an environment list, provided by the | |
host environment, for a string that matches the string pointed to by | |
name . The set of environment names and the method for altering the | |
environment list are implementation-defined. | |
The implementation shall behave as if no library function calls the | |
getenv function. | |
Returns | |
The getenv function returns a pointer to a string associated with | |
the matched list member. The array pointed to shall not be modified | |
by the program, but may be overwritten by a subsequent call to the | |
getenv function. If the specified name cannot be found, a null | |
pointer is returned. | |
4.10.4.5 The system function | |
Synopsis | |
#include <stdlib.h> | |
int system(const char *string); | |
Description | |
The system function passes the string pointed to by string to the | |
host environment to be executed by a command processor in an | |
implementation-defined manner. A null pointer may be used for string | |
to inquire whether a command processor exists. | |
Returns | |
If the argument is a null pointer, the system function returns | |
nonzero only if a command processor is available. If the argument is | |
not a null pointer, the system function returns an | |
implementation-defined value. | |
4.10.5 Searching and sorting utilities | |
4.10.5.1 The bsearch function | |
Synopsis | |
#include <stdlib.h> | |
void *bsearch(const void *key, const void *base, | |
size_t nmemb, size_t size, | |
int (*compar)(const void *, const void *)); | |
Description | |
The bsearch function searches an array of nmemb objects, the | |
initial member of which is pointed to by base , for a member that | |
matches the object pointed to by key . The size of each member of the | |
array is specified by size . | |
The contents of the array shall be in ascending sorted order | |
according to a comparison function pointed to by compar ,/116/ induces | |
which is called with two arguments that point to the key object and to | |
an array member, in that order. The function shall return an integer | |
less than, equal to, or greater than zero if the key object is | |
considered, respectively, to be less than, to match, or to be greater | |
than the array member. | |
Returns | |
The bsearch function returns a pointer to a matching member of the | |
array, or a null pointer if no match is found. If two members compare | |
as equal, which member is matched is unspecified. | |
4.10.5.2 The qsort function | |
Synopsis | |
#include <stdlib.h> | |
void qsort(void *base, size_t nmemb, size_t size, | |
int (*compar)(const void *, const void *)); | |
Description | |
The qsort function sorts an array of nmemb objects, the initial | |
member of which is pointed to by base . The size of each object is | |
specified by size . | |
The contents of the array are sorted in ascending order according | |
to a comparison function pointed to by compar , which is called with | |
two arguments that point to the objects being compared. The function | |
shall return an integer less than, equal to, or greater than zero if | |
the first argument is considered to be respectively less than, equal | |
to, or greater than the second. | |
If two members compare as equal, their order in the sorted array is | |
unspecified. | |
Returns | |
The qsort function returns no value. | |
4.10.6 Integer arithmetic functions | |
4.10.6.1 The abs function | |
Synopsis | |
#include <stdlib.h> | |
int abs(int j); | |
Description | |
The abs function computes the absolute value of an integer j . If | |
the result cannot be represented, the behavior is undefined./117/ | |
Returns | |
The abs function returns the absolute value. | |
4.10.6.2 The div function | |
Synopsis | |
#include <stdlib.h> | |
div_t div(int numer, int denom); | |
Description | |
The div function computes the quotient and remainder of the | |
division of the numerator numer by the denominator denom . If the | |
division is inexact, the sign of the resulting quotient is that of the | |
algebraic quotient, and the magnitude of the resulting quotient is the | |
largest integer less than the magnitude of the algebraic quotient. If | |
the result cannot be represented, the behavior is undefined; | |
otherwise, quot * denom + rem shall equal numer . | |
Returns | |
The div function returns a structure of type div_t , comprising | |
both the quotient and the remainder. The structure shall contain the | |
following members, in either order. | |
int quot; /* quotient */ | |
int rem; /* remainder */ | |
4.10.6.3 The labs function | |
Synopsis | |
#include <stdlib.h> | |
long int labs(long int j); | |
Description | |
The labs function is similar to the abs function, except that the | |
argument and the returned value each have type long int . | |
4.10.6.4 The ldiv function | |
Synopsis | |
#include <stdlib.h> | |
ldiv_t ldiv(long int numer, long int denom); | |
Description | |
The ldiv function is similar to the div function, except that the | |
arguments and the members of the returned structure (which has type | |
ldiv_t ) all have type long int . | |
4.10.7 Multibyte character functions | |
The behavior of the multibyte character functions is affected by | |
the LC_CTYPE category of the current locale. For a state-dependent | |
encoding, each function is placed into its initial state by a call for | |
which its character pointer argument, s , is a null pointer. | |
Subsequent calls with s as other than a null pointer cause the | |
internal state of the function to be altered as necessary. A call | |
with s as a null pointer causes these functions to return a nonzero | |
value if encodings have state dependency, and zero otherwise. After | |
the LC_CTYPE category is changed, the shift state of these functions | |
is indeterminate. | |
4.10.7.1 The mblen function | |
Synopsis | |
#include <stdlib.h> | |
int mblen(const char *s, size_t n); | |
Description | |
If s is not a null pointer, the mblen function determines the | |
number of bytes comprising the multibyte character pointed to by s . | |
Except that the shift state of the mbtowc function is not affected, it | |
is equivalent to | |
mbtowc((wchar_t *)0, s, n); | |
The implementation shall behave as if no library function calls the | |
mblen function. | |
Returns | |
If s is a null pointer, the mblen function returns a nonzero or | |
zero value, if multibyte character encodings, respectively, do or do | |
not have state-dependent encodings. If s is not a null pointer, the | |
mblen function either returns 0 (if s points to the null character), | |
or returns the number of bytes that comprise the multibyte character | |
(if the next n or fewer bytes form a valid multibyte character), or | |
returns -1 (if they do not form a valid multibyte character). | |
Forward references: the mbtowc function ($4.10.7.2). | |
4.10.7.2 The mbtowc function | |
Synopsis | |
#include <stdlib.h> | |
int mbtowc(wchar_t *pwc, const char *s, size_t n); | |
Description | |
If s is not a null pointer, the mbtowc function determines the | |
number of bytes that comprise the multibyte character pointed to by s. | |
It then determines the code for value of type wchar_t that | |
corresponds to that multibyte character. (The value of the code | |
corresponding to the null character is zero.) If the multibyte | |
character is valid and pwc is not a null pointer, the mbtowc function | |
stores the code in the object pointed to by pwc . At most n bytes of | |
the array pointed to by s will be examined. | |
The implementation shall behave as if no library function calls the | |
mbtowc function. | |
Returns | |
If s is a null pointer, the mbtowc function returns a nonzero or zero | |
value, if multibyte character encodings, respectively, do or do not | |
have state-dependent encodings. If s is not a null pointer, the | |
mbtowc function either returns 0 (if s points to the null character), | |
or returns the number of bytes that comprise the converted multibyte | |
character (if the next n or fewer bytes form a valid multibyte | |
character), or returns -1 (if they do not form a valid multibyte | |
character). | |
In no case will the value returned be greater than n or the value | |
of the MB_CUR_MAX macro. | |
4.10.7.3 The wctomb function | |
Synopsis | |
#include <stdlib.h> | |
int wctomb(char *s, wchar_t wchar); | |
Description | |
The wctomb function determines the number of bytes needed to | |
represent the multibyte character corresponding to the code whose | |
value is wchar (including any change in shift state). It stores the | |
multibyte character representation in the array object pointed to by s | |
(if s is not a null pointer). At most MB_CUR_MAX characters are | |
stored. If the value of wchar is zero, the wctomb function is left in | |
the initial shift state. | |
The implementation shall behave as if no library function calls the | |
wctomb function. | |
Returns | |
If s is a null pointer, the wctomb function returns a nonzero or | |
zero value, if multibyte character encodings, respectively, do or do | |
not have state-dependent encodings. If s is not a null pointer, the | |
wctomb function returns -1 if the value of wchar does not correspond | |
to a valid multibyte character, or returns the number of bytes that | |
comprise the multibyte character corresponding to the value of wchar . | |
In no case will the value returned be greater than the value of the | |
MB_CUR_MAX macro. | |
4.10.8 Multibyte string functions | |
The behavior of the multibyte string functions is affected by the | |
LC_CTYPE category of the current locale. | |
4.10.8.1 The mbstowcs function | |
Synopsis | |
#include <stdlib.h> | |
size_t mbstowcs(wchar_t *pwcs, const char *s, size_t n); | |
Description | |
The mbstowcs function converts a sequence of multibyte characters | |
that begins in the initial shift state from the array pointed to by s | |
into a sequence of corresponding codes and stores not more than n | |
codes into the array pointed to by pwcs . No multibyte characters | |
that follow a null character (which is converted into a code with | |
value zero) will be examined or converted. Each multibyte character | |
is converted as if by a call to the mbtowc function, except that the | |
shift state of the mbtowc function is not affected. | |
No more than n elements will be modified in the array pointed to by | |
pwcs . If copying takes place between objects that overlap, the | |
behavior is undefined. | |
Returns | |
If an invalid multibyte character is encountered, the mbstowcs | |
function returns (size_t)-1 . Otherwise, the mbstowcs function | |
returns the number of array elements modified, not including a | |
terminating zero code, if any.rN | |
4.10.8.2 The wcstombs function | |
Synopsis | |
#include <stdlib.h> | |
size_t wcstombs(char *s, const wchar_t *pwcs, size_t n); | |
Description | |
The wcstombs function converts a sequence of codes that correspond | |
to multibyte characters from the array pointed to by pwcs into a | |
sequence of multibyte characters that begins in the initial shift | |
state and stores these multibyte characters into the array pointed to | |
by s , stopping if a multibyte character would exceed the limit of n | |
total bytes or if a null character is stored. Each code is converted | |
as if by a call to the wctomb function, except that the shift state of | |
the wctomb function is not affected. | |
No more than n bytes will be modified in the array pointed to by s | |
. If copying takes place between objects that overlap, the behavior | |
is undefined. | |
Returns | |
If a code is encountered that does not correspond to a valid | |
multibyte character, the wcstombs function returns (size_t)-1 . | |
Otherwise, the wcstombs function returns the number of bytes modified, | |
not including a terminating null character, if any.rN | |
4.11 STRING HANDLING <string.h> | |
4.11.1 String function conventions | |
The header <string.h> declares one type and several functions, and | |
defines one macro useful for manipulating arrays of character type and | |
other objects treated as arrays of character type./119/ The type is | |
size_t and the macro is NULL (both described in $4.1.5). Various | |
methods are used for determining the lengths of the arrays, but in all | |
cases a char * or void * argument points to the initial (lowest | |
addressed) character of the array. If an array is accessed beyond the | |
end of an object, the behavior is undefined. | |
4.11.2 Copying functions | |
4.11.2.1 The memcpy function | |
Synopsis | |
#include <string.h> | |
void *memcpy(void *s1, const void *s2, size_t n); | |
Description | |
The memcpy function copies n characters from the object pointed to | |
by s2 into the object pointed to by s1 . If copying takes place | |
between objects that overlap, the behavior is undefined. | |
Returns | |
The memcpy function returns the value of s1 . | |
4.11.2.2 The memmove function | |
Synopsis | |
#include <string.h> | |
void *memmove(void *s1, const void *s2, size_t n); | |
Description | |
The memmove function copies n characters from the object pointed to | |
by s2 into the object pointed to by s1 . Copying takes place as if | |
the n characters from the object pointed to by s2 are first copied | |
into a temporary array of n characters that does not overlap the | |
objects pointed to by s1 and s2 , and then the n characters from the | |
temporary array are copied into the object pointed to by s1 . | |
Returns | |
The memmove function returns the value of s1 . | |
4.11.2.3 The strcpy function | |
Synopsis | |
#include <string.h> | |
char *strcpy(char *s1, const char *s2); | |
Description | |
The strcpy function copies the string pointed to by s2 (including | |
the terminating null character) into the array pointed to by s1 . If | |
copying takes place between objects that overlap, the behavior is | |
undefined. | |
Returns | |
The strcpy function returns the value of s1 . | |
4.11.2.4 The strncpy function | |
Synopsis | |
#include <string.h> | |
char *strncpy(char *s1, const char *s2, size_t n); | |
Description | |
The strncpy function copies not more than n characters (characters | |
that follow a null character are not copied) from the array pointed to | |
by s2 to the array pointed to by s1 ./120/ If copying takes place | |
between objects that overlap, the behavior is undefined. | |
If the array pointed to by s2 is a string that is shorter than n | |
characters, null characters are appended to the copy in the array | |
pointed to by s1 , until n characters in all have been written. | |
Returns | |
The strncpy function returns the value of s1 . | |
4.11.3 Concatenation functions | |
4.11.3.1 The strcat function | |
Synopsis | |
#include <string.h> | |
char *strcat(char *s1, const char *s2); | |
Description | |
The strcat function appends a copy of the string pointed to by s2 | |
(including the terminating null character) to the end of the string | |
pointed to by s1 . The initial character of s2 overwrites the null | |
character at the end of s1 . If copying takes place between objects | |
that overlap, the behavior is undefined. | |
Returns | |
The strcat function returns the value of s1 . | |
4.11.3.2 The strncat function | |
Synopsis | |
#include <string.h> | |
char *strncat(char *s1, const char *s2, size_t n); | |
Description | |
The strncat function appends not more than n characters (a null | |
character and characters that follow it are not appended) from the | |
array pointed to by s2 to the end of the string pointed to by s1 . | |
The initial character of s2 overwrites the null character at the end | |
of s1 . A terminating null character is always appended to the | |
result./121/ If copying takes place between objects that overlap, the | |
behavior is undefined. | |
Returns | |
The strncat function returns the value of s1 . | |
Forward references: the strlen function ($4.11.6.3). | |
4.11.4 Comparison functions | |
The sign of a nonzero value returned by the comparison functions is | |
determined by the sign of the difference between the values of the | |
first pair of characters (both interpreted as unsigned char ) that | |
differ in the objects being compared. | |
4.11.4.1 The memcmp function | |
Synopsis | |
#include <string.h> | |
int memcmp(const void *s1, const void *s2, size_t n); | |
Description | |
The memcmp function compares the first n characters of the object | |
pointed to by s1 to the first n characters of the object pointed to by | |
s2 ./122/ | |
Returns | |
The memcmp function returns an integer greater than, equal to, or | |
less than zero, according as the object pointed to by s1 is greater | |
than, equal to, or less than the object pointed to by s2 . | |
4.11.4.2 The strcmp function | |
Synopsis | |
#include <string.h> | |
int strcmp(const char *s1, const char *s2); | |
Description | |
The strcmp function compares the string pointed to by s1 to the | |
string pointed to by s2 . | |
Returns | |
The strcmp function returns an integer greater than, equal to, or | |
less than zero, according as the string pointed to by s1 is greater | |
than, equal to, or less than the string pointed to by s2 . | |
4.11.4.3 The strcoll function | |
Synopsis | |
#include <string.h> | |
int strcoll(const char *s1, const char *s2); | |
Description | |
The strcoll function compares the string pointed to by s1 to the | |
string pointed to by s2 , both interpreted as appropriate to the | |
LC_COLLATE category of the current locale. | |
Returns | |
The strcoll function returns an integer greater than, equal to, or | |
less than zero, according as the string pointed to by s1 is greater | |
than, equal to, or less than the string pointed to by s2 when both are | |
interpreted as appropriate to the current locale. | |
4.11.4.4 The strncmp function | |
Synopsis | |
#include <string.h> | |
int strncmp(const char *s1, const char *s2, size_t n); | |
Description | |
The strncmp function compares not more than n characters | |
(characters that follow a null character are not compared) from the | |
array pointed to by s1 to the array pointed to by s2 . | |
Returns | |
The strncmp function returns an integer greater than, equal to, or | |
less than zero, according as the possibly null-terminated array | |
pointed to by s1 is greater than, equal to, or less than the possibly | |
null-terminated array pointed to by s2 . | |
4.11.4.5 The strxfrm function | |
Synopsis | |
#include <string.h> | |
size_t strxfrm(char *s1, const char *s2, size_t n); | |
Description | |
The strxfrm function transforms the string pointed to by s2 and | |
places the resulting string into the array pointed to by s1 . The | |
transformation is such that if the strcmp function is applied to two | |
transformed strings, it returns a value greater than, equal to, or | |
less than zero, corresponding to the result of the strcoll function | |
applied to the same two original strings. No more than n characters | |
are placed into the resulting array pointed to by s1 , including the | |
terminating null character. If n is zero, s1 is permitted to be a | |
null pointer. If copying takes place between objects that overlap, | |
the behavior is undefined. | |
Returns | |
The strxfrm function returns the length of the transformed string | |
(not including the terminating null character). If the value returned | |
is n or more, the contents of the array pointed to by s1 are | |
indeterminate. | |
Example | |
The value of the following expression is the size of the array | |
needed to hold the transformation of the string pointed to by s . | |
1 + strxfrm(NULL, s, 0) | |
4.11.5 Search functions | |
4.11.5.1 The memchr function | |
Synopsis | |
#include <string.h> | |
void *memchr(const void *s, int c, size_t n); | |
Description | |
The memchr function locates the first occurrence of c (converted to | |
an unsigned char ) in the initial n characters (each interpreted as | |
unsigned char ) of the object pointed to by s . | |
Returns | |
The memchr function returns a pointer to the located character, or | |
a null pointer if the character does not occur in the object. | |
4.11.5.2 The strchr function | |
Synopsis | |
#include <string.h> | |
char *strchr(const char *s, int c); | |
Description | |
The strchr function locates the first occurrence of c (converted to | |
a char ) in the string pointed to by s . The terminating null | |
character is considered to be part of the string. | |
Returns | |
The strchr function returns a pointer to the located character, or | |
a null pointer if the character does not occur in the string. | |
4.11.5.3 The strcspn function | |
Synopsis | |
#include <string.h> | |
size_t strcspn(const char *s1, const char *s2); | |
Description | |
The strcspn function computes the length of the maximum initial | |
segment of the string pointed to by s1 which consists entirely of | |
characters not from the string pointed to by s2 . | |
Returns | |
The strcspn function returns the length of the segment. | |
4.11.5.4 The strpbrk function | |
Synopsis | |
#include <string.h> | |
char *strpbrk(const char *s1, const char *s2); | |
Description | |
The strpbrk function locates the first occurrence in the string | |
pointed to by s1 of any character from the string pointed to by s2 . | |
Returns | |
The strpbrk function returns a pointer to the character, or a null | |
pointer if no character from s2 occurs in s1 . | |
4.11.5.5 The strrchr function | |
Synopsis | |
#include <string.h> | |
char *strrchr(const char *s, int c); | |
Description | |
The strrchr function locates the last occurrence of c (converted to | |
a char ) in the string pointed to by s . The terminating null | |
character is considered to be part of the string. | |
Returns | |
The strrchr function returns a pointer to the character, or a null | |
pointer if c does not occur in the string. | |
4.11.5.6 The strspn function | |
Synopsis | |
#include <string.h> | |
size_t strspn(const char *s1, const char *s2); | |
Description | |
The strspn function computes the length of the maximum initial | |
segment of the string pointed to by s1 which consists entirely of | |
characters from the string pointed to by s2 . | |
Returns | |
The strspn function returns the length of the segment. | |
4.11.5.7 The strstr function | |
Synopsis | |
#include <string.h> | |
char *strstr(const char *s1, const char *s2); | |
Description | |
The strstr function locates the first occurrence in the string | |
pointed to by s1 of the sequence of characters (excluding the | |
terminating null character) in the string pointed to by s2 | |
Returns | |
The strstr function returns a pointer to the located string, or a | |
null pointer if the string is not found. If s2 points to a string | |
with zero length, the function returns s1 . | |
4.11.5.8 The strtok function | |
Synopsis | |
#include <string.h> | |
char *strtok(char *s1, const char *s2); | |
Description | |
A sequence of calls to the strtok function breaks the string | |
pointed to by s1 into a sequence of tokens, each of which is delimited | |
by a character from the string pointed to by s2 . The first call in | |
the sequence has s1 as its first argument, and is followed by calls | |
with a null pointer as their first argument. The separator string | |
pointed to by s2 may be different from call to call. | |
The first call in the sequence searches the string pointed to by s1 | |
for the first character that is not contained in the current separator | |
string pointed to by s2 . If no such character is found, then there | |
are no tokens in the string pointed to by s1 and the strtok function | |
returns a null pointer. If such a character is found, it is the start | |
of the first token. | |
The strtok function then searches from there for a character that | |
is contained in the current separator string. If no such character is | |
found, the current token extends to the end of the string pointed to | |
by s1 , and subsequent searches for a token will return a null | |
pointer. If such a character is found, it is overwritten by a null | |
character, which terminates the current token. The strtok function | |
saves a pointer to the following character, from which the next search | |
for a token will start. | |
Each subsequent call, with a null pointer as the value of the first | |
argument, starts searching from the saved pointer and behaves as | |
described above. | |
The implementation shall behave as if no library function calls the | |
strtok function. | |
Returns | |
The strtok function returns a pointer to the first character of a | |
token, or a null pointer if there is no token. | |
Example | |
#include <string.h> | |
static char str[] = "?a???b,,,#c"; | |
char *t; | |
t = strtok(str, "?"); /* t points to the token "a" */ | |
t = strtok(NULL, ","); /* t points to the token "??b" */ | |
t = strtok(NULL, "#,"); /* t points to the token "c" */ | |
t = strtok(NULL, "?"); /* t is a null pointer */ | |
4.11.6 Miscellaneous functions | |
4.11.6.1 The memset function | |
Synopsis | |
#include <string.h> | |
void *memset(void *s, int c, size_t n); | |
Description | |
The memset function copies the value of c (converted to an unsigned | |
char ) into each of the first n characters of the object pointed to by | |
s . | |
Returns | |
The memset function returns the value of s . | |
4.11.6.2 The strerror function | |
Synopsis | |
#include <string.h> | |
char *strerror(int errnum); | |
Description | |
The strerror function maps the error number in errnum to an error | |
message string. | |
The implementation shall behave as if no library function calls the | |
strerror function. | |
Returns | |
The strerror function returns a pointer to the string, the contents | |
of which are implementation-defined. The array pointed to shall not | |
be modified by the program, but may be overwritten by a subsequent | |
call to the strerror function. | |
4.11.6.3 The strlen function | |
Synopsis | |
#include <string.h> | |
size_t strlen(const char *s); | |
Description | |
The strlen function computes the length of the string pointed to by s . | |
Returns | |
The strlen function returns the number of characters that precede | |
the terminating null character. | |
4.12 DATE AND TIME <time.h> | |
4.12.1 Components of time | |
The header <time.h> defines two macros, and declares four types and | |
several functions for manipulating time. Many functions deal with a | |
calendar time that represents the current date (according to the | |
Gregorian calendar) and time. Some functions deal with local time, | |
which is the calendar time expressed for some specific time zone, and | |
with Daylight Saving Time, which is a temporary change in the | |
algorithm for determining local time. The local time zone and | |
Daylight Saving Time are implementation-defined. | |
The macros defined are NULL (described in $4.1.5); and | |
CLK_TCK | |
which is the number per second of the value returned by the clock function. | |
The types declared are size_t (described in $4.1.5); | |
clock_t | |
and | |
time_t | |
which are arithmetic types capable of representing times; and | |
struct tm | |
which holds the components of a calendar time, called the broken-down | |
time. The structure shall contain at least the following members, in | |
any order. The semantics of the members and their normal ranges are | |
expressed in the comments./123/ | |
int tm_sec; /* seconds after the minute --- [0, 60] */ | |
int tm_min; /* minutes after the hour --- [0, 59] */ | |
int tm_hour; /* hours since midnight --- [0, 23] */ | |
int tm_mday; /* day of the month --- [1, 31] */ | |
int tm_mon; /* months since January --- [0, 11] */ | |
int tm_year; /* years since 1900 */ | |
int tm_wday; /* days since Sunday --- [0, 6] */ | |
int tm_yday; /* days since January 1 --- [0, 365] */ | |
int tm_isdst; /* Daylight Saving Time flag */ | |
The value of tm_isdst is positive if Daylight Saving Time is in | |
effect, zero if Daylight Saving Time is not in effect, and negative if | |
the information is not available. | |
4.12.2 Time manipulation functions | |
4.12.2.1 The clock function | |
Synopsis | |
#include <time.h> | |
clock_t clock(void); | |
Description | |
The clock function determines the processor time used. | |
Returns | |
The clock function returns the implementation's best approximation | |
to the processor time used by the program since the beginning of an | |
implementation-defined era related only to the program invocation. To | |
determine the time in seconds, the value returned by the clock | |
function should be divided by the value of the macro CLK_TCK . If the | |
processor time used is not available or its value cannot be | |
represented, the function returns the value (clock_t)-1 . | |
4.12.2.2 The difftime function | |
Synopsis | |
#include <time.h> | |
double difftime(time_t time1, time_t time0); | |
Description | |
The difftime function computes the difference between two calendar | |
times: time1 - time0 . | |
Returns | |
The difftime function returns the difference expressed in seconds | |
as a double . | |
4.12.2.3 The mktime function | |
Synopsis | |
#include <time.h> | |
time_t mktime(struct tm *timeptr); | |
Description | |
The mktime function converts the broken-down time, expressed as | |
local time, in the structure pointed to by timeptr into a calendar | |
time value with the same encoding as that of the values returned by | |
the time function. The original values of the tm_wday and tm_yday | |
components of the structure are ignored, and the original values of | |
the other components are not restricted to the ranges indicated | |
above./124/ On successful completion, the values of the tm_wday and | |
tm_yday components of the structure are set appropriately, and the | |
other components are set to represent the specified calendar time, but | |
with their values forced to the ranges indicated above; the final | |
value of tm_mday is not set until tm_mon and tm_year are determined. | |
Returns | |
The mktime function returns the specified calendar time encoded as | |
a value of type time_t . If the calendar time cannot be represented, | |
the function returns the value (time_t)-1 . | |
Example | |
What day of the week is July 4, 2001? | |
#include <stdio.h> | |
#include <time.h> | |
static const char *const wday[] = { | |
"Sunday", "Monday", "Tuesday", "Wednesday", | |
"Thursday", "Friday", "Saturday", "-unknown-" | |
}; | |
struct tm time_str; | |
time_str.tm_year = 2001 - 1900; | |
time_str.tm_mon = 7 - 1; | |
time_str.tm_mday = 4; | |
time_str.tm_hour = 0; | |
time_str.tm_min = 0; | |
time_str.tm_sec = 1; | |
time_str.tm_isdst = -1; | |
if (mktime(&time_str) == -1) | |
time_str.tm_wday = 7; | |
printf("%s\n", wday[time_str.tm_wday]); | |
4.12.2.4 The time function | |
Synopsis | |
#include <time.h> | |
time_t time(time_t *timer); | |
Description | |
The time function determines the current calendar time. The | |
encoding of the value is unspecified. | |
Returns | |
The time function returns the implementation's best approximation | |
to the current calendar time. The value (time_t)-1 is returned if the | |
calendar time is not available. If timer is not a null pointer, the | |
return value is also assigned to the object it points to. | |
4.12.3 Time conversion functions | |
Except for the strftime function, these functions return values in | |
one of two static objects: a broken-down time structure and an array | |
of char . Execution of any of the functions may overwrite the | |
information returned in either of these objects by any of the other | |
functions. The implementation shall behave as if no other library | |
functions call these functions. | |
4.12.3.1 The asctime function | |
Synopsis | |
#include <time.h> | |
char *asctime(const struct tm *timeptr); | |
Description | |
The asctime function converts the broken-down time in the structure | |
pointed to by timeptr into a string in the form | |
Sun Sep 16 01:03:52 1973\n\0 | |
using the equivalent of the following algorithm. | |
char *asctime(const struct tm *timeptr) | |
{ | |
static const char wday_name[7][3] = { | |
"Sun", "Mon", "Tue", "Wed", "Thu", "Fri", "Sat" | |
}; | |
static const char mon_name[12][3] = { | |
"Jan", "Feb", "Mar", "Apr", "May", "Jun", | |
"Jul", "Aug", "Sep", "Oct", "Nov", "Dec" | |
}; | |
static char result[26]; | |
sprintf(result, "%.3s %.3s%3d %.2d:%.2d:%.2d %d\n", | |
wday_name[timeptr->tm_wday], | |
mon_name[timeptr->tm_mon], | |
timeptr->tm_mday, timeptr->tm_hour, | |
timeptr->tm_min, timeptr->tm_sec, | |
1900 + timeptr->tm_year); | |
return result; | |
} | |
Returns | |
The asctime function returns a pointer to the string. | |
4.12.3.2 The ctime function | |
Synopsis | |
#include <time.h> | |
char *ctime(const time_t *timer); | |
Description | |
The ctime function converts the calendar time pointed to by timer to local time in the form of a string. It is equivalent to | |
asctime(localtime(timer)) | |
Returns | |
The ctime function returns the pointer returned by the asctime | |
function with that broken-down time as argument. | |
Forward references: the localtime function ($4.12.3.4). | |
4.12.3.3 The gmtime function | |
Synopsis | |
#include <time.h> | |
struct tm *gmtime(const time_t *timer); | |
Description | |
The gmtime function converts the calendar time pointed to by timer | |
into a broken-down time, expressed as Coordinated Universal Time | |
(UTC). | |
Returns | |
The gmtime function returns a pointer to that object, or a null | |
pointer if UTC is not available. | |
4.12.3.4 The localtime function | |
Synopsis | |
#include <time.h> | |
struct tm *localtime(const time_t *timer); | |
Description | |
The localtime function converts the calendar time pointed to by | |
timer into a broken-down time, expressed as local time. | |
Returns | |
The localtime function returns a pointer to that object. | |
4.12.3.5 The strftime function | |
Synopsis | |
#include <time.h> | |
size_t strftime(char *s, size_t maxsize, | |
const char *format, const struct tm *timeptr); | |
Description | |
The strftime function places characters into the array pointed to | |
by s as controlled by the string pointed to by format . The format | |
shall be a multibyte character sequence, beginning and ending in its | |
initial shift state. The format string consists of zero or more | |
conversion specifications and ordinary multibyte characters. A | |
conversion specification consists of a % character followed by a | |
character that determines the conversion specification's behavior. | |
All ordinary multibyte characters (including the terminating null | |
character) are copied unchanged into the array. If copying takes | |
place between objects that overlap, the behavior is undefined. No | |
more than maxsize characters are placed into the array. Each | |
conversion specification is replaced by appropriate characters as | |
described in the following list. The appropriate characters are | |
determined by the program's locale and by the values contained in the | |
structure pointed to by timeptr . | |
"%a" is replaced by the locale's abbreviated weekday name. | |
"%A" is replaced by the locale's full weekday name. | |
"%b" is replaced by the locale's abbreviated month name. | |
"%B" is replaced by the locale's full month name. | |
"%c" is replaced by the locale's appropriate date and time representation. | |
"%d" is replaced by the day of the month as a decimal number (01-31). | |
"%H" is replaced by the hour (24-hour clock) as a decimal number (00-23). | |
"%I" is replaced by the hour (12-hour clock) as a decimal number (01-12). | |
"%j" is replaced by the day of the year as a decimal number (001-366 ). | |
"%m" is replaced by the month as a decimal number (01-12). | |
"%M" is replaced by the minute as a decimal number (00-59). | |
"%p" is replaced by the locale's equivalent of either AM or PM . | |
"%S" is replaced by the second as a decimal number (00-60). | |
"%U" is replaced by the week number of the year (ithe first Sunday as the | |
first day of week 1) as a decimal number (00-53). | |
"%w" is replaced by the weekday as a decimal number (0-6), where Sunday is | |
0. | |
"%W" is replaced by the week number of the year (the first Monday as the | |
first day of week 1) as a decimal number (00-53). | |
"%x" is replaced by the locale's appropriate date representation. | |
"%X" is replaced by the locale's appropriate time representation. | |
"%y" is replaced by the year without century as a decimal number (00-99). | |
"%Y" is replaced by the year with century as a decimal number. | |
"%Z" is replaced by the time zone name, or by no characters if no time | |
zone is determinable. | |
"%%" is replaced by %. | |
If a conversion specification is not one of the above, the behavior | |
is undefined. | |
Returns | |
If the total number of resulting characters including the | |
terminating null character is not more than maxsize , the strftime | |
function returns the number of characters placed into the array | |
pointed to by s not including the terminating null character. | |
Otherwise, zero is returned and the contents of the array are | |
indeterminate. | |
4.13 FUTURE LIBRARY DIRECTIONS | |
The following names are grouped under individual headers for | |
convenience. All external names described below are reserved no | |
matter what headers are included by the program. | |
4.13.1 Errors <errno.h> | |
Macros that begin with E and a digit or E and an upper-case letter | |
(followed by any combination of digits, letters and underscore) may be | |
added to the declarations in the <errno.h> header. | |
4.13.2 Character handling <ctype.h> | |
Function names that begin with either is or to , and a lower-case | |
letter (followed by any combination of digits, letters and underscore) | |
may be added to the declarations in the <ctype.h> header. | |
4.13.3 Localization <locale.h> | |
Macros that begin with LC_ and an upper-case letter (followed by | |
any combination of digits, letters and underscore) may be added to the | |
definitions in the <locale.h> header. | |
4.13.4 Mathematics <math.h> | |
The names of all existing functions declared in the <math.h> | |
header, suffixed with f or l , are reserved respectively for | |
corresponding functions with float and long double arguments and | |
return values. | |
4.13.5 Signal handling <signal.h> | |
Macros that begin with either SIG and an upper-case letter or SIG_ | |
and an upper-case letter (followed by any combination of digits, | |
letters and underscore) may be added to the definitions in the | |
<signal.h> header. | |
4.13.6 Input/output <stdio.h> | |
Lower-case letters may be added to the conversion specifiers in | |
fprintf and fscanf . Other characters may be used in extensions. | |
4.13.7 General utilities <stdlib.h> | |
Function names that begin with str and a lower-case letter | |
(followed by any combination of digits, letters and underscore) may be | |
added to the declarations in the <stdlib.h> header. | |
4.13.8 String handling <string.h> | |
Function names that begin with str , mem , or wcs and a lower-case | |
letter (followed by any combination of digits, letters and underscore) | |
may be added to the declarations in the <string.h> header. | |
A. APPENDICES | |
(These appendices are not a part of American National Standard for | |
Information Systems --- Programming Language C, X3.???-1988.) | |
These appendices collect information that appears in the Standard, | |
and are not necessarily complete. | |
A.1 LANGUAGE SYNTAX SUMMARY | |
The notation is described in the introduction to $3 (Language). | |
A.1.1 Lexical grammar | |
A.1.1.1 Tokens | |
keyword | |
identifier | |
constant | |
string-literal | |
operator | |
punctuator | |
header-name | |
identifier | |
pp-number | |
character-constant | |
string-literal | |
operator | |
punctuator | |
each non-white-space character that cannot be one of | |
the above | |
A.1.1.2 Keywords | |
auto double int struct | |
break else long switch | |
case enum register typedef | |
char extern return union | |
const float short unsigned | |
continue for signed void | |
default goto sizeof volatile | |
do if static while | |
A.1.1.3 Identifiers | |
nondigit | |
identifier nondigit | |
identifier digit | |
_ a b c d e f g h i j k l m | |
n o p q r s t u v w x y z | |
A B C D E F G H I J K L M | |
N O P Q R S T U V W X Y Z | |
0 1 2 3 4 5 6 7 8 9 | |
A.1.1.4 Constants | |
floating-constant | |
integer-constant | |
enumeration-constant | |
character-constant | |
fractional-constant exponent-part<opt> floating-suffix<opt> | |
digit-sequence exponent-part floating-suffix<opt> | |
digit-sequence<opt> . digit-sequence | |
digit-sequence . | |
e sign<opt> digit-sequence | |
E sign<opt> digit-sequence | |
+ - | |
digit | |
digit-sequence digit | |
f l F L | |
decimal-constant integer-suffix<opt> | |
octal-constant integer-suffix<opt> | |
hexadecimal-constant integer-suffix<opt> | |
nonzero-digit | |
decimal-constant digit | |
0 | |
octal-constant octal-digit | |
0x hexadecimal-digit | |
0X hexadecimal-digit | |
hexadecimal-constant hexadecimal-digit | |
1 2 3 4 5 6 7 8 9 | |
0 1 2 3 4 5 6 7 | |
0 1 2 3 4 5 6 7 8 9 | |
a b c d e f | |
A B C D E F | |
unsigned-suffix long-suffix<opt> | |
long-suffix unsigned-suffix<opt> | |
u U | |
l L | |
identifier | |
' c-char-sequence' | |
L' c-char-sequence' | |
c-char | |
c-char-sequence c-char | |
any member of the source character set except | |
the single-quote ', backslash \, or new-line character | |
escape-sequence | |
simple-escape-sequence | |
octal-escape-sequence | |
hexadecimal-escape-sequence | |
\' \" \? \\ | |
\a \b \f \n \r \t \v | |
\ octal-digit | |
\ octal-digit octal-digit | |
\ octal-digit octal-digit octal-digit | |
\x hexadecimal-digit | |
hexadecimal-escape-sequence hexadecimal-digit | |
A.1.1.5 String literals | |
" s-char-sequence<opt>" | |
L" s-char-sequence<opt>" | |
s-char | |
s-char-sequence s-char | |
any member of the source character set except | |
the double-quote ", backslash \, or new-line character | |
escape-sequence | |
A.1.1.6 Operators | |
[ ] ( ) . -> | |
++ -- & * + - ~ ! sizeof | |
/ % << >> < > <= >= == != ^ | && || | |
? : | |
= *= /= %= += -= <<= >>= &= ^= |= | |
, # ## | |
A.1.1.7 Punctuators | |
[ ] ( ) { } * , : = ; ... # | |
A.1.1.8 Header names | |
< h-char-sequence> | |
" q-char-sequence" | |
h-char | |
h-char-sequence h-char | |
any member of the source character set except | |
the new-line character and > | |
q-char | |
q-char-sequence q-char | |
any member of the source character set except | |
the new-line character and " | |
A.1.1.9 Preprocessing numbers | |
digit | |
. digit | |
pp-number digit | |
pp-number nondigit | |
pp-number e sign | |
pp-number E sign | |
pp-number . | |
A.1.2 Phrase structure grammar | |
A.1.2.1 Expressions | |
identifier | |
constant | |
string-literal | |
( expression ) | |
primary-expression | |
postfix-expression [ expression ] | |
postfix-expression ( argument-expression-list<opt> ) | |
postfix-expression . identifier | |
postfix-expression -> identifier | |
postfix-expression ++ | |
postfix-expression -- | |
assignment-expression | |
argument-expression-list , assignment-expression | |
postfix-expression | |
++ unary-expression | |
-- unary-expression | |
unary-operator cast-expression | |
sizeof unary-expression | |
sizeof ( type-name ) | |
& * + - ~ ! | |
unary-expression | |
( type-name ) cast-expression | |
cast-expression | |
multiplicative-expression * cast-expression | |
multiplicative-expression / cast-expression | |
multiplicative-expression % cast-expression | |
multiplicative-expression | |
additive-expression + multiplicative-expression | |
additive-expression - multiplicative-expression | |
additive-expression | |
shift-expression << additive-expression | |
shift-expression >> additive-expression | |
shift-expression | |
relational-expression < shift-expression | |
relational-expression > shift-expression | |
relational-expression <= shift-expression | |
relational-expression >= shift-expression | |
relational-expression | |
equality-expression == relational-expression | |
equality-expression != relational-expression | |
equality-expression | |
AND-expression & equality-expression | |
AND-expression | |
exclusive-OR-expression ^ AND-expression | |
exclusive-OR-expression | |
inclusive-OR-expression | exclusive-OR-expression | |
inclusive-OR-expression | |
logical-AND-expression && inclusive-OR-expression | |
logical-AND-expression | |
logical-OR-expression || logical-AND-expression | |
logical-OR-expression | |
logical-OR-expression ? expression : conditional-expression | |
conditional-expression | |
unary-expression assignment-operator assignment-expression | |
= *= /= %= += -= <<= >>= &= ^= |= | |
assignment-expression | |
expression , assignment-expression | |
conditional-expression | |
A.1.2.2 Declarations | |
declaration-specifiers init-declarator-list<opt> ; | |
storage-class-specifier declaration-specifiers<opt> | |
type-specifier declaration-specifiers<opt> | |
type-qualifier declaration-specifiers<opt> | |
init-declarator | |
init-declarator-list , init-declarator | |
declarator | |
declarator = initializer | |
typedef | |
extern | |
static | |
auto | |
register | |
void | |
char | |
short | |
int | |
long | |
float | |
double | |
signed | |
unsigned | |
struct-or-union-specifier | |
enum-specifier | |
typedef-name | |
struct-or-union identifier<opt> { struct-declaration-list } | |
struct-or-union identifier | |
struct | |
union | |
struct-declaration | |
struct-declaration-list struct-declaration | |
specifier-qualifier-list struct-declarator-list ; | |
type-specifier specifier-qualifier-list<opt> | |
type-qualifier specifier-qualifier-list<opt> | |
struct-declarator | |
struct-declarator-list , struct-declarator | |
declarator | |
declarator<opt> : constant-expression | |
enum identifier<opt> { enumerator-list } | |
enum identifier | |
enumerator | |
enumerator-list , enumerator | |
enumeration-constant | |
enumeration-constant = constant-expression | |
const | |
volatile | |
pointer<opt> direct-declarator | |
identifier | |
( declarator ) | |
direct-declarator [ constant-expression<opt> ] | |
direct-declarator ( parameter-type-list ) | |
direct-declarator ( identifier-list<opt> ) | |
* type-qualifier-list<opt> | |
* type-qualifier-list<opt> pointer | |
type-qualifier | |
type-qualifier-list type-qualifier | |
parameter-list | |
parameter-list , ... | |
parameter-declaration | |
parameter-list , parameter-declaration | |
declaration-specifiers declarator | |
declaration-specifiers abstract-declarator<opt> | |
identifier | |
identifier-list , identifier | |
specifier-qualifier-list abstract-declarator<opt> | |
pointer | |
pointer<opt> direct-abstract-declarator | |
( abstract-declarator ) | |
direct-abstract-declarator<opt> [ constant-expression<opt> ] | |
direct-abstract-declarator<opt> ( parameter-type-list<opt> ) | |
identifier | |
assignment-expression | |
{ initializer-list } | |
{ initializer-list , } | |
initializer | |
initializer-list , initializer | |
A.1.2.3 Statements | |
labeled-statement | |
compound-statement | |
expression-statement | |
selection-statement | |
iteration-statement | |
jump-statement | |
identifier : statement | |
case constant-expression : statement | |
default : statement | |
{ declaration-list<opt> statement-list<opt> } | |
declaration | |
declaration-list declaration | |
statement | |
statement-list statement | |
expression<opt> ; | |
if ( expression ) statement | |
if ( expression ) statement else statement | |
switch ( expression ) statement | |
while ( expression ) statement | |
do statement while ( expression ) ; | |
for ( expression<opt> ; expression<opt> ; | |
expression<opt> ) statement | |
goto identifier ; | |
continue ; | |
break ; | |
return expression<opt> ; | |
A.1.2.4 External definitions | |
external-declaration | |
translation-unit external-declaration | |
function-definition | |
declaration | |
declaration-specifiers<opt> declarator | |
declaration-list<opt> compound-statement | |
A.1.3 Preprocessing directives | |
group<opt> | |
group-part | |
group group-part | |
pp-tokens<opt> new-line | |
if-section | |
control-line | |
if-group elif-groups<opt> else-group<opt> endif-line | |
# if constant-expression new-line group<opt> | |
# ifdef identifier new-line group<opt> | |
# ifndef identifier new-line group<opt> | |
elif-group | |
elif-groups elif-group | |
# elif constant-expression new-line group<opt> | |
# else new-line group<opt> | |
# endif new-line | |
control-line: | |
the left-parenthesis character without preceding white space | |
pp-tokens<opt> | |
preprocessing-token | |
pp-tokens preprocessing-token | |
the new-line character | |
A.2 SEQUENCE POINTS | |
The following are the sequence points described in $2.1.2.3. | |
* The call to a function, after the arguments have been evaluated | |
($3.3.2.2). | |
* The end of the first operand of the following operators: logical | |
AND && ($3.3.13); logical OR || ($3.3.14); conditional ? ($3.3.15); | |
comma , ($3.3.17). | |
* The end of a full expression: an initializer ($3.5.7); the | |
expression in an expression statement ($3.6.3); the controlling | |
expression of a selection statement ( if or switch ) ($3.6.4); the | |
controlling expression of a while or do statement ($3.6.5); the three | |
expressions of a for statement ($3.6.5.3); the expression in a return | |
statement ($3.6.6.4). | |
A.3 LIBRARY SUMMARY | |
A.3.1 ERRORS <errno.h> | |
EDOM | |
ERANGE | |
errno | |
A.3.2 COMMON DEFINITIONS <stddef.h> | |
NULL | |
offsetof( type, member-designator) | |
ptrdiff_t | |
size_t | |
wchar_t | |
A.3.3 DIAGNOSTICS <assert.h> | |
NDEBUG | |
void assert(int expression); | |
A.3.4 CHARACTER HANDLING <ctype.h> | |
int isalnum(int c); | |
int isalpha(int c); | |
int iscntrl(int c); | |
int isdigit(int c); | |
int isgraph(int c); | |
int islower(int c); | |
int isprint(int c); | |
int ispunct(int c); | |
int isspace(int c); | |
int isupper(int c); | |
int isxdigit(int c); | |
int tolower(int c); | |
int toupper(int c); | |
A.3.5 LOCALIZATION <locale.h> | |
LC_ALL | |
LC_COLLATE | |
LC_CTYPE | |
LC_MONETARY | |
LC_NUMERIC | |
LC_TIME | |
NULL | |
struct lconv | |
char *setlocale(int category, const char *locale); | |
struct lconv *localeconv(void); | |
A.3.6 MATHEMATICS <math.h> | |
HUGE_VAL | |
double acos(double x); | |
double asin(double x); | |
double atan(double x); | |
double atan2(double y, double x); | |
double cos(double x); | |
double sin(double x); | |
double tan(double x); | |
double cosh(double x); | |
double sinh(double x); | |
double tanh(double x); | |
double exp(double x); | |
double frexp(double value, int *exp); | |
double ldexp(double x, int exp); | |
double log(double x); | |
double log10(double x); | |
double modf(double value, double *iptr); | |
double pow(double x, double y); | |
double sqrt(double x); | |
double ceil(double x); | |
double fabs(double x); | |
double floor(double x); | |
double fmod(double x, double y); | |
A.3.7 NON-LOCAL JUMPS <setjmp.h> | |
jmp_buf | |
int setjmp(jmp_buf env); | |
void longjmp(jmp_buf env, int val); | |
A.3.8 SIGNAL HANDLING <signal.h> | |
sig_atomic_t | |
SIG_DFL | |
SIG_ERR | |
SIG_IGN | |
SIGABRT | |
SIGFPE | |
SIGILL | |
SIGINT | |
SIGSEGV | |
SIGTERM | |
void (*signal(int sig, void (*func)(int)))(int); | |
int raise(int sig); | |
A.3.9 VARIABLE ARGUMENTS <stdarg.h> | |
va_list | |
void va_start(va_list ap, parmN); | |
type va_arg(va_list ap, type); | |
void va_end(va_list ap); | |
A.3.10 INPUT/OUTPUT <stdio.h> | |
_IOFBF | |
_IOLBF | |
_IONBF | |
BUFSIZ | |
EOF | |
FILE | |
FILENAME_MAX | |
FOPEN_MAX | |
fpos_t | |
L_tmpnam | |
NULL | |
SEEK_CUR | |
SEEK_END | |
SEEK_SET | |
size_t | |
stderr | |
stdin | |
stdout | |
TMP_MAX | |
int remove(const char *filename); | |
int rename(const char *old, const char *new); | |
FILE *tmpfile(void); | |
char *tmpnam(char *s); | |
int fclose(FILE *stream); | |
int fflush(FILE *stream); | |
FILE *fopen(const char *filename, const char *mode); | |
FILE *freopen(const char *filename, const char *mode, | |
FILE *stream); | |
void setbuf(FILE *stream, char *buf); | |
int setvbuf(FILE *stream, char *buf, int mode, size_t size); | |
int fprintf(FILE *stream, const char *format, ...); | |
int fscanf(FILE *stream, const char *format, ...); | |
int printf(const char *format, ...); | |
int scanf(const char *format, ...); | |
int sprintf(char *s, const char *format, ...); | |
int sscanf(const char *s, const char *format, ...); | |
int vfprintf(FILE *stream, const char *format, va_list arg); | |
int vprintf(const char *format, va_list arg); | |
int vsprintf(char *s, const char *format, va_list arg); | |
int fgetc(FILE *stream); | |
char *fgets(char *s, int n, FILE *stream); | |
int fputc(int c, FILE *stream); | |
int fputs(const char *s, FILE *stream); | |
int getc(FILE *stream); | |
int getchar(void); | |
char *gets(char *s); | |
int putc(int c, FILE *stream); | |
int putchar(int c); | |
int puts(const char *s); | |
int ungetc(int c, FILE *stream); | |
size_t fread(void *ptr, size_t size, size_t nmemb, | |
FILE *stream); | |
size_t fwrite(const void *ptr, size_t size, size_t nmemb, | |
FILE *stream); | |
int fgetpos(FILE *stream, fpos_t *pos); | |
int fseek(FILE *stream, long int offset, int whence); | |
int fsetpos(FILE *stream, const fpos_t *pos); | |
long int ftell(FILE *stream); | |
void rewind(FILE *stream); | |
void clearerr(FILE *stream); | |
int feof(FILE *stream); | |
int ferror(FILE *stream); | |
void perror(const char *s); | |
A.3.11 GENERAL UTILITIES <stdlib.h> | |
EXIT_FAILURE | |
EXIT_SUCCESS | |
MB_CUR_MAX | |
NULL | |
RAND_MAX | |
div_t | |
ldiv_t | |
size_t | |
wchar_t | |
double atof(const char *nptr); | |
int atoi(const char *nptr); | |
long int atol(const char *nptr); | |
double strtod(const char *nptr, char **endptr); | |
long int strtol(const char *nptr, char **endptr, int base); | |
unsigned long int strtoul(const char *nptr, char **endptr, | |
int base); | |
int rand(void); | |
void srand(unsigned int seed); | |
void *calloc(size_t nmemb, size_t size); | |
void free(void *ptr); | |
void *malloc(size_t size); | |
void *realloc(void *ptr, size_t size); | |
void abort(void); | |
int atexit(void (*func)(void)); | |
void exit(int status); | |
char *getenv(const char *name); | |
int system(const char *string); | |
void *bsearch(const void *key, const void *base, | |
size_t nmemb, size_t size, | |
int (*compar)(const void *, const void *)); | |
void qsort(void *base, size_t nmemb, size_t size, | |
int (*compar)(const void *, const void *)); | |
int abs(int j); | |
div_t div(int numer, int denom); | |
long int labs(long int j); | |
ldiv_t ldiv(long int numer, long int denom); | |
int mblen(const char *s, size_t n); | |
int mbtowc(wchar_t *pwc, const char *s, size_t n); | |
int wctomb(char *s, wchar_t wchar); | |
size_t mbstowcs(wchar_t *pwcs, const char *s, size_t n); | |
size_t wcstombs(char *s, const wchar_t *pwcs, size_t n); | |
A.3.12 STRING HANDLING <string.h> | |
NULL | |
size_t | |
void *memcpy(void *s1, const void *s2, size_t n); | |
void *memmove(void *s1, const void *s2, size_t n); | |
char *strcpy(char *s1, const char *s2); | |
char *strncpy(char *s1, const char *s2, size_t n); | |
char *strcat(char *s1, const char *s2); | |
char *strncat(char *s1, const char *s2, size_t n); | |
int memcmp(const void *s1, const void *s2, size_t n); | |
int strcmp(const char *s1, const char *s2); | |
int strcoll(const char *s1, const char *s2); | |
int strncmp(const char *s1, const char *s2, size_t n); | |
size_t strxfrm(char *s1, const char *s2, size_t n); | |
void *memchr(const void *s, int c, size_t n); | |
char *strchr(const char *s, int c); | |
size_t strcspn(const char *s1, const char *s2); | |
char *strpbrk(const char *s1, const char *s2); | |
char *strrchr(const char *s, int c); | |
size_t strspn(const char *s1, const char *s2); | |
char *strstr(const char *s1, const char *s2); | |
char *strtok(char *s1, const char *s2); | |
void *memset(void *s, int c, size_t n); | |
char *strerror(int errnum); | |
size_t strlen(const char *s); | |
A.3.13 DATE AND TIME <time.h> | |
CLK_TCK | |
NULL | |
clock_t | |
time_t | |
size_t | |
struct tm | |
clock_t clock(void); | |
double difftime(time_t time1, time_t time0); | |
time_t mktime(struct tm *timeptr); | |
time_t time(time_t *timer); | |
char *asctime(const struct tm *timeptr); | |
char *ctime(const time_t *timer); | |
struct tm *gmtime(const time_t *timer); | |
struct tm *localtime(const time_t *timer); | |
size_t strftime(char *s, size_t maxsize, | |
const char *format, const struct tm *timeptr); | |
A.4 IMPLEMENTATION LIMITS | |
The contents of a header <limits.h> are given below, in alphabetic | |
order. The minimum magnitudes shown shall be replaced by | |
implementation-defined magnitudes with the same sign. The values | |
shall all be constant expressions suitable for use in #if | |
preprocessing directives. The components are described further in | |
$2.2.4.2. | |
#define CHAR_BIT 8 | |
#define CHAR_MAX UCHAR_MAX or SCHAR_MAX | |
#define CHAR_MIN 0 or SCHAR_MIN | |
#define MB_LEN_MAX 1 | |
#define INT_MAX +32767 | |
#define INT_MIN -32767 | |
#define LONG_MAX +2147483647 | |
#define LONG_MIN -2147483647 | |
#define SCHAR_MAX +127 | |
#define SCHAR_MIN -127 | |
#define SHRT_MAX +32767 | |
#define SHRT_MIN -32767 | |
#define UCHAR_MAX 255 | |
#define UINT_MAX 65535 | |
#define ULONG_MAX 4294967295 | |
#define USHRT_MAX 65535 | |
The contents of a header <float.h> are given below, in alphabetic | |
order. The value of FLT_RADIX shall be a constant expression suitable | |
for use in #if preprocessing directives. Values that need not be | |
constant expressions shall be supplied for all other components. The | |
minimum magnitudes shown for integers and exponents shall be replaced | |
by implementation-defined magnitudes with the same sign. The | |
components are described further in $2.2.4.2. | |
#define DBL_DIG 10 | |
#define DBL_EPSILON 1E-9 | |
#define DBL_MANT_DIG | |
#define DBL_MAX 1E+37 | |
#define DBL_MAX_10_EXP +37 | |
#define DBL_MAX_EXP | |
#define DBL_MIN 1E-37 | |
#define DBL_MIN_10_EXP -37 | |
#define DBL_MIN_EXP | |
#define FLT_DIG 6 | |
#define FLT_EPSILON 1E-5 | |
#define FLT_MANT_DIG | |
#define FLT_MAX 1E+37 | |
#define FLT_MAX_10_EXP +37 | |
#define FLT_MAX_EXP | |
#define FLT_MIN 1E-37 | |
#define FLT_MIN_10_EXP -37 | |
#define FLT_MIN_EXP | |
#define FLT_RADIX 2 | |
#define FLT_ROUNDS | |
#define LDBL_DIG 10 | |
#define LDBL_EPSILON 1E-9 | |
#define LDBL_MANT_DIG | |
#define LDBL_MAX 1E+37 | |
#define LDBL_MAX_10_EXP +37 | |
#define LDBL_MAX_EXP | |
#define LDBL_MIN 1E-37 | |
#define LDBL_MIN_10_EXP -37 | |
#define LDBL_MIN_EXP | |
A.5 COMMON WARNINGS | |
An implementation may generate warnings in many situations, none of | |
which is specified as part of the Standard. The following are a few | |
of the more common situations. | |
* A block with initialization of an object that has automatic storage | |
duration is jumped into ($3.1.2.4). | |
* An integer character constant includes more than one character or a | |
wide character constant includes more than one multibyte character | |
($3.1.3.4). | |
* The characters /* are found in a comment ($3.1.7). | |
* An implicit narrowing conversion is encountered, such as the | |
assignment of a long int or a double to an int , or a pointer to void | |
to a pointer to any type of object other than char ($3.2). | |
* An ``unordered'' binary operator (not comma, && or || ) contains a | |
side-effect to an lvalue in one operand, and a side-effect to, or an | |
access to the value of, the identical lvalue in the other operand | |
($3.3). | |
* A function is called but no prototype has been supplied ($3.3.2.2). | |
* The arguments in a function call do not agree in number and type | |
with those of the parameters in a function definition that is not a | |
prototype ($3.3.2.2). | |
* An object is defined but not used ($3.5). | |
* A value is given to an object of an enumeration type other than by | |
assignment of an enumeration constant that is a member of that type, | |
or an enumeration variable that has the same type, or the value of a | |
function that returns the same enumeration type ($3.5.2.2). | |
* An aggregate has a partly bracketed initialization ($3.5.7). | |
* A statement cannot be reached ($3.6). | |
* A statement with no apparent effect is encountered ($3.6). | |
* A constant expression is used as the controlling expression of a | |
selection statement ($3.6.4). | |
* A function has return statements with and without expressions ($3.6.6.4). | |
* An incorrectly formed preprocessing group is encountered while | |
skipping a preprocessing group ($3.8.1). | |
* An unrecognized #pragma directive is encountered ($3.8.6). | |
A.6 PORTABILITY ISSUES | |
This appendix collects some information about portability that | |
appears in the Standard. | |
A.6.1 Unspecified behavior | |
The following are unspecified: | |
* The manner and timing of static initialization ($2.1.2). | |
* The behavior if a printable character is written when the active | |
position is at the final position of a line ($2.2.2). | |
* The behavior if a backspace character is written when the active | |
position is at the initial position of a line ($2.2.2). | |
* The behavior if a horizontal tab character is written when the | |
active position is at or past the last defined horizontal tabulation | |
position ($2.2.2). | |
* The behavior if a vertical tab character is written when the active | |
position is at or past the last defined vertical tabulation position | |
($2.2.2). | |
* The representations of floating types ($3.1.2.5). | |
* The order in which expressions are evaluated --- in any order | |
conforming to the precedence rules, even in the presence of | |
parentheses ($3.3). | |
* The order in which side effects take place ($3.3). | |
* The order in which the function designator and the arguments in a | |
function call are evaluated ($3.3.2.2). | |
* The alignment of the addressable storage unit allocated to hold a | |
bit-field ($3.5.2.1). | |
* The layout of storage for parameters ($3.7.1). | |
* The order in which # and ## operations are evaluated during macro | |
substitution ($3.8.3.3). | |
* Whether errno is a macro or an external identifier ($4.1.3). | |
* Whether setjmp is a macro or an external identifier ($4.6.1.1). | |
* Whether va_end is a macro or an external identifier ($4.8.1.3). | |
* The value of the file position indicator after a successful call to | |
the ungetc function for a text stream, until all pushed-back | |
characters are read or discarded ($4.9.7.11). | |
* The details of the value stored by the fgetpos function on success | |
($4.9.9.1). | |
* The details of the value returned by the ftell function for a text | |
stream on success ($4.9.9.4). | |
* The order and contiguity of storage allocated by the calloc , | |
malloc , and realloc functions ($4.10.3). | |
* Which of two members that compare as equal is returned by the | |
bsearch function ($4.10.5.1). | |
* The order in an array sorted by the qsort function of two members | |
that compare as equal ($4.10.5.2). | |
* The encoding of the calendar time returned by the time function | |
($4.12.2.3). | |
A.6.2 Undefined behavior | |
The behavior in the following circumstances is undefined: | |
* A nonempty source file does not end in a new-line character, ends | |
in new-line character immediately preceded by a backslash character, | |
or ends in a partial preprocessing token or comment ($2.1.1.2). | |
* A character not in the required character set is encountered in a | |
source file, except in a preprocessing token that is never converted | |
to a token, a character constant, a string literal, or a comment | |
($2.2.1). | |
* A comment, string literal, character constant, or header name | |
contains an invalid multibyte character or does not begin and end in | |
the initial shift state ($2.2.1.2). | |
* An unmatched ' or character is encountered on a logical source line | |
during tokenization ($3.1). | |
* The same identifier is used more than once as a label in the same | |
function ($3.1.2.1). | |
* An identifier is used that is not visible in the current scope ($3.1.2.1). | |
* Identifiers that are intended to denote the same entity differ in a | |
character beyond the minimal significant characters ($3.1.2). | |
* The same identifier has both internal and external linkage in the | |
same translation unit ($3.1.2.2). | |
* An identifier with external linkage is used but there does not | |
exist exactly one external definition in the program for the | |
identifier ($3.1.2.2). | |
* The value stored in a pointer that referred to an object with | |
automatic storage duration is used ($3.1.2.4). | |
* Two declarations of the same object or function specify types that | |
are not compatible ($3.1.2.6). | |
* An unspecified escape sequence is encountered in a character | |
constant or a string literal ($3.1.3.4). | |
* An attempt is made to modify a string literal of either form ($3.1.4). | |
* A character string literal token is adjacent to a wide string | |
literal token ($3.1.4). | |
* The characters ', \ , , or /* are encountered between the < and > | |
delimiters or the characters ', \ , or /* are encountered between the | |
delimiters in the two forms of a header name preprocessing token | |
($3.1.7). | |
* An arithmetic conversion produces a result that cannot be | |
represented in the space provided ($3.2.1). | |
* An lvalue with an incomplete type is used in a context that | |
requires the value of the designated object ($3.2.2.1). | |
* The value of a void expression is used or an implicit conversion | |
(except to void ) is applied to a void expression ($3.2.2.2). | |
* An object is modified more than once, or is modified and accessed | |
other than to determine the new value, between two sequence points | |
($3.3). | |
* An arithmetic operation is invalid (such as division or modulus by 0) | |
or produces a result that cannot be represented in the space | |
provided (such as overflow or underflow) ($3.3). | |
* An object has its stored value accessed by an lvalue that does not | |
have one of the following types: the declared type of the object, a | |
qualified version of the declared type of the object, the signed or | |
unsigned type corresponding to the declared type of the object, the | |
signed or unsigned type corresponding to a qualified version of the | |
declared type of the object, an aggregate or union type that | |
(recursively) includes one of the aforementioned types among its | |
members, or a character type ($3.3). | |
* An argument to a function is a void expression ($3.3.2.2). | |
* For a function call without a function prototype, the number of | |
arguments does not agree with the number of parameters ($3.3.2.2). | |
* For a function call without a function prototype, if the function | |
is defined without a function prototype, and the types of the | |
arguments after promotion do not agree with those of the parameters | |
after promotion ($3.3.2.2). | |
* If a function is called with a function prototype and the function | |
is not defined with a compatible type ($3.3.2.2). | |
* A function that accepts a variable number of arguments is called | |
without a function prototype that ends with an ellipsis ($3.3.2.2). | |
* An invalid array reference, null pointer reference, or reference to | |
an object declared with automatic storage duration in a terminated | |
block occurs ($3.3.3.2). | |
* A pointer to a function is converted to point to a function of a | |
different type and used to call a function of a type not compatible | |
with the original type ($3.3.4). | |
* A pointer to a function is converted to a pointer to an object or a | |
pointer to an object is converted to a pointer to a function ($3.3.4). | |
* A pointer is converted to other than an integral or pointer type ($3.3.4). | |
* A pointer that is not to a member of an array object is added to or | |
subtracted from ($3.3.6). | |
* Pointers that are not to the same array object are subtracted ($3.3.6). | |
* An expression is shifted by a negative number or by an amount | |
greater than or equal to the width in bits of the expression being | |
shifted ($3.3.7). | |
* Pointers are compared using a relational operator that do not point | |
to the same aggregate or union ($3.3.8). | |
* An object is assigned to an overlapping object ($3.3.16.1). | |
* An identifier for an object is declared with no linkage and the | |
type of the object is incomplete after its declarator, or after its | |
init-declarator if it has an initializer ($3.5). | |
* A function is declared at block scope with a storage-class | |
specifier other than extern ($3.5.1). | |
* A bit-field is declared with a type other than int , signed int , | |
or unsigned int ($3.5.2.1). | |
* An attempt is made to modify an object with const-qualified type by | |
means of an lvalue with non-const-qualified type ($3.5.3). | |
* An attempt is made to refer to an object with volatile-qualified | |
type by means of an lvalue with non-volatile-qualified type ($3.5.3). | |
* The value of an uninitialized object that has automatic storage | |
duration is used before a value is assigned ($3.5.7). | |
* An object with aggregate or union type with static storage duration | |
has a non-brace-enclosed initializer, or an object with aggregate or | |
union type with automatic storage duration has either a single | |
expression initializer with a type other than that of the object or a | |
non-brace-enclosed initializer ($3.5.7). | |
* The value of a function is used, but no value was returned ($3.6.6.4). | |
* A function that accepts a variable number of arguments is defined | |
without a parameter type list that ends with the ellipsis notation | |
($3.7.1). | |
* An identifier for an object with internal linkage and an incomplete | |
type is declared with a tentative definition ($3.7.2). | |
* The token defined is generated during the expansion of a #if or | |
#elif preprocessing directive ($3.8.1). | |
* The #include preprocessing directive that results after expansion | |
does not match one of the two header name forms ($3.8.2). | |
* A macro argument consists of no preprocessing tokens ($3.8.3). | |
* There are sequences of preprocessing tokens within the list of | |
macro arguments that would otherwise act as preprocessing directive | |
lines ($3.8.3). | |
* The result of the preprocessing concatenation operator ## is not a | |
valid preprocessing token ($3.8.3). | |
* The #line preprocessing directive that results after expansion does | |
not match one of the two well-defined forms ($3.8.4). | |
* One of the following identifiers is the subject of a #define or | |
#undef preprocessing directive: defined , __LINE__ , __FILE__ , | |
__DATE__ , __TIME__ , or __STDC__ ($3.8.8). | |
* An attempt is made to copy an object to an overlapping object by | |
use of a library function other than memmove ($4.). | |
* The effect if the program redefines a reserved external identifier | |
($4.1.2). | |
* The effect if a standard header is included within an external | |
definition; is included for the first time after the first reference | |
to any of the functions or objects it declares, or to any of the types | |
or macros it defines; or is included while a macro is defined with a | |
name the same as a keyword ($4.1.2). | |
* A macro definition of errno is suppressed to obtain access to an | |
actual object ($4.1.3). | |
* The parameter member-designator of an offsetof macro is an invalid | |
right operand of the . operator for the type parameter or designates | |
bit-field member of a structure ($4.1.5). | |
* A library function argument has an invalid value, unless the | |
behavior is specified explicitly ($4.1.6). | |
* A library function that accepts a variable number of arguments is | |
not declared ($4.1.6). | |
* The macro definition of assert is suppressed to obtain access to an | |
actual function ($4.2). | |
* The argument to a character handling function is out of the domain ($4.3). | |
* A macro definition of setjmp is suppressed to obtain access to an | |
actual function ($4.6). | |
* An invocation of the setjmp macro occurs in a context other than as | |
the controlling expression in a selection or iteration statement, or | |
in a comparison with an integral constant expression (possibly as | |
implied by the unary ! operator) as the controlling expression of a | |
selection or iteration statement, or as an expression statement | |
(possibly cast to void ) ($4.6.1.1). | |
* An object of automatic storage class that does not have | |
volatile-qualified type has been changed between a setjmp invocation | |
and a longjmp call and then has its value accessed ($4.6.2.1). | |
* The longjmp function is invoked from a nested signal routine ($4.6.2.1). | |
* A signal occurs other than as the result of calling the abort or | |
raise function, and the signal handler calls any function in the | |
standard library other than the signal function itself or refers to | |
any object with static storage duration other than by assigning a | |
value to a static storage duration variable of type volatile | |
sig_atomic_t ($4.7.1.1). | |
* The value of errno is referred to after a signal occurs other than | |
as the result of calling the abort or raise function and the | |
corresponding signal handler calls the signal function such that it | |
returns the value SIG_ERR ($4.7.1.1). | |
* The macro va_arg is invoked with the parameter ap that was passed | |
to a function that invoked the macro va_arg with the same parameter | |
($4.8). | |
* A macro definition of va_start , va_arg , or va_end or a | |
combination thereof is suppressed to obtain access to an actual | |
function ($4.8.1). | |
* The parameter parmN of a va_start macro is declared with the | |
register storage class, or with a function or array type, or with a | |
type that is not compatible with the type that results after | |
application of the default argument promotions ($4.8.1.1). | |
* There is no actual next argument for a va_arg macro invocation | |
($4.8.1.2). | |
* The type of the actual next argument in a variable argument list | |
disagrees with the type specified by the va_arg macro ($4.8.1.2). | |
* The va_end macro is invoked without a corresponding invocation of | |
the va_start macro ($4.8.1.3). | |
* A return occurs from a function with a variable argument list | |
initialized by the va_start macro before the va_end macro is invoked | |
($4.8.1.3). | |
* The stream for the fflush function points to an input stream or to | |
an update stream in which the most recent operation was input | |
($4.9.5.2). | |
* An output operation on an update stream is followed by an input | |
operation without an intervening call to the fflush function or a file | |
positioning function, or an input operation on an update stream is | |
followed by an output operation without an intervening call to a file | |
positioning function ($4.9.5.3). | |
* The format for the fprintf or fscanf function does not match the | |
argument list ($4.9.6). | |
* An invalid conversion specification is found in the format for the | |
fprintf or fscanf function ($4.9.6). | |
* A %% conversion specification for the fprintf or fscanf function | |
contains characters between the pair of % characters ($4.9.6). | |
* A conversion specification for the fprintf function contains an h | |
or l with a conversion specifier other than d , i , n , o , u , x , or | |
X , or an L with a conversion specifier other than e , E , f , g , or | |
G ($4.9.6.1). | |
* A conversion specification for the fprintf function contains a # | |
flag with a conversion specifier other than o , x , X , e , E , f , g, | |
or G ($4.9.6.1). | |
* A conversion specification for the fprintf function contains a 0 | |
flag with a conversion specifier other than d , i , o , u , x , X , e, | |
E , f , g , or G ($4.9.6.1). | |
* An aggregate or union, or a pointer to an aggregate or union is an | |
argument to the fprintf function, except for the conversion specifiers | |
%s (for an array of character type) or %p (for a pointer to void ) | |
($4.9.6.1). | |
* A single conversion by the fprintf function produces more than 509 | |
characters of output ($4.9.6.1). | |
* A conversion specification for the fscanf function contains an h or | |
l with a conversion specifier other than d , i , n , o , u , or x , or | |
an L with a conversion specifier other than e , f , or g ($4.9.6.2). | |
* A pointer value printed by %p conversion by the fprintf function | |
during a previous program execution is the argument for %p conversion | |
by the fscanf function ($4.9.6.2). | |
* The result of a conversion by the fscanf function cannot be | |
represented in the space provided, or the receiving object does not | |
have an appropriate type ($4.9.6.2). | |
* The result of converting a string to a number by the atof , atoi , | |
or atol function cannot be represented ($4.10.1). | |
* The value of a pointer that refers to space deallocated by a call | |
to the free or realloc function is referred to ($4.10.3). | |
* The pointer argument to the free or realloc function does not match | |
a pointer earlier returned by calloc , malloc , or realloc , or the | |
object pointed to has been deallocated by a call to free or realloc | |
($4.10.3). | |
* A program executes more than one call to the exit function ($4.10.4.3). | |
* The result of an integer arithmetic function ( abs , div , labs , | |
or ldiv ) cannot be represented ($4.10.6). | |
* The shift states for the mblen , mbtowc , and wctomb functions are | |
not explicitly reset to the initial state when the LC_CTYPE category | |
of the current locale is changed ($4.10.7). | |
* An array written to by a copying or concatenation function is too | |
small ($4.11.2, $4.11.3). | |
* An invalid conversion specification is found in the format for the | |
strftime function ($4.12.3.5). | |
A.6.3 Implementation-defined behavior | |
Each implementation shall document its behavior in each of the | |
areas listed in this section. The following are | |
implementation-defined: | |
A.6.3.1 Environment | |
* The semantics of the arguments to main ($2.1.2.2). | |
* What constitutes an interactive device ($2.1.2.3). | |
A.6.3.2 Identifiers | |
* The number of significant initial characters (beyond 31) in an | |
identifier without external linkage ($3.1.2). | |
* The number of significant initial characters (beyond 6) in an | |
identifier with external linkage ($3.1.2). | |
* Whether case distinctions are significant in an identifier with | |
external linkage ($3.1.2). | |
A.6.3.3 Characters | |
* The members of the source and execution character sets, except as | |
explicitly specified in the Standard ($2.2.1). | |
* The shift states used for the encoding of multibyte characters $2.2.1.2). | |
* The number of bits in a character in the execution character set | |
($2.2.4.2). | |
* The mapping of members of the source character set (in character | |
constants and string literals) to members of the execution character | |
set ($3.1.3.4). | |
* The value of an integer character constant that contains a | |
character or escape sequence not represented in the basic execution | |
character set or the extended character set for a wide character | |
constant ($3.1.3.4). | |
* The value of an integer character constant that contains more than | |
one character or a wide character constant that contains more than one | |
multibyte character ($3.1.3.4). | |
* The current locale used to convert multibyte characters into | |
corresponding wide characters (codes) for a wide character constant | |
($3.1.3.4). | |
* Whether a ``plain'' char has the same range of values as signed | |
char or unsigned char ($3.2.1.1). | |
A.6.3.4 Integers | |
* The representations and sets of values of the various types of | |
integers ($3.1.2.5). | |
* The result of converting an integer to a shorter signed integer, or | |
the result of converting an unsigned integer to a signed integer of | |
equal length, if the value cannot be represented ($3.2.1.2). | |
* The results of bitwise operations on signed integers ($3.3). | |
* The sign of the remainder on integer division ($3.3.5). | |
* The result of a right shift of a negative-valued signed integral | |
type ($3.3.7). | |
A.6.3.5 Floating point | |
* The representations and sets of values of the various types of | |
floating-point numbers ($3.1.2.5). | |
* The direction of truncation when an integral number is converted to | |
a floating-point number that cannot exactly represent the original | |
value ($3.2.1.3). | |
* The direction of truncation or rounding when a floating-point | |
number is converted to a narrower floating-point number ($3.2.1.4). | |
A.6.3.6 Arrays and pointers | |
* The type of integer required to hold the maximum size of an array | |
--- that is, the type of the sizeof operator, size_t ($3.3.3.4, | |
$4.1.1). | |
* The result of casting a pointer to an integer or vice versa ($3.3.4). | |
* The type of integer required to hold the difference between two | |
pointers to members of the same array, ptrdiff_t ($3.3.6, $4.1.1). | |
A.6.3.7 Registers | |
* The extent to which objects can actually be placed in registers by | |
use of the register storage-class specifier ($3.5.1). | |
A.6.3.8 Structures, unions, enumerations, and bit-fields | |
* A member of a union object is accessed using a member of a | |
different type ($3.3.2.3). | |
* The padding and alignment of members of structures ($3.5.2.1). | |
This should present no problem unless binary data written by one | |
implementation are read by another. | |
* Whether a ``plain'' int bit-field is treated as a signed int | |
bit-field or as an unsigned int bit-field ($3.5.2.1). | |
* The order of allocation of bit-fields within an int ($3.5.2.1). | |
* Whether a bit-field can straddle a storage-unit boundary ($3.5.2.1). | |
* The integer type chosen to represent the values of an enumeration | |
type ($3.5.2.2). | |
A.6.3.9 Qualifiers | |
* What constitutes an access to an object that has volatile-qualified | |
type ($3.5.5.3). | |
A.6.3.10 Declarators | |
* The maximum number of declarators that may modify an arithmetic, | |
structure, or union type ($3.5.4). | |
A.6.3.11 Statements | |
* The maximum number of case values in a switch statement ($3.6.4.2). | |
A.6.3.12 Preprocessing directives | |
* Whether the value of a single-character character constant in a | |
constant expression that controls conditional inclusion matches the | |
value of the same character constant in the execution character set. | |
Whether such a character constant may have a negative value ($3.8.1). | |
* The method for locating includable source files ($3.8.2). | |
* The support of quoted names for includable source files ($3.8.2). | |
* The mapping of source file character sequences ($3.8.2). | |
* The behavior on each recognized #pragma directive ($3.8.6). | |
* The definitions for __DATE__ and __TIME__ when respectively, the | |
date and time of translation are not available ($3.8.8). | |
A.6.3.13 Library functions | |
* The null pointer constant to which the macro NULL expands ($4.1.5). | |
* The diagnostic printed by and the termination behavior of the | |
assert function ($4.2). | |
* The sets of characters tested for by the isalnum , isalpha , | |
iscntrl , islower , isprint , and isupper functions ($4.3.1). | |
* The values returned by the mathematics functions on domain errors | |
($4.5.1). | |
* Whether the mathematics functions set the integer expression errno | |
to the value of the macro ERANGE on underflow range errors ($4.5.1). | |
* Whether a domain error occurs or zero is returned when the fmod | |
function has a second argument of zero ($4.5.6.4). | |
* The set of signals for the signal function ($4.7.1.1). | |
* The semantics for each signal recognized by the signal function | |
($4.7.1.1). | |
* The default handling and the handling at program startup for each | |
signal recognized by the signal function ($4.7.1.1). | |
* If the equivalent of signal(sig, SIG_DFL); is not executed prior to | |
the call of a signal handler, the blocking of the signal that is | |
performed ($4.7.1.1). | |
* Whether the default handling is reset if the SIGILL signal is | |
received by a handler specified to the signal function ($4.7.1.1). | |
* Whether the last line of a text stream requires a terminating | |
new-line character ($4.9.2). | |
* Whether space characters that are written out to a text stream | |
immediately before a new-line character appear when read in ($4.9.2). | |
* The number of null characters that may be appended to data written | |
to a binary stream ($4.9.2). | |
* Whether the file position indicator of an append mode stream is | |
initially positioned at the beginning or end of the file ($4.9.3). | |
* Whether a write on a text stream causes the associated file to be | |
truncated beyond that point ($4.9.3). | |
* The characteristics of file buffering ($4.9.3). | |
* Whether a zero-length file actually exists ($4.9.3). | |
* The rules for composing valid file names ($4.9.3). | |
* Whether the same file can be open multiple times ($4.9.3). | |
* The effect of the remove function on an open file ($4.9.4.1). | |
* The effect if a file with the new name exists prior to a call to | |
the rename function ($4.9.4.2). | |
* The output for %p conversion in the fprintf function ($4.9.6.1). | |
* The input for %p conversion in the fscanf function ($4.9.6.2). | |
* The interpretation of a - character that is neither the first nor | |
the last character in the scanlist for %[ conversion in the fscanf | |
function ($4.9.6.2). | |
* The value to which the macro errno is set by the fgetpos or ftell | |
function on failure ($4.9.9.1, $4.9.9.4). | |
* The messages generated by the perror function ($4.9.10.4). | |
* The behavior of the calloc , malloc , or realloc function if the | |
size requested is zero ($4.10.3). | |
* The behavior of the abort function with regard to open and | |
temporary files ($4.10.4.1). | |
* The status returned by the exit function if the value of the | |
argument is other than zero, EXIT_SUCCESS , or EXIT_FAILURE | |
($4.10.4.3). | |
* The set of environment names and the method for altering the | |
environment list used by the getenv function ($4.10.4.4). | |
* The contents and mode of execution of the string by the system | |
function ($4.10.4.5). | |
* The contents of the error message strings returned by the strerror | |
function ($4.11.6.2). | |
* The local time zone and Daylight Saving Time ($4.12.1). | |
* The era for the clock function ($4.12.2.1). | |
A.6.4 Locale-specific Behavior | |
The following characteristics of a hosted environment are locale-specific: | |
* The content of the execution character set, in addition to the | |
required members ($2.2.1). | |
* The direction of printing ($2.2.2). | |
* The decimal-point character ($4.1.1). | |
* The implementation-defined aspects of character testing and case | |
mapping functions ($4.3). | |
* The collation sequence of the execution character set ($4.11.4.4). | |
* The formats for time and date ($4.12.3.5). | |
A.6.5 Common extensions | |
The following extensions are widely used in many systems, but are | |
not portable to all implementations. The inclusion of any extension | |
that may cause a strictly conforming program to become invalid renders | |
an implementation nonconforming. Examples of such extensions are new | |
keywords, or library functions declared in standard headers or | |
predefined macros with names that do not begin with an underscore. | |
A.6.5.1 Environment arguments | |
In a hosted environment, the main function receives a third | |
argument, char *envp[] , that points to a null-terminated array of | |
pointers to char , each of which points to a string that provides | |
information about the environment for this execution of the process | |
($2.1.2.2). | |
A.6.5.2 Specialized identifiers | |
Characters other than the underscore _ , letters, and digits, that | |
are not defined in the required source character set (such as the | |
dollar sign $ , or characters in national character sets) may appear | |
in an identifier ($3.1.2). | |
A.6.5.3 Lengths and cases of identifiers | |
All characters in identifiers (with or without external linkage) | |
are significant and case distinctions are observed ($3.1.2). | |
A.6.5.4 Scopes of identifiers | |
A function identifier, or the identifier of an object the | |
declaration of which contains the keyword extern , has file scope | |
($3.1.2.1). | |
A.6.5.5 Writable string literals | |
String literals are modifiable. Identical string literals shall be | |
distinct ($3.1.4). | |
A.6.5.6 Other arithmetic types | |
Other arithmetic types, such as long long int , and their | |
appropriate conversions are defined ($3.2.2.1). | |
A.6.5.7 Function pointer casts | |
A pointer to an object or to void may be cast to a pointer to a | |
function, allowing data to be invoked as a function ($3.3.4). A | |
pointer to a function may be cast to a pointer to an object or to void | |
, allowing a function to be inspected or modified (for example, by a | |
debugger) ($3.3.4). | |
A.6.5.8 Non-int bit-field types | |
Types other than int , unsigned int , or signed int can be declared | |
as bit-fields, with appropriate maximum widths ($3.5.2.1). | |
A.6.5.9 The fortran keyword | |
The fortran type specifier may be used in a function declaration to | |
indicate that function linkage suitable for FORTRAN is to be | |
generated, or that different representations for external names are to | |
be generated ($3.5.4.3). | |
A.6.5.10 The asm keyword | |
The asm keyword may be used to insert assembly-language code | |
directly into the translator output. The most common implementation | |
is via a statement of the form | |
asm ( character-string-literal ); | |
($3.6). | |
A.6.5.11 Multiple external definitions | |
There may be more than one external definition for the identifier | |
of an object, with or without the explicit use of the keyword extern , | |
If the definitions disagree, or more than one is initialized, the | |
behavior is undefined ($3.7.2). | |
A.6.5.12 Empty macro arguments | |
A macro argument may consist of no preprocessing tokens ($3.8.3). | |
A.6.5.13 Predefined macro names | |
Macro names that do not begin with an underscore, describing the | |
translation and execution environments, may be defined by the | |
implementation before translation begins ($3.8.8). | |
A.6.5.14 Extra arguments for signal handlers | |
Handlers for specific signals may be called with extra arguments in | |
addition to the signal number ($4.7.1.1). | |
A.6.5.15 Additional stream types and file-opening modes | |
Additional mappings from files to streams may be supported | |
($4.9.2), and additional file-opening modes may be specified by | |
characters appended to the mode argument of the fopen function | |
($4.9.5.3). | |
A.6.5.16 Defined file position indicator | |
The file position indicator is decremented by each successful call | |
to the ungetc function for a text stream, except if its value was zero | |
before a call ($4.9.7.11). | |
A.7 INDEX | |
Only major references are listed. | |
absolute-value functions, 4.5.6.2, 4.10.6.1 | |
abstract declarator, type name, 3.5.5 | |
abstract machine, 2.1.2.3 | |
abstract semantics, 2.1.2.3 | |
active position, 2.2.2 | |
addition assignment operator, +=, 3.3.16.2 | |
addition operator, +, 3.3.6 | |
additive expressions, 3.3.6 | |
address operator, &, 3.3.3.2 | |
aggregate type, 3.1.2.5 | |
alert escape sequence, \a, 2.2.2, 3.1.3.4 | |
alignment, definition of, 1.6 | |
alignment of structure members, 3.5.2.1 | |
AND operator, bitwise, &, 3.3.10 | |
AND operator, logical, &&, 3.3.13 | |
argument, function, 3.3.2.2 | |
argument, 1.6 | |
argument promotion, default, 3.3.2.2 | |
arithmetic conversions, usual, 3.2.1.5 | |
arithmetic operators, unary, 3.3.3.3 | |
arithmetic type, 3.1.2.5 | |
array declarator, 3.5.4.2 | |
array parameter, 3.7.1 | |
array subscript operator, [ ], 3.3.2.1 | |
array type, 3.1.2.5 | |
array type conversion, 3.2.2.1 | |
arrow operator, ->, 3.3.2.3 | |
ASCII character set, 2.2.1.1 | |
assignment operators, 3.3.16 | |
asterisk punctuator, *, 3.1.6, 3.5.4.1 | |
automatic storage, reentrancy, 2.1.2.3, 2.2.3 | |
automatic storage duration, 3.1.2.4 | |
backslash character, \, 2.1.1.2, 2.2.1 | |
backspace escape sequence, \b, 2.2.2, 3.1.3.4 | |
base documents, 1.5 | |
basic character set, 1.6, 2.2.1 | |
basic type, 3.1.2.5 | |
binary stream, 4.9.2 | |
bit, definition of, 1.6 | |
bit, high-order, 1.6 | |
bit, low-order, 1.6 | |
bit-field structure member, 3.5.2.1 | |
bitwise operators, 3.3, 3.3.7, 3.3.10, 3.3.11, 3.3.12 | |
block, 3.6.2 | |
block identifier scope, 3.1.2.1 | |
braces punctuator, { }, 3.1.6, 3.5.7, 3.6.2 | |
brackets punctuator, [ ], 3.1.6, 3.3.2.1, 3.5.4.2 | |
broken-down-time type, 4.12.1 | |
byte, definition of, 1.6 | |
C program, 2.1.1.1 | |
C Standard, definition of terms, 1.6 | |
C Standard, organization of document, 1.4 | |
C Standard, purpose of, 1.1 | |
C Standard, references, 1.3 | |
C Standard, scope, restrictions and limits, 1.2 | |
carriage-return escape sequence, \r, 2.2.2, 3.1.3.4 | |
case mapping functions, 4.3.2 | |
cast expressions, 3.3.4 | |
cast operator, ( ), 3.3.4 | |
character, 1.6 | |
character case mapping functions, 4.3.2 | |
character constant, 2.1.1.2, 2.2.1, 3.1.3.4 | |
character display semantics, 2.2.2 | |
character handling header, 4.3 | |
character input/output functions, 4.9.7 | |
character sets, 2.2.1 | |
character string literal, 2.1.1.2, 3.1.4 | |
character testing functions, 4.3.1 | |
character type, 3.1.2.5, 3.2.2.1, 3.5.7 | |
character type conversion, 3.2.1.1 | |
collating sequence, character set, 2.2.1 | |
colon punctuator, :, 3.1.6, 3.5.2.1 | |
comma operator, ,, 3.3.17 | |
command processor, 4.10.4.5 | |
comment delimiters, /* */, 3.1.9 | |
comments, 2.1.1.2, 3.1, 3.1.9 | |
common initial sequence, 3.3.2.3 | |
comparison functions, 4.11.4 | |
compatible type, 3.1.2.6, 3.5.2, 3.5.3, 3.5.4 | |
complement operator, ~, 3.3.3.3 | |
compliance, 1.7 | |
composite type, 3.1.2.6 | |
compound assignment operators, 3.3.16.2 | |
compound statement, 3.6.2 | |
concatenation functions, 4.11.3 | |
conceptual models, 2.1 | |
conditional inclusion, 3.8.1 | |
conditional operator, ? :, 3.3.15 | |
conforming freestanding implementation, 1.7 | |
conforming hosted implementation, 1.7 | |
conforming implementation, 1.7 | |
conforming program, 1.7 | |
const-qualified type, 3.1.2.5, 3.2.2.1, 3.5.3 | |
constant, character, 3.1.3.4 | |
constant, enumeration, 3.1.2, 3.1.3.3 | |
constant, floating, 3.1.3.1 | |
constant, integer, 3.1.3.2 | |
constant, primary expression, 3.3.1 | |
constant expressions, 3.4 | |
constants, 3.1.3 | |
constraints, definition of, 1.6 | |
content, structure/union/enumeration, 3.5.2.3 | |
contiguity, memory allocation, 4.10.3 | |
control characters, 2.2.1, 4.3.1, 4.3.1.3 | |
conversion, arithmetic operands, 3.2.1 | |
conversion, array, 3.2.2.1 | |
conversion, characters and integers, 3.2.1.1 | |
conversion, explicit, 3.2 | |
conversion, floating and integral, 3.2.1.3 | |
conversion, floating types, 3.2.1.4, 3.2.1.5 | |
conversion, function, 3.2.2.1 | |
conversion, function arguments, 3.3.2.2, 3.7.1 | |
conversion, implicit, 3.2 | |
conversion, pointer, 3.2.2.1, 3.2.2.3 | |
conversion, signed and unsigned integers, 3.2.1.2 | |
conversion, void type, 3.2.2.2 | |
conversions, 3.2 | |
conversions, usual arithmetic, 3.2.1.5 | |
copying functions, 4.11.2 | |
data streams, 4.9.2 | |
date and time header, 4.12 | |
decimal constant, 3.1.3.2 | |
decimal digits, 2.2.1 | |
decimal-point character, 4.1.1 | |
declaration specifiers, 3.5 | |
declarations, 3.5 | |
declarators, 3.5.4 | |
declarator type derivation, 3.1.2.5, 3.5.4 | |
decrement operator, postfix, --, 3.3.2.4 | |
decrement operator, prefix, --, 3.3.3.1 | |
default argument promotions, 3.3.2.2 | |
definition, 3.5 | |
derived declarator types, 3.1.2.5 | |
derived types, 3.1.2.5 | |
device input/output, 2.1.2.3 | |
diagnostics, 2.1.1.3 | |
diagnostics, assert.h, 4.2 | |
direct input/output functions, 4.9.8 | |
display device, 2.2.2 | |
division assignment operator, /=, 3.3.16.2 | |
division operator, /, 3.3.5 | |
documentation of implementation, 1.7 | |
domain error, 4.5.1 | |
dot operator, ., 3.3.2.3 | |
double-precision arithmetic, 2.1.2.3 | |
element type, 3.1.2.5 | |
ellipsis, unspecified parameters, , ..., 3.5.4.3 | |
end-of-file macro, EOF, 4.3, 4.9.1 | |
end-of-file indicator, 4.9.1, 4.9.7.1 | |
end-of-line indicator, 2.2.1 | |
enumerated types, 3.1.2.5 | |
enumeration constant, 3.1.2, 3.1.3.3 | |
enumeration content, 3.5.2.3 | |
enumeration members, 3.5.2.2 | |
enumeration specifiers, 3.5.2.2 | |
enumeration tag, 3.5.2.3 | |
enumerator, 3.5.2.2 | |
environment, 2 | |
environment functions, 4.10.4 | |
environment list, 4.10.4.4 | |
environmental considerations, 2.2 | |
environmental limits, 2.2.4 | |
equal-sign punctuator, =, 3.1.6, 3.5, 3.5.7 | |
equal-to operator, ==, 3.3.9 | |
equality expressions, 3.3.9 | |
error, domain, 4.5.1 | |
error, range, 4.5.1 | |
error conditions, 4.5.1 | |
error handling functions, 4.9.10, 4.11.6.2 | |
error indicator, 4.9.1, 4.9.7.1, 4.9.7.3 | |
escape sequences, 2.2.1, 2.2.2, 3.1.3.4 | |
evaluation, 3.1.5, 3.3 | |
exception, 3.3 | |
exclusive OR assignment operator, ^=, 3.3.16.2 | |
exclusive OR operator, ^, 3.3.11 | |
executable program, 2.1.1.1 | |
execution environment, character sets, 2.2.1 | |
execution environment limits, 2.2.4.2 | |
execution environments, 2.1.2 | |
execution sequence, 2.1.2.3, 3.6 | |
explicit conversion, 3.2 | |
exponent part, floating constant, 3.1.3.1 | |
exponential functions, 4.5.4 | |
expression, 3.3 | |
expression, full, 3.6 | |
expression, primary, 3.3.1 | |
expression, unary, 3.3.3 | |
expression statement, 3.6.3 | |
extended character set, 1.6, 2.2.1.2 | |
external definitions, 3.7 | |
external identifiers, underscore, 4.1.2 | |
external linkage, 3.1.2.2 | |
external name, 3.1.2 | |
external object definitions, 3.7.2 | |
file, closing, 4.9.3 | |
file, creating, 4.9.3 | |
file, opening, 4.9.3 | |
file access functions, 4.9.5 | |
file identifier scope, 3.1.2.1, 3.7 | |
file name, 4.9.3 | |
file operations, 4.9.4 | |
file position indicator, 4.9.3 | |
file positioning functions, 4.9.9 | |
files, 4.9.3 | |
floating arithmetic functions, 4.5.6 | |
floating constants, 3.1.3.1 | |
floating suffix, f or F, 3.1.3.1 | |
floating types, 3.1.2.5 | |
floating-point numbers, 3.1.2.5 | |
form-feed character, 2.2.1, 3.1 | |
form-feed escape sequence, \f, 2.2.2, 3.1.3.4 | |
formatted input/output functions, 4.9.6 | |
forward references, definition of, 1.6 | |
freestanding execution environment, 2.1.2, 2.1.2.1 | |
full expression, 3.6 | |
fully buffered stream, 4.9.3 | |
function, definition of, 1.6, 3.5.4.3 | |
function, recursive call, 3.3.2.2 | |
function argument, 3.3.2.2 | |
function body, 3.7, 3.7.1 | |
function call, 3.3.2.2 | |
function call, library, 4.1.6 | |
function declarator, 3.5.4.3 | |
function definition, 3.5.4.3, 3.7.1 | |
function designator, 3.2.2.1 | |
function identifier scope, 3.1.2.1 | |
function image, 2.2.3 | |
function library, 2.1.1.1, 4.1.6 | |
function parameter, 2.1.2.2, 3.3.2.2 | |
function prototype, 3.1.2.1, 3.3.2.2, 3.5.4.3, 3.7.1 | |
function prototype identifier scope, 3.1.2.1 | |
function return, 3.6.6.4 | |
function type, 3.1.2.5 | |
function type conversion, 3.2.2.1 | |
function-call operator, ( ), 3.3.2.2 | |
future directions, 1.8, 3.9, 4.13 | |
future language directions, 3.9 | |
future library directions, 4.13 | |
general utility library, 4.10 | |
graphic characters, 2.2.1 | |
greater-than operator, >, 3.3.8 | |
greater-than-or-equal-to operator, >=, 3.3.8 | |
header names, 3.1, 3.1.7, 3.8.2 | |
headers, 4.1.2 | |
hexadecimal constant, 3.1.3.2 | |
hexadecimal digit, 3.1.3.2, 3.1.3.4 | |
hexadecimal escape sequence, 3.1.3.4 | |
high-order bit, 1.6 | |
horizontal-tab character, 2.2.1, 3.1 | |
horizontal-tab escape sequence, \t, 2.2.2, 3.1.3.4 | |
hosted execution environment, 2.1.2, 2.1.2.2 | |
hyperbolic functions, 4.5.3 | |
identifier, 3.1.2, 3.3.1 | |
identifier, maximum length, 3.1.2 | |
identifier, reserved, 4.1.2 | |
identifier linkage, 3.1.2.2 | |
identifier list, 3.5.4 | |
identifier name space, 3.1.2.3 | |
identifier scope, 3.1.2.1 | |
identifier type, 3.1.2.5 | |
IEEE floating-point arithmetic standard, 2.2.4.2 | |
implementation, definition of, 1.6 | |
implementation limits, 1.6, 2.2.4 | |
implementation-defined behavior, 1.6 | |
implicit conversion, 3.2 | |
implicit function declaration, 3.3.2.2 | |
inclusive OR assignment operator, |=, 3.3.16.2 | |
inclusive OR operator, |, 3.3.12 | |
incomplete type, 3.1.2.5 | |
increment operator, postfix, ++, 3.3.2.4 | |
increment operator, prefix, ++, 3.3.3.1 | |
indirection operator, *, 3.3.3.2 | |
inequality operator, !=, 3.3.9 | |
initialization, 2.1.2, 3.1.2.4, 3.2.2.1, 3.5.7, 3.6.2 | |
initializer, string literal, 3.2.2.1, 3.5.7 | |
initializer braces, 3.5.7 | |
initial shift state, 2.2.1.2, 4.10.7 | |
input/output, device, 2.1.2.3 | |
input/output header, 4.9 | |
integer arithmetic functions, 4.10.6 | |
integer character constant, 3.1.3.4 | |
integer constants, 3.1.3.2 | |
integer suffix, 3.1.3.2 | |
integer type, 3.1.2.5 | |
integer type conversion, 3.2.1.1, 3.2.1.2 | |
integral constant expression, 3.4 | |
integral promotions, 2.1.2.3, 3.2.1.1 | |
integral type, 3.1.2.5 | |
integral type conversion, 3.2.1.3 | |
interactive device, 2.1.2.3, 4.9.3, 4.9.5.3 | |
internal linkage, 3.1.2.2 | |
internal name, 3.1.2 | |
interrupt handler, 2.1.2.3, 2.2.3, 4.7 | |
ISO 4217 Currency and Funds Representation, 1.3, 4.4.2.1 | |
ISO 646 Invariant Code Set, 1.3, 2.2.1.1 | |
iteration statements, 3.6.5 | |
jump statements, 3.6.6 | |
keywords, 3.1.1 | |
label name, 3.1.2.1, 3.1.2.3 | |
labeled statements, 3.6.1 | |
language, 3 language, future directions, 3.9 | |
leading underscore in identifiers, 4.1.2 | |
left-shift assignment operator, <<=, 3.3.16.2 | |
left-shift operator, <<, 3.3.7 | |
length function, 4.11.6.3 | |
less-than operator, <, 3.3.8 | |
less-than-or-equal-to operator, <=, 3.3.8 | |
letter, 4.1.1 | |
lexical elements, 2.1.1.2, 3.1 | |
library, 2.1.1.1, 4 | |
library, future directions, 4.13 | |
library functions, use of, 4.1.6 | |
library terms, 4.1.1 | |
limits, environmental, 2.2.4 | |
limits, numerical, 2.2.4.2 | |
limits, translation, 2.2.4.1 | |
line buffered stream, 4.9.3 | |
line number, 3.8.4 | |
lines, 2.1.1.2, 3.8, 4.9.2 | |
linkages of identifiers, 3.1.2.2 | |
locale, definition of, 1.6 | |
localization, 4.4 | |
logarithmic functions, 4.5.4 | |
logical AND operator, &&, 3.3.13 | |
logical negation operator, !, 3.3.3.3 | |
logical OR operator, ||, 3.3.14 | |
logical source lines, 2.1.1.2 | |
long double suffix, l or L, 3.1.3.1 | |
long integer suffix, l or L, 3.1.3.2 | |
low-order bit, 1.6 lvalue, 3.2.2.1, 3.3.1, 3.3.2.4, 3.3.3.1, 3.3.16 | |
macro function vs. definition, 4.1.6 | |
macro name definition, 2.2.4.1 | |
macro names, predefined, 3.8.8 | |
macro, redefinition of, 3.8.3 | |
macro replacement, 3.8.3 | |
member-access operators, . and ->, 3.3.2.3 | |
memory management functions, 4.10.3 | |
minus operator, unary, -, 3.3.3.3 | |
modifiable lvalue, 3.2.2.1 | |
modulus function, 4.5.4.6 | |
multibyte characters, 2.2.1.2, 3.1.3.4, 4.10.7, 4.10.8 | |
multibyte functions, 4.10.7, 4.10.8 | |
multiplication assignment operator, *=, 3.3.16.2 | |
multiplication operator, *, 3.3.5 | |
multiplicative expressions, 3.3.5 | |
name, file, 4.9.3 | |
name spaces of identifiers, 3.1.2.3 | |
nearest-integer functions, 4.5.6 | |
new-line character, 2.1.1.2, 2.2.1, 3.1, 3.8, 3.8.4 | |
new-line escape sequence, \n, 2.2.2, 3.1.3.4 | |
nongraphic characters, 2.2.2, 3.1.3.4 | |
nonlocal jumps header, 4.6 | |
not-equal-to operator, !=, 3.3.9 | |
null character padding of binary streams, 4.9.2 | |
null character, \0, 2.2.1, 3.1.3.4, 3.1.4 | |
null pointer, 3.2.2.3 | |
null pointer constant, 3.2.2.3 | |
null preprocessing directive, 3.8.7 | |
null statement, 3.6.3 | |
number, floating-point, 3.1.2.5 | |
numerical limits, 2.2.4.2 | |
object, definition of, 1.6 | |
object type, 3.1.2.5 | |
obsolescence, 1.8, 3.9, 4.13 | |
octal constant, 3.1.3.2 | |
octal digit, 3.1.3.2, 3.1.3.4 | |
octal escape sequence, 3.1.3.4 | |
operand, 3.1.5, 3.3 | |
operating system, 2.1.2.1, 4.10.4.5 | |
operator, unary, 3.3.3 | |
operators, 3.1.5, 3.3 | |
OR assignment operator, exclusive, ^=, 3.3.16.2 | |
OR assignment operator, inclusive, |=, 3.3.16.2 | |
OR operator, exclusive, ^, 3.3.11 | |
OR operator, inclusive, |, 3.3.12 | |
OR operator, logical, ||, 3.3.14 | |
order of memory allocation, 4.10.3 | |
order of evaluation of expression, 3.3 | |
ordinary identifier name space, 3.1.2.3 | |
padding, null character, 4.9.2 | |
parameter, ellipsis, , ..., 3.5.4.3 | |
parameter, function, 3.3.2.2 | |
parameter, main function, 2.1.2.2 | |
parameter, 1.6 | |
parameter type list, 3.5.4.3 | |
parameters, program, 2.1.2.2 | |
parentheses punctuator, ( ), 3.1.6, 3.5.4.3 | |
parenthesized expression, 3.3.1 | |
physical source lines, 2.1.1.2 | |
plus operator, unary, +, 3.3.3.3 | |
pointer, null, 3.2.2.3 | |
pointer declarator, 3.5.4.1 | |
pointer operator, ->, 3.3.2.3 | |
pointer to function returning type, 3.3.2.2 | |
pointer type, 3.1.2.5 | |
pointer type conversion, 3.2.2.1, 3.2.2.3 | |
portability of implementations, 1.7 | |
position indicator, file, 4.9.3 | |
postfix decrement operator, --, 3.3.2.4 | |
postfix expressions, 3.3.2 | |
postfix increment operator, ++, 3.3.2.4 | |
power functions, 4.5.5 | |
precedence of expression operators, 3.3 | |
precedence of syntax rules, 2.1.1.2 | |
predefined macro names, 3.8.8 | |
prefix decrement operator, --, 3.3.3.1 | |
prefix increment operator, ++, 3.3.3.1 | |
preprocessing concatenation, 2.1.1.2, 3.8.3 | |
preprocessing directives, 2.1.1.2, 3.8 | |
preprocessing numbers, 3.1, 3.1.8 | |
preprocessing tokens, 2.1.1.2, 3.1, 3.8 | |
primary expressions, 3.3.1 | |
printing characters, 2.2.2, 4.3.1, 4.3.1.7 | |
program, conforming, 1.7 | |
program, strictly conforming, 1.7 | |
program diagnostics, 4.2.1 | |
program execution, 2.1.2.3 | |
program file, 2.1.1.1 | |
program image, 2.1.1.2 | |
program name, argv[0], 2.1.2.2 | |
program parameters, 2.1.2.2 | |
program startup, 2.1.2, 2.1.2.1, 2.1.2.2 | |
program structure, 2.1.1.1 | |
program termination, 2.1.2, 2.1.2.1, 2.1.2.2, 2.1.2.3 | |
promotions, default argument, 3.3.2.2 | |
promotions, integral, 2.1.2.3, 3.2.1.1 | |
prototype, function, 3.1.2.1, 3.3.2.2, 3.5.4.3, 3.7.1 | |
pseudo-random sequence functions, 4.10.2 | |
punctuators, 3.1.6 | |
qualified types, 3.1.2.5 | |
range error, 4.5.1 | |
recursive function call, 3.3.2.2 | |
redefinition of macro, 3.8.3 | |
reentrancy, 2.1.2.3, 2.2.3 | |
referenced type, 3.1.2.5 | |
relational expressions, 3.3.8 | |
reliability of data, interrupted, 2.1.2.3 | |
remainder assignment operator, %=, 3.3.16.2 | |
remainder operator, %, 3.3.5 | |
restore calling environment function, 4.6.2.1 | |
reserved identifiers, 4.1.2 | |
right-shift assignment operator, >>=, 3.3.16.2 | |
right-shift operator, >>, 3.3.7 | |
rvalue, 3.2.2.1 | |
save calling environment function, 4.6.1.1 | |
scalar type, 3.1.2.5 | |
scope of identifiers, 3.1.2.1 | |
search functions, 4.10.5.1, 4.11.5 | |
selection statements, 3.6.4 | |
semicolon punctuator, ;, 3.1.6, 3.5, 3.6.3 | |
sequence points, 2.1.2.3, 3.3, 3.6 | |
shift expressions, 3.3.7 | |
shift states, 2.2.1.2, 4.10.7 | |
side effects, 2.1.2.3, 3.3 | |
signal handler, 2.2.3, 4.7.1.1 | |
signals, 2.1.2.3, 2.2.3, 4.7 | |
signed integer types, 3.1.2.5, 3.1.3.2, 3.2.1.2 | |
simple assignment operator, =, 3.3.16.1 | |
single-precision arithmetic, 2.1.2.3 | |
sort function, 4.10.5.2 | |
source character set, 2.2.1 | |
source file inclusion, 3.8.2 | |
source files, 2.1.1.1 | |
source text, 2.1.1.2 | |
space character, 2.1.1.2, 2.2.1, 3.1 | |
standard streams, 4.9.1, 4.9.3 | |
standard header, float.h, 1.7, 2.2.4.2, 4.1.4 | |
standard header, limits.h, 1.7, 2.2.4.2, 4.1.4 | |
standard header, stdarg.h, 1.7, 4.8 | |
standard header, stddef.h, 1.7, 4.1.5 | |
standard headers, 4.1.2 | |
state-dependent encoding, 2.2.1.2, 4.10.7 | |
statements, 3.6 | |
static storage duration, 3.1.2.4 | |
storage duration, 3.1.2.4 | |
storage-class specifier, 3.5.1 | |
stream, fully buffered, 4.9.3 | |
stream, line buffered, 4.9.3 | |
stream, standard error, stderr, 4.9.1, 4.9.3 | |
stream, standard input, stdin, 4.9.1, 4.9.3 | |
stream, standard output, stdout, 4.9.1, 4.9.3 | |
stream, unbuffered, 4.9.3 | |
streams, 4.9.2 | |
strictly conforming program, 1.7 | |
string, 4.1.1 | |
string conversion functions, 4.10.1 | |
string handling header, 4.11 | |
string length, 4.1.1, 4.11.6.3 | |
string literal, 2.1.1.2, 2.2.1, 3.1.4, 3.3.1, 3.5.7 | |
structure/union arrow operator, ->, 3.3.2.3 | |
structure/union content, 3.5.2.3 | |
structure/union dot operator, ., 3.3.2.3 | |
structure/union member name space, 3.1.2.3 | |
structure/union specifiers, 3.5.2.1 | |
structure/union tag, 3.5.2.3 | |
structure/union type, 3.1.2.5, 3.5.2.1 | |
subtraction assignment operator, -=, 3.3.16.2 | |
subtraction operator, -, 3.3.6 | |
suffix, floating constant, 3.1.3.1 | |
suffix, integer constant, 3.1.3.2 | |
switch body, 3.6.4.2 | |
switch case label, 3.6.1, 3.6.4.2 | |
switch default label, 3.6.1, 3.6.4.2 | |
syntactic categories, 3 | |
syntax notation, 3 | |
syntax rules, precedence of, 2.1.1.2 | |
tab characters, 2.2.1 | |
tabs, white space, 3.1 | |
tag, enumeration, 3.5.2.3 | |
tag, structure/union, 3.5.2.3 | |
tag name space, 3.1.2.3 | |
tentative definitions, 3.7.2 | |
text stream, 4.9.2 | |
time components, 4.12.1 | |
time conversion functions, 4.12.3 | |
time manipulation functions, 4.12.2 | |
tokens, 2.1.1.2, 3.1, 3.8 | |
top type, 3.1.2.5 | |
translation environment, 2.1.1 | |
translation limits, 2.2.4.2 | |
translation phases, 2.1.1.2 | |
translation unit, 2.1.1.1, 3.7 | |
trigonometric functions, 4.5.2 | |
trigraph sequences, 2.1.1.2, 2.2.1.1 | |
type, character, 3.1.2.5, 3.2.2.1, 3.5.7 | |
type, compatible, 3.1.2.6, 3.5.2, 3.5.3, 3.5.4 | |
type, composite, 3.1.2.6 | |
type, const-qualified, 3.1.2.5, 3.5.3 | |
type, function, 3.1.2.5 | |
type, incomplete, 3.1.2.5 | |
type, object, 3.1.2.5 | |
type, qualified, 3.1.2.5 | |
type, unqualified, 3.1.2.5 | |
type, volatile-qualified, 3.1.2.5, 3.5.3 | |
type conversions, 3.2 | |
type definitions, 3.5.6 | |
type names, 3.5.5 | |
type specifiers, 3.5.2 | |
type qualifiers, 3.5.3 | |
types, 3.1.2.5 | |
unary arithmetic operators, 3.3.3.3 | |
unary expressions, 3.3.3 | |
unary minus operator, -, 3.3.3.3 | |
unary operators, 3.3.3 | |
unary plus operator, +, 3.3.3.3 | |
unbuffered stream, 4.9.3 | |
undefined behavior, 1.6 | |
underscore, leading, in identifiers, 4.1.2 | |
union tag, 3.5.2.3 | |
union type specifier, 3.1.2.5, 3.5.2, 3.5.2.1 | |
unqualified type, 3.1.2.5 | |
unsigned integer suffix, u or U, 3.1.3.2 | |
unsigned integer types, 3.1.2.5, 3.1.3.2 | |
unspecified behavior, 1.6 | |
usual arithmetic conversions, 3.2.1.5 | |
value part, floating constant, 3.1.3.1 | |
variable arguments header, 4.8 | |
vertical-tab character, 2.2.1, 3.1 | |
vertical-tab escape sequence, \v, 2.2.2, 3.1.3.4 | |
visibility of identifiers, 3.1.2.1 | |
void expression, 3.2.2.2 | |
volatile storage, 2.1.2.3 | |
volatile-qualified type, 3.1.2.5, 3.5.3 | |
white space, 2.1.1.2, 3.1, 3.8, 4.3.1.9 | |
wide character, 3.1.3.4 | |
wide character constant, 3.1.3.4 | |
wide string literal, 2.1.1.2, 3.1.4 | |
1. This Standard is designed to promote the portability of C programs | |
among a variety of data-processing systems. It is intended for use by | |
implementors and knowledgeable programmers, and is not a tutorial. It | |
is accompanied by a Rationale document that explains many of the | |
decisions of the Technical Committee that produced it. | |
2. Strictly conforming programs are intended to be maximally portable | |
among conforming implementations. Conforming programs may depend upon | |
nonportable features of a conforming implementation. | |
3. Implementations must behave as if these separate phases occur, even | |
though many are typically folded together in practice. | |
4. As described in $3.1, the process of dividing a source file's | |
characters into preprocessing tokens is context-dependent. For | |
example, see the handling of < within a #include preprocessing | |
directive. | |
5. The trigraph sequences enable the input of characters that are not | |
defined in the "ISO 646-1983" Invariant Code Set, which is a subset of | |
the seven-bit ASCII code set. | |
6. Implementations should avoid imposing fixed translation limits | |
whenever possible. | |
7. See $3.1.2.5. | |
8. This model precludes floating-point representations other than | |
sign-magnitude. | |
9. The floating-point model in that standard sums powers of from zero, | |
so the values of the exponent limits are one less than shown here. | |
10. See ``future language directions'' ($3.9.1). | |
11. There is only one name space for tags even though three are | |
possible. | |
12. In the case of a volatile object, the last store may not be | |
explicit in the program. | |
13. A positional representation for integers that uses the binary | |
digits 0 and 1, in which the values represented by successive bits are | |
additive, begin with 1, and are multiplied by successive integral | |
powers of 2, except perhaps the bit with the highest position. | |
14. Note that aggregate type does not include union type because an | |
object with union type can only contain one member at a time. | |
15. There are three distinct combinations of qualified types. | |
16. Two types need not be identical to be compatible. | |
17. The semantics of these characters were discussed in $2.2.2. | |
18. See ``future language directions'' ($3.9.2). | |
19. A character string literal need not be a string (see $4.1.1), | |
because a null character may be embedded in it by a \0 escape | |
sequence. | |
20. Thus, sequences of characters that resemble escape sequences cause | |
undefined behavior. | |
21. Thus comments do not nest. | |
22. In a two's-complement representation, there is no actual change in | |
the bit pattern except filling the high-order bits with copies of the | |
sign bit if the unsigned integer has greater size. | |
23. The remaindering operation done when a value of integral type is | |
converted to unsigned type need not be done when a value of floating | |
type is converted to unsigned type. Thus the range of portable values | |
is [0, U type _MAX +1). | |
24. The name ``lvalue'' comes originally from the assignment | |
expression E1 = E2 , in which the left operand E1 must be a | |
(modifiable) lvalue. It is perhaps better considered as representing | |
an object ``locator value.'' What is sometimes called ``rvalue'' is in | |
this Standard described as the ``value of an expression.'' An obvious | |
example of an lvalue is an identifier of an object. As a further | |
example, if E is a unary expression that is a pointer to an object, *E | |
is an lvalue that designates the object to which E points. | |
25. Because this conversion does not occur, the operand of the sizeof | |
operator remains a function designator and violates the constraint in | |
$3.3.3.4. | |
26. This paragraph renders undefined statement expressions such as | |
i = ++i + 1; while allowing i = i + 1; | |
27. The syntax specifies the precedence of operators in the evaluation | |
of an expression, which is the same as the order of the major | |
subsections of this section, highest precedence first. Thus, for | |
example, the expressions allowed as the operands of the binary + | |
operator ($3.3.6) shall be those expressions defined in $3.3.1 through | |
$3.3.6. The exceptions are cast expressions ($3.3.4) as operands of | |
unary operators ($3.3.3), and an operand contained between any of the | |
following pairs of operators: grouping parentheses () ($3.3.1), | |
subscripting brackets [] ($3.3.2.1), function-call parentheses () | |
($3.3.2.2), and the conditional operator ?: ($3.3.15). Within each | |
major subsection, the operators have the same precedence. Left- or | |
right-associativity is indicated in each subsection by the syntax for | |
the expressions discussed therein. | |
28. The intent of this list is to specify those circumstances in which | |
an object may or may not be aliased. | |
29. Most often, this is the result of converting an identifier that is | |
a function designator. | |
30. That is, a function with external linkage and no information about | |
its parameters that returns an int . If in fact it is not defined as | |
having type ``function returning int ,'' the behavior is undefined. | |
31. A function may change the values of its parameters, but these | |
changes cannot affect the values of the arguments. On the other hand, | |
it is possible to pass a pointer to an object, and the function may | |
change the value of the object pointed to. A parameter declared to | |
have array or function type is converted to a parameter with a pointer | |
type as described in | |
32. If &E is a valid pointer expression (where & is the ``address-of'' | |
operator, which generates a pointer to its operand) the expression | |
(&E)->MOS is the same as E.MOS . | |
33. The ``byte orders'' for scalar types are invisible to isolated | |
programs that do not indulge in type punning (for example, by | |
assigning to one member of a union and inspecting the storage by | |
accessing another member that is an appropriately sized array of | |
character type), but must be accounted for when conforming to | |
externally-imposed storage layouts. | |
34. It is always true that if E is a function designator or an lvalue | |
that is a valid operand of the unary & operator, *&E is a function | |
designator or an lvalue equal to E . If *P is an lvalue and T is the | |
name of an object pointer type, the cast expression *(T)P is an lvalue | |
that has a type compatible with that to which T points. Among the | |
invalid values for dereferencing a pointer by the unary * operator are | |
a null pointer, an address inappropriately aligned for the type of | |
object pointed to, or the address of an object that has automatic | |
storage duration when execution of the block in which the object is | |
declared and of all enclosed blocks has terminated. | |
35. When applied to a parameter declared to have array or function | |
type, the sizeof operator yields the size of the pointer obtained by | |
converting as in $3.2.2.1; see $3.7.1. | |
36. A cast does not yield an lvalue. | |
37. The mapping functions for converting a pointer to an integer or an | |
integer to a pointer are intended to be consistent with the addressing | |
structure of the execution environment. | |
38. The expression a<b<c is not interpreted as in ordinary | |
mathematics. As the syntax indicates, it means (a<b)<c ; in other | |
words, ``if a is less than b compare 1 to c ; otherwise compare 0 to c | |
.'' | |
39. Because of the precedences, a<b == c<d is 1 whenever a<b and c<d | |
have the same truth-value. | |
40. If invalid prior pointer operations, such as accesses outside | |
array bounds, produced undefined behavior, the effect of subsequent | |
comparisons is undefined. | |
41. A conditional expression does not yield an lvalue. | |
42. The asymmetric appearance of these constraints with respect to | |
type qualifiers is due to the conversion (specified in $3.2.2.1) that | |
changes lvalues to ``the value of the expression'' which removes any | |
type qualifiers from the top type of the expression. | |
43. A comma operator does not yield an lvalue. | |
44. The operand of a sizeof operator is not evaluated ($3.3.3.4), and | |
thus any operator in $3.3 may be used. | |
45. An integral constant expression must be used to specify the size | |
of a bit-field member of a structure, the value of an enumeration | |
constant, the size of an array, or the value of a case constant. | |
Further constraints that apply to the integral constant expressions | |
used in conditional-inclusion preprocessing directives are discussed | |
in $3.8.1. | |
46. Thus in the following initialization, static int i = 2 || 1 / 0; | |
the expression is a valid integral constant expression with value one. | |
47. Function definitions have a different syntax, described in $3.7.1. | |
48. See ``future language directions'' ($3.9.3). | |
49. The implementation may treat any register declaration simply as an | |
auto declaration. However, whether or not addressable storage is | |
actually used, the address of any part of an object declared with | |
storage-class specifier register may not be computed, either | |
explicitly (by use of the unary & operator as discussed in $3.3.3.2) | |
or implicitly (by converting an array name to a pointer as discussed | |
in $3.2.2.1). Thus the only operator that can be applied to an array | |
declared with storage-class specifier register is sizeof . | |
50. The unary & (address-of) operator may not be applied to a | |
bit-field object; thus there are no pointers to or arrays of bit-field | |
objects. | |
51. An unnamed bit-field is useful for padding to conform to | |
externally-imposed layouts. | |
52. Thus, the identifiers of enumeration constants in the same scope | |
shall all be distinct from each other and from other identifiers | |
declared in ordinary declarators. | |
53. A similar construction with enum does not exist and is not | |
necessary as there can be no mutual dependencies between the | |
declaration of an enumerated type and any other type. | |
54. It is not needed, for example, when a typedef name is declared to | |
be a specifier for a structure or union, or when a pointer to or a | |
function returning a structure or union is being declared. (See | |
incomplete types in $3.1.2.5.) The specification shall be complete | |
before such a function is called or defined. | |
55. Of course, when the declaration is of a typedef name, subsequent | |
declarations can make use of the typedef name to declare objects | |
having the specified structure, union, or enumerated type. | |
56. The implementation may place a const object that is not volatile | |
in a read-only region of storage. Moreover, the implementation need | |
not allocate storage for such an object if its address is never used. | |
57. This applies to those objects that behave as if they were defined | |
with qualified types, even if they are never actually defined as | |
objects in the program (such as an object at a memory-mapped | |
input/output address). | |
58. A volatile declaration may be used to describe an object | |
corresponding to a memory-mapped input/output port or an object | |
accessed by an asynchronously interrupting function. Actions on | |
objects so declared shall not be ``optimized out'' by an | |
implementation or reordered except as permitted by the rules for | |
evaluating expressions. | |
59. Both of these can only occur through the use of typedef s. | |
60. When several ``array of'' specifications are adjacent, a | |
multi-dimensional array is declared. | |
61. The macros defined in the <stdarg.h> header ($4.8) may be used to | |
access arguments that follow an ellipsis. | |
62. See ``future language directions'' ($3.9.4). | |
63. If both function types are ``old style,'' parameter types are not | |
compared. | |
64. As indicated by the syntax, empty parentheses in a type name are | |
interpreted as ``function with no parameter specification,'' rather | |
than redundant parentheses around the omitted identifier. | |
65. Unlike in the base document, any automatic duration object may be | |
initialized. | |
66. Such as assignments, and function calls which have side effects. | |
67. Thus specifies initialization for the loop; the controlling | |
expression, specifies an evaluation made before each iteration, such | |
that execution of the loop continues until the expression compares | |
equal to 0; specifies an operation (such as incrementing) that is | |
performed after each iteration. | |
68. Following the contin: label is a null statement. | |
69. Thus, if an identifier declared with external linkage is not used | |
in an expression, there need be no external definition for it. | |
70. The intent is that the top type in a function definition cannot be | |
inherited from a typedef: typedef int F(void); /* type F is ``function | |
of no arguments returning int '' */ F f, g; /* f and g both have type | |
compatible with F */ F f { /*...*/ } /* WRONG: syntax/constraint error | |
*/ F g() { /*...*/ } /* WRONG: declares that g returns a function */ | |
int f(void) { /*...*/ } /* RIGHT: f has type compatible with F */ int | |
g() { /*...*/ } /* RIGHT: g has type compatible with F */ F *e(void) { | |
/*...*/ } /* e returns a pointer to a function */ F *((e))(void) { | |
/*...*/ } /* same: parentheses irrelevant */ int (*fp)(void); /* fp | |
points to a function that has type F */ F *Fp; /* Fp points to a | |
function that has type F */ | |
71. See ``future language directions'' ($3.9.5). | |
72. A parameter is in effect declared at the head of the compound | |
statement that constitutes the function body, and therefore may not be | |
redeclared in the function body (except in an enclosed block). | |
73. Thus preprocessing directives are commonly called ``lines.'' These | |
``lines'' have no other syntactic significance, as all white space is | |
equivalent except in certain situations during preprocessing (see the | |
# character string literal creation operator in $3.8.3.2, for | |
example). | |
74. Because the controlling constant expression is evaluated during | |
translation phase 4, all identifiers either are or are not macro names | |
--- there simply are no keywords, enumeration constants, and so on. | |
75. Thus the constant expression in the following #if directive and if | |
statement is not guaranteed to evaluate to the same value in these two | |
contexts. #if 'z' - 'a' == 25 if ('z' - 'a' == 25) | |
76. As indicated by the syntax, a preprocessing token shall not follow | |
a #else or #endif directive before the terminating new-line character. | |
However, comments may appear anywhere in a source file, including | |
within a preprocessing directive. | |
77. Note that adjacent string literals are not concatenated into a | |
single string literal (see the translation phases in $2.1.1.2); thus | |
an expansion that results in two string literals is an invalid | |
directive. | |
78. Since, by macro-replacement time, all character constants and | |
string literals are preprocessing tokens, not sequences possibly | |
containing identifier-like subsequences (see $2.1.1.2, translation | |
phases), they are never scanned for macro names or parameters. | |
79. Thus indicating a Standard-conforming implementation. | |
80. The functions that make use of the decimal-point character are | |
localeconv , fprintf , fscanf , printf , scanf , sprintf , sscanf , | |
vfprintf , vprintf , vsprintf , atof , and strtod . | |
81. A header is not necessarily a source file, nor are the < and > | |
delimited sequences in header names necessarily valid source file | |
names. | |
82. The list of reserved external identifiers includes errno , setjmp , | |
and va_end . | |
83. The macro errno need not be the identifier of an object. It might | |
be a modifiable lvalue resulting from a function call (for example, | |
*errno() ). | |
84. Thus, a program that uses errno for error checking should set it | |
to zero before a library function call, then inspect it before a | |
subsequent library function call. | |
85. See ``future library directions'' ($4.13.1). | |
86. This means that an implementation must provide an actual function | |
for each library function, even if it also provides a macro for that | |
function. | |
87. Because external identifiers and some macro names beginning with | |
an underscore are reserved, implementations may provide special | |
semantics for such names. For example, the identifier _BUILTIN_abs | |
could be used to indicate generation of in-line code for the abs | |
function. Thus, the appropriate header could specify #define abs(x) | |
_BUILTIN_abs(x) for a compiler whose code generator will accept it. | |
In this manner, a user desiring to guarantee that a given library | |
function such as abs will be a genuine function may write #undef abs | |
whether the implementation's header provides a macro implementation of | |
abs or a builtin implementation. The prototype for the function, | |
which precedes and is hidden by any macro definition, is thereby | |
revealed also. | |
88. The message written might be of the form Assertion failed: file | |
line | |
89. See ``future library directions'' ($4.13.2). | |
90. In an implementation that uses the seven-bit ASCII character set, | |
the printing characters are those whose values lie from 0x20 (space) | |
through 0x7E (tilde); the control characters are those whose values | |
lie from 0 (NUL) through 0x1F (US), and the character 0x7F (DEL). | |
91. See ``future library directions'' ($4.13.3). | |
92. The only functions in $4.3 whose behavior is not affected by the | |
current locale are isdigit and isxdigit . | |
93. See ``future library directions'' ($4.13.4). | |
94. In an implementation that supports infinities, this allows | |
infinity as an argument to be a domain error if the mathematical | |
domain of the function does not include infinity. | |
95. These functions are useful for dealing with unusual conditions | |
encountered in a low-level function of a program. | |
96. For example, by executing a return statement or because another | |
longjmp call has caused a transfer to a setjmp invocation in a | |
function earlier in the set of nested calls. | |
97. See ``future library directions'' ($4.13.5). The names of the | |
signal numbers reflect the following terms (respectively): abort, | |
floating-point exception, illegal instruction, interrupt, segmentation | |
violation, and termination. | |
98. Of course, the contents of the file name strings are subject to | |
other system-specific constraints. | |
99. An implementation need not distinguish between text streams and | |
binary streams. In such an implementation, there need be no new-line | |
characters in a text stream nor any limit to the length of a line. | |
100. This is described in the Base Document as a That term is not used | |
in this Standard to avoid confusion with a pointer to an object that | |
has type FILE . | |
101. Among the reasons the implementation may cause the rename | |
function to fail are that the file is open or that it is necessary to | |
copy its contents to effectuate its renaming. | |
102. Files created using strings generated by the tmpnam function are | |
temporary only in the sense that their names should not collide with | |
those generated by conventional naming rules for the implementation. | |
It is still necessary to use the remove function to remove such files | |
when their use is ended, and before program termination. | |
103. Additional characters may follow these sequences. | |
104. The primary use of the freopen function is to change the file | |
associated with a standard text stream ( stderr , stdin , or stdout ), | |
as those identifiers need not be modifiable lvalues to which the value | |
returned by the fopen function may be assigned. | |
105. The buffer must have a lifetime at least as great as the open | |
stream, so the stream should be closed before a buffer that has | |
automatic storage duration is deallocated upon block exit. | |
106. Note that 0 is taken as a flag, not as the beginning of a field | |
width. | |
107. No special provisions are made for multibyte characters. | |
108. See ``future library directions'' ($4.13.6). | |
109. No special provisions are made for multibyte characters. | |
110. See ``future library directions'' ($4.13.6). | |
111. As vfprintf , vsprintf , and vprintf invoke the va_arg macro, the | |
value of arg after the return is indeterminate. | |
112. An end-of-file and a read error can be distinguished by use of | |
the feof and ferror functions. | |
113. See ``future library directions'' ($4.13.7). | |
114. Note that this need not be the same as the representation of | |
floating-point zero or a null pointer constant. | |
115. Each function is called as many times as it was registered. | |
116. Notice that the key-to-member comparison an ordering on the | |
array. | |
117. In a two's complement representation, the absolute value of the | |
most negative number cannot be represented. | |
118. The array will not be null- or zero-terminated if the value | |
returned is n . | |
119. See ``future library directions'' ($4.13.8). | |
120. Thus, if there is no null character in the first n characters of | |
the array pointed to by s2 , the result will not be null-terminated. | |
121. Thus the maximum number of characters that end up in the array | |
pointed to by s1 is strlen(s1)+n+1 . | |
122. The contents of ``holes'' used as padding for purposes of | |
alignment within structure objects are indeterminate, unless the | |
contents of the entire object have been set explicitly, as by the | |
calloc or memset function. Strings shorter than their allocated space | |
and unions may also cause problems in comparison. | |
123. The range [0, 60] for tm_sec allows for the occasional leap | |
second. | |
124. Thus, a positive or zero value for tm_isdst causes the mktime | |
function initially to presume that Daylight Saving Time, respectively, | |
is or is not in effect for the specified time. A negative value for | |
tm_isdst causes the mktime function to attempt to determine whether | |
Daylight Saving Time is in effect for the specified time. |
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