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NAME
lex — generate programs for lexical tasks (DEVELOPMENT)
SYNOPSIS
lex [−t] [−n|−v] [file...]
DESCRIPTION
The lex utility shall generate C programs to be used in lexical processing of character input, and that
can be used as an interface to yacc. The C programs shall be generated from lex source code and conform
to the ISO C standard, without depending on any undefined, unspecified, or implementation-defined
behavior, except in cases where the code is copied directly from the supplied source, or in cases that
are documented by the implementation. Usually, the lex utility shall write the program it generates to
the file lex.yy.c; the state of this file is unspecified if lex exits with a non-zero exit status. See
the EXTENDED DESCRIPTION section for a complete description of the lex input language.
OPTIONS
The lex utility shall conform to the Base Definitions volume of POSIX.1‐2008, Section 12.2, Utility
Syntax Guidelines, except for Guideline 9.
The following options shall be supported:
−n Suppress the summary of statistics usually written with the −v option. If no table sizes are
specified in the lex source code and the −v option is not specified, then −n is implied.
−t Write the resulting program to standard output instead of lex.yy.c.
−v Write a summary of lex statistics to the standard output. (See the discussion of lex table
sizes in Definitions in lex.) If the −t option is specified and −n is not specified, this
report shall be written to standard error. If table sizes are specified in the lex source code,
and if the −n option is not specified, the −v option may be enabled.
OPERANDS
The following operand shall be supported:
file A pathname of an input file. If more than one such file is specified, all files shall be
concatenated to produce a single lex program. If no file operands are specified, or if a file
operand is '−', the standard input shall be used.
STDIN
The standard input shall be used if no file operands are specified, or if a file operand is '−'. See
INPUT FILES.
INPUT FILES
The input files shall be text files containing lex source code, as described in the EXTENDED DESCRIPTION
section.
ENVIRONMENT VARIABLES
The following environment variables shall affect the execution of lex:
LANG Provide a default value for the internationalization variables that are unset or null. (See the
Base Definitions volume of POSIX.1‐2008, Section 8.2, Internationalization Variables for the
precedence of internationalization variables used to determine the values of locale
categories.)
LC_ALL If set to a non-empty string value, override the values of all the other internationalization
variables.
LC_COLLATE
Determine the locale for the behavior of ranges, equivalence classes, and multi-character
collating elements within regular expressions. If this variable is not set to the POSIX locale,
the results are unspecified.
LC_CTYPE Determine the locale for the interpretation of sequences of bytes of text data as characters
(for example, single-byte as opposed to multi-byte characters in arguments and input files),
and the behavior of character classes within regular expressions. If this variable is not set
to the POSIX locale, the results are unspecified.
LC_MESSAGES
Determine the locale that should be used to affect the format and contents of diagnostic
messages written to standard error.
NLSPATH Determine the location of message catalogs for the processing of LC_MESSAGES.
ASYNCHRONOUS EVENTS
Default.
STDOUT
If the −t option is specified, the text file of C source code output of lex shall be written to standard
output.
If the −t option is not specified:
* Implementation-defined informational, error, and warning messages concerning the contents of lex
source code input shall be written to either the standard output or standard error.
* If the −v option is specified and the −n option is not specified, lex statistics shall also be
written to either the standard output or standard error, in an implementation-defined format. These
statistics may also be generated if table sizes are specified with a '%' operator in the Definitions
section, as long as the −n option is not specified.
STDERR
If the −t option is specified, implementation-defined informational, error, and warning messages
concerning the contents of lex source code input shall be written to the standard error.
If the −t option is not specified:
1. Implementation-defined informational, error, and warning messages concerning the contents of lex
source code input shall be written to either the standard output or standard error.
2. If the −v option is specified and the −n option is not specified, lex statistics shall also be
written to either the standard output or standard error, in an implementation-defined format. These
statistics may also be generated if table sizes are specified with a '%' operator in the Definitions
section, as long as the −n option is not specified.
OUTPUT FILES
A text file containing C source code shall be written to lex.yy.c, or to the standard output if the −t
option is present.
EXTENDED DESCRIPTION
Each input file shall contain lex source code, which is a table of regular expressions with corresponding
actions in the form of C program fragments.
When lex.yy.c is compiled and linked with the lex library (using the −l l operand with c99), the
resulting program shall read character input from the standard input and shall partition it into strings
that match the given expressions.
When an expression is matched, these actions shall occur:
* The input string that was matched shall be left in yytext as a null-terminated string; yytext shall
either be an external character array or a pointer to a character string. As explained in Definitions
in lex, the type can be explicitly selected using the %array or %pointer declarations, but the
default is implementation-defined.
* The external int yyleng shall be set to the length of the matching string.
* The expression's corresponding program fragment, or action, shall be executed.
During pattern matching, lex shall search the set of patterns for the single longest possible match.
Among rules that match the same number of characters, the rule given first shall be chosen.
The general format of lex source shall be:
Definitions %% Rules %% UserSubroutines
The first "%%" is required to mark the beginning of the rules (regular expressions and actions); the
second "%%" is required only if user subroutines follow.
Any line in the Definitions section beginning with a <blank> shall be assumed to be a C program fragment
and shall be copied to the external definition area of the lex.yy.c file. Similarly, anything in the
Definitions section included between delimiter lines containing only "%{" and "%}" shall also be copied
unchanged to the external definition area of the lex.yy.c file.
Any such input (beginning with a <blank> or within "%{" and "%}" delimiter lines) appearing at the
beginning of the Rules section before any rules are specified shall be written to lex.yy.c after the
declarations of variables for the yylex() function and before the first line of code in yylex(). Thus,
user variables local to yylex() can be declared here, as well as application code to execute upon entry
to yylex().
The action taken by lex when encountering any input beginning with a <blank> or within "%{" and "%}"
delimiter lines appearing in the Rules section but coming after one or more rules is undefined. The
presence of such input may result in an erroneous definition of the yylex() function.
C-language code in the input shall not contain C-language trigraphs. The C-language code within "%{" and
"%}" delimiter lines shall not contain any lines consisting only of "%}", or only of "%%".
Definitions in lex
Definitions appear before the first "%%" delimiter. Any line in this section not contained between "%{"
and "%}" lines and not beginning with a <blank> shall be assumed to define a lex substitution string. The
format of these lines shall be:
name substitute
If a name does not meet the requirements for identifiers in the ISO C standard, the result is undefined.
The string substitute shall replace the string {name} when it is used in a rule. The name string shall be
recognized in this context only when the braces are provided and when it does not appear within a bracket
expression or within double-quotes.
In the Definitions section, any line beginning with a <percent-sign> ('%') character and followed by an
alphanumeric word beginning with either 's' or 'S' shall define a set of start conditions. Any line
beginning with a '%' followed by a word beginning with either 'x' or 'X' shall define a set of exclusive
start conditions. When the generated scanner is in a %s state, patterns with no state specified shall be
also active; in a %x state, such patterns shall not be active. The rest of the line, after the first
word, shall be considered to be one or more <blank>-separated names of start conditions. Start condition
names shall be constructed in the same way as definition names. Start conditions can be used to restrict
the matching of regular expressions to one or more states as described in Regular Expressions in lex.
Implementations shall accept either of the following two mutually-exclusive declarations in the
Definitions section:
%array Declare the type of yytext to be a null-terminated character array.
%pointer Declare the type of yytext to be a pointer to a null-terminated character string.
The default type of yytext is implementation-defined. If an application refers to yytext outside of the
scanner source file (that is, via an extern), the application shall include the appropriate %array or
%pointer declaration in the scanner source file.
Implementations shall accept declarations in the Definitions section for setting certain internal table
sizes. The declarations are shown in the following table.
Table: Table Size Declarations in lex
┌────────────┬────────────────────────────────────┬───────────────┐
│Declaration │ Description │ Minimum Value │
├────────────┼────────────────────────────────────┼───────────────┤
│%p n │ Number of positions │ 2500 │
│%n n │ Number of states │ 500 │
│%a n │ Number of transitions │ 2000 │
│%e n │ Number of parse tree nodes │ 1000 │
│%k n │ Number of packed character classes │ 1000 │
│%o n │ Size of the output array │ 3000 │
└────────────┴────────────────────────────────────┴───────────────┘
In the table, n represents a positive decimal integer, preceded by one or more <blank> characters. The
exact meaning of these table size numbers is implementation-defined. The implementation shall document
how these numbers affect the lex utility and how they are related to any output that may be generated by
the implementation should limitations be encountered during the execution of lex. It shall be possible
to determine from this output which of the table size values needs to be modified to permit lex to
successfully generate tables for the input language. The values in the column Minimum Value represent the
lowest values conforming implementations shall provide.
Rules in lex
The rules in lex source files are a table in which the left column contains regular expressions and the
right column contains actions (C program fragments) to be executed when the expressions are recognized.
ERE action
ERE action
...
The extended regular expression (ERE) portion of a row shall be separated from action by one or more
<blank> characters. A regular expression containing <blank> characters shall be recognized under one of
the following conditions:
* The entire expression appears within double-quotes.
* The <blank> characters appear within double-quotes or square brackets.
* Each <blank> is preceded by a <backslash> character.
User Subroutines in lex
Anything in the user subroutines section shall be copied to lex.yy.c following yylex().
Regular Expressions in lex
The lex utility shall support the set of extended regular expressions (see the Base Definitions volume of
POSIX.1‐2008, Section 9.4, Extended Regular Expressions), with the following additions and exceptions to
the syntax:
"..." Any string enclosed in double-quotes shall represent the characters within the double-quotes as
themselves, except that <backslash>-escapes (which appear in the following table) shall be
recognized. Any <backslash>-escape sequence shall be terminated by the closing quote. For
example, "\01""1" represents a single string: the octal value 1 followed by the character '1'.
<state>r, <state1,state2,...>r
The regular expression r shall be matched only when the program is in one of the start
conditions indicated by state, state1, and so on; see Actions in lex. (As an exception to the
typographical conventions of the rest of this volume of POSIX.1‐2008, in this case <state> does
not represent a metavariable, but the literal angle-bracket characters surrounding a symbol.)
The start condition shall be recognized as such only at the beginning of a regular expression.
r/x The regular expression r shall be matched only if it is followed by an occurrence of regular
expression x (x is the instance of trailing context, further defined below). The token returned
in yytext shall only match r. If the trailing portion of r matches the beginning of x, the
result is unspecified. The r expression cannot include further trailing context or the '$'
(match-end-of-line) operator; x cannot include the '^' (match-beginning-of-line) operator, nor
trailing context, nor the '$' operator. That is, only one occurrence of trailing context is
allowed in a lex regular expression, and the '^' operator only can be used at the beginning of
such an expression.
{name} When name is one of the substitution symbols from the Definitions section, the string,
including the enclosing braces, shall be replaced by the substitute value. The substitute value
shall be treated in the extended regular expression as if it were enclosed in parentheses. No
substitution shall occur if {name} occurs within a bracket expression or within double-quotes.
Within an ERE, a <backslash> character shall be considered to begin an escape sequence as specified in
the table in the Base Definitions volume of POSIX.1‐2008, Chapter 5, File Format Notation ('\\', '\a',
'\b', '\f', '\n', '\r', '\t', '\v'). In addition, the escape sequences in the following table shall be
recognized.
A literal <newline> cannot occur within an ERE; the escape sequence '\n' can be used to represent a
<newline>. A <newline> shall not be matched by a period operator.
Table: Escape Sequences in lex
┌─────────┬──────────────────────────┬──────────────────────────┐
│ Escape │ │ │
│Sequence │ Description │ Meaning │
├─────────┼──────────────────────────┼──────────────────────────┤
│\digits │ A <backslash> character │ The character whose │
│ │ followed by the longest │ encoding is represented │
│ │ sequence of one, two, or │ by the one, two, or │
│ │ three octal-digit │ three-digit octal │
│ │ characters (01234567). │ integer. Multi-byte │
│ │ If all of the digits are │ characters require │
│ │ 0 (that is, │ multiple, concatenated │
│ │ representation of the │ escape sequences of this │
│ │ NUL character), the │ type, including the │
│ │ behavior is undefined. │ leading <backslash> for │
│ │ │ each byte. │
├─────────┼──────────────────────────┼──────────────────────────┤
│\xdigits │ A <backslash> character │ The character whose │
│ │ followed by the longest │ encoding is represented │
│ │ sequence of hexadecimal- │ by the hexadecimal │
│ │ digit characters │ integer. │
│ │ (01234567abcdefABCDEF). │ │
│ │ If all of the digits are │ │
│ │ 0 (that is, │ │
│ │ representation of the │ │
│ │ NUL character), the │ │
│ │ behavior is undefined. │ │
├─────────┼──────────────────────────┼──────────────────────────┤
│\c │ A <backslash> character │ The character 'c', │
│ │ followed by any │ unchanged. │
│ │ character not described │ │
│ │ in this table or in the │ │
│ │ table in the Base │ │
│ │ Definitions volume of │ │
│ │ POSIX.1‐2008, Chapter 5, │ │
│ │ File Format Notation │ │
│ │ ('\\', '\a', '\b', '\f', │ │
│ │ '\n', '\r', '\t', '\v'). │ │
└─────────┴──────────────────────────┴──────────────────────────┘
Note: If a '\x' sequence needs to be immediately followed by a hexadecimal digit character, a
sequence such as "\x1""1" can be used, which represents a character containing the value 1,
followed by the character '1'.
The order of precedence given to extended regular expressions for lex differs from that specified in the
Base Definitions volume of POSIX.1‐2008, Section 9.4, Extended Regular Expressions. The order of
precedence for lex shall be as shown in the following table, from high to low.
Note: The escaped characters entry is not meant to imply that these are operators, but they are
included in the table to show their relationships to the true operators. The start condition,
trailing context, and anchoring notations have been omitted from the table because of the
placement restrictions described in this section; they can only appear at the beginning or
ending of an ERE.
Table: ERE Precedence in lex
┌──────────────────────────────────┬──────────────────────┐
│ Extended Regular Expression │ Precedence │
├──────────────────────────────────┼──────────────────────┤
│collation-related bracket symbols │ [= =] [: :] [. .] │
│escaped characters │ \<special character> │
│bracket expression │ [ ] │
│quoting │ "..." │
│grouping │ ( ) │
│definition │ {name} │
│single-character RE duplication │ * + ? │
│concatenation │ │
│interval expression │ {m,n} │
│alternation │ | │
└──────────────────────────────────┴──────────────────────┘
The ERE anchoring operators '^' and '$' do not appear in the table. With lex regular expressions, these
operators are restricted in their use: the '^' operator can only be used at the beginning of an entire
regular expression, and the '$' operator only at the end. The operators apply to the entire regular
expression. Thus, for example, the pattern "(^abc)|(def$)" is undefined; it can instead be written as two
separate rules, one with the regular expression "^abc" and one with "def$", which share a common action
via the special '|' action (see below). If the pattern were written "^abc|def$", it would match either
"abc" or "def" on a line by itself.
Unlike the general ERE rules, embedded anchoring is not allowed by most historical lex implementations.
An example of embedded anchoring would be for patterns such as "(^| )foo( |$)" to match "foo" when it
exists as a complete word. This functionality can be obtained using existing lex features:
^foo/[ \n] |
" foo"/[ \n] /* Found foo as a separate word. */
Note also that '$' is a form of trailing context (it is equivalent to "/\n") and as such cannot be used
with regular expressions containing another instance of the operator (see the preceding discussion of
trailing context).
The additional regular expressions trailing-context operator '/' can be used as an ordinary character if
presented within double-quotes, "/"; preceded by a <backslash>, "\/"; or within a bracket expression,
"[/]". The start-condition '<' and '>' operators shall be special only in a start condition at the
beginning of a regular expression; elsewhere in the regular expression they shall be treated as ordinary
characters.
Actions in lex
The action to be taken when an ERE is matched can be a C program fragment or the special actions
described below; the program fragment can contain one or more C statements, and can also include special
actions. The empty C statement ';' shall be a valid action; any string in the lex.yy.c input that matches
the pattern portion of such a rule is effectively ignored or skipped. However, the absence of an action
shall not be valid, and the action lex takes in such a condition is undefined.
The specification for an action, including C statements and special actions, can extend across several
lines if enclosed in braces:
ERE <one or more blanks> { program statement
program statement }
The program statements shall not contain unbalanced curly brace preprocessing tokens.
The default action when a string in the input to a lex.yy.c program is not matched by any expression
shall be to copy the string to the output. Because the default behavior of a program generated by lex is
to read the input and copy it to the output, a minimal lex source program that has just "%%" shall
generate a C program that simply copies the input to the output unchanged.
Four special actions shall be available:
| ECHO; REJECT; BEGIN
| The action '|' means that the action for the next rule is the action for this rule. Unlike the
other three actions, '|' cannot be enclosed in braces or be <semicolon>-terminated; the
application shall ensure that it is specified alone, with no other actions.
ECHO; Write the contents of the string yytext on the output.
REJECT; Usually only a single expression is matched by a given string in the input. REJECT means
``continue to the next expression that matches the current input'', and shall cause whatever
rule was the second choice after the current rule to be executed for the same input. Thus,
multiple rules can be matched and executed for one input string or overlapping input strings.
For example, given the regular expressions "xyz" and "xy" and the input "xyz", usually only the
regular expression "xyz" would match. The next attempted match would start after z. If the
last action in the "xyz" rule is REJECT, both this rule and the "xy" rule would be executed.
The REJECT action may be implemented in such a fashion that flow of control does not continue
after it, as if it were equivalent to a goto to another part of yylex(). The use of REJECT may
result in somewhat larger and slower scanners.
BEGIN The action:
BEGIN newstate;
switches the state (start condition) to newstate. If the string newstate has not been declared
previously as a start condition in the Definitions section, the results are unspecified. The
initial state is indicated by the digit '0' or the token INITIAL.
The functions or macros described below are accessible to user code included in the lex input. It is
unspecified whether they appear in the C code output of lex, or are accessible only through the −l l
operand to c99 (the lex library).
int yylex(void)
Performs lexical analysis on the input; this is the primary function generated by the lex utility.
The function shall return zero when the end of input is reached; otherwise, it shall return non-
zero values (tokens) determined by the actions that are selected.
int yymore(void)
When called, indicates that when the next input string is recognized, it is to be appended to the
current value of yytext rather than replacing it; the value in yyleng shall be adjusted
accordingly.
int yyless(int n)
Retains n initial characters in yytext, NUL-terminated, and treats the remaining characters as if
they had not been read; the value in yyleng shall be adjusted accordingly.
int input(void)
Returns the next character from the input, or zero on end-of-file. It shall obtain input from the
stream pointer yyin, although possibly via an intermediate buffer. Thus, once scanning has begun,
the effect of altering the value of yyin is undefined. The character read shall be removed from the
input stream of the scanner without any processing by the scanner.
int unput(int c)
Returns the character 'c' to the input; yytext and yyleng are undefined until the next expression
is matched. The result of using unput() for more characters than have been input is unspecified.
The following functions shall appear only in the lex library accessible through the −l l operand; they
can therefore be redefined by a conforming application:
int yywrap(void)
Called by yylex() at end-of-file; the default yywrap() shall always return 1. If the application
requires yylex() to continue processing with another source of input, then the application can
include a function yywrap(), which associates another file with the external variable FILE * yyin
and shall return a value of zero.
int main(int argc, char *argv[])
Calls yylex() to perform lexical analysis, then exits. The user code can contain main() to perform
application-specific operations, calling yylex() as applicable.
Except for input(), unput(), and main(), all external and static names generated by lex shall begin with
the prefix yy or YY.
EXIT STATUS
The following exit values shall be returned:
0 Successful completion.
>0 An error occurred.
CONSEQUENCES OF ERRORS
Default.
The following sections are informative.
APPLICATION USAGE
Conforming applications are warned that in the Rules section, an ERE without an action is not acceptable,
but need not be detected as erroneous by lex. This may result in compilation or runtime errors.
The purpose of input() is to take characters off the input stream and discard them as far as the lexical
analysis is concerned. A common use is to discard the body of a comment once the beginning of a comment
is recognized.
The lex utility is not fully internationalized in its treatment of regular expressions in the lex source
code or generated lexical analyzer. It would seem desirable to have the lexical analyzer interpret the
regular expressions given in the lex source according to the environment specified when the lexical
analyzer is executed, but this is not possible with the current lex technology. Furthermore, the very
nature of the lexical analyzers produced by lex must be closely tied to the lexical requirements of the
input language being described, which is frequently locale-specific anyway. (For example, writing an
analyzer that is used for French text is not automatically useful for processing other languages.)
EXAMPLES
The following is an example of a lex program that implements a rudimentary scanner for a Pascal-like
syntax:
%{
/* Need this for the call to atof() below. */
#include <math.h>
/* Need this for printf(), fopen(), and stdin below. */
#include <stdio.h>
%}
DIGIT [0−9]
ID [a−z][a−z0−9]*
%%
{DIGIT}+ {
printf("An integer: %s (%d)\n", yytext,
atoi(yytext));
}
{DIGIT}+"."{DIGIT}* {
printf("A float: %s (%g)\n", yytext,
atof(yytext));
}
if|then|begin|end|procedure|function {
printf("A keyword: %s\n", yytext);
}
{ID} printf("An identifier: %s\n", yytext);
"+"|"−"|"*"|"/" printf("An operator: %s\n", yytext);
"{"[^}\n]*"}" /* Eat up one-line comments. */
[ \t\n]+ /* Eat up white space. */
. printf("Unrecognized character: %s\n", yytext);
%%
int main(int argc, char *argv[])
{
++argv, −−argc; /* Skip over program name. */
if (argc > 0)
yyin = fopen(argv[0], "r");
else
yyin = stdin;
yylex();
}
RATIONALE
Even though the −c option and references to the C language are retained in this description, lex may be
generalized to other languages, as was done at one time for EFL, the Extended FORTRAN Language. Since the
lex input specification is essentially language-independent, versions of this utility could be written to
produce Ada, Modula-2, or Pascal code, and there are known historical implementations that do so.
The current description of lex bypasses the issue of dealing with internationalized EREs in the lex
source code or generated lexical analyzer. If it follows the model used by awk (the source code is
assumed to be presented in the POSIX locale, but input and output are in the locale specified by the
environment variables), then the tables in the lexical analyzer produced by lex would interpret EREs
specified in the lex source in terms of the environment variables specified when lex was executed. The
desired effect would be to have the lexical analyzer interpret the EREs given in the lex source according
to the environment specified when the lexical analyzer is executed, but this is not possible with the
current lex technology.
The description of octal and hexadecimal-digit escape sequences agrees with the ISO C standard use of
escape sequences.
Earlier versions of this standard allowed for implementations with bytes other than eight bits, but this
has been modified in this version.
There is no detailed output format specification. The observed behavior of lex under four different
historical implementations was that none of these implementations consistently reported the line numbers
for error and warning messages. Furthermore, there was a desire that lex be allowed to output additional
diagnostic messages. Leaving message formats unspecified avoids these formatting questions and problems
with internationalization.
Although the %x specifier for exclusive start conditions is not historical practice, it is believed to be
a minor change to historical implementations and greatly enhances the usability of lex programs since it
permits an application to obtain the expected functionality with fewer statements.
The %array and %pointer declarations were added as a compromise between historical systems. The System
V-based lex copies the matched text to a yytext array. The flex program, supported in BSD and GNU
systems, uses a pointer. In the latter case, significant performance improvements are available for some
scanners. Most historical programs should require no change in porting from one system to another because
the string being referenced is null-terminated in both cases. (The method used by flex in its case is to
null-terminate the token in place by remembering the character that used to come right after the token
and replacing it before continuing on to the next scan.) Multi-file programs with external references to
yytext outside the scanner source file should continue to operate on their historical systems, but would
require one of the new declarations to be considered strictly portable.
The description of EREs avoids unnecessary duplication of ERE details because their meanings within a lex
ERE are the same as that for the ERE in this volume of POSIX.1‐2008.
The reason for the undefined condition associated with text beginning with a <blank> or within "%{" and
"%}" delimiter lines appearing in the Rules section is historical practice. Both the BSD and System V lex
copy the indented (or enclosed) input in the Rules section (except at the beginning) to unreachable areas
of the yylex() function (the code is written directly after a break statement). In some cases, the System
V lex generates an error message or a syntax error, depending on the form of indented input.
The intention in breaking the list of functions into those that may appear in lex.yy.c versus those that
only appear in libl.a is that only those functions in libl.a can be reliably redefined by a conforming
application.
The descriptions of standard output and standard error are somewhat complicated because historical lex
implementations chose to issue diagnostic messages to standard output (unless −t was given). POSIX.1‐2008
allows this behavior, but leaves an opening for the more expected behavior of using standard error for
diagnostics. Also, the System V behavior of writing the statistics when any table sizes are given is
allowed, while BSD-derived systems can avoid it. The programmer can always precisely obtain the desired
results by using either the −t or −n options.
The OPERANDS section does not mention the use of − as a synonym for standard input; not all historical
implementations support such usage for any of the file operands.
A description of the translation table was deleted from early proposals because of its relatively low
usage in historical applications.
The change to the definition of the input() function that allows buffering of input presents the
opportunity for major performance gains in some applications.
The following examples clarify the differences between lex regular expressions and regular expressions
appearing elsewhere in this volume of POSIX.1‐2008. For regular expressions of the form "r/x", the string
matching r is always returned; confusion may arise when the beginning of x matches the trailing portion
of r. For example, given the regular expression "a*b/cc" and the input "aaabcc", yytext would contain
the string "aaab" on this match. But given the regular expression "x*/xy" and the input "xxxy", the token
xxx, not xx, is returned by some implementations because xxx matches "x*".
In the rule "ab*/bc", the "b*" at the end of r extends r's match into the beginning of the trailing
context, so the result is unspecified. If this rule were "ab/bc", however, the rule matches the text "ab"
when it is followed by the text "bc". In this latter case, the matching of r cannot extend into the
beginning of x, so the result is specified.
FUTURE DIRECTIONS
None.
SEE ALSO
c99, ed, yacc
The Base Definitions volume of POSIX.1‐2008, Chapter 5, File Format Notation, Chapter 8, Environment
Variables, Chapter 9, Regular Expressions, Section 12.2, Utility Syntax Guidelines
COPYRIGHT
Portions of this text are reprinted and reproduced in electronic form from IEEE Std 1003.1, 2013 Edition,
Standard for Information Technology -- Portable Operating System Interface (POSIX), The Open Group Base
Specifications Issue 7, Copyright (C) 2013 by the Institute of Electrical and Electronics Engineers, Inc
and The Open Group. (This is POSIX.1-2008 with the 2013 Technical Corrigendum 1 applied.) In the event
of any discrepancy between this version and the original IEEE and The Open Group Standard, the original
IEEE and The Open Group Standard is the referee document. The original Standard can be obtained online at
http://www.unix.org/online.html .
Any typographical or formatting errors that appear in this page are most likely to have been introduced
during the conversion of the source files to man page format. To report such errors, see
https://www.kernel.org/doc/man-pages/reporting_bugs.html .