Annotation of embedaddon/pcre/doc/pcreposix.3, revision 1.1.1.2

1.1       misho       1: .TH PCREPOSIX 3
                      2: .SH NAME
                      3: PCRE - Perl-compatible regular expressions.
                      4: .SH "SYNOPSIS OF POSIX API"
                      5: .rs
                      6: .sp
                      7: .B #include <pcreposix.h>
                      8: .PP
                      9: .SM
                     10: .B int regcomp(regex_t *\fIpreg\fP, const char *\fIpattern\fP,
                     11: .ti +5n
                     12: .B int \fIcflags\fP);
                     13: .PP
                     14: .B int regexec(regex_t *\fIpreg\fP, const char *\fIstring\fP,
                     15: .ti +5n
                     16: .B size_t \fInmatch\fP, regmatch_t \fIpmatch\fP[], int \fIeflags\fP);
                     17: .PP
                     18: .B size_t regerror(int \fIerrcode\fP, const regex_t *\fIpreg\fP,
                     19: .ti +5n
                     20: .B char *\fIerrbuf\fP, size_t \fIerrbuf_size\fP);
                     21: .PP
                     22: .B void regfree(regex_t *\fIpreg\fP);
                     23: .
                     24: .SH DESCRIPTION
                     25: .rs
                     26: .sp
1.1.1.2 ! misho      27: This set of functions provides a POSIX-style API for the PCRE regular
        !            28: expression 8-bit library. See the
1.1       misho      29: .\" HREF
                     30: \fBpcreapi\fP
                     31: .\"
                     32: documentation for a description of PCRE's native API, which contains much
1.1.1.2 ! misho      33: additional functionality. There is no POSIX-style wrapper for PCRE's 16-bit
        !            34: library.
1.1       misho      35: .P
                     36: The functions described here are just wrapper functions that ultimately call
                     37: the PCRE native API. Their prototypes are defined in the \fBpcreposix.h\fP
                     38: header file, and on Unix systems the library itself is called
                     39: \fBpcreposix.a\fP, so can be accessed by adding \fB-lpcreposix\fP to the
                     40: command for linking an application that uses them. Because the POSIX functions
                     41: call the native ones, it is also necessary to add \fB-lpcre\fP.
                     42: .P
                     43: I have implemented only those POSIX option bits that can be reasonably mapped
                     44: to PCRE native options. In addition, the option REG_EXTENDED is defined with
                     45: the value zero. This has no effect, but since programs that are written to the
                     46: POSIX interface often use it, this makes it easier to slot in PCRE as a
                     47: replacement library. Other POSIX options are not even defined.
                     48: .P
                     49: There are also some other options that are not defined by POSIX. These have
                     50: been added at the request of users who want to make use of certain
                     51: PCRE-specific features via the POSIX calling interface.
                     52: .P
                     53: When PCRE is called via these functions, it is only the API that is POSIX-like
                     54: in style. The syntax and semantics of the regular expressions themselves are
                     55: still those of Perl, subject to the setting of various PCRE options, as
                     56: described below. "POSIX-like in style" means that the API approximates to the
                     57: POSIX definition; it is not fully POSIX-compatible, and in multi-byte encoding
                     58: domains it is probably even less compatible.
                     59: .P
                     60: The header for these functions is supplied as \fBpcreposix.h\fP to avoid any
                     61: potential clash with other POSIX libraries. It can, of course, be renamed or
                     62: aliased as \fBregex.h\fP, which is the "correct" name. It provides two
                     63: structure types, \fIregex_t\fP for compiled internal forms, and
                     64: \fIregmatch_t\fP for returning captured substrings. It also defines some
                     65: constants whose names start with "REG_"; these are used for setting options and
                     66: identifying error codes.
                     67: .
                     68: .
                     69: .SH "COMPILING A PATTERN"
                     70: .rs
                     71: .sp
                     72: The function \fBregcomp()\fP is called to compile a pattern into an
                     73: internal form. The pattern is a C string terminated by a binary zero, and
                     74: is passed in the argument \fIpattern\fP. The \fIpreg\fP argument is a pointer
                     75: to a \fBregex_t\fP structure that is used as a base for storing information
                     76: about the compiled regular expression.
                     77: .P
                     78: The argument \fIcflags\fP is either zero, or contains one or more of the bits
                     79: defined by the following macros:
                     80: .sp
                     81:   REG_DOTALL
                     82: .sp
                     83: The PCRE_DOTALL option is set when the regular expression is passed for
                     84: compilation to the native function. Note that REG_DOTALL is not part of the
                     85: POSIX standard.
                     86: .sp
                     87:   REG_ICASE
                     88: .sp
                     89: The PCRE_CASELESS option is set when the regular expression is passed for
                     90: compilation to the native function.
                     91: .sp
                     92:   REG_NEWLINE
                     93: .sp
                     94: The PCRE_MULTILINE option is set when the regular expression is passed for
                     95: compilation to the native function. Note that this does \fInot\fP mimic the
                     96: defined POSIX behaviour for REG_NEWLINE (see the following section).
                     97: .sp
                     98:   REG_NOSUB
                     99: .sp
                    100: The PCRE_NO_AUTO_CAPTURE option is set when the regular expression is passed
                    101: for compilation to the native function. In addition, when a pattern that is
                    102: compiled with this flag is passed to \fBregexec()\fP for matching, the
                    103: \fInmatch\fP and \fIpmatch\fP arguments are ignored, and no captured strings
                    104: are returned.
                    105: .sp
                    106:   REG_UCP
                    107: .sp
                    108: The PCRE_UCP option is set when the regular expression is passed for
                    109: compilation to the native function. This causes PCRE to use Unicode properties
                    110: when matchine \ed, \ew, etc., instead of just recognizing ASCII values. Note
                    111: that REG_UTF8 is not part of the POSIX standard.
                    112: .sp
                    113:   REG_UNGREEDY
                    114: .sp
                    115: The PCRE_UNGREEDY option is set when the regular expression is passed for
                    116: compilation to the native function. Note that REG_UNGREEDY is not part of the
                    117: POSIX standard.
                    118: .sp
                    119:   REG_UTF8
                    120: .sp
                    121: The PCRE_UTF8 option is set when the regular expression is passed for
                    122: compilation to the native function. This causes the pattern itself and all data
                    123: strings used for matching it to be treated as UTF-8 strings. Note that REG_UTF8
                    124: is not part of the POSIX standard.
                    125: .P
                    126: In the absence of these flags, no options are passed to the native function.
                    127: This means the the regex is compiled with PCRE default semantics. In
                    128: particular, the way it handles newline characters in the subject string is the
                    129: Perl way, not the POSIX way. Note that setting PCRE_MULTILINE has only
                    130: \fIsome\fP of the effects specified for REG_NEWLINE. It does not affect the way
                    131: newlines are matched by . (they are not) or by a negative class such as [^a]
                    132: (they are).
                    133: .P
                    134: The yield of \fBregcomp()\fP is zero on success, and non-zero otherwise. The
                    135: \fIpreg\fP structure is filled in on success, and one member of the structure
                    136: is public: \fIre_nsub\fP contains the number of capturing subpatterns in
                    137: the regular expression. Various error codes are defined in the header file.
                    138: .P
                    139: NOTE: If the yield of \fBregcomp()\fP is non-zero, you must not attempt to
                    140: use the contents of the \fIpreg\fP structure. If, for example, you pass it to
                    141: \fBregexec()\fP, the result is undefined and your program is likely to crash.
                    142: .
                    143: .
                    144: .SH "MATCHING NEWLINE CHARACTERS"
                    145: .rs
                    146: .sp
                    147: This area is not simple, because POSIX and Perl take different views of things.
                    148: It is not possible to get PCRE to obey POSIX semantics, but then PCRE was never
                    149: intended to be a POSIX engine. The following table lists the different
                    150: possibilities for matching newline characters in PCRE:
                    151: .sp
                    152:                           Default   Change with
                    153: .sp
                    154:   . matches newline          no     PCRE_DOTALL
                    155:   newline matches [^a]       yes    not changeable
                    156:   $ matches \en at end        yes    PCRE_DOLLARENDONLY
                    157:   $ matches \en in middle     no     PCRE_MULTILINE
                    158:   ^ matches \en in middle     no     PCRE_MULTILINE
                    159: .sp
                    160: This is the equivalent table for POSIX:
                    161: .sp
                    162:                           Default   Change with
                    163: .sp
                    164:   . matches newline          yes    REG_NEWLINE
                    165:   newline matches [^a]       yes    REG_NEWLINE
                    166:   $ matches \en at end        no     REG_NEWLINE
                    167:   $ matches \en in middle     no     REG_NEWLINE
                    168:   ^ matches \en in middle     no     REG_NEWLINE
                    169: .sp
                    170: PCRE's behaviour is the same as Perl's, except that there is no equivalent for
                    171: PCRE_DOLLAR_ENDONLY in Perl. In both PCRE and Perl, there is no way to stop
                    172: newline from matching [^a].
                    173: .P
                    174: The default POSIX newline handling can be obtained by setting PCRE_DOTALL and
                    175: PCRE_DOLLAR_ENDONLY, but there is no way to make PCRE behave exactly as for the
                    176: REG_NEWLINE action.
                    177: .
                    178: .
                    179: .SH "MATCHING A PATTERN"
                    180: .rs
                    181: .sp
                    182: The function \fBregexec()\fP is called to match a compiled pattern \fIpreg\fP
                    183: against a given \fIstring\fP, which is by default terminated by a zero byte
                    184: (but see REG_STARTEND below), subject to the options in \fIeflags\fP. These can
                    185: be:
                    186: .sp
                    187:   REG_NOTBOL
                    188: .sp
                    189: The PCRE_NOTBOL option is set when calling the underlying PCRE matching
                    190: function.
                    191: .sp
                    192:   REG_NOTEMPTY
                    193: .sp
                    194: The PCRE_NOTEMPTY option is set when calling the underlying PCRE matching
                    195: function. Note that REG_NOTEMPTY is not part of the POSIX standard. However,
                    196: setting this option can give more POSIX-like behaviour in some situations.
                    197: .sp
                    198:   REG_NOTEOL
                    199: .sp
                    200: The PCRE_NOTEOL option is set when calling the underlying PCRE matching
                    201: function.
                    202: .sp
                    203:   REG_STARTEND
                    204: .sp
                    205: The string is considered to start at \fIstring\fP + \fIpmatch[0].rm_so\fP and
                    206: to have a terminating NUL located at \fIstring\fP + \fIpmatch[0].rm_eo\fP
                    207: (there need not actually be a NUL at that location), regardless of the value of
                    208: \fInmatch\fP. This is a BSD extension, compatible with but not specified by
                    209: IEEE Standard 1003.2 (POSIX.2), and should be used with caution in software
                    210: intended to be portable to other systems. Note that a non-zero \fIrm_so\fP does
                    211: not imply REG_NOTBOL; REG_STARTEND affects only the location of the string, not
                    212: how it is matched.
                    213: .P
                    214: If the pattern was compiled with the REG_NOSUB flag, no data about any matched
                    215: strings is returned. The \fInmatch\fP and \fIpmatch\fP arguments of
                    216: \fBregexec()\fP are ignored.
                    217: .P
                    218: If the value of \fInmatch\fP is zero, or if the value \fIpmatch\fP is NULL,
                    219: no data about any matched strings is returned.
                    220: .P
                    221: Otherwise,the portion of the string that was matched, and also any captured
                    222: substrings, are returned via the \fIpmatch\fP argument, which points to an
                    223: array of \fInmatch\fP structures of type \fIregmatch_t\fP, containing the
                    224: members \fIrm_so\fP and \fIrm_eo\fP. These contain the offset to the first
                    225: character of each substring and the offset to the first character after the end
                    226: of each substring, respectively. The 0th element of the vector relates to the
                    227: entire portion of \fIstring\fP that was matched; subsequent elements relate to
                    228: the capturing subpatterns of the regular expression. Unused entries in the
                    229: array have both structure members set to -1.
                    230: .P
                    231: A successful match yields a zero return; various error codes are defined in the
                    232: header file, of which REG_NOMATCH is the "expected" failure code.
                    233: .
                    234: .
                    235: .SH "ERROR MESSAGES"
                    236: .rs
                    237: .sp
                    238: The \fBregerror()\fP function maps a non-zero errorcode from either
                    239: \fBregcomp()\fP or \fBregexec()\fP to a printable message. If \fIpreg\fP is not
                    240: NULL, the error should have arisen from the use of that structure. A message
                    241: terminated by a binary zero is placed in \fIerrbuf\fP. The length of the
                    242: message, including the zero, is limited to \fIerrbuf_size\fP. The yield of the
                    243: function is the size of buffer needed to hold the whole message.
                    244: .
                    245: .
                    246: .SH MEMORY USAGE
                    247: .rs
                    248: .sp
                    249: Compiling a regular expression causes memory to be allocated and associated
                    250: with the \fIpreg\fP structure. The function \fBregfree()\fP frees all such
                    251: memory, after which \fIpreg\fP may no longer be used as a compiled expression.
                    252: .
                    253: .
                    254: .SH AUTHOR
                    255: .rs
                    256: .sp
                    257: .nf
                    258: Philip Hazel
                    259: University Computing Service
                    260: Cambridge CB2 3QH, England.
                    261: .fi
                    262: .
                    263: .
                    264: .SH REVISION
                    265: .rs
                    266: .sp
                    267: .nf
1.1.1.2 ! misho     268: Last updated: 09 January 2012
        !           269: Copyright (c) 1997-2012 University of Cambridge.
1.1       misho     270: .fi

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