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RedHat 9 (Linux i386) - man page for re_syntax (redhat section n)

re_syntax(n)			      Tcl Built-In Commands			     re_syntax(n)


       re_syntax - Syntax of Tcl regular expressions.

       A regular expression describes strings of characters.  It's a pattern that matches certain
       strings and doesn't match others.

       Regular expressions (``RE''s), as defined by POSIX, come  in  two  flavors:  extended  REs
       (``EREs'')  and	basic  REs  (``BREs'').  EREs are roughly those of the traditional egrep,
       while BREs are roughly those of the traditional ed.  This implementation adds a third fla-
       vor, advanced REs (``AREs''), basically EREs with some significant extensions.

       This  manual  page primarily describes AREs.  BREs mostly exist for backward compatibility
       in some old programs; they will be discussed at the end.  POSIX EREs are almost	an  exact
       subset of AREs.	Features of AREs that are not present in EREs will be indicated.

       Tcl  regular expressions are implemented using the package written by Henry Spencer, based
       on the 1003.2 spec and some (not quite all) of  the  Perl5  extensions  (thanks,  Henry!).
       Much  of  the  description of regular expressions below is copied verbatim from his manual

       An ARE is one or more branches, separated by `|', matching anything that  matches  any  of
       the branches.

       A  branch  is  zero  or	more constraints or quantified atoms, concatenated.  It matches a
       match for the first, followed by a match for the second, etc; an empty branch matches  the
       empty string.

       A  quantified atom is an atom possibly followed by a single quantifier.	Without a quanti-
       fier, it matches a match for the atom.  The quantifiers, and  what  a  so-quantified  atom
       matches, are:

	 *     a sequence of 0 or more matches of the atom

	 +     a sequence of 1 or more matches of the atom

	 ?     a sequence of 0 or 1 matches of the atom

	 {m}   a sequence of exactly m matches of the atom

	 {m,}  a sequence of m or more matches of the atom

	 {m,n} a sequence of m through n (inclusive) matches of the atom; m may not exceed n

	 *?  +?  ??  {m}?  {m,}?  {m,n}?
	       non-greedy  quantifiers, which match the same possibilities, but prefer the small-
	       est number rather than the largest number of matches (see MATCHING)

       The forms using { and } are known as bounds.  The numbers m and	n  are	unsigned  decimal
       integers with permissible values from 0 to 255 inclusive.

       An atom is one of:

	 (re)  (where  re is any regular expression) matches a match for re, with the match noted
	       for possible reporting

	       as previous, but does no reporting (a ``non-capturing'' set of parentheses)

	 ()    matches an empty string, noted for possible reporting

	 (?:)  matches an empty string, without reporting

	       a bracket expression, matching any one of the chars (see BRACKET  EXPRESSIONS  for
	       more detail)

	  .    matches any single character

	 \k    (where k is a non-alphanumeric character) matches that character taken as an ordi-
	       nary character, e.g. \\ matches a backslash character

	 \c    where c is alphanumeric (possibly followed by other characters), an  escape  (AREs
	       only), see ESCAPES below

	 {     when  followed by a character other than a digit, matches the left-brace character
	       `{'; when followed by a digit, it is the beginning of a bound (see above)

	 x     where x is a single character with no other significance, matches that character.

       A constraint matches an empty string when specific conditions are met.  A  constraint  may
       not  be	followed  by a quantifier.  The simple constraints are as follows; some more con-
       straints are described later, under ESCAPES.

	 ^	 matches at the beginning of a line

	 $	 matches at the end of a line

	 (?=re)  positive lookahead (AREs only), matches at any point where a substring  matching
		 re begins

	 (?!re)  negative lookahead (AREs only), matches at any point where no substring matching
		 re begins

       The lookahead constraints may not contain back references (see later), and all parentheses
       within them are considered non-capturing.

       An RE may not end with `\'.

       A  bracket  expression  is a list of characters enclosed in `[]'.  It normally matches any
       single character from the list (but see below).	If the list begins with `^',  it  matches
       any single character (but see below) not from the rest of the list.

       If  two	characters in the list are separated by `-', this is shorthand for the full range
       of characters between those two (inclusive) in the  collating  sequence,  e.g.	[0-9]  in
       ASCII  matches any decimal digit.  Two ranges may not share an endpoint, so e.g.  a-c-e is
       illegal.  Ranges are very collating-sequence-dependent, and portable programs should avoid
       relying on them.

       To include a literal ] or - in the list, the simplest method is to enclose it in [. and .]
       to make it a collating element (see below).  Alternatively, make it  the  first	character
       (following  a  possible `^'), or (AREs only) precede it with `\'.  Alternatively, for `-',
       make it the last character, or the second endpoint of a range.  To use a literal - as  the
       first endpoint of a range, make it a collating element or (AREs only) precede it with `\'.
       With the exception of these, some combinations using [ (see next paragraphs), and escapes,
       all other special characters lose their special significance within a bracket expression.

       Within  a bracket expression, a collating element (a character, a multi-character sequence
       that collates as if it were a single character, or a collating-sequence name  for  either)
       enclosed  in  [.  and .]  stands for the sequence of characters of that collating element.
       The sequence is a single element of the bracket expression's list.  A  bracket  expression
       in a locale that has multi-character collating elements can thus match more than one char-
       acter.  So (insidiously), a bracket expression that starts with ^ can match  multi-charac- |
       ter  collating elements even if none of them appear in the bracket expression!  (Note: Tcl |
       currently has no multi-character collating elements.  This information is only for  illus- |
       tration.)										  |

       For  example,  assume  the collating sequence includes a ch multi-character collating ele- |
       ment.  Then the RE [[.ch.]]*c (zero or more ch's followed by c)	matches  the  first  five |
       characters of `chchcc'.	Also, the RE [^c]b matches all of `chb' (because [^c] matches the |
       multi-character ch).

       Within a bracket expression, a collating element enclosed in [= and =] is  an  equivalence
       class,  standing  for  the sequences of characters of all collating elements equivalent to
       that one, including itself.  (If there are no other  equivalent	collating  elements,  the
       treatment  is as if the enclosing delimiters were `[.' and `.]'.)  For example, if o and ^
       are the members of an equivalence class, then `[[=o=]]', `[[=^=]]',  and  `[o^]'  are  all
       synonymous.  An equivalence class may not be an endpoint of a range.  (Note: Tcl currently |
       implements only the Unicode locale.  It doesn't define any equivalence classes.	The exam- |
       ples above are just illustrations.)

       Within  a  bracket  expression, the name of a character class enclosed in [: and :] stands
       for the list of all characters (not all collating elements!)   belonging  to  that  class.
       Standard character classes are:

	      alpha	  A letter.
	      upper	  An upper-case letter.
	      lower	  A lower-case letter.
	      digit	  A decimal digit.
	      xdigit	  A hexadecimal digit.
	      alnum	  An alphanumeric (letter or digit).
	      print	  An alphanumeric (same as alnum).
	      blank	  A space or tab character.
	      space	  A character producing white space in displayed text.
	      punct	  A punctuation character.
	      graph	  A character with a visible representation.
	      cntrl	  A control character.

       A  locale  may  provide	others.   (Note  that the current Tcl implementation has only one |
       locale: the Unicode locale.)  A character class may not be used as an endpoint of a range.

       There are two special cases of bracket expressions: the bracket	expressions  [[:<:]]  and
       [[:>:]] are constraints, matching empty strings at the beginning and end of a word respec-
       tively.	A word is defined as a sequence of word characters that is neither  preceded  nor
       followed by word characters.  A word character is an alnum character or an underscore (_).
       These special bracket expressions are deprecated; users	of  AREs  should  use  constraint
       escapes instead (see below).

       Escapes	(AREs  only), which begin with a \ followed by an alphanumeric character, come in
       several varieties: character entry, class shorthands, constraint escapes, and back  refer-
       ences.	A  \ followed by an alphanumeric character but not constituting a valid escape is
       illegal in AREs.  In EREs, there are no escapes: outside a bracket expression,  a  \  fol-
       lowed by an alphanumeric character merely stands for that character as an ordinary charac-
       ter, and inside a bracket expression, \ is an ordinary character.  (The latter is the  one
       actual incompatibility between EREs and AREs.)

       Character-entry	escapes  (AREs	only) exist to make it easier to specify non-printing and
       otherwise inconvenient characters in REs:

	 \a   alert (bell) character, as in C

	 \b   backspace, as in C

	 \B   synonym for \ to help reduce backslash doubling in some  applications  where  there
	      are multiple levels of backslash processing

	 \cX  (where  X  is  any  character) the character whose low-order 5 bits are the same as
	      those of X, and whose other bits are all zero

	 \e   the character whose collating-sequence name is `ESC', or failing that, the  charac-
	      ter with octal value 033

	 \f   formfeed, as in C

	 \n   newline, as in C

	 \r   carriage return, as in C

	 \t   horizontal tab, as in C

	      (where wxyz is exactly four hexadecimal digits) the Unicode character U+wxyz in the
	      local byte ordering

	      (where stuvwxyz is exactly eight hexadecimal digits) reserved for a  somewhat-hypo-
	      thetical Unicode extension to 32 bits

	 \v   vertical tab, as in C are all available.

	      (where  hhh  is any sequence of hexadecimal digits) the character whose hexadecimal
	      value is 0xhhh (a single character no matter how many hexadecimal digits are used).

	 \0   the character whose value is 0

	 \xy  (where xy is exactly two octal digits, and is not a back reference (see below)) the
	      character whose octal value is 0xy

	 \xyz (where  xyz is exactly three octal digits, and is not a back reference (see below))
	      the character whose octal value is 0xyz

       Hexadecimal digits are `0'-`9', `a'-`f', and `A'-`F'.  Octal digits are `0'-`7'.

       The character-entry escapes are always taken as ordinary characters.  For example, \135 is
       ]  in ASCII, but \135 does not terminate a bracket expression.  Beware, however, that some
       applications (e.g., C compilers) interpret such sequences themselves before  the  regular-
       expression  package  gets  to see them, which may require doubling (quadrupling, etc.) the

       Class-shorthand escapes (AREs only) provide shorthands for certain commonly-used character

	 \d	   [[:digit:]]

	 \s	   [[:space:]]

	 \w	   [[:alnum:]_] (note underscore)

	 \D	   [^[:digit:]]

	 \S	   [^[:space:]]

	 \W	   [^[:alnum:]_] (note underscore)

       Within  bracket	expressions,  `\d',  `\s',  and `\w' lose their outer brackets, and `\D',
       `\S', and `\W' are illegal.  (So, for example, [a-c\d] is  equivalent  to  [a-c[:digit:]]. |
       Also, [a-c\D], which is equivalent to [a-c^[:digit:]], is illegal.)

       A  constraint  escape  (AREs  only) is a constraint, matching the empty string if specific
       conditions are met, written as an escape:

	 \A    matches only at the beginning of the string (see MATCHING,  below,  for	how  this
	       differs from `^')

	 \m    matches only at the beginning of a word

	 \M    matches only at the end of a word

	 \y    matches only at the beginning or end of a word

	 \Y    matches only at a point that is not the beginning or end of a word

	 \Z    matches	only  at the end of the string (see MATCHING, below, for how this differs
	       from `$')

	 \m    (where m is a nonzero digit) a back reference, see below

	 \mnn  (where m is a nonzero digit, and nn is some more digits, and the decimal value mnn
	       is  not	greater  than  the number of closing capturing parentheses seen so far) a
	       back reference, see below

       A word is defined as in the  specification  of  [[:<:]]	and  [[:>:]]  above.   Constraint
       escapes are illegal within bracket expressions.

       A  back	reference (AREs only) matches the same string matched by the parenthesized subex-
       pression specified by the number, so that (e.g.)  ([bc])\1 matches bb or cc but not  `bc'.
       The  subexpression must entirely precede the back reference in the RE.  Subexpressions are
       numbered in the order of their leading  parentheses.   Non-capturing  parentheses  do  not
       define subexpressions.

       There  is  an inherent historical ambiguity between octal character-entry escapes and back
       references, which is resolved by heuristics, as hinted at above.  A  leading  zero  always
       indicates  an  octal  escape.   A single non-zero digit, not followed by another digit, is
       always taken as a back reference.  A multi-digit sequence not  starting	with  a  zero  is
       taken  as  a back reference if it comes after a suitable subexpression (i.e. the number is
       in the legal range for a back reference), and otherwise is taken as octal.

       In addition to the main syntax described above, there are some special forms and miscella-
       neous syntactic facilities available.

       Normally  the  flavor  of RE being used is specified by application-dependent means.  How-
       ever, this can be overridden by a director.  If an RE of any flavor  begins  with  `***:',
       the  rest of the RE is an ARE.  If an RE of any flavor begins with `***=', the rest of the
       RE is taken to be a literal string, with all characters considered ordinary characters.

       An ARE may begin with embedded options: a sequence (?xyz) (where xyz is one or more alpha-
       betic  characters)  specifies options affecting the rest of the RE.  These supplement, and
       can override, any options specified by the application.	The available option letters are:

	 b  rest of RE is a BRE

	 c  case-sensitive matching (usual default)

	 e  rest of RE is an ERE

	 i  case-insensitive matching (see MATCHING, below)

	 m  historical synonym for n

	 n  newline-sensitive matching (see MATCHING, below)

	 p  partial newline-sensitive matching (see MATCHING, below)

	 q  rest of RE is a literal (``quoted'') string, all ordinary characters

	 s  non-newline-sensitive matching (usual default)

	 t  tight syntax (usual default; see below)

	 w  inverse partial newline-sensitive (``weird'') matching (see MATCHING, below)

	 x  expanded syntax (see below)

       Embedded options take effect at the ) terminating the sequence.	They are  available  only
       at the start of an ARE, and may not be used later within it.

       In addition to the usual (tight) RE syntax, in which all characters are significant, there
       is an expanded syntax, available in all flavors of RE with the  -expanded  switch,  or  in
       AREs  with  the	embedded  x  option.   In the expanded syntax, white-space characters are
       ignored and all characters between a # and the following newline (or the end  of  the  RE)
       are  ignored, permitting paragraphing and commenting a complex RE.  There are three excep-
       tions to that basic rule:

	 a white-space character or `#' preceded by `\' is retained

	 white space or `#' within a bracket expression is retained

	 white space and comments are illegal within multi-character symbols like the  ARE  `(?:'
	 or the BRE `\('

       Expanded-syntax	white-space  characters  are  blank, tab, newline, and any character that |
       belongs to the space character class.

       Finally, in an ARE, outside bracket expressions, the sequence `(?#ttt)' (where ttt is  any
       text  not  containing a `)') is a comment, completely ignored.  Again, this is not allowed
       between the characters of multi-character symbols like `(?:'.  Such comments  are  more	a
       historical  artifact than a useful facility, and their use is deprecated; use the expanded
       syntax instead.

       None of these metasyntax extensions is available if the application (or	an  initial  ***=
       director)  has  specified that the user's input be treated as a literal string rather than
       as an RE.

       In the event that an RE could match more than one substring of  a  given  string,  the  RE
       matches the one starting earliest in the string.  If the RE could match more than one sub-
       string starting at that point, its choice is determined	by  its  preference:  either  the
       longest substring, or the shortest.

       Most  atoms,  and  all  constraints,  have no preference.  A parenthesized RE has the same
       preference (possibly none) as the RE.  A quantified atom with quantifier {m} or {m}?   has
       the same preference (possibly none) as the atom itself.	A quantified atom with other nor-
       mal quantifiers (including {m,n} with m equal to n) prefers longest match.   A  quantified
       atom  with  other  non-greedy  quantifiers  (including  {m,n}?  with m equal to n) prefers
       shortest match.	A branch has the same preference as the first quantified atom in it which
       has  a  preference.   An RE consisting of two or more branches connected by the | operator
       prefers longest match.

       Subject to the constraints imposed by the rules for matching the whole RE,  subexpressions
       also  match  the longest or shortest possible substrings, based on their preferences, with
       subexpressions starting earlier in the RE taking priority over ones starting later.   Note
       that outer subexpressions thus take priority over their component subexpressions.

       Note  that  the	quantifiers  {1,1}  and {1,1}?	can be used to force longest and shortest
       preference, respectively, on a subexpression or a whole RE.

       Match lengths are measured in characters, not collating elements.  An empty string is con-
       sidered longer than no match at all.  For example, bb* matches the three middle characters
       of `abbbc', (week|wee)(night|knights) matches all ten  characters  of  `weeknights',  when
       (.*).*	is  matched against abc the parenthesized subexpression matches all three charac-
       ters, and when (a*)* is matched against bc both the whole RE and the parenthesized  subex-
       pression match an empty string.

       If  case-independent matching is specified, the effect is much as if all case distinctions
       had vanished from the alphabet.	When an alphabetic that exists in multiple cases  appears
       as  an ordinary character outside a bracket expression, it is effectively transformed into
       a bracket expression containing both cases, so that x becomes  `[xX]'.	When  it  appears
       inside  a bracket expression, all case counterparts of it are added to the bracket expres-
       sion, so that [x] becomes [xX] and [^x] becomes `[^xX]'.

       If newline-sensitive matching is specified, .  and bracket expressions using ^ will  never
       match  the  newline  character  (so  that  matches will never cross newlines unless the RE
       explicitly arranges it) and ^ and $ will match the empty string after and before a newline
       respectively, in addition to matching at beginning and end of string respectively.  ARE \A
       and \Z continue to match beginning or end of string only.

       If partial newline-sensitive matching is specified, this affects .   and  bracket  expres-
       sions as with newline-sensitive matching, but not ^ and `$'.

       If  inverse  partial newline-sensitive matching is specified, this affects ^ and $ as with
       newline-sensitive matching, but not .  and bracket expressions.	This  isn't  very  useful
       but is provided for symmetry.

       No  particular limit is imposed on the length of REs.  Programs intended to be highly por-
       table should not employ REs longer than 256 bytes, as a POSIX-compliant implementation can
       refuse to accept such REs.

       The  only feature of AREs that is actually incompatible with POSIX EREs is that \ does not
       lose its special significance inside bracket expressions.  All other ARE features use syn-
       tax which is illegal or has undefined or unspecified effects in POSIX EREs; the *** syntax
       of directors likewise is outside the POSIX syntax for both BREs and EREs.

       Many of the ARE extensions are borrowed from Perl, but some have  been  changed	to  clean
       them  up,  and  a  few Perl extensions are not present.	Incompatibilities of note include
       `\b', `\B', the lack of special treatment for a trailing newline, the addition of  comple-
       mented  bracket	expressions  to  the  things  affected by newline-sensitive matching, the
       restrictions on parentheses and back references in lookahead constraints,  and  the  long-
       est/shortest-match (rather than first-match) matching semantics.

       The  matching rules for REs containing both normal and non-greedy quantifiers have changed
       since early beta-test versions of this package.	(The  new  rules  are  much  simpler  and
       cleaner, but don't work as hard at guessing the user's real intentions.)

       Henry  Spencer's  original  1986 regexp package, still in widespread use (e.g., in pre-8.1
       releases of Tcl), implemented an early version of today's EREs.	There are four incompati-
       bilities  between  regexp's  near-EREs (`RREs' for short) and AREs.  In roughly increasing
       order of significance:

	      In AREs, \ followed by an alphanumeric character is either an escape or  an  error,
	      while  in  RREs,	it was just another way of writing the alphanumeric.  This should
	      not be a problem because there was no reason to write such a sequence in RREs.

	      { followed by a digit in an ARE is the beginning of a bound, while in RREs,  {  was
	      always an ordinary character.  Such sequences should be rare, and will often result
	      in an error because following characters will not look like a valid bound.

	      In AREs, \ remains a special character within `[]', so a literal \ within  []  must
	      be written `\\'.	\\ also gives a literal \ within [] in RREs, but only truly para-
	      noid programmers routinely doubled the backslash.

	      AREs report the longest/shortest match for the RE, rather than the first found in a
	      specified search order.  This may affect some RREs which were written in the expec-
	      tation that the first match would be reported.  (The careful crafting  of  RREs  to
	      optimize	the search order for fast matching is obsolete (AREs examine all possible
	      matches in parallel, and their performance is largely insensitive to their complex-
	      ity)  but  cases	where the search order was exploited to deliberately find a match
	      which was not the longest/shortest will need rewriting.)

       BREs differ from EREs in several respects.  `|', `+', and ?  are ordinary  characters  and
       there  is  no  equivalent  for  their functionality.  The delimiters for bounds are \{ and
       `\}', with { and } by themselves ordinary characters.  The parentheses for  nested  subex-
       pressions  are \( and `\)', with ( and ) by themselves ordinary characters.  ^ is an ordi-
       nary character except at the beginning of the RE or the beginning of a parenthesized  sub-
       expression,  $ is an ordinary character except at the end of the RE or the end of a paren-
       thesized subexpression, and * is an ordinary character if it appears at the  beginning  of
       the  RE	or the beginning of a parenthesized subexpression (after a possible leading `^').
       Finally, single-digit back references are available,  and  \<  and  \>  are  synonyms  for
       [[:<:]] and [[:>:]] respectively; no other escapes are available.

       RegExp(3), regexp(n), regsub(n), lsearch(n), switch(n), text(n)

       match, regular expression, string

Tcl					       8.1				     re_syntax(n)

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