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| .Dd June 30, 2014 |
| .Dt RE_FORMAT 7 |
| .Os |
| .Sh NAME |
| .Nm re_format |
| .Nd POSIX 1003.2 regular expressions |
| .Sh DESCRIPTION |
| Regular expressions |
| .Pq Dq RE Ns s , |
| as defined in |
| .St -p1003.2 , |
| come in two forms: |
| modern REs (roughly those of |
| .Xr egrep 1 ; |
| 1003.2 calls these |
| .Dq extended |
| REs) |
| and obsolete REs (roughly those of |
| .Xr ed 1 ; |
| 1003.2 |
| .Dq basic |
| REs). |
| Obsolete REs mostly exist for backward compatibility in some old programs; |
| they will be discussed at the end. |
| .St -p1003.2 |
| leaves some aspects of RE syntax and semantics open; |
| `\(dd' marks decisions on these aspects that |
| may not be fully portable to other |
| .St -p1003.2 |
| implementations. |
| .Pp |
| A (modern) RE is one\(dd or more non-empty\(dd |
| .Em branches , |
| separated by |
| .Ql \&| . |
| It matches anything that matches one of the branches. |
| .Pp |
| A branch is one\(dd or more |
| .Em pieces , |
| concatenated. |
| It matches a match for the first, followed by a match for the second, etc. |
| .Pp |
| A piece is an |
| .Em atom |
| possibly followed |
| by a single\(dd |
| .Ql \&* , |
| .Ql \&+ , |
| .Ql \&? , |
| or |
| .Em bound . |
| An atom followed by |
| .Ql \&* |
| matches a sequence of 0 or more matches of the atom. |
| An atom followed by |
| .Ql \&+ |
| matches a sequence of 1 or more matches of the atom. |
| An atom followed by |
| .Ql ?\& |
| matches a sequence of 0 or 1 matches of the atom. |
| .Pp |
| A |
| .Em bound |
| is |
| .Ql \&{ |
| followed by an unsigned decimal integer, |
| possibly followed by |
| .Ql \&, |
| possibly followed by another unsigned decimal integer, |
| always followed by |
| .Ql \&} . |
| The integers must lie between 0 and |
| .Dv RE_DUP_MAX |
| (255\(dd) inclusive, |
| and if there are two of them, the first may not exceed the second. |
| An atom followed by a bound containing one integer |
| .Em i |
| and no comma matches |
| a sequence of exactly |
| .Em i |
| matches of the atom. |
| An atom followed by a bound |
| containing one integer |
| .Em i |
| and a comma matches |
| a sequence of |
| .Em i |
| or more matches of the atom. |
| An atom followed by a bound |
| containing two integers |
| .Em i |
| and |
| .Em j |
| matches |
| a sequence of |
| .Em i |
| through |
| .Em j |
| (inclusive) matches of the atom. |
| .Pp |
| An atom is a regular expression enclosed in |
| .Ql () |
| (matching a match for the |
| regular expression), |
| an empty set of |
| .Ql () |
| (matching the null string)\(dd, |
| a |
| .Em bracket expression |
| (see below), |
| .Ql .\& |
| (matching any single character), |
| .Ql \&^ |
| (matching the null string at the beginning of a line), |
| .Ql \&$ |
| (matching the null string at the end of a line), a |
| .Ql \e |
| followed by one of the characters |
| .Ql ^.[$()|*+?{\e |
| (matching that character taken as an ordinary character), |
| a |
| .Ql \e |
| followed by any other character\(dd |
| (matching that character taken as an ordinary character, |
| as if the |
| .Ql \e |
| had not been present\(dd), |
| or a single character with no other significance (matching that character). |
| A |
| .Ql \&{ |
| followed by a character other than a digit is an ordinary |
| character, not the beginning of a bound\(dd. |
| It is illegal to end an RE with |
| .Ql \e . |
| .Pp |
| A |
| .Em bracket expression |
| is a list of characters enclosed in |
| .Ql [] . |
| It normally matches any single character from the list (but see below). |
| If the list begins with |
| .Ql \&^ , |
| it matches any single character |
| (but see below) |
| .Em not |
| from the rest of the list. |
| If two characters in the list are separated by |
| .Ql \&- , |
| this is shorthand |
| for the full |
| .Em range |
| of characters between those two (inclusive) in the |
| collating sequence, |
| .No e.g. Ql [0-9] |
| in ASCII matches any decimal digit. |
| It is illegal\(dd for two ranges to share an |
| endpoint, |
| .No e.g. Ql a-c-e . |
| Ranges are very collating-sequence-dependent, |
| and portable programs should avoid relying on them. |
| .Pp |
| To include a literal |
| .Ql \&] |
| in the list, make it the first character |
| (following a possible |
| .Ql \&^ ) . |
| To include a literal |
| .Ql \&- , |
| make it the first or last character, |
| or the second endpoint of a range. |
| To use a literal |
| .Ql \&- |
| as the first endpoint of a range, |
| enclose it in |
| .Ql [.\& |
| and |
| .Ql .]\& |
| to make it a collating element (see below). |
| With the exception of these and some combinations using |
| .Ql \&[ |
| (see next paragraphs), all other special characters, including |
| .Ql \e , |
| lose their special significance within a bracket expression. |
| .Pp |
| 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 |
| .Ql [.\& |
| and |
| .Ql .]\& |
| 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 containing a multi-character collating element |
| can thus match more than one character, |
| e.g.\& if the collating sequence includes a |
| .Ql ch |
| collating element, |
| then the RE |
| .Ql [[.ch.]]*c |
| matches the first five characters |
| of |
| .Ql chchcc . |
| .Pp |
| Within a bracket expression, a collating element enclosed in |
| .Ql [= |
| and |
| .Ql =] |
| 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 |
| .Ql [.\& |
| and |
| .Ql .] . ) |
| For example, if |
| .Ql x |
| and |
| .Ql y |
| are the members of an equivalence class, |
| then |
| .Ql [[=x=]] , |
| .Ql [[=y=]] , |
| and |
| .Ql [xy] |
| are all synonymous. |
| An equivalence class may not\(dd be an endpoint |
| of a range. |
| .Pp |
| Within a bracket expression, the name of a |
| .Em character class |
| enclosed in |
| .Ql [: |
| and |
| .Ql :] |
| stands for the list of all characters belonging to that |
| class. |
| Standard character class names are: |
| .Bl -column "alnum" "digit" "xdigit" -offset indent |
| .It Em "alnum digit punct" |
| .It Em "alpha graph space" |
| .It Em "blank lower upper" |
| .It Em "cntrl print xdigit" |
| .El |
| .Pp |
| These stand for the character classes defined in |
| .Xr ctype 3 . |
| A locale may provide others. |
| A character class may not be used as an endpoint of a range. |
| .Pp |
| A bracketed expression like |
| .Ql [[:class:]] |
| can be used to match a single character that belongs to a character |
| class. |
| The reverse, matching any character that does not belong to a specific |
| class, the negation operator of bracket expressions may be used: |
| .Ql [^[:class:]] . |
| .Pp |
| There are two special cases\(dd of bracket expressions: |
| the bracket expressions |
| .Ql [[:<:]] |
| and |
| .Ql [[:>:]] |
| match the null string at the beginning and end of a word respectively. |
| A word is defined as a sequence of word characters |
| which is neither preceded nor followed by |
| word characters. |
| A word character is an |
| .Em alnum |
| character (as defined by |
| .Xr ctype 3 ) |
| or an underscore. |
| This is an extension, |
| compatible with but not specified by |
| .St -p1003.2 , |
| and should be used with |
| caution in software intended to be portable to other systems. |
| The additional word delimiters |
| .Ql \e< |
| and |
| .Ql \e> |
| are provided to ease compatibility with traditional |
| SVR4 |
| systems but are not portable and should be avoided. |
| .Pp |
| 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 substring starting at that point, |
| it matches the longest. |
| Subexpressions also match the longest possible substrings, subject to |
| the constraint that the whole match be as long as possible, |
| with subexpressions starting earlier in the RE taking priority over |
| ones starting later. |
| Note that higher-level subexpressions thus take priority over |
| their lower-level component subexpressions. |
| .Pp |
| Match lengths are measured in characters, not collating elements. |
| A null string is considered longer than no match at all. |
| For example, |
| .Ql bb* |
| matches the three middle characters of |
| .Ql abbbc , |
| .Ql (wee|week)(knights|nights) |
| matches all ten characters of |
| .Ql weeknights , |
| when |
| .Ql (.*).*\& |
| is matched against |
| .Ql abc |
| the parenthesized subexpression |
| matches all three characters, and |
| when |
| .Ql (a*)* |
| is matched against |
| .Ql bc |
| both the whole RE and the parenthesized |
| subexpression match the null string. |
| .Pp |
| 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, |
| .No e.g. Ql x |
| becomes |
| .Ql [xX] . |
| When it appears inside a bracket expression, all case counterparts |
| of it are added to the bracket expression, so that (e.g.) |
| .Ql [x] |
| becomes |
| .Ql [xX] |
| and |
| .Ql [^x] |
| becomes |
| .Ql [^xX] . |
| .Pp |
| No particular limit is imposed on the length of REs\(dd. |
| Programs intended to be portable should not employ REs longer |
| than 256 bytes, |
| as an implementation can refuse to accept such REs and remain |
| POSIX-compliant. |
| .Pp |
| Obsolete |
| .Pq Dq basic |
| regular expressions differ in several respects. |
| .Ql \&| |
| is an ordinary character and there is no equivalent |
| for its functionality. |
| .Ql \&+ |
| and |
| .Ql ?\& |
| are ordinary characters, and their functionality |
| can be expressed using bounds |
| .Po |
| .Ql {1,} |
| or |
| .Ql {0,1} |
| respectively |
| .Pc . |
| Also note that |
| .Ql x+ |
| in modern REs is equivalent to |
| .Ql xx* . |
| The delimiters for bounds are |
| .Ql \e{ |
| and |
| .Ql \e} , |
| with |
| .Ql \&{ |
| and |
| .Ql \&} |
| by themselves ordinary characters. |
| The parentheses for nested subexpressions are |
| .Ql \e( |
| and |
| .Ql \e) , |
| with |
| .Ql \&( |
| and |
| .Ql \&) |
| by themselves ordinary characters. |
| .Ql \&^ |
| is an ordinary character except at the beginning of the |
| RE or\(dd the beginning of a parenthesized subexpression, |
| .Ql \&$ |
| is an ordinary character except at the end of the |
| RE or\(dd the end of a parenthesized subexpression, |
| and |
| .Ql \&* |
| is an ordinary character if it appears at the beginning of the |
| RE or the beginning of a parenthesized subexpression |
| (after a possible leading |
| .Ql \&^ ) . |
| Finally, there is one new type of atom, a |
| .Em back reference : |
| .Ql \e |
| followed by a non-zero decimal digit |
| .Em d |
| matches the same sequence of characters |
| matched by the |
| .Em d Ns th |
| parenthesized subexpression |
| (numbering subexpressions by the positions of their opening parentheses, |
| left to right), |
| so that (e.g.) |
| .Ql \e([bc]\e)\e1 |
| matches |
| .Ql bb |
| or |
| .Ql cc |
| but not |
| .Ql bc . |
| .Sh SEE ALSO |
| .Xr regex 3 |
| .Rs |
| .%T Regular Expression Notation |
| .%R IEEE Std |
| .%N 1003.2 |
| .%P section 2.8 |
| .Re |
| .Sh BUGS |
| Having two kinds of REs is a botch. |
| .Pp |
| The current |
| .St -p1003.2 |
| spec says that |
| .Ql \&) |
| is an ordinary character in |
| the absence of an unmatched |
| .Ql \&( ; |
| this was an unintentional result of a wording error, |
| and change is likely. |
| Avoid relying on it. |
| .Pp |
| Back references are a dreadful botch, |
| posing major problems for efficient implementations. |
| They are also somewhat vaguely defined |
| (does |
| .Ql a\e(\e(b\e)*\e2\e)*d |
| match |
| .Ql abbbd ? ) . |
| Avoid using them. |
| .Pp |
| .St -p1003.2 |
| specification of case-independent matching is vague. |
| The |
| .Dq one case implies all cases |
| definition given above |
| is current consensus among implementors as to the right interpretation. |
| .Pp |
| The syntax for word boundaries is incredibly ugly. |
|
|
