factor/basis/regexp/regexp.factor

! Copyright (C) 2008, 2009 Doug Coleman, Daniel Ehrenberg.
! See http://factorcode.org/license.txt for BSD license.
USING: accessors combinators kernel kernel.private math sequences
sequences.private strings sets assocs make lexer namespaces parser
arrays fry locals regexp.parser splitting sorting regexp.ast
regexp.negation regexp.compiler compiler.units words math.ranges ;
IN: regexp

TUPLE: regexp
    { raw read-only }
    { parse-tree read-only }
    { options read-only }
    dfa next-match ;

TUPLE: reverse-regexp < regexp ;

<PRIVATE

M: lookahead question>quot ! Returns ( index string -- ? )
    term>> ast>dfa dfa>shortest-word '[ f _ execute ] ;

: <reversed-option> ( ast -- reversed )
    "r" string>options <with-options> ;

M: lookbehind question>quot ! Returns ( index string -- ? )
    term>> <reversed-option>
    ast>dfa dfa>reverse-shortest-word
    '[ [ 1- ] dip f _ execute ] ;

: check-string ( string -- string )
    ! Make this configurable
    dup string? [ "String required" throw ] unless ;

: match-index-from ( i string regexp -- index/f )
    ! This word is unsafe. It assumes that i is a fixnum
    ! and that string is a string.
    dup dfa>> execute( index string regexp -- i/f ) ; inline

GENERIC: end/start ( string regexp -- end start )
M: regexp end/start drop length 0 ;
M: reverse-regexp end/start drop length 1- -1 swap ;

PRIVATE>

: matches? ( string regexp -- ? )
    [ check-string ] dip
    [ end/start ] 2keep
    match-index-from
    [ = ] [ drop f ] if* ;

<PRIVATE

:: (next-match) ( i string regexp quot: ( i string regexp -- j ) reverse? -- i start end ? )
    i string regexp quot call dup [| j |
        j i j
        reverse? [ swap [ 1+ ] bi@ ] when
        string
    ] [ drop f f f f ] if ; inline

: search-range ( i string reverse? -- seq )
    [ drop dup 1+ -1 ] [ length 1 ] if range boa ; inline

:: next-match ( i string regexp quot: ( i string regexp -- j ) reverse? -- i start end ? )
    f f f f
    i string reverse? search-range
    [ [ 2drop 2drop ] dip string regexp quot reverse? (next-match) dup ] find 2drop ; inline

: do-next-match ( i string regexp -- i start end ? )
    dup next-match>>
    execute( i string regexp -- i start end ? ) ; inline

:: (each-match) ( i string regexp quot: ( start end string -- ) -- )
    i string regexp do-next-match [| i' start end |
        start end string quot call
        i' string regexp quot (each-match)
    ] [ 3drop ] if ; inline recursive

: prepare-match-iterator ( string regexp -- i string regexp )
    [ check-string ] dip [ end/start nip ] 2keep ; inline

PRIVATE>

: each-match ( string regexp quot: ( start end string -- ) -- )
    [ prepare-match-iterator ] dip (each-match) ; inline

: map-matches ( string regexp quot: ( start end string -- obj ) -- seq )
    accumulator [ each-match ] dip >array ; inline

: all-matching-slices ( string regexp -- seq )
    [ slice boa ] map-matches ;

: all-matching-subseqs ( string regexp -- seq )
    [ subseq ] map-matches ;

: count-matches ( string regexp -- n )
    [ 0 ] 2dip [ 3drop 1+ ] each-match ;

<PRIVATE

:: (re-split) ( string regexp quot -- new-slices )
    0 string regexp [| end start end' string |
        end' ! leave it on the stack for the next iteration
        end start string quot call
    ] map-matches
    ! Final chunk
    swap string length string quot call suffix ; inline

PRIVATE>

: first-match ( string regexp -- slice/f )
    [ prepare-match-iterator do-next-match ] [ drop ] 2bi
    '[ _ slice boa nip ] [ 3drop f ] if ;

: re-contains? ( string regexp -- ? )
    prepare-match-iterator do-next-match [ 3drop ] dip >boolean ;

: re-split ( string regexp -- seq )
    [ slice boa ] (re-split) ;

: re-replace ( string regexp replacement -- result )
    [ [ subseq ] (re-split) ] dip join ;

<PRIVATE

: get-ast ( regexp -- ast )
    [ parse-tree>> ] [ options>> ] bi <with-options> ;

GENERIC: compile-regexp ( regex -- regexp )

: regexp-initial-word ( i string regexp -- i/f )
    [ compile-regexp ] with-compilation-unit match-index-from ;

M: regexp compile-regexp ( regexp -- regexp )
    dup '[
        dup \ regexp-initial-word =
        [ drop _ get-ast ast>dfa dfa>word ] when
    ] change-dfa ;

M: reverse-regexp compile-regexp ( regexp -- regexp )
    t backwards? [ call-next-method ] with-variable ;

DEFER: compile-next-match

: next-initial-word ( i string regexp -- i start end string )
    [ compile-next-match ] with-compilation-unit do-next-match ;

: compile-next-match ( regexp -- regexp )
    dup '[
        dup \ next-initial-word = [
            drop _ [ compile-regexp dfa>> def>> ] [ reverse-regexp? ] bi
            '[ { array-capacity string regexp } declare _ _ next-match ]
            (( i string regexp -- i start end string )) define-temp
        ] when
    ] change-next-match ;

PRIVATE>

: new-regexp ( string ast options class -- regexp )
    [ \ regexp-initial-word \ next-initial-word ] dip boa ; inline

: make-regexp ( string ast -- regexp )
    f f <options> regexp new-regexp ;

: <optioned-regexp> ( string options -- regexp )
    [ dup parse-regexp ] [ string>options ] bi*
    dup on>> reversed-regexp swap member?
    [ reverse-regexp new-regexp ]
    [ regexp new-regexp ] if ;

: <regexp> ( string -- regexp ) "" <optioned-regexp> ;

<PRIVATE

! The following two should do some caching

: find-regexp-syntax ( string -- prefix suffix )
    {
        { "R/ "  "/"  }
        { "R! "  "!"  }
        { "R\" " "\"" }
        { "R# "  "#"  }
        { "R' "  "'"  }
        { "R( "  ")"  }
        { "R@ "  "@"  }
        { "R[ "  "]"  }
        { "R` "  "`"  }
        { "R{ "  "}"  }
        { "R| "  "|"  }
    } swap [ subseq? not nip ] curry assoc-find drop ;

: take-until ( end lexer -- string )
    dup skip-blank [
        [ index-from ] 2keep
        [ swapd subseq ]
        [ 2drop 1+ ] 3bi
    ] change-lexer-column ;

: parse-noblank-token ( lexer -- str/f )
    dup still-parsing-line? [ (parse-token) ] [ drop f ] if ;

: parsing-regexp ( accum end -- accum )
    lexer get [ take-until ] [ parse-noblank-token ] bi
    <optioned-regexp> compile-next-match parsed ;

PRIVATE>

: R! CHAR: ! parsing-regexp ; parsing
: R" CHAR: " parsing-regexp ; parsing
: R# CHAR: # parsing-regexp ; parsing
: R' CHAR: ' parsing-regexp ; parsing
: R( CHAR: ) parsing-regexp ; parsing
: R/ CHAR: / parsing-regexp ; parsing
: R@ CHAR: @ parsing-regexp ; parsing
: R[ CHAR: ] parsing-regexp ; parsing
: R` CHAR: ` parsing-regexp ; parsing
: R{ CHAR: } parsing-regexp ; parsing
: R| CHAR: | parsing-regexp ; parsing

USING: vocabs vocabs.loader ;

"prettyprint" vocab [
    "regexp.prettyprint" require
] when
Various regexp changes, including the addition of regexp combinators 2009-02-25 13:22:12 -05:00			`! Copyright (C) 2008, 2009 Doug Coleman, Daniel Ehrenberg.`
move regexp2 to unfinished for binaries 2008-08-26 21:24:14 -04:00			`! See http://factorcode.org/license.txt for BSD license.`
Add some declarations so that next-match is faster 2009-03-11 17:53:44 -04:00			`USING: accessors combinators kernel kernel.private math sequences`
Separate regexp.prettyprint from regexp to reduce deployed image size 2009-03-18 18:07:19 -04:00			`sequences.private strings sets assocs make lexer namespaces parser`
			`arrays fry locals regexp.parser splitting sorting regexp.ast`
			`regexp.negation regexp.compiler compiler.units words math.ranges ;`
move regexp2 to regexp, bug fixes, more tests 2008-09-18 15:42:16 -04:00			`IN: regexp`
move regexp2 to unfinished for binaries 2008-08-26 21:24:14 -04:00
Regexp docs, mostly 2009-02-25 17:22:01 -05:00			`TUPLE: regexp`
			`{ raw read-only }`
			`{ parse-tree read-only }`
			`{ options read-only }`
Many regexp changes, improving speed and organization 2009-03-10 19:27:04 -04:00			`dfa next-match ;`
Finish cleanup of regexp 2009-02-18 15:52:10 -05:00
Many regexp changes, improving speed and organization 2009-03-10 19:27:04 -04:00			`TUPLE: reverse-regexp < regexp ;`
Various regexp changes, including the addition of regexp combinators 2009-02-25 13:22:12 -05:00
Many regexp changes, improving speed and organization 2009-03-10 19:27:04 -04:00			`<PRIVATE`
Finish cleanup of regexp 2009-02-18 15:52:10 -05:00
Many regexp changes, improving speed and organization 2009-03-10 19:27:04 -04:00			`M: lookahead question>quot ! Returns ( index string -- ? )`
Adding word breaks to regexp 2009-03-11 16:51:54 -04:00			`term>> ast>dfa dfa>shortest-word '[ f _ execute ] ;`
Finish cleanup of regexp 2009-02-18 15:52:10 -05:00
Many regexp changes, improving speed and organization 2009-03-10 19:27:04 -04:00			`: <reversed-option> ( ast -- reversed )`
			`"r" string>options <with-options> ;`

			`M: lookbehind question>quot ! Returns ( index string -- ? )`
Adding word breaks to regexp 2009-03-11 16:51:54 -04:00			`term>> <reversed-option>`
			`ast>dfa dfa>reverse-shortest-word`
			`'[ [ 1- ] dip f _ execute ] ;`
Many regexp changes, improving speed and organization 2009-03-10 19:27:04 -04:00
			`: check-string ( string -- string )`
			`! Make this configurable`
			`dup string? [ "String required" throw ] unless ;`

			`: match-index-from ( i string regexp -- index/f )`
			`! This word is unsafe. It assumes that i is a fixnum`
			`! and that string is a string.`
Move call( and execute( to core 2009-03-16 21:11:36 -04:00			`dup dfa>> execute( index string regexp -- i/f ) ; inline`
Many regexp changes, improving speed and organization 2009-03-10 19:27:04 -04:00
matches? works as expected for reversed regexps 2009-03-10 20:17:25 -04:00			`GENERIC: end/start ( string regexp -- end start )`
			`M: regexp end/start drop length 0 ;`
			`M: reverse-regexp end/start drop length 1- -1 swap ;`
Many regexp changes, improving speed and organization 2009-03-10 19:27:04 -04:00
			`PRIVATE>`

			`: matches? ( string regexp -- ? )`
matches? works as expected for reversed regexps 2009-03-10 20:17:25 -04:00			`[ check-string ] dip`
Remove match iterators for a performance boost 2009-03-11 17:21:29 -04:00			`[ end/start ] 2keep`
matches? works as expected for reversed regexps 2009-03-10 20:17:25 -04:00			`match-index-from`
Remove match iterators for a performance boost 2009-03-11 17:21:29 -04:00			`[ = ] [ drop f ] if* ;`
Many regexp changes, improving speed and organization 2009-03-10 19:27:04 -04:00
			`<PRIVATE`

Inline initial state in next-match loop 2009-03-11 18:06:45 -04:00			`:: (next-match) ( i string regexp quot: ( i string regexp -- j ) reverse? -- i start end ? )`
			`i string regexp quot call dup [\| j \|`
Remove match iterators for a performance boost 2009-03-11 17:21:29 -04:00			`j i j`
			`reverse? [ swap [ 1+ ] bi@ ] when`
Get rid of match tuple 2009-03-11 17:36:53 -04:00			`string`
			`] [ drop f f f f ] if ; inline`
Many regexp changes, improving speed and organization 2009-03-10 19:27:04 -04:00
Regexp match iterators are better 2009-03-11 13:29:33 -04:00			`: search-range ( i string reverse? -- seq )`
Add some declarations so that next-match is faster 2009-03-11 17:53:44 -04:00			`[ drop dup 1+ -1 ] [ length 1 ] if range boa ; inline`
Many regexp changes, improving speed and organization 2009-03-10 19:27:04 -04:00
Inline initial state in next-match loop 2009-03-11 18:06:45 -04:00			`:: next-match ( i string regexp quot: ( i string regexp -- j ) reverse? -- i start end ? )`
Get rid of match tuple 2009-03-11 17:36:53 -04:00			`f f f f`
Regexp match iterators are better 2009-03-11 13:29:33 -04:00			`i string reverse? search-range`
Inline initial state in next-match loop 2009-03-11 18:06:45 -04:00			`[ [ 2drop 2drop ] dip string regexp quot reverse? (next-match) dup ] find 2drop ; inline`
Refactoring next-match 2009-03-11 15:45:52 -04:00
Remove match iterators for a performance boost 2009-03-11 17:21:29 -04:00			`: do-next-match ( i string regexp -- i start end ? )`
Refactoring next-match 2009-03-11 15:45:52 -04:00			`dup next-match>>`
Move call( and execute( to core 2009-03-16 21:11:36 -04:00			`execute( i string regexp -- i start end ? ) ; inline`
Many regexp changes, improving speed and organization 2009-03-10 19:27:04 -04:00
Remove match iterators for a performance boost 2009-03-11 17:21:29 -04:00			`:: (each-match) ( i string regexp quot: ( start end string -- ) -- )`
			`i string regexp do-next-match [\| i' start end \|`
			`start end string quot call`
			`i' string regexp quot (each-match)`
			`] [ 3drop ] if ; inline recursive`
Many regexp changes, improving speed and organization 2009-03-10 19:27:04 -04:00
Remove match iterators for a performance boost 2009-03-11 17:21:29 -04:00			`: prepare-match-iterator ( string regexp -- i string regexp )`
			`[ check-string ] dip [ end/start nip ] 2keep ; inline`
Regexp match iterators are better 2009-03-11 13:29:33 -04:00
Get rid of match tuple 2009-03-11 17:36:53 -04:00			`PRIVATE>`

Remove match iterators for a performance boost 2009-03-11 17:21:29 -04:00			`: each-match ( string regexp quot: ( start end string -- ) -- )`
			`[ prepare-match-iterator ] dip (each-match) ; inline`
Regexp match iterators are better 2009-03-11 13:29:33 -04:00
Remove match iterators for a performance boost 2009-03-11 17:21:29 -04:00			`: map-matches ( string regexp quot: ( start end string -- obj ) -- seq )`
			`accumulator [ each-match ] dip >array ; inline`
Regexp match iterators are better 2009-03-11 13:29:33 -04:00
Remove match iterators for a performance boost 2009-03-11 17:21:29 -04:00			`: all-matching-slices ( string regexp -- seq )`
			`[ slice boa ] map-matches ;`
Regexp match iterators are better 2009-03-11 13:29:33 -04:00
Remove match iterators for a performance boost 2009-03-11 17:21:29 -04:00			`: all-matching-subseqs ( string regexp -- seq )`
			`[ subseq ] map-matches ;`
Many regexp changes, improving speed and organization 2009-03-10 19:27:04 -04:00
			`: count-matches ( string regexp -- n )`
Remove match iterators for a performance boost 2009-03-11 17:21:29 -04:00			`[ 0 ] 2dip [ 3drop 1+ ] each-match ;`
Many regexp changes, improving speed and organization 2009-03-10 19:27:04 -04:00
			`<PRIVATE`

Remove match iterators for a performance boost 2009-03-11 17:21:29 -04:00			`:: (re-split) ( string regexp quot -- new-slices )`
			`0 string regexp [\| end start end' string \|`
			`end' ! leave it on the stack for the next iteration`
			`end start string quot call`
			`] map-matches`
			`! Final chunk`
			`swap string length string quot call suffix ; inline`
Many regexp changes, improving speed and organization 2009-03-10 19:27:04 -04:00
			`PRIVATE>`

Fixing help-lint for regexp; adding first-match and re-contains? 2009-03-10 20:34:49 -04:00			`: first-match ( string regexp -- slice/f )`
Remove match iterators for a performance boost 2009-03-11 17:21:29 -04:00			`[ prepare-match-iterator do-next-match ] [ drop ] 2bi`
			`'[ _ slice boa nip ] [ 3drop f ] if ;`
Fixing help-lint for regexp; adding first-match and re-contains? 2009-03-10 20:34:49 -04:00
			`: re-contains? ( string regexp -- ? )`
Remove match iterators for a performance boost 2009-03-11 17:21:29 -04:00			`prepare-match-iterator do-next-match [ 3drop ] dip >boolean ;`
Many regexp changes, improving speed and organization 2009-03-10 19:27:04 -04:00
			`: re-split ( string regexp -- seq )`
Remove match iterators for a performance boost 2009-03-11 17:21:29 -04:00			`[ slice boa ] (re-split) ;`
Many regexp changes, improving speed and organization 2009-03-10 19:27:04 -04:00
			`: re-replace ( string regexp replacement -- result )`
Remove match iterators for a performance boost 2009-03-11 17:21:29 -04:00			`[ [ subseq ] (re-split) ] dip join ;`
Regexp compiler used from literals 2009-02-26 19:06:57 -05:00
Finish cleanup of regexp 2009-02-18 15:52:10 -05:00			`<PRIVATE`
move regexp2 to unfinished for binaries 2008-08-26 21:24:14 -04:00
Various regexp cleanups, and compiler from regexp to quotations 2009-02-26 15:19:02 -05:00			`: get-ast ( regexp -- ast )`
			`[ parse-tree>> ] [ options>> ] bi <with-options> ;`

Many regexp changes, improving speed and organization 2009-03-10 19:27:04 -04:00			`GENERIC: compile-regexp ( regex -- regexp )`
Regexp compiler used from literals 2009-02-26 19:06:57 -05:00
Many regexp changes, improving speed and organization 2009-03-10 19:27:04 -04:00			`: regexp-initial-word ( i string regexp -- i/f )`
Refactor regexp.compiler to not all with-compilation-unit so much; benchmark.regex-dna loads about twice as fast now 2009-03-16 06:00:27 -04:00			`[ compile-regexp ] with-compilation-unit match-index-from ;`
Various regexp cleanups, and compiler from regexp to quotations 2009-02-26 15:19:02 -05:00
Refactor regexp.compiler to not all with-compilation-unit so much; benchmark.regex-dna loads about twice as fast now 2009-03-16 06:00:27 -04:00			`M: regexp compile-regexp ( regexp -- regexp )`
Many regexp changes, improving speed and organization 2009-03-10 19:27:04 -04:00			`dup '[`
			`dup \ regexp-initial-word =`
			`[ drop _ get-ast ast>dfa dfa>word ] when`
			`] change-dfa ;`
More regexp changes 2009-03-07 17:31:46 -05:00
Many regexp changes, improving speed and organization 2009-03-10 19:27:04 -04:00			`M: reverse-regexp compile-regexp ( regexp -- regexp )`
Refactor regexp.compiler to not all with-compilation-unit so much; benchmark.regex-dna loads about twice as fast now 2009-03-16 06:00:27 -04:00			`t backwards? [ call-next-method ] with-variable ;`
Many regexp changes, improving speed and organization 2009-03-10 19:27:04 -04:00
Refactoring next-match 2009-03-11 15:45:52 -04:00			`DEFER: compile-next-match`
Lookaround and anchors work! (still need to fix some bugs) 2009-03-05 17:34:04 -05:00
Refactoring next-match 2009-03-11 15:45:52 -04:00			`: next-initial-word ( i string regexp -- i start end string )`
Refactor regexp.compiler to not all with-compilation-unit so much; benchmark.regex-dna loads about twice as fast now 2009-03-16 06:00:27 -04:00			`[ compile-next-match ] with-compilation-unit do-next-match ;`
Many regexp changes, improving speed and organization 2009-03-10 19:27:04 -04:00
Refactoring next-match 2009-03-11 15:45:52 -04:00			`: compile-next-match ( regexp -- regexp )`
Unfinished changes for regexp lookaround 2009-03-04 14:22:22 -05:00			`dup '[`
Many regexp changes, improving speed and organization 2009-03-10 19:27:04 -04:00			`dup \ next-initial-word = [`
Inline initial state in next-match loop 2009-03-11 18:06:45 -04:00			`drop _ [ compile-regexp dfa>> def>> ] [ reverse-regexp? ] bi`
Add some declarations so that next-match is faster 2009-03-11 17:53:44 -04:00			`'[ { array-capacity string regexp } declare _ _ next-match ]`
Refactor regexp.compiler to not all with-compilation-unit so much; benchmark.regex-dna loads about twice as fast now 2009-03-16 06:00:27 -04:00			`(( i string regexp -- i start end string )) define-temp`
Many regexp changes, improving speed and organization 2009-03-10 19:27:04 -04:00			`] when`
			`] change-next-match ;`
Various regexp changes, including the addition of regexp combinators 2009-02-25 13:22:12 -05:00
Many regexp changes, improving speed and organization 2009-03-10 19:27:04 -04:00			`PRIVATE>`

			`: new-regexp ( string ast options class -- regexp )`
			`[ \ regexp-initial-word \ next-initial-word ] dip boa ; inline`

			`: make-regexp ( string ast -- regexp )`
			`f f <options> regexp new-regexp ;`

			`: <optioned-regexp> ( string options -- regexp )`
			`[ dup parse-regexp ] [ string>options ] bi*`
			`dup on>> reversed-regexp swap member?`
			`[ reverse-regexp new-regexp ]`
			`[ regexp new-regexp ] if ;`

			`: <regexp> ( string -- regexp ) "" <optioned-regexp> ;`

			`<PRIVATE`
move regexp2 to unfinished for binaries 2008-08-26 21:24:14 -04:00
Lookaround and anchors work! (still need to fix some bugs) 2009-03-05 17:34:04 -05:00			`! The following two should do some caching`

better literal syntax for regexps. support ^ and $ (not in multiline mode yet) but not yet in multiline mode. support for \A and \Z \z is next. removed some crud from the parser, and added more commented out unit tests... 2008-11-24 01:18:27 -05:00			`: find-regexp-syntax ( string -- prefix suffix )`
			`{`
			`{ "R/ " "/" }`
			`{ "R! " "!" }`
			`{ "R\" " "\"" }`
			`{ "R# " "#" }`
			`{ "R' " "'" }`
			`{ "R( " ")" }`
			`{ "R@ " "@" }`
			`{ "R[ " "]" }`
			{ "R` " "`" }
			`{ "R{ " "}" }`
			`{ "R\| " "\|" }`
			`} swap [ subseq? not nip ] curry assoc-find drop ;`
move regexp2 to unfinished for binaries 2008-08-26 21:24:14 -04:00
Various regexp cleanups, and compiler from regexp to quotations 2009-02-26 15:19:02 -05:00			`: take-until ( end lexer -- string )`
			`dup skip-blank [`
			`[ index-from ] 2keep`
			`[ swapd subseq ]`
			`[ 2drop 1+ ] 3bi`
			`] change-lexer-column ;`

			`: parse-noblank-token ( lexer -- str/f )`
			`dup still-parsing-line? [ (parse-token) ] [ drop f ] if ;`

move regexp2 to regexp, bug fixes, more tests 2008-09-18 15:42:16 -04:00			`: parsing-regexp ( accum end -- accum )`
Various regexp cleanups, and compiler from regexp to quotations 2009-02-26 15:19:02 -05:00			`lexer get [ take-until ] [ parse-noblank-token ] bi`
Many regexp changes, improving speed and organization 2009-03-10 19:27:04 -04:00			`<optioned-regexp> compile-next-match parsed ;`
better literal syntax for regexps. support ^ and $ (not in multiline mode yet) but not yet in multiline mode. support for \A and \Z \z is next. removed some crud from the parser, and added more commented out unit tests... 2008-11-24 01:18:27 -05:00
			`PRIVATE>`
move regexp2 to regexp, bug fixes, more tests 2008-09-18 15:42:16 -04:00
			`: R! CHAR: ! parsing-regexp ; parsing`
			`: R" CHAR: " parsing-regexp ; parsing`
			`: R# CHAR: # parsing-regexp ; parsing`
			`: R' CHAR: ' parsing-regexp ; parsing`
			`: R( CHAR: ) parsing-regexp ; parsing`
			`: R/ CHAR: / parsing-regexp ; parsing`
			`: R@ CHAR: @ parsing-regexp ; parsing`
			`: R[ CHAR: ] parsing-regexp ; parsing`
			: R` CHAR: ` parsing-regexp ; parsing
			`: R{ CHAR: } parsing-regexp ; parsing`
			`: R\| CHAR: \| parsing-regexp ; parsing`

Separate regexp.prettyprint from regexp to reduce deployed image size 2009-03-18 18:07:19 -04:00			`USING: vocabs vocabs.loader ;`
Many regexp changes, improving speed and organization 2009-03-10 19:27:04 -04:00
Separate regexp.prettyprint from regexp to reduce deployed image size 2009-03-18 18:07:19 -04:00			`"prettyprint" vocab [`
			`"regexp.prettyprint" require`
			`] when`