Elisp mechanism for converting PCRE regexps to emacs regexps

Question

I admit significant bias toward liking PCRE regexps much better than emacs, if no no other reason that when I type a \'(\' I pretty much always want a grouping operator. And, o

Answer 1

Possibly relevant is visual-regexp-steroids, which extends query-replace to use a live preview and allows you to use different regexp backends, including PCRE.

Answer 2

https://github.com/joddie/pcre2el is the up-to-date version of this answer.

pcre2el or rxt (RegeXp Translator or RegeXp Tools) is a utility for working with regular expressions in Emacs, based on a recursive-descent parser for regexp syntax. In addition to converting (a subset of) PCRE syntax into its Emacs equivalent, it can do the following:

• convert Emacs syntax to PCRE
• convert either syntax to rx, an S-expression based regexp syntax
• untangle complex regexps by showing the parse tree in rx form and highlighting the corresponding chunks of code
• show the complete list of strings (productions) matching a regexp, provided the list is finite
• provide live font-locking of regexp syntax (so far only for Elisp buffers – other modes on the TODO list)

The text of the original answer follows...

---

Here's a quick and ugly Emacs lisp solution (EDIT: now located more permanently here). It's based mostly on the description in the pcrepattern man page, and works token by token, converting only the following constructions:

• parenthesis grouping ( .. )
• alternation |
• numerical repeats {M,N}
• string quoting \Q .. \E
• simple character escapes: \a, \c, \e, \f, \n, \r, \t, \x, and \ + octal digits
• character classes: \d, \D, \h, \H, \s, \S, \v, \V
• \w and \W left as they are (using Emacs' own idea of word and non-word characters)

It doesn't do anything with more complicated PCRE assertions, but it does try to convert escapes inside character classes. In the case of character classes including something like \D, this is done by converting into a non-capturing group with alternation.

It passes the tests I wrote for it, but there are certainly bugs, and the method of scanning token-by-token is probably slow. In other words, no warranty. But perhaps it will do enough of the simpler part of the job for some purposes. Interested parties are invited to improve it ;-)

(eval-when-compile (require 'cl))

(defvar pcre-horizontal-whitespace-chars
  (mapconcat 'char-to-string
             '(#x0009 #x0020 #x00A0 #x1680 #x180E #x2000 #x2001 #x2002 #x2003
                      #x2004 #x2005 #x2006 #x2007 #x2008 #x2009 #x200A #x202F
                      #x205F #x3000)
             ""))

(defvar pcre-vertical-whitespace-chars
  (mapconcat 'char-to-string
             '(#x000A #x000B #x000C #x000D #x0085 #x2028 #x2029) ""))

(defvar pcre-whitespace-chars
  (mapconcat 'char-to-string '(9 10 12 13 32) ""))

(defvar pcre-horizontal-whitespace
  (concat "[" pcre-horizontal-whitespace-chars "]"))

(defvar pcre-non-horizontal-whitespace
  (concat "[^" pcre-horizontal-whitespace-chars "]"))

(defvar pcre-vertical-whitespace
  (concat "[" pcre-vertical-whitespace-chars "]"))

(defvar pcre-non-vertical-whitespace
  (concat "[^" pcre-vertical-whitespace-chars "]"))

(defvar pcre-whitespace (concat "[" pcre-whitespace-chars "]"))

(defvar pcre-non-whitespace (concat "[^" pcre-whitespace-chars "]"))

(eval-when-compile
  (defmacro pcre-token-case (&rest cases)
    "Consume a token at point and evaluate corresponding forms.

CASES is a list of `cond'-like clauses, (REGEXP FORMS
...). Considering CASES in order, if the text at point matches
REGEXP then moves point over the matched string and returns the
value of FORMS. Returns `nil' if none of the CASES matches."
    (declare (debug (&rest (sexp &rest form))))
    `(cond
      ,@(mapcar
         (lambda (case)
           (let ((token (car case))
                 (action (cdr case)))
             `((looking-at ,token)
               (goto-char (match-end 0))
               ,@action)))
         cases)
      (t nil))))

(defun pcre-to-elisp (pcre)
  "Convert PCRE, a regexp in PCRE notation, into Elisp string form."
  (with-temp-buffer
    (insert pcre)
    (goto-char (point-min))
    (let ((capture-count 0) (accum '())
          (case-fold-search nil))
      (while (not (eobp))
        (let ((translated
               (or
                ;; Handle tokens that are treated the same in
                ;; character classes
                (pcre-re-or-class-token-to-elisp)   

                ;; Other tokens
                (pcre-token-case
                 ("|" "\\|")
                 ("(" (incf capture-count) "\\(")
                 (")" "\\)")
                 ("{" "\\{")
                 ("}" "\\}")

                 ;; Character class
                 ("\\[" (pcre-char-class-to-elisp))

                 ;; Backslash + digits => backreference or octal char?
                 ("\\\\\\([0-9]+\\)"
                  (let* ((digits (match-string 1))
                         (dec (string-to-number digits)))
                    ;; from "man pcrepattern": If the number is
                    ;; less than 10, or if there have been at
                    ;; least that many previous capturing left
                    ;; parentheses in the expression, the entire
                    ;; sequence is taken as a back reference.   
                    (cond ((< dec 10) (concat "\\" digits))
                          ((>= capture-count dec)
                           (error "backreference \\%s can't be used in Emacs regexps"
                                  digits))
                          (t
                           ;; from "man pcrepattern": if the
                           ;; decimal number is greater than 9 and
                           ;; there have not been that many
                           ;; capturing subpatterns, PCRE re-reads
                           ;; up to three octal digits following
                           ;; the backslash, and uses them to
                           ;; generate a data character. Any
                           ;; subsequent digits stand for
                           ;; themselves.
                           (goto-char (match-beginning 1))
                           (re-search-forward "[0-7]\\{0,3\\}")
                           (char-to-string (string-to-number (match-string 0) 8))))))

                 ;; Regexp quoting.
                 ("\\\\Q"
                  (let ((beginning (point)))
                    (search-forward "\\E")
                    (regexp-quote (buffer-substring beginning (match-beginning 0)))))

                 ;; Various character classes
                 ("\\\\d" "[0-9]")
                 ("\\\\D" "[^0-9]")
                 ("\\\\h" pcre-horizontal-whitespace)
                 ("\\\\H" pcre-non-horizontal-whitespace)
                 ("\\\\s" pcre-whitespace)
                 ("\\\\S" pcre-non-whitespace)
                 ("\\\\v" pcre-vertical-whitespace)
                 ("\\\\V" pcre-non-vertical-whitespace)

                 ;; Use Emacs' native notion of word characters
                 ("\\\\[Ww]" (match-string 0))

                 ;; Any other escaped character
                 ("\\\\\\(.\\)" (regexp-quote (match-string 1)))

                 ;; Any normal character
                 ("." (match-string 0))))))
          (push translated accum)))
      (apply 'concat (reverse accum)))))

(defun pcre-re-or-class-token-to-elisp ()
  "Consume the PCRE token at point and return its Elisp equivalent.

Handles only tokens which have the same meaning in character
classes as outside them."
  (pcre-token-case
   ("\\\\a" (char-to-string #x07))  ; bell
   ("\\\\c\\(.\\)"                  ; control character
    (char-to-string
     (- (string-to-char (upcase (match-string 1))) 64)))
   ("\\\\e" (char-to-string #x1b))  ; escape
   ("\\\\f" (char-to-string #x0c))  ; formfeed
   ("\\\\n" (char-to-string #x0a))  ; linefeed
   ("\\\\r" (char-to-string #x0d))  ; carriage return
   ("\\\\t" (char-to-string #x09))  ; tab
   ("\\\\x\\([A-Za-z0-9]\\{2\\}\\)"
    (char-to-string (string-to-number (match-string 1) 16)))
   ("\\\\x{\\([A-Za-z0-9]*\\)}"
    (char-to-string (string-to-number (match-string 1) 16)))))

(defun pcre-char-class-to-elisp ()
  "Consume the remaining PCRE character class at point and return its Elisp equivalent.

Point should be after the opening \"[\" when this is called, and
will be just after the closing \"]\" when it returns."
  (let ((accum '("["))
        (pcre-char-class-alternatives '())
        (negated nil))
    (when (looking-at "\\^")
      (setq negated t)
      (push "^" accum)
      (forward-char))
    (when (looking-at "\\]") (push "]" accum) (forward-char))

    (while (not (looking-at "\\]"))
      (let ((translated
             (or
              (pcre-re-or-class-token-to-elisp)
              (pcre-token-case              
               ;; Backslash + digits => always an octal char
               ("\\\\\\([0-7]\\{1,3\\}\\)"    
                (char-to-string (string-to-number (match-string 1) 8)))

               ;; Various character classes. To implement negative char classes,
               ;; we cons them onto the list `pcre-char-class-alternatives' and
               ;; transform the char class into a shy group with alternation
               ("\\\\d" "0-9")
               ("\\\\D" (push (if negated "[0-9]" "[^0-9]")
                              pcre-char-class-alternatives) "")
               ("\\\\h" pcre-horizontal-whitespace-chars)
               ("\\\\H" (push (if negated
                                  pcre-horizontal-whitespace
                                pcre-non-horizontal-whitespace)
                              pcre-char-class-alternatives) "")
               ("\\\\s" pcre-whitespace-chars)
               ("\\\\S" (push (if negated
                                  pcre-whitespace
                                pcre-non-whitespace)
                              pcre-char-class-alternatives) "")
               ("\\\\v" pcre-vertical-whitespace-chars)
               ("\\\\V" (push (if negated
                                  pcre-vertical-whitespace
                                pcre-non-vertical-whitespace)
                              pcre-char-class-alternatives) "")
               ("\\\\w" (push (if negated "\\W" "\\w") 
                              pcre-char-class-alternatives) "")
               ("\\\\W" (push (if negated "\\w" "\\W") 
                              pcre-char-class-alternatives) "")

               ;; Leave POSIX syntax unchanged
               ("\\[:[a-z]*:\\]" (match-string 0))

               ;; Ignore other escapes
               ("\\\\\\(.\\)" (match-string 0))

               ;; Copy everything else
               ("." (match-string 0))))))
        (push translated accum)))
    (push "]" accum)
    (forward-char)
    (let ((class
           (apply 'concat (reverse accum))))
      (when (or (equal class "[]")
                (equal class "[^]"))
        (setq class ""))
      (if (not pcre-char-class-alternatives)
          class
        (concat "\\(?:"
                class "\\|"
                (mapconcat 'identity
                           pcre-char-class-alternatives
                           "\\|")
                "\\)")))))

Answer 3

The closest previous work on this have been extensions to M-x re-builder, see

http://www.emacswiki.org/emacs/ReBuilder

or the work of Ye Wenbin on PDE.

http://cpansearch.perl.org/src/YEWENBIN/Emacs-PDE-0.2.16/lisp/doc/pde.html

Answer 4

I made a few minor modifications to a perl script I found on perlmonks (to take values from the command line) and saved it as re_pl2el.pl (given below). Then the following does a decent job of converting PCRE to elisp regexps, at least for non-exotic the cases that I tested.

(defun pcre-to-elre (regex)
  (interactive "MPCRE expression: ")
  (shell-command-to-string (concat "re_pl2el.pl -i -n "
                                   (shell-quote-argument regex))))

(pcre-to-elre "__\\w: \\d+") ;-> "__[[:word:]]: [[:digit:]]+"

It doesn't handle a few "corner" cases like perl's shy {N,M}? constructs, and of course not code execution etc. but it might serve your needs or be a good starting place for such. Since you like PCRE I presume you know enough perl to fix any cases you use often. If not let me know and we can probably fix them.

I would be happier with a script that parsed the regex into an AST and then spit it back out in elisp format (since then it could spit it out in rx format too), but I couldn't find anything doing that and it seemed like a lot of work when I should be working on my thesis. :-) I find it hard to believe that noone has done it though.

Below is my "improved" version of re_pl2el.pl. -i means don't double escape for strings, and -n means don't print a final newline.

#! /usr/bin/perl
#
# File: re_pl2el.pl
# Modified from http://perlmonks.org/?node_id=796020
#
# Description:
#
use strict;
use warnings;

# version 0.4


# TODO
# * wrap converter to function
# * testsuite

#--- flags
my $flag_interactive; # true => no extra escaping of backslashes
if ( int(@ARGV) >= 1 and $ARGV[0] eq '-i' ) {
    $flag_interactive = 1;
    shift @ARGV;
}

if ( int(@ARGV) >= 1 and $ARGV[0] eq '-n' ) {
    shift @ARGV;
} else {
    $\="\n";
}

if ( int(@ARGV) < 1 ) {
    print "usage: $0 [-i] [-n] REGEX";
    exit;
}

my $RE='\w*(a|b|c)\d\(';
$RE='\d{2,3}';
$RE='"(.*?)"';
$RE="\0".'\"\t(.*?)"';
$RE=$ARGV[0];

# print "Perlcode:\t $RE";

#--- encode all \0 chars as escape sequence
$RE=~s#\0#\\0#g;

#--- substitute pairs of backslashes with \0
$RE=~s#\\\\#\0#g;

#--- hide escape sequences of \t,\n,... with
#    corresponding ascii code
my %ascii=(
       t =>"\t",
       n=> "\n"
      );
my $kascii=join "|",keys %ascii;

$RE=~s#\\($kascii)#$ascii{$1}#g;


#---  normalize needless escaping
# e.g.  from /\"/ to /"/, since it's no difference in perl
# but might confuse elisp

$RE=~s#\\"#"#g;

#--- toggle escaping of 'backslash constructs'
my $bsc='(){}|';
$RE=~s#[$bsc]#\\$&#g;  # escape them once
$RE=~s#\\\\##g;        # and erase double-escaping



#--- replace character classes
my %charclass=(
        w => 'word' ,   # TODO: emacs22 already knows \w ???
        d => 'digit',
        s => 'space'
       );

my $kc=join "|",keys %charclass;
$RE=~s#\\($kc)#[[:$charclass{$1}:]]#g;



#--- unhide pairs of backslashes
$RE=~s#\0#\\\\#g;

#--- escaping for elisp string
unless ($flag_interactive){
  $RE=~s#\\#\\\\#g; # ... backslashes
  $RE=~s#"#\\"#g;   # ... quotes
}

#--- unhide escape sequences of \t,\n,...
my %rascii= reverse %ascii;
my $vascii=join "|",keys %rascii;
$RE=~s#($vascii)#\\$rascii{$1}#g;

# print "Elispcode:\t $RE";
print "$RE";
#TODO whats the elisp syntax for \0 ???