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609 lines
21 KiB
EmacsLisp
609 lines
21 KiB
EmacsLisp
;;; sregex.el --- symbolic regular expressions
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;; Copyright (C) 1997, 1998, 2000 Free Software Foundation, Inc.
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;; Author: Bob Glickstein <bobg+sregex@zanshin.com>
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;; Maintainer: Bob Glickstein <bobg+sregex@zanshin.com>
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;; Keywords: extensions
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;; This file is part of GNU Emacs.
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;; GNU Emacs is free software; you can redistribute it and/or modify
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;; it under the terms of the GNU General Public License as published by
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;; the Free Software Foundation; either version 2, or (at your option)
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;; any later version.
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;; GNU Emacs is distributed in the hope that it will be useful,
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;; but WITHOUT ANY WARRANTY; without even the implied warranty of
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;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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;; GNU General Public License for more details.
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;; You should have received a copy of the GNU General Public License
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;; along with GNU Emacs; see the file COPYING. If not, write to the
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;; Free Software Foundation, Inc., 59 Temple Place - Suite 330,
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;; Boston, MA 02111-1307, USA.
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;;; Commentary:
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;; This package allows you to write regular expressions using a
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;; totally new, Lisp-like syntax.
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;; A "symbolic regular expression" (sregex for short) is a Lisp form
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;; that, when evaluated, produces the string form of the specified
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;; regular expression. Here's a simple example:
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;; (sregexq (or "Bob" "Robert")) => "Bob\\|Robert"
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;; As you can see, an sregex is specified by placing one or more
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;; special clauses in a call to `sregexq'. The clause in this case is
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;; the `or' of two strings (not to be confused with the Lisp function
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;; `or'). The list of allowable clauses appears below.
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;; With sregex, it is never necessary to "escape" magic characters
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;; that are meant to be taken literally; that happens automatically.
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;; For example:
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;; (sregexq "M*A*S*H") => "M\\*A\\*S\\*H"
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;; It is also unnecessary to "group" parts of the expression together
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;; to overcome operator precedence; that also happens automatically.
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;; For example:
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;; (sregexq (opt (or "Bob" "Robert"))) => "\\(?:Bob\\|Robert\\)?"
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;; It *is* possible to group parts of the expression in order to refer
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;; to them with numbered backreferences:
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;; (sregexq (group (or "Go" "Run"))
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;; ", Spot, "
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;; (backref 1)) => "\\(Go\\|Run\\), Spot, \\1"
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;; `sregexq' is a macro. Each time it is used, it constructs a simple
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;; Lisp expression that then invokes a moderately complex engine to
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;; interpret the sregex and render the string form. Because of this,
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;; I don't recommend sprinkling calls to `sregexq' throughout your
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;; code, the way one normally does with string regexes (which are
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;; cheap to evaluate). Instead, it's wiser to precompute the regexes
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;; you need wherever possible instead of repeatedly constructing the
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;; same ones over and over. Example:
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;; (let ((field-regex (sregexq (opt "resent-")
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;; (or "to" "cc" "bcc"))))
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;; ...
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;; (while ...
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;; ...
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;; (re-search-forward field-regex ...)
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;; ...))
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;; The arguments to `sregexq' are automatically quoted, but the
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;; flipside of this is that it is not straightforward to include
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;; computed (i.e., non-constant) values in `sregexq' expressions. So
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;; `sregex' is a function that is like `sregexq' but which does not
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;; automatically quote its values. Literal sregex clauses must be
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;; explicitly quoted like so:
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;; (sregex '(or "Bob" "Robert")) => "Bob\\|Robert"
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;; but computed clauses can be included easily, allowing for the reuse
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;; of common clauses:
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;; (let ((dotstar '(0+ any))
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;; (whitespace '(1+ (syntax ?-)))
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;; (digits '(1+ (char (?0 . ?9)))))
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;; (sregex 'bol dotstar ":" whitespace digits)) => "^.*:\\s-+[0-9]+"
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;; To use this package in a Lisp program, simply (require 'sregex).
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;; Here are the clauses allowed in an `sregex' or `sregexq'
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;; expression:
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;; - a string
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;; This stands for the literal string. If it contains
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;; metacharacters, they will be escaped in the resulting regex
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;; (using `regexp-quote').
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;; - the symbol `any'
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;; This stands for ".", a regex matching any character except
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;; newline.
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;; - the symbol `bol'
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;; Stands for "^", matching the empty string at the beginning of a line
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;; - the symbol `eol'
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;; Stands for "$", matching the empty string at the end of a line
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;; - (group CLAUSE ...)
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;; Groups the given CLAUSEs using "\\(" and "\\)".
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;; - (sequence CLAUSE ...)
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;; Groups the given CLAUSEs; may or may not use "\\(?:" and "\\)".
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;; Clauses grouped by `sequence' do not count for purposes of
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;; numbering backreferences. Use `sequence' in situations like
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;; this:
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;; (sregexq (or "dog" "cat"
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;; (sequence (opt "sea ") "monkey")))
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;; => "dog\\|cat\\|\\(?:sea \\)?monkey"
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;; where a single `or' alternate needs to contain multiple
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;; subclauses.
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;; - (backref N)
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;; Matches the same string previously matched by the Nth "group" in
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;; the same sregex. N is a positive integer.
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;; - (or CLAUSE ...)
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;; Matches any one of the CLAUSEs by separating them with "\\|".
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;; - (0+ CLAUSE ...)
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;; Concatenates the given CLAUSEs and matches zero or more
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;; occurrences by appending "*".
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;; - (1+ CLAUSE ...)
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;; Concatenates the given CLAUSEs and matches one or more
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;; occurrences by appending "+".
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;; - (opt CLAUSE ...)
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;; Concatenates the given CLAUSEs and matches zero or one occurrence
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;; by appending "?".
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;; - (repeat MIN MAX CLAUSE ...)
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;; Concatenates the given CLAUSEs and constructs a regex matching at
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;; least MIN occurrences and at most MAX occurrences. MIN must be a
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;; non-negative integer. MAX must be a non-negative integer greater
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;; than or equal to MIN; or MAX can be nil to mean "infinity."
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;; - (char CHAR-CLAUSE ...)
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;; Creates a "character class" matching one character from the given
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;; set. See below for how to construct a CHAR-CLAUSE.
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;; - (not-char CHAR-CLAUSE ...)
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;; Creates a "character class" matching any one character not in the
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;; given set. See below for how to construct a CHAR-CLAUSE.
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;; - the symbol `bot'
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;; Stands for "\\`", matching the empty string at the beginning of
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;; text (beginning of a string or of a buffer).
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;; - the symbol `eot'
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;; Stands for "\\'", matching the empty string at the end of text.
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;; - the symbol `point'
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;; Stands for "\\=", matching the empty string at point.
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;; - the symbol `word-boundary'
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;; Stands for "\\b", matching the empty string at the beginning or
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;; end of a word.
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;; - the symbol `not-word-boundary'
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;; Stands for "\\B", matching the empty string not at the beginning
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;; or end of a word.
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;; - the symbol `bow'
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;; Stands for "\\<", matching the empty string at the beginning of a
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;; word.
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;; - the symbol `eow'
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;; Stands for "\\>", matching the empty string at the end of a word.
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;; - the symbol `wordchar'
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;; Stands for the regex "\\w", matching a word-constituent character
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;; (as determined by the current syntax table)
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;; - the symbol `not-wordchar'
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;; Stands for the regex "\\W", matching a non-word-constituent
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;; character.
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;; - (syntax CODE)
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;; Stands for the regex "\\sCODE", where CODE is a syntax table code
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;; (a single character). Matches any character with the requested
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;; syntax.
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;; - (not-syntax CODE)
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;; Stands for the regex "\\SCODE", where CODE is a syntax table code
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;; (a single character). Matches any character without the
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;; requested syntax.
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;; - (regex REGEX)
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;; This is a "trapdoor" for including ordinary regular expression
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;; strings in the result. Some regular expressions are clearer when
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;; written the old way: "[a-z]" vs. (sregexq (char (?a . ?z))), for
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;; instance. However, see the note under "Bugs," below.
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;; Each CHAR-CLAUSE that is passed to (char ...) and (not-char ...)
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;; has one of the following forms:
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;; - a character
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;; Adds that character to the set.
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;; - a string
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;; Adds all the characters in the string to the set.
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;; - A pair (MIN . MAX)
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;; Where MIN and MAX are characters, adds the range of characters
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;; from MIN through MAX to the set.
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;;; To do:
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;; An earlier version of this package could optionally translate the
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;; symbolic regex into other languages' syntaxes, e.g. Perl. For
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;; instance, with Perl syntax selected, (sregexq (or "ab" "cd")) would
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;; yield "ab|cd" instead of "ab\\|cd". It might be useful to restore
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;; such a facility.
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;; - handle multibyte chars in sregex--char-aux
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;; - add support for character classes ([:blank:], ...)
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;; - add support for non-greedy operators *? and +?
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;; - bug: (sregexq (opt (opt ?a))) returns "a??" which is a non-greedy "a?"
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;;; Bugs:
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;;; Code:
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(eval-when-compile (require 'cl))
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;; Compatibility code for when we didn't have shy-groups
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(defvar sregex--current-sregex nil)
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(defun sregex-info () nil)
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(defmacro sregex-save-match-data (&rest forms) (cons 'save-match-data forms))
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(defun sregex-replace-match (r &optional f l str subexp x)
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(replace-match r f l str subexp))
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(defun sregex-match-string (c &optional i x) (match-string c i))
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(defun sregex-match-string-no-properties (count &optional in-string sregex)
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(match-string-no-properties count in-string))
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(defun sregex-match-beginning (count &optional sregex) (match-beginning count))
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(defun sregex-match-end (count &optional sregex) (match-end count))
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(defun sregex-match-data (&optional sregex) (match-data))
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(defun sregex-backref-num (n &optional sregex) n)
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(defun sregex (&rest exps)
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"Symbolic regular expression interpreter.
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This is exactly like `sregexq' (q.v.) except that it evaluates all its
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arguments, so literal sregex clauses must be quoted. For example:
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(sregex '(or \"Bob\" \"Robert\")) => \"Bob\\\\|Robert\"
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An argument-evaluating sregex interpreter lets you reuse sregex
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subexpressions:
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(let ((dotstar '(0+ any))
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(whitespace '(1+ (syntax ?-)))
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(digits '(1+ (char (?0 . ?9)))))
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(sregex 'bol dotstar \":\" whitespace digits)) => \"^.*:\\\\s-+[0-9]+\""
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(sregex--sequence exps nil))
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(defmacro sregexq (&rest exps)
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"Symbolic regular expression interpreter.
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This macro allows you to specify a regular expression (regexp) in
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symbolic form, and converts it into the string form required by Emacs's
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regex functions such as `re-search-forward' and `looking-at'. Here is
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a simple example:
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(sregexq (or \"Bob\" \"Robert\")) => \"Bob\\\\|Robert\"
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As you can see, an sregex is specified by placing one or more special
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clauses in a call to `sregexq'. The clause in this case is the `or'
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of two strings (not to be confused with the Lisp function `or'). The
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list of allowable clauses appears below.
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With `sregex', it is never necessary to \"escape\" magic characters
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that are meant to be taken literally; that happens automatically.
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For example:
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(sregexq \"M*A*S*H\") => \"M\\\\*A\\\\*S\\\\*H\"
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It is also unnecessary to \"group\" parts of the expression together
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to overcome operator precedence; that also happens automatically.
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For example:
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(sregexq (opt (or \"Bob\" \"Robert\"))) => \"\\\\(Bob\\\\|Robert\\\\)?\"
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It *is* possible to group parts of the expression in order to refer
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to them with numbered backreferences:
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(sregexq (group (or \"Go\" \"Run\"))
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\", Spot, \"
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(backref 1)) => \"\\\\(Go\\\\|Run\\\\), Spot, \\\\1\"
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If `sregexq' needs to introduce its own grouping parentheses, it will
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automatically renumber your backreferences:
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(sregexq (opt \"resent-\")
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(group (or \"to\" \"cc\" \"bcc\"))
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\": \"
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(backref 1)) => \"\\\\(resent-\\\\)?\\\\(to\\\\|cc\\\\|bcc\\\\): \\\\2\"
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`sregexq' is a macro. Each time it is used, it constructs a simple
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Lisp expression that then invokes a moderately complex engine to
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interpret the sregex and render the string form. Because of this, I
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don't recommend sprinkling calls to `sregexq' throughout your code,
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the way one normally does with string regexes (which are cheap to
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evaluate). Instead, it's wiser to precompute the regexes you need
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wherever possible instead of repeatedly constructing the same ones
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over and over. Example:
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(let ((field-regex (sregexq (opt \"resent-\")
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(or \"to\" \"cc\" \"bcc\"))))
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...
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(while ...
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...
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(re-search-forward field-regex ...)
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...))
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The arguments to `sregexq' are automatically quoted, but the
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flipside of this is that it is not straightforward to include
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computed (i.e., non-constant) values in `sregexq' expressions. So
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`sregex' is a function that is like `sregexq' but which does not
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automatically quote its values. Literal sregex clauses must be
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explicitly quoted like so:
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(sregex '(or \"Bob\" \"Robert\")) => \"Bob\\\\|Robert\"
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but computed clauses can be included easily, allowing for the reuse
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of common clauses:
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(let ((dotstar '(0+ any))
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(whitespace '(1+ (syntax ?-)))
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(digits '(1+ (char (?0 . ?9)))))
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(sregex 'bol dotstar \":\" whitespace digits)) => \"^.*:\\\\s-+[0-9]+\"
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Here are the clauses allowed in an `sregex' or `sregexq' expression:
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- a string
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This stands for the literal string. If it contains
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metacharacters, they will be escaped in the resulting regex
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(using `regexp-quote').
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- the symbol `any'
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This stands for \".\", a regex matching any character except
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newline.
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- the symbol `bol'
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Stands for \"^\", matching the empty string at the beginning of a line
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- the symbol `eol'
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Stands for \"$\", matching the empty string at the end of a line
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- (group CLAUSE ...)
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Groups the given CLAUSEs using \"\\\\(\" and \"\\\\)\".
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- (sequence CLAUSE ...)
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Groups the given CLAUSEs; may or may not use \"\\\\(\" and \"\\\\)\".
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Clauses grouped by `sequence' do not count for purposes of
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numbering backreferences. Use `sequence' in situations like
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this:
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(sregexq (or \"dog\" \"cat\"
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(sequence (opt \"sea \") \"monkey\")))
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=> \"dog\\\\|cat\\\\|\\\\(?:sea \\\\)?monkey\"
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where a single `or' alternate needs to contain multiple
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subclauses.
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- (backref N)
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Matches the same string previously matched by the Nth \"group\" in
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the same sregex. N is a positive integer.
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- (or CLAUSE ...)
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Matches any one of the CLAUSEs by separating them with \"\\\\|\".
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- (0+ CLAUSE ...)
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Concatenates the given CLAUSEs and matches zero or more
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occurrences by appending \"*\".
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- (1+ CLAUSE ...)
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Concatenates the given CLAUSEs and matches one or more
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occurrences by appending \"+\".
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- (opt CLAUSE ...)
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Concatenates the given CLAUSEs and matches zero or one occurrence
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by appending \"?\".
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- (repeat MIN MAX CLAUSE ...)
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Concatenates the given CLAUSEs and constructs a regex matching at
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least MIN occurrences and at most MAX occurrences. MIN must be a
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non-negative integer. MAX must be a non-negative integer greater
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than or equal to MIN; or MAX can be nil to mean \"infinity.\"
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- (char CHAR-CLAUSE ...)
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Creates a \"character class\" matching one character from the given
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set. See below for how to construct a CHAR-CLAUSE.
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- (not-char CHAR-CLAUSE ...)
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Creates a \"character class\" matching any one character not in the
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given set. See below for how to construct a CHAR-CLAUSE.
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- the symbol `bot'
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Stands for \"\\\\`\", matching the empty string at the beginning of
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text (beginning of a string or of a buffer).
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- the symbol `eot'
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Stands for \"\\\\'\", matching the empty string at the end of text.
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- the symbol `point'
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Stands for \"\\\\=\", matching the empty string at point.
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- the symbol `word-boundary'
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Stands for \"\\\\b\", matching the empty string at the beginning or
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end of a word.
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- the symbol `not-word-boundary'
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Stands for \"\\\\B\", matching the empty string not at the beginning
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or end of a word.
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- the symbol `bow'
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Stands for \"\\\\\\=<\", matching the empty string at the beginning of a
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word.
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- the symbol `eow'
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Stands for \"\\\\\\=>\", matching the empty string at the end of a word.
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- the symbol `wordchar'
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Stands for the regex \"\\\\w\", matching a word-constituent character
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(as determined by the current syntax table)
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- the symbol `not-wordchar'
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Stands for the regex \"\\\\W\", matching a non-word-constituent
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character.
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- (syntax CODE)
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Stands for the regex \"\\\\sCODE\", where CODE is a syntax table code
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(a single character). Matches any character with the requested
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syntax.
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- (not-syntax CODE)
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Stands for the regex \"\\\\SCODE\", where CODE is a syntax table code
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(a single character). Matches any character without the
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requested syntax.
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- (regex REGEX)
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This is a \"trapdoor\" for including ordinary regular expression
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|
strings in the result. Some regular expressions are clearer when
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written the old way: \"[a-z]\" vs. (sregexq (char (?a . ?z))), for
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|
instance.
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Each CHAR-CLAUSE that is passed to (char ...) and (not-char ...)
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has one of the following forms:
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- a character
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Adds that character to the set.
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- a string
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Adds all the characters in the string to the set.
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- A pair (MIN . MAX)
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Where MIN and MAX are characters, adds the range of characters
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from MIN through MAX to the set."
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`(apply 'sregex ',exps))
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(defun sregex--engine (exp combine)
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(cond
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((stringp exp)
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(if (and combine
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(eq combine 'suffix)
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(/= (length exp) 1))
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(concat "\\(?:" (regexp-quote exp) "\\)")
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(regexp-quote exp)))
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((symbolp exp)
|
|
(ecase exp
|
|
(any ".")
|
|
(bol "^")
|
|
(eol "$")
|
|
(wordchar "\\w")
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|
(not-wordchar "\\W")
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|
(bot "\\`")
|
|
(eot "\\'")
|
|
(point "\\=")
|
|
(word-boundary "\\b")
|
|
(not-word-boundary "\\B")
|
|
(bow "\\<")
|
|
(eow "\\>")))
|
|
((consp exp)
|
|
(funcall (intern (concat "sregex--"
|
|
(symbol-name (car exp))))
|
|
(cdr exp)
|
|
combine))
|
|
(t (error "Invalid expression: %s" exp))))
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|
|
|
(defun sregex--sequence (exps combine)
|
|
(if (= (length exps) 1) (sregex--engine (car exps) combine)
|
|
(let ((re (mapconcat
|
|
(lambda (e) (sregex--engine e 'concat))
|
|
exps "")))
|
|
(if (eq combine 'suffix)
|
|
(concat "\\(?:" re "\\)")
|
|
re))))
|
|
|
|
(defun sregex--or (exps combine)
|
|
(if (= (length exps) 1) (sregex--engine (car exps) combine)
|
|
(let ((re (mapconcat
|
|
(lambda (e) (sregex--engine e 'or))
|
|
exps "\\|")))
|
|
(if (not (eq combine 'or))
|
|
(concat "\\(?:" re "\\)")
|
|
re))))
|
|
|
|
(defun sregex--group (exps combine) (concat "\\(" (sregex--sequence exps nil) "\\)"))
|
|
|
|
(defun sregex--backref (exps combine) (concat "\\" (int-to-string (car exps))))
|
|
(defun sregex--opt (exps combine) (concat (sregex--sequence exps 'suffix) "?"))
|
|
(defun sregex--0+ (exps combine) (concat (sregex--sequence exps 'suffix) "*"))
|
|
(defun sregex--1+ (exps combine) (concat (sregex--sequence exps 'suffix) "+"))
|
|
|
|
(defun sregex--char (exps combine) (sregex--char-aux nil exps))
|
|
(defun sregex--not-char (exps combine) (sregex--char-aux t exps))
|
|
|
|
(defun sregex--syntax (exps combine) (format "\\s%c" (car exps)))
|
|
(defun sregex--not-syntax (exps combine) (format "\\S%c" (car exps)))
|
|
|
|
(defun sregex--regex (exps combine)
|
|
(if combine (concat "\\(?:" (car exps) "\\)") (car exps)))
|
|
|
|
(defun sregex--repeat (exps combine)
|
|
(let* ((min (or (pop exps) 0))
|
|
(minstr (number-to-string min))
|
|
(max (pop exps)))
|
|
(concat (sregex--sequence exps 'suffix)
|
|
(concat "\\{" minstr ","
|
|
(when max (number-to-string max)) "\\}"))))
|
|
|
|
(defun sregex--char-range (start end)
|
|
(let ((startc (char-to-string start))
|
|
(endc (char-to-string end)))
|
|
(cond
|
|
((> end (+ start 2)) (concat startc "-" endc))
|
|
((> end (+ start 1)) (concat startc (char-to-string (1+ start)) endc))
|
|
((> end start) (concat startc endc))
|
|
(t startc))))
|
|
|
|
(defun sregex--char-aux (complement args)
|
|
;; regex-opt does the same, we should join effort.
|
|
(let ((chars (make-bool-vector 256 nil))) ; Yeah, right!
|
|
(dolist (arg args)
|
|
(cond ((integerp arg) (aset chars arg t))
|
|
((stringp arg) (mapcar (lambda (c) (aset chars c t)) arg))
|
|
((consp arg)
|
|
(let ((start (car arg))
|
|
(end (cdr arg)))
|
|
(when (> start end)
|
|
(let ((tmp start)) (setq start end) (setq end tmp)))
|
|
;; now start <= end
|
|
(let ((i start))
|
|
(while (<= i end)
|
|
(aset chars i t)
|
|
(setq i (1+ i))))))))
|
|
;; now chars is a map of the characters in the class
|
|
(let ((caret (aref chars ?^))
|
|
(dash (aref chars ?-))
|
|
(class (if (aref chars ?\]) "]" "")))
|
|
(aset chars ?^ nil)
|
|
(aset chars ?- nil)
|
|
(aset chars ?\] nil)
|
|
|
|
(let (start end)
|
|
(dotimes (i 256)
|
|
(if (aref chars i)
|
|
(progn
|
|
(unless start (setq start i))
|
|
(setq end i)
|
|
(aset chars i nil))
|
|
(when start
|
|
(setq class (concat class (sregex--char-range start end)))
|
|
(setq start nil))))
|
|
(if start
|
|
(setq class (concat class (sregex--char-range start end)))))
|
|
|
|
(if (> (length class) 0)
|
|
(setq class (concat class (if caret "^") (if dash "-")))
|
|
(setq class (concat class (if dash "-") (if caret "^"))))
|
|
(if (and (not complement) (= (length class) 1))
|
|
(regexp-quote class)
|
|
(concat "[" (if complement "^") class "]")))))
|
|
|
|
(provide 'sregex)
|
|
|
|
;;; sregex.el ends here
|