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1 ;;; regi.el --- REGular expression Interpreting engine
3 ;; Copyright (C) 1993 Free Software Foundation, Inc.
5 ;; Author: 1993 Barry A. Warsaw, Century Computing, Inc. <bwarsaw@cen.com>
6 ;; Maintainer: bwarsaw@cen.com
7 ;; Created: 24-Feb-1993
8 ;; Version: 1.8
9 ;; Last Modified: 1993/06/01 21:33:00
10 ;; Keywords: extensions, matching
12 ;; This file is part of GNU Emacs.
14 ;; GNU Emacs is free software; you can redistribute it and/or modify
15 ;; it under the terms of the GNU General Public License as published by
16 ;; the Free Software Foundation; either version 2, or (at your option)
17 ;; any later version.
19 ;; GNU Emacs is distributed in the hope that it will be useful,
20 ;; but WITHOUT ANY WARRANTY; without even the implied warranty of
21 ;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
22 ;; GNU General Public License for more details.
24 ;; You should have received a copy of the GNU General Public License
25 ;; along with GNU Emacs; see the file COPYING. If not, write to the
26 ;; Free Software Foundation, Inc., 59 Temple Place - Suite 330,
27 ;; Boston, MA 02111-1307, USA.
29 ;;; Commentary:
31 ;;; Code:
34 (defun regi-pos (&optional position col-p)
35 "Return the character position at various buffer positions.
36 Optional POSITION can be one of the following symbols:
38 `bol' == beginning of line
39 `boi' == beginning of indentation
40 `eol' == end of line [default]
41 `bonl' == beginning of next line
42 `bopl' == beginning of previous line
44 Optional COL-P non-nil returns `current-column' instead of character position."
45 (save-excursion
46 (cond
47 ((eq position 'bol) (beginning-of-line))
48 ((eq position 'boi) (back-to-indentation))
49 ((eq position 'bonl) (forward-line 1))
50 ((eq position 'bopl) (forward-line -1))
51 (t (end-of-line)))
52 (if col-p (current-column) (point))))
54 (defun regi-mapcar (predlist func &optional negate-p case-fold-search-p)
55 "Build a regi frame where each element of PREDLIST appears exactly once.
56 The frame contains elements where each member of PREDLIST is
57 associated with FUNC, and optionally NEGATE-P and CASE-FOLD-SEARCH-P."
58 (let (frame tail)
59 (if (or negate-p case-fold-search-p)
60 (setq tail (list negate-p)))
61 (if case-fold-search-p
62 (setq tail (append tail (list case-fold-search-p))))
63 (while predlist
64 (let ((element (list (car predlist) func)))
65 (if tail
66 (setq element (append element tail)))
67 (setq frame (append frame (list element))
68 predlist (cdr predlist))
70 frame))
73 (defun regi-interpret (frame &optional start end)
74 "Interpret the regi frame FRAME.
75 If optional START and END are supplied, they indicate the region of
76 interest, and the buffer is narrowed to the beginning of the line
77 containing START, and beginning of the line after the line containing
78 END. Otherwise, point and mark are not set and processing continues
79 until your FUNC returns the `abort' symbol (see below). Beware! Not
80 supplying a START or END could put you in an infinite loop.
82 A regi frame is a list of entries of the form:
84 (PRED FUNC [NEGATE-P [CASE-FOLD-SEARCH]])
86 PRED is a predicate against which each line in the region is tested,
87 and if a match occurs, FUNC is `eval'd. Point is then moved to the
88 beginning of the next line, the frame is reset and checking continues.
89 If a match doesn't occur, the next entry is checked against the
90 current line until all entries in the frame are checked. At this
91 point, if no match occurred, the frame is reset and point is moved to
92 the next line. Checking continues until every line in the region is
93 checked. Optional NEGATE-P inverts the result of PRED before FUNC is
94 called and `case-fold-search' is bound to the optional value of
95 CASE-FOLD-SEARCH for the PRED check.
97 PRED can be a string, variable, function or one of the following
98 symbols: t, nil, `begin', `end', and `every'. If PRED is a string, or
99 a variable or list that evaluates to a string, it is interpreted as a
100 regular expression and is matched against the current line (from the
101 beginning) using `looking-at'. If PRED does not evaluate to a string,
102 it is interpreted as a binary value (nil or non-nil).
104 PRED can also be one of the following symbols:
106 t -- always produces a true outcome
107 `begin' -- always executes before anything else
108 `end' -- always executes after everything else
109 `every' -- execute after frame is matched on a line
111 Note that NEGATE-P and CASE-FOLD-SEARCH are meaningless if PRED is one
112 of these special symbols. Only the first occurrence of each symbol in
113 a frame entry is used, the rest are ignored.
115 Your FUNC can return values which control regi processing. If a list
116 is returned from your function, it can contain any combination of the
117 following elements:
119 the symbol `continue'
120 Tells regi to continue processing frame-entries after a match,
121 instead of resetting to the first entry and advancing to the next
122 line, as is the default behavior. When returning this symbol,
123 you must take care not to enter an infinite loop.
125 the symbol `abort'
126 Tells regi to terminate processing this frame. any end
127 frame-entry is still processed.
129 the list `(frame . NEWFRAME)'
130 Tells regi to use NEWFRAME as its current frame. In other words,
131 your FUNC can modify the executing regi frame on the fly.
133 the list `(step . STEP)'
134 Tells regi to move STEP number of lines forward during normal
135 processing. By default, regi moves forward 1 line. STEP can be
136 negative, but be careful of infinite loops.
138 You should usually take care to explicitly return nil from your
139 function if no action is to take place. Your FUNC will always be
140 `eval'ed. The following variables will be temporarily bound to some
141 useful information:
143 `curline'
144 the current line in the buffer, as a string
146 `curframe'
147 the full, current frame being executed
149 `curentry'
150 the current frame entry being executed."
152 (save-excursion
153 (save-restriction
154 (let (begin-tag end-tag every-tag current-frame working-frame donep)
156 ;; set up the narrowed region
157 (and start
159 (let* ((tstart start)
160 (start (min start end))
161 (end (max start end)))
162 (narrow-to-region
163 (progn (goto-char end) (regi-pos 'bonl))
164 (progn (goto-char start) (regi-pos 'bol)))))
166 ;; lets find the special tags and remove them from the working
167 ;; frame. note that only the last special tag is used.
168 (mapcar
169 (function
170 (lambda (entry)
171 (let ((pred (car entry))
172 (func (car (cdr entry))))
173 (cond
174 ((eq pred 'begin) (setq begin-tag func))
175 ((eq pred 'end) (setq end-tag func))
176 ((eq pred 'every) (setq every-tag func))
178 (setq working-frame (append working-frame (list entry))))
179 ) ; end-cond
181 frame) ; end-mapcar
183 ;; execute the begin entry
184 (eval begin-tag)
186 ;; now process the frame
187 (setq current-frame working-frame)
188 (while (not (or donep (eobp)))
189 (let* ((entry (car current-frame))
190 (pred (nth 0 entry))
191 (func (nth 1 entry))
192 (negate-p (nth 2 entry))
193 (case-fold-search (nth 3 entry))
194 match-p)
195 (catch 'regi-throw-top
196 (cond
197 ;; we are finished processing the frame for this line
198 ((not current-frame)
199 (setq current-frame working-frame) ;reset frame
200 (forward-line 1)
201 (throw 'regi-throw-top t))
202 ;; see if predicate evaluates to a string
203 ((stringp (setq match-p (eval pred)))
204 (setq match-p (looking-at match-p)))
205 ) ; end-cond
207 ;; now that we've done the initial matching, check for
208 ;; negation of match
209 (and negate-p
210 (setq match-p (not match-p)))
212 ;; if the line matched, package up the argument list and
213 ;; funcall the FUNC
214 (if match-p
215 (let* ((curline (buffer-substring
216 (regi-pos 'bol)
217 (regi-pos 'eol)))
218 (curframe current-frame)
219 (curentry entry)
220 (result (eval func))
221 (step (or (cdr (assq 'step result)) 1))
223 ;; changing frame on the fly?
224 (if (assq 'frame result)
225 (setq working-frame (cdr (assq 'frame result))))
227 ;; continue processing current frame?
228 (if (memq 'continue result)
229 (setq current-frame (cdr current-frame))
230 (forward-line step)
231 (setq current-frame working-frame))
233 ;; abort current frame?
234 (if (memq 'abort result)
235 (progn
236 (setq donep t)
237 (throw 'regi-throw-top t)))
238 ) ; end-let
240 ;; else if no match occurred, then process the next
241 ;; frame-entry on the current line
242 (setq current-frame (cdr current-frame))
244 ) ; end-if match-p
245 ) ; end catch
246 ) ; end let
248 ;; after every cycle, evaluate every-tag
249 (eval every-tag)
250 ) ; end-while
252 ;; now process the end entry
253 (eval end-tag)))))
256 (provide 'regi)
258 ;;; regi.el ends here