1 ;;; format.el --- read and save files in multiple formats
3 ;; Copyright (c) 1994, 1995, 1997 Free Software Foundation
5 ;; Author: Boris Goldowsky <boris@gnu.ai.mit.edu>
6 ;; Keywords: extensions, dumped
8 ;; This file is part of XEmacs.
10 ;; XEmacs is free software; you can redistribute it and/or modify it
11 ;; under the terms of the GNU General Public License as published by
12 ;; the Free Software Foundation; either version 2, or (at your option)
15 ;; XEmacs is distributed in the hope that it will be useful, but
16 ;; WITHOUT ANY WARRANTY; without even the implied warranty of
17 ;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
18 ;; General Public License for more details.
20 ;; You should have received a copy of the GNU General Public License
21 ;; along with XEmacs; see the file COPYING. If not, write to the Free
22 ;; Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
25 ;;; Synched up with: Emacs 20.2.
29 ;; This file is dumped with XEmacs.
31 ;; This file defines a unified mechanism for saving & loading files stored
32 ;; in different formats. `format-alist' contains information that directs
33 ;; Emacs to call an encoding or decoding function when reading or writing
34 ;; files that match certain conditions.
36 ;; When a file is visited, its format is determined by matching the
37 ;; beginning of the file against regular expressions stored in
38 ;; `format-alist'. If this fails, you can manually translate the buffer
39 ;; using `format-decode-buffer'. In either case, the formats used are
40 ;; listed in the variable `buffer-file-format', and become the default
41 ;; format for saving the buffer. To save a buffer in a different format,
42 ;; change this variable, or use `format-write-file'.
44 ;; Auto-save files are normally created in the same format as the visited
45 ;; file, but the variable `auto-save-file-format' can be set to a
46 ;; particularly fast or otherwise preferred format to be used for
47 ;; auto-saving (or nil to do no encoding on auto-save files, but then you
48 ;; risk losing any text-properties in the buffer).
50 ;; You can manually translate a buffer into or out of a particular format
51 ;; with the functions `format-encode-buffer' and `format-decode-buffer'.
52 ;; To translate just the region use the functions `format-encode-region'
53 ;; and `format-decode-region'.
55 ;; You can define a new format by writing the encoding and decoding
56 ;; functions, and adding an entry to `format-alist'. See enriched.el for
57 ;; an example of how to implement a file format. There are various
58 ;; functions defined in this file that may be useful for writing the
59 ;; encoding and decoding functions:
60 ;; * `format-annotate-region' and `format-deannotate-region' allow a
61 ;; single alist of information to be used for encoding and decoding.
62 ;; The alist defines a correspondence between strings in the file
63 ;; ("annotations") and text-properties in the buffer.
64 ;; * `format-replace-strings' is similarly useful for doing simple
65 ;; string->string translations in a reversible manner.
69 (put 'buffer-file-format 'permanent-local t)
73 (image/jpeg "JPEG image" "\377\330\377\340\000\020JFIF"
74 image-decode-jpeg nil t image-mode)
75 (image/gif "GIF image" "GIF8[79]"
76 image-decode-gif nil t image-mode)
77 (image/png "Portable Network Graphics" "\211PNG"
78 image-decode-png nil t image-mode)
79 (image/x-xpm "XPM image" "/\\* XPM \\*/"
80 image-decode-xpm nil t image-mode)
82 ;; TIFF files have lousy magic
83 (image/tiff "TIFF image" "II\\*\000"
84 image-decode-tiff nil t image-mode) ;; TIFF 6.0 big-endian
85 (image/tiff "TIFF image" "MM\000\\*"
86 image-decode-tiff nil t image-mode) ;; TIFF 6.0 little-endian
88 (text/enriched "Extended MIME text/enriched format."
89 "Content-[Tt]ype:[ \t]*text/enriched"
90 enriched-decode enriched-encode t enriched-mode)
91 (text/richtext "Extended MIME obsolete text/richtext format."
92 "Content-[Tt]ype:[ \t]*text/richtext"
93 richtext-decode richtext-encode t enriched-mode)
94 (plain "ISO 8859-1 standard format, no text properties."
95 ;; Plain only exists so that there is an obvious neutral choice in
96 ;; the completion list.
98 ;; (ibm "IBM Code Page 850 (DOS)"
100 ;; "recode ibm-pc:latin1" "recode latin1:ibm-pc" t nil)
101 ;; (mac "Apple Macintosh"
103 ;; "recode mac:latin1" "recode latin1:mac" t nil)
106 ;; "recode roman8:latin1" "recode latin1:roman8" t nil)
107 ;; (TeX "TeX (encoding)"
109 ;; iso-tex2iso iso-iso2tex t nil)
110 ;; (gtex "German TeX (encoding)"
112 ;; iso-gtex2iso iso-iso2gtex t nil)
113 ;; (html "HTML (encoding)"
115 ;; "recode html:latin1" "recode latin1:html" t nil)
118 ;; "tr a-mn-z n-za-m" "tr a-mn-z n-za-m" t nil)
119 ;; (duden "Duden Ersatzdarstellung"
121 ;; "diac" iso-iso2duden t nil)
122 ;; (de646 "German ASCII (ISO 646)"
124 ;; "recode iso646-ge:latin1" "recode latin1:iso646-ge" t nil)
125 ;; (denet "net German"
127 ;; iso-german iso-cvt-read-only t nil)
128 ;; (esnet "net Spanish"
130 ;; iso-spanish iso-cvt-read-only t nil)
132 "List of information about understood file formats.
133 Elements are of the form \(NAME DOC-STR REGEXP FROM-FN TO-FN MODIFY MODE-FN).
135 NAME is a symbol, which is stored in `buffer-file-format'.
137 DOC-STR should be a single line providing more information about the
138 format. It is currently unused, but in the future will be shown to
139 the user if they ask for more information.
141 REGEXP is a regular expression to match against the beginning of the file;
142 it should match only files in that format.
144 FROM-FN is called to decode files in that format; it gets two args, BEGIN
145 and END, and can make any modifications it likes, returning the new
146 end. It must make sure that the beginning of the file no longer
147 matches REGEXP, or else it will get called again.
148 Alternatively, FROM-FN can be a string, which specifies a shell command
149 (including options) to be used as a filter to perform the conversion.
151 TO-FN is called to encode a region into that format; it is passed three
152 arguments: BEGIN, END, and BUFFER. BUFFER is the original buffer that
153 the data being written came from, which the function could use, for
154 example, to find the values of local variables. TO-FN should either
155 return a list of annotations like `write-region-annotate-functions',
156 or modify the region and return the new end.
157 Alternatively, TO-FN can be a string, which specifies a shell command
158 (including options) to be used as a filter to perform the conversion.
160 MODIFY, if non-nil, means the TO-FN wants to modify the region. If nil,
161 TO-FN will not make any changes but will instead return a list of
164 MODE-FN, if specified, is called when visiting a file with that format.")
166 ;;; Basic Functions (called from Lisp)
168 (defun format-encode-run-method (method from to &optional buffer)
169 "Translate using function or shell script METHOD the text from FROM to TO.
170 If METHOD is a string, it is a shell command;
171 otherwise, it should be a Lisp function.
172 BUFFER should be the buffer that the output originally came from."
176 (with-output-to-temp-buffer "*Format Errors*"
177 (shell-command-on-region from to method t nil))
179 (funcall method from to buffer)))
181 (defun format-decode-run-method (method from to &optional buffer)
182 "Decode using function or shell script METHOD the text from FROM to TO.
183 If METHOD is a string, it is a shell command;
184 otherwise, it should be a Lisp function."
187 (with-output-to-temp-buffer "*Format Errors*"
188 (shell-command-on-region from to method t nil))
190 (funcall method from to)))
192 (defun format-annotate-function (format from to orig-buf)
193 "Return annotations for writing region as FORMAT.
194 FORMAT is a symbol naming one of the formats defined in `format-alist',
195 it must be a single symbol, not a list like `buffer-file-format'.
196 FROM and TO delimit the region to be operated on in the current buffer.
197 ORIG-BUF is the original buffer that the data came from.
198 This function works like a function on `write-region-annotate-functions':
199 it either returns a list of annotations, or returns with a different buffer
200 current, which contains the modified text to write.
202 For most purposes, consider using `format-encode-region' instead."
203 ;; This function is called by write-region (actually build-annotations)
204 ;; for each element of buffer-file-format.
205 (let* ((info (assq format format-alist))
207 (modify (nth 5 info)))
210 ;; To-function wants to modify region. Copy to safe place.
211 (let ((copy-buf (get-buffer-create " *Format Temp*")))
212 (copy-to-buffer copy-buf from to)
213 (set-buffer copy-buf)
214 (format-insert-annotations write-region-annotations-so-far from)
215 (format-encode-run-method to-fn (point-min) (point-max) orig-buf)
217 ;; Otherwise just call function, it will return annotations.
218 (funcall to-fn from to orig-buf)))))
220 (defun format-decode (format length &optional visit-flag)
221 "Decode text from any known FORMAT.
222 FORMAT is a symbol appearing in `format-alist' or a list of such symbols,
223 or nil, in which case this function tries to guess the format of the data by
224 matching against the regular expressions in `format-alist'. After a match is
225 found and the region decoded, the alist is searched again from the beginning
228 Second arg LENGTH is the number of characters following point to operate on.
229 If optional third arg VISIT-FLAG is true, set `buffer-file-format'
230 to the list of formats used, and call any mode functions defined for those
233 Returns the new length of the decoded region.
235 For most purposes, consider using `format-decode-region' instead.
237 This function is called by insert-file-contents whenever a file is read."
238 (let ((mod (buffer-modified-p))
240 (end (+ (point) length)))
242 ;; Figure out which format it is in, remember list in `format'.
243 (let ((try format-alist))
248 (if (and regexp (looking-at regexp)
249 (< (match-end 0) (+ begin length)))
251 (setq format (cons (car f) format))
254 (setq end (format-decode-run-method (nth 3 f) begin end)))
255 ;; Call visit function if required
256 (if (and visit-flag (nth 6 f)) (funcall (nth 6 f) 1))
257 ;; Safeguard against either of the functions changing pt.
259 ;; Rewind list to look for another format
260 (setq try format-alist))
261 (setq try (cdr try))))))
262 ;; Deal with given format(s)
263 (or (listp format) (setq format (list format)))
266 (or (setq f (assq (car do) format-alist))
267 (error "Unknown format" (car do)))
270 (setq end (format-decode-run-method (nth 3 f) begin end)))
271 ;; Call visit function if required
272 (if (and visit-flag (nth 6 f)) (funcall (nth 6 f) 1))
273 (setq do (cdr do)))))
275 (setq buffer-file-format format))
276 (set-buffer-modified-p mod)
277 ;; Return new length of region
281 ;;; Interactive functions & entry points
284 (defun format-decode-buffer (&optional format)
285 "Translate the buffer from some FORMAT.
286 If the format is not specified, this function attempts to guess.
287 `buffer-file-format' is set to the format used, and any mode-functions
288 for the format are called."
290 (list (format-read "Translate buffer from format (default: guess): ")))
292 (goto-char (point-min))
293 (format-decode format (buffer-size) t)))
295 (defun format-decode-region (from to &optional format)
296 "Decode the region from some format.
297 Arg FORMAT is optional; if omitted the format will be determined by looking
298 for identifying regular expressions at the beginning of the region."
300 (list (region-beginning) (region-end)
301 (format-read "Translate region from format (default: guess): ")))
304 (format-decode format (- to from) nil)))
306 (defun format-encode-buffer (&optional format)
307 "Translate the buffer into FORMAT.
308 FORMAT defaults to `buffer-file-format'. It is a symbol naming one of the
309 formats defined in `format-alist', or a list of such symbols."
311 (list (format-read (format "Translate buffer to format (default %s): "
312 buffer-file-format))))
313 (format-encode-region (point-min) (point-max) format))
315 (defun format-encode-region (start end &optional format)
316 "Translate the region into some FORMAT.
317 FORMAT defaults to `buffer-file-format', it is a symbol naming
318 one of the formats defined in `format-alist', or a list of such symbols."
320 (list (region-beginning) (region-end)
321 (format-read (format "Translate region to format (default %s): "
322 buffer-file-format))))
323 (if (null format) (setq format buffer-file-format))
324 (if (symbolp format) (setq format (list format)))
327 (let ( ; (cur-buf (current-buffer))
328 (end (point-marker)))
330 (let* ((info (assq (car format) format-alist))
332 (modify (nth 5 info))
337 (setq end (format-encode-run-method to-fn start end
339 (format-insert-annotations
340 (funcall to-fn start end (current-buffer)))))
341 (setq format (cdr format)))))))
343 (defun format-write-file (filename format)
344 "Write current buffer into a FILE using some FORMAT.
345 Makes buffer visit that file and sets the format as the default for future
346 saves. If the buffer is already visiting a file, you can specify a directory
347 name as FILE, to write a file of the same old name in that directory."
349 ;; Same interactive spec as write-file, plus format question.
350 (let* ((file (if buffer-file-name
351 (read-file-name "Write file: "
353 (read-file-name "Write file: "
354 (cdr (assq 'default-directory
355 (buffer-local-variables)))
356 nil nil (buffer-name))))
357 (fmt (format-read (format "Write file `%s' in format: "
358 (file-name-nondirectory file)))))
360 (setq buffer-file-format format)
361 (write-file filename))
363 (defun format-find-file (filename format)
364 "Find the file FILE using data format FORMAT.
365 If FORMAT is nil then do not do any format conversion."
367 ;; Same interactive spec as write-file, plus format question.
368 (let* ((file (read-file-name "Find file: "))
369 (fmt (format-read (format "Read file `%s' in format: "
370 (file-name-nondirectory file)))))
372 (let ((format-alist nil))
373 (find-file filename))
375 (format-decode-buffer format)))
377 (defun format-insert-file (filename format &optional start end)
378 "Insert the contents of file FILE using data format FORMAT.
379 If FORMAT is nil then do not do any format conversion.
380 The optional third and fourth arguments START and END specify
381 the part of the file to read.
383 The return value is like the value of `insert-file-contents':
384 a list (ABSOLUTE-FILE-NAME . SIZE)."
386 ;; Same interactive spec as write-file, plus format question.
387 (let* ((file (read-file-name "Find file: "))
388 (fmt (format-read (format "Read file `%s' in format: "
389 (file-name-nondirectory file)))))
392 (let ((format-alist nil))
393 (setq value (insert-file-contents filename nil start end))
394 (setq size (nth 1 value)))
396 (setq size (format-decode format size)
397 value (cons (car value) size)))
400 (defun format-read (&optional prompt)
401 "Read and return the name of a format.
402 Return value is a list, like `buffer-file-format'; it may be nil.
403 Formats are defined in `format-alist'. Optional arg is the PROMPT to use."
404 (let* ((table (mapcar (lambda (x) (list (symbol-name (car x))))
406 (ans (completing-read (or prompt "Format: ") table nil t)))
407 (if (not (equal "" ans)) (list (intern ans)))))
411 ;;; Below are some functions that may be useful in writing encoding and
412 ;;; decoding functions for use in format-alist.
415 (defun format-replace-strings (alist &optional reverse start end)
416 "Do multiple replacements on the buffer.
417 ALIST is a list of (from . to) pairs, which should be proper arguments to
418 `search-forward' and `replace-match' respectively.
419 Optional 2nd arg REVERSE, if non-nil, means the pairs are (to . from), so that
420 you can use the same list in both directions if it contains only literal
422 Optional args BEGIN and END specify a region of the buffer to operate on."
425 (or start (setq start (point-min)))
426 (if end (narrow-to-region (point-min) end))
428 (let ((from (if reverse (cdr (car alist)) (car (car alist))))
429 (to (if reverse (car (cdr alist)) (cdr (car alist)))))
431 (while (search-forward from nil t)
432 (goto-char (match-beginning 0))
434 (set-text-properties (- (point) (length to)) (point)
435 (text-properties-at (point)))
436 (delete-region (point) (+ (point) (- (match-end 0)
437 (match-beginning 0)))))
438 (setq alist (cdr alist)))))))
440 ;;; Some list-manipulation functions that we need.
442 (defun format-delq-cons (cons list)
443 "Remove the given CONS from LIST by side effect,
444 and return the new LIST. Since CONS could be the first element
445 of LIST, write `\(setq foo \(format-delq-cons element foo))' to be sure of
446 changing the value of `foo'."
450 (while (not (eq (cdr p) cons))
451 (if (null p) (error "format-delq-cons: not an element."))
453 ;; Now (cdr p) is the cons to delete
454 (setcdr p (cdr cons))
457 (defun format-make-relatively-unique (a b)
458 "Delete common elements of lists A and B, return as pair.
459 Compares using `equal'."
460 (let* ((acopy (copy-sequence a))
461 (bcopy (copy-sequence b))
464 (let ((dup (member (car tail) bcopy))
466 (if dup (setq acopy (format-delq-cons tail acopy)
467 bcopy (format-delq-cons dup bcopy)))
471 (defun format-common-tail (a b)
472 "Given two lists that have a common tail, return it.
473 Compares with `equal', and returns the part of A that is equal to the
474 equivalent part of B. If even the last items of the two are not equal,
476 (let ((la (length a))
478 ;; Make sure they are the same length
480 (setq a (nthcdr (- la lb) a))
481 (setq b (nthcdr (- lb la) b))))
482 (while (not (equal a b))
487 (defun format-reorder (items order)
488 "Arrange ITEMS to following partial ORDER.
489 Elements of ITEMS equal to elements of ORDER will be rearranged to follow the
490 ORDER. Unmatched items will go last."
492 (let ((item (member (car order) items)))
495 (format-reorder (format-delq-cons item items)
497 (format-reorder items (cdr order))))
500 (put 'face 'format-list-valued t) ; These text-properties take values
501 (put 'unknown 'format-list-valued t) ; that are lists, the elements of which
502 ; should be considered separately.
503 ; See format-deannotate-region and
504 ; format-annotate-region.
510 (defun format-deannotate-region (from to translations next-fn)
511 "Translate annotations in the region into text properties.
512 This sets text properties between FROM to TO as directed by the
513 TRANSLATIONS and NEXT-FN arguments.
515 NEXT-FN is a function that searches forward from point for an annotation.
516 It should return a list of 4 elements: \(BEGIN END NAME POSITIVE). BEGIN and
517 END are buffer positions bounding the annotation, NAME is the name searched
518 for in TRANSLATIONS, and POSITIVE should be non-nil if this annotation marks
519 the beginning of a region with some property, or nil if it ends the region.
520 NEXT-FN should return nil if there are no annotations after point.
522 The basic format of the TRANSLATIONS argument is described in the
523 documentation for the `format-annotate-region' function. There are some
524 additional things to keep in mind for decoding, though:
526 When an annotation is found, the TRANSLATIONS list is searched for a
527 text-property name and value that corresponds to that annotation. If the
528 text-property has several annotations associated with it, it will be used only
529 if the other annotations are also in effect at that point. The first match
530 found whose annotations are all present is used.
532 The text property thus determined is set to the value over the region between
533 the opening and closing annotations. However, if the text-property name has a
534 non-nil `format-list-valued' property, then the value will be consed onto the
535 surrounding value of the property, rather than replacing that value.
537 There are some special symbols that can be used in the \"property\" slot of
538 the TRANSLATIONS list: PARAMETER and FUNCTION \(spelled in uppercase).
539 Annotations listed under the pseudo-property PARAMETER are considered to be
540 arguments of the immediately surrounding annotation; the text between the
541 opening and closing parameter annotations is deleted from the buffer but saved
542 as a string. The surrounding annotation should be listed under the
543 pseudo-property FUNCTION. Instead of inserting a text-property for this
544 annotation, the function listed in the VALUE slot is called to make whatever
545 changes are appropriate. The function's first two arguments are the START and
546 END locations, and the rest of the arguments are any PARAMETERs found in that
549 Any annotations that are found by NEXT-FN but not defined by TRANSLATIONS
550 are saved as values of the `unknown' text-property \(which is list-valued).
551 The TRANSLATIONS list should usually contain an entry of the form
552 \(unknown \(nil format-annotate-value))
553 to write these unknown annotations back into the file."
556 (narrow-to-region (point-min) to)
558 (let (next open-ans todo
561 (while (setq next (funcall next-fn))
562 (let* ((loc (nth 0 next))
565 (positive (nth 3 next))
568 ;; Delete the annotation
569 (delete-region loc end)
571 ;; Positive annotations are stacked, remembering location
572 (positive (setq open-ans (cons `(,name ((,loc . nil))) open-ans)))
573 ;; It is a negative annotation:
574 ;; Close the top annotation & add its text property.
575 ;; If the file's nesting is messed up, the close might not match
576 ;; the top thing on the open-annotations stack.
577 ;; If no matching annotation is open, just ignore the close.
578 ((not (assoc name open-ans))
579 (message "Extra closing annotation (%s) in file" name))
580 ;; If one is open, but not on the top of the stack, close
581 ;; the things in between as well. Set `found' when the real
585 (let* ((top (car open-ans)) ; first on stack: should match.
586 (top-name (car top)) ; text property name
587 (top-extents (nth 1 top)) ; property regions
588 (params (cdr (cdr top))) ; parameters
589 (aalist translations)
591 (if (equal name top-name)
593 (message "Improper nesting in file."))
594 ;; Look through property names in TRANSLATIONS
596 (let ((prop (car (car aalist)))
597 (alist (cdr (car aalist))))
598 ;; And look through values for each property
600 (let ((value (car (car alist)))
601 (ans (cdr (car alist))))
602 (if (member top-name ans)
603 ;; This annotation is listed, but still have to
604 ;; check if multiple annotations are satisfied
605 (if (member nil (mapcar (lambda (r)
608 nil ; multiple ans not satisfied
609 ;; If there are multiple annotations going
610 ;; into one text property, split up the other
611 ;; annotations so they apply individually to
612 ;; the other regions.
613 (setcdr (car top-extents) loc)
614 (let ((to-split ans) this-one extents)
617 (assoc (car to-split) open-ans)
618 extents (nth 1 this-one))
619 (if (not (eq this-one top))
620 (setcar (cdr this-one)
621 (format-subtract-regions
622 extents top-extents)))
623 (setq to-split (cdr to-split))))
624 ;; Set loop variables to nil so loop
626 (setq alist nil aalist nil matched t
627 ;; pop annotation off stack.
628 open-ans (cdr open-ans))
629 (let ((extents top-extents)
630 (start (car (car top-extents)))
631 (loc (cdr (car top-extents))))
634 ;; Check for pseudo-properties
635 ((eq prop 'PARAMETER)
636 ;; A parameter of the top open ann:
637 ;; delete text and use as arg.
639 ;; (If nothing open, discard).
642 (append (car open-ans)
647 (delete-region start loc))
649 ;; Not a property, but a function.
651 (apply value start loc params)))
652 (if rtn (setq todo (cons rtn todo)))))
654 ;; Normal property/value pair
656 (cons (list start loc prop value)
658 (setq extents (cdr extents)
659 start (car (car extents))
660 loc (cdr (car extents))))))))
661 (setq alist (cdr alist))))
662 (setq aalist (cdr aalist)))
664 ;; Didn't find any match for the annotation:
665 ;; Store as value of text-property `unknown'.
666 (setcdr (car top-extents) loc)
667 (let ((extents top-extents)
668 (start (car (car top-extents)))
669 (loc (cdr (car top-extents))))
671 (setq open-ans (cdr open-ans)
672 todo (cons (list start loc 'unknown top-name)
674 unknown-ans (cons name unknown-ans)
675 extents (cdr extents)
676 start (car (car extents))
677 loc (cdr (car extents))))))))))))
679 ;; Once entire file has been scanned, add the properties.
681 (let* ((item (car todo))
687 (if (numberp val) ; add to ambient value if numeric
688 (format-property-increment-region from to prop val 0)
691 (cond ((get prop 'format-list-valued) ; value gets consed onto
692 ; list-valued properties
693 (let ((prev (get-text-property from prop)))
694 (cons val (if (listp prev) prev (list prev)))))
695 (t val))))) ; normally, just set to val.
696 (setq todo (cdr todo)))
699 (message "Unknown annotations: %s" unknown-ans))))))
701 (defun format-subtract-regions (minu subtra)
702 "Remove the regions in SUBTRAHEND from the regions in MINUEND. A region
703 is a dotted pair (from . to). Both parameters are lists of regions. Each
704 list must contain nonoverlapping, noncontiguous regions, in descending
705 order. The result is also nonoverlapping, noncontiguous, and in descending
706 order. The first element of MINUEND can have a cdr of nil, indicating that
707 the end of that region is not yet known."
708 (let* ((minuend (copy-alist minu))
709 (subtrahend (copy-alist subtra))
713 (while (and minuend subtrahend)
715 ;; The minuend starts after the subtrahend ends; keep it.
717 (setq results (cons m results)
718 minuend (cdr minuend)
720 ;; The minuend extends beyond the end of the subtrahend. Chop it off.
721 ((or (null (cdr m)) (> (cdr m) (cdr s)))
722 (setq results (cons (cons (1+ (cdr s)) (cdr m)) results))
724 ;; The subtrahend starts after the minuend ends; throw it away.
726 (setq subtrahend (cdr subtrahend) s (car subtrahend)))
727 ;; The subtrahend extends beyond the end of the minuend. Chop it off.
728 (t ;(<= (cdr m) (cdr s)))
729 (if (>= (car m) (car s))
730 (setq minuend (cdr minuend) m (car minuend))
731 (setcdr m (1- (car s)))
732 (setq subtrahend (cdr subtrahend) s (car subtrahend))))))
733 (nconc (nreverse results) minuend)))
735 ;; This should probably go somewhere other than format.el. Then again,
736 ;; indent.el has alter-text-property. NOTE: We can also use
737 ;; next-single-property-change instead of text-property-not-all, but then
738 ;; we have to see if we passed TO.
739 (defun format-property-increment-region (from to prop delta default)
740 "Increment property PROP over the region between FROM and TO by the
741 amount DELTA (which may be negative). If property PROP is nil anywhere
742 in the region, it is treated as though it were DEFAULT."
743 (let ((cur from) val newval next)
745 (setq val (get-text-property cur prop)
746 newval (+ (or val default) delta)
747 next (text-property-not-all cur to prop val))
748 (put-text-property cur (or next to) prop newval)
755 (defun format-insert-annotations (list &optional offset)
756 "Apply list of annotations to buffer as `write-region' would.
757 Inserts each element of the given LIST of buffer annotations at its
758 appropriate place. Use second arg OFFSET if the annotations' locations are
759 not relative to the beginning of the buffer: annotations will be inserted
760 at their location-OFFSET+1 \(ie, the offset is treated as the character number
761 of the first character in the buffer)."
764 (setq offset (1- offset)))
765 (let ((l (reverse list)))
767 (goto-char (- (car (car l)) offset))
768 (insert (cdr (car l)))
771 (defun format-annotate-value (old new)
772 "Return OLD and NEW as a \(close . open) annotation pair.
773 Useful as a default function for TRANSLATIONS alist when the value of the text
774 property is the name of the annotation that you want to use, as it is for the
775 `unknown' text property."
776 (cons (if old (list old))
777 (if new (list new))))
779 (defun format-annotate-region (from to trans format-fn ignore)
780 "Generate annotations for text properties in the region.
781 Searches for changes between FROM and TO, and describes them with a list of
782 annotations as defined by alist TRANSLATIONS and FORMAT-FN. IGNORE lists text
783 properties not to consider; any text properties that are neither ignored nor
784 listed in TRANSLATIONS are warned about.
785 If you actually want to modify the region, give the return value of this
786 function to `format-insert-annotations'.
788 Format of the TRANSLATIONS argument:
790 Each element is a list whose car is a PROPERTY, and the following
791 elements are VALUES of that property followed by the names of zero or more
792 ANNOTATIONS. Whenever the property takes on that value, the annotations
793 \(as formatted by FORMAT-FN) are inserted into the file.
794 When the property stops having that value, the matching negated annotation
795 will be inserted \(it may actually be closed earlier and reopened, if
796 necessary, to keep proper nesting).
798 If the property's value is a list, then each element of the list is dealt with
801 If a VALUE is numeric, then it is assumed that there is a single annotation
802 and each occurrence of it increments the value of the property by that number.
803 Thus, given the entry \(left-margin \(4 \"indent\")), if the left margin
804 changes from 4 to 12, two <indent> annotations will be generated.
806 If the VALUE is nil, then instead of annotations, a function should be
807 specified. This function is used as a default: it is called for all
808 transitions not explicitly listed in the table. The function is called with
809 two arguments, the OLD and NEW values of the property. It should return
810 lists of annotations like `format-annotate-location' does.
812 The same structure can be used in reverse for reading files."
813 (let ((all-ans nil) ; All annotations - becomes return value
814 (open-ans nil) ; Annotations not yet closed
815 (loc nil) ; Current location
816 (not-found nil)) ; Properties that couldn't be saved
817 (while (or (null loc)
818 (and (setq loc (next-property-change loc nil to))
820 (or loc (setq loc from))
821 (let* ((ans (format-annotate-location loc (= loc from) ignore trans))
822 (neg-ans (format-reorder (aref ans 0) open-ans))
823 (pos-ans (aref ans 1))
824 (ignored (aref ans 2)))
825 (setq not-found (append ignored not-found)
826 ignore (append ignored ignore))
827 ;; First do the negative (closing) annotations
829 ;; Check if it's missing. This can happen (eg, a numeric property
830 ;; going negative can generate closing annotations before there are
831 ;; any open). Warn user & ignore.
832 (if (not (member (car neg-ans) open-ans))
833 (message "Can't close %s: not open." (car neg-ans))
834 (while (not (equal (car neg-ans) (car open-ans)))
835 ;; To close anno. N, need to first close ans 1 to N-1,
836 ;; remembering to re-open them later.
837 (setq pos-ans (cons (car open-ans) pos-ans))
839 (cons (cons loc (funcall format-fn (car open-ans) nil))
841 (setq open-ans (cdr open-ans)))
842 ;; Now remove the one we're really interested in from open list.
843 (setq open-ans (cdr open-ans))
844 ;; And put the closing annotation here.
846 (cons (cons loc (funcall format-fn (car neg-ans) nil))
848 (setq neg-ans (cdr neg-ans)))
849 ;; Now deal with positive (opening) annotations
853 (setq open-ans (cons (car pos-ans) open-ans))
855 (cons (cons loc (funcall format-fn (car pos-ans) t))
857 (setq pos-ans (cdr pos-ans))))))
859 ;; Close any annotations still open
862 (cons (cons to (funcall format-fn (car open-ans) nil))
864 (setq open-ans (cdr open-ans)))
866 (message "These text properties could not be saved:\n %s"
870 ;;; Internal functions for format-annotate-region.
872 (defun format-annotate-location (loc all ignore trans)
873 "Return annotation(s) needed at LOCATION.
874 This includes any properties that change between LOC-1 and LOC.
875 If ALL is true, don't look at previous location, but generate annotations for
876 all non-nil properties.
877 Third argument IGNORE is a list of text-properties not to consider.
879 Return value is a vector of 3 elements:
880 1. List of names of the annotations to close
881 2. List of the names of annotations to open.
882 3. List of properties that were ignored or couldn't be annotated."
883 (let* ((prev-loc (1- loc))
884 (before-plist (if all nil (text-properties-at prev-loc)))
885 (after-plist (text-properties-at loc))
886 p negatives positives prop props not-found)
887 ;; make list of all property names involved
888 (setq p before-plist)
890 (if (not (memq (car p) props))
891 (setq props (cons (car p) props)))
892 (setq p (cdr (cdr p))))
895 (if (not (memq (car p) props))
896 (setq props (cons (car p) props)))
897 (setq p (cdr (cdr p))))
900 (setq prop (car props)
902 (if (memq prop ignore)
903 nil ; If it's been ignored before, ignore it now.
904 (let ((before (if all nil (car (cdr (memq prop before-plist)))))
905 (after (car (cdr (memq prop after-plist)))))
906 (if (equal before after)
907 nil ; no change; ignore
908 (let ((result (format-annotate-single-property-change
909 prop before after trans)))
911 (setq not-found (cons prop not-found))
912 (setq negatives (nconc negatives (car result))
913 positives (nconc positives (cdr result)))))))))
914 (vector negatives positives not-found)))
916 (defun format-annotate-single-property-change (prop old new trans)
917 "Return annotations for PROPERTY changing from OLD to NEW.
918 These are searched for in the TRANSLATIONS alist.
919 If NEW does not appear in the list, but there is a default function, then that
921 Annotations to open and to close are returned as a dotted pair."
922 (let ((prop-alist (cdr (assoc prop trans)))
927 ;; If either old or new is a list, have to treat both that way.
928 (if (or (consp old) (consp new))
929 (let* ((old (if (listp old) old (list old)))
930 (new (if (listp new) new (list new)))
931 ;; (tail (format-common-tail old new))
935 (append (car (format-annotate-atomic-property-change
936 prop-alist (car old) nil))
941 (append (cdr (format-annotate-atomic-property-change
942 prop-alist nil (car new)))
945 (format-make-relatively-unique close open))
946 (format-annotate-atomic-property-change prop-alist old new)))))
948 (defun format-annotate-atomic-property-change (prop-alist old new)
949 "Internal function annotate a single property change.
950 PROP-ALIST is the relevant segment of a TRANSLATIONS list.
951 OLD and NEW are the values."
953 ;; If old and new values are numbers,
954 ;; look for a number in PROP-ALIST.
955 (if (and (or (null old) (numberp old))
956 (or (null new) (numberp new)))
958 (setq num-ann prop-alist)
959 (while (and num-ann (not (numberp (car (car num-ann)))))
960 (setq num-ann (cdr num-ann)))))
962 ;; Numerical annotation - use difference
964 ;; If property is numeric, nil means 0
965 (cond ((and (numberp old) (null new))
967 ((and (numberp new) (null old))
970 (let* ((entry (car num-ann))
971 (increment (car entry))
972 (n (ceiling (/ (float (- new old)) (float increment))))
973 (anno (car (cdr entry))))
975 (cons nil (make-list n anno))
976 (cons (make-list (- n) anno) nil))))
978 ;; Standard annotation
979 (let ((close (and old (cdr (assoc old prop-alist))))
980 (open (and new (cdr (assoc new prop-alist)))))
982 (format-make-relatively-unique close open)
983 ;; Call "Default" function, if any
984 (let ((default (assq nil prop-alist)))
986 (funcall (car (cdr default)) old new))))))))
988 ;;; format.el ends here