(bibtex-autokey-before-presentation-function): Fix :type.
[emacs.git] / lisp / emacs-lisp / cust-print.el
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1 ;;; cust-print.el --- handles print-level and print-circle.
3 ;; Copyright (C) 1992 Free Software Foundation, Inc.
5 ;; Author: Daniel LaLiberte <liberte@holonexus.org>
6 ;; Adapted-By: ESR
7 ;; Keywords: extensions
9 ;; LCD Archive Entry:
10 ;; cust-print|Daniel LaLiberte|liberte@holonexus.org
11 ;; |Handle print-level, print-circle and more.
13 ;; This file is part of GNU Emacs.
15 ;; GNU Emacs is free software; you can redistribute it and/or modify
16 ;; it under the terms of the GNU General Public License as published by
17 ;; the Free Software Foundation; either version 2, or (at your option)
18 ;; any later version.
20 ;; GNU Emacs is distributed in the hope that it will be useful,
21 ;; but WITHOUT ANY WARRANTY; without even the implied warranty of
22 ;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
23 ;; GNU General Public License for more details.
25 ;; You should have received a copy of the GNU General Public License
26 ;; along with GNU Emacs; see the file COPYING. If not, write to the
27 ;; Free Software Foundation, Inc., 59 Temple Place - Suite 330,
28 ;; Boston, MA 02111-1307, USA.
30 ;;; Commentary:
32 ;; This package provides a general print handler for prin1 and princ
33 ;; that supports print-level and print-circle, and by the way,
34 ;; print-length since the standard routines are being replaced. Also,
35 ;; to print custom types constructed from lists and vectors, use
36 ;; custom-print-list and custom-print-vector. See the documentation
37 ;; strings of these variables for more details.
39 ;; If the results of your expressions contain circular references to
40 ;; other parts of the same structure, the standard Emacs print
41 ;; subroutines may fail to print with an untrappable error,
42 ;; "Apparently circular structure being printed". If you only use cdr
43 ;; circular lists (where cdrs of lists point back; what is the right
44 ;; term here?), you can limit the length of printing with
45 ;; print-length. But car circular lists and circular vectors generate
46 ;; the above mentioned error in Emacs version 18. Version
47 ;; 19 supports print-level, but it is often useful to get a better
48 ;; print representation of circular and shared structures; the print-circle
49 ;; option may be used to print more concise representations.
51 ;; There are three main ways to use this package. First, you may
52 ;; replace prin1, princ, and some subroutines that use them by calling
53 ;; install-custom-print so that any use of these functions in
54 ;; Lisp code will be affected; you can later reset with
55 ;; uninstall-custom-print. Second, you may temporarily install
56 ;; these functions with the macro with-custom-print. Third, you
57 ;; could call the custom routines directly, thus only affecting the
58 ;; printing that requires them.
60 ;; Note that subroutines which call print subroutines directly will
61 ;; not use the custom print functions. In particular, the evaluation
62 ;; functions like eval-region call the print subroutines directly.
63 ;; Therefore, if you evaluate (aref circ-list 0), where circ-list is a
64 ;; circular list rather than an array, aref calls error directly which
65 ;; will jump to the top level instead of printing the circular list.
67 ;; Uninterned symbols are recognized when print-circle is non-nil,
68 ;; but they are not printed specially here. Use the cl-packages package
69 ;; to print according to print-gensym.
71 ;; Obviously the right way to implement this custom-print facility is
72 ;; in C or with hooks into the standard printer. Please volunteer
73 ;; since I don't have the time or need. More CL-like printing
74 ;; capabilities could be added in the future.
76 ;; Implementation design: we want to use the same list and vector
77 ;; processing algorithm for all versions of prin1 and princ, since how
78 ;; the processing is done depends on print-length, print-level, and
79 ;; print-circle. For circle printing, a preprocessing step is
80 ;; required before the final printing. Thanks to Jamie Zawinski
81 ;; for motivation and algorithms.
84 ;;; Code:
86 (defgroup cust-print nil
87 "Handles print-level and print-circle."
88 :prefix "print-"
89 :group 'lisp
90 :group 'extensions)
92 ;; If using cl-packages:
94 '(defpackage "cust-print"
95 (:nicknames "CP" "custom-print")
96 (:use "el")
97 (:export
98 print-level
99 print-circle
101 custom-print-install
102 custom-print-uninstall
103 custom-print-installed-p
104 with-custom-print
106 custom-prin1
107 custom-princ
108 custom-prin1-to-string
109 custom-print
110 custom-format
111 custom-message
112 custom-error
114 custom-printers
115 add-custom-printer
118 '(in-package cust-print)
120 ;; Emacs 18 doesn't have defalias.
121 ;; Provide def for byte compiler.
122 (eval-and-compile
123 (or (fboundp 'defalias) (fset 'defalias 'fset)))
126 ;; Variables:
127 ;;=========================================================
129 ;;(defvar print-length nil
130 ;; "*Controls how many elements of a list, at each level, are printed.
131 ;;This is defined by emacs.")
133 (defcustom print-level nil
134 "*Controls how many levels deep a nested data object will print.
136 If nil, printing proceeds recursively and may lead to
137 max-lisp-eval-depth being exceeded or an error may occur:
138 `Apparently circular structure being printed.'
139 Also see `print-length' and `print-circle'.
141 If non-nil, components at levels equal to or greater than `print-level'
142 are printed simply as `#'. The object to be printed is at level 0,
143 and if the object is a list or vector, its top-level components are at
144 level 1."
145 :type '(choice (const nil) integer)
146 :group 'cust-print)
149 (defcustom print-circle nil
150 "*Controls the printing of recursive structures.
152 If nil, printing proceeds recursively and may lead to
153 `max-lisp-eval-depth' being exceeded or an error may occur:
154 \"Apparently circular structure being printed.\" Also see
155 `print-length' and `print-level'.
157 If non-nil, shared substructures anywhere in the structure are printed
158 with `#N=' before the first occurrence (in the order of the print
159 representation) and `#N#' in place of each subsequent occurrence,
160 where N is a positive decimal integer.
162 There is no way to read this representation in standard Emacs,
163 but if you need to do so, try the cl-read.el package."
164 :type 'boolean
165 :group 'cust-print)
168 (defcustom custom-print-vectors nil
169 "*Non-nil if printing of vectors should obey print-level and print-length.
171 For Emacs 18, setting print-level, or adding custom print list or
172 vector handling will make this happen anyway. Emacs 19 obeys
173 print-level, but not for vectors."
174 :type 'boolean
175 :group 'cust-print)
178 ;; Custom printers
179 ;;==========================================================
181 (defconst custom-printers nil
182 ;; e.g. '((symbolp . pkg::print-symbol))
183 "An alist for custom printing of any type.
184 Pairs are of the form (PREDICATE . PRINTER). If PREDICATE is true
185 for an object, then PRINTER is called with the object.
186 PRINTER should print to `standard-output' using cust-print-original-princ
187 if the standard printer is sufficient, or cust-print-prin for complex things.
188 The PRINTER should return the object being printed.
190 Don't modify this variable directly. Use `add-custom-printer' and
191 `delete-custom-printer'")
192 ;; Should cust-print-original-princ and cust-print-prin be exported symbols?
193 ;; Or should the standard printers functions be replaced by
194 ;; CP ones in Emacs Lisp so that CP internal functions need not be called?
196 (defun add-custom-printer (pred printer)
197 "Add a pair of PREDICATE and PRINTER to `custom-printers'.
198 Any pair that has the same PREDICATE is first removed."
199 (setq custom-printers (cons (cons pred printer)
200 (delq (assq pred custom-printers)
201 custom-printers)))
202 ;; Rather than updating here, we could wait until cust-print-top-level is called.
203 (cust-print-update-custom-printers))
205 (defun delete-custom-printer (pred)
206 "Delete the custom printer associated with PREDICATE."
207 (setq custom-printers (delq (assq pred custom-printers)
208 custom-printers))
209 (cust-print-update-custom-printers))
212 (defun cust-print-use-custom-printer (object)
213 ;; Default function returns nil.
214 nil)
216 (defun cust-print-update-custom-printers ()
217 ;; Modify the definition of cust-print-use-custom-printer
218 (defalias 'cust-print-use-custom-printer
219 ;; We don't really want to require the byte-compiler.
220 ;; (byte-compile
221 `(lambda (object)
222 (cond
223 ,@(mapcar (function
224 (lambda (pair)
225 `((,(car pair) object)
226 (,(cdr pair) object))))
227 custom-printers)
228 ;; Otherwise return nil.
229 (t nil)
231 ;; )
235 ;; Saving and restoring emacs printing routines.
236 ;;====================================================
238 (defun cust-print-set-function-cell (symbol-pair)
239 (defalias (car symbol-pair)
240 (symbol-function (car (cdr symbol-pair)))))
242 (defun cust-print-original-princ (object &optional stream)) ; dummy def
244 ;; Save emacs routines.
245 (if (not (fboundp 'cust-print-original-prin1))
246 (mapcar 'cust-print-set-function-cell
247 '((cust-print-original-prin1 prin1)
248 (cust-print-original-princ princ)
249 (cust-print-original-print print)
250 (cust-print-original-prin1-to-string prin1-to-string)
251 (cust-print-original-format format)
252 (cust-print-original-message message)
253 (cust-print-original-error error))))
256 (defun custom-print-install ()
257 "Replace print functions with general, customizable, Lisp versions.
258 The emacs subroutines are saved away, and you can reinstall them
259 by running `custom-print-uninstall'."
260 (interactive)
261 (mapcar 'cust-print-set-function-cell
262 '((prin1 custom-prin1)
263 (princ custom-princ)
264 (print custom-print)
265 (prin1-to-string custom-prin1-to-string)
266 (format custom-format)
267 (message custom-message)
268 (error custom-error)
272 (defun custom-print-uninstall ()
273 "Reset print functions to their emacs subroutines."
274 (interactive)
275 (mapcar 'cust-print-set-function-cell
276 '((prin1 cust-print-original-prin1)
277 (princ cust-print-original-princ)
278 (print cust-print-original-print)
279 (prin1-to-string cust-print-original-prin1-to-string)
280 (format cust-print-original-format)
281 (message cust-print-original-message)
282 (error cust-print-original-error)
286 (defalias 'custom-print-funcs-installed-p 'custom-print-installed-p)
287 (defun custom-print-installed-p ()
288 "Return t if custom-print is currently installed, nil otherwise."
289 (eq (symbol-function 'custom-prin1) (symbol-function 'prin1)))
291 (put 'with-custom-print-funcs 'edebug-form-spec '(body))
292 (put 'with-custom-print 'edebug-form-spec '(body))
294 (defalias 'with-custom-print-funcs 'with-custom-print)
295 (defmacro with-custom-print (&rest body)
296 "Temporarily install the custom print package while executing BODY."
297 `(unwind-protect
298 (progn
299 (custom-print-install)
300 ,@body)
301 (custom-print-uninstall)))
304 ;; Lisp replacements for prin1 and princ, and for some subrs that use them
305 ;;===============================================================
306 ;; - so far only the printing and formatting subrs.
308 (defun custom-prin1 (object &optional stream)
309 "Output the printed representation of OBJECT, any Lisp object.
310 Quoting characters are printed when needed to make output that `read'
311 can handle, whenever this is possible.
312 Output stream is STREAM, or value of `standard-output' (which see).
314 This is the custom-print replacement for the standard `prin1'. It
315 uses the appropriate printer depending on the values of `print-level'
316 and `print-circle' (which see)."
317 (cust-print-top-level object stream 'cust-print-original-prin1))
320 (defun custom-princ (object &optional stream)
321 "Output the printed representation of OBJECT, any Lisp object.
322 No quoting characters are used; no delimiters are printed around
323 the contents of strings.
324 Output stream is STREAM, or value of `standard-output' (which see).
326 This is the custom-print replacement for the standard `princ'."
327 (cust-print-top-level object stream 'cust-print-original-princ))
330 (defun custom-prin1-to-string (object &optional noescape)
331 "Return a string containing the printed representation of OBJECT,
332 any Lisp object. Quoting characters are used when needed to make output
333 that `read' can handle, whenever this is possible, unless the optional
334 second argument NOESCAPE is non-nil.
336 This is the custom-print replacement for the standard `prin1-to-string'."
337 (let ((buf (get-buffer-create " *custom-print-temp*")))
338 ;; We must erase the buffer before printing in case an error
339 ;; occurred during the last prin1-to-string and we are in debugger.
340 (save-excursion
341 (set-buffer buf)
342 (erase-buffer))
343 ;; We must be in the current-buffer when the print occurs.
344 (if noescape
345 (custom-princ object buf)
346 (custom-prin1 object buf))
347 (save-excursion
348 (set-buffer buf)
349 (buffer-string)
350 ;; We could erase the buffer again, but why bother?
354 (defun custom-print (object &optional stream)
355 "Output the printed representation of OBJECT, with newlines around it.
356 Quoting characters are printed when needed to make output that `read'
357 can handle, whenever this is possible.
358 Output stream is STREAM, or value of `standard-output' (which see).
360 This is the custom-print replacement for the standard `print'."
361 (cust-print-original-princ "\n" stream)
362 (custom-prin1 object stream)
363 (cust-print-original-princ "\n" stream))
366 (defun custom-format (fmt &rest args)
367 "Format a string out of a control-string and arguments.
368 The first argument is a control string. It, and subsequent arguments
369 substituted into it, become the value, which is a string.
370 It may contain %s or %d or %c to substitute successive following arguments.
371 %s means print an argument as a string, %d means print as number in decimal,
372 %c means print a number as a single character.
373 The argument used by %s must be a string or a symbol;
374 the argument used by %d, %b, %o, %x or %c must be a number.
376 This is the custom-print replacement for the standard `format'. It
377 calls the emacs `format' after first making strings for list,
378 vector, or symbol args. The format specification for such args should
379 be `%s' in any case, so a string argument will also work. The string
380 is generated with `custom-prin1-to-string', which quotes quotable
381 characters."
382 (apply 'cust-print-original-format fmt
383 (mapcar (function (lambda (arg)
384 (if (or (listp arg) (vectorp arg) (symbolp arg))
385 (custom-prin1-to-string arg)
386 arg)))
387 args)))
390 (defun custom-message (fmt &rest args)
391 "Print a one-line message at the bottom of the screen.
392 The first argument is a control string.
393 It may contain %s or %d or %c to print successive following arguments.
394 %s means print an argument as a string, %d means print as number in decimal,
395 %c means print a number as a single character.
396 The argument used by %s must be a string or a symbol;
397 the argument used by %d or %c must be a number.
399 This is the custom-print replacement for the standard `message'.
400 See `custom-format' for the details."
401 ;; It doesn't work to princ the result of custom-format as in:
402 ;; (cust-print-original-princ (apply 'custom-format fmt args))
403 ;; because the echo area requires special handling
404 ;; to avoid duplicating the output.
405 ;; cust-print-original-message does it right.
406 (apply 'cust-print-original-message fmt
407 (mapcar (function (lambda (arg)
408 (if (or (listp arg) (vectorp arg) (symbolp arg))
409 (custom-prin1-to-string arg)
410 arg)))
411 args)))
414 (defun custom-error (fmt &rest args)
415 "Signal an error, making error message by passing all args to `format'.
417 This is the custom-print replacement for the standard `error'.
418 See `custom-format' for the details."
419 (signal 'error (list (apply 'custom-format fmt args))))
423 ;; Support for custom prin1 and princ
424 ;;=========================================
426 ;; Defs to quiet byte-compiler.
427 (defvar circle-table)
428 (defvar cust-print-current-level)
430 (defun cust-print-original-printer (object)) ; One of the standard printers.
431 (defun cust-print-low-level-prin (object)) ; Used internally.
432 (defun cust-print-prin (object)) ; Call this to print recursively.
434 (defun cust-print-top-level (object stream emacs-printer)
435 ;; Set up for printing.
436 (let ((standard-output (or stream standard-output))
437 ;; circle-table will be non-nil if anything is circular.
438 (circle-table (and print-circle
439 (cust-print-preprocess-circle-tree object)))
440 (cust-print-current-level (or print-level -1)))
442 (defalias 'cust-print-original-printer emacs-printer)
443 (defalias 'cust-print-low-level-prin
444 (cond
445 ((or custom-printers
446 circle-table
447 print-level ; comment out for version 19
448 ;; Emacs doesn't use print-level or print-length
449 ;; for vectors, but custom-print can.
450 (if custom-print-vectors
451 (or print-level print-length)))
452 'cust-print-print-object)
453 (t 'cust-print-original-printer)))
454 (defalias 'cust-print-prin
455 (if circle-table 'cust-print-print-circular 'cust-print-low-level-prin))
457 (cust-print-prin object)
458 object))
461 (defun cust-print-print-object (object)
462 ;; Test object type and print accordingly.
463 ;; Could be called as either cust-print-low-level-prin or cust-print-prin.
464 (cond
465 ((null object) (cust-print-original-printer object))
466 ((cust-print-use-custom-printer object) object)
467 ((consp object) (cust-print-list object))
468 ((vectorp object) (cust-print-vector object))
469 ;; All other types, just print.
470 (t (cust-print-original-printer object))))
473 (defun cust-print-print-circular (object)
474 ;; Printer for `prin1' and `princ' that handles circular structures.
475 ;; If OBJECT appears multiply, and has not yet been printed,
476 ;; prefix with label; if it has been printed, use `#N#' instead.
477 ;; Otherwise, print normally.
478 (let ((tag (assq object circle-table)))
479 (if tag
480 (let ((id (cdr tag)))
481 (if (> id 0)
482 (progn
483 ;; Already printed, so just print id.
484 (cust-print-original-princ "#")
485 (cust-print-original-princ id)
486 (cust-print-original-princ "#"))
487 ;; Not printed yet, so label with id and print object.
488 (setcdr tag (- id)) ; mark it as printed
489 (cust-print-original-princ "#")
490 (cust-print-original-princ (- id))
491 (cust-print-original-princ "=")
492 (cust-print-low-level-prin object)
494 ;; Not repeated in structure.
495 (cust-print-low-level-prin object))))
498 ;;================================================
499 ;; List and vector processing for print functions.
501 (defun cust-print-list (list)
502 ;; Print a list using print-length, print-level, and print-circle.
503 (if (= cust-print-current-level 0)
504 (cust-print-original-princ "#")
505 (let ((cust-print-current-level (1- cust-print-current-level)))
506 (cust-print-original-princ "(")
507 (let ((length (or print-length 0)))
509 ;; Print the first element always (even if length = 0).
510 (cust-print-prin (car list))
511 (setq list (cdr list))
512 (if list (cust-print-original-princ " "))
513 (setq length (1- length))
515 ;; Print the rest of the elements.
516 (while (and list (/= 0 length))
517 (if (and (listp list)
518 (not (assq list circle-table)))
519 (progn
520 (cust-print-prin (car list))
521 (setq list (cdr list)))
523 ;; cdr is not a list, or it is in circle-table.
524 (cust-print-original-princ ". ")
525 (cust-print-prin list)
526 (setq list nil))
528 (setq length (1- length))
529 (if list (cust-print-original-princ " ")))
531 (if (and list (= length 0)) (cust-print-original-princ "..."))
532 (cust-print-original-princ ")"))))
533 list)
536 (defun cust-print-vector (vector)
537 ;; Print a vector according to print-length, print-level, and print-circle.
538 (if (= cust-print-current-level 0)
539 (cust-print-original-princ "#")
540 (let ((cust-print-current-level (1- cust-print-current-level))
541 (i 0)
542 (len (length vector)))
543 (cust-print-original-princ "[")
545 (if print-length
546 (setq len (min print-length len)))
547 ;; Print the elements
548 (while (< i len)
549 (cust-print-prin (aref vector i))
550 (setq i (1+ i))
551 (if (< i (length vector)) (cust-print-original-princ " ")))
553 (if (< i (length vector)) (cust-print-original-princ "..."))
554 (cust-print-original-princ "]")
556 vector)
560 ;; Circular structure preprocessing
561 ;;==================================
563 (defun cust-print-preprocess-circle-tree (object)
564 ;; Fill up the table.
565 (let (;; Table of tags for each object in an object to be printed.
566 ;; A tag is of the form:
567 ;; ( <object> <nil-t-or-id-number> )
568 ;; The id-number is generated after the entire table has been computed.
569 ;; During walk through, the real circle-table lives in the cdr so we
570 ;; can use setcdr to add new elements instead of having to setq the
571 ;; variable sometimes (poor man's locf).
572 (circle-table (list nil)))
573 (cust-print-walk-circle-tree object)
575 ;; Reverse table so it is in the order that the objects will be printed.
576 ;; This pass could be avoided if we always added to the end of the
577 ;; table with setcdr in walk-circle-tree.
578 (setcdr circle-table (nreverse (cdr circle-table)))
580 ;; Walk through the table, assigning id-numbers to those
581 ;; objects which will be printed using #N= syntax. Delete those
582 ;; objects which will be printed only once (to speed up assq later).
583 (let ((rest circle-table)
584 (id -1))
585 (while (cdr rest)
586 (let ((tag (car (cdr rest))))
587 (cond ((cdr tag)
588 (setcdr tag id)
589 (setq id (1- id))
590 (setq rest (cdr rest)))
591 ;; Else delete this object.
592 (t (setcdr rest (cdr (cdr rest))))))
594 ;; Drop the car.
595 (cdr circle-table)
600 (defun cust-print-walk-circle-tree (object)
601 (let (read-equivalent-p tag)
602 (while object
603 (setq read-equivalent-p
604 (or (numberp object)
605 (and (symbolp object)
606 ;; Check if it is uninterned.
607 (eq object (intern-soft (symbol-name object)))))
608 tag (and (not read-equivalent-p)
609 (assq object (cdr circle-table))))
610 (cond (tag
611 ;; Seen this object already, so note that.
612 (setcdr tag t))
614 ((not read-equivalent-p)
615 ;; Add a tag for this object.
616 (setcdr circle-table
617 (cons (list object)
618 (cdr circle-table)))))
619 (setq object
620 (cond
621 (tag ;; No need to descend since we have already.
622 nil)
624 ((consp object)
625 ;; Walk the car of the list recursively.
626 (cust-print-walk-circle-tree (car object))
627 ;; But walk the cdr with the above while loop
628 ;; to avoid problems with max-lisp-eval-depth.
629 ;; And it should be faster than recursion.
630 (cdr object))
632 ((vectorp object)
633 ;; Walk the vector.
634 (let ((i (length object))
635 (j 0))
636 (while (< j i)
637 (cust-print-walk-circle-tree (aref object j))
638 (setq j (1+ j))))))))))
641 ;; Example.
642 ;;=======================================
644 '(progn
645 (progn
646 ;; Create some circular structures.
647 (setq circ-sym (let ((x (make-symbol "FOO"))) (list x x)))
648 (setq circ-list (list 'a 'b (vector 1 2 3 4) 'd 'e 'f))
649 (setcar (nthcdr 3 circ-list) circ-list)
650 (aset (nth 2 circ-list) 2 circ-list)
651 (setq dotted-circ-list (list 'a 'b 'c))
652 (setcdr (cdr (cdr dotted-circ-list)) dotted-circ-list)
653 (setq circ-vector (vector 1 2 3 4 (list 'a 'b 'c 'd) 6 7))
654 (aset circ-vector 5 (make-symbol "-gensym-"))
655 (setcar (cdr (aref circ-vector 4)) (aref circ-vector 5))
656 nil)
658 (install-custom-print)
659 ;; (setq print-circle t)
661 (let ((print-circle t))
662 (or (equal (prin1-to-string circ-list) "#1=(a b [1 2 #1# 4] #1# e f)")
663 (error "circular object with array printing")))
665 (let ((print-circle t))
666 (or (equal (prin1-to-string dotted-circ-list) "#1=(a b c . #1#)")
667 (error "circular object with array printing")))
669 (let* ((print-circle t)
670 (x (list 'p 'q))
671 (y (list (list 'a 'b) x 'foo x)))
672 (setcdr (cdr (cdr (cdr y))) (cdr y))
673 (or (equal (prin1-to-string y) "((a b) . #1=(#2=(p q) foo #2# . #1#))"
675 (error "circular list example from CL manual")))
677 (let ((print-circle nil))
678 ;; cl-packages.el is required to print uninterned symbols like #:FOO.
679 ;; (require 'cl-packages)
680 (or (equal (prin1-to-string circ-sym) "(#:FOO #:FOO)")
681 (error "uninterned symbols in list")))
682 (let ((print-circle t))
683 (or (equal (prin1-to-string circ-sym) "(#1=FOO #1#)")
684 (error "circular uninterned symbols in list")))
686 (uninstall-custom-print)
689 (provide 'cust-print)
691 ;;; cust-print.el ends here