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mirror of https://git.savannah.gnu.org/git/emacs.git synced 2024-12-15 09:47:20 +00:00
emacs/lisp/obsolete/cust-print.el
Stefan Monnier 79d585c2be * lisp/obsolete: Use lexical-binding
Use lexical-binding in all the lisp/obsolete/*.el files.
While at it, removed redundant :group arguments and used #' to quote
functions.  Commented out the key bindings which the #' revealed
to lead to non-existing commands, and replaced those revealed to be obsolete.

* lisp/obsolete/cl-compat.el: Use cl-lib.

* lisp/obsolete/cust-print.el: Assume `defalias` exists.
(with-custom-print): Use `declare`.

* lisp/obsolete/iswitchb.el (iswitchb-init-XEmacs-trick)
(iswitchb-xemacs-backspacekey): Remove functions.

* lisp/obsolete/landmark.el (landmark, landmark-nslify-wts):
Prefer `apply` to `eval`.

* lisp/obsolete/longlines.el (longlines-mode): Don't use `add-to-list`
on a hook.

* lisp/obsolete/pgg-gpg.el (pgg-gpg-process-region): Use `clear-string`.

* lisp/obsolete/pgg-pgp.el (pgg-pgp-encrypt-region): Remove oddly
unused var `passphrase`.
(pgg-pgp-verify-region): Declare var `jam-zcat-filename-list`.

* lisp/obsolete/pgg-pgp5.el (pgg-pgp5-encrypt-region): Remove oddly
unused var `passphrase`.
(pgg-pgp5-verify-region): Declare var `jam-zcat-filename-list`.

* lisp/obsolete/pgg.el: Remove some XEmacs compatibility code.
(pgg-run-at-time, pgg-cancel-timer, pgg-clear-string): Remove functions.
Use their core equivalent instead.

* lisp/obsolete/rcompile.el (remote-compile): Remove unused vars `l`,
`l-host`, `l-user`, and `localname`.

* lisp/obsolete/starttls.el (starttls-any-program-available):
Use `define-obsolete-function-alias`.

* lisp/obsolete/tls.el (tls-format-message): Delete function, use
`format-message` instead.

* lisp/obsolete/url-ns.el (url-ns-prefs): Use `with-current-buffer`
and `dlet`.

* lisp/obsolete/vip.el (vip-escape-to-emacs): Remove unused var `key`.
(vip-command-argument, vip-read-string, ex-delete, ex-line): Remove
unused var `conditions`.
(ex-map): Use a closure instead of `eval`.
(ex-set): Make it an alias of `set-variable`.
(ex-substitute): Remove unused var `cont`.

* lisp/obsolete/abbrevlist.el:
* lisp/obsolete/bruce.el:
* lisp/obsolete/cc-compat.el:
* lisp/obsolete/cl-compat.el:
* lisp/obsolete/cl.el:
* lisp/obsolete/complete.el:
* lisp/obsolete/crisp.el:
* lisp/obsolete/cust-print.el:
* lisp/obsolete/erc-compat.el:
* lisp/obsolete/erc-hecomplete.el:
* lisp/obsolete/eudcb-ph.el:
* lisp/obsolete/fast-lock.el:
* lisp/obsolete/gs.el:
* lisp/obsolete/gulp.el:
* lisp/obsolete/html2text.el:
* lisp/obsolete/info-edit.el:
* lisp/obsolete/iswitchb.el:
* lisp/obsolete/landmark.el:
* lisp/obsolete/lazy-lock.el:
* lisp/obsolete/longlines.el:
* lisp/obsolete/mailpost.el:
* lisp/obsolete/mantemp.el:
* lisp/obsolete/meese.el:
* lisp/obsolete/messcompat.el:
* lisp/obsolete/metamail.el:
* lisp/obsolete/mouse-sel.el:
* lisp/obsolete/nnir.el:
* lisp/obsolete/old-emacs-lock.el:
* lisp/obsolete/otodo-mode.el:
* lisp/obsolete/patcomp.el:
* lisp/obsolete/pc-mode.el:
* lisp/obsolete/pc-select.el:
* lisp/obsolete/pgg-def.el:
* lisp/obsolete/pgg-gpg.el:
* lisp/obsolete/pgg-parse.el:
* lisp/obsolete/pgg-pgp.el:
* lisp/obsolete/pgg-pgp5.el:
* lisp/obsolete/pgg.el:
* lisp/obsolete/rcompile.el:
* lisp/obsolete/s-region.el:
* lisp/obsolete/sb-image.el:
* lisp/obsolete/sregex.el:
* lisp/obsolete/starttls.el:
* lisp/obsolete/sup-mouse.el:
* lisp/obsolete/terminal.el:
* lisp/obsolete/tls.el:
* lisp/obsolete/tpu-edt.el:
* lisp/obsolete/tpu-extras.el:
* lisp/obsolete/tpu-mapper.el:
* lisp/obsolete/url-ns.el:
* lisp/obsolete/vc-arch.el:
* lisp/obsolete/vi.el:
* lisp/obsolete/vip.el:
* lisp/obsolete/ws-mode.el:
* lisp/obsolete/yow.el: Use lexical-binding.
2021-02-22 16:54:59 -05:00

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;;; cust-print.el --- handles print-level and print-circle -*- lexical-binding: t; -*-
;; Copyright (C) 1992, 2001-2021 Free Software Foundation, Inc.
;; Author: Daniel LaLiberte <liberte@holonexus.org>
;; Adapted-By: ESR
;; Keywords: extensions
;; Obsolete-since: 24.3
;; LCD Archive Entry:
;; cust-print|Daniel LaLiberte|liberte@holonexus.org
;; |Handle print-level, print-circle and more.
;; This file is part of GNU Emacs.
;; GNU Emacs is free software: you can redistribute it and/or modify
;; it under the terms of the GNU General Public License as published by
;; the Free Software Foundation, either version 3 of the License, or
;; (at your option) any later version.
;; GNU Emacs is distributed in the hope that it will be useful,
;; but WITHOUT ANY WARRANTY; without even the implied warranty of
;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
;; GNU General Public License for more details.
;; You should have received a copy of the GNU General Public License
;; along with GNU Emacs. If not, see <https://www.gnu.org/licenses/>.
;;; Commentary:
;; This package provides a general print handler for prin1 and princ
;; that supports print-level and print-circle, and by the way,
;; print-length since the standard routines are being replaced. Also,
;; to print custom types constructed from lists and vectors, use
;; custom-print-list and custom-print-vector. See the documentation
;; strings of these variables for more details.
;; If the results of your expressions contain circular references to
;; other parts of the same structure, the standard Emacs print
;; subroutines may fail to print with an untrappable error,
;; "Apparently circular structure being printed". If you only use cdr
;; circular lists (where cdrs of lists point back; what is the right
;; term here?), you can limit the length of printing with
;; print-length. But car circular lists and circular vectors generate
;; the above mentioned error in Emacs version 18. Version
;; 19 supports print-level, but it is often useful to get a better
;; print representation of circular and shared structures; the print-circle
;; option may be used to print more concise representations.
;; There are three main ways to use this package. First, you may
;; replace prin1, princ, and some subroutines that use them by calling
;; install-custom-print so that any use of these functions in
;; Lisp code will be affected; you can later reset with
;; uninstall-custom-print. Second, you may temporarily install
;; these functions with the macro with-custom-print. Third, you
;; could call the custom routines directly, thus only affecting the
;; printing that requires them.
;; Note that subroutines which call print subroutines directly will
;; not use the custom print functions. In particular, the evaluation
;; functions like eval-region call the print subroutines directly.
;; Therefore, if you evaluate (aref circ-list 0), where circ-list is a
;; circular list rather than an array, aref calls error directly which
;; will jump to the top level instead of printing the circular list.
;; Uninterned symbols are recognized when print-circle is non-nil,
;; but they are not printed specially here. Use the cl-packages package
;; to print according to print-gensym.
;; Obviously the right way to implement this custom-print facility is
;; in C or with hooks into the standard printer. Please volunteer
;; since I don't have the time or need. More CL-like printing
;; capabilities could be added in the future.
;; Implementation design: we want to use the same list and vector
;; processing algorithm for all versions of prin1 and princ, since how
;; the processing is done depends on print-length, print-level, and
;; print-circle. For circle printing, a preprocessing step is
;; required before the final printing. Thanks to Jamie Zawinski
;; for motivation and algorithms.
;;; Code:
(defgroup cust-print nil
"Handles print-level and print-circle."
:prefix "print-"
:group 'lisp
:group 'extensions)
;; If using cl-packages:
'(defpackage "cust-print"
(:nicknames "CP" "custom-print")
(:use "el")
(:export
print-level
print-circle
custom-print-install
custom-print-uninstall
custom-print-installed-p
with-custom-print
custom-prin1
custom-princ
custom-prin1-to-string
custom-print
custom-format
custom-message
custom-error
custom-printers
add-custom-printer
))
'(in-package cust-print)
;; Emacs 18 doesn't have defalias.
;; Provide def for byte compiler.
;; Variables:
;;=========================================================
;;(defvar print-length nil
;; "*Controls how many elements of a list, at each level, are printed.
;;This is defined by emacs.")
(defcustom print-level nil
"Controls how many levels deep a nested data object will print.
If nil, printing proceeds recursively and may lead to
max-lisp-eval-depth being exceeded or an error may occur:
`Apparently circular structure being printed.'
Also see `print-length' and `print-circle'.
If non-nil, components at levels equal to or greater than `print-level'
are printed simply as `#'. The object to be printed is at level 0,
and if the object is a list or vector, its top-level components are at
level 1."
:type '(choice (const nil) integer))
(defcustom print-circle nil
"Controls the printing of recursive structures.
If nil, printing proceeds recursively and may lead to
`max-lisp-eval-depth' being exceeded or an error may occur:
\"Apparently circular structure being printed.\" Also see
`print-length' and `print-level'.
If non-nil, shared substructures anywhere in the structure are printed
with `#N=' before the first occurrence (in the order of the print
representation) and `#N#' in place of each subsequent occurrence,
where N is a positive decimal integer."
:type 'boolean)
(defcustom custom-print-vectors nil
"Non-nil if printing of vectors should obey `print-level' and `print-length'."
:type 'boolean)
;; Custom printers
;;==========================================================
(defvar custom-printers nil
;; e.g. '((symbolp . pkg::print-symbol))
"An alist for custom printing of any type.
Pairs are of the form (PREDICATE . PRINTER). If PREDICATE is true
for an object, then PRINTER is called with the object.
PRINTER should print to `standard-output' using cust-print-original-princ
if the standard printer is sufficient, or cust-print-prin for complex things.
The PRINTER should return the object being printed.
Don't modify this variable directly. Use `add-custom-printer' and
`delete-custom-printer'")
;; Should cust-print-original-princ and cust-print-prin be exported symbols?
;; Or should the standard printers functions be replaced by
;; CP ones in Emacs Lisp so that CP internal functions need not be called?
(defun add-custom-printer (pred printer)
"Add a pair of PREDICATE and PRINTER to `custom-printers'.
Any pair that has the same PREDICATE is first removed."
(setq custom-printers (cons (cons pred printer)
(delq (assq pred custom-printers)
custom-printers)))
;; Rather than updating here, we could wait until cust-print-top-level is called.
(cust-print-update-custom-printers))
(defun delete-custom-printer (pred)
"Delete the custom printer associated with PREDICATE."
(setq custom-printers (delq (assq pred custom-printers)
custom-printers))
(cust-print-update-custom-printers))
(defun cust-print-use-custom-printer (_object)
;; Default function returns nil.
nil)
(defun cust-print-update-custom-printers ()
;; Modify the definition of cust-print-use-custom-printer
(defalias 'cust-print-use-custom-printer
;; We don't really want to require the byte-compiler.
;; (byte-compile
`(lambda (object)
(cond
,@(mapcar (function
(lambda (pair)
`((,(car pair) object)
(,(cdr pair) object))))
custom-printers)
;; Otherwise return nil.
(t nil)
))
;; )
))
;; Saving and restoring emacs printing routines.
;;====================================================
(defun cust-print-set-function-cell (symbol-pair)
(defalias (car symbol-pair)
(symbol-function (car (cdr symbol-pair)))))
(defun cust-print-original-princ (_object &optional _stream) nil) ; dummy def
;; Save emacs routines.
(if (not (fboundp 'cust-print-original-prin1))
(mapc #'cust-print-set-function-cell
'((cust-print-original-prin1 prin1)
(cust-print-original-princ princ)
(cust-print-original-print print)
(cust-print-original-prin1-to-string prin1-to-string)
(cust-print-original-format format)
(cust-print-original-message message)
(cust-print-original-error error))))
(declare-function cust-print-original-format "cust-print")
(declare-function cust-print-original-message "cust-print")
(defun custom-print-install ()
"Replace print functions with general, customizable, Lisp versions.
The Emacs subroutines are saved away, and you can reinstall them
by running `custom-print-uninstall'."
(interactive)
(mapc #'cust-print-set-function-cell
'((prin1 custom-prin1)
(princ custom-princ)
(print custom-print)
(prin1-to-string custom-prin1-to-string)
(format custom-format)
(message custom-message)
(error custom-error)
))
t)
(defun custom-print-uninstall ()
"Reset print functions to their Emacs subroutines."
(interactive)
(mapc #'cust-print-set-function-cell
'((prin1 cust-print-original-prin1)
(princ cust-print-original-princ)
(print cust-print-original-print)
(prin1-to-string cust-print-original-prin1-to-string)
(format cust-print-original-format)
(message cust-print-original-message)
(error cust-print-original-error)
))
t)
(defalias 'custom-print-funcs-installed-p #'custom-print-installed-p)
(defun custom-print-installed-p ()
"Return t if custom-print is currently installed, nil otherwise."
(eq (symbol-function 'custom-prin1) (symbol-function 'prin1)))
(defmacro with-custom-print (&rest body)
"Temporarily install the custom print package while executing BODY."
(declare (debug t))
`(unwind-protect
(progn
(custom-print-install)
,@body)
(custom-print-uninstall)))
(defalias 'with-custom-print-funcs #'with-custom-print)
;; Lisp replacements for prin1 and princ, and for some subrs that use them
;;===============================================================
;; - so far only the printing and formatting subrs.
(defun custom-prin1 (object &optional stream)
"Output the printed representation of OBJECT, any Lisp object.
Quoting characters are printed when needed to make output that `read'
can handle, whenever this is possible.
Output stream is STREAM, or value of `standard-output' (which see).
This is the custom-print replacement for the standard `prin1'. It
uses the appropriate printer depending on the values of `print-level'
and `print-circle' (which see)."
(cust-print-top-level object stream 'cust-print-original-prin1))
(defun custom-princ (object &optional stream)
"Output the printed representation of OBJECT, any Lisp object.
No quoting characters are used; no delimiters are printed around
the contents of strings.
Output stream is STREAM, or value of `standard-output' (which see).
This is the custom-print replacement for the standard `princ'."
(cust-print-top-level object stream 'cust-print-original-princ))
(defun custom-prin1-to-string (object &optional noescape)
"Return a string containing the printed representation of OBJECT,
any Lisp object. Quoting characters are used when needed to make output
that `read' can handle, whenever this is possible, unless the optional
second argument NOESCAPE is non-nil.
This is the custom-print replacement for the standard `prin1-to-string'."
(let ((buf (get-buffer-create " *custom-print-temp*")))
;; We must erase the buffer before printing in case an error
;; occurred during the last prin1-to-string and we are in debugger.
(with-current-buffer buf
(erase-buffer))
;; We must be in the current-buffer when the print occurs.
(if noescape
(custom-princ object buf)
(custom-prin1 object buf))
(with-current-buffer buf
(buffer-string)
;; We could erase the buffer again, but why bother?
)))
(defun custom-print (object &optional stream)
"Output the printed representation of OBJECT, with newlines around it.
Quoting characters are printed when needed to make output that `read'
can handle, whenever this is possible.
Output stream is STREAM, or value of `standard-output' (which see).
This is the custom-print replacement for the standard `print'."
(cust-print-original-princ "\n" stream)
(custom-prin1 object stream)
(cust-print-original-princ "\n" stream))
(defun custom-format (fmt &rest args)
"Format a string out of a control-string and arguments.
The first argument is a control string. It, and subsequent arguments
substituted into it, become the value, which is a string.
It may contain %s or %d or %c to substitute successive following arguments.
%s means print an argument as a string, %d means print as number in decimal,
%c means print a number as a single character.
The argument used by %s must be a string or a symbol;
the argument used by %d, %b, %o, %x or %c must be a number.
This is the custom-print replacement for the standard `format'. It
calls the Emacs `format' after first making strings for list,
vector, or symbol args. The format specification for such args should
be `%s' in any case, so a string argument will also work. The string
is generated with `custom-prin1-to-string', which quotes quotable
characters."
(apply #'cust-print-original-format fmt
(mapcar (function (lambda (arg)
(if (or (listp arg) (vectorp arg) (symbolp arg))
(custom-prin1-to-string arg)
arg)))
args)))
(defun custom-message (fmt &rest args)
"Print a one-line message at the bottom of the screen.
The first argument is a control string.
It may contain %s or %d or %c to print successive following arguments.
%s means print an argument as a string, %d means print as number in decimal,
%c means print a number as a single character.
The argument used by %s must be a string or a symbol;
the argument used by %d or %c must be a number.
This is the custom-print replacement for the standard `message'.
See `custom-format' for the details."
;; It doesn't work to princ the result of custom-format as in:
;; (cust-print-original-princ (apply 'custom-format fmt args))
;; because the echo area requires special handling
;; to avoid duplicating the output.
;; cust-print-original-message does it right.
(apply #'cust-print-original-message fmt
(mapcar (function (lambda (arg)
(if (or (listp arg) (vectorp arg) (symbolp arg))
(custom-prin1-to-string arg)
arg)))
args)))
(defun custom-error (fmt &rest args)
"Signal an error, making error message by passing all args to `format'.
This is the custom-print replacement for the standard `error'.
See `custom-format' for the details."
(signal 'error (list (apply #'custom-format fmt args))))
;; Support for custom prin1 and princ
;;=========================================
;; Defs to quiet byte-compiler.
(defvar circle-table)
(defvar cust-print-current-level)
(defun cust-print-original-printer (_object) nil) ; One of the standard printers.
(defun cust-print-low-level-prin (_object) nil) ; Used internally.
(defun cust-print-prin (_object) nil) ; Call this to print recursively.
(defun cust-print-top-level (object stream emacs-printer)
;; Set up for printing.
(let ((standard-output (or stream standard-output))
;; circle-table will be non-nil if anything is circular.
(circle-table (and print-circle
(cust-print-preprocess-circle-tree object)))
(cust-print-current-level (or print-level -1)))
(defalias 'cust-print-original-printer emacs-printer)
(defalias 'cust-print-low-level-prin
(cond
((or custom-printers
circle-table
print-level ; comment out for version 19
;; Emacs doesn't use print-level or print-length
;; for vectors, but custom-print can.
(if custom-print-vectors
(or print-level print-length)))
'cust-print-print-object)
(t 'cust-print-original-printer)))
(defalias 'cust-print-prin
(if circle-table 'cust-print-print-circular 'cust-print-low-level-prin))
(cust-print-prin object)
object))
(defun cust-print-print-object (object)
;; Test object type and print accordingly.
;; Could be called as either cust-print-low-level-prin or cust-print-prin.
(cond
((null object) (cust-print-original-printer object))
((cust-print-use-custom-printer object) object)
((consp object) (cust-print-list object))
((vectorp object) (cust-print-vector object))
;; All other types, just print.
(t (cust-print-original-printer object))))
(defun cust-print-print-circular (object)
;; Printer for `prin1' and `princ' that handles circular structures.
;; If OBJECT appears multiply, and has not yet been printed,
;; prefix with label; if it has been printed, use `#N#' instead.
;; Otherwise, print normally.
(let ((tag (assq object circle-table)))
(if tag
(let ((id (cdr tag)))
(if (> id 0)
(progn
;; Already printed, so just print id.
(cust-print-original-princ "#")
(cust-print-original-princ id)
(cust-print-original-princ "#"))
;; Not printed yet, so label with id and print object.
(setcdr tag (- id)) ; mark it as printed
(cust-print-original-princ "#")
(cust-print-original-princ (- id))
(cust-print-original-princ "=")
(cust-print-low-level-prin object)
))
;; Not repeated in structure.
(cust-print-low-level-prin object))))
;;================================================
;; List and vector processing for print functions.
(defun cust-print-list (list)
;; Print a list using print-length, print-level, and print-circle.
(if (= cust-print-current-level 0)
(cust-print-original-princ "#")
(let ((cust-print-current-level (1- cust-print-current-level)))
(cust-print-original-princ "(")
(let ((length (or print-length 0)))
;; Print the first element always (even if length = 0).
(cust-print-prin (car list))
(setq list (cdr list))
(if list (cust-print-original-princ " "))
(setq length (1- length))
;; Print the rest of the elements.
(while (and list (/= 0 length))
(if (and (listp list)
(not (assq list circle-table)))
(progn
(cust-print-prin (car list))
(setq list (cdr list)))
;; cdr is not a list, or it is in circle-table.
(cust-print-original-princ ". ")
(cust-print-prin list)
(setq list nil))
(setq length (1- length))
(if list (cust-print-original-princ " ")))
(if (and list (= length 0)) (cust-print-original-princ "..."))
(cust-print-original-princ ")"))))
list)
(defun cust-print-vector (vector)
;; Print a vector according to print-length, print-level, and print-circle.
(if (= cust-print-current-level 0)
(cust-print-original-princ "#")
(let ((cust-print-current-level (1- cust-print-current-level))
(i 0)
(len (length vector)))
(cust-print-original-princ "[")
(if print-length
(setq len (min print-length len)))
;; Print the elements
(while (< i len)
(cust-print-prin (aref vector i))
(setq i (1+ i))
(if (< i (length vector)) (cust-print-original-princ " ")))
(if (< i (length vector)) (cust-print-original-princ "..."))
(cust-print-original-princ "]")
))
vector)
;; Circular structure preprocessing
;;==================================
(defun cust-print-preprocess-circle-tree (object)
;; Fill up the table.
(let (;; Table of tags for each object in an object to be printed.
;; A tag is of the form:
;; ( <object> <nil-t-or-id-number> )
;; The id-number is generated after the entire table has been computed.
;; During walk through, the real circle-table lives in the cdr so we
;; can use setcdr to add new elements instead of having to setq the
;; variable sometimes (poor man's locf).
(circle-table (list nil)))
(cust-print-walk-circle-tree object)
;; Reverse table so it is in the order that the objects will be printed.
;; This pass could be avoided if we always added to the end of the
;; table with setcdr in walk-circle-tree.
(setcdr circle-table (nreverse (cdr circle-table)))
;; Walk through the table, assigning id-numbers to those
;; objects which will be printed using #N= syntax. Delete those
;; objects which will be printed only once (to speed up assq later).
(let ((rest circle-table)
(id -1))
(while (cdr rest)
(let ((tag (car (cdr rest))))
(cond ((cdr tag)
(setcdr tag id)
(setq id (1- id))
(setq rest (cdr rest)))
;; Else delete this object.
(t (setcdr rest (cdr (cdr rest))))))
))
;; Drop the car.
(cdr circle-table)
))
(defun cust-print-walk-circle-tree (object)
(let (read-equivalent-p tag)
(while object
(setq read-equivalent-p
(or (numberp object)
(and (symbolp object)
;; Check if it is uninterned.
(eq object (intern-soft (symbol-name object)))))
tag (and (not read-equivalent-p)
(assq object (cdr circle-table))))
(cond (tag
;; Seen this object already, so note that.
(setcdr tag t))
((not read-equivalent-p)
;; Add a tag for this object.
(setcdr circle-table
(cons (list object)
(cdr circle-table)))))
(setq object
(cond
(tag ;; No need to descend since we have already.
nil)
((consp object)
;; Walk the car of the list recursively.
(cust-print-walk-circle-tree (car object))
;; But walk the cdr with the above while loop
;; to avoid problems with max-lisp-eval-depth.
;; And it should be faster than recursion.
(cdr object))
((vectorp object)
;; Walk the vector.
(let ((i (length object))
(j 0))
(while (< j i)
(cust-print-walk-circle-tree (aref object j))
(setq j (1+ j))))))))))
;; Example.
;;=======================================
'(progn
(progn
;; Create some circular structures.
(setq circ-sym (let ((x (make-symbol "FOO"))) (list x x)))
(setq circ-list (list 'a 'b (vector 1 2 3 4) 'd 'e 'f))
(setcar (nthcdr 3 circ-list) circ-list)
(aset (nth 2 circ-list) 2 circ-list)
(setq dotted-circ-list (list 'a 'b 'c))
(setcdr (cdr (cdr dotted-circ-list)) dotted-circ-list)
(setq circ-vector (vector 1 2 3 4 (list 'a 'b 'c 'd) 6 7))
(aset circ-vector 5 (make-symbol "-gensym-"))
(setcar (cdr (aref circ-vector 4)) (aref circ-vector 5))
nil)
(install-custom-print)
;; (setq print-circle t)
(let ((print-circle t))
(or (equal (prin1-to-string circ-list) "#1=(a b [1 2 #1# 4] #1# e f)")
(error "circular object with array printing")))
(let ((print-circle t))
(or (equal (prin1-to-string dotted-circ-list) "#1=(a b c . #1#)")
(error "circular object with array printing")))
(let* ((print-circle t)
(x (list 'p 'q))
(y (list (list 'a 'b) x 'foo x)))
(setcdr (cdr (cdr (cdr y))) (cdr y))
(or (equal (prin1-to-string y) "((a b) . #1=(#2=(p q) foo #2# . #1#))"
)
(error "circular list example from CL manual")))
(let ((print-circle nil))
;; cl-packages.el is required to print uninterned symbols like #:FOO.
;; (require 'cl-packages)
(or (equal (prin1-to-string circ-sym) "(#:FOO #:FOO)")
(error "uninterned symbols in list")))
(let ((print-circle t))
(or (equal (prin1-to-string circ-sym) "(#1=FOO #1#)")
(error "circular uninterned symbols in list")))
(uninstall-custom-print)
)
(provide 'cust-print)
;;; cust-print.el ends here