From mboxrd@z Thu Jan 1 00:00:00 1970 Path: news.gmane.org!.POSTED.blaine.gmane.org!not-for-mail From: Stefan Monnier Newsgroups: gmane.emacs.bugs Subject: bug#35191: 27.0.50; Error signaled by undo--wrap-and-run-primitive-undo Date: Mon, 08 Apr 2019 08:57:56 -0400 Message-ID: Mime-Version: 1.0 Content-Type: multipart/mixed; boundary="=-=-=" Injection-Info: blaine.gmane.org; posting-host="blaine.gmane.org:195.159.176.226"; logging-data="162325"; mail-complaints-to="usenet@blaine.gmane.org" To: 35191@debbugs.gnu.org Original-X-From: bug-gnu-emacs-bounces+geb-bug-gnu-emacs=m.gmane.org@gnu.org Mon Apr 08 14:59:16 2019 Return-path: Envelope-to: geb-bug-gnu-emacs@m.gmane.org Original-Received: from lists.gnu.org ([209.51.188.17]) by blaine.gmane.org with esmtps (TLS1.0:RSA_AES_256_CBC_SHA1:256) (Exim 4.89) (envelope-from ) id 1hDTrn-000g2y-93 for geb-bug-gnu-emacs@m.gmane.org; Mon, 08 Apr 2019 14:59:15 +0200 Original-Received: from localhost ([127.0.0.1]:52711 helo=lists.gnu.org) by lists.gnu.org with esmtp (Exim 4.71) (envelope-from ) id 1hDTrm-0000H9-B5 for geb-bug-gnu-emacs@m.gmane.org; Mon, 08 Apr 2019 08:59:14 -0400 Original-Received: from eggs.gnu.org ([209.51.188.92]:35100) by lists.gnu.org with esmtp (Exim 4.71) (envelope-from ) id 1hDTre-0000F1-Qs for bug-gnu-emacs@gnu.org; Mon, 08 Apr 2019 08:59:07 -0400 Original-Received: from Debian-exim by eggs.gnu.org with spam-scanned (Exim 4.71) (envelope-from ) id 1hDTrb-0004Jn-Us for bug-gnu-emacs@gnu.org; Mon, 08 Apr 2019 08:59:06 -0400 Original-Received: from debbugs.gnu.org ([209.51.188.43]:35540) by eggs.gnu.org with esmtps (TLS1.0:RSA_AES_128_CBC_SHA1:16) (Exim 4.71) (envelope-from ) id 1hDTra-0004JV-9Q for bug-gnu-emacs@gnu.org; Mon, 08 Apr 2019 08:59:03 -0400 Original-Received: from Debian-debbugs by debbugs.gnu.org with local (Exim 4.84_2) (envelope-from ) id 1hDTra-00009y-6B for bug-gnu-emacs@gnu.org; Mon, 08 Apr 2019 08:59:02 -0400 X-Loop: help-debbugs@gnu.org Resent-From: Stefan Monnier Original-Sender: "Debbugs-submit" Resent-CC: bug-gnu-emacs@gnu.org Resent-Date: Mon, 08 Apr 2019 12:59:01 +0000 Resent-Message-ID: Resent-Sender: help-debbugs@gnu.org X-GNU-PR-Message: report 35191 X-GNU-PR-Package: emacs X-Debbugs-Original-To: bug-gnu-emacs@gnu.org Original-Received: via spool by submit@debbugs.gnu.org id=B.1554728297554 (code B ref -1); Mon, 08 Apr 2019 12:59:01 +0000 Original-Received: (at submit) by debbugs.gnu.org; 8 Apr 2019 12:58:17 +0000 Original-Received: from localhost ([127.0.0.1]:49085 helo=debbugs.gnu.org) by debbugs.gnu.org with esmtp (Exim 4.84_2) (envelope-from ) id 1hDTqr-00008s-3n for submit@debbugs.gnu.org; Mon, 08 Apr 2019 08:58:17 -0400 Original-Received: from eggs.gnu.org ([209.51.188.92]:48796) by debbugs.gnu.org with esmtp (Exim 4.84_2) (envelope-from ) id 1hDTqp-00008f-6l for submit@debbugs.gnu.org; Mon, 08 Apr 2019 08:58:15 -0400 Original-Received: from lists.gnu.org ([209.51.188.17]:40607) by eggs.gnu.org with esmtps (TLS1.0:RSA_AES_256_CBC_SHA1:32) (Exim 4.71) (envelope-from ) id 1hDTqh-00040f-UU for submit@debbugs.gnu.org; Mon, 08 Apr 2019 08:58:08 -0400 Original-Received: from eggs.gnu.org ([209.51.188.92]:34923) by lists.gnu.org with esmtp (Exim 4.71) (envelope-from ) id 1hDTqg-0008Lu-JE for bug-gnu-emacs@gnu.org; Mon, 08 Apr 2019 08:58:07 -0400 Original-Received: from Debian-exim by eggs.gnu.org with spam-scanned (Exim 4.71) (envelope-from ) id 1hDTqd-0003yh-Ia for bug-gnu-emacs@gnu.org; Mon, 08 Apr 2019 08:58:06 -0400 Original-Received: from pruche.dit.umontreal.ca ([132.204.246.22]:40187) by eggs.gnu.org with esmtp (Exim 4.71) (envelope-from ) id 1hDTqb-0003xP-1U for bug-gnu-emacs@gnu.org; Mon, 08 Apr 2019 08:58:03 -0400 Original-Received: from pastel.home (lechon.iro.umontreal.ca [132.204.27.242]) by pruche.dit.umontreal.ca (8.14.7/8.14.1) with ESMTP id x38Cvvj3005273 for ; Mon, 8 Apr 2019 08:57:57 -0400 Original-Received: by pastel.home (Postfix, from userid 20848) id 1403B67F53; Mon, 8 Apr 2019 08:57:57 -0400 (EDT) X-NAI-Spam-Flag: NO X-NAI-Spam-Threshold: 5 X-NAI-Spam-Score: 0.9 X-NAI-Spam-Rules: 5 Rules triggered BEC_TRC1=0.4, BEC_TRC1_W_GEN_SPAM_FEATRE=0.4, GEN_SPAM_FEATRE=0.1, EDT_SA_DN_PASS=0, RV6520=0 X-NAI-Spam-Version: 2.3.0.9418 : core <6520> : inlines <7048> : streams <1818064> : uri <2828301> X-detected-operating-system: by eggs.gnu.org: Genre and OS details not recognized. X-detected-operating-system: by eggs.gnu.org: GNU/Linux 2.6.x X-BeenThere: debbugs-submit@debbugs.gnu.org X-Mailman-Version: 2.1.18 Precedence: list X-detected-operating-system: by eggs.gnu.org: GNU/Linux 2.2.x-3.x [generic] X-Received-From: 209.51.188.43 X-BeenThere: bug-gnu-emacs@gnu.org List-Id: "Bug reports for GNU Emacs, the Swiss army knife of text editors" List-Unsubscribe: , List-Archive: List-Post: List-Help: List-Subscribe: , Errors-To: bug-gnu-emacs-bounces+geb-bug-gnu-emacs=m.gmane.org@gnu.org Original-Sender: "bug-gnu-emacs" Xref: news.gmane.org gmane.emacs.bugs:157345 Archived-At: --=-=-= Content-Type: text/plain Package: Emacs Version: 27.0.50 Save the file below and then open it as follows: % emacs -Q ..../zones.el C-M-f C-M-b ;; Move before first form C-M-SPC M-; ;; Comment out first form C-x u ;; Undo last change When I do that, I see an error message in the echo area that says: Changes to be undone by function different than announced If I redo this after enabling the debugger on error, I get the following backtrace: Debugger entered--Lisp error: (error "Changes to be undone by function different than an...") signal(error ("Changes to be undone by function different than an...")) error("Changes to be undone by function different than an...") primitive-undo(1 ((apply -4 44189 44226 undo--wrap-and-run-primitive-undo 44189 44226 ((44189 . 44192) (#(" " 0 1 (fontified t)) . -44223) (# . 1) (44222 . 44223) 44189)) nil (apply 3 44189 44223 undo--wrap-and-run-primitive-undo 44189 44223 ((#("\n" 0 1 (face font-lock-comment-face fontified t)) . 44222) (44223 . 44224) (#(";; " 0 3 (face font-lock-comment-delimiter-face fontified t)) . 44189))) nil (apply -4 44189 44226 undo--wrap-and-run-primitive-undo 44189 44226 ((44189 . 44192) (#(" " 0 1 (fontified t)) . -44223) (# . 1) (44222 . 44223) 44189)) (t 23723 17250 171044 280000))) undo-more(1) undo(nil) funcall-interactively(undo nil) call-interactively(undo nil nil) command-execute(undo) --=-=-= Content-Type: application/emacs-lisp Content-Disposition: attachment; filename=zones.el Content-Transfer-Encoding: quoted-printable ;;; zones.el --- Zones of text - like multiple regions ;; ;; Copyright (C) 2010-2019 Free Software Foundation, Inc. ;; ;; Filename: zones.el ;; Description: Zones of text - like multiple regions ;; Author: Drew Adams ;; Maintainer: Drew Adams ;; Created: Sun Apr 18 12:58:07 2010 (-0700) ;; Version: 2019.4.7 ;; Package-Requires: () ;; Last-Updated: Sun Apr 7 17:13:06 2019 (-0700) ;; By: dradams ;; Update #: 3122 ;; URL: https://elpa.gnu.org/packages/zones.html ;; URL: https://www.emacswiki.org/emacs/download/zones.el ;; Doc URL: https://www.emacswiki.org/emacs/Zones ;; Doc URL: https://www.emacswiki.org/emacs/MultipleNarrowings ;; Keywords: narrow restriction widen region zone ;; Compatibility: GNU Emacs 22.x, 23.x, 24.x, 25.x, 26.x ;; ;; Features that might be required by this library: ;; ;; `backquote', `bytecomp', `cl'. ;; ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;; ;;; Commentary: ;; ;; Zones of text - like multiple regions. ;; ;; Bug reports etc.: (concat "drew" ".adams" "@" "oracle" ".com") ;; ;; You can get `zones.el' from Emacs Wiki or GNU ELPA: ;; ;; * Emacs Wiki: https://www.emacswiki.org/emacs/download/zones.el ;; * GNU ELPA: https://elpa.gnu.org/packages/zones.html ;; ;; The instance on Emacs Wiki might sometimes be more recent, but ;; major changes (named ''versions'') are posted to GNU ELPA. ;; ;; More description below. ;;(@> "Index") ;; ;; Index ;; ----- ;; ;; If you have library `linkd.el', load `linkd.el' and turn on ;; `linkd-mode' now. It lets you easily navigate around the sections ;; of this doc. Linkd mode will highlight this Index, as well as the ;; cross-references and section headings throughout this file. You ;; can get `linkd.el' here: ;; https://www.emacswiki.org/emacs/download/linkd.el. ;; ;; (@> "Things Defined Here") ;; (@> "Documentation") ;; (@> "Compatibility") ;; (@> "Zones") ;; (@> "Coalesced (United) Zones") ;; (@> "Noncontiguous Region and Set of Zones") ;; (@> "Zones and Overlays") ;; (@> "Izone Commands") ;; (@> "Izone List Variables") ;; (@> "Keys") ;; (@> "Command `zz-narrow-repeat'") ;; (@> "Define Your Own Commands") ;; (@> "Automatically Create Zones on Region Deactivation") ;; (@> "Change Log") ;; (@> "Compatibility Code for Older Emacs Versions") ;; (@> "Variables and Faces") ;; (@> "Advice for Standard Functions") ;; (@> "General Commands") ;; (@> "General Non-Interactive Functions") ;; (@> "Key Bindings") ;;(@* "Things Defined Here") ;; ;; Things Defined Here ;; ------------------- ;; ;; Commands defined here: ;; ;; `zz-add-region-as-izone', `zz-add-zone', ;; `zz-add-zone-and-coalesce', `zz-add-zone-and-unite', ;; `zz-add-zones-from-highlighting', ;; `zz-add-zones-matching-regexp', ;; `zz-auto-add-region-as-izone-mode', ;; `zz-clone-and-coalesce-zones', `zz-clone-and-unite-zones', ;; `zz-clone-zones', `zz-coalesce-zones', `zz-delete-zone', ;; `zz-narrow', `zz-narrow-repeat', `zz-query-replace-zones' (Emacs ;; 25+), `zz-query-replace-regexp-zones' (Emacs 25+), ;; `zz-select-region', `zz-select-region-by-id-and-text', ;; `zz-select-region-repeat', `zz-select-zone', ;; `zz-select-zone-by-id-and-text', `zz-select-zone-repeat', ;; `zz-set-izones-var', `zz-set-zones-from-face', ;; `zz-set-zones-from-highlighting', ;; `zz-set-zones-matching-regexp', `zz-unite-zones'. ;; ;; User options defined here: ;; ;; `zz-auto-remove-empty-izones-flag', ;; `zz-narrowing-use-fringe-flag' (Emacs 23+). ;; ;; Faces defined here: ;; ;; `zz-fringe-for-narrowing'. ;; ;; Non-interactive functions defined here: ;; ;; `zz-add-key-bindings-to-narrow-map', `zz-buffer-narrowed-p' ;; (Emacs 22-23), `zz-buffer-of-markers', `zz-car-<', ;; `zz-choose-zone-by-id-and-text', `zz-do-izones', ;; `zz-dotted-zones-from-izones', `zz-do-zones', `zz-dot-pairs', ;; `zz-empty-zone-p', `zz-every', ;; `zz-izone-has-other-buffer-marker-p', `zz-izone-limits', ;; `zz-izone-limits-in-bufs', `zz-izones-from-noncontiguous-region' ;; (Emacs 25+), `zz-izones-from-zones', `zz-izone-p', ;; `zz-izones-p', `zz-izones-renumber', `zz-map-izones', ;; `zz-map-zones', `zz-marker-from-object', `zz-markerize', ;; `zz-max', `zz-min', `zz-narrow-advice', `zz-narrowing-lighter', ;; `zz-noncontiguous-region-from-izones', ;; `zz-noncontiguous-region-from-zones', `zz-number-or-marker-p', ;; `zz-numeric-position', `zz-order-zones', `zz-overlays-to-zones', ;; `zz-overlay-to-zone', `zz-overlay-union', ;; `zz-rassoc-delete-all', `zz-readable-marker', ;; `zz-readable-marker-p', `zz-read-any-variable', `zz-read-bufs', ;; `zz-regexp-car-member', `zz-remove-empty-izones', ;; `zz-remove-if', `zz-remove-if-not', ;; `zz-remove-izones-w-other-buffer-markers', ;; `zz-remove-zones-w-other-buffer-markers', `zz-repeat-command', ;; `zz-same-position-p', `zz-set-intersection', `zz-set-union', ;; `zz-some', `zz-string-match-p', `zz-two-zone-intersection', ;; `zz-two-zone-union', `zz-zone-abstract-function-default', ;; `zz-zone-buffer-name', `zz-zone-has-other-buffer-marker-p', ;; `zz-zone-intersection', `zz-zone-intersection-1', ;; `zz-zone-ordered', `zz-zones-complement', ;; `zz-zones-from-noncontiguous-region' (Emacs 25+), ;; `zz-zones-overlap-p', `zz-zones-same-buffer-name-p', ;; `zz-zones-to-overlays', `zz-zone-to-overlay', `zz-zone-union', ;; `zz-zone-union-1'. ;; ;; Internal variables defined here: ;; ;; `zz--fringe-remapping', `zz-add-zone-anyway-p', `zz-izones', ;; `zz-izones-var', `zz-lighter-narrowing-part', ;; `zz-zone-abstract-function', `zz-zone-abstract-limit', ;; `zz-toggles-map'. ;; ;; Macros defined here: ;; ;; `zz-user-error'. ;; ;; ;; ***** NOTE: These EMACS PRIMITIVES have been ADVISED HERE: ;; ;; `narrow-to-defun', `narrow-to-page', `narrow-to-region'. ;;(@* "Documentation") ;; ;; Documentation ;; ------------- ;; ;; Library `zones.el' lets you easily define and subsequently act on ;; multiple zones of buffer text. You can think of this as enlarging ;; the notion of "region". In effect, it can remove the requirement ;; of target text being a contiguous sequence of characters. A set ;; of buffer zones is, in effect, a (typically) noncontiguous ;; "region" of text. ;; ;; ;;(@* "Compatibility") ;; ** Compatibility ** ;; ;; Some of the functions defined here are not available for Emacs ;; versions prior to 23. Still others are available only starting ;; with Emacs 25. This is mentioned where applicable. ;; ;; ;;(@* "Zones") ;; ** Zones ** ;; ;; A "zone" is a basic zone or an izone. A zone represents the text ;; between its two positions, just as an Emacs region is the text ;; between point and mark. ;; ;; A "basic zone" is a list of two buffer positions followed by a ;; possibly empty list of extra information: (POS1 POS2 . EXTRA). ;; ;; An "izone" is a list whose first element is an identifier, ID, ;; which is a negative integer (-1, -2, -3,...), and whose cdr is a ;; basic zone. So an izone has the form (ID POS1 POS2 . EXTRA). ;; ;; The ID is negative just to distinguish a basic zone whose EXTRA ;; list starts with an integer from an izone. Interactively (e.g. in ;; prompts), references to the ID typically leave off the minus sign. ;; ;; The positions of a zone can be positive integers (1, 2, 3,...), ;; markers for the same buffer, or readable markers for the same ;; buffer. (Behavior is undefined if a single zone has markers for ;; different buffers.) Each position of a given zone can take any of ;; these forms. ;; ;; A "readable marker" is a list (marker BUFFER POSITION), where ;; BUFFER is a buffer name (string) and where POSITION is a buffer ;; position (as an integer, not as a marker). ;; ;; The content of a zone is any contiguous stretch of buffer text. ;; The positions of a zone can be in either numeric order. The ;; positions are also called the zone "limits". The lower limit is ;; called the zone "beginning"; the upper limit is called its "end". ;; ;; ;;(@* "Coalesced (United) Zones") ;; ** Coalesced (United) Zones ** ;; ;; A list of zones can include zones that overlap or are adjacent ;; (the end of one is one less than the beginning of the other). ;; ;; Basic-zone union and intersection operations (`zz-zone-union', ;; `zz-zone-intersection') each act on a list of zones, returning ;; another such list, but with the recorded positions for each zone ;; in (ascending) buffer order, and with the zones in ascending order ;; of their cars. For basic-zone union, the resulting zones are said ;; to be "coalesced", or "united". ;; ;; The extra info in the zones that result from zone union or ;; intersection is just the set union or set intersection of the ;; extra info in the zones that are combined. ;; ;; After a list of zones has been altered by `zz-zone-union' or ;; `zz-zone-intersection': ;; ;; * Each zone in the result list is ordered so that its first ;; element is smaller than its second. ;; ;; * The zones in the result list have been sorted in ascending order ;; by their first elements. ;; ;; * The zones in the result list are disjoint: they are not adjacent ;; and do not overlap: there is some other buffer text (i.e., not ;; in any zone) between any two zones in the result. ;; ;; ;;(@* "Noncontiguous Region and Set of Zones") ;; ** Noncontiguous Region and Set of Zones ** ;; ;; Starting with Emacs 25, Emacs can sometimes use a region that is ;; made up of noncontiguous pieces of buffer content: a ;; "noncontiguous region". This is similar to a set of zones, but ;; there are some differences. ;; ;; The zones in a set (or list) of zones can be adjacent or overlap, ;; and their order in the set is typically not important. ;; ;; A noncontiguous region corresponds instead to what results from ;; coalescing (uniting) a set of zones: a sequence of disjoint zones, ;; in buffer order, that is, ordered by their cars. ;; ;; The Lisp representation of a zone also differs from that of a ;; segment of a noncontiguous region. Each records two buffer ;; positions, but a zone can also include a list of additional ;; information (whatever you like). ;; ;; A noncontiguous-region segment is a cons (BEGIN . END), with BEGIN ;; <=3D END. A zone is a list (LIMIT1 LIMIT2 . EXTRA) of two positions ;; optionally followed by a list of extra stuff (any Lisp objects). ;; And as stated above, the zone limits need not be in ascending ;; order. ;; ;; The last difference is that each buffer position of a zone can be ;; a marker, which means that a list of zones can specify zones in ;; different buffers. A zone position can also be a readable marker, ;; which is a Lisp sexp that can be written to disk (e.g., as part of ;; a bookmark or saved variable), and restored in a later Emacs ;; session by reading the file where it is saved. ;; ;; ;;(@* "Zones and Overlays") ;; ** Zones and Overlays ** ;; ;; Zones have even more in common with Emacs overlays than they do ;; with segments of a noncontiguous region. An overlay has an ;; associated buffer, two limits (start and end), and an optional ;; list of properties. ;; ;; Zones differ from overlays in these ways: ;; ;; * A zone can have an identifier (izone). ;; * A zone can have a readable Lisp form, by using numbers or ;; readable markers. ;; * A zone need not be specific to a particular buffer. If a zone's ;; positions are numbers instead of markers then you can use it in ;; any buffer. ;; * A set of zones can be persistent, by bookmarking it. ;; ;; You can create zones from overlays, and vice versa, using ;; functions `zz-overlay-to-zone', `zz-zone-to-overlay', ;; `zz-overlays-to-zones', and `zz-zones-to-overlays'. ;; ;; When creating zones from overlays you can specify how to represent ;; the zone limits: using markers, readable markers, or positive ;; integers. And you can specify whether to create basic zones or ;; izones. The overlay property list becomes the list of EXTRA ;; information of the resulting zone: (LIMIT1 LIMIT2 . EXTRA). ;; ;; When creating overlays from zones, any list of EXTRA zone ;; information is used as the property list of the resulting overlay. ;; When creating a single such overlay you can optionally specify ;; additional overlay properties, as well as arguments FRONT-ADVANCE ;; and REAR-ADVANCE for function `make-overlay'. ;; ;; You can use function `zz-overlay-union' to coalesce overlays in a ;; given buffer that overlap or are adjacent. ;; ;; ;;(@* "Izone Commands") ;; ** Izone Commands ** ;; ;; Commands that manipulate lists of zones generally use izones, ;; because they make use of the zone identifiers. ;; ;; Things you can do with zones: ;; ;; * Sort them. ;; ;; * Unite (coalesce) adjacent or overlapping zones (which includes ;; sorting them in ascending order of their cars). ;; ;; * Intersect them. ;; ;; * Narrow the buffer to any of them. Cycle among narrowings. If ;; you use library `icicles.el' then you can also navigate among ;; them in any order, and using completion against BEG-END range ;; names. ;; ;; * Select any of them as the active region. Cycle among them. ;; ;; * Search them (they are automatically coalesced first). For this ;; you need library `isearch-prop.el'. ;; ;; * Make a set of zones or its complement (the anti-zones) ;; invisible. For this you also need library `isearch-prop.el'. ;; ;; * Highlight and unhighlight them. For this you need library ;; `highlight.el' or library `facemenu+.el' (different kinds of ;; highlighting). ;; ;; * Add zones of highlighted text (overlay or text-property ;; highlighting). For this you need library `highlight.el'. ;; (You can highlight many ways, including dragging the mouse.) ;; ;; * Add the active region to a list of zones. ;; ;; * Add the active region to a list of zones, and then unite ;; (coalesce) the zones. ;; ;; * Delete an izone from a list of zones. ;; ;; * Clone a zones variable to another one, so the clone has the same ;; zones. ;; ;; * Clone a zones variable and then unite the zones of the clone. ;; ;; * Make an izone variable persistent, in a bookmark. Use the ;; bookmark to restore it in a subsequent Emacs session. For this ;; you need library `bookmark+.el'. ;; ;; * Query-replace over them (Emacs 25 and later). ;; ;; ;;(@* "Izone List Variables") ;; ** Izone List Variables ** ;; ;; Commands that use izones generally use a variable that holds a ;; list of them. By default, this is the buffer-local variable ;; `zz-izones'. But such a variable can be buffer-local or global. ;; If it is global then it can use markers and readable markers for ;; different buffers. ;; ;; The value of variable `zz-izones-var' is the variable currently ;; being used by default for izone commands. The default value is ;; `zz-izones'. ;; ;; You can have any number of izones variables, and they can be ;; buffer-local or global variables. ;; ;; You can use `C-x n v' (command `zz-set-izones-var') anytime to set ;; `zz-izones-var' to a variable whose name you enter. With a prefix ;; argument, the variable is made automatically buffer-local. Use ;; `C-x n v' to switch among various zone variables for the current ;; buffer (if buffer-local) or globally. ;; ;; Sometimes another zone command prompts you for the izones variable ;; to use, if you give it a prefix argument. The particular prefix ;; arg determines whether the variable, if not yet bound, is made ;; buffer-local, and whether `zz-izones-var' is set to the variable ;; symbol: ;; ;; prefix arg buffer-local set `zz-izones-var' ;; ---------- ------------ ------------------- ;; Plain `C-u' yes yes ;; > 0 (e.g. `C-1') yes no ;; =3D 0 (e.g. `C-0') no yes ;; < 0 (e.g. `C--') no no ;; ;; For example, `C-u C-x n a' (`zz-add-zone') prompts you for a ;; different variable to use, in place of the current value of ;; `zz-izones-var'. The variable you enter is made buffer-local and ;; it becomes the new default izones variable for the buffer; that ;; is, `zz-izones-var' is set to the variable symbol. ;; ;; As another example, suppose that `zz-izones-var' is `zz-izones', ;; the default value and buffer-local by design. If you then use ;; `C-- C-x n a' and enter a variable name at the prompt, that ;; variable is not made buffer-local, and `zz-izones-var' is not set ;; to that variable. The active region is pushed to the variable, ;; but because `zz-izones-var' is unchanged, a subsequent `C-x n a' ;; (no prefix arg) pushes to `zz-izones'. ;; ;; ;;(@* "Keys") ;; ** Keys ** ;; ;; Many of the commands that manipulate izones are bound on keymap ;; `narrow-map'. So they are available on prefix key `C-x n' (by ;; default), along with the narrowing/widening keys `C-x n d', `C-x n ;; n', `C-x n p', and `C-x n w'. (If you use Emacs 22 then there is ;; no `narrow-map', so the same `n ...' keys are bound on keymap ;; `ctl-x-map'.) ;; ;; If you have already bound one of these keys then `zones.el' does ;; not rebind that key; your bindings are respected. ;; ;; C-x n # `zz-select-zone-by-id-and-text' - Select zone as region ;; C-x n a `zz-add-zone' - Add to current izones set (variable) ;; C-x n A `zz-add-zone-and-unite' - Add zone, then unite zones ;; C-x n c `zz-clone-zones' - Clone zones from one var to another ;; C-x n C `zz-clone-and-unite-zones' - Clone then unite zones ;; C-x n d `narrow-to-defun' ;; C-x n C-d `zz-delete-zone' - Delete an izone from current var ;; C-x n f `zz-set-zones-from-face' - Set zone set to face areas ;; C-x n h `hlt-highlight-regions' - Ad hoc zone highlighting ;; C-x n H `hlt-highlight-regions-in-buffers' - in multiple buffers ;; C-x n l `zz-add-zones-from-highlighting' - Add from highlighted ;; C-x n L `zz-set-zones-from-highlighting' - Set to highlighted ;; C-x n n `narrow-to-region' ;; C-x n p `narrow-to-page' ;; C-x n r `zz-add-zones-matching-regexp' - Add regexp-match zones ;; C-x n R `zz-set-zones-matching-regexp' - Set zone set to matches ;; C-x n s `zz-select-zone-repeat' - Cycle zones as active region ;; (negative arg removes zone) ;; C-x n u `zz-unite-zones' - Unite (coalesce) zones ;; C-x n v `zz-set-izones-var' - Set current zones-set variable ;; C-x n w `widen' ;; C-x n x `zz-narrow-repeat' - Cycle or pop zones as narrowings ;; ;; ;;(@* "Command `zz-narrow-repeat'") ;; ** Command `zz-narrow-repeat' ** ;; ;; Library `zones.el' modifies commands `narrow-to-region', ;; `narrow-to-defun', and `narrow-to-page' (`C-x n n', `C-x n d', and ;; `C-x n p') so that the current buffer restriction (narrowing) is ;; added to the izone list of the current buffer (by default, ;; buffer-local variable `zz-izones'). ;; ;; You can then use `C-x n x' to cycle or pop previous narrowings. ;; Repeating `x' repeats the action: `C-x n x x x x' etc. Each time ;; you hit `x' a different narrowing is made current. This gives you ;; an easy way to browse your past narrowings. ;; ;; If the izone variable is not buffer-local then `zz-narrow-repeat' ;; can cycle among the narrowings in different buffers, switching the ;; buffer accordingly. ;; ;; Invoking `C-x n x' with a prefix argument changes the behavior ;; as follows: ;; ;; * A plain prefix arg (`C-u') widens the buffer completely. ;; ;; * A zero numeric prefix arg (e.g `C-0') widens completely and ;; resets (empties) the current izone variable. ;; ;; * A numeric prefix arg N takes you directly to the abs(N)th ;; previous buffer narrowing. That is, it acts abs(N) times. ;; ;; A negative arg work like a positive one, except that it also pops ;; entries off the ring: it removes entries from the most recent back ;; through the (-)Nth one. For example, `C-- C-x n x x x' pops the ;; last added narrowing each time you hit `x'. You can thus use the ;; list of recorded zones as a narrowing stack: narrow commands push ;; to the stack, and `C-- C-x n x' pops it. ;; ;; By default, `C-x n x' is bound to command `zz-narrow-repeat'. ;; (For Emacs versions prior to 22 it is bound by default to ;; `zz-narrow', which is a non-repeatable version. Repeatability is ;; not available before Emacs 22.) ;; ;; The mode-line lighter `Narrow' is still used for the ordinary ;; Emacs narrowing commands. But for `zz-narrow-repeat' (`C-x n x') ;; the current narrowing is indicated in the lighter by an ;; identifying number: `Narrow-1', `Narrow-2', and so on. `mouse-2' ;; on the `Narrow' part still widens completely, but `mouse-2' on the ;; `-NUM' part uses `zz-narrow-repeat' to cycle to the next ;; narrowing. ;; ;; If option `zz-narrowing-use-fringe-flag' is non-nil then the face ;; of the selected frame's fringe is set to `zz-fringe-for-narrowing' ;; whenever the buffer is narrowed. This shows you that the current ;; buffer is narrowed even if the mode-line does not. ;; ;; ;;(@* "Define Your Own Commands") ;; ** Define Your Own Commands ** ;; ;; Pretty much anything you can do with the Emacs region you can do ;; with a set of zones (i.e., with a non-contiguous "region"). But ;; existing Emacs commands that act on the region do not know about ;; non-contiguous regions. What you will need to do is define new ;; commands that take these into account. ;; ;; You can define your own commands that iterate over a list of ;; izones in a given buffer, or over such lists in a set of buffers. ;; Utility functions `zz-izone-limits', `zz-izone-limits-in-bufs', ;; and `zz-read-bufs', `zz-do-zones', `zz-do-izones', `zz-map-zones', ;; and `zz-map-izones' can help with this. ;; ;; As examples of such commands, if you use library `highlight.el' ;; then you can use `C-x n h' (command `hlt-highlight-regions') to ;; highlight the izones recorded for the current buffer. You can use ;; `C-x n H' (command `hlt-highlight-regions-in-buffers') to do the ;; same across a set of buffers that you specify (or across all ;; visible buffers). If option `hlt-auto-faces-flag' is non-nil then ;; each zone gets a different face. Otherwise, all of the zones are ;; highlighted with the same face. Complementary (unbound) commands ;; `hlt-unhighlight-regions' and `hlt-unhighlight-regions-in-buffers' ;; unhighlight. ;; ;; Defining your own command can be simple or somewhat complex, ;; depending on how the region is used in the code for the ;; corresponding region-action Emacs command. The definition of ;; `hlt-highlight-regions' just calls existing function ;; `hlt-highlight-region' once for each recorded zone: ;; ;; (defun hlt-highlight-regions (&optional regions face msgp mousep ;; buffers) ;; "Apply `hlt-highlight-region' to regions in `zz-izones'." ;; (interactive (list (zz-izone-limits zz-izones) ;; nil ;; t ;; current-prefix-arg)) ;; (dolist (start+end regions) ;; (hlt-highlight-region (nth 0 start+end) (nth 1 start+end) ;; face msgp mousep buffers))) ;; ;; That's it - just iterate over `zz-izones' with a function that ;; takes a zone as an argument. What `zones.el' offers in this ;; regard is a way to easily define a set of buffer zones. ;; ;; ;;(@* "Automatically Create Zones on Region Deactivation") ;; ** Automatically Create Zones on Region Deactivation ** ;; ;; Minor mode `zz-auto-add-region-as-izone-mode' automatically adds ;; the nonempty region as an izone upon its deactivation. The zone ;; is added to the current value of `zz-izones-var'. ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;; ;;; Change Log: ;; ;;(@* "Change Log") ;; ;; 2019/04/07 dadams ;; Added: zz-add-region-as-izone, zz-auto-add-region-as-izone-mode, zz-= auto-remove-empty-izones-flag, ;; zz-remove-empty-izones, zz-empty-zone-p, zz-same-position-p, = zz-numeric-position. ;; zz-delete-zone, zz-narrow, zz-select-zone, zz-select-zone-by-id-and-= text, zz-choose-zone-by-id-and-text: ;; Respect zz-auto-remove-empty-izones-flag. ;; zz-select-zone: Select the zone that's moved to the end, not the zon= e newly first in list. ;; Negative prefix arg pops (removes) the zone that's s= elected. Better messages. ;; 2019/01/07 dadams ;; zz-add-zones-matching-regexp: Removed unused variable end-marker. ;; zz-order-zones: Use optional arg DESCENDINGP. ;; 2018/12/28 dadams ;; Fix condition-case-unless-debug for Emacs 22. Use full macro defini= tion, to prevent E22 compiler warning. ;; zz-izone-limits: IZONES arg is no longer optional - explicit list of= izones, so can handle null izones. ;; zz-narrow: Correctly handle negative arg when no more zones to pop o= ff. ;; zz-add-zones-matching-regexp: ;; let*, not let. Protect isearchp-dim-outside-search-area-flag with= bound-and-true-p. ;; 2018/12/10 dadams ;; Added: zz-choose-zone-by-id-and-text, zz-dotted-zones-from-izones, z= z-order-zones. ;; Regrouped some definitions. ;; zz-add-zone: Do not add if zone would cover whole buffer. Use zz-us= er-error, not error. ;; zz-set-zones-from-face: Removed unused arg MSGP. ;; zz-(do|map)-(i)zones: Added arg UNITE-P - do not unite by default. ;; 2018/11/21 dadams ;; Added: zz-add-zones-matching-regexp, zz-set-zones-matching-regexp, z= z-toggles-map, ;; condition-case-unless-debug alias. ;; Renamed: zz-create-face-zones to zz-set-zones-from-face. ;; zz-select-zone-by-id-and-text: Bind to C-x n #. ;; zz-select-zone-repeat: Changed binding from C-x n r to C-x n C-x. ;; Added bindings: isearchp-remove-dimming (C-x n D), isearchp-put-prop= -on-zones (C-x n P), ;; zz-add-zones-matching-regexp (C-x n r), zz-set-zones-matching-rege= xp (C-x n R), ;; isearchp-zones-(back|for)ward(-regexp) (C-x n r|s, C-x n C-M-r|s),= zz-query-replace-zones (C-x n M-%), ;; zz-query-replace-regexp-zones (C-x n C-M-%), zz-toggles-map (C-x n= M-=3D d), ;; isearchp-toggle-anti-zones-invisible (C-x n M-=3D v), isearchp-tog= gle-zones-invisible (C-x n M-=3D V), ;; isearchp-toggle-complementing-domain (C-x n M-=3D ~). ;; 2018/11/20 dadams ;; Added: zz-izone-p. ;; zz-izones-p: Use zz-izone-p. ;; zz-delete-zone: Fixed typo. ;; zz-readable-marker, marker case: Use buffer name, not buffer. ;; zz-delete-zone: Use completion to choose the zone. ;; 2018/11/19 dadams ;; Added: zz-zone-abstract-function, zz-zone-abstract-function-default,= zz-zone-abstract-limit. ;; Removed: function zz-izones. ;; zz-narrowing-use-fringe-flag: Changed default value to nil. ;; zz-select-zone-by-id-and-text: ;; Corrected missing VARIABLE default to zz-izones-var and missing VA= RIABLE from interactive spec. ;; Use zz-zone-abstract-function. Use negative ID. ;; zz-select-zone: Use highest available ID, if input is greater than t= hat. ;; zz-(add|delete)-zone, zz-izones-from-zones: Use negative ID. ;; zz-izones-from-zones: Reverse BASIC-ZONES. Lessen identities stated= in doc string. ;; 2018/11/18 dadams ;; Added: zz-select-zone-by-id-and-text, zz-select-region-by-id-and-tex= t. ;; Switched which is main and which is alias: zz-select-(zone|region)(-= repeat): makes zone active. ;; Suggestions from Stefan Monnier: ;; Added: zz--fringe-remapping, zz-add-key-bindings-to-narrow-map. ;; zz-set-fringe-for-narrowing: Remap fringe face (relative) instead = of (re)setting it. ;; zz-add-zone: Use string, not Boolean MSG arg. ;; Require repeat.el in zz-repeat-command, not in zz-*-repeat. ;; zz-add-zone-and-unite: MSGP -> MSG (string, not Boolean). ;; Advice for narrow-*: Use zz-narrow-advice. ;; 2018/11/13 dadams ;; Added: zz-do-izones, zz-do-zones, zz-map-izones, zz-map-zones. ;; 2018/11/12 dadams ;; Added: zz-create-face-zones. ;; zz-zone-union-1: Replaced recursive version with iterative version. ;; zz-unite-zones: Better message: give number of resulting zones. ;; zz-(add|set)-zones-from-highlighting: Added autoload cookie. ;; 2018/10/31 dadams ;; Do not overwrite any user key bindings on narrow-map or ctl-x-map. ;; Simplified defadvice. ;; 2018/10/30 dadams ;; Forked Emacs 20-21 stuff off as zones20.el. ;; Require cl-lib.el for Emacs 23+, cl.el for Emacs 22. ;; Added: zz-buffer-narrowed-p (for Emacs 22-23). ;; narrow-to-(defun|page): Use defadvice instead of redefining. ;; narrow-to-defun: Updated to Emacs 26 definition. ;; 2018/10/28 dadams ;; Added: zz-set-zones-from-highlighting. ;; zz-add-zones-from-highlighting: Prefix arg >=3D0: prompt for the fac= e, <=3D 0: use font-lock-face. ;; Bind in eval-after-load of highlight.el: zz-(add|set)-zones-from-hig= hlighting (to C-x n [lL]), ;; hlt-highlight-regions(-in-b= uffers). ;; 2018/10/14 dadams ;; Added (missing) macro zz-user-error. ;; Fixed (redefined) zz-noncontiguous-region-from-(i)zones. Added opti= onal arg to zz-*-from-izones. ;; zz-clone-zones, zz-clone-and-unite-zones: Return new value of TO-VAR= IABLE. ;; zz-add-zones-from-highlighting: Corrected error msg. ;; zz-query-replace(-regexp)-zones, zz-map-query-replace-regexp-zones, = zz-replace-(string|regexp)-zones: ;; Use zz-query-replace-regexp-zones. ;; 2018/09/18 dadams ;; Added: zz-add-zones-from-highlighting. ;; 2018/05/13 dadams ;; Added: zz-overlays-to-zones, zz-overlay-to-zone, zz-zones-to-overlay= s, zz-zone-to-overlay, ;; zz-zone-buffer-name, zz-overlay-union. ;; Renamed: zz-zones-same-buffer-p to zz-zones-same-buffer-name-p. ;; zz-zones-same-buffer-name-p: Use zz-zone-buffer-name. Check also re= adable markers. ;; zz-zone-ordered: Handle also readable markers. ;; Require cl.el at compile time, for case macro. ;; 2018/04/19 dadams ;; Added zz-map-query-replace-regexp-zones, zz-replace-string-zones, an= d zz-replace-regexp-zones, after ;; fix of Emacs bug #27897. ;; 2018/01/09 dadams ;; zz-readable-marker: ;; If arg is already a readable marker just return it (idempotent). = If a marker then use its buffer. ;; If it is a number then use it as is, using BUFFER arg or current b= uffer name. ;; 2017/08/02 dadams ;; Added: zz-izones-from-noncontiguous-region, zz-zones-from-noncontigu= ous-region, ;; zz-noncontiguous-region-from-izones, zz-noncontiguous-region-= from-zones, zz-dot-pairs. ;; 2017/08/01 dadams ;; Added: zz-query-replace-zones, zz-query-replace-regexp-zones - Emacs= 25+ only. ;; 2017/06/05 dadams ;; zz-set-fringe-for-narrowing: Use copy-face, not face-spec-set-2. OK= for Emacs 24.4+ ;; 2017/06/04 dadams ;; Added: zz-narrowing-use-fringe-flag, zz-fringe-for-narrowing, zz-set= -fringe-for-narrowing. ;; 2016/02/09 dadams ;; zz-zones-complement: Removed unused optional BUFFER arg. Use zz-mar= ker-from-object on BEG and END. ;; 2015/09/07 dadams ;; zz-some: Return cons (ELEMENT . VALUE). ;; zz-buffer-of-markers: Adjust for new zz-some behavior. ;; 2015/08/23 dadams ;; Added: zz-clone-zones, zz-clone-and-unite-zones, zz-clone-and-coales= ce-zones (alias). ;; Bind zz-clone-zones to C-x n c, zz-clone-and-unite-zones to C-x n C. ;; Added: zz-add-zone-and-unite, zz-unite-zones. Alias zz-add-zone-and= -coalesce, zz-coalesce-zones. ;; Bind zz-unite-zones to C-x n u, not C-x n c. ;; zz-set-izones-var: Corrected interactive spec. ;; zz-remove-zones-w-other-buffer-markers: Typo: RESTR -> ZONE. ;; 2015/08/22 dadams ;; Added: zz-set-izones-var. Bind it to C-x n v. ;; 2015/08/18 dadams ;; Renamed: zz-izone-add to zz-add-zone, ;; zz-izone-add-and-coalesce to zz-add-zone-and-coalesce, ;; zz-izone-delete to zz-delete-zone, ;; zz-izones-coalesce to zz-coalesce-zones, ;; zz-izone-add-anyway-p to zz-add-zone-anyway-p. ;; Command doc strings: Mention "zone" instead of "izone" (simpler). ;; Changed binding of zz-coalesce-zones to C-x n c from C-x n u. ;; Changed binding of zz-add-zone to C-x n a from C-x n s. ;; Changed binding of zz-add-zone-and-coalesce to C-x n A from C-x n S. ;; zz-izones-from-zones: Renamed arg ZONES to BASIC-ZONES. ;; zz-narrowing-lighter: Moved mode-line-modes boundp guard here. ;; zz-narrow: Removed mode-line-modes boundp guard. OK to set zz-light= er-narrowing-part here. ;; zz-select-region: Removed unneeded binding of zz-add-zone-anyway-p. ;; 2015/08/16 dadams ;; Merged content of wide-n.el here (wide-n.el is obsolete now - this r= eplaces it). ;; Added: zz-zone-has-other-buffer-marker-p. ;; Renamed: ;; wide-n to zz-narrow ;; wide-n-add-to-union to zz-izone-add-and-coalesce ;; wide-n-delete to zz-izone-delete ;; wide-n-highlight-lighter to zz-narrowing-lighter ;; wide-n-lighter-narrow-part to zz-lighter-narrowing-part ;; wide-n-limits to zz-izone-limits ;; wide-n-limits-in-bufs to zz-izone-limits-in-bufs ;; wide-n-marker-from-object to zz-marker-from-object ;; wide-n-markerize to zz-markerize ;; wide-n-mem-regexp to zz-regexp-car-member ;; wide-n-number-or-marker-p to zz-number-or-marker-p ;; wide-n-other-buffer-marker-p to zz-izone-has-other-buffer= -marker-p ;; wide-n-push to zz-izone-add ;; wide-n-push-anyway-p to zz-izone-add-anyway-p ;; wide-n-rassoc-delete-all to zz-rassoc-delete-all ;; wide-n-readable-marker to zz-readable-marker ;; wide-n-readable-marker-p to zz-readable-marker-p ;; wide-n-read-any-variable to zz-read-any-variable ;; wide-n-read-bufs to zz-read-bufs ;; wide-n-remove-if to zz-remove-if ;; wide-n-remove-if-other-buffer-markers to zz-remove-izones-w-other-= buffer-markers ;; wide-n-remove-if-not to zz-remove-if-not ;; wide-n-renumber to zz-izones-renumber ;; wide-n-repeat to zz-narrow-repeat ;; wide-n-repeat-command to zz-repeat-command ;; wide-n-restrictions to zz-izones ;; wide-n-restrictions-from-zones to zz-izones-from-zones ;; wide-n-restrictions-p to zz-izones-p ;; wide-n-restrictions-var to zz-izones-var ;; wide-n-select-region to zz-select-region ;; wide-n-select-region-repeat to zz-select-region-repeat ;; wide-n-string-match-p to zz-string-match-p ;; wide-n-unite to zz-izones-coalesce ;; zzz-buffer-of-markers to zz-buffer-of-markers ;; zzz-car-< to zz-car-< ;; zzz-every to zz-every ;; zzz-max to zz-max ;; zzz-min to zz-min ;; zzz-ordered-zone to zz-zone-ordered ;; zzz-remove-if to zz-remove-if ;; zzz-remove-if-other-buffer-markers to zz-remove-zones-w-other-b= uffer-markers ;; zzz-set-union to zz-set-union ;; zzz-set-intersection to zz-set-intersection ;; zzz-some to zz-some ;; zzz-two-zone-intersection to zz-two-zone-intersection ;; zzz-two-zone-union to zz-two-zone-union ;; zzz-zone-complement to zz-zones-complement ;; zzz-zone-intersection(-1) to zz-zone-intersection(-1) ;; zzz-zones-overlap-p to zz-zones-overlap-p ;; zzz-zones-same-buffer-p to zz-zones-same-buffer-p ;; zzz-zone-union(-1) to zz-zone-union(-1) ;; ;; Added Emacs 20 compatibility. ;; zz-narrow: If only one narrowing and buffer is narrowed, widen. (Do= not widen if already widened.) ;; Protect Emacs 20 from wide-n-highlight-lighter call with = (boundp 'mode-line-modes). ;; narrow-to-region: Explicitly provide START and END for Emacs 20, bec= ause they are nil. ;; zz-izone-delete: Fixed free variable vAR (to VARIABLE). ;; Bind C-x n r to zz-select-region, not zz-select-region-repeat, if < = Emacs 22. ;; 2015/08/15 dadams ;; wide-n-delete: VAR -> VARIABLE (typo, free var). ;; wide-n-(delete|push): Fixed for 1-based, not 0-based, since removed = "all" entry on 8/12. ;; wide-n-read-any-variable: Added REQUIRE-MATCH arg. Provide both DEF= AULT-VALUE and SYMB as defaults. ;; wide-n-(delete|push|unite|add-to-union): Provide wide-n-restrictions= -var as default when reading var. ;; 2015/08/14 dadams ;; Added: wide-n-remove-if-other-buffer-markers, wide-n-remove-if, wide= -n-other-buffer-marker-p. ;; Added: zzz-remove-if, zzz-remove-if-other-buffer-markers (in file zo= nes.el). ;; zzz-zone-union: Added optional arg BUFFER. Filter with zzz-remove-i= f-other-buffer-markers. ;; wide-n-select-region, wide-n: pop-to-buffer of restriction when appr= opriate. ;; wide-n-push, wide-n-delete: Added args NOT-BUF-LOCAL-P, SET-VAR-P. = Changed prefix arg behavior. ;; wide-n-add-to-union, narrow-to-(region|defun|page): ;; Add nil args for NOT-BUF-LOCAL-P, SET-VAR-P in call to wide-n-push. ;; wide-n-restrictions-p: Test identifier with numberp, not wide-n-numb= er-or-marker-p. ;; wide-n-limits: Added optional args BUFFER, ONLY-ONE-BUFFER-P. ;; Use wide-n-remove-if-other-buffer-markers. ;; wide-n-limits-in-bufs: ;; Changed optional arg from RESTRICTIONS to VARIABLE (default: wide-= n-restrictions-var). ;; Corrected case when BUFFERS is nil. ;; Pass buffer and non-nil ONLY-ONE-BUFFER-P to wide-n-limits. ;; 2015/08/13 dadams ;; Version 2014.08.13. ;; Added: wide-n-marker-from-object. ;; wide-n-markerize: Convert also readable-marker objects. ;; wide-n-restrictions-p: Us wide-n-number-or-marker-p, not number-or-m= arker-p (support readable markers). ;; wide-n-push, wide-n-add-to-union, interactive spec: VARIABLE default= s to wide-n-restrictions-var value. ;; wide-n-add-to-union: VARIABLE defaults to wide-n-restrictions-var va= lue non-interactively too. ;; 2015/08/12 dadams ;; wide-n-restrictions, wide-n-select-region, wide-n, wide-n-markerize,= wide-n-push, ;; wide-n-restrictions-p, wide-n-delete, wide-n-renumber, wide-n-limi= ts, wide-n-restrictions-from-zones, ;; wide-n-unite: ;; INCOMPATIBLE CHANGE: wide-n-restrictions no longer has an "all" = entry. ;; 2015/08/10 dadams ;; wide-n-markerize: Corrected for format change - second marker is cad= dr, not cddr. ;; 2015/08/09 dadams ;; Added: zzz-zone-complement (in file zones.el). ;; 2015/08/08 dadams ;; Added: wide-n-unite, wide-n-add-to-union, wide-n-restrictions-from-z= ones. ;; Bind wide-n-unite to C-x n u and wide-n-add-to-union to C-x n S. ;; wide-n-push, wide-n-delete: Return new value of VARIABLE. ;; wide-n-push: Change optional arg NOMSG to MSGP (invert the sense). ;; Soft-require zones.el. ;; Bind hlt-highlight-regions to C-x n h and hlt-highlight-regions-in-b= uffers to C-x n H. ;; 2015/08/07 dadams ;; Added: wide-n-select-region, wide-n-select-region-repeat. ;; Bind wide-n-select-region-repeat to C-x n r. ;; wide-n-push, wide-n-delete: Prefix arg >=3D 0: make var buffer-local= ; <=3D 0: set wide-n-restrictions-var. ;; 2015/08/05 dadams ;; Added: wide-n-restrictions-p, wide-n-restrictions-var, wide-n-read-a= ny-variable. ;; wide-n-restrictions (function): Now returns the value of the current= wide-n-restrictions-var variable. ;; wide-n: Use wide-n-restrictions-var, not wide-n-restrictions. ;; wide-n-push, wide-n-delete: ;; Added optional arg VARIABLE. Prefix arg reads it. Use and maybe = set wide-n-restrictions-var to it. ;; Raise error if var is not wide-n-restrictions-p. ;; wide-n-renumber: Added optional arg VARIABLE. ;; wide-n-limits(-in-bufs): Added optional arg RESTRICTIONS. ;; wide-n, wide-n-renumber, wide-n-markerize: FIX: (car (cddr...)), not= cddr. ;; 2015/08/01 dadams ;; wide-n-start+end: Fix: use list, not cons. ;; 2015/07/31 dadams ;; Renamed: wide-n-start.end to wide-n-start+end. Added: function wide= -n-restrictions. ;; wide-n-restrictions: INCOMPATIBLE CHANGE: The format is now (NUM STA= RT END), not (NUM START . END). ;; 2015/07/11 dadams ;; Added: wide-n-limits, wide-n-limits-in-bufs, wide-n-start.end, wide-= n-read-bufs, wide-n-remove-if-not. ;; Made wide-n-push interactive. ;; Bind wide-n-delete to C-x n C-d and wide-n-push to C-x n s. ;; 2014/08/12 dadams ;; Added: wide-n-delete, wide-n-renumber. ;; wide-n: Added optional arg MSGP. ;; wide-n-push: Added optional arg NOMSG. ;; 2014/05/30 dadams ;; Added: wide-n-lighter-narrow-part, wide-n-highlight-lighter, wide-n-= string-match-p, wide-n-mem-regexp, ;; wide-n-rassoc-delete-all. ;; wide-n-restrictions: INCOMPATIBLE CHANGE: The format is now (NUM STA= RT . END), not (START . END). ;; wide-n: Set wide-n-lighter-narrow-part. Use wide-n-highlight-lighte= r. Bind wide-n-push-anyway-p ;; around narrow-to-region. ;; wide-n-markerize, wide-n-push: Use new wide-n-restrictions format. ;; wide-n-push: Added message about restriction. ;; 2011/04/09 dadams ;; narrow-to-region defadvice: ;; Use ad-get-arg - don't refer to args by name (work around Emacs bu= g #8457). ;; 2011/01/04 dadams ;; Added autoload cookies (for commands). ;; 2010/04/26 dadams ;; Added: wide-n-push, wide-n-push-anyway-p. ;; narrow-to-*: Call wide-n-push when interactive or wide-n-push-anyway= -p. ;; 2010/04/24 dadams ;; Added: wide-n-markerize. ;; Use non-destructive operations (again, as initially). ;; wide-n-restrictions: Use (all) cons as init value. ;; wide-n, narrow-to-region: Don't initialize to (all). ;; wide-n: Use append, not nconc. ;; narrow-to-region: Use remove, not delete. ;; wide-n: Use wide-n-markerize. ;; 2010/04/21 dadams ;; Bind non-repeatable version, wide-n, in Emacs 21. ;; 2010/04/19 dadams ;; wide-n, narrow-to-region, wide-n-restrictions: ;; Use nil default val & use make-local-variable, so can use destruct= ive ops. ;; narrow-to-region: Use delete, not remove. ;; Zero prefix arg now widens completely and empties ring. ;; Negative prefix arg now pops the ring. ;; Added: standard definitions of narrow-to-(defun|page). ;; Use narrow-map if defined. ;; 2010/04/18 dadams ;; Created. ;; ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;; ;; This program 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. ;; ;; This program 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 . ;; ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;; ;;; Code: (eval-when-compile (require 'cl)) ;; case (No `cl-case' for Emacs 22) ;; Quiet the byte-compiler. (defvar hlt-last-face) ; In `highlight.el' (defvar isearchp-dim-outside-search-area-flag) ; In `isearch+.el' (defvar mode-line-modes) ; Emacs 22+ (defvar narrow-map) ; Emacs 23+ (defvar region-extract-function) ; Emacs 25+ (defvar repeat-message-function) ; In `repeat.el' (defvar repeat-previous-repeated-command) ; In `repeat.el' ;;;;;;;;;;;;;;;;;;;;;;;;;; ;;(@* "Compatibility Code for Older Emacs Versions") ;;; Compatibility Code for Older Emacs Versions ---------------------- ;; When byte-compiled by Emacs 22 this gives a false-positive unbound-varia= ble warning. ;; (unless (fboundp 'condition-case-unless-debug) ;; (defalias 'condition-case-unless-debug (if (fboundp 'condition-case-no= -debug) ;; 'condition-case-no-debug ; = Emacs 23 ;; 'condition-case))) ; Emacs 22 (unless (fboundp 'condition-case-unless-debug) (defmacro condition-case-unless-debug (var bodyform &rest handlers) "Like `condition-case' except that it does not prevent debugging. More specifically if `debug-on-error' is set then the debugger will be invo= ked even if this catches the signal." (declare (debug condition-case) (indent 2)) ;=20 `(condition-case ,var ,bodyform ,@(mapcar (lambda (handler) `((debug ,@(if (listp (car handler)) (car handler) (list= (car handler)))) ,@(cdr handler))) handlers)))) (defalias 'zz-user-error (if (fboundp 'user-error) #'user-error #'error)) ;= For Emacs 22-23. (defalias 'zz-buffer-narrowed-p (if (fboundp 'buffer-narrowed-p) ; For Emac= s 22-23. #'buffer-narrowed-p (lambda () (/=3D (- (point-max) (point-mi= n)) (buffer-size))))) (defalias 'zz-string-match-p (if (fboundp 'string-match-p) ; For Emacs 22. #'string-match-p (lambda (regexp string &optional start) "Like `string-match', but this saves and r= estores the match data." (save-match-data (string-match regexp stri= ng start))))) ;;(@* "Variables and Faces") ;;; Variables and Faces ---------------------------------------------- (defgroup zones nil "Zones of text - like multiple regions." :prefix "zz-" :group 'editing :link `(url-link :tag "Send Bug Report" ,(concat "mailto:" "drew.adams" "@" "oracle" ".com?subje= ct=3D\ zones.el bug: \ &body=3DDescribe bug here, starting with `emacs -Q'. \ Don't forget to mention your Emacs and library versions.")) :link '(url-link :tag "Download" "https://www.emacswiki.org/emacs/downloa= d/zones.el") :link '(url-link :tag "Description" "https://www.emacswiki.org/emacs/Zone= s") :link '(emacs-commentary-link :tag "Commentary" "zones")) (defcustom zz-auto-remove-empty-izones-flag nil "Non-nil means automatically remove empty izones. This is done only for these functions: `zz-delete-zone' `zz-narrow' `zz-narrow-repeat' `zz-select-zone' `zz-select-zone-repeat' `zz-choose-zone-by-id-and-text' If the izones used by the function are determined by an izones variable then the empty zones are removed from that izones variable. \(You can use command `zz-remove-empty-izones' to manually remove empty zones from any izones variable.)" :type 'boolean :group 'zones) (when (>=3D emacs-major-version 23) ; Emacs 23.1+ ;; NOTE: Buffer-local face-remapping of fringe is not handled correctly u= ntil Emacs-27 (Emacs bug#33244). (defface zz-fringe-for-narrowing '((((background dark)) (:background "#FFFF2429FC15")) ; a dark magenta (t (:background "LightGreen"))) "Face used for fringe when buffer is narrowed." :group 'zones :group 'faces) ;; FIXME?: This is really orthogonal to zones. (defcustom zz-narrowing-use-fringe-flag nil "Non-nil means use fringe face `zz-fringe-for-narrowing' when narrowed." :type 'boolean :group 'zones :set (lambda (sym defs) (custom-set-default sym defs) (if (symbol-value sym) (add-hook 'post-command-hook #'zz-set-fringe-for-narrowing) (remove-hook 'post-command-hook #'zz-set-fringe-for-narrowing)= ))) (defvar zz--fringe-remapping nil "Cookie from remapping face `fringe' to `zz-fringe-for-narrowing'. Deleted by `face-remap-remove-relative' when buffer is widened.") (with-no-warnings (make-variable-buffer-local 'zz--fringe-remapping)) (defun zz-set-fringe-for-narrowing () "Remap face `fringe' to `zz-fringe-for-narrowing' if buffer is narrowed. Remove remapping if not narrowed." (if (zz-buffer-narrowed-p) (unless zz--fringe-remapping (setq zz--fringe-remapping (face-remap-add-relative 'fringe 'zz-= fringe-for-narrowing)) ;; FIXME: For some reason, the display is not always redrawn full= y. (redraw-frame)) (when zz--fringe-remapping (face-remap-remove-relative zz--fringe-remapping) ;; FIXME: For some reason, the display is not redrawn fully. (redraw-frame) (setq zz--fringe-remapping nil)))) ) (defvar zz-lighter-narrowing-part "" "String to append to \" Narrow\" in mode-line lighter or messages.") (make-variable-buffer-local 'zz-lighter-narrowing-part) (defvar zz-izones-var 'zz-izones "The izones variable currently being used. The variable can be buffer-local or not. If it is not then its value can include markers from multiple buffers. See also variable `zz-izones'.") (defvar zz-izones () "List of izones. Each entry is a list (ID START END), where ID is a negative integer identifying this izone, and START and END are its limits. This is the default value of variable `zz-izones-var'.") (make-variable-buffer-local 'zz-izones) (defvar zz-add-zone-anyway-p nil "Non-nil means narrowing always updates current `zz-izones-var'. Normally, if a narrowing command is called non-interactively then the region limits are not pushed to the variable that is the current value of `zz-izones-var'. A non-nil value here overrides the push inhibition. You can bind this to non-nil in Lisp code to populate the current `zz-izones-var' during narrowing.") (defvar zz-zone-abstract-function #'zz-zone-abstract-function-default "Function used to create an abstract (description) of a zone. It must accept an izone as its first argument, and it should return a cons whose care is the abstract (a string).") (defvar zz-zone-abstract-limit 68 "Max number of chars of zone text to include in default zone abstract.") ;;(@* "Advice for Standard Functions") ;;; Advice for Standard Functions ------------------------------------ (defun zz-narrow-advice (interactive-p) "Advice for narrowing functions. Call `zz-add-zone' if interactive or if `zz-add-zone-anyway-p'." (when (or interactive-p zz-add-zone-anyway-p) (zz-add-zone (point-min) (point-max) nil nil nil "Narrowed, and recorde= d zone: "))) (defadvice narrow-to-region (after zz-add-zone--region activate) "Push the region limits to the current `zz-izones-var'. You can use `C-x n x' to widen to a previous buffer restriction. This is a destructive operation. The list structure of the variable value can be modified." (zz-narrow-advice (interactive-p))) (defadvice narrow-to-defun (after zz-add-zone--defun activate) "Push the defun limits to the current `zz-izones-var'. You can use `C-x n x' to widen to a previous buffer restriction. This is a destructive operation. The list structure of the variable value can be modified." (zz-narrow-advice (interactive-p))) ;; Call `zz-add-zone' if interactive or `zz-add-zone-anyway-p'. ;; (defadvice narrow-to-page (after zz-add-zone--defun activate) "Push the page limits to the current `zz-izones-var'. You can use `C-x n x' to widen to a previous buffer restriction. This is a destructive operation. The list structure of the variable value can be modified." (zz-narrow-advice (interactive-p))) ;;(@* "General Commands") ;;; General Commands ------------------------------------------------- ;;;###autoload (defalias 'zz-select-region-by-id-and-text #'zz-select-zone-by-id-and-text) ;;;###autoload (defun zz-select-zone-by-id-and-text (id &optional variable msgp) ; Bound t= o `C-x n #' "Select a zone by completing against its ID and its text (content). The text of the chosen zone is made the active region. The zones to choose from are those of VARIABLE that are in the current buffer. VARIABLE defaults to the value of `zz-izones-var'. With a prefix arg you are prompted for a different variable to use. If option `zz-auto-remove-empty-izones-flag' is non-nil then all empty zones are first removed from VARIABLE. Non-interactively: * VARIABLE is the optional izones variable to use. * Non-nil MSGP means show a status message." (interactive (let* ((var (or (and current-prefix-arg (zz-read-any-variable "Var= iable: " zz-izones-var t)) zz-izones-var)) (_IGNORE (when zz-auto-remove-empty-izones-flag (zz-remove-empty= -izones var))) (izones (zz-remove-izones-w-other-buffer-markers (symbol-value = var))) (num (string-to-number (completing-read "Zone: " (mapcar zz-zone-abst= ract-function izones) nil t)))) (list num var t))) (let* ((izone (assq (- id) (zz-remove-izones-w-other-buffer-markers (sym= bol-value variable)))) (beg (cadr izone)) (end (caddr izone))) (goto-char beg) (push-mark end nil t) (when msgp (message "Izone #%d selected" (car izone))))) ;;;###autoload (defalias 'zz-select-region #'zz-select-zone) ;;;###autoload (defun zz-select-zone (arg &optional msgp) ; Not bound. "Select a zone in `zz-izones-var', and make it the active region. With no prefix arg, select the first zone of the list. With a numeric prefix arg N, select the Nth zone of the list. \(N is one-based, not zero-based.) The newly selected zone is then moved to the end of the list. With a negative prefix arg N remove that zone from the list and renumber the zones. This is a destructive operation: The list structure of the variable value can be modified. Note that if the value of `zz-izones-var' is not buffer-local then you can use this command to cycle among (or to remove) zones in multiple buffers. If option `zz-auto-remove-empty-izones-flag' is non-nil then all empty zones are first removed from `zz-izones-var'." (interactive "p\np") (when zz-auto-remove-empty-izones-flag (zz-remove-empty-izones zz-izones-= var)) (let* ((var zz-izones-var) (val (symbol-value var)) (len (length val)) (del-p (< arg 0))) (unless val (error "No zones")) (setq arg (abs arg)) (when (> arg len) (when (and msgp (or (not (eq this-command last-repeatable-command)) (eq real-this-command 'zz-select-zone-repeat))) (message "Only %d zones available. Using zone #%d" len len) (sit-for 2.5)) (setq arg (min arg len))) (let ((latest ()) (cntr arg) izone) (while (> cntr 0) (push (nth (1- cntr) val) latest) (unless (cdr latest) (setq izone (car latest))) ; Zone to select i= s first one pushed. (setq cntr (1- cntr))) (setq latest (nreverse latest)) (let ((tail (nthcdr arg val))) (setq val (set var (if del-p tail (append tail latest))) val (set var (mapcar #'zz-markerize val)))) (when del-p (zz-izones-renumber var)) (let ((beg (nth 1 izone)) (end (nth 2 izone)) (other-buf nil)) (when (and (not (local-variable-p var)) (setq other-buf (zz-izone-has-other-buffer-marker-p izo= ne)) ; Returns marker or nil. (or (not (markerp beg)) (not (markerp end)) (eq (marke= r-buffer beg) (marker-buffer end))) (setq other-buf (marker-buffer other-buf))) (pop-to-buffer other-buf)) (goto-char beg) (push-mark end nil t) (when msgp (message "%sone #%d (%d, %d)%s%s" (if del-p "Removed z" "Z") (abs= (car izone)) (zz-numeric-position (cadr izone)) (zz-numeric-position = (car (cddr izone))) (if other-buf (format " in `%s'" other-buf) "") (if (not (eq this-command last-repeatable-command)) "" (substitute-command-keys " (`s' to repeat)")))))))) ;; This is a non-destructive operation. ;; ;;;###autoload (defun zz-narrow (arg &optional msgp) ; Not bound. "Widen to a previous buffer restriction (narrowing). The candidates are the zones in the current `zz-izones-var'. With no prefix arg, widen to the previous narrowing. With a plain prefix arg (`C-u'), widen completely. With a zero prefix arg (`C-0'), widen completely and reset (empty) the list of zones for this buffer. With a numeric prefix arg N, widen abs(N) times (to the abs(N)th previous narrowing). Positive and negative args work the same, except that a negative arg also pops entries off the ring: it removes the ring entries from the most recent back through the (-)Nth one. If option `zz-auto-remove-empty-izones-flag' is non-nil then all empty zones are first removed from `zz-izones-var'." (interactive "P\np") (when zz-auto-remove-empty-izones-flag (zz-remove-empty-izones zz-izones-= var)) (let* ((var zz-izones-var) (val (symbol-value var))) (unless val (error "No previous narrowing")) (cond ((or (consp arg) (and (null (cdr val)) (zz-buffer-narrowed-p))) (widen) (setq zz-lighter-narrowing-part "") (zz-narrowing-lighter) (when msgp (message "No longer narrowed"))) ((=3D (prefix-numeric-value arg) 0) (set var ()) (widen) (setq zz-lighter-narrowing-part "") (zz-narrowing-lighter) (when msgp (message "No longer narrowed; no more narrowings"))) (t (setq arg (prefix-numeric-value arg)) (let ((latest ()) (cntr (abs arg))) (while (> cntr 0) (push (nth (1- cntr) val) latest) (setq cntr (1- cntr))) (setq latest (nreverse latest)) (when (< arg 0) (setq arg (abs arg) latest ())) (setq val (set var (append (nthcdr arg= val) latest)) val (set var (mapcar #'zz-marker= ize val))) (cond (val (setq zz-lighter-narrowing-part (format "-%d" (caar v= al))) (condition-case err (let* ((zz-add-zone-anyway-p t) (izone (car val)) (beg (nth 1 izone)) (end (nth 2 izone)) (other-buf nil)) (when (and (not (local-variable-p var)) (setq other-buf (zz-izone-has-other-b= uffer-marker-p izone)) ; Marker or nil. (or (not (markerp beg)) (not (markerp= end)) (eq (marker-buffer beg) (marker-bu= ffer end))) ; Same other buffer. (setq other-buf (marker-buffer other-= buf))) (pop-to-buffer other-buf)) (narrow-to-region beg end) (zz-narrowing-lighter)) (args-out-of-range (set var (cdr val)) (error "Restriction removed becaus= e of invalid limits")) (error (error "%s" (error-message-string err))))) (t ; No zones now. E.g., negative ARG popped off the la= st one. (widen) (setq zz-lighter-narrowing-part "") (zz-narrowing-lighter) (when msgp (message "No longer narrowed"))))))))) ;;;###autoload (defun zz-add-zone (start end &optional variable not-buf-local-p set-var-p = msg) ; Bound to `C-x n a'. "Add an izone for the region to the izones of VARIABLE. But do not add a zone if it would cover the entire buffer. Return the new value of VARIABLE. This is a destructive operation: The list structure of the variable value can be modified. VARIABLE defaults to the value of `zz-izones-var'. With a prefix arg you are prompted for a different variable to use, in place of the current value of `zz-izones-var'. The particular prefix arg determines whether the variable, if unbound, is made buffer-local, and whether `zz-izones-var' is set to the variable symbol: prefix arg buffer-local set `zz-izones-var' ---------- ------------ ------------------- Plain `C-u' yes yes > 0 (e.g. `C-1') yes no =3D 0 (e.g. `C-0') no yes < 0 (e.g. `C--') no no Non-interactively: * START and END are as for `narrow-to-region'. * VARIABLE is the optional izones variable to use. * Non-nil NOT-BUF-LOCAL-P means do not make VARIABLE buffer-local. * Non-nil SET-VAR-P means set `zz-izones-var' to VARIABLE. * Non-nil MSG means echo the zone limits, preceded by string MSG. See also `zz-add-region-as-izone' which also adds the region as an izone, but which has a simpler signature and so can be used as a hook function. (In particular, it is used `on `deactivate-mark-hook' by `zz-auto-add-region-as-izone-mode', to automatically add the region as an izone each time it is deactivated.)" (interactive (let* ((beg (region-beginning)) (end (region-end)) (var (or (and current-prefix-arg (zz-read-any-var= iable "Variable: " zz-izones-var)) zz-izones-var)) (npref (prefix-numeric-value current-prefix-arg)) (nloc (and current-prefix-arg (<=3D npref 0) (not= (boundp var)))) (setv (and current-prefix-arg (or (consp current-p= refix-arg) (=3D npref 0))))) (list beg end var nloc setv "Recorded zone: "))) (let* ((mrk1 (make-marker)) (mrk2 (make-marker)) (var (or variable zz-izones-var)) (_IGNORE (unless (or not-buf-local-p (boundp var)) (make-local-v= ariable var))) (_IGNORE (when set-var-p (setq zz-izones-var var))) (_IGNORE (unless (boundp var) (set var ()))) (val (symbol-value var)) sans-id id-cons id izone) (unless (zz-izones-p val) (zz-user-error "Not an izones variable: `%s',= value: `%S'" var val)) (move-marker mrk1 start) (move-marker mrk2 end) (setq sans-id (list mrk1 mrk2) id-cons (rassoc sans-id val) id (if id-cons (car id-cons) (- (1+ (length val)))) ; 1-bas= ed, not 0-based. val (set var (zz-rassoc-delete-all sans-id val))) ; Destruct= ive operation. (when (and (=3D mrk1 1) (=3D mrk2 (1+ (buffer-size)))) (zz-user-error "Zone not created - it would cover whole buffer")) (setq izone `(,id ,mrk1 ,mrk2)) (set var `(,izone ,@val)) (when msg (message "%s%d to %d" msg (marker-position mrk1) (marker-posi= tion mrk2))) (symbol-value var))) ;;;###autoload (defun zz-delete-zone (id &optional variable msgp) ; Bound to `C-x n C-d'. "Delete a zone by completing against its ID and its text (content). Delete the zone from VARIABLE, and renumber those remaining. Return the new value of VARIABLE. This is a destructive operation: The list structure of the variable value can be modified and the zones are renumbered. VARIABLE defaults to the value of `zz-izones-var'. With a prefix arg you are prompted for a different variable to use. Non-nil optional arg NOMSG means do not display a status message. If option `zz-auto-remove-empty-izones-flag' is non-nil then all empty zones are first removed from VARIABLE." (interactive (let* ((var (or (and current-prefix-arg (zz-read-any-variable "Vari= able: " zz-izones-var t)) zz-izones-var)) (_IGNORE (when zz-auto-remove-empty-izones-flag (zz-remove-empty= -izones var))) (izones (symbol-value var)) (_IGNORE (unless (zz-izones-p izones) (error "Not an izones variable: `%s', value: `%S'" va= r izones))) (_IGNORE (unless izones (error "No zones - variable `%s' is empt= y" var))) (len (length izones)) (num (if (=3D len 1) 1 (string-to-number (completing-read (format "Delete zo= ne with ID (1 to %d): " len) (mapcar zz-zone-ab= stract-function izones) nil t))))) (list num var t))) (unless variable (setq variable zz-izones-var)) (let ((izones (symbol-value variable))) (unless (zz-izones-p izones) (error "Not an izones variable: `%s', valu= e: `%S'" variable izones)) (unless izones (error "No zones - variable `%s' is empty" variable)) (set variable (assq-delete-all (- id) izones))) (zz-izones-renumber variable) (when msgp (message "Deleted zone with ID %d" id)) (symbol-value variable)) ;;;###autoload (defun zz-narrow-repeat () ; Bound to `C-x n x'. "Cycle to the next buffer restriction (narrowing). This is a repeatable version of `zz-narrow'. Note that if the value of `zz-izones-var' is not buffer-local then you can use this command to cycle among zones in multiple buffers." (interactive) (zz-repeat-command 'zz-narrow)) ;;;###autoload (defalias 'zz-select-region-repeat #'zz-select-zone-repeat) ;;;###autoload (defun zz-select-zone-repeat () ; Bound to `C-x n s'. "Cycle to the next zone, and make it the active region. Zones are cycled in chronological order of their recording. This is a repeatable version of `zz-select-zone'." (interactive) (zz-repeat-command 'zz-select-zone)) ;;;###autoload (defun zz-set-izones-var (variable &optional localp) ; Bound to `C-x n v' "Set `zz-izones-var' to VARIABLE, for which you are prompted. With a prefix arg, make VARIABLE automatically be buffer-local." (interactive (list (zz-read-any-variable "Variable: " zz-izones-var) curr= ent-prefix-arg)) (setq zz-izones-var variable) (when localp (make-variable-buffer-local variable))) ;;;###autoload (defun zz-clone-zones (from-variable to-variable &optional msgp) ; Bound to= `C-x n c' "Clone FROM-VARIABLE to TO-VARIABLE. Return the new value of TO-VARIABLE. That is, copy the zones of FROM-VARIABLE to (emptied) TO-VARIABLE. A non-destructive operation: The value of TO-VARIABLE is a new list, with only the zones from FROM-VARIABLE. Return the value of TO-VARIABLE. You are prompted for FROM-VARIABLE and TO-VARIABLE. With a non-negative (>=3D 0) prefix arg, make TO-VARIABLE buffer-local. With a non-positive (<=3D 0) prefix arg, set `zz-izones-var' to the TO-VARIABLE symbol. (Zero: do both.) FROM-VARIABLE defaults to the value of `zz-izones-var'. Non-interactively: Non-nil MSGP means show a status message." (interactive (let ((from-var (zz-read-any-variable "Copy variable: " zz-izones-var t= )) (to-var (zz-read-any-variable "To variable: ")) (npref (and current-prefix-arg (prefix-numeric-value current-= prefix-arg)))) (when (and npref (>=3D npref 0)) (make-local-variable to-var)) (when (and npref (<=3D npref 0)) (setq zz-izones-var to-var)) (list from-var to-var t))) (prog1 (set to-variable (copy-sequence (symbol-value from-variable))) (when msgp (message "Cloned `%s' to `%s'" from-variable to-variable)))) ;;;###autoload (defalias 'zz-clone-and-coalesce-zones #'zz-clone-and-unite-zones) ;;;###autoload (defun zz-clone-and-unite-zones (from-variable to-variable &optional msgp) = ; Bound to `C-x n C' "Clone FROM-VARIABLE to TO-VARIABLE, then unite (coalesce) TO-VARIABLE. That is, use`zz-clone-zones' to fill TO-VARIABLE, then use `zz-unite-zones' on TO-VARIABLE. Just as for `zz-clone-zones': With a non-negative (>=3D 0) prefix arg, make TO-VARIABLE buffer-local. With a non-positive (<=3D 0) prefix arg, set `zz-izones-var' to the TO-VARIABLE symbol. (Zero: do both.) United zones are in ascending order of their cars. Return the new value of TO-VARIABLE. Use this when you do not want to unite the zones of FROM-VARIABLE (for example, you want to use them as possibly overlapping buffer narrowings), but you also want to act on the united zones (for example, to search them). FROM-VARIABLE defaults to the value of `zz-izones-var'. Non-interactively: Non-nil MSGP means show a status message." (interactive (let ((from-var (zz-read-any-variable "Copy variable: " zz-izones-var t= )) (to-var (zz-read-any-variable "To variable: ")) (npref (and current-prefix-arg (prefix-numeric-value current-= prefix-arg)))) (when (and npref (>=3D npref 0)) (make-local-variable to-var)) (when (and npref (<=3D npref 0)) (setq zz-izones-var to-var)) (list from-var to-var t))) (set to-variable (copy-sequence (symbol-value from-variable))) (prog1 (zz-unite-zones to-variable) (when msgp (message "Cloned `%s' to `%s' and united `%s'" from-variable= to-variable to-variable)))) ;;;###autoload (defalias 'zz-coalesce-zones #'zz-unite-zones) ;;;###autoload (defun zz-unite-zones (&optional variable msgp) ; Bound to `C-x n u' "Coalesce (unite) the izones of VARIABLE. A non-destructive operation: The new value of VARIABLE is a new list. Return the new value of VARIABLE. United zones are in ascending order of their cars. VARIABLE defaults to the value of `zz-izones-var'. With a prefix arg you are prompted for a different variable to use, in place of the current value of `zz-izones-var'. If the prefix arg is non-negative (>=3D 0) then make the variable buffer-local. If the prefix arg is non-positive (<=3D 0) then set `zz-izones-var' to that variable symbol. (Zero: do both.) Non-interactively: * VARIABLE is the optional izones variable to use. * Non-nil MSGP means show a status message." (interactive (let* ((var (and current-prefix-arg (zz-read-any-variabl= e "Variable: " zz-izones-var t))) (npref (prefix-numeric-value current-prefix-arg))) (when (and current-prefix-arg (>=3D npref 0)) (make-local= -variable var)) (when (and current-prefix-arg (<=3D npref 0)) (setq zz-iz= ones-var var)) (list var t))) (let* ((var (or variable zz-izones-var)) (_IGNORE (unless (boundp var) (set var ()))) (val (symbol-value var)) (_IGNORE (unless (zz-izones-p val) (error "Not an izones varia= ble: `%s', value: `%S'" var val))) (zone-union (zz-zone-union (zz-izone-limits val)))) (set var (zz-izones-from-zones zone-union)) (when msgp (let ((len (length (symbol-value var)))) (message "Zones united for variable `%s': %d zone%s now" var len (i= f (> len 1) "s" "")))) (symbol-value var))) ;;;###autoload (defalias 'zz-add-zone-and-coalesce #'zz-add-zone-and-unite) ;;;###autoload (defun zz-add-zone-and-unite (start end &optional variable msg) ; Bound to = `C-x n A'. "Add an izone from START to END to those of VARIABLE, and coalesce. Use `zz-add-zone', then apply `zz-unite-zones'. United zones are in ascending order of their cars. Return the new value of VARIABLE. This is a destructive operation: The list structure of the variable value can be modified. VARIABLE defaults to the value of `zz-izones-var'. START and END are as for `narrow-to-region'. With a prefix arg you are prompted for a different variable to use, in place of the current value of `zz-izones-var'. If the prefix arg is non-negative (>=3D 0) then make the variable buffer-local. If the prefix arg is non-positive (<=3D 0) then set `zz-izones-var' to that variable symbol. (Zero: do both.) Non-interactively: * VARIABLE is the optional izones variable to use. * Non-nil MSG means echo messages for adding the zone and uniting zones. In this case MSG is the message prefix for `zz-add-zone'." (interactive (let ((beg (region-beginning)) (end (region-end)) (var (or (and current-prefix-arg (zz-read-any-vari= able "Variable: " zz-izones-var)) zz-izones-var)) (npref (prefix-numeric-value current-prefix-arg))) (when (and current-prefix-arg (>=3D npref 0)) (make-local= -variable var)) (when (and current-prefix-arg (<=3D npref 0)) (setq zz-iz= ones-var var)) (list beg end var "Zone recorded: "))) (unless variable (setq variable zz-izones-var)) (zz-add-zone start end variable nil nil msg) (zz-unite-zones variable msg) (symbol-value variable)) ;;;###autoload (defun zz-add-zones-matching-regexp (regexp ; Bound to `C-x n r' &optional variable beg end not-buf-loc= al-p set-var-p msgp) "Add matches for REGEXP as zones to the izones of VARIABLE. If region is active, limit action to region. Else, use whole buffer. Return the new value of VARIABLE. If `isearchp-dim-outside-search-area-flag' is non-nil then dim the non-contexts. (You can use `\\[isearchp-remove-dimming]' or \ `\\[isearchp-toggle-dimming-outside-search-area]' to remove the dimming.) See `zz-add-zone' for a description of VARIABLE, the use of a prefix arg, and the parameters when called from Lisp." (interactive (let* ((regx (read-regexp "Add zones matching regexp: ")) (var (or (and current-prefix-arg (zz-read-any-variable "Varia= ble: " zz-izones-var t)) zz-izones-var)) (beg (if (and transient-mark-mode mark-active) (region-beginn= ing) (point-min))) (end (if (and transient-mark-mode mark-active) (region-end) (= point-max))) (npref (prefix-numeric-value current-prefix-arg)) (nloc (and current-prefix-arg (<=3D npref 0) (not (boundp var= )))) (setv (and current-prefix-arg (or (consp current-prefix-arg) = (=3D npref 0))))) (list regx var beg end nloc setv t))) (unless (and beg end) (setq beg (point-min) end (point-max))) (unless (< beg end) (setq beg (prog1 end (setq end beg)))) (let ((last-beg nil) (num-hits 0)) (condition-case-unless-debug zz-add-zones-matching-regexp (save-excursion (goto-char (setq last-beg beg)) (while (and beg (< beg end) (not (eobp)) (progn (while (and (setq beg (re-search-forward rege= xp end t)) (eq last-beg beg) (not (eobp))) ;; Matched again, same place. Advance 1 cha= r. (forward-char) (setq beg (1+ beg))) beg)) ; Stop if no more matches. (setq num-hits (1+ num-hits)) (let* ((hit-beg (match-beginning 0)) (hit-end (match-end 0)) (hit-string (buffer-substring-no-properties hit-beg hit= -end)) (c-beg last-beg) (c-end (if beg (match-beginning 0) (min end (point= -max))))) ; Truncate. (isearchp-add/remove-dim-overlay c-beg c-end 'ADD) (cond ((not (string=3D "" hit-string)) (zz-add-zone c-beg c-end variable not-buf-local-p set-= var-p) (isearchp-add/remove-dim-overlay hit-beg hit-end nil)) (t (isearchp-add/remove-dim-overlay hit-beg hit-end 'ADD)= ))) (goto-char (setq last-beg beg)))) (error (error "%s" (error-message-string zz-add-zones-matching-regexp= )))) (unless (> num-hits 0) (zz-user-error "No regexp matches")) (when msgp (let ((dim-msg (if (not (bound-and-true-p isearchp-dim-outside-searc= h-area-flag)) "" (substitute-command-keys "; `\\[isearchp-remove-dimming]' or \ `\\[isearchp-toggle-dimming-outside-search-area]' removes dimming")))) (case num-hits (1 (message "1 zone added%s" dim-msg)) (t (message "%d zones added or updated%s" num-hits dim-msg))))) variable)) ;;;###autoload (defun zz-set-zones-matching-regexp (regexp ; Bound to `C-x n R' &optional variable beg end not-buf-loc= al-p set-var-p msgp) "Replace value of izones variable with zones matching REGEXP. Like `zz-add-zones-matching-regexp' (which see), but it replaces any current zones instead of adding to them." (interactive (let* ((var (or (and current-prefix-arg (zz-read-any-variable "Varia= ble: " zz-izones-var t)) zz-izones-var)) (regx (read-regexp (format "Set `%s' to zones matching regexp: = " var))) (beg (if (and transient-mark-mode mark-active) (region-beginn= ing) (point-min))) (end (if (and transient-mark-mode mark-active) (region-end) (= point-max))) (npref (prefix-numeric-value current-prefix-arg)) (nloc (and current-prefix-arg (<=3D npref 0) (not (boundp var= )))) (setv (and current-prefix-arg (or (consp current-prefix-arg) = (=3D npref 0))))) (list regx var beg end nloc setv t))) (set variable ()) (zz-add-zones-matching-regexp regexp variable beg end not-buf-local-p set= -var-p msgp)) ;;;###autoload (defun zz-add-zones-from-highlighting ( ; Bound to `C-x n l' &optional start end face only-hlt-fa= ce overlay/text fonk-lock-p msgp) "Add highlighted areas as zones to izones variable. By default, the text used is that highlighted with `hlt-last-face'. With a non-negative prefix arg you are instead prompted for the face. With a non-positive prefix arg use face property `font-lock-face' instead of property `face'. The izones variable to use is the value of `zz-izones-var'. You can set this to a different variable anytime using `\\[zz-set-izones-var]'. All highlighting is checked, both overlays and face text properties. The number of highlighted areas added as zones is echoed in a message. This might be less than the number of zones added, because there can be multiple highlights with the same face for the same area. When called from Lisp: * Non-nil START and END are the buffer limits to search. * Non-nil FACE is the highlighting face to look for. * Non-nil ONLY-HLT-FACE means check only `highlight.el' highlighting. (By default, any highlighting is checked.) * If OVERLAY/TEXT is `text-prop' then only text-property highlighting is checked. If it is `overlay' then only overlay highlighting is checked. (If nil then both are checked.) * Non-nil FONK-LOCK-P means check property `font-lock-face'. By default (nil), check property `face'." (interactive (let ((numarg (and current-prefix-arg (prefix-numeric-value current-pr= efix-arg)))) (unless (require 'highlight nil t) (zz-user-error "You need library `h= ighlight.el' to use this command")) `(,@(hlt-region-or-buffer-limits) ,(if (natnump numarg) (hlt-read-bg/face-name "Create zones highlighted with face: ") hlt-last-face) nil nil ,(and numarg (<=3D numarg 0)) t))) (require 'highlight) (unless (and start end) (let ((start-end (hlt-region-or-buffer-limits))) (setq start (car start-end) end (cadr start-end)))) (unless face (setq face hlt-last-face)) (let ((hlt-use-overlays-flag (case overlay/text (text-prop nil) ; Only text property (overlay 'only) ; Only overlay (t t))) ; Default: both (hlt-act-on-any-face-flag (not only-hlt-face)) (hlt-face-prop (if fonk-lock-p 'font-lock-face 'face)) (count 0)) (save-excursion (save-window-excursion (goto-char start) (let ((zone-beg start) zone-end zone) (while (and zone-beg (< zone-beg end)) (setq zone (hlt-next-highlight zone-beg end face nil nil '= no-error-msg) zone-beg (car zone) zone-end (cdr zone)) ;; Create zone from `zone-beg' to `zone-end' if highlighted. A= dd it to zones list. (when hlt-use-overlays-flag (let ((overlays (overlays-at zone-beg))) (while overlays (when (and (or hlt-act-on-any-face-flag (equal face (overlay-get (car overlays) 'h= lt-highlight))) (equal face (overlay-get (car overlays) hlt-fa= ce-prop))) (zz-add-zone zone-beg zone-end) (setq count (1+ count))) (when overlays (setq overlays (cdr overlays)))))) (when (and (not (eq hlt-use-overlays-flag 'only)) (or hlt-act-on-any-face-flag (equal face (get-text-= property (point) 'hlt-highlight))) (let ((pt-faces (get-text-property (point) hlt-face= -prop))) (if (consp pt-faces) (memq face pt-faces) (equal f= ace pt-faces)))) (zz-add-zone zone-beg zone-end) (setq count (1+ count))))))) (when msgp (case count (0 (message "NO zones added or updated")) (1 (message "1 zone added or updated")) (t (message "%s highlighted areas added or updated as zones" count)= ))))) ;;;###autoload (defun zz-set-zones-from-highlighting ( ; Bound to `C-x n L' &optional start end face only-hlt-fa= ce overlay/text fonk-lock-p msgp) "Replace value of izones variable with zones from the highlighted areas. Like `zz-add-zones-from-highlighting' (which see), but it replaces any current zones instead of adding to them." (interactive (let ((numarg (and current-prefix-arg (prefix-numeric-value current-pr= efix-arg)))) (unless (require 'highlight nil t) (zz-user-error "You need library `h= ighlight.el' to use this command")) `(,@(hlt-region-or-buffer-limits) ,(if (natnump numarg) (hlt-read-bg/face-name "Create zones highlighted with face: ") hlt-last-face) nil nil ,(and numarg (<=3D numarg 0)) t))) (set zz-izones-var ()) (zz-add-zones-from-highlighting start end face only-hlt-face overlay/text= fonk-lock-p msgp)) ;;;###autoload (defun zz-set-zones-from-face (face &optional start end variable) ; Bound t= o `C-x n f' "Set an izones variable to (united) zones of a face or background color. You are prompted for a face name or a color name. If you enter a color, it is used for the face background. The face foreground is determined by the value of `hlt-auto-face-foreground'. The variable defaults to `zz-izones'. With a prefix arg you are prompted for a different izones variable." (interactive (progn (unless (require 'highlight nil t) (error "You need library `highlight.el' for this command")) (let ((fac (hlt-read-bg/face-name "Choose background color or face: " (and (symbolp hlt-last-face) (symb= ol-name hlt-last-face)))) (var (or (and current-prefix-arg (zz-read-any-variable "Variab= le: " zz-izones-var)) zz-izones-var))) (if (hlt-nonempty-region-p) (if (< (point) (mark)) (list (point) (mark) var t) (list (mark) = (point) var t)) (list fac (point-min) (point-max) var t))))) (unless (require 'highlight nil t) (error "You need library `highlight.el' for this command")) (unless (require 'isearch-prop nil t) (error "You need library `isearch-prop.el' for this command")) (unless (require 'zones nil t) (error "You need library `zones' for this command")) (font-lock-default-fontify-buffer) ; Fontify the whole buffer. (zz-set-zones-from-highlighting start end face nil 'text-prop) (zz-unite-zones variable t)) ;;;###autoload (define-minor-mode zz-auto-add-region-as-izone-mode "Toggle automatically adding region as an izone upon its deactivation. The zone is added to the current value of `zz-izones-var'. An empty region is not added. This uses function `zz-add-region-as-izone' on `deactivate-mark-hook'." nil nil nil (if zz-auto-add-region-as-izone-mode (add-hook 'deactivate-mark-hook #'zz-add-region-as-izone) (remove-hook 'deactivate-mark-hook #'zz-add-region-as-izone))) ;;;###autoload (defun zz-add-region-as-izone (&optional interactivep) "Add non-empty region as izone to current value of `zz-izones-var'." (interactive "p") (when (if interactivep (use-region-p) (mark)) (condition-case nil (let ((beg (region-beginning)) (end (region-end))) (unless (=3D beg end) (zz-add-zone beg end))) (error nil)))) ;;(@* "General Non-Interactive Functions") ;;; General Non-Interactive Functions -------------------------------- (defun zz-zone-abstract-function-default (izone) "Default value of `zz-zone-abstract-function'. The abstract it produces for IZONE is (the absolute value of) the zone ID, followed by the first `zz-zone-abstract-limit' chars of the zone text. The return value of the function is a cons, (ABSTRACT . IZONE), whose car is the abstract and whose cdr is the izone." (let ((id (abs (car izone))) (beg (cadr izone)) (end (caddr izone))) (cons (format "%d %s" id (buffer-substring beg (min (+ beg zz-zone-abst= ract-limit) end))) izone))) (defun zz-zone-ordered (zone) "Return ZONE or ZONE with its car and cadr reversed, so car <=3D cadr. The cddr of ZONE remains as it was." (let ((beg (car zone)) (end (cadr zone)) (extra (cddr zone))) (when (zz-readable-marker-p beg) (setq beg (nth 2 beg))) (when (zz-readable-marker-p end) (setq end (nth 2 end))) (if (<=3D beg end) zone `(,end ,beg ,@extra)))) (defun zz-zones-overlap-p (zone1 zone2) "Return non-nil if ZONE1 and ZONE2 overlap. Assumes that each zone is ordered (its car <=3D its cadr). The cddrs are ignored. Zones that use markers do not overlap if the marker buffers differ." (and (zz-zones-same-buffer-name-p zone1 zone2) (progn (when (< (car zone2) (car zone1)) (setq zone1 (prog1 zone2 (s= etq zone2 zone1)))) (<=3D (car zone2) (cadr zone1))))) (defun zz-zones-same-buffer-name-p (zone1 zone2) "Return non-nil if ZONE1 and ZONE2 apply to the same buffer. This is the case if `zz-zone-buffer-name' returns the same name for each. (A buffer with that name need not exist.)" (eq (zz-zone-buffer-name zone1) (zz-zone-buffer-name zone2))) (defun zz-zone-buffer-name (zone) "Return the name of the buffer used by ZONE. If the two ZONE positions specify different buffers, or if either is a marker that points nowhere, then raise an error." (let* ((lim1 (car zone)) (lim2 (cadr zone)) (buf1 (cond ((markerp lim1) (and (marker-buffer lim= 1) (buffer-name (mark= er-buffer lim1)))) ((zz-readable-marker-p lim1) (cadr lim1)) (t (buffer-name (current-b= uffer))))) (buf2 (cond ((markerp lim2) (and (marker-buffer lim= 2) (buffer-name (mark= er-buffer lim2)))) ((zz-readable-marker-p lim2) (cadr lim2)) (t (buffer-name (current-b= uffer)))))) (unless (and buf1 buf2) (error "Zone has marker(s) that point nowhere:= %S" zone)) (unless (equal buf1 buf2) (error "Zone has conflicting buffers: %S" zon= e)) buf1)) (defun zz-choose-zone-by-id-and-text (&optional izones) "Prompt for a zone from IZONES, completing against its ID and its text. Return the chosen zone. If you hit `RET' with empty input then this is the first zone of IZONES. IZONES defaults to the value of the variable that is the value of `zz-izones-var'. If option `zz-auto-remove-empty-izones-flag' is non-nil then all empty zones are first removed from IZONES (but not from any izones variable)." (setq izones (or izones (symbol-value zz-izones-var))) (when zz-auto-remove-empty-izones-flag (setq izones (zz-remove-if #'zz-e= mpty-zone-p izones))) (unless izones (zz-user-error "No zones defined")) (let* ((abs-zones (mapcar zz-zone-abstract-function izones)) (num (string-to-number (completing-read "Zone: " abs-zones nil t nil 'zz-zone-history= (car abs-zones))))) (assq (- num) izones))) (defun zz-do-zones (function &optional zones unite-p) "Like `zz-map-zones', but without returning the result of mapping. The return value is undefined." (when (functionp function) (when (zz-izones-p zones) (setq zones (zz-izone-limits zones nil 'ONLY= -THIS-BUFFER))) (when unite-p (setq zones (zz-zone-union zones))) (dolist (zone zones) (funcall function (car zone) (cadr zone))))) (defun zz-map-zones (function &optional zones unite-p) "Map binary FUNCTION over ZONES, applying it to the limits of each zone. ZONES can be a list of basic zones or a list like `zz-izones', that is, zones that have identifiers. Non-nil optional arg UNITE-P means first unite the zones and then iterate over the resulting list." (if (not (functionp function)) (or zones zz-izones) (when (zz-izones-p zones) (setq zones (zz-izone-limits zones nil 'ONLY= -THIS-BUFFER))) (when unite-p (setq zones (zz-zone-union zones))) (mapcar (lambda (zone) (funcall function (car zone) (cadr zone))) zones= ))) (defun zz-do-izones (function &optional izones unite-p) "Like `zz-map-izones', but without returning the result of mapping. The return value is undefined." (when (functionp function) (when unite-p (setq izones (zz-unite-zones izones))) (dolist (izone izones) (funcall function (car izone) (cadr izone) (cad= dr izone))))) (defun zz-map-izones (function &optional izones unite-p) "Map FUNCTION over IZONES. Apply FUNCTION to the first three elements of each izone, that is, the identifier and the zone limits. IZONES is a list like `zz-izones', that is, zones with identifiers. By default, IZONES is the value of `zz-izones'. Non-nil optional arg UNITE-P means first unite the zones and then iterate over the resulting list." (if (not (functionp function)) (or izones zz-izones) (when unite-p (setq izones (zz-unite-zones izones))) (mapcar (lambda (izone) (funcall function (car izone) (cadr izone) (cad= dr izone))) izones))) (defun zz-order-zones (&optional zones descendingp) "Order each zone in ZONES, so that first limit is less than the second. ZONES can be a list of basic zones or a list like `zz-izones', that is, zones that have identifiers. Non-nil optional arg DESCENDINGP means put greater limit first." (zz-map-zones (lambda (lim1 lim2) (if (if descendingp (< lim1 lim2) (> lim1 lim2)) (list li= m2 lim1) (list lim1 lim2))) zones)) (defun zz-zones-complement (zones &optional beg end) "Return a list of zones that is the complement of ZONES, from BEG to END. ZONES is assumed to be a union, i.e., sorted by car, with no overlaps. Any extra info in a zone of ZONES, i.e., after the cadr, is ignored." (setq beg (zz-marker-from-object (or beg (point-min))) end (zz-marker-from-object (or end (point-max)))) (let ((res ())) (dolist (zone zones) (push (list beg (car zone)) res) (setq beg (cadr zone))) (setq res (nreverse (push (list beg end) res))))) (defun zz-two-zone-union (zone1 zone2) "Return the union of ZONE1 and ZONE2, or nil if they do not overlap. Assumes that each zone is ordered (its car <=3D its cadr). The cddr of a non-nil result (its EXTRA information, which must be a list) is the union of the EXTRA information of each zone: (zz-set-union (cddr zone1) (cddr zone2)) This is a non-destructive operation: The result is a new list." (and (zz-zones-overlap-p zone1 zone2) `(,(zz-min (car zone1) (car zone2= )) ,(zz-max (cadr zone1) (cadr zon= e2)) ,@(zz-set-union (cddr zone1) (c= ddr zone2))))) (defun zz-zone-union (zones &optional buffer) "Return the union (coalescence) of the zones in list ZONES. Each element of ZONES is a list of two zone limits, possibly followed by extra info: (LIMIT1 LIMIT2 . EXTRA), where EXTRA is a list. The limits need not be in numerical order. Each limit can be a number or a marker, but zones with markers for buffers other than BUFFER (default: current buffer) are ignored. Any zones that use markers for a buffer other than BUFFER (default: current buffer) are excluded. Returns a new list, which is sorted by the lower limit of each zone, which is its car. (This is a non-destructive operation.) Each zone in ZONES is first ordered, so that its car <=3D its cadr. The resulting zones are then sorted by their cars. `zz-two-zone-union' is then applied recursively to coalesce overlapping or adjacent zones. This means also that any EXTRA info is combined whenever zones are merged together." (let* ((filtered-zones (zz-remove-zones-w-other-buffer-markers zones buf= fer)) (flipped-zones (mapcar #'zz-zone-ordered filtered-zones)) (sorted-zones (sort flipped-zones #'zz-car-<))) (zz-zone-union-1 sorted-zones))) (defun zz-zone-union-1 (zones) "Helper for `zz-zone-union'." (if (null (cdr zones)) zones (let ((acc ()) new) (while zones (setq new (and (cdr zones) (zz-two-zone-union (car zones) (cadr z= ones)))) (if new (setq zones (cons new (cddr zones))) (setq acc (cons (car zones) acc) zones (cdr zones)))) (setq acc (nreverse acc))))) (defun zz-car-< (zone1 zone2) "Return non-nil if car of ZONE1 < car of ZONE2. Each car can be a number or a marker. * Two numbers or two markers in the same buffer: Use `<'. * Two markers in different buffers: Use `string<' of the buffer names. * Only one is a marker: If its buffer is current then treat it as a number, using `<'. Else return false if the marker is for ZONE1 and return true if it is for ZONE2." (let* ((p1 (car zone1)) (p2 (car zone2)) (m1 (markerp p1)) (m2 (markerp p2)) (b1 (and m1 (marker-buffer p1))) (b2 (and m2 (marker-buffer p2)))) (cond ((and (not m1) (not m2)) (< p1 p2)) ((and m1 m2) (if (eq b1 b2) (< p1 p2) (string< (buffer-name b1= ) (buffer-name b2)))) (m1 (and (eq (current-buffer) b1) (< p1 p2))) (m2 (or (not (eq (current-buffer) b2)) (< p1 p2)))))) (defun zz-two-zone-intersection (zone1 zone2) "Return intersection of ZONE1 and ZONE2. \(The result is nil if they do not overlap.) Assumes that each zone is ordered (its car <=3D its cadr). The cddr of a non-nil result (its list of EXTRA information) is the intersection of the EXTRA information of each zone: (zz-set-intersection (cddr zone1) (cddr zone2)) This is a non-destructive operation: The result is a new list." (and (zz-zones-overlap-p zone1 zone2) `(,(zz-max (car zone1) (car zone2= )) ,(zz-min (cadr zone1) (cadr zon= e2)) ,@(zz-set-intersection (cddr zo= ne1) (cddr zone2))))) (defun zz-zone-intersection (zones) "Return the intersection of the zones in list ZONES. Each element of ZONES is a list of two zone limits, possibly followed by extra info: (LIMIT1 LIMIT2 . EXTRA), where EXTRA is a list. The limits do not need to be in numerical order. Returns a new list, which is sorted by the lower limit of each zone, which is its car. (This is a non-destructive operation.) Each zone in ZONES is first ordered, so that its car <=3D its cadr. The resulting zones are then sorted by their cars. `zz-two-zone-intersection' is then applied recursively to combine overlapping zones. This means also that any EXTRA info is combined when zones are merged together." (let* ((flipped-zones (mapcar #'zz-zone-ordered zones)) (sorted-zones (sort flipped-zones (lambda (z1 z2) (< (car z1) (c= ar z2)))))) (zz-zone-intersection-1 sorted-zones))) (defun zz-zone-intersection-1 (zones) "Helper for `zz-zone-intersection'." (if (null (cdr zones)) zones (let ((new (zz-two-zone-intersection (car zones) (cadr zones)))) (and new (zz-zone-intersection-1 (cons new (cddr zones))))))) ;; From `cl-seq.el', function `union', without keyword treatment. (defun zz-set-union (list1 list2) "Combine LIST1 and LIST2 using a set-union operation. The result list contains all items that appear in either LIST1 or LIST2. This is a non-destructive function: it copies the data if necessary." (cond ((null list1) list2) ((null list2) list1) ((equal list1 list2) list1) (t (unless (>=3D (length list1) (length list2)) (setq list1 (prog1 l= ist2 (setq list2 list1)))) ; Swap. (while list2 (unless (member (car list2) list1) (setq list1 (cons (car list2= ) list1))) (setq list2 (cdr list2))) list1))) ;; From `cl-seq.el', function `intersection', without keyword treatment. (defun zz-set-intersection (list1 list2) "Set intersection of lists LIST1 and LIST2. This is a non-destructive operation: it copies the data if necessary." (and list1 list2 (if (equal list1 list2) list1 (let ((result ())) (unless (>=3D (length list1) (length list2)) (setq list1 (prog1= list2 (setq list2 list1)))) ; Swap. (while list2 (when (member (car list2) list1) (setq result (cons (car list= 2) result))) (setq list2 (cdr list2))) result)))) (defun zz-min (&rest ns) "Like `min', but if the args include a marker then return a marker. Raise an error if the args include markers from different buffers." (let ((buf (zz-buffer-of-markers ns)) (min (apply #'min ns))) (if (not buf) min (with-current-buffer (get-buffer-create buf) (set-marker (copy-marker= min) min buf))))) (defun zz-max (&rest ns) "Like `max', but if the args include a marker then return a marker. Raise an error if the args include markers from different buffers." (let ((buf (zz-buffer-of-markers ns)) (max (apply #'max ns))) (if (not buf) max (with-current-buffer (get-buffer-create buf) (set-marker (copy-marker= max) max buf))))) (defun zz-buffer-of-markers (ns) "Return the buffer of the markers in list NS, or nil if no markers. Raise an error if NS contains markers from different buffers." (let ((mkr (car (zz-some #'markerp ns)))) (and mkr (progn (unless (zz-every (lambda (nn) (or (not (markerp nn)) (eq (marke= r-buffer nn) (marker-buffer mkr)))) ns) (error "List contains markers from different buffers")) t) (marker-buffer mkr)))) ;; Similar to `every' in `cl-extra.el', without non-list sequences and mult= iple ;; sequences. (defun zz-every (predicate list) "Return t if PREDICATE is true for all elements of LIST; else nil." (while (and list (funcall predicate (car list))) (setq list (cdr list)= )) (null list)) ;; Same as `bmkp-some' in `bookmark+-1.el'. ;; This is NOT the same as `some' in `cl-extra.el', even without non-list s= equences and multiple sequences. ;; ;; If PREDICATE is satisfied by a list element ELEMENT, so that it returns = a non-nil value VALUE for ELEMENT, ;; then this returns the cons (ELEMENT . VALUE). It does not return just V= ALUE. (defun zz-some (predicate list) "Return non-nil if PREDICATE applied to some element of LIST is true. The value returned is a cons, (ELEMENT . VALUE), where ELEMENT is the first list element that satisfies PREDICATE and VALUE is the value of PREDICATE applied to ELEMENT." (let (elt val) (catch 'zz-some (while list (when (setq val (funcall predicate (setq elt (pop list)))) (throw= 'zz-some (cons elt val)))) nil))) (defun zz-narrowing-lighter () "Update minor-mode mode-line lighter to reflect narrowing/widening. Put `zz-narrow' on `mouse-2' for the lighter suffix." (let* ((%n-cons (zz-regexp-car-member "%n\\(.*\\)\\'" mode-line-modes))) (when %n-cons (setcar %n-cons (replace-regexp-in-string "%n\\(.*\\)" (if (zz-buffer-narrowed-p) = zz-lighter-narrowing-part "") (car %n-cons) nil nil 1)) (when (> (length (car %n-cons)) 2) (set-text-properties 2 (length (car %n-cons)) '(local-map (keymap (mode-line keymap (mouse-2= . zz-narrow))) mouse-face mode-line-highlight help-echo "mouse-2: Next Restriction") (car %n-cons))) ;; Dunno why we need to do this. Tried adjusting `rear-sticky' and `= front-sticky', ;; but without this the whole field (not just the suffix) gets change= d, in effect, to the above spec. (set-text-properties 0 2 '(local-map (keymap (mode-line keymap (mouse= -2 . mode-line-widen))) mouse-face mode-line-highlight help-echo "= mouse-2: Widen") (car %n-cons))))) (defun zz-regexp-car-member (regexp xs) "Like `member', but tests by matching REGEXP against cars." (and (consp xs) (if (and (stringp (car xs)) (zz-string-match-p regexp (= car xs))) xs (zz-regexp-car-member regexp (cdr xs))))) (defun zz-markerize (izone) "Convert IZONE to use markers. IZONE is a list of an identifier (a number) and two buffer positions (numbers, markers, or readable-marker objects). Positions that are numbers or readable-marker objects are converted to markers. This is a non-destructive operation: it returns a new list." (let ((ii 1) posn) (while (< ii 3) (setq posn (nth ii izone)) (when (and (not (markerp posn)) (or (natnump posn) (zz-readable-mar= ker-p posn))) (setcar (nthcdr ii izone) (zz-marker-from-object posn))) (setq ii (1+ ii)))) izone) (defun zz-marker-from-object (object) "Return an equivalent marker for OBJECT. This is a non-destructive operation: OBJECT is not modified. If OBJECT is a marker then return it. If it is a number then return (copy-marker OBJECT). If it is a readable-marker sexp then return an equivalent real marker. Otherwise, return nil. A readable marker is a sexp of form (marker BUFFER POSITION), where BUFFER is a buffer name (string) and POSITION is a buffer position \(number)." (cond ((markerp object) object) ((numberp object) (copy-marker object)) ((zz-readable-marker-p object) (with-current-buffer (get-buffer-create (nth 1 object)) (copy-mark= er (nth 2 object)))) (t nil))) (defun zz-number-or-marker-p (position) "Return non-nil if POSITION is a number, marker, or readable-marker objec= t." ;; Just like `number-or-marker-p', We don't check that a number arg is a = positive integer. (or (number-or-marker-p position) (zz-readable-marker-p position))) (defun zz-readable-marker-p (object) "Return non-nil if OBJECT is a readable marker. That is, it has form (marker BUFFER POSITION), where BUFFER is a buffer name (string), and POSITION is a buffer position (integer). OBJECT is returned." (and (consp object) (consp (cdr object)) (consp (cddr object)) (eq 'marker (nth 0 object)) (stringp (nth 1 object)) (integerp (nt= h 2 object)) object)) (defun zz-readable-marker (number-or-marker &optional num-buffer) "Return a readable marker equivalent to NUMBER-OR-MARKER, or nil. Return nil if NUMBER-OR-MARKER is not `number-or-marker-p'. \(If NUMBER-OR-MARKER is already a readable marker then return it.) A readable marker satisfies `zz-readable-marker-p'. It has the form \(marker BUFFER POSITION), where BUFFER is a buffer name (string) and POSITION is a buffer position (number). If NUMBER-OR-MARKER is itself a readable marker then return it. If NUMBER-OR-MARKER is a marker then use its buffer name as BUFFER. If NUMBER-OR-MARKER is a number then: If NUM-BUFFER names an existing buffer then use it as BUFFER. Else use the name of the current buffer as BUFFER. This is a non-destructive operation." ;; Just like `number-or-marker-p', We don't check that a number arg is a = positive integer. (cond ((zz-readable-marker-p number-or-marker) number-or-marker) ((markerp number-or-marker) `(marker ,(buffer-name (marker-buffer number-or-marker)) ,(marker-= position number-or-marker))) ((numberp number-or-marker) `(marker ,(buffer-name (or (and (stringp num-buffer) (get-buffer num-buf= fer)) (current-buffer))) ,number-or-marker)) (t nil))) (defun zz-izones-p (value) "Return non-nil if VALUE is a (possibly empty) list of izones. That is, non-nil means that VALUE has the form of `zz-izones'." (and (listp value) (listp (cdr (last value))) ; Proper list. (let ((res t)) (catch 'zz-izones-p (dolist (xx value) (unless (setq res (zz-izone-p xx)) (throw '= zz-izones-p nil)))) res))) (defun zz-izone-p (value) "Return non-nil if VALUE is an izone. That is, non-nil means it has the form (ID POS1 POS2 . EXTRA), where ID is a negative integer, and each POS is a buffer-position representation (`zz-number-or-marker-p')." (and (consp value) (condition-case nil (and (integerp (nth 0 value)) (< (nth 0 value) 0) (zz-number-or-marker-p (nth 1 value)) (zz-number-or-marker-p (nth 2 value))) (error nil)))) (defun zz-rassoc-delete-all (value alist) "Delete from ALIST all elements whose cdr is `equal' to VALUE. Elements of ALIST that are not conses are ignored. Return the modified alist. This is a destructive operation." (while (and (consp (car alist)) (equal (cdar alist) value)) (setq alist = (cdr alist))) (let ((tail alist) tail-cdr) (while (setq tail-cdr (cdr tail)) (if (and (consp (car tail-cdr)) (equal (cdar tail-cdr) value)) (setcdr tail (cdr tail-cdr)) (setq tail tail-cdr)))) alist) (defun zz-izones-renumber (&optional variable) "Renumber the izones of this buffer in the current `zz-izones-var'. This is a destructive operation: The list structure of the variable value can be modified." (let* ((var (or variable zz-izones-var)) (orig (symbol-value var))) (set var ()) (dolist (iz orig) (zz-add-zone (cadr iz) (car (cddr iz)) var)))) ;; Non-destructive version. ;; ;; (defun zz-izone-limits-in-bufs (buffers &optional variable) ;; "Return a list of all `zz-izone-limits' for each buffer in BUFFERS. ;; That is, return a list of all recorded buffer zones for BUFFERS. ;; If BUFFERS is nil, return the zones recorded for the current buffer. ;; ;; This is a non-destructive operation: The list returned is independent ;; of the `zz-izone-limits' list in each of the buffers. ;; ;; Optional arg VARIABLE is the izones variable to use. If nil, ;; use the value of `zz-izones-var'. The variable is evaluated in each ;; buffer (or in the current buffer, if BUFFERS is nil)." ;; ;; (let ((limits ())) ;; (dolist (buf (or (reverse buffers) (list (current-buffer)))) ; Rev= erse so we keep the order. ;; (with-current-buffer buf ;; (setq limits (append (zz-izone-limits (symbol-value (or variabl= e zz-izones-var)) ;; buf ;; 'ONLY-THIS-BUFFER) ;; limits)))) ;; limits)) (defun zz-izone-limits-in-bufs (buffers &optional variable) "Return a list of all `zz-izone-limits' for each buffer in BUFFERS. That is, return a list of all recorded buffer zones for BUFFERS. If BUFFERS is nil, return the zones recorded for the current buffer. This is a destructive operation: The list returned can have as sublists the `zz-izone-limits' lists of BUFFERS. Optional arg VARIABLE is the izones variable to use. If nil, use the value of `zz-izones-var'. The variable is evaluated in each buffer (or in the current buffer, if BUFFERS is nil)." (let ((limits ())) (dolist (buf (or buffers (list (current-buffer)))) (with-current-buffer buf (setq limits (nconc limits (zz-izone-limits (symbol-value (or vari= able zz-izones-var)) buf 'THISBUF))))) limits)) (defun zz-izone-limits (izones &optional buffer only-one-buffer-p) "Return a list like IZONES, but with no identifiers. That is, return a list of zones, (LIMIT1 LIMIT2 . EXTRA). This is a non-destructive operation: A new list is returned. Each limit can be a number or a marker (but see ONLY-ONE-BUFFER-P). The conses are new - they do not share with any conses with IZONES. IZONES has the same structure as `zz-izones'. The default value of IZONES is the value of the variable that is the value of `zz-izones-var'. This variable is evaluated in BUFFER \(default: current buffer) to obtain the izones. Non-nil optional arg ONLY-ONE-BUFFER-P means remove any izones that contain markers for a buffer other than BUFFER." (let ((restrs izones)) (when only-one-buffer-p (setq restrs (zz-remove-izones-w-other-buffer-markers restrs (or buf= fer (current-buffer))))) (delq nil (mapcar #'cdr restrs)))) ;; Useful for commands that want to act on zones in multiple buffers. (defun zz-read-bufs () "Read names of buffers, one at a time. `C-g' ends reading." (let ((bufs ()) buf) (while (condition-case nil (setq buf (read-buffer "Buffer (C-g to end): " (and (not (member (buffer-name (curr= ent-buffer)) bufs)) (current-buffer)) t)) (quit nil)) (push buf bufs)) (delq nil (mapcar #'get-buffer (nreverse bufs))))) (defun zz-remove-zones-w-other-buffer-markers (zones &optional buffer) "Return ZONES, but remove any that use markers for another buffer. BUFFER is the buffer to compare with (default: current buffer). This is a non-destructive operation: a (shallow) copy is returned." (unless buffer (setq buffer (current-buffer))) (zz-remove-if `(lambda (zone) (zz-zone-has-other-buffer-marker-p zone ',b= uffer)) zones)) (defun zz-remove-izones-w-other-buffer-markers (izones &optional buffer) "Return IZONES, but remove any that use markers for another buffer. BUFFER is the buffer to compare with (default: current buffer). This is a non-destructive operation: a (shallow) copy is returned." (unless buffer (setq buffer (current-buffer))) (zz-remove-if `(lambda (izone) (zz-izone-has-other-buffer-marker-p izone = ',buffer)) izones)) (defun zz-zone-has-other-buffer-marker-p (zone &optional buffer) "Return non-nil if basic ZONE has a marker for another buffer. The first marker in the zone is returned. BUFFER is the buffer to compare with (default: current buffer)." (unless buffer (setq buffer (current-buffer))) (let ((m1 (nth 0 zone)) (m2 (nth 1 zone))) (or (and (markerp m1) (not (eq buffer (marker-buffer m1))) m1) (and (markerp m2) (not (eq buffer (marker-buffer m2))) m2)))) (defun zz-izone-has-other-buffer-marker-p (izone &optional buffer) "Return non-nil if IZONE has a marker for another buffer. The first marker in the izone is returned. BUFFER is the buffer to compare with (default: current buffer)." (unless buffer (setq buffer (current-buffer))) (let ((m1 (nth 1 izone)) (m2 (nth 2 izone))) (or (and (markerp m1) (not (eq buffer (marker-buffer m1))) m1) (and (markerp m2) (not (eq buffer (marker-buffer m2))) m2)))) (defun zz-numeric-position (position) "Numeric value of POSITION, which is a number or a marker." (if (markerp position) (marker-position position) position)) (defun zz-same-position-p (pos1 pos2) "Return non-nil if POS1 and POS2 are the same position. Either can be a number, a marker, or a readable marker. If neither is a number then they must mark positions in the same buffer (otherwise return nil)." (let (buf1 buf2) (when (markerp pos1) (setq buf1 (marker-buffer pos1))) (when (markerp pos2) (setq buf2 (marker-buffer pos2))) (when (zz-readable-marker-p pos1) (setq buf1 (get-buffer (nth 1 pos1)) pos1 (nth 2 pos1))) (when (zz-readable-marker-p pos2) (setq buf2 (get-buffer (nth 1 pos2)) pos2 (nth 2 pos2))) (and (or (eq buf1 buf2) (not buf1) (not buf2)) (=3D pos1 pos2)))) (defun zz-remove-empty-izones (&optional variable) "Remove all empty izones from VARIABLE, and return its new value. This is a destructive operation. VARIABLE defaults to the value of `zz-izones-var'. With a prefix arg you are prompted for a different variable to use, in place of the current value of `zz-izones-var'. Non-interactively, VARIABLE is the optional izones variable to use." (interactive (list (or (and current-prefix-arg (zz-read-any-variable "Va= riable: " zz-izones-var)) zz-izones-var))) (setq variable (or variable zz-izones-var)) (let ((val (symbol-value variable))) (unless (zz-izones-p val) (zz-user-error "Not an izones variable: `%s',= value: `%S'" variable val)) (set variable (zz-remove-if #'zz-empty-zone-p val)))) (defun zz-empty-zone-p (zone) "Return non-nil if ZONE is empty. This means that its positions represent the same position. If both are buffer-specific then they must be for the same buffer." (let* ((bzone (if (zz-izone-p zone) (cdr zone) zone)) (pos1 (car bzone)) (pos2 (cadr bzone))) (zz-same-position-p pos1 pos2))) (defun zz-remove-if (pred xs) "A copy of list XS with no elements that satisfy predicate PRED." (let ((result ())) (dolist (x xs) (unless (funcall pred x) (push x result))) (nreverse result))) ;; Useful for commands that want to act on zones in multiple buffers (e.g.,= visible buffers only). ;; ;; Same as `icicle-remove-if-not' etc. (defun zz-remove-if-not (pred xs) "A copy of list XS with only elements that satisfy predicate PRED." (let ((result ())) (dolist (x xs) (when (funcall pred x) (push x result))) (nreverse result))) ;; Like `read-any-variable' in `strings.el', but passes REQUIRE-MATCH arg t= o `completing-read'. (defun zz-read-any-variable (prompt &optional default-value require-match) "Read the name of a variable and return it as a symbol. Prompts with string PROMPT. By default, returns DEFAULT-VALUE if non-nil. If DEFAULT-VALUE is nil and the nearest symbol to the cursor is a variable, then return that by default. Unlike `read-variable', which reads only user options, this reads the name of any variable. If optional arg REQUIRE-MATCH is nil then it reads any symbol, but it provides completion against variable names." (let ((symb (cond ((fboundp 'symbol-nearest-poin= t) (symbol-nearest-point)) ((fboundp 'symbol-at-point) (s= ymbol-at-point)) (t nil))) (enable-recursive-minibuffers t)) (when (and default-value (symbolp default-value)) (setq default-value (symbol-name default-value))) (intern (completing-read prompt obarray 'boundp require-match nil 'mini= buffer-history (let ((var-at-pt (and symb (boundp symb) (s= ymbol-name symb)))) (if (and default-value var-at-pt (> emacs-= major-version 22)) (list default-value var-at-pt) (or default-value var-at-pt))) t)))) (defun zz-repeat-command (command) "Repeat COMMAND." (require 'repeat) ;Define its vars before we let-bind t= hem. (let ((repeat-previous-repeated-command command) (repeat-message-function #'ignore) (last-repeatable-command 'repeat)) (repeat nil))) (when (> emacs-major-version 24) (defun zz-izones-from-noncontiguous-region () "Return a list of izones from `region-extract-function' bounds." (let ((ii 0)) (mapcar (lambda (posn) (cons (setq ii (1+ ii)) (list (copy-marker (c= ar posn)) (copy-marker (cdr posn))))) (funcall region-extract-function 'bounds)))) (defun zz-zones-from-noncontiguous-region () "Return a list of basic zones from `region-extract-function' bounds." (mapcar (lambda (posn) (list (copy-marker (car posn)) (copy-marker (cdr= posn)))) (funcall region-extract-function 'bounds))) (defun zz-query-replace-zones (from-string to-string &optional delimited = start end backward zones) "`query-replace' in the zones currently defined in the current buffer. The value of variable `zz-izones' defines the zones." (interactive (let* ((common (query-replace-read-args (concat "Query replace" (if current-prefix-arg (if (eq current-p= refix-arg '-) " backward" " word") "") (if (use-region-p) " = in region" "")) nil)) (beg (point-max)) (end (point-min)) (zs (zz-noncontiguous-region-from-izones zz-izones-var))) (list (nth 0 common) (nth 1 common) (nth 2 common) beg end (nth 3 co= mmon) zs))) (unless zones (error "No zones to search")) (let ((region-extract-function (lambda (_ignore) zones))) (query-replace from-string to-string delimited start end backward 'RE= GION-NONCONTIGUOUS-P))) (defun zz-query-replace-regexp-zones (regexp to-string &optional delimite= d start end backward zones) "`query-replace-regexp' in the zones currently defined in the current b= uffer. The value of variable `zz-izones' defines the zones." (interactive (let* ((common (query-replace-read-args (concat "Query replace" (if current-prefix-arg (if (eq current-p= refix-arg '-) " backward" " word") "") (if (use-region-p) " = in region" "")) nil)) (beg (point-max)) (end (point-min)) (zs (zz-noncontiguous-region-from-izones zz-izones-var))) (list (nth 0 common) (nth 1 common) (nth 2 common) beg end (nth 3 co= mmon) zs))) (unless zones (error "No zones to search")) (let ((region-extract-function (lambda (_ignore) zones))) (query-replace-regexp regexp to-string delimited start end backward '= REGION-NONCONTIGUOUS-P))) (when (> emacs-major-version 26) ; These three depend on the fix to Emacs= bug #27897. (defun zz-map-query-replace-regexp-zones (regexp to-strings &optional n= start end zones) "`map-query-replace-regexp' in the zones currently defined in the cur= rent buffer. The value of variable `zz-izones' defines the zones." (interactive (let* ((from (read-regexp "Map query replace (regexp): " nil query-= replace-from-history-variable)) (to (read-from-minibuffer (format "Query replace %s with (= space-separated strings): " (query-replace-descr fro= m)) nil nil nil query-replace-to-his= tory-variable from t)) (beg (point-max)) (end (point-min)) (zs (zz-noncontiguous-region-from-izones zz-izones-var))) (list from to (and current-prefix-arg (prefix-numeric-value curre= nt-prefix-arg)) beg end zs))) (unless zones (error "No zones to search")) (let ((region-extract-function (lambda (_ignore) zones))) (map-query-replace-regexp regexp to-strings n start end 'REGION-NON= CONTIGUOUS-P))) (defun zz-replace-string-zones (from-string to-string &optional delimit= ed start end backward zones) "`replace-string' in the zones currently defined in the current buffe= r. The value of variable `zz-izones' defines the zones." ;; (declare (interactive-only "use `search-forward' and `replace-matc= h' instead.")) (interactive (let ((common (query-replace-read-args (concat "Replace" (if current-prefix-a= rg (if (eq current-= prefix-arg '-) " backward" " word") "") " string" (if (use-region-p) "= in region" "")) nil)) (beg (point-max)) (end (point-min)) (zs (zz-noncontiguous-region-from-izones zz-izones-var))) (list (nth 0 common) (nth 1 common) (nth 2 common) beg end (nth 3 = common) zs))) (unless zones (error "No zones to search")) (let ((region-extract-function (lambda (_ignore) zones))) (replace-string from-string to-string delimited start end backward = 'REGION-NONCONTIGUOUS-P))) (defun zz-replace-regexp-zones (regexp to-string &optional delimited st= art end backward zones) "`replace-regexp' in the zones currently defined in the current buffe= r. The value of variable `zz-izones' defines the zones." ;; (declare (interactive-only "use `re-search-forward' and `replace-m= atch' instead.")) (interactive (let ((common (query-replace-read-args (concat "Replace" (if current-prefix-a= rg (if (eq current-= prefix-arg '-) " backward" " word") "") " regexp" (if (use-region-p) "= in region" "")) t)) (beg (point-max)) (end (point-min)) (zs (zz-noncontiguous-region-from-izones zz-izones-var))) (list (nth 0 common) (nth 1 common) (nth 2 common) beg end (nth 3 = common) zs))) (unless zones (error "No zones to search")) (let ((region-extract-function (lambda (_ignore) zones))) (replace-regexp regexp to-string delimited start end backward 'REGI= ON-NONCONTIGUOUS-P))) ) ; Emacs 27+ ) ; Emacs 25+ (defun zz-dot-pairs (pairs) "Dot PAIRS, a list of lists, each of which has at least two elements." (mapcar (lambda (b-e) (cons (car b-e) (cadr b-e))) pairs)) (defun zz-dotted-zones-from-izones (&optional variable) "Return a list of dotted zones from value of value of VARIABLE. VARIABLE defaults to the value of `zz-izones-var'. This is similar to an Emacs \"noncontiguous region\" - entry pairs are dotted: `(beg . end)', not `(beg end)'. But here the conses of zone limits are not united together - they can overlap." (zz-dot-pairs (zz-izone-limits (symbol-value (or variable zz-izones-var)= )))) (defun zz-noncontiguous-region-from-izones (&optional variable) "Return a noncontiguous region from value of value of VARIABLE. VARIABLE defaults to the value of `zz-izones-var'. An Emacs \"noncontiguous region\" (Emacs 25+) is what the value of `region-extract-function' returns for a METHOD argument of `bounds'. It is like a list of united basic zones, but the entry pairs are dotted: `(beg . end)', not `(beg end)'." (let ((iz-var (make-symbol "NRFI"))) (zz-dot-pairs (zz-izone-limits (zz-clone-and-unite-zones (or variable = zz-izones-var) iz-var))))) (defun zz-noncontiguous-region-from-zones (basic-zones) "Return a noncontiguous region from a list of BASIC-ZONES. An Emacs \"noncontiguous region\" (Emacs 25+) is what the value of `region-extract-function' returns. It is like a list of united basic zones, but the entry pairs are dotted: `(beg . end)', not `(beg end)'." (zz-dot-pairs (zz-zone-union basic-zones))) (defun zz-overlay-to-zone (overlay &optional pos-type) "Return a basic zone derived from OVERLAY. If OVERLAY is not an overlay or it has been deleted (has no buffer) then return nil. Optional arg POS-TYPE controls the kind of position used by the zone: `markers' - use markers `readable-markers' - use readable-markers nil - use positive integers" (let ((buf (overlay-buffer overlay))) (and buf (let* ((beg (overlay-start overlay)) (end (overlay-end overlay)) (props (overlay-properties overlay))) (case pos-type (markers (setq beg (copy-marker beg) end (copy-marker end))) (readable-markers (setq beg (zz-readable-marker beg buf) end (zz-readable-marker end buf)))) `(,beg ,end ,@props))))) (defun zz-overlays-to-zones (overlays &optional pos-type izones-p) "Return a list of zones derived from OVERLAYS list. This uses `zz-overlay-to-zone', which see for optional arg POS-TYPE. By default, the zones are basic zones. Non-nil optional arg IZONES-P means they are izones. Note: If you plan to coelesce the resulting ZONES (using, e.g., `zz-unite-zones') then you will no doubt want to ensure that the OVERLAYS are all of the same type." (let ((zones (delq nil (mapcar `(lambda (ov) (zz-overlay-to-zone ov ',po= s-type)) overlays)))) (when izones-p (setq zones (zz-izones-from-zones zones))) zones)) (defun zz-zone-to-overlay (zone &optional properties front-advance rear-adv= ance) "Create and return an overlay derived from ZONE. ZONE is a basic zone; it has the form (LIMIT1 LIMIT2 . EXTRA). If EXTRA is not a list then it is ignored. If EXTRA is a list then it is treated as a plist of overlay properties. This is so regardless of the type of any given property (e.g., it need not be a symbol). If the list has an odd number of elements then the last one is treated as a property with value `nil'. Optional arg PROPERTIES is a plist to add to the overlay properties coming from the `cddr' of ZONE (after adding the value `nil' if the latter list has an odd length. Optional args FRONT-ADVANCE and REAR-ADVANCE are passed to `make-overlay'." (let* ((buf (get-buffer (zz-zone-buffer-name zone))) (zon (zz-zone-ordered zone)) (beg (car zon)) (end (cadr zone)) (zprops (cddr zone)) (zprops (and (listp zprops) zprops)) (ov (make-overlay (zz-marker-from-object beg) (zz-marker-from= -object end) buf front-advance rear-advance))) (while zprops (overlay-put ov (car zprops) (cadr zprops)) (setq zprops (cddr zprops))) (while properties (overlay-put ov (car properties) (cadr properties)) (setq properties (cddr properties))) ov)) (defun zz-zones-to-overlays (zones) "Return a list of overlays derived from ZONES list of basic zones." (mapcar #'zz-zone-to-overlay zones)) (defun zz-overlay-union (overlays &optional buffer dont-delete-p) "Return the union (coalescence) of the overlays in list OVERLAYS. Overlapping and adjacent overlays are coalesced to a single overlay whose set of properties are the union of the properties of OVERLAYS. Returns a list of new overlays, which is sorted by the lower limit of each overlay. Only overlays in BUFFER (default: current buffer) are coalesced. By default the original OVERLAYS in BUFFER are all deleted. Non-nil optional arg DONT-DELETE-P means do not delete them. Any of the original overlays that are not in BUFFER (and so were not coalesced) are included in the returned list." (let* ((zones (zz-zone-union (zz-overlays-to-zones overlays 'markers) = buffer)) (new-ovs (zz-zones-to-overlays zones))) (dolist (ov overlays) (if (eq (overlay-buffer ov) (or buffer (current-buffer))) (unless dont-delete-p (delete-overlay ov)) ; Delete original over= lays in BUFFER (push ov new-ovs))) ; Add other-buffer overlays to retu= rn value. new-ovs)) (defun zz-izones-from-zones (basic-zones) "Return a list of zones like `zz-izones', based on BASIC-ZONES. Each zone in the list BASIC-ZONES has form (LIMIT1 LIMIT2 . EXTRA), where each of the limits is a buffer position (a number or marker) and EXTRA is a list. This is a non-destructive operation. A new list is returned. \(zz-izone-limits (zz-izones-from-zones BASIC-ZONES)) =3D BASIC-ZONES Also, (zz-izones-from-zones (zz-izone-limits zz-izones)) returns the same set of izones as `zz-izones', but possibly with different IDs associated with the basic zones." (let ((ii 0)) (nreverse (mapcar (lambda (zz) (cons (- (setq ii (1+ ii))) zz)) (rever= se basic-zones))))) ;;(@* "Key Bindings)" ;;; Key Bindings ----------------------------------------------------- ;; Put all toggle commands on prefix key `M-=3D'. ;; (defvar zz-toggles-map nil "Keymap containing bindings for toggle commands for zones.") (define-prefix-command 'zz-toggles-map) (defun zz-add-key-bindings-to-narrow-map (bindings) "Add BINDINGS to `narrow-map'. \(For Emacs prior to Emacs 24, add bindings to prefix key `C-x n'.)" (let ((map (if (boundp 'narrow-map) narrow-map (lookup-key ctl-x-map "n"= )))) (when (keymapp map) (dolist (binding bindings) (let ((kseq (car binding)) (cmd (cdr binding))) (unless (lookup-key map kseq) (define-key map kseq cmd))))))) (zz-add-key-bindings-to-narrow-map '(("\M-=3D" . zz-toggles-map) ("a" . zz-add-zone) = ; C-x n a ("A" . zz-add-zone-and-unite) = ; C-x n A ("c" . zz-clone-zones) = ; C-x n c ("C" . zz-clone-and-unite-zones) = ; C-x n C ("\C-d" . zz-delete-zone) = ; C-x n C-d ("s" . zz-select-zone-repeat) = ; C-x n s ("#" . zz-select-zone-by-id-and-tex= t) ; C-x n # ("u" . zz-unite-zones) = ; C-x n u ("v" . zz-set-izones-var) = ; C-x n v ("x" . zz-narrow-repeat) = ; C-x n x )) (eval-after-load "highlight" '(zz-add-key-bindings-to-narrow-map '(("h" . hlt-highlight-regions) = ; C-x n h ("H" . hlt-highlight-regions-in-buf= fers) ; C-x n H ("l" . zz-add-zones-from-highlighti= ng) ; C-x n l ("L" . zz-set-zones-from-highlighti= ng) ; C-x n L ))) (eval-after-load "isearch-prop" '(progn (zz-add-key-bindings-to-narrow-map `(("D" . isearchp-remove-dimmi= ng) ; C-x n D ("P" . isearchp-put-prop-on-= zones) ; C-x n P ("r" . zz-add-zones-matching= -regexp) ; C-x n r ("R" . zz-set-zones-matching= -regexp) ; C-x n R ("\C-r" . isearchp-zones-backwa= rd) ; C-x n C-r ("\C-\M-r" . isearchp-zones-backwa= rd-regexp) ; C-x n C-M-r ("\C-s" . isearchp-zones-forwar= d) ; C-x n C-s ("\C-\M-s" . isearchp-zones-forwar= d-regexp) ; C-x n C-M-s ("\M-%" . zz-query-replace-zone= s) ; C-x n M-% (,(kbd "C-M-%") . zz-query-replace= -regexp-zones) ; C-x n C-M-% ;; ("???" . zz-replace-regexp-zones) ;; ("???" . zz-replace-string-zones) ;; ("???" . zz-map-query-replace-rege= xp-zones) ;; ("???" . isearchp-make-anti-zones-= invisible) ;; ("???" . isearchp-make-anti-zones-= visible) ;; ("???" . isearchp-make-zones-invis= ible) ;; ("???" . isearchp-make-zones-visib= le) ;; ("???" . isearchp-toggle-zone/anti= -zone-visibility) )) (define-key zz-toggles-map (kbd "d") 'isearchp-toggle-dimming-outsi= de-search-area) ; C-x n M-=3D d (define-key zz-toggles-map (kbd "v") 'isearchp-toggle-anti-zones-in= visible) ; C-x n M-=3D v (define-key zz-toggles-map (kbd "V") 'isearchp-toggle-zones-invisib= le) ; C-x n M-=3D V (define-key zz-toggles-map (kbd "~") 'isearchp-toggle-complementing= -domain) ; C-x n M-=3D ~ )) ;;;;;;;;;;;;;;;;;;;;;;;;;; (provide 'zones) ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;;; zones.el ends here --=-=-=--