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1075 lines
48 KiB
EmacsLisp
1075 lines
48 KiB
EmacsLisp
;;; icomplete.el --- minibuffer completion incremental feedback -*- lexical-binding: t -*-
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;; Copyright (C) 1992-1994, 1997, 1999, 2001-2021 Free Software
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;; Foundation, Inc.
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;; Author: Ken Manheimer <ken dot manheimer at gmail...>
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;; Created: Mar 1993 Ken Manheimer, klm@nist.gov - first release to usenet
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;; Keywords: help, abbrev
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;; This file is part of GNU Emacs.
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;; GNU Emacs is free software: you can redistribute it and/or modify
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;; it under the terms of the GNU General Public License as published by
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;; the Free Software Foundation, either version 3 of the License, or
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;; (at your option) any later version.
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;; GNU Emacs is distributed in the hope that it will be useful,
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;; but WITHOUT ANY WARRANTY; without even the implied warranty of
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;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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;; GNU General Public License for more details.
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;; You should have received a copy of the GNU General Public License
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;; along with GNU Emacs. If not, see <https://www.gnu.org/licenses/>.
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;;; Commentary:
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;; Enabling this package implements a more fine-grained minibuffer
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;; completion feedback scheme. Prospective completions are concisely
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;; indicated within the minibuffer itself, with each successive
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;; keystroke.
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;; See `icomplete-completions' docstring for a description of the
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;; icomplete display format.
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;; See the `icomplete-minibuffer-setup-hook' docstring for a means to
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;; customize icomplete setup for interoperation with other
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;; minibuffer-oriented packages.
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;; To enable/disable icomplete mode, use the `icomplete-mode' function.
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;; Thanks to everyone for their suggestions for refinements of this
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;; package. I particularly have to credit Michael Cook, who
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;; implemented an incremental completion style in his 'iswitch'
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;; functions that served as a model for icomplete. Some other
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;; contributors: Noah Friedman (restructuring as minor mode), Colin
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;; Rafferty (lemacs reconciliation), Lars Lindberg, RMS, and others.
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;; klm.
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;;; Code:
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(require 'rfn-eshadow) ; rfn-eshadow-overlay
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(require 'simple) ; max-mini-window-lines
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(require 'cl-lib)
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(defgroup icomplete nil
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"Show completions dynamically in minibuffer."
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:prefix "icomplete-"
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:link '(info-link "(emacs)Icomplete")
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:group 'minibuffer)
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(defcustom icomplete-separator " | "
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"String used by Icomplete to separate alternatives in the minibuffer."
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:type 'string
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:version "24.4")
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(defcustom icomplete-hide-common-prefix t
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"When non-nil, hide common prefix from completion candidates.
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When nil, show candidates in full."
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:type 'boolean
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:version "24.4")
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(defvar icomplete-tidy-shadowed-file-names nil
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"If non-nil, automatically delete superfluous parts of file names.
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For example, if the user types ~/ after a long path name,
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everything preceding the ~/ is discarded so the interactive
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selection process starts again from the user's $HOME.")
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(defcustom icomplete-show-matches-on-no-input nil
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"When non-nil, show completions when first prompting for input.
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This means to show completions even when the current minibuffer contents
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is the same as was the initial input after minibuffer activation.
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This also means that if you traverse the list of completions with
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commands like `C-.' and just hit RET without typing any
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characters, the match under point will be chosen instead of the
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default."
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:type 'boolean
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:version "24.4")
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(defcustom icomplete-with-completion-tables t
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"Specialized completion tables with which Icomplete should operate.
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If this is t, Icomplete operates on all tables.
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Otherwise this should be a list of the completion tables (e.g.,
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`internal-complete-buffer') on which Icomplete should operate."
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;; Prior to 24.4, not a user-option, default '(internal-complete-buffer).
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:version "24.4"
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:type '(choice (const :tag "All" t)
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(repeat function)))
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(defcustom icomplete-matches-format "%s/%s "
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"Format of the current/total number of matches for the prompt prefix."
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:version "28.1"
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:type '(choice (const :tag "No prefix" nil)
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(string :tag "Prefix format string")))
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(defface icomplete-first-match '((t :weight bold))
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"Face used by Icomplete for highlighting first match."
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:version "24.4")
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(defface icomplete-selected-match '((t :inherit highlight))
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"Face used by `icomplete-vertical-mode' for the selected candidate."
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:version "28.1")
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(defface icomplete-section '((t :inherit shadow :slant italic))
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"Face used by `icomplete-vertical-mode' for the section title."
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:version "28.1")
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;;;_* User Customization variables
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(defcustom icomplete-prospects-height 2
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;; We used to compute how many lines 100 characters would take in
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;; the current window width, but the return value of `window-width'
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;; is unreliable on startup (e.g., if we're in daemon mode), so now
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;; we simply base the default value on an 80 column window.
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"Maximum number of lines to use in the minibuffer."
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:type 'integer
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:version "26.1")
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(defcustom icomplete-compute-delay .15
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"Completions-computation stall, used only with large-number completions.
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See `icomplete-delay-completions-threshold'."
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:type 'number)
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(defcustom icomplete-delay-completions-threshold 400
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"Pending-completions number over which to apply `icomplete-compute-delay'."
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:type 'integer)
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(defcustom icomplete-max-delay-chars 2
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"Maximum number of initial chars to apply `icomplete-compute-delay'."
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:type 'integer)
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(defvar icomplete-in-buffer nil
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"If non-nil, also use Icomplete when completing in non-mini buffers.")
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(defcustom icomplete-minibuffer-setup-hook nil
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"Icomplete-specific customization of minibuffer setup.
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This hook is run during minibuffer setup if Icomplete is active.
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It is intended for use in customizing Icomplete for interoperation
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with other features and packages. For instance:
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(add-hook \\='icomplete-minibuffer-setup-hook
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(lambda () (setq-local max-mini-window-height 3)))
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will constrain Emacs to a maximum minibuffer height of 3 lines when
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icompletion is occurring."
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:type 'hook
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:group 'icomplete)
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;;;_* Initialization
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;;;_ + Internal Variables
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;;;_ = icomplete-eoinput nil
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(defvar icomplete-overlay (make-overlay (point-min) (point-min) nil t t)
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"Overlay used to display the list of completions.")
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(defvar icomplete--initial-input nil
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"Initial input in the minibuffer when `icomplete-mode' was activated.
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Used to implement the option `icomplete-show-matches-on-no-input'.")
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(defun icomplete-post-command-hook ()
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(let ((non-essential t)) ;E.g. don't prompt for password!
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(icomplete-exhibit)))
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(defvar icomplete-minibuffer-map
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(let ((map (make-sparse-keymap)))
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(define-key map [?\M-\t] 'icomplete-force-complete)
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(define-key map [remap minibuffer-complete-and-exit] 'icomplete-ret)
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(define-key map [?\C-j] 'icomplete-force-complete-and-exit)
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(define-key map [?\C-.] 'icomplete-forward-completions)
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(define-key map [?\C-,] 'icomplete-backward-completions)
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map)
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"Keymap used by `icomplete-mode' in the minibuffer.")
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(defun icomplete-ret ()
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"Exit minibuffer for icomplete."
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(interactive)
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(if (and icomplete-show-matches-on-no-input
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(car completion-all-sorted-completions)
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(equal (icomplete--field-string) icomplete--initial-input))
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(icomplete-force-complete-and-exit)
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(minibuffer-complete-and-exit)))
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(defun icomplete-force-complete-and-exit ()
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"Complete the minibuffer with the longest possible match and exit.
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Use the first of the matches if there are any displayed, and use
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the default otherwise."
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(interactive)
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;; This function is tricky. The mandate is to "force", meaning we
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;; should take the first possible valid completion for the input.
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;; However, if there is no input and we can prove that that
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;; coincides with the default, it is much faster to just call
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;; `minibuffer-complete-and-exit'. Otherwise, we have to call
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;; `minibuffer-force-complete-and-exit', which needs the full
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;; completion set and is potentially slow and blocking. Do the
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;; latter if:
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(if (or
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;; there's some input, meaning the default in off the table by
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;; definition; OR
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(not (equal (icomplete--field-string) icomplete--initial-input))
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;; there's no input, but there's also no minibuffer default
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;; (and the user really wants to see completions on no input,
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;; meaning he expects a "force" to be at least attempted); OR
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(and (not minibuffer-default)
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icomplete-show-matches-on-no-input)
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;; there's no input but the full completion set has been
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;; calculated, This causes the first cached completion to
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;; be taken (i.e. the one that the user sees highlighted)
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completion-all-sorted-completions)
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(minibuffer-force-complete-and-exit)
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;; Otherwise take the faster route...
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(minibuffer-complete-and-exit)))
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(defun icomplete-force-complete ()
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"Complete the icomplete minibuffer."
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(interactive)
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;; We're not at all interested in cycling here (bug#34077).
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(minibuffer-force-complete nil nil 'dont-cycle))
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;; Apropos `icomplete-scroll', we implement "scrolling icomplete"
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;; within classic icomplete, which is "rotating", by contrast.
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;;
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;; The two variables supporing this are
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;; `icomplete--scrolled-completions' and `icomplete--scrolled-past'.
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;; They come into play when:
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;;
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;; - The user invokes commands `icomplete-forward-completions' and
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;; `icomplete-backward-completions', thus "manually" scrolling to a
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;; given position;
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;;
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;; - The user re-filters a selection that had already been manually
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;; scrolled. The system attempts to keep the previous selection
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;; stable in the face of the new filtering. This is mostly done in
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;; `icomplete--render-vertical'.
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;;
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(defvar icomplete-scroll nil
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"If non-nil, scroll candidates list instead of rotating it.")
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(defvar icomplete--scrolled-completions nil
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"If non-nil, tail of completions list manually scrolled to.")
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(defvar icomplete--scrolled-past nil
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"If non-nil, reverse tail of completions scrolled past.")
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(defun icomplete-forward-completions ()
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"Step forward completions by one entry.
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Second entry becomes the first and can be selected with
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`icomplete-force-complete-and-exit'.
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Return non-nil iff something was stepped."
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(interactive)
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(let* ((beg (icomplete--field-beg))
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(end (icomplete--field-end))
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(comps (completion-all-sorted-completions beg end)))
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(when (consp (cdr comps))
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(cond (icomplete-scroll
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(push (pop comps) icomplete--scrolled-past)
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(setq icomplete--scrolled-completions comps))
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(t
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(let ((last (last comps)))
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(setcdr (last comps) (cons (pop comps) (cdr last))))))
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(completion--cache-all-sorted-completions beg end comps))))
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(defun icomplete-backward-completions ()
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"Step backward completions by one entry.
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Last entry becomes the first and can be selected with
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`icomplete-force-complete-and-exit'.
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Return non-nil iff something was stepped."
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(interactive)
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(let* ((beg (icomplete--field-beg))
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(end (icomplete--field-end))
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(comps (completion-all-sorted-completions beg end))
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last-but-one)
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(prog1
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(cond ((and icomplete-scroll icomplete--scrolled-past)
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(push (pop icomplete--scrolled-past) comps)
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(setq icomplete--scrolled-completions comps))
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((and (not icomplete-scroll)
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(consp (cdr (setq last-but-one (last comps 2)))))
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;; At least two elements in comps
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(push (car (cdr last-but-one)) comps)
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(setcdr last-but-one (cdr (cdr last-but-one)))))
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(completion--cache-all-sorted-completions beg end comps))))
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(defun icomplete-vertical-goto-first ()
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"Go to first completions entry when `icomplete-scroll' is non-nil."
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(interactive)
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(unless icomplete-scroll (error "Only works with `icomplete-scroll'"))
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(while (icomplete-backward-completions)))
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(defun icomplete-vertical-goto-last ()
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"Go to last completions entry when `icomplete-scroll' is non-nil."
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(interactive)
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(unless icomplete-scroll (error "Only works with `icomplete-scroll'"))
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(while (icomplete-forward-completions)))
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;;;_* Helpers for `fido-mode' (or `ido-mode' emulation)
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(defun icomplete-fido-kill ()
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"Kill line or current completion, like `ido-mode'.
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If killing to the end of line make sense, call `kill-line',
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otherwise kill the currently selected completion candidate.
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Exactly what killing entails is dependent on the things being
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completed. If completing files, it means delete the file. If
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completing buffers it means kill the buffer. Both actions
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require user confirmation."
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(interactive)
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(let ((end (icomplete--field-end)))
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(if (< (point) end)
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(call-interactively 'kill-line)
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(let* ((all (completion-all-sorted-completions))
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(thing (car all))
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(cat (icomplete--category))
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(action
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(cl-case cat
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(buffer
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(lambda ()
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(when (yes-or-no-p (concat "Kill buffer " thing "? "))
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(kill-buffer thing))))
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((project-file file)
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(lambda ()
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(let* ((dir (file-name-directory (icomplete--field-string)))
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(path (expand-file-name thing dir)))
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(when (yes-or-no-p (concat "Delete file " path "? "))
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(delete-file path) t))))
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(t
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(error "Sorry, don't know how to kill things for `%s'" cat)))))
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(when (let (;; Allow `yes-or-no-p' to work and don't let it
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;; `icomplete-exhibit' anything.
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(enable-recursive-minibuffers t)
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(icomplete-mode nil))
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(funcall action))
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(completion--cache-all-sorted-completions
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(icomplete--field-beg)
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(icomplete--field-end)
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(cdr all)))
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(message nil)))))
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(defun icomplete-fido-delete-char ()
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"Delete char or maybe call `dired', like `ido-mode'."
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(interactive)
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(let ((end (icomplete--field-end)))
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(if (or (< (point) end) (not (eq (icomplete--category) 'file)))
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(call-interactively 'delete-char)
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(dired (file-name-directory (icomplete--field-string)))
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(exit-minibuffer))))
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(defun icomplete-fido-ret ()
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"Exit minibuffer or enter directory, like `ido-mode'."
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(interactive)
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(let* ((dir (and (eq (icomplete--category) 'file)
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(file-name-directory (icomplete--field-string))))
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(current (car completion-all-sorted-completions))
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(probe (and dir current
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(expand-file-name (directory-file-name current)
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(substitute-env-vars dir)))))
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(cond ((and probe (file-directory-p probe) (not (string= current "./")))
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(icomplete-force-complete))
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(t
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(icomplete-force-complete-and-exit)))))
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(defun icomplete-fido-exit (force)
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"Attempt to exit minibuffer immediately with current input.
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Unless FORCE is non-nil (interactively with a prefix argument),
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honour a non-nil REQUIRE-MATCH argument to `completing-read' by
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trying to complete as much as possible and disallowing the exit
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if that doesn't produce a completion match."
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(interactive "P")
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(if (and (not force) minibuffer--require-match)
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(minibuffer-complete-and-exit)
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(exit-minibuffer)))
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(defun icomplete-fido-backward-updir ()
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"Delete char before or go up directory, like `ido-mode'."
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(interactive)
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(if (and (eq (char-before) ?/)
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(eq (icomplete--category) 'file))
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(save-excursion
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(goto-char (1- (point)))
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(when (search-backward "/" (point-min) t)
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(delete-region (1+ (point)) (point-max))))
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(call-interactively 'backward-delete-char)))
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(defvar icomplete-fido-mode-map
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(let ((map (make-sparse-keymap)))
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(define-key map (kbd "C-k") 'icomplete-fido-kill)
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(define-key map (kbd "C-d") 'icomplete-fido-delete-char)
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(define-key map (kbd "RET") 'icomplete-fido-ret)
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(define-key map (kbd "C-m") 'icomplete-fido-ret)
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(define-key map (kbd "DEL") 'icomplete-fido-backward-updir)
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(define-key map (kbd "M-j") 'icomplete-fido-exit)
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(define-key map (kbd "C-s") 'icomplete-forward-completions)
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(define-key map (kbd "C-r") 'icomplete-backward-completions)
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(define-key map (kbd "<right>") 'icomplete-forward-completions)
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(define-key map (kbd "<left>") 'icomplete-backward-completions)
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(define-key map (kbd "C-.") 'icomplete-forward-completions)
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(define-key map (kbd "C-,") 'icomplete-backward-completions)
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map)
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"Keymap used by `fido-mode' in the minibuffer.")
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(defun icomplete--fido-mode-setup ()
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"Setup `fido-mode''s minibuffer."
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(when (and icomplete-mode (icomplete-simple-completing-p))
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(use-local-map (make-composed-keymap icomplete-fido-mode-map
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(current-local-map)))
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(setq-local icomplete-tidy-shadowed-file-names t
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icomplete-show-matches-on-no-input t
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icomplete-hide-common-prefix nil
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icomplete-scroll (not (null icomplete-vertical-mode))
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completion-styles '(flex)
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completion-flex-nospace nil
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completion-category-defaults nil
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completion-ignore-case t
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read-buffer-completion-ignore-case t
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read-file-name-completion-ignore-case t)))
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;;;###autoload
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(define-minor-mode fido-mode
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"An enhanced `icomplete-mode' that emulates `ido-mode'.
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This global minor mode makes minibuffer completion behave
|
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more like `ido-mode' than regular `icomplete-mode'."
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||
:global t :group 'icomplete
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(remove-hook 'minibuffer-setup-hook #'icomplete-minibuffer-setup)
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(remove-hook 'minibuffer-setup-hook #'icomplete--fido-mode-setup)
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(when fido-mode
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(icomplete-mode -1)
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(setq icomplete-mode t)
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(add-hook 'minibuffer-setup-hook #'icomplete-minibuffer-setup)
|
||
(add-hook 'minibuffer-setup-hook #'icomplete--fido-mode-setup)))
|
||
|
||
;;;_ > icomplete-mode (&optional prefix)
|
||
;;;###autoload
|
||
(define-minor-mode icomplete-mode
|
||
"Toggle incremental minibuffer completion (Icomplete mode).
|
||
|
||
When this global minor mode is enabled, typing in the minibuffer
|
||
continuously displays a list of possible completions that match
|
||
the string you have typed. See `icomplete-completions' for a
|
||
description of how prospective completions are displayed.
|
||
|
||
For more information, see Info node `(emacs)Icomplete'.
|
||
For options you can set, `\\[customize-group] icomplete'.
|
||
|
||
You can use the following key bindings to navigate and select
|
||
completions:
|
||
|
||
\\{icomplete-minibuffer-map}"
|
||
:global t :group 'icomplete
|
||
(remove-hook 'minibuffer-setup-hook #'icomplete-minibuffer-setup)
|
||
(remove-hook 'completion-in-region-mode-hook #'icomplete--in-region-setup)
|
||
(when icomplete-mode
|
||
(fido-mode -1)
|
||
(when icomplete-in-buffer
|
||
(add-hook 'completion-in-region-mode-hook #'icomplete--in-region-setup))
|
||
(add-hook 'minibuffer-setup-hook #'icomplete-minibuffer-setup)))
|
||
|
||
(defun icomplete--completion-table ()
|
||
(if (window-minibuffer-p) minibuffer-completion-table
|
||
(or (nth 2 completion-in-region--data)
|
||
(message "In %S (w=%S): %S"
|
||
(current-buffer) (selected-window) (window-minibuffer-p)))))
|
||
(defun icomplete--completion-predicate ()
|
||
(if (window-minibuffer-p) minibuffer-completion-predicate
|
||
(nth 3 completion-in-region--data)))
|
||
(defun icomplete--field-string ()
|
||
(if (window-minibuffer-p) (minibuffer-contents)
|
||
(buffer-substring-no-properties
|
||
(nth 0 completion-in-region--data)
|
||
(nth 1 completion-in-region--data))))
|
||
(defun icomplete--field-beg ()
|
||
(if (window-minibuffer-p) (minibuffer-prompt-end)
|
||
(nth 0 completion-in-region--data)))
|
||
(defun icomplete--field-end ()
|
||
(if (window-minibuffer-p) (point-max)
|
||
(nth 1 completion-in-region--data)))
|
||
(defun icomplete--category ()
|
||
(let* ((beg (icomplete--field-beg))
|
||
(md (completion--field-metadata beg)))
|
||
(alist-get 'category (cdr md))))
|
||
|
||
;;;_ > icomplete-simple-completing-p ()
|
||
(defun icomplete-simple-completing-p ()
|
||
"Non-nil if current window is a minibuffer that's doing simple completion.
|
||
|
||
Conditions are:
|
||
the selected window is a minibuffer,
|
||
and not in the middle of macro execution,
|
||
and the completion table is not a function (which would
|
||
indicate some non-standard, non-simple completion mechanism,
|
||
like file-name and other custom-func completions),
|
||
and `icomplete-with-completion-tables' doesn't restrict completion."
|
||
|
||
(unless executing-kbd-macro
|
||
(let ((table (icomplete--completion-table)))
|
||
(and table
|
||
(or (not (functionp table))
|
||
(eq icomplete-with-completion-tables t)
|
||
(member table icomplete-with-completion-tables))))))
|
||
|
||
;;;_ > icomplete-minibuffer-setup ()
|
||
(defun icomplete-minibuffer-setup ()
|
||
"Run in minibuffer on activation to establish incremental completion.
|
||
Usually run by inclusion in `minibuffer-setup-hook'."
|
||
(when (and icomplete-mode (icomplete-simple-completing-p))
|
||
(setq-local icomplete--initial-input (icomplete--field-string))
|
||
(setq-local completion-show-inline-help nil)
|
||
(setq icomplete--scrolled-completions nil)
|
||
(use-local-map (make-composed-keymap icomplete-minibuffer-map
|
||
(current-local-map)))
|
||
(add-hook 'post-command-hook #'icomplete-post-command-hook nil t)
|
||
(run-hooks 'icomplete-minibuffer-setup-hook)))
|
||
|
||
(defvar icomplete--in-region-buffer nil)
|
||
|
||
(defun icomplete--in-region-setup ()
|
||
(when (or (not completion-in-region-mode)
|
||
(and icomplete--in-region-buffer
|
||
(not (eq icomplete--in-region-buffer (current-buffer)))))
|
||
(with-current-buffer (or icomplete--in-region-buffer (current-buffer))
|
||
(setq icomplete--in-region-buffer nil)
|
||
(delete-overlay icomplete-overlay)
|
||
(kill-local-variable 'completion-show-inline-help)
|
||
(remove-hook 'post-command-hook 'icomplete-post-command-hook t)
|
||
(message nil)))
|
||
(when (and completion-in-region-mode
|
||
icomplete-mode (icomplete-simple-completing-p))
|
||
(setq icomplete--in-region-buffer (current-buffer))
|
||
(setq-local completion-show-inline-help nil)
|
||
(let ((tem (assq 'completion-in-region-mode
|
||
minor-mode-overriding-map-alist)))
|
||
(unless (memq icomplete-minibuffer-map (cdr tem))
|
||
(setcdr tem (make-composed-keymap icomplete-minibuffer-map
|
||
(cdr tem)))))
|
||
(add-hook 'post-command-hook 'icomplete-post-command-hook nil t)))
|
||
|
||
(defun icomplete--sorted-completions ()
|
||
(or completion-all-sorted-completions
|
||
(cl-loop
|
||
initially (setq icomplete--scrolled-past nil) ; Invalidate scrolled state
|
||
with beg = (icomplete--field-beg)
|
||
with end = (icomplete--field-end)
|
||
with all = (completion-all-sorted-completions beg end)
|
||
;; Icomplete mode re-sorts candidates, bubbling the default to
|
||
;; top if it's found somewhere down the list. This loop's
|
||
;; iteration variable, `fn' iterates through these "bubble up
|
||
;; predicates" which may vary depending on specific
|
||
;; `completing-read' invocations, described below:
|
||
for fn in (cond ((and minibuffer-default
|
||
(stringp minibuffer-default) ; bug#38992
|
||
(equal (icomplete--field-string) icomplete--initial-input))
|
||
;; Here, we have a non-nil string default and
|
||
;; no input whatsoever. We want to make sure
|
||
;; that the default is bubbled to the top so
|
||
;; that `icomplete-force-complete-and-exit'
|
||
;; will select it. We want to do that even if
|
||
;; the match doesn't match the completion
|
||
;; perfectly.
|
||
;;
|
||
`(;; The first predicate ensures that:
|
||
;;
|
||
;; (completing-read "thing? " '("foo" "bar")
|
||
;; nil nil nil nil "bar")
|
||
;;
|
||
;; Has "bar" at the top, so RET will select
|
||
;; it, as desired.
|
||
,(lambda (comp)
|
||
(equal minibuffer-default comp))
|
||
;; Why do we need this second predicate?
|
||
;; Because that'll make things like M-x man
|
||
;; RET RET, when invoked with point on the
|
||
;; "bar" word, behave correctly. There, the
|
||
;; default doesn't quite match any
|
||
;; candidate. So:
|
||
;;
|
||
;; (completing-read "Man entry? " '("foo(1)" "bar(1)")
|
||
;; nil nil nil nil "bar")
|
||
;;
|
||
;; Will place "bar(1)" on top, and RET will
|
||
;; select it -- again, as desired.
|
||
;;
|
||
;; FIXME: it's arguable that this second
|
||
;; behaviour should be a property of the
|
||
;; completion table and not the completion
|
||
;; frontend such as we have done
|
||
;; here. However, it seems generically
|
||
;; useful for a very broad spectrum of
|
||
;; cases.
|
||
,(lambda (comp)
|
||
(string-prefix-p minibuffer-default comp))))
|
||
((and fido-mode
|
||
(not minibuffer-default)
|
||
(eq (icomplete--category) 'file))
|
||
;; When there isn't a default, `fido-mode'
|
||
;; specifically also has some extra
|
||
;; file-sorting semantics inherited from Ido.
|
||
;; Those make the directory "./" bubble to the
|
||
;; top (if it exists). This makes M-x dired
|
||
;; RET RET go to the directory of current
|
||
;; file, which is non-Icomplete vanilla Emacs
|
||
;; and `ido-mode' both do.
|
||
`(,(lambda (comp)
|
||
(string= "./" comp)))))
|
||
;; After we have setup the predicates, look for a completion
|
||
;; matching one of them and bubble up it, destructively on
|
||
;; `completion-all-sorted-completions' (unless that completion
|
||
;; happens to be already on top).
|
||
thereis (or
|
||
(and (funcall fn (car all)) all)
|
||
(cl-loop
|
||
for l on all
|
||
while (consp (cdr l))
|
||
for comp = (cadr l)
|
||
when (funcall fn comp)
|
||
do (setf (cdr l) (cddr l))
|
||
and return
|
||
(completion--cache-all-sorted-completions beg end (cons comp all))))
|
||
finally return all)))
|
||
|
||
(defvar icomplete-vertical-mode-minibuffer-map
|
||
(let ((map (make-sparse-keymap)))
|
||
(define-key map (kbd "C-n") 'icomplete-forward-completions)
|
||
(define-key map (kbd "C-p") 'icomplete-backward-completions)
|
||
(define-key map (kbd "<down>") 'icomplete-forward-completions)
|
||
(define-key map (kbd "<up>") 'icomplete-backward-completions)
|
||
(define-key map (kbd "M-<") 'icomplete-vertical-goto-first)
|
||
(define-key map (kbd "M->") 'icomplete-vertical-goto-last)
|
||
map)
|
||
"Keymap used by `icomplete-vertical-mode' in the minibuffer.")
|
||
|
||
(defun icomplete--vertical-minibuffer-setup ()
|
||
"Setup the minibuffer for vertical display of completion candidates."
|
||
(use-local-map (make-composed-keymap icomplete-vertical-mode-minibuffer-map
|
||
(current-local-map)))
|
||
(setq-local icomplete-hide-common-prefix nil
|
||
;; Ask `icomplete-completions' to return enough completions candidates.
|
||
icomplete-prospects-height 25
|
||
redisplay-adhoc-scroll-in-resize-mini-windows nil))
|
||
|
||
;;;###autoload
|
||
(define-minor-mode icomplete-vertical-mode
|
||
"Toggle vertical candidate display in `icomplete-mode' or `fido-mode'.
|
||
|
||
If none of these modes are on, turn on `icomplete-mode'.
|
||
|
||
As many completion candidates as possible are displayed, depending on
|
||
the value of `max-mini-window-height', and the way the mini-window is
|
||
resized depends on `resize-mini-windows'."
|
||
:global t
|
||
(remove-hook 'icomplete-minibuffer-setup-hook
|
||
#'icomplete--vertical-minibuffer-setup)
|
||
(when icomplete-vertical-mode
|
||
(unless icomplete-mode
|
||
(icomplete-mode 1))
|
||
(add-hook 'icomplete-minibuffer-setup-hook
|
||
#'icomplete--vertical-minibuffer-setup)))
|
||
|
||
;;;###autoload
|
||
(define-minor-mode fido-vertical-mode
|
||
"Toggle vertical candidate display in `fido-mode'.
|
||
When turning on, if non-vertical `fido-mode' is off, turn it on.
|
||
If it's on, just add the vertical display."
|
||
:global t
|
||
(icomplete-vertical-mode -1)
|
||
(when fido-vertical-mode
|
||
(unless fido-mode (fido-mode 1))
|
||
(icomplete-vertical-mode 1)))
|
||
|
||
|
||
|
||
|
||
;;;_* Completion
|
||
|
||
;;;_ > icomplete-exhibit ()
|
||
(defun icomplete-exhibit ()
|
||
"Insert Icomplete completions display.
|
||
Should be run via minibuffer `post-command-hook'.
|
||
See `icomplete-mode' and `minibuffer-setup-hook'."
|
||
(when (and icomplete-mode
|
||
(icomplete-simple-completing-p)) ;Shouldn't be necessary.
|
||
(let ((saved-point (point)))
|
||
(save-excursion
|
||
(goto-char (point-max))
|
||
; Insert the match-status information:
|
||
(when (and (or icomplete-show-matches-on-no-input
|
||
(not (equal (icomplete--field-string)
|
||
icomplete--initial-input)))
|
||
(or
|
||
;; Don't bother with delay after certain number of chars:
|
||
(> (- (point) (icomplete--field-beg))
|
||
icomplete-max-delay-chars)
|
||
;; Don't delay if the completions are known.
|
||
completion-all-sorted-completions
|
||
;; Don't delay if alternatives number is small enough:
|
||
(and (sequencep (icomplete--completion-table))
|
||
(< (length (icomplete--completion-table))
|
||
icomplete-delay-completions-threshold))
|
||
;; Delay - give some grace time for next keystroke, before
|
||
;; embarking on computing completions:
|
||
(sit-for icomplete-compute-delay)))
|
||
(when (and
|
||
icomplete-tidy-shadowed-file-names
|
||
(eq (icomplete--category) 'file)
|
||
rfn-eshadow-overlay (overlay-buffer rfn-eshadow-overlay)
|
||
(eq this-command 'self-insert-command)
|
||
(= saved-point (icomplete--field-end))
|
||
(or (>= (- (point) (overlay-end rfn-eshadow-overlay)) 2)
|
||
(eq ?/ (char-before (- (point) 2)))))
|
||
(delete-region (overlay-start rfn-eshadow-overlay)
|
||
(overlay-end rfn-eshadow-overlay)))
|
||
(let* ((field-string (icomplete--field-string))
|
||
;; Not sure why, but such requests seem to come
|
||
;; every once in a while. It's not fully
|
||
;; deterministic but `C-x C-f M-DEL M-DEL ...'
|
||
;; seems to trigger it fairly often!
|
||
(while-no-input-ignore-events '(selection-request))
|
||
(text (while-no-input
|
||
(icomplete-completions
|
||
field-string
|
||
(icomplete--completion-table)
|
||
(icomplete--completion-predicate)
|
||
(if (window-minibuffer-p)
|
||
(eq minibuffer--require-match t)))))
|
||
(buffer-undo-list t)
|
||
deactivate-mark)
|
||
;; Do nothing if while-no-input was aborted.
|
||
(when (stringp text)
|
||
(move-overlay icomplete-overlay (point-min) (point) (current-buffer))
|
||
;; The current C cursor code doesn't know to use the overlay's
|
||
;; marker's stickiness to figure out whether to place the cursor
|
||
;; before or after the string, so let's spoon-feed it the pos.
|
||
(put-text-property 0 1 'cursor t text)
|
||
(overlay-put
|
||
icomplete-overlay 'before-string
|
||
(and icomplete-scroll
|
||
icomplete-matches-format
|
||
(let* ((past (length icomplete--scrolled-past))
|
||
(current (1+ past))
|
||
(total (+ past (safe-length
|
||
completion-all-sorted-completions))))
|
||
(format icomplete-matches-format current total))))
|
||
(overlay-put icomplete-overlay 'after-string text))))))))
|
||
|
||
(defun icomplete--augment (md prospects)
|
||
"Augment completion strings in PROSPECTS with completion metadata MD.
|
||
Return a list of strings (COMP PREFIX SUFFIX SECTION). PREFIX
|
||
and SUFFIX, if non-nil, are obtained from `affixation-function' or
|
||
`annotation-function' metadata. SECTION is obtained from
|
||
`group-function'. Consecutive `equal' sections are avoided.
|
||
COMP is the element in PROSPECTS or a transformation also given
|
||
by `group-function''s second \"transformation\" protocol."
|
||
(let* ((aff-fun (or (completion-metadata-get md 'affixation-function)
|
||
(plist-get completion-extra-properties :affixation-function)))
|
||
(ann-fun (or (completion-metadata-get md 'annotation-function)
|
||
(plist-get completion-extra-properties :annotation-function)))
|
||
(grp-fun (and completions-group
|
||
(completion-metadata-get md 'group-function)))
|
||
(annotated
|
||
(cond (aff-fun
|
||
(funcall aff-fun prospects))
|
||
(ann-fun
|
||
(mapcar
|
||
(lambda (comp)
|
||
(let ((suffix (or (funcall ann-fun comp) "")))
|
||
(list comp ""
|
||
;; The default completion UI adds the
|
||
;; `completions-annotations' face if no
|
||
;; other faces are present.
|
||
(if (text-property-not-all 0 (length suffix) 'face nil suffix)
|
||
suffix
|
||
(propertize suffix 'face 'completions-annotations)))))
|
||
prospects))
|
||
(t (mapcar #'list prospects)))))
|
||
(if grp-fun
|
||
(cl-loop with section = nil
|
||
for (c prefix suffix) in annotated
|
||
for selectedp = (get-text-property 0 'icomplete-selected c)
|
||
for tr = (propertize (or (funcall grp-fun c t) c)
|
||
'icomplete-selected selectedp)
|
||
if (not (equal section (setq section (funcall grp-fun c nil))))
|
||
collect (list tr prefix suffix section)
|
||
else collect (list tr prefix suffix ))
|
||
annotated)))
|
||
|
||
(cl-defun icomplete--render-vertical
|
||
(comps md &aux scroll-above scroll-below
|
||
(total-space ; number of mini-window lines available
|
||
(1- (min
|
||
icomplete-prospects-height
|
||
(truncate (max-mini-window-lines) 1)))))
|
||
;; Welcome to loopapalooza!
|
||
;;
|
||
;; First, be mindful of `icomplete-scroll' and manual scrolls. If
|
||
;; `icomplete--scrolled-completions' and `icomplete--scrolled-past'
|
||
;; are:
|
||
;;
|
||
;; - both nil, there is no manual scroll;
|
||
;; - both non-nil, there is a healthy manual scroll that doesn't need
|
||
;; to be readjusted (user just moved around the minibuffer, for
|
||
;; example)l
|
||
;; - non-nil and nil, respectively, a refiltering took place and we
|
||
;; may need to readjust them to the new filtered `comps'.
|
||
(when (and icomplete-scroll
|
||
icomplete--scrolled-completions
|
||
(null icomplete--scrolled-past))
|
||
(cl-loop with preds
|
||
for (comp . rest) on comps
|
||
when (equal comp (car icomplete--scrolled-completions))
|
||
do
|
||
(setq icomplete--scrolled-past preds
|
||
comps (cons comp rest))
|
||
(completion--cache-all-sorted-completions
|
||
(icomplete--field-beg)
|
||
(icomplete--field-end)
|
||
comps)
|
||
and return nil
|
||
do (push comp preds)
|
||
finally (setq icomplete--scrolled-completions nil)))
|
||
;; Then, in this pretty ugly loop, collect completions to display
|
||
;; above and below the selected one, considering scrolling
|
||
;; positions.
|
||
(cl-loop with preds = icomplete--scrolled-past
|
||
with succs = (cdr comps)
|
||
with space-above = (- total-space
|
||
1
|
||
(cl-loop for (_ . r) on comps
|
||
repeat (truncate total-space 2)
|
||
while (listp r)
|
||
count 1))
|
||
repeat total-space
|
||
for neighbour = nil
|
||
if (and preds (> space-above 0)) do
|
||
(push (setq neighbour (pop preds)) scroll-above)
|
||
(cl-decf space-above)
|
||
else if (consp succs) collect
|
||
(setq neighbour (pop succs)) into scroll-below-aux
|
||
while neighbour
|
||
finally (setq scroll-below scroll-below-aux))
|
||
;; Halfway there...
|
||
(let* ((selected (propertize (car comps) 'icomplete-selected t))
|
||
(chosen (append scroll-above (list selected) scroll-below))
|
||
(tuples (icomplete--augment md chosen))
|
||
max-prefix-len max-comp-len lines nsections)
|
||
(add-face-text-property 0 (length selected)
|
||
'icomplete-selected-match 'append selected)
|
||
;; Figure out parameters for horizontal spacing
|
||
(cl-loop
|
||
for (comp prefix) in tuples
|
||
maximizing (length prefix) into max-prefix-len-aux
|
||
maximizing (length comp) into max-comp-len-aux
|
||
finally (setq max-prefix-len max-prefix-len-aux
|
||
max-comp-len max-comp-len-aux))
|
||
;; Serialize completions and section titles into a list
|
||
;; of lines to render
|
||
(cl-loop
|
||
for (comp prefix suffix section) in tuples
|
||
when section
|
||
collect (propertize section 'face 'icomplete-section) into lines-aux
|
||
and count 1 into nsections-aux
|
||
when (get-text-property 0 'icomplete-selected comp)
|
||
do (add-face-text-property 0 (length comp)
|
||
'icomplete-selected-match 'append comp)
|
||
collect (concat prefix
|
||
(make-string (- max-prefix-len (length prefix)) ? )
|
||
comp
|
||
(make-string (- max-comp-len (length comp)) ? )
|
||
suffix)
|
||
into lines-aux
|
||
finally (setq lines lines-aux
|
||
nsections nsections-aux))
|
||
;; Kick out some lines from the beginning due to extra sections.
|
||
;; This hopes to keep the selected entry more or less in the
|
||
;; middle of the dropdown-like widget when `icomplete-scroll' is
|
||
;; t. Funky, but at least I didn't use `cl-loop'
|
||
(setq lines
|
||
(nthcdr
|
||
(cond ((<= (length lines) total-space) 0)
|
||
((> (length scroll-above) (length scroll-below)) nsections)
|
||
(t (min (ceiling nsections 2) (length scroll-above))))
|
||
lines))
|
||
;; At long last, render final string return value. This may still
|
||
;; kick out lines at the end.
|
||
(concat " \n"
|
||
(cl-loop for l in lines repeat total-space concat l concat "\n"))))
|
||
|
||
;;;_ > icomplete-completions (name candidates predicate require-match)
|
||
(defun icomplete-completions (name candidates predicate require-match)
|
||
"Identify prospective candidates for minibuffer completion.
|
||
|
||
The display is updated with each minibuffer keystroke during
|
||
minibuffer completion.
|
||
|
||
Prospective completion suffixes (if any) are displayed, bracketed by
|
||
one of (), [], or {} pairs. The choice of brackets is as follows:
|
||
|
||
(...) - a single prospect is identified and matching is enforced,
|
||
[...] - a single prospect is identified but matching is optional, or
|
||
{...} - multiple prospects, separated by commas, are indicated, and
|
||
further input is required to distinguish a single one.
|
||
|
||
If there are multiple possibilities, `icomplete-separator' separates them.
|
||
|
||
The displays for unambiguous matches have ` [Matched]' appended
|
||
\(whether complete or not), or ` [No matches]', if no eligible
|
||
matches exist."
|
||
(let* ((ignored-extension-re
|
||
(and minibuffer-completing-file-name
|
||
icomplete-with-completion-tables
|
||
completion-ignored-extensions
|
||
(concat "\\(?:\\`\\.\\./\\|"
|
||
(regexp-opt completion-ignored-extensions)
|
||
"\\)\\'")))
|
||
(minibuffer-completion-table candidates)
|
||
(minibuffer-completion-predicate
|
||
(if ignored-extension-re
|
||
(lambda (cand)
|
||
(and (not (string-match ignored-extension-re cand))
|
||
(or (null predicate)
|
||
(funcall predicate cand))))
|
||
predicate))
|
||
(md (completion--field-metadata (icomplete--field-beg)))
|
||
(comps (icomplete--sorted-completions))
|
||
(open-bracket (if require-match "(" "["))
|
||
(close-bracket (if require-match ")" "]")))
|
||
;; `concat'/`mapconcat' is the slow part.
|
||
(if (not (consp comps))
|
||
(progn ;;(debug (format "Candidates=%S field=%S" candidates name))
|
||
(format " %sNo matches%s" open-bracket close-bracket))
|
||
(if icomplete-vertical-mode
|
||
(icomplete--render-vertical comps md)
|
||
(let* ((last (if (consp comps) (last comps)))
|
||
;; Save the "base size" encoded in `comps' then
|
||
;; removing making `comps' a proper list.
|
||
(base-size (prog1 (cdr last)
|
||
(if last (setcdr last nil))))
|
||
(most-try
|
||
;; icomplete-hide-common-prefix logic is used
|
||
;; unconditionally when there is single match.
|
||
(when (or icomplete-hide-common-prefix (not (cdr comps)))
|
||
(if (and base-size (> base-size 0))
|
||
(completion-try-completion
|
||
name candidates predicate (length name) md)
|
||
;; If the `comps' are 0-based, the result should be
|
||
;; the same with `comps'.
|
||
(completion-try-completion
|
||
name comps nil (length name) md))))
|
||
(most (if (consp most-try) (car most-try)
|
||
(if most-try (car comps) "")))
|
||
;; Compare name and most, so we can determine if name is
|
||
;; a prefix of most, or something else.
|
||
(compare (compare-strings name nil nil
|
||
most nil nil completion-ignore-case))
|
||
(ellipsis (if (char-displayable-p ?…) "…" "..."))
|
||
(determ (unless (or (eq t compare) (eq t most-try)
|
||
(= (setq compare (1- (abs compare)))
|
||
(length most)))
|
||
(concat open-bracket
|
||
(cond
|
||
((= compare (length name))
|
||
;; Typical case: name is a prefix.
|
||
(substring most compare))
|
||
;; Don't bother truncating if it doesn't gain
|
||
;; us at least 2 columns.
|
||
((< compare (+ 2 (string-width ellipsis))) most)
|
||
(t (concat ellipsis (substring most compare))))
|
||
close-bracket)))
|
||
;;"-prospects" - more than one candidate
|
||
(prospects-len (+ (string-width
|
||
(or determ (concat open-bracket close-bracket)))
|
||
(string-width icomplete-separator)
|
||
(+ 2 (string-width ellipsis)) ;; take {…} into account
|
||
(string-width (buffer-string))))
|
||
(prospects-max
|
||
;; Max total length to use, including the minibuffer content.
|
||
(* (+ icomplete-prospects-height
|
||
;; If the minibuffer content already uses up more than
|
||
;; one line, increase the allowable space accordingly.
|
||
(/ prospects-len (window-width)))
|
||
(window-width)))
|
||
;; Find the common prefix among `comps'.
|
||
;; We can't use the optimization below because its assumptions
|
||
;; aren't always true, e.g. when completion-cycling (bug#10850):
|
||
;; (if (eq t (compare-strings (car comps) nil (length most)
|
||
;; most nil nil completion-ignore-case))
|
||
;; ;; Common case.
|
||
;; (length most)
|
||
;; Else, use try-completion.
|
||
(prefix (when icomplete-hide-common-prefix
|
||
(try-completion "" comps)))
|
||
(prefix-len
|
||
(and (stringp prefix)
|
||
;; Only hide the prefix if the corresponding info
|
||
;; is already displayed via `most'.
|
||
(string-prefix-p prefix most t)
|
||
(length prefix))) ;;)
|
||
prospects comp limit)
|
||
(prog1
|
||
(if (or (eq most-try t) (and (not icomplete-scroll)
|
||
(not (consp (cdr comps)))))
|
||
(concat determ " [Matched]")
|
||
(when (member name comps)
|
||
;; NAME is complete but not unique. This scenario poses
|
||
;; following UI issues:
|
||
;;
|
||
;; - When `icomplete-hide-common-prefix' is non-nil, NAME
|
||
;; is stripped empty. This would make the entry
|
||
;; inconspicuous.
|
||
;;
|
||
;; - Due to sorting of completions, NAME may not be the
|
||
;; first of the prospects and could be hidden deep in
|
||
;; the displayed string.
|
||
;;
|
||
;; - Because of `icomplete-prospects-height' , NAME may
|
||
;; not even be displayed to the user.
|
||
;;
|
||
;; To circumvent all the above problems, provide a visual
|
||
;; cue to the user via an "empty string" in the try
|
||
;; completion field.
|
||
(setq determ (concat open-bracket "" close-bracket)))
|
||
(while (and comps (not limit))
|
||
(setq comp
|
||
(if prefix-len (substring (car comps) prefix-len) (car comps))
|
||
comps (cdr comps))
|
||
(setq prospects-len
|
||
(+ (string-width comp)
|
||
(string-width icomplete-separator)
|
||
prospects-len))
|
||
(if (< prospects-len prospects-max)
|
||
(push comp prospects)
|
||
(setq limit t)))
|
||
(setq prospects (nreverse prospects))
|
||
;; Decorate first of the prospects.
|
||
(when prospects
|
||
(let ((first (copy-sequence (pop prospects))))
|
||
(put-text-property 0 (length first)
|
||
'face 'icomplete-first-match first)
|
||
(push first prospects)))
|
||
(concat determ
|
||
"{"
|
||
(mapconcat 'identity prospects icomplete-separator)
|
||
(concat (and limit (concat icomplete-separator ellipsis))
|
||
"}")))
|
||
;; Restore the base-size info, since completion-all-sorted-completions
|
||
;; is cached.
|
||
(if last (setcdr last base-size))))))))
|
||
|
||
;;;_* Iswitchb compatibility
|
||
|
||
;; We moved Iswitchb to `obsolete' in 24.4, but autoloads in files in
|
||
;; `obsolete' aren't obeyed (since that would encourage people to keep using
|
||
;; those packages, oblivious to their obsolescence). Given the fact that
|
||
;; Iswitchb was very popular, we decided to keep its autoload for a bit longer,
|
||
;; so we moved it here.
|
||
|
||
;;;###autoload(when (locate-library "obsolete/iswitchb")
|
||
;;;###autoload (autoload 'iswitchb-mode "iswitchb" "Toggle Iswitchb mode." t)
|
||
;;;###autoload (make-obsolete 'iswitchb-mode
|
||
;;;###autoload "use `icomplete-mode' or `ido-mode' instead." "24.4"))
|
||
|
||
(provide 'icomplete)
|
||
|
||
;;;_* Local emacs vars.
|
||
;;Local variables:
|
||
;;allout-layout: (-2 :)
|
||
;;End:
|
||
|
||
;;; icomplete.el ends here
|