;;; crm.el --- read multiple strings with completion -*- lexical-binding: t; -*- ;; Copyright (C) 1985-1986, 1993-2021 Free Software Foundation, Inc. ;; Author: Sen Nagata ;; Keywords: completion, minibuffer, multiple elements ;; This file is part of GNU Emacs. ;; GNU Emacs is free software: you can redistribute it and/or modify ;; it under the terms of the GNU General Public License as published by ;; the Free Software Foundation, either version 3 of the License, or ;; (at your option) any later version. ;; GNU Emacs is distributed in the hope that it will be useful, ;; but WITHOUT ANY WARRANTY; without even the implied warranty of ;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ;; GNU General Public License for more details. ;; You should have received a copy of the GNU General Public License ;; along with GNU Emacs. If not, see . ;;; Commentary: ;; This code defines a function, `completing-read-multiple', which ;; provides the ability to read multiple strings in the minibuffer, ;; with completion. See that function's documentation for details. ;; For the moment, I have decided to not bind any special behavior to ;; the separator key. In the future, the separator key might be used ;; to provide completion in certain circumstances. One of the reasons ;; why this functionality is not yet provided is that it is unclear to ;; the author what the precise circumstances are, under which ;; separator-invoked completion should be provided. ;; Design note: `completing-read-multiple' is modeled after ;; `completing-read'. They should be similar -- it was intentional. ;; Some of this code started out as translation from C code in ;; src/minibuf.c to Emacs Lisp code. After this code was rewritten in Elisp ;; and made to operate on any field, this file was completely rewritten to ;; just reuse that code. ;; Thanks to Sen Nagata for the original version of the ;; code, and sorry for throwing it all out. --Stef ;; Thanks to Richard Stallman for all of his help (many of the good ;; ideas in here are from him), Gerd Moellmann for his attention, ;; Stefan Monnier for responding with a code sample and comments very ;; early on, and Kai Grossjohann & Soren Dayton for valuable feedback. ;;; Questions and Thoughts: ;; -should `completing-read-multiple' allow a trailing separator in ;; a return value when REQUIRE-MATCH is t? if not, should beep when a user ;; tries to exit the minibuffer via RET? ;; -tip: use M-f and M-b for ease of navigation among elements. ;; - the difference between minibuffer-completion-table and ;; crm-completion-table is just crm--collection-fn. In most cases it ;; shouldn't make any difference. But if a non-CRM completion function ;; happens to be used, it will use minibuffer-completion-table and ;; crm--collection-fn will try to make it do "more or less the right ;; thing" by making it complete on the last element, which is about as ;; good as we can hope for right now. ;; I'm not sure if it's important or not. Maybe we could just throw away ;; crm-completion-table and crm--collection-fn, but there doesn't seem to ;; be a pressing need for it, and since Sen did bother to write it, we may ;; as well keep it, in case it helps. ;;; History: ;; ;; 2000-04-10: ;; ;; first revamped version ;;; Code: ;; FIXME I don't see that this needs to exist as a separate variable. ;; crm-separator should suffice. (defconst crm-default-separator "[ \t]*,[ \t]*" "Default value of `crm-separator'.") (defvar crm-separator crm-default-separator "Separator regexp used for separating strings in `completing-read-multiple'. It should be a regexp that does not match the list of completion candidates. The default value is `crm-default-separator'.") (defvar crm-local-completion-map (let ((map (make-sparse-keymap))) (set-keymap-parent map minibuffer-local-completion-map) (define-key map [remap minibuffer-complete] #'crm-complete) (define-key map [remap minibuffer-complete-word] #'crm-complete-word) (define-key map [remap minibuffer-completion-help] #'crm-completion-help) map) "Local keymap for minibuffer multiple input with completion. Analog of `minibuffer-local-completion-map'.") (defvar crm-local-must-match-map (let ((map (make-sparse-keymap))) ;; We'd want to have multiple inheritance here. (set-keymap-parent map minibuffer-local-must-match-map) (define-key map [remap minibuffer-complete] #'crm-complete) (define-key map [remap minibuffer-complete-word] #'crm-complete-word) (define-key map [remap minibuffer-completion-help] #'crm-completion-help) (define-key map [remap minibuffer-complete-and-exit] #'crm-complete-and-exit) map) "Local keymap for minibuffer multiple input with exact match completion. Analog of `minibuffer-local-must-match-map' for crm.") (defvar crm-completion-table nil "An alist whose elements' cars are strings, or an obarray. This is a table used for completion by `completing-read-multiple' and its supporting functions.") ;; this function evolved from a posting by Stefan Monnier (defun crm--collection-fn (string predicate flag) "Function used by `completing-read-multiple' to compute completion values. The value of STRING is the string to be completed. The value of PREDICATE is a function to filter possible matches, or nil if none. The value of FLAG is used to specify the type of completion operation. A value of nil specifies `try-completion'. A value of t specifies `all-completions'. A value of lambda specifies a test for an exact match. For more information on STRING, PREDICATE, and FLAG, see the Elisp Reference sections on “Programmed Completion” and “Basic Completion Functions”." (let ((beg 0)) (while (string-match crm-separator string beg) (setq beg (match-end 0))) (completion-table-with-context (substring string 0 beg) crm-completion-table (substring string beg) predicate flag))) (defun crm--current-element () "Parse the minibuffer to find the current element. Return the element's boundaries as (START . END)." (let ((bob (minibuffer-prompt-end))) (cons (save-excursion (if (re-search-backward crm-separator bob t) (match-end 0) bob)) (save-excursion (if (re-search-forward crm-separator nil t) (match-beginning 0) (point-max)))))) (defmacro crm--completion-command (beg end &rest body) "Run BODY with BEG and END bound to the current element's boundaries." (declare (indent 2) (debug (sexp sexp body))) `(let* ((crm--boundaries (crm--current-element)) (,beg (car crm--boundaries)) (,end (cdr crm--boundaries))) ,@body)) (defun crm-completion-help () "Display a list of possible completions of the current minibuffer element." (interactive) (crm--completion-command beg end (minibuffer-completion-help beg end)) nil) (defun crm-complete () "Complete the current element. If no characters can be completed, display a list of possible completions. Return t if the current element is now a valid match; otherwise return nil." (interactive) (crm--completion-command beg end (completion-in-region beg end minibuffer-completion-table minibuffer-completion-predicate))) (defun crm-complete-word () "Complete the current element at most a single word. Like `minibuffer-complete-word' but for `completing-read-multiple'." (interactive) (crm--completion-command beg end (completion-in-region--single-word beg end minibuffer-completion-table minibuffer-completion-predicate))) (defun crm-complete-and-exit () "If all of the minibuffer elements are valid completions then exit. All elements in the minibuffer must match. If there is a mismatch, move point to the location of mismatch and do not exit. This function is modeled after `minibuffer-complete-and-exit'." (interactive) (let ((doexit t)) (goto-char (minibuffer-prompt-end)) (while (and doexit (crm--completion-command beg end (let ((end (copy-marker end t))) (goto-char end) (setq doexit nil) (completion-complete-and-exit beg end (lambda () (setq doexit t))) (goto-char end) (not (eobp)))) (looking-at crm-separator)) ;; Skip to the next element. (goto-char (match-end 0))) (if doexit (exit-minibuffer)))) (defun crm--choose-completion-string (choice buffer base-position &rest ignored) "Completion string chooser for `completing-read-multiple'. This is called from `choose-completion-string-functions'. It replaces the string that is currently being completed, without exiting the minibuffer." (let ((completion-no-auto-exit t) (choose-completion-string-functions nil)) (choose-completion-string choice buffer base-position) t)) ;; superemulates behavior of completing_read in src/minibuf.c ;; Use \\ so that help-enable-autoload can ;; do its thing. Any keymap that is defined will do. ;;;###autoload (defun completing-read-multiple (prompt table &optional predicate require-match initial-input hist def inherit-input-method) "Read multiple strings in the minibuffer, with completion. The arguments are the same as those of `completing-read'. \\ Input multiple strings by separating each one with a string that matches the regexp `crm-separator'. For example, if the separator regexp is \",\", entering \"alice,bob,eve\" specifies the strings \"alice\", \"bob\", and \"eve\". We refer to contiguous strings of non-separator-characters as \"elements\". In this example there are three elements. Completion is available on a per-element basis. For example, if the contents of the minibuffer are \"alice,bob,eve\" and point is between \"l\" and \"i\", pressing \\[minibuffer-complete] operates on the element \"alice\". This function returns a list of the strings that were read, with empty strings removed." (let* ((map (if require-match crm-local-must-match-map crm-local-completion-map)) input) (minibuffer-with-setup-hook (lambda () (add-hook 'choose-completion-string-functions 'crm--choose-completion-string nil 'local) (setq-local minibuffer-completion-table #'crm--collection-fn) (setq-local minibuffer-completion-predicate predicate) ;; see completing_read in src/minibuf.c (setq-local minibuffer-completion-confirm (unless (eq require-match t) require-match)) (setq-local crm-completion-table table)) (setq input (read-from-minibuffer prompt initial-input map nil hist def inherit-input-method))) ;; If the user enters empty input, `read-from-minibuffer' ;; returns the empty string, not DEF. (when (and def (string-equal input "")) (setq input (if (consp def) (car def) def))) ;; Remove empty strings in the list of read strings. (split-string input crm-separator t))) ;; testing and debugging ;; (defun crm-init-test-environ () ;; "Set up some variables for testing." ;; (interactive) ;; (setq my-prompt "Prompt: ") ;; (setq my-table ;; '(("hi") ("there") ("man") ("may") ("mouth") ("ma") ;; ("a") ("ab") ("abc") ("abd") ("abf") ("zab") ("acb") ;; ("da") ("dab") ("dabc") ("dabd") ("dabf") ("dzab") ("dacb") ;; ("fda") ("fdab") ("fdabc") ("fdabd") ("fdabf") ("fdzab") ("fdacb") ;; ("gda") ("gdab") ("gdabc") ("gdabd") ("gdabf") ("gdzab") ("gdacb") ;; )) ;; (setq my-separator ",")) ;(completing-read-multiple my-prompt my-table) ;(completing-read-multiple my-prompt my-table nil t) ;(completing-read-multiple my-prompt my-table nil "match") ;(completing-read my-prompt my-table nil t) ;(completing-read my-prompt my-table nil "match") (provide 'crm) ;;; crm.el ends here