;;; cape.el --- Completion At Point Extensions -*- lexical-binding: t -*- ;; Copyright (C) 2021-2023 Free Software Foundation, Inc. ;; Author: Daniel Mendler ;; Maintainer: Daniel Mendler ;; Created: 2021 ;; Version: 0.17 ;; Package-Requires: ((emacs "27.1") (compat "29.1.4.2")) ;; Homepage: https://github.com/minad/cape ;; Keywords: abbrev, convenience, matching, completion, wp ;; This file is part of GNU Emacs. ;; 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 this program. If not, see . ;;; Commentary: ;; Let your completions fly! This package provides additional completion ;; backends in the form of Capfs (completion-at-point-functions). ;; ;; `cape-abbrev': Complete abbreviation (add-global-abbrev, add-mode-abbrev). ;; `cape-dabbrev': Complete word from current buffers. ;; `cape-dict': Complete word from dictionary file. ;; `cape-elisp-block': Complete Elisp in Org or Markdown code block. ;; `cape-elisp-symbol': Complete Elisp symbol. ;; `cape-emoji': Complete Emoji. ;; `cape-file': Complete file name. ;; `cape-history': Complete from Eshell, Comint or minibuffer history. ;; `cape-keyword': Complete programming language keyword. ;; `cape-line': Complete entire line from file. ;; `cape-rfc1345': Complete Unicode char using RFC 1345 mnemonics. ;; `cape-sgml': Complete Unicode char from SGML entity, e.g., &alpha. ;; `cape-tex': Complete Unicode char from TeX command, e.g. \hbar. ;;; Code: (require 'compat) (eval-when-compile (require 'cl-lib) (require 'subr-x)) ;;;; Customization (defgroup cape nil "Completion At Point Extensions." :link '(info-link :tag "Info Manual" "(cape)") :link '(url-link :tag "Homepage" "https://github.com/minad/cape") :link '(emacs-library-link :tag "Library Source" "cape.el") :group 'convenience :group 'tools :group 'matching :prefix "cape-") (defcustom cape-dict-limit 100 "Maximal number of completion candidates returned by `cape-dict'." :type '(choice (const nil) natnum)) (defcustom cape-dict-file "/usr/share/dict/words" "Path to dictionary word list file. This variable can also be a list of paths or a function returning a single or more paths." :type '(choice string (repeat string) function)) (defcustom cape-dict-case-replace 'case-replace "Preserve case of input. See `dabbrev-case-replace' for details." :type '(choice (const :tag "off" nil) (const :tag "use `case-replace'" case-replace) (other :tag "on" t))) (defcustom cape-dict-case-fold 'case-fold-search "Case fold search during search. See `dabbrev-case-fold-search' for details." :type '(choice (const :tag "off" nil) (const :tag "use `case-fold-search'" case-fold-search) (other :tag "on" t))) (defcustom cape-dabbrev-min-length 4 "Minimum length of dabbrev expansions. This setting ensures that words which are too short are not offered as completion candidates, such that auto completion does not pop up too aggressively." :type 'natnum) (defcustom cape-dabbrev-check-other-buffers t "Buffers to check for dabbrev. If t, check all other buffers (subject to dabbrev ignore rules). Any other non-nil value only checks some other buffers, as per `dabbrev-select-buffers-function'." :type '(choice (const :tag "off" nil) (const :tag "some" some) (other :tag "all" t))) (defcustom cape-file-directory nil "Base directory used by `cape-file." :type '(choice (const nil) string function)) (defcustom cape-file-directory-must-exist t "The parent directory must exist for file completion." :type 'boolean) (defcustom cape-line-buffer-function #'cape--buffers-major-mode "Function which returns list of buffers. The buffers are scanned for completion candidates by `cape-line'." :type '(choice (const :tag "Current buffer" current-buffer) (const :tag "All buffers" buffer-list) (const :tag "Buffers with same major mode" cape--buffers-major-mode) (function :tag "Custom function"))) (defcustom cape-elisp-symbol-wrapper '((org-mode ?= ?=) (markdown-mode ?` ?`) (rst-mode "``" "``") (log-edit-mode "`" "'") (message-mode "`" "'") (rcirc-mode "`" "'")) "Wrapper characters for symbols." :type '(alist :key-type symbol :value-type (list (choice character string) (choice character string)))) ;;;; Helpers (defun cape--case-fold-p (fold) "Return non-nil if case folding is enabled for FOLD." (if (eq fold 'case-fold-search) case-fold-search fold)) (defun cape--case-replace-list (flag input strs) "Replace case of STRS depending on INPUT and FLAG." (if (and (if (eq flag 'case-replace) case-replace flag) (string-match-p "\\`[[:upper:]]" input)) (mapcar (apply-partially #'cape--case-replace flag input) strs) strs)) (defun cape--case-replace (flag input str) "Replace case of STR depending on INPUT and FLAG." (or (and (if (eq flag 'case-replace) case-replace flag) (string-prefix-p input str t) (string-match-p "\\`[[:upper:]]" input) (save-match-data ;; Ensure that single character uppercase input does not lead to an ;; all uppercase result. (when (and (= (length input) 1) (> (length str) 1)) (setq input (concat input (substring str 1 2)))) (and (string-match input input) (replace-match str nil nil input)))) str)) (defmacro cape--silent (&rest body) "Silence BODY." (declare (indent 0)) `(cl-letf ((inhibit-message t) (message-log-max nil) ((symbol-function #'minibuffer-message) #'ignore)) (ignore-errors ,@body))) (defun cape--bounds (thing) "Return bounds of THING." (or (bounds-of-thing-at-point thing) (cons (point) (point)))) (defmacro cape--wrapped-table (wrap body) "Create wrapped completion table, handle `completion--unquote'. WRAP is the wrapper function. BODY is the wrapping expression." (declare (indent 1)) `(lambda (str pred action) (,@body (let ((result (complete-with-action action table str pred))) (when (and (eq action 'completion--unquote) (functionp (cadr result))) (cl-callf ,wrap (cadr result))) result)))) (defun cape--accept-all-table (table) "Create completion TABLE which accepts all input." (cape--wrapped-table cape--accept-all-table (or (eq action 'lambda)))) (defun cape--noninterruptible-table (table) "Create non-interruptible completion TABLE." (cape--wrapped-table cape--noninterruptible-table (let (throw-on-input)))) (defun cape--silent-table (table) "Create a new completion TABLE which is silent (no messages, no errors)." (cape--wrapped-table cape--silent-table (cape--silent))) (defun cape--nonessential-table (table) "Mark completion TABLE as `non-essential'." (let ((dir default-directory)) (cape--wrapped-table cape--nonessential-table (let ((default-directory dir) (non-essential t)))))) (defvar cape--debug-length 5 "Length of printed lists in `cape--debug-print'.") (defvar cape--debug-id 0 "Completion table identifier.") (defun cape--debug-message (&rest msg) "Print debug MSG." (let ((inhibit-message t)) (apply #'message msg))) (defun cape--debug-print (obj &optional full) "Print OBJ as string, truncate lists if FULL is nil." (cond ((symbolp obj) (symbol-name obj)) ((functionp obj) "#") ((proper-list-p obj) (concat "(" (string-join (mapcar #'cape--debug-print (if full obj (take cape--debug-length obj))) " ") (if (and (not full) (length> obj cape--debug-length)) " ...)" ")"))) (t (let ((print-level 2)) (prin1-to-string obj))))) (defun cape--debug-table (table name beg end) "Create completion TABLE with debug messages. NAME is the name of the Capf, BEG and END are the input markers." (lambda (str pred action) (let ((result (complete-with-action action table str pred))) (if (and (eq action 'completion--unquote) (functionp (cadr result))) ;; See `cape--wrapped-table' (cl-callf cape--debug-table (cadr result) name beg end) (cape--debug-message "%s(action=%S input=%s:%s:%S prefix=%S ignore-case=%S%s%s) => %s" name (pcase action ('nil 'try) ('t 'all) ('lambda 'test) (_ action)) (+ beg 0) (+ end 0) (buffer-substring-no-properties beg end) str completion-ignore-case (if completion-regexp-list (format " regexp=%s" (cape--debug-print completion-regexp-list t)) "") (if pred (format " predicate=%s" (cape--debug-print pred)) "") (cape--debug-print result))) result))) (cl-defun cape--table-with-properties (table &key category (sort t) &allow-other-keys) "Create completion TABLE with properties. CATEGORY is the optional completion category. SORT should be nil to disable sorting." (if (or (not table) (and (not category) sort)) table (let ((metadata `(metadata ,@(and category `((category . ,category))) ,@(and (not sort) '((display-sort-function . identity) (cycle-sort-function . identity)))))) (lambda (str pred action) (if (eq action 'metadata) metadata (complete-with-action action table str pred)))))) (defun cape--dynamic-table (beg end fun) "Create dynamic completion table from FUN with caching. BEG and END are the input bounds. FUN is the function which computes the candidates. FUN must return a pair of a predicate function function and the list of candidates. The predicate is passed new input and must return non-nil if the candidates are still valid. It is only necessary to use this function if the set of candidates is computed dynamically based on the input and not statically determined. The behavior is similar but slightly different to `completion-table-dynamic'. The difference to the builtins `completion-table-dynamic' and `completion-table-with-cache' is that this function does not use the prefix argument of the completion table to compute the candidates. Instead it uses the input in the buffer between BEG and END to FUN to compute the candidates. This way the dynamic candidate computation is compatible with non-prefix completion styles like `substring' or `orderless', which pass the empty string as first argument to the completion table." (let ((beg (copy-marker beg)) (end (copy-marker end t)) valid table) (lambda (str pred action) ;; Bail out early for `metadata' and `boundaries'. This is a pointless ;; move because of caching, but we do it anyway in the hope that the ;; profiler report looks less confusing, since the weight of the expensive ;; FUN computation is moved to the `all-completions' action. Computing ;; `all-completions' must surely be most expensive, so nobody will suspect ;; a thing. (unless (or (eq action 'metadata) (eq (car-safe action) 'boundaries)) (let ((input (buffer-substring-no-properties beg end))) (when (or (not valid) (not (or (string-match-p "\\s-" input) ;; Support Orderless (funcall valid input)))) (let* (;; Reset in case `all-completions' is used inside FUN completion-ignore-case completion-regexp-list ;; Retrieve new state by calling FUN (new (funcall fun input)) ;; No interrupt during state update throw-on-input) (setq valid (car new) table (cdr new))))) (complete-with-action action table str pred))))) ;;;; Capfs ;;;;; cape-history (declare-function ring-elements "ring") (declare-function eshell-bol "eshell") (declare-function comint-bol "comint") (defvar eshell-history-ring) (defvar comint-input-ring) (defvar cape--history-properties (list :company-kind (lambda (_) 'text) :exclusive 'no) "Completion extra properties for `cape-history'.") ;;;###autoload (defun cape-history (&optional interactive) "Complete from Eshell, Comint or minibuffer history. See also `consult-history' for a more flexible variant based on `completing-read'. If INTERACTIVE is nil the function acts like a Capf." (interactive (list t)) (if interactive (cape-interactive #'cape-history) (let (history bol) (cond ((derived-mode-p 'eshell-mode) (setq history eshell-history-ring bol (save-excursion (eshell-bol) (point)))) ((derived-mode-p 'comint-mode) (setq history comint-input-ring bol (save-excursion (comint-bol) (point)))) ((and (minibufferp) (not (eq minibuffer-history-variable t))) (setq history (symbol-value minibuffer-history-variable) bol (line-beginning-position)))) (when (ring-p history) (setq history (ring-elements history))) (when history `(,bol ,(point) ,(cape--table-with-properties history :sort nil) ,@cape--history-properties))))) ;;;;; cape-file (defvar comint-unquote-function) (defvar comint-requote-function) (defvar cape--file-properties (list :annotation-function (lambda (s) (if (string-suffix-p "/" s) " Dir" " File")) :company-kind (lambda (s) (if (string-suffix-p "/" s) 'folder 'file)) :exclusive 'no) "Completion extra properties for `cape-file'.") ;;;###autoload (defun cape-file (&optional interactive) "Complete file name at point. See the user option `cape-file-directory-must-exist'. If INTERACTIVE is nil the function acts like a Capf." (interactive (list t)) (if interactive (cape-interactive '(cape-file-directory-must-exist) #'cape-file) (pcase-let* ((default-directory (pcase cape-file-directory ('nil default-directory) ((pred stringp) cape-file-directory) (_ (funcall cape-file-directory)))) ;; TODO: Bounds are not correct in comint/eshell buffers (`(,beg . ,end) (cape--bounds 'filename)) (non-essential t) (file (buffer-substring-no-properties beg end)) ;; Support org links globally, see `org-open-at-point-global'. (org (string-prefix-p "file:" file))) (when org (setq beg (+ 5 beg))) (when (or org (not cape-file-directory-must-exist) (and (string-search "/" file) (file-exists-p (file-name-directory file)))) `(,beg ,end ,(cape--nonessential-table (if (derived-mode-p 'comint-mode 'eshell-mode) (completion-table-with-quoting #'read-file-name-internal comint-unquote-function comint-requote-function) #'read-file-name-internal)) ,@(when (or org (string-match-p "./" file)) '(:company-prefix-length t)) ,@cape--file-properties))))) ;;;;; cape-elisp-symbol (defvar cape--symbol-properties (append (list :annotation-function #'cape--symbol-annotation :exit-function #'cape--symbol-exit :predicate #'cape--symbol-predicate :exclusive 'no) (when (eval-when-compile (>= emacs-major-version 28)) (autoload 'elisp--company-kind "elisp-mode") (autoload 'elisp--company-doc-buffer "elisp-mode") (autoload 'elisp--company-doc-string "elisp-mode") (autoload 'elisp--company-location "elisp-mode") (list :company-kind 'elisp--company-kind :company-doc-buffer 'elisp--company-doc-buffer :company-docsig 'elisp--company-doc-string :company-location 'elisp--company-location))) "Completion extra properties for `cape-elisp-symbol'.") (defun cape--symbol-predicate (sym) "Return t if SYM is bound, fbound or propertized." (or (fboundp sym) (boundp sym) (symbol-plist sym))) (defun cape--symbol-exit (name status) "Wrap symbol NAME with `cape-elisp-symbol-wrapper' buffers. STATUS is the exit status." (when-let (((not (eq status 'exact))) (c (cl-loop for (m . c) in cape-elisp-symbol-wrapper if (derived-mode-p m) return c))) (save-excursion (backward-char (length name)) (insert (car c))) (insert (cadr c)))) (defun cape--symbol-annotation (sym) "Return kind of SYM." (setq sym (intern-soft sym)) (cond ((special-form-p sym) " Special") ((macrop sym) " Macro") ((commandp sym) " Command") ((fboundp sym) " Function") ((custom-variable-p sym) " Custom") ((boundp sym) " Variable") ((featurep sym) " Feature") ((facep sym) " Face") (t " Symbol"))) ;;;###autoload (defun cape-elisp-symbol (&optional interactive) "Complete Elisp symbol at point. If INTERACTIVE is nil the function acts like a Capf." (interactive (list t)) (if interactive ;; No cycling since it breaks the :exit-function. (let (completion-cycle-threshold) (cape-interactive #'cape-elisp-symbol)) (pcase-let ((`(,beg . ,end) (cape--bounds 'symbol))) (when (eq (char-after beg) ?') (setq beg (1+ beg) end (max beg end))) `(,beg ,end ,(cape--table-with-properties obarray :category 'symbol) ,@cape--symbol-properties)))) ;;;;; cape-elisp-block (declare-function org-element-context "org-element") (declare-function markdown-code-block-lang "ext:markdown-mode") ;;;###autoload (defun cape-elisp-block (&optional interactive) "Complete Elisp in Org or Markdown code block. This Capf is particularly useful for literate Emacs configurations. If INTERACTIVE is nil the function acts like a Capf." (interactive (list t)) (if interactive ;; No code block check. Always complete Elisp when the command was ;; explicitly invoked interactively. (cape-interactive #'elisp-completion-at-point) (when-let ((face (get-text-property (point) 'face)) (lang (or (and (if (listp face) (memq 'org-block face) (eq 'org-block face)) (plist-get (cadr (org-element-context)) :language)) (and (if (listp face) (memq 'markdown-code-face face) (eq 'markdown-code-face face)) (save-excursion (markdown-code-block-lang))))) ((member lang '("elisp" "emacs-lisp")))) (elisp-completion-at-point)))) ;;;;; cape-dabbrev (defvar cape--dabbrev-properties (list :annotation-function (lambda (_) " Dabbrev") :company-kind (lambda (_) 'text) :exclusive 'no) "Completion extra properties for `cape-dabbrev'.") (defvar dabbrev-check-all-buffers) (defvar dabbrev-check-other-buffers) (defvar dabbrev-case-replace) (defvar dabbrev-case-fold-search) (defvar dabbrev-abbrev-char-regexp) (defvar dabbrev-abbrev-skip-leading-regexp) (declare-function dabbrev--find-all-expansions "dabbrev") (declare-function dabbrev--reset-global-variables "dabbrev") (defun cape--dabbrev-list (input) "Find all dabbrev expansions for INPUT." (cape--silent (let ((dabbrev-check-other-buffers (not (null cape-dabbrev-check-other-buffers))) (dabbrev-check-all-buffers (eq cape-dabbrev-check-other-buffers t))) (dabbrev--reset-global-variables)) (cons (apply-partially #'string-prefix-p input) (cl-loop with min-len = (+ cape-dabbrev-min-length (length input)) with ic = (cape--case-fold-p dabbrev-case-fold-search) for w in (dabbrev--find-all-expansions input ic) if (>= (length w) min-len) collect (cape--case-replace (and ic dabbrev-case-replace) input w))))) (defun cape--dabbrev-bounds () "Return bounds of abbreviation." (unless (boundp 'dabbrev-abbrev-char-regexp) (require 'dabbrev)) (let ((re (or dabbrev-abbrev-char-regexp "\\sw\\|\\s_")) (limit (minibuffer-prompt-end))) (when (or (looking-at re) (and (> (point) limit) (save-excursion (forward-char -1) (looking-at re)))) (cons (save-excursion (while (and (> (point) limit) (save-excursion (forward-char -1) (looking-at re))) (forward-char -1)) (when dabbrev-abbrev-skip-leading-regexp (while (looking-at dabbrev-abbrev-skip-leading-regexp) (forward-char 1))) (point)) (save-excursion (while (looking-at re) (forward-char 1)) (point)))))) ;;;###autoload (defun cape-dabbrev (&optional interactive) "Complete with Dabbrev at point. If INTERACTIVE is nil the function acts like a Capf. In case you observe a performance issue with autocompletion and `cape-dabbrev' it is strongly recommended to disable scanning in other buffers. See the user options `cape-dabbrev-min-length' and `cape-dabbrev-check-other-buffers'." (interactive (list t)) (if interactive (cape-interactive '((cape-dabbrev-min-length 0)) #'cape-dabbrev) (when-let ((bounds (cape--dabbrev-bounds))) `(,(car bounds) ,(cdr bounds) ,(cape--table-with-properties (completion-table-case-fold (cape--dynamic-table (car bounds) (cdr bounds) #'cape--dabbrev-list) (not (cape--case-fold-p dabbrev-case-fold-search))) :category 'cape-dabbrev) ,@cape--dabbrev-properties)))) ;;;;; cape-dict (defvar cape--dict-properties (list :annotation-function (lambda (_) " Dict") :company-kind (lambda (_) 'text) :exclusive 'no) "Completion extra properties for `cape-dict'.") (defun cape--dict-list (input) "Return all words from `cape-dict-file' matching INPUT." (unless (equal input "") (let* ((inhibit-message t) (message-log-max nil) (files (ensure-list (if (functionp cape-dict-file) (funcall cape-dict-file) cape-dict-file))) (words (apply #'process-lines-ignore-status "grep" (concat "-Fh" (and (cape--case-fold-p cape-dict-case-fold) "i") (and cape-dict-limit (format "m%d" cape-dict-limit))) input files))) (cons (apply-partially (if (and cape-dict-limit (length= words cape-dict-limit)) #'equal #'string-search) input) (cape--case-replace-list cape-dict-case-replace input words))))) ;;;###autoload (defun cape-dict (&optional interactive) "Complete word from dictionary at point. This completion function works best if the dictionary is sorted by frequency. See the custom option `cape-dict-file'. If INTERACTIVE is nil the function acts like a Capf." (interactive (list t)) (if interactive (cape-interactive #'cape-dict) (pcase-let ((`(,beg . ,end) (cape--bounds 'word))) `(,beg ,end ,(cape--table-with-properties (completion-table-case-fold (cape--dynamic-table beg end #'cape--dict-list) (not (cape--case-fold-p cape-dict-case-fold))) :sort nil ;; Presorted word list (by frequency) :category 'cape-dict) ,@cape--dict-properties)))) ;;;;; cape-abbrev (defun cape--abbrev-tables () "Return list of all active abbrev tables, including parents." ;; Emacs 28: See abbrev--suggest-get-active-tables-including-parents. (let ((tables (abbrev--active-tables))) (append tables (cl-loop for table in tables append (abbrev-table-get table :parents))))) (defun cape--abbrev-list () "Abbreviation list." (delete "" (cl-loop for table in (cape--abbrev-tables) nconc (all-completions "" table)))) (defun cape--abbrev-annotation (abbrev) "Annotate ABBREV with expansion." (concat " " (truncate-string-to-width (format "%s" (symbol-value (cl-loop for table in (cape--abbrev-tables) thereis (abbrev--symbol abbrev table)))) 30 0 nil t))) (defun cape--abbrev-exit (_str status) "Expand expansion if STATUS is not exact." (unless (eq status 'exact) (expand-abbrev))) (defvar cape--abbrev-properties (list :annotation-function #'cape--abbrev-annotation :exit-function #'cape--abbrev-exit :company-kind (lambda (_) 'snippet) :exclusive 'no) "Completion extra properties for `cape-abbrev'.") ;;;###autoload (defun cape-abbrev (&optional interactive) "Complete abbreviation at point. If INTERACTIVE is nil the function acts like a Capf." (interactive (list t)) (if interactive ;; No cycling since it breaks the :exit-function. (let (completion-cycle-threshold) (cape-interactive #'cape-abbrev)) (when-let (abbrevs (cape--abbrev-list)) (let ((bounds (cape--bounds 'symbol))) `(,(car bounds) ,(cdr bounds) ,(cape--table-with-properties abbrevs :category 'cape-abbrev) ,@cape--abbrev-properties))))) ;;;;; cape-line (defvar cape--line-properties nil "Completion extra properties for `cape-line'.") (defun cape--buffers-major-mode () "Return buffers with same major mode as current buffer." (cl-loop for buf in (buffer-list) if (eq major-mode (buffer-local-value 'major-mode buf)) collect buf)) (defun cape--line-list () "Return all lines from buffer." (let ((ht (make-hash-table :test #'equal)) (curr-buf (current-buffer)) (buffers (funcall cape-line-buffer-function)) lines) (dolist (buf (ensure-list buffers)) (with-current-buffer buf (let ((beg (point-min)) (max (point-max)) (pt (if (eq curr-buf buf) (point) -1)) end) (save-excursion (while (< beg max) (goto-char beg) (setq end (pos-eol)) (unless (<= beg pt end) (let ((line (buffer-substring-no-properties beg end))) (unless (or (string-blank-p line) (gethash line ht)) (puthash line t ht) (push line lines)))) (setq beg (1+ end))))))) (nreverse lines))) ;;;###autoload (defun cape-line (&optional interactive) "Complete current line from other lines. The buffers returned by `cape-line-buffer-function' are scanned for lines. If INTERACTIVE is nil the function acts like a Capf." (interactive (list t)) (if interactive (cape-interactive #'cape-line) `(,(pos-bol) ,(point) ,(cape--table-with-properties (cape--line-list) :sort nil) ,@cape--line-properties))) ;;;; Capf combinators (defun cape--company-call (&rest app) "Apply APP and handle future return values." ;; Backends are non-interruptible. Disable interrupts! (let ((toi throw-on-input) (throw-on-input nil)) (pcase (apply app) ;; Handle async future return values. (`(:async . ,fetch) (let ((res 'cape--waiting)) (if toi (unwind-protect (progn (funcall fetch (lambda (arg) (when (eq res 'cape--waiting) (push 'cape--done unread-command-events) (setq res arg)))) (when (eq res 'cape--waiting) (let ((ev (let ((input-method-function nil) (echo-keystrokes 0)) (read-event nil t)))) (unless (eq ev 'cape--done) (push (cons t ev) unread-command-events) (setq res 'cape--cancelled) (throw toi t))))) (setq unread-command-events (delq 'cape--done unread-command-events))) (funcall fetch (lambda (arg) (setq res arg))) ;; Force synchronization, not interruptible! We use polling ;; here and ignore pending input since we don't use ;; `sit-for'. This is the same method used by Company itself. (while (eq res 'cape--waiting) (sleep-for 0.01))) res)) ;; Plain old synchronous return value. (res res)))) (defvar-local cape--company-init nil) ;;;###autoload (defun cape-company-to-capf (backend &optional valid) "Convert Company BACKEND function to Capf. VALID is a function taking the old and new input string. It should return nil if the cached candidates became invalid. The default value for VALID is `string-prefix-p' such that the candidates are only fetched again if the input prefix changed. The function `cape-company-to-capf' is experimental." (lambda () (when (and (symbolp backend) (not (fboundp backend))) (ignore-errors (require backend nil t))) (when (and (symbolp backend) (not (alist-get backend cape--company-init))) (funcall backend 'init) (put backend 'company-init t) (setf (alist-get backend cape--company-init) t)) (when-let ((prefix (cape--company-call backend 'prefix)) (initial-input (if (stringp prefix) prefix (car-safe prefix)))) (let* ((end (point)) (beg (- end (length initial-input))) (dups (cape--company-call backend 'duplicates)) (valid (if (cape--company-call backend 'no-cache initial-input) #'equal (or valid #'string-prefix-p))) reset candidates) (list beg end (funcall (if (cape--company-call backend 'ignore-case) #'completion-table-case-fold #'identity) (cape--table-with-properties (cape--dynamic-table beg end (lambda (input) ;; HACK: Clear caches used internally by Company backends. ;; It would be better if backends support a `cache-clear' ;; action instead such that we wouldn't have to bypass the ;; backend and access Company directly. (when (and (not reset) (boundp 'company--cache)) (clrhash company--cache) (setq reset t)) (setq candidates (cape--company-call backend 'candidates input)) (when dups (setq candidates (delete-dups candidates))) (cons (apply-partially valid input) candidates))) :category backend :sort (not (cape--company-call backend 'sorted)))) :exclusive 'no :company-prefix-length (cdr-safe prefix) :company-doc-buffer (lambda (x) (cape--company-call backend 'doc-buffer x)) :company-location (lambda (x) (cape--company-call backend 'location x)) :company-docsig (lambda (x) (cape--company-call backend 'meta x)) :company-deprecated (lambda (x) (cape--company-call backend 'deprecated x)) :company-kind (lambda (x) (cape--company-call backend 'kind x)) :annotation-function (lambda (x) (when-let (ann (cape--company-call backend 'annotation x)) (if (string-match-p "^[ \t]" ann) ann (concat " " ann)))) :exit-function (lambda (x _status) (cape--company-call backend 'post-completion (or (car (member x candidates)) x)))))))) ;;;###autoload (defun cape-interactive (&rest capfs) "Complete interactively with the given CAPFS." (let* ((ctx (and (consp (car capfs)) (car capfs))) (capfs (if ctx (cdr capfs) capfs)) (completion-at-point-functions (if ctx (mapcar (lambda (f) `(lambda () (let ,ctx (funcall ',f)))) capfs) capfs))) (unless (completion-at-point) (user-error "%s: No completions" (mapconcat (lambda (fun) (if (symbolp fun) (symbol-name fun) "anonymous-capf")) capfs ", "))))) ;;;###autoload (defun cape-interactive-capf (capf) "Create interactive completion function from CAPF." (lambda (&optional interactive) (interactive (list t)) (if interactive (cape-interactive capf) (funcall capf)))) ;;;###autoload (defun cape-wrap-super (&rest capfs) "Call CAPFS and return merged completion result. The functions `cape-wrap-super' and `cape-capf-super' are experimental." (when-let ((results (delq nil (mapcar #'funcall capfs)))) (pcase-let* ((`((,beg ,end . ,_)) results) (cand-ht (make-hash-table :test #'equal)) (tables nil) (prefix-len nil)) (cl-loop for (beg2 end2 . rest) in results do (when (and (= beg beg2) (= end end2)) (push rest tables) (let ((plen (plist-get (cdr rest) :company-prefix-length))) (cond ((eq plen t) (setq prefix-len t)) ((and (not prefix-len) (integerp plen)) (setq prefix-len plen)) ((and (integerp prefix-len) (integerp plen)) (setq prefix-len (max prefix-len plen))))))) (setq tables (nreverse tables)) `(,beg ,end ,(lambda (str pred action) (pcase action (`(boundaries . ,_) nil) ('metadata '(metadata (category . cape-super) (display-sort-function . identity) (cycle-sort-function . identity))) ('t ;; all-completions (let ((ht (make-hash-table :test #'equal)) (candidates nil)) (cl-loop for (table . plist) in tables do (let* ((pr (if-let (pr (plist-get plist :predicate)) (if pred (lambda (x) (and (funcall pr x) (funcall pred x))) pr) pred)) (md (completion-metadata "" table pr)) (sort (or (completion-metadata-get md 'display-sort-function) #'identity)) (cands (funcall sort (all-completions str table pr)))) (cl-loop for cell on cands for cand = (car cell) do (if (eq (gethash cand ht t) t) (puthash cand plist ht) (setcar cell nil))) (push cands candidates))) (setq cand-ht ht) (delq nil (apply #'nconc (nreverse candidates))))) (_ ;; try-completion and test-completion (cl-loop for (table . plist) in tables thereis (complete-with-action action table str (if-let (pr (plist-get plist :predicate)) (if pred (lambda (x) (and (funcall pr x) (funcall pred x))) pr) pred)))))) :exclusive no :company-prefix-length ,prefix-len ,@(mapcan (lambda (prop) (list prop (lambda (cand &rest args) (when-let (fun (plist-get (gethash cand cand-ht) prop)) (apply fun cand args))))) '(:company-docsig :company-location :company-kind :company-doc-buffer :company-deprecated :annotation-function :exit-function)))))) ;;;###autoload (defun cape-wrap-debug (capf &optional name) "Call CAPF and return a completion table which prints trace messages. If CAPF is an anonymous lambda, pass the Capf NAME explicitly for meaningful debugging output." (unless name (setq name (if (symbolp capf) capf "capf"))) (setq name (format "%s@%s" name (cl-incf cape--debug-id))) (pcase (funcall capf) (`(,beg ,end ,table . ,plist) (let* (completion-ignore-case completion-regexp-list (limit (1+ cape--debug-length)) (pred (plist-get plist :predicate)) (cands (all-completions "" table (lambda (&rest args) (and (or (not pred) (apply pred args)) (>= (cl-decf limit) 0))))) (plist-str "") (plist-elt plist)) (while (cdr plist-elt) (setq plist-str (format "%s %s=%s" plist-str (substring (symbol-name (car plist-elt)) 1) (cape--debug-print (cadr plist-elt))) plist-elt (cddr plist-elt))) (cape--debug-message "%s => input=%s:%s:%S table=%s%s" name (+ beg 0) (+ end 0) (buffer-substring-no-properties beg end) (cape--debug-print cands) plist-str)) `(,beg ,end ,(cape--debug-table table name (copy-marker beg) (copy-marker end t)) ,@(when-let ((exit (plist-get plist :exit-function))) (list :exit-function (lambda (cand status) (cape--debug-message "%s:exit(candidate=%S status=%s)" name cand status) (funcall exit cand status)))) . ,plist)) (result (cape--debug-message "%s() => %s (No completion)" name (cape--debug-print result))))) ;;;###autoload (defun cape-wrap-buster (capf &optional valid) "Call CAPF and return a completion table with cache busting. This function can be used as an advice around an existing Capf. The cache is busted when the input changes. The argument VALID can be a function taking the old and new input string. It should return nil if the new input requires that the completion table is refreshed. The default value for VALID is `equal', such that the completion table is refreshed on every input change." (setq valid (or valid #'equal)) (pcase (funcall capf) (`(,beg ,end ,table . ,plist) (setq plist `(:cape--buster t . ,plist)) `(,beg ,end ,(let* ((beg (copy-marker beg)) (end (copy-marker end t)) (input (buffer-substring-no-properties beg end))) (lambda (str pred action) (let ((new-input (buffer-substring-no-properties beg end))) (unless (or (string-match-p "\\s-" new-input) ;; Support Orderless (funcall valid input new-input)) (pcase ;; Reset in case `all-completions' is used inside CAPF (let (completion-ignore-case completion-regexp-list) (funcall capf)) ((and `(,new-beg ,new-end ,new-table . ,new-plist) (guard (and (= beg new-beg) (= end new-end)))) (let (throw-on-input) ;; No interrupt during state update (setf table new-table input new-input (cddr plist) new-plist)))))) (complete-with-action action table str pred))) ,@plist)))) ;;;###autoload (defun cape-wrap-properties (capf &rest properties) "Call CAPF and add additional completion PROPERTIES. Completion properties include for example :exclusive, :annotation-function and the various :company-* extensions. Furthermore a boolean :sort flag and a completion :category symbol can be specified." (pcase (funcall capf) (`(,beg ,end ,table . ,plist) `(,beg ,end ,(apply #'cape--table-with-properties table properties) ,@properties ,@plist)))) ;;;###autoload (defun cape-wrap-nonexclusive (capf) "Call CAPF and ensure that it is marked as non-exclusive. This function can be used as an advice around an existing Capf." (cape-wrap-properties capf :exclusive 'no)) ;;;###autoload (defun cape-wrap-predicate (capf predicate) "Call CAPF and add an additional candidate PREDICATE. The PREDICATE is passed the candidate symbol or string." (pcase (funcall capf) (`(,beg ,end ,table . ,plist) `(,beg ,end ,table :predicate ,(if-let (pred (plist-get plist :predicate)) ;; First argument is key, second is value for hash tables. ;; The first argument can be a cons cell for alists. Then ;; the candidate itself is either a string or a symbol. We ;; normalize the calling convention here such that PREDICATE ;; always receives a string or a symbol. (lambda (&rest args) (when (apply pred args) (setq args (car args)) (funcall predicate (if (consp args) (car args) args)))) (lambda (key &optional _val) (funcall predicate (if (consp key) (car key) key)))) ,@plist)))) ;;;###autoload (defun cape-wrap-silent (capf) "Call CAPF and silence it (no messages, no errors). This function can be used as an advice around an existing Capf." (pcase (cape--silent (funcall capf)) (`(,beg ,end ,table . ,plist) `(,beg ,end ,(cape--silent-table table) ,@plist)))) ;;;###autoload (defun cape-wrap-case-fold (capf &optional dont-fold) "Call CAPF and return a case-insensitive completion table. If DONT-FOLD is non-nil return a case sensitive table instead. This function can be used as an advice around an existing Capf." (pcase (funcall capf) (`(,beg ,end ,table . ,plist) `(,beg ,end ,(completion-table-case-fold table dont-fold) ,@plist)))) ;;;###autoload (defun cape-wrap-noninterruptible (capf) "Call CAPF and return a non-interruptible completion table. This function can be used as an advice around an existing Capf." (pcase (let (throw-on-input) (funcall capf)) (`(,beg ,end ,table . ,plist) `(,beg ,end ,(cape--noninterruptible-table table) ,@plist)))) ;;;###autoload (defun cape-wrap-prefix-length (capf length) "Call CAPF and ensure that prefix length is greater or equal than LENGTH. If the prefix is long enough, enforce auto completion." (pcase (funcall capf) (`(,beg ,end ,table . ,plist) (when (>= (- end beg) length) `(,beg ,end ,table :company-prefix-length t ,@plist))))) ;;;###autoload (defun cape-wrap-inside-comment (capf) "Call CAPF only if inside comment. This function can be used as an advice around an existing Capf." (and (nth 4 (syntax-ppss)) (funcall capf))) ;;;###autoload (defun cape-wrap-inside-string (capf) "Call CAPF only if inside string. This function can be used as an advice around an existing Capf." (and (nth 3 (syntax-ppss)) (funcall capf))) ;;;###autoload (defun cape-wrap-purify (capf) "Call CAPF and ensure that it does not illegally modify the buffer. This function can be used as an advice around an existing Capf. It has been introduced mainly to fix the broken `pcomplete-completions-at-point' function in Emacs versions < 29." ;; bug#50470: Fix Capfs which illegally modify the buffer or which illegally ;; call `completion-in-region'. The workaround here was proposed by ;; @jakanakaevangeli and is used in his capf-autosuggest package. In Emacs 29 ;; the purity bug of Pcomplete has been fixed, such that make ;; `cape-wrap-purify' is not necessary anymore. (catch 'cape--illegal-completion-in-region (condition-case nil (let ((buffer-read-only t) (inhibit-read-only nil) (completion-in-region-function (lambda (beg end coll pred) (throw 'cape--illegal-completion-in-region (list beg end coll :predicate pred))))) (funcall capf)) (buffer-read-only nil)))) ;;;###autoload (defun cape-wrap-accept-all (capf) "Call CAPF and return a completion table which accepts every input. This function can be used as an advice around an existing Capf." (pcase (funcall capf) (`(,beg ,end ,table . ,plist) `(,beg ,end ,(cape--accept-all-table table) . ,plist)))) (defmacro cape--capf-wrapper (wrapper) "Create a capf transformer from WRAPPER." `(defun ,(intern (format "cape-capf-%s" wrapper)) (&rest args) (lambda () (apply #',(intern (format "cape-wrap-%s" wrapper)) args)))) ;;;###autoload (autoload 'cape-capf-accept-all "cape") (cape--capf-wrapper accept-all) ;;;###autoload (autoload 'cape-capf-buster "cape") (cape--capf-wrapper buster) ;;;###autoload (autoload 'cape-capf-case-fold "cape") (cape--capf-wrapper case-fold) ;;;###autoload (autoload 'cape-capf-debug "cape") (cape--capf-wrapper debug) ;;;###autoload (autoload 'cape-capf-inside-comment "cape") (cape--capf-wrapper inside-comment) ;;;###autoload (autoload 'cape-capf-inside-string "cape") (cape--capf-wrapper inside-string) ;;;###autoload (autoload 'cape-capf-super "cape") (cape--capf-wrapper super) ;;;###autoload (autoload 'cape-capf-noninterruptible "cape") (cape--capf-wrapper noninterruptible) ;;;###autoload (autoload 'cape-capf-nonexclusive "cape") (cape--capf-wrapper nonexclusive) ;;;###autoload (autoload 'cape-capf-predicate "cape") (cape--capf-wrapper predicate) ;;;###autoload (autoload 'cape-capf-prefix-length "cape") (cape--capf-wrapper prefix-length) ;;;###autoload (autoload 'cape-capf-properties "cape") (cape--capf-wrapper properties) ;;;###autoload (autoload 'cape-capf-purify "cape") (cape--capf-wrapper purify) ;;;###autoload (autoload 'cape-capf-silent "cape") (cape--capf-wrapper silent) ;;;###autoload (define-obsolete-function-alias 'cape-super-capf #'cape-capf-super "0.17") ;;;###autoload (define-obsolete-function-alias 'cape-symbol #'cape-elisp-symbol "0.17") (provide 'cape) ;;; cape.el ends here