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|
;;; elisp-mode.el --- Emacs Lisp mode -*- lexical-binding:t -*-
;; Copyright (C) 1985-1986, 1999-2016 Free Software Foundation, Inc.
;; Maintainer: emacs-devel@gnu.org
;; Keywords: lisp, languages
;; Package: emacs
;; 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 <http://www.gnu.org/licenses/>.
;;; Commentary:
;; The major mode for editing Emacs Lisp code.
;; This mode is documented in the Emacs manual.
;;; Code:
(require 'cl-generic)
(require 'lisp-mode)
(eval-when-compile (require 'cl-lib))
(define-abbrev-table 'emacs-lisp-mode-abbrev-table ()
"Abbrev table for Emacs Lisp mode.
It has `lisp-mode-abbrev-table' as its parent."
:parents (list lisp-mode-abbrev-table))
(defvar emacs-lisp-mode-syntax-table
(let ((table (make-syntax-table lisp--mode-syntax-table)))
(modify-syntax-entry ?\[ "(] " table)
(modify-syntax-entry ?\] ")[ " table)
table)
"Syntax table used in `emacs-lisp-mode'.")
(defvar emacs-lisp-mode-map
(let ((map (make-sparse-keymap "Emacs-Lisp"))
(menu-map (make-sparse-keymap "Emacs-Lisp"))
(lint-map (make-sparse-keymap))
(prof-map (make-sparse-keymap))
(tracing-map (make-sparse-keymap)))
(set-keymap-parent map lisp-mode-shared-map)
(define-key map "\e\t" 'completion-at-point)
(define-key map "\e\C-x" 'eval-defun)
(define-key map "\e\C-q" 'indent-pp-sexp)
(bindings--define-key map [menu-bar emacs-lisp]
(cons "Emacs-Lisp" menu-map))
(bindings--define-key menu-map [eldoc]
'(menu-item "Auto-Display Documentation Strings" eldoc-mode
:button (:toggle . (bound-and-true-p eldoc-mode))
:help "Display the documentation string for the item under cursor"))
(bindings--define-key menu-map [checkdoc]
'(menu-item "Check Documentation Strings" checkdoc
:help "Check documentation strings for style requirements"))
(bindings--define-key menu-map [re-builder]
'(menu-item "Construct Regexp" re-builder
:help "Construct a regexp interactively"))
(bindings--define-key menu-map [tracing] (cons "Tracing" tracing-map))
(bindings--define-key tracing-map [tr-a]
'(menu-item "Untrace All" untrace-all
:help "Untrace all currently traced functions"))
(bindings--define-key tracing-map [tr-uf]
'(menu-item "Untrace Function..." untrace-function
:help "Untrace function, and possibly activate all remaining advice"))
(bindings--define-key tracing-map [tr-sep] menu-bar-separator)
(bindings--define-key tracing-map [tr-q]
'(menu-item "Trace Function Quietly..." trace-function-background
:help "Trace the function with trace output going quietly to a buffer"))
(bindings--define-key tracing-map [tr-f]
'(menu-item "Trace Function..." trace-function
:help "Trace the function given as an argument"))
(bindings--define-key menu-map [profiling] (cons "Profiling" prof-map))
(bindings--define-key prof-map [prof-restall]
'(menu-item "Remove Instrumentation for All Functions" elp-restore-all
:help "Restore the original definitions of all functions being profiled"))
(bindings--define-key prof-map [prof-restfunc]
'(menu-item "Remove Instrumentation for Function..." elp-restore-function
:help "Restore an instrumented function to its original definition"))
(bindings--define-key prof-map [sep-rem] menu-bar-separator)
(bindings--define-key prof-map [prof-resall]
'(menu-item "Reset Counters for All Functions" elp-reset-all
:help "Reset the profiling information for all functions being profiled"))
(bindings--define-key prof-map [prof-resfunc]
'(menu-item "Reset Counters for Function..." elp-reset-function
:help "Reset the profiling information for a function"))
(bindings--define-key prof-map [prof-res]
'(menu-item "Show Profiling Results" elp-results
:help "Display current profiling results"))
(bindings--define-key prof-map [prof-pack]
'(menu-item "Instrument Package..." elp-instrument-package
:help "Instrument for profiling all function that start with a prefix"))
(bindings--define-key prof-map [prof-func]
'(menu-item "Instrument Function..." elp-instrument-function
:help "Instrument a function for profiling"))
;; Maybe this should be in a separate submenu from the ELP stuff?
(bindings--define-key prof-map [sep-natprof] menu-bar-separator)
(bindings--define-key prof-map [prof-natprof-stop]
'(menu-item "Stop Native Profiler" profiler-stop
:help "Stop recording profiling information"
:enable (and (featurep 'profiler)
(profiler-running-p))))
(bindings--define-key prof-map [prof-natprof-report]
'(menu-item "Show Profiler Report" profiler-report
:help "Show the current profiler report"
:enable (and (featurep 'profiler)
(profiler-running-p))))
(bindings--define-key prof-map [prof-natprof-start]
'(menu-item "Start Native Profiler..." profiler-start
:help "Start recording profiling information"))
(bindings--define-key menu-map [lint] (cons "Linting" lint-map))
(bindings--define-key lint-map [lint-di]
'(menu-item "Lint Directory..." elint-directory
:help "Lint a directory"))
(bindings--define-key lint-map [lint-f]
'(menu-item "Lint File..." elint-file
:help "Lint a file"))
(bindings--define-key lint-map [lint-b]
'(menu-item "Lint Buffer" elint-current-buffer
:help "Lint the current buffer"))
(bindings--define-key lint-map [lint-d]
'(menu-item "Lint Defun" elint-defun
:help "Lint the function at point"))
(bindings--define-key menu-map [edebug-defun]
'(menu-item "Instrument Function for Debugging" edebug-defun
:help "Evaluate the top level form point is in, stepping through with Edebug"
:keys "C-u C-M-x"))
(bindings--define-key menu-map [separator-byte] menu-bar-separator)
(bindings--define-key menu-map [disas]
'(menu-item "Disassemble Byte Compiled Object..." disassemble
:help "Print disassembled code for OBJECT in a buffer"))
(bindings--define-key menu-map [byte-recompile]
'(menu-item "Byte-recompile Directory..." byte-recompile-directory
:help "Recompile every `.el' file in DIRECTORY that needs recompilation"))
(bindings--define-key menu-map [emacs-byte-compile-and-load]
'(menu-item "Byte-compile and Load" emacs-lisp-byte-compile-and-load
:help "Byte-compile the current file (if it has changed), then load compiled code"))
(bindings--define-key menu-map [byte-compile]
'(menu-item "Byte-compile This File" emacs-lisp-byte-compile
:help "Byte compile the file containing the current buffer"))
(bindings--define-key menu-map [separator-eval] menu-bar-separator)
(bindings--define-key menu-map [ielm]
'(menu-item "Interactive Expression Evaluation" ielm
:help "Interactively evaluate Emacs Lisp expressions"))
(bindings--define-key menu-map [eval-buffer]
'(menu-item "Evaluate Buffer" eval-buffer
:help "Execute the current buffer as Lisp code"))
(bindings--define-key menu-map [eval-region]
'(menu-item "Evaluate Region" eval-region
:help "Execute the region as Lisp code"
:enable mark-active))
(bindings--define-key menu-map [eval-sexp]
'(menu-item "Evaluate Last S-expression" eval-last-sexp
:help "Evaluate sexp before point; print value in echo area"))
(bindings--define-key menu-map [separator-format] menu-bar-separator)
(bindings--define-key menu-map [comment-region]
'(menu-item "Comment Out Region" comment-region
:help "Comment or uncomment each line in the region"
:enable mark-active))
(bindings--define-key menu-map [indent-region]
'(menu-item "Indent Region" indent-region
:help "Indent each nonblank line in the region"
:enable mark-active))
(bindings--define-key menu-map [indent-line]
'(menu-item "Indent Line" lisp-indent-line))
map)
"Keymap for Emacs Lisp mode.
All commands in `lisp-mode-shared-map' are inherited by this map.")
(defun emacs-lisp-byte-compile ()
"Byte compile the file containing the current buffer."
(interactive)
(if buffer-file-name
(byte-compile-file buffer-file-name)
(error "The buffer must be saved in a file first")))
(defun emacs-lisp-byte-compile-and-load ()
"Byte-compile the current file (if it has changed), then load compiled code."
(interactive)
(or buffer-file-name
(error "The buffer must be saved in a file first"))
(require 'bytecomp)
;; Recompile if file or buffer has changed since last compilation.
(if (and (buffer-modified-p)
(y-or-n-p (format "Save buffer %s first? " (buffer-name))))
(save-buffer))
(byte-recompile-file buffer-file-name nil 0 t))
(defun emacs-lisp-macroexpand ()
"Macroexpand the form after point.
Comments in the form will be lost."
(interactive)
(let* ((start (point))
(exp (read (current-buffer)))
;; Compute it before, since it may signal errors.
(new (macroexpand-1 exp)))
(if (equal exp new)
(message "Not a macro call, nothing to expand")
(delete-region start (point))
(pp new (current-buffer))
(if (bolp) (delete-char -1))
(indent-region start (point)))))
(defcustom emacs-lisp-mode-hook nil
"Hook run when entering Emacs Lisp mode."
:options '(eldoc-mode imenu-add-menubar-index checkdoc-minor-mode)
:type 'hook
:group 'lisp)
;;;###autoload
(define-derived-mode emacs-lisp-mode prog-mode "Emacs-Lisp"
"Major mode for editing Lisp code to run in Emacs.
Commands:
Delete converts tabs to spaces as it moves back.
Blank lines separate paragraphs. Semicolons start comments.
\\{emacs-lisp-mode-map}"
:group 'lisp
(defvar project-vc-external-roots-function)
(lisp-mode-variables nil nil 'elisp)
(add-hook 'after-load-functions #'elisp--font-lock-flush-elisp-buffers)
(setq-local electric-pair-text-pairs
(append '((?\` . ?\') (?‘ . ?’)) electric-pair-text-pairs))
(setq-local electric-quote-string t)
(setq imenu-case-fold-search nil)
(add-function :before-until (local 'eldoc-documentation-function)
#'elisp-eldoc-documentation-function)
(add-hook 'xref-backend-functions #'elisp--xref-backend nil t)
(setq-local project-vc-external-roots-function #'elisp-load-path-roots)
(add-hook 'completion-at-point-functions
#'elisp-completion-at-point nil 'local))
;; Font-locking support.
(defun elisp--font-lock-flush-elisp-buffers (&optional file)
;; FIXME: Aren't we only ever called from after-load-functions?
;; Don't flush during load unless called from after-load-functions.
;; In that case, FILE is non-nil. It's somehow strange that
;; load-in-progress is t when an after-load-function is called since
;; that should run *after* the load...
(when (or (not load-in-progress) file)
;; FIXME: If the loaded file did not define any macros, there shouldn't
;; be any need to font-lock-flush all the Elisp buffers.
(dolist (buf (buffer-list))
(with-current-buffer buf
(when (derived-mode-p 'emacs-lisp-mode)
;; So as to take into account new macros that may have been defined
;; by the just-loaded file.
(font-lock-flush))))))
;;; Completion at point for Elisp
(defun elisp--local-variables-1 (vars sexp)
"Return the vars locally bound around the witness, or nil if not found."
(let (res)
(while
(unless
(setq res
(pcase sexp
(`(,(or `let `let*) ,bindings)
(let ((vars vars))
(when (eq 'let* (car sexp))
(dolist (binding (cdr (reverse bindings)))
(push (or (car-safe binding) binding) vars)))
(elisp--local-variables-1
vars (car (cdr-safe (car (last bindings)))))))
(`(,(or `let `let*) ,bindings . ,body)
(let ((vars vars))
(dolist (binding bindings)
(push (or (car-safe binding) binding) vars))
(elisp--local-variables-1 vars (car (last body)))))
(`(lambda ,_args)
;; FIXME: Look for the witness inside `args'.
(setq sexp nil))
(`(lambda ,args . ,body)
(elisp--local-variables-1
(append (remq '&optional (remq '&rest args)) vars)
(car (last body))))
(`(condition-case ,_ ,e) (elisp--local-variables-1 vars e))
(`(condition-case ,v ,_ . ,catches)
(elisp--local-variables-1
(cons v vars) (cdr (car (last catches)))))
(`(quote . ,_)
;; FIXME: Look for the witness inside sexp.
(setq sexp nil))
;; FIXME: Handle `cond'.
(`(,_ . ,_)
(elisp--local-variables-1 vars (car (last sexp))))
(`elisp--witness--lisp (or vars '(nil)))
(_ nil)))
;; We didn't find the witness in the last element so we try to
;; backtrack to the last-but-one.
(setq sexp (ignore-errors (butlast sexp)))))
res))
(defun elisp--local-variables ()
"Return a list of locally let-bound variables at point."
(save-excursion
(skip-syntax-backward "w_")
(let* ((ppss (syntax-ppss))
(txt (buffer-substring-no-properties (or (car (nth 9 ppss)) (point))
(or (nth 8 ppss) (point))))
(closer ()))
(dolist (p (nth 9 ppss))
(push (cdr (syntax-after p)) closer))
(setq closer (apply #'string closer))
(let* ((sexp (condition-case nil
(car (read-from-string
(concat txt "elisp--witness--lisp" closer)))
((invalid-read-syntax end-of-file) nil)))
(macroexpand-advice (lambda (expander form &rest args)
(condition-case nil
(apply expander form args)
(error form))))
(sexp
(unwind-protect
(progn
(advice-add 'macroexpand :around macroexpand-advice)
(macroexpand-all sexp))
(advice-remove 'macroexpand macroexpand-advice)))
(vars (elisp--local-variables-1 nil sexp)))
(delq nil
(mapcar (lambda (var)
(and (symbolp var)
(not (string-match (symbol-name var) "\\`[&_]"))
;; Eliminate uninterned vars.
(intern-soft var)
var))
vars))))))
(defvar elisp--local-variables-completion-table
;; Use `defvar' rather than `defconst' since defconst would purecopy this
;; value, which would doubly fail: it would fail because purecopy can't
;; handle the recursive bytecode object, and it would fail because it would
;; move `lastpos' and `lastvars' to pure space where they'd be immutable!
(let ((lastpos nil) (lastvars nil))
(letrec ((hookfun (lambda ()
(setq lastpos nil)
(remove-hook 'post-command-hook hookfun))))
(completion-table-dynamic
(lambda (_string)
(save-excursion
(skip-syntax-backward "_w")
(let ((newpos (cons (point) (current-buffer))))
(unless (equal lastpos newpos)
(add-hook 'post-command-hook hookfun)
(setq lastpos newpos)
(setq lastvars
(mapcar #'symbol-name (elisp--local-variables))))))
lastvars)))))
(defun elisp--expect-function-p (pos)
"Return non-nil if the symbol at point is expected to be a function."
(or
(and (eq (char-before pos) ?')
(eq (char-before (1- pos)) ?#))
(save-excursion
(let ((parent (nth 1 (syntax-ppss pos))))
(when parent
(goto-char parent)
(and
(looking-at (concat "(\\(cl-\\)?"
(regexp-opt '("declare-function"
"function" "defadvice"
"callf" "callf2"
"defsetf"))
"[ \t\r\n]+"))
(eq (match-end 0) pos)))))))
(defun elisp--form-quoted-p (pos)
"Return non-nil if the form at POS is not evaluated.
It can be quoted, or be inside a quoted form."
;; FIXME: Do some macro expansion maybe.
(save-excursion
(let ((state (syntax-ppss pos)))
(or (nth 8 state) ; Code inside strings usually isn't evaluated.
;; FIXME: The 9th element is undocumented.
(let ((nesting (cons (point) (reverse (nth 9 state))))
res)
(while (and nesting (not res))
(goto-char (pop nesting))
(cond
((or (eq (char-after) ?\[)
(progn
(skip-chars-backward " ")
(memq (char-before) '(?' ?` ?‘))))
(setq res t))
((eq (char-before) ?,)
(setq nesting nil))))
res)))))
;; FIXME: Support for Company brings in features which straddle eldoc.
;; We should consolidate this, so that major modes can provide all that
;; data all at once:
;; - a function to extract "the reference at point" (may be more complex
;; than a mere string, to distinguish various namespaces).
;; - a function to jump to such a reference.
;; - a function to show the signature/interface of such a reference.
;; - a function to build a help-buffer about that reference.
;; FIXME: Those functions should also be used by the normal completion code in
;; the *Completions* buffer.
(defun elisp--company-doc-buffer (str)
(let ((symbol (intern-soft str)))
;; FIXME: we really don't want to "display-buffer and then undo it".
(save-window-excursion
;; Make sure we don't display it in another frame, otherwise
;; save-window-excursion won't be able to undo it.
(let ((display-buffer-overriding-action
'(nil . ((inhibit-switch-frame . t)))))
(ignore-errors
(cond
((fboundp symbol) (describe-function symbol))
((boundp symbol) (describe-variable symbol))
((featurep symbol) (describe-package symbol))
((facep symbol) (describe-face symbol))
(t (signal 'user-error nil)))
(help-buffer))))))
(defun elisp--company-doc-string (str)
(let* ((symbol (intern-soft str))
(doc (if (fboundp symbol)
(documentation symbol t)
(documentation-property symbol 'variable-documentation t))))
(and (stringp doc)
(string-match ".*$" doc)
(match-string 0 doc))))
;; can't (require 'find-func) in a preloaded file
(declare-function find-library-name "find-func" (library))
(declare-function find-function-library "find-func" (function &optional l-o v))
(defun elisp--company-location (str)
(let ((sym (intern-soft str)))
(cond
((fboundp sym) (find-definition-noselect sym nil))
((boundp sym) (find-definition-noselect sym 'defvar))
((featurep sym)
(require 'find-func)
(cons (find-file-noselect (find-library-name
(symbol-name sym)))
0))
((facep sym) (find-definition-noselect sym 'defface)))))
(defun elisp-completion-at-point ()
"Function used for `completion-at-point-functions' in `emacs-lisp-mode'."
(with-syntax-table emacs-lisp-mode-syntax-table
(let* ((pos (point))
(beg (condition-case nil
(save-excursion
(backward-sexp 1)
(skip-chars-forward "`',‘#")
(point))
(scan-error pos)))
(end
(unless (or (eq beg (point-max))
(member (char-syntax (char-after beg))
'(?\s ?\" ?\( ?\))))
(condition-case nil
(save-excursion
(goto-char beg)
(forward-sexp 1)
(skip-chars-backward "'’")
(when (>= (point) pos)
(point)))
(scan-error pos))))
;; t if in function position.
(funpos (eq (char-before beg) ?\())
(quoted (elisp--form-quoted-p beg)))
(when (and end (or (not (nth 8 (syntax-ppss)))
(memq (char-before beg) '(?` ?‘))))
(let ((table-etc
(if (or (not funpos) quoted)
;; FIXME: We could look at the first element of the list and
;; use it to provide a more specific completion table in some
;; cases. E.g. filter out keywords that are not understood by
;; the macro/function being called.
(cond
((elisp--expect-function-p beg)
(list nil obarray
:predicate #'fboundp
:company-doc-buffer #'elisp--company-doc-buffer
:company-docsig #'elisp--company-doc-string
:company-location #'elisp--company-location))
(quoted
(list nil obarray
;; Don't include all symbols (bug#16646).
:predicate (lambda (sym)
(or (boundp sym)
(fboundp sym)
(featurep sym)
(symbol-plist sym)))
:annotation-function
(lambda (str) (if (fboundp (intern-soft str)) " <f>"))
:company-doc-buffer #'elisp--company-doc-buffer
:company-docsig #'elisp--company-doc-string
:company-location #'elisp--company-location))
(t
(list nil (completion-table-merge
elisp--local-variables-completion-table
(apply-partially #'completion-table-with-predicate
obarray
#'boundp
'strict))
:company-doc-buffer #'elisp--company-doc-buffer
:company-docsig #'elisp--company-doc-string
:company-location #'elisp--company-location)))
;; Looks like a funcall position. Let's double check.
(save-excursion
(goto-char (1- beg))
(let ((parent
(condition-case nil
(progn (up-list -1) (forward-char 1)
(let ((c (char-after)))
(if (eq c ?\() ?\(
(if (memq (char-syntax c) '(?w ?_))
(read (current-buffer))))))
(error nil))))
(pcase parent
;; FIXME: Rather than hardcode special cases here,
;; we should use something like a symbol-property.
(`declare
(list t (mapcar (lambda (x) (symbol-name (car x)))
(delete-dups
;; FIXME: We should include some
;; docstring with each entry.
(append
macro-declarations-alist
defun-declarations-alist)))))
((and (or `condition-case `condition-case-unless-debug)
(guard (save-excursion
(ignore-errors
(forward-sexp 2)
(< (point) beg)))))
(list t obarray
:predicate (lambda (sym) (get sym 'error-conditions))))
((and (or ?\( `let `let*)
(guard (save-excursion
(goto-char (1- beg))
(when (eq parent ?\()
(up-list -1))
(forward-symbol -1)
(looking-at "\\_<let\\*?\\_>"))))
(list t obarray
:predicate #'boundp
:company-doc-buffer #'elisp--company-doc-buffer
:company-docsig #'elisp--company-doc-string
:company-location #'elisp--company-location))
(_ (list nil obarray
:predicate #'fboundp
:company-doc-buffer #'elisp--company-doc-buffer
:company-docsig #'elisp--company-doc-string
:company-location #'elisp--company-location
))))))))
(nconc (list beg end)
(if (null (car table-etc))
(cdr table-etc)
(cons
(if (memq (char-syntax (or (char-after end) ?\s))
'(?\s ?>))
(cadr table-etc)
(apply-partially 'completion-table-with-terminator
" " (cadr table-etc)))
(cddr table-etc)))))))))
(defun lisp-completion-at-point (_predicate)
(declare (obsolete elisp-completion-at-point "25.1"))
(elisp-completion-at-point))
;;; Xref backend
(declare-function xref-make-bogus-location "xref" (message))
(declare-function xref-make "xref" (summary location))
(declare-function xref-collect-references "xref" (symbol dir))
(defun elisp--xref-backend () 'elisp)
;; WORKAROUND: This is nominally a constant, but the text properties
;; are not preserved thru dump if use defconst. See bug#21237.
(defvar elisp--xref-format
(let ((str "(%s %s)"))
(put-text-property 1 3 'face 'font-lock-keyword-face str)
(put-text-property 4 6 'face 'font-lock-function-name-face str)
str))
;; WORKAROUND: This is nominally a constant, but the text properties
;; are not preserved thru dump if use defconst. See bug#21237.
(defvar elisp--xref-format-extra
(let ((str "(%s %s %s)"))
(put-text-property 1 3 'face 'font-lock-keyword-face str)
(put-text-property 4 6 'face 'font-lock-function-name-face str)
str))
(defvar find-feature-regexp);; in find-func.el
(defun elisp--xref-make-xref (type symbol file &optional summary)
"Return an xref for TYPE SYMBOL in FILE.
TYPE must be a type in `find-function-regexp-alist' (use nil for
'defun). If SUMMARY is non-nil, use it for the summary;
otherwise build the summary from TYPE and SYMBOL."
(xref-make (or summary
(format elisp--xref-format (or type 'defun) symbol))
(xref-make-elisp-location symbol type file)))
(defvar elisp-xref-find-def-functions nil
"List of functions to be run from `elisp--xref-find-definitions' to add additional xrefs.
Called with one arg; the symbol whose definition is desired.
Each function should return a list of xrefs, or nil; the first
non-nil result supercedes the xrefs produced by
`elisp--xref-find-definitions'.")
(cl-defmethod xref-backend-definitions ((_backend (eql elisp)) identifier)
(require 'find-func)
;; FIXME: use information in source near point to filter results:
;; (dvc-log-edit ...) - exclude 'feature
;; (require 'dvc-log-edit) - only 'feature
;; Semantic may provide additional information
;;
(let ((sym (intern-soft identifier)))
(when sym
(elisp--xref-find-definitions sym))))
(defun elisp--xref-find-definitions (symbol)
;; The file name is not known when `symbol' is defined via interactive eval.
(let (xrefs)
(let ((temp elisp-xref-find-def-functions))
(while (and (null xrefs)
temp)
(setq xrefs (append xrefs (funcall (pop temp) symbol)))))
(unless xrefs
;; alphabetical by result type symbol
;; FIXME: advised function; list of advice functions
;; FIXME: aliased variable
;; Coding system symbols do not appear in ‘load-history’,
;; so we can’t get a location for them.
(when (and (symbolp symbol)
(symbol-function symbol)
(symbolp (symbol-function symbol)))
;; aliased function
(let* ((alias-symbol symbol)
(alias-file (symbol-file alias-symbol))
(real-symbol (symbol-function symbol))
(real-file (find-lisp-object-file-name real-symbol 'defun)))
(when real-file
(push (elisp--xref-make-xref nil real-symbol real-file) xrefs))
(when alias-file
(push (elisp--xref-make-xref 'defalias alias-symbol alias-file) xrefs))))
(when (facep symbol)
(let ((file (find-lisp-object-file-name symbol 'defface)))
(when file
(push (elisp--xref-make-xref 'defface symbol file) xrefs))))
(when (fboundp symbol)
(let ((file (find-lisp-object-file-name symbol (symbol-function symbol)))
generic doc)
(when file
(cond
((eq file 'C-source)
;; First call to find-lisp-object-file-name for an object
;; defined in C; the doc strings from the C source have
;; not been loaded yet. Second call will return "src/*.c"
;; in file; handled by 't' case below.
(push (elisp--xref-make-xref nil symbol (help-C-file-name (symbol-function symbol) 'subr)) xrefs))
((and (setq doc (documentation symbol t))
;; This doc string is defined in cl-macs.el cl-defstruct
(string-match "Constructor for objects of type `\\(.*\\)'" doc))
;; `symbol' is a name for the default constructor created by
;; cl-defstruct, so return the location of the cl-defstruct.
(let* ((type-name (match-string 1 doc))
(type-symbol (intern type-name))
(file (find-lisp-object-file-name type-symbol 'define-type))
(summary (format elisp--xref-format-extra
'cl-defstruct
(concat "(" type-name)
(concat "(:constructor " (symbol-name symbol) "))"))))
(push (elisp--xref-make-xref 'define-type type-symbol file summary) xrefs)
))
((setq generic (cl--generic symbol))
;; FIXME: move this to elisp-xref-find-def-functions, in cl-generic.el
;; A generic function. If there is a default method, it
;; will appear in the method table, with no
;; specializers.
;;
;; If the default method is declared by the cl-defgeneric
;; declaration, it will have the same location as the
;; cl-defgeneric, so we want to exclude it from the
;; result. In this case, it will have a null doc
;; string. User declarations of default methods may also
;; have null doc strings, but we hope that is
;; rare. Perhaps this heuristic will discourage that.
(dolist (method (cl--generic-method-table generic))
(let* ((info (cl--generic-method-info method));; qual-string combined-args doconly
(specializers (cl--generic-method-specializers method))
(non-default nil)
(met-name (cons symbol specializers))
(file (find-lisp-object-file-name met-name 'cl-defmethod)))
(dolist (item specializers)
;; default method has all 't' in specializers
(setq non-default (or non-default (not (equal t item)))))
(when (and file
(or non-default
(nth 2 info))) ;; assuming only co-located default has null doc string
(if specializers
(let ((summary (format elisp--xref-format-extra 'cl-defmethod symbol (nth 1 info))))
(push (elisp--xref-make-xref 'cl-defmethod met-name file summary) xrefs))
(let ((summary (format elisp--xref-format-extra 'cl-defmethod symbol "()")))
(push (elisp--xref-make-xref 'cl-defmethod met-name file summary) xrefs))))
))
(if (and (setq doc (documentation symbol t))
;; This doc string is created somewhere in
;; cl--generic-make-function for an implicit
;; defgeneric.
(string-match "\n\n(fn ARG &rest ARGS)" doc))
;; This symbol is an implicitly defined defgeneric, so
;; don't return it.
nil
(push (elisp--xref-make-xref 'cl-defgeneric symbol file) xrefs))
)
(t
(push (elisp--xref-make-xref nil symbol file) xrefs))
))))
(when (boundp symbol)
;; A variable
(let ((file (find-lisp-object-file-name symbol 'defvar)))
(when file
(cond
((eq file 'C-source)
;; The doc strings from the C source have not been loaded
;; yet; help-C-file-name does that. Second call will
;; return "src/*.c" in file; handled below.
(push (elisp--xref-make-xref 'defvar symbol (help-C-file-name symbol 'var)) xrefs))
((string= "src/" (substring file 0 4))
;; The variable is defined in a C source file; don't check
;; for define-minor-mode.
(push (elisp--xref-make-xref 'defvar symbol file) xrefs))
((memq symbol minor-mode-list)
;; The symbol is a minor mode. These should be defined by
;; "define-minor-mode", which means the variable and the
;; function are declared in the same place. So we return only
;; the function, arbitrarily.
;;
;; There is an exception, when the variable is defined in C
;; code, as for abbrev-mode.
;;
;; IMPROVEME: If the user is searching for the identifier at
;; point, we can determine whether it is a variable or
;; function by looking at the source code near point.
;;
;; IMPROVEME: The user may actually be asking "do any
;; variables by this name exist"; we need a way to specify
;; that.
nil)
(t
(push (elisp--xref-make-xref 'defvar symbol file) xrefs))
))))
(when (featurep symbol)
(let ((file (ignore-errors
(find-library-name (symbol-name symbol)))))
(when file
(push (elisp--xref-make-xref 'feature symbol file) xrefs))))
);; 'unless xrefs'
xrefs))
(declare-function project-external-roots "project")
(cl-defmethod xref-backend-apropos ((_backend (eql elisp)) regexp)
(apply #'nconc
(let (lst)
(dolist (sym (apropos-internal regexp))
(push (elisp--xref-find-definitions sym) lst))
(nreverse lst))))
(defvar elisp--xref-identifier-completion-table
(apply-partially #'completion-table-with-predicate
obarray
(lambda (sym)
(or (boundp sym)
(fboundp sym)
(featurep sym)
(facep sym)))
'strict))
(cl-defmethod xref-backend-identifier-completion-table ((_backend (eql elisp)))
elisp--xref-identifier-completion-table)
(cl-defstruct (xref-elisp-location
(:constructor xref-make-elisp-location (symbol type file)))
"Location of an Emacs Lisp symbol definition."
symbol type file)
(cl-defmethod xref-location-marker ((l xref-elisp-location))
(pcase-let (((cl-struct xref-elisp-location symbol type file) l))
(let ((buffer-point (find-function-search-for-symbol symbol type file)))
(with-current-buffer (car buffer-point)
(goto-char (or (cdr buffer-point) (point-min)))
(point-marker)))))
(cl-defmethod xref-location-group ((l xref-elisp-location))
(xref-elisp-location-file l))
(defun elisp-load-path-roots ()
(if (boundp 'package-user-dir)
(cons package-user-dir load-path)
load-path))
;;; Elisp Interaction mode
(defvar lisp-interaction-mode-map
(let ((map (make-sparse-keymap))
(menu-map (make-sparse-keymap "Lisp-Interaction")))
(set-keymap-parent map lisp-mode-shared-map)
(define-key map "\e\C-x" 'eval-defun)
(define-key map "\e\C-q" 'indent-pp-sexp)
(define-key map "\e\t" 'completion-at-point)
(define-key map "\n" 'eval-print-last-sexp)
(bindings--define-key map [menu-bar lisp-interaction]
(cons "Lisp-Interaction" menu-map))
(bindings--define-key menu-map [eval-defun]
'(menu-item "Evaluate Defun" eval-defun
:help "Evaluate the top-level form containing point, or after point"))
(bindings--define-key menu-map [eval-print-last-sexp]
'(menu-item "Evaluate and Print" eval-print-last-sexp
:help "Evaluate sexp before point; print value into current buffer"))
(bindings--define-key menu-map [edebug-defun-lisp-interaction]
'(menu-item "Instrument Function for Debugging" edebug-defun
:help "Evaluate the top level form point is in, stepping through with Edebug"
:keys "C-u C-M-x"))
(bindings--define-key menu-map [indent-pp-sexp]
'(menu-item "Indent or Pretty-Print" indent-pp-sexp
:help "Indent each line of the list starting just after point, or prettyprint it"))
(bindings--define-key menu-map [complete-symbol]
'(menu-item "Complete Lisp Symbol" completion-at-point
:help "Perform completion on Lisp symbol preceding point"))
map)
"Keymap for Lisp Interaction mode.
All commands in `lisp-mode-shared-map' are inherited by this map.")
(define-derived-mode lisp-interaction-mode emacs-lisp-mode "Lisp Interaction"
"Major mode for typing and evaluating Lisp forms.
Like Lisp mode except that \\[eval-print-last-sexp] evals the Lisp expression
before point, and prints its value into the buffer, advancing point.
Note that printing is controlled by `eval-expression-print-length'
and `eval-expression-print-level'.
Commands:
Delete converts tabs to spaces as it moves back.
Paragraphs are separated only by blank lines.
Semicolons start comments.
\\{lisp-interaction-mode-map}"
:abbrev-table nil)
;;; Emacs Lisp Byte-Code mode
(eval-and-compile
(defconst emacs-list-byte-code-comment-re
(concat "\\(#\\)@\\([0-9]+\\) "
;; Make sure it's a docstring and not a lazy-loaded byte-code.
"\\(?:[^(]\\|([^\"]\\)")))
(defun elisp--byte-code-comment (end &optional _point)
"Try to syntactically mark the #@NNN ....^_ docstrings in byte-code files."
(let ((ppss (syntax-ppss)))
(when (and (nth 4 ppss)
(eq (char-after (nth 8 ppss)) ?#))
(let* ((n (save-excursion
(goto-char (nth 8 ppss))
(when (looking-at emacs-list-byte-code-comment-re)
(string-to-number (match-string 2)))))
;; `maxdiff' tries to make sure the loop below terminates.
(maxdiff n))
(when n
(let* ((bchar (match-end 2))
(b (position-bytes bchar)))
(goto-char (+ b n))
(while (let ((diff (- (position-bytes (point)) b n)))
(unless (zerop diff)
(when (> diff maxdiff) (setq diff maxdiff))
(forward-char (- diff))
(setq maxdiff (if (> diff 0) diff
(max (1- maxdiff) 1)))
t))))
(if (<= (point) end)
(put-text-property (1- (point)) (point)
'syntax-table
(string-to-syntax "> b"))
(goto-char end)))))))
(defun elisp-byte-code-syntax-propertize (start end)
(goto-char start)
(elisp--byte-code-comment end (point))
(funcall
(syntax-propertize-rules
(emacs-list-byte-code-comment-re
(1 (prog1 "< b" (elisp--byte-code-comment end (point))))))
start end))
;;;###autoload
(add-to-list 'auto-mode-alist '("\\.elc\\'" . elisp-byte-code-mode))
;;;###autoload
(define-derived-mode elisp-byte-code-mode emacs-lisp-mode
"Elisp-Byte-Code"
"Major mode for *.elc files."
;; TODO: Add way to disassemble byte-code under point.
(setq-local open-paren-in-column-0-is-defun-start nil)
(setq-local syntax-propertize-function
#'elisp-byte-code-syntax-propertize))
;;; Globally accessible functionality
(defun eval-print-last-sexp (&optional eval-last-sexp-arg-internal)
"Evaluate sexp before point; print value into current buffer.
Normally, this function truncates long output according to the value
of the variables `eval-expression-print-length' and
`eval-expression-print-level'. With a prefix argument of zero,
however, there is no such truncation. Such a prefix argument
also causes integers to be printed in several additional formats
\(octal, hexadecimal, and character).
If `eval-expression-debug-on-error' is non-nil, which is the default,
this command arranges for all errors to enter the debugger."
(interactive "P")
(let ((standard-output (current-buffer)))
(terpri)
(eval-last-sexp (or eval-last-sexp-arg-internal t))
(terpri)))
(defun last-sexp-setup-props (beg end value alt1 alt2)
"Set up text properties for the output of `elisp--eval-last-sexp'.
BEG and END are the start and end of the output in current-buffer.
VALUE is the Lisp value printed, ALT1 and ALT2 are strings for the
alternative printed representations that can be displayed."
(let ((map (make-sparse-keymap)))
(define-key map "\C-m" 'elisp-last-sexp-toggle-display)
(define-key map [down-mouse-2] 'mouse-set-point)
(define-key map [mouse-2] 'elisp-last-sexp-toggle-display)
(add-text-properties
beg end
`(printed-value (,value ,alt1 ,alt2)
mouse-face highlight
keymap ,map
help-echo "RET, mouse-2: toggle abbreviated display"
rear-nonsticky (mouse-face keymap help-echo
printed-value)))))
(defun elisp-last-sexp-toggle-display (&optional _arg)
"Toggle between abbreviated and unabbreviated printed representations."
(interactive "P")
(save-restriction
(widen)
(let ((value (get-text-property (point) 'printed-value)))
(when value
(let ((beg (or (previous-single-property-change (min (point-max) (1+ (point)))
'printed-value)
(point)))
(end (or (next-single-char-property-change (point) 'printed-value) (point)))
(standard-output (current-buffer))
(point (point)))
(delete-region beg end)
(insert (nth 1 value))
(or (= beg point)
(setq point (1- (point))))
(last-sexp-setup-props beg (point)
(nth 0 value)
(nth 2 value)
(nth 1 value))
(goto-char (min (point-max) point)))))))
(defun prin1-char (char) ;FIXME: Move it, e.g. to simple.el.
"Return a string representing CHAR as a character rather than as an integer.
If CHAR is not a character, return nil."
(and (integerp char)
(eventp char)
(let ((c (event-basic-type char))
(mods (event-modifiers char))
string)
;; Prevent ?A from turning into ?\S-a.
(if (and (memq 'shift mods)
(zerop (logand char ?\S-\^@))
(not (let ((case-fold-search nil))
(char-equal c (upcase c)))))
(setq c (upcase c) mods nil))
;; What string are we considering using?
(condition-case nil
(setq string
(concat
"?"
(mapconcat
(lambda (modif)
(cond ((eq modif 'super) "\\s-")
(t (string ?\\ (upcase (aref (symbol-name modif) 0)) ?-))))
mods "")
(cond
((memq c '(?\; ?\( ?\) ?\{ ?\} ?\[ ?\] ?\" ?\' ?\\)) (string ?\\ c))
((eq c 127) "\\C-?")
(t
(string c)))))
(error nil))
;; Verify the string reads a CHAR, not to some other character.
;; If it doesn't, return nil instead.
(and string
(= (car (read-from-string string)) char)
string))))
(defun elisp--preceding-sexp ()
"Return sexp before the point."
(let ((opoint (point))
(left-quote ?‘)
expr)
(save-excursion
(with-syntax-table emacs-lisp-mode-syntax-table
;; If this sexp appears to be enclosed in `...' or ‘...’
;; then ignore the surrounding quotes.
(cond ((eq (preceding-char) ?’)
(progn (forward-char -1) (setq opoint (point))))
((or (eq (following-char) ?\')
(eq (preceding-char) ?\'))
(setq left-quote ?\`)))
(forward-sexp -1)
;; If we were after `?\e' (or similar case),
;; use the whole thing, not just the `e'.
(when (eq (preceding-char) ?\\)
(forward-char -1)
(when (eq (preceding-char) ??)
(forward-char -1)))
;; Skip over hash table read syntax.
(and (> (point) (1+ (point-min)))
(looking-back "#s" (- (point) 2))
(forward-char -2))
;; Skip over `#N='s.
(when (eq (preceding-char) ?=)
(let (labeled-p)
(save-excursion
(skip-chars-backward "0-9#=")
(setq labeled-p (looking-at "\\(#[0-9]+=\\)+")))
(when labeled-p
(forward-sexp -1))))
(save-restriction
(if (eq (following-char) left-quote)
;; vladimir@cs.ualberta.ca 30-Jul-1997: Skip ` in `variable' so
;; that the value is returned, not the name.
(forward-char))
(when (looking-at ",@?") (goto-char (match-end 0)))
(narrow-to-region (point-min) opoint)
(setq expr (read (current-buffer)))
;; If it's an (interactive ...) form, it's more useful to show how an
;; interactive call would use it.
;; FIXME: Is it really the right place for this?
(when (eq (car-safe expr) 'interactive)
(setq expr
`(call-interactively
(lambda (&rest args) ,expr args))))
expr)))))
(define-obsolete-function-alias 'preceding-sexp 'elisp--preceding-sexp "25.1")
(defun elisp--eval-last-sexp (eval-last-sexp-arg-internal)
"Evaluate sexp before point; print value in the echo area.
If EVAL-LAST-SEXP-ARG-INTERNAL is non-nil, print output into
current buffer. If EVAL-LAST-SEXP-ARG-INTERNAL is `0', print
output with no limit on the length and level of lists, and
include additional formats for integers \(octal, hexadecimal, and
character)."
(let ((standard-output (if eval-last-sexp-arg-internal (current-buffer) t)))
;; Setup the lexical environment if lexical-binding is enabled.
(elisp--eval-last-sexp-print-value
(eval (eval-sexp-add-defvars (elisp--preceding-sexp)) lexical-binding)
eval-last-sexp-arg-internal)))
(defun elisp--eval-last-sexp-print-value (value &optional eval-last-sexp-arg-internal)
(let ((unabbreviated (let ((print-length nil) (print-level nil))
(prin1-to-string value)))
(print-length (and (not (zerop (prefix-numeric-value
eval-last-sexp-arg-internal)))
eval-expression-print-length))
(print-level (and (not (zerop (prefix-numeric-value
eval-last-sexp-arg-internal)))
eval-expression-print-level))
(beg (point))
end)
(prog1
(prin1 value)
(let ((str (eval-expression-print-format value)))
(if str (princ str)))
(setq end (point))
(when (and (bufferp standard-output)
(or (not (null print-length))
(not (null print-level)))
(not (string= unabbreviated
(buffer-substring-no-properties beg end))))
(last-sexp-setup-props beg end value
unabbreviated
(buffer-substring-no-properties beg end))
))))
(defvar elisp--eval-last-sexp-fake-value (make-symbol "t"))
(defun eval-sexp-add-defvars (exp &optional pos)
"Prepend EXP with all the `defvar's that precede it in the buffer.
POS specifies the starting position where EXP was found and defaults to point."
(setq exp (macroexpand-all exp)) ;Eager macro-expansion.
(if (not lexical-binding)
exp
(save-excursion
(unless pos (setq pos (point)))
(let ((vars ()))
(goto-char (point-min))
(while (re-search-forward
"(def\\(?:var\\|const\\|custom\\)[ \t\n]+\\([^; '()\n\t]+\\)"
pos t)
(let ((var (intern (match-string 1))))
(and (not (special-variable-p var))
(save-excursion
(zerop (car (syntax-ppss (match-beginning 0)))))
(push var vars))))
`(progn ,@(mapcar (lambda (v) `(defvar ,v)) vars) ,exp)))))
(defun eval-last-sexp (eval-last-sexp-arg-internal)
"Evaluate sexp before point; print value in the echo area.
Interactively, with prefix argument, print output into current buffer.
Normally, this function truncates long output according to the value
of the variables `eval-expression-print-length' and
`eval-expression-print-level'. With a prefix argument of zero,
however, there is no such truncation. Such a prefix argument
also causes integers to be printed in several additional formats
\(octal, hexadecimal, and character).
If `eval-expression-debug-on-error' is non-nil, which is the default,
this command arranges for all errors to enter the debugger."
(interactive "P")
(if (null eval-expression-debug-on-error)
(elisp--eval-last-sexp eval-last-sexp-arg-internal)
(let ((value
(let ((debug-on-error elisp--eval-last-sexp-fake-value))
(cons (elisp--eval-last-sexp eval-last-sexp-arg-internal)
debug-on-error))))
(unless (eq (cdr value) elisp--eval-last-sexp-fake-value)
(setq debug-on-error (cdr value)))
(car value))))
(defun elisp--eval-defun-1 (form)
"Treat some expressions specially.
Reset the `defvar' and `defcustom' variables to the initial value.
\(For `defcustom', use the :set function if there is one.)
Reinitialize the face according to the `defface' specification."
;; The code in edebug-defun should be consistent with this, but not
;; the same, since this gets a macroexpanded form.
(cond ((not (listp form))
form)
((and (eq (car form) 'defvar)
(cdr-safe (cdr-safe form))
(boundp (cadr form)))
;; Force variable to be re-set.
`(progn (defvar ,(nth 1 form) nil ,@(nthcdr 3 form))
(setq-default ,(nth 1 form) ,(nth 2 form))))
;; `defcustom' is now macroexpanded to
;; `custom-declare-variable' with a quoted value arg.
((and (eq (car form) 'custom-declare-variable)
(default-boundp (eval (nth 1 form) lexical-binding)))
;; Force variable to be bound, using :set function if specified.
(let ((setfunc (memq :set form)))
(when setfunc
(setq setfunc (car-safe (cdr-safe setfunc)))
(or (functionp setfunc) (setq setfunc nil)))
(funcall (or setfunc 'set-default)
(eval (nth 1 form) lexical-binding)
;; The second arg is an expression that evaluates to
;; an expression. The second evaluation is the one
;; normally performed not by normal execution but by
;; custom-initialize-set (for example), which does not
;; use lexical-binding.
(eval (eval (nth 2 form) lexical-binding))))
form)
;; `defface' is macroexpanded to `custom-declare-face'.
((eq (car form) 'custom-declare-face)
;; Reset the face.
(let ((face-symbol (eval (nth 1 form) lexical-binding)))
(setq face-new-frame-defaults
(assq-delete-all face-symbol face-new-frame-defaults))
(put face-symbol 'face-defface-spec nil)
(put face-symbol 'face-override-spec nil))
form)
((eq (car form) 'progn)
(cons 'progn (mapcar #'elisp--eval-defun-1 (cdr form))))
(t form)))
(defun elisp--eval-defun ()
"Evaluate defun that point is in or before.
The value is displayed in the echo area.
If the current defun is actually a call to `defvar',
then reset the variable using the initial value expression
even if the variable already has some other value.
\(Normally `defvar' does not change the variable's value
if it already has a value.)
Return the result of evaluation."
;; FIXME: the print-length/level bindings should only be applied while
;; printing, not while evaluating.
(let ((debug-on-error eval-expression-debug-on-error)
(print-length eval-expression-print-length)
(print-level eval-expression-print-level))
(save-excursion
;; Arrange for eval-region to "read" the (possibly) altered form.
;; eval-region handles recording which file defines a function or
;; variable.
(let ((standard-output t)
beg end form)
;; Read the form from the buffer, and record where it ends.
(save-excursion
(end-of-defun)
(beginning-of-defun)
(setq beg (point))
(setq form (read (current-buffer)))
(setq end (point)))
;; Alter the form if necessary.
(let ((form (eval-sexp-add-defvars
(elisp--eval-defun-1 (macroexpand form)))))
(eval-region beg end standard-output
(lambda (_ignore)
;; Skipping to the end of the specified region
;; will make eval-region return.
(goto-char end)
form))))))
(let ((str (eval-expression-print-format (car values))))
(if str (princ str)))
;; The result of evaluation has been put onto VALUES. So return it.
(car values))
(defun eval-defun (edebug-it)
"Evaluate the top-level form containing point, or after point.
If the current defun is actually a call to `defvar' or `defcustom',
evaluating it this way resets the variable using its initial value
expression (using the defcustom's :set function if there is one), even
if the variable already has some other value. \(Normally `defvar' and
`defcustom' do not alter the value if there already is one.) In an
analogous way, evaluating a `defface' overrides any customizations of
the face, so that it becomes defined exactly as the `defface' expression
says.
If `eval-expression-debug-on-error' is non-nil, which is the default,
this command arranges for all errors to enter the debugger.
With a prefix argument, instrument the code for Edebug.
If acting on a `defun' for FUNCTION, and the function was
instrumented, `Edebug: FUNCTION' is printed in the echo area. If not
instrumented, just FUNCTION is printed.
If not acting on a `defun', the result of evaluation is displayed in
the echo area. This display is controlled by the variables
`eval-expression-print-length' and `eval-expression-print-level',
which see."
(interactive "P")
(cond (edebug-it
(require 'edebug)
(eval-defun (not edebug-all-defs)))
(t
(if (null eval-expression-debug-on-error)
(elisp--eval-defun)
(let (new-value value)
(let ((debug-on-error elisp--eval-last-sexp-fake-value))
(setq value (elisp--eval-defun))
(setq new-value debug-on-error))
(unless (eq elisp--eval-last-sexp-fake-value new-value)
(setq debug-on-error new-value))
value)))))
;;; ElDoc Support
(defvar elisp--eldoc-last-data (make-vector 3 nil)
"Bookkeeping; elements are as follows:
0 - contains the last symbol read from the buffer.
1 - contains the string last displayed in the echo area for variables,
or argument string for functions.
2 - `function' if function args, `variable' if variable documentation.")
(defun elisp-eldoc-documentation-function ()
"`eldoc-documentation-function' (which see) for Emacs Lisp."
(let ((current-symbol (elisp--current-symbol))
(current-fnsym (elisp--fnsym-in-current-sexp)))
(cond ((null current-fnsym)
nil)
((eq current-symbol (car current-fnsym))
(or (apply #'elisp-get-fnsym-args-string current-fnsym)
(elisp-get-var-docstring current-symbol)))
(t
(or (elisp-get-var-docstring current-symbol)
(apply #'elisp-get-fnsym-args-string current-fnsym))))))
(defun elisp-get-fnsym-args-string (sym &optional index prefix)
"Return a string containing the parameter list of the function SYM.
If SYM is a subr and no arglist is obtainable from the docstring
or elsewhere, return a 1-line docstring."
(let ((argstring
(cond
((not (and sym (symbolp sym) (fboundp sym))) nil)
((and (eq sym (aref elisp--eldoc-last-data 0))
(eq 'function (aref elisp--eldoc-last-data 2)))
(aref elisp--eldoc-last-data 1))
(t
(let* ((advertised (gethash (indirect-function sym)
advertised-signature-table t))
doc
(args
(cond
((listp advertised) advertised)
((setq doc (help-split-fundoc
(condition-case nil (documentation sym t)
(invalid-function nil))
sym))
(car doc))
(t (help-function-arglist sym)))))
;; Stringify, and store before highlighting, downcasing, etc.
(elisp--last-data-store sym (elisp-function-argstring args)
'function))))))
;; Highlight, truncate.
(if argstring
(elisp--highlight-function-argument
sym argstring index
(or prefix
(concat (propertize (symbol-name sym) 'face
(if (functionp sym)
'font-lock-function-name-face
'font-lock-keyword-face))
": "))))))
(defun elisp--highlight-function-argument (sym args index prefix)
"Highlight argument INDEX in ARGS list for function SYM.
In the absence of INDEX, just call `eldoc-docstring-format-sym-doc'."
;; FIXME: This should probably work on the list representation of `args'
;; rather than its string representation.
;; FIXME: This function is much too long, we need to split it up!
(let ((start nil)
(end 0)
(argument-face 'eldoc-highlight-function-argument)
(args-lst (mapcar (lambda (x)
(replace-regexp-in-string
"\\`[(]\\|[)]\\'" "" x))
(split-string args))))
;; Find the current argument in the argument string. We need to
;; handle `&rest' and informal `...' properly.
;;
;; FIXME: What to do with optional arguments, like in
;; (defun NAME ARGLIST [DOCSTRING] BODY...) case?
;; The problem is there is no robust way to determine if
;; the current argument is indeed a docstring.
;; When `&key' is used finding position based on `index'
;; would be wrong, so find the arg at point and determine
;; position in ARGS based on this current arg.
(when (string-match "&key" args)
(let* (case-fold-search
key-have-value
(sym-name (symbol-name sym))
(cur-w (current-word))
(args-lst-ak (cdr (member "&key" args-lst)))
(limit (save-excursion
(when (re-search-backward sym-name nil t)
(match-end 0))))
(cur-a (if (and cur-w (string-match ":\\([^ ()]*\\)" cur-w))
(substring cur-w 1)
(save-excursion
(let (split)
(when (re-search-backward ":\\([^()\n]*\\)" limit t)
(setq split (split-string (match-string 1) " " t))
(prog1 (car split)
(when (cdr split)
(setq key-have-value t))))))))
;; If `cur-a' is not one of `args-lst-ak'
;; assume user is entering an unknown key
;; referenced in last position in signature.
(other-key-arg (and (stringp cur-a)
args-lst-ak
(not (member (upcase cur-a) args-lst-ak))
(upcase (car (last args-lst-ak))))))
(unless (string= cur-w sym-name)
;; The last keyword have already a value
;; i.e :foo a b and cursor is at b.
;; If signature have also `&rest'
;; (assume it is after the `&key' section)
;; go to the arg after `&rest'.
(if (and key-have-value
(save-excursion
(not (re-search-forward ":.*" (point-at-eol) t)))
(string-match "&rest \\([^ ()]*\\)" args))
(setq index nil ; Skip next block based on positional args.
start (match-beginning 1)
end (match-end 1))
;; If `cur-a' is nil probably cursor is on a positional arg
;; before `&key', in this case, exit this block and determine
;; position with `index'.
(when (and cur-a ; A keyword arg (dot removed) or nil.
(or (string-match
(concat "\\_<" (upcase cur-a) "\\_>") args)
(string-match
(concat "\\_<" other-key-arg "\\_>") args)))
(setq index nil ; Skip next block based on positional args.
start (match-beginning 0)
end (match-end 0)))))))
;; Handle now positional arguments.
(while (and index (>= index 1))
(if (string-match "[^ ()]+" args end)
(progn
(setq start (match-beginning 0)
end (match-end 0))
(let ((argument (match-string 0 args)))
(cond ((string= argument "&rest")
;; All the rest arguments are the same.
(setq index 1))
((string= argument "&optional")) ; Skip.
((string= argument "&allow-other-keys")) ; Skip.
;; Back to index 0 in ARG1 ARG2 ARG2 ARG3 etc...
;; like in `setq'.
((or (and (string-match-p "\\.\\.\\.\\'" argument)
(string= argument (car (last args-lst))))
(and (string-match-p "\\.\\.\\.\\'"
(substring args 1 (1- (length args))))
(= (length (remove "..." args-lst)) 2)
(> index 1) (eq (logand index 1) 1)))
(setq index 0))
(t
(setq index (1- index))))))
(setq end (length args)
start (1- end)
argument-face 'font-lock-warning-face
index 0)))
(let ((doc args))
(when start
(setq doc (copy-sequence args))
(add-text-properties start end (list 'face argument-face) doc))
(setq doc (eldoc-docstring-format-sym-doc prefix doc))
doc)))
;; Return a string containing a brief (one-line) documentation string for
;; the variable.
(defun elisp-get-var-docstring (sym)
(cond ((not sym) nil)
((and (eq sym (aref elisp--eldoc-last-data 0))
(eq 'variable (aref elisp--eldoc-last-data 2)))
(aref elisp--eldoc-last-data 1))
(t
(let ((doc (documentation-property sym 'variable-documentation t)))
(when doc
(let ((doc (eldoc-docstring-format-sym-doc
sym (elisp--docstring-first-line doc)
'font-lock-variable-name-face)))
(elisp--last-data-store sym doc 'variable)))))))
(defun elisp--last-data-store (symbol doc type)
(aset elisp--eldoc-last-data 0 symbol)
(aset elisp--eldoc-last-data 1 doc)
(aset elisp--eldoc-last-data 2 type)
doc)
;; Note that any leading `*' in the docstring (which indicates the variable
;; is a user option) is removed.
(defun elisp--docstring-first-line (doc)
(and (stringp doc)
(substitute-command-keys
(save-match-data
;; Don't use "^" in the regexp below since it may match
;; anywhere in the doc-string.
(let ((start (if (string-match "\\`\\*" doc) (match-end 0) 0)))
(cond ((string-match "\n" doc)
(substring doc start (match-beginning 0)))
((zerop start) doc)
(t (substring doc start))))))))
;; Return a list of current function name and argument index.
(defun elisp--fnsym-in-current-sexp ()
(save-excursion
(let ((argument-index (1- (elisp--beginning-of-sexp))))
;; If we are at the beginning of function name, this will be -1.
(when (< argument-index 0)
(setq argument-index 0))
;; Don't do anything if current word is inside a string.
(if (= (or (char-after (1- (point))) 0) ?\")
nil
(list (elisp--current-symbol) argument-index)))))
;; Move to the beginning of current sexp. Return the number of nested
;; sexp the point was over or after.
(defun elisp--beginning-of-sexp ()
(let ((parse-sexp-ignore-comments t)
(num-skipped-sexps 0))
(condition-case _
(progn
;; First account for the case the point is directly over a
;; beginning of a nested sexp.
(condition-case _
(let ((p (point)))
(forward-sexp -1)
(forward-sexp 1)
(when (< (point) p)
(setq num-skipped-sexps 1)))
(error))
(while
(let ((p (point)))
(forward-sexp -1)
(when (< (point) p)
(setq num-skipped-sexps (1+ num-skipped-sexps))))))
(error))
num-skipped-sexps))
;; returns nil unless current word is an interned symbol.
(defun elisp--current-symbol ()
(let ((c (char-after (point))))
(and c
(memq (char-syntax c) '(?w ?_))
(intern-soft (current-word)))))
(defun elisp-function-argstring (arglist)
"Return ARGLIST as a string enclosed by ().
ARGLIST is either a string, or a list of strings or symbols."
(let ((str (cond ((stringp arglist) arglist)
((not (listp arglist)) nil)
(t (help--make-usage-docstring 'toto arglist)))))
(if (and str (string-match "\\`([^ )]+ ?" str))
(replace-match "(" t t str)
str)))
(provide 'elisp-mode)
;;; elisp-mode.el ends here
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