* lisp/progmodes/js.el (js-indent-line): Don't widen.
[emacs.git] / lisp / progmodes / js.el
blobcc9ee8fe67be647ce9cb758650d306d5afd90e63
1 ;;; js.el --- Major mode for editing JavaScript -*- lexical-binding: t -*-
3 ;; Copyright (C) 2008-2014 Free Software Foundation, Inc.
5 ;; Author: Karl Landstrom <karl.landstrom@brgeight.se>
6 ;; Daniel Colascione <dan.colascione@gmail.com>
7 ;; Maintainer: Daniel Colascione <dan.colascione@gmail.com>
8 ;; Version: 9
9 ;; Date: 2009-07-25
10 ;; Keywords: languages, javascript
12 ;; This file is part of GNU Emacs.
14 ;; GNU Emacs is free software: you can redistribute it and/or modify
15 ;; it under the terms of the GNU General Public License as published by
16 ;; the Free Software Foundation, either version 3 of the License, or
17 ;; (at your option) any later version.
19 ;; GNU Emacs is distributed in the hope that it will be useful,
20 ;; but WITHOUT ANY WARRANTY; without even the implied warranty of
21 ;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
22 ;; GNU General Public License for more details.
24 ;; You should have received a copy of the GNU General Public License
25 ;; along with GNU Emacs. If not, see <http://www.gnu.org/licenses/>.
27 ;;; Commentary
29 ;; This is based on Karl Landstrom's barebones javascript-mode. This
30 ;; is much more robust and works with cc-mode's comment filling
31 ;; (mostly).
33 ;; The main features of this JavaScript mode are syntactic
34 ;; highlighting (enabled with `font-lock-mode' or
35 ;; `global-font-lock-mode'), automatic indentation and filling of
36 ;; comments, C preprocessor fontification, and MozRepl integration.
38 ;; General Remarks:
40 ;; XXX: This mode assumes that block comments are not nested inside block
41 ;; XXX: comments
43 ;; Exported names start with "js-"; private names start with
44 ;; "js--".
46 ;;; Code:
49 (require 'cc-mode)
50 (require 'newcomment)
51 (require 'thingatpt) ; forward-symbol etc
52 (require 'imenu)
53 (require 'moz nil t)
54 (require 'json nil t)
56 (eval-when-compile
57 (require 'cl-lib)
58 (require 'ido))
60 (defvar inferior-moz-buffer)
61 (defvar moz-repl-name)
62 (defvar ido-cur-list)
63 (defvar electric-layout-rules)
64 (declare-function ido-mode "ido")
65 (declare-function inferior-moz-process "ext:mozrepl" ())
67 ;;; Constants
69 (defconst js--name-start-re "[a-zA-Z_$]"
70 "Regexp matching the start of a JavaScript identifier, without grouping.")
72 (defconst js--stmt-delim-chars "^;{}?:")
74 (defconst js--name-re (concat js--name-start-re
75 "\\(?:\\s_\\|\\sw\\)*")
76 "Regexp matching a JavaScript identifier, without grouping.")
78 (defconst js--objfield-re (concat js--name-re ":")
79 "Regexp matching the start of a JavaScript object field.")
81 (defconst js--dotted-name-re
82 (concat js--name-re "\\(?:\\." js--name-re "\\)*")
83 "Regexp matching a dot-separated sequence of JavaScript names.")
85 (defconst js--cpp-name-re js--name-re
86 "Regexp matching a C preprocessor name.")
88 (defconst js--opt-cpp-start "^\\s-*#\\s-*\\([[:alnum:]]+\\)"
89 "Regexp matching the prefix of a cpp directive.
90 This includes the directive name, or nil in languages without
91 preprocessor support. The first submatch surrounds the directive
92 name.")
94 (defconst js--plain-method-re
95 (concat "^\\s-*?\\(" js--dotted-name-re "\\)\\.prototype"
96 "\\.\\(" js--name-re "\\)\\s-*?=\\s-*?\\(function\\)\\_>")
97 "Regexp matching an explicit JavaScript prototype \"method\" declaration.
98 Group 1 is a (possibly-dotted) class name, group 2 is a method name,
99 and group 3 is the 'function' keyword.")
101 (defconst js--plain-class-re
102 (concat "^\\s-*\\(" js--dotted-name-re "\\)\\.prototype"
103 "\\s-*=\\s-*{")
104 "Regexp matching a JavaScript explicit prototype \"class\" declaration.
105 An example of this is \"Class.prototype = { method1: ...}\".")
107 ;; var NewClass = BaseClass.extend(
108 (defconst js--mp-class-decl-re
109 (concat "^\\s-*var\\s-+"
110 "\\(" js--name-re "\\)"
111 "\\s-*=\\s-*"
112 "\\(" js--dotted-name-re
113 "\\)\\.extend\\(?:Final\\)?\\s-*(\\s-*{?\\s-*$"))
115 ;; var NewClass = Class.create()
116 (defconst js--prototype-obsolete-class-decl-re
117 (concat "^\\s-*\\(?:var\\s-+\\)?"
118 "\\(" js--dotted-name-re "\\)"
119 "\\s-*=\\s-*Class\\.create()"))
121 (defconst js--prototype-objextend-class-decl-re-1
122 (concat "^\\s-*Object\\.extend\\s-*("
123 "\\(" js--dotted-name-re "\\)"
124 "\\s-*,\\s-*{"))
126 (defconst js--prototype-objextend-class-decl-re-2
127 (concat "^\\s-*\\(?:var\\s-+\\)?"
128 "\\(" js--dotted-name-re "\\)"
129 "\\s-*=\\s-*Object\\.extend\\s-*\("))
131 ;; var NewClass = Class.create({
132 (defconst js--prototype-class-decl-re
133 (concat "^\\s-*\\(?:var\\s-+\\)?"
134 "\\(" js--name-re "\\)"
135 "\\s-*=\\s-*Class\\.create\\s-*(\\s-*"
136 "\\(?:\\(" js--dotted-name-re "\\)\\s-*,\\s-*\\)?{?"))
138 ;; Parent class name(s) (yes, multiple inheritance in JavaScript) are
139 ;; matched with dedicated font-lock matchers
140 (defconst js--dojo-class-decl-re
141 (concat "^\\s-*dojo\\.declare\\s-*(\"\\(" js--dotted-name-re "\\)"))
143 (defconst js--extjs-class-decl-re-1
144 (concat "^\\s-*Ext\\.extend\\s-*("
145 "\\s-*\\(" js--dotted-name-re "\\)"
146 "\\s-*,\\s-*\\(" js--dotted-name-re "\\)")
147 "Regexp matching an ExtJS class declaration (style 1).")
149 (defconst js--extjs-class-decl-re-2
150 (concat "^\\s-*\\(?:var\\s-+\\)?"
151 "\\(" js--name-re "\\)"
152 "\\s-*=\\s-*Ext\\.extend\\s-*(\\s-*"
153 "\\(" js--dotted-name-re "\\)")
154 "Regexp matching an ExtJS class declaration (style 2).")
156 (defconst js--mochikit-class-re
157 (concat "^\\s-*MochiKit\\.Base\\.update\\s-*(\\s-*"
158 "\\(" js--dotted-name-re "\\)")
159 "Regexp matching a MochiKit class declaration.")
161 (defconst js--dummy-class-style
162 '(:name "[Automatically Generated Class]"))
164 (defconst js--class-styles
165 `((:name "Plain"
166 :class-decl ,js--plain-class-re
167 :prototype t
168 :contexts (toplevel)
169 :framework javascript)
171 (:name "MochiKit"
172 :class-decl ,js--mochikit-class-re
173 :prototype t
174 :contexts (toplevel)
175 :framework mochikit)
177 (:name "Prototype (Obsolete)"
178 :class-decl ,js--prototype-obsolete-class-decl-re
179 :contexts (toplevel)
180 :framework prototype)
182 (:name "Prototype (Modern)"
183 :class-decl ,js--prototype-class-decl-re
184 :contexts (toplevel)
185 :framework prototype)
187 (:name "Prototype (Object.extend)"
188 :class-decl ,js--prototype-objextend-class-decl-re-1
189 :prototype t
190 :contexts (toplevel)
191 :framework prototype)
193 (:name "Prototype (Object.extend) 2"
194 :class-decl ,js--prototype-objextend-class-decl-re-2
195 :prototype t
196 :contexts (toplevel)
197 :framework prototype)
199 (:name "Dojo"
200 :class-decl ,js--dojo-class-decl-re
201 :contexts (toplevel)
202 :framework dojo)
204 (:name "ExtJS (style 1)"
205 :class-decl ,js--extjs-class-decl-re-1
206 :prototype t
207 :contexts (toplevel)
208 :framework extjs)
210 (:name "ExtJS (style 2)"
211 :class-decl ,js--extjs-class-decl-re-2
212 :contexts (toplevel)
213 :framework extjs)
215 (:name "Merrill Press"
216 :class-decl ,js--mp-class-decl-re
217 :contexts (toplevel)
218 :framework merrillpress))
220 "List of JavaScript class definition styles.
222 A class definition style is a plist with the following keys:
224 :name is a human-readable name of the class type
226 :class-decl is a regular expression giving the start of the
227 class. Its first group must match the name of its class. If there
228 is a parent class, the second group should match, and it should be
229 the name of the class.
231 If :prototype is present and non-nil, the parser will merge
232 declarations for this constructs with others at the same lexical
233 level that have the same name. Otherwise, multiple definitions
234 will create multiple top-level entries. Don't use :prototype
235 unnecessarily: it has an associated cost in performance.
237 If :strip-prototype is present and non-nil, then if the class
238 name as matched contains
241 (defconst js--available-frameworks
242 (cl-loop for style in js--class-styles
243 for framework = (plist-get style :framework)
244 unless (memq framework available-frameworks)
245 collect framework into available-frameworks
246 finally return available-frameworks)
247 "List of available JavaScript frameworks symbols.")
249 (defconst js--function-heading-1-re
250 (concat
251 "^\\s-*function\\s-+\\(" js--name-re "\\)")
252 "Regexp matching the start of a JavaScript function header.
253 Match group 1 is the name of the function.")
255 (defconst js--function-heading-2-re
256 (concat
257 "^\\s-*\\(" js--name-re "\\)\\s-*:\\s-*function\\_>")
258 "Regexp matching the start of a function entry in an associative array.
259 Match group 1 is the name of the function.")
261 (defconst js--function-heading-3-re
262 (concat
263 "^\\s-*\\(?:var\\s-+\\)?\\(" js--dotted-name-re "\\)"
264 "\\s-*=\\s-*function\\_>")
265 "Regexp matching a line in the JavaScript form \"var MUMBLE = function\".
266 Match group 1 is MUMBLE.")
268 (defconst js--macro-decl-re
269 (concat "^\\s-*#\\s-*define\\s-+\\(" js--cpp-name-re "\\)\\s-*(")
270 "Regexp matching a CPP macro definition, up to the opening parenthesis.
271 Match group 1 is the name of the macro.")
273 (defun js--regexp-opt-symbol (list)
274 "Like `regexp-opt', but surround the result with `\\\\_<' and `\\\\_>'."
275 (concat "\\_<" (regexp-opt list t) "\\_>"))
277 (defconst js--keyword-re
278 (js--regexp-opt-symbol
279 '("abstract" "break" "case" "catch" "class" "const"
280 "continue" "debugger" "default" "delete" "do" "else"
281 "enum" "export" "extends" "final" "finally" "for"
282 "function" "goto" "if" "implements" "import" "in"
283 "instanceof" "interface" "native" "new" "package"
284 "private" "protected" "public" "return" "static"
285 "super" "switch" "synchronized" "throw"
286 "throws" "transient" "try" "typeof" "var" "void" "let"
287 "yield" "volatile" "while" "with"))
288 "Regexp matching any JavaScript keyword.")
290 (defconst js--basic-type-re
291 (js--regexp-opt-symbol
292 '("boolean" "byte" "char" "double" "float" "int" "long"
293 "short" "void"))
294 "Regular expression matching any predefined type in JavaScript.")
296 (defconst js--constant-re
297 (js--regexp-opt-symbol '("false" "null" "undefined"
298 "Infinity" "NaN"
299 "true" "arguments" "this"))
300 "Regular expression matching any future reserved words in JavaScript.")
303 (defconst js--font-lock-keywords-1
304 (list
305 "\\_<import\\_>"
306 (list js--function-heading-1-re 1 font-lock-function-name-face)
307 (list js--function-heading-2-re 1 font-lock-function-name-face))
308 "Level one font lock keywords for `js-mode'.")
310 (defconst js--font-lock-keywords-2
311 (append js--font-lock-keywords-1
312 (list (list js--keyword-re 1 font-lock-keyword-face)
313 (list "\\_<for\\_>"
314 "\\s-+\\(each\\)\\_>" nil nil
315 (list 1 'font-lock-keyword-face))
316 (cons js--basic-type-re font-lock-type-face)
317 (cons js--constant-re font-lock-constant-face)))
318 "Level two font lock keywords for `js-mode'.")
320 ;; js--pitem is the basic building block of the lexical
321 ;; database. When one refers to a real part of the buffer, the region
322 ;; of text to which it refers is split into a conceptual header and
323 ;; body. Consider the (very short) block described by a hypothetical
324 ;; js--pitem:
326 ;; function foo(a,b,c) { return 42; }
327 ;; ^ ^ ^
328 ;; | | |
329 ;; +- h-begin +- h-end +- b-end
331 ;; (Remember that these are buffer positions, and therefore point
332 ;; between characters, not at them. An arrow drawn to a character
333 ;; indicates the corresponding position is between that character and
334 ;; the one immediately preceding it.)
336 ;; The header is the region of text [h-begin, h-end], and is
337 ;; the text needed to unambiguously recognize the start of the
338 ;; construct. If the entire header is not present, the construct is
339 ;; not recognized at all. No other pitems may be nested inside the
340 ;; header.
342 ;; The body is the region [h-end, b-end]. It may contain nested
343 ;; js--pitem instances. The body of a pitem may be empty: in
344 ;; that case, b-end is equal to header-end.
346 ;; The three points obey the following relationship:
348 ;; h-begin < h-end <= b-end
350 ;; We put a text property in the buffer on the character *before*
351 ;; h-end, and if we see it, on the character *before* b-end.
353 ;; The text property for h-end, js--pstate, is actually a list
354 ;; of all js--pitem instances open after the marked character.
356 ;; The text property for b-end, js--pend, is simply the
357 ;; js--pitem that ends after the marked character. (Because
358 ;; pitems always end when the paren-depth drops below a critical
359 ;; value, and because we can only drop one level per character, only
360 ;; one pitem may end at a given character.)
362 ;; In the structure below, we only store h-begin and (sometimes)
363 ;; b-end. We can trivially and quickly find h-end by going to h-begin
364 ;; and searching for an js--pstate text property. Since no other
365 ;; js--pitem instances can be nested inside the header of a
366 ;; pitem, the location after the character with this text property
367 ;; must be h-end.
369 ;; js--pitem instances are never modified (with the exception
370 ;; of the b-end field). Instead, modified copies are added at
371 ;; subsequence parse points.
372 ;; (The exception for b-end and its caveats is described below.)
375 (cl-defstruct (js--pitem (:type list))
376 ;; IMPORTANT: Do not alter the position of fields within the list.
377 ;; Various bits of code depend on their positions, particularly
378 ;; anything that manipulates the list of children.
380 ;; List of children inside this pitem's body
381 (children nil :read-only t)
383 ;; When we reach this paren depth after h-end, the pitem ends
384 (paren-depth nil :read-only t)
386 ;; Symbol or class-style plist if this is a class
387 (type nil :read-only t)
389 ;; See above
390 (h-begin nil :read-only t)
392 ;; List of strings giving the parts of the name of this pitem (e.g.,
393 ;; '("MyClass" "myMethod"), or t if this pitem is anonymous
394 (name nil :read-only t)
396 ;; THIS FIELD IS MUTATED, and its value is shared by all copies of
397 ;; this pitem: when we copy-and-modify pitem instances, we share
398 ;; their tail structures, so all the copies actually have the same
399 ;; terminating cons cell. We modify that shared cons cell directly.
401 ;; The field value is either a number (buffer location) or nil if
402 ;; unknown.
404 ;; If the field's value is greater than `js--cache-end', the
405 ;; value is stale and must be treated as if it were nil. Conversely,
406 ;; if this field is nil, it is guaranteed that this pitem is open up
407 ;; to at least `js--cache-end'. (This property is handy when
408 ;; computing whether we're inside a given pitem.)
410 (b-end nil))
412 ;; The pitem we start parsing with.
413 (defconst js--initial-pitem
414 (make-js--pitem
415 :paren-depth most-negative-fixnum
416 :type 'toplevel))
418 ;;; User Customization
420 (defgroup js nil
421 "Customization variables for JavaScript mode."
422 :tag "JavaScript"
423 :group 'languages)
425 (defcustom js-indent-level 4
426 "Number of spaces for each indentation step in `js-mode'."
427 :type 'integer
428 :safe 'integerp
429 :group 'js)
431 (defcustom js-expr-indent-offset 0
432 "Number of additional spaces for indenting continued expressions.
433 The value must be no less than minus `js-indent-level'."
434 :type 'integer
435 :safe 'integerp
436 :group 'js)
438 (defcustom js-paren-indent-offset 0
439 "Number of additional spaces for indenting expressions in parentheses.
440 The value must be no less than minus `js-indent-level'."
441 :type 'integer
442 :safe 'integerp
443 :group 'js
444 :version "24.1")
446 (defcustom js-square-indent-offset 0
447 "Number of additional spaces for indenting expressions in square braces.
448 The value must be no less than minus `js-indent-level'."
449 :type 'integer
450 :safe 'integerp
451 :group 'js
452 :version "24.1")
454 (defcustom js-curly-indent-offset 0
455 "Number of additional spaces for indenting expressions in curly braces.
456 The value must be no less than minus `js-indent-level'."
457 :type 'integer
458 :safe 'integerp
459 :group 'js
460 :version "24.1")
462 (defcustom js-switch-indent-offset 0
463 "Number of additional spaces for indenting the contents of a switch block.
464 The value must not be negative."
465 :type 'integer
466 :safe 'integerp
467 :group 'js
468 :version "24.4")
470 (defcustom js-flat-functions nil
471 "Treat nested functions as top-level functions in `js-mode'.
472 This applies to function movement, marking, and so on."
473 :type 'boolean
474 :group 'js)
476 (defcustom js-comment-lineup-func #'c-lineup-C-comments
477 "Lineup function for `cc-mode-style', for C comments in `js-mode'."
478 :type 'function
479 :group 'js)
481 (defcustom js-enabled-frameworks js--available-frameworks
482 "Frameworks recognized by `js-mode'.
483 To improve performance, you may turn off some frameworks you
484 seldom use, either globally or on a per-buffer basis."
485 :type (cons 'set (mapcar (lambda (x)
486 (list 'const x))
487 js--available-frameworks))
488 :group 'js)
490 (defcustom js-js-switch-tabs
491 (and (memq system-type '(darwin)) t)
492 "Whether `js-mode' should display tabs while selecting them.
493 This is useful only if the windowing system has a good mechanism
494 for preventing Firefox from stealing the keyboard focus."
495 :type 'boolean
496 :group 'js)
498 (defcustom js-js-tmpdir
499 "~/.emacs.d/js/js"
500 "Temporary directory used by `js-mode' to communicate with Mozilla.
501 This directory must be readable and writable by both Mozilla and Emacs."
502 :type 'directory
503 :group 'js)
505 (defcustom js-js-timeout 5
506 "Reply timeout for executing commands in Mozilla via `js-mode'.
507 The value is given in seconds. Increase this value if you are
508 getting timeout messages."
509 :type 'integer
510 :group 'js)
512 ;;; KeyMap
514 (defvar js-mode-map
515 (let ((keymap (make-sparse-keymap)))
516 (define-key keymap [(control ?c) (meta ?:)] #'js-eval)
517 (define-key keymap [(control ?c) (control ?j)] #'js-set-js-context)
518 (define-key keymap [(control meta ?x)] #'js-eval-defun)
519 (define-key keymap [(meta ?.)] #'js-find-symbol)
520 (easy-menu-define nil keymap "Javascript Menu"
521 '("Javascript"
522 ["Select New Mozilla Context..." js-set-js-context
523 (fboundp #'inferior-moz-process)]
524 ["Evaluate Expression in Mozilla Context..." js-eval
525 (fboundp #'inferior-moz-process)]
526 ["Send Current Function to Mozilla..." js-eval-defun
527 (fboundp #'inferior-moz-process)]))
528 keymap)
529 "Keymap for `js-mode'.")
531 ;;; Syntax table and parsing
533 (defvar js-mode-syntax-table
534 (let ((table (make-syntax-table)))
535 (c-populate-syntax-table table)
536 (modify-syntax-entry ?$ "_" table)
537 table)
538 "Syntax table for `js-mode'.")
540 (defvar js--quick-match-re nil
541 "Autogenerated regexp used by `js-mode' to match buffer constructs.")
543 (defvar js--quick-match-re-func nil
544 "Autogenerated regexp used by `js-mode' to match constructs and functions.")
546 (make-variable-buffer-local 'js--quick-match-re)
547 (make-variable-buffer-local 'js--quick-match-re-func)
549 (defvar js--cache-end 1
550 "Last valid buffer position for the `js-mode' function cache.")
551 (make-variable-buffer-local 'js--cache-end)
553 (defvar js--last-parse-pos nil
554 "Latest parse position reached by `js--ensure-cache'.")
555 (make-variable-buffer-local 'js--last-parse-pos)
557 (defvar js--state-at-last-parse-pos nil
558 "Parse state at `js--last-parse-pos'.")
559 (make-variable-buffer-local 'js--state-at-last-parse-pos)
561 (defun js--flatten-list (list)
562 (cl-loop for item in list
563 nconc (cond ((consp item)
564 (js--flatten-list item))
565 (item (list item)))))
567 (defun js--maybe-join (prefix separator suffix &rest list)
568 "Helper function for `js--update-quick-match-re'.
569 If LIST contains any element that is not nil, return its non-nil
570 elements, separated by SEPARATOR, prefixed by PREFIX, and ended
571 with SUFFIX as with `concat'. Otherwise, if LIST is empty, return
572 nil. If any element in LIST is itself a list, flatten that
573 element."
574 (setq list (js--flatten-list list))
575 (when list
576 (concat prefix (mapconcat #'identity list separator) suffix)))
578 (defun js--update-quick-match-re ()
579 "Internal function used by `js-mode' for caching buffer constructs.
580 This updates `js--quick-match-re', based on the current set of
581 enabled frameworks."
582 (setq js--quick-match-re
583 (js--maybe-join
584 "^[ \t]*\\(?:" "\\|" "\\)"
586 ;; #define mumble
587 "#define[ \t]+[a-zA-Z_]"
589 (when (memq 'extjs js-enabled-frameworks)
590 "Ext\\.extend")
592 (when (memq 'prototype js-enabled-frameworks)
593 "Object\\.extend")
595 ;; var mumble = THING (
596 (js--maybe-join
597 "\\(?:var[ \t]+\\)?[a-zA-Z_$0-9.]+[ \t]*=[ \t]*\\(?:"
598 "\\|"
599 "\\)[ \t]*\("
601 (when (memq 'prototype js-enabled-frameworks)
602 "Class\\.create")
604 (when (memq 'extjs js-enabled-frameworks)
605 "Ext\\.extend")
607 (when (memq 'merrillpress js-enabled-frameworks)
608 "[a-zA-Z_$0-9]+\\.extend\\(?:Final\\)?"))
610 (when (memq 'dojo js-enabled-frameworks)
611 "dojo\\.declare[ \t]*\(")
613 (when (memq 'mochikit js-enabled-frameworks)
614 "MochiKit\\.Base\\.update[ \t]*\(")
616 ;; mumble.prototypeTHING
617 (js--maybe-join
618 "[a-zA-Z_$0-9.]+\\.prototype\\(?:" "\\|" "\\)"
620 (when (memq 'javascript js-enabled-frameworks)
621 '( ;; foo.prototype.bar = function(
622 "\\.[a-zA-Z_$0-9]+[ \t]*=[ \t]*function[ \t]*\("
624 ;; mumble.prototype = {
625 "[ \t]*=[ \t]*{")))))
627 (setq js--quick-match-re-func
628 (concat "function\\|" js--quick-match-re)))
630 (defun js--forward-text-property (propname)
631 "Move over the next value of PROPNAME in the buffer.
632 If found, return that value and leave point after the character
633 having that value; otherwise, return nil and leave point at EOB."
634 (let ((next-value (get-text-property (point) propname)))
635 (if next-value
636 (forward-char)
638 (goto-char (next-single-property-change
639 (point) propname nil (point-max)))
640 (unless (eobp)
641 (setq next-value (get-text-property (point) propname))
642 (forward-char)))
644 next-value))
646 (defun js--backward-text-property (propname)
647 "Move over the previous value of PROPNAME in the buffer.
648 If found, return that value and leave point just before the
649 character that has that value, otherwise return nil and leave
650 point at BOB."
651 (unless (bobp)
652 (let ((prev-value (get-text-property (1- (point)) propname)))
653 (if prev-value
654 (backward-char)
656 (goto-char (previous-single-property-change
657 (point) propname nil (point-min)))
659 (unless (bobp)
660 (backward-char)
661 (setq prev-value (get-text-property (point) propname))))
663 prev-value)))
665 (defsubst js--forward-pstate ()
666 (js--forward-text-property 'js--pstate))
668 (defsubst js--backward-pstate ()
669 (js--backward-text-property 'js--pstate))
671 (defun js--pitem-goto-h-end (pitem)
672 (goto-char (js--pitem-h-begin pitem))
673 (js--forward-pstate))
675 (defun js--re-search-forward-inner (regexp &optional bound count)
676 "Helper function for `js--re-search-forward'."
677 (let ((parse)
678 str-terminator
679 (orig-macro-end (save-excursion
680 (when (js--beginning-of-macro)
681 (c-end-of-macro)
682 (point)))))
683 (while (> count 0)
684 (re-search-forward regexp bound)
685 (setq parse (syntax-ppss))
686 (cond ((setq str-terminator (nth 3 parse))
687 (when (eq str-terminator t)
688 (setq str-terminator ?/))
689 (re-search-forward
690 (concat "\\([^\\]\\|^\\)" (string str-terminator))
691 (point-at-eol) t))
692 ((nth 7 parse)
693 (forward-line))
694 ((or (nth 4 parse)
695 (and (eq (char-before) ?\/) (eq (char-after) ?\*)))
696 (re-search-forward "\\*/"))
697 ((and (not (and orig-macro-end
698 (<= (point) orig-macro-end)))
699 (js--beginning-of-macro))
700 (c-end-of-macro))
702 (setq count (1- count))))))
703 (point))
706 (defun js--re-search-forward (regexp &optional bound noerror count)
707 "Search forward, ignoring strings, cpp macros, and comments.
708 This function invokes `re-search-forward', but treats the buffer
709 as if strings, cpp macros, and comments have been removed.
711 If invoked while inside a macro, it treats the contents of the
712 macro as normal text."
713 (unless count (setq count 1))
714 (let ((saved-point (point))
715 (search-fun
716 (cond ((< count 0) (setq count (- count))
717 #'js--re-search-backward-inner)
718 ((> count 0) #'js--re-search-forward-inner)
719 (t #'ignore))))
720 (condition-case err
721 (funcall search-fun regexp bound count)
722 (search-failed
723 (goto-char saved-point)
724 (unless noerror
725 (signal (car err) (cdr err)))))))
728 (defun js--re-search-backward-inner (regexp &optional bound count)
729 "Auxiliary function for `js--re-search-backward'."
730 (let ((parse)
731 str-terminator
732 (orig-macro-start
733 (save-excursion
734 (and (js--beginning-of-macro)
735 (point)))))
736 (while (> count 0)
737 (re-search-backward regexp bound)
738 (when (and (> (point) (point-min))
739 (save-excursion (backward-char) (looking-at "/[/*]")))
740 (forward-char))
741 (setq parse (syntax-ppss))
742 (cond ((setq str-terminator (nth 3 parse))
743 (when (eq str-terminator t)
744 (setq str-terminator ?/))
745 (re-search-backward
746 (concat "\\([^\\]\\|^\\)" (string str-terminator))
747 (point-at-bol) t))
748 ((nth 7 parse)
749 (goto-char (nth 8 parse)))
750 ((or (nth 4 parse)
751 (and (eq (char-before) ?/) (eq (char-after) ?*)))
752 (re-search-backward "/\\*"))
753 ((and (not (and orig-macro-start
754 (>= (point) orig-macro-start)))
755 (js--beginning-of-macro)))
757 (setq count (1- count))))))
758 (point))
761 (defun js--re-search-backward (regexp &optional bound noerror count)
762 "Search backward, ignoring strings, preprocessor macros, and comments.
764 This function invokes `re-search-backward' but treats the buffer
765 as if strings, preprocessor macros, and comments have been
766 removed.
768 If invoked while inside a macro, treat the macro as normal text."
769 (js--re-search-forward regexp bound noerror (if count (- count) -1)))
771 (defun js--forward-expression ()
772 "Move forward over a whole JavaScript expression.
773 This function doesn't move over expressions continued across
774 lines."
775 (cl-loop
776 ;; non-continued case; simplistic, but good enough?
777 do (cl-loop until (or (eolp)
778 (progn
779 (forward-comment most-positive-fixnum)
780 (memq (char-after) '(?\, ?\; ?\] ?\) ?\}))))
781 do (forward-sexp))
783 while (and (eq (char-after) ?\n)
784 (save-excursion
785 (forward-char)
786 (js--continued-expression-p)))))
788 (defun js--forward-function-decl ()
789 "Move forward over a JavaScript function declaration.
790 This puts point at the 'function' keyword.
792 If this is a syntactically-correct non-expression function,
793 return the name of the function, or t if the name could not be
794 determined. Otherwise, return nil."
795 (cl-assert (looking-at "\\_<function\\_>"))
796 (let ((name t))
797 (forward-word)
798 (forward-comment most-positive-fixnum)
799 (when (looking-at js--name-re)
800 (setq name (match-string-no-properties 0))
801 (goto-char (match-end 0)))
802 (forward-comment most-positive-fixnum)
803 (and (eq (char-after) ?\( )
804 (ignore-errors (forward-list) t)
805 (progn (forward-comment most-positive-fixnum)
806 (and (eq (char-after) ?{)
807 name)))))
809 (defun js--function-prologue-beginning (&optional pos)
810 "Return the start of the JavaScript function prologue containing POS.
811 A function prologue is everything from start of the definition up
812 to and including the opening brace. POS defaults to point.
813 If POS is not in a function prologue, return nil."
814 (let (prologue-begin)
815 (save-excursion
816 (if pos
817 (goto-char pos)
818 (setq pos (point)))
820 (when (save-excursion
821 (forward-line 0)
822 (or (looking-at js--function-heading-2-re)
823 (looking-at js--function-heading-3-re)))
825 (setq prologue-begin (match-beginning 1))
826 (when (<= prologue-begin pos)
827 (goto-char (match-end 0))))
829 (skip-syntax-backward "w_")
830 (and (or (looking-at "\\_<function\\_>")
831 (js--re-search-backward "\\_<function\\_>" nil t))
833 (save-match-data (goto-char (match-beginning 0))
834 (js--forward-function-decl))
836 (<= pos (point))
837 (or prologue-begin (match-beginning 0))))))
839 (defun js--beginning-of-defun-raw ()
840 "Helper function for `js-beginning-of-defun'.
841 Go to previous defun-beginning and return the parse state for it,
842 or nil if we went all the way back to bob and don't find
843 anything."
844 (js--ensure-cache)
845 (let (pstate)
846 (while (and (setq pstate (js--backward-pstate))
847 (not (eq 'function (js--pitem-type (car pstate))))))
848 (and (not (bobp)) pstate)))
850 (defun js--pstate-is-toplevel-defun (pstate)
851 "Helper function for `js--beginning-of-defun-nested'.
852 If PSTATE represents a non-empty top-level defun, return the
853 top-most pitem. Otherwise, return nil."
854 (cl-loop for pitem in pstate
855 with func-depth = 0
856 with func-pitem
857 if (eq 'function (js--pitem-type pitem))
858 do (cl-incf func-depth)
859 and do (setq func-pitem pitem)
860 finally return (if (eq func-depth 1) func-pitem)))
862 (defun js--beginning-of-defun-nested ()
863 "Helper function for `js--beginning-of-defun'.
864 Return the pitem of the function we went to the beginning of."
866 ;; Look for the smallest function that encloses point...
867 (cl-loop for pitem in (js--parse-state-at-point)
868 if (and (eq 'function (js--pitem-type pitem))
869 (js--inside-pitem-p pitem))
870 do (goto-char (js--pitem-h-begin pitem))
871 and return pitem)
873 ;; ...and if that isn't found, look for the previous top-level
874 ;; defun
875 (cl-loop for pstate = (js--backward-pstate)
876 while pstate
877 if (js--pstate-is-toplevel-defun pstate)
878 do (goto-char (js--pitem-h-begin it))
879 and return it)))
881 (defun js--beginning-of-defun-flat ()
882 "Helper function for `js-beginning-of-defun'."
883 (let ((pstate (js--beginning-of-defun-raw)))
884 (when pstate
885 (goto-char (js--pitem-h-begin (car pstate))))))
887 (defun js-beginning-of-defun (&optional arg)
888 "Value of `beginning-of-defun-function' for `js-mode'."
889 (setq arg (or arg 1))
890 (while (and (not (eobp)) (< arg 0))
891 (cl-incf arg)
892 (when (and (not js-flat-functions)
893 (or (eq (js-syntactic-context) 'function)
894 (js--function-prologue-beginning)))
895 (js-end-of-defun))
897 (if (js--re-search-forward
898 "\\_<function\\_>" nil t)
899 (goto-char (js--function-prologue-beginning))
900 (goto-char (point-max))))
902 (while (> arg 0)
903 (cl-decf arg)
904 ;; If we're just past the end of a function, the user probably wants
905 ;; to go to the beginning of *that* function
906 (when (eq (char-before) ?})
907 (backward-char))
909 (let ((prologue-begin (js--function-prologue-beginning)))
910 (cond ((and prologue-begin (< prologue-begin (point)))
911 (goto-char prologue-begin))
913 (js-flat-functions
914 (js--beginning-of-defun-flat))
916 (js--beginning-of-defun-nested))))))
918 (defun js--flush-caches (&optional beg ignored)
919 "Flush the `js-mode' syntax cache after position BEG.
920 BEG defaults to `point-min', meaning to flush the entire cache."
921 (interactive)
922 (setq beg (or beg (save-restriction (widen) (point-min))))
923 (setq js--cache-end (min js--cache-end beg)))
925 (defmacro js--debug (&rest _arguments)
926 ;; `(message ,@arguments)
929 (defun js--ensure-cache--pop-if-ended (open-items paren-depth)
930 (let ((top-item (car open-items)))
931 (when (<= paren-depth (js--pitem-paren-depth top-item))
932 (cl-assert (not (get-text-property (1- (point)) 'js-pend)))
933 (put-text-property (1- (point)) (point) 'js--pend top-item)
934 (setf (js--pitem-b-end top-item) (point))
935 (setq open-items
936 ;; open-items must contain at least two items for this to
937 ;; work, but because we push a dummy item to start with,
938 ;; that assumption holds.
939 (cons (js--pitem-add-child (cl-second open-items) top-item)
940 (cddr open-items)))))
941 open-items)
943 (defmacro js--ensure-cache--update-parse ()
944 "Helper function for `js--ensure-cache'.
945 Update parsing information up to point, referring to parse,
946 prev-parse-point, goal-point, and open-items bound lexically in
947 the body of `js--ensure-cache'."
948 `(progn
949 (setq goal-point (point))
950 (goto-char prev-parse-point)
951 (while (progn
952 (setq open-items (js--ensure-cache--pop-if-ended
953 open-items (car parse)))
954 ;; Make sure parse-partial-sexp doesn't stop because we *entered*
955 ;; the given depth -- i.e., make sure we're deeper than the target
956 ;; depth.
957 (cl-assert (> (nth 0 parse)
958 (js--pitem-paren-depth (car open-items))))
959 (setq parse (parse-partial-sexp
960 prev-parse-point goal-point
961 (js--pitem-paren-depth (car open-items))
962 nil parse))
964 ;; (let ((overlay (make-overlay prev-parse-point (point))))
965 ;; (overlay-put overlay 'face '(:background "red"))
966 ;; (unwind-protect
967 ;; (progn
968 ;; (js--debug "parsed: %S" parse)
969 ;; (sit-for 1))
970 ;; (delete-overlay overlay)))
972 (setq prev-parse-point (point))
973 (< (point) goal-point)))
975 (setq open-items (js--ensure-cache--pop-if-ended
976 open-items (car parse)))))
978 (defun js--show-cache-at-point ()
979 (interactive)
980 (require 'pp)
981 (let ((prop (get-text-property (point) 'js--pstate)))
982 (with-output-to-temp-buffer "*Help*"
983 (pp prop))))
985 (defun js--split-name (string)
986 "Split a JavaScript name into its dot-separated parts.
987 This also removes any prototype parts from the split name
988 \(unless the name is just \"prototype\" to start with)."
989 (let ((name (save-match-data
990 (split-string string "\\." t))))
991 (unless (and (= (length name) 1)
992 (equal (car name) "prototype"))
994 (setq name (remove "prototype" name)))))
996 (defvar js--guess-function-name-start nil)
998 (defun js--guess-function-name (position)
999 "Guess the name of the JavaScript function at POSITION.
1000 POSITION should be just after the end of the word \"function\".
1001 Return the name of the function, or nil if the name could not be
1002 guessed.
1004 This function clobbers match data. If we find the preamble
1005 begins earlier than expected while guessing the function name,
1006 set `js--guess-function-name-start' to that position; otherwise,
1007 set that variable to nil."
1008 (setq js--guess-function-name-start nil)
1009 (save-excursion
1010 (goto-char position)
1011 (forward-line 0)
1012 (cond
1013 ((looking-at js--function-heading-3-re)
1014 (and (eq (match-end 0) position)
1015 (setq js--guess-function-name-start (match-beginning 1))
1016 (match-string-no-properties 1)))
1018 ((looking-at js--function-heading-2-re)
1019 (and (eq (match-end 0) position)
1020 (setq js--guess-function-name-start (match-beginning 1))
1021 (match-string-no-properties 1))))))
1023 (defun js--clear-stale-cache ()
1024 ;; Clear any endings that occur after point
1025 (let (end-prop)
1026 (save-excursion
1027 (while (setq end-prop (js--forward-text-property
1028 'js--pend))
1029 (setf (js--pitem-b-end end-prop) nil))))
1031 ;; Remove any cache properties after this point
1032 (remove-text-properties (point) (point-max)
1033 '(js--pstate t js--pend t)))
1035 (defun js--ensure-cache (&optional limit)
1036 "Ensures brace cache is valid up to the character before LIMIT.
1037 LIMIT defaults to point."
1038 (setq limit (or limit (point)))
1039 (when (< js--cache-end limit)
1041 (c-save-buffer-state
1042 (open-items
1043 parse
1044 prev-parse-point
1045 name
1046 case-fold-search
1047 filtered-class-styles
1048 goal-point)
1050 ;; Figure out which class styles we need to look for
1051 (setq filtered-class-styles
1052 (cl-loop for style in js--class-styles
1053 if (memq (plist-get style :framework)
1054 js-enabled-frameworks)
1055 collect style))
1057 (save-excursion
1058 (save-restriction
1059 (widen)
1061 ;; Find last known good position
1062 (goto-char js--cache-end)
1063 (unless (bobp)
1064 (setq open-items (get-text-property
1065 (1- (point)) 'js--pstate))
1067 (unless open-items
1068 (goto-char (previous-single-property-change
1069 (point) 'js--pstate nil (point-min)))
1071 (unless (bobp)
1072 (setq open-items (get-text-property (1- (point))
1073 'js--pstate))
1074 (cl-assert open-items))))
1076 (unless open-items
1077 ;; Make a placeholder for the top-level definition
1078 (setq open-items (list js--initial-pitem)))
1080 (setq parse (syntax-ppss))
1081 (setq prev-parse-point (point))
1083 (js--clear-stale-cache)
1085 (narrow-to-region (point-min) limit)
1087 (cl-loop while (re-search-forward js--quick-match-re-func nil t)
1088 for orig-match-start = (goto-char (match-beginning 0))
1089 for orig-match-end = (match-end 0)
1090 do (js--ensure-cache--update-parse)
1091 for orig-depth = (nth 0 parse)
1093 ;; Each of these conditions should return non-nil if
1094 ;; we should add a new item and leave point at the end
1095 ;; of the new item's header (h-end in the
1096 ;; js--pitem diagram). This point is the one
1097 ;; after the last character we need to unambiguously
1098 ;; detect this construct. If one of these evaluates to
1099 ;; nil, the location of the point is ignored.
1100 if (cond
1101 ;; In comment or string
1102 ((nth 8 parse) nil)
1104 ;; Regular function declaration
1105 ((and (looking-at "\\_<function\\_>")
1106 (setq name (js--forward-function-decl)))
1108 (when (eq name t)
1109 (setq name (js--guess-function-name orig-match-end))
1110 (if name
1111 (when js--guess-function-name-start
1112 (setq orig-match-start
1113 js--guess-function-name-start))
1115 (setq name t)))
1117 (cl-assert (eq (char-after) ?{))
1118 (forward-char)
1119 (make-js--pitem
1120 :paren-depth orig-depth
1121 :h-begin orig-match-start
1122 :type 'function
1123 :name (if (eq name t)
1124 name
1125 (js--split-name name))))
1127 ;; Macro
1128 ((looking-at js--macro-decl-re)
1130 ;; Macros often contain unbalanced parentheses.
1131 ;; Make sure that h-end is at the textual end of
1132 ;; the macro no matter what the parenthesis say.
1133 (c-end-of-macro)
1134 (js--ensure-cache--update-parse)
1136 (make-js--pitem
1137 :paren-depth (nth 0 parse)
1138 :h-begin orig-match-start
1139 :type 'macro
1140 :name (list (match-string-no-properties 1))))
1142 ;; "Prototype function" declaration
1143 ((looking-at js--plain-method-re)
1144 (goto-char (match-beginning 3))
1145 (when (save-match-data
1146 (js--forward-function-decl))
1147 (forward-char)
1148 (make-js--pitem
1149 :paren-depth orig-depth
1150 :h-begin orig-match-start
1151 :type 'function
1152 :name (nconc (js--split-name
1153 (match-string-no-properties 1))
1154 (list (match-string-no-properties 2))))))
1156 ;; Class definition
1157 ((cl-loop
1158 with syntactic-context =
1159 (js--syntactic-context-from-pstate open-items)
1160 for class-style in filtered-class-styles
1161 if (and (memq syntactic-context
1162 (plist-get class-style :contexts))
1163 (looking-at (plist-get class-style
1164 :class-decl)))
1165 do (goto-char (match-end 0))
1166 and return
1167 (make-js--pitem
1168 :paren-depth orig-depth
1169 :h-begin orig-match-start
1170 :type class-style
1171 :name (js--split-name
1172 (match-string-no-properties 1))))))
1174 do (js--ensure-cache--update-parse)
1175 and do (push it open-items)
1176 and do (put-text-property
1177 (1- (point)) (point) 'js--pstate open-items)
1178 else do (goto-char orig-match-end))
1180 (goto-char limit)
1181 (js--ensure-cache--update-parse)
1182 (setq js--cache-end limit)
1183 (setq js--last-parse-pos limit)
1184 (setq js--state-at-last-parse-pos open-items)
1185 )))))
1187 (defun js--end-of-defun-flat ()
1188 "Helper function for `js-end-of-defun'."
1189 (cl-loop while (js--re-search-forward "}" nil t)
1190 do (js--ensure-cache)
1191 if (get-text-property (1- (point)) 'js--pend)
1192 if (eq 'function (js--pitem-type it))
1193 return t
1194 finally do (goto-char (point-max))))
1196 (defun js--end-of-defun-nested ()
1197 "Helper function for `js-end-of-defun'."
1198 (message "test")
1199 (let* (pitem
1200 (this-end (save-excursion
1201 (and (setq pitem (js--beginning-of-defun-nested))
1202 (js--pitem-goto-h-end pitem)
1203 (progn (backward-char)
1204 (forward-list)
1205 (point)))))
1206 found)
1208 (if (and this-end (< (point) this-end))
1209 ;; We're already inside a function; just go to its end.
1210 (goto-char this-end)
1212 ;; Otherwise, go to the end of the next function...
1213 (while (and (js--re-search-forward "\\_<function\\_>" nil t)
1214 (not (setq found (progn
1215 (goto-char (match-beginning 0))
1216 (js--forward-function-decl))))))
1218 (if found (forward-list)
1219 ;; ... or eob.
1220 (goto-char (point-max))))))
1222 (defun js-end-of-defun (&optional arg)
1223 "Value of `end-of-defun-function' for `js-mode'."
1224 (setq arg (or arg 1))
1225 (while (and (not (bobp)) (< arg 0))
1226 (cl-incf arg)
1227 (js-beginning-of-defun)
1228 (js-beginning-of-defun)
1229 (unless (bobp)
1230 (js-end-of-defun)))
1232 (while (> arg 0)
1233 (cl-decf arg)
1234 ;; look for function backward. if we're inside it, go to that
1235 ;; function's end. otherwise, search for the next function's end and
1236 ;; go there
1237 (if js-flat-functions
1238 (js--end-of-defun-flat)
1240 ;; if we're doing nested functions, see whether we're in the
1241 ;; prologue. If we are, go to the end of the function; otherwise,
1242 ;; call js--end-of-defun-nested to do the real work
1243 (let ((prologue-begin (js--function-prologue-beginning)))
1244 (cond ((and prologue-begin (<= prologue-begin (point)))
1245 (goto-char prologue-begin)
1246 (re-search-forward "\\_<function")
1247 (goto-char (match-beginning 0))
1248 (js--forward-function-decl)
1249 (forward-list))
1251 (t (js--end-of-defun-nested)))))))
1253 (defun js--beginning-of-macro (&optional lim)
1254 (let ((here (point)))
1255 (save-restriction
1256 (if lim (narrow-to-region lim (point-max)))
1257 (beginning-of-line)
1258 (while (eq (char-before (1- (point))) ?\\)
1259 (forward-line -1))
1260 (back-to-indentation)
1261 (if (and (<= (point) here)
1262 (looking-at js--opt-cpp-start))
1264 (goto-char here)
1265 nil))))
1267 (defun js--backward-syntactic-ws (&optional lim)
1268 "Simple implementation of `c-backward-syntactic-ws' for `js-mode'."
1269 (save-restriction
1270 (when lim (narrow-to-region lim (point-max)))
1272 (let ((in-macro (save-excursion (js--beginning-of-macro)))
1273 (pos (point)))
1275 (while (progn (unless in-macro (js--beginning-of-macro))
1276 (forward-comment most-negative-fixnum)
1277 (/= (point)
1278 (prog1
1280 (setq pos (point)))))))))
1282 (defun js--forward-syntactic-ws (&optional lim)
1283 "Simple implementation of `c-forward-syntactic-ws' for `js-mode'."
1284 (save-restriction
1285 (when lim (narrow-to-region (point-min) lim))
1286 (let ((pos (point)))
1287 (while (progn
1288 (forward-comment most-positive-fixnum)
1289 (when (eq (char-after) ?#)
1290 (c-end-of-macro))
1291 (/= (point)
1292 (prog1
1294 (setq pos (point)))))))))
1296 ;; Like (up-list -1), but only considers lists that end nearby"
1297 (defun js--up-nearby-list ()
1298 (save-restriction
1299 ;; Look at a very small region so our computation time doesn't
1300 ;; explode in pathological cases.
1301 (narrow-to-region (max (point-min) (- (point) 500)) (point))
1302 (up-list -1)))
1304 (defun js--inside-param-list-p ()
1305 "Return non-nil iff point is in a function parameter list."
1306 (ignore-errors
1307 (save-excursion
1308 (js--up-nearby-list)
1309 (and (looking-at "(")
1310 (progn (forward-symbol -1)
1311 (or (looking-at "function")
1312 (progn (forward-symbol -1)
1313 (looking-at "function"))))))))
1315 (defun js--inside-dojo-class-list-p ()
1316 "Return non-nil iff point is in a Dojo multiple-inheritance class block."
1317 (ignore-errors
1318 (save-excursion
1319 (js--up-nearby-list)
1320 (let ((list-begin (point)))
1321 (forward-line 0)
1322 (and (looking-at js--dojo-class-decl-re)
1323 (goto-char (match-end 0))
1324 (looking-at "\"\\s-*,\\s-*\\[")
1325 (eq (match-end 0) (1+ list-begin)))))))
1327 (defun js--syntax-begin-function ()
1328 (when (< js--cache-end (point))
1329 (goto-char (max (point-min) js--cache-end)))
1331 (let ((pitem))
1332 (while (and (setq pitem (car (js--backward-pstate)))
1333 (not (eq 0 (js--pitem-paren-depth pitem)))))
1335 (when pitem
1336 (goto-char (js--pitem-h-begin pitem )))))
1338 ;;; Font Lock
1339 (defun js--make-framework-matcher (framework &rest regexps)
1340 "Helper function for building `js--font-lock-keywords'.
1341 Create a byte-compiled function for matching a concatenation of
1342 REGEXPS, but only if FRAMEWORK is in `js-enabled-frameworks'."
1343 (setq regexps (apply #'concat regexps))
1344 (byte-compile
1345 `(lambda (limit)
1346 (when (memq (quote ,framework) js-enabled-frameworks)
1347 (re-search-forward ,regexps limit t)))))
1349 (defvar js--tmp-location nil)
1350 (make-variable-buffer-local 'js--tmp-location)
1352 (defun js--forward-destructuring-spec (&optional func)
1353 "Move forward over a JavaScript destructuring spec.
1354 If FUNC is supplied, call it with no arguments before every
1355 variable name in the spec. Return true iff this was actually a
1356 spec. FUNC must preserve the match data."
1357 (pcase (char-after)
1358 (?\[
1359 (forward-char)
1360 (while
1361 (progn
1362 (forward-comment most-positive-fixnum)
1363 (cond ((memq (char-after) '(?\[ ?\{))
1364 (js--forward-destructuring-spec func))
1366 ((eq (char-after) ?,)
1367 (forward-char)
1370 ((looking-at js--name-re)
1371 (and func (funcall func))
1372 (goto-char (match-end 0))
1373 t))))
1374 (when (eq (char-after) ?\])
1375 (forward-char)
1378 (?\{
1379 (forward-char)
1380 (forward-comment most-positive-fixnum)
1381 (while
1382 (when (looking-at js--objfield-re)
1383 (goto-char (match-end 0))
1384 (forward-comment most-positive-fixnum)
1385 (and (cond ((memq (char-after) '(?\[ ?\{))
1386 (js--forward-destructuring-spec func))
1387 ((looking-at js--name-re)
1388 (and func (funcall func))
1389 (goto-char (match-end 0))
1391 (progn (forward-comment most-positive-fixnum)
1392 (when (eq (char-after) ?\,)
1393 (forward-char)
1394 (forward-comment most-positive-fixnum)
1395 t)))))
1396 (when (eq (char-after) ?\})
1397 (forward-char)
1398 t))))
1400 (defun js--variable-decl-matcher (limit)
1401 "Font-lock matcher for variable names in a variable declaration.
1402 This is a cc-mode-style matcher that *always* fails, from the
1403 point of view of font-lock. It applies highlighting directly with
1404 `font-lock-apply-highlight'."
1405 (condition-case nil
1406 (save-restriction
1407 (narrow-to-region (point-min) limit)
1409 (let ((first t))
1410 (forward-comment most-positive-fixnum)
1411 (while
1412 (and (or first
1413 (when (eq (char-after) ?,)
1414 (forward-char)
1415 (forward-comment most-positive-fixnum)
1417 (cond ((looking-at js--name-re)
1418 (font-lock-apply-highlight
1419 '(0 font-lock-variable-name-face))
1420 (goto-char (match-end 0)))
1422 ((save-excursion
1423 (js--forward-destructuring-spec))
1425 (js--forward-destructuring-spec
1426 (lambda ()
1427 (font-lock-apply-highlight
1428 '(0 font-lock-variable-name-face)))))))
1430 (forward-comment most-positive-fixnum)
1431 (when (eq (char-after) ?=)
1432 (forward-char)
1433 (js--forward-expression)
1434 (forward-comment most-positive-fixnum))
1436 (setq first nil))))
1438 ;; Conditions to handle
1439 (scan-error nil)
1440 (end-of-buffer nil))
1442 ;; Matcher always "fails"
1443 nil)
1445 (defconst js--font-lock-keywords-3
1447 ;; This goes before keywords-2 so it gets used preferentially
1448 ;; instead of the keywords in keywords-2. Don't use override
1449 ;; because that will override syntactic fontification too, which
1450 ;; will fontify commented-out directives as if they weren't
1451 ;; commented out.
1452 ,@cpp-font-lock-keywords ; from font-lock.el
1454 ,@js--font-lock-keywords-2
1456 ("\\.\\(prototype\\)\\_>"
1457 (1 font-lock-constant-face))
1459 ;; Highlights class being declared, in parts
1460 (js--class-decl-matcher
1461 ,(concat "\\(" js--name-re "\\)\\(?:\\.\\|.*$\\)")
1462 (goto-char (match-beginning 1))
1464 (1 font-lock-type-face))
1466 ;; Highlights parent class, in parts, if available
1467 (js--class-decl-matcher
1468 ,(concat "\\(" js--name-re "\\)\\(?:\\.\\|.*$\\)")
1469 (if (match-beginning 2)
1470 (progn
1471 (setq js--tmp-location (match-end 2))
1472 (goto-char js--tmp-location)
1473 (insert "=")
1474 (goto-char (match-beginning 2)))
1475 (setq js--tmp-location nil)
1476 (goto-char (point-at-eol)))
1477 (when js--tmp-location
1478 (save-excursion
1479 (goto-char js--tmp-location)
1480 (delete-char 1)))
1481 (1 font-lock-type-face))
1483 ;; Highlights parent class
1484 (js--class-decl-matcher
1485 (2 font-lock-type-face nil t))
1487 ;; Dojo needs its own matcher to override the string highlighting
1488 (,(js--make-framework-matcher
1489 'dojo
1490 "^\\s-*dojo\\.declare\\s-*(\""
1491 "\\(" js--dotted-name-re "\\)"
1492 "\\(?:\"\\s-*,\\s-*\\(" js--dotted-name-re "\\)\\)?")
1493 (1 font-lock-type-face t)
1494 (2 font-lock-type-face nil t))
1496 ;; Match Dojo base classes. Of course Mojo has to be different
1497 ;; from everything else under the sun...
1498 (,(js--make-framework-matcher
1499 'dojo
1500 "^\\s-*dojo\\.declare\\s-*(\""
1501 "\\(" js--dotted-name-re "\\)\"\\s-*,\\s-*\\[")
1502 ,(concat "[[,]\\s-*\\(" js--dotted-name-re "\\)\\s-*"
1503 "\\(?:\\].*$\\)?")
1504 (backward-char)
1505 (end-of-line)
1506 (1 font-lock-type-face))
1508 ;; continued Dojo base-class list
1509 (,(js--make-framework-matcher
1510 'dojo
1511 "^\\s-*" js--dotted-name-re "\\s-*[],]")
1512 ,(concat "\\(" js--dotted-name-re "\\)"
1513 "\\s-*\\(?:\\].*$\\)?")
1514 (if (save-excursion (backward-char)
1515 (js--inside-dojo-class-list-p))
1516 (forward-symbol -1)
1517 (end-of-line))
1518 (end-of-line)
1519 (1 font-lock-type-face))
1521 ;; variable declarations
1522 ,(list
1523 (concat "\\_<\\(const\\|var\\|let\\)\\_>\\|" js--basic-type-re)
1524 (list #'js--variable-decl-matcher nil nil nil))
1526 ;; class instantiation
1527 ,(list
1528 (concat "\\_<new\\_>\\s-+\\(" js--dotted-name-re "\\)")
1529 (list 1 'font-lock-type-face))
1531 ;; instanceof
1532 ,(list
1533 (concat "\\_<instanceof\\_>\\s-+\\(" js--dotted-name-re "\\)")
1534 (list 1 'font-lock-type-face))
1536 ;; formal parameters
1537 ,(list
1538 (concat
1539 "\\_<function\\_>\\(\\s-+" js--name-re "\\)?\\s-*(\\s-*"
1540 js--name-start-re)
1541 (list (concat "\\(" js--name-re "\\)\\(\\s-*).*\\)?")
1542 '(backward-char)
1543 '(end-of-line)
1544 '(1 font-lock-variable-name-face)))
1546 ;; continued formal parameter list
1547 ,(list
1548 (concat
1549 "^\\s-*" js--name-re "\\s-*[,)]")
1550 (list js--name-re
1551 '(if (save-excursion (backward-char)
1552 (js--inside-param-list-p))
1553 (forward-symbol -1)
1554 (end-of-line))
1555 '(end-of-line)
1556 '(0 font-lock-variable-name-face))))
1557 "Level three font lock for `js-mode'.")
1559 (defun js--inside-pitem-p (pitem)
1560 "Return whether point is inside the given pitem's header or body."
1561 (js--ensure-cache)
1562 (cl-assert (js--pitem-h-begin pitem))
1563 (cl-assert (js--pitem-paren-depth pitem))
1565 (and (> (point) (js--pitem-h-begin pitem))
1566 (or (null (js--pitem-b-end pitem))
1567 (> (js--pitem-b-end pitem) (point)))))
1569 (defun js--parse-state-at-point ()
1570 "Parse the JavaScript program state at point.
1571 Return a list of `js--pitem' instances that apply to point, most
1572 specific first. In the worst case, the current toplevel instance
1573 will be returned."
1574 (save-excursion
1575 (save-restriction
1576 (widen)
1577 (js--ensure-cache)
1578 (let ((pstate (or (save-excursion
1579 (js--backward-pstate))
1580 (list js--initial-pitem))))
1582 ;; Loop until we either hit a pitem at BOB or pitem ends after
1583 ;; point (or at point if we're at eob)
1584 (cl-loop for pitem = (car pstate)
1585 until (or (eq (js--pitem-type pitem)
1586 'toplevel)
1587 (js--inside-pitem-p pitem))
1588 do (pop pstate))
1590 pstate))))
1592 (defun js--syntactic-context-from-pstate (pstate)
1593 "Return the JavaScript syntactic context corresponding to PSTATE."
1594 (let ((type (js--pitem-type (car pstate))))
1595 (cond ((memq type '(function macro))
1596 type)
1597 ((consp type)
1598 'class)
1599 (t 'toplevel))))
1601 (defun js-syntactic-context ()
1602 "Return the JavaScript syntactic context at point.
1603 When called interactively, also display a message with that
1604 context."
1605 (interactive)
1606 (let* ((syntactic-context (js--syntactic-context-from-pstate
1607 (js--parse-state-at-point))))
1609 (when (called-interactively-p 'interactive)
1610 (message "Syntactic context: %s" syntactic-context))
1612 syntactic-context))
1614 (defun js--class-decl-matcher (limit)
1615 "Font lock function used by `js-mode'.
1616 This performs fontification according to `js--class-styles'."
1617 (cl-loop initially (js--ensure-cache limit)
1618 while (re-search-forward js--quick-match-re limit t)
1619 for orig-end = (match-end 0)
1620 do (goto-char (match-beginning 0))
1621 if (cl-loop for style in js--class-styles
1622 for decl-re = (plist-get style :class-decl)
1623 if (and (memq (plist-get style :framework)
1624 js-enabled-frameworks)
1625 (memq (js-syntactic-context)
1626 (plist-get style :contexts))
1627 decl-re
1628 (looking-at decl-re))
1629 do (goto-char (match-end 0))
1630 and return t)
1631 return t
1632 else do (goto-char orig-end)))
1634 (defconst js--font-lock-keywords
1635 '(js--font-lock-keywords-3 js--font-lock-keywords-1
1636 js--font-lock-keywords-2
1637 js--font-lock-keywords-3)
1638 "Font lock keywords for `js-mode'. See `font-lock-keywords'.")
1640 (defun js-syntax-propertize-regexp (end)
1641 (when (eq (nth 3 (syntax-ppss)) ?/)
1642 ;; A /.../ regexp.
1643 (when (re-search-forward "\\(?:\\=\\|[^\\]\\)\\(?:\\\\\\\\\\)*/" end 'move)
1644 (put-text-property (1- (point)) (point)
1645 'syntax-table (string-to-syntax "\"/")))))
1647 (defun js-syntax-propertize (start end)
1648 ;; Javascript allows immediate regular expression objects, written /.../.
1649 (goto-char start)
1650 (js-syntax-propertize-regexp end)
1651 (funcall
1652 (syntax-propertize-rules
1653 ;; Distinguish /-division from /-regexp chars (and from /-comment-starter).
1654 ;; FIXME: Allow regexps after infix ops like + ...
1655 ;; https://developer.mozilla.org/en/JavaScript/Reference/Operators
1656 ;; We can probably just add +, -, !, <, >, %, ^, ~, |, &, ?, : at which
1657 ;; point I think only * and / would be missing which could also be added,
1658 ;; but need care to avoid affecting the // and */ comment markers.
1659 ("\\(?:^\\|[=([{,:;]\\)\\(?:[ \t]\\)*\\(/\\)[^/*]"
1660 (1 (ignore
1661 (forward-char -1)
1662 (when (or (not (memq (char-after (match-beginning 0)) '(?\s ?\t)))
1663 ;; If the / is at the beginning of line, we have to check
1664 ;; the end of the previous text.
1665 (save-excursion
1666 (goto-char (match-beginning 0))
1667 (forward-comment (- (point)))
1668 (memq (char-before)
1669 (eval-when-compile (append "=({[,:;" '(nil))))))
1670 (put-text-property (match-beginning 1) (match-end 1)
1671 'syntax-table (string-to-syntax "\"/"))
1672 (js-syntax-propertize-regexp end))))))
1673 (point) end))
1675 ;;; Indentation
1677 (defconst js--possibly-braceless-keyword-re
1678 (js--regexp-opt-symbol
1679 '("catch" "do" "else" "finally" "for" "if" "try" "while" "with"
1680 "each"))
1681 "Regexp matching keywords optionally followed by an opening brace.")
1683 (defconst js--declaration-keyword-re
1684 (regexp-opt '("var" "let" "const") 'words)
1685 "Regular expression matching variable declaration keywords.")
1687 (defconst js--indent-operator-re
1688 (concat "[-+*/%<>=&^|?:.]\\([^-+*/]\\|$\\)\\|"
1689 (js--regexp-opt-symbol '("in" "instanceof")))
1690 "Regexp matching operators that affect indentation of continued expressions.")
1692 (defun js--looking-at-operator-p ()
1693 "Return non-nil if point is on a JavaScript operator, other than a comma."
1694 (save-match-data
1695 (and (looking-at js--indent-operator-re)
1696 (or (not (looking-at ":"))
1697 (save-excursion
1698 (and (js--re-search-backward "[?:{]\\|\\_<case\\_>" nil t)
1699 (looking-at "?")))))))
1702 (defun js--continued-expression-p ()
1703 "Return non-nil if the current line continues an expression."
1704 (save-excursion
1705 (back-to-indentation)
1706 (or (js--looking-at-operator-p)
1707 (and (js--re-search-backward "\n" nil t)
1708 (progn
1709 (skip-chars-backward " \t")
1710 (or (bobp) (backward-char))
1711 (and (> (point) (point-min))
1712 (save-excursion (backward-char) (not (looking-at "[/*]/")))
1713 (js--looking-at-operator-p)
1714 (and (progn (backward-char)
1715 (not (looking-at "++\\|--\\|/[/*]"))))))))))
1718 (defun js--end-of-do-while-loop-p ()
1719 "Return non-nil if point is on the \"while\" of a do-while statement.
1720 Otherwise, return nil. A braceless do-while statement spanning
1721 several lines requires that the start of the loop is indented to
1722 the same column as the current line."
1723 (interactive)
1724 (save-excursion
1725 (save-match-data
1726 (when (looking-at "\\s-*\\_<while\\_>")
1727 (if (save-excursion
1728 (skip-chars-backward "[ \t\n]*}")
1729 (looking-at "[ \t\n]*}"))
1730 (save-excursion
1731 (backward-list) (forward-symbol -1) (looking-at "\\_<do\\_>"))
1732 (js--re-search-backward "\\_<do\\_>" (point-at-bol) t)
1733 (or (looking-at "\\_<do\\_>")
1734 (let ((saved-indent (current-indentation)))
1735 (while (and (js--re-search-backward "^\\s-*\\_<" nil t)
1736 (/= (current-indentation) saved-indent)))
1737 (and (looking-at "\\s-*\\_<do\\_>")
1738 (not (js--re-search-forward
1739 "\\_<while\\_>" (point-at-eol) t))
1740 (= (current-indentation) saved-indent)))))))))
1743 (defun js--ctrl-statement-indentation ()
1744 "Helper function for `js--proper-indentation'.
1745 Return the proper indentation of the current line if it starts
1746 the body of a control statement without braces; otherwise, return
1747 nil."
1748 (save-excursion
1749 (back-to-indentation)
1750 (when (save-excursion
1751 (and (not (eq (point-at-bol) (point-min)))
1752 (not (looking-at "[{]"))
1753 (js--re-search-backward "[[:graph:]]" nil t)
1754 (progn
1755 (or (eobp) (forward-char))
1756 (when (= (char-before) ?\)) (backward-list))
1757 (skip-syntax-backward " ")
1758 (skip-syntax-backward "w_")
1759 (looking-at js--possibly-braceless-keyword-re))
1760 (not (js--end-of-do-while-loop-p))))
1761 (save-excursion
1762 (goto-char (match-beginning 0))
1763 (+ (current-indentation) js-indent-level)))))
1765 (defun js--get-c-offset (symbol anchor)
1766 (let ((c-offsets-alist
1767 (list (cons 'c js-comment-lineup-func))))
1768 (c-get-syntactic-indentation (list (cons symbol anchor)))))
1770 (defun js--same-line (pos)
1771 (and (>= pos (point-at-bol))
1772 (<= pos (point-at-eol))))
1774 (defun js--multi-line-declaration-indentation ()
1775 "Helper function for `js--proper-indentation'.
1776 Return the proper indentation of the current line if it belongs to a declaration
1777 statement spanning multiple lines; otherwise, return nil."
1778 (let (at-opening-bracket)
1779 (save-excursion
1780 (back-to-indentation)
1781 (when (not (looking-at js--declaration-keyword-re))
1782 (when (looking-at js--indent-operator-re)
1783 (goto-char (match-end 0)))
1784 (while (and (not at-opening-bracket)
1785 (not (bobp))
1786 (let ((pos (point)))
1787 (save-excursion
1788 (js--backward-syntactic-ws)
1789 (or (eq (char-before) ?,)
1790 (and (not (eq (char-before) ?\;))
1791 (prog2
1792 (skip-syntax-backward ".")
1793 (looking-at js--indent-operator-re)
1794 (js--backward-syntactic-ws))
1795 (not (eq (char-before) ?\;)))
1796 (js--same-line pos)))))
1797 (condition-case nil
1798 (backward-sexp)
1799 (scan-error (setq at-opening-bracket t))))
1800 (when (looking-at js--declaration-keyword-re)
1801 (goto-char (match-end 0))
1802 (1+ (current-column)))))))
1804 (defun js--indent-in-array-comp (bracket)
1805 "Return non-nil if we think we're in an array comprehension.
1806 In particular, return the buffer position of the first `for' kwd."
1807 (let ((end (point)))
1808 (save-excursion
1809 (goto-char bracket)
1810 (when (looking-at "\\[")
1811 (forward-char 1)
1812 (js--forward-syntactic-ws)
1813 (if (looking-at "[[{]")
1814 (let (forward-sexp-function) ; Use Lisp version.
1815 (forward-sexp) ; Skip destructuring form.
1816 (js--forward-syntactic-ws)
1817 (if (and (/= (char-after) ?,) ; Regular array.
1818 (looking-at "for"))
1819 (match-beginning 0)))
1820 ;; To skip arbitrary expressions we need the parser,
1821 ;; so we'll just guess at it.
1822 (if (and (> end (point)) ; Not empty literal.
1823 (re-search-forward "[^,]]* \\(for\\) " end t)
1824 ;; Not inside comment or string literal.
1825 (not (nth 8 (parse-partial-sexp bracket (point)))))
1826 (match-beginning 1)))))))
1828 (defun js--array-comp-indentation (bracket for-kwd)
1829 (if (js--same-line for-kwd)
1830 ;; First continuation line.
1831 (save-excursion
1832 (goto-char bracket)
1833 (forward-char 1)
1834 (skip-chars-forward " \t")
1835 (current-column))
1836 (save-excursion
1837 (goto-char for-kwd)
1838 (current-column))))
1840 (defun js--proper-indentation (parse-status)
1841 "Return the proper indentation for the current line."
1842 (save-excursion
1843 (back-to-indentation)
1844 (cond ((nth 4 parse-status) ; inside comment
1845 (js--get-c-offset 'c (nth 8 parse-status)))
1846 ((nth 3 parse-status) 0) ; inside string
1847 ((eq (char-after) ?#) 0)
1848 ((save-excursion (js--beginning-of-macro)) 4)
1849 ;; Indent array comprehension continuation lines specially.
1850 ((let ((bracket (nth 1 parse-status))
1851 beg)
1852 (and bracket
1853 (not (js--same-line bracket))
1854 (setq beg (js--indent-in-array-comp bracket))
1855 ;; At or after the first loop?
1856 (>= (point) beg)
1857 (js--array-comp-indentation bracket beg))))
1858 ((js--ctrl-statement-indentation))
1859 ((js--multi-line-declaration-indentation))
1860 ((nth 1 parse-status)
1861 ;; A single closing paren/bracket should be indented at the
1862 ;; same level as the opening statement. Same goes for
1863 ;; "case" and "default".
1864 (let ((same-indent-p (looking-at "[]})]"))
1865 (switch-keyword-p (looking-at "default\\_>\\|case\\_>[^:]"))
1866 (continued-expr-p (js--continued-expression-p)))
1867 (goto-char (nth 1 parse-status)) ; go to the opening char
1868 (if (looking-at "[({[]\\s-*\\(/[/*]\\|$\\)")
1869 (progn ; nothing following the opening paren/bracket
1870 (skip-syntax-backward " ")
1871 (when (eq (char-before) ?\)) (backward-list))
1872 (back-to-indentation)
1873 (let* ((in-switch-p (unless same-indent-p
1874 (looking-at "\\_<switch\\_>")))
1875 (same-indent-p (or same-indent-p
1876 (and switch-keyword-p
1877 in-switch-p)))
1878 (indent
1879 (cond (same-indent-p
1880 (current-column))
1881 (continued-expr-p
1882 (+ (current-column) (* 2 js-indent-level)
1883 js-expr-indent-offset))
1885 (+ (current-column) js-indent-level
1886 (pcase (char-after (nth 1 parse-status))
1887 (?\( js-paren-indent-offset)
1888 (?\[ js-square-indent-offset)
1889 (?\{ js-curly-indent-offset)))))))
1890 (if in-switch-p
1891 (+ indent js-switch-indent-offset)
1892 indent)))
1893 ;; If there is something following the opening
1894 ;; paren/bracket, everything else should be indented at
1895 ;; the same level.
1896 (unless same-indent-p
1897 (forward-char)
1898 (skip-chars-forward " \t"))
1899 (current-column))))
1901 ((js--continued-expression-p)
1902 (+ js-indent-level js-expr-indent-offset))
1903 (t 0))))
1905 (defun js-indent-line ()
1906 "Indent the current line as JavaScript."
1907 (interactive)
1908 (let* ((parse-status
1909 (save-excursion (syntax-ppss (point-at-bol))))
1910 (offset (- (current-column) (current-indentation))))
1911 (indent-line-to (js--proper-indentation parse-status))
1912 (when (> offset 0) (forward-char offset))))
1914 ;;; Filling
1916 (defvar js--filling-paragraph nil)
1918 ;; FIXME: Such redefinitions are bad style. We should try and use some other
1919 ;; way to get the same result.
1920 (defadvice c-forward-sws (around js-fill-paragraph activate)
1921 (if js--filling-paragraph
1922 (setq ad-return-value (js--forward-syntactic-ws (ad-get-arg 0)))
1923 ad-do-it))
1925 (defadvice c-backward-sws (around js-fill-paragraph activate)
1926 (if js--filling-paragraph
1927 (setq ad-return-value (js--backward-syntactic-ws (ad-get-arg 0)))
1928 ad-do-it))
1930 (defadvice c-beginning-of-macro (around js-fill-paragraph activate)
1931 (if js--filling-paragraph
1932 (setq ad-return-value (js--beginning-of-macro (ad-get-arg 0)))
1933 ad-do-it))
1935 (defun js-c-fill-paragraph (&optional justify)
1936 "Fill the paragraph with `c-fill-paragraph'."
1937 (interactive "*P")
1938 (let ((js--filling-paragraph t)
1939 (fill-paragraph-function 'c-fill-paragraph))
1940 (c-fill-paragraph justify)))
1942 ;;; Type database and Imenu
1944 ;; We maintain a cache of semantic information, i.e., the classes and
1945 ;; functions we've encountered so far. In order to avoid having to
1946 ;; re-parse the buffer on every change, we cache the parse state at
1947 ;; each interesting point in the buffer. Each parse state is a
1948 ;; modified copy of the previous one, or in the case of the first
1949 ;; parse state, the empty state.
1951 ;; The parse state itself is just a stack of js--pitem
1952 ;; instances. It starts off containing one element that is never
1953 ;; closed, that is initially js--initial-pitem.
1957 (defun js--pitem-format (pitem)
1958 (let ((name (js--pitem-name pitem))
1959 (type (js--pitem-type pitem)))
1961 (format "name:%S type:%S"
1962 name
1963 (if (atom type)
1964 type
1965 (plist-get type :name)))))
1967 (defun js--make-merged-item (item child name-parts)
1968 "Helper function for `js--splice-into-items'.
1969 Return a new item that is the result of merging CHILD into
1970 ITEM. NAME-PARTS is a list of parts of the name of CHILD
1971 that we haven't consumed yet."
1972 (js--debug "js--make-merged-item: {%s} into {%s}"
1973 (js--pitem-format child)
1974 (js--pitem-format item))
1976 ;; If the item we're merging into isn't a class, make it into one
1977 (unless (consp (js--pitem-type item))
1978 (js--debug "js--make-merged-item: changing dest into class")
1979 (setq item (make-js--pitem
1980 :children (list item)
1982 ;; Use the child's class-style if it's available
1983 :type (if (atom (js--pitem-type child))
1984 js--dummy-class-style
1985 (js--pitem-type child))
1987 :name (js--pitem-strname item))))
1989 ;; Now we can merge either a function or a class into a class
1990 (cons (cond
1991 ((cdr name-parts)
1992 (js--debug "js--make-merged-item: recursing")
1993 ;; if we have more name-parts to go before we get to the
1994 ;; bottom of the class hierarchy, call the merger
1995 ;; recursively
1996 (js--splice-into-items (car item) child
1997 (cdr name-parts)))
1999 ((atom (js--pitem-type child))
2000 (js--debug "js--make-merged-item: straight merge")
2001 ;; Not merging a class, but something else, so just prepend
2002 ;; it
2003 (cons child (car item)))
2006 ;; Otherwise, merge the new child's items into those
2007 ;; of the new class
2008 (js--debug "js--make-merged-item: merging class contents")
2009 (append (car child) (car item))))
2010 (cdr item)))
2012 (defun js--pitem-strname (pitem)
2013 "Last part of the name of PITEM, as a string or symbol."
2014 (let ((name (js--pitem-name pitem)))
2015 (if (consp name)
2016 (car (last name))
2017 name)))
2019 (defun js--splice-into-items (items child name-parts)
2020 "Splice CHILD into the `js--pitem' ITEMS at NAME-PARTS.
2021 If a class doesn't exist in the tree, create it. Return
2022 the new items list. NAME-PARTS is a list of strings given
2023 the broken-down class name of the item to insert."
2025 (let ((top-name (car name-parts))
2026 (item-ptr items)
2027 new-items last-new-item new-cons)
2029 (js--debug "js--splice-into-items: name-parts: %S items:%S"
2030 name-parts
2031 (mapcar #'js--pitem-name items))
2033 (cl-assert (stringp top-name))
2034 (cl-assert (> (length top-name) 0))
2036 ;; If top-name isn't found in items, then we build a copy of items
2037 ;; and throw it away. But that's okay, since most of the time, we
2038 ;; *will* find an instance.
2040 (while (and item-ptr
2041 (cond ((equal (js--pitem-strname (car item-ptr)) top-name)
2042 ;; Okay, we found an entry with the right name. Splice
2043 ;; the merged item into the list...
2044 (setq new-cons (cons (js--make-merged-item
2045 (car item-ptr) child
2046 name-parts)
2047 (cdr item-ptr)))
2049 (if last-new-item
2050 (setcdr last-new-item new-cons)
2051 (setq new-items new-cons))
2053 ;; ...and terminate the loop
2054 nil)
2057 ;; Otherwise, copy the current cons and move onto the
2058 ;; text. This is tricky; we keep track of the tail of
2059 ;; the list that begins with new-items in
2060 ;; last-new-item.
2061 (setq new-cons (cons (car item-ptr) nil))
2062 (if last-new-item
2063 (setcdr last-new-item new-cons)
2064 (setq new-items new-cons))
2065 (setq last-new-item new-cons)
2067 ;; Go to the next cell in items
2068 (setq item-ptr (cdr item-ptr))))))
2070 (if item-ptr
2071 ;; Yay! We stopped because we found something, not because
2072 ;; we ran out of items to search. Just return the new
2073 ;; list.
2074 (progn
2075 (js--debug "search succeeded: %S" name-parts)
2076 new-items)
2078 ;; We didn't find anything. If the child is a class and we don't
2079 ;; have any classes to drill down into, just push that class;
2080 ;; otherwise, make a fake class and carry on.
2081 (js--debug "search failed: %S" name-parts)
2082 (cons (if (cdr name-parts)
2083 ;; We have name-parts left to process. Make a fake
2084 ;; class for this particular part...
2085 (make-js--pitem
2086 ;; ...and recursively digest the rest of the name
2087 :children (js--splice-into-items
2088 nil child (cdr name-parts))
2089 :type js--dummy-class-style
2090 :name top-name)
2092 ;; Otherwise, this is the only name we have, so stick
2093 ;; the item on the front of the list
2094 child)
2095 items))))
2097 (defun js--pitem-add-child (pitem child)
2098 "Copy `js--pitem' PITEM, and push CHILD onto its list of children."
2099 (cl-assert (integerp (js--pitem-h-begin child)))
2100 (cl-assert (if (consp (js--pitem-name child))
2101 (cl-loop for part in (js--pitem-name child)
2102 always (stringp part))
2105 ;; This trick works because we know (based on our defstructs) that
2106 ;; the child list is always the first element, and so the second
2107 ;; element and beyond can be shared when we make our "copy".
2108 (cons
2110 (let ((name (js--pitem-name child))
2111 (type (js--pitem-type child)))
2113 (cond ((cdr-safe name) ; true if a list of at least two elements
2114 ;; Use slow path because we need class lookup
2115 (js--splice-into-items (car pitem) child name))
2117 ((and (consp type)
2118 (plist-get type :prototype))
2120 ;; Use slow path because we need class merging. We know
2121 ;; name is a list here because down in
2122 ;; `js--ensure-cache', we made sure to only add
2123 ;; class entries with lists for :name
2124 (cl-assert (consp name))
2125 (js--splice-into-items (car pitem) child name))
2128 ;; Fast path
2129 (cons child (car pitem)))))
2131 (cdr pitem)))
2133 (defun js--maybe-make-marker (location)
2134 "Return a marker for LOCATION if `imenu-use-markers' is non-nil."
2135 (if imenu-use-markers
2136 (set-marker (make-marker) location)
2137 location))
2139 (defun js--pitems-to-imenu (pitems unknown-ctr)
2140 "Convert PITEMS, a list of `js--pitem' structures, to imenu format."
2142 (let (imenu-items pitem pitem-type pitem-name subitems)
2144 (while (setq pitem (pop pitems))
2145 (setq pitem-type (js--pitem-type pitem))
2146 (setq pitem-name (js--pitem-strname pitem))
2147 (when (eq pitem-name t)
2148 (setq pitem-name (format "[unknown %s]"
2149 (cl-incf (car unknown-ctr)))))
2151 (cond
2152 ((memq pitem-type '(function macro))
2153 (cl-assert (integerp (js--pitem-h-begin pitem)))
2154 (push (cons pitem-name
2155 (js--maybe-make-marker
2156 (js--pitem-h-begin pitem)))
2157 imenu-items))
2159 ((consp pitem-type) ; class definition
2160 (setq subitems (js--pitems-to-imenu
2161 (js--pitem-children pitem)
2162 unknown-ctr))
2163 (cond (subitems
2164 (push (cons pitem-name subitems)
2165 imenu-items))
2167 ((js--pitem-h-begin pitem)
2168 (cl-assert (integerp (js--pitem-h-begin pitem)))
2169 (setq subitems (list
2170 (cons "[empty]"
2171 (js--maybe-make-marker
2172 (js--pitem-h-begin pitem)))))
2173 (push (cons pitem-name subitems)
2174 imenu-items))))
2176 (t (error "Unknown item type: %S" pitem-type))))
2178 imenu-items))
2180 (defun js--imenu-create-index ()
2181 "Return an imenu index for the current buffer."
2182 (save-excursion
2183 (save-restriction
2184 (widen)
2185 (goto-char (point-max))
2186 (js--ensure-cache)
2187 (cl-assert (or (= (point-min) (point-max))
2188 (eq js--last-parse-pos (point))))
2189 (when js--last-parse-pos
2190 (let ((state js--state-at-last-parse-pos)
2191 (unknown-ctr (cons -1 nil)))
2193 ;; Make sure everything is closed
2194 (while (cdr state)
2195 (setq state
2196 (cons (js--pitem-add-child (cl-second state) (car state))
2197 (cddr state))))
2199 (cl-assert (= (length state) 1))
2201 ;; Convert the new-finalized state into what imenu expects
2202 (js--pitems-to-imenu
2203 (car (js--pitem-children state))
2204 unknown-ctr))))))
2206 ;; Silence the compiler.
2207 (defvar which-func-imenu-joiner-function)
2209 (defun js--which-func-joiner (parts)
2210 (mapconcat #'identity parts "."))
2212 (defun js--imenu-to-flat (items prefix symbols)
2213 (cl-loop for item in items
2214 if (imenu--subalist-p item)
2215 do (js--imenu-to-flat
2216 (cdr item) (concat prefix (car item) ".")
2217 symbols)
2218 else
2219 do (let* ((name (concat prefix (car item)))
2220 (name2 name)
2221 (ctr 0))
2223 (while (gethash name2 symbols)
2224 (setq name2 (format "%s<%d>" name (cl-incf ctr))))
2226 (puthash name2 (cdr item) symbols))))
2228 (defun js--get-all-known-symbols ()
2229 "Return a hash table of all JavaScript symbols.
2230 This searches all existing `js-mode' buffers. Each key is the
2231 name of a symbol (possibly disambiguated with <N>, where N > 1),
2232 and each value is a marker giving the location of that symbol."
2233 (cl-loop with symbols = (make-hash-table :test 'equal)
2234 with imenu-use-markers = t
2235 for buffer being the buffers
2236 for imenu-index = (with-current-buffer buffer
2237 (when (derived-mode-p 'js-mode)
2238 (js--imenu-create-index)))
2239 do (js--imenu-to-flat imenu-index "" symbols)
2240 finally return symbols))
2242 (defvar js--symbol-history nil
2243 "History of entered JavaScript symbols.")
2245 (defun js--read-symbol (symbols-table prompt &optional initial-input)
2246 "Helper function for `js-find-symbol'.
2247 Read a symbol from SYMBOLS-TABLE, which is a hash table like the
2248 one from `js--get-all-known-symbols', using prompt PROMPT and
2249 initial input INITIAL-INPUT. Return a cons of (SYMBOL-NAME
2250 . LOCATION), where SYMBOL-NAME is a string and LOCATION is a
2251 marker."
2252 (unless ido-mode
2253 (ido-mode 1)
2254 (ido-mode -1))
2256 (let ((choice (ido-completing-read
2257 prompt
2258 (cl-loop for key being the hash-keys of symbols-table
2259 collect key)
2260 nil t initial-input 'js--symbol-history)))
2261 (cons choice (gethash choice symbols-table))))
2263 (defun js--guess-symbol-at-point ()
2264 (let ((bounds (bounds-of-thing-at-point 'symbol)))
2265 (when bounds
2266 (save-excursion
2267 (goto-char (car bounds))
2268 (when (eq (char-before) ?.)
2269 (backward-char)
2270 (setf (car bounds) (point))))
2271 (buffer-substring (car bounds) (cdr bounds)))))
2273 (defvar find-tag-marker-ring) ; etags
2275 ;; etags loads ring.
2276 (declare-function ring-insert "ring" (ring item))
2278 (defun js-find-symbol (&optional arg)
2279 "Read a JavaScript symbol and jump to it.
2280 With a prefix argument, restrict symbols to those from the
2281 current buffer. Pushes a mark onto the tag ring just like
2282 `find-tag'."
2283 (interactive "P")
2284 (require 'etags)
2285 (let (symbols marker)
2286 (if (not arg)
2287 (setq symbols (js--get-all-known-symbols))
2288 (setq symbols (make-hash-table :test 'equal))
2289 (js--imenu-to-flat (js--imenu-create-index)
2290 "" symbols))
2292 (setq marker (cdr (js--read-symbol
2293 symbols "Jump to: "
2294 (js--guess-symbol-at-point))))
2296 (ring-insert find-tag-marker-ring (point-marker))
2297 (switch-to-buffer (marker-buffer marker))
2298 (push-mark)
2299 (goto-char marker)))
2301 ;;; MozRepl integration
2303 (define-error 'js-moz-bad-rpc "Mozilla RPC Error") ;; '(timeout error))
2304 (define-error 'js-js-error "Javascript Error") ;; '(js-error error))
2306 (defun js--wait-for-matching-output
2307 (process regexp timeout &optional start)
2308 "Wait TIMEOUT seconds for PROCESS to output a match for REGEXP.
2309 On timeout, return nil. On success, return t with match data
2310 set. If START is non-nil, look for output starting from START.
2311 Otherwise, use the current value of `process-mark'."
2312 (with-current-buffer (process-buffer process)
2313 (cl-loop with start-pos = (or start
2314 (marker-position (process-mark process)))
2315 with end-time = (+ (float-time) timeout)
2316 for time-left = (- end-time (float-time))
2317 do (goto-char (point-max))
2318 if (looking-back regexp start-pos) return t
2319 while (> time-left 0)
2320 do (accept-process-output process time-left nil t)
2321 do (goto-char (process-mark process))
2322 finally do (signal
2323 'js-moz-bad-rpc
2324 (list (format "Timed out waiting for output matching %S" regexp))))))
2326 (cl-defstruct js--js-handle
2327 ;; Integer, mirrors the value we see in JS
2328 (id nil :read-only t)
2330 ;; Process to which this thing belongs
2331 (process nil :read-only t))
2333 (defun js--js-handle-expired-p (x)
2334 (not (eq (js--js-handle-process x)
2335 (inferior-moz-process))))
2337 (defvar js--js-references nil
2338 "Maps Elisp JavaScript proxy objects to their JavaScript IDs.")
2340 (defvar js--js-process nil
2341 "The most recent MozRepl process object.")
2343 (defvar js--js-gc-idle-timer nil
2344 "Idle timer for cleaning up JS object references.")
2346 (defvar js--js-last-gcs-done nil)
2348 (defconst js--moz-interactor
2349 (replace-regexp-in-string
2350 "[ \n]+" " "
2351 ; */" Make Emacs happy
2352 "(function(repl) {
2353 repl.defineInteractor('js', {
2354 onStart: function onStart(repl) {
2355 if(!repl._jsObjects) {
2356 repl._jsObjects = {};
2357 repl._jsLastID = 0;
2358 repl._jsGC = this._jsGC;
2360 this._input = '';
2363 _jsGC: function _jsGC(ids_in_use) {
2364 var objects = this._jsObjects;
2365 var keys = [];
2366 var num_freed = 0;
2368 for(var pn in objects) {
2369 keys.push(Number(pn));
2372 keys.sort(function(x, y) x - y);
2373 ids_in_use.sort(function(x, y) x - y);
2374 var i = 0;
2375 var j = 0;
2377 while(i < ids_in_use.length && j < keys.length) {
2378 var id = ids_in_use[i++];
2379 while(j < keys.length && keys[j] !== id) {
2380 var k_id = keys[j++];
2381 delete objects[k_id];
2382 ++num_freed;
2384 ++j;
2387 while(j < keys.length) {
2388 var k_id = keys[j++];
2389 delete objects[k_id];
2390 ++num_freed;
2393 return num_freed;
2396 _mkArray: function _mkArray() {
2397 var result = [];
2398 for(var i = 0; i < arguments.length; ++i) {
2399 result.push(arguments[i]);
2401 return result;
2404 _parsePropDescriptor: function _parsePropDescriptor(parts) {
2405 if(typeof parts === 'string') {
2406 parts = [ parts ];
2409 var obj = parts[0];
2410 var start = 1;
2412 if(typeof obj === 'string') {
2413 obj = window;
2414 start = 0;
2415 } else if(parts.length < 2) {
2416 throw new Error('expected at least 2 arguments');
2419 for(var i = start; i < parts.length - 1; ++i) {
2420 obj = obj[parts[i]];
2423 return [obj, parts[parts.length - 1]];
2426 _getProp: function _getProp(/*...*/) {
2427 if(arguments.length === 0) {
2428 throw new Error('no arguments supplied to getprop');
2431 if(arguments.length === 1 &&
2432 (typeof arguments[0]) !== 'string')
2434 return arguments[0];
2437 var [obj, propname] = this._parsePropDescriptor(arguments);
2438 return obj[propname];
2441 _putProp: function _putProp(properties, value) {
2442 var [obj, propname] = this._parsePropDescriptor(properties);
2443 obj[propname] = value;
2446 _delProp: function _delProp(propname) {
2447 var [obj, propname] = this._parsePropDescriptor(arguments);
2448 delete obj[propname];
2451 _typeOf: function _typeOf(thing) {
2452 return typeof thing;
2455 _callNew: function(constructor) {
2456 if(typeof constructor === 'string')
2458 constructor = window[constructor];
2459 } else if(constructor.length === 1 &&
2460 typeof constructor[0] !== 'string')
2462 constructor = constructor[0];
2463 } else {
2464 var [obj,propname] = this._parsePropDescriptor(constructor);
2465 constructor = obj[propname];
2468 /* Hacky, but should be robust */
2469 var s = 'new constructor(';
2470 for(var i = 1; i < arguments.length; ++i) {
2471 if(i != 1) {
2472 s += ',';
2475 s += 'arguments[' + i + ']';
2478 s += ')';
2479 return eval(s);
2482 _callEval: function(thisobj, js) {
2483 return eval.call(thisobj, js);
2486 getPrompt: function getPrompt(repl) {
2487 return 'EVAL>'
2490 _lookupObject: function _lookupObject(repl, id) {
2491 if(typeof id === 'string') {
2492 switch(id) {
2493 case 'global':
2494 return window;
2495 case 'nil':
2496 return null;
2497 case 't':
2498 return true;
2499 case 'false':
2500 return false;
2501 case 'undefined':
2502 return undefined;
2503 case 'repl':
2504 return repl;
2505 case 'interactor':
2506 return this;
2507 case 'NaN':
2508 return NaN;
2509 case 'Infinity':
2510 return Infinity;
2511 case '-Infinity':
2512 return -Infinity;
2513 default:
2514 throw new Error('No object with special id:' + id);
2518 var ret = repl._jsObjects[id];
2519 if(ret === undefined) {
2520 throw new Error('No object with id:' + id + '(' + typeof id + ')');
2522 return ret;
2525 _findOrAllocateObject: function _findOrAllocateObject(repl, value) {
2526 if(typeof value !== 'object' && typeof value !== 'function') {
2527 throw new Error('_findOrAllocateObject called on non-object('
2528 + typeof(value) + '): '
2529 + value)
2532 for(var id in repl._jsObjects) {
2533 id = Number(id);
2534 var obj = repl._jsObjects[id];
2535 if(obj === value) {
2536 return id;
2540 var id = ++repl._jsLastID;
2541 repl._jsObjects[id] = value;
2542 return id;
2545 _fixupList: function _fixupList(repl, list) {
2546 for(var i = 0; i < list.length; ++i) {
2547 if(list[i] instanceof Array) {
2548 this._fixupList(repl, list[i]);
2549 } else if(typeof list[i] === 'object') {
2550 var obj = list[i];
2551 if(obj.funcall) {
2552 var parts = obj.funcall;
2553 this._fixupList(repl, parts);
2554 var [thisobj, func] = this._parseFunc(parts[0]);
2555 list[i] = func.apply(thisobj, parts.slice(1));
2556 } else if(obj.objid) {
2557 list[i] = this._lookupObject(repl, obj.objid);
2558 } else {
2559 throw new Error('Unknown object type: ' + obj.toSource());
2565 _parseFunc: function(func) {
2566 var thisobj = null;
2568 if(typeof func === 'string') {
2569 func = window[func];
2570 } else if(func instanceof Array) {
2571 if(func.length === 1 && typeof func[0] !== 'string') {
2572 func = func[0];
2573 } else {
2574 [thisobj, func] = this._parsePropDescriptor(func);
2575 func = thisobj[func];
2579 return [thisobj,func];
2582 _encodeReturn: function(value, array_as_mv) {
2583 var ret;
2585 if(value === null) {
2586 ret = ['special', 'null'];
2587 } else if(value === true) {
2588 ret = ['special', 'true'];
2589 } else if(value === false) {
2590 ret = ['special', 'false'];
2591 } else if(value === undefined) {
2592 ret = ['special', 'undefined'];
2593 } else if(typeof value === 'number') {
2594 if(isNaN(value)) {
2595 ret = ['special', 'NaN'];
2596 } else if(value === Infinity) {
2597 ret = ['special', 'Infinity'];
2598 } else if(value === -Infinity) {
2599 ret = ['special', '-Infinity'];
2600 } else {
2601 ret = ['atom', value];
2603 } else if(typeof value === 'string') {
2604 ret = ['atom', value];
2605 } else if(array_as_mv && value instanceof Array) {
2606 ret = ['array', value.map(this._encodeReturn, this)];
2607 } else {
2608 ret = ['objid', this._findOrAllocateObject(repl, value)];
2611 return ret;
2614 _handleInputLine: function _handleInputLine(repl, line) {
2615 var ret;
2616 var array_as_mv = false;
2618 try {
2619 if(line[0] === '*') {
2620 array_as_mv = true;
2621 line = line.substring(1);
2623 var parts = eval(line);
2624 this._fixupList(repl, parts);
2625 var [thisobj, func] = this._parseFunc(parts[0]);
2626 ret = this._encodeReturn(
2627 func.apply(thisobj, parts.slice(1)),
2628 array_as_mv);
2629 } catch(x) {
2630 ret = ['error', x.toString() ];
2633 var JSON = Components.classes['@mozilla.org/dom/json;1'].createInstance(Components.interfaces.nsIJSON);
2634 repl.print(JSON.encode(ret));
2635 repl._prompt();
2638 handleInput: function handleInput(repl, chunk) {
2639 this._input += chunk;
2640 var match, line;
2641 while(match = this._input.match(/.*\\n/)) {
2642 line = match[0];
2644 if(line === 'EXIT\\n') {
2645 repl.popInteractor();
2646 repl._prompt();
2647 return;
2650 this._input = this._input.substring(line.length);
2651 this._handleInputLine(repl, line);
2658 "String to set MozRepl up into a simple-minded evaluation mode.")
2660 (defun js--js-encode-value (x)
2661 "Marshall the given value for JS.
2662 Strings and numbers are JSON-encoded. Lists (including nil) are
2663 made into JavaScript array literals and their contents encoded
2664 with `js--js-encode-value'."
2665 (cond ((stringp x) (json-encode-string x))
2666 ((numberp x) (json-encode-number x))
2667 ((symbolp x) (format "{objid:%S}" (symbol-name x)))
2668 ((js--js-handle-p x)
2670 (when (js--js-handle-expired-p x)
2671 (error "Stale JS handle"))
2673 (format "{objid:%s}" (js--js-handle-id x)))
2675 ((sequencep x)
2676 (if (eq (car-safe x) 'js--funcall)
2677 (format "{funcall:[%s]}"
2678 (mapconcat #'js--js-encode-value (cdr x) ","))
2679 (concat
2680 "[" (mapconcat #'js--js-encode-value x ",") "]")))
2682 (error "Unrecognized item: %S" x))))
2684 (defconst js--js-prompt-regexp "\\(repl[0-9]*\\)> $")
2685 (defconst js--js-repl-prompt-regexp "^EVAL>$")
2686 (defvar js--js-repl-depth 0)
2688 (defun js--js-wait-for-eval-prompt ()
2689 (js--wait-for-matching-output
2690 (inferior-moz-process)
2691 js--js-repl-prompt-regexp js-js-timeout
2693 ;; start matching against the beginning of the line in
2694 ;; order to catch a prompt that's only partially arrived
2695 (save-excursion (forward-line 0) (point))))
2697 ;; Presumably "inferior-moz-process" loads comint.
2698 (declare-function comint-send-string "comint" (process string))
2699 (declare-function comint-send-input "comint"
2700 (&optional no-newline artificial))
2702 (defun js--js-enter-repl ()
2703 (inferior-moz-process) ; called for side-effect
2704 (with-current-buffer inferior-moz-buffer
2705 (goto-char (point-max))
2707 ;; Do some initialization the first time we see a process
2708 (unless (eq (inferior-moz-process) js--js-process)
2709 (setq js--js-process (inferior-moz-process))
2710 (setq js--js-references (make-hash-table :test 'eq :weakness t))
2711 (setq js--js-repl-depth 0)
2713 ;; Send interactor definition
2714 (comint-send-string js--js-process js--moz-interactor)
2715 (comint-send-string js--js-process
2716 (concat "(" moz-repl-name ")\n"))
2717 (js--wait-for-matching-output
2718 (inferior-moz-process) js--js-prompt-regexp
2719 js-js-timeout))
2721 ;; Sanity check
2722 (when (looking-back js--js-prompt-regexp
2723 (save-excursion (forward-line 0) (point)))
2724 (setq js--js-repl-depth 0))
2726 (if (> js--js-repl-depth 0)
2727 ;; If js--js-repl-depth > 0, we *should* be seeing an
2728 ;; EVAL> prompt. If we don't, give Mozilla a chance to catch
2729 ;; up with us.
2730 (js--js-wait-for-eval-prompt)
2732 ;; Otherwise, tell Mozilla to enter the interactor mode
2733 (insert (match-string-no-properties 1)
2734 ".pushInteractor('js')")
2735 (comint-send-input nil t)
2736 (js--wait-for-matching-output
2737 (inferior-moz-process) js--js-repl-prompt-regexp
2738 js-js-timeout))
2740 (cl-incf js--js-repl-depth)))
2742 (defun js--js-leave-repl ()
2743 (cl-assert (> js--js-repl-depth 0))
2744 (when (= 0 (cl-decf js--js-repl-depth))
2745 (with-current-buffer inferior-moz-buffer
2746 (goto-char (point-max))
2747 (js--js-wait-for-eval-prompt)
2748 (insert "EXIT")
2749 (comint-send-input nil t)
2750 (js--wait-for-matching-output
2751 (inferior-moz-process) js--js-prompt-regexp
2752 js-js-timeout))))
2754 (defsubst js--js-not (value)
2755 (memq value '(nil null false undefined)))
2757 (defsubst js--js-true (value)
2758 (not (js--js-not value)))
2760 ;; The somewhat complex code layout confuses the byte-compiler into
2761 ;; thinking this function "might not be defined at runtime".
2762 (declare-function js--optimize-arglist "js" (arglist))
2764 (eval-and-compile
2765 (defun js--optimize-arglist (arglist)
2766 "Convert immediate js< and js! references to deferred ones."
2767 (cl-loop for item in arglist
2768 if (eq (car-safe item) 'js<)
2769 collect (append (list 'list ''js--funcall
2770 '(list 'interactor "_getProp"))
2771 (js--optimize-arglist (cdr item)))
2772 else if (eq (car-safe item) 'js>)
2773 collect (append (list 'list ''js--funcall
2774 '(list 'interactor "_putProp"))
2776 (if (atom (cadr item))
2777 (list (cadr item))
2778 (list
2779 (append
2780 (list 'list ''js--funcall
2781 '(list 'interactor "_mkArray"))
2782 (js--optimize-arglist (cadr item)))))
2783 (js--optimize-arglist (cddr item)))
2784 else if (eq (car-safe item) 'js!)
2785 collect (pcase-let ((`(,_ ,function . ,body) item))
2786 (append (list 'list ''js--funcall
2787 (if (consp function)
2788 (cons 'list
2789 (js--optimize-arglist function))
2790 function))
2791 (js--optimize-arglist body)))
2792 else
2793 collect item)))
2795 (defmacro js--js-get-service (class-name interface-name)
2796 `(js! ("Components" "classes" ,class-name "getService")
2797 (js< "Components" "interfaces" ,interface-name)))
2799 (defmacro js--js-create-instance (class-name interface-name)
2800 `(js! ("Components" "classes" ,class-name "createInstance")
2801 (js< "Components" "interfaces" ,interface-name)))
2803 (defmacro js--js-qi (object interface-name)
2804 `(js! (,object "QueryInterface")
2805 (js< "Components" "interfaces" ,interface-name)))
2807 (defmacro with-js (&rest forms)
2808 "Run FORMS with the Mozilla repl set up for js commands.
2809 Inside the lexical scope of `with-js', `js?', `js!',
2810 `js-new', `js-eval', `js-list', `js<', `js>', `js-get-service',
2811 `js-create-instance', and `js-qi' are defined."
2813 `(progn
2814 (js--js-enter-repl)
2815 (unwind-protect
2816 (cl-macrolet ((js? (&rest body) `(js--js-true ,@body))
2817 (js! (function &rest body)
2818 `(js--js-funcall
2819 ,(if (consp function)
2820 (cons 'list
2821 (js--optimize-arglist function))
2822 function)
2823 ,@(js--optimize-arglist body)))
2825 (js-new (function &rest body)
2826 `(js--js-new
2827 ,(if (consp function)
2828 (cons 'list
2829 (js--optimize-arglist function))
2830 function)
2831 ,@body))
2833 (js-eval (thisobj js)
2834 `(js--js-eval
2835 ,@(js--optimize-arglist
2836 (list thisobj js))))
2838 (js-list (&rest args)
2839 `(js--js-list
2840 ,@(js--optimize-arglist args)))
2842 (js-get-service (&rest args)
2843 `(js--js-get-service
2844 ,@(js--optimize-arglist args)))
2846 (js-create-instance (&rest args)
2847 `(js--js-create-instance
2848 ,@(js--optimize-arglist args)))
2850 (js-qi (&rest args)
2851 `(js--js-qi
2852 ,@(js--optimize-arglist args)))
2854 (js< (&rest body) `(js--js-get
2855 ,@(js--optimize-arglist body)))
2856 (js> (props value)
2857 `(js--js-funcall
2858 '(interactor "_putProp")
2859 ,(if (consp props)
2860 (cons 'list
2861 (js--optimize-arglist props))
2862 props)
2863 ,@(js--optimize-arglist (list value))
2865 (js-handle? (arg) `(js--js-handle-p ,arg)))
2866 ,@forms)
2867 (js--js-leave-repl))))
2869 (defvar js--js-array-as-list nil
2870 "Whether to listify any Array returned by a Mozilla function.
2871 If nil, the whole Array is treated as a JS symbol.")
2873 (defun js--js-decode-retval (result)
2874 (pcase (intern (cl-first result))
2875 (`atom (cl-second result))
2876 (`special (intern (cl-second result)))
2877 (`array
2878 (mapcar #'js--js-decode-retval (cl-second result)))
2879 (`objid
2880 (or (gethash (cl-second result)
2881 js--js-references)
2882 (puthash (cl-second result)
2883 (make-js--js-handle
2884 :id (cl-second result)
2885 :process (inferior-moz-process))
2886 js--js-references)))
2888 (`error (signal 'js-js-error (list (cl-second result))))
2889 (x (error "Unmatched case in js--js-decode-retval: %S" x))))
2891 (defvar comint-last-input-end)
2893 (defun js--js-funcall (function &rest arguments)
2894 "Call the Mozilla function FUNCTION with arguments ARGUMENTS.
2895 If function is a string, look it up as a property on the global
2896 object and use the global object for `this'.
2897 If FUNCTION is a list with one element, use that element as the
2898 function with the global object for `this', except that if that
2899 single element is a string, look it up on the global object.
2900 If FUNCTION is a list with more than one argument, use the list
2901 up to the last value as a property descriptor and the last
2902 argument as a function."
2904 (with-js
2905 (let ((argstr (js--js-encode-value
2906 (cons function arguments))))
2908 (with-current-buffer inferior-moz-buffer
2909 ;; Actual funcall
2910 (when js--js-array-as-list
2911 (insert "*"))
2912 (insert argstr)
2913 (comint-send-input nil t)
2914 (js--wait-for-matching-output
2915 (inferior-moz-process) "EVAL>"
2916 js-js-timeout)
2917 (goto-char comint-last-input-end)
2919 ;; Read the result
2920 (let* ((json-array-type 'list)
2921 (result (prog1 (json-read)
2922 (goto-char (point-max)))))
2923 (js--js-decode-retval result))))))
2925 (defun js--js-new (constructor &rest arguments)
2926 "Call CONSTRUCTOR as a constructor, with arguments ARGUMENTS.
2927 CONSTRUCTOR is a JS handle, a string, or a list of these things."
2928 (apply #'js--js-funcall
2929 '(interactor "_callNew")
2930 constructor arguments))
2932 (defun js--js-eval (thisobj js)
2933 (js--js-funcall '(interactor "_callEval") thisobj js))
2935 (defun js--js-list (&rest arguments)
2936 "Return a Lisp array resulting from evaluating each of ARGUMENTS."
2937 (let ((js--js-array-as-list t))
2938 (apply #'js--js-funcall '(interactor "_mkArray")
2939 arguments)))
2941 (defun js--js-get (&rest props)
2942 (apply #'js--js-funcall '(interactor "_getProp") props))
2944 (defun js--js-put (props value)
2945 (js--js-funcall '(interactor "_putProp") props value))
2947 (defun js-gc (&optional force)
2948 "Tell the repl about any objects we don't reference anymore.
2949 With argument, run even if no intervening GC has happened."
2950 (interactive)
2952 (when force
2953 (setq js--js-last-gcs-done nil))
2955 (let ((this-gcs-done gcs-done) keys num)
2956 (when (and js--js-references
2957 (boundp 'inferior-moz-buffer)
2958 (buffer-live-p inferior-moz-buffer)
2960 ;; Don't bother running unless we've had an intervening
2961 ;; garbage collection; without a gc, nothing is deleted
2962 ;; from the weak hash table, so it's pointless telling
2963 ;; MozRepl about that references we still hold
2964 (not (eq js--js-last-gcs-done this-gcs-done))
2966 ;; Are we looking at a normal prompt? Make sure not to
2967 ;; interrupt the user if he's doing something
2968 (with-current-buffer inferior-moz-buffer
2969 (save-excursion
2970 (goto-char (point-max))
2971 (looking-back js--js-prompt-regexp
2972 (save-excursion (forward-line 0) (point))))))
2974 (setq keys (cl-loop for x being the hash-keys
2975 of js--js-references
2976 collect x))
2977 (setq num (js--js-funcall '(repl "_jsGC") (or keys [])))
2979 (setq js--js-last-gcs-done this-gcs-done)
2980 (when (called-interactively-p 'interactive)
2981 (message "Cleaned %s entries" num))
2983 num)))
2985 (run-with-idle-timer 30 t #'js-gc)
2987 (defun js-eval (js)
2988 "Evaluate the JavaScript in JS and return JSON-decoded result."
2989 (interactive "MJavascript to evaluate: ")
2990 (with-js
2991 (let* ((content-window (js--js-content-window
2992 (js--get-js-context)))
2993 (result (js-eval content-window js)))
2994 (when (called-interactively-p 'interactive)
2995 (message "%s" (js! "String" result)))
2996 result)))
2998 (defun js--get-tabs ()
2999 "Enumerate all JavaScript contexts available.
3000 Each context is a list:
3001 (TITLE URL BROWSER TAB TABBROWSER) for content documents
3002 (TITLE URL WINDOW) for windows
3004 All tabs of a given window are grouped together. The most recent
3005 window is first. Within each window, the tabs are returned
3006 left-to-right."
3007 (with-js
3008 (let (windows)
3010 (cl-loop with window-mediator = (js! ("Components" "classes"
3011 "@mozilla.org/appshell/window-mediator;1"
3012 "getService")
3013 (js< "Components" "interfaces"
3014 "nsIWindowMediator"))
3015 with enumerator = (js! (window-mediator "getEnumerator") nil)
3017 while (js? (js! (enumerator "hasMoreElements")))
3018 for window = (js! (enumerator "getNext"))
3019 for window-info = (js-list window
3020 (js< window "document" "title")
3021 (js! (window "location" "toString"))
3022 (js< window "closed")
3023 (js< window "windowState"))
3025 unless (or (js? (cl-fourth window-info))
3026 (eq (cl-fifth window-info) 2))
3027 do (push window-info windows))
3029 (cl-loop for window-info in windows
3030 for window = (cl-first window-info)
3031 collect (list (cl-second window-info)
3032 (cl-third window-info)
3033 window)
3035 for gbrowser = (js< window "gBrowser")
3036 if (js-handle? gbrowser)
3037 nconc (cl-loop
3038 for x below (js< gbrowser "browsers" "length")
3039 collect (js-list (js< gbrowser
3040 "browsers"
3042 "contentDocument"
3043 "title")
3045 (js! (gbrowser
3046 "browsers"
3048 "contentWindow"
3049 "location"
3050 "toString"))
3051 (js< gbrowser
3052 "browsers"
3055 (js! (gbrowser
3056 "tabContainer"
3057 "childNodes"
3058 "item")
3061 gbrowser))))))
3063 (defvar js-read-tab-history nil)
3065 (declare-function ido-chop "ido" (items elem))
3067 (defun js--read-tab (prompt)
3068 "Read a Mozilla tab with prompt PROMPT.
3069 Return a cons of (TYPE . OBJECT). TYPE is either 'window or
3070 'tab, and OBJECT is a JavaScript handle to a ChromeWindow or a
3071 browser, respectively."
3073 ;; Prime IDO
3074 (unless ido-mode
3075 (ido-mode 1)
3076 (ido-mode -1))
3078 (with-js
3079 (let ((tabs (js--get-tabs)) selected-tab-cname
3080 selected-tab prev-hitab)
3082 ;; Disambiguate names
3083 (setq tabs
3084 (cl-loop with tab-names = (make-hash-table :test 'equal)
3085 for tab in tabs
3086 for cname = (format "%s (%s)"
3087 (cl-second tab) (cl-first tab))
3088 for num = (cl-incf (gethash cname tab-names -1))
3089 if (> num 0)
3090 do (setq cname (format "%s <%d>" cname num))
3091 collect (cons cname tab)))
3093 (cl-labels
3094 ((find-tab-by-cname
3095 (cname)
3096 (cl-loop for tab in tabs
3097 if (equal (car tab) cname)
3098 return (cdr tab)))
3100 (mogrify-highlighting
3101 (hitab unhitab)
3103 ;; Hack to reduce the number of
3104 ;; round-trips to mozilla
3105 (let (cmds)
3106 (cond
3107 ;; Highlighting tab
3108 ((cl-fourth hitab)
3109 (push '(js! ((cl-fourth hitab) "setAttribute")
3110 "style"
3111 "color: red; font-weight: bold")
3112 cmds)
3114 ;; Highlight window proper
3115 (push '(js! ((cl-third hitab)
3116 "setAttribute")
3117 "style"
3118 "border: 8px solid red")
3119 cmds)
3121 ;; Select tab, when appropriate
3122 (when js-js-switch-tabs
3123 (push
3124 '(js> ((cl-fifth hitab) "selectedTab") (cl-fourth hitab))
3125 cmds)))
3127 ;; Highlighting whole window
3128 ((cl-third hitab)
3129 (push '(js! ((cl-third hitab) "document"
3130 "documentElement" "setAttribute")
3131 "style"
3132 (concat "-moz-appearance: none;"
3133 "border: 8px solid red;"))
3134 cmds)))
3136 (cond
3137 ;; Unhighlighting tab
3138 ((cl-fourth unhitab)
3139 (push '(js! ((cl-fourth unhitab) "setAttribute") "style" "")
3140 cmds)
3141 (push '(js! ((cl-third unhitab) "setAttribute") "style" "")
3142 cmds))
3144 ;; Unhighlighting window
3145 ((cl-third unhitab)
3146 (push '(js! ((cl-third unhitab) "document"
3147 "documentElement" "setAttribute")
3148 "style" "")
3149 cmds)))
3151 (eval (list 'with-js
3152 (cons 'js-list (nreverse cmds))))))
3154 (command-hook
3156 (let* ((tab (find-tab-by-cname (car ido-matches))))
3157 (mogrify-highlighting tab prev-hitab)
3158 (setq prev-hitab tab)))
3160 (setup-hook
3162 ;; Fiddle with the match list a bit: if our first match
3163 ;; is a tabbrowser window, rotate the match list until
3164 ;; the active tab comes up
3165 (let ((matched-tab (find-tab-by-cname (car ido-matches))))
3166 (when (and matched-tab
3167 (null (cl-fourth matched-tab))
3168 (equal "navigator:browser"
3169 (js! ((cl-third matched-tab)
3170 "document"
3171 "documentElement"
3172 "getAttribute")
3173 "windowtype")))
3175 (cl-loop with tab-to-match = (js< (cl-third matched-tab)
3176 "gBrowser"
3177 "selectedTab")
3179 for match in ido-matches
3180 for candidate-tab = (find-tab-by-cname match)
3181 if (eq (cl-fourth candidate-tab) tab-to-match)
3182 do (setq ido-cur-list
3183 (ido-chop ido-cur-list match))
3184 and return t)))
3186 (add-hook 'post-command-hook #'command-hook t t)))
3189 (unwind-protect
3190 (setq selected-tab-cname
3191 (let ((ido-minibuffer-setup-hook
3192 (cons #'setup-hook ido-minibuffer-setup-hook)))
3193 (ido-completing-read
3194 prompt
3195 (mapcar #'car tabs)
3196 nil t nil
3197 'js-read-tab-history)))
3199 (when prev-hitab
3200 (mogrify-highlighting nil prev-hitab)
3201 (setq prev-hitab nil)))
3203 (add-to-history 'js-read-tab-history selected-tab-cname)
3205 (setq selected-tab (cl-loop for tab in tabs
3206 if (equal (car tab) selected-tab-cname)
3207 return (cdr tab)))
3209 (cons (if (cl-fourth selected-tab) 'browser 'window)
3210 (cl-third selected-tab))))))
3212 (defun js--guess-eval-defun-info (pstate)
3213 "Helper function for `js-eval-defun'.
3214 Return a list (NAME . CLASSPARTS), where CLASSPARTS is a list of
3215 strings making up the class name and NAME is the name of the
3216 function part."
3217 (cond ((and (= (length pstate) 3)
3218 (eq (js--pitem-type (cl-first pstate)) 'function)
3219 (= (length (js--pitem-name (cl-first pstate))) 1)
3220 (consp (js--pitem-type (cl-second pstate))))
3222 (append (js--pitem-name (cl-second pstate))
3223 (list (cl-first (js--pitem-name (cl-first pstate))))))
3225 ((and (= (length pstate) 2)
3226 (eq (js--pitem-type (cl-first pstate)) 'function))
3228 (append
3229 (butlast (js--pitem-name (cl-first pstate)))
3230 (list (car (last (js--pitem-name (cl-first pstate)))))))
3232 (t (error "Function not a toplevel defun or class member"))))
3234 (defvar js--js-context nil
3235 "The current JavaScript context.
3236 This is a cons like the one returned from `js--read-tab'.
3237 Change with `js-set-js-context'.")
3239 (defconst js--js-inserter
3240 "(function(func_info,func) {
3241 func_info.unshift('window');
3242 var obj = window;
3243 for(var i = 1; i < func_info.length - 1; ++i) {
3244 var next = obj[func_info[i]];
3245 if(typeof next !== 'object' && typeof next !== 'function') {
3246 next = obj.prototype && obj.prototype[func_info[i]];
3247 if(typeof next !== 'object' && typeof next !== 'function') {
3248 alert('Could not find ' + func_info.slice(0, i+1).join('.') +
3249 ' or ' + func_info.slice(0, i+1).join('.') + '.prototype');
3250 return;
3253 func_info.splice(i+1, 0, 'prototype');
3254 ++i;
3258 obj[func_info[i]] = func;
3259 alert('Successfully updated '+func_info.join('.'));
3260 })")
3262 (defun js-set-js-context (context)
3263 "Set the JavaScript context to CONTEXT.
3264 When called interactively, prompt for CONTEXT."
3265 (interactive (list (js--read-tab "Javascript Context: ")))
3266 (setq js--js-context context))
3268 (defun js--get-js-context ()
3269 "Return a valid JavaScript context.
3270 If one hasn't been set, or if it's stale, prompt for a new one."
3271 (with-js
3272 (when (or (null js--js-context)
3273 (js--js-handle-expired-p (cdr js--js-context))
3274 (pcase (car js--js-context)
3275 (`window (js? (js< (cdr js--js-context) "closed")))
3276 (`browser (not (js? (js< (cdr js--js-context)
3277 "contentDocument"))))
3278 (x (error "Unmatched case in js--get-js-context: %S" x))))
3279 (setq js--js-context (js--read-tab "Javascript Context: ")))
3280 js--js-context))
3282 (defun js--js-content-window (context)
3283 (with-js
3284 (pcase (car context)
3285 (`window (cdr context))
3286 (`browser (js< (cdr context)
3287 "contentWindow" "wrappedJSObject"))
3288 (x (error "Unmatched case in js--js-content-window: %S" x)))))
3290 (defun js--make-nsilocalfile (path)
3291 (with-js
3292 (let ((file (js-create-instance "@mozilla.org/file/local;1"
3293 "nsILocalFile")))
3294 (js! (file "initWithPath") path)
3295 file)))
3297 (defun js--js-add-resource-alias (alias path)
3298 (with-js
3299 (let* ((io-service (js-get-service "@mozilla.org/network/io-service;1"
3300 "nsIIOService"))
3301 (res-prot (js! (io-service "getProtocolHandler") "resource"))
3302 (res-prot (js-qi res-prot "nsIResProtocolHandler"))
3303 (path-file (js--make-nsilocalfile path))
3304 (path-uri (js! (io-service "newFileURI") path-file)))
3305 (js! (res-prot "setSubstitution") alias path-uri))))
3307 (cl-defun js-eval-defun ()
3308 "Update a Mozilla tab using the JavaScript defun at point."
3309 (interactive)
3311 ;; This function works by generating a temporary file that contains
3312 ;; the function we'd like to insert. We then use the elisp-js bridge
3313 ;; to command mozilla to load this file by inserting a script tag
3314 ;; into the document we set. This way, debuggers and such will have
3315 ;; a way to find the source of the just-inserted function.
3317 ;; We delete the temporary file if there's an error, but otherwise
3318 ;; we add an unload event listener on the Mozilla side to delete the
3319 ;; file.
3321 (save-excursion
3322 (let (begin end pstate defun-info temp-name defun-body)
3323 (js-end-of-defun)
3324 (setq end (point))
3325 (js--ensure-cache)
3326 (js-beginning-of-defun)
3327 (re-search-forward "\\_<function\\_>")
3328 (setq begin (match-beginning 0))
3329 (setq pstate (js--forward-pstate))
3331 (when (or (null pstate)
3332 (> (point) end))
3333 (error "Could not locate function definition"))
3335 (setq defun-info (js--guess-eval-defun-info pstate))
3337 (let ((overlay (make-overlay begin end)))
3338 (overlay-put overlay 'face 'highlight)
3339 (unwind-protect
3340 (unless (y-or-n-p (format "Send %s to Mozilla? "
3341 (mapconcat #'identity defun-info ".")))
3342 (message "") ; question message lingers until next command
3343 (cl-return-from js-eval-defun))
3344 (delete-overlay overlay)))
3346 (setq defun-body (buffer-substring-no-properties begin end))
3348 (make-directory js-js-tmpdir t)
3350 ;; (Re)register a Mozilla resource URL to point to the
3351 ;; temporary directory
3352 (js--js-add-resource-alias "js" js-js-tmpdir)
3354 (setq temp-name (make-temp-file (concat js-js-tmpdir
3355 "/js-")
3356 nil ".js"))
3357 (unwind-protect
3358 (with-js
3359 (with-temp-buffer
3360 (insert js--js-inserter)
3361 (insert "(")
3362 (insert (json-encode-list defun-info))
3363 (insert ",\n")
3364 (insert defun-body)
3365 (insert "\n)")
3366 (write-region (point-min) (point-max) temp-name
3367 nil 1))
3369 ;; Give Mozilla responsibility for deleting this file
3370 (let* ((content-window (js--js-content-window
3371 (js--get-js-context)))
3372 (content-document (js< content-window "document"))
3373 (head (if (js? (js< content-document "body"))
3374 ;; Regular content
3375 (js< (js! (content-document "getElementsByTagName")
3376 "head")
3378 ;; Chrome
3379 (js< content-document "documentElement")))
3380 (elem (js! (content-document "createElementNS")
3381 "http://www.w3.org/1999/xhtml" "script")))
3383 (js! (elem "setAttribute") "type" "text/javascript")
3384 (js! (elem "setAttribute") "src"
3385 (format "resource://js/%s"
3386 (file-name-nondirectory temp-name)))
3388 (js! (head "appendChild") elem)
3390 (js! (content-window "addEventListener") "unload"
3391 (js! ((js-new
3392 "Function" "file"
3393 "return function() { file.remove(false) }"))
3394 (js--make-nsilocalfile temp-name))
3395 'false)
3396 (setq temp-name nil)
3402 ;; temp-name is set to nil on success
3403 (when temp-name
3404 (delete-file temp-name))))))
3406 ;;; Main Function
3408 ;;;###autoload
3409 (define-derived-mode js-mode prog-mode "Javascript"
3410 "Major mode for editing JavaScript."
3411 :group 'js
3412 (setq-local indent-line-function 'js-indent-line)
3413 (setq-local beginning-of-defun-function 'js-beginning-of-defun)
3414 (setq-local end-of-defun-function 'js-end-of-defun)
3415 (setq-local open-paren-in-column-0-is-defun-start nil)
3416 (setq-local font-lock-defaults (list js--font-lock-keywords))
3417 (setq-local syntax-propertize-function #'js-syntax-propertize)
3419 (setq-local parse-sexp-ignore-comments t)
3420 (setq-local parse-sexp-lookup-properties t)
3421 (setq-local which-func-imenu-joiner-function #'js--which-func-joiner)
3423 ;; Comments
3424 (setq-local comment-start "// ")
3425 (setq-local comment-end "")
3426 (setq-local fill-paragraph-function 'js-c-fill-paragraph)
3428 ;; Parse cache
3429 (add-hook 'before-change-functions #'js--flush-caches t t)
3431 ;; Frameworks
3432 (js--update-quick-match-re)
3434 ;; Imenu
3435 (setq imenu-case-fold-search nil)
3436 (setq imenu-create-index-function #'js--imenu-create-index)
3438 ;; for filling, pretend we're cc-mode
3439 (setq c-comment-prefix-regexp "//+\\|\\**"
3440 c-paragraph-start "$"
3441 c-paragraph-separate "$"
3442 c-block-comment-prefix "* "
3443 c-line-comment-starter "//"
3444 c-comment-start-regexp "/[*/]\\|\\s!"
3445 comment-start-skip "\\(//+\\|/\\*+\\)\\s *")
3447 (setq-local electric-indent-chars
3448 (append "{}():;," electric-indent-chars)) ;FIXME: js2-mode adds "[]*".
3449 (setq-local electric-layout-rules
3450 '((?\; . after) (?\{ . after) (?\} . before)))
3452 (let ((c-buffer-is-cc-mode t))
3453 ;; FIXME: These are normally set by `c-basic-common-init'. Should
3454 ;; we call it instead? (Bug#6071)
3455 (make-local-variable 'paragraph-start)
3456 (make-local-variable 'paragraph-separate)
3457 (make-local-variable 'paragraph-ignore-fill-prefix)
3458 (make-local-variable 'adaptive-fill-mode)
3459 (make-local-variable 'adaptive-fill-regexp)
3460 (c-setup-paragraph-variables))
3462 (setq-local syntax-begin-function #'js--syntax-begin-function)
3464 ;; Important to fontify the whole buffer syntactically! If we don't,
3465 ;; then we might have regular expression literals that aren't marked
3466 ;; as strings, which will screw up parse-partial-sexp, scan-lists,
3467 ;; etc. and produce maddening "unbalanced parenthesis" errors.
3468 ;; When we attempt to find the error and scroll to the portion of
3469 ;; the buffer containing the problem, JIT-lock will apply the
3470 ;; correct syntax to the regular expression literal and the problem
3471 ;; will mysteriously disappear.
3472 ;; FIXME: We should actually do this fontification lazily by adding
3473 ;; calls to syntax-propertize wherever it's really needed.
3474 (syntax-propertize (point-max)))
3476 ;;;###autoload (defalias 'javascript-mode 'js-mode)
3478 (eval-after-load 'folding
3479 '(when (fboundp 'folding-add-to-marks-list)
3480 (folding-add-to-marks-list 'js-mode "// {{{" "// }}}" )))
3482 (provide 'js)
3484 ;; js.el ends here