;;; js.el --- Major mode for editing JavaScript -*- lexical-binding: t -*- ;; Copyright (C) 2008-2022 Free Software Foundation, Inc. ;; Author: Karl Landstrom ;; Daniel Colascione ;; Maintainer: Daniel Colascione ;; Version: 9 ;; Date: 2009-07-25 ;; Keywords: languages, javascript ;; This file is part of GNU Emacs. ;; GNU Emacs is free software: you can redistribute it and/or modify ;; it under the terms of the GNU General Public License as published by ;; the Free Software Foundation, either version 3 of the License, or ;; (at your option) any later version. ;; GNU Emacs is distributed in the hope that it will be useful, ;; but WITHOUT ANY WARRANTY; without even the implied warranty of ;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ;; GNU General Public License for more details. ;; You should have received a copy of the GNU General Public License ;; along with GNU Emacs. If not, see . ;;; Commentary: ;; This is based on Karl Landstrom's barebones javascript-mode. This ;; is much more robust and works with cc-mode's comment filling ;; (mostly). ;; ;; The main features of this JavaScript mode are syntactic ;; highlighting (enabled with `font-lock-mode' or ;; `global-font-lock-mode'), automatic indentation and filling of ;; comments, and C preprocessor fontification. ;; ;; General Remarks: ;; ;; XXX: This mode assumes that block comments are not nested inside block ;; XXX: comments ;; ;; Exported names start with "js-"; private names start with ;; "js--". ;;; Code: (require 'cc-mode) (eval-when-compile (require 'cc-langs) (require 'cc-fonts)) (require 'newcomment) (require 'imenu) (require 'json) (require 'prog-mode) (eval-when-compile (require 'cl-lib) (require 'ido)) (defvar ido-cur-list) (defvar electric-layout-rules) (declare-function ido-mode "ido" (&optional arg)) ;;; Constants (defconst js--name-start-re "[[:alpha:]_$]" "Regexp matching the start of a JavaScript identifier, without grouping.") (defconst js--stmt-delim-chars "^;{}?:") (defconst js--name-re (concat js--name-start-re "\\(?:\\s_\\|\\sw\\)*") "Regexp matching a JavaScript identifier, without grouping.") (defconst js--objfield-re (concat js--name-re ":") "Regexp matching the start of a JavaScript object field.") (defconst js--dotted-name-re (concat js--name-re "\\(?:\\." js--name-re "\\)*") "Regexp matching a dot-separated sequence of JavaScript names.") (defconst js--cpp-name-re js--name-re "Regexp matching a C preprocessor name.") (defconst js--opt-cpp-start "^\\s-*#\\s-*\\([[:alnum:]]+\\)" "Regexp matching the prefix of a cpp directive. This includes the directive name, or nil in languages without preprocessor support. The first submatch surrounds the directive name.") (defconst js--plain-method-re (concat "^\\s-*?\\(" js--dotted-name-re "\\)\\.prototype" "\\.\\(" js--name-re "\\)\\s-*?=\\s-*?\\(\\(:?async[ \t\n]+\\)function\\)\\_>") "Regexp matching an explicit JavaScript prototype \"method\" declaration. Group 1 is a (possibly-dotted) class name, group 2 is a method name, and group 3 is the `function' keyword.") (defconst js--plain-class-re (concat "^\\s-*\\(" js--dotted-name-re "\\)\\.prototype" "\\s-*=\\s-*{") "Regexp matching a JavaScript explicit prototype \"class\" declaration. An example of this is \"Class.prototype = { method1: ...}\".") ;; var NewClass = BaseClass.extend( (defconst js--mp-class-decl-re (concat "^\\s-*var\\s-+" "\\(" js--name-re "\\)" "\\s-*=\\s-*" "\\(" js--dotted-name-re "\\)\\.extend\\(?:Final\\)?\\s-*(\\s-*{?\\s-*$")) ;; var NewClass = Class.create() (defconst js--prototype-obsolete-class-decl-re (concat "^\\s-*\\(?:var\\s-+\\)?" "\\(" js--dotted-name-re "\\)" "\\s-*=\\s-*Class\\.create()")) (defconst js--prototype-objextend-class-decl-re-1 (concat "^\\s-*Object\\.extend\\s-*(" "\\(" js--dotted-name-re "\\)" "\\s-*,\\s-*{")) (defconst js--prototype-objextend-class-decl-re-2 (concat "^\\s-*\\(?:var\\s-+\\)?" "\\(" js--dotted-name-re "\\)" "\\s-*=\\s-*Object\\.extend\\s-*(")) ;; var NewClass = Class.create({ (defconst js--prototype-class-decl-re (concat "^\\s-*\\(?:var\\s-+\\)?" "\\(" js--name-re "\\)" "\\s-*=\\s-*Class\\.create\\s-*(\\s-*" "\\(?:\\(" js--dotted-name-re "\\)\\s-*,\\s-*\\)?{?")) ;; Parent class name(s) (yes, multiple inheritance in JavaScript) are ;; matched with dedicated font-lock matchers (defconst js--dojo-class-decl-re (concat "^\\s-*dojo\\.declare\\s-*(\"\\(" js--dotted-name-re "\\)")) (defconst js--extjs-class-decl-re-1 (concat "^\\s-*Ext\\.extend\\s-*(" "\\s-*\\(" js--dotted-name-re "\\)" "\\s-*,\\s-*\\(" js--dotted-name-re "\\)") "Regexp matching an ExtJS class declaration (style 1).") (defconst js--extjs-class-decl-re-2 (concat "^\\s-*\\(?:var\\s-+\\)?" "\\(" js--name-re "\\)" "\\s-*=\\s-*Ext\\.extend\\s-*(\\s-*" "\\(" js--dotted-name-re "\\)") "Regexp matching an ExtJS class declaration (style 2).") (defconst js--mochikit-class-re (concat "^\\s-*MochiKit\\.Base\\.update\\s-*(\\s-*" "\\(" js--dotted-name-re "\\)") "Regexp matching a MochiKit class declaration.") (defconst js--dummy-class-style '(:name "[Automatically Generated Class]")) (defconst js--class-styles `((:name "Plain" :class-decl ,js--plain-class-re :prototype t :contexts (toplevel) :framework javascript) (:name "MochiKit" :class-decl ,js--mochikit-class-re :prototype t :contexts (toplevel) :framework mochikit) (:name "Prototype (Obsolete)" :class-decl ,js--prototype-obsolete-class-decl-re :contexts (toplevel) :framework prototype) (:name "Prototype (Modern)" :class-decl ,js--prototype-class-decl-re :contexts (toplevel) :framework prototype) (:name "Prototype (Object.extend)" :class-decl ,js--prototype-objextend-class-decl-re-1 :prototype t :contexts (toplevel) :framework prototype) (:name "Prototype (Object.extend) 2" :class-decl ,js--prototype-objextend-class-decl-re-2 :prototype t :contexts (toplevel) :framework prototype) (:name "Dojo" :class-decl ,js--dojo-class-decl-re :contexts (toplevel) :framework dojo) (:name "ExtJS (style 1)" :class-decl ,js--extjs-class-decl-re-1 :prototype t :contexts (toplevel) :framework extjs) (:name "ExtJS (style 2)" :class-decl ,js--extjs-class-decl-re-2 :contexts (toplevel) :framework extjs) (:name "Merrill Press" :class-decl ,js--mp-class-decl-re :contexts (toplevel) :framework merrillpress)) "List of JavaScript class definition styles. A class definition style is a plist with the following keys: :name is a human-readable name of the class type :class-decl is a regular expression giving the start of the class. Its first group must match the name of its class. If there is a parent class, the second group should match, and it should be the name of the class. If :prototype is present and non-nil, the parser will merge declarations for this constructs with others at the same lexical level that have the same name. Otherwise, multiple definitions will create multiple top-level entries. Don't use :prototype unnecessarily: it has an associated cost in performance. If :strip-prototype is present and non-nil, then if the class name as matched contains.") (defconst js--available-frameworks (cl-loop for style in js--class-styles for framework = (plist-get style :framework) unless (memq framework available-frameworks) collect framework into available-frameworks finally return available-frameworks) "List of available JavaScript frameworks symbols.") (defconst js--function-heading-1-re (concat "^\\s-*function\\(?:\\s-\\|\\*\\)+\\(" js--name-re "\\)") "Regexp matching the start of a JavaScript function header. Match group 1 is the name of the function.") (defconst js--function-heading-2-re (concat "^\\s-*\\(" js--name-re "\\)\\s-*:\\s-*function\\_>") "Regexp matching the start of a function entry in an associative array. Match group 1 is the name of the function.") (defconst js--function-heading-3-re (concat "^\\s-*\\(?:var\\s-+\\)?\\(" js--dotted-name-re "\\)" "\\s-*=\\s-*function\\_>") "Regexp matching a line in the JavaScript form \"var MUMBLE = function\". Match group 1 is MUMBLE.") (defconst js--macro-decl-re (concat "^\\s-*#\\s-*define\\s-+\\(" js--cpp-name-re "\\)\\s-*(") "Regexp matching a CPP macro definition, up to the opening parenthesis. Match group 1 is the name of the macro.") (defun js--regexp-opt-symbol (list) "Like `regexp-opt', but surround the result with `\\\\_<' and `\\\\_>'." (concat "\\_<" (regexp-opt list t) "\\_>")) (defconst js--keyword-re (js--regexp-opt-symbol '("abstract" "async" "await" "break" "case" "catch" "class" "const" "continue" "debugger" "default" "delete" "do" "else" "enum" "export" "extends" "final" "finally" "for" "function" "goto" "if" "implements" "import" "in" "instanceof" "interface" "native" "new" "of" "package" "private" "protected" "public" "return" "static" "super" "switch" "synchronized" "throw" "throws" "transient" "try" "typeof" "var" "void" "let" "yield" "volatile" "while" "with")) "Regexp matching any JavaScript keyword.") (defconst js--basic-type-re (js--regexp-opt-symbol '("boolean" "byte" "char" "double" "float" "int" "long" "short" "void")) "Regular expression matching any predefined type in JavaScript.") (defconst js--constant-re (js--regexp-opt-symbol '("false" "null" "undefined" "Infinity" "NaN" "true" "arguments" "this")) "Regular expression matching any future reserved words in JavaScript.") (defconst js--font-lock-keywords-1 (list "\\_" (list js--function-heading-1-re 1 font-lock-function-name-face) (list js--function-heading-2-re 1 font-lock-function-name-face)) "Level one font lock keywords for `js-mode'.") (defconst js--font-lock-keywords-2 (append js--font-lock-keywords-1 (list (list js--keyword-re 1 font-lock-keyword-face) (list "\\_" "\\s-+\\(each\\)\\_>" nil nil (list 1 'font-lock-keyword-face)) (cons js--basic-type-re font-lock-type-face) (cons js--constant-re font-lock-constant-face))) "Level two font lock keywords for `js-mode'.") ;; js--pitem is the basic building block of the lexical ;; database. When one refers to a real part of the buffer, the region ;; of text to which it refers is split into a conceptual header and ;; body. Consider the (very short) block described by a hypothetical ;; js--pitem: ;; ;; function foo(a,b,c) { return 42; } ;; ^ ^ ^ ;; | | | ;; +- h-begin +- h-end +- b-end ;; ;; (Remember that these are buffer positions, and therefore point ;; between characters, not at them. An arrow drawn to a character ;; indicates the corresponding position is between that character and ;; the one immediately preceding it.) ;; ;; The header is the region of text [h-begin, h-end], and is ;; the text needed to unambiguously recognize the start of the ;; construct. If the entire header is not present, the construct is ;; not recognized at all. No other pitems may be nested inside the ;; header. ;; ;; The body is the region [h-end, b-end]. It may contain nested ;; js--pitem instances. The body of a pitem may be empty: in ;; that case, b-end is equal to header-end. ;; ;; The three points obey the following relationship: ;; ;; h-begin < h-end <= b-end ;; ;; We put a text property in the buffer on the character *before* ;; h-end, and if we see it, on the character *before* b-end. ;; ;; The text property for h-end, js--pstate, is actually a list ;; of all js--pitem instances open after the marked character. ;; ;; The text property for b-end, js--pend, is simply the ;; js--pitem that ends after the marked character. (Because ;; pitems always end when the paren-depth drops below a critical ;; value, and because we can only drop one level per character, only ;; one pitem may end at a given character.) ;; ;; In the structure below, we only store h-begin and (sometimes) ;; b-end. We can trivially and quickly find h-end by going to h-begin ;; and searching for an js--pstate text property. Since no other ;; js--pitem instances can be nested inside the header of a ;; pitem, the location after the character with this text property ;; must be h-end. ;; ;; js--pitem instances are never modified (with the exception ;; of the b-end field). Instead, modified copies are added at ;; subsequence parse points. ;; (The exception for b-end and its caveats is described below.) ;; (cl-defstruct (js--pitem (:type list)) ;; IMPORTANT: Do not alter the position of fields within the list. ;; Various bits of code depend on their positions, particularly ;; anything that manipulates the list of children. ;; List of children inside this pitem's body (children nil :read-only t) ;; When we reach this paren depth after h-end, the pitem ends (paren-depth nil :read-only t) ;; Symbol or class-style plist if this is a class (type nil :read-only t) ;; See above (h-begin nil :read-only t) ;; List of strings giving the parts of the name of this pitem (e.g., ;; '("MyClass" "myMethod"), or t if this pitem is anonymous (name nil :read-only t) ;; THIS FIELD IS MUTATED, and its value is shared by all copies of ;; this pitem: when we copy-and-modify pitem instances, we share ;; their tail structures, so all the copies actually have the same ;; terminating cons cell. We modify that shared cons cell directly. ;; ;; The field value is either a number (buffer location) or nil if ;; unknown. ;; ;; If the field's value is greater than `js--cache-end', the ;; value is stale and must be treated as if it were nil. Conversely, ;; if this field is nil, it is guaranteed that this pitem is open up ;; to at least `js--cache-end'. (This property is handy when ;; computing whether we're inside a given pitem.) ;; (b-end nil)) ;; The pitem we start parsing with. (defconst js--initial-pitem (make-js--pitem :paren-depth most-negative-fixnum :type 'toplevel)) ;;; User Customization (defgroup js nil "Customization variables for JavaScript mode." :tag "JavaScript" :group 'languages) (defcustom js-indent-level 4 "Number of spaces for each indentation step in `js-mode'." :type 'integer :safe 'integerp) (defcustom js-expr-indent-offset 0 "Number of additional spaces for indenting continued expressions. The value must be no less than minus `js-indent-level'." :type 'integer :safe 'integerp) (defcustom js-paren-indent-offset 0 "Number of additional spaces for indenting expressions in parentheses. The value must be no less than minus `js-indent-level'." :type 'integer :safe 'integerp :version "24.1") (defcustom js-square-indent-offset 0 "Number of additional spaces for indenting expressions in square braces. The value must be no less than minus `js-indent-level'." :type 'integer :safe 'integerp :version "24.1") (defcustom js-curly-indent-offset 0 "Number of additional spaces for indenting expressions in curly braces. The value must be no less than minus `js-indent-level'." :type 'integer :safe 'integerp :version "24.1") (defcustom js-switch-indent-offset 0 "Number of additional spaces for indenting the contents of a switch block. The value must not be negative." :type 'integer :safe 'integerp :version "24.4") (defcustom js-flat-functions nil "Treat nested functions as top-level functions in `js-mode'. This applies to function movement, marking, and so on." :type 'boolean) (defcustom js-indent-align-list-continuation t "Align continuation of non-empty ([{ lines in `js-mode'." :version "26.1" :type 'boolean :safe 'booleanp) (defcustom js-comment-lineup-func #'c-lineup-C-comments "Lineup function for `cc-mode-style', for C comments in `js-mode'." :type 'function) (defcustom js-enabled-frameworks js--available-frameworks "Frameworks recognized by `js-mode'. To improve performance, you may turn off some frameworks you seldom use, either globally or on a per-buffer basis." :type (cons 'set (mapcar (lambda (x) (list 'const x)) js--available-frameworks))) (defvar js-js-switch-tabs (and (memq system-type '(darwin)) t) "Whether `js-mode' should display tabs while selecting them. This is useful only if the windowing system has a good mechanism for preventing Firefox from stealing the keyboard focus.") (make-obsolete-variable 'js-js-switch-tabs "MozRepl no longer exists" "28.1") (defvar js-js-tmpdir (locate-user-emacs-file "js/js") "Temporary directory used by `js-mode' to communicate with Mozilla. This directory must be readable and writable by both Mozilla and Emacs.") (make-obsolete-variable 'js-js-tmpdir "MozRepl no longer exists" "28.1") (defvar js-js-timeout 5 "Reply timeout for executing commands in Mozilla via `js-mode'. The value is given in seconds. Increase this value if you are getting timeout messages.") (make-obsolete-variable 'js-js-timeout "MozRepl no longer exists" "28.1") (defcustom js-indent-first-init nil "Non-nil means specially indent the first variable declaration's initializer. Normally, the first declaration's initializer is unindented, and subsequent declarations have their identifiers aligned with it: var o = { foo: 3 }; var o = { foo: 3 }, bar = 2; If this option has the value t, indent the first declaration's initializer by an additional level: var o = { foo: 3 }; var o = { foo: 3 }, bar = 2; If this option has the value `dynamic', if there is only one declaration, don't indent the first one's initializer; otherwise, indent it. var o = { foo: 3 }; var o = { foo: 3 }, bar = 2;" :version "25.1" :type '(choice (const nil) (const t) (const dynamic)) :safe 'symbolp) (defcustom js-chain-indent nil "Use \"chained\" indentation. Chained indentation applies when the current line starts with \".\". If the previous expression also contains a \".\" at the same level, then the \".\"s will be lined up: let x = svg.mumble() .chained;" :version "26.1" :type 'boolean :safe 'booleanp) (defcustom js-jsx-detect-syntax t "When non-nil, automatically detect whether JavaScript uses JSX. `js-jsx-syntax' (which see) may be made buffer-local and set to t. The detection strategy can be customized by adding elements to `js-jsx-regexps', which see." :version "27.1" :type 'boolean :safe 'booleanp) (defcustom js-jsx-syntax nil "When non-nil, parse JavaScript with consideration for JSX syntax. This enables proper font-locking and indentation of code using Facebook’s “JSX” syntax extension for JavaScript, for use with Facebook’s “React” library. Font-locking is like `sgml-mode'. Indentation is also like `sgml-mode', although some indentation behavior may differ slightly to align more closely with the conventions of the React developer community. When `js-mode' is already enabled, you should call `js-jsx-enable' to set this variable. It is set to be buffer-local (and t) when in `js-jsx-mode'." :version "27.1" :type 'boolean :safe 'booleanp) (defcustom js-jsx-align->-with-< t "When non-nil, “>” will be indented to the opening “<” in JSX. When this is enabled, JSX indentation looks like this: When this is disabled, JSX indentation looks like this: " :version "27.1" :type 'boolean :safe 'booleanp) (defcustom js-jsx-indent-level nil "When non-nil, indent JSX by this value, instead of like JS. Let `js-indent-level' be 4. When this variable is also set to nil, JSX indentation looks like this (consistent): return ( Hello World! ) Alternatively, when this variable is also set to 2, JSX indentation looks like this (different): return ( Hello World! )" :version "27.1" :type '(choice integer (const :tag "Not Set" nil)) :safe (lambda (x) (or (null x) (integerp x)))) ;; This is how indentation behaved out-of-the-box until Emacs 27. JSX ;; indentation was controlled with `sgml-basic-offset', which defaults ;; to 2, whereas `js-indent-level' defaults to 4. Users who had the ;; same values configured for both their HTML and JS indentation would ;; luckily get consistent JSX indentation; most others were probably ;; unhappy. I’d be surprised if anyone actually wants different ;; indentation levels, but just in case, here’s a way back to that. (defcustom js-jsx-attribute-offset 0 "Specifies a delta for JSXAttribute indentation. Let `js-indent-level' be 2. When this variable is also set to 0, JSXAttribute indentation looks like this: Alternatively, when this variable is also set to 2, JSXAttribute indentation looks like this: This variable is like `sgml-attribute-offset'." :version "27.1" :type 'integer :safe 'integerp) ;;; Keymap (defvar-keymap js-mode-map :doc "Keymap for `js-mode'." "M-." #'js-find-symbol) ;;; Syntax table and parsing (defvar js-mode-syntax-table (let ((table (make-syntax-table))) (c-populate-syntax-table table) (modify-syntax-entry ?$ "_" table) (modify-syntax-entry ?` "\"" table) table) "Syntax table for `js-mode'.") (defvar-local js--quick-match-re nil "Autogenerated regexp used by `js-mode' to match buffer constructs.") (defvar-local js--quick-match-re-func nil "Autogenerated regexp used by `js-mode' to match constructs and functions.") (defvar-local js--cache-end 1 "Last valid buffer position for the `js-mode' function cache.") (defvar-local js--last-parse-pos nil "Latest parse position reached by `js--ensure-cache'.") (defvar-local js--state-at-last-parse-pos nil "Parse state at `js--last-parse-pos'.") (defun js--maybe-join (prefix separator suffix &rest list) "Helper function for `js--update-quick-match-re'. If LIST contains any element that is not nil, return its non-nil elements, separated by SEPARATOR, prefixed by PREFIX, and ended with SUFFIX as with `concat'. Otherwise, if LIST is empty, return nil. If any element in LIST is itself a list, flatten that element." (setq list (flatten-tree list)) (when list (concat prefix (mapconcat #'identity list separator) suffix))) (defun js--update-quick-match-re () "Internal function used by `js-mode' for caching buffer constructs. This updates `js--quick-match-re', based on the current set of enabled frameworks." (setq js--quick-match-re (js--maybe-join "^[ \t]*\\(?:" "\\|" "\\)" ;; #define mumble "#define[ \t]+[a-zA-Z_]" (when (memq 'extjs js-enabled-frameworks) "Ext\\.extend") (when (memq 'prototype js-enabled-frameworks) "Object\\.extend") ;; var mumble = THING ( (js--maybe-join "\\(?:var[ \t]+\\)?[a-zA-Z_$0-9.]+[ \t]*=[ \t]*\\(?:" "\\|" "\\)[ \t]*(" (when (memq 'prototype js-enabled-frameworks) "Class\\.create") (when (memq 'extjs js-enabled-frameworks) "Ext\\.extend") (when (memq 'merrillpress js-enabled-frameworks) "[a-zA-Z_$0-9]+\\.extend\\(?:Final\\)?")) (when (memq 'dojo js-enabled-frameworks) "dojo\\.declare[ \t]*(") (when (memq 'mochikit js-enabled-frameworks) "MochiKit\\.Base\\.update[ \t]*(") ;; mumble.prototypeTHING (js--maybe-join "[a-zA-Z_$0-9.]+\\.prototype\\(?:" "\\|" "\\)" (when (memq 'javascript js-enabled-frameworks) '( ;; foo.prototype.bar = function( "\\.[a-zA-Z_$0-9]+[ \t]*=[ \t]*function[ \t]*(" ;; mumble.prototype = { "[ \t]*=[ \t]*{"))))) (setq js--quick-match-re-func (concat "function\\|" js--quick-match-re))) (defun js--forward-text-property (propname) "Move over the next value of PROPNAME in the buffer. If found, return that value and leave point after the character having that value; otherwise, return nil and leave point at EOB." (let ((next-value (get-text-property (point) propname))) (if next-value (forward-char) (goto-char (next-single-property-change (point) propname nil (point-max))) (unless (eobp) (setq next-value (get-text-property (point) propname)) (forward-char))) next-value)) (defun js--backward-text-property (propname) "Move over the previous value of PROPNAME in the buffer. If found, return that value and leave point just before the character that has that value, otherwise return nil and leave point at BOB." (unless (bobp) (let ((prev-value (get-text-property (1- (point)) propname))) (if prev-value (backward-char) (goto-char (previous-single-property-change (point) propname nil (point-min))) (unless (bobp) (backward-char) (setq prev-value (get-text-property (point) propname)))) prev-value))) (defsubst js--forward-pstate () (js--forward-text-property 'js--pstate)) (defsubst js--backward-pstate () (js--backward-text-property 'js--pstate)) (defun js--pitem-goto-h-end (pitem) (goto-char (js--pitem-h-begin pitem)) (js--forward-pstate)) (defun js--re-search-forward-inner (regexp &optional bound count) "Helper function for `js--re-search-forward'." (let ((parse) str-terminator (orig-macro-end (save-excursion (when (js--beginning-of-macro) (c-end-of-macro) (point))))) (while (> count 0) (re-search-forward regexp bound) (setq parse (syntax-ppss)) (cond ((setq str-terminator (nth 3 parse)) (when (eq str-terminator t) (setq str-terminator ?/)) (re-search-forward (concat "\\([^\\]\\|^\\)" (string str-terminator)) (point-at-eol) t)) ((nth 7 parse) (forward-line)) ((or (nth 4 parse) (and (eq (char-before) ?\/) (eq (char-after) ?\*))) (re-search-forward "\\*/")) ((and (not (and orig-macro-end (<= (point) orig-macro-end))) (js--beginning-of-macro)) (c-end-of-macro)) (t (setq count (1- count)))))) (point)) (defun js--re-search-forward (regexp &optional bound noerror count) "Search forward, ignoring strings, cpp macros, and comments. This function invokes `re-search-forward', but treats the buffer as if strings, cpp macros, and comments have been removed. If invoked while inside a macro, it treats the contents of the macro as normal text." (unless count (setq count 1)) (let ((saved-point (point)) (search-fun (cond ((< count 0) (setq count (- count)) #'js--re-search-backward-inner) ((> count 0) #'js--re-search-forward-inner) (t #'ignore)))) (condition-case err (funcall search-fun regexp bound count) (search-failed (goto-char saved-point) (unless noerror (signal (car err) (cdr err))))))) (defun js--re-search-backward-inner (regexp &optional bound count) "Auxiliary function for `js--re-search-backward'." (let ((parse) (orig-macro-start (save-excursion (and (js--beginning-of-macro) (point))))) (while (> count 0) (re-search-backward regexp bound) (when (and (> (point) (point-min)) (save-excursion (backward-char) (looking-at "/[/*]"))) (forward-char)) (setq parse (syntax-ppss)) (cond ((nth 8 parse) (goto-char (nth 8 parse))) ((or (nth 4 parse) (and (eq (char-before) ?/) (eq (char-after) ?*))) (re-search-backward "/\\*")) ((and (not (and orig-macro-start (>= (point) orig-macro-start))) (js--beginning-of-macro))) (t (setq count (1- count)))))) (point)) (defun js--re-search-backward (regexp &optional bound noerror count) "Search backward, ignoring strings, preprocessor macros, and comments. This function invokes `re-search-backward' but treats the buffer as if strings, preprocessor macros, and comments have been removed. If invoked while inside a macro, treat the macro as normal text." (js--re-search-forward regexp bound noerror (if count (- count) -1))) (defun js--forward-expression () "Move forward over a whole JavaScript expression. This function doesn't move over expressions continued across lines." (cl-loop ;; non-continued case; simplistic, but good enough? do (cl-loop until (or (eolp) (progn (forward-comment most-positive-fixnum) (memq (char-after) '(?\, ?\; ?\] ?\) ?\})))) do (forward-sexp)) while (and (eq (char-after) ?\n) (save-excursion (forward-char) (js--continued-expression-p))))) (defun js--forward-function-decl () "Move forward over a JavaScript function declaration. This puts point at the `function' keyword. If this is a syntactically-correct non-expression function, return the name of the function, or t if the name could not be determined. Otherwise, return nil." (unless (looking-at "\\(\\_[ \t\n]+\\)?\\_") (error "Invalid position")) (let ((name t)) (goto-char (match-end 0)) (forward-comment most-positive-fixnum) (when (eq (char-after) ?*) (forward-char) (forward-comment most-positive-fixnum)) (when (looking-at js--name-re) (setq name (match-string-no-properties 0)) (goto-char (match-end 0))) (forward-comment most-positive-fixnum) (and (eq (char-after) ?\( ) (ignore-errors (forward-list) t) (progn (forward-comment most-positive-fixnum) (and (eq (char-after) ?{) name))))) (defun js--function-prologue-beginning (&optional pos) "Return the start of the JavaScript function prologue containing POS. A function prologue is everything from start of the definition up to and including the opening brace. POS defaults to point. If POS is not in a function prologue, return nil." (let (prologue-begin) (save-excursion (if pos (goto-char pos) (setq pos (point))) (when (save-excursion (forward-line 0) (or (looking-at js--function-heading-2-re) (looking-at js--function-heading-3-re))) (setq prologue-begin (match-beginning 1)) (when (<= prologue-begin pos) (goto-char (match-end 0)))) (skip-syntax-backward "w_") (let ((start nil)) (and (or (looking-at "\\_") (js--re-search-backward "\\_" nil t)) (progn (setq start (match-beginning 0)) (goto-char start) (when (looking-back "\\_[ \t\n]+" (- (point) 30)) (setq start (match-beginning 0))) (js--forward-function-decl)) (<= pos (point)) (or prologue-begin start)))))) (defun js--beginning-of-defun-raw () "Helper function for `js-beginning-of-defun'. Go to previous defun-beginning and return the parse state for it, or nil if we went all the way back to bob and don't find anything." (js--ensure-cache) (let (pstate) (while (and (setq pstate (js--backward-pstate)) (not (eq 'function (js--pitem-type (car pstate)))))) (and (not (bobp)) pstate))) (defun js--pstate-is-toplevel-defun (pstate) "Helper function for `js--beginning-of-defun-nested'. If PSTATE represents a non-empty top-level defun, return the top-most pitem. Otherwise, return nil." (cl-loop for pitem in pstate with func-depth = 0 with func-pitem if (eq 'function (js--pitem-type pitem)) do (cl-incf func-depth) and do (setq func-pitem pitem) finally return (if (eq func-depth 1) func-pitem))) (defun js--beginning-of-defun-nested () "Helper function for `js--beginning-of-defun'. Return the pitem of the function we went to the beginning of." (or ;; Look for the smallest function that encloses point... (cl-loop for pitem in (js--parse-state-at-point) if (and (eq 'function (js--pitem-type pitem)) (js--inside-pitem-p pitem)) do (goto-char (js--pitem-h-begin pitem)) and return pitem) ;; ...and if that isn't found, look for the previous top-level ;; defun (cl-loop for pstate = (js--backward-pstate) while pstate if (js--pstate-is-toplevel-defun pstate) do (goto-char (js--pitem-h-begin it)) and return it))) (defun js--beginning-of-defun-flat () "Helper function for `js-beginning-of-defun'." (let ((pstate (js--beginning-of-defun-raw))) (when pstate (goto-char (js--pitem-h-begin (car pstate)))))) (defun js-beginning-of-defun (&optional arg) "Value of `beginning-of-defun-function' for `js-mode'." (setq arg (or arg 1)) (while (and (not (eobp)) (< arg 0)) (cl-incf arg) (when (and (not js-flat-functions) (or (eq (js-syntactic-context) 'function) (js--function-prologue-beginning))) (js-end-of-defun)) (if (js--re-search-forward "\\_" nil t) (goto-char (js--function-prologue-beginning)) (goto-char (point-max)))) (while (> arg 0) (cl-decf arg) ;; If we're just past the end of a function, the user probably wants ;; to go to the beginning of *that* function (when (eq (char-before) ?}) (backward-char)) (let ((prologue-begin (js--function-prologue-beginning))) (cond ((and prologue-begin (< prologue-begin (point))) (goto-char prologue-begin)) (js-flat-functions (js--beginning-of-defun-flat)) (t (js--beginning-of-defun-nested)))))) (defun js--flush-caches (&optional beg _ignored) "Flush the `js-mode' syntax cache after position BEG. BEG defaults to `point-min', meaning to flush the entire cache." (interactive) (setq beg (or beg (save-restriction (widen) (point-min)))) (setq js--cache-end (min js--cache-end beg))) (defmacro js--debug (&rest _arguments) ;; `(message ,@arguments) ) (defun js--ensure-cache--pop-if-ended (open-items paren-depth) (let ((top-item (car open-items))) (when (<= paren-depth (js--pitem-paren-depth top-item)) (cl-assert (not (get-text-property (1- (point)) 'js-pend))) (put-text-property (1- (point)) (point) 'js--pend top-item) (setf (js--pitem-b-end top-item) (point)) (setq open-items ;; open-items must contain at least two items for this to ;; work, but because we push a dummy item to start with, ;; that assumption holds. (cons (js--pitem-add-child (cl-second open-items) top-item) (cddr open-items))))) open-items) (defmacro js--ensure-cache--update-parse () "Helper function for `js--ensure-cache'. Update parsing information up to point, referring to parse, prev-parse-point, goal-point, and open-items bound lexically in the body of `js--ensure-cache'." '(progn (setq goal-point (point)) (goto-char prev-parse-point) (while (progn (setq open-items (js--ensure-cache--pop-if-ended open-items (car parse))) ;; Make sure parse-partial-sexp doesn't stop because we *entered* ;; the given depth -- i.e., make sure we're deeper than the target ;; depth. (cl-assert (> (nth 0 parse) (js--pitem-paren-depth (car open-items)))) (setq parse (parse-partial-sexp prev-parse-point goal-point (js--pitem-paren-depth (car open-items)) nil parse)) ;; (let ((overlay (make-overlay prev-parse-point (point)))) ;; (overlay-put overlay 'face '(:background "red")) ;; (unwind-protect ;; (progn ;; (js--debug "parsed: %S" parse) ;; (sit-for 1)) ;; (delete-overlay overlay))) (setq prev-parse-point (point)) (< (point) goal-point))) (setq open-items (js--ensure-cache--pop-if-ended open-items (car parse))))) (defun js--show-cache-at-point () (interactive) (require 'pp) (let ((prop (get-text-property (point) 'js--pstate))) (with-output-to-temp-buffer "*Help*" (pp prop)))) (defun js--split-name (string) "Split a JavaScript name into its dot-separated parts. This also removes any prototype parts from the split name \(unless the name is just \"prototype\" to start with)." (let ((name (save-match-data (split-string string "\\." t)))) (unless (and (= (length name) 1) (equal (car name) "prototype")) (setq name (remove "prototype" name))))) (defvar js--guess-function-name-start nil) (defun js--guess-function-name (position) "Guess the name of the JavaScript function at POSITION. POSITION should be just after the end of the word \"function\". Return the name of the function, or nil if the name could not be guessed. This function clobbers match data. If we find the preamble begins earlier than expected while guessing the function name, set `js--guess-function-name-start' to that position; otherwise, set that variable to nil." (setq js--guess-function-name-start nil) (save-excursion (goto-char position) (forward-line 0) (cond ((looking-at js--function-heading-3-re) (and (eq (match-end 0) position) (setq js--guess-function-name-start (match-beginning 1)) (match-string-no-properties 1))) ((looking-at js--function-heading-2-re) (and (eq (match-end 0) position) (setq js--guess-function-name-start (match-beginning 1)) (match-string-no-properties 1)))))) (defun js--clear-stale-cache () ;; Clear any endings that occur after point (let (end-prop) (save-excursion (while (setq end-prop (js--forward-text-property 'js--pend)) (setf (js--pitem-b-end end-prop) nil)))) ;; Remove any cache properties after this point (remove-text-properties (point) (point-max) '(js--pstate t js--pend t))) (defun js--ensure-cache (&optional limit) "Ensures brace cache is valid up to the character before LIMIT. LIMIT defaults to point." (setq limit (or limit (point))) (when (< js--cache-end limit) (c-save-buffer-state (open-items parse prev-parse-point name case-fold-search filtered-class-styles goal-point) ;; Figure out which class styles we need to look for (setq filtered-class-styles (cl-loop for style in js--class-styles if (memq (plist-get style :framework) js-enabled-frameworks) collect style)) (save-excursion (save-restriction (widen) ;; Find last known good position (goto-char js--cache-end) (unless (bobp) (setq open-items (get-text-property (1- (point)) 'js--pstate)) (unless open-items (goto-char (previous-single-property-change (point) 'js--pstate nil (point-min))) (unless (bobp) (setq open-items (get-text-property (1- (point)) 'js--pstate)) (cl-assert open-items)))) (unless open-items ;; Make a placeholder for the top-level definition (setq open-items (list js--initial-pitem))) (setq parse (syntax-ppss)) (setq prev-parse-point (point)) (js--clear-stale-cache) (narrow-to-region (point-min) limit) (cl-loop while (re-search-forward js--quick-match-re-func nil t) for orig-match-start = (goto-char (match-beginning 0)) for orig-match-end = (match-end 0) do (js--ensure-cache--update-parse) for orig-depth = (nth 0 parse) ;; Each of these conditions should return non-nil if ;; we should add a new item and leave point at the end ;; of the new item's header (h-end in the ;; js--pitem diagram). This point is the one ;; after the last character we need to unambiguously ;; detect this construct. If one of these evaluates to ;; nil, the location of the point is ignored. if (cond ;; In comment or string ((nth 8 parse) nil) ;; Regular function declaration ((and (looking-at "\\_") (setq name (js--forward-function-decl))) (when (eq name t) (setq name (js--guess-function-name orig-match-end)) (if name (when js--guess-function-name-start (setq orig-match-start js--guess-function-name-start)) (setq name t))) (cl-assert (eq (char-after) ?{)) (forward-char) (save-excursion (goto-char orig-match-start) (when (looking-back "\\_[ \t\n]+" (- (point) 30)) (setq orig-match-start (match-beginning 0)))) (make-js--pitem :paren-depth orig-depth :h-begin orig-match-start :type 'function :name (if (eq name t) name (js--split-name name)))) ;; Macro ((looking-at js--macro-decl-re) ;; Macros often contain unbalanced parentheses. ;; Make sure that h-end is at the textual end of ;; the macro no matter what the parenthesis say. (c-end-of-macro) (js--ensure-cache--update-parse) (make-js--pitem :paren-depth (nth 0 parse) :h-begin orig-match-start :type 'macro :name (list (match-string-no-properties 1)))) ;; "Prototype function" declaration ((looking-at js--plain-method-re) (goto-char (match-beginning 3)) (when (save-match-data (js--forward-function-decl)) (forward-char) (make-js--pitem :paren-depth orig-depth :h-begin orig-match-start :type 'function :name (nconc (js--split-name (match-string-no-properties 1)) (list (match-string-no-properties 2)))))) ;; Class definition ((cl-loop with syntactic-context = (js--syntactic-context-from-pstate open-items) for class-style in filtered-class-styles if (and (memq syntactic-context (plist-get class-style :contexts)) (looking-at (plist-get class-style :class-decl))) do (goto-char (match-end 0)) and return (make-js--pitem :paren-depth orig-depth :h-begin orig-match-start :type class-style :name (js--split-name (match-string-no-properties 1)))))) do (js--ensure-cache--update-parse) and do (push it open-items) and do (put-text-property (1- (point)) (point) 'js--pstate open-items) else do (goto-char orig-match-end)) (goto-char limit) (js--ensure-cache--update-parse) (setq js--cache-end limit) (setq js--last-parse-pos limit) (setq js--state-at-last-parse-pos open-items) ))))) (defun js--end-of-defun-flat () "Helper function for `js-end-of-defun'." (cl-loop while (js--re-search-forward "}" nil t) do (js--ensure-cache) if (get-text-property (1- (point)) 'js--pend) if (eq 'function (js--pitem-type it)) return t finally do (goto-char (point-max)))) (defun js--end-of-defun-nested () "Helper function for `js-end-of-defun'." (let* (pitem (this-end (save-excursion (and (setq pitem (js--beginning-of-defun-nested)) (js--pitem-goto-h-end pitem) (progn (backward-char) (forward-list) (point))))) found) (if (and this-end (< (point) this-end)) ;; We're already inside a function; just go to its end. (goto-char this-end) ;; Otherwise, go to the end of the next function... (while (and (js--re-search-forward "\\_" nil t) (not (setq found (progn (goto-char (match-beginning 0)) (js--forward-function-decl)))))) (if found (forward-list) ;; ... or eob. (goto-char (point-max)))))) (defun js-end-of-defun (&optional arg) "Value of `end-of-defun-function' for `js-mode'." (setq arg (or arg 1)) (while (and (not (bobp)) (< arg 0)) (cl-incf arg) (js-beginning-of-defun) (js-beginning-of-defun) (unless (bobp) (js-end-of-defun))) (while (> arg 0) (cl-decf arg) ;; look for function backward. if we're inside it, go to that ;; function's end. otherwise, search for the next function's end and ;; go there (if js-flat-functions (js--end-of-defun-flat) ;; if we're doing nested functions, see whether we're in the ;; prologue. If we are, go to the end of the function; otherwise, ;; call js--end-of-defun-nested to do the real work (let ((prologue-begin (js--function-prologue-beginning))) (cond ((and prologue-begin (<= prologue-begin (point))) (goto-char prologue-begin) (re-search-forward "\\_) && void(0)}> ;; ;;
← JSX ;; ) && void(0) ← JS ;; }> ← JSX ;; ;; `js-syntax-propertize' unambiguously identifies JSX syntax, ;; including when it’s nested. ;; ;; Using a matcher function for each relevant part, retrieve match ;; data recorded as syntax properties for fontification. (defconst js-jsx--font-lock-keywords `((js-jsx--match-tag-name 0 font-lock-function-name-face t) (js-jsx--match-attribute-name 0 font-lock-variable-name-face t) (js-jsx--match-text 0 'default t) ; “Undo” keyword fontification. (js-jsx--match-tag-beg) (js-jsx--match-tag-end) (js-jsx--match-expr)) "JSX font lock faces and multiline text properties.") (defun js-jsx--match-tag-name (limit) "Match JSXBoundaryElement names, until LIMIT." (when js-jsx-syntax (let ((pos (next-single-char-property-change (point) 'js-jsx-tag-name nil limit)) value) (when (and pos (> pos (point))) (goto-char pos) (or (and (setq value (get-text-property pos 'js-jsx-tag-name)) (progn (set-match-data value) t)) (js-jsx--match-tag-name limit)))))) (defun js-jsx--match-attribute-name (limit) "Match JSXAttribute names, until LIMIT." (when js-jsx-syntax (let ((pos (next-single-char-property-change (point) 'js-jsx-attribute-name nil limit)) value) (when (and pos (> pos (point))) (goto-char pos) (or (and (setq value (get-text-property pos 'js-jsx-attribute-name)) (progn (set-match-data value) t)) (js-jsx--match-attribute-name limit)))))) (defun js-jsx--match-text (limit) "Match JSXText, until LIMIT." (when js-jsx-syntax (let ((pos (next-single-char-property-change (point) 'js-jsx-text nil limit)) value) (when (and pos (> pos (point))) (goto-char pos) (or (and (setq value (get-text-property pos 'js-jsx-text)) (progn (set-match-data value) (put-text-property (car value) (cadr value) 'font-lock-multiline t) t)) (js-jsx--match-text limit)))))) (defun js-jsx--match-tag-beg (limit) "Match JSXBoundaryElements from start, until LIMIT." (when js-jsx-syntax (let ((pos (next-single-char-property-change (point) 'js-jsx-tag-beg nil limit)) value) (when (and pos (> pos (point))) (goto-char pos) (or (and (setq value (get-text-property pos 'js-jsx-tag-beg)) (progn (put-text-property pos (cdr value) 'font-lock-multiline t) t)) (js-jsx--match-tag-beg limit)))))) (defun js-jsx--match-tag-end (limit) "Match JSXBoundaryElements from end, until LIMIT." (when js-jsx-syntax (let ((pos (next-single-char-property-change (point) 'js-jsx-tag-end nil limit)) value) (when (and pos (> pos (point))) (goto-char pos) (or (and (setq value (get-text-property pos 'js-jsx-tag-end)) (progn (put-text-property value pos 'font-lock-multiline t) t)) (js-jsx--match-tag-end limit)))))) (defun js-jsx--match-expr (limit) "Match JSXExpressionContainers, until LIMIT." (when js-jsx-syntax (let ((pos (next-single-char-property-change (point) 'js-jsx-expr nil limit)) value) (when (and pos (> pos (point))) (goto-char pos) (or (and (setq value (get-text-property pos 'js-jsx-expr)) (progn (put-text-property pos value 'font-lock-multiline t) t)) (js-jsx--match-expr limit)))))) (defconst js--font-lock-keywords-3 `( ;; This goes before keywords-2 so it gets used preferentially ;; instead of the keywords in keywords-2. Don't use override ;; because that will override syntactic fontification too, which ;; will fontify commented-out directives as if they weren't ;; commented out. ,@cpp-font-lock-keywords ; from font-lock.el ,@js--font-lock-keywords-2 ("\\.\\(prototype\\)\\_>" (1 font-lock-constant-face)) ;; Highlights class being declared, in parts (js--class-decl-matcher ,(concat "\\(" js--name-re "\\)\\(?:\\.\\|.*$\\)") (goto-char (match-beginning 1)) nil (1 font-lock-type-face)) ;; Highlights parent class, in parts, if available (js--class-decl-matcher ,(concat "\\(" js--name-re "\\)\\(?:\\.\\|.*$\\)") (if (match-beginning 2) (progn (setq js--tmp-location (match-end 2)) (goto-char js--tmp-location) (insert "=") (goto-char (match-beginning 2))) (setq js--tmp-location nil) (goto-char (point-at-eol))) (when js--tmp-location (save-excursion (goto-char js--tmp-location) (delete-char 1))) (1 font-lock-type-face)) ;; Highlights parent class (js--class-decl-matcher (2 font-lock-type-face nil t)) ;; Dojo needs its own matcher to override the string highlighting (,(js--make-framework-matcher 'dojo "^\\s-*dojo\\.declare\\s-*(\"" "\\(" js--dotted-name-re "\\)" "\\(?:\"\\s-*,\\s-*\\(" js--dotted-name-re "\\)\\)?") (1 font-lock-type-face t) (2 font-lock-type-face nil t)) ;; Match Dojo base classes. Of course Mojo has to be different ;; from everything else under the sun... (,(js--make-framework-matcher 'dojo "^\\s-*dojo\\.declare\\s-*(\"" "\\(" js--dotted-name-re "\\)\"\\s-*,\\s-*\\[") ,(concat "[[,]\\s-*\\(" js--dotted-name-re "\\)\\s-*" "\\(?:\\].*$\\)?") (backward-char) (end-of-line) (1 font-lock-type-face)) ;; continued Dojo base-class list (,(js--make-framework-matcher 'dojo "^\\s-*" js--dotted-name-re "\\s-*[],]") ,(concat "\\(" js--dotted-name-re "\\)" "\\s-*\\(?:\\].*$\\)?") (if (save-excursion (backward-char) (js--inside-dojo-class-list-p)) (forward-symbol -1) (end-of-line)) (end-of-line) (1 font-lock-type-face)) ;; variable declarations ,(list (concat "\\_<\\(const\\|var\\|let\\)\\_>\\|" js--basic-type-re) (list #'js--variable-decl-matcher nil nil nil)) ;; class instantiation ,(list (concat "\\_\\s-+\\(" js--dotted-name-re "\\)") (list 1 'font-lock-type-face)) ;; instanceof ,(list (concat "\\_\\s-+\\(" js--dotted-name-re "\\)") (list 1 'font-lock-type-face)) ;; formal parameters ,(list (concat "\\_\\(\\s-+" js--name-re "\\)?\\s-*(\\s-*" js--name-start-re) (list (concat "\\(" js--name-re "\\)\\(\\s-*).*\\)?") '(backward-char) '(end-of-line) '(1 font-lock-variable-name-face))) ;; continued formal parameter list ,(list (concat "^\\s-*" js--name-re "\\s-*[,)]") (list js--name-re '(if (save-excursion (backward-char) (js--inside-param-list-p)) (forward-symbol -1) (end-of-line)) '(end-of-line) '(0 font-lock-variable-name-face))) ;; jsx (when enabled) ,@js-jsx--font-lock-keywords) "Level three font lock for `js-mode'.") (defun js--inside-pitem-p (pitem) "Return whether point is inside the given pitem's header or body." (js--ensure-cache) (cl-assert (js--pitem-h-begin pitem)) (cl-assert (js--pitem-paren-depth pitem)) (and (> (point) (js--pitem-h-begin pitem)) (or (null (js--pitem-b-end pitem)) (> (js--pitem-b-end pitem) (point))))) (defun js--parse-state-at-point () "Parse the JavaScript program state at point. Return a list of `js--pitem' instances that apply to point, most specific first. In the worst case, the current toplevel instance will be returned." (save-excursion (save-restriction (widen) (js--ensure-cache) (let ((pstate (or (save-excursion (js--backward-pstate)) (list js--initial-pitem)))) ;; Loop until we either hit a pitem at BOB or pitem ends after ;; point (or at point if we're at eob) (cl-loop for pitem = (car pstate) until (or (eq (js--pitem-type pitem) 'toplevel) (js--inside-pitem-p pitem)) do (pop pstate)) pstate)))) (defun js--syntactic-context-from-pstate (pstate) "Return the JavaScript syntactic context corresponding to PSTATE." (let ((type (js--pitem-type (car pstate)))) (cond ((memq type '(function macro)) type) ((consp type) 'class) (t 'toplevel)))) (defun js-syntactic-context () "Return the JavaScript syntactic context at point. When called interactively, also display a message with that context." (interactive) (let* ((syntactic-context (js--syntactic-context-from-pstate (js--parse-state-at-point)))) (when (called-interactively-p 'interactive) (message "Syntactic context: %s" syntactic-context)) syntactic-context)) (defun js--class-decl-matcher (limit) "Font lock function used by `js-mode'. This performs fontification according to `js--class-styles'." (cl-loop initially (js--ensure-cache limit) while (re-search-forward js--quick-match-re limit t) for orig-end = (match-end 0) do (goto-char (match-beginning 0)) if (cl-loop for style in js--class-styles for decl-re = (plist-get style :class-decl) if (and (memq (plist-get style :framework) js-enabled-frameworks) (memq (js-syntactic-context) (plist-get style :contexts)) decl-re (looking-at decl-re)) do (goto-char (match-end 0)) and return t) return t else do (goto-char orig-end))) (defconst js--font-lock-keywords '(js--font-lock-keywords-3 js--font-lock-keywords-1 js--font-lock-keywords-2 js--font-lock-keywords-3) "Font lock keywords for `js-mode'. See `font-lock-keywords'.") (defun js-font-lock-syntactic-face-function (state) "Return syntactic face given STATE." (if (nth 3 state) font-lock-string-face (if (save-excursion (goto-char (nth 8 state)) (looking-at "/\\*\\*")) font-lock-doc-face font-lock-comment-face))) (defconst js--syntax-propertize-regexp-regexp (rx ;; Start of regexp. "/" (0+ (or ;; Match characters outside of a character class. (not (any ?\[ ?/ ?\\)) ;; Match backslash quoted characters. (and "\\" not-newline) ;; Match character class. (and "[" (0+ (or (not (any ?\] ?\\)) (and "\\" not-newline))) "]"))) (group (zero-or-one "/"))) "Regular expression matching a JavaScript regexp literal.") (defun js-syntax-propertize-regexp (end) (let ((ppss (syntax-ppss))) (when (eq (nth 3 ppss) ?/) ;; A /.../ regexp. (goto-char (nth 8 ppss)) (when (looking-at js--syntax-propertize-regexp-regexp) ;; Don't touch text after END. (when (> end (match-end 1)) (setq end (match-end 1))) (put-text-property (match-beginning 1) end 'syntax-table (string-to-syntax "\"/")) (goto-char end))))) (defconst js--unary-keyword-re (js--regexp-opt-symbol '("await" "delete" "typeof" "void" "yield")) "Regexp matching unary operator keywords.") (defun js--unary-keyword-p (string) "Check if STRING is a unary operator keyword in JavaScript." (string-match-p js--unary-keyword-re string)) ;; Adding `syntax-multiline' text properties to JSX isn’t sufficient ;; to identify multiline JSX when first typing it. For instance, if ;; the user is typing a JSXOpeningElement for the first time… ;; ;;
← Despite completing the JSX, the next ;; ^ `syntax-propertize' region wouldn’t magically ;; extend back a few lines. ;; ;; Therefore, to try and recover from this scenario, parse backward ;; from “>” to try and find the start of JSXBoundaryElements, and ;; extend the `syntax-propertize' region there. (defun js--syntax-propertize-extend-region (start end) "Extend the START-END region for propertization, if necessary. For use by `syntax-propertize-extend-region-functions'." (if js-jsx-syntax (js-jsx--syntax-propertize-extend-region start end))) (defun js-jsx--syntax-propertize-extend-region (start end) "Extend the START-END region for propertization, if necessary. If any “>” in the region appears to be the end of a tag starting before the start of the region, extend region backwards to the start of that tag so parsing may proceed from that point. For use by `syntax-propertize-extend-region-functions'." (let (new-start forward-sexp-function ; Use the Lisp version. parse-sexp-lookup-properties) ; Fix backward-sexp error here. (catch 'stop (goto-char start) (while (re-search-forward ">" end t) (catch 'continue ;; Check if this is really a right shift bitwise operator ;; (“>>” or “>>>”). (unless (or (eq (char-before (1- (point))) ?>) (eq (char-after) ?>)) (save-excursion (backward-char) (while (progn (if (= (point) (point-min)) (throw 'continue nil)) (/= (char-before) ?<)) (skip-chars-backward " \t\n") (if (= (point) (point-min)) (throw 'continue nil)) (cond ((memq (char-before) '(?\" ?\' ?\` ?\})) (condition-case nil (backward-sexp) (scan-error (throw 'continue nil)))) ((memq (char-before) '(?\/ ?\=)) (backward-char)) ((looking-back js--dotted-name-re (line-beginning-position) t) (goto-char (match-beginning 0))) (t (throw 'continue nil)))) (when (< (point) start) (setq new-start (1- (point))) (throw 'stop nil))))))) (if new-start (cons new-start end)))) ;; When applying syntax properties, since `js-syntax-propertize' uses ;; `syntax-propertize-rules' to parse JSXBoundaryElements iteratively ;; and statelessly, whenever we exit such an element, we need to ;; determine the JSX depth. If >0, then we know to apply syntax ;; properties to JSXText up until the next JSXBoundaryElement occurs. ;; But if the JSX depth is 0, then—importantly—we know to NOT parse ;; the following code as JSXText, rather propertize it as regular JS ;; as long as warranted. ;; ;; Also, when indenting code, we need to know if the code we’re trying ;; to indent is on the 2nd or later line of multiline JSX, in which ;; case the code is indented according to XML-like JSX conventions. ;; ;; For the aforementioned reasons, we find ourselves needing to ;; determine whether point is enclosed in JSX or not; and, if so, ;; where the JSX is. The following functions provide that knowledge. (defconst js-jsx--tag-start-re (concat "\\(" js--dotted-name-re "\\)\\(?:" ;; Whitespace is only necessary if an attribute implies JSX. "\\(?:\\s-\\|\n\\)*[{/>]" "\\|" "\\(?:\\s-\\|\n\\)+" js--name-start-re "\\)") "Regexp unambiguously matching a JSXOpeningElement.") (defun js-jsx--matched-tag-type () "Determine if the last “<” was a JSXBoundaryElement and its type. Return `close' for a JSXClosingElement/JSXClosingFragment match, return `self-closing' for some self-closing JSXOpeningElements, else return `other'." (cond ((= (char-after) ?/) (forward-char) 'close) ; JSXClosingElement/JSXClosingFragment ((= (char-after) ?>) (forward-char) 'other) ; JSXOpeningFragment ((and (looking-at js-jsx--tag-start-re) ; JSXOpeningElement (not (js--unary-keyword-p (match-string 1)))) (goto-char (match-end 0)) (if (= (char-before) ?/) 'self-closing 'other)))) (defconst js-jsx--self-closing-re "/\\s-*>" "Regexp matching the end of a self-closing JSXOpeningElement.") (defun js-jsx--matching-close-tag-pos () "Return position of the closer of the opener before point. Assuming a JSXOpeningElement or a JSXOpeningFragment is immediately before point, find a matching JSXClosingElement or JSXClosingFragment, skipping over any nested JSXElements to find the match. Return nil if a match can’t be found." (let ((tag-stack 1) tag-pos type last-pos pos) (catch 'stop (while (and (re-search-forward "<\\s-*" nil t) (not (eobp))) ;; Not inside a comment or string. (unless (nth 8 (save-excursion (syntax-ppss (match-beginning 0)))) (when (setq tag-pos (match-beginning 0) type (js-jsx--matched-tag-type)) (when last-pos (setq pos (point)) (goto-char last-pos) (while (re-search-forward js-jsx--self-closing-re pos 'move) (setq tag-stack (1- tag-stack)))) (if (eq type 'close) (progn (setq tag-stack (1- tag-stack)) (when (= tag-stack 0) (throw 'stop tag-pos))) ;; JSXOpeningElements that we know are self-closing ;; aren’t added to the stack at all (because point is ;; already past that syntax). (unless (eq type 'self-closing) (setq tag-stack (1+ tag-stack)))) (setq last-pos (point)))))))) (defun js-jsx--enclosing-tag-pos () "Return beginning and end of a JSXElement about point. Look backward for a JSXElement that both starts before point and also ends at/after point. That may be either a self-closing JSXElement or a JSXOpeningElement/JSXClosingElement pair." (let ((start (point)) tag-beg tag-beg-pos tag-end-pos close-tag-pos) (while (and (setq tag-beg (js--backward-text-property 'js-jsx-tag-beg)) (progn (setq tag-beg-pos (point) tag-end-pos (cdr tag-beg)) (not (or (and (eq (car tag-beg) 'self-closing) (< start tag-end-pos)) (and (eq (car tag-beg) 'open) (or (< start tag-end-pos) (progn (unless ;; Try to read a cached close position, ;; but it might not be available yet. (setq close-tag-pos (get-text-property (point) 'js-jsx-close-tag-pos)) (save-excursion (goto-char tag-end-pos) (setq close-tag-pos (js-jsx--matching-close-tag-pos))) (when close-tag-pos ;; Cache the close position to make future ;; searches faster. (put-text-property (point) (1+ (point)) 'js-jsx-close-tag-pos close-tag-pos))) ;; The JSXOpeningElement may be unclosed, else ;; the closure must occur at/after the start ;; point (otherwise, a miscellaneous previous ;; JSXOpeningElement has been found, so keep ;; looking backwards for an enclosing one). (or (not close-tag-pos) (<= start close-tag-pos))))))))) ;; Don’t return the last tag pos, as it wasn’t enclosing. (setq tag-beg nil close-tag-pos nil)) (and tag-beg (list tag-beg-pos tag-end-pos close-tag-pos)))) (defun js-jsx--at-enclosing-tag-child-p () "Return t if point is at an enclosing tag’s child." (let ((pos (save-excursion (js-jsx--enclosing-tag-pos)))) (and pos (>= (point) (nth 1 pos))))) ;; We implement `syntax-propertize-function' logic fully parsing JSX ;; in order to provide very accurate JSX indentation, even in the most ;; complex cases (e.g. to indent JSX within a JS expression within a ;; JSXAttribute…), as over the years users have requested this. Since ;; we find so much information during this parse, we later use some of ;; the useful bits for font-locking, too. ;; ;; Some extra effort is devoted to ensuring that no code which could ;; possibly be valid JS is ever misinterpreted as partial JSX, since ;; that would be regressive. ;; ;; We first parse trying to find the minimum number of components ;; necessary to unambiguously identify a JSXBoundaryElement, even if ;; it is a partial one. If a complete one is parsed, we move on to ;; parse any JSXText. When that’s terminated, we unwind back to the ;; `syntax-propertize-rules' loop so the next JSXBoundaryElement can ;; be parsed, if any, be it an opening or closing one. (defun js-jsx--text-range (beg end) "Identify JSXText within a “>/{/}/<” pair." (when (> (- end beg) 0) (save-excursion (goto-char beg) (while (and (skip-chars-forward " \t\n" end) (< (point) end)) ;; Comments and string quotes don’t serve their usual ;; syntactic roles in JSXText; make them plain punctuation to ;; negate those roles. (when (or (= (char-after) ?/) ; comment (= (syntax-class (syntax-after (point))) 7)) ; string quote (put-text-property (point) (1+ (point)) 'syntax-table '(1))) (forward-char))) ;; Mark JSXText so it can be font-locked as non-keywords. (put-text-property beg (1+ beg) 'js-jsx-text (list beg end (current-buffer))) ;; Ensure future propertization beginning from within the ;; JSXText determines JSXText context from earlier lines. (put-text-property beg end 'syntax-multiline t))) ;; In order to respect the end boundary `syntax-propertize-function' ;; sets, care is taken in the following functions to abort parsing ;; whenever that boundary is reached. (defun js-jsx--syntax-propertize-tag-text (end) "Determine if JSXText is before END and propertize it. Text within an open/close tag pair may be JSXText. Temporarily interrupt JSXText by JSXExpressionContainers, and terminate JSXText when another JSXBoundaryElement is encountered. Despite terminations, all JSXText will be identified once all the JSXBoundaryElements within an outermost JSXElement’s tree have been propertized." (let ((text-beg (point)) forward-sexp-function) ; Use Lisp version. (catch 'stop (while (re-search-forward "[{<]" end t) (js-jsx--text-range text-beg (1- (point))) (cond ((= (char-before) ?{) (let (expr-beg expr-end) (condition-case nil (save-excursion (backward-char) (setq expr-beg (point)) (forward-sexp) (setq expr-end (point))) (scan-error nil)) ;; Recursively propertize the JSXExpressionContainer’s ;; (possibly-incomplete) expression. (js-syntax-propertize (1+ expr-beg) (if expr-end (min (1- expr-end) end) end)) ;; Ensure future propertization beginning from within the ;; (possibly-incomplete) expression can determine JSXText ;; context from earlier lines. (put-text-property expr-beg (1+ expr-beg) 'js-jsx-expr (or expr-end end)) ; font-lock (put-text-property expr-beg (if expr-end (min expr-end end) end) 'syntax-multiline t) ; syntax-propertize ;; Exit the JSXExpressionContainer if that’s possible, ;; else move to the end of the propertized area. (goto-char (if expr-end (min expr-end end) end)))) ((= (char-before) ?<) (backward-char) ; Ensure the next tag can be propertized. (throw 'stop nil))) (setq text-beg (point)))))) (defconst js-jsx--attribute-name-re (concat js--name-start-re "\\(?:\\s_\\|\\sw\\|-\\)*") "Like `js--name-re', but matches “-” as well.") (defun js-jsx--syntax-propertize-tag (end) "Determine if a JSXBoundaryElement is before END and propertize it. Disambiguate JSX from inequality operators and arrow functions by testing for syntax only valid as JSX." (let ((tag-beg (1- (point))) tag-end (type 'open) name-beg name-match-data expr-attribute-beg unambiguous forward-sexp-function) ; Use Lisp version. (catch 'stop (while (and (< (point) end) (progn (skip-chars-forward " \t\n" end) (< (point) end))) (cond ((= (char-after) ?>) ;; Make the closing “>” a close parenthesis. (put-text-property (point) (1+ (point)) 'syntax-table (eval-when-compile (string-to-syntax ")<"))) (forward-char) (setq unambiguous t) (throw 'stop nil)) ;; Handle a JSXSpreadChild (“= (point) end) (throw 'stop nil)) (skip-chars-forward " \t\n" end) (if (>= (point) end) (throw 'stop nil)) (if (= (char-after) ?}) (forward-char) ; Shortcut to bail. ;; Recursively propertize the JSXExpressionContainer’s ;; expression. (js-syntax-propertize (point) (if expr-end (min (1- expr-end) end) end)) ;; Exit the JSXExpressionContainer if that’s possible, ;; else move to the end of the propertized area. (goto-char (if expr-end (min expr-end end) end))))) ((= (char-after) ?/) ;; Assume a tag is an open tag until a slash is found, then ;; figure out what type it actually is. (if (eq type 'open) (setq type (if name-beg 'self-closing 'close))) (forward-char)) ((and (not name-beg) (looking-at js--dotted-name-re)) ;; Don’t match code like “if (i < await foo)” (if (js--unary-keyword-p (match-string 0)) (throw 'stop nil)) ;; Save boundaries for later fontification after ;; unambiguously determining the code is JSX. (setq name-beg (match-beginning 0) name-match-data (match-data)) (goto-char (match-end 0))) ((and name-beg (looking-at js-jsx--attribute-name-re)) (setq unambiguous t) ; Non-unary name followed by 2nd name ⇒ JSX ;; Save JSXAttribute’s name’s match data for font-locking later. (put-text-property (match-beginning 0) (1+ (match-beginning 0)) 'js-jsx-attribute-name (match-data)) (goto-char (match-end 0)) (if (>= (point) end) (throw 'stop nil)) (skip-chars-forward " \t\n" end) (if (>= (point) end) (throw 'stop nil)) ;; “=” is optional for null-valued JSXAttributes. (when (= (char-after) ?=) (forward-char) (if (>= (point) end) (throw 'stop nil)) (skip-chars-forward " \t\n" end) (if (>= (point) end) (throw 'stop nil)) ;; Skip over strings (if possible). Any ;; JSXExpressionContainer here will be parsed in the ;; next iteration of the loop. (if (memq (char-after) '(?\" ?\' ?\`)) (progn ;; Record the string’s position so derived modes ;; applying syntactic fontification atypically ;; (e.g. js2-mode) can recognize it as part of JSX. (put-text-property (point) (1+ (point)) 'js-jsx-string t) (condition-case nil (forward-sexp) (scan-error (throw 'stop nil)))) ;; Save JSXAttribute’s beginning in case we find a ;; JSXExpressionContainer as the JSXAttribute’s value which ;; we should associate with the JSXAttribute. (setq expr-attribute-beg (match-beginning 0))))) ;; There is nothing more to check; this either isn’t JSX, or ;; the tag is incomplete. (t (throw 'stop nil))))) (when unambiguous ;; Save JSXBoundaryElement’s name’s match data for font-locking. (if name-beg (put-text-property name-beg (1+ name-beg) 'js-jsx-tag-name name-match-data)) ;; Make the opening “<” an open parenthesis. (put-text-property tag-beg (1+ tag-beg) 'syntax-table (eval-when-compile (string-to-syntax "(>"))) ;; Prevent “out of range” errors when typing at the end of a buffer. (setq tag-end (if (eobp) (1- (point)) (point))) ;; Mark beginning and end of tag for font-locking. (put-text-property tag-beg (1+ tag-beg) 'js-jsx-tag-beg (cons type tag-end)) (put-text-property tag-end (1+ tag-end) 'js-jsx-tag-end tag-beg) ;; Use text properties to extend the syntax-propertize region ;; backward to the beginning of the JSXBoundaryElement in the ;; future. Typically the closing angle bracket could suggest ;; extending backward, but that would also involve more rigorous ;; parsing, and the closing angle bracket may not even exist yet ;; if the JSXBoundaryElement is still being typed. (put-text-property tag-beg (1+ tag-end) 'syntax-multiline t)) (if (js-jsx--at-enclosing-tag-child-p) (js-jsx--syntax-propertize-tag-text end)))) (defconst js-jsx--text-properties (list 'js-jsx-tag-beg nil 'js-jsx-tag-end nil 'js-jsx-close-tag-pos nil 'js-jsx-tag-name nil 'js-jsx-attribute-name nil 'js-jsx-string nil 'js-jsx-text nil 'js-jsx-expr nil 'js-jsx-expr-attribute nil) "Plist of text properties added by `js-syntax-propertize'.") (defun js-syntax-propertize (start end) ;; JavaScript allows immediate regular expression objects, written /.../. (goto-char start) (if js-jsx-syntax (remove-text-properties start end js-jsx--text-properties)) (js-syntax-propertize-regexp end) (funcall (syntax-propertize-rules ;; Distinguish /-division from /-regexp chars (and from /-comment-starter). ;; FIXME: Allow regexps after infix ops like + ... ;; https://developer.mozilla.org/en/JavaScript/Reference/Operators ;; We can probably just add +, -, <, >, %, ^, ~, ?, : at which ;; point I think only * and / would be missing which could also be added, ;; but need care to avoid affecting the // and */ comment markers. ("\\(?:^\\|[=([{,:;|&!]\\|\\_\\)\\(?:[ \t]\\)*\\(/\\)[^/*]" (1 (ignore (forward-char -1) (when (or (not (memq (char-after (match-beginning 0)) '(?\s ?\t))) ;; If the / is at the beginning of line, we have to check ;; the end of the previous text. (save-excursion (goto-char (match-beginning 0)) (forward-comment (- (point))) (memq (char-before) (eval-when-compile (append "=({[,:;" '(nil)))))) (put-text-property (match-beginning 1) (match-end 1) 'syntax-table (string-to-syntax "\"/")) (js-syntax-propertize-regexp end))))) ("\\`\\(#\\)!" (1 "< b")) ("<" (0 (ignore (when js-jsx-syntax ;; Not inside a comment or string. (unless (nth 8 (save-excursion (syntax-ppss (match-beginning 0)))) (js-jsx--syntax-propertize-tag end))))))) (point) end)) (defconst js--prettify-symbols-alist '(("=>" . ?⇒) (">=" . ?≥) ("<=" . ?≤)) "Alist of symbol prettifications for JavaScript.") ;;; Indentation (defconst js--possibly-braceless-keyword-re (js--regexp-opt-symbol '("catch" "do" "else" "finally" "for" "if" "try" "while" "with" "each")) "Regexp matching keywords optionally followed by an opening brace.") (defconst js--declaration-keyword-re (regexp-opt '("var" "let" "const") 'words) "Regular expression matching variable declaration keywords.") (defconst js--indent-operator-re (concat "[-+*/%<>&^|?:.]\\([^-+*/.]\\|$\\)\\|!?=\\|" (js--regexp-opt-symbol '("in" "instanceof"))) "Regexp matching operators that affect indentation of continued expressions.") (defun js-jsx--looking-at-start-tag-p () "Non-nil if a JSXOpeningElement immediately follows point." (let ((tag-beg (get-text-property (point) 'js-jsx-tag-beg))) (and tag-beg (memq (car tag-beg) '(open self-closing))))) (defun js--looking-at-operator-p () "Return non-nil if point is on a JavaScript operator, other than a comma." (save-match-data (and (looking-at js--indent-operator-re) (or (not (eq (char-after) ?:)) (save-excursion (js--backward-syntactic-ws) (when (= (char-before) ?\)) (backward-list)) (and (js--re-search-backward "[?:{]\\|\\_" nil t) (eq (char-after) ??)))) (not (and (eq (char-after) ?/) (save-excursion (eq (nth 3 (syntax-ppss)) ?/)))) (not (and (eq (char-after) ?*) ;; Generator method (possibly using computed property). (looking-at (concat "\\* *\\(?:\\[\\|" js--name-re " *(\\)")) (save-excursion (js--backward-syntactic-ws) ;; We might misindent some expressions that would ;; return NaN anyway. Shouldn't be a problem. (memq (char-before) '(?, ?} ?{))))) ;; “<” isn’t necessarily an operator in JSX. (not (and js-jsx-syntax (js-jsx--looking-at-start-tag-p)))))) (defun js--find-newline-backward () "Move backward to the nearest newline that is not in a block comment." (let ((continue t) (result t)) (while continue (setq continue nil) (if (search-backward "\n" nil t) (let ((parse (syntax-ppss))) ;; We match the end of a // comment but not a newline in a ;; block comment. (when (nth 4 parse) (goto-char (nth 8 parse)) ;; If we saw a block comment, keep trying. (unless (nth 7 parse) (setq continue t)))) (setq result nil))) result)) (defun js-jsx--looking-back-at-end-tag-p () "Non-nil if a JSXClosingElement immediately precedes point." (get-text-property (point) 'js-jsx-tag-end)) (defun js--continued-expression-p () "Return non-nil if the current line continues an expression." (save-excursion (back-to-indentation) (if (js--looking-at-operator-p) (if (eq (char-after) ?/) (prog1 (not (nth 3 (syntax-ppss (1+ (point))))) (forward-char -1)) (or (not (memq (char-after) '(?- ?+))) (progn (forward-comment (- (point))) (not (memq (char-before) '(?, ?\[ ?\()))))) (and (js--find-newline-backward) (progn (skip-chars-backward " \t") (and ;; The “>” at the end of any JSXBoundaryElement isn’t ;; part of a continued expression. (not (and js-jsx-syntax (js-jsx--looking-back-at-end-tag-p))) (progn (or (bobp) (backward-char)) (and (> (point) (point-min)) (save-excursion (backward-char) (not (looking-at "[/*]/\\|=>"))) (js--looking-at-operator-p) (and (progn (backward-char) (not (looking-at "\\+\\+\\|--\\|/[/*]")))))))))))) (defun js--skip-term-backward () "Skip a term before point; return t if a term was skipped." (let ((term-skipped nil)) ;; Skip backward over balanced parens. (let ((progress t)) (while progress (setq progress nil) ;; First skip whitespace. (skip-syntax-backward " ") ;; Now if we're looking at closing paren, skip to the opener. ;; This doesn't strictly follow JS syntax, in that we might ;; skip something nonsensical like "()[]{}", but it is enough ;; if it works ok for valid input. (when (memq (char-before) '(?\] ?\) ?\})) (setq progress t term-skipped t) (backward-list)))) ;; Maybe skip over a symbol. (let ((save-point (point))) (if (and (< (skip-syntax-backward "w_") 0) (looking-at js--name-re)) ;; Skipped. (progn (setq term-skipped t) (skip-syntax-backward " ")) ;; Did not skip, so restore point. (goto-char save-point))) (when (and term-skipped (> (point) (point-min))) (backward-char) (eq (char-after) ?.)))) (defun js--skip-terms-backward () "Skip any number of terms backward. Move point to the earliest \".\" without changing paren levels. Returns t if successful, nil if no term was found." (when (js--skip-term-backward) ;; Found at least one. (let ((last-point (point))) (while (js--skip-term-backward) (setq last-point (point))) (goto-char last-point) t))) (defun js--chained-expression-p () "A helper for js--proper-indentation that handles chained expressions. A chained expression is when the current line starts with '.' and the previous line also has a '.' expression. This function returns the indentation for the current line if it is a chained expression line; otherwise nil. This should only be called while point is at the start of the line's content, as determined by `back-to-indentation'." (when js-chain-indent (save-excursion (when (and (eq (char-after) ?.) (js--continued-expression-p) (js--find-newline-backward) (js--skip-terms-backward)) (current-column))))) (defun js--end-of-do-while-loop-p () "Return non-nil if point is on the \"while\" of a do-while statement. Otherwise, return nil. A braceless do-while statement spanning several lines requires that the start of the loop is indented to the same column as the current line." (interactive) (save-excursion (save-match-data (when (looking-at "\\s-*\\_") (if (save-excursion (skip-chars-backward " \t\n}") (looking-at "[ \t\n]*}")) (save-excursion (backward-list) (forward-symbol -1) (looking-at "\\_")) (js--re-search-backward "\\_" (point-at-bol) t) (or (looking-at "\\_") (let ((saved-indent (current-indentation))) (while (and (js--re-search-backward "^\\s-*\\_<" nil t) (/= (current-indentation) saved-indent))) (and (looking-at "\\s-*\\_") (not (js--re-search-forward "\\_" (point-at-eol) t)) (= (current-indentation) saved-indent))))))))) (defun js--ctrl-statement-indentation () "Helper function for `js--proper-indentation'. Return the proper indentation of the current line if it starts the body of a control statement without braces; otherwise, return nil." (save-excursion (back-to-indentation) (when (save-excursion (and (not (eq (point-at-bol) (point-min))) (not (looking-at "[{]")) (js--re-search-backward "[[:graph:]]" nil t) (progn (or (eobp) (forward-char)) (when (= (char-before) ?\)) (backward-list)) (skip-syntax-backward " ") (skip-syntax-backward "w_") (looking-at js--possibly-braceless-keyword-re)) (memq (char-before) '(?\s ?\t ?\n ?\})) (not (js--end-of-do-while-loop-p)))) (save-excursion (goto-char (match-beginning 0)) (+ (current-indentation) js-indent-level))))) (defun js--get-c-offset (symbol anchor) (let ((c-offsets-alist (list (cons 'c js-comment-lineup-func)))) (c-get-syntactic-indentation (list (cons symbol anchor))))) (defun js--same-line (pos) (and (>= pos (point-at-bol)) (<= pos (point-at-eol)))) (defun js--multi-line-declaration-indentation () "Helper function for `js--proper-indentation'. Return the proper indentation of the current line if it belongs to a declaration statement spanning multiple lines; otherwise, return nil." (let (forward-sexp-function ; Use Lisp version. at-opening-bracket) (save-excursion (back-to-indentation) (when (not (looking-at js--declaration-keyword-re)) (let ((pt (point))) (when (looking-at js--indent-operator-re) (goto-char (match-end 0))) ;; The "operator" is probably a regexp literal opener. (when (nth 3 (syntax-ppss)) (goto-char pt))) (while (and (not at-opening-bracket) (not (bobp)) (let ((pos (point))) (save-excursion (js--backward-syntactic-ws) (or (eq (char-before) ?,) (and (not (eq (char-before) ?\;)) (prog2 (skip-syntax-backward ".") (looking-at js--indent-operator-re) (js--backward-syntactic-ws)) (not (eq (char-before) ?\;))) (js--same-line pos))))) (condition-case nil (backward-sexp) (scan-error (setq at-opening-bracket t)))) (when (looking-at js--declaration-keyword-re) (goto-char (match-end 0)) (1+ (current-column))))))) (defun js--indent-in-array-comp (bracket) "Return non-nil if we think we're in an array comprehension. In particular, return the buffer position of the first `for' kwd." (let ((end (point))) (save-excursion (goto-char bracket) (when (looking-at "\\[") (forward-char 1) (js--forward-syntactic-ws) (if (looking-at "[[{]") (let (forward-sexp-function) ; Use Lisp version. (condition-case nil (progn (forward-sexp) ; Skip destructuring form. (js--forward-syntactic-ws) (if (and (/= (char-after) ?,) ; Regular array. (looking-at "for")) (match-beginning 0))) (scan-error ;; Nothing to do here. nil))) ;; To skip arbitrary expressions we need the parser, ;; so we'll just guess at it. (if (and (> end (point)) ; Not empty literal. (re-search-forward "[^,]]* \\(for\\_>\\)" end t) ;; Not inside comment or string literal. (let ((status (parse-partial-sexp bracket (point)))) (and (= 1 (car status)) (not (nth 8 status))))) (match-beginning 1))))))) (defun js--array-comp-indentation (bracket for-kwd) (if (js--same-line for-kwd) ;; First continuation line. (save-excursion (goto-char bracket) (forward-char 1) (skip-chars-forward " \t") (current-column)) (save-excursion (goto-char for-kwd) (current-column)))) (defun js--maybe-goto-declaration-keyword-end (parse-status) "Helper function for `js--proper-indentation'. Depending on the value of `js-indent-first-init', move point to the end of a variable declaration keyword so that indentation is aligned to that column." (cond ((eq js-indent-first-init t) (when (looking-at js--declaration-keyword-re) (goto-char (1+ (match-end 0))))) ((eq js-indent-first-init 'dynamic) (let ((bracket (nth 1 parse-status)) declaration-keyword-end at-closing-bracket-p forward-sexp-function ; Use Lisp version. comma-p) (when (looking-at js--declaration-keyword-re) (setq declaration-keyword-end (match-end 0)) (save-excursion (goto-char bracket) (setq at-closing-bracket-p (condition-case nil (progn (forward-sexp) t) (error nil))) (when at-closing-bracket-p (while (forward-comment 1)) (setq comma-p (looking-at-p ",")))) (when comma-p (goto-char (1+ declaration-keyword-end)))))))) (defconst js--line-terminating-arrow-re "=>\\s-*\\(/[/*]\\|$\\)" "Regexp matching the last \"=>\" (arrow) token on a line. Whitespace and comments around the arrow are ignored.") (defun js--broken-arrow-terminates-line-p () "Helper function for `js--proper-indentation'. Return non-nil if the last non-comment, non-whitespace token of the current line is the \"=>\" token (of an arrow function)." (let ((from (point))) (end-of-line) (re-search-backward js--line-terminating-arrow-re from t))) ;; When indenting, we want to know if the line is… ;; ;; - within a multiline JSXElement, or ;; - within a string in a JSXBoundaryElement, or ;; - within JSXText, or ;; - within a JSXAttribute’s multiline JSXExpressionContainer. ;; ;; In these cases, special XML-like indentation rules for JSX apply. ;; If JS is nested within JSX, then indentation calculations may be ;; combined, such that JS indentation is “relative” to the JSX’s. ;; ;; Therefore, functions below provide such contextual information, and ;; `js--proper-indentation' may call itself once recursively in order ;; to finish calculating that “relative” JS+JSX indentation. (defun js-jsx--context () "Determine JSX context and move to enclosing JSX." (let ((pos (point)) (parse-status (syntax-ppss)) (enclosing-tag-pos (js-jsx--enclosing-tag-pos))) (when enclosing-tag-pos (if (< pos (nth 1 enclosing-tag-pos)) (if (nth 3 parse-status) (list 'string (nth 8 parse-status)) (list 'tag (nth 0 enclosing-tag-pos) (nth 1 enclosing-tag-pos))) (list 'text (nth 0 enclosing-tag-pos) (nth 2 enclosing-tag-pos)))))) (defun js-jsx--contextual-indentation (line context) "Calculate indentation column for LINE from CONTEXT. The column calculation is based off of `sgml-calculate-indent'." (pcase (nth 0 context) ('string ;; Go back to previous non-empty line. (while (and (> (point) (nth 1 context)) (zerop (forward-line -1)) (looking-at "[ \t]*$"))) (if (> (point) (nth 1 context)) ;; Previous line is inside the string. (current-indentation) (goto-char (nth 1 context)) (1+ (current-column)))) ('tag ;; Special JSX indentation rule: a “dangling” closing angle ;; bracket on its own line is indented at the same level as the ;; opening angle bracket of the JSXElement. Otherwise, indent ;; JSXAttribute space like SGML. (if (and js-jsx-align->-with-< (progn (goto-char (nth 2 context)) (and (= line (line-number-at-pos)) (looking-back "^\\s-*/?>" (line-beginning-position))))) (progn (goto-char (nth 1 context)) (current-column)) ;; Indent JSXAttribute space like SGML. (goto-char (nth 1 context)) ;; Skip tag name: (skip-chars-forward " \t") (skip-chars-forward "^ \t\n") (skip-chars-forward " \t") (if (not (eolp)) (current-column) ;; This is the first attribute: indent. (goto-char (+ (nth 1 context) js-jsx-attribute-offset)) (+ (current-column) (or js-jsx-indent-level js-indent-level))))) ('text ;; Indent to reflect nesting. (goto-char (nth 1 context)) (+ (current-column) ;; The last line isn’t nested, but the rest are. (if (or (not (nth 2 context)) ; Unclosed. (< line (line-number-at-pos (nth 2 context)))) (or js-jsx-indent-level js-indent-level) 0))) )) (defun js-jsx--enclosing-curly-pos () "Return position of enclosing “{” in a “{/}” pair about point." (let ((parens (reverse (nth 9 (syntax-ppss)))) paren-pos curly-pos) (while (and (setq paren-pos (car parens)) (not (when (= (char-after paren-pos) ?{) (setq curly-pos paren-pos))) (setq parens (cdr parens)))) curly-pos)) (defun js-jsx--goto-outermost-enclosing-curly (limit) "Set point to enclosing “{” at or closest after LIMIT." (let (pos) (while (and (setq pos (js-jsx--enclosing-curly-pos)) (if (>= pos limit) (goto-char pos)) (> pos limit))))) (defun js-jsx--expr-attribute-pos (start limit) "Look back from START to LIMIT for a JSXAttribute." (save-excursion (goto-char start) ; Skip the first curly. ;; Skip any remaining enclosing curlies until the JSXElement’s ;; beginning position; the last curly ought to be one of a ;; JSXExpressionContainer, which may refer to its JSXAttribute’s ;; beginning position (if it has one). (js-jsx--goto-outermost-enclosing-curly limit) (get-text-property (point) 'js-jsx-expr-attribute))) (defvar js-jsx--indent-col nil "Baseline column for JS indentation within JSX.") (defvar js-jsx--indent-attribute-line nil "Line relative to which indentation uses JSX as a baseline.") (defun js-jsx--expr-indentation (parse-status pos col) "Indent using PARSE-STATUS; relative to POS, use base COL. To indent a JSXExpressionContainer’s expression, calculate the JS indentation, using JSX indentation as the base column when indenting relative to the beginning line of the JSXExpressionContainer’s JSXAttribute (if any)." (let* ((js-jsx--indent-col col) (js-jsx--indent-attribute-line (if pos (line-number-at-pos pos)))) (js--proper-indentation parse-status))) (defun js-jsx--indentation (parse-status) "Helper function for `js--proper-indentation'. Return the proper indentation of the current line if it is part of a JSXElement expression spanning multiple lines; otherwise, return nil." (let ((current-line (line-number-at-pos)) (curly-pos (js-jsx--enclosing-curly-pos)) nth-context context expr-p beg-line col forward-sexp-function) ; Use the Lisp version. ;; Find the immediate context for indentation information, but ;; keep going to determine that point is at the N+1th line of ;; multiline JSX. (save-excursion (while (and (setq nth-context (js-jsx--context)) (progn (unless context (setq context nth-context) (setq expr-p (and curly-pos (< (point) curly-pos)))) (setq beg-line (line-number-at-pos)) (and (= beg-line current-line) (or (not curly-pos) (> (point) curly-pos))))))) ;; When on the second or later line of JSX, indent as JSX, ;; possibly switching back to JS indentation within ;; JSXExpressionContainers, possibly using the JSX as a base ;; column while switching back to JS indentation. (when (and context (> current-line beg-line)) (save-excursion (setq col (js-jsx--contextual-indentation current-line context))) (if expr-p (js-jsx--expr-indentation parse-status (js-jsx--expr-attribute-pos curly-pos (nth 1 context)) col) col)))) (defun js--proper-indentation (parse-status) "Return the proper indentation for the current line." (save-excursion (back-to-indentation) (cond ((nth 4 parse-status) ; inside comment (js--get-c-offset 'c (nth 8 parse-status))) ((nth 3 parse-status) 0) ; inside string ((when (and js-jsx-syntax (not js-jsx--indent-col)) (save-excursion (js-jsx--indentation parse-status)))) ((and (eq (char-after) ?#) (save-excursion (forward-char 1) (looking-at-p cpp-font-lock-keywords-source-directives))) 0) ((save-excursion (js--beginning-of-macro)) 4) ;; Indent array comprehension continuation lines specially. ((let ((bracket (nth 1 parse-status)) beg) (and bracket (not (js--same-line bracket)) (setq beg (js--indent-in-array-comp bracket)) ;; At or after the first loop? (>= (point) beg) (js--array-comp-indentation bracket beg)))) ((js--chained-expression-p)) ((js--ctrl-statement-indentation)) ((js--multi-line-declaration-indentation)) ((nth 1 parse-status) ;; A single closing paren/bracket should be indented at the ;; same level as the opening statement. Same goes for ;; "case" and "default". (let ((same-indent-p (looking-at "[]})]")) (switch-keyword-p (looking-at "default\\_>\\|case\\_>[^:]")) (continued-expr-p (js--continued-expression-p))) (goto-char (nth 1 parse-status)) ; go to the opening char (if (or (not js-indent-align-list-continuation) (looking-at "[({[]\\s-*\\(/[/*]\\|$\\)") (save-excursion (forward-char) (js--broken-arrow-terminates-line-p))) (progn ; nothing following the opening paren/bracket (skip-syntax-backward " ") (when (eq (char-before) ?\)) (backward-list)) (back-to-indentation) (js--maybe-goto-declaration-keyword-end parse-status) (let* ((in-switch-p (unless same-indent-p (looking-at "\\_"))) (same-indent-p (or same-indent-p (and switch-keyword-p in-switch-p))) (indent (+ (cond ((and js-jsx--indent-attribute-line (eq js-jsx--indent-attribute-line (line-number-at-pos))) js-jsx--indent-col) (t (current-column))) (cond (same-indent-p 0) (continued-expr-p (+ (* 2 js-indent-level) js-expr-indent-offset)) (t (+ js-indent-level (pcase (char-after (nth 1 parse-status)) (?\( js-paren-indent-offset) (?\[ js-square-indent-offset) (?\{ js-curly-indent-offset)))))))) (if in-switch-p (+ indent js-switch-indent-offset) indent))) ;; If there is something following the opening ;; paren/bracket, everything else should be indented at ;; the same level. (unless same-indent-p (forward-char) (skip-chars-forward " \t")) (current-column)))) ((js--continued-expression-p) (+ js-indent-level js-expr-indent-offset)) (t (prog-first-column))))) (defun js-indent-line () "Indent the current line as JavaScript." (interactive) (let* ((parse-status (save-excursion (syntax-ppss (point-at-bol)))) (offset (- (point) (save-excursion (back-to-indentation) (point))))) (unless (nth 3 parse-status) (indent-line-to (js--proper-indentation parse-status)) (when (> offset 0) (forward-char offset))))) (defun js-jsx-indent-line () "Indent the current line as JavaScript+JSX." (interactive) (let ((js-jsx-syntax t)) (js-indent-line))) ;;; Filling (defvar js--filling-paragraph nil) ;; FIXME: Such redefinitions are bad style. We should try and use some other ;; way to get the same result. (defun js--fill-c-advice (js-fun) (lambda (orig-fun &rest args) (if js--filling-paragraph (funcall js-fun (car args)) (apply orig-fun args)))) (advice-add 'c-forward-sws :around (js--fill-c-advice #'js--forward-syntactic-ws)) (advice-add 'c-backward-sws :around (js--fill-c-advice #'js--backward-syntactic-ws)) (advice-add 'c-beginning-of-macro :around (js--fill-c-advice #'js--beginning-of-macro)) (define-obsolete-function-alias 'js-c-fill-paragraph #'js-fill-paragraph "27.1") (defun js-fill-paragraph (&optional justify) "Fill the paragraph for Javascript code." (interactive "*P") (let ((js--filling-paragraph t) (fill-paragraph-function #'c-fill-paragraph)) (c-fill-paragraph justify))) (defun js-do-auto-fill () (let ((js--filling-paragraph t)) (c-do-auto-fill))) ;;; Type database and Imenu ;; We maintain a cache of semantic information, i.e., the classes and ;; functions we've encountered so far. In order to avoid having to ;; re-parse the buffer on every change, we cache the parse state at ;; each interesting point in the buffer. Each parse state is a ;; modified copy of the previous one, or in the case of the first ;; parse state, the empty state. ;; ;; The parse state itself is just a stack of js--pitem ;; instances. It starts off containing one element that is never ;; closed, that is initially js--initial-pitem. ;; (defun js--pitem-format (pitem) (let ((name (js--pitem-name pitem)) (type (js--pitem-type pitem))) (format "name:%S type:%S" name (if (atom type) type (plist-get type :name))))) (defun js--make-merged-item (item child name-parts) "Helper function for `js--splice-into-items'. Return a new item that is the result of merging CHILD into ITEM. NAME-PARTS is a list of parts of the name of CHILD that we haven't consumed yet." (js--debug "js--make-merged-item: {%s} into {%s}" (js--pitem-format child) (js--pitem-format item)) ;; If the item we're merging into isn't a class, make it into one (unless (consp (js--pitem-type item)) (js--debug "js--make-merged-item: changing dest into class") (setq item (make-js--pitem :children (list item) ;; Use the child's class-style if it's available :type (if (atom (js--pitem-type child)) js--dummy-class-style (js--pitem-type child)) :name (js--pitem-strname item)))) ;; Now we can merge either a function or a class into a class (cons (cond ((cdr name-parts) (js--debug "js--make-merged-item: recursing") ;; if we have more name-parts to go before we get to the ;; bottom of the class hierarchy, call the merger ;; recursively (js--splice-into-items (car item) child (cdr name-parts))) ((atom (js--pitem-type child)) (js--debug "js--make-merged-item: straight merge") ;; Not merging a class, but something else, so just prepend ;; it (cons child (car item))) (t ;; Otherwise, merge the new child's items into those ;; of the new class (js--debug "js--make-merged-item: merging class contents") (append (car child) (car item)))) (cdr item))) (defun js--pitem-strname (pitem) "Last part of the name of PITEM, as a string or symbol." (let ((name (js--pitem-name pitem))) (if (consp name) (car (last name)) name))) (defun js--splice-into-items (items child name-parts) "Splice CHILD into the `js--pitem' ITEMS at NAME-PARTS. If a class doesn't exist in the tree, create it. Return the new items list. NAME-PARTS is a list of strings given the broken-down class name of the item to insert." (let ((top-name (car name-parts)) (item-ptr items) new-items last-new-item new-cons) (js--debug "js--splice-into-items: name-parts: %S items:%S" name-parts (mapcar #'js--pitem-name items)) (cl-assert (stringp top-name)) (cl-assert (> (length top-name) 0)) ;; If top-name isn't found in items, then we build a copy of items ;; and throw it away. But that's okay, since most of the time, we ;; *will* find an instance. (while (and item-ptr (cond ((equal (js--pitem-strname (car item-ptr)) top-name) ;; Okay, we found an entry with the right name. Splice ;; the merged item into the list... (setq new-cons (cons (js--make-merged-item (car item-ptr) child name-parts) (cdr item-ptr))) (if last-new-item (setcdr last-new-item new-cons) (setq new-items new-cons)) ;; ...and terminate the loop nil) (t ;; Otherwise, copy the current cons and move onto the ;; text. This is tricky; we keep track of the tail of ;; the list that begins with new-items in ;; last-new-item. (setq new-cons (cons (car item-ptr) nil)) (if last-new-item (setcdr last-new-item new-cons) (setq new-items new-cons)) (setq last-new-item new-cons) ;; Go to the next cell in items (setq item-ptr (cdr item-ptr)))))) (if item-ptr ;; Yay! We stopped because we found something, not because ;; we ran out of items to search. Just return the new ;; list. (progn (js--debug "search succeeded: %S" name-parts) new-items) ;; We didn't find anything. If the child is a class and we don't ;; have any classes to drill down into, just push that class; ;; otherwise, make a fake class and carry on. (js--debug "search failed: %S" name-parts) (cons (if (cdr name-parts) ;; We have name-parts left to process. Make a fake ;; class for this particular part... (make-js--pitem ;; ...and recursively digest the rest of the name :children (js--splice-into-items nil child (cdr name-parts)) :type js--dummy-class-style :name top-name) ;; Otherwise, this is the only name we have, so stick ;; the item on the front of the list child) items)))) (defun js--pitem-add-child (pitem child) "Copy `js--pitem' PITEM, and push CHILD onto its list of children." (cl-assert (integerp (js--pitem-h-begin child))) (cl-assert (if (consp (js--pitem-name child)) (cl-loop for part in (js--pitem-name child) always (stringp part)) t)) ;; This trick works because we know (based on our defstructs) that ;; the child list is always the first element, and so the second ;; element and beyond can be shared when we make our "copy". (cons (let ((name (js--pitem-name child)) (type (js--pitem-type child))) (cond ((cdr-safe name) ; true if a list of at least two elements ;; Use slow path because we need class lookup (js--splice-into-items (car pitem) child name)) ((and (consp type) (plist-get type :prototype)) ;; Use slow path because we need class merging. We know ;; name is a list here because down in ;; `js--ensure-cache', we made sure to only add ;; class entries with lists for :name (cl-assert (consp name)) (js--splice-into-items (car pitem) child name)) (t ;; Fast path (cons child (car pitem))))) (cdr pitem))) (defun js--maybe-make-marker (location) "Return a marker for LOCATION if `imenu-use-markers' is non-nil." (if imenu-use-markers (set-marker (make-marker) location) location)) (defun js--pitems-to-imenu (pitems unknown-ctr) "Convert PITEMS, a list of `js--pitem' structures, to imenu format." (let (imenu-items pitem pitem-type pitem-name subitems) (while (setq pitem (pop pitems)) (setq pitem-type (js--pitem-type pitem)) (setq pitem-name (js--pitem-strname pitem)) (when (eq pitem-name t) (setq pitem-name (format "[unknown %s]" (cl-incf (car unknown-ctr))))) (cond ((memq pitem-type '(function macro)) (cl-assert (integerp (js--pitem-h-begin pitem))) (push (cons pitem-name (js--maybe-make-marker (js--pitem-h-begin pitem))) imenu-items)) ((consp pitem-type) ; class definition (setq subitems (js--pitems-to-imenu (js--pitem-children pitem) unknown-ctr)) (cond (subitems (push (cons pitem-name subitems) imenu-items)) ((js--pitem-h-begin pitem) (cl-assert (integerp (js--pitem-h-begin pitem))) (setq subitems (list (cons "[empty]" (js--maybe-make-marker (js--pitem-h-begin pitem))))) (push (cons pitem-name subitems) imenu-items)))) (t (error "Unknown item type: %S" pitem-type)))) imenu-items)) (defun js--imenu-create-index () "Return an imenu index for the current buffer." (save-excursion (save-restriction (widen) (goto-char (point-max)) (js--ensure-cache) (cl-assert (or (= (point-min) (point-max)) (eq js--last-parse-pos (point)))) (when js--last-parse-pos (let ((state js--state-at-last-parse-pos) (unknown-ctr (cons -1 nil))) ;; Make sure everything is closed (while (cdr state) (setq state (cons (js--pitem-add-child (cl-second state) (car state)) (cddr state)))) (cl-assert (= (length state) 1)) ;; Convert the new-finalized state into what imenu expects (js--pitems-to-imenu (car (js--pitem-children state)) unknown-ctr)))))) ;; Silence the compiler. (defvar which-func-imenu-joiner-function) (defun js--which-func-joiner (parts) (mapconcat #'identity parts ".")) (defun js--imenu-to-flat (items prefix symbols) (cl-loop for item in items if (imenu--subalist-p item) do (js--imenu-to-flat (cdr item) (concat prefix (car item) ".") symbols) else do (let* ((name (concat prefix (car item))) (name2 name) (ctr 0)) (while (gethash name2 symbols) (setq name2 (format "%s<%d>" name (cl-incf ctr)))) (puthash name2 (cdr item) symbols)))) (defun js--get-all-known-symbols () "Return a hash table of all JavaScript symbols. This searches all existing `js-mode' buffers. Each key is the name of a symbol (possibly disambiguated with , where N > 1), and each value is a marker giving the location of that symbol." (cl-loop with symbols = (make-hash-table :test 'equal) with imenu-use-markers = t for buffer being the buffers for imenu-index = (with-current-buffer buffer (when (derived-mode-p 'js-mode) (js--imenu-create-index))) do (js--imenu-to-flat imenu-index "" symbols) finally return symbols)) (defvar js--symbol-history nil "History of entered JavaScript symbols.") (defun js--read-symbol (symbols-table prompt &optional initial-input) "Helper function for `js-find-symbol'. Read a symbol from SYMBOLS-TABLE, which is a hash table like the one from `js--get-all-known-symbols', using prompt PROMPT and initial input INITIAL-INPUT. Return a cons of (SYMBOL-NAME . LOCATION), where SYMBOL-NAME is a string and LOCATION is a marker." (unless ido-mode (ido-mode 1) (ido-mode -1)) (let ((choice (ido-completing-read prompt (cl-loop for key being the hash-keys of symbols-table collect key) nil t initial-input 'js--symbol-history))) (cons choice (gethash choice symbols-table)))) (defun js--guess-symbol-at-point () (let ((bounds (bounds-of-thing-at-point 'symbol))) (when bounds (save-excursion (goto-char (car bounds)) (when (eq (char-before) ?.) (backward-char) (setf (car bounds) (point)))) (buffer-substring (car bounds) (cdr bounds))))) (declare-function xref-push-marker-stack "xref" (&optional m)) (defun js-find-symbol (&optional arg) "Read a JavaScript symbol and jump to it. With a prefix argument, restrict symbols to those from the current buffer. Pushes a mark onto the tag ring just like `find-tag'." (interactive "P") (require 'xref) (let (symbols marker) (if (not arg) (setq symbols (js--get-all-known-symbols)) (setq symbols (make-hash-table :test 'equal)) (js--imenu-to-flat (js--imenu-create-index) "" symbols)) (setq marker (cdr (js--read-symbol symbols "Jump to: " (js--guess-symbol-at-point)))) (xref-push-marker-stack) (switch-to-buffer (marker-buffer marker)) (push-mark) (goto-char marker))) ;;; Syntax extensions (defvar js-syntactic-mode-name t "If non-nil, print enabled syntaxes in the mode name.") (defun js--syntactic-mode-name-part () "Return a string like “[JSX]” when `js-jsx-syntax' is enabled." (if js-syntactic-mode-name (let (syntaxes) (if js-jsx-syntax (push "JSX" syntaxes)) (if syntaxes (concat "[" (mapconcat #'identity syntaxes ",") "]") "")) "")) (defun js-use-syntactic-mode-name () "Print enabled syntaxes if `js-syntactic-mode-name' is t. Modes deriving from `js-mode' should call this to ensure that their `mode-name' updates to show enabled syntax extensions." (when (stringp mode-name) (setq mode-name `(,mode-name (:eval (js--syntactic-mode-name-part)))))) (defun js-jsx-enable () "Enable JSX in the current buffer." (interactive) (setq-local js-jsx-syntax t)) ;; To make discovering and using syntax extensions features easier for ;; users (who might not read the docs), try to safely and ;; automatically enable syntax extensions based on heuristics. (defvar js-jsx-regexps (list "\\_<\\(?:var\\|let\\|const\\|import\\)\\_>.*?React") "Case-sensitive regexps for detecting JSX in JavaScript buffers. When `js-jsx-detect-syntax' is non-nil and any of these regexps match text near the beginning of a JavaScript buffer, `js-jsx-syntax' (which see) will be made buffer-local and set to t.") (defun js-jsx--detect-and-enable (&optional arbitrarily) "Detect if JSX is likely to be used, and enable it if so. Might make `js-jsx-syntax' buffer-local and set it to t. Matches from the beginning of the buffer, unless optional arg ARBITRARILY is non-nil. Return t after enabling, nil otherwise." (when (or (and (buffer-file-name) (string-match-p "\\.jsx\\'" (buffer-file-name))) (and js-jsx-detect-syntax (save-excursion (unless arbitrarily (goto-char (point-min))) (catch 'match (mapc (lambda (regexp) (when (let (case-fold-search) (re-search-forward regexp 4000 t)) (throw 'match t))) js-jsx-regexps) nil)))) (js-jsx-enable) t)) (defun js-jsx--detect-after-change (beg end _len) "Detect if JSX is likely to be used after a change. This function is intended for use in `after-change-functions'." (when (<= end 4000) (save-excursion (goto-char beg) (beginning-of-line) (save-restriction (narrow-to-region (point) end) (when (js-jsx--detect-and-enable 'arbitrarily) (remove-hook 'after-change-functions #'js-jsx--detect-after-change t)))))) ;; Ensure all CC Mode "lang variables" are set to valid values. ;; js-mode, however, currently uses only those needed for filling. (eval-and-compile (c-add-language 'js-mode 'java-mode)) (c-lang-defconst c-paragraph-start js-mode "\\(@[[:alpha:]]+\\>\\|$\\)") ;;; Main Function ;;;###autoload (define-derived-mode js-mode prog-mode "JavaScript" "Major mode for editing JavaScript." :group 'js ;; Ensure all CC Mode "lang variables" are set to valid values. (c-init-language-vars js-mode) (setq-local indent-line-function #'js-indent-line) (setq-local beginning-of-defun-function #'js-beginning-of-defun) (setq-local end-of-defun-function #'js-end-of-defun) (setq-local open-paren-in-column-0-is-defun-start nil) (setq-local font-lock-defaults (list js--font-lock-keywords nil nil nil nil '(font-lock-syntactic-face-function . js-font-lock-syntactic-face-function))) (setq-local syntax-propertize-function #'js-syntax-propertize) (add-hook 'syntax-propertize-extend-region-functions #'syntax-propertize-multiline 'append 'local) (add-hook 'syntax-propertize-extend-region-functions #'js--syntax-propertize-extend-region 'append 'local) (setq-local prettify-symbols-alist js--prettify-symbols-alist) (setq-local parse-sexp-ignore-comments t) (setq-local which-func-imenu-joiner-function #'js--which-func-joiner) ;; Comments (setq-local comment-start "// ") (setq-local comment-start-skip "\\(?://+\\|/\\*+\\)\\s *") (setq-local comment-end "") (setq-local fill-paragraph-function #'js-fill-paragraph) (setq-local normal-auto-fill-function #'js-do-auto-fill) ;; Parse cache (add-hook 'before-change-functions #'js--flush-caches t t) ;; Frameworks (js--update-quick-match-re) ;; Syntax extensions (unless (js-jsx--detect-and-enable) (add-hook 'after-change-functions #'js-jsx--detect-after-change nil t)) (js-use-syntactic-mode-name) ;; Imenu (setq imenu-case-fold-search nil) (setq imenu-create-index-function #'js--imenu-create-index) ;; for filling, pretend we're cc-mode (c-foreign-init-lit-pos-cache) (add-hook 'before-change-functions #'c-foreign-truncate-lit-pos-cache nil t) (setq-local comment-line-break-function #'c-indent-new-comment-line) (setq-local comment-multi-line t) (setq-local electric-indent-chars (append "{}():;," electric-indent-chars)) ;FIXME: js2-mode adds "[]*". (setq-local electric-layout-rules '((?\; . after) (?\{ . after) (?\} . before))) (let ((c-buffer-is-cc-mode t)) ;; FIXME: These are normally set by `c-basic-common-init'. Should ;; we call it instead? (Bug#6071) (make-local-variable 'paragraph-start) (make-local-variable 'paragraph-separate) (make-local-variable 'paragraph-ignore-fill-prefix) (make-local-variable 'adaptive-fill-mode) (make-local-variable 'adaptive-fill-regexp) ;; While the full CC Mode style system is not yet in use, set the ;; pertinent style variables manually. (c-initialize-builtin-style) (let ((style (cc-choose-style-for-mode 'js-mode c-default-style))) (c-set-style style)) (setq c-block-comment-prefix "* " c-comment-prefix-regexp "//+\\|\\**") (c-setup-paragraph-variables)) ;; Important to fontify the whole buffer syntactically! If we don't, ;; then we might have regular expression literals that aren't marked ;; as strings, which will screw up parse-partial-sexp, scan-lists, ;; etc. and produce maddening "unbalanced parenthesis" errors. ;; When we attempt to find the error and scroll to the portion of ;; the buffer containing the problem, JIT-lock will apply the ;; correct syntax to the regular expression literal and the problem ;; will mysteriously disappear. ;; FIXME: We should instead do this fontification lazily by adding ;; calls to syntax-propertize wherever it's really needed. ;;(syntax-propertize (point-max)) ) ;; Since we made JSX support available and automatically-enabled in ;; the base `js-mode' (for ease of use), now `js-jsx-mode' simply ;; serves as one other interface to unconditionally enable JSX in ;; buffers, mostly for backwards-compatibility. ;; ;; Since it is probably more common for packages to integrate with ;; `js-mode' than with `js-jsx-mode', it is therefore probably ;; slightly better for users to use one of the many other methods for ;; enabling JSX syntax. But using `js-jsx-mode' can’t be that bad ;; either, so we won’t bother users with an obsoletion warning. ;;;###autoload (define-derived-mode js-jsx-mode js-mode "JavaScript" "Major mode for editing JavaScript+JSX. Simply makes `js-jsx-syntax' buffer-local and sets it to t. `js-mode' may detect and enable support for JSX automatically if it appears to be used in a JavaScript file. You could also customize `js-jsx-regexps' to improve that detection; or, you could set `js-jsx-syntax' to t in your init file, or in a .dir-locals.el file, or using file variables; or, you could call `js-jsx-enable' in `js-mode-hook'. You may be better served by one of the aforementioned options instead of using this mode." :group 'js (js-jsx-enable) (setq-local comment-region-function #'js-jsx--comment-region) (js-use-syntactic-mode-name)) (defun js-jsx--comment-region (beg end &optional arg) (if (or (js-jsx--context) (save-excursion (skip-chars-forward " \t") (js-jsx--looking-at-start-tag-p))) (let ((comment-start "{/* ") (comment-end " */}")) (comment-region-default beg end arg)) (comment-region-default beg end arg))) ;;;###autoload (defalias 'javascript-mode 'js-mode) (eval-after-load 'folding '(when (fboundp 'folding-add-to-marks-list) (folding-add-to-marks-list 'js-mode "// {{{" "// }}}" ))) ;;;###autoload (dolist (name (list "node" "nodejs" "gjs" "rhino")) (add-to-list 'interpreter-mode-alist (cons (purecopy name) 'js-mode))) (provide 'js) ;;; js.el ends here