1
0
mirror of https://git.savannah.gnu.org/git/emacs.git synced 2024-11-23 07:19:15 +00:00
emacs/lisp/progmodes/cc-fonts.el
Alan Mackenzie b293aa91bc CC Mode. Allow fontification of "wrong" style comments with warning face.
This fixes bug #4192.

* etc/NEWS: Add a new entry.

* lisp/progmodes/cc-defs.el (c-font-lock-flush): New macro.

* lisp/progmodes/cc-cmds.el (c-toggle-comment-style): On toggling the comment
style, invoke c-font-lock-flush when c-mark-wrong-style-of-comment is non-nil,
to cause that marking to be done instead on the other style of comment.

* lisp/progmodes/cc-fonts.el (c-maybe-font-lock-wrong-style-comments): New
function.
(c-cpp-matchers): Call c-maybe-font-lock-wrong-style-comments when
appropriate.

* lisp/progmodes/cc-vars.el (c-mark-wrong-style-of-comment): New customizable
option.

* doc/misc/cc-mode.texi (top level, Indentation Commands, Guessing the Style,
Custom Macros): For some opening quote marks, correct '' to ``.
(Minor Modes): Add an xref to the new page "Wrong Comment Style" in a
footnote.
(Wrong Comment Style): New page.
2019-11-09 12:09:30 +00:00

3028 lines
112 KiB
EmacsLisp
Raw Blame History

This file contains invisible Unicode characters

This file contains invisible Unicode characters that are indistinguishable to humans but may be processed differently by a computer. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

;;; cc-fonts.el --- font lock support for CC Mode
;; Copyright (C) 2002-2019 Free Software Foundation, Inc.
;; Authors: 2003- Alan Mackenzie
;; 2002- Martin Stjernholm
;; Maintainer: bug-cc-mode@gnu.org
;; Created: 07-Jan-2002
;; Keywords: c languages
;; Package: cc-mode
;; 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 <https://www.gnu.org/licenses/>.
;;; Commentary:
;; Some comments on the use of faces:
;;
;; o `c-label-face-name' is either `font-lock-constant-face' (in
;; Emacs), or `font-lock-reference-face'.
;;
;; o `c-constant-face-name', `c-reference-face-name' and
;; `c-doc-markup-face-name' are essentially set up like
;; `c-label-face-name'.
;;
;; o `c-preprocessor-face-name' is `font-lock-preprocessor-face' in
;; XEmacs and - in lack of a closer equivalent -
;; `font-lock-builtin-face' or `font-lock-reference-face' in Emacs.
;;
;; o `c-doc-face-name' is `font-lock-doc-string-face' in XEmacs,
;; `font-lock-doc-face' in Emacs 21 and later, or
;; `font-lock-comment-face' in older Emacs (that since source
;; documentation are actually comments in these languages, as opposed
;; to elisp).
;;
;; TBD: We should probably provide real faces for the above uses and
;; instead initialize them from the standard faces.
;;; Code:
;; The faces that already have been put onto the text is tested in
;; various places to direct further fontifications. For this to work,
;; the following assumptions regarding the faces must hold (apart from
;; the dependencies on the font locking order):
;;
;; o `font-lock-comment-face' and the face in `c-doc-face-name' is
;; not used in anything but comments.
;; o If any face (e.g. `c-doc-markup-face-name') but those above is
;; used in comments, it doesn't replace them.
;; o `font-lock-string-face' is not used in anything but string
;; literals (single or double quoted).
;; o `font-lock-keyword-face' and the face in `c-label-face-name' are
;; never overlaid with other faces.
(eval-when-compile
(let ((load-path
(if (and (boundp 'byte-compile-dest-file)
(stringp byte-compile-dest-file))
(cons (file-name-directory byte-compile-dest-file) load-path)
load-path)))
(load "cc-bytecomp" nil t)))
(cc-require 'cc-defs)
(cc-require-when-compile 'cc-langs)
(cc-require 'cc-vars)
(cc-require 'cc-engine)
(cc-require-when-compile 'cc-awk) ; Change from cc-require, 2003/6/18 to
;; prevent cc-awk being loaded when it's not needed. There is now a (require
;; 'cc-awk) in (defun awk-mode ..).
;; Avoid repeated loading through the eval-after-load directive in
;; cc-mode.el.
(provide 'cc-fonts)
(cc-external-require 'font-lock)
(cc-bytecomp-defvar parse-sexp-lookup-properties) ; Emacs only.
;; Need to declare these local symbols during compilation since
;; they're referenced from lambdas in `byte-compile' calls that are
;; executed at compile time. They don't need to have the proper
;; definitions, though, since the generated functions aren't called
;; during compilation.
(cc-bytecomp-defvar c-preprocessor-face-name)
(cc-bytecomp-defvar c-reference-face-name)
(cc-bytecomp-defvar c-block-comment-flag)
(cc-bytecomp-defun c-fontify-recorded-types-and-refs)
(cc-bytecomp-defun c-font-lock-declarators)
(cc-bytecomp-defun c-font-lock-objc-method)
(cc-bytecomp-defun c-font-lock-invalid-string)
;; Note that font-lock in XEmacs doesn't expand face names as
;; variables, so we have to use the (eval . FORM) in the font lock
;; matchers wherever we use these alias variables.
(defconst c-preprocessor-face-name
(cond ((c-face-name-p 'font-lock-preprocessor-face)
;; XEmacs has a font-lock-preprocessor-face.
'font-lock-preprocessor-face)
((c-face-name-p 'font-lock-builtin-face)
;; In Emacs font-lock-builtin-face has traditionally been
;; used for preprocessor directives.
'font-lock-builtin-face)
(t
'font-lock-reference-face)))
(cc-bytecomp-defvar font-lock-constant-face)
(defconst c-label-face-name
(cond ((c-face-name-p 'font-lock-label-face)
;; If it happens to occur in the future. (Well, the more
;; pragmatic reason is to get unique faces for the test
;; suite.)
'font-lock-label-face)
((and (c-face-name-p 'font-lock-constant-face)
(eq font-lock-constant-face 'font-lock-constant-face))
;; Test both if font-lock-constant-face exists and that it's
;; not an alias for something else. This is important since
;; we compare already set faces in various places.
'font-lock-constant-face)
(t
'font-lock-reference-face)))
(defconst c-constant-face-name
(if (and (c-face-name-p 'font-lock-constant-face)
(eq font-lock-constant-face 'font-lock-constant-face))
;; This doesn't exist in some earlier versions of XEmacs 21.
'font-lock-constant-face
c-label-face-name))
(defconst c-reference-face-name
(with-no-warnings
(if (and (c-face-name-p 'font-lock-reference-face)
(eq font-lock-reference-face 'font-lock-reference-face))
;; This is considered obsolete in Emacs, but it still maps well
;; to this use. (Another reason to do this is to get unique
;; faces for the test suite.)
'font-lock-reference-face
c-label-face-name)))
;; This should not mapped to a face that also is used to fontify things
;; that aren't comments or string literals.
(defconst c-doc-face-name
(cond ((c-face-name-p 'font-lock-doc-string-face)
;; XEmacs.
'font-lock-doc-string-face)
((c-face-name-p 'font-lock-doc-face)
;; Emacs 21 and later.
'font-lock-doc-face)
(t
'font-lock-comment-face)))
(defconst c-doc-markup-face-name
(if (c-face-name-p 'font-lock-doc-markup-face)
;; If it happens to occur in the future. (Well, the more
;; pragmatic reason is to get unique faces for the test
;; suite.)
'font-lock-doc-markup-face
c-label-face-name))
(defconst c-negation-char-face-name
(if (c-face-name-p 'font-lock-negation-char-face)
;; Emacs 22 has a special face for negation chars.
'font-lock-negation-char-face))
(cc-bytecomp-defun face-inverse-video-p) ; Only in Emacs.
(defun c-make-inverse-face (oldface newface)
;; Emacs and XEmacs have completely different face manipulation
;; routines. :P
(copy-face oldface newface)
(cond ((fboundp 'face-inverse-video-p)
;; Emacs. This only looks at the inverse flag in the current
;; frame. Other display configurations might be different,
;; but it can only show if the same Emacs has frames on
;; e.g. a color and a monochrome display simultaneously.
(unless (face-inverse-video-p oldface)
(invert-face newface)))
((fboundp 'face-property-instance)
;; XEmacs. Same pitfall here.
(unless (face-property-instance oldface 'reverse)
(invert-face newface)))))
(defvar c-annotation-face 'c-annotation-face)
(defface c-annotation-face
'((default :inherit font-lock-constant-face))
"Face for highlighting annotations in Java mode and similar modes."
:version "24.1"
:group 'c)
(eval-and-compile
;; We need the following definitions during compilation since they're
;; used when the `c-lang-defconst' initializers are evaluated. Define
;; them at runtime too for the sake of derived modes.
;; This indicates the "font locking context", and is set just before
;; fontification is done. If non-nil, it says, e.g., point starts
;; from within a #if preprocessor construct.
(defvar c-font-lock-context nil)
(make-variable-buffer-local 'c-font-lock-context)
(defmacro c-put-font-lock-face (from to face)
;; Put a face on a region (overriding any existing face) in the way
;; font-lock would do it. In XEmacs that means putting an
;; additional font-lock property, or else the font-lock package
;; won't recognize it as fontified and might override it
;; incorrectly.
;;
;; This function does a hidden buffer change.
(if (fboundp 'font-lock-set-face)
;; Note: This function has no docstring in XEmacs so it might be
;; considered internal.
`(font-lock-set-face ,from ,to ,face)
`(put-text-property ,from ,to 'face ,face)))
(defmacro c-remove-font-lock-face (from to)
;; This is the inverse of `c-put-font-lock-face'.
;;
;; This function does a hidden buffer change.
(if (fboundp 'font-lock-remove-face)
`(font-lock-remove-face ,from ,to)
`(remove-text-properties ,from ,to '(face nil))))
(defmacro c-put-font-lock-string-face (from to)
;; Put `font-lock-string-face' on a string. The surrounding
;; quotes are included in Emacs but not in XEmacs. The passed
;; region should include them.
;;
;; This function does a hidden buffer change.
(if (featurep 'xemacs)
`(c-put-font-lock-face (1+ ,from) (1- ,to) 'font-lock-string-face)
`(c-put-font-lock-face ,from ,to 'font-lock-string-face)))
(defmacro c-fontify-types-and-refs (varlist &rest body)
;; Like `let', but additionally activates `c-record-type-identifiers'
;; and `c-record-ref-identifiers', and fontifies the recorded ranges
;; accordingly on exit.
;;
;; This function does hidden buffer changes.
`(let ((c-record-type-identifiers t)
c-record-ref-identifiers
,@varlist)
(prog1 (progn ,@body)
(c-fontify-recorded-types-and-refs))))
(put 'c-fontify-types-and-refs 'lisp-indent-function 1)
(defun c-skip-comments-and-strings (limit)
;; If the point is within a region fontified as a comment or
;; string literal skip to the end of it or to LIMIT, whichever
;; comes first, and return t. Otherwise return nil. The match
;; data is not clobbered.
;;
;; This function might do hidden buffer changes.
(when (c-got-face-at (point) c-literal-faces)
(while (progn
(goto-char (c-next-single-property-change
(point) 'face nil limit))
(and (< (point) limit)
(c-got-face-at (point) c-literal-faces))))
t))
(defun c-make-syntactic-matcher (regexp)
;; Returns a byte compiled function suitable for use in place of a
;; regexp string in a `font-lock-keywords' matcher, except that
;; only matches outside comments and string literals count.
;;
;; This function does not do any hidden buffer changes, but the
;; generated functions will. (They are however used in places
;; covered by the font-lock context.)
(byte-compile
`(lambda (limit)
(let (res)
(while (and (setq res (re-search-forward ,regexp limit t))
(progn
(goto-char (match-beginning 0))
(or (c-skip-comments-and-strings limit)
(progn
(goto-char (match-end 0))
nil)))))
res))))
(defun c-make-font-lock-search-form (regexp highlights &optional check-point)
;; Return a lisp form which will fontify every occurrence of REGEXP
;; (a regular expression, NOT a function) between POINT and `limit'
;; with HIGHLIGHTS, a list of highlighters as specified on page
;; "Search-based Fontification" in the elisp manual. If CHECK-POINT
;; is non-nil, we will check (< (point) limit) in the main loop.
`(while
,(if check-point
`(and (< (point) limit)
(re-search-forward ,regexp limit t))
`(re-search-forward ,regexp limit t))
(unless (progn
(goto-char (match-beginning 0))
(c-skip-comments-and-strings limit))
(goto-char (match-end 0))
,@(mapcar
(lambda (highlight)
(if (integerp (car highlight))
;; e.g. highlight is (1 font-lock-type-face t)
(progn
(unless (eq (nth 2 highlight) t)
(error
"The override flag must currently be t in %s"
highlight))
(when (nth 3 highlight)
(error
"The laxmatch flag may currently not be set in %s"
highlight))
`(save-match-data
(c-put-font-lock-face
(match-beginning ,(car highlight))
(match-end ,(car highlight))
,(elt highlight 1))))
;; highlight is an "ANCHORED HIGHLIGHTER" of the form
;; (ANCHORED-MATCHER PRE-FORM POST-FORM SUBEXP-HIGHLIGHTERS...)
(when (nth 3 highlight)
(error "Match highlights currently not supported in %s"
highlight))
`(progn
,(nth 1 highlight)
(save-match-data ,(car highlight))
,(nth 2 highlight))))
highlights))))
(defun c-make-font-lock-search-function (regexp &rest highlights)
;; This function makes a byte compiled function that works much like
;; a matcher element in `font-lock-keywords'. It cuts out a little
;; bit of the overhead compared to a real matcher. The main reason
;; is however to pass the real search limit to the anchored
;; matcher(s), since most (if not all) font-lock implementations
;; arbitrarily limit anchored matchers to the same line, and also
;; to insulate against various other irritating differences between
;; the different (X)Emacs font-lock packages.
;;
;; REGEXP is the matcher, which must be a regexp. Only matches
;; where the beginning is outside any comment or string literal are
;; significant.
;;
;; HIGHLIGHTS is a list of highlight specs, just like in
;; `font-lock-keywords', with these limitations: The face is always
;; overridden (no big disadvantage, since hits in comments etc are
;; filtered anyway), there is no "laxmatch", and an anchored matcher
;; is always a form which must do all the fontification directly.
;; `limit' is a variable bound to the real limit in the context of
;; the anchored matcher forms.
;;
;; This function does not do any hidden buffer changes, but the
;; generated functions will. (They are however used in places
;; covered by the font-lock context.)
;; Note: Replace `byte-compile' with `eval' to debug the generated
;; lambda more easily.
(byte-compile
`(lambda (limit)
(let ( ;; The font-lock package in Emacs is known to clobber
;; `parse-sexp-lookup-properties' (when it exists).
(parse-sexp-lookup-properties
(cc-eval-when-compile
(boundp 'parse-sexp-lookup-properties))))
,(c-make-font-lock-search-form regexp highlights))
nil)))
(defun c-make-font-lock-BO-decl-search-function (regexp &rest highlights)
;; This function makes a byte compiled function that first moves back
;; to the beginning of the current declaration (if any), then searches
;; forward for matcher elements (as in `font-lock-keywords') and
;; fontifies them.
;;
;; The motivation for moving back to the declaration start is to
;; establish a context for the current text when, e.g., a character
;; is typed on a C++ inheritance continuation line, or a jit-lock
;; chunk starts there.
;;
;; The new function works much like a matcher element in
;; `font-lock-keywords'. It cuts out a little bit of the overhead
;; compared to a real matcher. The main reason is however to pass the
;; real search limit to the anchored matcher(s), since most (if not
;; all) font-lock implementations arbitrarily limit anchored matchers
;; to the same line, and also to insulate against various other
;; irritating differences between the different (X)Emacs font-lock
;; packages.
;;
;; REGEXP is the matcher, which must be a regexp. Only matches
;; where the beginning is outside any comment or string literal are
;; significant.
;;
;; HIGHLIGHTS is a list of highlight specs, just like in
;; `font-lock-keywords', with these limitations: The face is always
;; overridden (no big disadvantage, since hits in comments etc are
;; filtered anyway), there is no "laxmatch", and an anchored matcher
;; is always a form which must do all the fontification directly.
;; `limit' is a variable bound to the real limit in the context of
;; the anchored matcher forms.
;;
;; This function does not do any hidden buffer changes, but the
;; generated functions will. (They are however used in places
;; covered by the font-lock context.)
;; Note: Replace `byte-compile' with `eval' to debug the generated
;; lambda more easily.
(byte-compile
`(lambda (limit)
(let ( ;; The font-lock package in Emacs is known to clobber
;; `parse-sexp-lookup-properties' (when it exists).
(parse-sexp-lookup-properties
(cc-eval-when-compile
(boundp 'parse-sexp-lookup-properties)))
(BOD-limit
(c-determine-limit 1000)))
(goto-char
(let ((here (point)))
(if (eq (car (c-beginning-of-decl-1 BOD-limit)) 'same)
(point)
here)))
,(c-make-font-lock-search-form regexp highlights))
nil)))
(defun c-make-font-lock-context-search-function (normal &rest state-stanzas)
;; This function makes a byte compiled function that works much like
;; a matcher element in `font-lock-keywords', with the following
;; enhancement: the generated function will test for particular "font
;; lock contexts" at the start of the region, i.e. is this point in
;; the middle of some particular construct? if so the generated
;; function will first fontify the tail of the construct, before
;; going into the main loop and fontify full constructs up to limit.
;;
;; The generated function takes one parameter called `limit', and
;; will fontify the region between POINT and LIMIT.
;;
;; NORMAL is a list of the form (REGEXP HIGHLIGHTS .....), and is
;; used to fontify the "regular" bit of the region.
;; STATE-STANZAS is list of elements of the form (STATE LIM REGEXP
;; HIGHLIGHTS), each element coding one possible font lock context.
;; o - REGEXP is a font-lock regular expression (NOT a function),
;; o - HIGHLIGHTS is a list of zero or more highlighters as defined
;; on page "Search-based Fontification" in the elisp manual. As
;; yet (2009-06), they must have OVERRIDE set, and may not have
;; LAXMATCH set.
;;
;; o - STATE is the "font lock context" (e.g. in-cpp-expr) and is
;; not quoted.
;; o - LIM is a lisp form whose evaluation will yield the limit
;; position in the buffer for fontification by this stanza.
;;
;; This function does not do any hidden buffer changes, but the
;; generated functions will. (They are however used in places
;; covered by the font-lock context.)
;;
;; Note: Replace `byte-compile' with `eval' to debug the generated
;; lambda more easily.
(byte-compile
`(lambda (limit)
(let ( ;; The font-lock package in Emacs is known to clobber
;; `parse-sexp-lookup-properties' (when it exists).
(parse-sexp-lookup-properties
(cc-eval-when-compile
(boundp 'parse-sexp-lookup-properties))))
,@(mapcar
(lambda (stanza)
(let ((state (car stanza))
(lim (nth 1 stanza))
(regexp (nth 2 stanza))
(highlights (cdr (cddr stanza))))
`(if (eq c-font-lock-context ',state)
(let ((limit ,lim))
,(c-make-font-lock-search-form
regexp highlights)))))
state-stanzas)
;; In the next form, check that point hasn't been moved beyond
;; `limit' in any of the above stanzas.
,(c-make-font-lock-search-form (car normal) (cdr normal) t)
nil))))
; (eval-after-load "edebug" ; 2006-07-09: def-edebug-spec is now in subr.el.
; '(progn
(def-edebug-spec c-put-font-lock-face t)
(def-edebug-spec c-remove-font-lock-face t)
(def-edebug-spec c-put-font-lock-string-face t)
(def-edebug-spec c-fontify-types-and-refs let*)
(def-edebug-spec c-make-syntactic-matcher t)
;; If there are literal quoted or backquoted highlight specs in
;; the call to `c-make-font-lock-search-function' then let's
;; instrument the forms in them.
(def-edebug-spec c-make-font-lock-search-function
(form &rest &or ("quote" (&rest form)) ("`" (&rest form)) form)));))
(defun c-fontify-recorded-types-and-refs ()
;; Convert the ranges recorded on `c-record-type-identifiers' and
;; `c-record-ref-identifiers' to fontification.
;;
;; This function does hidden buffer changes.
(let (elem)
(while (consp c-record-type-identifiers)
(setq elem (car c-record-type-identifiers)
c-record-type-identifiers (cdr c-record-type-identifiers))
(c-put-font-lock-face (car elem) (cdr elem)
'font-lock-type-face))
(while c-record-ref-identifiers
(setq elem (car c-record-ref-identifiers)
c-record-ref-identifiers (cdr c-record-ref-identifiers))
;; Note that the reference face is a variable that is
;; dereferenced, since it's an alias in Emacs.
(c-put-font-lock-face (car elem) (cdr elem)
c-reference-face-name))))
(c-lang-defconst c-cpp-matchers
"Font lock matchers for preprocessor directives and purely lexical
stuff. Used on level 1 and higher."
;; Note: `c-font-lock-declarations' assumes that no matcher here
;; sets `font-lock-type-face' in languages where
;; `c-recognize-<>-arglists' is set.
t `(,@(when (c-lang-const c-opt-cpp-prefix)
(let* ((noncontinued-line-end "\\(\\=\\|\\(\\=\\|[^\\]\\)[\n\r]\\)")
(ncle-depth (regexp-opt-depth noncontinued-line-end))
(sws-depth (c-lang-const c-syntactic-ws-depth))
(nsws-depth (c-lang-const c-nonempty-syntactic-ws-depth)))
`(;; Fontify "invalid" comment delimiters
,@(when (and (c-lang-const c-block-comment-starter)
(c-lang-const c-line-comment-starter))
`(c-maybe-font-lock-wrong-style-comments))
;; The stuff after #error and #warning is a message, so
;; fontify it as a string.
,@(when (c-lang-const c-cpp-message-directives)
(let* ((re (c-make-keywords-re 'appendable ; nil
(c-lang-const c-cpp-message-directives)))
(re-depth (regexp-opt-depth re)))
`((,(concat noncontinued-line-end
(c-lang-const c-opt-cpp-prefix)
re
"\\s +\\(.*\\)$")
,(+ ncle-depth re-depth 1) font-lock-string-face t))))
;; Fontify filenames in #include <...> as strings.
,@(when (c-lang-const c-cpp-include-directives)
(let* ((re (c-make-keywords-re nil
(c-lang-const c-cpp-include-directives)))
(re-depth (regexp-opt-depth re)))
;; We used to use a font-lock "anchored matcher" here for
;; the paren syntax. This failed when the ">" was at EOL,
;; since `font-lock-fontify-anchored-keywords' terminated
;; its loop at EOL without executing our lambda form at
;; all.
`((,(c-make-font-lock-search-function
(concat noncontinued-line-end
(c-lang-const c-opt-cpp-prefix)
re
(c-lang-const c-syntactic-ws)
"\\(<[^>\n\r]*>?\\)")
`(,(+ ncle-depth re-depth sws-depth 1)
font-lock-string-face t)
`((let ((beg (match-beginning
,(+ ncle-depth re-depth sws-depth 1)))
(end (1- (match-end ,(+ ncle-depth re-depth
sws-depth 1)))))
(if (eq (char-after end) ?>)
(progn
(c-mark-<-as-paren beg)
(c-mark->-as-paren end))
(c-unmark-<->-as-paren beg)))
nil))))))
;; #define.
,@(when (c-lang-const c-opt-cpp-macro-define)
`((,(c-make-font-lock-search-function
(concat
noncontinued-line-end
(c-lang-const c-opt-cpp-prefix)
(c-lang-const c-opt-cpp-macro-define)
(c-lang-const c-nonempty-syntactic-ws)
"\\(" (c-lang-const ; 1 + ncle + nsws
c-symbol-key) "\\)"
(concat "\\(" ; 2 + ncle + nsws + c-sym-key
;; Macro with arguments - a "function".
"\\((\\)" ; 3 + ncle + nsws + c-sym-key
"\\|"
;; Macro without arguments - a "variable".
"\\([^(]\\|$\\)"
"\\)"))
`((if (match-beginning
,(+ 3 ncle-depth nsws-depth
(c-lang-const c-symbol-key-depth)))
;; "Function". Fontify the name and the arguments.
(save-restriction
(c-put-font-lock-face
(match-beginning ,(+ 1 ncle-depth nsws-depth))
(match-end ,(+ 1 ncle-depth nsws-depth))
'font-lock-function-name-face)
(goto-char
(match-end
,(+ 3 ncle-depth nsws-depth
(c-lang-const c-symbol-key-depth))))
(narrow-to-region (point-min) limit)
(while (and
(progn
(c-forward-syntactic-ws)
(looking-at c-symbol-key))
(progn
(c-put-font-lock-face
(match-beginning 0) (match-end 0)
'font-lock-variable-name-face)
(goto-char (match-end 0))
(c-forward-syntactic-ws)
(eq (char-after) ?,)))
(forward-char)))
;; "Variable".
(c-put-font-lock-face
(match-beginning ,(+ 1 ncle-depth nsws-depth))
(match-end ,(+ 1 ncle-depth nsws-depth))
'font-lock-variable-name-face)))))))
;; Fontify cpp function names in preprocessor
;; expressions in #if and #elif.
,@(when (and (c-lang-const c-cpp-expr-directives)
(c-lang-const c-cpp-expr-functions))
(let ((ced-re (c-make-keywords-re t
(c-lang-const c-cpp-expr-directives)))
(cef-re (c-make-keywords-re t
(c-lang-const c-cpp-expr-functions))))
`((,(c-make-font-lock-context-search-function
`(,(concat noncontinued-line-end
(c-lang-const c-opt-cpp-prefix)
ced-re ; 1 + ncle-depth
;; Match the whole logical line to look
;; for the functions in.
"\\(\\\\\\(.\\|[\n\r]\\)\\|[^\n\r]\\)*")
((let ((limit (match-end 0)))
(while (re-search-forward ,cef-re limit 'move)
(c-put-font-lock-face (match-beginning 1)
(match-end 1)
c-preprocessor-face-name)))
(goto-char (match-end ,(1+ ncle-depth)))))
`(in-cpp-expr
(save-excursion (c-end-of-macro) (point))
,cef-re
(1 c-preprocessor-face-name t)))))))
;; Fontify the directive names.
(,(c-make-font-lock-search-function
(concat noncontinued-line-end
"\\("
(c-lang-const c-opt-cpp-prefix)
"[" (c-lang-const c-symbol-chars) "]+"
"\\)")
`(,(1+ ncle-depth) c-preprocessor-face-name t)))
(eval . (list ,(c-make-syntactic-matcher
(concat noncontinued-line-end
(c-lang-const c-opt-cpp-prefix)
"if\\(n\\)def\\>"))
,(+ ncle-depth 1)
c-negation-char-face-name
'append))
)))
,@(when (c-major-mode-is 'pike-mode)
;; Recognize hashbangs in Pike.
'((eval . (list "\\`#![^\n\r]*"
0 c-preprocessor-face-name))))
;; Make hard spaces visible through an inverted `font-lock-warning-face'.
(eval . (list
"\240"
0 (progn
(unless (c-face-name-p 'c-nonbreakable-space-face)
(c-make-inverse-face 'font-lock-warning-face
'c-nonbreakable-space-face))
''c-nonbreakable-space-face)))
))
(defun c-font-lock-invalid-single-quotes (limit)
;; This function will be called from font-lock for a region bounded by POINT
;; and LIMIT, as though it were to identify a keyword for
;; font-lock-keyword-face. It always returns NIL to inhibit this and
;; prevent a repeat invocation. See elisp/lispref page "Search-based
;; Fontification".
;;
;; This function fontifies invalid single quotes with
;; `font-lock-warning-face'. These are the single quotes which
;; o - aren't inside a literal;
;; o - are marked with a syntax-table text property value '(1); and
;; o - are NOT marked with a non-null c-digit-separator property.
(let ((limits (c-literal-limits))
state beg end)
(if limits
(goto-char (cdr limits))) ; Even for being in a ' '
(while (< (point) limit)
(setq beg (point))
(setq state (parse-partial-sexp (point) limit nil nil nil 'syntax-table))
(setq end (point))
(goto-char beg)
(while (progn (skip-chars-forward "^'" end)
(< (point) end))
(if (and (equal (c-get-char-property (point) 'syntax-table) '(1))
(not (c-get-char-property (point) 'c-digit-separator)))
(c-put-font-lock-face (point) (1+ (point)) font-lock-warning-face))
(forward-char))
(parse-partial-sexp end limit nil nil state 'syntax-table)))
nil)
(defun c-maybe-font-lock-wrong-style-comments (limit)
;; This function will be called from font-lock-for a region bounded by POINT
;; and LIMIT, as though it were to identify a keyword for
;; font-lock-keyword-face. It always returns NIL to inhibit this and
;; prevent a repeat invocation. See elisp/lispref page "Search-based
;; Fontification".
;;
;; This function fontifies "invalid" comment delimiters with
;; `font-lock-warning-face'. A delimiter is "invalid" when
;; `c-mark-wrong-style-of-comment' is non-nil, and the delimiter style is
;; not the default specified by `c-block-comment-flag'.
(when c-mark-wrong-style-of-comment
(let* ((lit (c-semi-pp-to-literal (point)))
(s (car lit)) ; parse-partial-sexp state.
)
;; First, deal with and move out of any literal we start in.
(cond
((null (cadr lit))) ; Not in a literal
((eq (cadr lit) 'string)
(setq s (parse-partial-sexp (point) limit nil nil s 'syntax-table)))
((and (not c-block-comment-flag) ; In an "invalid" block comment
(eq (cadr lit) 'c))
(setq s (parse-partial-sexp (point) limit nil nil s 'syntax-table))
;; Font lock the block comment ender with warning face.
(when (not (nth 4 s))
(c-put-font-lock-face (- (point) (length c-block-comment-ender))
(point) font-lock-warning-face)))
(t ; In a line comment, or a "valid" block comment
(setq s (parse-partial-sexp (point) limit nil nil s 'syntax-table))))
(while (< (point) limit)
(setq s (parse-partial-sexp (point) limit nil nil s 'syntax-table))
(cond
((or (nth 3 s) ; In a string
(and (nth 4 s) ; In a comment
(eq (nth 7 s) ; Comment style
(if c-block-comment-flag
nil ; Block comment
1)))) ; Line comment
;; Move over a "valid" literal.
(setq s (parse-partial-sexp (point) limit nil nil s 'syntax-table)))
((nth 4 s) ; In an invalid comment
;; Fontify the invalid comment opener.
(c-put-font-lock-face (nth 8 s) (point) font-lock-warning-face)
;; Move to end of comment or LIMIT.
(setq s (parse-partial-sexp (point) limit nil nil s 'syntax-table))
;; Fontify an invalid block comment ender, if that's what we have.
(when (and (not c-block-comment-flag)
(not (nth 4 s))) ; We're outside the comment
(c-put-font-lock-face (- (point) (length c-block-comment-ender))
(point) font-lock-warning-face)))))))
nil)
(c-lang-defconst c-basic-matchers-before
"Font lock matchers for basic keywords, labels, references and various
other easily recognizable things that should be fontified before generic
casts and declarations are fontified. Used on level 2 and higher."
;; Note: `c-font-lock-declarations' assumes that no matcher here
;; sets `font-lock-type-face' in languages where
;; `c-recognize-<>-arglists' is set.
t `(;; Put a warning face on the opener of unclosed strings that
;; can't span lines and on the "terminating" newlines. Later font
;; lock packages have a `font-lock-syntactic-face-function' for
;; this, but it doesn't give the control we want since any
;; fontification done inside the function will be
;; unconditionally overridden.
("\\s|" 0 font-lock-warning-face t nil)
;; Invalid single quotes.
c-font-lock-invalid-single-quotes
;; Fontify C++ raw strings.
,@(when (c-major-mode-is 'c++-mode)
'(c-font-lock-raw-strings))
;; Fontify keyword constants.
,@(when (c-lang-const c-constant-kwds)
(let ((re (c-make-keywords-re nil (c-lang-const c-constant-kwds))))
(if (c-major-mode-is 'pike-mode)
;; No symbol is a keyword after "->" in Pike.
`((eval . (list ,(concat "\\(\\=.?\\|[^>]\\|[^-]>\\)"
"\\<\\(" re "\\)\\>")
2 c-constant-face-name)))
`((eval . (list ,(concat "\\<\\(" re "\\)\\>")
1 c-constant-face-name))))))
;; Fontify all keywords except the primitive types.
,(if (c-major-mode-is 'pike-mode)
;; No symbol is a keyword after "->" in Pike.
`(,(concat "\\(\\=.?\\|[^>]\\|[^-]>\\)"
"\\<" (c-lang-const c-regular-keywords-regexp))
2 font-lock-keyword-face)
`(,(concat "\\<" (c-lang-const c-regular-keywords-regexp))
1 font-lock-keyword-face))
;; Fontify leading identifiers in fully qualified names like
;; "foo::bar" in languages that supports such things.
,@(when (c-lang-const c-opt-identifier-concat-key)
(if (c-major-mode-is 'java-mode)
;; Java needs special treatment since "." is used both to
;; qualify names and in normal indexing. Here we look for
;; capital characters at the beginning of an identifier to
;; recognize the class. "*" is also recognized to cover
;; wildcard import declarations. All preceding dot separated
;; identifiers are taken as package names and therefore
;; fontified as references.
`(,(c-make-font-lock-search-function
;; Search for class identifiers preceded by ".". The
;; anchored matcher takes it from there.
(concat (c-lang-const c-opt-identifier-concat-key)
(c-lang-const c-simple-ws) "*"
(concat "\\("
"[" c-upper "]"
"[" (c-lang-const c-symbol-chars) "]*"
"\\|"
"\\*"
"\\)"))
`((let (id-end)
(goto-char (1+ (match-beginning 0)))
(while (and (eq (char-before) ?.)
(progn
(backward-char)
(c-backward-syntactic-ws)
(setq id-end (point))
(< (skip-chars-backward
,(c-lang-const c-symbol-chars))
0))
(not (get-text-property (point) 'face)))
(c-put-font-lock-face (point) id-end
c-reference-face-name)
(c-backward-syntactic-ws)))
nil
(goto-char (match-end 0)))))
`((,(byte-compile
;; Must use a function here since we match longer than
;; we want to move before doing a new search. This is
;; not necessary for XEmacs since it restarts the
;; search from the end of the first highlighted
;; submatch (something that causes problems in other
;; places).
`(lambda (limit)
(while (re-search-forward
,(concat "\\(\\<" ; 1
"\\(" (c-lang-const c-symbol-key) "\\)" ; 2
(c-lang-const c-simple-ws) "*"
(c-lang-const c-opt-identifier-concat-key)
(c-lang-const c-simple-ws) "*"
"\\)"
"\\("
(c-lang-const c-opt-after-id-concat-key)
"\\)")
limit t)
(unless (progn
(goto-char (match-beginning 0))
(c-skip-comments-and-strings limit))
(or (get-text-property (match-beginning 2) 'face)
(c-put-font-lock-face (match-beginning 2)
(match-end 2)
c-reference-face-name))
(goto-char (match-end 1))))))))))
;; Fontify the special declarations in Objective-C.
,@(when (c-major-mode-is 'objc-mode)
`(;; Fontify class names in the beginning of message expressions.
,(c-make-font-lock-search-function
"\\["
'((c-fontify-types-and-refs ()
(c-forward-syntactic-ws limit)
(let ((start (point)))
;; In this case we accept both primitive and known types.
(when (eq (c-forward-type) 'known)
(goto-char start)
(let ((c-promote-possible-types t))
(c-forward-type))))
(if (> (point) limit) (goto-char limit)))))
;; The @interface/@implementation/@protocol directives.
,(c-make-font-lock-search-function
(concat "\\<"
(regexp-opt
'("@interface" "@implementation" "@protocol")
t)
"\\>")
'((c-fontify-types-and-refs
(;; The font-lock package in Emacs is known to clobber
;; `parse-sexp-lookup-properties' (when it exists).
(parse-sexp-lookup-properties
(cc-eval-when-compile
(boundp 'parse-sexp-lookup-properties))))
(c-forward-objc-directive)
nil)
(goto-char (match-beginning 0))))))
(eval . (list "\\(!\\)[^=]" 1 c-negation-char-face-name))
))
(defun c-font-lock-complex-decl-prepare (limit)
;; This function will be called from font-lock for a region bounded by POINT
;; and LIMIT, as though it were to identify a keyword for
;; font-lock-keyword-face. It always returns NIL to inhibit this and
;; prevent a repeat invocation. See elisp/lispref page "Search-based
;; Fontification".
;;
;; Called before any of the matchers in `c-complex-decl-matchers'.
;;
;; This function does hidden buffer changes.
;;(message "c-font-lock-complex-decl-prepare %s %s" (point) limit)
;; Clear the list of found types if we start from the start of the
;; buffer, to make it easier to get rid of misspelled types and
;; variables that have gotten recognized as types in malformed code.
(when (bobp)
(c-clear-found-types))
(c-skip-comments-and-strings limit)
(when (< (point) limit)
;; Clear the c-type char properties which mark the region, to recalculate
;; them properly. The most interesting properties are those put on the
;; closest token before the region.
(save-excursion
(let ((pos (point)))
(c-backward-syntactic-ws)
(c-clear-char-properties
(if (and (not (bobp))
(memq (c-get-char-property (1- (point)) 'c-type)
'(c-decl-arg-start
c-decl-end
c-decl-id-start
c-decl-type-start)))
(1- (point))
pos)
limit 'c-type)))
;; Update `c-state-cache' to the beginning of the region. This will
;; make `c-beginning-of-syntax' go faster when it's used later on,
;; and it's near the point most of the time.
(c-parse-state)
;; Check if the fontified region starts inside a declarator list so
;; that `c-font-lock-declarators' should be called at the start.
;; The declared identifiers are font-locked correctly as types, if
;; that is what they are.
(let ((prop (save-excursion
(c-backward-syntactic-ws)
(unless (bobp)
(c-get-char-property (1- (point)) 'c-type)))))
(when (memq prop '(c-decl-id-start c-decl-type-start))
(c-forward-syntactic-ws limit)
(c-font-lock-declarators limit t (eq prop 'c-decl-type-start)
(not (c-bs-at-toplevel-p (point))))))
(setq c-font-lock-context ;; (c-guess-font-lock-context)
(save-excursion
(if (and c-cpp-expr-intro-re
(c-beginning-of-macro)
(looking-at c-cpp-expr-intro-re))
'in-cpp-expr)))
nil))
(defun c-font-lock-<>-arglists (limit)
;; This function will be called from font-lock for a region bounded by POINT
;; and LIMIT, as though it were to identify a keyword for
;; font-lock-keyword-face. It always returns NIL to inhibit this and
;; prevent a repeat invocation. See elisp/lispref page "Search-based
;; Fontification".
;;
;; Fontify types and references in names containing angle bracket
;; arglists from the point to LIMIT. Note that
;; `c-font-lock-declarations' has already handled many of them.
;;
;; This function might do hidden buffer changes.
(c-skip-comments-and-strings limit)
(when (< (point) limit)
(let (;; The font-lock package in Emacs is known to clobber
;; `parse-sexp-lookup-properties' (when it exists).
(parse-sexp-lookup-properties
(cc-eval-when-compile
(boundp 'parse-sexp-lookup-properties)))
(c-parse-and-markup-<>-arglists t)
c-restricted-<>-arglists
id-start id-end id-face pos kwd-sym)
(while (and (< (point) limit)
(re-search-forward c-opt-<>-arglist-start limit t))
(setq id-start (match-beginning 1)
id-end (match-end 1)
pos (point))
(goto-char id-start)
(unless (c-skip-comments-and-strings limit)
(setq kwd-sym nil
c-restricted-<>-arglists nil
id-face (get-text-property id-start 'face))
(if (cond
((eq id-face 'font-lock-type-face)
;; The identifier got the type face so it has already been
;; handled in `c-font-lock-declarations'.
nil)
((eq id-face 'font-lock-keyword-face)
(when (looking-at c-opt-<>-sexp-key)
;; There's a special keyword before the "<" that tells
;; that it's an angle bracket arglist.
(setq kwd-sym (c-keyword-sym (match-string 1)))))
(t
;; There's a normal identifier before the "<". If we're not in
;; a declaration context then we set `c-restricted-<>-arglists'
;; to avoid recognizing templates in function calls like "foo (a
;; < b, c > d)".
(c-backward-syntactic-ws)
(when (and (memq (char-before) '(?\( ?,))
(not (eq (get-text-property (1- (point)) 'c-type)
'c-decl-arg-start)))
(setq c-restricted-<>-arglists t))
t))
(progn
(goto-char (1- pos))
;; Check for comment/string both at the identifier and
;; at the "<".
(unless (c-skip-comments-and-strings limit)
(c-fontify-types-and-refs ()
(when (c-forward-<>-arglist (c-keyword-member
kwd-sym 'c-<>-type-kwds))
(when (and c-opt-identifier-concat-key
(not (get-text-property id-start 'face)))
(c-forward-syntactic-ws)
(cond ((looking-at c-opt-identifier-concat-key)
(c-put-font-lock-face id-start id-end
c-reference-face-name))
((eq (char-after) ?\())
(t (c-put-font-lock-face id-start id-end
'font-lock-type-face))))))
(goto-char pos)))
(goto-char pos))))))
nil)
(defun c-font-lock-declarators (limit list types not-top
&optional template-class)
;; Assuming the point is at the start of a declarator in a declaration,
;; fontify the identifier it declares. (If TYPES is set, it does this via
;; the macro `c-fontify-types-and-refs'.)
;;
;; If LIST is non-nil, also fontify the ids in any following declarators in
;; a comma separated list (e.g. "foo" and "*bar" in "int foo = 17, *bar;");
;; additionally, mark the commas with c-type property 'c-decl-id-start or
;; 'c-decl-type-start (according to TYPES). Stop at LIMIT.
;;
;; If TYPES is non-nil, fontify all identifiers as types. If NOT-TOP is
;; non-nil, we are not at the top-level ("top-level" includes being directly
;; inside a class or namespace, etc.).
;;
;; TEMPLATE-CLASS is non-nil when the declaration is in template delimiters
;; and was introduced by, e.g. "typename" or "class", such that if there is
;; a default (introduced by "="), it will be fontified as a type.
;; E.g. "<class X = Y>".
;;
;; Nil is always returned. The function leaves point at the delimiter after
;; the last declarator it processes.
;;
;; This function might do hidden buffer changes.
;;(message "c-font-lock-declarators from %s to %s" (point) limit)
(c-fontify-types-and-refs
()
(c-do-declarators
limit list not-top
(if types 'c-decl-type-start 'c-decl-id-start)
(lambda (id-start _id-end end-pos _not-top is-function init-char)
(if types
;; Register and fontify the identifier as a type.
(let ((c-promote-possible-types t))
(goto-char id-start)
(c-forward-type))
;; The following doesn't work properly (yet, 2018-09-22).
;; (c-put-font-lock-face id-start id-end
;; (if is-function
;; 'font-lock-function-name-face
;; 'font-lock-variable-name-face))
(when (and c-last-identifier-range
(not (get-text-property (car c-last-identifier-range)
'face)))
;; We use `c-last-identifier-range' rather than `id-start' and
;; `id-end', since the latter two can be erroneous. E.g. in
;; "~Foo", `id-start' is at the tilde. This is a bug in
;; `c-forward-declarator'.
(c-put-font-lock-face (car c-last-identifier-range)
(cdr c-last-identifier-range)
(if is-function
'font-lock-function-name-face
'font-lock-variable-name-face))))
(and template-class
(eq init-char ?=) ; C++ "<class X = Y>"?
(progn
(goto-char end-pos)
(c-forward-token-2 1 nil limit) ; Over "="
(let ((c-promote-possible-types t))
(c-forward-type t))))))
nil))
(defun c-get-fontification-context (match-pos not-front-decl &optional toplev)
;; Return a cons (CONTEXT . RESTRICTED-<>-ARGLISTS) for MATCH-POS.
;; NOT-FRONT-DECL is non-nil when a declaration later in the buffer than
;; MATCH-POS has already been parsed. TOPLEV is non-nil when MATCH-POS is
;; known to be at "top level", i.e. outside any braces, or directly inside a
;; namespace, class, etc.
;;
;; CONTEXT is the fontification context of MATCH-POS, and is one of the
;; following:
;; 'decl In a comma-separated declaration context (typically
;; inside a function declaration arglist).
;; '<> In an angle bracket arglist.
;; 'arglist Some other type of arglist.
;; 'top Some other context and point is at the top-level (either
;; outside any braces or directly inside a class or namespace,
;; etc.)
;; nil Some other context or unknown context. Includes
;; within the parens of an if, for, ... construct.
;; 'not-decl Definitely not in a declaration.
;;
;; RESTRICTED-<>-ARGLISTS is non-nil when a scan of template/generic
;; arguments lists (i.e. lists enclosed by <...>) is more strict about what
;; characters it allows within the list.
(let ((type (and (> match-pos (point-min))
(c-get-char-property (1- match-pos) 'c-type))))
(cond ((not (memq (char-before match-pos) '(?\( ?, ?\[ ?< ?{)))
(cons (and toplev 'top) nil))
;; A control flow expression or a decltype
((and (eq (char-before match-pos) ?\()
(save-excursion
(goto-char match-pos)
(backward-char)
(c-backward-token-2)
(cond
((looking-at c-paren-stmt-key)
;; Allow comma separated <> arglists in for statements.
(cons nil nil))
((or (looking-at c-block-stmt-2-key)
(looking-at c-block-stmt-1-2-key)
(looking-at c-typeof-key))
(cons nil t))
(t nil)))))
;; Near BOB.
((<= match-pos (point-min))
(cons 'arglist t))
;; Got a cached hit in a declaration arglist.
((eq type 'c-decl-arg-start)
(cons 'decl nil))
;; We're inside (probably) a brace list.
((eq type 'c-not-decl)
(cons 'not-decl nil))
;; Inside a C++11 lambda function arglist.
((and (c-major-mode-is 'c++-mode)
(eq (char-before match-pos) ?\()
(save-excursion
(goto-char match-pos)
(c-backward-token-2)
(and
(c-safe (goto-char (scan-sexps (point) -1)))
(c-looking-at-c++-lambda-capture-list))))
(c-put-char-property (1- match-pos) 'c-type
'c-decl-arg-start)
(cons 'decl nil))
;; We're inside a brace list.
((and (eq (char-before match-pos) ?{)
(c-inside-bracelist-p (1- match-pos)
(cdr (c-parse-state))
nil))
(c-put-char-property (1- match-pos) 'c-type
'c-not-decl)
(cons 'not-decl nil))
;; We're inside an "ordinary" open brace.
((eq (char-before match-pos) ?{)
(cons (and toplev 'top) nil))
;; Inside an angle bracket arglist.
((or (eq type 'c-<>-arg-sep)
(eq (char-before match-pos) ?<))
(cons '<> nil))
;; Got a cached hit in some other type of arglist.
(type
(cons 'arglist t))
;; We're at a C++ uniform initialization.
((and (c-major-mode-is 'c++-mode)
(eq (char-before match-pos) ?\()
(save-excursion
(goto-char match-pos)
(and
(zerop (c-backward-token-2 2))
(looking-at c-identifier-start)
(c-got-face-at (point)
'(font-lock-variable-name-face)))))
(cons 'not-decl nil))
((and not-front-decl
;; The point is within the range of a previously
;; encountered type decl expression, so the arglist
;; is probably one that contains declarations.
;; However, if `c-recognize-paren-inits' is set it
;; might also be an initializer arglist.
(or (not c-recognize-paren-inits)
(save-excursion
(goto-char match-pos)
(not (c-back-over-member-initializers)))))
;; The result of this check is cached with a char
;; property on the match token, so that we can look
;; it up again when refontifying single lines in a
;; multiline declaration.
(c-put-char-property (1- match-pos)
'c-type 'c-decl-arg-start)
(cons 'decl nil))
;; Got (an) open paren(s) preceded by an arith operator.
((and (eq (char-before match-pos) ?\()
(save-excursion
(goto-char match-pos)
(while
(and (zerop (c-backward-token-2))
(eq (char-after) ?\()))
(looking-at c-arithmetic-op-regexp)))
(cons nil nil))
;; In a C++ member initialization list.
((and (eq (char-before match-pos) ?,)
(c-major-mode-is 'c++-mode)
(save-excursion
(goto-char match-pos)
(c-back-over-member-initializers)))
(c-put-char-property (1- match-pos) 'c-type 'c-not-decl)
(cons 'not-decl nil))
;; At start of a declaration inside a declaration paren.
((save-excursion
(goto-char match-pos)
(and (memq (char-before match-pos) '(?\( ?\,))
(c-go-up-list-backward match-pos
; c-determine-limit is too slow, here.
(max (- (point) 2000) (point-min)))
(eq (char-after) ?\()
(let ((type (c-get-char-property (point) 'c-type)))
(or (memq type '(c-decl-arg-start c-decl-type-start))
(and
(progn (c-backward-syntactic-ws) t)
(c-back-over-compound-identifier)
(progn
(c-backward-syntactic-ws)
(or (bobp)
(progn
(setq type (c-get-char-property (1- (point))
'c-type))
(memq type '(c-decl-arg-start
c-decl-type-start))))))))))
(cons 'decl nil))
(t (cons 'arglist t)))))
(defun c-font-lock-single-decl (limit decl-or-cast match-pos context toplev)
;; Try to fontify a single declaration, together with all its declarators.
;; Return nil if we're successful, non-nil if we fail. POINT should be
;; positioned at the start of the putative declaration before calling.
;; POINT is left undefined by this function.
;;
;; LIMIT sets a maximum position we'll fontify out to.
;; DECL-OR-CAST has the form of a result from `c-forward-decl-or-cast-1',
;; and must indicate a declaration (i.e. not be nil or 'cast).
;; MATCH-POS is the position after the last symbol before the decl.
;; CONTEXT is the context of the current decl., as determined by
;; c-get-fontification-context.
;; TOPLEV is non-nil if the decl. is at the top level (i.e. outside any
;; braces, or directly inside a class, namespace, etc.)
;; Do we have an expression as the second or third clause of
;; a "for" paren expression?
(if (save-excursion
(and
(car (cddr decl-or-cast)) ; maybe-expression flag.
(c-go-up-list-backward nil (c-determine-limit 500))
(eq (char-after) ?\()
(progn (c-backward-syntactic-ws)
(c-simple-skip-symbol-backward))
(looking-at c-paren-stmt-key)
(progn (goto-char match-pos)
(while (and (eq (char-before) ?\))
(c-go-list-backward))
(c-backward-syntactic-ws))
(eq (char-before) ?\;))))
;; We've got an expression in "for" parens. Remove the
;; "type" that would spuriously get fontified.
(let ((elt (and (consp c-record-type-identifiers)
(assq (cadr (cddr decl-or-cast))
c-record-type-identifiers))))
(when elt
(setq c-record-type-identifiers
(c-delq-from-dotted-list
elt c-record-type-identifiers)))
t)
;; Back up to the type to fontify the declarator(s).
(goto-char (car decl-or-cast))
(let ((decl-list
(if (not (memq context '(nil top)))
;; Should normally not fontify a list of
;; declarators inside an arglist, but the first
;; argument in the ';' separated list of a "for"
;; statement is an exception.
(when (eq (char-before match-pos) ?\()
(save-excursion
(goto-char (1- match-pos))
(c-backward-syntactic-ws)
(and (c-simple-skip-symbol-backward)
(looking-at c-paren-stmt-key))))
t))
(template-class (and (eq context '<>)
(save-excursion
(goto-char match-pos)
(c-forward-syntactic-ws)
(looking-at c-template-typename-key)))))
;; Fix the `c-decl-id-start' or `c-decl-type-start' property
;; before the first declarator if it's a list.
;; `c-font-lock-declarators' handles the rest.
(when decl-list
(save-excursion
(c-backward-syntactic-ws)
(unless (bobp)
(c-put-char-property (1- (point)) 'c-type
(if (cadr decl-or-cast)
'c-decl-type-start
'c-decl-id-start)))))
(c-font-lock-declarators
(min limit (point-max)) decl-list
(cadr decl-or-cast) (not toplev) template-class))
;; A declaration has been successfully identified, so do all the
;; fontification of types and refs that've been recorded.
(c-fontify-recorded-types-and-refs)
nil))
(defun c-font-lock-declarations (limit)
;; Fontify all the declarations, casts and labels from the point to LIMIT.
;; Assumes that strings and comments have been fontified already.
;;
;; This function will be called from font-lock for a region bounded by POINT
;; and LIMIT, as though it were to identify a keyword for
;; font-lock-keyword-face. It always returns NIL to inhibit this and
;; prevent a repeat invocation. See elisp/lispref page "Search-based
;; Fontification".
;;
;; This function might do hidden buffer changes.
;;(message "c-font-lock-declarations search from %s to %s" (point) limit)
(c-skip-comments-and-strings limit)
(when (< (point) limit)
(save-restriction
(let (;; The position where `c-find-decl-spots' last stopped.
start-pos
;; o - 'decl if we're in an arglist containing declarations
;; (but if `c-recognize-paren-inits' is set it might also be
;; an initializer arglist);
;; o - '<> if the arglist is of angle bracket type;
;; o - 'arglist if it's some other arglist;
;; o - nil, if not in an arglist at all. This includes the
;; parenthesized condition which follows "if", "while", etc.
context
;; A list of starting positions of possible type declarations, or of
;; the typedef preceding one, if any.
last-cast-end
;; The result from `c-forward-decl-or-cast-1'.
decl-or-cast
;; The maximum of the end positions of all the checked type
;; decl expressions in the successfully identified
;; declarations. The position might be either before or
;; after the syntactic whitespace following the last token
;; in the type decl expression.
(max-type-decl-end 0)
;; Same as `max-type-decl-*', but used when we're before
;; `token-pos'.
(max-type-decl-end-before-token 0)
;; End of <..> construct which has had c-<>-arg-sep c-type
;; properties set within it.
(max-<>-end 0)
;; Set according to the context to direct the heuristics for
;; recognizing C++ templates.
c-restricted-<>-arglists
;; Turn on recording of identifier ranges in
;; `c-forward-decl-or-cast-1' and `c-forward-label' for
;; later fontification.
(c-record-type-identifiers t)
label-type
c-record-ref-identifiers
;; Make `c-forward-type' calls mark up template arglists if
;; it finds any. That's necessary so that we later will
;; stop inside them to fontify types there.
(c-parse-and-markup-<>-arglists t)
;; The font-lock package in Emacs is known to clobber
;; `parse-sexp-lookup-properties' (when it exists).
(parse-sexp-lookup-properties
(cc-eval-when-compile
(boundp 'parse-sexp-lookup-properties))
))
;; Below we fontify a whole declaration even when it crosses the limit,
;; to avoid gaps when jit/lazy-lock fontifies the file a block at a
;; time. That is however annoying during editing, e.g. the following is
;; a common situation while the first line is being written:
;;
;; my_variable
;; some_other_variable = 0;
;;
;; font-lock will put the limit at the beginning of the second line
;; here, and if we go past it we'll fontify "my_variable" as a type and
;; "some_other_variable" as an identifier, and the latter will not
;; correct itself until the second line is changed. To avoid that we
;; narrow to the limit if the region to fontify is a single line.
(if (<= limit (c-point 'bonl))
(narrow-to-region
(point-min)
(save-excursion
;; Narrow after any operator chars following the limit though,
;; since those characters can be useful in recognizing a
;; declaration (in particular the '{' that opens a function body
;; after the header).
(goto-char limit)
(skip-chars-forward c-nonsymbol-chars)
(point))))
(c-find-decl-spots
limit
c-decl-start-re
(eval c-maybe-decl-faces)
(lambda (match-pos inside-macro &optional toplev)
;; Note to maintainers: don't use `limit' inside this lambda form;
;; c-find-decl-spots sometimes narrows to less than `limit'.
(setq start-pos (point))
(when
;; The result of the form below is true when we don't recognize a
;; declaration or cast, and we don't recognize a "non-decl",
;; typically a brace list.
(if (or (and (eq (get-text-property (point) 'face)
'font-lock-keyword-face)
(looking-at c-not-decl-init-keywords))
(and c-macro-with-semi-re
(looking-at c-macro-with-semi-re))) ; 2008-11-04
;; Don't do anything more if we're looking at a keyword that
;; can't start a declaration.
t
;; Set `context' and `c-restricted-<>-arglists'. Look for
;; "<" for the sake of C++-style template arglists.
;; Ignore "(" when it's part of a control flow construct
;; (e.g. "for (").
(let ((got-context
(c-get-fontification-context
match-pos
(< match-pos (if inside-macro
max-type-decl-end-before-token
max-type-decl-end))
toplev)))
(setq context (car got-context)
c-restricted-<>-arglists (cdr got-context)))
;; Check we haven't missed a preceding "typedef".
(when (not (looking-at c-typedef-key))
(c-backward-syntactic-ws)
(c-backward-token-2)
(or (looking-at c-typedef-key)
(goto-char start-pos)))
;; In QT, "more" is an irritating keyword that expands to nothing.
;; We skip over it to prevent recognition of "more slots: <symbol>"
;; as a bitfield declaration.
(when (and (c-major-mode-is 'c++-mode)
(looking-at
(concat "\\(more\\)\\([^" c-symbol-chars "]\\|$\\)")))
(goto-char (match-end 1))
(c-forward-syntactic-ws))
;; Now analyze the construct.
(if (eq context 'not-decl)
(progn
(setq decl-or-cast nil)
(if (c-syntactic-re-search-forward
"," (min limit (point-max)) 'at-limit t)
(c-put-char-property (1- (point)) 'c-type 'c-not-decl))
nil)
(setq decl-or-cast
(c-forward-decl-or-cast-1
match-pos context last-cast-end))
;; Ensure that c-<>-arg-sep c-type properties are in place on the
;; commas separating the arguments inside template/generic <..>s.
(when (and (eq (char-before match-pos) ?<)
(> match-pos max-<>-end))
(save-excursion
(goto-char match-pos)
(c-backward-token-2)
(if (and
(eq (char-after) ?<)
(let ((c-restricted-<>-arglists
(save-excursion
(c-backward-token-2)
(and
(not (looking-at c-opt-<>-sexp-key))
(progn (c-backward-syntactic-ws)
(memq (char-before) '(?\( ?,)))
(not (eq (c-get-char-property (1- (point))
'c-type)
'c-decl-arg-start))))))
(c-forward-<>-arglist nil)))
(setq max-<>-end (point)))))
(cond
((eq decl-or-cast 'cast)
;; Save the position after the previous cast so we can feed
;; it to `c-forward-decl-or-cast-1' in the next round. That
;; helps it discover cast chains like "(a) (b) c".
(setq last-cast-end (point))
(c-fontify-recorded-types-and-refs)
nil)
(decl-or-cast
;; We've found a declaration.
;; Set `max-type-decl-end' or `max-type-decl-end-before-token'
;; under the assumption that we're after the first type decl
;; expression in the declaration now. That's not really true;
;; we could also be after a parenthesized initializer
;; expression in C++, but this is only used as a last resort
;; to slant ambiguous expression/declarations, and overall
;; it's worth the risk to occasionally fontify an expression
;; as a declaration in an initializer expression compared to
;; getting ambiguous things in normal function prototypes
;; fontified as expressions.
(if inside-macro
(when (> (point) max-type-decl-end-before-token)
(setq max-type-decl-end-before-token (point)))
(when (> (point) max-type-decl-end)
(setq max-type-decl-end (point))))
(goto-char start-pos)
(c-font-lock-single-decl limit decl-or-cast match-pos
context
(or toplev (nth 4 decl-or-cast))))
(t t))))
;; It was a false alarm. Check if we're in a label (or other
;; construct with `:' except bitfield) instead.
(goto-char start-pos)
(when (setq label-type (c-forward-label t match-pos nil))
;; Can't use `c-fontify-types-and-refs' here since we
;; use the label face at times.
(cond ((eq label-type 'goto-target)
(c-put-font-lock-face (caar c-record-ref-identifiers)
(cdar c-record-ref-identifiers)
c-label-face-name))
((eq label-type 'qt-1kwd-colon)
(c-put-font-lock-face (caar c-record-ref-identifiers)
(cdar c-record-ref-identifiers)
'font-lock-keyword-face))
((eq label-type 'qt-2kwds-colon)
(mapc
(lambda (kwd)
(c-put-font-lock-face (car kwd) (cdr kwd)
'font-lock-keyword-face))
c-record-ref-identifiers)))
(setq c-record-ref-identifiers nil)
;; `c-forward-label' has probably added a `c-decl-end'
;; marker, so return t to `c-find-decl-spots' to signal
;; that.
t))))
nil))))
(defun c-font-lock-enum-body (limit)
;; Fontify the identifiers of each enum we find by searching forward.
;;
;; This function will be called from font-lock for a region bounded by POINT
;; and LIMIT, as though it were to identify a keyword for
;; font-lock-keyword-face. It always returns NIL to inhibit this and
;; prevent a repeat invocation. See elisp/lispref page "Search-based
;; Fontification".
(while (and (< (point) limit)
(search-forward-regexp c-enum-clause-introduction-re limit t))
(when (save-excursion
(backward-char)
(c-backward-over-enum-header))
(c-forward-syntactic-ws)
(c-font-lock-declarators limit t nil t)))
nil)
(defun c-font-lock-enum-tail (limit)
;; Fontify an enum's identifiers when POINT is within the enum's brace
;; block.
;;
;; This function will be called from font-lock for a region bounded by POINT
;; and LIMIT, as though it were to identify a keyword for
;; font-lock-keyword-face. It always returns NIL to inhibit this and
;; prevent a repeat invocation. See elisp/lispref page "Search-based
;; Fontification".
;;
;; Note that this function won't attempt to fontify beyond the end of the
;; current enum block, if any.
(c-skip-comments-and-strings limit)
(when (< (point) limit)
(let* ((paren-state (c-parse-state))
(encl-pos (c-most-enclosing-brace paren-state)))
(when (and
encl-pos
(eq (char-after encl-pos) ?\{)
(save-excursion
(goto-char encl-pos)
(c-backward-over-enum-header)))
(c-syntactic-skip-backward "^{," nil t)
(c-put-char-property (1- (point)) 'c-type 'c-decl-id-start)
(c-forward-syntactic-ws)
(c-font-lock-declarators limit t nil t))))
nil)
(defun c-font-lock-cut-off-declarators (limit)
;; Fontify any declarators "cut off" from their declaring type at the start
;; of the region being fontified.
;;
;; This function will be called from font-lock- for a region bounded by
;; POINT and LIMIT, as though it were to identify a keyword for
;; font-lock-keyword-face. It always returns NIL to inhibit this and
;; prevent a repeat invocation. See elisp/lispref page "Search-based
;; fontification".
(c-skip-comments-and-strings limit)
(when (< (point) limit)
(let ((here (point))
(decl-search-lim (c-determine-limit 1000))
paren-state encl-pos token-end context decl-or-cast
start-pos top-level c-restricted-<>-arglists
c-recognize-knr-p) ; Strictly speaking, bogus, but it
; speeds up lisp.h tremendously.
(save-excursion
(when (not (c-back-over-member-initializers
(max (- (point) 2000) (point-min)))) ; c-determine-limit
; is too slow, here.
(unless (or (eobp)
(looking-at "\\s(\\|\\s)"))
(forward-char))
(c-syntactic-skip-backward "^;{}" decl-search-lim t)
(when (eq (char-before) ?})
(c-go-list-backward) ; brace block of struct, etc.?
(c-syntactic-skip-backward "^;{}" decl-search-lim t))
(when (or (bobp)
(memq (char-before) '(?\; ?{ ?})))
(setq token-end (point))
(c-forward-syntactic-ws here)
(when (< (point) here)
;; We're now putatively at the declaration.
(setq start-pos (point))
(setq paren-state (c-parse-state))
;; At top level or inside a "{"?
(if (or (not (setq encl-pos
(c-most-enclosing-brace paren-state)))
(eq (char-after encl-pos) ?\{))
(progn
(setq top-level (c-at-toplevel-p))
(let ((got-context (c-get-fontification-context
token-end nil top-level)))
(setq context (car got-context)
c-restricted-<>-arglists (cdr got-context)))
(setq decl-or-cast
(c-forward-decl-or-cast-1 token-end context nil))
(when (consp decl-or-cast)
(goto-char start-pos)
(c-font-lock-single-decl limit decl-or-cast token-end
context top-level))))))))
nil)))
(defun c-font-lock-enclosing-decls (limit)
;; Fontify the declarators of (nested) declarations we're in the middle of.
;; This is mainly for when a jit-lock etc. chunk starts inside the brace
;; block of a struct/union/class, etc.
;;
;; This function will be called from font-lock for a region bounded by POINT
;; and LIMIT, as though it were to identify a keyword for
;; font-lock-keyword-face. It always returns NIL to inhibit this and
;; prevent a repeat invocation. See elisp/lispref page "Search-based
;; Fontification".
(c-skip-comments-and-strings limit)
(when (< (point) limit)
(let* ((paren-state (c-parse-state))
(decl-search-lim (c-determine-limit 1000))
in-typedef ps-elt)
;; Are we in any nested struct/union/class/etc. braces?
(while paren-state
(setq ps-elt (car paren-state)
paren-state (cdr paren-state))
(when (and (atom ps-elt)
(eq (char-after ps-elt) ?\{))
(goto-char ps-elt)
(c-syntactic-skip-backward "^;{}" decl-search-lim)
(c-forward-syntactic-ws)
(setq in-typedef (looking-at c-typedef-key))
(if in-typedef (c-forward-over-token-and-ws))
(when (and c-opt-block-decls-with-vars-key
(looking-at c-opt-block-decls-with-vars-key))
(goto-char ps-elt)
(when (c-safe (c-forward-sexp))
(c-forward-syntactic-ws)
(c-font-lock-declarators limit t in-typedef
(not (c-bs-at-toplevel-p (point)))))))))))
(defun c-font-lock-raw-strings (limit)
;; Fontify C++ raw strings.
;;
;; This function will be called from font-lock for a region bounded by POINT
;; and LIMIT, as though it were to identify a keyword for
;; font-lock-keyword-face. It always returns NIL to inhibit this and
;; prevent a repeat invocation. See elisp/lispref page "Search-based
;; Fontification".
(let* ((state (c-semi-pp-to-literal (point)))
(string-start (and (eq (cadr state) 'string)
(car (cddr state))))
(raw-id (and string-start
(c-at-c++-raw-string-opener string-start)
(match-string-no-properties 1)))
(content-start (and raw-id (point))))
;; We go round the next loop twice per raw string, once for each "end".
(while (< (point) limit)
(if raw-id
;; Search for the raw string end delimiter
(progn
(when (search-forward-regexp (concat ")\\(" (regexp-quote raw-id) "\\)\"")
limit 'limit)
(c-put-font-lock-face content-start (match-beginning 1)
'font-lock-string-face)
(c-remove-font-lock-face (match-beginning 1) (point)))
(setq raw-id nil))
;; Search for the start of a raw string.
(when (search-forward-regexp
"R\\(\"\\)\\([^ ()\\\n\r\t]\\{0,16\\}\\)(" limit 'limit)
(when
;; Make sure we're not in a comment or string.
(and
(not (memq (c-get-char-property (match-beginning 0) 'face)
'(font-lock-comment-face font-lock-comment-delimiter-face
font-lock-string-face)))
(or (and (eobp)
(eq (c-get-char-property (1- (point)) 'face)
'font-lock-warning-face))
(not (eq (c-get-char-property (point) 'face) 'font-lock-comment-face))
;; (eq (c-get-char-property (point) 'face) 'font-lock-string-face)
(and (equal (c-get-char-property (match-end 2) 'syntax-table) '(1))
(equal (c-get-char-property (match-beginning 1) 'syntax-table)
'(1)))))
(let ((paren-prop (c-get-char-property (1- (point)) 'syntax-table)))
(if paren-prop
(progn
(c-put-font-lock-face (match-beginning 0) (match-end 0)
'font-lock-warning-face)
(when
(and
(equal paren-prop '(15))
(not (c-search-forward-char-property 'syntax-table '(15) limit)))
(goto-char limit)))
(c-remove-font-lock-face (match-beginning 0) (match-end 2))
(setq raw-id (match-string-no-properties 2))
(setq content-start (match-end 0)))))))))
nil)
(defun c-font-lock-c++-lambda-captures (limit)
;; Fontify the lambda capture component of C++ lambda declarations.
;;
;; This function will be called from font-lock for a region bounded by POINT
;; and LIMIT, as though it were to identify a keyword for
;; font-lock-keyword-face. It always returns NIL to inhibit this and
;; prevent a repeat invocation. See elisp/lispref page "Search-based
;; Fontification".
(let (mode capture-default id-start id-end declaration sub-begin sub-end)
(while (and (< (point) limit)
(search-forward "[" limit t))
(when (progn (backward-char)
(prog1
(c-looking-at-c++-lambda-capture-list)
(forward-char)))
(c-forward-syntactic-ws)
(setq mode (and (memq (char-after) '(?= ?&))
(char-after)))
;; Is the first element of the list a bare "=" or "&"?
(when mode
(forward-char)
(c-forward-syntactic-ws)
(if (memq (char-after) '(?, ?\]))
(progn
(setq capture-default mode)
(when (eq (char-after) ?,)
(forward-char)
(c-forward-syntactic-ws)))
(c-backward-token-2)))
;; Go round the following loop once per captured item. We use "\\s)"
;; rather than "\\]" here to avoid infinite looping in this situation:
;; "unsigned items [] { [ }". The second "[" triggers this function,
;; but if we don't match the "}" with an "\\s)", the
;; `c-syntactic-re-search-forward' at the end of the loop fails to
;; move forward over it, leaving point stuck at the "}".
(while (and (not (looking-at "\\s)"))
(< (point) limit))
(if (eq (char-after) ?&)
(progn (setq mode ?&)
(forward-char)
(c-forward-syntactic-ws))
(setq mode ?=))
(if (c-on-identifier)
(progn
(setq id-start (point))
(forward-char)
(c-end-of-current-token)
(setq id-end (point))
(c-forward-syntactic-ws)
(setq declaration (eq (char-after) ?=))
(when declaration
(forward-char) ; over "="
(c-forward-syntactic-ws)
(setq sub-begin (point)))
(if (or (and (< (point) limit)
(c-syntactic-re-search-forward "," limit t t))
(and (c-go-up-list-forward nil limit)
(eq (char-before) ?\])))
(backward-char)
(goto-char limit))
(when declaration
(save-excursion
(setq sub-end (point))
(goto-char sub-begin)
(c-font-lock-c++-lambda-captures sub-end)))
(c-put-font-lock-face id-start id-end
(cond
(declaration
'font-lock-variable-name-face)
((and capture-default
(eq mode capture-default))
'font-lock-warning-face)
((eq mode ?=) font-lock-constant-face)
(t 'font-lock-variable-name-face))))
(c-syntactic-re-search-forward "," limit 'bound t))
(c-forward-syntactic-ws)
(when (eq (char-after) ?,)
(forward-char)
(c-forward-syntactic-ws)))
(setq capture-default nil)
(if (< (point) limit)
(forward-char))))) ; over the terminating "]" or other close paren.
nil)
(c-lang-defconst c-simple-decl-matchers
"Simple font lock matchers for types and declarations. These are used
on level 2 only and so aren't combined with `c-complex-decl-matchers'."
t `(;; Objective-C methods.
,@(when (c-major-mode-is 'objc-mode)
`((,(c-lang-const c-opt-method-key)
(,(byte-compile
(lambda (limit)
(let (;; The font-lock package in Emacs is known to clobber
;; `parse-sexp-lookup-properties' (when it exists).
(parse-sexp-lookup-properties
(cc-eval-when-compile
(boundp 'parse-sexp-lookup-properties))))
(save-restriction
(narrow-to-region (point-min) limit)
(c-font-lock-objc-method)))
nil))
(goto-char (match-end 1))))))
;; Fontify all type names and the identifiers in the
;; declarations they might start. Use eval here since
;; `c-known-type-key' gets its value from
;; `*-font-lock-extra-types' on mode init.
(eval . (list ,(c-make-font-lock-search-function
'c-known-type-key
'(1 'font-lock-type-face t)
'((c-font-lock-declarators limit t nil nil)
(save-match-data
(goto-char (match-end 1))
(c-forward-syntactic-ws))
(goto-char (match-end 1))))))
;; Fontify types preceded by `c-type-prefix-kwds' and the
;; identifiers in the declarations they might start.
,@(when (c-lang-const c-type-prefix-kwds)
(let* ((prefix-re (c-make-keywords-re nil
(c-lang-const c-type-prefix-kwds)))
(type-match (+ 2
(regexp-opt-depth prefix-re)
(c-lang-const c-simple-ws-depth))))
`((,(c-make-font-lock-search-function
(concat "\\<\\(" prefix-re "\\)" ; 1
(c-lang-const c-simple-ws) "+"
(concat "\\(" ; 2 + prefix-re + c-simple-ws
(c-lang-const c-symbol-key)
"\\)"))
`(,type-match
'font-lock-type-face t)
`((c-font-lock-declarators limit t nil nil)
(save-match-data
(goto-char (match-end ,type-match))
(c-forward-syntactic-ws))
(goto-char (match-end ,type-match))))))))
;; Fontify special declarations that lacks a type.
,@(when (c-lang-const c-typeless-decl-kwds)
`((,(c-make-font-lock-search-function
(concat "\\<\\("
(regexp-opt (c-lang-const c-typeless-decl-kwds))
"\\)\\>")
'((c-font-lock-declarators limit t nil nil)
(save-match-data
(goto-char (match-end 1))
(c-forward-syntactic-ws))
(goto-char (match-end 1)))))))
;; Fontify generic colon labels in languages that support them.
,@(when (c-lang-const c-recognize-colon-labels)
'(c-font-lock-labels))))
(c-lang-defconst c-complex-decl-matchers
"Complex font lock matchers for types and declarations. Used on level
3 and higher."
;; Note: This code in this form dumps a number of functions into the
;; resulting constant, `c-matchers-3'. At run time, font lock will call
;; each of them as a "FUNCTION" (see Elisp page "Search-based
;; Fontification"). The font lock region is delimited by POINT and the
;; single parameter, LIMIT. Each of these functions returns NIL (thus
;; inhibiting spurious font-lock-keyword-face highlighting and another
;; call).
t `(;; Initialize some things before the search functions below.
c-font-lock-complex-decl-prepare
,@(if (c-major-mode-is 'objc-mode)
;; Fontify method declarations in Objective-C, but first
;; we have to put the `c-decl-end' `c-type' property on
;; all the @-style directives that haven't been handled in
;; `c-basic-matchers-before'.
`(,(c-make-font-lock-search-function
(c-make-keywords-re t
;; Exclude "@class" since that directive ends with a
;; semicolon anyway.
(delete "@class"
(append (c-lang-const c-protection-kwds)
(c-lang-const c-other-decl-kwds)
nil)))
'((c-put-char-property (1- (match-end 1))
'c-type 'c-decl-end)))
c-font-lock-objc-methods))
;; Fontify declarators which have been cut off from their declaring
;; types at the start of the region.
c-font-lock-cut-off-declarators
;; Fontify all declarations, casts and normal labels.
c-font-lock-declarations
;; Fontify declarators when POINT is within their declaration.
c-font-lock-enclosing-decls
;; Fontify angle bracket arglists like templates in C++.
,@(when (c-lang-const c-recognize-<>-arglists)
'(c-font-lock-<>-arglists))
,@(when (c-major-mode-is 'c++-mode)
'(c-font-lock-c++-lambda-captures))
;; The first two rules here mostly find occurrences that
;; `c-font-lock-declarations' has found already, but not
;; declarations containing blocks in the type (see note below).
;; It's also useful to fontify these everywhere to show e.g. when
;; a type keyword is accidentally used as an identifier.
;; Fontify basic types.
,(let ((re (c-make-keywords-re nil
(c-lang-const c-primitive-type-kwds))))
(if (c-major-mode-is 'pike-mode)
;; No symbol is a keyword after "->" in Pike.
`(,(concat "\\(\\=.?\\|[^>]\\|[^-]>\\)"
"\\<\\(" re "\\)\\>")
2 font-lock-type-face)
`(,(concat "\\<\\(" re "\\)\\>")
1 'font-lock-type-face)))
;; Fontify the type in C++ "new" expressions.
,@(when (c-major-mode-is 'c++-mode)
;; This pattern is a probably a "(MATCHER . ANCHORED-HIGHLIGHTER)"
;; (see Elisp page "Search-based Fontification").
'(("\\<new\\>"
(c-font-lock-c++-new))))
))
(defun c-font-lock-labels (limit)
;; Fontify all statement labels from the point to LIMIT. Assumes
;; that strings and comments have been fontified already. Nil is
;; always returned.
;;
;; Note: This function is only used on decoration level 2; this is
;; taken care of directly by the gargantuan
;; `c-font-lock-declarations' on higher levels.
;;
;; This function might do hidden buffer changes.
(let (continue-pos id-start
;; The font-lock package in Emacs is known to clobber
;; `parse-sexp-lookup-properties' (when it exists).
(parse-sexp-lookup-properties
(cc-eval-when-compile
(boundp 'parse-sexp-lookup-properties))))
(while (re-search-forward ":[^:]" limit t)
(setq continue-pos (point))
(goto-char (match-beginning 0))
(unless (c-skip-comments-and-strings limit)
(c-backward-syntactic-ws)
(and (setq id-start (c-on-identifier))
(not (get-text-property id-start 'face))
(progn
(goto-char id-start)
(c-backward-syntactic-ws)
(or
;; Check for a char that precedes a statement.
(memq (char-before) '(?\} ?\{ ?\;))
;; Check for a preceding label. We exploit the font
;; locking made earlier by this function.
(and (eq (char-before) ?:)
(progn
(backward-char)
(c-backward-syntactic-ws)
(not (bobp)))
(eq (get-text-property (1- (point)) 'face)
c-label-face-name))
;; Check for a keyword that precedes a statement.
(c-after-conditional)))
(progn
;; Got a label.
(goto-char id-start)
(looking-at c-symbol-key)
(c-put-font-lock-face (match-beginning 0) (match-end 0)
c-label-face-name)))
(goto-char continue-pos))))
nil)
(c-lang-defconst c-basic-matchers-after
"Font lock matchers for various things that should be fontified after
generic casts and declarations are fontified. Used on level 2 and
higher."
t `(,@(when (c-lang-const c-brace-list-decl-kwds)
;; Fontify the remaining identifiers inside an enum list when we start
;; inside it.
'(c-font-lock-enum-tail
;; Fontify the identifiers inside enum lists. (The enum type
;; name is handled by `c-simple-decl-matchers' or
;; `c-complex-decl-matchers' below.
c-font-lock-enum-body))
;; Fontify labels after goto etc.
,@(when (c-lang-const c-before-label-kwds)
`(;; (Got three different interpretation levels here,
;; which makes it a bit complicated: 1) The backquote
;; stuff is expanded when compiled or loaded, 2) the
;; eval form is evaluated at font-lock setup (to
;; substitute c-label-face-name correctly), and 3) the
;; resulting structure is interpreted during
;; fontification.)
(eval
. ,(let* ((c-before-label-re
(c-make-keywords-re nil
(c-lang-const c-before-label-kwds))))
`(list
,(concat "\\<\\(" c-before-label-re "\\)\\>"
"\\s *"
"\\(" ; identifier-offset
(c-lang-const c-symbol-key)
"\\)")
(list ,(+ (regexp-opt-depth c-before-label-re) 2)
c-label-face-name nil t))))))
;; Fontify the clauses after various keywords.
,@(when (or (c-lang-const c-type-list-kwds)
(c-lang-const c-ref-list-kwds)
(c-lang-const c-colon-type-list-kwds))
`((,(c-make-font-lock-BO-decl-search-function
(concat "\\<\\("
(c-make-keywords-re nil
(append (c-lang-const c-type-list-kwds)
(c-lang-const c-ref-list-kwds)
(c-lang-const c-colon-type-list-kwds)))
"\\)\\>")
'((c-fontify-types-and-refs ((c-promote-possible-types t))
(c-forward-keyword-clause 1)
(if (> (point) limit) (goto-char limit))))))))
,@(when (c-lang-const c-paren-type-kwds)
`((,(c-make-font-lock-search-function
(concat "\\<\\("
(c-make-keywords-re nil
(c-lang-const c-paren-type-kwds))
"\\)\\>")
'((c-fontify-types-and-refs ((c-promote-possible-types t))
(c-forward-keyword-clause 1)
(if (> (point) limit) (goto-char limit))))))))
,@(when (c-major-mode-is 'java-mode)
'((eval . (list "\\<\\(@[a-zA-Z0-9]+\\)\\>" 1 c-annotation-face))))
))
(c-lang-defconst c-matchers-1
t (c-lang-const c-cpp-matchers))
(c-lang-defconst c-matchers-2
t (append (c-lang-const c-matchers-1)
(c-lang-const c-basic-matchers-before)
(c-lang-const c-simple-decl-matchers)
(c-lang-const c-basic-matchers-after)))
(c-lang-defconst c-matchers-3
t (append (c-lang-const c-matchers-1)
(c-lang-const c-basic-matchers-before)
(c-lang-const c-complex-decl-matchers)
(c-lang-const c-basic-matchers-after)))
(defun c-get-doc-comment-style ()
;; Get the symbol (or list of symbols) constituting the document style.
;; Return nil if there is no such, otherwise something like `autodoc'.
(if (consp (car-safe c-doc-comment-style))
(cdr-safe (or (assq c-buffer-is-cc-mode c-doc-comment-style)
(assq 'other c-doc-comment-style)))
c-doc-comment-style))
(defun c-compose-keywords-list (base-list)
;; Incorporate the font lock keyword lists according to
;; `c-doc-comment-style' on the given keyword list and return it.
;; This is used in the function bindings of the
;; `*-font-lock-keywords-*' symbols since we have to build the list
;; when font-lock is initialized.
(unless (memq c-doc-face-name c-literal-faces)
(setq c-literal-faces (cons c-doc-face-name c-literal-faces)))
(let* ((doc-keywords (c-get-doc-comment-style))
(list (nconc (c--mapcan
(lambda (doc-style)
(let ((sym (intern
(concat (symbol-name doc-style)
"-font-lock-keywords"))))
(cond ((fboundp sym)
(funcall sym))
((boundp sym)
(append (eval sym) nil)))))
(if (listp doc-keywords)
doc-keywords
(list doc-keywords)))
base-list)))
;; Kludge: If `c-font-lock-complex-decl-prepare' is on the list we
;; move it first since the doc comment font lockers might add
;; `c-type' text properties, so they have to be cleared before that.
(when (memq 'c-font-lock-complex-decl-prepare list)
(setq list (cons 'c-font-lock-complex-decl-prepare
(delq 'c-font-lock-complex-decl-prepare
(append list nil)))))
list))
(defun c-override-default-keywords (def-var)
;; This is used to override the value on a `*-font-lock-keywords'
;; variable only if it's nil or has the same value as one of the
;; `*-font-lock-keywords-*' variables. Older font-lock packages
;; define a default value for `*-font-lock-keywords' which we want
;; to override, but we should otoh avoid clobbering a user setting.
;; This heuristic for that isn't perfect, but I can't think of any
;; better. /mast
(when (and (boundp def-var)
(memq (symbol-value def-var)
(cons nil
(mapcar
(lambda (suffix)
(let ((sym (intern (concat (symbol-name def-var)
suffix))))
(and (boundp sym) (symbol-value sym))))
'("-1" "-2" "-3")))))
;; The overriding is done by unbinding the variable so that the normal
;; defvar will install its default value later on.
(makunbound def-var)))
;;; C.
(c-override-default-keywords 'c-font-lock-keywords)
(defconst c-font-lock-keywords-1 (c-lang-const c-matchers-1 c)
"Minimal font locking for C mode.
Fontifies only preprocessor directives (in addition to the syntactic
fontification of strings and comments).")
(defconst c-font-lock-keywords-2 (c-lang-const c-matchers-2 c)
"Fast normal font locking for C mode.
In addition to `c-font-lock-keywords-1', this adds fontification of
keywords, simple types, declarations that are easy to recognize, the
user defined types on `c-font-lock-extra-types', and the doc comment
styles specified by `c-doc-comment-style'.")
(defconst c-font-lock-keywords-3 (c-lang-const c-matchers-3 c)
"Accurate normal font locking for C mode.
Like the variable `c-font-lock-keywords-2' but detects declarations in a more
accurate way that works in most cases for arbitrary types without the
need for `c-font-lock-extra-types'.")
(defvar c-font-lock-keywords c-font-lock-keywords-3
"Default expressions to highlight in C mode.")
(defun c-font-lock-keywords-2 ()
(c-compose-keywords-list c-font-lock-keywords-2))
(defun c-font-lock-keywords-3 ()
(c-compose-keywords-list c-font-lock-keywords-3))
(defun c-font-lock-keywords ()
(c-compose-keywords-list c-font-lock-keywords))
;;; C++.
(defun c-font-lock-c++-new (limit)
;; FIXME!!! Put in a comment about the context of this function's
;; invocation. I think it's called as an ANCHORED-MATCHER within an
;; ANCHORED-HIGHLIGHTER. (2007/2/10).
;;
;; Assuming point is after a "new" word, check that it isn't inside
;; a string or comment, and if so try to fontify the type in the
;; allocation expression. Nil is always returned.
;;
;; As usual, C++ takes the prize in coming up with a hard to parse
;; syntax. :P
;;
;; This function might do hidden buffer changes.
(unless (c-skip-comments-and-strings limit)
(save-excursion
(catch 'false-alarm
;; A "new" keyword is followed by one to three expressions, where
;; the type is the middle one, and the only required part.
(let (expr1-pos expr2-pos
;; Enable recording of identifier ranges in `c-forward-type'
;; etc for later fontification. Not using
;; `c-fontify-types-and-refs' here since the ranges should
;; be fontified selectively only when an allocation
;; expression is successfully recognized.
(c-record-type-identifiers t)
c-record-ref-identifiers
;; The font-lock package in Emacs is known to clobber
;; `parse-sexp-lookup-properties' (when it exists).
(parse-sexp-lookup-properties
(cc-eval-when-compile
(boundp 'parse-sexp-lookup-properties))))
(c-forward-syntactic-ws)
;; The first placement arglist is always parenthesized, if it
;; exists.
(when (eq (char-after) ?\()
(setq expr1-pos (1+ (point)))
(condition-case nil
(c-forward-sexp)
(scan-error (throw 'false-alarm t)))
(c-forward-syntactic-ws))
;; The second expression is either a type followed by some "*" or
;; "[...]" or similar, or a parenthesized type followed by a full
;; identifierless declarator.
(setq expr2-pos (1+ (point)))
(cond ((eq (char-after) ?\())
((let ((c-promote-possible-types t))
(c-forward-type)))
(t (setq expr2-pos nil)))
(when expr1-pos
(cond
((not expr2-pos)
;; No second expression, so the first has to be a
;; parenthesized type.
(goto-char expr1-pos)
(let ((c-promote-possible-types t))
(c-forward-type)))
((eq (char-before expr2-pos) ?\()
;; Got two parenthesized expressions, so we have to look
;; closer at them to decide which is the type. No need to
;; handle `c-record-ref-identifiers' since all references
;; have already been handled by other fontification rules.
(let (expr1-res expr2-res)
(goto-char expr1-pos)
(when (setq expr1-res (c-forward-type))
(unless (looking-at
(cc-eval-when-compile
(concat (c-lang-const c-symbol-start c++)
"\\|[*:)[]")))
;; There's something after the would-be type that
;; can't be there, so this is a placement arglist.
(setq expr1-res nil)))
(goto-char expr2-pos)
(when (setq expr2-res (c-forward-type))
(unless (looking-at
(cc-eval-when-compile
(concat (c-lang-const c-symbol-start c++)
"\\|[*:)[]")))
;; There's something after the would-be type that can't
;; be there, so this is an initialization expression.
(setq expr2-res nil))
(when (and (c-go-up-list-forward)
(progn (c-forward-syntactic-ws)
(eq (char-after) ?\()))
;; If there's a third initialization expression
;; then the second one is the type, so demote the
;; first match.
(setq expr1-res nil)))
;; We fontify the most likely type, with a preference for
;; the first argument since a placement arglist is more
;; unusual than an initializer.
(cond ((memq expr1-res '(t known prefix)))
((memq expr2-res '(t known prefix)))
;; Presumably 'decltype's will be fontified elsewhere.
((eq expr1-res 'decltype))
((eq expr2-res 'decltype))
((eq expr1-res 'found)
(let ((c-promote-possible-types t))
(goto-char expr1-pos)
(c-forward-type)))
((eq expr2-res 'found)
(let ((c-promote-possible-types t))
(goto-char expr2-pos)
(c-forward-type)))
((and (eq expr1-res 'maybe) (not expr2-res))
(let ((c-promote-possible-types t))
(goto-char expr1-pos)
(c-forward-type)))
((and (not expr1-res) (eq expr2-res 'maybe))
(let ((c-promote-possible-types t))
(goto-char expr2-pos)
(c-forward-type)))
;; If both type matches are 'maybe then we're
;; too uncertain to promote either of them.
)))))
;; Fontify the type that now is recorded in
;; `c-record-type-identifiers', if any.
(c-fontify-recorded-types-and-refs)))))
nil)
(c-override-default-keywords 'c++-font-lock-keywords)
(defconst c++-font-lock-keywords-1 (c-lang-const c-matchers-1 c++)
"Minimal font locking for C++ mode.
Fontifies only preprocessor directives (in addition to the syntactic
fontification of strings and comments).")
(defconst c++-font-lock-keywords-2 (c-lang-const c-matchers-2 c++)
"Fast normal font locking for C++ mode.
In addition to `c++-font-lock-keywords-1', this adds fontification of
keywords, simple types, declarations that are easy to recognize, the
user defined types on `c++-font-lock-extra-types', and the doc comment
styles specified by `c-doc-comment-style'.")
(defconst c++-font-lock-keywords-3 (c-lang-const c-matchers-3 c++)
"Accurate normal font locking for C++ mode.
Like the variable `c++-font-lock-keywords-2' but detects declarations in a more
accurate way that works in most cases for arbitrary types without the
need for `c++-font-lock-extra-types'.")
(defvar c++-font-lock-keywords c++-font-lock-keywords-3
"Default expressions to highlight in C++ mode.")
(defun c++-font-lock-keywords-2 ()
(c-compose-keywords-list c++-font-lock-keywords-2))
(defun c++-font-lock-keywords-3 ()
(c-compose-keywords-list c++-font-lock-keywords-3))
(defun c++-font-lock-keywords ()
(c-compose-keywords-list c++-font-lock-keywords))
;;; Objective-C.
(defun c-font-lock-objc-method ()
;; Assuming the point is after the + or - that starts an Objective-C
;; method declaration, fontify it. This must be done before normal
;; casts, declarations and labels are fontified since they will get
;; false matches in these things.
;;
;; This function might do hidden buffer changes.
(c-fontify-types-and-refs
((first t)
(c-promote-possible-types t))
(while (and
(progn
(c-forward-syntactic-ws)
;; An optional method type.
(if (eq (char-after) ?\()
(progn
(forward-char)
(c-forward-syntactic-ws)
(c-forward-type)
(prog1 (c-go-up-list-forward)
(c-forward-syntactic-ws)))
t))
;; The name. The first time it's the first part of
;; the function name, the rest of the time it's an
;; argument name.
(looking-at c-symbol-key)
(progn
(goto-char (match-end 0))
(c-put-font-lock-face (match-beginning 0)
(point)
(if first
'font-lock-function-name-face
'font-lock-variable-name-face))
(c-forward-syntactic-ws)
;; Another optional part of the function name.
(when (looking-at c-symbol-key)
(goto-char (match-end 0))
(c-put-font-lock-face (match-beginning 0)
(point)
'font-lock-function-name-face)
(c-forward-syntactic-ws))
;; There's another argument if a colon follows.
(eq (char-after) ?:)))
(forward-char)
(setq first nil))))
(defun c-font-lock-objc-methods (limit)
;; Fontify method declarations in Objective-C. Nil is always
;; returned.
;;
;; This function might do hidden buffer changes.
(let (;; The font-lock package in Emacs is known to clobber
;; `parse-sexp-lookup-properties' (when it exists).
(parse-sexp-lookup-properties
(cc-eval-when-compile
(boundp 'parse-sexp-lookup-properties))))
(c-find-decl-spots
limit
"[-+]"
nil
(lambda (_match-pos _inside-macro &optional _top-level)
(forward-char)
(c-font-lock-objc-method))))
nil)
(c-override-default-keywords 'objc-font-lock-keywords)
(defconst objc-font-lock-keywords-1 (c-lang-const c-matchers-1 objc)
"Minimal font locking for Objective-C mode.
Fontifies only compiler directives (in addition to the syntactic
fontification of strings and comments).")
(defconst objc-font-lock-keywords-2 (c-lang-const c-matchers-2 objc)
"Fast normal font locking for Objective-C mode.
In addition to `objc-font-lock-keywords-1', this adds fontification of
keywords, simple types, declarations that are easy to recognize, the
user defined types on `objc-font-lock-extra-types', and the doc
comment styles specified by `c-doc-comment-style'.")
(defconst objc-font-lock-keywords-3 (c-lang-const c-matchers-3 objc)
"Accurate normal font locking for Objective-C mode.
Like the variable `objc-font-lock-keywords-2' but detects declarations in a more
accurate way that works in most cases for arbitrary types without the
need for `objc-font-lock-extra-types'.")
(defvar objc-font-lock-keywords objc-font-lock-keywords-3
"Default expressions to highlight in Objective-C mode.")
(defun objc-font-lock-keywords-2 ()
(c-compose-keywords-list objc-font-lock-keywords-2))
(defun objc-font-lock-keywords-3 ()
(c-compose-keywords-list objc-font-lock-keywords-3))
(defun objc-font-lock-keywords ()
(c-compose-keywords-list objc-font-lock-keywords))
;; Kludge to override the default value that
;; `objc-font-lock-extra-types' might have gotten from the font-lock
;; package. The value replaced here isn't relevant now anyway since
;; those types are builtin and therefore listed directly in
;; `c-primitive-type-kwds'.
(when (equal (sort (append objc-font-lock-extra-types nil) 'string-lessp)
'("BOOL" "Class" "IMP" "SEL"))
(setq objc-font-lock-extra-types
(cc-eval-when-compile (list (concat "[" c-upper "]\\sw*")))))
;;; Java.
(c-override-default-keywords 'java-font-lock-keywords)
(defconst java-font-lock-keywords-1 (c-lang-const c-matchers-1 java)
"Minimal font locking for Java mode.
Fontifies nothing except the syntactic fontification of strings and
comments.")
(defconst java-font-lock-keywords-2 (c-lang-const c-matchers-2 java)
"Fast normal font locking for Java mode.
In addition to `java-font-lock-keywords-1', this adds fontification of
keywords, simple types, declarations that are easy to recognize, the
user defined types on `java-font-lock-extra-types', and the doc
comment styles specified by `c-doc-comment-style'.")
(defconst java-font-lock-keywords-3 (c-lang-const c-matchers-3 java)
"Accurate normal font locking for Java mode.
Like variable `java-font-lock-keywords-2' but detects declarations in a more
accurate way that works in most cases for arbitrary types without the
need for `java-font-lock-extra-types'.")
(defvar java-font-lock-keywords java-font-lock-keywords-3
"Default expressions to highlight in Java mode.")
(defun java-font-lock-keywords-2 ()
(c-compose-keywords-list java-font-lock-keywords-2))
(defun java-font-lock-keywords-3 ()
(c-compose-keywords-list java-font-lock-keywords-3))
(defun java-font-lock-keywords ()
(c-compose-keywords-list java-font-lock-keywords))
;;; CORBA IDL.
(c-override-default-keywords 'idl-font-lock-keywords)
(defconst idl-font-lock-keywords-1 (c-lang-const c-matchers-1 idl)
"Minimal font locking for CORBA IDL mode.
Fontifies nothing except the syntactic fontification of strings and
comments.")
(defconst idl-font-lock-keywords-2 (c-lang-const c-matchers-2 idl)
"Fast normal font locking for CORBA IDL mode.
In addition to `idl-font-lock-keywords-1', this adds fontification of
keywords, simple types, declarations that are easy to recognize, the
user defined types on `idl-font-lock-extra-types', and the doc comment
styles specified by `c-doc-comment-style'.")
(defconst idl-font-lock-keywords-3 (c-lang-const c-matchers-3 idl)
"Accurate normal font locking for CORBA IDL mode.
Like the variable `idl-font-lock-keywords-2' but detects declarations in a more
accurate way that works in most cases for arbitrary types without the
need for `idl-font-lock-extra-types'.")
(defvar idl-font-lock-keywords idl-font-lock-keywords-3
"Default expressions to highlight in CORBA IDL mode.")
(defun idl-font-lock-keywords-2 ()
(c-compose-keywords-list idl-font-lock-keywords-2))
(defun idl-font-lock-keywords-3 ()
(c-compose-keywords-list idl-font-lock-keywords-3))
(defun idl-font-lock-keywords ()
(c-compose-keywords-list idl-font-lock-keywords))
;;; Pike.
(c-override-default-keywords 'pike-font-lock-keywords)
(defconst pike-font-lock-keywords-1 (c-lang-const c-matchers-1 pike)
"Minimal font locking for Pike mode.
Fontifies only preprocessor directives (in addition to the syntactic
fontification of strings and comments).")
(defconst pike-font-lock-keywords-2 (c-lang-const c-matchers-2 pike)
"Fast normal font locking for Pike mode.
In addition to `pike-font-lock-keywords-1', this adds fontification of
keywords, simple types, declarations that are easy to recognize, the
user defined types on `pike-font-lock-extra-types', and the doc
comment styles specified by `c-doc-comment-style'.")
(defconst pike-font-lock-keywords-3 (c-lang-const c-matchers-3 pike)
"Accurate normal font locking for Pike mode.
Like the variable `pike-font-lock-keywords-2' but detects declarations in a more
accurate way that works in most cases for arbitrary types without the
need for `pike-font-lock-extra-types'.")
(defvar pike-font-lock-keywords pike-font-lock-keywords-3
"Default expressions to highlight in Pike mode.")
(defun pike-font-lock-keywords-2 ()
(c-set-doc-comment-res)
(c-compose-keywords-list pike-font-lock-keywords-2))
(defun pike-font-lock-keywords-3 ()
(c-set-doc-comment-res)
(c-compose-keywords-list pike-font-lock-keywords-3))
(defun pike-font-lock-keywords ()
(c-set-doc-comment-res)
(c-compose-keywords-list pike-font-lock-keywords))
;;; Doc comments.
(cc-bytecomp-defvar c-doc-line-join-re)
;; matches a join of two lines in a doc comment.
;; This should not be changed directly, but instead set by
;; `c-setup-doc-comment-style'. This variable is used in `c-find-decl-spots'
;; in (e.g.) autodoc style comments to bridge the gap between a "@\n" at an
;; EOL and the token following "//!" on the next line.
(cc-bytecomp-defvar c-doc-bright-comment-start-re)
;; Matches the start of a "bright" comment, one whose contents may be
;; fontified by, e.g., `c-font-lock-declarations'.
(cc-bytecomp-defvar c-doc-line-join-end-ch)
;; A list of characters, each being a last character of a doc comment marker,
;; e.g. the ! from pike autodoc's "//!".
(defmacro c-set-doc-comment-re-element (suffix)
;; Set the variable `c-doc-line-join-re' to a buffer local value suitable
;; for the current doc comment style, or kill the local value.
(let ((var (intern (concat "c-doc" suffix))))
`(let* ((styles (c-get-doc-comment-style))
elts)
(when (atom styles)
(setq styles (list styles)))
(setq elts
(mapcar (lambda (style)
(let ((sym
(intern-soft
(concat (symbol-name style) ,suffix))))
(and sym
(boundp sym)
(symbol-value sym))))
styles))
(setq elts (delq nil elts))
(setq elts (and elts
(concat "\\("
(mapconcat #'identity elts "\\|")
"\\)")))
(if elts
(set (make-local-variable ',var) elts)
(kill-local-variable ',var)))))
(defmacro c-set-doc-comment-char-list (suffix)
;; Set the variable 'c-doc-<suffix>' to the list of *-<suffix>, which must
;; be characters, and * represents the doc comment style.
(let ((var (intern (concat "c-doc" suffix))))
`(let* ((styles (c-get-doc-comment-style))
elts)
(when (atom styles)
(setq styles (list styles)))
(setq elts
(mapcar (lambda (style)
(let ((sym
(intern-soft
(concat (symbol-name style) ,suffix))))
(and sym
(boundp sym)
(symbol-value sym))))
styles))
(setq elts (delq nil elts))
(if elts
(set (make-local-variable ',var) elts)
(kill-local-variable ',var)))))
(defun c-set-doc-comment-res ()
;; Set the variables `c-doc-line-join-re' and
;; `c-doc-bright-comment-start-re' from the current doc comment style(s).
(c-set-doc-comment-re-element "-line-join-re")
(c-set-doc-comment-re-element "-bright-comment-start-re")
(c-set-doc-comment-char-list "-line-join-end-ch"))
(defun c-font-lock-doc-comments (prefix limit keywords)
;; Fontify the comments between the point and LIMIT whose start
;; matches PREFIX with `c-doc-face-name'. Assumes comments have been
;; fontified with `font-lock-comment-face' already. nil is always
;; returned.
;;
;; After the fontification of a matching comment, fontification
;; according to KEYWORDS is applied inside it. It's a list like
;; `font-lock-keywords' except that anchored matches and eval
;; clauses aren't supported and that some abbreviated forms can't be
;; used. The buffer is narrowed to the comment while KEYWORDS is
;; applied; leading comment starters are included but trailing
;; comment enders for block comment are not.
;;
;; Note that faces added through KEYWORDS should never replace the
;; existing `c-doc-face-name' face since the existence of that face
;; is used as a flag in other code to skip comments.
;;
;; This function might do hidden buffer changes.
(let (comment-beg region-beg)
(if (memq (get-text-property (point) 'face)
'(font-lock-comment-face font-lock-comment-delimiter-face))
;; Handle the case when the fontified region starts inside a
;; comment.
(let ((start (c-literal-start)))
(setq region-beg (point))
(when start
(goto-char start))
(when (looking-at prefix)
(setq comment-beg (point)))))
(while (or
comment-beg
;; Search for the prefix until a match is found at the start
;; of a comment.
(while (when (re-search-forward prefix limit t)
(setq comment-beg (match-beginning 0))
(or (not (c-got-face-at comment-beg
c-literal-faces))
(and (/= comment-beg (point-min))
;; Cheap check which is unreliable (the previous
;; character could be the end of a previous
;; comment).
(c-got-face-at (1- comment-beg)
c-literal-faces)
;; Expensive reliable check.
(save-excursion
(goto-char comment-beg)
(c-in-literal)))))
(setq comment-beg nil))
(setq region-beg comment-beg))
(if (elt (parse-partial-sexp comment-beg (+ comment-beg 2)) 7)
;; Collect a sequence of doc style line comments.
(progn
(goto-char comment-beg)
(while (and (progn
(c-forward-single-comment)
(c-put-font-lock-face comment-beg (point)
c-doc-face-name)
(skip-syntax-forward " ")
(setq comment-beg (point))
(< (point) limit))
(looking-at prefix))))
(goto-char comment-beg)
(c-forward-single-comment)
(c-put-font-lock-face comment-beg (point) c-doc-face-name))
(if (> (point) limit) (goto-char limit))
(setq comment-beg nil)
(let ((region-end (point))
(keylist keywords) keyword matcher highlights)
(save-restriction
;; Narrow to the doc comment. Among other things, this
;; helps by making "^" match at the start of the comment.
;; Do not include a trailing block comment ender, though.
(and (> region-end (1+ region-beg))
(progn (goto-char region-end)
(backward-char 2)
(looking-at "\\*/"))
(setq region-end (point)))
(narrow-to-region region-beg region-end)
(while keylist
(setq keyword (car keylist)
keylist (cdr keylist)
matcher (car keyword))
(goto-char region-beg)
(while (if (stringp matcher)
(re-search-forward matcher region-end t)
(funcall matcher region-end))
(setq highlights (cdr keyword))
(if (consp (car highlights))
(while highlights
(font-lock-apply-highlight (car highlights))
(setq highlights (cdr highlights)))
(font-lock-apply-highlight highlights))))
(goto-char region-end)))))
nil)
(put 'c-font-lock-doc-comments 'lisp-indent-function 2)
(defun c-find-invalid-doc-markup (regexp limit)
;; Used to fontify invalid markup in doc comments after the correct
;; ones have been fontified: Find the first occurrence of REGEXP
;; between the point and LIMIT that only is fontified with
;; `c-doc-face-name'. If a match is found then submatch 0 surrounds
;; the first char and t is returned, otherwise nil is returned.
;;
;; This function might do hidden buffer changes.
(let (start)
(while (if (re-search-forward regexp limit t)
(not (eq (get-text-property
(setq start (match-beginning 0)) 'face)
c-doc-face-name))
(setq start nil)))
(when start
(store-match-data (list (copy-marker start)
(copy-marker (1+ start))))
t)))
;; GtkDoc patterns contributed by Masatake YAMATO <yamato@redhat.com>.
(defconst gtkdoc-font-lock-doc-comments
(let ((symbol "[a-zA-Z0-9_]+")
(header "^ \\* "))
`((,(concat header "\\(" symbol "\\):[ \t]*$")
1 ,c-doc-markup-face-name prepend nil)
(,(concat symbol "()")
0 ,c-doc-markup-face-name prepend nil)
(,(concat header "\\(" "@" symbol "\\):")
1 ,c-doc-markup-face-name prepend nil)
(,(concat "[#%@]" symbol)
0 ,c-doc-markup-face-name prepend nil))
))
(defconst gtkdoc-font-lock-doc-protection
`(("< \\(public\\|private\\|protected\\) >"
1 ,c-doc-markup-face-name prepend nil)))
(defconst gtkdoc-font-lock-keywords
`((,(lambda (limit)
(c-font-lock-doc-comments "/\\*\\*\\([^*/\n\r].*\\)?$" limit
gtkdoc-font-lock-doc-comments)
(c-font-lock-doc-comments "/\\*< " limit
gtkdoc-font-lock-doc-protection)
))))
;; Javadoc.
(defconst javadoc-font-lock-doc-comments
`(("{@[a-z]+[^}\n\r]*}" ; "{@foo ...}" markup.
0 ,c-doc-markup-face-name prepend nil)
("^\\(/\\*\\)?\\(\\s \\|\\*\\)*\\(@[a-z]+\\)" ; "@foo ..." markup.
3 ,c-doc-markup-face-name prepend nil)
(,(concat "</?\\sw" ; HTML tags.
"\\("
(concat "\\sw\\|\\s \\|[=\n\r*.:]\\|"
"\"[^\"]*\"\\|'[^']*'")
"\\)*>")
0 ,c-doc-markup-face-name prepend nil)
("&\\(\\sw\\|[.:]\\)+;" ; HTML entities.
0 ,c-doc-markup-face-name prepend nil)
;; Fontify remaining markup characters as invalid. Note
;; that the Javadoc spec is hazy about when "@" is
;; allowed in non-markup use.
(,(lambda (limit)
(c-find-invalid-doc-markup "[<>&]\\|{@" limit))
0 'font-lock-warning-face prepend nil)))
(defconst javadoc-font-lock-keywords
`((,(lambda (limit)
(c-font-lock-doc-comments "/\\*\\*" limit
javadoc-font-lock-doc-comments)))))
;; Pike autodoc.
(defconst autodoc-decl-keywords
;; Adorned regexp matching the keywords that introduce declarations
;; in Pike Autodoc.
(cc-eval-when-compile
(c-make-keywords-re t '("@decl" "@elem" "@index" "@member") 'pike-mode)))
(defconst autodoc-decl-type-keywords
;; Adorned regexp matching the keywords that are followed by a type.
(cc-eval-when-compile
(c-make-keywords-re t '("@elem" "@member") 'pike-mode)))
(defun autodoc-font-lock-line-markup (limit)
;; Fontify all line oriented keywords between the point and LIMIT.
;; Nil is always returned.
;;
;; This function might do hidden buffer changes.
(let ((line-re (concat "^\\(\\(/\\*!\\|\\s *\\("
c-current-comment-prefix
"\\)\\)\\s *\\)@[A-Za-z_-]+\\(\\s \\|$\\)"))
(markup-faces (list c-doc-markup-face-name c-doc-face-name)))
(while (and (< (point) limit)
(re-search-forward line-re limit t))
(goto-char (match-end 1))
(if (looking-at autodoc-decl-keywords)
(let* ((kwd-pos (point))
(start (match-end 1))
(pos start)
end)
(c-put-font-lock-face (point) pos markup-faces)
;; Put a declaration end mark at the markup keyword and
;; remove the faces from the rest of the line so that it
;; gets refontified as a declaration later on by
;; `c-font-lock-declarations'.
(c-put-char-property (1- pos) 'c-type 'c-decl-end)
(goto-char pos)
(while (progn
(end-of-line)
(setq end (point))
(and (eq (char-before) ?@)
(not (eobp))
(progn (forward-char)
(skip-syntax-forward " ")
(looking-at c-current-comment-prefix))))
(goto-char (match-end 0))
(c-remove-font-lock-face pos (1- end))
(c-put-font-lock-face (1- end) end markup-faces)
(setq pos (point)))
;; Include the final newline in the removed area. This
;; has no visual effect but it avoids some tricky special
;; cases in the testsuite wrt the differences in string
;; fontification in Emacs vs XEmacs.
(c-remove-font-lock-face pos (min (1+ (point)) (point-max)))
;; Must handle string literals explicitly inside the declaration.
(goto-char start)
(while (re-search-forward
"\"\\([^\\\"]\\|\\\\.\\)*\"\\|'\\([^\\']\\|\\\\.\\)*'"
end 'move)
(c-put-font-lock-string-face (match-beginning 0)
(point)))
;; Fontify types after keywords that always are followed
;; by them.
(goto-char kwd-pos)
(when (looking-at autodoc-decl-type-keywords)
(c-fontify-types-and-refs ((c-promote-possible-types t))
(goto-char start)
(c-forward-syntactic-ws)
(c-forward-type))))
;; Mark each whole line as markup, as long as the logical line
;; continues.
(while (progn
(c-put-font-lock-face (point)
(progn (end-of-line) (point))
markup-faces)
(and (eq (char-before) ?@)
(not (eobp))
(progn (forward-char)
(skip-syntax-forward " ")
(looking-at c-current-comment-prefix))))
(goto-char (match-end 0))))))
nil)
(defconst autodoc-font-lock-doc-comments
`(("@\\(\\w+{\\|\\[\\([^]@\n\r]\\|@@\\)*\\]\\|[@}]\\|$\\)"
;; In-text markup.
0 ,c-doc-markup-face-name prepend nil)
(autodoc-font-lock-line-markup)
;; Fontify remaining markup characters as invalid.
(,(lambda (limit)
(c-find-invalid-doc-markup "@" limit))
0 'font-lock-warning-face prepend nil)
))
(defconst autodoc-line-join-re "@[\n\r][ \t]*/[/*]!")
;; Matches a line continuation in autodoc comment style.
(defconst autodoc-bright-comment-start-re "/[/*]!")
;; Matches an autodoc comment opener.
(defconst autodoc-line-join-end-ch ?!)
;; The final character of `autodoc-line-join-re'.
(defun autodoc-font-lock-keywords ()
;; Note that we depend on that `c-current-comment-prefix' has got
;; its proper value here.
;;
;; This function might do hidden buffer changes.
;; The `c-type' text property with `c-decl-end' is used to mark the
;; end of the `autodoc-decl-keywords' occurrences to fontify the
;; following declarations.
(setq c-type-decl-end-used t)
`((,(lambda (limit)
(c-font-lock-doc-comments "/[*/]!" limit
autodoc-font-lock-doc-comments)))))
;; 2006-07-10: awk-font-lock-keywords has been moved back to cc-awk.el.
(cc-provide 'cc-fonts)
;; Local Variables:
;; indent-tabs-mode: t
;; tab-width: 8
;; End:
;;; cc-fonts.el ends here