;;; cc-mode.el --- major mode for editing C++ and C code ;; Authors: 1992 Barry A. Warsaw, Century Computing Inc. ;; 1987 Dave Detlefs and Stewart Clamen ;; 1985 Richard M. Stallman ;; Maintainer: cc-mode-help@anthem.nlm.nih.gov ;; Created: a long, long, time ago. adapted from the original c-mode.el ;; Version: 3.349 ;; Last Modified: 1994/05/24 22:04:15 ;; Keywords: C++ C editing major-mode ;; Copyright (C) 1992, 1993, 1994 Barry A. Warsaw ;; Copyright (C) 1992, 1993, 1994 Free Software Foundation, Inc. ;; 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 2, 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; see the file COPYING. If not, write to ;; the Free Software Foundation, 675 Mass Ave, Cambridge, MA 02139, USA. ;;; Commentary: ;; This package is intended to be a nearly interchangeable replacement ;; for standard c-mode (a.k.a. BOCM -- "Boring Old C-Mode" :-). There ;; are some important differences. Briefly: complete K&R C, ANSI C, ;; and C++ support with consistent indentation across all modes, more ;; intuitive indentation controlling variables, compatibility across ;; all known Emacsen, nice new features, and tons of bug fixes. This ;; package is called CC-MODE to distinguish it from BOCM and its ;; ancestor C++-MODE, but there really is no top-level CC-MODE (see ;; below). cc-mode.el is not compatible with c-mode.el or ;; c++-mode.el. You should use this file to edit all your C and C++ ;; code. ;; Details on CC-MODE are now (or will soon be) contained in an ;; accompanying texinfo manual (cc-mode.texi). To submit bug reports, ;; hit "C-c C-b", and please try to include a code sample so I can ;; reproduce your problem. If you have other questions contact me at ;; the following address: cc-mode-help@anthem.nlm.nih.gov. Please ;; don't send bug reports to my personal account, I may not get it for ;; a long time. ;; YOU CAN IGNORE ALL BYTE-COMPILER WARNINGS. They are the result of ;; the multi-Emacsen support. Emacs 19, Lucid Emacs 19, and Emacs ;; 18 all do things differently and there's no way to shut the ;; byte-compiler up at the necessary granularity. ;; If your Emacs is dumped with either c-mode.el or c++-mode.el, you ;; will need to add the following to your .emacs file before any other ;; reference to c-mode or c++-mode: ;; ;; (fmakunbound 'c-mode) ;; (makunbound 'c-mode-map) ;; (fmakunbound 'c++-mode) ;; (makunbound 'c++-mode-map) ;; (makunbound 'c-style-alist) ;; There are two major mode entry points provided by this package, one ;; for editing C++ code and the other for editing C code (both K&R and ;; ANSI). To use CC-MODE, add the following to your .emacs file. ;; This assumes you will use .cc or .C extensions for your C++ source, ;; and .c for your C code: ;; ;; (autoload 'c++-mode "cc-mode" "C++ Editing Mode" t) ;; (autoload 'c-mode "cc-mode" "C Editing Mode" t) ;; (setq auto-mode-alist ;; (append '(("\\.C$" . c++-mode) ;; ("\\.cc$" . c++-mode) ;; ("\\.c$" . c-mode) ; to edit C code ;; ("\\.h$" . c-mode) ; to edit C code ;; ) auto-mode-alist)) ;; ;; If you would like to join the beta testers list, send add/drop ;; requests to cc-mode-victims-request@anthem.nlm.nih.gov. ;; Discussions go to cc-mode-victims@anthem.nlm.nih.gov, but bug ;; reports and such should still be sent to cc-mode-help only (see ;; above). ;; ;; Many, many thanks go out to all the folks on the beta test list. ;; Without their patience, testing, insight, and code contributions, ;; and encouragement cc-mode.el would be a far inferior package. ;; LCD Archive Entry: ;; cc-mode.el|Barry A. Warsaw|cc-mode-help@anthem.nlm.nih.gov ;; |Major mode for editing C++, and ANSI/K&R C code ;; |1994/05/24 22:04:15|3.349| ;;; Code: ;; user definable variables ;; vvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvv (defvar c-inhibit-startup-warnings-p nil "*If non-nil, inhibits start up compatibility warnings.") (defvar c-strict-semantics-p nil "*If non-nil, all semantic symbols must be found in `c-offsets-alist'. If the semantic symbol for a particular line does not match a symbol in the offsets alist, an error is generated, otherwise no error is reported and the semantic symbol is ignored.") (defvar c-echo-semantic-information-p nil "*If non-nil, semantic info is echoed when the line is indented.") (defvar c-basic-offset 4 "*Amount of basic offset used by + and - symbols in `c-offsets-alist'.") (defconst c-offsets-alist-default '((string . -1000) (c . c-lineup-C-comments) (defun-open . 0) (defun-close . 0) (defun-block-intro . +) (class-open . 0) (class-close . 0) (inline-open . +) (inline-close . 0) (c++-funcdecl-cont . -) (knr-argdecl-intro . +) (knr-argdecl . 0) (topmost-intro . 0) (topmost-intro-cont . 0) (member-init-intro . +) (member-init-cont . 0) (inher-intro . +) (inher-cont . c-lineup-multi-inher) (block-open . 0) (block-close . 0) (brace-list-open . 0) (brace-list-close . 0) (brace-list-intro . +) (brace-list-entry . 0) (statement . 0) ;; some people might prefer ;;(statement . c-lineup-runin-statements) (statement-cont . +) ;; some people might prefer ;;(statement-cont . c-lineup-math) (statement-block-intro . +) (statement-case-intro . +) (substatement . +) (substatement-open . +) (case-label . 0) (access-label . -) (label . 2) (do-while-closure . 0) (else-clause . 0) (comment-intro . c-lineup-comment) (arglist-intro . +) (arglist-cont . 0) (arglist-cont-nonempty . c-lineup-arglist) (arglist-close . +) (stream-op . c-lineup-streamop) (inclass . +) (cpp-macro . -1000) (friend . 0) ) "Default settings for offsets of syntactic elements. Do not change this constant! See the variable `c-offsets-alist' for more information.") (defvar c-offsets-alist (copy-alist c-offsets-alist-default) "*Association list of syntactic element symbols and indentation offsets. As described below, each cons cell in this list has the form: (SYNTACTIC-SYMBOL . OFFSET) When a line is indented, cc-mode first determines the syntactic context of the line by generating a list of symbols called syntactic elements. This list can contain more than one syntactic element and the global variable `c-semantics' contains the context list for the line being indented. Each element in this list is actually a cons cell of the syntactic symbol and a buffer position. This buffer position is call the relative indent point for the line. Some syntactic symbols may not have a relative indent point associated with them. After the syntactic context list for a line is generated, cc-mode calculates the absolute indentation for the line by looking at each syntactic element in the list. First, it compares the syntactic element against the SYNTACTIC-SYMBOL's in `c-offsets-alist'. When it finds a match, it adds the OFFSET to the column of the relative indent point. The sum of this calculation for each element in the syntactic list is the absolute offset for line being indented. If the syntactic element does not match any in the `c-offsets-alist', an error is generated if `c-strict-semantics-p' is non-nil, otherwise the element is ignored. Actually, OFFSET can be an integer, a function, or the symbol `+' or `-', the latter designating positive or negative values of `c-basic-offset'. If OFFSET is a function, it is called with a single argument containing the cons of the syntactic element symbol and the relative indent point. The function should return an integer offset. Here is the current list of valid semantic element symbols: string -- inside multi-line string c -- inside a multi-line C style block comment defun-open -- brace that opens a function definition defun-close -- brace that closes a function definition defun-block-intro -- the first line in a top-level defun class-open -- brace that opens a class definition class-close -- brace that closes a class definition inline-open -- brace that opens an in-class inline method inline-close -- brace that closes an in-class inline method c++-funcdecl-cont -- the nether region between a C++ function declaration and the defun opening brace knr-argdecl-intro -- first line of a K&R C argument declaration knr-argdecl -- subsequent lines in a K&R C argument declaration topmost-intro -- the first line in a topmost construct definition topmost-intro-cont -- topmost definition continuation lines member-init-intro -- first line in a member initialization list member-init-cont -- subsequent member initialization list lines inher-intro -- first line of a multiple inheritance list inher-cont -- subsequent multiple inheritance lines block-open -- statement block open brace block-close -- statement block close brace brace-list-open -- open brace of an enum or static array list brace-list-close -- close brace of an enum or static array list brace-list-intro -- first line in an enum or static array list brace-list-entry -- subsequent lines in an enum or static array list statement -- a C/C++ statement statement-cont -- a continuation of a C/C++ statement statement-block-intro -- the first line in a new statement block statement-case-intro -- the first line in a case `block' substatement -- the first line after an if/while/for/do/else substatement-open -- the brace that opens a substatement block case-label -- a case or default label access-label -- C++ private/protected/public access label label -- any non-special C/C++ label do-while-closure -- the `while' that ends a do/while construct else-clause -- the `else' of an if/else construct comment-intro -- a line containing only a comment introduction arglist-intro -- the first line in an argument list arglist-cont -- subsequent argument list lines when no arguments follow on the same line as the the arglist opening paren arglist-cont-nonempty -- subsequent argument list lines when at least one argument follows on the same line as the arglist opening paren arglist-close -- the solo close paren of an argument list stream-op -- lines continuing a stream operator construct inclass -- the construct is nested inside a class definition cpp-macro -- the start of a cpp macro friend -- a C++ friend declaration ") (defvar c-tab-always-indent t "*Controls the operation of the TAB key. If t, hitting TAB always just indents the current line. If nil, hitting TAB indents the current line if point is at the left margin or in the line's indentation, otherwise it insert a real tab character. If other than nil or t, then tab is inserted only within literals -- defined as comments and strings -- and inside preprocessor directives, but line is always reindented. Note that indentation of lines containing only comments is also controlled by the `c-comment-only-line-offset' variable.") (defvar c-comment-only-line-offset 0 "*Extra offset for line which contains only the start of a comment. Can contain an integer or a cons cell of the form: (NON-ANCHORED-OFFSET . ANCHORED-OFFSET) Where NON-ANCHORED-OFFSET is the amount of offset given to non-column-zero anchored comment-only lines, and ANCHORED-OFFSET is the amount of offset to give column-zero anchored comment-only lines. Just an integer as value is equivalent to ( . 0)") (defvar c-block-comments-indent-p nil "*Specifies how to re-indent C style block comments. 4 styles of C block comments are supported. If this variable is nil, then styles 1-3 are supported. If this variable is non-nil, style 4 only is supported. Note that this currently has *no* effect on how comments are lined up or whether stars are inserted when C comments are auto-filled. In any case, you still have to insert the stars manually. style 1: style 2: style 3: style 4: /* /* /* /* blah * blah ** blah blah blah * blah ** blah blah */ */ */ */") (defvar c-cleanup-list '(scope-operator) "*List of various C/C++ constructs to \"clean up\". These clean ups only take place when the auto-newline feature is turned on, as evidenced by the `/a' or `/ah' appearing next to the mode name. Valid symbols are: brace-else-brace -- cleans up `} else {' constructs by placing entire construct on a single line. This clean up only takes place when there is nothing but white space between the braces and the `else'. Clean up occurs when the open-brace after the `else' is typed. empty-defun-braces -- cleans up empty defun braces by placing the braces on the same line. Clean up occurs when the defun closing brace is typed. defun-close-semi -- cleans up the terminating semi-colon on defuns by placing the semi-colon on the same line as the closing brace. Clean up occurs when the semi-colon is typed. list-close-comma -- cleans up commas following braces in array and aggregate initializers. Clean up occurs when the comma is typed. scope-operator -- cleans up double colons which may designate a C++ scope operator split across multiple lines. Note that certain C++ constructs can generate ambiguous situations. This clean up only takes place when there is nothing but whitespace between colons. Clean up occurs when the second colon is typed.") (defvar c-hanging-braces-alist '((brace-list-open) (substatement-open after)) "*Controls the insertion of newlines before and after braces. This variable contains an association list with elements of the following form: (SYNTACTIC-SYMBOL . (NL-LIST)). SYNTACTIC-SYMBOL can be any of: defun-open, defun-cloase, class-open, class-close, inline-open, inline-close, block-open, block-close, substatement-open, brace-list-open, or brace-list-close. See `c-offsets-alist' for details. NL-LIST can contain any combination of the symbols `before' or `after'. It also be nil. When a brace is inserted, the syntactic context it defines is looked up in this list, and if found, the NL-LIST is used to determine where newlines are inserted. If not found, the default is to insert a newline both before and after braces.") (defvar c-hanging-colons-alist nil "*Controls the insertion of newlines before and after certain colons. This variable contains an association list with elements of the following form: (SYNTACTIC-SYMBOL . (NL-LIST)). SYNTACTIC-SYMBOL can be any of: member-init-intro, inher-intro, case-label, label, and access-label. See `c-offsets-alist' for details. NL-LIST can contain any combination of the symbols `before' or `after'. It also be nil. When a colon is inserted, the language element that it defines is looked up in this list, and if found, the NL-LIST is used to determine where newlines are inserted. If the language element for the colon is not found in this list, the default behavior is to not insert any newlines.") (defvar c-backslash-column 48 "*Column to insert backslashes when macroizing a region.") (defvar c-special-indent-hook nil "*Hook for user defined special indentation adjustments. This hook gets called after a line is indented by the mode.") (defvar c-delete-function 'backward-delete-char-untabify "*Function called by `c-electric-delete' when deleting a single char.") (defvar c-electric-pound-behavior nil "*List of behaviors for electric pound insertion. Only currently supported behavior is `alignleft'.") (defvar c-style-alist '(("GNU" (c-basic-offset . 2) (c-comment-only-line-offset . 0) (c-offsets-alist . ((statement-block-intro . +) (knr-argdecl-intro . 5) (substatement-open . +) (label . -) (statement-cont . +) )) ) ("K&R" (c-basic-offset . 5) (c-comment-only-line-offset . 0) (c-offsets-alist . ((statement-block-intro . +) (knr-argdecl-intro . 0) (substatement-open . 0) (label . -) (statement-cont . +) )) ) ("BSD" (c-basic-offset . 4) (c-comment-only-line-offset . 0) (c-offsets-alist . ((statement-block-intro . +) (knr-argdecl-intro . +) (substatement-open . 0) (label . -) (statement-cont . +) )) ) ("Stroustrup" (c-basic-offset . 4) (c-comment-only-line-offset . 0) (c-offsets-alist . ((statement-block-intro . +) (substatement-open . 0) (label . -) (statement-cont . +) )) ) ("Whitesmith" (c-basic-offset . 4) (c-comment-only-line-offset . 0) (c-offsets-alist . ((statement-block-intro . +) (knr-argdecl-intro . +) (substatement-open . 0) (label . -) (statement-cont . +) )) ) ("Ellemtel" (c-basic-offset . 3) (c-comment-only-line-offset . 0) (c-hanging-braces-alist . ((substatement-open before))) (c-offsets-alist . ((topmost-intro . 0) (topmost-intro-cont . 0) (substatement . 3) (substatement-open . 0) (case-label . +) (access-label . -3) (inclass . 6) (inline-open . 0) )) )) "Styles of Indentation. Elements of this alist are of the form: (STYLE-STRING (VARIABLE . VALUE) [(VARIABLE . VALUE) ...]) where STYLE-STRING is a short descriptive string used to select a style, VARIABLE is any cc-mode variable, and VALUE is the intended value for that variable when using the selected style. There is one special case when VARIABLE is `c-offsets-alist'. In this case, the VALUE is a list containing elements of the form: (SYNTACTIC-SYMBOL . VALUE) as described in `c-offsets-alist'. These are passed directly to `c-set-offset' so there is no need to set every syntactic symbol in your style, only those that are different from the default.") ;; dynamically append the default value of most variables (or (assoc "Default" c-style-alist) (let* ((varlist '(c-inhibit-startup-warnings-p c-strict-semantics-p c-echo-semantic-information-p c-basic-offset c-offsets-alist c-tab-always-indent c-comment-only-line-offset c-block-comments-indent-p c-cleanup-list c-hanging-braces-alist c-hanging-colons-alist c-backslash-column c-electric-pound-behavior)) (default (cons "Default" (mapcar (function (lambda (var) (cons var (symbol-value var)) )) varlist)))) (setq c-style-alist (cons default c-style-alist)))) (defvar c-mode-hook nil "*Hook called by `c-mode'.") (defvar c++-mode-hook nil "*Hook called by `c++-mode'.") (defvar c-mode-common-hook nil "*Hook called by both `c-mode' and `c++-mode' during common init path.") (defvar c-mode-menu '(["Comment Out Region" comment-region (mark)] ["Macro Expand Region" c-macro-expand (mark)] ["Backslashify" c-backslash-region (mark)] ["Indent Expression" c-indent-exp (memq (following-char) '(?\( ?\[ ?\{))] ["Indent Line" c-indent-command t] ["Fill Comment Paragraph" c-fill-paragraph t] ["Up Conditional" c-up-conditional t] ["Backward Conditional" c-backward-conditional t] ["Forward Conditional" c-forward-conditional t] ["Backward Statement" c-beginning-of-statement t] ["Forward Statement" c-end-of-statement t] ) "Lucid Emacs menu for C/C++ modes.") ;; ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ ;; NO USER DEFINABLE VARIABLES BEYOND THIS POINT (defconst c-emacs-features (let ((major (and (boundp 'emacs-major-version) emacs-major-version)) (minor (and (boundp 'emacs-minor-version) emacs-minor-version)) flavor comments) ;; figure out version numbers if not already discovered (and (or (not major) (not minor)) (string-match "\\([0-9]+\\).\\([0-9]+\\)" emacs-version) (setq major (string-to-int (substring emacs-version (match-beginning 1) (match-end 1))) minor (string-to-int (substring emacs-version (match-beginning 2) (match-end 2))))) (if (not (and major minor)) (error "Cannot figure out the major and minor version numbers.")) ;; calculate the major version (cond ((= major 18) (setq major 'v18)) ;Emacs 18 ((= major 4) (setq major 'v18)) ;Epoch 4 ((= major 19) (setq major 'v19 ;Emacs 19 flavor (if (string-match "Lucid" emacs-version) 'Lucid 'FSF))) ;; I don't know (t (error "Cannot recognize major version number: %s" major))) ;; All Lucid versions use 8-bit modify-syntax-entry flags, as do all ;; patched (obsolete) Emacs 19, Emacs 18, Epoch 4's. Only ;; vanilla Emacs 19 uses 1-bit flag. Lets be as smart as we ;; can about figuring this out. (if (eq major 'v19) (let ((table (copy-syntax-table))) (modify-syntax-entry ?a ". 12345678" table) (if (= (logand (lsh (aref table ?a) -16) 255) 255) (setq comments '8-bit) (setq comments '1-bit))) (setq comments 'no-dual-comments)) ;; lets do some minimal sanity checking. (if (and (or ;; Lemacs before 19.6 had bugs (and (eq major 'v19) (eq flavor 'Lucid) (< minor 6)) ;; Emacs 19 before 19.21 has known bugs (and (eq major 'v19) (eq flavor 'FSF) (< minor 21))) (not c-inhibit-startup-warnings-p)) (with-output-to-temp-buffer "*cc-mode warnings*" (print (format "The version of Emacs that you are running, %s, has known bugs in its syntax.c parsing routines which will affect the performance of cc-mode. You should strongly consider upgrading to the latest available version. cc-mode may continue to work, after a fashion, but strange indentation errors could be encountered." emacs-version)))) ;; Emacs 18, with no patch is not too good (if (and (eq major 'v18) (eq comments 'no-dual-comments) (not c-inhibit-startup-warnings-p)) (with-output-to-temp-buffer "*cc-mode warnings*" (print (format "The version of Emacs 18 you are running, %s, has known deficiencies in its ability to handle dual C++ comments, i.e. C++ line style comments and C block style comments. This will not be much of a problem for you if you are only editing C code, but if you are doing much C++ editing, you should strongly consider upgrading to one of the latest Emacs 19's. In Emacs 18, you may also experience performance degradations. Emacs 19 has some new built-in routines which will speed things up for you. Because of these inherent problems, cc-mode is no longer being actively maintained for Emacs 18, although patch contributions will be folded into the main release. " emacs-version)))) ;; Emacs 18 with the syntax patches are no longer supported (if (and (eq major 'v18) (not (eq comments 'no-dual-comments)) (not c-inhibit-startup-warnings-p)) (with-output-to-temp-buffer "*cc-mode warnings*" (print (format "You are running a syntax patched Emacs 18 variant. While this should work for you, you may want to consider upgrading to Emacs 19. The syntax patches are no longer supported either for syntax.c or cc-mode.")))) (list major flavor comments)) "A list of features extant in the Emacs you are using. There are many flavors of Emacs out there, each with different features supporting those needed by cc-mode. Here's the current supported list, along with the values for this variable: Emacs 19: (v19 FSF 1-bit) Vanilla Emacs 18/Epoch 4: (v18 no-dual-comments) Emacs 18/Epoch 4 (patch2): (v18 8-bit) Lucid Emacs 19: (v19 Lucid 8-bit).") (defvar c++-mode-abbrev-table nil "Abbrev table in use in c++-mode buffers.") (define-abbrev-table 'c++-mode-abbrev-table ()) (defvar c-mode-abbrev-table nil "Abbrev table in use in c-mode buffers.") (define-abbrev-table 'c-mode-abbrev-table ()) (defvar c-mode-map () "Keymap used in c-mode buffers.") (if c-mode-map () ;; TBD: should we even worry about naming this keymap. My vote: no, ;; because Emacs 19 and Lucid do it differently. (setq c-mode-map (make-sparse-keymap)) ;; put standard keybindings into MAP ;; the following mappings correspond more or less directly to BOCM (define-key c-mode-map "{" 'c-electric-brace) (define-key c-mode-map "}" 'c-electric-brace) (define-key c-mode-map ";" 'c-electric-semi&comma) (define-key c-mode-map "#" 'c-electric-pound) (define-key c-mode-map ":" 'c-electric-colon) ;; Lemacs 19.9 defines these two, the second of which is commented out ;; (define-key c-mode-map "\e{" 'c-insert-braces) ;; Commented out electric square brackets because nobody likes them. ;; (define-key c-mode-map "[" 'c-insert-brackets) (define-key c-mode-map "\e\C-h" 'c-mark-function) (define-key c-mode-map "\e\C-q" 'c-indent-exp) (define-key c-mode-map "\ea" 'c-beginning-of-statement) (define-key c-mode-map "\ee" 'c-end-of-statement) ;; I'd rather use an adaptive fill program instead of this. (define-key c-mode-map "\eq" 'c-fill-paragraph) (define-key c-mode-map "\C-c\C-n" 'c-forward-conditional) (define-key c-mode-map "\C-c\C-p" 'c-backward-conditional) (define-key c-mode-map "\C-c\C-u" 'c-up-conditional) (define-key c-mode-map "\t" 'c-indent-command) (define-key c-mode-map "\177" 'c-electric-delete) ;; these are new keybindings, with no counterpart to BOCM (define-key c-mode-map "," 'c-electric-semi&comma) (define-key c-mode-map "/" 'c-electric-slash) (define-key c-mode-map "*" 'c-electric-star) (define-key c-mode-map "\C-c\C-q" 'c-indent-defun) (define-key c-mode-map "\C-c\C-\\" 'c-backslash-region) ;; TBD: where if anywhere, to put c-backward|forward-into-nomenclature (define-key c-mode-map "\C-c\C-a" 'c-toggle-auto-state) (define-key c-mode-map "\C-c\C-b" 'c-submit-bug-report) (define-key c-mode-map "\C-c\C-c" 'comment-region) (define-key c-mode-map "\C-c\C-d" 'c-toggle-hungry-state) (define-key c-mode-map "\C-c\C-e" 'c-macro-expand) (define-key c-mode-map "\C-c\C-o" 'c-set-offset) (define-key c-mode-map "\C-c\C-s" 'c-show-semantic-information) (define-key c-mode-map "\C-c\C-t" 'c-toggle-auto-hungry-state) (define-key c-mode-map "\C-c\C-v" 'c-version) ;; Emacs 19 defines menus in the mode map (if (memq 'FSF c-emacs-features) (progn (define-key c-mode-map [menu-bar] (make-sparse-keymap)) (define-key c-mode-map [menu-bar c] (cons "C/C++" (make-sparse-keymap "C/C++"))) (define-key c-mode-map [menu-bar c comment-region] '("Comment Out Region" . comment-region)) (define-key c-mode-map [menu-bar c c-macro-expand] '("Macro Expand Region" . c-macro-expand)) (define-key c-mode-map [menu-bar c c-backslash-region] '("Backslashify" . c-backslash-region)) (define-key c-mode-map [menu-bar c indent-exp] '("Indent Expression" . c-indent-exp)) (define-key c-mode-map [menu-bar c indent-line] '("Indent Line" . c-indent-command)) (define-key c-mode-map [menu-bar c fill] '("Fill Comment Paragraph" . c-fill-paragraph)) (define-key c-mode-map [menu-bar c up] '("Up Conditional" . c-up-conditional)) (define-key c-mode-map [menu-bar c backward] '("Backward Conditional" . c-backward-conditional)) (define-key c-mode-map [menu-bar c forward] '("Forward Conditional" . c-forward-conditional)) (define-key c-mode-map [menu-bar c backward-stmt] '("Backward Statement" . c-beginning-of-statement)) (define-key c-mode-map [menu-bar c forward-stmt] '("Forward Statement" . c-end-of-statement)) ;; RMS: mouse-3 should not select this menu. mouse-3's global ;; definition is useful in C mode and we should not interfere ;; with that. The menu is mainly for beginners, and for them, ;; the menubar requires less memory than a special click. ) ;; in Lucid Emacs, we want the menu to popup when the 3rd button is ;; hit. In 19.10 and beyond this is done automatically if we put ;; the menu on mode-popup-menu variable, see c-common-init (if (memq 'Lucid c-emacs-features) (if (not (boundp 'mode-popup-menu)) (define-key c-mode-map 'button3 'c-popup-menu))) )) (defvar c++-mode-map () "Keymap used in c++-mode buffers.") (if c++-mode-map () ;; In Emacs 19, it makes more sense to inherit c-mode-map (if (memq 'v19 c-emacs-features) ;; Lucid and Emacs 19 do this differently (if (memq 'FSF c-emacs-features) (setq c++-mode-map (cons 'keymap c-mode-map)) (setq c++-mode-map (make-sparse-keymap)) (set-keymap-parent c++-mode-map c-mode-map)) ;; Do it the hard way for Emacs 18 -- given by JWZ (setq c++-mode-map (nconc (make-sparse-keymap) c-mode-map))) ;; add bindings which are only useful for C++ (define-key c++-mode-map "\C-c:" 'c-scope-operator) ) (defun c-populate-syntax-table (table) ;; Populate the syntax TABLE ;; DO NOT TRY TO SET _ (UNDERSCORE) TO WORD CLASS! (modify-syntax-entry ?\\ "\\" table) (modify-syntax-entry ?+ "." table) (modify-syntax-entry ?- "." table) (modify-syntax-entry ?= "." table) (modify-syntax-entry ?% "." table) (modify-syntax-entry ?< "." table) (modify-syntax-entry ?> "." table) (modify-syntax-entry ?& "." table) (modify-syntax-entry ?| "." table) (modify-syntax-entry ?\' "\"" table)) (defvar c-mode-syntax-table nil "Syntax table used in c-mode buffers.") (if c-mode-syntax-table () (setq c-mode-syntax-table (make-syntax-table)) (c-populate-syntax-table c-mode-syntax-table) ;; add extra comment syntax (modify-syntax-entry ?/ ". 14" c-mode-syntax-table) (modify-syntax-entry ?* ". 23" c-mode-syntax-table)) (defvar c++-mode-syntax-table nil "Syntax table used in c++-mode buffers.") (if c++-mode-syntax-table () (setq c++-mode-syntax-table (make-syntax-table)) (c-populate-syntax-table c++-mode-syntax-table) ;; add extra comment syntax (cond ((memq '8-bit c-emacs-features) ;; Lucid emacs has the best implementation (modify-syntax-entry ?/ ". 1456" c++-mode-syntax-table) (modify-syntax-entry ?* ". 23" c++-mode-syntax-table) (modify-syntax-entry ?\n "> b" c++-mode-syntax-table)) ((memq '1-bit c-emacs-features) ;; Emacs 19 does things differently, but we can work with it (modify-syntax-entry ?/ ". 124b" c++-mode-syntax-table) (modify-syntax-entry ?* ". 23" c++-mode-syntax-table) (modify-syntax-entry ?\n "> b" c++-mode-syntax-table)) ) ;; TBD: does it make sense for colon to be symbol class in C++? ;; I'm not so sure, since c-label-key is busted on lines like: ;; Foo::bar( i ); ;; maybe c-label-key should be fixed instead of commenting this out, ;; but it also bothers me that this only seems appropriate for C++ ;; and not C. ;;(modify-syntax-entry ?: "_" c++-mode-syntax-table) ) (defvar c-hungry-delete-key nil "Internal state of hungry delete key feature.") (defvar c-auto-newline nil "Internal state of auto newline feature.") (defvar c-auto-hungry-string nil "Internal auto-newline/hungry-delete designation string for mode line.") (defvar c-semantics nil "Variable containing semantics list during indentation.") (defvar c-comment-start-regexp nil "Buffer local variable describing how comment are introduced.") (defvar c-conditional-key nil "Buffer-local language-specific conditional keyword regexp.") (make-variable-buffer-local 'c-auto-newline) (make-variable-buffer-local 'c-hungry-delete-key) (make-variable-buffer-local 'c-auto-hungry-string) (make-variable-buffer-local 'c-comment-start-regexp) (make-variable-buffer-local 'c-conditional-key) ;; cmacexp is lame because it uses no preprocessor symbols. ;; It isn't very extensible either -- hardcodes /lib/cpp. ;; [I add it here only because c-mode has it -- BAW]] (autoload 'c-macro-expand "cmacexp" "Display the result of expanding all C macros occurring in the region. The expansion is entirely correct because it uses the C preprocessor." t) ;; constant regular expressions for looking at various constructs (defconst c-symbol-key "\\(\\w\\|\\s_\\)+" "Regexp describing a C/C++ symbol. We cannot use just `word' syntax class since `_' cannot be in word class. Putting underscore in word class breaks forward word movement behavior that users are familiar with.") (defconst c-class-key (concat "\\(\\(extern\\|typedef\\)\\s +\\)?" "\\(template\\s *<[^>]*>\\s *\\)?" ;; I'd like to add \\= in the first grouping below, but 1. its not ;; defined in v18, and 2. doesn't seem to work in v19 anyway. "\\([^\\s +\\)?" c-class-key "[ \t]+" c-symbol-key "\\([ \t]*:[ \t]*\\)?\\s *[^;]") "Regexp describing a class inheritance declaration.") (defconst c-protection-key "\\<\\(public\\|protected\\|private\\)\\>" "Regexp describing protection keywords.") (defconst c-baseclass-key (concat ":?[ \t]*\\(virtual[ \t]+\\)?\\(" c-protection-key "[ \t]+\\)" c-symbol-key) "Regexp describing base classes in a derived class definition.") (defconst c-switch-label-key "\\(\\(case[ \t]+\\S .*\\)\\|default[ \t]*\\):" "Regexp describing a switch's case or default label") (defconst c-access-key (concat c-protection-key ":") "Regexp describing access specification keywords.") (defconst c-label-key (concat c-symbol-key ":\\([^:]\\|$\\)") "Regexp describing any label.") (defconst c-C-conditional-key "\\b\\(for\\|if\\|do\\|else\\|while\\|switch\\)\\b[^_]" "Regexp describing a conditional control.") (defconst c-C++-conditional-key "\\b\\(for\\|if\\|do\\|else\\|while\\|switch\\|try\\|catch\\)\\b[^_]" "Regexp describing a conditional control for C++.") ;; main entry points for the modes ;;;###autoload (defun c++-mode () "Major mode for editing C++ code. cc-mode Revision: 3.349 To submit a problem report, enter `\\[c-submit-bug-report]' from a c++-mode buffer. This automatically sets up a mail buffer with version information already added. You just need to add a description of the problem, including a reproducable test case and send the message. Note that the details of configuring c++-mode have been moved to the accompanying texinfo manual. The hook variable `c++-mode-hook' is run with no args, if that variable is bound and has a non-nil value. Also the common hook c-mode-common-hook is run first, both by this defun, and `c-mode'. Key bindings: \\{c++-mode-map}" (interactive) (kill-all-local-variables) (set-syntax-table c++-mode-syntax-table) (setq major-mode 'c++-mode mode-name "C++" local-abbrev-table c++-mode-abbrev-table) (use-local-map c++-mode-map) (c-common-init) (setq comment-start "// " comment-end "" c-conditional-key c-C++-conditional-key c-comment-start-regexp "//\\|/\\*") (run-hooks 'c++-mode-hook)) ;;;###autoload (defun c-mode () "Major mode for editing K&R and ANSI C code. cc-mode Revision: 3.349 To submit a problem report, enter `\\[c-submit-bug-report]' from a c-mode buffer. This automatically sets up a mail buffer with version information already added. You just need to add a description of the problem, including a reproducable test case and send the message. Note that the details of configuring c-mode will soon be moved to the accompanying texinfo manual. Until then, please read the README file that came with the cc-mode distribution. The hook variable `c-mode-hook' is run with no args, if that value is bound and has a non-nil value. Also the common hook c-mode-common-hook is run first, both by this defun and `c++-mode'. Key bindings: \\{c-mode-map}" (interactive) (kill-all-local-variables) (set-syntax-table c-mode-syntax-table) (setq major-mode 'c-mode mode-name "C" local-abbrev-table c-mode-abbrev-table) (use-local-map c-mode-map) (c-common-init) (setq comment-start "/* " comment-end " */" c-conditional-key c-C-conditional-key c-comment-start-regexp "/\\*") (run-hooks 'c-mode-hook)) (defun c-common-init () ;; Common initializations for c++-mode and c-mode. ;; make local variables (make-local-variable 'paragraph-start) (make-local-variable 'paragraph-separate) (make-local-variable 'paragraph-ignore-fill-prefix) (make-local-variable 'require-final-newline) (make-local-variable 'parse-sexp-ignore-comments) (make-local-variable 'indent-line-function) (make-local-variable 'indent-region-function) (make-local-variable 'comment-start) (make-local-variable 'comment-end) (make-local-variable 'comment-column) (make-local-variable 'comment-start-skip) ;; now set their values (setq paragraph-start (concat "^$\\|" page-delimiter) paragraph-separate paragraph-start paragraph-ignore-fill-prefix t require-final-newline t parse-sexp-ignore-comments t indent-line-function 'c-indent-line indent-region-function 'c-indent-region comment-column 32 comment-start-skip "/\\*+ *\\|// *") ;; setup the comment indent variable in a Emacs version portable way ;; ignore any byte compiler warnings you might get here (if (boundp 'comment-indent-function) (progn (make-local-variable 'comment-indent-function) (setq comment-indent-function 'c-comment-indent)) (make-local-variable 'comment-indent-hook) (setq comment-indent-hook 'c-comment-indent)) ;; put C menu into menubar for Lucid Emacs. I think this happens ;; automatically for Emacs 19. (if (and (memq 'Lucid c-emacs-features) current-menubar (not (assoc mode-name current-menubar))) (progn (set-buffer-menubar (copy-sequence current-menubar)) (add-menu nil mode-name c-mode-menu))) (if (and (memq 'Lucid c-emacs-features) (boundp 'mode-popup-menu)) (setq mode-popup-menu (cons (concat mode-name " Mode Commands") c-mode-menu))) ;; put auto-hungry designators onto minor-mode-alist, but only once (or (assq 'c-auto-hungry-string minor-mode-alist) (setq minor-mode-alist (cons '(c-auto-hungry-string c-auto-hungry-string) minor-mode-alist))) (run-hooks 'c-mode-common-hook)) ;; macros must be defined before first use (defmacro c-point (position) ;; Returns the value of point at certain commonly referenced POSITIONs. ;; POSITION can be one of the following symbols: ;; ;; bol -- beginning of line ;; eol -- end of line ;; bod -- beginning of defun ;; boi -- back to indentation ;; ionl -- indentation of next line ;; iopl -- indentation of previous line ;; bonl -- beginning of next line ;; bopl -- beginning of previous line ;; ;; This function does not modify point or mark. (or (and (eq 'quote (car-safe position)) (null (cdr (cdr position)))) (error "bad buffer position requested: %s" position)) (setq position (nth 1 position)) (` (let ((here (point))) (,@ (cond ((eq position 'bol) '((beginning-of-line))) ((eq position 'eol) '((end-of-line))) ((eq position 'bod) '((beginning-of-defun) ;; if defun-prompt-regexp is non-nil, b-o-d won't leave ;; us at the open brace. (and (boundp 'defun-prompt-regexp) defun-prompt-regexp (looking-at defun-prompt-regexp) (goto-char (match-end 0))) )) ((eq position 'boi) '((back-to-indentation))) ((eq position 'bonl) '((forward-line 1))) ((eq position 'bopl) '((forward-line -1))) ((eq position 'iopl) '((forward-line -1) (back-to-indentation))) ((eq position 'ionl) '((forward-line 1) (back-to-indentation))) (t (error "unknown buffer position requested: %s" position)) )) (prog1 (point) (goto-char here)) ;; workaround for an Emacs18 bug -- blech! Well, at least it ;; doesn't hurt for v19 (,@ nil) ))) (defmacro c-auto-newline () ;; if auto-newline feature is turned on, insert a newline character ;; and return t, otherwise return nil. (` (and c-auto-newline (not (c-in-literal)) (not (newline))))) (defmacro c-safe (&rest body) ;; safely execute BODY, return nil if an error occurred (` (condition-case nil (progn (,@ body)) (error nil)))) (defun c-insert-special-chars (arg) ;; simply call self-insert-command in Emacs 19 (self-insert-command (prefix-numeric-value arg))) ;; This is used by indent-for-comment to decide how much to indent a ;; comment in C code based on its context. (defun c-comment-indent () (if (looking-at (concat "^\\(" c-comment-start-regexp "\\)")) 0 ;Existing comment at bol stays there. (let ((opoint (point)) placeholder) (save-excursion (beginning-of-line) (cond ;; CASE 1: A comment following a solitary close-brace should ;; have only one space. ((looking-at (concat "[ \t]*}[ \t]*\\($\\|" c-comment-start-regexp "\\)")) (search-forward "}") (1+ (current-column))) ;; CASE 2: 2 spaces after #endif ((or (looking-at "^#[ \t]*endif[ \t]*") (looking-at "^#[ \t]*else[ \t]*")) 7) ;; CASE 3: use comment-column if previous line is a ;; comment-only line indented to the left of comment-column ((save-excursion (beginning-of-line) (and (not (bobp)) (forward-line -1)) (skip-chars-forward " \t") (prog1 (looking-at c-comment-start-regexp) (setq placeholder (point)))) (goto-char placeholder) (if (< (current-column) comment-column) comment-column (current-column))) ;; CASE 4: If comment-column is 0, and nothing but space ;; before the comment, align it at 0 rather than 1. ((progn (goto-char opoint) (skip-chars-backward " \t") (and (= comment-column 0) (bolp))) 0) ;; CASE 5: indent at comment column except leave at least one ;; space. (t (max (1+ (current-column)) comment-column)) ))))) ;; active regions, and auto-newline/hungry delete key (defun c-keep-region-active () ;; do whatever is necessary to keep the region active in ;; Lucid. ignore byte-compiler warnings you might see (and (boundp 'zmacs-region-stays) (setq zmacs-region-stays t))) (defun c-update-modeline () ;; set the c-auto-hungry-string for the correct designation on the modeline (setq c-auto-hungry-string (if c-auto-newline (if c-hungry-delete-key "/ah" "/a") (if c-hungry-delete-key "/h" nil))) ;; updates the modeline for all Emacsen (if (memq 'v19 c-emacs-features) (force-mode-line-update) (set-buffer-modified-p (buffer-modified-p)))) (defun c-calculate-state (arg prevstate) ;; Calculate the new state of PREVSTATE, t or nil, based on arg. If ;; arg is nil or zero, toggle the state. If arg is negative, turn ;; the state off, and if arg is positive, turn the state on (if (or (not arg) (zerop (setq arg (prefix-numeric-value arg)))) (not prevstate) (> arg 0))) (defun c-toggle-auto-state (arg) "Toggle auto-newline feature. Optional numeric ARG, if supplied turns on auto-newline when positive, turns it off when negative, and just toggles it when zero. When the auto-newline feature is enabled (as evidenced by the `/a' or `/ah' on the modeline after the mode name) newlines are automatically inserted after special characters such as brace, comma, semi-colon, and colon." (interactive "P") (setq c-auto-newline (c-calculate-state arg c-auto-newline)) (c-update-modeline) (c-keep-region-active)) (defun c-toggle-hungry-state (arg) "Toggle hungry-delete-key feature. Optional numeric ARG, if supplied turns on hungry-delete when positive, turns it off when negative, and just toggles it when zero. When the hungry-delete-key feature is enabled (as evidenced by the `/h' or `/ah' on the modeline after the mode name) the delete key gobbles all preceding whitespace in one fell swoop." (interactive "P") (setq c-hungry-delete-key (c-calculate-state arg c-hungry-delete-key)) (c-update-modeline) (c-keep-region-active)) (defun c-toggle-auto-hungry-state (arg) "Toggle auto-newline and hungry-delete-key features. Optional numeric ARG, if supplied turns on auto-newline and hungry-delete when positive, turns them off when negative, and just toggles them when zero. See `c-toggle-auto-state' and `c-toggle-hungry-state' for details." (interactive "P") (setq c-auto-newline (c-calculate-state arg c-auto-newline)) (setq c-hungry-delete-key (c-calculate-state arg c-hungry-delete-key)) (c-update-modeline) (c-keep-region-active)) ;; COMMANDS (defun c-electric-delete (arg) "Deletes preceding character or whitespace. If `c-hungry-delete-key' is non-nil, as evidenced by the \"/h\" or \"/ah\" string on the mode line, then all preceding whitespace is consumed. If however an ARG is supplied, or `c-hungry-delete-key' is nil, or point is inside a literal then the function in the variable `c-delete-function' is called." (interactive "P") (if (or (not c-hungry-delete-key) arg (c-in-literal)) (funcall c-delete-function (prefix-numeric-value arg)) (let ((here (point))) (skip-chars-backward " \t\n") (if (/= (point) here) (delete-region (point) here) (funcall c-delete-function 1) )))) (defun c-electric-pound (arg) "Electric pound (`#') insertion. Inserts a `#' character specially depending on the variable `c-electric-pound-behavior'. If a numeric ARG is supplied, or if point is inside a literal, nothing special happens." (interactive "P") (if (or (c-in-literal) arg (not (memq 'alignleft c-electric-pound-behavior))) ;; do nothing special (self-insert-command (prefix-numeric-value arg)) ;; place the pound character at the left edge (let ((pos (- (point-max) (point))) (bolp (bolp))) (beginning-of-line) (delete-horizontal-space) (insert-char last-command-char 1) (and (not bolp) (goto-char (- (point-max) pos))) ))) (defun c-electric-brace (arg) "Insert a brace. If the auto-newline feature is turned on, as evidenced by the \"/a\" or \"/ah\" string on the mode line, newlines are inserted before and after braces based on the value of `c-hanging-braces-alist'. Also, the line is re-indented unless a numeric ARG is supplied, there are non-whitespace characters present on the line after the brace, or the brace is inserted inside a literal." (interactive "P") (let* ((bod (c-point 'bod)) (literal (c-in-literal bod)) ;; we want to inhibit blinking the paren since this will be ;; most disruptive. we'll blink it ourselves later on (old-blink-paren (if (boundp 'blink-paren-function) blink-paren-function blink-paren-hook)) blink-paren-function ; emacs19 blink-paren-hook ; emacs18 semantics newlines delete-temp-newline ;; shut this up (c-echo-semantic-information-p nil)) (if (or literal arg (not (looking-at "[ \t]*$"))) (c-insert-special-chars arg) (setq semantics (progn ;; only insert a newline if there is ;; non-whitespace behind us (if (save-excursion (skip-chars-backward " \t") (not (bolp))) (progn (newline) (setq delete-temp-newline t))) (self-insert-command (prefix-numeric-value arg)) (c-guess-basic-semantics)) newlines (and c-auto-newline (or (assq (car (or (assq 'defun-open semantics) (assq 'defun-close semantics) (assq 'class-open semantics) (assq 'class-close semantics) (assq 'inline-open semantics) (assq 'inline-close semantics) (assq 'brace-list-open semantics) (assq 'brace-list-close semantics) (assq 'block-open semantics) (assq 'block-close semantics) (assq 'substatement-open semantics) )) c-hanging-braces-alist) '(ignore before after)))) ;; does a newline go before the open brace? (if (memq 'before newlines) ;; we leave the newline we've put in there before, ;; but we need to re-indent the line above (let ((pos (- (point-max) (point))) (here (point))) (forward-line -1) (c-indent-line) (goto-char (- (point-max) pos)) ;; if the buffer has changed due to the indentation, we ;; need to recalculate semantics for the current line (if (/= (point) here) (setq semantics (c-guess-basic-semantics)))) ;; must remove the newline we just stuck in (if we really did it) (and delete-temp-newline (delete-region (- (point) 2) (1- (point)))) ;; since we're hanging the brace, we need to recalculate ;; semantics (setq semantics (c-guess-basic-semantics))) ;; now adjust the line's indentation (c-indent-line semantics) ;; Do all appropriate clean ups (let ((here (point)) (pos (- (point-max) (point))) mbeg mend) ;; clean up empty defun braces (if (and c-auto-newline (memq 'empty-defun-braces c-cleanup-list) (= last-command-char ?\}) (or (assq 'defun-close semantics) (assq 'class-close semantics) (assq 'inline-close semantics)) (progn (forward-char -1) (skip-chars-backward " \t\n") (= (preceding-char) ?\{)) ;; make sure matching open brace isn't in a comment (not (c-in-literal))) (delete-region (point) (1- here))) ;; clean up brace-else-brace (if (and c-auto-newline (memq 'brace-else-brace c-cleanup-list) (= last-command-char ?\{) (re-search-backward "}[ \t\n]*else[ \t\n]*{" nil t) (progn (setq mbeg (match-beginning 0) mend (match-end 0)) (= mend here)) (not (c-in-literal))) (progn (delete-region mbeg mend) (insert "} else {"))) (goto-char (- (point-max) pos)) ) ;; does a newline go after the brace? (if (memq 'after (cdr-safe newlines)) (progn (newline) (c-indent-line))) ;; blink the paren (and (= last-command-char ?\}) old-blink-paren (save-excursion (c-backward-syntactic-ws bod) (if (boundp 'blink-paren-function) (funcall old-blink-paren) (run-hooks old-blink-paren)))) ))) (defun c-electric-slash (arg) "Insert a slash character. If slash is second of a double-slash C++ style comment introducing construct, and we are on a comment-only-line, indent line as comment. If numeric ARG is supplied or point is inside a literal, indentation is inhibited." (interactive "P") (let ((indentp (and (eq major-mode 'c++-mode) (not arg) (= (preceding-char) ?/) (= last-command-char ?/) (not (c-in-literal)))) ;; shut this up (c-echo-semantic-information-p nil)) (self-insert-command (prefix-numeric-value arg)) (if indentp (c-indent-line)))) (defun c-electric-star (arg) "Insert a star character. If the star is the second character of a C style comment introducing construct, and we are on a comment-only-line, indent line as comment. If numeric ARG is supplied or point is inside a literal, indentation is inhibited." (interactive "P") (let ((indentp (and (not arg) (or (and (memq (c-in-literal) '(c)) (save-excursion (skip-chars-backward "* \t") (bolp))) (= (preceding-char) ?/)))) ;; shut this up (c-echo-semantic-information-p nil)) (self-insert-command (prefix-numeric-value arg)) (if indentp (c-indent-line)))) (defun c-electric-semi&comma (arg) "Insert a comma or semicolon. When the auto-newline feature is turned on, as evidenced by the \"/a\" or \"/ah\" string on the mode line, a newline is inserted after semicolons, but not commas. When semicolon is inserted, the line is re-indented unless a numeric arg is supplied, point is inside a literal, or there are non-whitespace characters on the line following the semicolon." (interactive "P") (let* ((bod (c-point 'bod)) (literal (c-in-literal bod)) (here (point)) ;; shut this up (c-echo-semantic-information-p nil)) (if (or literal arg (not (looking-at "[ \t]*$"))) (c-insert-special-chars arg) ;; do some special stuff with the character (self-insert-command (prefix-numeric-value arg)) ;; do all cleanups, reindentations, and newline insertions, but ;; only if c-auto-newline is turned on (if (not c-auto-newline) nil ;; clean ups (let ((pos (- (point-max) (point)))) (if (and (or (and (= last-command-char ?,) (memq 'list-close-comma c-cleanup-list)) (and (= last-command-char ?\;) (memq 'defun-close-semi c-cleanup-list))) (progn (forward-char -1) (skip-chars-backward " \t\n") (= (preceding-char) ?})) ;; make sure matching open brace isn't in a comment (not (c-in-literal))) (delete-region (point) here)) (goto-char (- (point-max) pos))) ;; re-indent line (c-indent-line) ;; newline only after semicolon, but only if that semicolon is ;; not inside a parenthesis list (e.g. a for loop statement) (and (= last-command-char ?\;) (condition-case nil (save-excursion (up-list -1) (/= (following-char) ?\()) (error t)) (progn (newline) t) (c-indent-line)) )))) (defun c-electric-colon (arg) "Insert a colon. If the auto-newline feature is turned on, as evidenced by the \"/a\" or \"/ah\" string on the mode line, newlines are inserted before and after colons based on the value of `c-hanging-colons-alist'. Also, the line is re-indented unless a numeric ARG is supplied, there are non-whitespace characters present on the line after the colon, or the colon is inserted inside a literal. This function cleans up double colon scope operators based on the value of `c-cleanup-list'." (interactive "P") (let* ((bod (c-point 'bod)) (literal (c-in-literal bod)) semantics newlines ;; shut this up (c-echo-semantic-information-p nil)) (if (or literal arg (not (looking-at "[ \t]*$"))) (c-insert-special-chars arg) ;; insert the colon, then do any specified cleanups (self-insert-command (prefix-numeric-value arg)) (let ((pos (- (point-max) (point))) (here (point))) (if (and c-auto-newline (memq 'scope-operator c-cleanup-list) (= (preceding-char) ?:) (progn (forward-char -1) (skip-chars-backward " \t\n") (= (preceding-char) ?:)) (not (c-in-literal)) (not (= (char-after (- (point) 2)) ?:))) (delete-region (point) (1- here))) (goto-char (- (point-max) pos))) ;; lets do some special stuff with the colon character (setq semantics (c-guess-basic-semantics) ;; some language elements can only be determined by ;; checking the following line. Lets first look for ones ;; that can be found when looking on the line with the ;; colon newlines (and c-auto-newline (or (let ((langelem (or (assq 'case-label semantics) (assq 'label semantics) (assq 'access-label semantics)))) (and langelem (assq (car langelem) c-hanging-colons-alist))) (prog2 (insert "\n") (let* ((semantics (c-guess-basic-semantics)) (langelem (or (assq 'member-init-intro semantics) (assq 'inher-intro semantics)))) (and langelem (assq (car langelem) c-hanging-colons-alist))) (delete-char -1)) ))) ;; indent the current line (c-indent-line semantics) ;; does a newline go before the colon? (if (memq 'before newlines) (let ((pos (- (point-max) (point)))) (forward-char -1) (newline) (c-indent-line) (goto-char (- (point-max) pos)))) ;; does a newline go after the colon? (if (memq 'after (cdr-safe newlines)) (progn (newline) (c-indent-line))) ))) (defun c-read-offset (langelem) ;; read new offset value for LANGELEM from minibuffer. return a ;; legal value only (let ((oldoff (format "%s" (cdr-safe (assq langelem c-offsets-alist)))) (errmsg "Offset must be +, -, an integer, or function name: ") (prompt "Offset: ") offset input) (while (not offset) (setq input (read-string prompt oldoff) offset (cond ((string-equal "+" input) '+) ((string-equal "-" input) '-) ((string-match "^-?[0-9]+$" input) (string-to-int input)) ((c-safe (symbol-function (intern input))) (intern input)) ;; error (t (ding) (setq prompt errmsg) nil)))) offset)) (defun c-set-offset (symbol offset &optional add-p) "Change the value of a syntactic element symbol in `c-offsets-alist'. SYMBOL is the syntactic element symbol to change and OFFSET is the new offset for that syntactic element. Optional ADD says to add SYMBOL to `c-offsets-alist' if it doesn't already appear there." (interactive (let* ((langelem (intern (completing-read (concat "Syntactic symbol to change" (if current-prefix-arg " or add" "") ": ") (mapcar (function (lambda (langelem) (cons (format "%s" (car langelem)) nil))) c-offsets-alist) nil (not current-prefix-arg)) )) (offset (c-read-offset langelem))) (list langelem offset current-prefix-arg))) ;; sanity check offset (or (eq offset '+) (eq offset '-) (integerp offset) (c-safe (symbol-function offset)) (error "Offset is not +, -, an integer, or a function name: %s" offset)) (let ((entry (assq symbol c-offsets-alist))) (if entry (setcdr entry offset) (if add-p (setq c-offsets-alist (cons (cons symbol offset) c-offsets-alist)) (error "%s is not a valid syntactic symbol." symbol)))) (c-keep-region-active)) (defun c-set-style (style &optional local) "Set cc-mode variables to use one of several different indentation styles. STYLE is a string representing the desired style and optional LOCAL is a flag which, if non-nil, means to make the style variables being changed buffer local, instead of the default, which is to set the global variables. Interactively, the flag comes from the prefix argument. The styles are chosen from the `c-style-alist' variable." (interactive (list (completing-read "Use which C indentation style? " c-style-alist nil t) current-prefix-arg)) (let ((vars (cdr (assoc style c-style-alist)))) (or vars (error "Invalid C indentation style `%s'" style)) ;; set all the variables (mapcar (function (lambda (varentry) (let ((var (car varentry)) (val (cdr varentry))) (and local (make-local-variable var)) ;; special case for c-offsets-alist (if (not (eq var 'c-offsets-alist)) (set var val) ;; reset c-offsets-alist to the default value first (setq c-offsets-alist (copy-alist c-offsets-alist-default)) ;; now set the langelems that are different (mapcar (function (lambda (langentry) (let ((langelem (car langentry)) (offset (cdr langentry))) (c-set-offset langelem offset) ))) val)) ))) vars)) (c-keep-region-active)) (defun c-fill-paragraph (&optional arg) "Like \\[fill-paragraph] but handles C and C++ style comments. If any of the current line is a comment or within a comment, fill the comment or the paragraph of it that point is in, preserving the comment indentation or line-starting decorations." (interactive "P") (let* (comment-start-place (first-line ;; Check for obvious entry to comment. (save-excursion (beginning-of-line) (skip-chars-forward " \t\n") (and (looking-at comment-start-skip) (setq comment-start-place (point)))))) (if (and (eq major-mode 'c++-mode) (save-excursion (beginning-of-line) (looking-at ".*//"))) (let (fill-prefix (paragraph-start ;; Lines containing just a comment start or just an end ;; should not be filled into paragraphs they are next to. (concat paragraph-start "\\|^[ \t]*/\\*[ \t]*$\\|^[ \t]*\\*/[ \t]*$\\|^[ \t/*]*$")) (paragraph-separate (concat paragraph-separate "\\|^[ \t]*/\\*[ \t]*$\\|^[ \t]*\\*/[ \t]*$\\|^[ \t/*]*$"))) (save-excursion (beginning-of-line) ;; Move up to first line of this comment. (while (and (not (bobp)) (looking-at "[ \t]*//")) (forward-line -1)) (if (not (looking-at ".*//")) (forward-line 1)) ;; Find the comment start in this line. (re-search-forward "[ \t]*//[ \t]*") ;; Set the fill-prefix to be what all lines except the first ;; should start with. (setq fill-prefix (buffer-substring (match-beginning 0) (match-end 0))) (save-restriction ;; Narrow down to just the lines of this comment. (narrow-to-region (c-point 'bol) (save-excursion (forward-line 1) (while (looking-at fill-prefix) (forward-line 1)) (point))) (fill-paragraph arg) ))) ;; else C style comments (if (or first-line ;; t if we enter a comment between start of function and ;; this line. (eq (c-in-literal) 'c) ;; t if this line contains a comment starter. (setq first-line (save-excursion (beginning-of-line) (prog1 (re-search-forward comment-start-skip (save-excursion (end-of-line) (point)) t) (setq comment-start-place (point)))))) ;; Inside a comment: fill one comment paragraph. (let ((fill-prefix ;; The prefix for each line of this paragraph ;; is the appropriate part of the start of this line, ;; up to the column at which text should be indented. (save-excursion (beginning-of-line) (if (looking-at "[ \t]*/\\*.*\\*/") (progn (re-search-forward comment-start-skip) (make-string (current-column) ?\ )) (if first-line (forward-line 1)) (let ((line-width (progn (end-of-line) (current-column)))) (beginning-of-line) (prog1 (buffer-substring (point) ;; How shall we decide where the end of the ;; fill-prefix is? (progn (beginning-of-line) (skip-chars-forward " \t*" (c-point 'eol)) (point))) ;; If the comment is only one line followed ;; by a blank line, calling move-to-column ;; above may have added some spaces and tabs ;; to the end of the line; the fill-paragraph ;; function will then delete it and the ;; newline following it, so we'll lose a ;; blank line when we shouldn't. So delete ;; anything move-to-column added to the end ;; of the line. We record the line width ;; instead of the position of the old line ;; end because move-to-column might break a ;; tab into spaces, and the new characters ;; introduced there shouldn't be deleted. ;; If you can see a better way to do this, ;; please make the change. This seems very ;; messy to me. (delete-region (progn (move-to-column line-width) (point)) (progn (end-of-line) (point)))))))) (paragraph-start ;; Lines containing just a comment start or just an end ;; should not be filled into paragraphs they are next to. (concat paragraph-start "\\|^[ \t]*/\\*[ \t]*$\\|^[ \t]*\\*/[ \t]*$\\|^[ \t/*]*$")) (paragraph-separate (concat paragraph-separate "\\|^[ \t]*/\\*[ \t]*$\\|^[ \t]*\\*/[ \t]*$\\|^[ \t/*]*$")) (chars-to-delete 0)) (save-restriction ;; Don't fill the comment together with the code ;; following it. So temporarily exclude everything ;; before the comment start, and everything after the ;; line where the comment ends. If comment-start-place ;; is non-nil, the comment starter is there. Otherwise, ;; point is inside the comment. (narrow-to-region (save-excursion (if comment-start-place (goto-char comment-start-place) (search-backward "/*")) ;; Protect text before the comment ;; start by excluding it. Add ;; spaces to bring back proper ;; indentation of that point. (let ((column (current-column))) (prog1 (point) (setq chars-to-delete column) (insert-char ?\ column)))) (save-excursion (if comment-start-place (goto-char (+ comment-start-place 2))) (search-forward "*/" nil 'move) (forward-line 1) (point))) (fill-paragraph arg) (save-excursion ;; Delete the chars we inserted to avoid clobbering ;; the stuff before the comment start. (goto-char (point-min)) (if (> chars-to-delete 0) (delete-region (point) (+ (point) chars-to-delete))) ;; Find the comment ender (should be on last line of ;; buffer, given the narrowing) and don't leave it on ;; its own line. (goto-char (point-max)) (forward-line -1) (search-forward "*/" nil 'move) (beginning-of-line) (if (looking-at "[ \t]*\\*/") (delete-indentation))))) ;; Outside of comments: do ordinary filling. (fill-paragraph arg))))) ;; better movement routines for ThisStyleOfVariablesCommonInCPlusPlus ;; originally contributed by Terry_Glanfield.Southern@rxuk.xerox.com (defun c-forward-into-nomenclature (&optional arg) "Move forward to end of a nomenclature section or word. With arg, to it arg times." (interactive "p") (let ((case-fold-search nil)) (if (> arg 0) (re-search-forward "\\W*\\([A-Z]*[a-z0-9]*\\)" (point-max) t arg) (while (and (< arg 0) (re-search-backward "\\(\\(\\W\\|[a-z0-9]\\)[A-Z]+\\|\\W\\w+\\)" (point-min) 0)) (forward-char 1) (setq arg (1+ arg))))) (c-keep-region-active)) (defun c-backward-into-nomenclature (&optional arg) "Move backward to beginning of a nomenclature section or word. With optional ARG, move that many times. If ARG is negative, move forward." (interactive "p") (c-forward-into-nomenclature (- arg)) (c-keep-region-active)) (defun c-scope-operator () "Insert a double colon scope operator at point. No indentation or other \"electric\" behavior is performed." (interactive) (insert "::")) ;; TBD: These are from Lucid Emacs 19.9's version of c-mode.el ;;(defun c-insert-brackets () ;; (interactive) ;; (insert ?[) ;; (save-excursion ;; (insert ?]))) ;;(defun c-insert-braces () ;; (interactive) ;; (setq last-command-char ?{) ;; (electric-c-brace 1) ;; (newline) ;; (c-indent-line) ;; (save-excursion ;; (newline) ;; (insert ?}) ;; (c-indent-line))) (defun c-beginning-of-statement (&optional count lim) "Go to the beginning of the innermost C statement. With prefix arg, go back N - 1 statements. If already at the beginning of a statement then go to the beginning of the preceding one. If within a string or comment, or next to a comment (only whitespace between), move by sentences instead of statements. When called from a program, this function takes 2 optional args: the prefix arg, and a buffer position limit which is the farthest back to search." (interactive "p") (let ((here (point)) (count (or count 1)) (lim (or lim (c-point 'bod))) state) (save-excursion (goto-char lim) (setq state (parse-partial-sexp (point) here nil nil))) (if (and (interactive-p) (or (nth 3 state) (nth 4 state) (looking-at (concat "[ \t]*" comment-start-skip)) (save-excursion (skip-chars-backward " \t") (goto-char (- (point) 2)) (looking-at "\\*/")))) (forward-sentence (- count)) (while (> count 0) (c-beginning-of-statement-1) (setq count (1- count))) (while (< count 0) (c-end-of-statement-1) (setq count (1+ count)))) ;; its possible we've been left up-buf of lim (goto-char (max (point) lim)) ) (c-keep-region-active)) (defun c-end-of-statement (&optional count lim) "Go to the end of the innermost C statement. With prefix arg, go forward N - 1 statements. Move forward to end of the next statement if already at end. If within a string or comment, move by sentences instead of statements. When called from a program, this function takes 2 optional args: the prefix arg, and a buffer position limit which is the farthest back to search." (interactive "p") (c-beginning-of-statement (- (or count 1)) lim) (c-keep-region-active)) (defun c-beginning-of-statement-1 () ;; move to the start of the current statement, or the previous ;; statement if already at the beginning of one. (let ((firstp t) donep literal-cache (last-begin (point))) (while (not donep) ;; stop at beginning of buffer (if (bobp) (setq donep t) ;; go backwards one balanced expression, but be careful of ;; unbalanced paren being reached (if (not (c-safe (progn (backward-sexp 1) t))) (progn (if firstp (backward-up-list 1) (goto-char last-begin)) ;; skip over any unary operators, or other special ;; characters appearing at front of identifier (save-excursion (c-backward-syntactic-ws) (skip-chars-backward "-+!*&:.~") (if (= (preceding-char) ?\() (setq last-begin (point)))) (goto-char last-begin) (setq donep t))) ;; see if we're in a literal. if not, then this bufpos may be ;; a candidate for stopping (cond ;; CASE 0: did we hit the error condition above? (donep) ;; CASE 1: are we in a literal? ((eq (setq literal-cache (c-in-literal)) 'pound) (beginning-of-line)) ;; CASE 2: some other kind of literal? (literal-cache) ;; CASE 3: is this the first time we're checking? (firstp (setq firstp nil last-begin (point))) ;; CASE 4: are we looking at a conditional keyword? ((looking-at c-conditional-key) ;; are we in the middle of an else-if clause? (if (save-excursion (c-safe (forward-sexp -1)) (looking-at "\\[ \t]+\\")) (forward-sexp -1)) (setq last-begin (point) donep t)) ;; CASE 5: have we crossed a statement barrier? ((let (crossedp) (save-excursion (while (and (not crossedp) (< (point) last-begin)) (skip-chars-forward "^;{}" last-begin) (if (and (memq (following-char) '(?\; ?{ ?})) (not (c-in-literal))) (setq crossedp t donep t) (forward-char 1)))) crossedp)) ;; CASE 6: nothing special (t (setq last-begin (point))) ))) (goto-char last-begin))) (defun c-end-of-statement-1 () (condition-case () (progn (while (and (not (eobp)) (let ((beg (point))) (forward-sexp 1) (let ((end (point))) (save-excursion (goto-char beg) (not (re-search-forward "[;{}]" end t))))))) (re-search-backward "[;}]") (forward-char 1)) (error (let ((beg (point))) (backward-up-list -1) (let ((end (point))) (goto-char beg) (search-forward ";" end 'move)))))) ;;(defun c-beginning-of-defun (count) ;; "Move the the COUNTth `real' beginning-of-defun. ;;This is defined as the first declaration line of the most enclosing ;;top level construct; i.e. class/struct, function, enum, etc. With ;;negative COUNT, go forward." ;; (interactive "p") ;; ) ;; ;;(defun c-beginning-of-defun-1 () ;; ;; move to the real beginning of defun. `Real' being defined as the ;; ;; first C/C++ declaration line of the most enclosing top level construct. ;; (let* ((state (c-parse-state)) ;; (search-start (car state))) ;; ;; if the last thing is a cons then start searching from the end ;; ;; of the previous balanced sexp ;; (goto-char (or (car-safe search-start) ;; (and (numberp search-start) ;; search-start) ;; (point))) ;; (c-beginning-of-statement) ;; (if (bobp) ;; (c-forward-syntactic-ws)) ;; )) ;; ;;(defun c-end-of-defun-1 () ;; ;; move to the end of the defun. ;; (let* ((state (c-parse-state)) ;; (search-start (car state)) ;; ))) ;; (defun c-up-conditional (count) "Move back to the containing preprocessor conditional, leaving mark behind. A prefix argument acts as a repeat count. With a negative argument, move forward to the end of the containing preprocessor conditional. When going backwards, `#elif' is treated like `#else' followed by `#if'. When going forwards, `#elif' is ignored." (interactive "p") (c-forward-conditional (- count) t) (c-keep-region-active)) (defun c-backward-conditional (count &optional up-flag) "Move back across a preprocessor conditional, leaving mark behind. A prefix argument acts as a repeat count. With a negative argument, move forward across a preprocessor conditional." (interactive "p") (c-forward-conditional (- count) up-flag) (c-keep-region-active)) (defun c-forward-conditional (count &optional up-flag) "Move forward across a preprocessor conditional, leaving mark behind. A prefix argument acts as a repeat count. With a negative argument, move backward across a preprocessor conditional." (interactive "p") (let* ((forward (> count 0)) (increment (if forward -1 1)) (search-function (if forward 're-search-forward 're-search-backward)) (new)) (save-excursion (while (/= count 0) (let ((depth (if up-flag 0 -1)) found) (save-excursion ;; Find the "next" significant line in the proper direction. (while (and (not found) ;; Rather than searching for a # sign that ;; comes at the beginning of a line aside from ;; whitespace, search first for a string ;; starting with # sign. Then verify what ;; precedes it. This is faster on account of ;; the fastmap feature of the regexp matcher. (funcall search-function "#[ \t]*\\(if\\|elif\\|endif\\)" nil t)) (beginning-of-line) ;; Now verify it is really a preproc line. (if (looking-at "^[ \t]*#[ \t]*\\(if\\|elif\\|endif\\)") (let ((prev depth)) ;; Update depth according to what we found. (beginning-of-line) (cond ((looking-at "[ \t]*#[ \t]*endif") (setq depth (+ depth increment))) ((looking-at "[ \t]*#[ \t]*elif") (if (and forward (= depth 0)) (setq found (point)))) (t (setq depth (- depth increment)))) ;; If we are trying to move across, and we find an ;; end before we find a beginning, get an error. (if (and (< prev 0) (< depth prev)) (error (if forward "No following conditional at this level" "No previous conditional at this level"))) ;; When searching forward, start from next line so ;; that we don't find the same line again. (if forward (forward-line 1)) ;; If this line exits a level of conditional, exit ;; inner loop. (if (< depth 0) (setq found (point))))))) (or found (error "No containing preprocessor conditional")) (goto-char (setq new found))) (setq count (+ count increment)))) (push-mark) (goto-char new)) (c-keep-region-active)) ;; commands to indent lines, regions, defuns, and expressions (defun c-indent-command (&optional whole-exp) "Indent current line as C++ code, or in some cases insert a tab character. If `c-tab-always-indent' is t, always just indent the current line. If nil, indent the current line only if point is at the left margin or in the line's indentation; otherwise insert a tab. If other than nil or t, then tab is inserted only within literals (comments and strings) and inside preprocessor directives, but line is always reindented. A numeric argument, regardless of its value, means indent rigidly all the lines of the expression starting after point so that this line becomes properly indented. The relative indentation among the lines of the expression are preserved." (interactive "P") (let ((bod (c-point 'bod))) (if whole-exp ;; If arg, always indent this line as C ;; and shift remaining lines of expression the same amount. (let ((shift-amt (c-indent-line)) beg end) (save-excursion (if (eq c-tab-always-indent t) (beginning-of-line)) (setq beg (point)) (forward-sexp 1) (setq end (point)) (goto-char beg) (forward-line 1) (setq beg (point))) (if (> end beg) (indent-code-rigidly beg end shift-amt "#"))) ;; No arg supplied, use c-tab-always-indent to determine ;; behavior (cond ;; CASE 1: indent when at column zero or in lines indentation, ;; otherwise insert a tab ((not c-tab-always-indent) (if (save-excursion (skip-chars-backward " \t") (not (bolp))) (insert-tab) (c-indent-line))) ;; CASE 2: just indent the line ((eq c-tab-always-indent t) (c-indent-line)) ;; CASE 3: if in a literal, insert a tab, but always indent the ;; line (t (if (c-in-literal bod) (insert-tab)) (c-indent-line) ))))) (defun c-indent-exp (&optional shutup-p) "Indent each line in balanced expression following point. Optional SHUTUP-P if non-nil, inhibits message printing and error checking." (interactive "P") (let ((here (point)) end) (unwind-protect (let ((c-echo-semantic-information-p nil) ;keep quiet for speed (start (progn ;; try to be smarter about finding the range of ;; lines to indent. skip all following ;; whitespace. failing that, try to find any ;; opening brace on the current line (skip-chars-forward " \t\n") (if (memq (following-char) '(?\( ?\[ ?\{)) (point) (let ((state (parse-partial-sexp (point) (c-point 'eol)))) (and (nth 1 state) (goto-char (nth 1 state)) (memq (following-char) '(?\( ?\[ ?\{)) (point))))))) ;; find balanced expression end (setq end (and (c-safe (progn (forward-sexp 1) t)) (point-marker))) ;; sanity check (and (not start) (not shutup-p) (error "Cannot find start of balanced expression to indent.")) (and (not end) (not shutup-p) (error "Cannot find end of balanced expression to indent.")) (or shutup-p (message "indenting expression... (this may take a while)")) (goto-char start) (beginning-of-line) (while (< (point) end) (if (not (looking-at "[ \t]*$")) (c-indent-line)) (forward-line 1))) ;; make sure marker is deleted (and end (set-marker end nil)) (or shutup-p (message "indenting expression... done.")) (goto-char here)))) (defun c-indent-defun () "Re-indents the current top-level function def, struct or class declaration." (interactive) (let ((here (point-marker)) (c-echo-semantic-information-p nil)) (beginning-of-defun) ;; if defun-prompt-regexp is non-nil, b-o-d might not leave us at ;; the open brace. I consider this an Emacs bug. (and (boundp 'defun-prompt-regexp) defun-prompt-regexp (looking-at defun-prompt-regexp) (goto-char (match-end 0))) ;; catch all errors in c-indent-exp so we can 1. give more ;; meaningful error message, and 2. restore point (unwind-protect (condition-case () (c-indent-exp) (buffer-read-only (error)) (error (error "Cannot find closed top-level defun containing point."))) (goto-char here) (set-marker here nil)))) (defun c-indent-region (start end) ;; Indent every line whose first char is between START and END inclusive. (message "indenting region... (this may take a while)") (save-excursion (goto-char start) ;; Advance to first nonblank line. (skip-chars-forward " \t\n") (beginning-of-line) (let (endmark) (unwind-protect (let ((c-tab-always-indent t) ;; shut up any echo msgs on indiv lines (c-echo-semantic-information-p nil)) (setq endmark (copy-marker end)) (while (and (bolp) (not (eobp)) (< (point) endmark)) ;; Indent one line as with TAB. (let (nextline sexpend sexpbeg) ;; skip blank lines (skip-chars-forward " \t\n") (beginning-of-line) ;; indent the current line (c-indent-line) (if (save-excursion (beginning-of-line) (looking-at "[ \t]*#")) (forward-line 1) (save-excursion ;; Find beginning of following line. (setq nextline (c-point 'bonl)) ;; Find first beginning-of-sexp for sexp extending past ;; this line. (beginning-of-line) (while (< (point) nextline) (condition-case nil (progn (forward-sexp 1) (setq sexpend (point))) (error (setq sexpend nil) (goto-char nextline))) (c-forward-syntactic-ws)) (if sexpend (progn ;; make sure the sexp we found really starts on the ;; current line and extends past it (goto-char sexpend) (setq sexpend (point-marker)) (backward-sexp 1) (setq sexpbeg (point))))) ;; check to see if the next line starts a ;; comment-only line (save-excursion (forward-line 1) (skip-chars-forward " \t") (if (looking-at c-comment-start-regexp) (setq sexpbeg (c-point 'bol)))) ;; If that sexp ends within the region, indent it all at ;; once, fast. (condition-case nil (if (and sexpend (> sexpend nextline) (<= sexpend endmark)) (progn (goto-char sexpbeg) (c-indent-exp 'shutup) (goto-char sexpend))) (error (goto-char sexpbeg) (c-indent-line))) ;; Move to following line and try again. (and sexpend (markerp sexpend) (set-marker sexpend nil)) (forward-line 1))))) (set-marker endmark nil)))) (message "indenting region... done.")) (defun c-mark-function () "Put mark at end of a C/C++ defun, point at beginning." (interactive) (let ((here (point)) (bod (c-point 'bod)) ;; there should be a c-point position for 'eod and 'bod2 (eod (save-excursion (end-of-defun) (point))) (bod2 (save-excursion (beginning-of-defun 2) (point)))) (push-mark here) (push-mark eod nil t) (goto-char bod2) (end-of-defun) (if (>= (point) bod) (goto-char bod2)))) ;; Skipping of "syntactic whitespace" for Emacs 19. Syntactic ;; whitespace is defined as lexical whitespace, C and C++ style ;; comments, and preprocessor directives. Search no farther back or ;; forward than optional LIM. If LIM is omitted, `beginning-of-defun' ;; is used for backward skipping, point-max is used for forward ;; skipping. Note that Emacs 18 support has been moved to cc-mode-18.el. (defun c-forward-syntactic-ws (&optional lim) ;; Forward skip of syntactic whitespace for Emacs 19. (save-restriction (let* ((lim (or lim (point-max))) (here lim) (hugenum (point-max))) (narrow-to-region lim (point)) (while (/= here (point)) (setq here (point)) (forward-comment hugenum) ;; skip preprocessor directives (if (and (= (following-char) ?#) (= (c-point 'boi) (point))) (end-of-line) ))))) (defun c-backward-syntactic-ws (&optional lim) ;; Backward skip over syntactic whitespace for Emacs 19. (save-restriction (let* ((lim (or lim (c-point 'bod))) (here lim) (hugenum (- (point-max)))) (if (< lim (point)) (progn (narrow-to-region lim (point)) (while (/= here (point)) (setq here (point)) (forward-comment hugenum) (if (eq (c-in-literal lim) 'pound) (beginning-of-line)) ))) ))) ;; Return `c' if in a C-style comment, `c++' if in a C++ style ;; comment, `string' if in a string literal, `pound' if on a ;; preprocessor line, or nil if not in a comment at all. Optional LIM ;; is used as the backward limit of the search. If omitted, or nil, ;; `beginning-of-defun' is used." ;; This is for all v19 Emacsen supporting either 1-bit or 8-bit syntax (defun c-in-literal (&optional lim) ;; Determine if point is in a C++ literal (save-excursion (let* ((lim (or lim (c-point 'bod))) (here (point)) (state (parse-partial-sexp lim (point)))) (cond ((nth 3 state) 'string) ((nth 4 state) (if (nth 7 state) 'c++ 'c)) ((progn (goto-char here) (beginning-of-line) (looking-at "[ \t]*#")) 'pound) (t nil))))) ;; utilities for moving and querying around semantic elements (defun c-parse-state () ;; Finds and records all open parens between some important point ;; earlier in the file and point. (let* (at-bob (pos (save-excursion ;; go back 2 bods, but ignore any bogus positions ;; returned by beginning-of-defun (i.e. open paren in ;; column zero) (let ((cnt 0)) (while (and (not at-bob) (< cnt 2)) (beginning-of-defun) (if (= (following-char) ?\{) (setq cnt (1+ cnt))) (if (bobp) (setq at-bob t)))) (point))) (here (save-excursion ;;(skip-chars-forward " \t}") (point))) (last-bod pos) (last-pos pos) state sexp-end) ;; cache last bod position (while (catch 'backup-bod (setq state nil) (while (and pos (< pos here)) (setq last-pos pos) (if (and (setq pos (c-safe (scan-lists pos 1 -1))) (<= pos here)) (progn (setq sexp-end (c-safe (scan-sexps (1- pos) 1))) (if (and sexp-end (<= sexp-end here)) ;; we want to record both the start and end ;; of this sexp, but we only want to record ;; the last-most of any of them before here (progn (if (= (char-after (1- pos)) ?\{) (setq state (cons (cons (1- pos) sexp-end) (if (consp (car state)) (cdr state) state)))) (setq pos sexp-end)) ;; we're contained in this sexp so put pos on ;; front of list (setq state (cons (1- pos) state)))) ;; something bad happened. check to see if we crossed ;; an unbalanced close paren. if so, we didn't really ;; find the right `important bufpos' so lets back up ;; and try again (if (and (not pos) (not at-bob) (c-safe (scan-lists last-pos 1 1))) (save-excursion (let (donep) (goto-char last-bod) (while (and (not donep) (not at-bob)) (beginning-of-defun) (if (= (following-char) ?\{) (setq last-bod (point) donep t)) (setq at-bob (bobp))) (setq pos (point)) (throw 'backup-bod t)))) )) nil)) state)) (defun c-beginning-of-inheritance-list (&optional lim) ;; Go to the first non-whitespace after the colon that starts a ;; multiple inheritance introduction. Optional LIM is the farthest ;; back we should search. (let ((lim (or lim (c-point 'bod))) (placeholder (progn (back-to-indentation) (point)))) (c-backward-syntactic-ws lim) (while (and (> (point) lim) (memq (preceding-char) '(?, ?:)) (progn (beginning-of-line) (setq placeholder (point)) (skip-chars-forward " \t") (not (looking-at c-class-key)) )) (c-backward-syntactic-ws lim)) (goto-char placeholder) (skip-chars-forward "^:" (c-point 'eol)))) (defun c-beginning-of-macro (&optional lim) ;; Go to the beginning of the macro. Right now we don't support ;; multi-line macros too well (back-to-indentation)) (defun c-just-after-func-arglist-p (&optional containing) ;; Return t if we are between a function's argument list closing ;; paren and its opening brace. Note that the list close brace ;; could be followed by a "const" specifier or a member init hanging ;; colon. Optional CONTAINING is position of containing s-exp open ;; brace. If not supplied, point is used as search start. (save-excursion (c-backward-syntactic-ws) (let ((checkpoint (or containing (point)))) (goto-char checkpoint) ;; could be looking at const specifier (if (and (= (preceding-char) ?t) (forward-word -1) (looking-at "\\")) (c-backward-syntactic-ws) ;; otherwise, we could be looking at a hanging member init ;; colon (goto-char checkpoint) (if (and (= (preceding-char) ?:) (progn (forward-char -1) (c-backward-syntactic-ws) (looking-at "\\s *:\\([^:]+\\|$\\)"))) nil (goto-char checkpoint)) ) (= (preceding-char) ?\)) ))) ;; defuns to look backwards for things (defun c-backward-to-start-of-do (&optional lim) ;; Move to the start of the last "unbalanced" do expression. ;; Optional LIM is the farthest back to search. (let ((do-level 1) (case-fold-search nil) (lim (or lim (c-point 'bod)))) (while (not (zerop do-level)) ;; we protect this call because trying to execute this when the ;; while is not associated with a do will throw an error (condition-case nil (progn (backward-sexp 1) (cond ((memq (c-in-literal lim) '(c c++))) ((looking-at "while\\b[^_]") (setq do-level (1+ do-level))) ((looking-at "do\\b[^_]") (setq do-level (1- do-level))) ((< (point) lim) (setq do-level 0) (goto-char lim)))) (error (goto-char lim) (setq do-level 0)))))) (defun c-backward-to-start-of-if (&optional lim) ;; Move to the start of the last "unbalanced" if and return t. If ;; none is found, and we are looking at an if clause, nil is ;; returned. If none is found and we are looking at an else clause, ;; an error is thrown. (let ((if-level 1) (case-fold-search nil) (lim (or lim (c-point 'bod))) (at-if (looking-at "if\\b[^_]"))) (catch 'orphan-if (while (and (not (bobp)) (not (zerop if-level))) (c-backward-syntactic-ws) (condition-case nil (backward-sexp 1) (error (if at-if (throw 'orphan-if nil) (error "Orphaned `else' clause encountered.")))) (cond ((looking-at "else\\b[^_]") (setq if-level (1+ if-level))) ((looking-at "if\\b[^_]") ;; check for else if... skip over (let ((here (point))) (c-safe (forward-sexp -1)) (if (looking-at "\\[ \t]+\\") nil (setq if-level (1- if-level)) (goto-char here)))) ((< (point) lim) (setq if-level 0) (goto-char lim)) )) t))) (defun c-skip-conditional () ;; skip forward over conditional at point, including any predicate ;; statements in parentheses. No error checking is performed. (forward-sexp ;; else if() (if (looking-at "\\[ \t]+\\") 3 ;; do and else aren't followed by parens (if (looking-at "\\<\\(do\\|else\\)\\>") 1 2)))) (defun c-search-uplist-for-classkey (brace-state) ;; search for the containing class, returning a 2 element vector if ;; found. aref 0 contains the bufpos of the class key, and aref 1 ;; contains the bufpos of the open brace. (if (null brace-state) ;; no brace-state means we cannot be inside a class nil (let ((carcache (car brace-state)) search-start search-end) (if (consp carcache) ;; a cons cell in the first element means that there is some ;; balanced sexp before the current bufpos. this we can ;; ignore. the nth 1 and nth 2 elements define for us the ;; search boundaries (setq search-start (nth 2 brace-state) search-end (nth 1 brace-state)) ;; if the car was not a cons cell then nth 0 and nth 1 define ;; for us the search boundaries (setq search-start (nth 1 brace-state) search-end (nth 0 brace-state))) ;; if search-end is nil we are definitely not in a class (if (not search-end) nil ;; search-end cannot be a cons cell (and (consp search-end) (error "consp search-end: %s" search-end)) ;; now, we need to look more closely at search-start. if ;; search-start is nil, then our start boundary is really ;; point-min. (if (not search-start) (setq search-start (point-min)) ;; if search-start is a cons cell, then we can start ;; searching from the end of the balanced sexp just ahead of ;; us (if (consp search-start) (setq search-start (cdr search-start)))) ;; now we can do a quick regexp search from search-start to ;; search-end and see if we can find a class key. watch for ;; class like strings in literals (save-excursion (save-restriction (goto-char search-start) (let (foundp class match-end) (while (and (not foundp) (save-restriction (c-forward-syntactic-ws) ;; see c-class-key comments for why we ;; need to do this. (widen) (narrow-to-region (point) search-end) (re-search-forward c-class-key search-end t))) (setq class (match-beginning 0) match-end (match-end 0)) (if (not (c-in-literal search-start)) (progn (goto-char class) (skip-chars-forward " \t\n") (setq foundp (vector (c-point 'boi) search-end)) ;; make sure there's no semi-colon or equal sign ;; between class and brace. Otherwise, we found ;; a forward declaration or a struct init. (skip-chars-forward "^;=,)" search-end) (if (/= (point) search-end) (progn (setq foundp nil) (goto-char match-end)) ;; make sure we aren't looking at the `class' ;; keyword inside a template arg list (goto-char class) (skip-chars-backward " \t\n") (if (= (preceding-char) ?<) (progn (setq foundp nil) (skip-chars-forward "^>" search-end)))) ))) foundp)) ))))) (defun c-inside-bracelist-p (containing-sexp) ;; return the buffer position of the beginning of the brace list ;; statement if we're inside a brace list, otherwise return nil. ;; CONTAINING-SEXP is the buffer pos of the innermost containing ;; paren (let (donep bufpos) (save-excursion (or ;; this will pick up enum lists (progn (goto-char containing-sexp) (c-beginning-of-statement) ;; c-b-o-s could have left us at point-min (and (bobp) (c-forward-syntactic-ws)) (setq bufpos (point)) (and (< bufpos containing-sexp) (looking-at "\\(typedef[ \t]+\\)?enum[ \t\n]+") (save-excursion (skip-chars-forward "^;" containing-sexp) (= (point) containing-sexp)))) ;; this will pick up array/aggregate init lists, even if they ;; are nested (progn (goto-char containing-sexp) (while (not donep) (c-backward-syntactic-ws) (cond ;; CASE 1: we've hit the beginning of the aggregate list ((= (preceding-char) ?=) (c-beginning-of-statement) (setq donep t bufpos (point))) ;; CASE 2: maybe we're in a nested aggregate? ((= (preceding-char) ?{) (c-safe (forward-char -1))) ;; CASE 3: in a nested list, after the first one ;; perhaps? ((and (= (preceding-char) ?,) (= (char-after (- (point) 2)) ?})) (forward-char -1) (backward-sexp 1)) ;; CASE 4: nope, we're done (t (setq donep t bufpos nil)) ))) )) bufpos)) ;; defuns for calculating the semantic state and indenting a single ;; line of C/C++ code (defmacro c-add-semantics (symbol &optional relpos) ;; a simple macro to append the semantics in symbol to the semantics ;; list. try to increase performance by using this macro (` (setq semantics (cons (cons (, symbol) (, relpos)) semantics)))) (defun c-enclosing-brace (state) ;; return the bufpos of the most enclosing brace that hasn't been ;; narrowed out by any enclosing class, or nil if none was found (let (enclosingp) (while (and state (not enclosingp)) (setq enclosingp (car state) state (cdr state)) (if (consp enclosingp) (setq enclosingp nil) (if (> (point-min) enclosingp) (setq enclosingp nil)) (setq state nil))) enclosingp)) (defun c-narrow-out-enclosing-class (state lim) ;; narrow the buffer so that the enclosing class is hidden (let (inclass-p) (and state (setq inclass-p (c-search-uplist-for-classkey state)) (narrow-to-region (progn (goto-char (1+ (aref inclass-p 1))) (skip-chars-forward " \t\n" lim) ;; if point is now left of the class opening brace, we're ;; hosed, so try a different tact (if (<= (c-point 'bol) (aref inclass-p 1)) (progn (goto-char (1+ (aref inclass-p 1))) (c-forward-syntactic-ws lim))) (c-point 'bol)) ;; end point is the end of the current line (progn (goto-char lim) (c-point 'eol)))) ;; return the class vector inclass-p)) (defun c-guess-basic-semantics () ;; guess the semantic description of the current line of C++ code. (save-excursion (save-restriction (beginning-of-line) (let* ((indent-point (point)) (case-fold-search nil) (state (c-parse-state)) literal containing-sexp char-before-ip char-after-ip lim semantics placeholder ;; narrow out any enclosing class (inclass-p (c-narrow-out-enclosing-class state indent-point)) ) ;; get the buffer position of the most nested opening brace, ;; if there is one, and it hasn't been narrowed out (save-excursion (goto-char indent-point) (skip-chars-forward " \t}") (skip-chars-backward " \t") (while (and state (not containing-sexp)) (setq containing-sexp (car state) state (cdr state)) (if (consp containing-sexp) ;; if cdr == point, then containing sexp is the brace ;; that opens the sexp we close (if (= (cdr containing-sexp) (point)) (setq containing-sexp (car containing-sexp)) ;; otherwise, ignore this element (setq containing-sexp nil)) ;; ignore the bufpos if its been narrowed out by the ;; containing class (if (<= containing-sexp (point-min)) (setq containing-sexp nil))))) ;; set the limit on the farthest back we need to search (setq lim (or containing-sexp (point-min))) ;; cache char before and after indent point, and move point to ;; the most likely position to perform the majority of tests (goto-char indent-point) (skip-chars-forward " \t") (setq char-after-ip (following-char)) (c-backward-syntactic-ws lim) (setq char-before-ip (preceding-char)) (goto-char indent-point) (skip-chars-forward " \t") ;; are we in a literal? (setq literal (c-in-literal lim)) ;; now figure out semantic qualities of the current line (cond ;; CASE 1: in a string. ((memq literal '(string)) (c-add-semantics 'string (c-point 'bopl))) ;; CASE 2: in a C or C++ style comment. ((memq literal '(c c++)) ;; we need to catch multi-paragraph C comments (while (and (zerop (forward-line -1)) (looking-at "^[ \t]*$"))) (c-add-semantics literal (c-point 'bol))) ;; CASE 3: in a cpp preprocessor ((eq literal 'pound) (c-beginning-of-macro lim) (c-add-semantics 'cpp-macro (c-point 'boi))) ;; CASE 4: Line is at top level. ((null containing-sexp) (cond ;; CASE 4A: we are looking at a defun, class, or ;; inline-inclass method opening brace ((= char-after-ip ?{) (cond ;; CASE 4A.1: we are looking at a class opening brace ((save-excursion (goto-char indent-point) (skip-chars-forward " \t{") (let ((decl (c-search-uplist-for-classkey (c-parse-state)))) (and decl (setq placeholder (aref decl 0))) )) (c-add-semantics 'class-open placeholder)) ;; CASE 4A.2: brace list open ((save-excursion (c-beginning-of-statement nil lim) ;; c-b-o-s could have left us at point-min (and (bobp) (c-forward-syntactic-ws indent-point)) (setq placeholder (point)) (and (or (looking-at "enum[ \t\n]+") (= char-before-ip ?=)) (save-excursion (skip-chars-forward "^;" indent-point) (/= (following-char) ?\;)))) (c-add-semantics 'brace-list-open placeholder)) ;; CASE 4A.3: inline defun open (inclass-p (c-add-semantics 'inline-open (aref inclass-p 0))) ;; CASE 4A.4: ordinary defun open (t (goto-char placeholder) (c-add-semantics 'defun-open (c-point 'bol)) ))) ;; CASE 4B: first K&R arg decl or member init ((c-just-after-func-arglist-p) (cond ;; CASE 4B.1: a member init ((or (= char-before-ip ?:) (= char-after-ip ?:)) ;; this line should be indented relative to the beginning ;; of indentation for the topmost-intro line that contains ;; the prototype's open paren ;; TBD: is the following redundant? (if (= char-before-ip ?:) (forward-char -1)) (c-backward-syntactic-ws lim) ;; TBD: is the preceding redundant? (if (= (preceding-char) ?:) (progn (forward-char -1) (c-backward-syntactic-ws lim))) (if (= (preceding-char) ?\)) (backward-sexp 1)) (c-add-semantics 'member-init-intro (c-point 'boi)) ;; we don't need to add any class offset since this ;; should be relative to the ctor's indentation ) ;; CASE 4B.2: nether region after a C++ func decl ((eq major-mode 'c++-mode) (c-add-semantics 'c++-funcdecl-cont (c-point 'boi)) (and inclass-p (c-add-semantics 'inclass (aref inclass-p 0)))) ;; CASE 4B.3: K&R arg decl intro (t (c-add-semantics 'knr-argdecl-intro (c-point 'boi)) (and inclass-p (c-add-semantics 'inclass (aref inclass-p 0)))) )) ;; CASE 4C: inheritance line. could be first inheritance ;; line, or continuation of a multiple inheritance ((looking-at c-baseclass-key) (cond ;; CASE 4C.1: non-hanging colon on an inher intro ((= char-after-ip ?:) (c-backward-syntactic-ws lim) (c-add-semantics 'inher-intro (c-point 'boi)) ;; don't add inclass symbol since relative point already ;; contains any class offset ) ;; CASE 4C.2: hanging colon on an inher intro ((= char-before-ip ?:) (c-add-semantics 'inher-intro (c-point 'boi)) (and inclass-p (c-add-semantics 'inclass (aref inclass-p 0)))) ;; CASE 4C.3: a continued inheritance line (t (c-beginning-of-inheritance-list lim) (c-add-semantics 'inher-cont (point)) ;; don't add inclass symbol since relative point already ;; contains any class offset ))) ;; CASE 4D: this could be a top-level compound statement or a ;; member init list continuation ((= char-before-ip ?,) (goto-char indent-point) (c-backward-syntactic-ws lim) (while (and (< lim (point)) (= (preceding-char) ?,)) ;; this will catch member inits with multiple ;; line arglists (forward-char -1) (c-backward-syntactic-ws (c-point 'bol)) (if (= (preceding-char) ?\)) (backward-sexp 1)) ;; now continue checking (beginning-of-line) (c-backward-syntactic-ws lim)) (cond ;; CASE 4D.1: hanging member init colon ((= (preceding-char) ?:) (goto-char indent-point) (c-backward-syntactic-ws lim) (c-safe (backward-sexp 1)) (c-add-semantics 'member-init-cont (c-point 'boi)) ;; we do not need to add class offset since relative ;; point is the member init above us ) ;; CASE 4D.2: non-hanging member init colon ((progn (c-forward-syntactic-ws indent-point) (= (following-char) ?:)) (skip-chars-forward " \t:") (c-add-semantics 'member-init-cont (point))) ;; CASE 4D.3: perhaps a multiple inheritance line? ((looking-at c-inher-key) (c-add-semantics 'inher-cont-1 (c-point 'boi))) ;; CASE 4D.4: perhaps a template list continuation? ((save-excursion (skip-chars-backward "^<" lim) (= (preceding-char) ?<)) ;; we can probably indent it just like and arglist-cont (c-add-semantics 'arglist-cont (point))) ;; CASE 4D.5: perhaps a top-level statement-cont (t (c-beginning-of-statement nil lim) (c-add-semantics 'statement-cont (c-point 'boi))) )) ;; CASE 4E: we are looking at a access specifier ((and inclass-p (looking-at c-access-key)) (c-add-semantics 'access-label (c-point 'bonl)) (c-add-semantics 'inclass (aref inclass-p 0))) ;; CASE 4F: we are looking at the brace which closes the ;; enclosing nested class decl ((and inclass-p (= char-after-ip ?}) (save-excursion (save-restriction (widen) (forward-char 1) (and (condition-case nil (progn (backward-sexp 1) t) (error nil)) (= (point) (aref inclass-p 1)) )))) (save-restriction (widen) (goto-char (aref inclass-p 0)) (c-add-semantics 'class-close (c-point 'boi)))) ;; CASE 4G: we could be looking at subsequent knr-argdecls ((and (eq major-mode 'c-mode) (save-excursion (c-backward-syntactic-ws lim) (while (memq (preceding-char) '(?\; ?,)) (beginning-of-line) (setq placeholder (point)) (c-backward-syntactic-ws lim)) (= (preceding-char) ?\))) (save-excursion (c-beginning-of-statement) (not (looking-at "typedef[ \t\n]+")))) (goto-char placeholder) (c-add-semantics 'knr-argdecl (c-point 'boi))) ;; CASE 4H: we are at the topmost level, make sure we skip ;; back past any access specifiers ((progn (c-backward-syntactic-ws lim) (while (and inclass-p (= (preceding-char) ?:) (save-excursion (backward-sexp 1) (looking-at c-access-key))) (backward-sexp 1) (c-backward-syntactic-ws lim)) (or (bobp) (memq (preceding-char) '(?\; ?\})))) (c-add-semantics 'topmost-intro (c-point 'bol)) (and inclass-p (c-add-semantics 'inclass (aref inclass-p 0)))) ;; CASE 4I: we are at a topmost continuation line (t (c-beginning-of-statement 1 lim) (c-add-semantics 'topmost-intro-cont (c-point 'boi))) )) ; end CASE 4 ;; CASE 5: line is an expression, not a statement. Most ;; likely we are either in a function prototype or a function ;; call argument list ((/= (char-after containing-sexp) ?{) (c-backward-syntactic-ws containing-sexp) (cond ;; CASE 5A: we are looking at the first argument in an empty ;; argument list ((= char-before-ip ?\() (goto-char containing-sexp) (c-add-semantics 'arglist-intro (c-point 'boi))) ;; CASE 5B: we are looking at the arglist closing paren ((and (/= char-before-ip ?,) (= char-after-ip ?\))) (goto-char containing-sexp) (c-add-semantics 'arglist-close (c-point 'boi))) ;; CASE 5C: we are inside a conditional test clause. treat ;; these things as statements ((save-excursion (goto-char containing-sexp) (and (c-safe (progn (forward-sexp -1) t)) (looking-at "\\"))) (c-beginning-of-statement 1 containing-sexp) (if (= char-before-ip ?\;) (c-add-semantics 'statement (point)) (c-add-semantics 'statement-cont (point)) )) ;; CASE 5D: we are looking at an arglist continuation line, ;; but the preceding argument is on the same line as the ;; opening paren. This case includes multi-line ;; mathematical paren groupings, but we could be on a ;; for-list continuation line ((and (save-excursion (goto-char (1+ containing-sexp)) (skip-chars-forward " \t") (not (eolp))) (save-excursion (c-beginning-of-statement) (skip-chars-backward " \t(") (<= (point) containing-sexp))) (goto-char containing-sexp) (c-add-semantics 'arglist-cont-nonempty (c-point 'boi))) ;; CASE 5E: we are looking at just a normal arglist ;; continuation line (t (c-beginning-of-statement 1 containing-sexp) (c-add-semantics 'arglist-cont (c-point 'boi))) )) ;; CASE 6: func-local multi-inheritance line ((save-excursion (goto-char indent-point) (skip-chars-forward " \t") (looking-at c-baseclass-key)) (goto-char indent-point) (skip-chars-forward " \t") (cond ;; CASE 6A: non-hanging colon on an inher intro ((= char-after-ip ?:) (c-backward-syntactic-ws lim) (c-add-semantics 'inher-intro (c-point 'boi))) ;; CASE 6B: hanging colon on an inher intro ((= char-before-ip ?:) (c-add-semantics 'inher-intro (c-point 'boi))) ;; CASE 6C: a continued inheritance line (t (c-beginning-of-inheritance-list lim) (c-add-semantics 'inher-cont (point)) ))) ;; CASE 7: we are inside a brace-list ((setq placeholder (c-inside-bracelist-p containing-sexp)) (cond ;; CASE 7A: brace-list-close brace ((and (= char-after-ip ?}) (c-safe (progn (forward-char 1) (backward-sexp 1) t)) (= (point) containing-sexp)) (c-add-semantics 'brace-list-close (c-point 'boi))) ;; CASE 7B: we're looking at the first line in a brace-list ((save-excursion (goto-char indent-point) (c-backward-syntactic-ws containing-sexp) (= (point) (1+ containing-sexp))) (goto-char containing-sexp) (c-add-semantics 'brace-list-intro (c-point 'boi)) (if (= char-after-ip ?{) (c-add-semantics 'block-open))) ;; CASE 7C: this is just a later brace-list-entry (t (goto-char (1+ containing-sexp)) (c-forward-syntactic-ws indent-point) (c-add-semantics 'brace-list-entry (point)) (if (= char-after-ip ?{) (c-add-semantics 'block-open))) )) ;; CASE 8: A continued statement ((and (not (memq char-before-ip '(?\; ?} ?:))) (> (point) (save-excursion (c-beginning-of-statement 1 containing-sexp) (setq placeholder (point)))) (/= placeholder containing-sexp)) (goto-char indent-point) (skip-chars-forward " \t") (cond ;; CASE 8A: substatement ((save-excursion (goto-char placeholder) (and (looking-at c-conditional-key) (c-safe (progn (c-skip-conditional) t)) (progn (c-forward-syntactic-ws) (>= (point) indent-point)))) (goto-char placeholder) (if (= char-after-ip ?{) (c-add-semantics 'substatement-open (c-point 'boi)) (c-add-semantics 'substatement (c-point 'boi)))) ;; CASE 8B: open braces for class or brace-lists ((= char-after-ip ?{) (cond ;; CASE 8B.1: class-open ((save-excursion (goto-char indent-point) (skip-chars-forward " \t{") (let ((decl (c-search-uplist-for-classkey (c-parse-state)))) (and decl (setq placeholder (aref decl 0))) )) (c-add-semantics 'class-open placeholder)) ;; CASE 8B.2: brace-list-open ((or (save-excursion (goto-char placeholder) (looking-at "\\")) (= char-before-ip ?=)) (c-add-semantics 'brace-list-open placeholder)) ;; CASE 8B.3: catch-all for unknown construct. (t ;; Even though this isn't right, it's the best I'm going ;; to do for now. Exceptions probably fall through to ;; here, but aren't supported yet. Also, after the next ;; release, I may call a recognition hook like so: ;; (run-hooks 'c-recognize-hook), but I dunno. (c-add-semantics 'statement-cont placeholder) (c-add-semantics 'block-open)) )) ;; CASE 8C: iostream insertion or extraction operator ((looking-at "<<\\|>>") (goto-char placeholder) (if (looking-at c-conditional-key) (c-skip-conditional)) (while (and (re-search-forward "<<\\|>>" indent-point 'move) (c-in-literal))) ;; if we ended up at indent-point, then the first streamop ;; is on a separate line. Indent the line like a ;; statement-cont instead (if (/= (point) indent-point) (c-add-semantics 'stream-op (c-point 'boi)) (c-backward-syntactic-ws lim) (c-add-semantics 'statement-cont (c-point 'boi)))) ;; CASE 8D: continued statement. find the accurate ;; beginning of statement or substatement (t (c-beginning-of-statement nil (save-excursion (goto-char placeholder) (and (looking-at c-conditional-key) (c-safe (progn (c-skip-conditional) t)) (c-forward-syntactic-ws)) (point))) (c-add-semantics 'statement-cont (point))) )) ;; CASE 9: an else clause? ((looking-at "\\") (c-backward-to-start-of-if containing-sexp) (c-add-semantics 'else-clause (c-point 'boi))) ;; CASE 10: Statement. But what kind? Lets see if its a ;; while closure of a do/while construct ((progn (goto-char indent-point) (skip-chars-forward " \t") (and (looking-at "while\\b[^_]") (save-excursion (c-backward-to-start-of-do containing-sexp) (setq placeholder (point)) (looking-at "do\\b[^_]")) )) (c-add-semantics 'do-while-closure placeholder)) ;; CASE 11: A case or default label ((looking-at c-switch-label-key) (goto-char containing-sexp) ;; for a case label, we set relpos the first non-whitespace ;; char on the line containing the switch opening brace. this ;; should handle hanging switch opening braces correctly. (c-add-semantics 'case-label (c-point 'boi))) ;; CASE 12: any other label ((looking-at c-label-key) (goto-char containing-sexp) (c-add-semantics 'label (c-point 'boi))) ;; CASE 13: block close brace, possibly closing the defun or ;; the class ((= char-after-ip ?}) (let ((relpos (save-excursion (goto-char containing-sexp) (if (/= (point) (c-point 'boi)) (c-beginning-of-statement)) (c-point 'boi)))) (cond ;; CASE 13.A: does this close an inline? ((progn (goto-char containing-sexp) (c-search-uplist-for-classkey state)) (c-add-semantics 'inline-close relpos)) ;; CASE 13.B: if there an enclosing brace that hasn't ;; been narrowed out by a class, then this is a ;; block-close ((c-enclosing-brace state) (c-add-semantics 'block-close relpos)) ;; CASE 13.C: find out whether we're closing a top-level ;; class or a defun (t (save-restriction (narrow-to-region (point-min) indent-point) (let ((decl (c-search-uplist-for-classkey (c-parse-state)))) (if decl (c-add-semantics 'class-close (aref decl 0)) (c-add-semantics 'defun-close relpos))))) ))) ;; CASE 14: statement catchall (t ;; we know its a statement, but we need to find out if it is ;; the first statement in a block (goto-char containing-sexp) (forward-char 1) (c-forward-syntactic-ws indent-point) ;; we want to ignore labels when skipping forward (let ((ignore-re (concat c-switch-label-key "\\|" c-label-key)) inswitch-p) (while (looking-at ignore-re) (if (looking-at c-switch-label-key) (setq inswitch-p t)) (forward-line 1) (c-forward-syntactic-ws indent-point)) (cond ;; CASE 14.A: we saw a case/default statement so we must be ;; in a switch statement. find out if we are at the ;; statement just after a case or default label ((and inswitch-p (save-excursion (goto-char indent-point) (c-backward-syntactic-ws containing-sexp) (back-to-indentation) (setq placeholder (point)) (looking-at c-switch-label-key))) (c-add-semantics 'statement-case-intro placeholder)) ;; CASE 14.B: continued statement ((= char-before-ip ?,) (c-add-semantics 'statement-cont (c-point 'boi))) ;; CASE 14.C: a question/colon construct? But make sure ;; what came before was not a label, and what comes after ;; is not a globally scoped function call! ((or (and (memq char-before-ip '(?: ??)) (save-excursion (goto-char indent-point) (c-backward-syntactic-ws lim) (back-to-indentation) (not (looking-at c-label-key)))) (and (memq char-after-ip '(?: ??)) (save-excursion (goto-char indent-point) (skip-chars-forward " \t") ;; watch out for scope operator (not (looking-at "::"))))) (c-add-semantics 'statement-cont (c-point 'boi))) ;; CASE 14.D: any old statement ((< (point) indent-point) (c-add-semantics 'statement (c-point 'boi)) (if (= char-after-ip ?{) (c-add-semantics 'block-open))) ;; CASE 14.E: first statement in an inline, or first ;; statement in a top-level defun. we can tell this is it ;; if there are no enclosing braces that haven't been ;; narrowed out by a class (i.e. don't use bod here!) ((save-excursion (save-restriction (widen) (goto-char containing-sexp) (c-narrow-out-enclosing-class state containing-sexp) (not (c-enclosing-brace state)))) (goto-char containing-sexp) (c-add-semantics 'defun-block-intro (c-point 'boi))) ;; CASE 14.F: first statement in a block (t (goto-char containing-sexp) (if (/= (point) (c-point 'boi)) (c-beginning-of-statement)) (c-add-semantics 'statement-block-intro (c-point 'boi)) (if (= char-after-ip ?{) (c-add-semantics 'block-open))) ))) ) ;; now we need to look at any modifiers (goto-char indent-point) (skip-chars-forward " \t") (if (looking-at c-comment-start-regexp) ;; we are looking at a comment. if the comment is at or to ;; the right of comment-column, then all we want on the ;; semantics list is comment-intro, otherwise, the ;; indentation of the comment is relative to where a ;; normal statement would indent (if (< (current-column) comment-column) (c-add-semantics 'comment-intro) ;; reset semantics kludge (setq semantics nil) (c-add-semantics 'comment-intro))) ;; we might want to give additional offset to friends (in C++) (if (and (eq major-mode 'c++-mode) (looking-at "friend[ \t]+")) (c-add-semantics 'friend)) ;; return the semantics semantics)))) ;; indent via semantic language elements (defun c-get-offset (langelem) ;; Get offset from LANGELEM which is a cons cell of the form: ;; (SYMBOL . RELPOS). The symbol is matched against ;; c-offsets-alist and the offset found there is either returned, ;; or added to the indentation at RELPOS. If RELPOS is nil, then ;; the offset is simply returned. (let* ((symbol (car langelem)) (relpos (cdr langelem)) (match (assq symbol c-offsets-alist)) (offset (cdr-safe match))) ;; offset can be a number, a function, a variable, or one of the ;; symbols + or - (cond ((not match) (if c-strict-semantics-p (error "don't know how to indent a %s" symbol) (setq offset 0 relpos 0))) ((eq offset '+) (setq offset c-basic-offset)) ((eq offset '-) (setq offset (- c-basic-offset))) ((and (not (numberp offset)) (fboundp offset)) (setq offset (funcall offset langelem))) ((not (numberp offset)) (setq offset (eval offset))) ) (+ (if (and relpos (< relpos (c-point 'bol))) (save-excursion (goto-char relpos) (current-column)) 0) offset))) (defun c-indent-line (&optional semantics) ;; indent the curent line as C/C++ code. Optional SEMANTICS is the ;; semantic information for the current line. Returns the amount of ;; indentation change (let* ((c-semantics (or semantics (c-guess-basic-semantics))) (pos (- (point-max) (point))) (indent (apply '+ (mapcar 'c-get-offset c-semantics))) (shift-amt (- (current-indentation) indent))) (and c-echo-semantic-information-p (message "semantics: %s, indent= %d" c-semantics indent)) (if (zerop shift-amt) nil (delete-region (c-point 'bol) (c-point 'boi)) (beginning-of-line) (indent-to indent)) (if (< (point) (c-point 'boi)) (back-to-indentation) ;; If initial point was within line's indentation, position after ;; the indentation. Else stay at same point in text. (if (> (- (point-max) pos) (point)) (goto-char (- (point-max) pos))) ) (run-hooks 'c-special-indent-hook) shift-amt)) (defun c-show-semantic-information () "Show semantic information for current line." (interactive) (message "semantics: %s" (c-guess-basic-semantics)) (c-keep-region-active)) ;; Standard indentation line-ups (defun c-lineup-arglist (langelem) ;; lineup the current arglist line with the arglist appearing just ;; after the containing paren which starts the arglist. (save-excursion (let* ((containing-sexp (save-excursion ;; arglist-cont-nonempty gives relpos == ;; to boi of containing-sexp paren. This ;; is good when offset is +, but bad ;; when it is c-lineup-arglist, so we ;; have to special case a kludge here. (if (memq (car langelem) '(arglist-intro arglist-cont-nonempty)) (progn (beginning-of-line) (backward-up-list 1) (skip-chars-forward " \t" (c-point 'eol))) (goto-char (cdr langelem))) (point))) (cs-curcol (save-excursion (goto-char (cdr langelem)) (current-column)))) (if (save-excursion (beginning-of-line) (looking-at "[ \t]*)")) (progn (beginning-of-line) (skip-chars-forward " \t)") (forward-sexp -1) (forward-char 1) (c-forward-syntactic-ws) (- (current-column) cs-curcol)) (goto-char containing-sexp) (or (eolp) (progn (forward-char 1) (c-forward-syntactic-ws (c-point 'eol)) )) (- (current-column) cs-curcol) )))) (defun c-lineup-streamop (langelem) ;; lineup stream operators (save-excursion (let* ((relpos (cdr langelem)) (curcol (progn (goto-char relpos) (current-column)))) (re-search-forward "<<\\|>>" (c-point 'eol) 'move) (goto-char (match-beginning 0)) (- (current-column) curcol)))) (defun c-lineup-multi-inher (langelem) ;; line up multiple inheritance lines (save-excursion (let (cs-curcol (eol (c-point 'eol)) (here (point))) (goto-char (cdr langelem)) (setq cs-curcol (current-column)) (skip-chars-forward "^:" eol) (skip-chars-forward " \t:" eol) (if (or (eolp) (looking-at c-comment-start-regexp)) (c-forward-syntactic-ws here)) (- (current-column) cs-curcol) ))) (defun c-lineup-C-comments (langelem) ;; line up C block comment continuation lines (save-excursion (let ((stars (progn (beginning-of-line) (skip-chars-forward " \t") (if (looking-at "\\*\\*?") (- (match-end 0) (match-beginning 0)) 0))) (cs-curcol (progn (goto-char (cdr langelem)) (current-column)))) (back-to-indentation) (if (re-search-forward "/\\*[ \t]*" (c-point 'eol) t) (goto-char (+ (match-beginning 0) (cond (c-block-comments-indent-p 0) ((= stars 1) 1) ((= stars 2) 0) (t (- (match-end 0) (match-beginning 0))))))) (- (current-column) cs-curcol)))) (defun c-lineup-comment (langelem) ;; support old behavior for comment indentation. we look at ;; c-comment-only-line-offset to decide how to indent comment ;; only-lines (save-excursion (back-to-indentation) ;; at or to the right of comment-column (if (>= (current-column) comment-column) (c-comment-indent) ;; otherwise, indent as specified by c-comment-only-line-offset (if (not (bolp)) (or (car-safe c-comment-only-line-offset) c-comment-only-line-offset) (or (cdr-safe c-comment-only-line-offset) (car-safe c-comment-only-line-offset) -1000 ;jam it against the left side ))))) (defun c-lineup-runin-statements (langelem) ;; line up statements in coding standards which place the first ;; statement on the same line as the block opening brace. (if (= (char-after (cdr langelem)) ?{) (save-excursion (let ((curcol (progn (goto-char (cdr langelem)) (current-column)))) (forward-char 1) (skip-chars-forward " \t") (- (current-column) curcol))) 0)) (defun c-lineup-math (langelem) ;; line up math statement-cont after the equals (save-excursion (let ((equalp (save-excursion (goto-char (c-point 'boi)) (skip-chars-forward "^=" (c-point 'eol)) (and (= (following-char) ?=) (- (point) (c-point 'boi))))) (curcol (progn (goto-char (cdr langelem)) (current-column)))) (skip-chars-forward "^=" (c-point 'eol)) (if (/= (following-char) ?=) ;; there's no equal sign on the line c-basic-offset ;; calculate indentation column after equals and ws, unless ;; our line contains an equals sign (if (not equalp) (progn (forward-char 1) (skip-chars-forward " \t") (setq equalp 0))) (- (current-column) equalp curcol)) ))) ;; commands for "macroizations" -- making C++ parameterized types via ;; macros. Also commands for commentifying regions (defun c-backslashify-current-line (doit) ;; Backslashifies current line if DOIT is non-nil, otherwise ;; unbackslashifies the current line. (end-of-line) (if doit ;; Note that "\\\\" is needed to get one backslash. (if (not (save-excursion (forward-char -1) (looking-at "\\\\"))) (progn (if (>= (current-column) c-backslash-column) (insert " \\") (while (<= (current-column) c-backslash-column) (insert "\t") (end-of-line)) (delete-char -1) (while (< (current-column) c-backslash-column) (insert " ") (end-of-line)) (insert "\\")))) (if (not (bolp)) (progn (forward-char -1) (if (looking-at "\\\\") (progn (skip-chars-backward " \t") (delete-region (point) (c-point 'eol)))) )))) (defun c-backslash-region (beg end arg) "Insert backslashes at end of every line in region. Useful for defining cpp macros. If called with a prefix argument, it trailing backslashes are removed." (interactive "r\nP") (save-excursion (let ((do-lastline-p (progn (goto-char end) (not (bolp))))) (save-restriction (narrow-to-region beg end) (goto-char (point-min)) (while (not (save-excursion (forward-line 1) (eobp))) (c-backslashify-current-line (null arg)) (forward-line 1))) (and do-lastline-p (progn (goto-char end) (c-backslashify-current-line (null arg)))) ))) ;;(defun comment-region (beg end &optional arg) ;; "Comment or uncomment each line in the region. ;;With just C-u prefix arg, uncomment each line in region. ;;Numeric prefix arg ARG means use ARG comment characters. ;;If ARG is negative, delete that many comment characters instead. ;;Comments are terminated on each line, even for syntax in which newline does ;;not end the comment. Blank lines do not get comments." ;; ;; if someone wants it to only put a comment-start at the beginning and ;; ;; comment-end at the end then typing it, C-x C-x, closing it, C-x C-x ;; ;; is easy enough. No option is made here for other than commenting ;; ;; every line. ;; (interactive "r\nP") ;; (or comment-start (error "No comment syntax is defined")) ;; (if (> beg end) (let (mid) (setq mid beg beg end end mid))) ;; (save-excursion ;; (save-restriction ;; (let ((cs comment-start) (ce comment-end) ;; numarg) ;; (if (consp arg) (setq numarg t) ;; (setq numarg (prefix-numeric-value arg)) ;; ;; For positive arg > 1, replicate the comment delims now, ;; ;; then insert the replicated strings just once. ;; (while (> numarg 1) ;; (setq cs (concat cs comment-start) ;; ce (concat ce comment-end)) ;; (setq numarg (1- numarg)))) ;; ;; Loop over all lines from BEG to END. ;; (narrow-to-region beg end) ;; (goto-char beg) ;; (while (not (eobp)) ;; (if (or (eq numarg t) (< numarg 0)) ;; (progn ;; ;; Delete comment start from beginning of line. ;; (if (eq numarg t) ;; (while (looking-at (regexp-quote cs)) ;; (delete-char (length cs))) ;; (let ((count numarg)) ;; (while (and (> 1 (setq count (1+ count))) ;; (looking-at (regexp-quote cs))) ;; (delete-char (length cs))))) ;; ;; Delete comment end from end of line. ;; (if (string= "" ce) ;; nil ;; (if (eq numarg t) ;; (progn ;; (end-of-line) ;; ;; This is questionable if comment-end ends in ;; ;; whitespace. That is pretty brain-damaged, ;; ;; though. ;; (skip-chars-backward " \t") ;; (if (and (>= (- (point) (point-min)) (length ce)) ;; (save-excursion ;; (backward-char (length ce)) ;; (looking-at (regexp-quote ce)))) ;; (delete-char (- (length ce))))) ;; (setq count numarg) ;; (while (> 1 (setq count (1+ count))) ;; (end-of-line) ;; ;; this is questionable if comment-end ends in whitespace ;; ;; that is pretty brain-damaged though ;; (skip-chars-backward " \t") ;; (save-excursion ;; (backward-char (length ce)) ;; (if (looking-at (regexp-quote ce)) ;; (delete-char (length ce))))))) ;; (forward-line 1)) ;; ;; Insert at beginning and at end. ;; (if (looking-at "[ \t]*$") () ;; (insert cs) ;; (if (string= "" ce) () ;; (end-of-line) ;; (insert ce))) ;; (search-forward "\n" nil 'move))))))) ;; defuns for submitting bug reports (defconst c-version "3.349" "cc-mode version number.") (defconst c-mode-help-address "cc-mode-help@anthem.nlm.nih.gov" "Address accepting submission of bug reports.") (defun c-version () "Echo the current version of cc-mode in the minibuffer." (interactive) (message "Using cc-mode version %s" c-version) (c-keep-region-active)) ;; get reporter-submit-bug-report when byte-compiling (and (fboundp 'eval-when-compile) (eval-when-compile (require 'reporter))) (defun c-submit-bug-report () "Submit via mail a bug report on cc-mode." (interactive) (and (y-or-n-p "Do you want to submit a report on cc-mode? ") (require 'reporter) (reporter-submit-bug-report c-mode-help-address (concat "cc-mode " c-version " (" (if (eq major-mode 'c++-mode) "C++" "C") ")") (list ;; report only the vars that affect indentation 'c-emacs-features 'c-basic-offset 'c-offsets-alist 'c-block-comments-indent-p 'c-cleanup-list 'c-comment-only-line-offset 'c-backslash-column 'c-delete-function 'c-electric-pound-behavior 'c-hanging-braces-alist 'c-hanging-colons-alist 'c-tab-always-indent 'defun-prompt-regexp 'tab-width ) (function (lambda () (insert (if c-special-indent-hook (concat "\n@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@\n" "c-special-indent-hook is set to '" (format "%s" c-special-indent-hook) ".\nPerhaps this is your problem?\n" "@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@\n\n") "\n") ))) ))) ;; menus for Lucid (defun c-popup-menu (e) "Pops up the C/C++ menu." (interactive "@e") (popup-menu (cons (concat mode-name " Mode Commands") c-mode-menu)) (c-keep-region-active)) ;; fsets for compatibility with BOCM (fset 'electric-c-brace 'c-electric-brace) (fset 'electric-c-semi 'c-electric-semi&comma) (fset 'electric-c-sharp-sign 'c-electric-pound) ;; there is no cc-mode equivalent for electric-c-terminator (fset 'mark-c-function 'c-mark-function) (fset 'indent-c-exp 'c-indent-exp) (fset 'set-c-style 'c-set-style) ;; lemacs 19.9 + font-lock + cc-mode - c++-mode lossage (fset 'c++-beginning-of-defun 'beginning-of-defun) (fset 'c++-end-of-defun 'end-of-defun) ;; set up bc warnings for obsolete variables, but for now lets not ;; worry about obsolete functions. maybe later some will be important ;; to flag (and (memq 'v19 c-emacs-features) (let* ((na "Nothing appropriate.") (vars (list (cons 'c++-c-mode-syntax-table 'c-mode-syntaxt-table) (cons 'c++-tab-always-indent 'c-tab-always-indent) (cons 'c++-always-arglist-indent-p na) (cons 'c++-block-close-brace-offset 'c-offsets-alist) (cons 'c++-paren-as-block-close-p na) (cons 'c++-continued-member-init-offset 'c-offsets-alist) (cons 'c++-member-init-indent 'c-offsets-alist) (cons 'c++-friend-offset na) (cons 'c++-access-specifier-offset 'c-offsets-alist) (cons 'c++-empty-arglist-indent 'c-offsets-alist) (cons 'c++-comment-only-line-offset 'c-comment-only-line-offset) (cons 'c++-C-block-comments-indent-p 'c-block-comments-indent-p) (cons 'c++-cleanup-list 'c-cleanup-list) (cons 'c++-hanging-braces 'c-hanging-braces-alist) (cons 'c++-hanging-member-init-colon 'c-hanging-colons-alist) (cons 'c++-auto-hungry-initial-state "Use `c-auto-newline' and `c-hungry-delete-key' instead.") (cons 'c++-auto-hungry-toggle na) (cons 'c++-relative-offset-p na) (cons 'c++-special-indent-hook 'c-special-indent-hook) (cons 'c++-delete-function 'c-delete-function) (cons 'c++-electric-pound-behavior 'c-electric-pound-behavior) (cons 'c++-hungry-delete-key 'c-hungry-delete-key) (cons 'c++-auto-newline 'c-auto-newline) (cons 'c++-match-header-strongly na) (cons 'c++-defun-header-strong-struct-equivs na) (cons 'c++-version 'c-version) (cons 'c++-mode-help-address 'c-mode-help-address) (cons 'c-indent-level 'c-basic-offset) (cons 'c-brace-imaginary-offset na) (cons 'c-brace-offset 'c-offsets-alist) (cons 'c-argdecl-indent 'c-offsets-alist) (cons 'c-label-offset 'c-offsets-alist) (cons 'c-continued-statement-offset 'c-offsets-alist) (cons 'c-continued-brace-offset 'c-offsets-alist) (cons 'c-default-macroize-column 'c-backslash-column) (cons 'c++-default-macroize-column 'c-backslash-column) ))) (mapcar (function (lambda (elt) (make-obsolete-variable (car elt) (cdr elt)))) vars))) (provide 'cc-mode) ;;; cc-mode.el ends here