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2244331218
* lisp/progmodes/cc-cmds.el: (c-beginning-of-defun, c-end-of-defun): Remove superfluous invocations of c-self-bind-state-cache. * lisp/progmodes/cc-defs.el: (c-self-bind-state-cache): Copy and terminate markers correctly. * lisp/progmodes/cc-engine.el (c-record-parse-state-state): Terminate stale markers.
2539 lines
95 KiB
EmacsLisp
2539 lines
95 KiB
EmacsLisp
;;; cc-defs.el --- compile time definitions for CC Mode
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;; Copyright (C) 1985, 1987, 1992-2016 Free Software Foundation, Inc.
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;; Authors: 2003- Alan Mackenzie
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;; 1998- Martin Stjernholm
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;; 1992-1999 Barry A. Warsaw
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;; 1987 Dave Detlefs
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;; 1987 Stewart Clamen
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;; 1985 Richard M. Stallman
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;; Maintainer: bug-cc-mode@gnu.org
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;; Created: 22-Apr-1997 (split from cc-mode.el)
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;; Keywords: c languages
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;; Package: cc-mode
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;; This file is part of GNU Emacs.
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;; GNU Emacs is free software: you can redistribute it and/or modify
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;; it under the terms of the GNU General Public License as published by
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;; the Free Software Foundation, either version 3 of the License, or
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;; (at your option) any later version.
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;; GNU Emacs is distributed in the hope that it will be useful,
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;; but WITHOUT ANY WARRANTY; without even the implied warranty of
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;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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;; GNU General Public License for more details.
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;; You should have received a copy of the GNU General Public License
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;; along with GNU Emacs. If not, see <http://www.gnu.org/licenses/>.
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;;; Commentary:
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;; This file contains macros, defsubsts, and various other things that
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;; must be loaded early both during compilation and at runtime.
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;;; Code:
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(eval-when-compile
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(let ((load-path
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(if (and (boundp 'byte-compile-dest-file)
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(stringp byte-compile-dest-file))
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(cons (file-name-directory byte-compile-dest-file) load-path)
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load-path)))
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(load "cc-bytecomp" nil t)))
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(eval-and-compile
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(defvar c--mapcan-status
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(cond ((and (fboundp 'mapcan)
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(subrp (symbol-function 'mapcan)))
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;; XEmacs
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'mapcan)
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((locate-file "cl-lib.elc" load-path)
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;; Emacs >= 24.3
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'cl-mapcan)
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(t
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;; Emacs <= 24.2
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nil))))
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(cc-external-require (if (eq c--mapcan-status 'cl-mapcan) 'cl-lib 'cl))
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; was (cc-external-require 'cl). ACM 2005/11/29.
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; Changed from (eval-when-compile (require 'cl)) back to
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; cc-external-require, 2015-08-12.
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(cc-external-require 'regexp-opt)
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;; Silence the compiler.
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(cc-bytecomp-defvar c-enable-xemacs-performance-kludge-p) ; In cc-vars.el
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(cc-bytecomp-defun region-active-p) ; XEmacs
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(cc-bytecomp-defvar mark-active) ; Emacs
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(cc-bytecomp-defvar deactivate-mark) ; Emacs
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(cc-bytecomp-defvar inhibit-point-motion-hooks) ; Emacs
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(cc-bytecomp-defvar parse-sexp-lookup-properties) ; Emacs
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(cc-bytecomp-defvar text-property-default-nonsticky) ; Emacs 21
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(cc-bytecomp-defun string-to-syntax) ; Emacs 21
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;; cc-fix.el contains compatibility macros that should be used if
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;; needed.
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(cc-conditional-require
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'cc-fix (or (/= (regexp-opt-depth "\\(\\(\\)\\)") 2)
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(not (fboundp 'push))
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;; XEmacs 21.4 doesn't have `delete-dups'.
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(not (fboundp 'delete-dups))))
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(cc-conditional-require-after-load
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'cc-fix "font-lock"
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(and
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(featurep 'xemacs)
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(progn
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(require 'font-lock)
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(let (font-lock-keywords)
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(font-lock-compile-keywords '("\\<\\>"))
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font-lock-keywords))))
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;;; Variables also used at compile time.
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(defconst c-version "5.33"
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"CC Mode version number.")
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(defconst c-version-sym (intern c-version))
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;; A little more compact and faster in comparisons.
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(defvar c-buffer-is-cc-mode nil
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"Non-nil for all buffers with a major mode derived from CC Mode.
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Otherwise, this variable is nil. I.e. this variable is non-nil for
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`c-mode', `c++-mode', `objc-mode', `java-mode', `idl-mode',
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`pike-mode', `awk-mode', and any other non-CC Mode mode that calls
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`c-initialize-cc-mode'. The value is the mode symbol itself
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\(i.e. `c-mode' etc) of the original CC Mode mode, or just t if it's
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not known.")
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(make-variable-buffer-local 'c-buffer-is-cc-mode)
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;; Have to make `c-buffer-is-cc-mode' permanently local so that it
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;; survives the initialization of the derived mode.
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(put 'c-buffer-is-cc-mode 'permanent-local t)
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;; The following is used below during compilation.
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(eval-and-compile
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(defvar c-inside-eval-when-compile nil)
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(defmacro cc-eval-when-compile (&rest body)
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"Like `progn', but evaluates the body at compile time.
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The result of the body appears to the compiler as a quoted constant.
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This variant works around bugs in `eval-when-compile' in various
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\(X)Emacs versions. See cc-defs.el for details."
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(if c-inside-eval-when-compile
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;; XEmacs 21.4.6 has a bug in `eval-when-compile' in that it
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;; evaluates its body at macro expansion time if it's nested
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;; inside another `eval-when-compile'. So we use a dynamically
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;; bound variable to avoid nesting them.
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`(progn ,@body)
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`(eval-when-compile
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;; In all (X)Emacsen so far, `eval-when-compile' byte compiles
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;; its contents before evaluating it. That can cause forms to
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;; be compiled in situations they aren't intended to be
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;; compiled.
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;;
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;; Example: It's not possible to defsubst a primitive, e.g. the
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;; following will produce an error (in any emacs flavor), since
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;; `nthcdr' is a primitive function that's handled specially by
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;; the byte compiler and thus can't be redefined:
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;;
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;; (defsubst nthcdr (val) val)
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;;
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;; `defsubst', like `defmacro', needs to be evaluated at
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;; compile time, so this will produce an error during byte
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;; compilation.
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;;
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;; CC Mode occasionally needs to do things like this for
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;; cross-emacs compatibility. It therefore uses the following
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;; to conditionally do a `defsubst':
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;;
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;; (eval-when-compile
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;; (if (not (fboundp 'foo))
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;; (defsubst foo ...)))
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;;
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;; But `eval-when-compile' byte compiles its contents and
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;; _then_ evaluates it (in all current emacs versions, up to
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;; and including Emacs 20.6 and XEmacs 21.1 as of this
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;; writing). So this will still produce an error, since the
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;; byte compiler will get to the defsubst anyway. That's
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;; arguably a bug because the point with `eval-when-compile' is
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;; that it should evaluate rather than compile its contents.
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;;
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;; We get around it by expanding the body to a quoted
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;; constant that we eval. That otoh introduce a problem in
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;; that a returned lambda expression doesn't get byte
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;; compiled (even if `function' is used).
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(eval '(let ((c-inside-eval-when-compile t)) ,@body)))))
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(put 'cc-eval-when-compile 'lisp-indent-hook 0))
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;;; Macros.
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(defmacro c--mapcan (fun liszt)
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;; CC Mode equivalent of `mapcan' which bridges the difference
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;; between the host [X]Emacsen."
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;; The motivation for this macro is to avoid the irritating message
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;; "function `mapcan' from cl package called at runtime" produced by Emacs.
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(cond
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((eq c--mapcan-status 'mapcan)
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`(mapcan ,fun ,liszt))
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((eq c--mapcan-status 'cl-mapcan)
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`(cl-mapcan ,fun ,liszt))
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(t
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;; Emacs <= 24.2. It would be nice to be able to distinguish between
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;; compile-time and run-time use here.
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`(apply 'nconc (mapcar ,fun ,liszt)))))
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(defmacro c--set-difference (liszt1 liszt2 &rest other-args)
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;; Macro to smooth out the renaming of `set-difference' in Emacs 24.3.
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(if (eq c--mapcan-status 'cl-mapcan)
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`(cl-set-difference ,liszt1 ,liszt2 ,@other-args)
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`(set-difference ,liszt1 ,liszt2 ,@other-args)))
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(defmacro c--intersection (liszt1 liszt2 &rest other-args)
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;; Macro to smooth out the renaming of `intersection' in Emacs 24.3.
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(if (eq c--mapcan-status 'cl-mapcan)
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`(cl-intersection ,liszt1 ,liszt2 ,@other-args)
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`(intersection ,liszt1 ,liszt2 ,@other-args)))
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(eval-and-compile
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(defmacro c--macroexpand-all (form &optional environment)
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;; Macro to smooth out the renaming of `cl-macroexpand-all' in Emacs 24.3.
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(if (eq c--mapcan-status 'cl-mapcan)
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`(macroexpand-all ,form ,environment)
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`(cl-macroexpand-all ,form ,environment)))
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(defmacro c--delete-duplicates (cl-seq &rest cl-keys)
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;; Macro to smooth out the renaming of `delete-duplicates' in Emacs 24.3.
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(if (eq c--mapcan-status 'cl-mapcan)
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`(cl-delete-duplicates ,cl-seq ,@cl-keys)
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`(delete-duplicates ,cl-seq ,@cl-keys))))
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(defmacro c-point (position &optional point)
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"Return the value of certain commonly referenced POSITIONs relative to POINT.
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The current point is used if POINT isn't specified. POSITION can be
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one of the following symbols:
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`bol' -- beginning of line
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`eol' -- end of line
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`bod' -- beginning of defun
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`eod' -- end of defun
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`boi' -- beginning of indentation
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`ionl' -- indentation of next line
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`iopl' -- indentation of previous line
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`bonl' -- beginning of next line
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`eonl' -- end of next line
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`bopl' -- beginning of previous line
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`eopl' -- end of previous line
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`bosws' -- beginning of syntactic whitespace
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`eosws' -- end of syntactic whitespace
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If the referenced position doesn't exist, the closest accessible point
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to it is returned. This function does not modify the point or the mark."
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(if (eq (car-safe position) 'quote)
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(let ((position (eval position)))
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(cond
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((eq position 'bol)
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(if (and (cc-bytecomp-fboundp 'line-beginning-position) (not point))
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`(line-beginning-position)
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`(save-excursion
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,@(if point `((goto-char ,point)))
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(beginning-of-line)
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(point))))
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((eq position 'eol)
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(if (and (cc-bytecomp-fboundp 'line-end-position) (not point))
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`(line-end-position)
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`(save-excursion
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,@(if point `((goto-char ,point)))
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(end-of-line)
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(point))))
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((eq position 'boi)
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`(save-excursion
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,@(if point `((goto-char ,point)))
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(back-to-indentation)
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(point)))
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((eq position 'bod)
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`(save-excursion
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,@(if point `((goto-char ,point)))
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(c-beginning-of-defun-1)
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(point)))
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((eq position 'eod)
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`(save-excursion
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,@(if point `((goto-char ,point)))
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(c-end-of-defun-1)
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(point)))
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((eq position 'bopl)
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(if (and (cc-bytecomp-fboundp 'line-beginning-position) (not point))
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`(line-beginning-position 0)
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`(save-excursion
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,@(if point `((goto-char ,point)))
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(forward-line -1)
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(point))))
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((eq position 'bonl)
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(if (and (cc-bytecomp-fboundp 'line-beginning-position) (not point))
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`(line-beginning-position 2)
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`(save-excursion
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,@(if point `((goto-char ,point)))
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(forward-line 1)
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(point))))
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((eq position 'eopl)
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(if (and (cc-bytecomp-fboundp 'line-end-position) (not point))
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`(line-end-position 0)
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`(save-excursion
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,@(if point `((goto-char ,point)))
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(beginning-of-line)
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(or (bobp) (backward-char))
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(point))))
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((eq position 'eonl)
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(if (and (cc-bytecomp-fboundp 'line-end-position) (not point))
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`(line-end-position 2)
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`(save-excursion
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,@(if point `((goto-char ,point)))
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(forward-line 1)
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(end-of-line)
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(point))))
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((eq position 'iopl)
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`(save-excursion
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,@(if point `((goto-char ,point)))
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(forward-line -1)
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(back-to-indentation)
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(point)))
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((eq position 'ionl)
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`(save-excursion
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,@(if point `((goto-char ,point)))
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(forward-line 1)
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(back-to-indentation)
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(point)))
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((eq position 'bosws)
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`(save-excursion
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,@(if point `((goto-char ,point)))
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(c-backward-syntactic-ws)
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(point)))
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((eq position 'eosws)
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`(save-excursion
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,@(if point `((goto-char ,point)))
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(c-forward-syntactic-ws)
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(point)))
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(t (error "Unknown buffer position requested: %s" position))))
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;; The bulk of this should perhaps be in a function to avoid large
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;; expansions, but this case is not used anywhere in CC Mode (and
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;; probably not anywhere else either) so we only have it to be on
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;; the safe side.
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(message "Warning: c-point long expansion")
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`(save-excursion
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,@(if point `((goto-char ,point)))
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(let ((position ,position))
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(cond
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((eq position 'bol) (beginning-of-line))
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((eq position 'eol) (end-of-line))
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((eq position 'boi) (back-to-indentation))
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((eq position 'bod) (c-beginning-of-defun-1))
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((eq position 'eod) (c-end-of-defun-1))
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((eq position 'bopl) (forward-line -1))
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((eq position 'bonl) (forward-line 1))
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((eq position 'eopl) (progn
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(beginning-of-line)
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(or (bobp) (backward-char))))
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((eq position 'eonl) (progn
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(forward-line 1)
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(end-of-line)))
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((eq position 'iopl) (progn
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(forward-line -1)
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(back-to-indentation)))
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((eq position 'ionl) (progn
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(forward-line 1)
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(back-to-indentation)))
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((eq position 'bosws) (c-backward-syntactic-ws))
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((eq position 'eosws) (c-forward-syntactic-ws))
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(t (error "Unknown buffer position requested: %s" position))))
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(point))))
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(eval-and-compile
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;; Constant to decide at compilation time whether to use category
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;; properties. Currently (2010-03) they're available only on GNU Emacs.
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(defconst c-use-category
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(with-temp-buffer
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(let ((parse-sexp-lookup-properties t)
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(lookup-syntax-properties t))
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(set-syntax-table (make-syntax-table))
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(insert "<()>")
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(put-text-property (point-min) (1+ (point-min))
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'category 'c-<-as-paren-syntax)
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(put-text-property (+ 3 (point-min)) (+ 4 (point-min))
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'category 'c->-as-paren-syntax)
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(goto-char (point-min))
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(forward-sexp)
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(= (point) (+ 4 (point-min)))))))
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(defvar c-use-extents)
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(defmacro c-next-single-property-change (position prop &optional object limit)
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;; See the doc string for either of the defuns expanded to.
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(if (and c-use-extents
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(fboundp 'next-single-char-property-change))
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;; XEmacs >= 2005-01-25
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`(next-single-char-property-change ,position ,prop ,object ,limit)
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;; Emacs and earlier XEmacs
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`(next-single-property-change ,position ,prop ,object ,limit)))
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(defmacro c-region-is-active-p ()
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;; Return t when the region is active. The determination of region
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;; activeness is different in both Emacs and XEmacs.
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(if (cc-bytecomp-fboundp 'region-active-p)
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;; XEmacs.
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'(region-active-p)
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;; Old Emacs.
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'mark-active))
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(defmacro c-set-region-active (activate)
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;; Activate the region if ACTIVE is non-nil, deactivate it
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;; otherwise. Covers the differences between Emacs and XEmacs.
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(if (fboundp 'zmacs-activate-region)
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;; XEmacs.
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`(if ,activate
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(zmacs-activate-region)
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(zmacs-deactivate-region))
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;; Emacs.
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`(setq mark-active ,activate)))
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(defmacro c-delete-and-extract-region (start end)
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"Delete the text between START and END and return it."
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(if (cc-bytecomp-fboundp 'delete-and-extract-region)
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;; Emacs 21.1 and later
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`(delete-and-extract-region ,start ,end)
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;; XEmacs and Emacs 20.x
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`(prog1
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(buffer-substring ,start ,end)
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(delete-region ,start ,end))))
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(defmacro c-safe (&rest body)
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;; safely execute BODY, return nil if an error occurred
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`(condition-case nil
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(progn ,@body)
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(error nil)))
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(put 'c-safe 'lisp-indent-function 0)
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(defmacro c-int-to-char (integer)
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;; In Emacs, a character is an integer. In XEmacs, a character is a
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;; type distinct from an integer. Sometimes we need to convert integers to
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;; characters. `c-int-to-char' makes this conversion, if necessary.
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(if (fboundp 'int-to-char)
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`(int-to-char ,integer)
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integer))
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(defmacro c-last-command-char ()
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;; The last character just typed. Note that `last-command-event' exists in
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;; both Emacs and XEmacs, but with confusingly different meanings.
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||
(if (featurep 'xemacs)
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'last-command-char
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'last-command-event))
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(defmacro c-sentence-end ()
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;; Get the regular expression `sentence-end'.
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(if (cc-bytecomp-fboundp 'sentence-end)
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;; Emacs 22:
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`(sentence-end)
|
||
;; Emacs <22 + XEmacs
|
||
`sentence-end))
|
||
|
||
(defmacro c-default-value-sentence-end ()
|
||
;; Get the default value of the variable sentence end.
|
||
(if (cc-bytecomp-fboundp 'sentence-end)
|
||
;; Emacs 22:
|
||
`(let (sentence-end) (sentence-end))
|
||
;; Emacs <22 + XEmacs
|
||
`(default-value 'sentence-end)))
|
||
|
||
;; The following is essentially `save-buffer-state' from lazy-lock.el.
|
||
;; It ought to be a standard macro.
|
||
(defmacro c-save-buffer-state (varlist &rest body)
|
||
"Bind variables according to VARLIST (in `let*' style) and eval BODY,
|
||
then restore the buffer state under the assumption that no significant
|
||
modification has been made in BODY. A change is considered
|
||
significant if it affects the buffer text in any way that isn't
|
||
completely restored again. Changes in text properties like `face' or
|
||
`syntax-table' are considered insignificant. This macro allows text
|
||
properties to be changed, even in a read-only buffer.
|
||
|
||
This macro should be placed around all calculations which set
|
||
\"insignificant\" text properties in a buffer, even when the buffer is
|
||
known to be writable. That way, these text properties remain set
|
||
even if the user undoes the command which set them.
|
||
|
||
This macro should ALWAYS be placed around \"temporary\" internal buffer
|
||
changes \(like adding a newline to calculate a text-property then
|
||
deleting it again), so that the user never sees them on his
|
||
`buffer-undo-list'. See also `c-tentative-buffer-changes'.
|
||
|
||
However, any user-visible changes to the buffer \(like auto-newlines)
|
||
must not be within a `c-save-buffer-state', since the user then
|
||
wouldn't be able to undo them.
|
||
|
||
The return value is the value of the last form in BODY."
|
||
`(let* ((modified (buffer-modified-p)) (buffer-undo-list t)
|
||
(inhibit-read-only t) (inhibit-point-motion-hooks t)
|
||
before-change-functions after-change-functions
|
||
deactivate-mark
|
||
buffer-file-name buffer-file-truename ; Prevent primitives checking
|
||
; for file modification
|
||
,@varlist)
|
||
(unwind-protect
|
||
(progn ,@body)
|
||
(and (not modified)
|
||
(buffer-modified-p)
|
||
(set-buffer-modified-p nil)))))
|
||
(put 'c-save-buffer-state 'lisp-indent-function 1)
|
||
|
||
(defmacro c-tentative-buffer-changes (&rest body)
|
||
"Eval BODY and optionally restore the buffer contents to the state it
|
||
was in before BODY. Any changes are kept if the last form in BODY
|
||
returns non-nil. Otherwise it's undone using the undo facility, and
|
||
various other buffer state that might be affected by the changes is
|
||
restored. That includes the current buffer, point, mark, mark
|
||
activation \(similar to `save-excursion'), and the modified state.
|
||
The state is also restored if BODY exits nonlocally.
|
||
|
||
If BODY makes a change that unconditionally is undone then wrap this
|
||
macro inside `c-save-buffer-state'. That way the change can be done
|
||
even when the buffer is read-only, and without interference from
|
||
various buffer change hooks."
|
||
`(let (-tnt-chng-keep
|
||
-tnt-chng-state)
|
||
(unwind-protect
|
||
;; Insert an undo boundary for use with `undo-more'. We
|
||
;; don't use `undo-boundary' since it doesn't insert one
|
||
;; unconditionally.
|
||
(setq buffer-undo-list (cons nil buffer-undo-list)
|
||
-tnt-chng-state (c-tnt-chng-record-state)
|
||
-tnt-chng-keep (progn ,@body))
|
||
(c-tnt-chng-cleanup -tnt-chng-keep -tnt-chng-state))))
|
||
(put 'c-tentative-buffer-changes 'lisp-indent-function 0)
|
||
|
||
(defun c-tnt-chng-record-state ()
|
||
;; Used internally in `c-tentative-buffer-changes'.
|
||
(vector buffer-undo-list ; 0
|
||
(current-buffer) ; 1
|
||
;; No need to use markers for the point and mark; if the
|
||
;; undo got out of synch we're hosed anyway.
|
||
(point) ; 2
|
||
(mark t) ; 3
|
||
(c-region-is-active-p) ; 4
|
||
(buffer-modified-p))) ; 5
|
||
|
||
(defun c-tnt-chng-cleanup (keep saved-state)
|
||
;; Used internally in `c-tentative-buffer-changes'.
|
||
|
||
(let ((saved-undo-list (elt saved-state 0)))
|
||
(if (eq buffer-undo-list saved-undo-list)
|
||
;; No change was done after all.
|
||
(setq buffer-undo-list (cdr saved-undo-list))
|
||
|
||
(if keep
|
||
;; Find and remove the undo boundary.
|
||
(let ((p buffer-undo-list))
|
||
(while (not (eq (cdr p) saved-undo-list))
|
||
(setq p (cdr p)))
|
||
(setcdr p (cdr saved-undo-list)))
|
||
|
||
;; `primitive-undo' will remove the boundary.
|
||
(setq saved-undo-list (cdr saved-undo-list))
|
||
(let ((undo-in-progress t))
|
||
(while (not (eq (setq buffer-undo-list
|
||
(primitive-undo 1 buffer-undo-list))
|
||
saved-undo-list))))
|
||
|
||
(when (buffer-live-p (elt saved-state 1))
|
||
(set-buffer (elt saved-state 1))
|
||
(goto-char (elt saved-state 2))
|
||
(set-mark (elt saved-state 3))
|
||
(c-set-region-active (elt saved-state 4))
|
||
(and (not (elt saved-state 5))
|
||
(buffer-modified-p)
|
||
(set-buffer-modified-p nil)))))))
|
||
|
||
(defmacro c-forward-syntactic-ws (&optional limit)
|
||
"Forward skip over syntactic whitespace.
|
||
Syntactic whitespace is defined as whitespace characters, comments,
|
||
and preprocessor directives. However if point starts inside a comment
|
||
or preprocessor directive, the content of it is not treated as
|
||
whitespace.
|
||
|
||
LIMIT sets an upper limit of the forward movement, if specified. If
|
||
LIMIT or the end of the buffer is reached inside a comment or
|
||
preprocessor directive, the point will be left there.
|
||
|
||
Note that this function might do hidden buffer changes. See the
|
||
comment at the start of cc-engine.el for more info."
|
||
(if limit
|
||
`(save-restriction
|
||
(narrow-to-region (point-min) (or ,limit (point-max)))
|
||
(c-forward-sws))
|
||
'(c-forward-sws)))
|
||
|
||
(defmacro c-backward-syntactic-ws (&optional limit)
|
||
"Backward skip over syntactic whitespace.
|
||
Syntactic whitespace is defined as whitespace characters, comments,
|
||
and preprocessor directives. However if point starts inside a comment
|
||
or preprocessor directive, the content of it is not treated as
|
||
whitespace.
|
||
|
||
LIMIT sets a lower limit of the backward movement, if specified. If
|
||
LIMIT is reached inside a line comment or preprocessor directive then
|
||
the point is moved into it past the whitespace at the end.
|
||
|
||
Note that this function might do hidden buffer changes. See the
|
||
comment at the start of cc-engine.el for more info."
|
||
(if limit
|
||
`(save-restriction
|
||
(narrow-to-region (or ,limit (point-min)) (point-max))
|
||
(c-backward-sws))
|
||
'(c-backward-sws)))
|
||
|
||
(defmacro c-forward-sexp (&optional count)
|
||
"Move forward across COUNT balanced expressions.
|
||
A negative COUNT means move backward. Signal an error if the move
|
||
fails for any reason.
|
||
|
||
This is like `forward-sexp' except that it isn't interactive and does
|
||
not do any user friendly adjustments of the point and that it isn't
|
||
susceptible to user configurations such as disabling of signals in
|
||
certain situations."
|
||
(or count (setq count 1))
|
||
`(goto-char (scan-sexps (point) ,count)))
|
||
|
||
(defmacro c-backward-sexp (&optional count)
|
||
"See `c-forward-sexp' and reverse directions."
|
||
(or count (setq count 1))
|
||
`(c-forward-sexp ,(if (numberp count) (- count) `(- ,count))))
|
||
|
||
(defmacro c-safe-scan-lists (from count depth &optional limit)
|
||
"Like `scan-lists' but returns nil instead of signaling errors
|
||
for unbalanced parens.
|
||
|
||
A limit for the search may be given. FROM is assumed to be on the
|
||
right side of it."
|
||
(let ((res (if (featurep 'xemacs)
|
||
`(scan-lists ,from ,count ,depth nil t)
|
||
`(c-safe (scan-lists ,from ,count ,depth)))))
|
||
(if limit
|
||
`(save-restriction
|
||
,(if (numberp count)
|
||
(if (< count 0)
|
||
`(narrow-to-region ,limit (point-max))
|
||
`(narrow-to-region (point-min) ,limit))
|
||
`(if (< ,count 0)
|
||
(narrow-to-region ,limit (point-max))
|
||
(narrow-to-region (point-min) ,limit)))
|
||
,res)
|
||
res)))
|
||
|
||
|
||
;; Wrappers for common scan-lists cases, mainly because it's almost
|
||
;; impossible to get a feel for how that function works.
|
||
|
||
(defmacro c-go-list-forward (&optional pos limit)
|
||
"Move forward across one balanced group of parentheses starting at POS or
|
||
point. Return POINT when we succeed, NIL when we fail. In the latter case,
|
||
leave point unmoved.
|
||
|
||
A LIMIT for the search may be given. The start position is assumed to be
|
||
before it."
|
||
(let ((res `(c-safe (goto-char (scan-lists ,(or pos `(point)) 1 0)) (point))))
|
||
(if limit
|
||
`(save-restriction
|
||
(if ,limit
|
||
(narrow-to-region (point-min) ,limit))
|
||
,res)
|
||
res)))
|
||
|
||
(defmacro c-go-list-backward (&optional pos limit)
|
||
"Move backward across one balanced group of parentheses starting at POS or
|
||
point. Return POINT when we succeed, NIL when we fail. In the latter case,
|
||
leave point unmoved.
|
||
|
||
A LIMIT for the search may be given. The start position is assumed to be
|
||
after it."
|
||
(let ((res `(c-safe (goto-char (scan-lists ,(or pos `(point)) -1 0)) (point))))
|
||
(if limit
|
||
`(save-restriction
|
||
(if ,limit
|
||
(narrow-to-region ,limit (point-max)))
|
||
,res)
|
||
res)))
|
||
|
||
(defmacro c-up-list-forward (&optional pos limit)
|
||
"Return the first position after the list sexp containing POS,
|
||
or nil if no such position exists. The point is used if POS is left out.
|
||
|
||
A limit for the search may be given. The start position is assumed to
|
||
be before it."
|
||
`(c-safe-scan-lists ,(or pos `(point)) 1 1 ,limit))
|
||
|
||
(defmacro c-up-list-backward (&optional pos limit)
|
||
"Return the position of the start of the list sexp containing POS,
|
||
or nil if no such position exists. The point is used if POS is left out.
|
||
|
||
A limit for the search may be given. The start position is assumed to
|
||
be after it."
|
||
`(c-safe-scan-lists ,(or pos `(point)) -1 1 ,limit))
|
||
|
||
(defmacro c-down-list-forward (&optional pos limit)
|
||
"Return the first position inside the first list sexp after POS,
|
||
or nil if no such position exists. The point is used if POS is left out.
|
||
|
||
A limit for the search may be given. The start position is assumed to
|
||
be before it."
|
||
`(c-safe-scan-lists ,(or pos `(point)) 1 -1 ,limit))
|
||
|
||
(defmacro c-down-list-backward (&optional pos limit)
|
||
"Return the last position inside the last list sexp before POS,
|
||
or nil if no such position exists. The point is used if POS is left out.
|
||
|
||
A limit for the search may be given. The start position is assumed to
|
||
be after it."
|
||
`(c-safe-scan-lists ,(or pos `(point)) -1 -1 ,limit))
|
||
|
||
(defmacro c-go-up-list-forward (&optional pos limit)
|
||
"Move the point to the first position after the list sexp containing POS,
|
||
or containing the point if POS is left out. Return t if such a
|
||
position exists, otherwise nil is returned and the point isn't moved.
|
||
|
||
A limit for the search may be given. The start position is assumed to
|
||
be before it."
|
||
(let ((res `(c-safe (goto-char (scan-lists ,(or pos `(point)) 1 1)) t)))
|
||
(if limit
|
||
`(save-restriction
|
||
(narrow-to-region (point-min) ,limit)
|
||
,res)
|
||
res)))
|
||
|
||
(defmacro c-go-up-list-backward (&optional pos limit)
|
||
"Move the point to the position of the start of the list sexp containing POS,
|
||
or containing the point if POS is left out. Return t if such a
|
||
position exists, otherwise nil is returned and the point isn't moved.
|
||
|
||
A limit for the search may be given. The start position is assumed to
|
||
be after it."
|
||
(let ((res `(c-safe (goto-char (scan-lists ,(or pos `(point)) -1 1)) t)))
|
||
(if limit
|
||
`(save-restriction
|
||
(narrow-to-region ,limit (point-max))
|
||
,res)
|
||
res)))
|
||
|
||
(defmacro c-go-down-list-forward (&optional pos limit)
|
||
"Move the point to the first position inside the first list sexp after POS,
|
||
or before the point if POS is left out. Return t if such a position
|
||
exists, otherwise nil is returned and the point isn't moved.
|
||
|
||
A limit for the search may be given. The start position is assumed to
|
||
be before it."
|
||
(let ((res `(c-safe (goto-char (scan-lists ,(or pos `(point)) 1 -1)) t)))
|
||
(if limit
|
||
`(save-restriction
|
||
(narrow-to-region (point-min) ,limit)
|
||
,res)
|
||
res)))
|
||
|
||
(defmacro c-go-down-list-backward (&optional pos limit)
|
||
"Move the point to the last position inside the last list sexp before POS,
|
||
or before the point if POS is left out. Return t if such a position
|
||
exists, otherwise nil is returned and the point isn't moved.
|
||
|
||
A limit for the search may be given. The start position is assumed to
|
||
be after it."
|
||
(let ((res `(c-safe (goto-char (scan-lists ,(or pos `(point)) -1 -1)) t)))
|
||
(if limit
|
||
`(save-restriction
|
||
(narrow-to-region ,limit (point-max))
|
||
,res)
|
||
res)))
|
||
|
||
|
||
(defmacro c-beginning-of-defun-1 ()
|
||
;; Wrapper around beginning-of-defun.
|
||
;;
|
||
;; NOTE: This function should contain the only explicit use of
|
||
;; beginning-of-defun in CC Mode. Eventually something better than
|
||
;; b-o-d will be available and this should be the only place the
|
||
;; code needs to change. Everything else should use
|
||
;; (c-beginning-of-defun-1)
|
||
;;
|
||
;; This is really a bit too large to be a macro but that isn't a
|
||
;; problem as long as it only is used in one place in
|
||
;; `c-parse-state'.
|
||
|
||
`(progn
|
||
(if (and ,(fboundp 'buffer-syntactic-context-depth)
|
||
c-enable-xemacs-performance-kludge-p)
|
||
,(when (fboundp 'buffer-syntactic-context-depth)
|
||
;; XEmacs only. This can improve the performance of
|
||
;; c-parse-state to between 3 and 60 times faster when
|
||
;; braces are hung. It can also degrade performance by
|
||
;; about as much when braces are not hung.
|
||
'(let (beginning-of-defun-function end-of-defun-function
|
||
pos)
|
||
(while (not pos)
|
||
(save-restriction
|
||
(widen)
|
||
(setq pos (c-safe-scan-lists
|
||
(point) -1 (buffer-syntactic-context-depth))))
|
||
(cond
|
||
((bobp) (setq pos (point-min)))
|
||
((not pos)
|
||
(let ((distance (skip-chars-backward "^{")))
|
||
;; unbalanced parenthesis, while invalid C code,
|
||
;; shouldn't cause an infloop! See unbal.c
|
||
(when (zerop distance)
|
||
;; Punt!
|
||
(beginning-of-defun)
|
||
(setq pos (point)))))
|
||
((= pos 0))
|
||
((not (eq (char-after pos) ?{))
|
||
(goto-char pos)
|
||
(setq pos nil))
|
||
))
|
||
(goto-char pos)))
|
||
;; Emacs, which doesn't have buffer-syntactic-context-depth
|
||
(let (beginning-of-defun-function end-of-defun-function)
|
||
(beginning-of-defun)))
|
||
;; if defun-prompt-regexp is non-nil, b-o-d won't leave us at the
|
||
;; open brace.
|
||
(and defun-prompt-regexp
|
||
(looking-at defun-prompt-regexp)
|
||
(goto-char (match-end 0)))))
|
||
|
||
|
||
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
|
||
;; V i r t u a l S e m i c o l o n s
|
||
;;
|
||
;; In most CC Mode languages, statements are terminated explicitly by
|
||
;; semicolons or closing braces. In some of the CC modes (currently AWK Mode
|
||
;; and certain user-specified #define macros in C, C++, etc. (November 2008)),
|
||
;; statements are (or can be) terminated by EOLs. Such a statement is said to
|
||
;; be terminated by a "virtual semicolon" (VS). A statement terminated by an
|
||
;; actual semicolon or brace is never considered to have a VS.
|
||
;;
|
||
;; The indentation engine (or whatever) tests for a VS at a specific position
|
||
;; by invoking the macro `c-at-vsemi-p', which in its turn calls the mode
|
||
;; specific function (if any) which is the value of the language variable
|
||
;; `c-at-vsemi-p-fn'. This function should only use "low-level" features of
|
||
;; CC Mode, i.e. features which won't trigger infinite recursion. ;-) The
|
||
;; actual details of what constitutes a VS in a language are thus encapsulated
|
||
;; in code specific to that language (e.g. cc-awk.el). `c-at-vsemi-p' returns
|
||
;; non-nil if point (or the optional parameter POS) is at a VS, nil otherwise.
|
||
;;
|
||
;; The language specific function might well do extensive analysis of the
|
||
;; source text, and may use a caching scheme to speed up repeated calls.
|
||
;;
|
||
;; The "virtual semicolon" lies just after the last non-ws token on the line.
|
||
;; Like POINT, it is considered to lie between two characters. For example,
|
||
;; at the place shown in the following AWK source line:
|
||
;;
|
||
;; kbyte = 1024 # 1000 if you're not picky
|
||
;; ^
|
||
;; |
|
||
;; Virtual Semicolon
|
||
;;
|
||
;; In addition to `c-at-vsemi-p-fn', a mode may need to supply a function for
|
||
;; `c-vsemi-status-unknown-p-fn'. The macro `c-vsemi-status-unknown-p' is a
|
||
;; rather recondite kludge. It exists because the function
|
||
;; `c-beginning-of-statement-1' sometimes tests for VSs as an optimization,
|
||
;; but `c-at-vsemi-p' might well need to call `c-beginning-of-statement-1' in
|
||
;; its calculations, thus potentially leading to infinite recursion.
|
||
;;
|
||
;; The macro `c-vsemi-status-unknown-p' resolves this problem; it may return
|
||
;; non-nil at any time; returning nil is a guarantee that an immediate
|
||
;; invocation of `c-at-vsemi-p' at point will NOT call
|
||
;; `c-beginning-of-statement-1'. `c-vsemi-status-unknown-p' may not itself
|
||
;; call `c-beginning-of-statement-1'.
|
||
;;
|
||
;; The macro `c-vsemi-status-unknown-p' will typically check the caching
|
||
;; scheme used by the `c-at-vsemi-p-fn', hence the name - the status is
|
||
;; "unknown" if there is no cache entry current for the line.
|
||
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
|
||
|
||
(defmacro c-at-vsemi-p (&optional pos)
|
||
;; Is there a virtual semicolon (not a real one or a }) at POS (defaults to
|
||
;; point)? Always returns nil for languages which don't have Virtual
|
||
;; semicolons.
|
||
;; This macro might do hidden buffer changes.
|
||
`(if c-at-vsemi-p-fn
|
||
(funcall c-at-vsemi-p-fn ,@(if pos `(,pos)))))
|
||
|
||
(defmacro c-vsemi-status-unknown-p ()
|
||
;; Return NIL only if it can be guaranteed that an immediate
|
||
;; (c-at-vsemi-p) will NOT call c-beginning-of-statement-1. Otherwise,
|
||
;; return non-nil. (See comments above). The function invoked by this
|
||
;; macro MUST NOT UNDER ANY CIRCUMSTANCES itself call
|
||
;; c-beginning-of-statement-1.
|
||
;; Languages which don't have EOL terminated statements always return NIL
|
||
;; (they _know_ there's no vsemi ;-).
|
||
`(if c-vsemi-status-unknown-p-fn (funcall c-vsemi-status-unknown-p-fn)))
|
||
|
||
|
||
(defmacro c-benign-error (format &rest args)
|
||
;; Formats an error message for the echo area and dings, i.e. like
|
||
;; `error' but doesn't abort.
|
||
`(progn
|
||
(message ,format ,@args)
|
||
(ding)))
|
||
|
||
(defmacro c-with-syntax-table (table &rest code)
|
||
;; Temporarily switches to the specified syntax table in a failsafe
|
||
;; way to execute code.
|
||
;; Maintainers' note: If TABLE is `c++-template-syntax-table', DON'T call
|
||
;; any forms inside this that call `c-parse-state'. !!!!
|
||
`(let ((c-with-syntax-table-orig-table (syntax-table)))
|
||
(unwind-protect
|
||
(progn
|
||
(set-syntax-table ,table)
|
||
,@code)
|
||
(set-syntax-table c-with-syntax-table-orig-table))))
|
||
(put 'c-with-syntax-table 'lisp-indent-function 1)
|
||
|
||
(defmacro c-skip-ws-forward (&optional limit)
|
||
"Skip over any whitespace following point.
|
||
This function skips over horizontal and vertical whitespace and line
|
||
continuations."
|
||
(if limit
|
||
`(let ((limit (or ,limit (point-max))))
|
||
(while (progn
|
||
;; skip-syntax-* doesn't count \n as whitespace..
|
||
(skip-chars-forward " \t\n\r\f\v" limit)
|
||
(when (and (eq (char-after) ?\\)
|
||
(< (point) limit))
|
||
(forward-char)
|
||
(or (eolp)
|
||
(progn (backward-char) nil))))))
|
||
'(while (progn
|
||
(skip-chars-forward " \t\n\r\f\v")
|
||
(when (eq (char-after) ?\\)
|
||
(forward-char)
|
||
(or (eolp)
|
||
(progn (backward-char) nil)))))))
|
||
|
||
(defmacro c-skip-ws-backward (&optional limit)
|
||
"Skip over any whitespace preceding point.
|
||
This function skips over horizontal and vertical whitespace and line
|
||
continuations."
|
||
(if limit
|
||
`(let ((limit (or ,limit (point-min))))
|
||
(while (progn
|
||
;; skip-syntax-* doesn't count \n as whitespace..
|
||
(skip-chars-backward " \t\n\r\f\v" limit)
|
||
(and (eolp)
|
||
(eq (char-before) ?\\)
|
||
(> (point) limit)))
|
||
(backward-char)))
|
||
'(while (progn
|
||
(skip-chars-backward " \t\n\r\f\v")
|
||
(and (eolp)
|
||
(eq (char-before) ?\\)))
|
||
(backward-char))))
|
||
|
||
(eval-and-compile
|
||
(defvar c-langs-are-parametric nil))
|
||
|
||
(defmacro c-major-mode-is (mode)
|
||
"Return non-nil if the current CC Mode major mode is MODE.
|
||
MODE is either a mode symbol or a list of mode symbols."
|
||
|
||
(if c-langs-are-parametric
|
||
;; Inside a `c-lang-defconst'.
|
||
`(c-lang-major-mode-is ,mode)
|
||
|
||
(if (eq (car-safe mode) 'quote)
|
||
(let ((mode (eval mode)))
|
||
(if (listp mode)
|
||
`(memq c-buffer-is-cc-mode ',mode)
|
||
`(eq c-buffer-is-cc-mode ',mode)))
|
||
|
||
`(let ((mode ,mode))
|
||
(if (listp mode)
|
||
(memq c-buffer-is-cc-mode mode)
|
||
(eq c-buffer-is-cc-mode mode))))))
|
||
|
||
|
||
;; Macros/functions to handle so-called "char properties", which are
|
||
;; properties set on a single character and that never spread to any
|
||
;; other characters.
|
||
|
||
(eval-and-compile
|
||
;; Constant used at compile time to decide whether or not to use
|
||
;; XEmacs extents. Check all the extent functions we'll use since
|
||
;; some packages might add compatibility aliases for some of them in
|
||
;; Emacs.
|
||
(defconst c-use-extents (and (cc-bytecomp-fboundp 'extent-at)
|
||
(cc-bytecomp-fboundp 'set-extent-property)
|
||
(cc-bytecomp-fboundp 'set-extent-properties)
|
||
(cc-bytecomp-fboundp 'make-extent)
|
||
(cc-bytecomp-fboundp 'extent-property)
|
||
(cc-bytecomp-fboundp 'delete-extent)
|
||
(cc-bytecomp-fboundp 'map-extents))))
|
||
|
||
(defconst c-<-as-paren-syntax '(4 . ?>))
|
||
(put 'c-<-as-paren-syntax 'syntax-table c-<-as-paren-syntax)
|
||
|
||
(defconst c->-as-paren-syntax '(5 . ?<))
|
||
(put 'c->-as-paren-syntax 'syntax-table c->-as-paren-syntax)
|
||
|
||
;; `c-put-char-property' is complex enough in XEmacs and Emacs < 21 to
|
||
;; make it a function.
|
||
(defalias 'c-put-char-property-fun
|
||
(cc-eval-when-compile
|
||
(cond (c-use-extents
|
||
;; XEmacs.
|
||
(byte-compile
|
||
(lambda (pos property value)
|
||
(let ((ext (extent-at pos nil property)))
|
||
(if ext
|
||
(set-extent-property ext property value)
|
||
(set-extent-properties (make-extent pos (1+ pos))
|
||
(cons property
|
||
(cons value
|
||
'(start-open t
|
||
end-open t)))))))))
|
||
|
||
((not (cc-bytecomp-boundp 'text-property-default-nonsticky))
|
||
;; In Emacs < 21 we have to mess with the `rear-nonsticky' property.
|
||
(byte-compile
|
||
(lambda (pos property value)
|
||
(put-text-property pos (1+ pos) property value)
|
||
(let ((prop (get-text-property pos 'rear-nonsticky)))
|
||
(or (memq property prop)
|
||
(put-text-property pos (1+ pos)
|
||
'rear-nonsticky
|
||
(cons property prop)))))))
|
||
;; This won't be used for anything.
|
||
(t 'ignore))))
|
||
(cc-bytecomp-defun c-put-char-property-fun) ; Make it known below.
|
||
|
||
(defmacro c-put-char-property (pos property value)
|
||
;; Put the given property with the given value on the character at
|
||
;; POS and make it front and rear nonsticky, or start and end open
|
||
;; in XEmacs vocabulary. If the character already has the given
|
||
;; property then the value is replaced, and the behavior is
|
||
;; undefined if that property has been put by some other function.
|
||
;; PROPERTY is assumed to be constant.
|
||
;;
|
||
;; If there's a `text-property-default-nonsticky' variable (Emacs
|
||
;; 21) then it's assumed that the property is present on it.
|
||
;;
|
||
;; This macro does a hidden buffer change.
|
||
(setq property (eval property))
|
||
(if (or c-use-extents
|
||
(not (cc-bytecomp-boundp 'text-property-default-nonsticky)))
|
||
;; XEmacs and Emacs < 21.
|
||
`(c-put-char-property-fun ,pos ',property ,value)
|
||
;; In Emacs 21 we got the `rear-nonsticky' property covered
|
||
;; by `text-property-default-nonsticky'.
|
||
`(let ((-pos- ,pos))
|
||
(put-text-property -pos- (1+ -pos-) ',property ,value))))
|
||
|
||
(defmacro c-get-char-property (pos property)
|
||
;; Get the value of the given property on the character at POS if
|
||
;; it's been put there by `c-put-char-property'. PROPERTY is
|
||
;; assumed to be constant.
|
||
(setq property (eval property))
|
||
(if c-use-extents
|
||
;; XEmacs.
|
||
`(let ((ext (extent-at ,pos nil ',property)))
|
||
(if ext (extent-property ext ',property)))
|
||
;; Emacs.
|
||
`(get-text-property ,pos ',property)))
|
||
|
||
;; `c-clear-char-property' is complex enough in Emacs < 21 to make it
|
||
;; a function, since we have to mess with the `rear-nonsticky' property.
|
||
(defalias 'c-clear-char-property-fun
|
||
(cc-eval-when-compile
|
||
(unless (or c-use-extents
|
||
(cc-bytecomp-boundp 'text-property-default-nonsticky))
|
||
(byte-compile
|
||
(lambda (pos property)
|
||
(when (get-text-property pos property)
|
||
(remove-text-properties pos (1+ pos) (list property nil))
|
||
(put-text-property pos (1+ pos)
|
||
'rear-nonsticky
|
||
(delq property (get-text-property
|
||
pos 'rear-nonsticky)))))))))
|
||
(cc-bytecomp-defun c-clear-char-property-fun) ; Make it known below.
|
||
|
||
(defmacro c-clear-char-property (pos property)
|
||
;; Remove the given property on the character at POS if it's been put
|
||
;; there by `c-put-char-property'. PROPERTY is assumed to be
|
||
;; constant.
|
||
;;
|
||
;; This macro does a hidden buffer change.
|
||
(setq property (eval property))
|
||
(cond (c-use-extents
|
||
;; XEmacs.
|
||
`(let ((ext (extent-at ,pos nil ',property)))
|
||
(if ext (delete-extent ext))))
|
||
((cc-bytecomp-boundp 'text-property-default-nonsticky)
|
||
;; In Emacs 21 we got the `rear-nonsticky' property covered
|
||
;; by `text-property-default-nonsticky'.
|
||
`(let ((pos ,pos))
|
||
(remove-text-properties pos (1+ pos)
|
||
'(,property nil))))
|
||
(t
|
||
;; Emacs < 21.
|
||
`(c-clear-char-property-fun ,pos ',property))))
|
||
|
||
(defmacro c-clear-char-properties (from to property)
|
||
;; Remove all the occurrences of the given property in the given
|
||
;; region that has been put with `c-put-char-property'. PROPERTY is
|
||
;; assumed to be constant.
|
||
;;
|
||
;; Note that this function does not clean up the property from the
|
||
;; lists of the `rear-nonsticky' properties in the region, if such
|
||
;; are used. Thus it should not be used for common properties like
|
||
;; `syntax-table'.
|
||
;;
|
||
;; This macro does hidden buffer changes.
|
||
(setq property (eval property))
|
||
(if c-use-extents
|
||
;; XEmacs.
|
||
`(map-extents (lambda (ext ignored)
|
||
(delete-extent ext))
|
||
nil ,from ,to nil nil ',property)
|
||
;; Emacs.
|
||
`(remove-text-properties ,from ,to '(,property nil))))
|
||
|
||
(defmacro c-search-forward-char-property (property value &optional limit)
|
||
"Search forward for a text-property PROPERTY having value VALUE.
|
||
LIMIT bounds the search. The comparison is done with `equal'.
|
||
|
||
Leave point just after the character, and set the match data on
|
||
this character, and return point. If VALUE isn't found, Return
|
||
nil; point is then left undefined."
|
||
`(let ((place (point)))
|
||
(while
|
||
(and
|
||
(< place ,(or limit '(point-max)))
|
||
(not (equal (c-get-char-property place ,property) ,value)))
|
||
(setq place (c-next-single-property-change
|
||
place ,property nil ,(or limit '(point-max)))))
|
||
(when (< place ,(or limit '(point-max)))
|
||
(goto-char place)
|
||
(search-forward-regexp ".") ; to set the match-data.
|
||
(point))))
|
||
|
||
(defmacro c-search-backward-char-property (property value &optional limit)
|
||
"Search backward for a text-property PROPERTY having value VALUE.
|
||
LIMIT bounds the search. The comparison is done with `equal'.
|
||
|
||
Leave point just before the character, set the match data on this
|
||
character, and return point. If VALUE isn't found, Return nil;
|
||
point is then left undefined."
|
||
`(let ((place (point)))
|
||
(while
|
||
(and
|
||
(> place ,(or limit '(point-min)))
|
||
(not (equal (c-get-char-property (1- place) ,property) ,value)))
|
||
(setq place (,(if (and c-use-extents
|
||
(fboundp 'previous-single-char-property-change))
|
||
;; XEmacs > 2005-01-25.
|
||
'previous-single-char-property-change
|
||
;; Emacs and earlier XEmacs.
|
||
'previous-single-property-change)
|
||
place ,property nil ,(or limit '(point-min)))))
|
||
(when (> place ,(or limit '(point-min)))
|
||
(goto-char place)
|
||
(search-backward-regexp ".") ; to set the match-data.
|
||
(point))))
|
||
|
||
(defun c-clear-char-property-with-value-function (from to property value)
|
||
"Remove all text-properties PROPERTY from the region (FROM, TO)
|
||
which have the value VALUE, as tested by `equal'. These
|
||
properties are assumed to be over individual characters, having
|
||
been put there by c-put-char-property. POINT remains unchanged."
|
||
(let ((place from) end-place)
|
||
(while ; loop round occurrences of (PROPERTY VALUE)
|
||
(progn
|
||
(while ; loop round changes in PROPERTY till we find VALUE
|
||
(and
|
||
(< place to)
|
||
(not (equal (get-text-property place property) value)))
|
||
(setq place (c-next-single-property-change place property nil to)))
|
||
(< place to))
|
||
(setq end-place (c-next-single-property-change place property nil to))
|
||
(remove-text-properties place end-place (cons property nil))
|
||
;; Do we have to do anything with stickiness here?
|
||
(setq place end-place))))
|
||
|
||
(defmacro c-clear-char-property-with-value (from to property value)
|
||
"Remove all text-properties PROPERTY from the region [FROM, TO)
|
||
which have the value VALUE, as tested by `equal'. These
|
||
properties are assumed to be over individual characters, having
|
||
been put there by c-put-char-property. POINT remains unchanged."
|
||
(if c-use-extents
|
||
;; XEmacs
|
||
`(let ((-property- ,property))
|
||
(map-extents (lambda (ext val)
|
||
(if (equal (extent-property ext -property-) val)
|
||
(delete-extent ext)))
|
||
nil ,from ,to ,value nil -property-))
|
||
;; GNU Emacs
|
||
`(c-clear-char-property-with-value-function ,from ,to ,property ,value)))
|
||
|
||
;; Macros to put overlays (Emacs) or extents (XEmacs) on buffer text.
|
||
;; For our purposes, these are characterized by being possible to
|
||
;; remove again without affecting the other text properties in the
|
||
;; buffer that got overridden when they were put.
|
||
|
||
(defmacro c-put-overlay (from to property value)
|
||
;; Put an overlay/extent covering the given range in the current
|
||
;; buffer. It's currently undefined whether it's front/end sticky
|
||
;; or not. The overlay/extent object is returned.
|
||
(if (cc-bytecomp-fboundp 'make-overlay)
|
||
;; Emacs.
|
||
`(let ((ol (make-overlay ,from ,to)))
|
||
(overlay-put ol ,property ,value)
|
||
ol)
|
||
;; XEmacs.
|
||
`(let ((ext (make-extent ,from ,to)))
|
||
(set-extent-property ext ,property ,value)
|
||
ext)))
|
||
|
||
(defmacro c-delete-overlay (overlay)
|
||
;; Deletes an overlay/extent object previously retrieved using
|
||
;; `c-put-overlay'.
|
||
(if (cc-bytecomp-fboundp 'make-overlay)
|
||
;; Emacs.
|
||
`(delete-overlay ,overlay)
|
||
;; XEmacs.
|
||
`(delete-extent ,overlay)))
|
||
|
||
|
||
;; Make edebug understand the macros.
|
||
;(eval-after-load "edebug" ; 2006-07-09: def-edebug-spec is now in subr.el.
|
||
; '(progn
|
||
(def-edebug-spec cc-eval-when-compile (&rest def-form))
|
||
(def-edebug-spec c-point t)
|
||
(def-edebug-spec c-set-region-active t)
|
||
(def-edebug-spec c-safe t)
|
||
(def-edebug-spec c-save-buffer-state let*)
|
||
(def-edebug-spec c-tentative-buffer-changes t)
|
||
(def-edebug-spec c-forward-syntactic-ws t)
|
||
(def-edebug-spec c-backward-syntactic-ws t)
|
||
(def-edebug-spec c-forward-sexp t)
|
||
(def-edebug-spec c-backward-sexp t)
|
||
(def-edebug-spec c-up-list-forward t)
|
||
(def-edebug-spec c-up-list-backward t)
|
||
(def-edebug-spec c-down-list-forward t)
|
||
(def-edebug-spec c-down-list-backward t)
|
||
(def-edebug-spec c-add-syntax t)
|
||
(def-edebug-spec c-add-class-syntax t)
|
||
(def-edebug-spec c-benign-error t)
|
||
(def-edebug-spec c-with-syntax-table t)
|
||
(def-edebug-spec c-skip-ws-forward t)
|
||
(def-edebug-spec c-skip-ws-backward t)
|
||
(def-edebug-spec c-major-mode-is t)
|
||
(def-edebug-spec c-put-char-property t)
|
||
(def-edebug-spec c-get-char-property t)
|
||
(def-edebug-spec c-clear-char-property t)
|
||
(def-edebug-spec c-clear-char-properties t)
|
||
(def-edebug-spec c-put-overlay t)
|
||
(def-edebug-spec c-delete-overlay t)
|
||
(def-edebug-spec c-self-bind-state-cache t);))
|
||
|
||
|
||
;;; Functions.
|
||
|
||
;; Note: All these after the macros, to be on safe side in avoiding
|
||
;; bugs where macros are defined too late. These bugs often only show
|
||
;; when the files are compiled in a certain order within the same
|
||
;; session.
|
||
|
||
(defsubst c-end-of-defun-1 ()
|
||
;; Replacement for end-of-defun that use c-beginning-of-defun-1.
|
||
(let ((start (point)))
|
||
;; Skip forward into the next defun block. Don't bother to avoid
|
||
;; comments, literals etc, since beginning-of-defun doesn't do that
|
||
;; anyway.
|
||
(skip-chars-forward "^}")
|
||
(c-beginning-of-defun-1)
|
||
(if (eq (char-after) ?{)
|
||
(c-forward-sexp))
|
||
(if (< (point) start)
|
||
(goto-char (point-max)))))
|
||
|
||
(defmacro c-mark-<-as-paren (pos)
|
||
;; Mark the "<" character at POS as a template opener using the
|
||
;; `syntax-table' property either directly (XEmacs) or via a `category'
|
||
;; property (GNU Emacs).
|
||
;;
|
||
;; This function does a hidden buffer change. Note that we use
|
||
;; indirection through the `category' text property. This allows us to
|
||
;; toggle the property in all template brackets simultaneously and
|
||
;; cheaply. We use this, for instance, in `c-parse-state'.
|
||
(if c-use-category
|
||
`(c-put-char-property ,pos 'category 'c-<-as-paren-syntax)
|
||
`(c-put-char-property ,pos 'syntax-table c-<-as-paren-syntax)))
|
||
|
||
|
||
(defmacro c-mark->-as-paren (pos)
|
||
;; Mark the ">" character at POS as an sexp list closer using the
|
||
;; `syntax-table' property either directly (XEmacs) or via a `category'
|
||
;; property (GNU Emacs).
|
||
;;
|
||
;; This function does a hidden buffer change. Note that we use
|
||
;; indirection through the `category' text property. This allows us to
|
||
;; toggle the property in all template brackets simultaneously and
|
||
;; cheaply. We use this, for instance, in `c-parse-state'.
|
||
(if c-use-category
|
||
`(c-put-char-property ,pos 'category 'c->-as-paren-syntax)
|
||
`(c-put-char-property ,pos 'syntax-table c->-as-paren-syntax)))
|
||
|
||
(defmacro c-unmark-<->-as-paren (pos)
|
||
;; Unmark the "<" or "<" character at POS as an sexp list opener using the
|
||
;; `syntax-table' property either directly or indirectly through a
|
||
;; `category' text property.
|
||
;;
|
||
;; This function does a hidden buffer change. Note that we try to use
|
||
;; indirection through the `category' text property. This allows us to
|
||
;; toggle the property in all template brackets simultaneously and
|
||
;; cheaply. We use this, for instance, in `c-parse-state'.
|
||
`(c-clear-char-property ,pos ,(if c-use-category ''category ''syntax-table)))
|
||
|
||
(defsubst c-suppress-<->-as-parens ()
|
||
;; Suppress the syntactic effect of all marked < and > as parens. Note
|
||
;; that this effect is NOT buffer local. You should probably not use
|
||
;; this directly, but only through the macro
|
||
;; `c-with-<->-as-parens-suppressed'
|
||
(put 'c-<-as-paren-syntax 'syntax-table nil)
|
||
(put 'c->-as-paren-syntax 'syntax-table nil))
|
||
|
||
(defsubst c-restore-<->-as-parens ()
|
||
;; Restore the syntactic effect of all marked <s and >s as parens. This
|
||
;; has no effect on unmarked <s and >s
|
||
(put 'c-<-as-paren-syntax 'syntax-table c-<-as-paren-syntax)
|
||
(put 'c->-as-paren-syntax 'syntax-table c->-as-paren-syntax))
|
||
|
||
(defmacro c-with-<->-as-parens-suppressed (&rest forms)
|
||
;; Like progn, except that the paren property is suppressed on all
|
||
;; template brackets whilst they are running. This macro does a hidden
|
||
;; buffer change.
|
||
`(unwind-protect
|
||
(progn
|
||
(c-suppress-<->-as-parens)
|
||
,@forms)
|
||
(c-restore-<->-as-parens)))
|
||
|
||
;;;;;;;;;;;;;;;
|
||
|
||
(defconst c-cpp-delimiter '(14)) ; generic comment syntax
|
||
;; This is the value of the `category' text property placed on every #
|
||
;; which introduces a CPP construct and every EOL (or EOB, or character
|
||
;; preceding //, etc.) which terminates it. We can instantly "comment
|
||
;; out" all CPP constructs by giving `c-cpp-delimiter' a syntax-table
|
||
;; property '(14) (generic comment delimiter).
|
||
(defmacro c-set-cpp-delimiters (beg end)
|
||
;; This macro does a hidden buffer change.
|
||
`(progn
|
||
(c-put-char-property ,beg 'category 'c-cpp-delimiter)
|
||
(if (< ,end (point-max))
|
||
(c-put-char-property ,end 'category 'c-cpp-delimiter))))
|
||
(defmacro c-clear-cpp-delimiters (beg end)
|
||
;; This macro does a hidden buffer change.
|
||
`(progn
|
||
(c-clear-char-property ,beg 'category)
|
||
(if (< ,end (point-max))
|
||
(c-clear-char-property ,end 'category))))
|
||
|
||
(defsubst c-comment-out-cpps ()
|
||
;; Render all preprocessor constructs syntactically commented out.
|
||
(put 'c-cpp-delimiter 'syntax-table c-cpp-delimiter))
|
||
(defsubst c-uncomment-out-cpps ()
|
||
;; Restore the syntactic visibility of preprocessor constructs.
|
||
(put 'c-cpp-delimiter 'syntax-table nil))
|
||
|
||
(defmacro c-with-cpps-commented-out (&rest forms)
|
||
;; Execute FORMS... whilst the syntactic effect of all characters in
|
||
;; all CPP regions is suppressed. In particular, this is to suppress
|
||
;; the syntactic significance of parens/braces/brackets to functions
|
||
;; such as `scan-lists' and `parse-partial-sexp'.
|
||
`(unwind-protect
|
||
(c-save-buffer-state ()
|
||
(c-comment-out-cpps)
|
||
,@forms)
|
||
(c-save-buffer-state ()
|
||
(c-uncomment-out-cpps))))
|
||
|
||
(defmacro c-with-all-but-one-cpps-commented-out (beg end &rest forms)
|
||
;; Execute FORMS... whilst the syntactic effect of all characters in
|
||
;; every CPP region APART FROM THE ONE BETWEEN BEG and END is
|
||
;; suppressed.
|
||
`(unwind-protect
|
||
(c-save-buffer-state ()
|
||
(save-restriction
|
||
(widen)
|
||
(c-clear-cpp-delimiters ,beg ,end))
|
||
,`(c-with-cpps-commented-out ,@forms))
|
||
(c-save-buffer-state ()
|
||
(save-restriction
|
||
(widen)
|
||
(c-set-cpp-delimiters ,beg ,end)))))
|
||
|
||
(defmacro c-self-bind-state-cache (&rest forms)
|
||
;; Bind the state cache to itself and execute the FORMS. Return the result
|
||
;; of the last FORM executed. It is assumed that no buffer changes will
|
||
;; happen in FORMS, and no hidden buffer changes which could affect the
|
||
;; parsing will be made by FORMS.
|
||
`(let* ((c-state-cache (copy-tree c-state-cache))
|
||
(c-state-cache-good-pos c-state-cache-good-pos)
|
||
;(c-state-nonlit-pos-cache (copy-tree c-state-nonlit-pos-cache))
|
||
;(c-state-nonlit-pos-cache-limit c-state-nonlit-pos-cache-limit)
|
||
;(c-state-semi-nonlit-pos-cache (copy-tree c-state-semi-nonlit-pos-cache))
|
||
;(c-state-semi-nonlit-pos-cache-limit c-state-semi-nonlit-pos-cache)
|
||
(c-state-brace-pair-desert (copy-tree c-state-brace-pair-desert))
|
||
(c-state-point-min c-state-point-min)
|
||
(c-state-point-min-lit-type c-state-point-min-lit-type)
|
||
(c-state-point-min-lit-start c-state-point-min-lit-start)
|
||
(c-state-min-scan-pos c-state-min-scan-pos)
|
||
(c-state-old-cpp-beg-marker (if (markerp c-state-old-cpp-beg-marker)
|
||
(copy-marker c-state-old-cpp-beg-marker)
|
||
c-state-old-cpp-beg-marker))
|
||
(c-state-old-cpp-beg (if (markerp c-state-old-cpp-beg)
|
||
c-state-old-cpp-beg-marker
|
||
c-state-old-cpp-beg))
|
||
(c-state-old-cpp-end-marker (if (markerp c-state-old-cpp-end-marker)
|
||
(copy-marker c-state-old-cpp-end-marker)
|
||
c-state-old-cpp-end-marker))
|
||
(c-state-old-cpp-end (if (markerp c-state-old-cpp-end)
|
||
c-state-old-cpp-end-marker
|
||
c-state-old-cpp-end))
|
||
(c-parse-state-state c-parse-state-state))
|
||
(prog1
|
||
(progn ,@forms)
|
||
(if (markerp c-state-old-cpp-beg-marker)
|
||
(move-marker c-state-old-cpp-beg-marker nil))
|
||
(if (markerp c-state-old-cpp-end-marker)
|
||
(move-marker c-state-old-cpp-end-marker nil)))))
|
||
|
||
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
|
||
;; The following macros are to be used only in `c-parse-state' and its
|
||
;; subroutines. Their main purpose is to simplify the handling of C++/Java
|
||
;; template delimiters and CPP macros. In GNU Emacs, this is done slickly by
|
||
;; the judicious use of 'category properties. These don't exist in XEmacs.
|
||
;;
|
||
;; Note: in the following macros, there is no special handling for parentheses
|
||
;; inside CPP constructs. That is because CPPs are always syntactically
|
||
;; balanced, thanks to `c-neutralize-CPP-line' in cc-mode.el.
|
||
(defmacro c-sc-scan-lists-no-category+1+1 (from)
|
||
;; Do a (scan-lists FROM 1 1). Any finishing position which either (i) is
|
||
;; determined by and angle bracket; or (ii) is inside a macro whose start
|
||
;; isn't POINT-MACRO-START doesn't count as a finishing position.
|
||
`(let ((here (point))
|
||
(pos (scan-lists ,from 1 1)))
|
||
(while (eq (char-before pos) ?>)
|
||
(setq pos (scan-lists pos 1 1)))
|
||
pos))
|
||
|
||
(defmacro c-sc-scan-lists-no-category+1-1 (from)
|
||
;; Do a (scan-lists FROM 1 -1). Any finishing position which either (i) is
|
||
;; determined by an angle bracket; or (ii) is inside a macro whose start
|
||
;; isn't POINT-MACRO-START doesn't count as a finishing position.
|
||
`(let ((here (point))
|
||
(pos (scan-lists ,from 1 -1)))
|
||
(while (eq (char-before pos) ?<)
|
||
(setq pos (scan-lists pos 1 1))
|
||
(setq pos (scan-lists pos 1 -1)))
|
||
pos))
|
||
|
||
(defmacro c-sc-scan-lists-no-category-1+1 (from)
|
||
;; Do a (scan-lists FROM -1 1). Any finishing position which either (i) is
|
||
;; determined by and angle bracket; or (ii) is inside a macro whose start
|
||
;; isn't POINT-MACRO-START doesn't count as a finishing position.
|
||
`(let ((here (point))
|
||
(pos (scan-lists ,from -1 1)))
|
||
(while (eq (char-after pos) ?<)
|
||
(setq pos (scan-lists pos -1 1)))
|
||
pos))
|
||
|
||
(defmacro c-sc-scan-lists-no-category-1-1 (from)
|
||
;; Do a (scan-lists FROM -1 -1). Any finishing position which either (i) is
|
||
;; determined by and angle bracket; or (ii) is inside a macro whose start
|
||
;; isn't POINT-MACRO-START doesn't count as a finishing position.
|
||
`(let ((here (point))
|
||
(pos (scan-lists ,from -1 -1)))
|
||
(while (eq (char-after pos) ?>)
|
||
(setq pos (scan-lists pos -1 1))
|
||
(setq pos (scan-lists pos -1 -1)))
|
||
pos))
|
||
|
||
(defmacro c-sc-scan-lists (from count depth)
|
||
(if c-use-category
|
||
`(scan-lists ,from ,count ,depth)
|
||
(cond
|
||
((and (eq count 1) (eq depth 1))
|
||
`(c-sc-scan-lists-no-category+1+1 ,from))
|
||
((and (eq count 1) (eq depth -1))
|
||
`(c-sc-scan-lists-no-category+1-1 ,from))
|
||
((and (eq count -1) (eq depth 1))
|
||
`(c-sc-scan-lists-no-category-1+1 ,from))
|
||
((and (eq count -1) (eq depth -1))
|
||
`(c-sc-scan-lists-no-category-1-1 ,from))
|
||
(t (error "Invalid parameter(s) to c-sc-scan-lists")))))
|
||
|
||
|
||
(defun c-sc-parse-partial-sexp-no-category (from to targetdepth stopbefore
|
||
oldstate)
|
||
;; Do a parse-partial-sexp using the supplied arguments, disregarding
|
||
;; template/generic delimiters < > and disregarding macros other than the
|
||
;; one at POINT-MACRO-START.
|
||
;;
|
||
;; NOTE that STOPBEFORE must be nil. TARGETDEPTH should be one less than
|
||
;; the depth in OLDSTATE. This function is thus a SPECIAL PURPOSE variation
|
||
;; on parse-partial-sexp, designed for calling from
|
||
;; `c-remove-stale-state-cache'.
|
||
;;
|
||
;; Any finishing position which is determined by an angle bracket delimiter
|
||
;; doesn't count as a finishing position.
|
||
;;
|
||
;; Note there is no special handling of CPP constructs here, since these are
|
||
;; always syntactically balanced (thanks to `c-neutralize-CPP-line').
|
||
(let ((state
|
||
(parse-partial-sexp from to targetdepth stopbefore oldstate)))
|
||
(while
|
||
(and (< (point) to)
|
||
;; We must have hit targetdepth.
|
||
(or (eq (char-before) ?<)
|
||
(eq (char-before) ?>)))
|
||
(setcar state
|
||
(if (memq (char-before) '(?> ?\) ?\} ?\]))
|
||
(1+ (car state))
|
||
(1- (car state))))
|
||
(setq state
|
||
(parse-partial-sexp (point) to targetdepth stopbefore oldstate)))
|
||
state))
|
||
|
||
(defmacro c-sc-parse-partial-sexp (from to &optional targetdepth stopbefore
|
||
oldstate)
|
||
(if c-use-category
|
||
`(parse-partial-sexp ,from ,to ,targetdepth ,stopbefore ,oldstate)
|
||
`(c-sc-parse-partial-sexp-no-category ,from ,to ,targetdepth ,stopbefore
|
||
,oldstate)))
|
||
|
||
|
||
(defvar c-emacs-features)
|
||
|
||
(defmacro c-looking-at-non-alphnumspace ()
|
||
"Are we looking at a character which isn't alphanumeric or space?"
|
||
(if (memq 'gen-comment-delim c-emacs-features)
|
||
`(looking-at
|
||
"\\([;#]\\|\\'\\|\\s(\\|\\s)\\|\\s\"\\|\\s\\\\|\\s$\\|\\s<\\|\\s>\\|\\s!\\)")
|
||
`(or (looking-at
|
||
"\\([;#]\\|\\'\\|\\s(\\|\\s)\\|\\s\"\\|\\s\\\\|\\s$\\|\\s<\\|\\s>\\)"
|
||
(let ((prop (c-get-char-property (point) 'syntax-table)))
|
||
(eq prop '(14))))))) ; '(14) is generic comment delimiter.
|
||
|
||
|
||
(defsubst c-intersect-lists (list alist)
|
||
;; return the element of ALIST that matches the first element found
|
||
;; in LIST. Uses assq.
|
||
(let (match)
|
||
(while (and list
|
||
(not (setq match (assq (car list) alist))))
|
||
(setq list (cdr list)))
|
||
match))
|
||
|
||
(defsubst c-lookup-lists (list alist1 alist2)
|
||
;; first, find the first entry from LIST that is present in ALIST1,
|
||
;; then find the entry in ALIST2 for that entry.
|
||
(assq (car (c-intersect-lists list alist1)) alist2))
|
||
|
||
(defsubst c-langelem-sym (langelem)
|
||
"Return the syntactic symbol in LANGELEM.
|
||
|
||
LANGELEM is either a cons cell on the \"old\" form given as the first
|
||
argument to lineup functions or a syntactic element on the \"new\"
|
||
form as used in `c-syntactic-element'."
|
||
(car langelem))
|
||
|
||
(defsubst c-langelem-pos (langelem)
|
||
"Return the anchor position in LANGELEM, or nil if there is none.
|
||
|
||
LANGELEM is either a cons cell on the \"old\" form given as the first
|
||
argument to lineup functions or a syntactic element on the \"new\"
|
||
form as used in `c-syntactic-element'."
|
||
(if (consp (cdr langelem))
|
||
(car-safe (cdr langelem))
|
||
(cdr langelem)))
|
||
|
||
(defun c-langelem-col (langelem &optional preserve-point)
|
||
"Return the column of the anchor position in LANGELEM.
|
||
Also move the point to that position unless PRESERVE-POINT is non-nil.
|
||
|
||
LANGELEM is either a cons cell on the \"old\" form given as the first
|
||
argument to lineup functions or a syntactic element on the \"new\"
|
||
form as used in `c-syntactic-element'."
|
||
(let ((pos (c-langelem-pos langelem))
|
||
(here (point)))
|
||
(if pos
|
||
(progn
|
||
(goto-char pos)
|
||
(prog1 (current-column)
|
||
(if preserve-point
|
||
(goto-char here))))
|
||
0)))
|
||
|
||
(defsubst c-langelem-2nd-pos (langelem)
|
||
"Return the secondary position in LANGELEM, or nil if there is none.
|
||
|
||
LANGELEM is typically a syntactic element on the \"new\" form as used
|
||
in `c-syntactic-element'. It may also be a cons cell as passed in the
|
||
first argument to lineup functions, but then the returned value always
|
||
will be nil."
|
||
(car-safe (cdr-safe (cdr-safe langelem))))
|
||
|
||
(defsubst c-keep-region-active ()
|
||
;; Do whatever is necessary to keep the region active in XEmacs.
|
||
;; This is not needed for Emacs.
|
||
(and (boundp 'zmacs-region-stays)
|
||
(setq zmacs-region-stays t)))
|
||
|
||
(put 'c-mode 'c-mode-prefix "c-")
|
||
(put 'c++-mode 'c-mode-prefix "c++-")
|
||
(put 'objc-mode 'c-mode-prefix "objc-")
|
||
(put 'java-mode 'c-mode-prefix "java-")
|
||
(put 'idl-mode 'c-mode-prefix "idl-")
|
||
(put 'pike-mode 'c-mode-prefix "pike-")
|
||
(put 'awk-mode 'c-mode-prefix "awk-")
|
||
|
||
(defsubst c-mode-symbol (suffix)
|
||
"Prefix the current mode prefix (e.g. \"c-\") to SUFFIX and return
|
||
the corresponding symbol."
|
||
(or c-buffer-is-cc-mode
|
||
(error "Not inside a CC Mode based mode"))
|
||
(let ((mode-prefix (get c-buffer-is-cc-mode 'c-mode-prefix)))
|
||
(or mode-prefix
|
||
(error "%S has no mode prefix known to `c-mode-symbol'"
|
||
c-buffer-is-cc-mode))
|
||
(intern (concat mode-prefix suffix))))
|
||
|
||
(defsubst c-mode-var (suffix)
|
||
"Prefix the current mode prefix (e.g. \"c-\") to SUFFIX and return
|
||
the value of the variable with that name."
|
||
(symbol-value (c-mode-symbol suffix)))
|
||
|
||
(defsubst c-got-face-at (pos faces)
|
||
"Return non-nil if position POS in the current buffer has any of the
|
||
faces in the list FACES."
|
||
(let ((pos-faces (get-text-property pos 'face)))
|
||
(if (consp pos-faces)
|
||
(progn
|
||
(while (and pos-faces
|
||
(not (memq (car pos-faces) faces)))
|
||
(setq pos-faces (cdr pos-faces)))
|
||
pos-faces)
|
||
(memq pos-faces faces))))
|
||
|
||
(defsubst c-face-name-p (facename)
|
||
;; Return t if FACENAME is the name of a face. This method is
|
||
;; necessary since facep in XEmacs only returns t for the actual
|
||
;; face objects (while it's only their names that are used just
|
||
;; about anywhere else) without providing a predicate that tests
|
||
;; face names.
|
||
(memq facename (face-list)))
|
||
|
||
(defun c-concat-separated (list separator)
|
||
"Like `concat' on LIST, but separate each element with SEPARATOR.
|
||
Notably, null elements in LIST are ignored."
|
||
(mapconcat 'identity (delete nil (append list nil)) separator))
|
||
|
||
(defun c-make-keywords-re (adorn list &optional mode)
|
||
"Make a regexp that matches all the strings the list.
|
||
Duplicates and nil elements in the list are removed. The
|
||
resulting regexp may contain zero or more submatch expressions.
|
||
|
||
If ADORN is t there will be at least one submatch and the first
|
||
surrounds the matched alternative, and the regexp will also not match
|
||
a prefix of any identifier. Adorned regexps cannot be appended. The
|
||
language variable `c-nonsymbol-key' is used to make the adornment.
|
||
|
||
A value `appendable' for ADORN is like above, but all alternatives in
|
||
the list that end with a word constituent char will have \\> appended
|
||
instead, so that the regexp remains appendable. Note that this
|
||
variant doesn't always guarantee that an identifier prefix isn't
|
||
matched since the symbol constituent `_' is normally considered a
|
||
nonword token by \\>.
|
||
|
||
The optional MODE specifies the language to get `c-nonsymbol-key' from
|
||
when it's needed. The default is the current language taken from
|
||
`c-buffer-is-cc-mode'."
|
||
|
||
(setq list (delete nil (delete-dups list)))
|
||
(if list
|
||
(let (re)
|
||
|
||
(if (eq adorn 'appendable)
|
||
;; This is kludgy but it works: Search for a string that
|
||
;; doesn't occur in any word in LIST. Append it to all
|
||
;; the alternatives where we want to add \>. Run through
|
||
;; `regexp-opt' and then replace it with \>.
|
||
(let ((unique "") pos)
|
||
(while (let (found)
|
||
(setq unique (concat unique "@")
|
||
pos list)
|
||
(while (and pos
|
||
(if (string-match unique (car pos))
|
||
(progn (setq found t)
|
||
nil)
|
||
t))
|
||
(setq pos (cdr pos)))
|
||
found))
|
||
(setq pos list)
|
||
(while pos
|
||
(if (string-match "\\w\\'" (car pos))
|
||
(setcar pos (concat (car pos) unique)))
|
||
(setq pos (cdr pos)))
|
||
(setq re (regexp-opt list))
|
||
(setq pos 0)
|
||
(while (string-match unique re pos)
|
||
(setq pos (+ (match-beginning 0) 2)
|
||
re (replace-match "\\>" t t re))))
|
||
|
||
(setq re (regexp-opt list)))
|
||
|
||
;; Emacs 20 and XEmacs (all versions so far) has a buggy
|
||
;; regexp-opt that doesn't always cope with strings containing
|
||
;; newlines. This kludge doesn't handle shy parens correctly
|
||
;; so we can't advice regexp-opt directly with it.
|
||
(let (fail-list)
|
||
(while list
|
||
(and (string-match "\n" (car list)) ; To speed it up a little.
|
||
(not (string-match (concat "\\`\\(" re "\\)\\'")
|
||
(car list)))
|
||
(setq fail-list (cons (car list) fail-list)))
|
||
(setq list (cdr list)))
|
||
(when fail-list
|
||
(setq re (concat re
|
||
"\\|"
|
||
(mapconcat
|
||
(if (eq adorn 'appendable)
|
||
(lambda (str)
|
||
(if (string-match "\\w\\'" str)
|
||
(concat (regexp-quote str)
|
||
"\\>")
|
||
(regexp-quote str)))
|
||
'regexp-quote)
|
||
(sort fail-list
|
||
(lambda (a b)
|
||
(> (length a) (length b))))
|
||
"\\|")))))
|
||
|
||
;; Add our own grouping parenthesis around re instead of
|
||
;; passing adorn to `regexp-opt', since in XEmacs it makes the
|
||
;; top level grouping "shy".
|
||
(cond ((eq adorn 'appendable)
|
||
(concat "\\(" re "\\)"))
|
||
(adorn
|
||
(concat "\\(" re "\\)"
|
||
"\\("
|
||
(c-get-lang-constant 'c-nonsymbol-key nil mode)
|
||
"\\|$\\)"))
|
||
(t
|
||
re)))
|
||
|
||
;; Produce a regexp that matches nothing.
|
||
(if adorn
|
||
"\\(\\<\\>\\)"
|
||
"\\<\\>")))
|
||
|
||
(put 'c-make-keywords-re 'lisp-indent-function 1)
|
||
|
||
(defun c-make-bare-char-alt (chars &optional inverted)
|
||
"Make a character alternative string from the list of characters CHARS.
|
||
The returned string is of the type that can be used with
|
||
`skip-chars-forward' and `skip-chars-backward'. If INVERTED is
|
||
non-nil, a caret is prepended to invert the set."
|
||
;; This function ought to be in the elisp core somewhere.
|
||
(let ((str (if inverted "^" "")) char char2)
|
||
(setq chars (sort (append chars nil) `<))
|
||
(while chars
|
||
(setq char (pop chars))
|
||
(if (memq char '(?\\ ?^ ?-))
|
||
;; Quoting necessary (this method only works in the skip
|
||
;; functions).
|
||
(setq str (format "%s\\%c" str char))
|
||
(setq str (format "%s%c" str char)))
|
||
;; Check for range.
|
||
(setq char2 char)
|
||
(while (and chars (>= (1+ char2) (car chars)))
|
||
(setq char2 (pop chars)))
|
||
(unless (= char char2)
|
||
(if (< (1+ char) char2)
|
||
(setq str (format "%s-%c" str char2))
|
||
(push char2 chars))))
|
||
str))
|
||
|
||
;; Leftovers from (X)Emacs 19 compatibility.
|
||
(defalias 'c-regexp-opt 'regexp-opt)
|
||
(defalias 'c-regexp-opt-depth 'regexp-opt-depth)
|
||
|
||
|
||
;; Figure out what features this Emacs has
|
||
|
||
(cc-bytecomp-defvar open-paren-in-column-0-is-defun-start)
|
||
|
||
(defvar lookup-syntax-properties) ;XEmacs.
|
||
|
||
(defconst c-emacs-features
|
||
(let (list)
|
||
|
||
(if (boundp 'infodock-version)
|
||
;; I've no idea what this actually is, but it's legacy. /mast
|
||
(setq list (cons 'infodock list)))
|
||
|
||
;; XEmacs uses 8-bit modify-syntax-entry flags.
|
||
;; Emacs uses a 1-bit flag. We will have to set up our
|
||
;; syntax tables differently to handle this.
|
||
(let ((table (copy-syntax-table))
|
||
entry)
|
||
(modify-syntax-entry ?a ". 12345678" table)
|
||
(cond
|
||
;; Emacs
|
||
((arrayp table)
|
||
(setq entry (aref table ?a))
|
||
;; In Emacs, table entries are cons cells
|
||
(if (consp entry) (setq entry (car entry))))
|
||
;; XEmacs
|
||
((fboundp 'get-char-table)
|
||
(setq entry (get-char-table ?a table)))
|
||
;; incompatible
|
||
(t (error "CC Mode is incompatible with this version of Emacs")))
|
||
(setq list (cons (if (= (logand (lsh entry -16) 255) 255)
|
||
'8-bit
|
||
'1-bit)
|
||
list)))
|
||
|
||
;; Check whether beginning/end-of-defun call
|
||
;; beginning/end-of-defun-function nicely, passing through the
|
||
;; argument and respecting the return code.
|
||
(let* (mark-ring
|
||
(bod-param 'foo) (eod-param 'foo)
|
||
(beginning-of-defun-function
|
||
(lambda (&optional arg)
|
||
(or (eq bod-param 'foo) (setq bod-param 'bar))
|
||
(and (eq bod-param 'foo)
|
||
(setq bod-param arg)
|
||
(eq arg 3))))
|
||
(end-of-defun-function
|
||
(lambda (&optional arg)
|
||
(and (eq eod-param 'foo)
|
||
(setq eod-param arg)
|
||
(eq arg 3)))))
|
||
(if (save-excursion (and (beginning-of-defun 3) (eq bod-param 3)
|
||
(not (beginning-of-defun))
|
||
(end-of-defun 3) (eq eod-param 3)
|
||
(not (end-of-defun))))
|
||
(setq list (cons 'argumentative-bod-function list))))
|
||
|
||
;; Record whether the `category' text property works.
|
||
(if c-use-category (setq list (cons 'category-properties list)))
|
||
|
||
(let ((buf (generate-new-buffer " test"))
|
||
parse-sexp-lookup-properties
|
||
parse-sexp-ignore-comments
|
||
lookup-syntax-properties) ; XEmacs
|
||
(with-current-buffer buf
|
||
(set-syntax-table (make-syntax-table))
|
||
|
||
;; For some reason we have to set some of these after the
|
||
;; buffer has been made current. (Specifically,
|
||
;; `parse-sexp-ignore-comments' in Emacs 21.)
|
||
(setq parse-sexp-lookup-properties t
|
||
parse-sexp-ignore-comments t
|
||
lookup-syntax-properties t)
|
||
|
||
;; Find out if the `syntax-table' text property works.
|
||
(modify-syntax-entry ?< ".")
|
||
(modify-syntax-entry ?> ".")
|
||
(insert "<()>")
|
||
(c-mark-<-as-paren (point-min))
|
||
(c-mark->-as-paren (+ 3 (point-min)))
|
||
(goto-char (point-min))
|
||
(c-forward-sexp)
|
||
(if (= (point) (+ 4 (point-min)))
|
||
(setq list (cons 'syntax-properties list))
|
||
(error (concat
|
||
"CC Mode is incompatible with this version of Emacs - "
|
||
"support for the `syntax-table' text property "
|
||
"is required.")))
|
||
|
||
;; Find out if "\\s!" (generic comment delimiters) work.
|
||
(c-safe
|
||
(modify-syntax-entry ?x "!")
|
||
(if (string-match "\\s!" "x")
|
||
(setq list (cons 'gen-comment-delim list))))
|
||
|
||
;; Find out if "\\s|" (generic string delimiters) work.
|
||
(c-safe
|
||
(modify-syntax-entry ?x "|")
|
||
(if (string-match "\\s|" "x")
|
||
(setq list (cons 'gen-string-delim list))))
|
||
|
||
;; See if POSIX char classes work.
|
||
(when (and (string-match "[[:alpha:]]" "a")
|
||
;; All versions of Emacs 21 so far haven't fixed
|
||
;; char classes in `skip-chars-forward' and
|
||
;; `skip-chars-backward'.
|
||
(progn
|
||
(delete-region (point-min) (point-max))
|
||
(insert "foo123")
|
||
(skip-chars-backward "[:alnum:]")
|
||
(bobp))
|
||
(= (skip-chars-forward "[:alpha:]") 3))
|
||
(setq list (cons 'posix-char-classes list)))
|
||
|
||
;; See if `open-paren-in-column-0-is-defun-start' exists and
|
||
;; isn't buggy (Emacs >= 21.4).
|
||
(when (boundp 'open-paren-in-column-0-is-defun-start)
|
||
(let ((open-paren-in-column-0-is-defun-start nil)
|
||
(parse-sexp-ignore-comments t))
|
||
(delete-region (point-min) (point-max))
|
||
(set-syntax-table (make-syntax-table))
|
||
(modify-syntax-entry ?\' "\"")
|
||
(cond
|
||
;; XEmacs. Afaik this is currently an Emacs-only
|
||
;; feature, but it's good to be prepared.
|
||
((memq '8-bit list)
|
||
(modify-syntax-entry ?/ ". 1456")
|
||
(modify-syntax-entry ?* ". 23"))
|
||
;; Emacs
|
||
((memq '1-bit list)
|
||
(modify-syntax-entry ?/ ". 124b")
|
||
(modify-syntax-entry ?* ". 23")))
|
||
(modify-syntax-entry ?\n "> b")
|
||
(insert "/* '\n () */")
|
||
(backward-sexp)
|
||
(if (bobp)
|
||
(setq list (cons 'col-0-paren list)))))
|
||
|
||
(set-buffer-modified-p nil))
|
||
(kill-buffer buf))
|
||
|
||
;; See if `parse-partial-sexp' returns the eighth element.
|
||
(if (c-safe (>= (length (save-excursion
|
||
(parse-partial-sexp (point) (point))))
|
||
10))
|
||
(setq list (cons 'pps-extended-state list))
|
||
(error (concat
|
||
"CC Mode is incompatible with this version of Emacs - "
|
||
"`parse-partial-sexp' has to return at least 10 elements.")))
|
||
|
||
;;(message "c-emacs-features: %S" list)
|
||
list)
|
||
"A list of certain features in the (X)Emacs you are using.
|
||
There are many flavors of Emacs out there, each with different
|
||
features supporting those needed by CC Mode. The following values
|
||
might be present:
|
||
|
||
`8-bit' 8 bit syntax entry flags (XEmacs style).
|
||
`1-bit' 1 bit syntax entry flags (Emacs style).
|
||
`argumentative-bod-function' beginning-of-defun and end-of-defun pass
|
||
ARG through to beginning/end-of-defun-function.
|
||
`syntax-properties' It works to override the syntax for specific characters
|
||
in the buffer with the `syntax-table' property. It's
|
||
always set - CC Mode no longer works in emacsen without
|
||
this feature.
|
||
`category-properties' Syntax routines can add a level of indirection to text
|
||
properties using the `category' property.
|
||
`gen-comment-delim' Generic comment delimiters work
|
||
(i.e. the syntax class `!').
|
||
`gen-string-delim' Generic string delimiters work
|
||
(i.e. the syntax class `|').
|
||
`pps-extended-state' `parse-partial-sexp' returns a list with at least 10
|
||
elements, i.e. it contains the position of the start of
|
||
the last comment or string. It's always set - CC Mode
|
||
no longer works in emacsen without this feature.
|
||
`posix-char-classes' The regexp engine understands POSIX character classes.
|
||
`col-0-paren' It's possible to turn off the ad-hoc rule that a paren
|
||
in column zero is the start of a defun.
|
||
`infodock' This is Infodock (based on XEmacs).
|
||
|
||
`8-bit' and `1-bit' are mutually exclusive.")
|
||
|
||
|
||
;;; Some helper constants.
|
||
|
||
;; If the regexp engine supports POSIX char classes then we can use
|
||
;; them to handle extended charsets correctly.
|
||
(if (memq 'posix-char-classes c-emacs-features)
|
||
(progn
|
||
(defconst c-alpha "[:alpha:]")
|
||
(defconst c-alnum "[:alnum:]")
|
||
(defconst c-digit "[:digit:]")
|
||
(defconst c-upper "[:upper:]")
|
||
(defconst c-lower "[:lower:]"))
|
||
(defconst c-alpha "a-zA-Z")
|
||
(defconst c-alnum "a-zA-Z0-9")
|
||
(defconst c-digit "0-9")
|
||
(defconst c-upper "A-Z")
|
||
(defconst c-lower "a-z"))
|
||
|
||
|
||
;;; System for handling language dependent constants.
|
||
|
||
;; This is used to set various language dependent data in a flexible
|
||
;; way: Language constants can be built from the values of other
|
||
;; language constants, also those for other languages. They can also
|
||
;; process the values of other language constants uniformly across all
|
||
;; the languages. E.g. one language constant can list all the type
|
||
;; keywords in each language, and another can build a regexp for each
|
||
;; language from those lists without code duplication.
|
||
;;
|
||
;; Language constants are defined with `c-lang-defconst', and their
|
||
;; value forms (referred to as source definitions) are evaluated only
|
||
;; on demand when requested for a particular language with
|
||
;; `c-lang-const'. It's therefore possible to refer to the values of
|
||
;; constants defined later in the file, or in another file, just as
|
||
;; long as all the relevant `c-lang-defconst' have been loaded when
|
||
;; `c-lang-const' is actually evaluated from somewhere else.
|
||
;;
|
||
;; `c-lang-const' forms are also evaluated at compile time and
|
||
;; replaced with the values they produce. Thus there's no overhead
|
||
;; for this system when compiled code is used - only the values
|
||
;; actually used in the code are present, and the file(s) containing
|
||
;; the `c-lang-defconst' forms don't need to be loaded at all then.
|
||
;; There are however safeguards to make sure that they can be loaded
|
||
;; to get the source definitions for the values if there's a mismatch
|
||
;; in compiled versions, or if `c-lang-const' is used uncompiled.
|
||
;;
|
||
;; Note that the source definitions in a `c-lang-defconst' form are
|
||
;; compiled into the .elc file where it stands; there's no need to
|
||
;; load the source file to get it.
|
||
;;
|
||
;; See cc-langs.el for more details about how this system is deployed
|
||
;; in CC Mode, and how the associated language variable system
|
||
;; (`c-lang-defvar') works. That file also contains a lot of
|
||
;; examples.
|
||
|
||
(defun c-add-language (mode base-mode)
|
||
"Declare a new language in the language dependent variable system.
|
||
This is intended to be used by modes that inherit CC Mode to add new
|
||
languages. It should be used at the top level before any calls to
|
||
`c-lang-defconst'. MODE is the mode name symbol for the new language,
|
||
and BASE-MODE is the mode name symbol for the language in CC Mode that
|
||
is to be the template for the new mode.
|
||
|
||
The exact effect of BASE-MODE is to make all language constants that
|
||
haven't got a setting in the new language fall back to their values in
|
||
BASE-MODE. It does not have any effect outside the language constant
|
||
system."
|
||
(unless (string-match "\\`\\(.*-\\)mode\\'" (symbol-name mode))
|
||
(error "The mode name symbol `%s' must end with \"-mode\"" mode))
|
||
(put mode 'c-mode-prefix (match-string 1 (symbol-name mode)))
|
||
(unless (get base-mode 'c-mode-prefix)
|
||
(error "Unknown base mode `%s'" base-mode))
|
||
(put mode 'c-fallback-mode base-mode))
|
||
|
||
(defvar c-lang-constants (make-vector 151 0))
|
||
;; Obarray used as a cache to keep track of the language constants.
|
||
;; The constants stored are those defined by `c-lang-defconst' and the values
|
||
;; computed by `c-lang-const'. It's mostly used at compile time but it's not
|
||
;; stored in compiled files.
|
||
|
||
;; The obarray contains all the language constants as symbols. The
|
||
;; value cells hold the evaluated values as alists where each car is
|
||
;; the mode name symbol and the corresponding cdr is the evaluated
|
||
;; value in that mode. The property lists hold the source definitions
|
||
;; and other miscellaneous data. The obarray might also contain
|
||
;; various other symbols, but those don't have any variable bindings.
|
||
|
||
(defvar c-lang-const-expansion nil)
|
||
|
||
;; Ugly hack to pull in the definition of `cc-bytecomp-compiling-or-loading'
|
||
;; from cc-bytecomp to make it available at loadtime. This is the same
|
||
;; mechanism used in cc-mode.el for `c-populate-syntax-table'.
|
||
(defalias 'cc-bytecomp-compiling-or-loading
|
||
(cc-eval-when-compile
|
||
(let ((f (symbol-function 'cc-bytecomp-compiling-or-loading)))
|
||
(if (byte-code-function-p f) f (byte-compile f)))))
|
||
|
||
(defsubst c-get-current-file ()
|
||
;; Return the base name of the current file.
|
||
(let* ((c-or-l (cc-bytecomp-compiling-or-loading))
|
||
(file
|
||
(cond
|
||
((eq c-or-l 'loading) load-file-name)
|
||
((eq c-or-l 'compiling) byte-compile-dest-file)
|
||
((null c-or-l) (buffer-file-name)))))
|
||
(and file
|
||
(file-name-sans-extension
|
||
(file-name-nondirectory file)))))
|
||
|
||
(defmacro c-lang-defconst-eval-immediately (form)
|
||
"Can be used inside a VAL in `c-lang-defconst' to evaluate FORM
|
||
immediately, i.e. at the same time as the `c-lang-defconst' form
|
||
itself is evaluated."
|
||
;; Evaluate at macro expansion time, i.e. in the
|
||
;; `c--macroexpand-all' inside `c-lang-defconst'.
|
||
(eval form))
|
||
|
||
(defmacro c-lang-defconst (name &rest args)
|
||
"Set the language specific values of the language constant NAME.
|
||
The second argument can optionally be a docstring. The rest of the
|
||
arguments are one or more repetitions of LANG VAL where LANG specifies
|
||
the language(s) that VAL applies to. LANG is the name of the
|
||
language, i.e. the mode name without the \"-mode\" suffix, or a list
|
||
of such language names, or t for all languages. VAL is a form to
|
||
evaluate to get the value.
|
||
|
||
If LANG isn't t or one of the core languages in CC Mode, it must
|
||
have been declared with `c-add-language'.
|
||
|
||
Neither NAME, LANG nor VAL are evaluated directly - they should not be
|
||
quoted. `c-lang-defconst-eval-immediately' can however be used inside
|
||
VAL to evaluate parts of it directly.
|
||
|
||
When VAL is evaluated for some language, that language is temporarily
|
||
made current so that `c-lang-const' without an explicit language can
|
||
be used inside VAL to refer to the value of a language constant in the
|
||
same language. That is particularly useful if LANG is t.
|
||
|
||
VAL is not evaluated right away but rather when the value is requested
|
||
with `c-lang-const'. Thus it's possible to use `c-lang-const' inside
|
||
VAL to refer to language constants that haven't been defined yet.
|
||
However, if the definition of a language constant is in another file
|
||
then that file must be loaded \(at compile time) before it's safe to
|
||
reference the constant.
|
||
|
||
The assignments in ARGS are processed in sequence like `setq', so
|
||
\(c-lang-const NAME) may be used inside a VAL to refer to the last
|
||
assigned value to this language constant, or a value that it has
|
||
gotten in another earlier loaded file.
|
||
|
||
To work well with repeated loads and interactive reevaluation, only
|
||
one `c-lang-defconst' for each NAME is permitted per file. If there
|
||
already is one it will be completely replaced; the value in the
|
||
earlier definition will not affect `c-lang-const' on the same
|
||
constant. A file is identified by its base name."
|
||
|
||
(let* ((sym (intern (symbol-name name) c-lang-constants))
|
||
;; Make `c-lang-const' expand to a straightforward call to
|
||
;; `c-get-lang-constant' in `c--macroexpand-all' below.
|
||
;;
|
||
;; (The default behavior, i.e. to expand to a call inside
|
||
;; `eval-when-compile' should be equivalent, since that macro
|
||
;; should only expand to its content if it's used inside a
|
||
;; form that's already evaluated at compile time. It's
|
||
;; however necessary to use our cover macro
|
||
;; `cc-eval-when-compile' due to bugs in `eval-when-compile',
|
||
;; and it expands to a bulkier form that in this case only is
|
||
;; unnecessary garbage that we don't want to store in the
|
||
;; language constant source definitions.)
|
||
(c-lang-const-expansion 'call)
|
||
(c-langs-are-parametric t)
|
||
(file (intern
|
||
(or (c-get-current-file)
|
||
(error "`c-lang-defconst' can only be used in a file"))))
|
||
bindings
|
||
pre-files)
|
||
|
||
(or (symbolp name)
|
||
(error "Not a symbol: %S" name))
|
||
|
||
(when (stringp (car-safe args))
|
||
;; The docstring is hardly used anywhere since there's no normal
|
||
;; symbol to attach it to. It's primarily for getting the right
|
||
;; format in the source.
|
||
(put sym 'variable-documentation (car args))
|
||
(setq args (cdr args)))
|
||
|
||
(or args
|
||
(error "No assignments in `c-lang-defconst' for %S" name))
|
||
|
||
;; Rework ARGS to an association list to make it easier to handle.
|
||
;; It's reversed at the same time to make it easier to implement
|
||
;; the demand-driven (i.e. reversed) evaluation in `c-lang-const'.
|
||
(while args
|
||
(let ((assigned-mode
|
||
(cond ((eq (car args) t) t)
|
||
((symbolp (car args))
|
||
(list (intern (concat (symbol-name (car args))
|
||
"-mode"))))
|
||
((listp (car args))
|
||
(mapcar (lambda (lang)
|
||
(or (symbolp lang)
|
||
(error "Not a list of symbols: %S"
|
||
(car args)))
|
||
(intern (concat (symbol-name lang)
|
||
"-mode")))
|
||
(car args)))
|
||
(t (error "Not a symbol or a list of symbols: %S"
|
||
(car args)))))
|
||
val)
|
||
|
||
(or (cdr args)
|
||
(error "No value for %S" (car args)))
|
||
(setq args (cdr args)
|
||
val (car args))
|
||
|
||
;; Emacs has a weird bug where it seems to fail to read
|
||
;; backquote lists from byte compiled files correctly (,@
|
||
;; forms, to be specific), so make sure the bindings in the
|
||
;; expansion below don't contain any backquote stuff.
|
||
;; (XEmacs handles it correctly and doesn't need this for that
|
||
;; reason, but we also use this expansion handle
|
||
;; `c-lang-defconst-eval-immediately' and to register
|
||
;; dependencies on the `c-lang-const's in VAL.)
|
||
(setq val (c--macroexpand-all val))
|
||
|
||
(setq bindings `(cons (cons ',assigned-mode (lambda () ,val)) ,bindings)
|
||
args (cdr args))))
|
||
|
||
;; Compile in the other files that have provided source
|
||
;; definitions for this symbol, to make sure the order in the
|
||
;; `source' property is correct even when files are loaded out of
|
||
;; order.
|
||
(setq pre-files (mapcar 'car (get sym 'source)))
|
||
(if (memq file pre-files)
|
||
;; This can happen when the source file (e.g. cc-langs.el) is first
|
||
;; loaded as source, setting a 'source property entry, and then itself
|
||
;; being compiled.
|
||
(setq pre-files (cdr (memq file pre-files))))
|
||
;; Reverse to get the right load order.
|
||
(setq pre-files (nreverse pre-files))
|
||
|
||
`(eval-and-compile
|
||
(c-define-lang-constant ',name ,bindings
|
||
,@(and pre-files `(',pre-files))))))
|
||
|
||
(put 'c-lang-defconst 'lisp-indent-function 1)
|
||
;(eval-after-load "edebug" ; 2006-07-09: def-edebug-spec is now in subr.el.
|
||
; '
|
||
(def-edebug-spec c-lang-defconst
|
||
(&define name [&optional stringp] [&rest sexp def-form]))
|
||
|
||
(defun c-define-lang-constant (name bindings &optional pre-files)
|
||
;; Used by `c-lang-defconst'.
|
||
|
||
(let* ((sym (intern (symbol-name name) c-lang-constants))
|
||
(source (get sym 'source))
|
||
(file (intern
|
||
(or (c-get-current-file)
|
||
(error "`c-lang-defconst' must be used in a file"))))
|
||
(elem (assq file source)))
|
||
|
||
;;(when (cdr-safe elem)
|
||
;; (message "Language constant %s redefined in %S" name file))
|
||
|
||
;; Note that the order in the source alist is relevant. Like how
|
||
;; `c-lang-defconst' reverses the bindings, this reverses the
|
||
;; order between files so that the last to evaluate comes first.
|
||
(unless elem
|
||
(while pre-files
|
||
(unless (assq (car pre-files) source)
|
||
(setq source (cons (list (car pre-files)) source)))
|
||
(setq pre-files (cdr pre-files)))
|
||
(put sym 'source (cons (setq elem (list file)) source)))
|
||
|
||
(setcdr elem bindings)
|
||
|
||
;; Bind the symbol as a variable, or clear any earlier evaluated
|
||
;; value it has.
|
||
(set sym nil)
|
||
|
||
;; Clear the evaluated values that depend on this source.
|
||
(let ((agenda (get sym 'dependents))
|
||
(visited (make-vector 101 0))
|
||
ptr)
|
||
(while agenda
|
||
(setq sym (car agenda)
|
||
agenda (cdr agenda))
|
||
(intern (symbol-name sym) visited)
|
||
(set sym nil)
|
||
(setq ptr (get sym 'dependents))
|
||
(while ptr
|
||
(setq sym (car ptr)
|
||
ptr (cdr ptr))
|
||
(unless (intern-soft (symbol-name sym) visited)
|
||
(setq agenda (cons sym agenda))))))
|
||
|
||
name))
|
||
|
||
(defmacro c-lang-const (name &optional lang)
|
||
"Get the mode specific value of the language constant NAME in language LANG.
|
||
LANG is the name of the language, i.e. the mode name without the
|
||
\"-mode\" suffix. If used inside `c-lang-defconst' or
|
||
`c-lang-defvar', LANG may be left out to refer to the current
|
||
language. NAME and LANG are not evaluated so they should not be
|
||
quoted."
|
||
|
||
(or (symbolp name)
|
||
(error "Not a symbol: %S" name))
|
||
(or (symbolp lang)
|
||
(error "Not a symbol: %S" lang))
|
||
|
||
(let ((sym (intern (symbol-name name) c-lang-constants))
|
||
(mode (when lang (intern (concat (symbol-name lang) "-mode")))))
|
||
|
||
(or (get mode 'c-mode-prefix) (null mode)
|
||
(error "Unknown language %S: no `c-mode-prefix' property"
|
||
lang))
|
||
|
||
(if (eq c-lang-const-expansion 'immediate)
|
||
;; No need to find out the source file(s) when we evaluate
|
||
;; immediately since all the info is already there in the
|
||
;; `source' property.
|
||
`',(c-get-lang-constant name nil mode)
|
||
|
||
(let ((source-files
|
||
(let ((file (c-get-current-file)))
|
||
(if file (setq file (intern file)))
|
||
;; Get the source file(s) that must be loaded to get the value
|
||
;; of the constant. If the symbol isn't defined yet we assume
|
||
;; that its definition will come later in this file, and thus
|
||
;; are no file dependencies needed.
|
||
(nreverse
|
||
;; Reverse to get the right load order.
|
||
(c--mapcan (lambda (elem)
|
||
(if (eq file (car elem))
|
||
nil ; Exclude our own file.
|
||
(list (car elem))))
|
||
(get sym 'source)))))
|
||
|
||
;; Make some effort to do a compact call to
|
||
;; `c-get-lang-constant' since it will be compiled in.
|
||
(args (and mode `(',mode))))
|
||
|
||
(if (or source-files args)
|
||
(push (and source-files `',source-files) args))
|
||
|
||
(if (or (eq c-lang-const-expansion 'call)
|
||
(and (not c-lang-const-expansion)
|
||
(not mode))
|
||
(not (cc-bytecomp-is-compiling)))
|
||
;; Either a straight call is requested in the context, or
|
||
;; we're in an "uncontrolled" context and got no language,
|
||
;; or we're not being byte compiled so the compile time
|
||
;; stuff below is unnecessary.
|
||
`(c-get-lang-constant ',name ,@args)
|
||
|
||
;; Being compiled. If the loading and compiling version is
|
||
;; the same we use a value that is evaluated at compile time,
|
||
;; otherwise it's evaluated at runtime.
|
||
`(if (eq c-version-sym ',c-version-sym)
|
||
(cc-eval-when-compile
|
||
(c-get-lang-constant ',name ,@args))
|
||
(c-get-lang-constant ',name ,@args)))))))
|
||
|
||
(defvar c-lang-constants-under-evaluation nil
|
||
"Alist of constants in the process of being evaluated.
|
||
The `cdr' of each entry indicates how far we've looked in the list
|
||
of definitions, so that the def for var FOO in c-mode can be defined in
|
||
terms of the def for that same var FOO (which will then rely on the
|
||
fallback definition for all modes, to break the cycle).")
|
||
|
||
(defconst c-lang--novalue "novalue")
|
||
|
||
(defun c-get-lang-constant (name &optional source-files mode)
|
||
;; Used by `c-lang-const'.
|
||
|
||
(or mode
|
||
(setq mode c-buffer-is-cc-mode)
|
||
(error "No current language"))
|
||
|
||
(let* ((sym (intern (symbol-name name) c-lang-constants))
|
||
(source (get sym 'source))
|
||
elem
|
||
(eval-in-sym (and c-lang-constants-under-evaluation
|
||
(caar c-lang-constants-under-evaluation))))
|
||
|
||
;; Record the dependencies between this symbol and the one we're
|
||
;; being evaluated in.
|
||
(when eval-in-sym
|
||
(or (memq eval-in-sym (get sym 'dependents))
|
||
(put sym 'dependents (cons eval-in-sym (get sym 'dependents)))))
|
||
|
||
;; Make sure the source files have entries on the `source'
|
||
;; property so that loading will take place when necessary.
|
||
(while source-files
|
||
(unless (assq (car source-files) source)
|
||
(put sym 'source
|
||
(setq source (cons (list (car source-files)) source)))
|
||
;; Might pull in more definitions which affect the value. The
|
||
;; clearing of dependent values etc is done when the
|
||
;; definition is encountered during the load; this is just to
|
||
;; jump past the check for a cached value below.
|
||
(set sym nil))
|
||
(setq source-files (cdr source-files)))
|
||
|
||
(if (and (boundp sym)
|
||
(setq elem (assq mode (symbol-value sym))))
|
||
(cdr elem)
|
||
|
||
;; Check if an evaluation of this symbol is already underway.
|
||
;; In that case we just continue with the "assignment" before
|
||
;; the one currently being evaluated, thereby creating the
|
||
;; illusion if a `setq'-like sequence of assignments.
|
||
(let* ((c-buffer-is-cc-mode mode)
|
||
(source-pos
|
||
(or (assq sym c-lang-constants-under-evaluation)
|
||
(cons sym (vector source nil))))
|
||
;; Append `c-lang-constants-under-evaluation' even if an
|
||
;; earlier entry is found. It's only necessary to get
|
||
;; the recording of dependencies above correct.
|
||
(c-lang-constants-under-evaluation
|
||
(cons source-pos c-lang-constants-under-evaluation))
|
||
(fallback (get mode 'c-fallback-mode))
|
||
value
|
||
;; Make sure the recursion limits aren't very low
|
||
;; since the `c-lang-const' dependencies can go deep.
|
||
(max-specpdl-size (max max-specpdl-size 3000))
|
||
(max-lisp-eval-depth (max max-lisp-eval-depth 1000)))
|
||
|
||
(if (if fallback
|
||
(let ((backup-source-pos (copy-sequence (cdr source-pos))))
|
||
(and
|
||
;; First try the original mode but don't accept an
|
||
;; entry matching all languages since the fallback
|
||
;; mode might have an explicit entry before that.
|
||
(eq (setq value (c-find-assignment-for-mode
|
||
(cdr source-pos) mode nil name))
|
||
c-lang--novalue)
|
||
;; Try again with the fallback mode from the
|
||
;; original position. Note that
|
||
;; `c-buffer-is-cc-mode' still is the real mode if
|
||
;; language parameterization takes place.
|
||
(eq (setq value (c-find-assignment-for-mode
|
||
(setcdr source-pos backup-source-pos)
|
||
fallback t name))
|
||
c-lang--novalue)))
|
||
;; A simple lookup with no fallback mode.
|
||
(eq (setq value (c-find-assignment-for-mode
|
||
(cdr source-pos) mode t name))
|
||
c-lang--novalue))
|
||
(error
|
||
"`%s' got no (prior) value in %S (might be a cyclic reference)"
|
||
name mode))
|
||
|
||
(condition-case err
|
||
(setq value (funcall value))
|
||
(error
|
||
;; Print a message to aid in locating the error. We don't
|
||
;; print the error itself since that will be done later by
|
||
;; some caller higher up.
|
||
(message "Eval error in the `c-lang-defconst' for `%S' in %s:"
|
||
sym mode)
|
||
(makunbound sym)
|
||
(signal (car err) (cdr err))))
|
||
|
||
(set sym (cons (cons mode value) (symbol-value sym)))
|
||
value))))
|
||
|
||
(defun c-find-assignment-for-mode (source-pos mode match-any-lang _name)
|
||
;; Find the first assignment entry that applies to MODE at or after
|
||
;; SOURCE-POS. If MATCH-ANY-LANG is non-nil, entries with t as
|
||
;; the language list are considered to match, otherwise they don't.
|
||
;; On return SOURCE-POS is updated to point to the next assignment
|
||
;; after the returned one. If no assignment is found,
|
||
;; `c-lang--novalue' is returned as a magic value.
|
||
;;
|
||
;; SOURCE-POS is a vector that points out a specific assignment in
|
||
;; the double alist that's used in the `source' property. The first
|
||
;; element is the position in the top alist which is indexed with
|
||
;; the source files, and the second element is the position in the
|
||
;; nested bindings alist.
|
||
;;
|
||
;; NAME is only used for error messages.
|
||
|
||
(catch 'found
|
||
(let ((file-entry (elt source-pos 0))
|
||
(assignment-entry (elt source-pos 1))
|
||
assignment)
|
||
|
||
(while (if assignment-entry
|
||
t
|
||
;; Handled the last assignment from one file, begin on the
|
||
;; next. Due to the check in `c-lang-defconst', we know
|
||
;; there's at least one.
|
||
(when file-entry
|
||
|
||
(unless (aset source-pos 1
|
||
(setq assignment-entry (cdar file-entry)))
|
||
;; The file containing the source definitions has not
|
||
;; been loaded.
|
||
(let ((file (symbol-name (caar file-entry)))
|
||
(c-lang-constants-under-evaluation nil))
|
||
;;(message (concat "Loading %s to get the source "
|
||
;; "value for language constant %s")
|
||
;; file name)
|
||
(load file nil t))
|
||
|
||
(unless (setq assignment-entry (cdar file-entry))
|
||
;; The load didn't fill in the source for the
|
||
;; constant as expected. The situation is
|
||
;; probably that a derived mode was written for
|
||
;; and compiled with another version of CC Mode,
|
||
;; and the requested constant isn't in the
|
||
;; currently loaded one. Put in a dummy
|
||
;; assignment that matches no language.
|
||
(setcdr (car file-entry)
|
||
(setq assignment-entry (list (list nil))))))
|
||
|
||
(aset source-pos 0 (setq file-entry (cdr file-entry)))
|
||
t))
|
||
|
||
(setq assignment (car assignment-entry))
|
||
(aset source-pos 1
|
||
(setq assignment-entry (cdr assignment-entry)))
|
||
|
||
(when (if (listp (car assignment))
|
||
(memq mode (car assignment))
|
||
match-any-lang)
|
||
(throw 'found (cdr assignment))))
|
||
|
||
c-lang--novalue)))
|
||
|
||
(defun c-lang-major-mode-is (mode)
|
||
;; `c-major-mode-is' expands to a call to this function inside
|
||
;; `c-lang-defconst'. Here we also match the mode(s) against any
|
||
;; fallback modes for the one in `c-buffer-is-cc-mode', so that
|
||
;; e.g. (c-major-mode-is 'c++-mode) is true in a derived language
|
||
;; that has c++-mode as base mode.
|
||
(unless (listp mode)
|
||
(setq mode (list mode)))
|
||
(let (match (buf-mode c-buffer-is-cc-mode))
|
||
(while (if (memq buf-mode mode)
|
||
(progn
|
||
(setq match t)
|
||
nil)
|
||
(setq buf-mode (get buf-mode 'c-fallback-mode))))
|
||
match))
|
||
|
||
|
||
(cc-provide 'cc-defs)
|
||
|
||
;; Local Variables:
|
||
;; indent-tabs-mode: t
|
||
;; tab-width: 8
|
||
;; End:
|
||
;;; cc-defs.el ends here
|