Mercurial > hg > xemacs-beta
view lisp/compat.el @ 801:2b676dc88c66
[xemacs-hg @ 2002-04-01 03:58:02 by ben]
bug fixes (e.g. ballooning on X windows)
Makefile.in.in: Try to make the Makefile notice if its source Makefile.in.in is
changed, and regenerate and run itself.
Use a bigger default SHEAP_ADJUSTMENT on Cygwin; otherwise you
can't compile under Mule if a Lisp file has changed. (can't run
temacs)
TODO.ben-mule-21-5: update.
mule/mule-cmds.el: Hash the result of mswindows-get-language-environment-from-locale,
since it's very expensive (and causes huge ballooning of memory
under X Windows, since it's called from x-get-resource).
cl-extra.el, code-files.el, files.el, simple.el, subr.el, x-faces.el: Create new string-equal-ignore-case, based on built-in
compare-strings -- compare strings ignoring case without the need
to generate garbage by calling downcase. Use it in equalp and
elsewhere.
alloc.c, bytecode.c, chartab.c, data.c, elhash.c, emacs.c, eval.c, event-Xt.c, event-unixoid.c, extents.c, file-coding.c, fileio.c, fns.c, glyphs.c, gutter.c, lisp-union.h, lisp.h, mule-charset.c, nt.c, process-unix.c, process.c, specifier.c, symbols.c, sysdep.c, sysdep.h, text.c, toolbar.c: Try to implement GC triggering based on percentage of total memory
usage. Not currently activated (percentage set to 0) because not
quite working. Add `memory-usage' primitive to return XEmacs'
idea of its memory usage.
Add primitive compare-strings, compatible with FSF 21.1 -- can
compare any part of two strings, optionally ignoring case.
Improve qxe() functions in text.c for text comparison.
Use RETURN_NOT_REACHED to try to avoid warnings about unreachable
code.
Add volatile_make_int() to fix warning in unix_send_process().
| author | ben |
|---|---|
| date | Mon, 01 Apr 2002 03:59:04 +0000 |
| parents | de805c49cfc1 |
| children | 6728e641994e |
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;;; compat.el --- Mechanism for non-intrusively providing compatibility funs. ;; Copyright (C) 2000 Ben Wing. ;; Author: Ben Wing <ben@xemacs.org> ;; Maintainer: Ben Wing ;; Keywords: internal ;; This file is part of XEmacs. ;; XEmacs is free software; you can redistribute it and/or modify it ;; under the terms of the GNU General Public License as published by ;; the Free Software Foundation; either version 2, or (at your option) ;; any later version. ;; XEmacs is distributed in the hope that it will be useful, but ;; WITHOUT ANY WARRANTY; without even the implied warranty of ;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU ;; General Public License for more details. ;; You should have received a copy of the GNU General Public License ;; along with XEmacs; see the file COPYING. If not, write to the ;; Free Software Foundation, Inc., 59 Temple Place - Suite 330, ;; Boston, MA 02111-1307, USA. ;;; Synched up with: Not in FSF. ;;; Authorship: ; Written May 2000 by Ben Wing. ;;; Commentary: ;; Typical usage: ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;; 1. Wrap modules that define compatibility functions like this: ;; ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;(compat-define-group 'fsf-compat) ;(compat-define-functions 'fsf-compat ;(defun overlayp (object) ; "Return t if OBJECT is an overlay." ; (and (extentp object) ; (extent-property object 'overlay))) ;(defun make-overlay (beg end &optional buffer front-advance rear-advance) ; ...) ;... ;) ;; end of (compat-define-group 'fsf-compat) ;;;; overlay.el ends here ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;; 2. Wrap modules that use the compatibility functions like this: ;; ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;(compat 'fsf-compat ;(defun random-module-my-fun (bar baz) ; (if (fboundp 'overlays-in) (overlays-in bar baz))) ;... ;) ;; end of (compat 'fsf-compat) ;;;; random-module.el ends here (defun compat-hash-table (group) (get group 'compat-table)) (defun compat-make-hash-table (group) (put group 'compat-table (make-hash-table))) (defmacro compat-define-group (group) "Define GROUP as a group of compatibility functions. Individual functions are defined using `compat-define-functions'. Once defined, the functions can be used by wrapping your code in the `compat' macro. If GROUP is already defined, nothing happens." (let ((group (eval group))) (or (hash-table-p (compat-hash-table group)) (compat-make-hash-table group)))) (defmacro compat-clear-functions (group) "Clear all defined functions and macros out of GROUP." (let ((group (eval group))) (clrhash (compat-hash-table group)))) (defmacro compat-define-functions (group &rest body) "Define compatibility functions in GROUP. You should simply wrap this around the code that defines the functions. Any functions and macros defined at top level using `defun' or `defmacro' will be noticed and added to GROUP. Other top-level code will be executed normally. All code and definitions in this group can safely reference any other functions in this group -- the code is effectively wrapped in a `compat' call. You can call `compat-define-functions' more than once, if necessary, for a single group. What actually happens is that the functions and macros defined here are in fact defined using names prefixed with GROUP. To use these functions, wrap any calling code with the `compat' macro, which lexically renames the function and macro calls appropriately." (let ((group (eval group))) (let (fundef (body-tail body)) (while body-tail (setq fundef (car body-tail)) (when (and (consp fundef) (eq (car fundef) 'defun)) (puthash (second fundef) (third fundef) (compat-hash-table group))) (when (and (consp fundef) (eq (car fundef) 'defmacro)) (puthash (second fundef) (third fundef) (compat-hash-table group))) (setq body-tail (cdr body-tail)))) (let (fundef (body-tail body) result) (while body-tail (setq fundef (car body-tail)) (push (cond ((and (consp fundef) (eq (car fundef) 'defun)) (nconc (list 'defun (intern (concat (symbol-name group) "-" (symbol-name (second fundef)))) (third fundef)) (nthcdr 3 fundef))) ((and (consp fundef) (eq (car fundef) 'defmacro)) (nconc (list 'defmacro (intern (concat (symbol-name group) "-" (symbol-name (second fundef)))) (third fundef)) (nthcdr 3 fundef))) (t fundef)) result) (setq body-tail (cdr body-tail))) (nconc (list 'compat (list 'quote group)) (nreverse result))))) (defvar compat-active-groups nil) (defun compat-fboundp (groups fun) "T if FUN is either `fboundp' or one of the compatibility funs in GROUPS. GROUPS is a list of compatibility groups as defined using `compat-define-group'." (or (fboundp fun) (block nil (mapcar #'(lambda (group) (if (gethash fun (compat-hash-table group)) (return t))) groups)))) (defmacro compat (group &rest body) "Make use of compatibility functions and macros in GROUP. You should simply wrap this around the code that uses the functions and macros in GROUP. Typically, a call to `compat' should be placed at the top of an ELisp module, with the closing parenthesis at the bottom; use this in place of a `require' statement. Wrapped code can be either function or macro definitions or other ELisp code, and wrapped function or macro definitions need not be at top level. All calls to the compatibility functions or macros will be noticed anywhere within the wrapped code. Calls to `fboundp' within the wrapped code will also behave correctly when called on compatibility functions and macros, even though they would return nil elsewhere (including in code in other modules called dynamically from the wrapped code). The functions and macros define in GROUP are actually defined under prefixed names, to avoid namespace clashes and bad interactions with other code that calls `fboundp'. All calls inside of the wrapped code to the compatibility functions and macros in GROUP are lexically mapped to the prefixed names. Since this is a lexical mapping, code in other modules that is called by functions in this module will not be affected." (let ((group (eval group)) defs) (maphash #'(lambda (fun args) (push (list fun args (nconc (list 'list (list 'quote (intern (concat (symbol-name group) "-" (symbol-name fun))))) args)) defs)) (compat-hash-table group)) ;; it would be cleaner to use `lexical-let' instead of `let', but that ;; causes function definitions to have obnoxious, unreadable junk in ;; them. #### Move `lexical-let' into C!!! `(let ((compat-active-groups (cons ',group compat-active-groups))) (macrolet ((fboundp (fun) `(compat-fboundp ',compat-active-groups ,fun)) ,@defs) ,@body))))