;;; cc-bytecomp.el --- compile time setup for proper compilation -*- lexical-binding: t -*- ;; Copyright (C) 2000-2022 Free Software Foundation, Inc. ;; Author: Martin Stjernholm ;; Maintainer: bug-cc-mode@gnu.org ;; Created: 15-Jul-2000 ;; Keywords: c languages ;; Package: cc-mode ;; This file is part of GNU Emacs. ;; GNU Emacs is free software: you can redistribute it and/or modify ;; it under the terms of the GNU General Public License as published by ;; the Free Software Foundation, either version 3 of the License, or ;; (at your option) any later version. ;; GNU Emacs is distributed in the hope that it will be useful, ;; but WITHOUT ANY WARRANTY; without even the implied warranty of ;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ;; GNU General Public License for more details. ;; You should have received a copy of the GNU General Public License ;; along with GNU Emacs. If not, see . ;;; Commentary: ;; This file is used to ensure that the CC Mode files are correctly ;; compiled regardless the environment (e.g. if an older CC Mode with ;; outdated macros are loaded during compilation). It also provides ;; features to defeat the compiler warnings for selected symbols. ;; ;; There's really nothing CC Mode specific here; this functionality ;; ought to be provided by the byte compilers or some accompanying ;; library. To use it from some package "foo.el", begin by putting ;; the following blurb at the top of the file: ;; ;; (eval-when-compile ;; (let ((load-path ;; (if (and (boundp 'byte-compile-dest-file) ;; (stringp byte-compile-dest-file)) ;; (cons (file-name-directory byte-compile-dest-file) load-path) ;; load-path))) ;; (load "cc-bytecomp" nil t)) ;; ;; This (unfortunately rather clumsy) form will ensure that the ;; cc-bytecomp.el in the same directory as foo.el is loaded during ;; byte compilation of the latter. ;; ;; At the end of foo.el there should normally be a "(provide 'foo)". ;; Replace it with "(cc-provide 'foo)"; that is necessary to restore ;; the environment after the byte compilation. If you don't have a ;; `provide' at the end, you have to add the following as the very ;; last form in the file: ;; ;; (eval-when-compile (cc-bytecomp-restore-environment)) ;; ;; Now everything is set to use the various functions and macros in ;; this package. ;; ;; If your package is split into several files, you should use ;; `cc-require', `cc-require-when-compile' or `cc-load' to load them. ;; That ensures that the files in the same directory always are ;; loaded, to avoid mixup with other versions of them that might exist ;; elsewhere in the load path. ;; ;; To suppress byte compiler warnings, use the macros ;; `cc-bytecomp-defun' and `cc-bytecomp-defvar'. ;; ;; This file is not used at all after the package has been byte ;; compiled. It is however necessary when running uncompiled. ;;; Code: (defvar cc-bytecomp-unbound-variables nil) (defvar cc-bytecomp-original-functions nil) (defvar cc-bytecomp-original-properties nil) (defvar cc-bytecomp-loaded-files nil) (setq cc-bytecomp-unbound-variables nil) (setq cc-bytecomp-original-functions nil) (setq cc-bytecomp-original-properties nil) (setq cc-bytecomp-loaded-files nil) (defvar cc-bytecomp-environment-set nil) (defmacro cc-bytecomp-debug-msg (&rest _args) ; Change to ARGS when needed. ;; (declare (debug t)) ;;`(message ,@args) ) (defun cc-bytecomp-compiling-or-loading () ;; Determine whether byte-compilation or loading is currently active, ;; returning 'compiling, 'loading or nil. ;; If both are active, the "innermost" activity counts. Note that ;; compilation can trigger loading (various `require' type forms) ;; and loading can trigger compilation (the package manager does ;; this). We walk the lisp stack if necessary. ;; Never native compile to allow cc-defs.el:2345 hack. (declare (speed -1)) (cond ((and load-in-progress (boundp 'byte-compile-dest-file) (stringp byte-compile-dest-file)) (let ((n 0) elt) (while (and (setq elt (backtrace-frame n)) (not (and (car elt) (memq (cadr elt) '(load require byte-compile-file byte-recompile-directory batch-byte-compile batch-native-compile))))) (setq n (1+ n))) (cond ((memq (cadr elt) '(load require)) 'loading) ((memq (cadr elt) '(byte-compile-file byte-recompile-directory batch-byte-compile batch-native-compile)) 'compiling) (t ; Can't happen. (message "cc-bytecomp-compiling-or-loading: System flags spuriously set") nil)))) (load-in-progress ;; Being loaded. 'loading) ((and (boundp 'byte-compile-dest-file) (stringp byte-compile-dest-file)) ;; Being compiled. 'compiling) (t ;; Being evaluated interactively. nil))) (defsubst cc-bytecomp-is-compiling () "Return non-nil if eval'ed during compilation." (eq (cc-bytecomp-compiling-or-loading) 'compiling)) (defsubst cc-bytecomp-is-loading () "Return non-nil if eval'ed during loading. Nil will be returned if we're in a compilation triggered by the loading." (eq (cc-bytecomp-compiling-or-loading) 'loading)) (defun cc-bytecomp-setup-environment () ;; Eval'ed during compilation to setup variables, functions etc ;; declared with `cc-bytecomp-defvar' et al. (if (not (cc-bytecomp-is-loading)) (let (p) (if cc-bytecomp-environment-set (error "Byte compilation environment already set - \ perhaps a `cc-bytecomp-restore-environment' is forgotten somewhere")) (setq p cc-bytecomp-unbound-variables) (while p (if (not (boundp (car p))) (progn (eval `(defvar ,(car p))) (set (car p) (intern (concat "cc-bytecomp-ignore-var:" (symbol-name (car p))))) (cc-bytecomp-debug-msg "cc-bytecomp-setup-environment: Covered variable %s" (car p)))) (setq p (cdr p))) (setq p cc-bytecomp-original-functions) (while p (let ((fun (car (car p))) (temp-macro (car (cdr (car p))))) (if (not (fboundp fun)) (if temp-macro (progn (eval `(defmacro ,fun ,@temp-macro)) (cc-bytecomp-debug-msg "cc-bytecomp-setup-environment: Bound macro %s" fun)) (fset fun (intern (concat "cc-bytecomp-ignore-fun:" (symbol-name fun)))) (cc-bytecomp-debug-msg "cc-bytecomp-setup-environment: Covered function %s" fun)))) (setq p (cdr p))) (setq p cc-bytecomp-original-properties) (while p (let ((sym (car (car (car p)))) (prop (cdr (car (car p)))) (tempdef (car (cdr (car p))))) (put sym prop tempdef) (cc-bytecomp-debug-msg "cc-bytecomp-setup-environment: Bound property %s for %s to %s" prop sym tempdef)) (setq p (cdr p))) (setq cc-bytecomp-environment-set t) (cc-bytecomp-debug-msg "cc-bytecomp-setup-environment: Done")))) (defun cc-bytecomp-restore-environment () ;; Eval'ed during compilation to restore variables, functions etc ;; declared with `cc-bytecomp-defvar' et al. (if (not (cc-bytecomp-is-loading)) (let (p) (setq p cc-bytecomp-unbound-variables) (while p (let ((var (car p))) (if (boundp var) (if (eq (intern (concat "cc-bytecomp-ignore-var:" (symbol-name var))) (symbol-value var)) (progn (makunbound var) (cc-bytecomp-debug-msg "cc-bytecomp-restore-environment: Unbound variable %s" var)) (cc-bytecomp-debug-msg "cc-bytecomp-restore-environment: Not restoring variable %s" var)))) (setq p (cdr p))) (setq p cc-bytecomp-original-functions) (while p (let ((fun (car (car p))) (temp-macro (car (cdr (car p)))) (def (car (cdr (cdr (car p)))))) (if (fboundp fun) (if (eq (or temp-macro (intern (concat "cc-bytecomp-ignore-fun:" (symbol-name fun)))) (symbol-function fun)) (if (eq def 'unbound) (progn (fmakunbound fun) (cc-bytecomp-debug-msg "cc-bytecomp-restore-environment: Unbound function %s" fun)) (fset fun def) (cc-bytecomp-debug-msg "cc-bytecomp-restore-environment: Restored function %s" fun)) (cc-bytecomp-debug-msg "cc-bytecomp-restore-environment: Not restoring function %s" fun)))) (setq p (cdr p))) (setq p cc-bytecomp-original-properties) (while p (let ((sym (car (car (car p)))) (prop (cdr (car (car p)))) (tempdef (car (cdr (car p)))) (origdef (cdr (cdr (car p))))) (if (eq (get sym prop) tempdef) (progn (put sym prop origdef) (cc-bytecomp-debug-msg "cc-bytecomp-restore-environment: Restored property %s for %s to %s" prop sym origdef)) (cc-bytecomp-debug-msg "cc-bytecomp-restore-environment: Not restoring property %s for %s" prop sym))) (setq p (cdr p))) (setq cc-bytecomp-environment-set nil) (cc-bytecomp-debug-msg "cc-bytecomp-restore-environment: Done")))) (defun cc-bytecomp-load (_cc-part) ;; A dummy function which will immediately be overwritten by the ;; following at load time. This should suppress the byte compiler ;; error that the function is "not known to be defined". ) (eval ;; This eval is to avoid byte compilation of the function below. ;; There's some bug in XEmacs 21.4.6 that can cause it to dump core ;; here otherwise. My theory is that `cc-bytecomp-load' might be ;; redefined recursively during the `load' inside it, and if it in ;; that case is byte compiled then the byte interpreter gets ;; confused. I haven't succeeded in isolating the bug, though. /mast '(defun cc-bytecomp-load (cc-part) ;; Eval'ed during compilation to load a CC Mode file from the source ;; directory (assuming it's the same as the compiled file ;; destination dir). (if (and (boundp 'byte-compile-dest-file) (stringp byte-compile-dest-file)) (progn (cc-bytecomp-restore-environment) (let ((load-path (cons (file-name-directory byte-compile-dest-file) load-path)) (cc-file (concat cc-part ".el"))) (if (member cc-file cc-bytecomp-loaded-files) () (setq cc-bytecomp-loaded-files (cons cc-file cc-bytecomp-loaded-files)) (cc-bytecomp-debug-msg "cc-bytecomp-load: Loading %S" cc-file) ;; native-comp may async compile also intalled el.gz ;; files therefore we may have to load here other el.gz. (load cc-part nil t) (cc-bytecomp-debug-msg "cc-bytecomp-load: Loaded %S" cc-file))) (cc-bytecomp-setup-environment) t)))) (defmacro cc-require (cc-part) "Force loading of the corresponding .el file in the current directory during compilation, but compile in a `require'. Don't use within `eval-when-compile'. Having cyclic cc-require's will result in infinite recursion. That's somewhat intentional." (declare (debug t)) `(progn (eval-when-compile (cc-bytecomp-load (symbol-name ,cc-part))) (require ,cc-part))) (defmacro cc-conditional-require (cc-part condition) "If the CONDITION is satisfied at compile time, (i) force the file CC-PART.el in the current directory to be loaded at compile time, (ii) generate code to load the file at load time. CC-PART will normally be a quoted name such as \\='cc-fix. CONDITION should not be quoted." (declare (debug t)) (if (eval condition) (progn (cc-bytecomp-load (symbol-name (eval cc-part))) `(require ,cc-part)) '(progn))) (defmacro cc-conditional-require-after-load (cc-part file condition) "If the CONDITION is satisfied at compile time, (i) force the file CC-PART.el in the current directory to be loaded at compile time, (ii) generate an `eval-after-load' form to load CC-PART.el after the loading of FILE. CC-PART will normally be a quoted name such as \\='cc-fix. FILE should be a string. CONDITION should not be quoted." (declare (debug t)) (if (eval condition) (progn (cc-bytecomp-load (symbol-name (eval cc-part))) `(eval-after-load ,file '(require ,cc-part))) '(progn))) (defmacro cc-provide (feature) "A replacement for `provide' that restores the environment after the compilation. Don't use within `eval-when-compile'." (declare (debug t)) `(progn (eval-when-compile (cc-bytecomp-restore-environment)) (provide ,feature))) (defmacro cc-load (cc-part) "Force loading of the corresponding .el file in the current directory during compilation. Don't use outside `eval-when-compile' or `eval-and-compile'. Having cyclic cc-load's will result in infinite recursion. That's somewhat intentional." (declare (debug t)) `(or (and (featurep 'cc-bytecomp) (cc-bytecomp-load ,cc-part)) (load ,cc-part nil t nil))) (defmacro cc-require-when-compile (cc-part) "Force loading of the corresponding .el file in the current directory during compilation, but do a compile time `require' otherwise. Don't use within `eval-when-compile'." (declare (debug t)) `(eval-when-compile (if (and (fboundp 'cc-bytecomp-is-compiling) (cc-bytecomp-is-compiling)) (if (not (featurep ,cc-part)) (cc-bytecomp-load (symbol-name ,cc-part))) (require ,cc-part)))) (defmacro cc-external-require (feature) "Do a `require' of an external package. This restores and sets up the compilation environment before and afterwards. Don't use within `eval-when-compile'." (declare (debug t)) `(progn (eval-when-compile (cc-bytecomp-restore-environment)) (require ,feature) (eval-when-compile (cc-bytecomp-setup-environment)))) (defmacro cc-bytecomp-defvar (var) "Bind the symbol VAR as a variable during compilation of the file. This can be used to silence the byte compiler. Don't use within `eval-when-compile'." (declare (debug nil)) `(eval-when-compile (if (boundp ',var) (cc-bytecomp-debug-msg "cc-bytecomp-defvar: %s bound already as variable" ',var) (if (not (memq ',var cc-bytecomp-unbound-variables)) (progn (cc-bytecomp-debug-msg "cc-bytecomp-defvar: Saving %s (as unbound)" ',var) (setq cc-bytecomp-unbound-variables (cons ',var cc-bytecomp-unbound-variables)))) (if (cc-bytecomp-is-compiling) (progn (defvar ,var) (set ',var (intern (concat "cc-bytecomp-ignore-var:" (symbol-name ',var)))) (cc-bytecomp-debug-msg "cc-bytecomp-defvar: Covered variable %s" ',var)))))) (defmacro cc-bytecomp-defun (fun) "Bind the symbol FUN as a function during compilation of the file. This can be used to silence the byte compiler. Don't use within `eval-when-compile'. If the symbol already is bound as a function, it will keep that definition. That means that this macro will not shut up warnings about incorrect number of arguments. It's dangerous to try to replace existing functions since the byte compiler might need the definition at compile time, e.g. for macros and inline functions." (declare (debug nil)) `(eval-when-compile (if (fboundp ',fun) (cc-bytecomp-debug-msg "cc-bytecomp-defun: %s bound already as function" ',fun) (if (not (assq ',fun cc-bytecomp-original-functions)) (progn (cc-bytecomp-debug-msg "cc-bytecomp-defun: Saving %s (as unbound)" ',fun) (setq cc-bytecomp-original-functions (cons (list ',fun nil 'unbound) cc-bytecomp-original-functions)))) (if (cc-bytecomp-is-compiling) (progn (fset ',fun (intern (concat "cc-bytecomp-ignore-fun:" (symbol-name ',fun)))) (cc-bytecomp-debug-msg "cc-bytecomp-defun: Covered function %s" ',fun)))))) (defmacro cc-bytecomp-put (symbol propname value) "Set a property on SYMBOL during compilation (and evaluation) of the file. Don't use outside `eval-when-compile'." (declare (debug t)) `(eval-when-compile (if (not (assoc (cons ,symbol ,propname) cc-bytecomp-original-properties)) (progn (cc-bytecomp-debug-msg "cc-bytecomp-put: Saving property %s for %s with value %s" ,propname ,symbol (get ,symbol ,propname)) (setq cc-bytecomp-original-properties (cons (cons (cons ,symbol ,propname) (cons ,value (get ,symbol ,propname))) cc-bytecomp-original-properties)))) (put ,symbol ,propname ,value) (cc-bytecomp-debug-msg "cc-bytecomp-put: Bound property %s for %s to %s" ,propname ,symbol ,value))) (defmacro cc-bytecomp-boundp (symbol) "Return non-nil if SYMBOL is bound as a variable outside the compilation. This is the same as using `boundp' but additionally exclude any variables that have been bound during compilation with `cc-bytecomp-defvar'." (declare (debug t)) (if (and (cc-bytecomp-is-compiling) (memq (car (cdr symbol)) cc-bytecomp-unbound-variables)) nil `(boundp ,symbol))) (defmacro cc-bytecomp-fboundp (symbol) "Return non-nil if SYMBOL is bound as a function outside the compilation. This is the same as using `fboundp' but additionally exclude any functions that have been bound during compilation with `cc-bytecomp-defun'." (declare (debug t)) (let (fun-elem) (if (and (cc-bytecomp-is-compiling) (setq fun-elem (assq (car (cdr symbol)) cc-bytecomp-original-functions)) (eq (elt fun-elem 2) 'unbound)) nil `(fboundp ,symbol)))) (provide 'cc-bytecomp) ;; Local Variables: ;; indent-tabs-mode: t ;; tab-width: 8 ;; End: ;;; cc-bytecomp.el ends here