;;; byte-run.el --- byte-compiler support for inlining -*- lexical-binding: t -*- ;; Copyright (C) 1992, 2001-2012 Free Software Foundation, Inc. ;; Author: Jamie Zawinski ;; Hallvard Furuseth ;; Maintainer: FSF ;; Keywords: internal ;; Package: emacs ;; 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: ;; interface to selectively inlining functions. ;; This only happens when source-code optimization is turned on. ;;; Code: ;; `macro-declaration-function' are both obsolete (as marked at the end of this ;; file) but used in many .elc files. (defvar macro-declaration-function #'macro-declaration-function "Function to process declarations in a macro definition. The function will be called with two args MACRO and DECL. MACRO is the name of the macro being defined. DECL is a list `(declare ...)' containing the declarations. The value the function returns is not used.") (defalias 'macro-declaration-function #'(lambda (macro decl) "Process a declaration found in a macro definition. This is set as the value of the variable `macro-declaration-function'. MACRO is the name of the macro being defined. DECL is a list `(declare ...)' containing the declarations. The return value of this function is not used." ;; We can't use `dolist' or `cadr' yet for bootstrapping reasons. (let (d) ;; Ignore the first element of `decl' (it's always `declare'). (while (setq decl (cdr decl)) (setq d (car decl)) (if (and (consp d) (listp (cdr d)) (null (cdr (cdr d)))) (cond ((eq (car d) 'indent) (put macro 'lisp-indent-function (car (cdr d)))) ((eq (car d) 'debug) (put macro 'edebug-form-spec (car (cdr d)))) ((eq (car d) 'doc-string) (put macro 'doc-string-elt (car (cdr d)))) (t (message "Unknown declaration %s" d))) (message "Invalid declaration %s" d)))))) ;; We define macro-declaration-alist here because it is needed to ;; handle declarations in macro definitions and this is the first file ;; loaded by loadup.el that uses declarations in macros. (defvar defun-declarations-alist (list ;; We can only use backquotes inside the lambdas and not for those ;; properties that are used by functions loaded before backquote.el. (list 'advertised-calling-convention #'(lambda (f _args arglist when) (list 'set-advertised-calling-convention (list 'quote f) (list 'quote arglist) (list 'quote when)))) (list 'obsolete #'(lambda (f _args new-name when) `(make-obsolete ',f ',new-name ,when))) (list 'compiler-macro #'(lambda (f _args compiler-function) `(put ',f 'compiler-macro #',compiler-function))) (list 'doc-string #'(lambda (f _args pos) (list 'put (list 'quote f) ''doc-string-elt (list 'quote pos)))) (list 'indent #'(lambda (f _args val) (list 'put (list 'quote f) ''lisp-indent-function (list 'quote val))))) "List associating function properties to their macro expansion. Each element of the list takes the form (PROP FUN) where FUN is a function. For each (PROP . VALUES) in a function's declaration, the FUN corresponding to PROP is called with the function name, the function's arglist, and the VALUES and should return the code to use to set this property.") (defvar macro-declarations-alist (cons (list 'debug #'(lambda (name _args spec) (list 'progn :autoload-end (list 'put (list 'quote name) ''edebug-form-spec (list 'quote spec))))) defun-declarations-alist) "List associating properties of macros to their macro expansion. Each element of the list takes the form (PROP FUN) where FUN is a function. For each (PROP . VALUES) in a macro's declaration, the FUN corresponding to PROP is called with the function name and the VALUES and should return the code to use to set this property.") (put 'defmacro 'doc-string-elt 3) (defalias 'defmacro (cons 'macro #'(lambda (name arglist &optional docstring decl &rest body) "Define NAME as a macro. When the macro is called, as in (NAME ARGS...), the function (lambda ARGLIST BODY...) is applied to the list ARGS... as it appears in the expression, and the result should be a form to be evaluated instead of the original. DECL is a declaration, optional, of the form (declare DECLS...) where DECLS is a list of elements of the form (PROP . VALUES). These are interpreted according to `macro-declarations-alist'." (if (stringp docstring) nil (if decl (setq body (cons decl body))) (setq decl docstring) (setq docstring nil)) (if (or (null decl) (eq 'declare (car-safe decl))) nil (setq body (cons decl body)) (setq decl nil)) (if (null body) (setq body '(nil))) (if docstring (setq body (cons docstring body))) ;; Can't use backquote because it's not defined yet! (let* ((fun (list 'function (cons 'lambda (cons arglist body)))) (def (list 'defalias (list 'quote name) (list 'cons ''macro fun))) (declarations (mapcar #'(lambda (x) (let ((f (cdr (assq (car x) macro-declarations-alist)))) (if f (apply (car f) name arglist (cdr x)) (message "Warning: Unknown macro property %S in %S" (car x) name)))) (cdr decl)))) (if declarations (cons 'prog1 (cons def declarations)) def))))) ;; Now that we defined defmacro we can use it! (defmacro defun (name arglist &optional docstring &rest body) "Define NAME as a function. The definition is (lambda ARGLIST [DOCSTRING] BODY...). See also the function `interactive'. DECL is a declaration, optional, of the form (declare DECLS...) where DECLS is a list of elements of the form (PROP . VALUES). These are interpreted according to `defun-declarations-alist'. \(fn NAME ARGLIST &optional DOCSTRING DECL &rest BODY)" ;; We can't just have `decl' as an &optional argument, because we need ;; to distinguish ;; (defun foo (arg) (toto) nil) ;; from ;; (defun foo (arg) (toto)). (declare (doc-string 3)) (let ((decls (cond ((eq (car-safe docstring) 'declare) (prog1 (cdr docstring) (setq docstring nil))) ((eq (car-safe (car body)) 'declare) (prog1 (cdr (car body)) (setq body (cdr body))))))) (if docstring (setq body (cons docstring body)) (if (null body) (setq body '(nil)))) (let ((declarations (mapcar #'(lambda (x) (let ((f (cdr (assq (car x) defun-declarations-alist)))) (cond (f (apply (car f) name arglist (cdr x))) ;; Yuck!! ((and (featurep 'cl) (memq (car x) ;C.f. cl-do-proclaim. '(special inline notinline optimize warn))) (if (null (stringp docstring)) (push (list 'declare x) body) (setcdr body (cons (list 'declare x) (cdr body)))) nil) (t (message "Warning: Unknown defun property %S in %S" (car x) name))))) decls)) (def (list 'defalias (list 'quote name) (list 'function (cons 'lambda (cons arglist body)))))) (if declarations (cons 'prog1 (cons def declarations)) def)))) ;; Redefined in byte-optimize.el. ;; This is not documented--it's not clear that we should promote it. (fset 'inline 'progn) ;;; Interface to inline functions. ;; (defmacro proclaim-inline (&rest fns) ;; "Cause the named functions to be open-coded when called from compiled code. ;; They will only be compiled open-coded when byte-compile-optimize is true." ;; (cons 'eval-and-compile ;; (mapcar (lambda (x) ;; (or (memq (get x 'byte-optimizer) ;; '(nil byte-compile-inline-expand)) ;; (error ;; "%s already has a byte-optimizer, can't make it inline" ;; x)) ;; (list 'put (list 'quote x) ;; ''byte-optimizer ''byte-compile-inline-expand)) ;; fns))) ;; (defmacro proclaim-notinline (&rest fns) ;; "Cause the named functions to no longer be open-coded." ;; (cons 'eval-and-compile ;; (mapcar (lambda (x) ;; (if (eq (get x 'byte-optimizer) 'byte-compile-inline-expand) ;; (put x 'byte-optimizer nil)) ;; (list 'if (list 'eq (list 'get (list 'quote x) ''byte-optimizer) ;; ''byte-compile-inline-expand) ;; (list 'put x ''byte-optimizer nil))) ;; fns))) (defmacro defsubst (name arglist &rest body) "Define an inline function. The syntax is just like that of `defun'." (declare (debug defun) (doc-string 3)) (or (memq (get name 'byte-optimizer) '(nil byte-compile-inline-expand)) (error "`%s' is a primitive" name)) `(prog1 (defun ,name ,arglist ,@body) (eval-and-compile (put ',name 'byte-optimizer 'byte-compile-inline-expand)))) (defvar advertised-signature-table (make-hash-table :test 'eq :weakness 'key)) (defun set-advertised-calling-convention (function signature _when) "Set the advertised SIGNATURE of FUNCTION. This will allow the byte-compiler to warn the programmer when she uses an obsolete calling convention. WHEN specifies since when the calling convention was modified." (puthash (indirect-function function) signature advertised-signature-table)) (defun make-obsolete (obsolete-name current-name &optional when) "Make the byte-compiler warn that OBSOLETE-NAME is obsolete. The warning will say that CURRENT-NAME should be used instead. If CURRENT-NAME is a string, that is the `use instead' message \(it should end with a period, and not start with a capital). WHEN should be a string indicating when the function was first made obsolete, for example a date or a release number." (declare (advertised-calling-convention ;; New code should always provide the `when' argument. (obsolete-name current-name when) "23.1")) (interactive "aMake function obsolete: \nxObsoletion replacement: ") (put obsolete-name 'byte-obsolete-info ;; The second entry used to hold the `byte-compile' handler, but ;; is not used any more nowadays. (purecopy (list current-name nil when))) obsolete-name) (defmacro define-obsolete-function-alias (obsolete-name current-name &optional when docstring) "Set OBSOLETE-NAME's function definition to CURRENT-NAME and mark it obsolete. \(define-obsolete-function-alias 'old-fun 'new-fun \"22.1\" \"old-fun's doc.\") is equivalent to the following two lines of code: \(defalias 'old-fun 'new-fun \"old-fun's doc.\") \(make-obsolete 'old-fun 'new-fun \"22.1\") See the docstrings of `defalias' and `make-obsolete' for more details." (declare (doc-string 4) (advertised-calling-convention ;; New code should always provide the `when' argument. (obsolete-name current-name when &optional docstring) "23.1")) `(progn (defalias ,obsolete-name ,current-name ,docstring) (make-obsolete ,obsolete-name ,current-name ,when))) (defun make-obsolete-variable (obsolete-name current-name &optional when access-type) "Make the byte-compiler warn that OBSOLETE-NAME is obsolete. The warning will say that CURRENT-NAME should be used instead. If CURRENT-NAME is a string, that is the `use instead' message. WHEN should be a string indicating when the variable was first made obsolete, for example a date or a release number. ACCESS-TYPE if non-nil should specify the kind of access that will trigger obsolescence warnings; it can be either `get' or `set'." (declare (advertised-calling-convention ;; New code should always provide the `when' argument. (obsolete-name current-name when &optional access-type) "23.1")) (put obsolete-name 'byte-obsolete-variable (purecopy (list current-name access-type when))) obsolete-name) (defmacro define-obsolete-variable-alias (obsolete-name current-name &optional when docstring) "Make OBSOLETE-NAME a variable alias for CURRENT-NAME and mark it obsolete. This uses `defvaralias' and `make-obsolete-variable' (which see). See the Info node `(elisp)Variable Aliases' for more details. If CURRENT-NAME is a defcustom (more generally, any variable where OBSOLETE-NAME may be set, e.g. in a .emacs file, before the alias is defined), then the define-obsolete-variable-alias statement should be evaluated before the defcustom, if user customizations are to be respected. The simplest way to achieve this is to place the alias statement before the defcustom (this is not necessary for aliases that are autoloaded, or in files dumped with Emacs). This is so that any user customizations are applied before the defcustom tries to initialize the variable (this is due to the way `defvaralias' works). For the benefit of `custom-set-variables', if OBSOLETE-NAME has any of the following properties, they are copied to CURRENT-NAME, if it does not already have them: 'saved-value, 'saved-variable-comment." (declare (doc-string 4) (advertised-calling-convention ;; New code should always provide the `when' argument. (obsolete-name current-name when &optional docstring) "23.1")) `(progn (defvaralias ,obsolete-name ,current-name ,docstring) ;; See Bug#4706. (dolist (prop '(saved-value saved-variable-comment)) (and (get ,obsolete-name prop) (null (get ,current-name prop)) (put ,current-name prop (get ,obsolete-name prop)))) (make-obsolete-variable ,obsolete-name ,current-name ,when))) ;; FIXME This is only defined in this file because the variable- and ;; function- versions are too. Unlike those two, this one is not used ;; by the byte-compiler (would be nice if it could warn about obsolete ;; faces, but it doesn't really do anything special with faces). ;; It only really affects M-x describe-face output. (defmacro define-obsolete-face-alias (obsolete-face current-face when) "Make OBSOLETE-FACE a face alias for CURRENT-FACE and mark it obsolete. The string WHEN gives the Emacs version where OBSOLETE-FACE became obsolete." `(progn (put ,obsolete-face 'face-alias ,current-face) ;; Used by M-x describe-face. (put ,obsolete-face 'obsolete-face (or (purecopy ,when) t)))) (defmacro dont-compile (&rest body) "Like `progn', but the body always runs interpreted (not compiled). If you think you need this, you're probably making a mistake somewhere." (declare (debug t) (indent 0)) (list 'eval (list 'quote (if (cdr body) (cons 'progn body) (car body))))) ;; interface to evaluating things at compile time and/or load time ;; these macro must come after any uses of them in this file, as their ;; definition in the file overrides the magic definitions on the ;; byte-compile-macro-environment. (defmacro eval-when-compile (&rest body) "Like `progn', but evaluates the body at compile time if you're compiling. Thus, the result of the body appears to the compiler as a quoted constant. In interpreted code, this is entirely equivalent to `progn'." (declare (debug t) (indent 0)) ;; Not necessary because we have it in b-c-initial-macro-environment ;; (list 'quote (eval (cons 'progn body))) (cons 'progn body)) (defmacro eval-and-compile (&rest body) "Like `progn', but evaluates the body at compile time and at load time." (declare (debug t) (indent 0)) ;; Remember, it's magic. (cons 'progn body)) (put 'with-no-warnings 'lisp-indent-function 0) (defun with-no-warnings (&rest body) "Like `progn', but prevents compiler warnings in the body." ;; The implementation for the interpreter is basically trivial. (car (last body))) ;; I nuked this because it's not a good idea for users to think of using it. ;; These options are a matter of installation preference, and have nothing to ;; with particular source files; it's a mistake to suggest to users ;; they should associate these with particular source files. ;; There is hardly any reason to change these parameters, anyway. ;; --rms. ;; (put 'byte-compiler-options 'lisp-indent-function 0) ;; (defmacro byte-compiler-options (&rest args) ;; "Set some compilation-parameters for this file. This will affect only the ;; file in which it appears; this does nothing when evaluated, and when loaded ;; from a .el file. ;; ;; Each argument to this macro must be a list of a key and a value. ;; ;; Keys: Values: Corresponding variable: ;; ;; verbose t, nil byte-compile-verbose ;; optimize t, nil, source, byte byte-compile-optimize ;; warnings list of warnings byte-compile-warnings ;; Valid elements: (callargs redefine free-vars unresolved) ;; file-format emacs18, emacs19 byte-compile-compatibility ;; ;; For example, this might appear at the top of a source file: ;; ;; (byte-compiler-options ;; (optimize t) ;; (warnings (- free-vars)) ; Don't warn about free variables ;; (file-format emacs19))" ;; nil) (make-obsolete-variable 'macro-declaration-function 'macro-declarations-alist "24.2") (make-obsolete 'macro-declaration-function 'macro-declarations-alist "24.2") ;;; byte-run.el ends here