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566 lines
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EmacsLisp
566 lines
23 KiB
EmacsLisp
;;; macroexp.el --- Additional macro-expansion support -*- lexical-binding: t -*-
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;;
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;; Copyright (C) 2004-2016 Free Software Foundation, Inc.
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;;
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;; Author: Miles Bader <miles@gnu.org>
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;; Keywords: lisp, compiler, macros
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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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;;
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;; This file contains macro-expansions functions that are not defined in
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;; the Lisp core, namely `macroexpand-all', which expands all macros in
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;; a form, not just a top-level one.
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;;; Code:
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;; Bound by the top-level `macroexpand-all', and modified to include any
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;; macros defined by `defmacro'.
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(defvar macroexpand-all-environment nil)
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(defun macroexp--cons (car cdr original-cons)
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"Return (CAR . CDR), using ORIGINAL-CONS if possible."
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(if (and (eq car (car original-cons)) (eq cdr (cdr original-cons)))
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original-cons
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(cons car cdr)))
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;; We use this special macro to iteratively process forms and share list
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;; structure of the result with the input. Doing so recursively using
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;; `macroexp--cons' results in excessively deep recursion for very long
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;; input forms.
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(defmacro macroexp--accumulate (var+list &rest body)
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"Return a list of the results of evaluating BODY for each element of LIST.
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Evaluate BODY with VAR bound to each `car' from LIST, in turn.
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Return a list of the values of the final form in BODY.
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The list structure of the result will share as much with LIST as
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possible (for instance, when BODY just returns VAR unchanged, the
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result will be eq to LIST).
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\(fn (VAR LIST) BODY...)"
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(declare (indent 1))
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(let ((var (car var+list))
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(list (cadr var+list))
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(shared (make-symbol "shared"))
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(unshared (make-symbol "unshared"))
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(tail (make-symbol "tail"))
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(new-el (make-symbol "new-el")))
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`(let* ((,shared ,list)
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(,unshared nil)
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(,tail ,shared)
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,var ,new-el)
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(while (consp ,tail)
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(setq ,var (car ,tail)
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,new-el (progn ,@body))
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(unless (eq ,var ,new-el)
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(while (not (eq ,shared ,tail))
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(push (pop ,shared) ,unshared))
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(setq ,shared (cdr ,shared))
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(push ,new-el ,unshared))
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(setq ,tail (cdr ,tail)))
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(nconc (nreverse ,unshared) ,shared))))
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(defun macroexp--all-forms (forms &optional skip)
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"Return FORMS with macros expanded. FORMS is a list of forms.
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If SKIP is non-nil, then don't expand that many elements at the start of
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FORMS."
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(macroexp--accumulate (form forms)
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(if (or (null skip) (zerop skip))
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(macroexp--expand-all form)
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(setq skip (1- skip))
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form)))
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(defun macroexp--all-clauses (clauses &optional skip)
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"Return CLAUSES with macros expanded.
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CLAUSES is a list of lists of forms; any clause that's not a list is ignored.
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If SKIP is non-nil, then don't expand that many elements at the start of
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each clause."
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(macroexp--accumulate (clause clauses)
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(if (listp clause)
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(macroexp--all-forms clause skip)
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clause)))
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(defun macroexp--compiler-macro (handler form)
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(condition-case err
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(apply handler form (cdr form))
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(error
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(message "Compiler-macro error for %S: %S" (car form) err)
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form)))
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(defun macroexp--funcall-if-compiled (_form)
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"Pseudo function used internally by macroexp to delay warnings.
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The purpose is to delay warnings to bytecomp.el, so they can use things
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like `byte-compile-log-warning' to get better file-and-line-number data
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and also to avoid outputting the warning during normal execution."
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nil)
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(put 'macroexp--funcall-if-compiled 'byte-compile
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(lambda (form)
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(funcall (eval (cadr form)))
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(byte-compile-constant nil)))
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(defun macroexp--compiling-p ()
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"Return non-nil if we're macroexpanding for the compiler."
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;; FIXME: ¡¡Major Ugly Hack!! To determine whether the output of this
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;; macro-expansion will be processed by the byte-compiler, we check
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;; circumstantial evidence.
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(member '(declare-function . byte-compile-macroexpand-declare-function)
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macroexpand-all-environment))
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(defvar macroexp--warned (make-hash-table :test #'equal :weakness 'key))
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(defun macroexp--warn-and-return (msg form &optional compile-only)
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(let ((when-compiled (lambda () (byte-compile-log-warning msg t))))
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(cond
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((null msg) form)
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((macroexp--compiling-p)
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(if (gethash form macroexp--warned)
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;; Already wrapped this exp with a warning: avoid inf-looping
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;; where we keep adding the same warning onto `form' because
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;; macroexpand-all gets right back to macroexpanding `form'.
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form
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(puthash form form macroexp--warned)
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`(progn
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(macroexp--funcall-if-compiled ',when-compiled)
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,form)))
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(t
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(unless compile-only
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(message "%s%s" (if (stringp load-file-name)
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(concat (file-relative-name load-file-name) ": ")
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"")
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msg))
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form))))
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(defun macroexp--obsolete-warning (fun obsolescence-data type)
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(let ((instead (car obsolescence-data))
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(asof (nth 2 obsolescence-data)))
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(format-message
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"`%s' is an obsolete %s%s%s" fun type
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(if asof (concat " (as of " asof ")") "")
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(cond ((stringp instead) (concat "; " (substitute-command-keys instead)))
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(instead (format-message "; use `%s' instead." instead))
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(t ".")))))
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(defun macroexpand-1 (form &optional environment)
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"Perform (at most) one step of macroexpansion."
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(cond
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((consp form)
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(let* ((head (car form))
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(env-expander (assq head environment)))
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(if env-expander
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(if (cdr env-expander)
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(apply (cdr env-expander) (cdr form))
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form)
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(if (not (and (symbolp head) (fboundp head)))
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form
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(let ((def (autoload-do-load (symbol-function head) head 'macro)))
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(cond
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;; Follow alias, but only for macros, otherwise we may end up
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;; skipping an important compiler-macro (e.g. cl--block-wrapper).
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((and (symbolp def) (macrop def)) (cons def (cdr form)))
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((not (consp def)) form)
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(t
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(if (eq 'macro (car def))
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(apply (cdr def) (cdr form))
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form))))))))
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(t form)))
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(defun macroexp-macroexpand (form env)
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"Like `macroexpand' but checking obsolescence."
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(let ((new-form
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(macroexpand form env)))
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(if (and (not (eq form new-form)) ;It was a macro call.
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(car-safe form)
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(symbolp (car form))
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(get (car form) 'byte-obsolete-info)
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(or (not (fboundp 'byte-compile-warning-enabled-p))
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(byte-compile-warning-enabled-p 'obsolete)))
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(let* ((fun (car form))
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(obsolete (get fun 'byte-obsolete-info)))
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(macroexp--warn-and-return
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(macroexp--obsolete-warning
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fun obsolete
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(if (symbolp (symbol-function fun))
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"alias" "macro"))
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new-form))
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new-form)))
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(defun macroexp--expand-all (form)
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"Expand all macros in FORM.
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This is an internal version of `macroexpand-all'.
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Assumes the caller has bound `macroexpand-all-environment'."
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(if (eq (car-safe form) 'backquote-list*)
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;; Special-case `backquote-list*', as it is normally a macro that
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;; generates exceedingly deep expansions from relatively shallow input
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;; forms. We just process it `in reverse' -- first we expand all the
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;; arguments, _then_ we expand the top-level definition.
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(macroexpand (macroexp--all-forms form 1)
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macroexpand-all-environment)
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;; Normal form; get its expansion, and then expand arguments.
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(setq form (macroexp-macroexpand form macroexpand-all-environment))
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(pcase form
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(`(cond . ,clauses)
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(macroexp--cons 'cond (macroexp--all-clauses clauses) form))
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(`(condition-case . ,(or `(,err ,body . ,handlers) dontcare))
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(macroexp--cons
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'condition-case
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(macroexp--cons err
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(macroexp--cons (macroexp--expand-all body)
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(macroexp--all-clauses handlers 1)
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(cddr form))
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(cdr form))
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form))
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(`(,(or `defvar `defconst) . ,_) (macroexp--all-forms form 2))
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(`(function ,(and f `(lambda . ,_)))
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(macroexp--cons 'function
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(macroexp--cons (macroexp--all-forms f 2)
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nil
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(cdr form))
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form))
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(`(,(or `function `quote) . ,_) form)
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(`(,(and fun (or `let `let*)) . ,(or `(,bindings . ,body) dontcare))
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(macroexp--cons fun
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(macroexp--cons (macroexp--all-clauses bindings 1)
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(macroexp--all-forms body)
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(cdr form))
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form))
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(`(,(and fun `(lambda . ,_)) . ,args)
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;; Embedded lambda in function position.
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(macroexp--cons (macroexp--all-forms fun 2)
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(macroexp--all-forms args)
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form))
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;; The following few cases are for normal function calls that
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;; are known to funcall one of their arguments. The byte
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;; compiler has traditionally handled these functions specially
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;; by treating a lambda expression quoted by `quote' as if it
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;; were quoted by `function'. We make the same transformation
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;; here, so that any code that cares about the difference will
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;; see the same transformation.
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;; First arg is a function:
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(`(,(and fun (or `funcall `apply `mapcar `mapatoms `mapconcat `mapc))
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',(and f `(lambda . ,_)) . ,args)
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(macroexp--warn-and-return
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(format "%s quoted with ' rather than with #'"
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(list 'lambda (nth 1 f) '...))
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(macroexp--expand-all `(,fun ,f . ,args))))
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;; Second arg is a function:
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(`(,(and fun (or `sort)) ,arg1 ',(and f `(lambda . ,_)) . ,args)
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(macroexp--warn-and-return
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(format "%s quoted with ' rather than with #'"
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(list 'lambda (nth 1 f) '...))
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(macroexp--expand-all `(,fun ,arg1 ,f . ,args))))
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(`(funcall (,(or 'quote 'function) ,(and f (pred symbolp)) . ,_) . ,args)
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;; Rewrite (funcall #'foo bar) to (foo bar), in case `foo'
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;; has a compiler-macro.
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(macroexp--expand-all `(,f . ,args)))
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(`(,func . ,_)
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;; Macro expand compiler macros. This cannot be delayed to
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;; byte-optimize-form because the output of the compiler-macro can
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;; use macros.
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(let ((handler (function-get func 'compiler-macro)))
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(if (null handler)
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;; No compiler macro. We just expand each argument (for
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;; setq/setq-default this works alright because the variable names
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;; are symbols).
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(macroexp--all-forms form 1)
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;; If the handler is not loaded yet, try (auto)loading the
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;; function itself, which may in turn load the handler.
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(unless (functionp handler)
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(with-demoted-errors "macroexp--expand-all: %S"
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(autoload-do-load (indirect-function func) func)))
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(let ((newform (macroexp--compiler-macro handler form)))
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(if (eq form newform)
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;; The compiler macro did not find anything to do.
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(if (equal form (setq newform (macroexp--all-forms form 1)))
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form
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;; Maybe after processing the args, some new opportunities
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;; appeared, so let's try the compiler macro again.
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(setq form (macroexp--compiler-macro handler newform))
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(if (eq newform form)
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newform
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(macroexp--expand-all newform)))
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(macroexp--expand-all newform))))))
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(_ form))))
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;;;###autoload
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(defun macroexpand-all (form &optional environment)
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"Return result of expanding macros at all levels in FORM.
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If no macros are expanded, FORM is returned unchanged.
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The second optional arg ENVIRONMENT specifies an environment of macro
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definitions to shadow the loaded ones for use in file byte-compilation."
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(let ((macroexpand-all-environment environment))
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(macroexp--expand-all form)))
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;;; Handy functions to use in macros.
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(defun macroexp-parse-body (body)
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"Parse a function BODY into (DECLARATIONS . EXPS)."
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(let ((decls ()))
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(while (and (cdr body)
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(let ((e (car body)))
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(or (stringp e)
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(memq (car-safe e)
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'(:documentation declare interactive cl-declare)))))
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(push (pop body) decls))
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(cons (nreverse decls) body)))
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(defun macroexp-progn (exps)
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"Return an expression equivalent to `(progn ,@EXPS)."
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(if (cdr exps) `(progn ,@exps) (car exps)))
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(defun macroexp-unprogn (exp)
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"Turn EXP into a list of expressions to execute in sequence.
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Never returns an empty list."
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(if (eq (car-safe exp) 'progn) (or (cdr exp) '(nil)) (list exp)))
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(defun macroexp-let* (bindings exp)
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"Return an expression equivalent to `(let* ,bindings ,exp)."
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(cond
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((null bindings) exp)
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((eq 'let* (car-safe exp)) `(let* (,@bindings ,@(cadr exp)) ,@(cddr exp)))
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(t `(let* ,bindings ,exp))))
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(defun macroexp-if (test then else)
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"Return an expression equivalent to `(if ,TEST ,THEN ,ELSE)."
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(cond
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((eq (car-safe else) 'if)
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(cond
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;; Drop this optimization: It's unsafe (it assumes that `test' is
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;; pure, or at least idempotent), and it's not used even a single
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;; time while compiling Emacs's sources.
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;;((equal test (nth 1 else))
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;; ;; Doing a test a second time: get rid of the redundancy.
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;; (message "macroexp-if: sharing 'test' %S" test)
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;; `(if ,test ,then ,@(nthcdr 3 else)))
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((equal then (nth 2 else))
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;; (message "macroexp-if: sharing 'then' %S" then)
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`(if (or ,test ,(nth 1 else)) ,then ,@(nthcdr 3 else)))
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((equal (macroexp-unprogn then) (nthcdr 3 else))
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;; (message "macroexp-if: sharing 'then' with not %S" then)
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`(if (or ,test (not ,(nth 1 else)))
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,then ,@(macroexp-unprogn (nth 2 else))))
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(t
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`(cond (,test ,@(macroexp-unprogn then))
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(,(nth 1 else) ,@(macroexp-unprogn (nth 2 else)))
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(t ,@(nthcdr 3 else))))))
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((eq (car-safe else) 'cond)
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`(cond (,test ,@(macroexp-unprogn then)) ,@(cdr else)))
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;; Invert the test if that lets us reduce the depth of the tree.
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((memq (car-safe then) '(if cond)) (macroexp-if `(not ,test) else then))
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(t `(if ,test ,then ,@(macroexp-unprogn else)))))
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(defmacro macroexp-let2 (test sym exp &rest body)
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"Evaluate BODY with SYM bound to an expression for EXP's value.
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The intended usage is that BODY generates an expression that
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will refer to EXP's value multiple times, but will evaluate
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EXP only once. As BODY generates that expression, it should
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use SYM to stand for the value of EXP.
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If EXP is a simple, safe expression, then SYM's value is EXP itself.
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Otherwise, SYM's value is a symbol which holds the value produced by
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evaluating EXP. The return value incorporates the value of BODY, plus
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additional code to evaluate EXP once and save the result so SYM can
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refer to it.
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If BODY consists of multiple forms, they are all evaluated
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but only the last one's value matters.
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TEST is a predicate to determine whether EXP qualifies as simple and
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safe; if TEST is nil, only constant expressions qualify.
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Example:
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(macroexp-let2 nil foo EXP
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\\=`(* ,foo ,foo))
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generates an expression that evaluates EXP once,
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then returns the square of that value.
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You could do this with
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(let ((foovar EXP))
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(* foovar foovar))
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but using `macroexp-let2' produces more efficient code in
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cases where EXP is a constant."
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(declare (indent 3) (debug (sexp sexp form body)))
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(let ((bodysym (make-symbol "body"))
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(expsym (make-symbol "exp")))
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`(let* ((,expsym ,exp)
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(,sym (if (funcall #',(or test #'macroexp-const-p) ,expsym)
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,expsym (make-symbol ,(symbol-name sym))))
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(,bodysym ,(macroexp-progn body)))
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(if (eq ,sym ,expsym) ,bodysym
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(macroexp-let* (list (list ,sym ,expsym))
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,bodysym)))))
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(defmacro macroexp-let2* (test bindings &rest body)
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"Bind each binding in BINDINGS as `macroexp-let2' does."
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(declare (indent 2) (debug (sexp (&rest (sexp form)) body)))
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(pcase-exhaustive bindings
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(`nil (macroexp-progn body))
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(`((,var ,exp) . ,tl)
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`(macroexp-let2 ,test ,var ,exp
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(macroexp-let2* ,test ,tl ,@body)))))
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(defun macroexp--maxsize (exp size)
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(cond ((< size 0) size)
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((symbolp exp) (1- size))
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((stringp exp) (- size (/ (length exp) 16)))
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((vectorp exp)
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(dotimes (i (length exp))
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(setq size (macroexp--maxsize (aref exp i) size)))
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(1- size))
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((consp exp)
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;; We could try to be more clever with quote&function,
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;; but it is difficult to do so correctly, and it's not obvious that
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;; it would be worth the effort.
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(dolist (e exp)
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(setq size (macroexp--maxsize e size)))
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(1- size))
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(t -1)))
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(defun macroexp-small-p (exp)
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"Return non-nil if EXP can be considered small."
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(> (macroexp--maxsize exp 10) 0))
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(defsubst macroexp--const-symbol-p (symbol &optional any-value)
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"Non-nil if SYMBOL is constant.
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If ANY-VALUE is nil, only return non-nil if the value of the symbol is the
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symbol itself."
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(or (memq symbol '(nil t))
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(keywordp symbol)
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|
(if any-value
|
|
(or (memq symbol byte-compile-const-variables)
|
|
;; FIXME: We should provide a less intrusive way to find out
|
|
;; if a variable is "constant".
|
|
(and (boundp symbol)
|
|
(condition-case nil
|
|
(progn (set symbol (symbol-value symbol)) nil)
|
|
(setting-constant t)))))))
|
|
|
|
(defun macroexp-const-p (exp)
|
|
"Return non-nil if EXP will always evaluate to the same value."
|
|
(cond ((consp exp) (or (eq (car exp) 'quote)
|
|
(and (eq (car exp) 'function)
|
|
(symbolp (cadr exp)))))
|
|
;; It would sometimes make sense to pass `any-value', but it's not
|
|
;; always safe since a "constant" variable may not actually always have
|
|
;; the same value.
|
|
((symbolp exp) (macroexp--const-symbol-p exp))
|
|
(t t)))
|
|
|
|
(defun macroexp-copyable-p (exp)
|
|
"Return non-nil if EXP can be copied without extra cost."
|
|
(or (symbolp exp) (macroexp-const-p exp)))
|
|
|
|
(defun macroexp-quote (v)
|
|
"Return an expression E such that `(eval E)' is V.
|
|
|
|
E is either V or (quote V) depending on whether V evaluates to
|
|
itself or not."
|
|
(if (and (not (consp v))
|
|
(or (keywordp v)
|
|
(not (symbolp v))
|
|
(memq v '(nil t))))
|
|
v
|
|
(list 'quote v)))
|
|
|
|
;;; Load-time macro-expansion.
|
|
|
|
;; Because macro-expansion used to be more lazy, eager macro-expansion
|
|
;; tends to bump into previously harmless/unnoticeable cyclic-dependencies.
|
|
;; So, we have to delay macro-expansion like we used to when we detect
|
|
;; such a cycle, and we also want to help coders resolve those cycles (since
|
|
;; they can be non-obvious) by providing a usefully trimmed backtrace
|
|
;; (hopefully) highlighting the problem.
|
|
|
|
(defun macroexp--backtrace ()
|
|
"Return the Elisp backtrace, more recent frames first."
|
|
(let ((bt ())
|
|
(i 0))
|
|
(while
|
|
(let ((frame (backtrace-frame i)))
|
|
(when frame
|
|
(push frame bt)
|
|
(setq i (1+ i)))))
|
|
(nreverse bt)))
|
|
|
|
(defun macroexp--trim-backtrace-frame (frame)
|
|
(pcase frame
|
|
(`(,_ macroexpand (,head . ,_) . ,_) `(macroexpand (,head …)))
|
|
(`(,_ internal-macroexpand-for-load (,head ,second . ,_) . ,_)
|
|
(if (or (symbolp second)
|
|
(and (eq 'quote (car-safe second))
|
|
(symbolp (cadr second))))
|
|
`(macroexpand-all (,head ,second …))
|
|
'(macroexpand-all …)))
|
|
(`(,_ load-with-code-conversion ,name . ,_)
|
|
`(load ,(file-name-nondirectory name)))))
|
|
|
|
(defvar macroexp--pending-eager-loads nil
|
|
"Stack of files currently undergoing eager macro-expansion.")
|
|
|
|
(defvar macroexp--debug-eager nil)
|
|
|
|
(defun internal-macroexpand-for-load (form full-p)
|
|
;; Called from the eager-macroexpansion in readevalloop.
|
|
(cond
|
|
;; Don't repeat the same warning for every top-level element.
|
|
((eq 'skip (car macroexp--pending-eager-loads)) form)
|
|
;; If we detect a cycle, skip macro-expansion for now, and output a warning
|
|
;; with a trimmed backtrace.
|
|
((and load-file-name (member load-file-name macroexp--pending-eager-loads))
|
|
(let* ((bt (delq nil
|
|
(mapcar #'macroexp--trim-backtrace-frame
|
|
(macroexp--backtrace))))
|
|
(elem `(load ,(file-name-nondirectory load-file-name)))
|
|
(tail (member elem (cdr (member elem bt)))))
|
|
(if tail (setcdr tail (list '…)))
|
|
(if (eq (car-safe (car bt)) 'macroexpand-all) (setq bt (cdr bt)))
|
|
(if macroexp--debug-eager
|
|
(debug 'eager-macroexp-cycle)
|
|
(message "Warning: Eager macro-expansion skipped due to cycle:\n %s"
|
|
(mapconcat #'prin1-to-string (nreverse bt) " => ")))
|
|
(push 'skip macroexp--pending-eager-loads)
|
|
form))
|
|
(t
|
|
(condition-case err
|
|
(let ((macroexp--pending-eager-loads
|
|
(cons load-file-name macroexp--pending-eager-loads)))
|
|
(if full-p
|
|
(macroexpand-all form)
|
|
(macroexpand form)))
|
|
(error
|
|
;; Hopefully this shouldn't happen thanks to the cycle detection,
|
|
;; but in case it does happen, let's catch the error and give the
|
|
;; code a chance to macro-expand later.
|
|
(message "Eager macro-expansion failure: %S" err)
|
|
form)))))
|
|
|
|
;; ¡¡¡ Big Ugly Hack !!!
|
|
;; src/bootstrap-emacs is mostly used to compile .el files, so it needs
|
|
;; macroexp, bytecomp, cconv, and byte-opt to be fast. Generally this is done
|
|
;; by compiling those files first, but this only makes a difference if those
|
|
;; files are not preloaded. But macroexp.el is preloaded so we reload it if
|
|
;; the current version is interpreted and there's a compiled version available.
|
|
(eval-when-compile
|
|
(add-hook 'emacs-startup-hook
|
|
(lambda ()
|
|
(and (not (byte-code-function-p
|
|
(symbol-function 'macroexpand-all)))
|
|
(locate-library "macroexp.elc")
|
|
(load "macroexp.elc")))))
|
|
|
|
(provide 'macroexp)
|
|
|
|
;;; macroexp.el ends here
|