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96d699f33e
* subr.el: Define compiled-function-p as an alias for it. * bytecomp.el: Register compiled-function-p as obsolete. * bytecomp.el, byte-opt.el, disass.el, help.el, map-ynp.el: Change uses.
1742 lines
63 KiB
EmacsLisp
1742 lines
63 KiB
EmacsLisp
;;; byte-opt.el --- the optimization passes of the emacs-lisp byte compiler.
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;;; Copyright (c) 1991 Free Software Foundation, Inc.
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;; Author: Jamie Zawinski <jwz@lucid.com>
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;; Hallvard Furuseth <hbf@ulrik.uio.no>
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;; Keywords: internal
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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 2, or (at your option)
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;; 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; see the file COPYING. If not, write to
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;; the Free Software Foundation, 675 Mass Ave, Cambridge, MA 02139, USA.
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;;; Commentary:
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;;; ========================================================================
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;;; "No matter how hard you try, you can't make a racehorse out of a pig.
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;;; you can, however, make a faster pig."
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;;;
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;;; Or, to put it another way, the emacs byte compiler is a VW Bug. This code
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;;; makes it be a VW Bug with fuel injection and a turbocharger... You're
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;;; still not going to make it go faster than 70 mph, but it might be easier
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;;; to get it there.
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;;;
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;;; TO DO:
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;;;
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;;; (apply '(lambda (x &rest y) ...) 1 (foo))
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;;;
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;;; collapse common subexpressions
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;;;
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;;; maintain a list of functions known not to access any global variables
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;;; (actually, give them a 'dynamically-safe property) and then
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;;; (let ( v1 v2 ... vM vN ) <...dynamically-safe...> ) ==>
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;;; (let ( v1 v2 ... vM ) vN <...dynamically-safe...> )
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;;; by recursing on this, we might be able to eliminate the entire let.
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;;; However certain variables should never have their bindings optimized
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;;; away, because they affect everything.
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;;; (put 'debug-on-error 'binding-is-magic t)
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;;; (put 'debug-on-abort 'binding-is-magic t)
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;;; (put 'inhibit-quit 'binding-is-magic t)
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;;; (put 'quit-flag 'binding-is-magic t)
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;;; others?
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;;;
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;;; Simple defsubsts often produce forms like
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;;; (let ((v1 (f1)) (v2 (f2)) ...)
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;;; (FN v1 v2 ...))
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;;; It would be nice if we could optimize this to
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;;; (FN (f1) (f2) ...)
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;;; but we can't unless FN is dynamically-safe (it might be dynamically
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;;; referring to the bindings that the lambda arglist established.)
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;;; One of the uncountable lossages introduced by dynamic scope...
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;;;
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;;; Maybe there should be a control-structure that says "turn on
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;;; fast-and-loose type-assumptive optimizations here." Then when
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;;; we see a form like (car foo) we can from then on assume that
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;;; the variable foo is of type cons, and optimize based on that.
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;;; But, this won't win much because of (you guessed it) dynamic
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;;; scope. Anything down the stack could change the value.
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;;;
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;;; It would be nice if redundant sequences could be factored out as well,
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;;; when they are known to have no side-effects:
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;;; (list (+ a b c) (+ a b c)) --> a b add c add dup list-2
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;;; but beware of traps like
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;;; (cons (list x y) (list x y))
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;;;
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;;; Tail-recursion elimination is not really possible in Emacs Lisp.
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;;; Tail-recursion elimination is almost always impossible when all variables
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;;; have dynamic scope, but given that the "return" byteop requires the
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;;; binding stack to be empty (rather than emptying it itself), there can be
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;;; no truly tail-recursive Emacs Lisp functions that take any arguments or
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;;; make any bindings.
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;;;
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;;; Here is an example of an Emacs Lisp function which could safely be
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;;; byte-compiled tail-recursively:
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;;;
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;;; (defun tail-map (fn list)
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;;; (cond (list
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;;; (funcall fn (car list))
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;;; (tail-map fn (cdr list)))))
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;;;
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;;; However, if there was even a single let-binding around the COND,
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;;; it could not be byte-compiled, because there would be an "unbind"
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;;; byte-op between the final "call" and "return." Adding a
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;;; Bunbind_all byteop would fix this.
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;;;
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;;; (defun foo (x y z) ... (foo a b c))
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;;; ... (const foo) (varref a) (varref b) (varref c) (call 3) END: (return)
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;;; ... (varref a) (varbind x) (varref b) (varbind y) (varref c) (varbind z) (goto 0) END: (unbind-all) (return)
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;;; ... (varref a) (varset x) (varref b) (varset y) (varref c) (varset z) (goto 0) END: (return)
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;;;
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;;; this also can be considered tail recursion:
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;;;
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;;; ... (const foo) (varref a) (call 1) (goto X) ... X: (return)
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;;; could generalize this by doing the optimization
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;;; (goto X) ... X: (return) --> (return)
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;;;
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;;; But this doesn't solve all of the problems: although by doing tail-
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;;; recursion elimination in this way, the call-stack does not grow, the
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;;; binding-stack would grow with each recursive step, and would eventually
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;;; overflow. I don't believe there is any way around this without lexical
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;;; scope.
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;;;
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;;; Wouldn't it be nice if Emacs Lisp had lexical scope.
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;;;
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;;; Idea: the form (lexical-scope) in a file means that the file may be
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;;; compiled lexically. This proclamation is file-local. Then, within
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;;; that file, "let" would establish lexical bindings, and "let-dynamic"
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;;; would do things the old way. (Or we could use CL "declare" forms.)
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;;; We'd have to notice defvars and defconsts, since those variables should
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;;; always be dynamic, and attempting to do a lexical binding of them
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;;; should simply do a dynamic binding instead.
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;;; But! We need to know about variables that were not necessarily defvarred
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;;; in the file being compiled (doing a boundp check isn't good enough.)
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;;; Fdefvar() would have to be modified to add something to the plist.
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;;;
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;;; A major disadvantage of this scheme is that the interpreter and compiler
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;;; would have different semantics for files compiled with (dynamic-scope).
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;;; Since this would be a file-local optimization, there would be no way to
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;;; modify the interpreter to obey this (unless the loader was hacked
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;;; in some grody way, but that's a really bad idea.)
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;;;
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;;; Really the Right Thing is to make lexical scope the default across
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;;; the board, in the interpreter and compiler, and just FIX all of
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;;; the code that relies on dynamic scope of non-defvarred variables.
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;;; Code:
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(defun byte-compile-log-lap-1 (format &rest args)
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(if (aref byte-code-vector 0)
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(error "The old version of the disassembler is loaded. Reload new-bytecomp as well."))
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(byte-compile-log-1
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(apply 'format format
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(let (c a)
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(mapcar '(lambda (arg)
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(if (not (consp arg))
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(if (and (symbolp arg)
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(string-match "^byte-" (symbol-name arg)))
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(intern (substring (symbol-name arg) 5))
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arg)
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(if (integerp (setq c (car arg)))
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(error "non-symbolic byte-op %s" c))
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(if (eq c 'TAG)
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(setq c arg)
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(setq a (cond ((memq c byte-goto-ops)
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(car (cdr (cdr arg))))
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((memq c byte-constref-ops)
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(car (cdr arg)))
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(t (cdr arg))))
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(setq c (symbol-name c))
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(if (string-match "^byte-." c)
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(setq c (intern (substring c 5)))))
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(if (eq c 'constant) (setq c 'const))
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(if (and (eq (cdr arg) 0)
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(not (memq c '(unbind call const))))
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c
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(format "(%s %s)" c a))))
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args)))))
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(defmacro byte-compile-log-lap (format-string &rest args)
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(list 'and
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'(memq byte-optimize-log '(t byte))
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(cons 'byte-compile-log-lap-1
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(cons format-string args))))
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;;; byte-compile optimizers to support inlining
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(put 'inline 'byte-optimizer 'byte-optimize-inline-handler)
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(defun byte-optimize-inline-handler (form)
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"byte-optimize-handler for the `inline' special-form."
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(cons 'progn
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(mapcar
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'(lambda (sexp)
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(let ((fn (car-safe sexp)))
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(if (and (symbolp fn)
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(or (cdr (assq fn byte-compile-function-environment))
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(and (fboundp fn)
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(not (or (cdr (assq fn byte-compile-macro-environment))
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(and (consp (setq fn (symbol-function fn)))
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(eq (car fn) 'macro))
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(subrp fn))))))
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(byte-compile-inline-expand sexp)
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sexp)))
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(cdr form))))
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;; Splice the given lap code into the current instruction stream.
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;; If it has any labels in it, you're responsible for making sure there
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;; are no collisions, and that byte-compile-tag-number is reasonable
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;; after this is spliced in. The provided list is destroyed.
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(defun byte-inline-lapcode (lap)
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(setq byte-compile-output (nconc (nreverse lap) byte-compile-output)))
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(defun byte-compile-inline-expand (form)
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(let* ((name (car form))
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(fn (or (cdr (assq name byte-compile-function-environment))
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(and (fboundp name) (symbol-function name)))))
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(if (null fn)
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(progn
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(byte-compile-warn "attempt to inline %s before it was defined" name)
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form)
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;; else
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(if (and (consp fn) (eq (car fn) 'autoload))
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(load (nth 1 fn)))
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(if (and (consp fn) (eq (car fn) 'autoload))
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(error "file \"%s\" didn't define \"%s\"" (nth 1 fn) name))
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(if (symbolp fn)
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(byte-compile-inline-expand (cons fn (cdr form)))
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(if (byte-code-function-p fn)
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(cons (list 'lambda (aref fn 0)
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(list 'byte-code (aref fn 1) (aref fn 2) (aref fn 3)))
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(cdr form))
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(if (not (eq (car fn) 'lambda)) (error "%s is not a lambda" name))
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(cons fn (cdr form)))))))
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;;; ((lambda ...) ...)
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;;;
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(defun byte-compile-unfold-lambda (form &optional name)
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(or name (setq name "anonymous lambda"))
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(let ((lambda (car form))
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(values (cdr form)))
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(if (byte-code-function-p lambda)
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(setq lambda (list 'lambda (aref lambda 0)
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(list 'byte-code (aref lambda 1)
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(aref lambda 2) (aref lambda 3)))))
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(let ((arglist (nth 1 lambda))
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(body (cdr (cdr lambda)))
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optionalp restp
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bindings)
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(if (and (stringp (car body)) (cdr body))
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(setq body (cdr body)))
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(if (and (consp (car body)) (eq 'interactive (car (car body))))
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(setq body (cdr body)))
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(while arglist
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(cond ((eq (car arglist) '&optional)
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;; ok, I'll let this slide because funcall_lambda() does...
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;; (if optionalp (error "multiple &optional keywords in %s" name))
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(if restp (error "&optional found after &rest in %s" name))
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(if (null (cdr arglist))
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(error "nothing after &optional in %s" name))
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(setq optionalp t))
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((eq (car arglist) '&rest)
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;; ...but it is by no stretch of the imagination a reasonable
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;; thing that funcall_lambda() allows (&rest x y) and
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;; (&rest x &optional y) in arglists.
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(if (null (cdr arglist))
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(error "nothing after &rest in %s" name))
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(if (cdr (cdr arglist))
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(error "multiple vars after &rest in %s" name))
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(setq restp t))
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(restp
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(setq bindings (cons (list (car arglist)
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(and values (cons 'list values)))
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bindings)
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values nil))
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((and (not optionalp) (null values))
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(byte-compile-warn "attempt to open-code %s with too few arguments" name)
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(setq arglist nil values 'too-few))
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(t
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(setq bindings (cons (list (car arglist) (car values))
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bindings)
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values (cdr values))))
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(setq arglist (cdr arglist)))
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(if values
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(progn
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(or (eq values 'too-few)
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(byte-compile-warn
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"attempt to open-code %s with too many arguments" name))
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form)
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(let ((newform
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(if bindings
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(cons 'let (cons (nreverse bindings) body))
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(cons 'progn body))))
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(byte-compile-log " %s\t==>\t%s" form newform)
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newform)))))
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;;; implementing source-level optimizers
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(defun byte-optimize-form-code-walker (form for-effect)
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;;
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;; For normal function calls, We can just mapcar the optimizer the cdr. But
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;; we need to have special knowledge of the syntax of the special forms
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;; like let and defun (that's why they're special forms :-). (Actually,
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;; the important aspect is that they are subrs that don't evaluate all of
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;; their args.)
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;;
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(let ((fn (car-safe form))
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tmp)
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(cond ((not (consp form))
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(if (not (and for-effect
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(or byte-compile-delete-errors
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(not (symbolp form))
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(eq form t))))
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form))
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((eq fn 'quote)
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(if (cdr (cdr form))
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(byte-compile-warn "malformed quote form: %s"
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(prin1-to-string form)))
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;; map (quote nil) to nil to simplify optimizer logic.
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;; map quoted constants to nil if for-effect (just because).
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(and (nth 1 form)
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(not for-effect)
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form))
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((or (byte-code-function-p fn)
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(eq 'lambda (car-safe fn)))
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(byte-compile-unfold-lambda form))
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((memq fn '(let let*))
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;; recursively enter the optimizer for the bindings and body
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;; of a let or let*. This for depth-firstness: forms that
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;; are more deeply nested are optimized first.
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(cons fn
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(cons
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(mapcar '(lambda (binding)
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(if (symbolp binding)
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binding
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(if (cdr (cdr binding))
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(byte-compile-warn "malformed let binding: %s"
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(prin1-to-string binding)))
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(list (car binding)
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(byte-optimize-form (nth 1 binding) nil))))
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(nth 1 form))
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(byte-optimize-body (cdr (cdr form)) for-effect))))
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((eq fn 'cond)
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(cons fn
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(mapcar '(lambda (clause)
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(if (consp clause)
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(cons
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(byte-optimize-form (car clause) nil)
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(byte-optimize-body (cdr clause) for-effect))
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(byte-compile-warn "malformed cond form: %s"
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(prin1-to-string clause))
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clause))
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(cdr form))))
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((eq fn 'progn)
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;; as an extra added bonus, this simplifies (progn <x>) --> <x>
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(if (cdr (cdr form))
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(progn
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(setq tmp (byte-optimize-body (cdr form) for-effect))
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(if (cdr tmp) (cons 'progn tmp) (car tmp)))
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(byte-optimize-form (nth 1 form) for-effect)))
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((eq fn 'prog1)
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(if (cdr (cdr form))
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(cons 'prog1
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(cons (byte-optimize-form (nth 1 form) for-effect)
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(byte-optimize-body (cdr (cdr form)) t)))
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(byte-optimize-form (nth 1 form) for-effect)))
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((eq fn 'prog2)
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(cons 'prog2
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(cons (byte-optimize-form (nth 1 form) t)
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(cons (byte-optimize-form (nth 2 form) for-effect)
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(byte-optimize-body (cdr (cdr (cdr form))) t)))))
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((memq fn '(save-excursion save-restriction))
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;; those subrs which have an implicit progn; it's not quite good
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;; enough to treat these like normal function calls.
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;; This can turn (save-excursion ...) into (save-excursion) which
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;; will be optimized away in the lap-optimize pass.
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(cons fn (byte-optimize-body (cdr form) for-effect)))
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((eq fn 'with-output-to-temp-buffer)
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;; this is just like the above, except for the first argument.
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(cons fn
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(cons
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(byte-optimize-form (nth 1 form) nil)
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(byte-optimize-body (cdr (cdr form)) for-effect))))
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((eq fn 'if)
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(cons fn
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(cons (byte-optimize-form (nth 1 form) nil)
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(cons
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(byte-optimize-form (nth 2 form) for-effect)
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(byte-optimize-body (nthcdr 3 form) for-effect)))))
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((memq fn '(and or)) ; remember, and/or are control structures.
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;; take forms off the back until we can't any more.
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;; In the future it could concievably be a problem that the
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;; subexpressions of these forms are optimized in the reverse
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;; order, but it's ok for now.
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(if for-effect
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(let ((backwards (reverse (cdr form))))
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(while (and backwards
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(null (setcar backwards
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(byte-optimize-form (car backwards)
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for-effect))))
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(setq backwards (cdr backwards)))
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(if (and (cdr form) (null backwards))
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(byte-compile-log
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" all subforms of %s called for effect; deleted" form))
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(and backwards
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(cons fn (nreverse backwards))))
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(cons fn (mapcar 'byte-optimize-form (cdr form)))))
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((eq fn 'interactive)
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(byte-compile-warn "misplaced interactive spec: %s"
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(prin1-to-string form))
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nil)
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((memq fn '(defun defmacro function
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condition-case save-window-excursion))
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;; These forms are compiled as constants or by breaking out
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;; all the subexpressions and compiling them separately.
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||
form)
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((eq fn 'unwind-protect)
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;; the "protected" part of an unwind-protect is compiled (and thus
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;; optimized) as a top-level form, so don't do it here. But the
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;; non-protected part has the same for-effect status as the
|
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;; unwind-protect itself. (The protected part is always for effect,
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;; but that isn't handled properly yet.)
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(cons fn
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(cons (byte-optimize-form (nth 1 form) for-effect)
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(cdr (cdr form)))))
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((eq fn 'catch)
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;; the body of a catch is compiled (and thus optimized) as a
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;; top-level form, so don't do it here. The tag is never
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;; for-effect. The body should have the same for-effect status
|
||
;; as the catch form itself, but that isn't handled properly yet.
|
||
(cons fn
|
||
(cons (byte-optimize-form (nth 1 form) nil)
|
||
(cdr (cdr form)))))
|
||
|
||
;; If optimization is on, this is the only place that macros are
|
||
;; expanded. If optimization is off, then macroexpansion happens
|
||
;; in byte-compile-form. Otherwise, the macros are already expanded
|
||
;; by the time that is reached.
|
||
((not (eq form
|
||
(setq form (macroexpand form
|
||
byte-compile-macro-environment))))
|
||
(byte-optimize-form form for-effect))
|
||
|
||
((not (symbolp fn))
|
||
(or (eq 'mocklisp (car-safe fn)) ; ha!
|
||
(byte-compile-warn "%s is a malformed function"
|
||
(prin1-to-string fn)))
|
||
form)
|
||
|
||
((and for-effect (setq tmp (get fn 'side-effect-free))
|
||
(or byte-compile-delete-errors
|
||
(eq tmp 'error-free)
|
||
(progn
|
||
(byte-compile-warn "%s called for effect"
|
||
(prin1-to-string form))
|
||
nil)))
|
||
(byte-compile-log " %s called for effect; deleted" fn)
|
||
;; appending a nil here might not be necessary, but it can't hurt.
|
||
(byte-optimize-form
|
||
(cons 'progn (append (cdr form) '(nil))) t))
|
||
|
||
(t
|
||
;; Otherwise, no args can be considered to be for-effect,
|
||
;; even if the called function is for-effect, because we
|
||
;; don't know anything about that function.
|
||
(cons fn (mapcar 'byte-optimize-form (cdr form)))))))
|
||
|
||
|
||
(defun byte-optimize-form (form &optional for-effect)
|
||
"The source-level pass of the optimizer."
|
||
;;
|
||
;; First, optimize all sub-forms of this one.
|
||
(setq form (byte-optimize-form-code-walker form for-effect))
|
||
;;
|
||
;; after optimizing all subforms, optimize this form until it doesn't
|
||
;; optimize any further. This means that some forms will be passed through
|
||
;; the optimizer many times, but that's necessary to make the for-effect
|
||
;; processing do as much as possible.
|
||
;;
|
||
(let (opt new)
|
||
(if (and (consp form)
|
||
(symbolp (car form))
|
||
(or (and for-effect
|
||
;; we don't have any of these yet, but we might.
|
||
(setq opt (get (car form) 'byte-for-effect-optimizer)))
|
||
(setq opt (get (car form) 'byte-optimizer)))
|
||
(not (eq form (setq new (funcall opt form)))))
|
||
(progn
|
||
;; (if (equal form new) (error "bogus optimizer -- %s" opt))
|
||
(byte-compile-log " %s\t==>\t%s" form new)
|
||
(setq new (byte-optimize-form new for-effect))
|
||
new)
|
||
form)))
|
||
|
||
|
||
(defun byte-optimize-body (forms all-for-effect)
|
||
;; optimize the cdr of a progn or implicit progn; all forms is a list of
|
||
;; forms, all but the last of which are optimized with the assumption that
|
||
;; they are being called for effect. the last is for-effect as well if
|
||
;; all-for-effect is true. returns a new list of forms.
|
||
(let ((rest forms)
|
||
(result nil)
|
||
fe new)
|
||
(while rest
|
||
(setq fe (or all-for-effect (cdr rest)))
|
||
(setq new (and (car rest) (byte-optimize-form (car rest) fe)))
|
||
(if (or new (not fe))
|
||
(setq result (cons new result)))
|
||
(setq rest (cdr rest)))
|
||
(nreverse result)))
|
||
|
||
|
||
;;; some source-level optimizers
|
||
;;;
|
||
;;; when writing optimizers, be VERY careful that the optimizer returns
|
||
;;; something not EQ to its argument if and ONLY if it has made a change.
|
||
;;; This implies that you cannot simply destructively modify the list;
|
||
;;; you must return something not EQ to it if you make an optimization.
|
||
;;;
|
||
;;; It is now safe to optimize code such that it introduces new bindings.
|
||
|
||
;; I'd like this to be a defsubst, but let's not be self-referental...
|
||
(defmacro byte-compile-trueconstp (form)
|
||
;; Returns non-nil if FORM is a non-nil constant.
|
||
(` (cond ((consp (, form)) (eq (car (, form)) 'quote))
|
||
((not (symbolp (, form))))
|
||
((eq (, form) t)))))
|
||
|
||
;; If the function is being called with constant numeric args,
|
||
;; evaluate as much as possible at compile-time. This optimizer
|
||
;; assumes that the function is associative, like + or *.
|
||
(defun byte-optimize-associative-math (form)
|
||
(let ((args nil)
|
||
(constants nil)
|
||
(rest (cdr form)))
|
||
(while rest
|
||
(if (numberp (car rest))
|
||
(setq constants (cons (car rest) constants))
|
||
(setq args (cons (car rest) args)))
|
||
(setq rest (cdr rest)))
|
||
(if (cdr constants)
|
||
(if args
|
||
(list (car form)
|
||
(apply (car form) constants)
|
||
(if (cdr args)
|
||
(cons (car form) (nreverse args))
|
||
(car args)))
|
||
(apply (car form) constants))
|
||
form)))
|
||
|
||
;; If the function is being called with constant numeric args,
|
||
;; evaluate as much as possible at compile-time. This optimizer
|
||
;; assumes that the function is nonassociative, like - or /.
|
||
(defun byte-optimize-nonassociative-math (form)
|
||
(if (or (not (numberp (car (cdr form))))
|
||
(not (numberp (car (cdr (cdr form))))))
|
||
form
|
||
(let ((constant (car (cdr form)))
|
||
(rest (cdr (cdr form))))
|
||
(while (numberp (car rest))
|
||
(setq constant (funcall (car form) constant (car rest))
|
||
rest (cdr rest)))
|
||
(if rest
|
||
(cons (car form) (cons constant rest))
|
||
constant))))
|
||
|
||
;;(defun byte-optimize-associative-two-args-math (form)
|
||
;; (setq form (byte-optimize-associative-math form))
|
||
;; (if (consp form)
|
||
;; (byte-optimize-two-args-left form)
|
||
;; form))
|
||
|
||
;;(defun byte-optimize-nonassociative-two-args-math (form)
|
||
;; (setq form (byte-optimize-nonassociative-math form))
|
||
;; (if (consp form)
|
||
;; (byte-optimize-two-args-right form)
|
||
;; form))
|
||
|
||
(defun byte-optimize-delay-constants-math (form start fun)
|
||
;; Merge all FORM's constants from number START, call FUN on them
|
||
;; and put the result at the end.
|
||
(let ((rest (nthcdr (1- start) form)))
|
||
(while (cdr (setq rest (cdr rest)))
|
||
(if (numberp (car rest))
|
||
(let (constants)
|
||
(setq form (copy-sequence form)
|
||
rest (nthcdr (1- start) form))
|
||
(while (setq rest (cdr rest))
|
||
(cond ((numberp (car rest))
|
||
(setq constants (cons (car rest) constants))
|
||
(setcar rest nil))))
|
||
(setq form (nconc (delq nil form)
|
||
(list (apply fun (nreverse constants))))))))
|
||
form))
|
||
|
||
(defun byte-optimize-plus (form)
|
||
(setq form (byte-optimize-delay-constants-math form 1 '+))
|
||
(if (memq 0 form) (setq form (delq 0 (copy-sequence form))))
|
||
;;(setq form (byte-optimize-associative-two-args-math form))
|
||
(cond ((null (cdr form))
|
||
(condition-case ()
|
||
(eval form)
|
||
(error form)))
|
||
;;; It is not safe to delete the function entirely
|
||
;;; (actually, it would be safe if we know the sole arg
|
||
;;; is not a marker).
|
||
;; ((null (cdr (cdr form))) (nth 1 form))
|
||
(t form)))
|
||
|
||
(defun byte-optimize-minus (form)
|
||
;; Put constants at the end, except the last constant.
|
||
(setq form (byte-optimize-delay-constants-math form 2 '+))
|
||
;; Now only first and last element can be a number.
|
||
(let ((last (car (reverse (nthcdr 3 form)))))
|
||
(cond ((eq 0 last)
|
||
;; (- x y ... 0) --> (- x y ...)
|
||
(setq form (copy-sequence form))
|
||
(setcdr (cdr (cdr form)) (delq 0 (nthcdr 3 form))))
|
||
;; If form is (- CONST foo... CONST), merge first and last.
|
||
((and (numberp (nth 1 form))
|
||
(numberp last))
|
||
(setq form (nconc (list '- (- (nth 1 form) last) (nth 2 form))
|
||
(delq last (copy-sequence (nthcdr 3 form))))))))
|
||
;;; It is not safe to delete the function entirely
|
||
;;; (actually, it would be safe if we know the sole arg
|
||
;;; is not a marker).
|
||
;;; (if (eq (nth 2 form) 0)
|
||
;;; (nth 1 form) ; (- x 0) --> x
|
||
(byte-optimize-predicate
|
||
(if (and (null (cdr (cdr (cdr form))))
|
||
(eq (nth 1 form) 0)) ; (- 0 x) --> (- x)
|
||
(cons (car form) (cdr (cdr form)))
|
||
form))
|
||
;;; )
|
||
)
|
||
|
||
(defun byte-optimize-multiply (form)
|
||
(setq form (byte-optimize-delay-constants-math form 1 '*))
|
||
;; If there is a constant in FORM, it is now the last element.
|
||
(cond ((null (cdr form)) 1)
|
||
;;; It is not safe to delete the function entirely
|
||
;;; (actually, it would be safe if we know the sole arg
|
||
;;; is not a marker or if it appears in other arithmetic).
|
||
;;; ((null (cdr (cdr form))) (nth 1 form))
|
||
((let ((last (car (reverse form))))
|
||
(cond ((eq 0 last) (list 'progn (cdr form)))
|
||
((eq 1 last) (delq 1 (copy-sequence form)))
|
||
((eq -1 last) (list '- (delq -1 (copy-sequence form))))
|
||
((and (eq 2 last)
|
||
(memq t (mapcar 'symbolp (cdr form))))
|
||
(prog1 (setq form (delq 2 (copy-sequence form)))
|
||
(while (not (symbolp (car (setq form (cdr form))))))
|
||
(setcar form (list '+ (car form) (car form)))))
|
||
(form))))))
|
||
|
||
(defsubst byte-compile-butlast (form)
|
||
(nreverse (cdr (reverse form))))
|
||
|
||
(defun byte-optimize-divide (form)
|
||
(setq form (byte-optimize-delay-constants-math form 2 '*))
|
||
(let ((last (car (reverse (cdr (cdr form))))))
|
||
(if (numberp last)
|
||
(cond ((= last 1)
|
||
(setq form (byte-compile-butlast form)))
|
||
((numberp (nth 1 form))
|
||
(setq form (cons (car form)
|
||
(cons (/ (nth 1 form) last)
|
||
(byte-compile-butlast (cdr (cdr form)))))
|
||
last nil))))
|
||
(cond
|
||
;;; ((null (cdr (cdr form)))
|
||
;;; (nth 1 form))
|
||
((eq (nth 1 form) 0)
|
||
(append '(progn) (cdr (cdr form)) '(0)))
|
||
((eq last -1)
|
||
(list '- (if (nthcdr 3 form)
|
||
(byte-compile-butlast form)
|
||
(nth 1 form))))
|
||
(form))))
|
||
|
||
(defun byte-optimize-logmumble (form)
|
||
(setq form (byte-optimize-delay-constants-math form 1 (car form)))
|
||
(byte-optimize-predicate
|
||
(cond ((memq 0 form)
|
||
(setq form (if (eq (car form) 'logand)
|
||
(cons 'progn (cdr form))
|
||
(delq 0 (copy-sequence form)))))
|
||
((and (eq (car-safe form) 'logior)
|
||
(memq -1 form))
|
||
(delq -1 (copy-sequence form)))
|
||
(form))))
|
||
|
||
|
||
(defun byte-optimize-binary-predicate (form)
|
||
(if (byte-compile-constp (nth 1 form))
|
||
(if (byte-compile-constp (nth 2 form))
|
||
(condition-case ()
|
||
(list 'quote (eval form))
|
||
(error form))
|
||
;; This can enable some lapcode optimizations.
|
||
(list (car form) (nth 2 form) (nth 1 form)))
|
||
form))
|
||
|
||
(defun byte-optimize-predicate (form)
|
||
(let ((ok t)
|
||
(rest (cdr form)))
|
||
(while (and rest ok)
|
||
(setq ok (byte-compile-constp (car rest))
|
||
rest (cdr rest)))
|
||
(if ok
|
||
(condition-case ()
|
||
(list 'quote (eval form))
|
||
(error form))
|
||
form)))
|
||
|
||
(defun byte-optimize-identity (form)
|
||
(if (and (cdr form) (null (cdr (cdr form))))
|
||
(nth 1 form)
|
||
(byte-compile-warn "identity called with %d arg%s, but requires 1"
|
||
(length (cdr form))
|
||
(if (= 1 (length (cdr form))) "" "s"))
|
||
form))
|
||
|
||
(put 'identity 'byte-optimizer 'byte-optimize-identity)
|
||
|
||
(put '+ 'byte-optimizer 'byte-optimize-plus)
|
||
(put '* 'byte-optimizer 'byte-optimize-multiply)
|
||
(put '- 'byte-optimizer 'byte-optimize-minus)
|
||
(put '/ 'byte-optimizer 'byte-optimize-divide)
|
||
(put 'max 'byte-optimizer 'byte-optimize-associative-math)
|
||
(put 'min 'byte-optimizer 'byte-optimize-associative-math)
|
||
|
||
(put '= 'byte-optimizer 'byte-optimize-binary-predicate)
|
||
(put 'eq 'byte-optimizer 'byte-optimize-binary-predicate)
|
||
(put 'eql 'byte-optimizer 'byte-optimize-binary-predicate)
|
||
(put 'equal 'byte-optimizer 'byte-optimize-binary-predicate)
|
||
(put 'string= 'byte-optimizer 'byte-optimize-binary-predicate)
|
||
(put 'string-equal 'byte-optimizer 'byte-optimize-binary-predicate)
|
||
|
||
(put '< 'byte-optimizer 'byte-optimize-predicate)
|
||
(put '> 'byte-optimizer 'byte-optimize-predicate)
|
||
(put '<= 'byte-optimizer 'byte-optimize-predicate)
|
||
(put '>= 'byte-optimizer 'byte-optimize-predicate)
|
||
(put '1+ 'byte-optimizer 'byte-optimize-predicate)
|
||
(put '1- 'byte-optimizer 'byte-optimize-predicate)
|
||
(put 'not 'byte-optimizer 'byte-optimize-predicate)
|
||
(put 'null 'byte-optimizer 'byte-optimize-predicate)
|
||
(put 'memq 'byte-optimizer 'byte-optimize-predicate)
|
||
(put 'consp 'byte-optimizer 'byte-optimize-predicate)
|
||
(put 'listp 'byte-optimizer 'byte-optimize-predicate)
|
||
(put 'symbolp 'byte-optimizer 'byte-optimize-predicate)
|
||
(put 'stringp 'byte-optimizer 'byte-optimize-predicate)
|
||
(put 'string< 'byte-optimizer 'byte-optimize-predicate)
|
||
(put 'string-lessp 'byte-optimizer 'byte-optimize-predicate)
|
||
|
||
(put 'logand 'byte-optimizer 'byte-optimize-logmumble)
|
||
(put 'logior 'byte-optimizer 'byte-optimize-logmumble)
|
||
(put 'logxor 'byte-optimizer 'byte-optimize-logmumble)
|
||
(put 'lognot 'byte-optimizer 'byte-optimize-predicate)
|
||
|
||
(put 'car 'byte-optimizer 'byte-optimize-predicate)
|
||
(put 'cdr 'byte-optimizer 'byte-optimize-predicate)
|
||
(put 'car-safe 'byte-optimizer 'byte-optimize-predicate)
|
||
(put 'cdr-safe 'byte-optimizer 'byte-optimize-predicate)
|
||
|
||
|
||
;; I'm not convinced that this is necessary. Doesn't the optimizer loop
|
||
;; take care of this? - Jamie
|
||
;; I think this may some times be necessary to reduce ie (quote 5) to 5,
|
||
;; so arithmetic optimizers recognize the numerinc constant. - Hallvard
|
||
(put 'quote 'byte-optimizer 'byte-optimize-quote)
|
||
(defun byte-optimize-quote (form)
|
||
(if (or (consp (nth 1 form))
|
||
(and (symbolp (nth 1 form))
|
||
(not (memq (nth 1 form) '(nil t)))))
|
||
form
|
||
(nth 1 form)))
|
||
|
||
(defun byte-optimize-zerop (form)
|
||
(cond ((numberp (nth 1 form))
|
||
(eval form))
|
||
(byte-compile-delete-errors
|
||
(list '= (nth 1 form) 0))
|
||
(form)))
|
||
|
||
(put 'zerop 'byte-optimizer 'byte-optimize-zerop)
|
||
|
||
(defun byte-optimize-and (form)
|
||
;; Simplify if less than 2 args.
|
||
;; if there is a literal nil in the args to `and', throw it and following
|
||
;; forms away, and surround the `and' with (progn ... nil).
|
||
(cond ((null (cdr form)))
|
||
((memq nil form)
|
||
(list 'progn
|
||
(byte-optimize-and
|
||
(prog1 (setq form (copy-sequence form))
|
||
(while (nth 1 form)
|
||
(setq form (cdr form)))
|
||
(setcdr form nil)))
|
||
nil))
|
||
((null (cdr (cdr form)))
|
||
(nth 1 form))
|
||
((byte-optimize-predicate form))))
|
||
|
||
(defun byte-optimize-or (form)
|
||
;; Throw away nil's, and simplify if less than 2 args.
|
||
;; If there is a literal non-nil constant in the args to `or', throw away all
|
||
;; following forms.
|
||
(if (memq nil form)
|
||
(setq form (delq nil (copy-sequence form))))
|
||
(let ((rest form))
|
||
(while (cdr (setq rest (cdr rest)))
|
||
(if (byte-compile-trueconstp (car rest))
|
||
(setq form (copy-sequence form)
|
||
rest (setcdr (memq (car rest) form) nil))))
|
||
(if (cdr (cdr form))
|
||
(byte-optimize-predicate form)
|
||
(nth 1 form))))
|
||
|
||
(defun byte-optimize-cond (form)
|
||
;; if any clauses have a literal nil as their test, throw them away.
|
||
;; if any clause has a literal non-nil constant as its test, throw
|
||
;; away all following clauses.
|
||
(let (rest)
|
||
;; This must be first, to reduce (cond (t ...) (nil)) to (progn t ...)
|
||
(while (setq rest (assq nil (cdr form)))
|
||
(setq form (delq rest (copy-sequence form))))
|
||
(if (memq nil (cdr form))
|
||
(setq form (delq nil (copy-sequence form))))
|
||
(setq rest form)
|
||
(while (setq rest (cdr rest))
|
||
(cond ((byte-compile-trueconstp (car-safe (car rest)))
|
||
(cond ((eq rest (cdr form))
|
||
(setq form
|
||
(if (cdr (car rest))
|
||
(if (cdr (cdr (car rest)))
|
||
(cons 'progn (cdr (car rest)))
|
||
(nth 1 (car rest)))
|
||
(car (car rest)))))
|
||
((cdr rest)
|
||
(setq form (copy-sequence form))
|
||
(setcdr (memq (car rest) form) nil)))
|
||
(setq rest nil)))))
|
||
;;
|
||
;; Turn (cond (( <x> )) ... ) into (or <x> (cond ... ))
|
||
(if (eq 'cond (car-safe form))
|
||
(let ((clauses (cdr form)))
|
||
(if (and (consp (car clauses))
|
||
(null (cdr (car clauses))))
|
||
(list 'or (car (car clauses))
|
||
(byte-optimize-cond
|
||
(cons (car form) (cdr (cdr form)))))
|
||
form))
|
||
form))
|
||
|
||
(defun byte-optimize-if (form)
|
||
;; (if <true-constant> <then> <else...>) ==> <then>
|
||
;; (if <false-constant> <then> <else...>) ==> (progn <else...>)
|
||
;; (if <test> nil <else...>) ==> (if (not <test>) (progn <else...>))
|
||
;; (if <test> <then> nil) ==> (if <test> <then>)
|
||
(let ((clause (nth 1 form)))
|
||
(cond ((byte-compile-trueconstp clause)
|
||
(nth 2 form))
|
||
((null clause)
|
||
(if (nthcdr 4 form)
|
||
(cons 'progn (nthcdr 3 form))
|
||
(nth 3 form)))
|
||
((nth 2 form)
|
||
(if (equal '(nil) (nthcdr 3 form))
|
||
(list 'if clause (nth 2 form))
|
||
form))
|
||
((or (nth 3 form) (nthcdr 4 form))
|
||
(list 'if (list 'not clause)
|
||
(if (nthcdr 4 form)
|
||
(cons 'progn (nthcdr 3 form))
|
||
(nth 3 form))))
|
||
(t
|
||
(list 'progn clause nil)))))
|
||
|
||
(defun byte-optimize-while (form)
|
||
(if (nth 1 form)
|
||
form))
|
||
|
||
(put 'and 'byte-optimizer 'byte-optimize-and)
|
||
(put 'or 'byte-optimizer 'byte-optimize-or)
|
||
(put 'cond 'byte-optimizer 'byte-optimize-cond)
|
||
(put 'if 'byte-optimizer 'byte-optimize-if)
|
||
(put 'while 'byte-optimizer 'byte-optimize-while)
|
||
|
||
;; byte-compile-negation-optimizer lives in bytecomp.el
|
||
(put '/= 'byte-optimizer 'byte-compile-negation-optimizer)
|
||
(put 'atom 'byte-optimizer 'byte-compile-negation-optimizer)
|
||
(put 'nlistp 'byte-optimizer 'byte-compile-negation-optimizer)
|
||
|
||
|
||
(defun byte-optimize-funcall (form)
|
||
;; (funcall '(lambda ...) ...) ==> ((lambda ...) ...)
|
||
;; (funcall 'foo ...) ==> (foo ...)
|
||
(let ((fn (nth 1 form)))
|
||
(if (memq (car-safe fn) '(quote function))
|
||
(cons (nth 1 fn) (cdr (cdr form)))
|
||
form)))
|
||
|
||
(defun byte-optimize-apply (form)
|
||
;; If the last arg is a literal constant, turn this into a funcall.
|
||
;; The funcall optimizer can then transform (funcall 'foo ...) -> (foo ...).
|
||
(let ((fn (nth 1 form))
|
||
(last (nth (1- (length form)) form))) ; I think this really is fastest
|
||
(or (if (or (null last)
|
||
(eq (car-safe last) 'quote))
|
||
(if (listp (nth 1 last))
|
||
(let ((butlast (nreverse (cdr (reverse (cdr (cdr form)))))))
|
||
(nconc (list 'funcall fn) butlast
|
||
(mapcar '(lambda (x) (list 'quote x)) (nth 1 last))))
|
||
(byte-compile-warn
|
||
"last arg to apply can't be a literal atom: %s"
|
||
(prin1-to-string last))
|
||
nil))
|
||
form)))
|
||
|
||
(put 'funcall 'byte-optimizer 'byte-optimize-funcall)
|
||
(put 'apply 'byte-optimizer 'byte-optimize-apply)
|
||
|
||
|
||
(put 'let 'byte-optimizer 'byte-optimize-letX)
|
||
(put 'let* 'byte-optimizer 'byte-optimize-letX)
|
||
(defun byte-optimize-letX (form)
|
||
(cond ((null (nth 1 form))
|
||
;; No bindings
|
||
(cons 'progn (cdr (cdr form))))
|
||
((or (nth 2 form) (nthcdr 3 form))
|
||
form)
|
||
;; The body is nil
|
||
((eq (car form) 'let)
|
||
(append '(progn) (mapcar 'car (mapcar 'cdr (nth 1 form))) '(nil)))
|
||
(t
|
||
(let ((binds (reverse (nth 1 form))))
|
||
(list 'let* (reverse (cdr binds)) (nth 1 (car binds)) nil)))))
|
||
|
||
|
||
(put 'nth 'byte-optimizer 'byte-optimize-nth)
|
||
(defun byte-optimize-nth (form)
|
||
(if (memq (nth 1 form) '(0 1))
|
||
(list 'car (if (zerop (nth 1 form))
|
||
(nth 2 form)
|
||
(list 'cdr (nth 2 form))))
|
||
(byte-optimize-predicate form)))
|
||
|
||
(put 'nthcdr 'byte-optimizer 'byte-optimize-nthcdr)
|
||
(defun byte-optimize-nthcdr (form)
|
||
(let ((count (nth 1 form)))
|
||
(if (not (memq count '(0 1 2)))
|
||
(byte-optimize-predicate form)
|
||
(setq form (nth 2 form))
|
||
(while (natnump (setq count (1- count)))
|
||
(setq form (list 'cdr form)))
|
||
form)))
|
||
|
||
;;; enumerating those functions which need not be called if the returned
|
||
;;; value is not used. That is, something like
|
||
;;; (progn (list (something-with-side-effects) (yow))
|
||
;;; (foo))
|
||
;;; may safely be turned into
|
||
;;; (progn (progn (something-with-side-effects) (yow))
|
||
;;; (foo))
|
||
;;; Further optimizations will turn (progn (list 1 2 3) 'foo) into 'foo.
|
||
|
||
;;; I wonder if I missed any :-\)
|
||
(let ((side-effect-free-fns
|
||
'(% * + / /= 1+ < <= = > >= append aref ash assoc assq boundp
|
||
buffer-file-name buffer-local-variables buffer-modified-p
|
||
buffer-substring capitalize car cdr concat coordinates-in-window-p
|
||
copy-marker count-lines documentation downcase elt fboundp featurep
|
||
file-directory-p file-exists-p file-locked-p file-name-absolute-p
|
||
file-newer-than-file-p file-readable-p file-symlink-p file-writable-p
|
||
format get get-buffer get-buffer-window getenv get-file-buffer length
|
||
logand logior lognot logxor lsh marker-buffer max member memq min mod
|
||
next-window nth nthcdr previous-window rassq regexp-quote reverse
|
||
string< string= string-lessp string-equal substring user-variable-p
|
||
window-buffer window-edges window-height window-hscroll window-width
|
||
zerop))
|
||
;; could also add plusp, minusp, signum. If anyone ever defines
|
||
;; these, they will certainly be side-effect free.
|
||
(side-effect-and-error-free-fns
|
||
'(arrayp atom bobp bolp buffer-end buffer-list buffer-size
|
||
buffer-string bufferp char-or-string-p commandp cons consp
|
||
current-buffer dot dot-marker eobp eolp eq eql equal
|
||
get-largest-window identity integerp integer-or-marker-p
|
||
interactive-p keymapp list listp make-marker mark mark-marker
|
||
markerp minibuffer-window natnump nlistp not null numberp
|
||
one-window-p point point-marker processp selected-window sequencep
|
||
stringp subrp symbolp syntax-table-p vector vectorp windowp)))
|
||
(while side-effect-free-fns
|
||
(put (car side-effect-free-fns) 'side-effect-free t)
|
||
(setq side-effect-free-fns (cdr side-effect-free-fns)))
|
||
(while side-effect-and-error-free-fns
|
||
(put (car side-effect-and-error-free-fns) 'side-effect-free 'error-free)
|
||
(setq side-effect-and-error-free-fns (cdr side-effect-and-error-free-fns)))
|
||
nil)
|
||
|
||
|
||
(defun byte-compile-splice-in-already-compiled-code (form)
|
||
;; form is (byte-code "..." [...] n)
|
||
(if (not (memq byte-optimize '(t lap)))
|
||
(byte-compile-normal-call form)
|
||
(byte-inline-lapcode
|
||
(byte-decompile-bytecode-1 (nth 1 form) (nth 2 form) t))
|
||
(setq byte-compile-maxdepth (max (+ byte-compile-depth (nth 3 form))
|
||
byte-compile-maxdepth))
|
||
(setq byte-compile-depth (1+ byte-compile-depth))))
|
||
|
||
(put 'byte-code 'byte-compile 'byte-compile-splice-in-already-compiled-code)
|
||
|
||
|
||
(defconst byte-constref-ops
|
||
'(byte-constant byte-constant2 byte-varref byte-varset byte-varbind))
|
||
|
||
;;; This function extracts the bitfields from variable-length opcodes.
|
||
;;; Originally defined in disass.el (which no longer uses it.)
|
||
|
||
(defun disassemble-offset ()
|
||
"Don't call this!"
|
||
;; fetch and return the offset for the current opcode.
|
||
;; return NIL if this opcode has no offset
|
||
;; OP, PTR and BYTES are used and set dynamically
|
||
(defvar op)
|
||
(defvar ptr)
|
||
(defvar bytes)
|
||
(cond ((< op byte-nth)
|
||
(let ((tem (logand op 7)))
|
||
(setq op (logand op 248))
|
||
(cond ((eq tem 6)
|
||
(setq ptr (1+ ptr)) ;offset in next byte
|
||
(aref bytes ptr))
|
||
((eq tem 7)
|
||
(setq ptr (1+ ptr)) ;offset in next 2 bytes
|
||
(+ (aref bytes ptr)
|
||
(progn (setq ptr (1+ ptr))
|
||
(lsh (aref bytes ptr) 8))))
|
||
(t tem)))) ;offset was in opcode
|
||
((>= op byte-constant)
|
||
(prog1 (- op byte-constant) ;offset in opcode
|
||
(setq op byte-constant)))
|
||
((and (>= op byte-constant2)
|
||
(<= op byte-goto-if-not-nil-else-pop))
|
||
(setq ptr (1+ ptr)) ;offset in next 2 bytes
|
||
(+ (aref bytes ptr)
|
||
(progn (setq ptr (1+ ptr))
|
||
(lsh (aref bytes ptr) 8))))
|
||
((and (>= op byte-listN)
|
||
(<= op byte-insertN))
|
||
(setq ptr (1+ ptr)) ;offset in next byte
|
||
(aref bytes ptr))))
|
||
|
||
|
||
;;; This de-compiler is used for inline expansion of compiled functions,
|
||
;;; and by the disassembler.
|
||
;;;
|
||
(defun byte-decompile-bytecode (bytes constvec)
|
||
"Turns BYTECODE into lapcode, refering to CONSTVEC."
|
||
(let ((byte-compile-constants nil)
|
||
(byte-compile-variables nil)
|
||
(byte-compile-tag-number 0))
|
||
(byte-decompile-bytecode-1 bytes constvec)))
|
||
|
||
;; As byte-decompile-bytecode, but updates
|
||
;; byte-compile-{constants, variables, tag-number}.
|
||
;; If the optional 3rd arg is true, then `return' opcodes are replaced
|
||
;; with `goto's destined for the end of the code.
|
||
(defun byte-decompile-bytecode-1 (bytes constvec &optional make-splicable)
|
||
(let ((length (length bytes))
|
||
(ptr 0) optr tag tags op offset
|
||
lap tmp
|
||
endtag
|
||
(retcount 0))
|
||
(while (not (= ptr length))
|
||
(setq op (aref bytes ptr)
|
||
optr ptr
|
||
offset (disassemble-offset)) ; this does dynamic-scope magic
|
||
(setq op (aref byte-code-vector op))
|
||
(cond ((memq op byte-goto-ops)
|
||
;; it's a pc
|
||
(setq offset
|
||
(cdr (or (assq offset tags)
|
||
(car (setq tags
|
||
(cons (cons offset
|
||
(byte-compile-make-tag))
|
||
tags)))))))
|
||
((cond ((eq op 'byte-constant2) (setq op 'byte-constant) t)
|
||
((memq op byte-constref-ops)))
|
||
(setq tmp (aref constvec offset)
|
||
offset (if (eq op 'byte-constant)
|
||
(byte-compile-get-constant tmp)
|
||
(or (assq tmp byte-compile-variables)
|
||
(car (setq byte-compile-variables
|
||
(cons (list tmp)
|
||
byte-compile-variables)))))))
|
||
((and make-splicable
|
||
(eq op 'byte-return))
|
||
(if (= ptr (1- length))
|
||
(setq op nil)
|
||
(setq offset (or endtag (setq endtag (byte-compile-make-tag)))
|
||
op 'byte-goto))))
|
||
;; lap = ( [ (pc . (op . arg)) ]* )
|
||
(setq lap (cons (cons optr (cons op (or offset 0)))
|
||
lap))
|
||
(setq ptr (1+ ptr)))
|
||
;; take off the dummy nil op that we replaced a trailing "return" with.
|
||
(let ((rest lap))
|
||
(while rest
|
||
(cond ((setq tmp (assq (car (car rest)) tags))
|
||
;; this addr is jumped to
|
||
(setcdr rest (cons (cons nil (cdr tmp))
|
||
(cdr rest)))
|
||
(setq tags (delq tmp tags))
|
||
(setq rest (cdr rest))))
|
||
(setq rest (cdr rest))))
|
||
(if tags (error "optimizer error: missed tags %s" tags))
|
||
(if (null (car (cdr (car lap))))
|
||
(setq lap (cdr lap)))
|
||
(if endtag
|
||
(setq lap (cons (cons nil endtag) lap)))
|
||
;; remove addrs, lap = ( [ (op . arg) | (TAG tagno) ]* )
|
||
(mapcar 'cdr (nreverse lap))))
|
||
|
||
|
||
;;; peephole optimizer
|
||
|
||
(defconst byte-tagref-ops (cons 'TAG byte-goto-ops))
|
||
|
||
(defconst byte-conditional-ops
|
||
'(byte-goto-if-nil byte-goto-if-not-nil byte-goto-if-nil-else-pop
|
||
byte-goto-if-not-nil-else-pop))
|
||
|
||
(defconst byte-after-unbind-ops
|
||
'(byte-constant byte-dup
|
||
byte-symbolp byte-consp byte-stringp byte-listp byte-numberp byte-integerp
|
||
byte-eq byte-equal byte-not
|
||
byte-cons byte-list1 byte-list2 ; byte-list3 byte-list4
|
||
byte-interactive-p
|
||
;; How about other side-effect-free-ops? Is it safe to move an
|
||
;; error invocation (such as from nth) out of an unwind-protect?
|
||
"Byte-codes that can be moved past an unbind."))
|
||
|
||
(defconst byte-compile-side-effect-and-error-free-ops
|
||
'(byte-constant byte-dup byte-symbolp byte-consp byte-stringp byte-listp
|
||
byte-integerp byte-numberp byte-eq byte-equal byte-not byte-car-safe
|
||
byte-cdr-safe byte-cons byte-list1 byte-list2 byte-point byte-point-max
|
||
byte-point-min byte-following-char byte-preceding-char
|
||
byte-current-column byte-eolp byte-eobp byte-bolp byte-bobp
|
||
byte-current-buffer byte-interactive-p))
|
||
|
||
(defconst byte-compile-side-effect-free-ops
|
||
(nconc
|
||
'(byte-varref byte-nth byte-memq byte-car byte-cdr byte-length byte-aref
|
||
byte-symbol-value byte-get byte-concat2 byte-concat3 byte-sub1 byte-add1
|
||
byte-eqlsign byte-gtr byte-lss byte-leq byte-geq byte-diff byte-negate
|
||
byte-plus byte-max byte-min byte-mult byte-char-after byte-char-syntax
|
||
byte-buffer-substring byte-string= byte-string< byte-nthcdr byte-elt
|
||
byte-member byte-assq byte-quo byte-rem)
|
||
byte-compile-side-effect-and-error-free-ops))
|
||
|
||
;;; This piece of shit is because of the way DEFVAR_BOOL() variables work.
|
||
;;; Consider the code
|
||
;;;
|
||
;;; (defun foo (flag)
|
||
;;; (let ((old-pop-ups pop-up-windows)
|
||
;;; (pop-up-windows flag))
|
||
;;; (cond ((not (eq pop-up-windows old-pop-ups))
|
||
;;; (setq old-pop-ups pop-up-windows)
|
||
;;; ...))))
|
||
;;;
|
||
;;; Uncompiled, old-pop-ups will always be set to nil or t, even if FLAG is
|
||
;;; something else. But if we optimize
|
||
;;;
|
||
;;; varref flag
|
||
;;; varbind pop-up-windows
|
||
;;; varref pop-up-windows
|
||
;;; not
|
||
;;; to
|
||
;;; varref flag
|
||
;;; dup
|
||
;;; varbind pop-up-windows
|
||
;;; not
|
||
;;;
|
||
;;; we break the program, because it will appear that pop-up-windows and
|
||
;;; old-pop-ups are not EQ when really they are. So we have to know what
|
||
;;; the BOOL variables are, and not perform this optimization on them.
|
||
;;;
|
||
(defconst byte-boolean-vars
|
||
'(abbrev-all-caps abbrevs-changed byte-metering-on
|
||
check-protected-fields completion-auto-help completion-ignore-case
|
||
cursor-in-echo-area debug-on-next-call debug-on-quit
|
||
defining-kbd-macro delete-exited-processes
|
||
enable-recursive-minibuffers indent-tabs-mode
|
||
insert-default-directory inverse-video load-in-progress
|
||
menu-prompting mode-line-inverse-video no-redraw-on-reenter
|
||
noninteractive parse-sexp-ignore-comments pop-up-frames
|
||
pop-up-windows print-escape-newlines print-escape-newlines
|
||
truncate-partial-width-windows visible-bell vms-stmlf-recfm
|
||
words-include-escapes x-save-under)
|
||
"DEFVAR_BOOL variables. Giving these any non-nil value sets them to t.
|
||
If this does not enumerate all DEFVAR_BOOL variables, the byte-optimizer
|
||
may generate incorrect code.")
|
||
|
||
(defun byte-optimize-lapcode (lap &optional for-effect)
|
||
"Simple peephole optimizer. LAP is both modified and returned."
|
||
(let (lap0 off0
|
||
lap1 off1
|
||
lap2 off2
|
||
(keep-going 'first-time)
|
||
(add-depth 0)
|
||
rest tmp tmp2 tmp3
|
||
(side-effect-free (if byte-compile-delete-errors
|
||
byte-compile-side-effect-free-ops
|
||
byte-compile-side-effect-and-error-free-ops)))
|
||
(while keep-going
|
||
(or (eq keep-going 'first-time)
|
||
(byte-compile-log-lap " ---- next pass"))
|
||
(setq rest lap
|
||
keep-going nil)
|
||
(while rest
|
||
(setq lap0 (car rest)
|
||
lap1 (nth 1 rest)
|
||
lap2 (nth 2 rest))
|
||
|
||
;; You may notice that sequences like "dup varset discard" are
|
||
;; optimized but sequences like "dup varset TAG1: discard" are not.
|
||
;; You may be tempted to change this; resist that temptation.
|
||
(cond ;;
|
||
;; <side-effect-free> pop --> <deleted>
|
||
;; ...including:
|
||
;; const-X pop --> <deleted>
|
||
;; varref-X pop --> <deleted>
|
||
;; dup pop --> <deleted>
|
||
;;
|
||
((and (eq 'byte-discard (car lap1))
|
||
(memq (car lap0) side-effect-free))
|
||
(setq keep-going t)
|
||
(setq tmp (aref byte-stack+-info (symbol-value (car lap0))))
|
||
(setq rest (cdr rest))
|
||
(cond ((= tmp 1)
|
||
(byte-compile-log-lap
|
||
" %s discard\t-->\t<deleted>" lap0)
|
||
(setq lap (delq lap0 (delq lap1 lap))))
|
||
((= tmp 0)
|
||
(byte-compile-log-lap
|
||
" %s discard\t-->\t<deleted> discard" lap0)
|
||
(setq lap (delq lap0 lap)))
|
||
((= tmp -1)
|
||
(byte-compile-log-lap
|
||
" %s discard\t-->\tdiscard discard" lap0)
|
||
(setcar lap0 'byte-discard)
|
||
(setcdr lap0 0))
|
||
((error "Optimizer error: too much on the stack"))))
|
||
;;
|
||
;; goto*-X X: --> X:
|
||
;;
|
||
((and (memq (car lap0) byte-goto-ops)
|
||
(eq (cdr lap0) lap1))
|
||
(cond ((eq (car lap0) 'byte-goto)
|
||
(setq lap (delq lap0 lap))
|
||
(setq tmp "<deleted>"))
|
||
((memq (car lap0) byte-goto-always-pop-ops)
|
||
(setcar lap0 (setq tmp 'byte-discard))
|
||
(setcdr lap0 0))
|
||
((error "Depth conflict at tag %d" (nth 2 lap0))))
|
||
(and (memq byte-optimize-log '(t byte))
|
||
(byte-compile-log " (goto %s) %s:\t-->\t%s %s:"
|
||
(nth 1 lap1) (nth 1 lap1)
|
||
tmp (nth 1 lap1)))
|
||
(setq keep-going t))
|
||
;;
|
||
;; varset-X varref-X --> dup varset-X
|
||
;; varbind-X varref-X --> dup varbind-X
|
||
;; const/dup varset-X varref-X --> const/dup varset-X const/dup
|
||
;; const/dup varbind-X varref-X --> const/dup varbind-X const/dup
|
||
;; The latter two can enable other optimizations.
|
||
;;
|
||
((and (eq 'byte-varref (car lap2))
|
||
(eq (cdr lap1) (cdr lap2))
|
||
(memq (car lap1) '(byte-varset byte-varbind)))
|
||
(if (and (setq tmp (memq (car (cdr lap2)) byte-boolean-vars))
|
||
(not (eq (car lap0) 'byte-constant)))
|
||
nil
|
||
(setq keep-going t)
|
||
(if (memq (car lap0) '(byte-constant byte-dup))
|
||
(progn
|
||
(setq tmp (if (or (not tmp)
|
||
(memq (car (cdr lap0)) '(nil t)))
|
||
(cdr lap0)
|
||
(byte-compile-get-constant t)))
|
||
(byte-compile-log-lap " %s %s %s\t-->\t%s %s %s"
|
||
lap0 lap1 lap2 lap0 lap1
|
||
(cons (car lap0) tmp))
|
||
(setcar lap2 (car lap0))
|
||
(setcdr lap2 tmp))
|
||
(byte-compile-log-lap " %s %s\t-->\tdup %s" lap1 lap2 lap1)
|
||
(setcar lap2 (car lap1))
|
||
(setcar lap1 'byte-dup)
|
||
(setcdr lap1 0)
|
||
;; The stack depth gets locally increased, so we will
|
||
;; increase maxdepth in case depth = maxdepth here.
|
||
;; This can cause the third argument to byte-code to
|
||
;; be larger than necessary.
|
||
(setq add-depth 1))))
|
||
;;
|
||
;; dup varset-X discard --> varset-X
|
||
;; dup varbind-X discard --> varbind-X
|
||
;; (the varbind variant can emerge from other optimizations)
|
||
;;
|
||
((and (eq 'byte-dup (car lap0))
|
||
(eq 'byte-discard (car lap2))
|
||
(memq (car lap1) '(byte-varset byte-varbind)))
|
||
(byte-compile-log-lap " dup %s discard\t-->\t%s" lap1 lap1)
|
||
(setq keep-going t
|
||
rest (cdr rest))
|
||
(setq lap (delq lap0 (delq lap2 lap))))
|
||
;;
|
||
;; not goto-X-if-nil --> goto-X-if-non-nil
|
||
;; not goto-X-if-non-nil --> goto-X-if-nil
|
||
;;
|
||
;; it is wrong to do the same thing for the -else-pop variants.
|
||
;;
|
||
((and (eq 'byte-not (car lap0))
|
||
(or (eq 'byte-goto-if-nil (car lap1))
|
||
(eq 'byte-goto-if-not-nil (car lap1))))
|
||
(byte-compile-log-lap " not %s\t-->\t%s"
|
||
lap1
|
||
(cons
|
||
(if (eq (car lap1) 'byte-goto-if-nil)
|
||
'byte-goto-if-not-nil
|
||
'byte-goto-if-nil)
|
||
(cdr lap1)))
|
||
(setcar lap1 (if (eq (car lap1) 'byte-goto-if-nil)
|
||
'byte-goto-if-not-nil
|
||
'byte-goto-if-nil))
|
||
(setq lap (delq lap0 lap))
|
||
(setq keep-going t))
|
||
;;
|
||
;; goto-X-if-nil goto-Y X: --> goto-Y-if-non-nil X:
|
||
;; goto-X-if-non-nil goto-Y X: --> goto-Y-if-nil X:
|
||
;;
|
||
;; it is wrong to do the same thing for the -else-pop variants.
|
||
;;
|
||
((and (or (eq 'byte-goto-if-nil (car lap0))
|
||
(eq 'byte-goto-if-not-nil (car lap0))) ; gotoX
|
||
(eq 'byte-goto (car lap1)) ; gotoY
|
||
(eq (cdr lap0) lap2)) ; TAG X
|
||
(let ((inverse (if (eq 'byte-goto-if-nil (car lap0))
|
||
'byte-goto-if-not-nil 'byte-goto-if-nil)))
|
||
(byte-compile-log-lap " %s %s %s:\t-->\t%s %s:"
|
||
lap0 lap1 lap2
|
||
(cons inverse (cdr lap1)) lap2)
|
||
(setq lap (delq lap0 lap))
|
||
(setcar lap1 inverse)
|
||
(setq keep-going t)))
|
||
;;
|
||
;; const goto-if-* --> whatever
|
||
;;
|
||
((and (eq 'byte-constant (car lap0))
|
||
(memq (car lap1) byte-conditional-ops))
|
||
(cond ((if (or (eq (car lap1) 'byte-goto-if-nil)
|
||
(eq (car lap1) 'byte-goto-if-nil-else-pop))
|
||
(car (cdr lap0))
|
||
(not (car (cdr lap0))))
|
||
(byte-compile-log-lap " %s %s\t-->\t<deleted>"
|
||
lap0 lap1)
|
||
(setq rest (cdr rest)
|
||
lap (delq lap0 (delq lap1 lap))))
|
||
(t
|
||
(if (memq (car lap1) byte-goto-always-pop-ops)
|
||
(progn
|
||
(byte-compile-log-lap " %s %s\t-->\t%s"
|
||
lap0 lap1 (cons 'byte-goto (cdr lap1)))
|
||
(setq lap (delq lap0 lap)))
|
||
(byte-compile-log-lap " %s %s\t-->\t%s" lap0 lap1
|
||
(cons 'byte-goto (cdr lap1))))
|
||
(setcar lap1 'byte-goto)))
|
||
(setq keep-going t))
|
||
;;
|
||
;; varref-X varref-X --> varref-X dup
|
||
;; varref-X [dup ...] varref-X --> varref-X [dup ...] dup
|
||
;; We don't optimize the const-X variations on this here,
|
||
;; because that would inhibit some goto optimizations; we
|
||
;; optimize the const-X case after all other optimizations.
|
||
;;
|
||
((and (eq 'byte-varref (car lap0))
|
||
(progn
|
||
(setq tmp (cdr rest))
|
||
(while (eq (car (car tmp)) 'byte-dup)
|
||
(setq tmp (cdr tmp)))
|
||
t)
|
||
(eq (cdr lap0) (cdr (car tmp)))
|
||
(eq 'byte-varref (car (car tmp))))
|
||
(if (memq byte-optimize-log '(t byte))
|
||
(let ((str ""))
|
||
(setq tmp2 (cdr rest))
|
||
(while (not (eq tmp tmp2))
|
||
(setq tmp2 (cdr tmp2)
|
||
str (concat str " dup")))
|
||
(byte-compile-log-lap " %s%s %s\t-->\t%s%s dup"
|
||
lap0 str lap0 lap0 str)))
|
||
(setq keep-going t)
|
||
(setcar (car tmp) 'byte-dup)
|
||
(setcdr (car tmp) 0)
|
||
(setq rest tmp))
|
||
;;
|
||
;; TAG1: TAG2: --> TAG1: <deleted>
|
||
;; (and other references to TAG2 are replaced with TAG1)
|
||
;;
|
||
((and (eq (car lap0) 'TAG)
|
||
(eq (car lap1) 'TAG))
|
||
(and (memq byte-optimize-log '(t byte))
|
||
(byte-compile-log " adjascent tags %d and %d merged"
|
||
(nth 1 lap1) (nth 1 lap0)))
|
||
(setq tmp3 lap)
|
||
(while (setq tmp2 (rassq lap0 tmp3))
|
||
(setcdr tmp2 lap1)
|
||
(setq tmp3 (cdr (memq tmp2 tmp3))))
|
||
(setq lap (delq lap0 lap)
|
||
keep-going t))
|
||
;;
|
||
;; unused-TAG: --> <deleted>
|
||
;;
|
||
((and (eq 'TAG (car lap0))
|
||
(not (rassq lap0 lap)))
|
||
(and (memq byte-optimize-log '(t byte))
|
||
(byte-compile-log " unused tag %d removed" (nth 1 lap0)))
|
||
(setq lap (delq lap0 lap)
|
||
keep-going t))
|
||
;;
|
||
;; goto ... --> goto <delete until TAG or end>
|
||
;; return ... --> return <delete until TAG or end>
|
||
;;
|
||
((and (memq (car lap0) '(byte-goto byte-return))
|
||
(not (memq (car lap1) '(TAG nil))))
|
||
(setq tmp rest)
|
||
(let ((i 0)
|
||
(opt-p (memq byte-optimize-log '(t lap)))
|
||
str deleted)
|
||
(while (and (setq tmp (cdr tmp))
|
||
(not (eq 'TAG (car (car tmp)))))
|
||
(if opt-p (setq deleted (cons (car tmp) deleted)
|
||
str (concat str " %s")
|
||
i (1+ i))))
|
||
(if opt-p
|
||
(let ((tagstr
|
||
(if (eq 'TAG (car (car tmp)))
|
||
(format "%d:" (cdr (car tmp)))
|
||
(or (car tmp) ""))))
|
||
(if (< i 6)
|
||
(apply 'byte-compile-log-lap-1
|
||
(concat " %s" str
|
||
" %s\t-->\t%s <deleted> %s")
|
||
lap0
|
||
(nconc (nreverse deleted)
|
||
(list tagstr lap0 tagstr)))
|
||
(byte-compile-log-lap
|
||
" %s <%d unreachable op%s> %s\t-->\t%s <deleted> %s"
|
||
lap0 i (if (= i 1) "" "s")
|
||
tagstr lap0 tagstr))))
|
||
(rplacd rest tmp))
|
||
(setq keep-going t))
|
||
;;
|
||
;; <safe-op> unbind --> unbind <safe-op>
|
||
;; (this may enable other optimizations.)
|
||
;;
|
||
((and (eq 'byte-unbind (car lap1))
|
||
(memq (car lap0) byte-after-unbind-ops))
|
||
(byte-compile-log-lap " %s %s\t-->\t%s %s" lap0 lap1 lap1 lap0)
|
||
(setcar rest lap1)
|
||
(setcar (cdr rest) lap0)
|
||
(setq keep-going t))
|
||
;;
|
||
;; varbind-X unbind-N --> discard unbind-(N-1)
|
||
;; save-excursion unbind-N --> unbind-(N-1)
|
||
;; save-restriction unbind-N --> unbind-(N-1)
|
||
;;
|
||
((and (eq 'byte-unbind (car lap1))
|
||
(memq (car lap0) '(byte-varbind byte-save-excursion
|
||
byte-save-restriction))
|
||
(< 0 (cdr lap1)))
|
||
(if (zerop (setcdr lap1 (1- (cdr lap1))))
|
||
(delq lap1 rest))
|
||
(if (eq (car lap0) 'byte-varbind)
|
||
(setcar rest (cons 'byte-discard 0))
|
||
(setq lap (delq lap0 lap)))
|
||
(byte-compile-log-lap " %s %s\t-->\t%s %s"
|
||
lap0 (cons (car lap1) (1+ (cdr lap1)))
|
||
(if (eq (car lap0) 'byte-varbind)
|
||
(car rest)
|
||
(car (cdr rest)))
|
||
(if (and (/= 0 (cdr lap1))
|
||
(eq (car lap0) 'byte-varbind))
|
||
(car (cdr rest))
|
||
""))
|
||
(setq keep-going t))
|
||
;;
|
||
;; goto*-X ... X: goto-Y --> goto*-Y
|
||
;; goto-X ... X: return --> return
|
||
;;
|
||
((and (memq (car lap0) byte-goto-ops)
|
||
(memq (car (setq tmp (nth 1 (memq (cdr lap0) lap))))
|
||
'(byte-goto byte-return)))
|
||
(cond ((and (not (eq tmp lap0))
|
||
(or (eq (car lap0) 'byte-goto)
|
||
(eq (car tmp) 'byte-goto)))
|
||
(byte-compile-log-lap " %s [%s]\t-->\t%s"
|
||
(car lap0) tmp tmp)
|
||
(if (eq (car tmp) 'byte-return)
|
||
(setcar lap0 'byte-return))
|
||
(setcdr lap0 (cdr tmp))
|
||
(setq keep-going t))))
|
||
;;
|
||
;; goto-*-else-pop X ... X: goto-if-* --> whatever
|
||
;; goto-*-else-pop X ... X: discard --> whatever
|
||
;;
|
||
((and (memq (car lap0) '(byte-goto-if-nil-else-pop
|
||
byte-goto-if-not-nil-else-pop))
|
||
(memq (car (car (setq tmp (cdr (memq (cdr lap0) lap)))))
|
||
(eval-when-compile
|
||
(cons 'byte-discard byte-conditional-ops)))
|
||
(not (eq lap0 (car tmp))))
|
||
(setq tmp2 (car tmp))
|
||
(setq tmp3 (assq (car lap0) '((byte-goto-if-nil-else-pop
|
||
byte-goto-if-nil)
|
||
(byte-goto-if-not-nil-else-pop
|
||
byte-goto-if-not-nil))))
|
||
(if (memq (car tmp2) tmp3)
|
||
(progn (setcar lap0 (car tmp2))
|
||
(setcdr lap0 (cdr tmp2))
|
||
(byte-compile-log-lap " %s-else-pop [%s]\t-->\t%s"
|
||
(car lap0) tmp2 lap0))
|
||
;; Get rid of the -else-pop's and jump one step further.
|
||
(or (eq 'TAG (car (nth 1 tmp)))
|
||
(setcdr tmp (cons (byte-compile-make-tag)
|
||
(cdr tmp))))
|
||
(byte-compile-log-lap " %s [%s]\t-->\t%s <skip>"
|
||
(car lap0) tmp2 (nth 1 tmp3))
|
||
(setcar lap0 (nth 1 tmp3))
|
||
(setcdr lap0 (nth 1 tmp)))
|
||
(setq keep-going t))
|
||
;;
|
||
;; const goto-X ... X: goto-if-* --> whatever
|
||
;; const goto-X ... X: discard --> whatever
|
||
;;
|
||
((and (eq (car lap0) 'byte-constant)
|
||
(eq (car lap1) 'byte-goto)
|
||
(memq (car (car (setq tmp (cdr (memq (cdr lap1) lap)))))
|
||
(eval-when-compile
|
||
(cons 'byte-discard byte-conditional-ops)))
|
||
(not (eq lap1 (car tmp))))
|
||
(setq tmp2 (car tmp))
|
||
(cond ((memq (car tmp2)
|
||
(if (null (car (cdr lap0)))
|
||
'(byte-goto-if-nil byte-goto-if-nil-else-pop)
|
||
'(byte-goto-if-not-nil
|
||
byte-goto-if-not-nil-else-pop)))
|
||
(byte-compile-log-lap " %s goto [%s]\t-->\t%s %s"
|
||
lap0 tmp2 lap0 tmp2)
|
||
(setcar lap1 (car tmp2))
|
||
(setcdr lap1 (cdr tmp2))
|
||
;; Let next step fix the (const,goto-if*) sequence.
|
||
(setq rest (cons nil rest)))
|
||
(t
|
||
;; Jump one step further
|
||
(byte-compile-log-lap
|
||
" %s goto [%s]\t-->\t<deleted> goto <skip>"
|
||
lap0 tmp2)
|
||
(or (eq 'TAG (car (nth 1 tmp)))
|
||
(setcdr tmp (cons (byte-compile-make-tag)
|
||
(cdr tmp))))
|
||
(setcdr lap1 (car (cdr tmp)))
|
||
(setq lap (delq lap0 lap))))
|
||
(setq keep-going t))
|
||
;;
|
||
;; X: varref-Y ... varset-Y goto-X -->
|
||
;; X: varref-Y Z: ... dup varset-Y goto-Z
|
||
;; (varset-X goto-BACK, BACK: varref-X --> copy the varref down.)
|
||
;; (This is so usual for while loops that it is worth handling).
|
||
;;
|
||
((and (eq (car lap1) 'byte-varset)
|
||
(eq (car lap2) 'byte-goto)
|
||
(not (memq (cdr lap2) rest)) ;Backwards jump
|
||
(eq (car (car (setq tmp (cdr (memq (cdr lap2) lap)))))
|
||
'byte-varref)
|
||
(eq (cdr (car tmp)) (cdr lap1))
|
||
(not (memq (car (cdr lap1)) byte-boolean-vars)))
|
||
;;(byte-compile-log-lap " Pulled %s to end of loop" (car tmp))
|
||
(let ((newtag (byte-compile-make-tag)))
|
||
(byte-compile-log-lap
|
||
" %s: %s ... %s %s\t-->\t%s: %s %s: ... %s %s %s"
|
||
(nth 1 (cdr lap2)) (car tmp)
|
||
lap1 lap2
|
||
(nth 1 (cdr lap2)) (car tmp)
|
||
(nth 1 newtag) 'byte-dup lap1
|
||
(cons 'byte-goto newtag)
|
||
)
|
||
(setcdr rest (cons (cons 'byte-dup 0) (cdr rest)))
|
||
(setcdr tmp (cons (setcdr lap2 newtag) (cdr tmp))))
|
||
(setq add-depth 1)
|
||
(setq keep-going t))
|
||
;;
|
||
;; goto-X Y: ... X: goto-if*-Y --> goto-if-not-*-X+1 Y:
|
||
;; (This can pull the loop test to the end of the loop)
|
||
;;
|
||
((and (eq (car lap0) 'byte-goto)
|
||
(eq (car lap1) 'TAG)
|
||
(eq lap1
|
||
(cdr (car (setq tmp (cdr (memq (cdr lap0) lap))))))
|
||
(memq (car (car tmp))
|
||
'(byte-goto byte-goto-if-nil byte-goto-if-not-nil
|
||
byte-goto-if-nil-else-pop)))
|
||
;; (byte-compile-log-lap " %s %s, %s %s --> moved conditional"
|
||
;; lap0 lap1 (cdr lap0) (car tmp))
|
||
(let ((newtag (byte-compile-make-tag)))
|
||
(byte-compile-log-lap
|
||
"%s %s: ... %s: %s\t-->\t%s ... %s:"
|
||
lap0 (nth 1 lap1) (nth 1 (cdr lap0)) (car tmp)
|
||
(cons (cdr (assq (car (car tmp))
|
||
'((byte-goto-if-nil . byte-goto-if-not-nil)
|
||
(byte-goto-if-not-nil . byte-goto-if-nil)
|
||
(byte-goto-if-nil-else-pop .
|
||
byte-goto-if-not-nil-else-pop)
|
||
(byte-goto-if-not-nil-else-pop .
|
||
byte-goto-if-nil-else-pop))))
|
||
newtag)
|
||
|
||
(nth 1 newtag)
|
||
)
|
||
(setcdr tmp (cons (setcdr lap0 newtag) (cdr tmp)))
|
||
(if (eq (car (car tmp)) 'byte-goto-if-nil-else-pop)
|
||
;; We can handle this case but not the -if-not-nil case,
|
||
;; because we won't know which non-nil constant to push.
|
||
(setcdr rest (cons (cons 'byte-constant
|
||
(byte-compile-get-constant nil))
|
||
(cdr rest))))
|
||
(setcar lap0 (nth 1 (memq (car (car tmp))
|
||
'(byte-goto-if-nil-else-pop
|
||
byte-goto-if-not-nil
|
||
byte-goto-if-nil
|
||
byte-goto-if-not-nil
|
||
byte-goto byte-goto))))
|
||
)
|
||
(setq keep-going t))
|
||
)
|
||
(setq rest (cdr rest)))
|
||
)
|
||
;; Cleanup stage:
|
||
;; Rebuild byte-compile-constants / byte-compile-variables.
|
||
;; Simple optimizations that would inhibit other optimizations if they
|
||
;; were done in the optimizing loop, and optimizations which there is no
|
||
;; need to do more than once.
|
||
(setq byte-compile-constants nil
|
||
byte-compile-variables nil)
|
||
(setq rest lap)
|
||
(while rest
|
||
(setq lap0 (car rest)
|
||
lap1 (nth 1 rest))
|
||
(if (memq (car lap0) byte-constref-ops)
|
||
(if (eq (cdr lap0) 'byte-constant)
|
||
(or (memq (cdr lap0) byte-compile-variables)
|
||
(setq byte-compile-variables (cons (cdr lap0)
|
||
byte-compile-variables)))
|
||
(or (memq (cdr lap0) byte-compile-constants)
|
||
(setq byte-compile-constants (cons (cdr lap0)
|
||
byte-compile-constants)))))
|
||
(cond (;;
|
||
;; const-C varset-X const-C --> const-C dup varset-X
|
||
;; const-C varbind-X const-C --> const-C dup varbind-X
|
||
;;
|
||
(and (eq (car lap0) 'byte-constant)
|
||
(eq (car (nth 2 rest)) 'byte-constant)
|
||
(eq (cdr lap0) (car (nth 2 rest)))
|
||
(memq (car lap1) '(byte-varbind byte-varset)))
|
||
(byte-compile-log-lap " %s %s %s\t-->\t%s dup %s"
|
||
lap0 lap1 lap0 lap0 lap1)
|
||
(setcar (cdr (cdr rest)) (cons (car lap1) (cdr lap1)))
|
||
(setcar (cdr rest) (cons 'byte-dup 0))
|
||
(setq add-depth 1))
|
||
;;
|
||
;; const-X [dup/const-X ...] --> const-X [dup ...] dup
|
||
;; varref-X [dup/varref-X ...] --> varref-X [dup ...] dup
|
||
;;
|
||
((memq (car lap0) '(byte-constant byte-varref))
|
||
(setq tmp rest
|
||
tmp2 nil)
|
||
(while (progn
|
||
(while (eq 'byte-dup (car (car (setq tmp (cdr tmp))))))
|
||
(and (eq (cdr lap0) (cdr (car tmp)))
|
||
(eq (car lap0) (car (car tmp)))))
|
||
(setcar tmp (cons 'byte-dup 0))
|
||
(setq tmp2 t))
|
||
(if tmp2
|
||
(byte-compile-log-lap
|
||
" %s [dup/%s]... %s\t-->\t%s dup..." lap0 lap0 lap0)))
|
||
;;
|
||
;; unbind-N unbind-M --> unbind-(N+M)
|
||
;;
|
||
((and (eq 'byte-unbind (car lap0))
|
||
(eq 'byte-unbind (car lap1)))
|
||
(byte-compile-log-lap " %s %s\t-->\t%s" lap0 lap1
|
||
(cons 'byte-unbind
|
||
(+ (cdr lap0) (cdr lap1))))
|
||
(setq keep-going t)
|
||
(setq lap (delq lap0 lap))
|
||
(setcdr lap1 (+ (cdr lap1) (cdr lap0))))
|
||
)
|
||
(setq rest (cdr rest)))
|
||
(setq byte-compile-maxdepth (+ byte-compile-maxdepth add-depth)))
|
||
lap)
|
||
|
||
(provide 'byte-optimize)
|
||
|
||
|
||
;; To avoid "lisp nesting exceeds max-lisp-eval-depth" when this file compiles
|
||
;; itself, compile some of its most used recursive functions (at load time).
|
||
;;
|
||
(eval-when-compile
|
||
(or (byte-code-function-p (symbol-function 'byte-optimize-form))
|
||
(assq 'byte-code (symbol-function 'byte-optimize-form))
|
||
(let ((byte-optimize nil)
|
||
(byte-compile-warnings nil))
|
||
(mapcar '(lambda (x)
|
||
(or noninteractive (message "compiling %s..." x))
|
||
(byte-compile x)
|
||
(or noninteractive (message "compiling %s...done" x)))
|
||
'(byte-optimize-form
|
||
byte-optimize-body
|
||
byte-optimize-predicate
|
||
byte-optimize-binary-predicate
|
||
;; Inserted some more than necessary, to speed it up.
|
||
byte-optimize-form-code-walker
|
||
byte-optimize-lapcode))))
|
||
nil)
|
||
|
||
;;; byte-opt.el ends here
|