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Use a face, show more context around open parenthesis, #'blink-matching-open lisp/ChangeLog addition: 2013-12-17 Aidan Kehoe <kehoea@parhasard.net> * simple.el (blink-matching-open): When showing the opening parenthesis in the minibiffer, use the isearch face for it, in case there are multiple parentheses in the text shown. When writing moderately involved macros, it's often not enough just to show the backquote context before the parenthesis (e.g. @,.`). Skip over that when searching for useful context in the same way we skip over space and tab. * simple.el (message): * simple.el (lmessage): If there are no ARGS, don't call #'format. This allows extent information to be passed through to the minibuffer. It's probably better still to update #'format to preserve extent info.
author Aidan Kehoe <kehoea@parhasard.net>
date Tue, 17 Dec 2013 20:49:52 +0200
parents 308d34e9f07d
children bbe4146603db
line wrap: on
line source

;;; disass.el --- disassembler for compiled Emacs Lisp code

;;; Copyright (C) 1986, 1991-1994 Free Software Foundation, Inc.

;; Author: Doug Cutting <doug@csli.stanford.edu>
;;	Jamie Zawinski <jwz@jwz.org>
;; Maintainer: XEmacs Development Team
;; Keywords: internal

;; This file is part of XEmacs.

;; XEmacs is free software: you can redistribute it and/or modify it
;; under the terms of the GNU General Public License as published by the
;; Free Software Foundation, either version 3 of the License, or (at your
;; option) any later version.

;; XEmacs is distributed in the hope that it will be useful, but WITHOUT
;; ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
;; FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
;; for more details.

;; You should have received a copy of the GNU General Public License
;; along with XEmacs.  If not, see <http://www.gnu.org/licenses/>.

;;; Synched up with: FSF 19.28.

;;; Commentary:

;; The single entry point, `disassemble', disassembles a code object generated
;; by the Emacs Lisp byte-compiler.  This doesn't invert the compilation
;; operation, not by a long shot, but it's useful for debugging.

;;
;; Original version by Doug Cutting (doug@csli.stanford.edu)
;; Substantially modified by Jamie Zawinski for
;; the new lapcode-based byte compiler.

;;; Code:

(require 'byte-optimize)

(defvar disassemble-column-1-indent 8 "*")
(defvar disassemble-column-2-indent 10 "*")
(defvar disassemble-recursive-indent 3 "*")

;;;###autoload
(defun disassemble (object &optional buffer indent interactive-p)
  "Print disassembled code for OBJECT in (optional) BUFFER.
OBJECT can be a symbol defined as a function, or a function itself
\(a lambda expression or a compiled-function object).
If OBJECT is not already compiled, we compile it, but do not
redefine OBJECT if it is a symbol."
  (interactive (list (intern (completing-read "Disassemble function: "
					      obarray 'fboundp t))
		     nil 0 t))
  (if (eq (car-safe object) 'byte-code)
      (setq object (list 'lambda () object)))
  (or indent (setq indent 0))		;Default indent to zero
  (save-excursion
    (if (or interactive-p (null buffer))
	(with-output-to-temp-buffer "*Disassemble*"
	  (set-buffer "*Disassemble*")
	  (disassemble-internal object indent (not interactive-p)))
      (set-buffer buffer)
      (disassemble-internal object indent nil)))
  nil)


(defun disassemble-internal (obj indent interactive-p)
  (let ((macro nil)
	(name nil)
	args)
    (while (symbolp obj)
      (setq name obj
	    obj (symbol-function obj)))
    (if (subrp obj)
	(error "Can't disassemble #<subr %s>" name))
    (if (eq (car-safe obj) 'autoload)
	(progn
	  (load (elt obj 1))
	  (setq obj (symbol-function name))))
    (if (eq (car-safe obj) 'macro)	;handle macros
	(setq macro t
	      obj (cdr obj)))
    (if (and (listp obj) (eq (car obj) 'byte-code))
	(setq obj (list 'lambda nil obj)))	
    (if (and (listp obj) (not (eq (car obj) 'lambda)))
	(error "not a function"))
    (if (consp obj)
	(if (assq 'byte-code obj)
	    nil
	  (if interactive-p (message (if name
					 "Compiling %s's definition..."
				       "Compiling definition...")
				     name))
	  (setq obj (byte-compile obj))
	  (if interactive-p (message "Done compiling.  Disassembling..."))))
    (cond ((consp obj)
	   (setq obj (cdr obj))		;throw lambda away
	   (setq args (car obj))	;save arg list
	   (setq obj (cdr obj)))
	  (t
	   (setq args (compiled-function-arglist obj))))
    (if (zerop indent)			; not a nested function
	(progn
	  (indent-to indent)
	  (insert (format "byte code%s%s%s:\n"
			  (if (or macro name) " for" "")
			  (if macro " macro" "")
			  (if name (format " %s" name) "")))))
    (let ((doc (if (consp obj)
		   (and (stringp (car obj)) (car obj))
		 (condition-case error
		     (documentation obj)
		   (error (format "%S" error))))))
      (if (and doc (stringp doc))
	  (progn (and (consp obj) (setq obj (cdr obj)))
		 (indent-to indent)
		 (princ "  doc:  " (current-buffer))
		 (let ((frobbed nil))
		   (if (string-match "\n" doc)
		       (setq doc (substring doc 0 (match-beginning 0))
			     frobbed t))
		   (if (> (length doc) 70)
		       (setq doc (substring doc 0 65) frobbed t))
		   (if frobbed (setq doc (concat doc " ..."))))
		 (insert doc "\n"))))
    (indent-to indent)
    (insert "  args: ")
    (prin1 args (current-buffer))
    (insert "\n")
    (if (condition-case ()
	    (commandp obj)                  ; ie interactivep
	  (error nil))
	(let ((interactive (if (consp obj)
			       (elt (assq 'interactive obj) 1)
			     (elt (compiled-function-interactive obj) 1))))
          (if (eq (car-safe (car-safe obj)) 'interactive)
              (setq obj (cdr obj)))
          (indent-to indent)
          (insert " interactive: ")
	  (if (eq (car-safe interactive) 'byte-code)
	      (progn
		(insert "\n")
		(disassemble-1 interactive
			       (+ indent disassemble-recursive-indent)))
	    (let ((print-escape-newlines t))
	      (prin1 interactive (current-buffer))))
	  (insert "\n")))
    (cond ((and (consp obj) (assq 'byte-code obj))
	   (disassemble-1 (assq 'byte-code obj) indent))
	  ((compiled-function-p obj)
	   (disassemble-1 obj indent))
	  (t
	   (insert "Uncompiled body:  ")
	   (let ((print-escape-newlines t))
	     (prin1 (if (cdr obj) (cons 'progn obj) (car obj))
		    (current-buffer))))))
  (if interactive-p
      (message nil)))


(defun disassemble-1 (obj indent)
  "Print the byte-code call OBJ in the current buffer.
OBJ should be a compiled-function object generated by the byte compiler."
  (let (bytes constvec)
    (if (consp obj)
	(setq bytes (car (cdr obj))		; the byte code
	      constvec (car (cdr (cdr obj))))	; constant vector
      (setq bytes (compiled-function-instructions obj)
	    constvec (compiled-function-constants obj)))
    (let ((lap (byte-decompile-bytecode bytes constvec))
	  op arg opname pc-value)
      (let ((tagno 0)
	    tmp
	    (lap lap))
	(while (setq tmp (assq 'TAG lap))
	  (setcar (cdr tmp) (setq tagno (1+ tagno)))
	  (setq lap (cdr (memq tmp lap)))))
      (while lap
	;; Take off the pc value of the next thing
	;; and put it in pc-value.
	(setq pc-value nil)
	(if (numberp (car lap))
	    (setq pc-value (car lap)
		  lap (cdr lap)))
	;; Fetch the next op and its arg.
	(setq op (car (car lap))
	      arg (cdr (car lap)))
	(setq lap (cdr lap))
	(indent-to indent)
	(if (eq 'TAG op)
	    (progn
	      ;; We have a label.  Display it, but first its pc value.
	      (if pc-value
		  (insert (format "%d:" pc-value)))
	      (insert (int-to-string (car arg))))
	  ;; We have an instruction.  Display its pc value first.
	  (if pc-value
	      (insert (format "%d" pc-value)))
	  (indent-to (+ indent disassemble-column-1-indent))
	  (if (and op
		   (string-match "^byte-" (setq opname (symbol-name op))))
	      (setq opname (substring opname 5))
	    (setq opname "<not-an-opcode>"))
	  (if (eq op 'byte-constant2)
	      (insert " #### shouldn't have seen constant2 here!\n  "))
	  (insert opname)
	  (indent-to (+ indent disassemble-column-1-indent
			disassemble-column-2-indent
			-1))
	  (insert " ")
	  (cond ((memq op byte-goto-ops)
		 (insert (int-to-string (nth 1 arg))))
		((memq op '(byte-call byte-unbind
				      byte-listN byte-concatN byte-insertN))
		 (insert (int-to-string arg)))
		((memq op '(byte-varref byte-varset byte-varbind))
		 (prin1 (car arg) (current-buffer)))
		((memq op '(byte-constant byte-constant2))
		 ;; it's a constant
		 (setq arg (car arg))
		 ;; but if the value of the constant is compiled code, then
		 ;; recursively disassemble it.
		 (cond ((or (compiled-function-p arg)
			    (and (eq (car-safe arg) 'lambda)
				 (assq 'byte-code arg))
			    (and (eq (car-safe arg) 'macro)
				 (or (compiled-function-p (cdr arg))
				     (and (eq (car-safe (cdr arg)) 'lambda)
					  (assq 'byte-code (cdr arg))))))
			(cond ((compiled-function-p arg)
			       (insert "<compiled-function>\n"))
			      ((eq (car-safe arg) 'lambda)
			       (insert "<compiled lambda>"))
			      (t (insert "<compiled macro>\n")))
			(disassemble-internal
			 arg
			 (+ indent disassemble-recursive-indent 1)
			 nil))
		       ((eq (car-safe arg) 'byte-code)
			(insert "<byte code>\n")
			(disassemble-1	;recurse on byte-code object
			 arg
			 (+ indent disassemble-recursive-indent)))
		       ((eq (car-safe (car-safe arg)) 'byte-code)
			(insert "(<byte code>...)\n")
			(mapc		;recurse on list of byte-code objects
			 #'(lambda (obj)
			     (disassemble-1
			      obj
			      (+ indent disassemble-recursive-indent)))
			 arg))
		       (t
			;; really just a constant
			(let ((print-escape-newlines t))
			  (prin1 arg (current-buffer))))))
		)
	  (insert "\n")))))
  nil)

(provide 'disass)

;;; disass.el ends here