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+;; Mim (MDL in MDL) mode.
+;; Copyright (C) 1985 Free Software Foundation, Inc.
+;; Principal author K. Shane Hartman
+
+;; This file is part of GNU Emacs.
+
+;; GNU Emacs is free software; you can redistribute it and/or modify
+;; it under the terms of the GNU General Public License as published by
+;; the Free Software Foundation; either version 1, or (at your option)
+;; any later version.
+
+;; GNU Emacs is distributed in the hope that it will be useful,
+;; but WITHOUT ANY WARRANTY; without even the implied warranty of
+;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+;; GNU General Public License for more details.
+
+;; You should have received a copy of the GNU General Public License
+;; along with GNU Emacs; see the file COPYING.  If not, write to
+;; the Free Software Foundation, 675 Mass Ave, Cambridge, MA 02139, USA.
+
+
+(provide 'mim-mode)
+
+(autoload 'fast-syntax-check-mim "mim-syntax"
+	  "Checks Mim syntax quickly.
+Answers correct or incorrect, cannot point out the error context."
+	  t)
+
+(autoload 'slow-syntax-check-mim "mim-syntax"
+	  "Check Mim syntax slowly.
+Points out the context of the error, if the syntax is incorrect."
+	  t)
+
+(defvar mim-mode-hysterical-bindings t
+  "*Non-nil means bind list manipulation commands to Meta keys as well as
+Control-Meta keys for historical reasons.  Otherwise, only the latter keys
+are bound.")
+
+(defvar mim-mode-map nil)
+
+(defvar mim-mode-syntax-table nil)
+
+(if mim-mode-syntax-table
+    ()
+  (let ((i -1))
+    (setq mim-mode-syntax-table (make-syntax-table))
+    (while (< i ?\ )
+      (modify-syntax-entry (setq i (1+ i)) "    " mim-mode-syntax-table))
+    (while (< i 127)
+      (modify-syntax-entry (setq i (1+ i)) "_   " mim-mode-syntax-table))
+    (setq i (1- ?a))
+    (while (< i ?z)
+      (modify-syntax-entry (setq i (1+ i)) "w   " mim-mode-syntax-table))
+    (setq i (1- ?A))
+    (while (< i ?Z)
+      (modify-syntax-entry (setq i (1+ i)) "w   " mim-mode-syntax-table))
+    (setq i (1- ?0))
+    (while (< i ?9)
+      (modify-syntax-entry (setq i (1+ i)) "w   " mim-mode-syntax-table))
+    (modify-syntax-entry ?:  "     " mim-mode-syntax-table) ; make : symbol delimiter
+    (modify-syntax-entry ?,  "'    " mim-mode-syntax-table)
+    (modify-syntax-entry ?.  "'    " mim-mode-syntax-table)
+    (modify-syntax-entry ?'  "'    " mim-mode-syntax-table)
+    (modify-syntax-entry ?`  "'    " mim-mode-syntax-table)
+    (modify-syntax-entry ?~  "'    " mim-mode-syntax-table)
+    (modify-syntax-entry ?\; "'    " mim-mode-syntax-table) ; comments are prefixed objects
+    (modify-syntax-entry ?#  "'    " mim-mode-syntax-table)
+    (modify-syntax-entry ?%  "'    " mim-mode-syntax-table)
+    (modify-syntax-entry ?!  "'    " mim-mode-syntax-table)
+    (modify-syntax-entry ?\" "\"   " mim-mode-syntax-table)
+    (modify-syntax-entry ?\\ "\\   " mim-mode-syntax-table)
+    (modify-syntax-entry ?\( "\()  " mim-mode-syntax-table)
+    (modify-syntax-entry ?\< "\(>  " mim-mode-syntax-table)
+    (modify-syntax-entry ?\{ "\(}  " mim-mode-syntax-table)
+    (modify-syntax-entry ?\[ "\(]  " mim-mode-syntax-table)
+    (modify-syntax-entry ?\) "\)(  " mim-mode-syntax-table)
+    (modify-syntax-entry ?\> "\)<  " mim-mode-syntax-table)
+    (modify-syntax-entry ?\} "\){  " mim-mode-syntax-table)
+    (modify-syntax-entry ?\] "\)[  " mim-mode-syntax-table)))
+
+(defconst mim-whitespace "\000- ")
+
+(defvar mim-mode-hook nil
+  "*User function run after mim mode initialization.  Usage:
+\(setq mim-mode-hook '(lambda () ... your init forms ...)).")
+
+(define-abbrev-table 'mim-mode-abbrev-table nil)
+
+(defconst indent-mim-function 'indent-mim-function
+  "Controls (via properties) indenting of special forms.
+\(put 'FOO 'indent-mim-function n\), integer n, means lines inside
+<FOO ...> will be indented n spaces from start of form.
+\(put 'FOO 'indent-mim-function 'DEFINE\) is like above but means use
+value of mim-body-indent as offset from start of form.
+\(put 'FOO 'indent-mim-function <cons>\) where <cons> is a list or pointted list
+of integers, means indent each form in <FOO ...> by the amount specified
+in <cons>.  When <cons> is exhausted, indent remaining forms by
+`mim-body-indent' unless <cons> is a pointed list, in which case the last
+cdr is used.  Confused?  Here is an example:
+\(put 'FROBIT 'indent-mim-function '\(4 2 . 1\)\)
+<FROBIT
+     <CHOMP-IT>
+   <CHOMP-SOME-MORE>
+  <DIGEST>
+  <BELCH>
+  ...>
+Finally, the property can be a function name (read the code).")
+
+(defvar indent-mim-comment t
+  "*Non-nil means indent string comments.")
+
+(defvar mim-body-indent 2
+  "*Amount to indent in special forms which have DEFINE property on
+`indent-mim-function'.")
+
+(defvar indent-mim-arglist t
+  "*nil means indent arglists like ordinary lists.
+t means strings stack under start of arglist and variables stack to
+right of them.  Otherwise, strings stack under last string (or start
+of arglist if none) and variables stack to right of them.
+Examples (for values 'stack, t, nil):
+
+\(FOO \"OPT\" BAR             \(FOO \"OPT\" BAR            \(FOO \"OPT\" BAR
+           BAZ MUMBLE                 BAZ MUMBLE      BAZ MUMBLE
+     \"AUX\"                  \"AUX\"                     \"AUX\"
+     BLETCH ...             BLETCH ...                BLETCH ...")
+
+(put 'DEFINE 'indent-mim-function 'DEFINE)
+(put 'DEFMAC 'indent-mim-function 'DEFINE)
+(put 'BIND 'indent-mim-function 'DEFINE)
+(put 'PROG 'indent-mim-function 'DEFINE)
+(put 'REPEAT 'indent-mim-function 'DEFINE)
+(put 'CASE 'indent-mim-function 'DEFINE)
+(put 'FUNCTION 'indent-mim-function 'DEFINE)
+(put 'MAPF 'indent-mim-function 'DEFINE)
+(put 'MAPR 'indent-mim-function 'DEFINE)
+(put 'UNWIND 'indent-mim-function (cons (* 2 mim-body-indent) mim-body-indent))
+
+(defvar mim-down-parens-only t
+  "*nil means treat ADECLs and ATOM trailers like structures when
+moving down a level of structure.")
+
+(defvar mim-stop-for-slop t
+  "*Non-nil means {next previous}-mim-object consider any
+non-whitespace character in column 0 to be a toplevel object, otherwise
+only open paren syntax characters will be considered.")
+
+(fset 'mdl-mode 'mim-mode)
+
+(defun mim-mode ()
+  "Major mode for editing Mim (MDL in MDL) code.
+Commands:
+    If value of `mim-mode-hysterical-bindings' is non-nil, then following
+commands are assigned to escape keys as well (e.g. ESC f = ESC C-f).
+The default action is bind the escape keys.
+\\{mim-mode-map}
+Other Commands:
+  Use \\[describe-function] to obtain documentation.
+  replace-in-mim-object  find-mim-definition  fast-syntax-check-mim
+  slow-syntax-check-mim  backward-down-mim-object  forward-up-mim-object
+Variables:
+  Use \\[describe-variable] to obtain documentation.
+  mim-mode-hook  indent-mim-comment  indent-mim-arglist  indent-mim-function
+  mim-body-indent  mim-down-parens-only  mim-stop-for-slop
+  mim-mode-hysterical-bindings
+Entry to this mode calls the value of mim-mode-hook if non-nil."
+  (interactive)
+  (kill-all-local-variables)
+  (if (not mim-mode-map)
+      (progn
+	(setq mim-mode-map (make-sparse-keymap))
+	(define-key mim-mode-map "\e\^o" 'open-mim-line)
+	(define-key mim-mode-map "\e\^q" 'indent-mim-object)
+	(define-key mim-mode-map "\e\^p" 'previous-mim-object)
+	(define-key mim-mode-map "\e\^n" 'next-mim-object)
+	(define-key mim-mode-map "\e\^a" 'beginning-of-DEFINE)
+	(define-key mim-mode-map "\e\^e" 'end-of-DEFINE)
+	(define-key mim-mode-map "\e\^t" 'transpose-mim-objects)
+	(define-key mim-mode-map "\e\^u" 'backward-up-mim-object)	
+	(define-key mim-mode-map "\e\^d" 'forward-down-mim-object)	 
+	(define-key mim-mode-map "\e\^h" 'mark-mim-object)
+	(define-key mim-mode-map "\e\^k" 'forward-kill-mim-object)	
+	(define-key mim-mode-map "\e\^f" 'forward-mim-object)	   
+	(define-key mim-mode-map "\e\^b" 'backward-mim-object)
+	(define-key mim-mode-map "\e^" 'raise-mim-line)
+	(define-key mim-mode-map "\e\\" 'fixup-whitespace)
+	(define-key mim-mode-map "\177" 'backward-delete-char-untabify)
+	(define-key mim-mode-map "\e\177" 'backward-kill-mim-object)
+	(define-key mim-mode-map "\^j" 'newline-and-mim-indent)
+	(define-key mim-mode-map "\e;" 'begin-mim-comment)
+	(define-key mim-mode-map "\t" 'indent-mim-line)
+	(define-key mim-mode-map "\e\t" 'indent-mim-object)
+	(if (not mim-mode-hysterical-bindings)
+	    nil
+	  ;; i really hate this but too many people are accustomed to these.
+	  (define-key mim-mode-map "\e!" 'line-to-top-of-window)
+	  (define-key mim-mode-map "\eo" 'open-mim-line)
+	  (define-key mim-mode-map "\ep" 'previous-mim-object)
+	  (define-key mim-mode-map "\en" 'next-mim-object)
+	  (define-key mim-mode-map "\ea" 'beginning-of-DEFINE)
+	  (define-key mim-mode-map "\ee" 'end-of-DEFINE)
+	  (define-key mim-mode-map "\et" 'transpose-mim-objects)
+	  (define-key mim-mode-map "\eu" 'backward-up-mim-object)
+	  (define-key mim-mode-map "\ed" 'forward-down-mim-object)
+	  (define-key mim-mode-map "\ek" 'forward-kill-mim-object)
+	  (define-key mim-mode-map "\ef" 'forward-mim-object)
+	  (define-key mim-mode-map "\eb" 'backward-mim-object))))
+  (use-local-map mim-mode-map)
+  (set-syntax-table mim-mode-syntax-table)
+  (make-local-variable 'paragraph-start)
+  (setq paragraph-start (concat "^$\\|" page-delimiter))
+  (make-local-variable 'paragraph-separate)
+  (setq paragraph-separate paragraph-start)
+  (make-local-variable 'paragraph-ignore-fill-prefix)
+  (setq paragraph-ignore-fill-prefix t)
+  ;; Most people use string comments.
+  (make-local-variable 'comment-start)
+  (setq comment-start ";\"")
+  (make-local-variable 'comment-start-skip)
+  (setq comment-start-skip ";\"")
+  (make-local-variable 'comment-end)
+  (setq comment-end "\"")
+  (make-local-variable 'comment-column)
+  (setq comment-column 40)
+  (make-local-variable 'comment-indent-hook)
+  (setq comment-indent-hook 'indent-mim-comment)
+  ;; tell generic indenter how to indent.
+  (make-local-variable 'indent-line-function)
+  (setq indent-line-function 'indent-mim-line)
+  ;; look for that paren
+  (make-local-variable 'blink-matching-paren-distance)
+  (setq blink-matching-paren-distance nil)
+  ;; so people who dont like tabs can turn them off locally in indenter.
+  (make-local-variable 'indent-tabs-mode)
+  (setq indent-tabs-mode t)
+  (setq local-abbrev-table mim-mode-abbrev-table)
+  (setq major-mode 'mim-mode)
+  (setq mode-name "Mim")
+  (run-hooks 'mim-mode-hook))
+
+(defun line-to-top-of-window ()
+  "Move current line to top of window."
+  (interactive)				; for lazy people
+  (recenter 0))
+
+(defun forward-mim-object (arg)
+  "Move forward across Mim object.
+With ARG, move forward that many objects."
+  (interactive "p")
+  ;; this function is wierd because it emulates the behavior of the old
+  ;; (gosling) mim-mode - if the arg is 1 and we are `inside' an ADECL,
+  ;; more than one character into the ATOM part and not sitting on the
+  ;; colon, then we move to the DECL part (just past colon) instead of
+  ;; the end of the object (the entire ADECL).  otherwise, ADECL's are
+  ;; atomic objects.  likewise for ATOM trailers.
+  (if (= (abs arg) 1)
+      (if (inside-atom-p)
+	  ;; Move to end of ATOM or to trailer (!) or to ADECL (:).
+	  (forward-sexp arg)
+	;; Either scan an sexp or move over one bracket.
+	(forward-mim-objects arg t))
+    ;; in the multi-object case, don't perform any magic.
+    ;; treats ATOM trailers and ADECLs atomically, stops at unmatched
+    ;; brackets with error.
+    (forward-mim-objects arg)))
+
+(defun inside-atom-p ()
+  ;; Returns t iff inside an atom (takes account of trailers)
+  (let ((c1 (preceding-char))
+	(c2 (following-char)))
+    (and (or (= (char-syntax c1) ?w) (= (char-syntax c1) ?_) (= c1 ?!))
+	 (or (= (char-syntax c2) ?w) (= (char-syntax c2) ?_) (= c2 ?!)))))
+
+(defun forward-mim-objects (arg &optional skip-bracket-p)
+  ;; Move over arg objects ignoring ADECLs and trailers.  If
+  ;; skip-bracket-p is non-nil, then move over one bracket on error.
+  (let ((direction (sign arg)))
+    (condition-case conditions
+	(while (/= arg 0)
+	  (forward-sexp direction)
+	  (if (not (inside-adecl-or-trailer-p direction))
+	      (setq arg (- arg direction))))
+      (error (if (not skip-bracket-p)
+		 (signal 'error (cdr conditions))
+	       (skip-mim-whitespace direction)
+	       (goto-char (+ (point) direction)))))
+    ;; If we moved too far move back to first interesting character.
+    (if (= (point) (buffer-end direction)) (skip-mim-whitespace (- direction)))))
+				    
+(defun backward-mim-object (&optional arg)
+  "Move backward across Mim object.
+With ARG, move backward that many objects."
+  (interactive "p")
+  (forward-mim-object (if arg (- arg) -1)))
+
+(defun mark-mim-object (&optional arg)
+  "Mark following Mim object.
+With ARG, mark that many following (preceding, ARG < 0) objects."
+  (interactive "p")
+  (push-mark (save-excursion (forward-mim-object (or arg 1)) (point))))
+
+(defun forward-kill-mim-object (&optional arg)
+  "Kill following Mim object.
+With ARG, kill that many objects."
+  (interactive "*p")
+  (kill-region (point) (progn (forward-mim-object (or arg 1)) (point))))
+
+(defun backward-kill-mim-object (&optional arg)
+  "Kill preceding Mim object.
+With ARG, kill that many objects."
+  (interactive "*p")
+  (forward-kill-mim-object (- (or arg 1))))
+
+(defun raise-mim-line (&optional arg)
+  "Raise following line, fixing up whitespace at join.
+With ARG raise that many following lines.
+A negative ARG will raise current line and previous lines."
+  (interactive "*p")
+  (let* ((increment (sign (or arg (setq arg 1))))
+	 (direction (if (> arg 0) 1 0)))
+    (save-excursion
+      (while (/= arg 0)
+	;; move over eol and kill it
+	(forward-line direction)
+	(delete-region (point) (1- (point)))
+	(fixup-whitespace)
+	(setq arg (- arg increment))))))
+
+(defun forward-down-mim-object (&optional arg)
+  "Move down a level of Mim structure forwards.
+With ARG, move down that many levels forwards (backwards, ARG < 0)."
+  (interactive "p")
+  ;; another wierdo - going down `inside' an ADECL or ATOM trailer
+  ;; depends on the value of mim-down-parens-only.  if nil, treat
+  ;; ADECLs and trailers as structured objects.
+  (let ((direction (sign (or arg (setq arg 1)))))
+    (if (and (= (abs arg) 1) (not mim-down-parens-only))
+	(goto-char
+	  (save-excursion
+	    (skip-mim-whitespace direction)
+	    (if (> direction 0) (re-search-forward "\\s'*"))
+	    (or (and (let ((c (next-char direction)))
+		       (or (= (char-syntax c) ?_)
+			   (= (char-syntax c) ?w)))
+		     (progn (forward-sexp direction)
+			    (if (inside-adecl-or-trailer-p direction)
+				(point))))
+		(scan-lists (point) direction -1)
+		(buffer-end direction))))
+      (while (/= arg 0)
+	(goto-char (or (scan-lists (point) direction -1) (buffer-end direction)))
+	(setq arg (- arg direction))))))
+
+(defun backward-down-mim-object (&optional arg)
+  "Move down a level of Mim structure backwards.
+With ARG, move down that many levels backwards (forwards, ARG < 0)."
+  (interactive "p")
+  (forward-down-mim-object (if arg (- arg) -1)))
+
+(defun forward-up-mim-object (&optional arg)
+  "Move up a level of Mim structure forwards
+With ARG, move up that many levels forwards (backwards, ARG < 0)."
+  (interactive "p")
+  (let ((direction (sign (or arg (setq arg 1)))))
+    (while (/= arg 0)
+      (goto-char (or (scan-lists (point) direction 1) (buffer-end arg)))
+      (setq arg (- arg direction)))
+    (if (< direction 0) (backward-prefix-chars))))
+
+(defun backward-up-mim-object (&optional arg)
+  "Move up a level of Mim structure backwards
+With ARG, move up that many levels backwards (forwards, ARG > 0)."
+  (interactive "p")
+  (forward-up-mim-object (if arg (- arg) -1)))
+
+(defun replace-in-mim-object (old new)
+  "Replace string in following Mim object."
+  (interactive "*sReplace in object: \nsReplace %s with: ")
+  (save-restriction
+    (narrow-to-region (point) (save-excursion (forward-mim-object 1) (point)))
+    (replace-string old new)))
+  
+(defun transpose-mim-objects (&optional arg)
+  "Transpose Mim objects around point.
+With ARG, transpose preceding object that many times with following objects.
+A negative ARG will transpose backwards."
+  (interactive "*p")
+  (transpose-subr 'forward-mim-object (or arg 1)))
+
+(defun beginning-of-DEFINE (&optional arg move)
+  "Move backward to beginning of surrounding or previous toplevel Mim form.
+With ARG, do it that many times.  Stops at last toplevel form seen if buffer
+end is reached."
+  (interactive "p")
+  (let ((direction (sign (or arg (setq arg 1)))))
+    (if (not move) (setq move t))
+    (if (< direction 0) (goto-char (1+ (point))))
+    (while (and (/= arg 0) (re-search-backward "^<" nil move direction))
+      (setq arg (- arg direction)))
+    (if (< direction 0)
+	(goto-char (1- (point))))))
+
+(defun end-of-DEFINE (&optional arg)
+  "Move forward to end of surrounding or next toplevel mim form.
+With ARG, do it that many times.  Stops at end of last toplevel form seen
+if buffer end is reached."
+  (interactive "p")
+  (if (not arg) (setq arg 1))
+  (if (< arg 0)
+      (beginning-of-DEFINE (- (1- arg)))
+    (if (not (looking-at "^<")) (setq arg (1+ arg)))
+    (beginning-of-DEFINE (- arg) 'move)
+    (beginning-of-DEFINE 1))
+  (forward-mim-object 1)
+  (forward-line 1))
+
+(defun next-mim-object (&optional arg)
+  "Move to beginning of next toplevel Mim object.
+With ARG, do it that many times.  Stops at last object seen if buffer end
+is reached."
+  (interactive "p")
+  (let ((search-string (if mim-stop-for-slop "^\\S " "^\\s("))
+	(direction (sign (or arg (setq arg 1)))))
+    (if (> direction 0)
+	(goto-char (1+ (point))))		; no error if end of buffer
+    (while (and (/= arg 0)
+		(re-search-forward search-string nil t direction))
+      (setq arg (- arg direction)))
+    (if (> direction 0)
+	(goto-char (1- (point))))		; no error if beginning of buffer
+    ;; scroll to top of window if moving forward and end not visible.
+    (if (not (or (< direction 0)
+		 (save-excursion (forward-mim-object 1)
+				 (pos-visible-in-window-p (point)))))
+	(recenter 0))))
+
+(defun previous-mim-object (&optional arg)
+  "Move to beginning of previous toplevel Mim object.
+With ARG do it that many times.  Stops at last object seen if buffer end
+is reached."
+  (interactive "p")
+  (next-mim-object (- (or arg 1))))
+
+(defun calculate-mim-indent (&optional parse-start)
+  "Calculate indentation for Mim line.  Returns column."
+  (save-excursion			; some excursion, huh, toto?
+    (beginning-of-line)
+    (let ((indent-point (point)) retry state containing-sexp last-sexp
+	  desired-indent start peek where paren-depth)
+      (if parse-start
+	  (goto-char parse-start)	; should be containing environment
+	(catch 'from-the-top
+	  ;; find a place to start parsing.  going backwards is fastest.
+	  ;; forward-sexp signals error on encountering unmatched open.
+	  (setq retry t)
+	  (while retry
+	    (condition-case nil (forward-sexp -1) (error (setq retry nil)))
+	    (if (looking-at ".?[ \t]*\"")
+		;; cant parse backward in presence of strings, go forward.
+		(progn
+		  (goto-char indent-point)
+		  (re-search-backward "^\\s(" nil 'move 1)  ; to top of object
+		  (throw 'from-the-top nil)))
+	    (setq retry (and retry (/= (current-column) 0))))
+	  (skip-chars-backward mim-whitespace)
+	  (if (not (bobp)) (forward-char -1))     ; onto unclosed open
+	  (backward-prefix-chars)))
+      ;; find outermost containing sexp if we started inside an sexp.
+      (while (< (point) indent-point)    
+	(setq state (parse-partial-sexp (point) indent-point 0)))
+      ;; find usual column to indent under (not in string or toplevel).
+      ;; on termination, state will correspond to containing environment
+      ;; (if retry is nil), where will be position of character to indent
+      ;; under normally, and desired-indent will be the column to indent to
+      ;; except if inside form, string, or at toplevel.  point will be in
+      ;; in column to indent to unless inside string.
+      (setq retry t)
+      (while (and retry (setq paren-depth (car state)) (> paren-depth 0))
+	;; find innermost containing sexp.
+	(setq retry nil)
+	(setq last-sexp (car (nthcdr 2 state)))
+	(setq containing-sexp (car (cdr state)))
+	(goto-char (1+ containing-sexp))	  ; to last unclosed open
+	(if (and last-sexp (> last-sexp (point)))
+	    ;; is the last sexp a containing sexp?
+	    (progn (setq peek (parse-partial-sexp last-sexp indent-point 0))
+		   (if (setq retry (car (cdr peek))) (setq state peek))))
+	(if retry
+	    nil
+	  (setq where (1+ containing-sexp))   ; innermost containing sexp
+	  (goto-char where)
+	  (cond
+	   ((not last-sexp)		      ; indent-point after bracket
+	    (setq desired-indent (current-column)))
+	   ((= (preceding-char) ?\<)	      ; it's a form
+	    (cond ((> (progn (forward-sexp 1) (point)) last-sexp)
+		   (goto-char where))	      ; only one frob
+		  ((> (save-excursion (forward-line 1) (point)) last-sexp)
+		   (skip-chars-forward " \t") ; last-sexp is on same line
+		   (setq where (point)))	      ; as containing-sexp
+		  ((progn
+		     (goto-char last-sexp)
+		     (beginning-of-line)
+		     (parse-partial-sexp (point) last-sexp 0 t)
+		     (or (= (point) last-sexp)
+			 (save-excursion
+			   (= (car (parse-partial-sexp (point) last-sexp 0))
+			      0))))
+		   (backward-prefix-chars)    ; last-sexp 1st on line or 1st
+		   (setq where (point)))        ; frob on that line level 0
+		  (t (goto-char where))))     ; punt, should never occur
+	   ((and indent-mim-arglist	      ; maybe hack arglist    
+		 (= (preceding-char) ?\()     ; its a list
+		 (save-excursion	      ; look for magic atoms
+		   (setq peek 0)	      ; using peek as counter
+		   (forward-char -1)	      ; back over containing paren
+		   (while (and (< (setq peek (1+ peek)) 6)
+			       (condition-case nil
+				   (progn (forward-sexp -1) t)
+				 (error nil))))
+		   (and (< peek 6) (looking-at "DEFINE\\|DEFMAC\\|FUNCTION"))))
+	    ;; frobs stack under strings they belong to or under first
+	    ;; frob to right of strings they belong to unless luser has
+	    ;; frob (non-string) on preceding line with different
+	    ;; indentation.  strings stack under start of arglist unless
+	    ;; mim-indent-arglist is not t, in which case they stack
+	    ;; under the last string, if any, else the start of the arglist.
+	    (let ((eol 0) last-string)
+	      (while (< (point) last-sexp)      ; find out where the strings are
+		(skip-chars-forward mim-whitespace last-sexp)		
+		(if (> (setq start (point)) eol)
+		    (progn                    ; simultaneously keeping track
+		      (setq where (min where start))
+		      (end-of-line)	      ; of indentation of first frob
+		      (setq eol (point))	      ; on each line
+		      (goto-char start)))
+		(if (= (following-char) ?\")
+		    (progn (setq last-string (point))
+			   (forward-sexp 1)
+			   (if (= last-string last-sexp)
+			       (setq where last-sexp)
+			     (skip-chars-forward mim-whitespace last-sexp)
+			     (setq where (point))))
+		  (forward-sexp 1)))
+	      (goto-char indent-point)	           ; if string is first on
+	      (skip-chars-forward " \t" (point-max)) ; line we are indenting, it 
+	      (if (= (following-char) ?\")         ; goes under arglist start
+		  (if (and last-string (not (equal indent-mim-arglist t)))
+		      (setq where last-string)     ; or under last string.
+		    (setq where (1+ containing-sexp)))))
+	    (goto-char where)
+	    (setq desired-indent (current-column)))
+	   (t				      ; plain vanilla structure
+	    (cond ((> (save-excursion (forward-line 1) (point)) last-sexp)
+		   (skip-chars-forward " \t") ; last-sexp is on same line
+		   (setq where (point)))	      ; as containing-sexp
+		  ((progn
+		     (goto-char last-sexp)
+		     (beginning-of-line)
+		     (parse-partial-sexp (point) last-sexp 0 t)
+		     (or (= (point) last-sexp)
+			 (save-excursion
+			   (= (car (parse-partial-sexp (point) last-sexp 0))
+			      0))))
+		     (backward-prefix-chars)  ; last-sexp 1st on line or 1st
+		     (setq where (point)))      ; frob on that line level 0
+		  (t (goto-char where)))      ; punt, should never occur
+	    (setq desired-indent (current-column))))))
+      ;; state is innermost containing environment unless toplevel or string.
+      (if (car (nthcdr 3 state))	      ; inside string
+	  (progn
+	    (if last-sexp		      ; string must be next
+		(progn (goto-char last-sexp)
+		       (forward-sexp 1)
+		       (search-forward "\"")
+		       (forward-char -1))
+	      (goto-char indent-point)	      ; toplevel string, look for it
+	      (re-search-backward "[^\\]\"")
+	      (forward-char 1))
+	    (setq start (point))		      ; opening double quote
+	    (skip-chars-backward " \t")
+	    (backward-prefix-chars)
+	    ;; see if the string is really a comment.
+       	    (if (and (looking-at ";[ \t]*\"") indent-mim-comment)
+		;; it's a comment, line up under the start unless disabled.
+		(goto-char (1+ start))
+	      ;; it's a string, dont mung the indentation.
+	      (goto-char indent-point)
+	      (skip-chars-forward " \t"))
+	    (setq desired-indent (current-column))))
+      ;; point is sitting in usual column to indent to and if retry is nil
+      ;; then state corresponds to containing environment.  if desired
+      ;; indentation not determined, we are inside a form, so call hook.
+      (or desired-indent
+	  (and indent-mim-function
+	       (not retry)
+	       (setq desired-indent
+		     (funcall indent-mim-function state indent-point)))
+	  (setq desired-indent (current-column)))
+      (goto-char indent-point)		; back to where we started
+      desired-indent)))			; return column to indent to
+
+(defun indent-mim-function (state indent-point)
+  "Compute indentation for Mim special forms.  Returns column or nil."
+  (let ((containing-sexp (car (cdr state))) (current-indent (point)))
+    (save-excursion
+      (goto-char (1+ containing-sexp))
+      (backward-prefix-chars)
+      ;; make sure we are looking at a symbol.  if so, see if it is a special
+      ;; symbol.  if so, add the special indentation to the indentation of
+      ;; the start of the special symbol, unless the property is not
+      ;; an integer and not nil (in this case, call the property, it must
+      ;; be a function which returns the appropriate indentation or nil and
+      ;; does not change the buffer).
+      (if (looking-at "\\sw\\|\\s_")
+	  (let* ((start (current-column))
+		 (function
+		  (intern-soft (buffer-substring (point)
+						 (progn (forward-sexp 1)
+							(point)))))
+		 (method (get function 'indent-mim-function)))
+	    (if (or (if (equal method 'DEFINE) (setq method mim-body-indent))
+		    (integerp method))
+		;; only use method if its first line after containing-sexp.
+		;; we could have done this in calculate-mim-indent, but someday
+		;; someone might want to format frobs in a special form based
+		;; on position instead of indenting uniformly (like lisp if),
+		;; so preserve right for posterity.  if not first line,
+		;; calculate-mim-indent already knows right indentation -
+		;; give luser chance to change indentation manually by changing
+		;; 1st line after containing-sexp.
+		(if (> (progn (forward-line 1) (point)) (car (nthcdr 2 state)))
+		    (+ method start))
+	      (goto-char current-indent)
+	      (if (consp method)
+		  ;; list or pointted list of explicit indentations
+		  (indent-mim-offset state indent-point)
+		(if (and (symbolp method) (fboundp method))
+		    ;; luser function - s/he better know what's going on.
+		    ;; should take state and indent-point as arguments - for
+		    ;; description of state, see parse-partial-sexp
+		    ;; documentation the function is guaranteed the following:
+		    ;; (1) state describes the closest surrounding form,
+		    ;; (2) indent-point is the beginning of the line being
+		    ;; indented, (3) point points to char in column that would
+		    ;; normally be used for indentation, (4) function is bound
+		    ;; to the special ATOM.  See indent-mim-offset for example
+		    ;; of a special function.
+		    (funcall method state indent-point)))))))))
+
+(defun indent-mim-offset (state indent-point)
+  ;; offset forms explicitly according to list of indentations.
+  (let ((mim-body-indent mim-body-indent)
+	(indentations (get function 'indent-mim-function))
+	(containing-sexp (car (cdr state)))
+	(last-sexp (car (nthcdr 2 state)))
+	indentation)
+    (goto-char (1+ containing-sexp))
+    ;; determine wheich of the indentations to use.
+    (while (and (< (point) indent-point)
+		(condition-case nil
+		    (progn (forward-sexp 1)
+			   (parse-partial-sexp (point) indent-point 1 t))
+		  (error nil)))
+      (skip-chars-backward " \t")
+      (backward-prefix-chars)
+      (if (= (following-char) ?\;)
+	  nil					    ; ignore comments
+	(setq indentation (car indentations))
+	(if (integerp (setq indentations (cdr indentations)))
+	    ;; if last cdr is integer, that is indentation to use for all
+	    ;; all the rest of the forms.
+	    (progn (setq mim-body-indent indentations)
+		   (setq indentations nil)))))
+    (goto-char (1+ containing-sexp))
+    (+ (current-column) (or indentation mim-body-indent))))
+
+(defun indent-mim-comment (&optional start)
+  "Indent a one line (string) Mim comment following object, if any."
+  (let* ((old-point (point)) (eol (progn (end-of-line) (point))) state last-sexp)
+    ;; this function assumes that comment indenting is enabled.  it is caller's
+    ;; responsibility to check the indent-mim-comment flag before calling.
+    (beginning-of-line)
+    (catch 'no-comment
+      (setq state (parse-partial-sexp (point) eol))
+      ;; determine if there is an existing regular comment.  a `regular'
+      ;; comment is defined as a commented string which is the last thing
+      ;; on the line and does not extend beyond the end of the line.
+      (if (or (not (setq last-sexp (car (nthcdr 2 state))))
+	      (car (nthcdr 3 state)))
+	  ;; empty line or inside string (multiple line).
+	  (throw 'no-comment nil))	
+      ;; could be a comment, but make sure its not the only object.
+      (beginning-of-line)
+      (parse-partial-sexp (point) eol 0 t)
+      (if (= (point) last-sexp)
+	  ;; only one object on line
+	  (throw 'no-comment t))
+      (goto-char last-sexp)
+      (skip-chars-backward " \t")
+      (backward-prefix-chars)
+      (if (not (looking-at ";[ \t]*\""))
+	  ;; aint no comment
+	  (throw 'no-comment nil))
+      ;; there is an existing regular comment
+      (delete-horizontal-space)
+      ;; move it to comment-column if possible else to tab-stop
+      (if (< (current-column) comment-column)
+	  (indent-to comment-column)
+	(tab-to-tab-stop)))
+    (goto-char old-point)))
+	
+(defun indent-mim-line ()
+  "Indent line of Mim code."
+  (interactive "*")
+  (let* ((position (- (point-max) (point)))
+	 (bol (progn (beginning-of-line) (point)))
+	 (indent (calculate-mim-indent)))
+    (skip-chars-forward " \t")
+    (if (/= (current-column) indent)
+	(progn (delete-region bol (point)) (indent-to indent)))
+    (if (> (- (point-max) position) (point)) (goto-char (- (point-max) position)))))
+
+(defun newline-and-mim-indent ()
+  "Insert newline at point and indent."
+  (interactive "*")
+  ;; commented code would correct indentation of line in arglist which
+  ;; starts with string, but it would indent every line twice.  luser can
+  ;; just say tab after typing string to get same effect.
+  ;(if indent-mim-arglist (indent-mim-line))
+  (newline)
+  (indent-mim-line))
+
+(defun open-mim-line (&optional lines)
+  "Insert newline before point and indent.
+With ARG insert that many newlines."
+  (interactive "*p")
+  (beginning-of-line)
+  (let ((indent (calculate-mim-indent)))
+    (while (> lines 0)
+      (newline)
+      (forward-line -1)
+      (indent-to indent)
+      (setq lines (1- lines)))))
+
+(defun indent-mim-object (&optional dont-indent-first-line)
+  "Indent object following point and all lines contained inside it.
+With ARG, idents only contained lines (skips first line)."
+  (interactive "*P")
+  (let (end bol indent start)
+    (save-excursion (parse-partial-sexp (point) (point-max) 0 t)
+		    (setq start (point))
+		    (forward-sexp 1)
+		    (setq end (- (point-max) (point))))
+    (save-excursion
+      (if (not dont-indent-first-line) (indent-mim-line))
+      (while (progn (forward-line 1) (> (- (point-max) (point)) end))
+	(setq indent (calculate-mim-indent start))
+	(setq bol (point))
+	(skip-chars-forward " \t")
+	(if (/= indent (current-column))
+	    (progn (delete-region bol (point)) (indent-to indent)))
+	(if indent-mim-comment (indent-mim-comment))))))
+  
+(defun find-mim-definition (name)
+  "Search for definition of function, macro, or gfcn.
+You need type only enough of the name to be unambiguous."
+  (interactive "sName: ")
+  (let (where)
+    (save-excursion
+      (goto-char (point-min))
+      (condition-case nil
+	  (progn
+	    (re-search-forward
+	     (concat "^<\\(DEFINE\\|\\DEFMAC\\|FCN\\|GFCN\\)\\([ \t]*\\)"
+		     name))
+	    (setq where (point)))
+	(error (error "Can't find %s" name))))
+    (if where
+	(progn (push-mark)
+	       (goto-char where)
+	       (beginning-of-line)
+	       (recenter 0)))))
+    
+(defun begin-mim-comment ()
+  "Move to existing comment or insert empty comment."
+  (interactive "*")
+  (let* ((eol (progn (end-of-line) (point)))
+	 (bol (progn (beginning-of-line) (point))))
+    ;; check for existing comment first.
+    (if (re-search-forward ";[ \t]*\"" eol t)
+	;; found it.  indent if desired and go there.
+	(if indent-mim-comment
+	    (let ((where (- (point-max) (point))))
+	      (indent-mim-comment)
+	      (goto-char (- (point-max) where))))
+      ;; nothing there, make a comment.
+      (let (state last-sexp)
+	;; skip past all the sexps on the line
+	(goto-char bol)
+	(while (and (equal (car (setq state (parse-partial-sexp (point) eol 0)))
+			   0)
+		    (car (nthcdr 2 state)))
+	  (setq last-sexp (car (nthcdr 2 state))))
+	(if (car (nthcdr 3 state))
+	    nil					    ; inside a string, punt
+      (delete-region (point) eol)			    ; flush trailing whitespace
+      (if (and (not last-sexp) (equal (car state) 0))
+	  (indent-to (calculate-mim-indent))	    ; empty, indent like code
+	(if (> (current-column) comment-column)	    ; indent to comment column
+	    (tab-to-tab-stop)			    ; unless past it, else to
+	  (indent-to comment-column)))		    ; tab-stop
+      ;; if luser changes comment-{start end} to something besides semi
+      ;; followed by zero or more whitespace characters followed by string
+      ;; delimiters, the code above fails to find existing comments, but as
+      ;; taa says, `let the losers lose'.
+      (insert comment-start)
+      (save-excursion (insert comment-end)))))))
+
+(defun skip-mim-whitespace (direction)
+  (if (>= direction 0)
+      (skip-chars-forward mim-whitespace (point-max))
+    (skip-chars-backward mim-whitespace (point-min))))
+
+(defun inside-adecl-or-trailer-p (direction)
+  (if (>= direction 0)
+      (looking-at ":\\|!-")
+    (or (= (preceding-char) ?:)
+	(looking-at "!-"))))
+		  
+(defun sign (n)
+  "Returns -1 if N < 0, else 1."
+  (if (>= n 0) 1 -1))
+
+(defun abs (n)
+  "Returns the absolute value of N."
+  (if (>= n 0) n (- n)))
+
+(defun next-char (direction)
+  "Returns preceding-char if DIRECTION < 0, otherwise following-char."
+  (if (>= direction 0) (following-char) (preceding-char)))