semantic / semantic-util.el

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;;; semantic-util.el --- Utilities for use with semantic token streams

;;; Copyright (C) 1999, 2000, 2001 Eric M. Ludlam

;; Author: Eric M. Ludlam <zappo@gnu.org>
;; Keywords: syntax
;; X-RCS: $Id$

;; This file is not part of GNU Emacs.

;; Semantic 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 2, or (at your option)
;; any later version.

;; This software 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, Inc., 59 Temple Place - Suite 330,
;; Boston, MA 02111-1307, USA.

;;; Commentary:
;;
;; API for accessing and searching nonterminal streams from the
;; Semantic Bovinator.
;;

(require 'assoc)
(require 'semantic)

;;; Code:

(defvar semantic-type-relation-separator-character '(".")
  "Character strings used to separation a parent/child relationship.
This list of strings are used for displaying or finding separators
in variable field dereferencing.  The first character will be used for
display.  In C, a type field is separated like this: \"type.field\"
thus, the character is a \".\".  In C, and additional value of \"->\"
would be in the list, so that \"type->field\" could be found.")
(make-variable-buffer-local 'semantic-type-relation-separator-character)

(defvar semantic-equivalent-major-modes nil
  "List of major modes which are considered equivalent.
Equivalent modes share a parser, and a set of override methods.
Setup from the BNF code generator.  A value of nil means that
the current major mode is the only one.")
(make-variable-buffer-local 'semantic-equivalent-major-modes)

;;; Utility API functions
;;
;; These functions use the flex and bovination engines to perform some
;; simple tasks useful to other programs.  These are just the most
;; critical entries.
(defun semantic-token-type (token)
  "Retrieve the type of TOKEN."
  (if (member (semantic-token-token token)
	      '(function variable type))
      (nth 2 token)))

(defmacro semantic-token-type-parts (token)
  "Retrieve the parts of the type TOKEN."
  `(nth 3 ,token))

(defmacro semantic-token-type-parent (token)
  "Retrieve the parent of the type TOKEN.
The return value is a list.  A value of nil means no parents.
The `car' of the list is either the parent class, or a list
of parent classes.  The `cdr' of the list is the list of
interfaces, or abstract classes which are parents of TOKEN."
  `(nth 4 ,token))

(defun semantic-token-type-parent-superclass (token)
  "Retrieve the parent superclasses of type type TOKEN."
  (let ((p (semantic-token-type-parent token)))
    (cond ((stringp (car p))
	   (list (car p)))
	  ((listp (car p))
	   (car p)))))

(defun semantic-token-type-parent-implement (token)
  "Retrieve the parent interfaces of type type TOKEN."
  (cdr (semantic-token-type-parent token)))

(defmacro semantic-token-type-extra-specs (token)
  "Retrieve extra specifications for the type TOKEN."
  `(nth 5 ,token))

(defmacro semantic-token-type-extra-spec (token spec)
  "Retrieve an extra specification for the type TOKEN.
SPEC is the symbol whose specification value to get."
  `(cdr (assoc ,spec (semantic-token-type-extra-specs ,token))))

(defmacro semantic-token-type-modifiers (token)
  "Retrieve modifiers for the type TOKEN."
  `(semantic-token-type-extra-spec ,token 'typemodifiers))

(defmacro semantic-token-function-args (token)
  "Retrieve the arguments of the function TOKEN."
  `(nth 3 ,token))

(defmacro semantic-token-function-extra-specs (token)
  "Retrieve extra specifications for the function TOKEN."
  `(nth 4 ,token))

(defmacro semantic-token-function-extra-spec (token spec)
  "Retrieve an extra specification for the function TOKEN.
SPEC is the symbol whose specification value to get."
  `(cdr (assoc ,spec (semantic-token-function-extra-specs ,token))))

(defmacro semantic-token-function-modifiers (token)
  "Retrieve modifiers for the function TOKEN."
  `(semantic-token-function-extra-spec ,token 'typemodifiers))

(defmacro semantic-token-function-throws (token)
  "The symbol string that a function can throws.
Determines if it is available based on the length of TOKEN."
  `(semantic-token-function-extra-spec ,token 'throws))

(defmacro semantic-token-function-parent (token)
  "The parent of the function TOKEN.
A function has a parent if it is a method of a class, and if the
function does not appear in body of it's parent class."
  `(semantic-token-function-extra-spec ,token 'parent))

(defmacro semantic-token-variable-default (token)
  "Retrieve the default value of the variable TOKEN."
  `(nth 3 ,token))

(defmacro semantic-token-variable-extra-specs (token)
  "Retrieve extra specifications for the variable TOKEN."
  `(nth 4 ,token))

(defmacro semantic-token-variable-extra-spec (token spec)
  "Retrieve an extra specification for the variable TOKEN.
SPEC is the symbol whose specification value to get."
  `(cdr (assoc ,spec (semantic-token-variable-extra-specs ,token))))

(defmacro semantic-token-variable-modifiers (token)
  "Retrieve modifiers for the variable TOKEN."
  `(semantic-token-variable-extra-spec ,token 'typemodifiers))

(defmacro semantic-token-variable-const (token)
  "Retrieve the status of constantness from the variable TOKEN."
  `(semantic-token-variable-extra-spec ,token 'const))

(defmacro semantic-token-variable-optsuffix (token)
  "Optional details if this variable has bit fields, or array dimentions.
Determines if it is available based on the length of TOKEN."
  `(semantic-token-variable-extra-spec ,token 'suffix))

(defmacro semantic-token-include-system (token)
 "Retrieve the flag indicating if the include TOKEN is a system include."
  `(nth 2 ,token))

(defun semantic-token-extra-spec (token spec)
  "Retrieve an extra specification for TOKEN.
SPEC is a symbol whose specification value to get.
This function can get extra specifications from any type of token.
Do not use the function if you know what type of token you are dereferencing.
Instead, use `semantic-token-variable-extra-spec',
`semantic-token-function-extra-spec', or  `semantic-token-type-extra-spec'."
  (let ((tt (semantic-token-token token)))
    (cond ((eq tt 'variable)
	   (semantic-token-variable-extra-spec token spec))
	  ((eq tt 'function)
	   (semantic-token-function-extra-spec token spec))
	  ((eq tt 'type)
	   (semantic-token-type-extra-spec token spec))
	  (t nil))))

(defmacro semantic-token-modifiers (token)
  "Retrieve modifiers for TOKEN.
If TOKEN is of an unknown type, then nil is returned."
  `(semantic-token-extra-spec ,token 'typemodifiers))

;;; Misc. utilities
;;
(defun semantic-map-buffers (fun)
  "Run function FUN for each Semantic enabled buffer found.
FUN does not have arguments.  When FUN is entered `current-buffer' is
the current Semantic enabled buffer found."
  (let ((bl (buffer-list))
        b)
    (while bl
      (setq b  (car bl)
            bl (cdr bl))
      (if (and (buffer-live-p b)
               (buffer-file-name b))
          (with-current-buffer b
            (if (semantic-active-p)
                (funcall fun)))))))

;; These semanticdb calls will throw warnings in the byte compiler.
;; Doing the right thing to make them available at compile time
;; really messes up the compilation sequence.
(defun semantic-file-token-stream (file &optional checkcache)
  "Return a token stream for FILE.
If it is loaded, return the stream after making sure it's ok.
If FILE is not loaded, check to see if `semanticdb' feature exists,
   and use it to get tokens from files not in memory.
If FILE is not loaded, and semanticdb is not available, find the file
   and parse it.
Optional argument CHECKCACHE is the same as that for
`semantic-bovinate-toplevel'."
  (if (get-file-buffer file)
      (save-excursion
	(set-buffer (get-file-buffer file))
	(semantic-bovinate-toplevel checkcache))
    ;; File not loaded
    (if (and (fboundp 'semanticdb-minor-mode-p)
	     (semanticdb-minor-mode-p))
	;; semanticdb is around, use it.
	(semanticdb-file-stream file)
      ;; Get the stream ourselves.
      (save-excursion
	(set-buffer (find-file-noselect file))
	(semantic-bovinate-toplevel checkcache)))))

;;; Searching by Position APIs
;;
;; These functions will find nonterminals based on a position.
(defun semantic-find-nonterminal-by-position (position streamorbuffer
						       &optional nomedian)
  "Find a nonterminal covering POSITION within STREAMORBUFFER.
POSITION is a number, or marker.  If NOMEDIAN is non-nil, don't do
the median calculation, and return nil."
  (save-excursion
    (if (markerp position) (set-buffer (marker-buffer position)))
    (let* ((stream (if (bufferp streamorbuffer)
		       (save-excursion
			 (set-buffer streamorbuffer)
			 (semantic-bovinate-toplevel))
		     streamorbuffer))
	   (prev nil)
	   (found nil))
      (while (and stream (not found))
	;; perfect fit
	(if (and (>= position (semantic-token-start (car stream)))
		 (<= position (semantic-token-end (car stream))))
	    (setq found (car stream))
	  ;; Median between to objects.
	  (if (and prev (not nomedian)
		   (>= position (semantic-token-end prev))
		   (<= position (semantic-token-start (car stream))))
	      (let ((median (/ (+ (semantic-token-end prev)
				  (semantic-token-start (car stream)))
			       2)))
		(setq found
		      (if (> position median)
			  (car stream)
			prev)))))
	;; Next!!!
	(setq prev (car stream)
	      stream (cdr stream)))
      found)))

(defun semantic-find-innermost-nonterminal-by-position
  (position streamorbuffer &optional nomedian)
  "Find a list of nonterminals covering POSITION within STREAMORBUFFER.
POSITION is a number, or marker.  If NOMEDIAN is non-nil, don't do
the median calculation, and return nil.
This function will find the topmost item, and recurse until no more
details are available of findable."
  (let* ((returnme nil)
	 (current (semantic-find-nonterminal-by-position
		   position streamorbuffer nomedian))
	 (nextstream (and current
			  (if (eq (semantic-token-token current) 'type)
			      (semantic-token-type-parts current)
			    nil))))
    (while nextstream
      (setq returnme (cons current returnme))
      (setq current (semantic-find-nonterminal-by-position
		     position nextstream nomedian))
      (setq nextstream (and current
			    (if (eq (semantic-token-token current) 'token)
				(semantic-token-type-parts current)
			      nil))))
    (nreverse (cons current returnme))))

(defun semantic-find-nonterminal-by-overlay (&optional positionormarker buffer)
  "Find all nonterminals covering POSITIONORMARKER by using overlays.
If POSITIONORMARKER is nil, use the current point.
Optional BUFFER is used if POSITIONORMARKER is a number, otherwise the current
buffer is used.  This finds all tokens covering the specified position
by checking for all overlays covering the current spot.  They are then sorted
from largest to smallest via the start location."
  (save-excursion
    (when positionormarker
      (if (markerp positionormarker)
	  (set-buffer (marker-buffer positionormarker))
	(if (bufferp buffer)
	    (set-buffer buffer))))
    (let ((ol (semantic-overlays-at (or positionormarker (point))))
	  (ret nil))
      (while ol
	(let ((tmp (semantic-overlay-get (car ol) 'semantic)))
	  (when tmp
	    (setq ret (cons tmp ret))))
	(setq ol (cdr ol)))
      (sort ret (lambda (a b) (< (semantic-token-start a)
				 (semantic-token-start b)))))))

(defun semantic-find-nonterminal-by-overlay-in-region (start end &optional buffer)
  "Find all nonterminals which exist in whole or in part between START and END.
Uses overlays to determine positin.
Optional BUFFER argument specifies the buffer to use."
  (save-excursion
    (if buffer (set-buffer buffer))
    (let ((ol (semantic-overlays-in start end))
	  (ret nil))
      (while ol
	(let ((tmp (semantic-overlay-get (car ol) 'semantic)))
	  (when tmp
	    (setq ret (cons tmp ret))))
	(setq ol (cdr ol)))
      (sort ret (lambda (a b) (< (semantic-token-start a)
				 (semantic-token-start b)))))))

(defun semantic-find-nonterminal-by-overlay-next (&optional start buffer)
  "Find the next nonterminal after START in BUFFER.
If START is in an overlay, find the token which starts next,
not the current token."
  (save-excursion
    (if buffer (set-buffer buffer))
    (if (not start) (setq start (point)))
    (let ((os start) (ol nil))
      (while (and os (< os (point-max)) (not ol))
	(setq os (semantic-overlay-next-change os))
	(when os
	  ;; Get overlays at position
	  (setq ol (semantic-overlays-at os))
	  ;; find the overlay that belongs to semantic
	  ;; and starts at the found position.
	  (while (and ol (listp ol))
	    (if (and (semantic-overlay-get (car ol) 'semantic)
		     (= (semantic-overlay-start (car ol)) os))
		(setq ol (car ol)))
	    (when (listp ol) (setq ol (cdr ol))))))
      ;; convert ol to a token
      (when ol
	(semantic-overlay-get ol 'semantic)))))

(defun semantic-find-nonterminal-by-overlay-prev (&optional start buffer)
  "Find the next nonterminal after START in BUFFER.
If START is in an overlay, find the token which starts next,
not the current token."
  (save-excursion
    (if buffer (set-buffer buffer))
    (if (not start) (setq start (point)))
    (let ((os start) (ol nil))
      (while (and os (> os (point-min)) (not ol))
	(setq os (semantic-overlay-previous-change os))
	(when os
	  ;; Get overlays at position
	  (setq ol (semantic-overlays-at os))
	  ;; find the overlay that belongs to semantic
	  ;; and starts at the found position.
	  (while (and ol (listp ol))
	    (if (and (semantic-overlay-get (car ol) 'semantic)
		     (= (semantic-overlay-start (car ol)) os))
		(setq ol (car ol)))
	    (when (listp ol) (setq ol (cdr ol))))))
      ;; convert ol to a token
      (when ol
	(semantic-overlay-get ol 'semantic)))))

(defun semantic-current-nonterminal ()
  "Return the current nonterminal in the current buffer.
If there are more than one in the same location, return the
smallest token."
  (car (nreverse (semantic-find-nonterminal-by-overlay))))

;;; Nonterminal regions and splicing
;;
;; This functionality is needed to take some set of dirty code,
;; and splice in new tokens after a partial reparse.

(defun semantic-change-function-mark-dirty  (start end length)
  "Run whenever a buffer controlled by `semantic-mode' changes.
Tracks when and how the buffer is re-parsed.
Argument START, END, and LENGTH specify the bounds of the change."
  (when (and (not semantic-toplevel-bovine-cache-check)
	     (not semantic-edits-are-safe))
    (let ((tl (condition-case nil
		  (nreverse (semantic-find-nonterminal-by-overlay-in-region
		   (1- start) (1+ end)))
		(error nil))))
      (if tl
	  (catch 'alldone
	    ;; Loop over the token list
	    (while tl
	      (cond
	       ;; If we are completely enclosed in this overlay.
	       ((and (> start (semantic-token-start (car tl)))
		     (< end (semantic-token-end (car tl))))
		(if (semantic-token-get (car tl) 'dirty)
		    nil
		  (add-to-list 'semantic-dirty-tokens (car tl))
		  (semantic-token-put (car tl) 'dirty t)
		  (condition-case nil
		      (run-hook-with-args 'semantic-dirty-token-hooks
					  (car tl) start end)
		    (error (if debug-on-error (debug)))))
		  (throw 'alldone t))
	       ;; If we cover the beginning or end of this item, we must
	       ;; reparse this object.  If there are more items coming, then postpone
	       ;; this till later.
	       ((not (cdr tl))
		(setq semantic-toplevel-bovine-cache-check t)
		(run-hooks 'semantic-reparse-needed-change-hook))
	       (t nil))
	      ;; next
	      (setq tl (cdr tl))))
	;; There was no hit, perhaps we need to reparse this intermediate area.
	(setq semantic-toplevel-bovine-cache-check t)
	)
      )))
;;
;; Properties set on the tokens are:
;;  dirty          - This token is dirty
;;  dirty-after    - This token, and the white space after it is dirty
;;  dirty-before   - This token, and the white space before it is dirty
;;  dirty-children - This token has children that are dirty.
;;
;; EXPERIMENTAL
(defsubst semantic-find-nearby-dirty-tokens (beg end)
  "Make a special kind of token for dirty whitespace.
Argument BEG and END is the region to find nearby tokens.
EXPERIMENTAL"
  (let ((prev (semantic-find-nonterminal-by-overlay-prev beg))
	(next (semantic-find-nonterminal-by-overlay-next end)))
    (if prev (semantic-token-put prev 'dirty-after t))
    (if next (semantic-token-put next 'dirty-before t))
    (list prev next)))

(defun semantic-set-tokens-dirty-in-region (beg end)
  "Mark the region between BEG and END as dirty.
This is done by finding tokens overlapping the region, and marking
them dirty.  Regions not covered by a token are then marked as
dirty-after, meaning the space after that area is dirty.
This function will be called in an after change hook, and must
be very fast.
EXPERIMENTAL"
  (let ((tromp (semantic-find-nonterminal-by-overlay-in-region beg end))
	(ttmp nil)
	)
    (if (not tromp)
	;; No tokens hit, setup a dirty region on the screen.
	(setq tromp nil) ;(semantic-get-dirty-token beg end))
      ;; First, mark all fully dirty tokens.
      (setq ttmp tromp)
      (while ttmp
	(and (> beg (semantic-token-start (car tromp)))
	     (< end (semantic-token-end (car tromp))))

	)
	)))


;;; Generalized nonterminal searching
;;
;; These functions will search through nonterminal lists explicity for
;; desired information.

;; The -by-name nonterminal search can use the built in fcn
;; `assoc', which is faster than looping ourselves, so we will
;; not use `semantic-find-nonterminal-by-function' to do this,
;; instead erroring on the side of speed.
(defun semantic-find-nonterminal-by-name
  (name streamorbuffer &optional search-parts search-include)
  "Find a nonterminal NAME within STREAMORBUFFER.  NAME is a string.
If SEARCH-PARTS is non-nil, search children of tokens.
If SEARCH-INCLUDE is non-nil, search include files."
  (let* ((stream (if (bufferp streamorbuffer)
		     (save-excursion
		       (set-buffer streamorbuffer)
		       (semantic-bovinate-toplevel))
		   streamorbuffer))
         (assoc-fun (if semantic-case-fold
                        #'assoc-ignore-case
                      #'assoc))
	 (m (funcall assoc-fun name stream)))
    (if m
	m
      (let ((toklst stream)
	    (children nil))
	(while (and (not m) toklst)
	  (if search-parts
	      (progn
		(setq children (semantic-nonterminal-children (car toklst) t))
		(if children
		    (setq m (semantic-find-nonterminal-by-name
			     name children search-parts search-include)))))
	  (setq toklst (cdr toklst)))
	(if (not m)
	    ;; Go to dependencies, and search there.
	    nil)
	m))))

(defmacro semantic-find-nonterminal-by-token
  (token streamorbuffer &optional search-parts search-includes)
  "Find all nonterminals with a token TOKEN within STREAMORBUFFER.
TOKEN is a symbol representing the type of the tokens to find.
Optional argument SEARCH-PARTS and SEARCH-INCLUDE are passed to
`semantic-find-nonterminal-by-function'."
  `(semantic-find-nonterminal-by-function
    (lambda (tok) (eq ,token (semantic-token-token tok)))
    ,streamorbuffer ,search-parts ,search-includes))

(defmacro semantic-find-nonterminal-standard
  (streamorbuffer &optional search-parts search-includes)
  "Find all nonterminals in STREAMORBUFFER which define simple token types.
Optional argument SEARCH-PARTS and SEARCH-INCLUDE are passed to
`semantic-find-nonterminal-by-function'."
  `(semantic-find-nonterminal-by-function
    (lambda (tok) (member tok '(function variable type)))
    ,streamorbuffer ,search-parts ,search-includes))

(defvar semantic-default-built-in-types nil
  "For a given language, a set of built-in types.")
(make-variable-buffer-local 'semantic-default-built-in-types)

(defun semantic-find-nonterminal-by-type
  (type streamorbuffer &optional search-parts search-includes)
  "Find all nonterminals with type TYPE within STREAMORBUFFER.
TYPE is a string which is the name of the type of the token returned.
Optional argument SEARCH-PARTS and SEARCH-INCLUDES are passed to
`semantic-find-nonterminal-by-function'."
  (if (member type semantic-default-built-in-types)
      (list (list type 'type "built in"))
    (semantic-find-nonterminal-by-function
     (lambda (tok)
       (let ((ts (semantic-token-type tok)))
	 (if (and (listp ts) (eq (semantic-token-token ts) 'type))
	     (setq ts (semantic-token-name ts)))
	 (equal type ts)))
     streamorbuffer search-parts search-includes)))

(defun semantic-find-nonterminal-by-type-regexp
  (regexp streamorbuffer &optional search-parts search-includes)
  "Find all nonterminals with type matching REGEXP within STREAMORBUFFER.
REGEXP is a regular expression  which matches the  name of the type of the
tokens returned.
Optional argument SEARCH-PARTS and SEARCH-INCLUDES are passed to
`semantic-find-nonterminal-by-function'."
  (semantic-find-nonterminal-by-function
   (lambda (tok)
     (let ((ts (semantic-token-type tok)))
       (if (listp ts)
	   (setq ts
		 (if (eq (semantic-token-token ts) 'type)
		     (semantic-token-name ts)
		   (car ts))))
       (and ts (string-match regexp ts))))
   streamorbuffer search-parts search-includes))

(defmacro semantic-find-nonterminal-by-name-regexp
  (regex streamorbuffer &optional search-parts search-includes)
  "Find all nonterminals whose name match REGEX in STREAMORBUFFER.
Optional argument SEARCH-PARTS and SEARCH-INCLUDES are passed to
`semantic-find-nonterminal-by-function'."
  `(semantic-find-nonterminal-by-function
    (lambda (tok) (string-match ,regex (semantic-token-name tok)))
    ,streamorbuffer ,search-parts ,search-includes)
  )

(defmacro semantic-find-nonterminal-by-property
  (property value streamorbuffer &optional search-parts search-includes)
  "Find all nonterminals with PROPERTY equal to VALUE in STREAMORBUFFER.
Properties can be added with `semantic-token-put'.
Optional argument SEARCH-PARTS and SEARCH-INCLUDES are passed to
`semantic-find-nonterminal-by-function'."
  `(semantic-find-nonterminal-by-function
   (lambda (tok) (equal (semantic-token-get tok ,property) ,value))
   ,streamorbuffer ,search-parts ,search-includes)
  )

(defmacro semantic-find-nonterminal-by-extra-spec
  (spec streamorbuffer &optional search-parts search-includes)
  "Find all nonterminals with a given SPEC in STREAMORBUFFER.
SPEC is a symbol key into the modifiers association list.
Optional argument SEARCH-PARTS and SEARCH-INCLUDES are passed to
`semantic-find-nonterminal-by-function'."
  `(semantic-find-nonterminal-by-function
    (lambda (tok) (semantic-token-extra-spec tok ,spec))
    ,streamorbuffer ,search-parts ,search-includes)
  )

(defmacro semantic-find-nonterminal-by-extra-spec-value
  (spec value streamorbuffer &optional search-parts search-includes)
  "Find all nonterminals with a given SPEC equal to VALUE in STREAMORBUFFER.
SPEC is a symbol key into the modifiers association list.
VALUE is the value that SPEC should match.
Optional argument SEARCH-PARTS and SEARCH-INCLUDES are passed to
`semantic-find-nonterminal-by-function'."
  `(semantic-find-nonterminal-by-function
    (lambda (tok) (equal (semantic-token-extra-spec tok ,spec) ,value))
    ,streamorbuffer ,search-parts ,search-includes)
  )

(defun semantic-find-nonterminal-by-function
  (function streamorbuffer &optional search-parts search-includes)
  "Find all nonterminals in which FUNCTION match within STREAMORBUFFER.
FUNCTION must return non-nil if an element of STREAM will be included
in the new list.

If optional argument SEARCH-PARTS is non-nil, all sub-parts of tokens
are searched.  The overloadable function `semantic-nonterminal-children' is
used for the searching child lists.  If SEARCH-PARTS is the symbol
'positiononly, then only children that have positional information are
searched.

If SEARCH-INCLUDES is non-nil, then all include files are also
searched for matches."
  (let ((streamlist (list
		     (if (bufferp streamorbuffer)
			 (save-excursion
			   (set-buffer streamorbuffer)
			   (semantic-bovinate-toplevel))
		       streamorbuffer)))
	(includes nil)			;list of includes
	(stream nil)			;current stream
	(sl nil)			;list of token children
	(nl nil)			;new list
        (case-fold-search semantic-case-fold))
    (if search-includes
	(setq includes (semantic-find-nonterminal-by-token
			'include (car streamlist))))
    (while streamlist
      (setq stream (car streamlist))
      (while stream
	(if (funcall function (car stream))
	    (setq nl (cons (car stream) nl)))
	(if search-parts
	    (progn
	      (setq sl (semantic-nonterminal-children
			(car stream)
			t
			))
	      (if sl
		  (setq nl (append nl (semantic-find-nonterminal-by-function
				       function sl
				       search-parts search-includes))))))
	;; next token
	(setq stream (cdr stream)))
      (setq streamlist (cdr streamlist)))
    (setq nl (nreverse nl))
;    (while includes
;      (setq nl (append nl (semantic-find-nonterminal-by-function
;			   
;			   ))))
    nl))

(defun semantic-find-nonterminal-by-function-first-match
  (function streamorbuffer &optional search-parts search-includes)
  "Find the first nonterminal which FUNCTION match within STREAMORBUFFER.
FUNCTION must return non-nil if an element of STREAM will be included
in the new list.
If optional argument SEARCH-PARTS, all sub-parts of tokens are searched.
The overloadable function `semantic-nonterminal-children' is used for
searching.
If SEARCH-INCLUDES is non-nil, then all include files are also
searched for matches."
  (let ((stream (if (bufferp streamorbuffer)
		     (save-excursion
		       (set-buffer streamorbuffer)
		       (semantic-bovinate-toplevel))
		   streamorbuffer))
	(found nil)
        (case-fold-search semantic-case-fold))
    (while (and (not found) stream)
      (if (funcall function (car stream))
	  (setq found (car stream)))
      (setq stream (cdr stream)))
    found))

;;; Bucketizing: Take and convert the tokens based on type.
;;
(defun semantic-bucketize (tokens &optional filter)
  "Sort TOKENS into a group of buckets based on token type.
Unknown types are placed in a Misc bucket.
The buckets will be organized into a form usable by `semantic-sb-buttons'.
Optional argument FILTER is a filter function to be applied to each bucket.
The filter function will take one argument, which is a list of tokens, and
may re-organize the list with side-effects."
  (let ((bins (make-vector (1+ (length semantic-symbol->name-assoc-list)) nil))
	ask toktype
	(sn semantic-symbol->name-assoc-list)
	(nsn nil)
	(num 1)
	(out nil))
    ;; Build up the bucket vector
    (while sn
      (setq nsn (cons (cons (car (car sn)) num) nsn)
	    sn (cdr sn)
	    num (1+ num)))
    ;; Place into buckets
    (while tokens
      (setq toktype (semantic-token-token (car tokens))
	    ask (assq toktype nsn)
	    num (or (cdr ask) 0))
      (aset bins num (cons (car tokens) (aref bins num)))
      (setq tokens (cdr tokens)))
    ;; Remove from buckets into a list.
    (setq num 1)
    (while (< num (length bins))
      (when (aref bins num)
	(setq out
	      (cons (cons
		     (cdr (nth (1- num) semantic-symbol->name-assoc-list))
		     ;; Filtering, First hacked by David Ponce david@dponce.com
		     (funcall (or filter 'nreverse) (aref bins num)))
		    out)))
      (setq num (1+ num)))
    (if (aref bins 0)
	(setq out (cons (cons "Misc"
			      (funcall (or filter 'nreverse) (aref bins 0)))
			out)))
    (nreverse out)))

;; Some sorting functions
(defun semantic-string-lessp-ci (s1 s2)
  "Case insensitive version of `string-lessp'."
  ;; Use downcase instead of upcase because an average name
  ;; has more lower case characters.
  (string-lessp (downcase s1) (downcase s2)))

(defun semantic-sort-token-type (token)
  "Return a type string for TOKEN guaranteed to be a string."
  (let ((ty (semantic-token-type token)))
    (cond ((stringp ty)
	   ty)
	  ((listp ty)
	   (or (car ty) ""))
	  (t ""))))

(defun semantic-sort-tokens-by-name-increasing (tokens)
  "Sort TOKENS by name in increasing order with side effects.
Return the sorted list."
  (sort tokens (lambda (a b)
		 (string-lessp (semantic-token-name a)
			       (semantic-token-name b)))))

(defun semantic-sort-tokens-by-name-decreasing (tokens)
  "Sort TOKENS by name in decreasing order with side effects.
Return the sorted list."
  (sort tokens (lambda (a b)
		 (string-lessp (semantic-token-name b)
			       (semantic-token-name a)))))

(defun semantic-sort-tokens-by-type-increasing (tokens)
  "Sort TOKENS by type in increasing order with side effects.
Return the sorted list."
  (sort tokens (lambda (a b)
		 (string-lessp (semantic-sort-token-type a)
			       (semantic-sort-token-type b)))))

(defun semantic-sort-tokens-by-type-decreasing (tokens)
  "Sort TOKENS by type in decreasing order with side effects.
Return the sorted list."
  (sort tokens (lambda (a b)
		 (string-lessp (semantic-sort-token-type b)
			       (semantic-sort-token-type a)))))

(defun semantic-sort-tokens-by-name-increasing-ci (tokens)
  "Sort TOKENS by name in increasing order with side effects.
Return the sorted list."
  (sort tokens (lambda (a b)
		 (semantic-string-lessp-ci (semantic-token-name a)
					   (semantic-token-name b)))))

(defun semantic-sort-tokens-by-name-decreasing-ci (tokens)
  "Sort TOKENS by name in decreasing order with side effects.
Return the sorted list."
  (sort tokens (lambda (a b)
		 (semantic-string-lessp-ci (semantic-token-name b)
					   (semantic-token-name a)))))

(defun semantic-sort-tokens-by-type-increasing-ci (tokens)
  "Sort TOKENS by type in increasing order with side effects.
Return the sorted list."
  (sort tokens (lambda (a b)
		 (semantic-string-lessp-ci (semantic-sort-token-type a)
					   (semantic-sort-token-type b)))))

(defun semantic-sort-tokens-by-type-decreasing-ci (tokens)
  "Sort TOKENS by type in decreasing order with side effects.
Return the sorted list."
  (sort tokens (lambda (a b)
		 (semantic-string-lessp-ci (semantic-sort-token-type b)
					   (semantic-sort-token-type a)))))

;;; Recursive searching through dependency trees
;;
;; This will depend on the general searching APIS defined above.
;; but will add full recursion through the dependencies list per
;; stream.
(defun semantic-recursive-find-nonterminal-by-name (name buffer)
  "Recursivly find the first occurance of NAME.
Start search with BUFFER.  Recurse through all dependencies till found.
The return item is of the form (BUFFER TOKEN) where BUFFER is the buffer
in which TOKEN (the token found to match NAME) was found."
  (save-excursion
    (set-buffer buffer)
    (let* ((stream (semantic-bovinate-toplevel))
	   (includelist (or (semantic-find-nonterminal-by-token 'include stream)
			    "empty.silly.thing"))
	   (found (semantic-find-nonterminal-by-name name stream))
	   (unfound nil))
      (while (and (not found) includelist)
	(let ((fn (semantic-find-dependency (car includelist))))
	  (if (and fn (not (member fn unfound)))
	      (save-excursion
		(set-buffer (find-file-noselect fn))
		(message "Scanning %s" (buffer-file-name))
		(setq stream (semantic-bovinate-toplevel))
		(setq found (semantic-find-nonterminal-by-name name stream))
		(if found
		    (setq found (cons (current-buffer) (list found)))
		  (setq includelist
			(append includelist
				(semantic-find-nonterminal-by-token
				 'include stream))))
		(setq unfound (cons fn unfound)))))
	(setq includelist (cdr includelist)))
      found)))
  
;;; Completion APIs
;;
;; These functions provide minibuffer reading/completion for lists of
;; nonterminals.
(defvar semantic-read-symbol-history nil
  "History for a symbol read.")

(defun semantic-read-symbol (prompt &optional default stream filter)
  "Read a symbol name from the user for the current buffer.
PROMPT is the prompt to use.
Optional arguments:
DEFAULT is the default choice.  If no default is given, one is read
from under point.
STREAM is the list of tokens to complete from.
FILTER is provides a filter on the types of things to complete.
FILTER must be a function to call on each element."
  (if (not default) (setq default (thing-at-point 'symbol)))
  (if (not stream) (setq stream (semantic-bovinate-toplevel)))
  (setq stream
	(if filter
	    (semantic-find-nonterminal-by-function filter stream)
	  (semantic-find-nonterminal-standard stream)))
  (if (and default (string-match ":" prompt))
      (setq prompt
	    (concat (substring prompt 0 (match-end 0))
		    " (default: " default ") ")))
  (completing-read prompt stream nil t ""
		   'semantic-read-symbol-history
		   default))

(defun semantic-read-variable (prompt &optional default stream)
  "Read a variable name from the user for the current buffer.
PROMPT is the prompt to use.
Optional arguments:
DEFAULT is the default choice.  If no default is given, one is read
from under point.
STREAM is the list of tokens to complete from."
  (semantic-read-symbol
   prompt default (semantic-find-nonterminal-by-type 'variable stream)))

(defun semantic-read-function (prompt &optional default stream)
  "Read a function name from the user for the current buffer.
PROMPT is the prompt to use.
Optional arguments:
DEFAULT is the default choice.  If no default is given, one is read
from under point.
STREAM is the list of tokens to complete from."
  (semantic-read-symbol
   prompt default (semantic-find-nonterminal-by-type 'function stream)))

(defun semantic-read-type (prompt &optional default stream)
  "Read a type name from the user for the current buffer.
PROMPT is the prompt to use.
Optional arguments:
DEFAULT is the default choice.  If no default is given, one is read
from under point.
STREAM is the list of tokens to complete from."
  (semantic-read-symbol
   prompt default (semantic-find-nonterminal-by-type 'type stream)))

;;; Behavioral APIs
;;
;; Each major mode will want to support a specific set of behaviors.
;; Usually generic behaviors that need just a little bit of local
;; specifics.  This section permits the setting of override functions
;; for tasks of that nature, and also provides reasonable defaults.

(defvar semantic-override-table nil
  "Buffer local semantic function overrides obarray.
These overrides provide a hook for a `major-mode' to override specific
behaviors with respect to generated semantic toplevel nonterminals and
things that these non-terminals are useful for.  Use the function
`semantic-install-function-overrides' to install overrides.

Available override symbols:

  SYBMOL                  PARAMETERS         DESCRIPTION
 `abbreviate-nonterminal' (tok & parent color)        Return summary string.
 `summarize-nonterminal'  (tok & parent color)        Return summary string.
 `prototype-nonterminal'  (tok & parent color)        Return a prototype string.
 `concise-prototype-nonterminal' (tok & parent color) Return a concise prototype string.
 `uml-abbreviate-nonterminal' (tok & parent color)    Return a UML standard abbreviation string.

 `find-dependency'        (token)            Find the dependency file
 `find-nonterminal'       (token & parent)   Find token in buffer.
 `find-documentation'     (token & nosnarf)  Find doc comments.
 `prototype-file'         (buffer)           Return a file in which
 	                                     prototypes are placed
 `nonterminal-children'   (token)            Return first rate children.
					     These are children which may
					     contain overlays.
 `nonterminal-protection' (token & parent)   Protection (as a symbol)

  CONTEXT FUNCTIONS:
 `beginning-of-context'   (& point)          Move to the beginning of the
					     current context.
 `end-of-context'         (& point)          Move to the end of the
					     current context.
 `up-context'             (& point)          Move up one context level.
 `get-local-variables'    (& point)          Get local variables.
 `get-all-local-variables'(& point)          Get all local variables.
 `get-local-arguments'    (& point)          Get arguments to this function.

 `end-of-command'                            Move to the end of the current
                                             command
 `beginning-of-command'                      Move to the beginning of the
                                             current command
 `ctxt-current-symbol'    (& point)          List of related symbols.
 `ctxt-current-assignment'(& point)          Variable being assigned to.
 `ctxt-current-function'  (& point)          Function being called at point.
 `ctxt-current-argument'  (& point)          The index to the argument of
                                             the current function the cursor
                                             is in.

Parameters mean:

  &      - Following parameters are optional
  buffer - The buffer in which a token was found.
  token  - The nonterminal token we are doing stuff with
  parent - If a TOKEN is stripped (of positional infomration) then
           this will be the parent token which should have positional
           information in it.")
(make-variable-buffer-local 'semantic-override-table)

(defun semantic-install-function-overrides (overrides &optional transient)
  "Install function OVERRIDES in `semantic-override-table'.
If optional TRANSIENT is non-nil installed overrides can in turn be
overridden by next installation.  OVERRIDES must be an alist.  Each
element must be of the form: (SYM . FUN) where SYM is the symbol to
override, and FUN is the function to override it with."
  (if (not (arrayp semantic-override-table))
      (setq semantic-override-table (make-vector 13 nil)))
  (let (sym sym-name fun override)
    (while overrides
      (setq override  (car overrides)
            overrides (cdr overrides)
            sym-name  (symbol-name (car override))
            fun       (cdr override))
      (if (setq sym (intern-soft sym-name semantic-override-table))
          (if (get sym 'override)
              (set sym fun)
            (or (equal (symbol-value sym) fun)
                (message "Current `%s' function #'%s not overrode by #'%s"
                         sym (symbol-value sym) fun)))
        (setq sym (intern sym-name semantic-override-table))
        (set sym fun))
      (put sym 'override transient))))

(defun semantic-fetch-overload (sym)
  "Find and return the overload function for SYM.
Return nil if not found."
  (symbol-value
   (and (arrayp semantic-override-table)
        (intern-soft (symbol-name sym) semantic-override-table))))

;;; Token to text overload functions
;;
;; Abbreviations, prototypes, and coloring support.
(eval-when-compile (require 'font-lock))

(defvar semantic-token->text-functions
  '(semantic-name-nonterminal
    semantic-abbreviate-nonterminal
    semantic-summarize-nonterminal
    semantic-prototype-nonterminal
    semantic-concise-prototype-nonterminal
    semantic-uml-abbreviate-nonterminal
    semantic-uml-prototype-nonterminal
    )
  "List of functions which convert a token to text.
Each function must take the parameters TOKEN &optional PARENT COLOR.
TOKEN is the token to convert.
PARENT is a parent token or name which refers to the structure
or class which contains TOKEN.  PARENT is NOT a class which a TOKEN
would claim as a parent.
COLOR indicates that the generated text should be colored using
`font-lock'.")

(defvar semantic-token->text-custom-list
  (append '(radio)
	  (mapcar (lambda (f) (list 'const f))
		  semantic-token->text-functions)
	  '(function))
  "A List used by customizeable variables to choose a token to text function.
Use this variable in the :type field of a customizable variable.")


(defvar semantic-face-alist
  `( (function . font-lock-function-name-face)
     (variable . font-lock-variable-name-face)
     (type . font-lock-type-face)
     ;; These are different between Emacsen.
     (include . ,(if (featurep 'xemacs)
		     'font-lock-preprocessor-face
		   'font-lock-constant-face))
     (package . ,(if (featurep 'xemacs)
		     'font-lock-preprocessor-face
		   'font-lock-constant-face))
     ;; Not a token, but instead a feature of output
     (label . font-lock-string-face)
     (comment . font-lock-comment-face)
     (keyword . font-lock-keyword-face)
     )
  "Face used to colorize tokens of different types.
Override the value locally if a language supports other token types.
When adding new elements, try to use symbols also returned by the parser.
The form of an entry in this list is of the form:
 ( SYMBOL .  FACE )
where SYMBOL is a token type symbol used with semantic.  FACE
is a symbol representing a face.
Faces used are generated in `font-lock' for consistency, and will not
be used unless font lock is a feature.")

;;; Coloring Functions
(defun semantic-colorize-text (text face-class)
  "Apply onto TEXT a color associated with FACE-CLASS.
FACE-CLASS is a token type found in `semantic-face-alist'.  See this variable
for details on adding new types."
  (let ((face (cdr-safe (assoc face-class semantic-face-alist)))
	(newtext (concat text)))
    (put-text-property 0 (length text) 'face face newtext)
    newtext)
  )

;;; The token->text functions
(defun semantic-name-nonterminal (token &optional parent color)
  "Return the name string describing TOKEN.
The name is the shortest possible representation.
Optional argument PARENT is the parent type if TOKEN is a detail.
Optional argument COLOR means highlight the prototype with font-lock colors."
  (let ((s (semantic-fetch-overload 'name-nonterminal))
	tt)
    ;; No colors without font lock
    (if (not (featurep 'font-lock)) (setq color nil))
    (if s
	(funcall s token parent color)
      (semantic-name-nonterminal-default token parent color))))

(defun semantic-name-nonterminal-default (token &optional parent color)
  "Return an abbreviated string describing TOKEN.
Optional argument PARENT is the parent type if TOKEN is a detail.
Optional argument COLOR means highlight the prototype with font-lock colors."
  (let ((name (semantic-token-name token)))
    (if color
	(setq name (semantic-colorize-text name (semantic-token-token token))))
    name))

(defun semantic-abbreviate-nonterminal (token &optional parent color)
  "Return an abbreviated string describing TOKEN.
The abbreviation is to be short, with possible symbols indicating
the type of token, or other information.
Optional argument PARENT is the parent type if TOKEN is a detail.
Optional argument COLOR means highlight the prototype with font-lock colors."
  (let ((s (semantic-fetch-overload 'abbreviate-nonterminal)))
    ;; No colors without font lock
    (if (not (featurep 'font-lock)) (setq color nil))
    (if s
	(funcall s token parent color)
      (semantic-abbreviate-nonterminal-default token parent color))))

(defun semantic-abbreviate-nonterminal-default (token &optional parent color)
  "Return an abbreviated string describing TOKEN.
Optional argument PARENT is a parent token in the token hierarchy.
In this case PARENT refers to containment, not inheritance.
Optional argument COLOR means highlight the prototype with font-lock colors.
This is a simple C like default."
  ;; Do lots of complex stuff here.
  (let ((tok (semantic-token-token token))
	(name (semantic-name-nonterminal token parent color))
	(suffix "")
	str)
    (cond ((eq tok 'function)
	   (setq suffix "()"))
	  ((eq tok 'include)
	   (setq suffix "<>"))
	  ((eq tok 'variable)
	   (setq suffix (if (semantic-token-variable-default token)
			    "=" "")))
	  )
    (setq str (concat name suffix))
    (if parent
	(setq str
	      (concat (semantic-name-nonterminal parent color)
		      (car semantic-type-relation-separator-character)
		      str)))
    str))

;; Semantic 1.2.x had this misspelling.  Keep it for backwards compatibiity.
(defalias 'semantic-summerize-nonterminal 'semantic-summarize-nonterminal)

(defun semantic-summarize-nonterminal (token &optional parent color)
  "Summarize TOKEN in a reasonable way.
Optional argument PARENT is the parent type if TOKEN is a detail.
Optional argument COLOR means highlight the prototype with font-lock colors."
  (let ((s (semantic-fetch-overload 'summarize-nonterminal)))
    ;; No colors without font lock
    (if (not (featurep 'font-lock)) (setq color nil))
    (if s
	(funcall s token parent color)
      (semantic-summarize-nonterminal-default token parent color)
      )))

(defun semantic-summarize-nonterminal-default (token &optional parent color)
  "Summarize TOKEN in a reasonable way.
Optional argument PARENT is the parent type if TOKEN is a detail.
Optional argument COLOR means highlight the prototype with font-lock colors."
  (let ((proto (semantic-prototype-nonterminal token nil color))
	(label (capitalize
		(or (cdr-safe (assoc (semantic-token-token token)
				     semantic-symbol->name-assoc-list))
		    (symbol-name (semantic-token-token token))))))
    (if color
	(setq label (semantic-colorize-text label 'label)))
    (concat label ": " proto))
  )

(defun semantic-prototype-nonterminal (token &optional parent color)
  "Return a prototype for TOKEN.
This function should be overloaded, though it need not be used.
This is because it can be used to create code by language independent
tools.
Optional argument PARENT is the parent type if TOKEN is a detail.
Optional argument COLOR means highlight the prototype with font-lock colors."
  (let ((s (semantic-fetch-overload 'prototype-nonterminal)))
    ;; No colors without font lock
    (if (not (featurep 'font-lock)) (setq color nil))
    (if s
	;; Prototype is non-local
	(funcall s token parent color)
      (semantic-prototype-nonterminal-default token parent color))))

(defun semantic-prototype-nonterminal-default-args (args color)
  "Create a list of of strings for prototypes of ARGS.
ARGS can be a list of terminals, or a list of strings.
COLOR specifies if these arguments should be colored or not."
  (let ((out nil))
    (while args
      (cond ((stringp (car args))
	     (let ((a (car args)))
	       (if color
		   (setq a (semantic-colorize-text a 'variable)))
	       (setq out (cons a out))
	       ))
	    ((semantic-token-p (car args))
	     (setq out
		   (cons (semantic-prototype-nonterminal (car args) nil t)
			 out))))
      (setq args (cdr args)))
    (nreverse out)))

(defun semantic-prototype-nonterminal-default (token &optional parent color)
  "Default method for returning a prototype for TOKEN.
This will work for C like languages.
Optional argument PARENT is the parent type if TOKEN is a detail.
Optional argument COLOR means highlight the prototype with font-lock colors."
  (let* ((tok (semantic-token-token token))
	 (name (semantic-name-nonterminal token parent color))
	 (type (if (member tok '(function variable type))
		   (semantic-token-type token)))
	 (args (semantic-prototype-nonterminal-default-args
		(cond ((eq tok 'function)
		       (semantic-token-function-args token))
		      ((eq tok 'type)
		       (semantic-token-type-parts token))
		      (t nil))
		color))
	 (const (semantic-token-extra-spec token 'const))
	 (mods (append
		(if const '("const") nil)
		(semantic-token-extra-spec token 'typemodifiers)))
	 (array (if (eq tok 'variable)
		    (let ((deref
			   (semantic-token-variable-extra-spec
			    token 'dereference))
			  (r ""))
		      (while (and deref (/= deref 0))
			(setq r (concat r "[]")
			      deref (1- deref)))
		      r)))
	 (suffix (if (eq tok 'variable)
		     (semantic-token-variable-extra-spec token 'suffix)))
	 )
    (if (and (listp mods) mods)
	(setq mods (concat (mapconcat (lambda (a) a) mods " ") " ")))
    (if (and mods color)
	(setq mods (semantic-colorize-text mods 'type)))
    (if args
	(setq args
	      (concat " "
		      (if (eq tok 'type) "{" "(")
		      (mapconcat (lambda (a) a) args ",")
		      (if (eq tok 'type) "}" ")"))))
    (if type
	(if (semantic-token-p type)
	    (setq type (semantic-prototype-nonterminal type nil color))
	  (if (listp type)
	      (setq type (car type)))
	  (if color
	      (setq type (semantic-colorize-text type 'type)))))
    (concat (or mods "")
	    (if type (concat type " "))
	    name
	    (or args "")
	    (or array ""))))

(defun semantic-concise-prototype-nonterminal (token &optional parent color)
  "Return a concise prototype for TOKEN.
Optional argument PARENT is the parent type if TOKEN is a detail.
Optional argument COLOR means highlight the prototype with font-lock colors."
  (let ((s (semantic-fetch-overload 'concise-prototype-nonterminal)))
    (if s
	(funcall s token parent color)
      (semantic-concise-prototype-nonterminal-default token parent color))))

(defun semantic-concise-prototype-nonterminal-default (token &optional parent color)
  "Return a concise prototype for TOKEN.
This default function will make a cheap concise prototype using C like syntax.
Optional argument PARENT is the parent type if TOKEN is a detail.
Optional argument COLOR means highlight the prototype with font-lock colors."
  (let ((tok (semantic-token-token token)))
    (cond
     ((eq tok 'type)
      (concat (semantic-name-nonterminal token parent color) "{}"))
     ((eq tok 'function)
      (let ((args (semantic-token-function-args token)))
        (concat (semantic-name-nonterminal token parent color)
                "("
                (if args
                    (cond ((stringp (car args))
			   (mapconcat
			    (if color
				(lambda (a) (semantic-colorize-text
					     a 'variable))
			      'identity)
			    args ","))
			  ((semantic-token-p (car args))
			   (mapconcat
			    (lambda (a)
			      (let ((ty (semantic-token-type a)))
				(cond ((and (stringp ty) color)
				       (semantic-colorize-text ty 'type))
				      ((stringp ty)
				       ty)
				      ((semantic-token-p ty)
				       (semantic-prototype-nonterminal
					ty parent nil))
				      ((and (consp ty) color)
				       (semantic-colorize-text (car ty) 'type))
				      ((consp ty)
				       (car ty))
				      (t (error "Concice-prototype")))))
			    args ", "))
			  ((consp (car args))
			   (mapconcat
			    (if color
				(lambda (a)
				  (semantic-colorize-text (car a) 'type))
			      'car)
			    args ","))
			  (t (error "Concice-prototype")))
                  "")
                ")")))
     ((eq tok 'variable)
      (let* ((deref (semantic-token-variable-extra-spec
                     token 'dereference))
             (array "")
             (suffix (semantic-token-variable-extra-spec
                      token 'suffix)))
        (while (and deref (/= deref 0))
          (setq array (concat array "[]")
                deref (1- deref)))
        (concat (semantic-name-nonterminal token parent nil)
                array)))
     (t
      (semantic-abbreviate-nonterminal token parent nil)))))

(defun semantic-uml-protection-to-string (protection-symbol)
  "Convert PROTECTION-SYMBOL to a string for UML."
  (cond ((eq protection-symbol 'public)
	 "+")
	((eq protection-symbol 'private)
	 "-")
	((eq protection-symbol 'protected)
	 "#")
	(t " ")))

(defun semantic-uml-abbreviate-nonterminal (token &optional parent color)
  "Return a UML style abbreviation for TOKEN.
Optional argument PARENT is the parent type if TOKEN is a detail.
Optional argument COLOR means highlight the prototype with font-lock colors."
  (let ((s (semantic-fetch-overload 'uml-abbreviate-nonterminal)))
    (if s
	(funcall s token parent color)
      (semantic-uml-abbreviate-nonterminal-default token parent color))))

(defun semantic-uml-abbreviate-nonterminal-default (token &optional parent color)
  "Return a UML style abbreviation for TOKEN.
Optional argument PARENT is the parent type if TOKEN is a detail.
Optional argument COLOR means highlight the prototype with font-lock colors."
  (let* ((tok (semantic-token-token token))
	 (name (semantic-name-nonterminal token parent color))
	 (type (or (semantic-token-type token) ""))
	 (prot (semantic-nonterminal-protection token parent))
	 )
    (setq type
	  (cond ((semantic-token-p type)
		 (semantic-prototype-nonterminal type nil color))
		((listp type)
		 (car type))
		((stringp type)
		 type)
		(t nil)))
    (if (and type color)
	(setq type (semantic-colorize-text type 'type)))
    (setq prot (semantic-uml-protection-to-string prot))
    (if type
	(concat prot name ":" type)
      name)
    ))

(defun semantic-uml-prototype-nonterminal (token &optional parent color)
  "Return a UML style prototype for TOKEN.
Optional argument PARENT is the parent type if TOKEN is a detail.
Optional argument COLOR means highlight the prototype with font-lock colors."
  (let ((s (semantic-fetch-overload 'uml-prototype-nonterminal)))
    (if s
	(funcall s token parent color)
      (semantic-uml-prototype-nonterminal-default token parent color))))

(defun semantic-uml-prototype-nonterminal-default (token &optional parent color)
  "Return a UML style abbreviation for TOKEN.
Optional argument PARENT is the parent type if TOKEN is a detail.
Optional argument COLOR means highlight the prototype with font-lock colors."
  (let* ((tok (semantic-token-token token))
	 (name (semantic-name-nonterminal token parent color))
	 (type (or (semantic-token-type token) ""))
	 (args (semantic-prototype-nonterminal-default-args
		(cond ((eq tok 'function)
		       (semantic-token-function-args token))
		      (t nil))
		color))
	 (prot (semantic-nonterminal-protection token parent))
	 )
    (if type
	(if (semantic-token-p type)
	    (setq type (semantic-prototype-nonterminal type nil color))
	  (if (listp type)
	      (setq type (car type)))
	  (if color
	      (setq type (semantic-colorize-text type 'type)))))
    (setq prot (semantic-uml-protection-to-string prot))
    (if args
	(setq args
	      (concat " "
		      (if (eq tok 'type) "{" "(")
		      (mapconcat (lambda (a) a) args ",")
		      (if (eq tok 'type) "}" ")"))))
    (if type
	(concat prot name (or args "") ":" type)
      name)
    ))



;;; Multi-file Token information
;;
(defvar semantic-dependency-include-path nil
  "Defines the include path used when searching for files.
This should be a list of directories to search which is specific to
the file being included.
This variable can also be set to a single function.  If it is a
function, it will be called with one arguments, the file to find as a
string, and  it should return the full path to that file, or nil.")
(make-variable-buffer-local `semantic-dependency-include-path)

(defun semantic-find-dependency (&optional token)
  "Find the filename represented from TOKEN.
TOKEN may be a stripped element, in which case PARENT specifies a
parent token that has positinal information.
Depends on `semantic-dependency-include-path' for searching.  Always searches
`.' first, then searches additional paths."
  (if (not token)
      (setq token (car (semantic-find-nonterminal-by-overlay nil))))

  (if (not (eq (semantic-token-token token) 'include))
      (signal 'wrong-type-argument (list token 'include)))

  ;; First, see if this file exists in the current EDE projecy
  (if (and (fboundp 'ede-expand-filename) ede-minor-mode
	   (ede-expand-filename (ede-toplevel)
				(semantic-token-name token)))
      (ede-expand-filename (ede-toplevel)
			   (semantic-token-name token))
  
    (let ((s (semantic-fetch-overload 'find-dependency)))
      (if s (funcall s token)
	(save-excursion
	  (set-buffer (semantic-token-buffer token))
	  (let ((name (semantic-token-name token)))
	    (cond ((file-exists-p name)
		   (expand-file-name name))
		  ((and (symbolp semantic-dependency-include-path)
			(fboundp semantic-dependency-include-path))
		   (funcall semantic-dependency-include-path name))
		  (t
		   (let ((p semantic-dependency-include-path)
			 (found nil))
		     (while (and p (not found))
		       (if (file-exists-p (concat (car p) "/" name))
			   (setq found (concat (car p) "/" name)))
		       (setq p (cdr p)))
		     found)))))))))

(defun semantic-find-nonterminal (&optional token parent)
  "Find the location of TOKEN.
TOKEN may be a stripped element, in which case PARENT specifies a
parent token that has position information.
Different behaviors are provided depending on the type of token.
For example, dependencies (includes) will seek out the file that is
depended on, and functions will move to the specified definition."
  (if (not token)
      (setq token (car (semantic-find-nonterminal-by-overlay nil))))
  (if (and (eq (semantic-token-token token) 'include)
	   (let ((f (semantic-find-dependency token)))
	     (if f (find-file f))))
      nil
    (let ((s (semantic-fetch-overload 'find-nonterminal)))
      (if s (funcall s token parent)
	(if (semantic-token-buffer token)
	    ;; If the token has no buffer, it may be deoverlayed.
	    ;; Assume the tool doing the finding knows that we came
	    ;; in from a database, and use the current buffer.
	    (set-buffer (semantic-token-buffer token)))
	(if (semantic-token-with-position-p token)
	    ;; If it's a number, go there
	    (goto-char (semantic-token-start token))
	  ;; Otherwise, it's a trimmed vector, such as a parameter,
	  ;; or a structure part.
	  (if (not parent)
	      nil
	    (if (semantic-token-with-position-p parent)
		(progn
		  (if (semantic-token-buffer parent)
		      ;; If this parent token has no buffer, then it
		      ;; may be deoverlayed.
		      (set-buffer (semantic-token-buffer parent)))
		  (goto-char (semantic-token-start parent))
		  ;; Here we make an assumtion that the text returned by
		  ;; the bovinator and concocted by us actually exists
		  ;; in the buffer.
		  (re-search-forward (semantic-token-name token) nil t)))))))))

(defun semantic-find-documentation (&optional token nosnarf)
  "Find documentation from TOKEN and return it as a clean string.
TOKEN might have DOCUMENTATION set in it already.  If not, there may be
some documentation in a comment preceeding TOKEN's definition which we
cal look for.  When appropriate, this can be overridden by a language specific
enhancement.
Optional argument NOSNARF means to only return the flex token for it.
If nosnarf if 'flex, then only return the flex token."
  (if (not token)
      (setq token (car (semantic-find-nonterminal-by-overlay nil))))
  (let ((s (semantic-fetch-overload 'find-documentation)))
    (if s (funcall s token nosnarf)
      ;; No override.  Try something simple to find documentation nearby
      (save-excursion
	(set-buffer (semantic-token-buffer token))
	(semantic-find-nonterminal token)
	(or
	 ;; Is there doc in the token???
	 (if (semantic-token-docstring token)
	     (if (stringp (semantic-token-docstring token))
		 (semantic-token-docstring token)
	       (goto-char (semantic-token-docstring token))
	       (semantic-find-doc-snarf-comment nosnarf)))
	 ;; Check just before the definition.
	 (save-excursion
	   (re-search-backward comment-start-skip nil t)
	   (if (not (semantic-find-nonterminal-by-position
		     (point) (current-buffer) t))
	       ;; We found a comment that doesn't belong to the body
	       ;; of a function.
	       (semantic-find-doc-snarf-comment nosnarf)))
	 ;;  Lets look for comments either after the definition, but before code:
	 ;; Not sure yet.  Fill in something clever later....
	 nil
	 )))))

(defun semantic-find-doc-snarf-comment (nosnarf)
  "Snarf up the comment at POINT for `semantic-find-documentation'.
Attempt to strip out comment syntactic sugar.
Argument NOSNARF means don't modify the found text.
If NOSNARF is 'flex, then return the flex token."
  (let ((semantic-ignore-comments nil))
    (if (eq nosnarf 'flex)
	(car (semantic-flex (point) (1+ (point))))
      (let ((ct (semantic-flex-text
		 (car (semantic-flex (point) (1+ (point)))))))
	(if nosnarf
	    nil
	  ;; ok, try to clean the text up.
	  ;; Comment start thingy
	  (while (string-match (concat "^\\s-*" comment-start-skip) ct)
	    (setq ct (concat (substring ct 0 (match-beginning 0))
			     (substring ct (match-end 0)))))
	  ;; Arbitrary punctuation at the beginning of each line.
	  (while (string-match "^\\s-*\\s.+\\s-*" ct)
	    (setq ct (concat (substring ct 0 (match-beginning 0))
			     (substring ct (match-end 0)))))
	  ;; End of a block comment.
	  (if (and block-comment-end (string-match block-comment-end ct))
	      (setq ct (concat (substring ct 0 (match-beginning 0))
			       (substring ct (match-end 0)))))
	  ;; In case it's a real string, STRIPIT.
	  (while (string-match "\\s-*\\s\"+\\s-*" ct)
	    (setq ct (concat (substring ct 0 (match-beginning 0))
			     (substring ct (match-end 0))))))
	;; Now return the text.
	ct))))

(defun semantic-prototype-file (buffer)
  "Return a file in which prototypes belonging to BUFFER should be placed.
Default behavior (if not overriden) looks for a token specifying the
prototype file, or the existence of an EDE variable indicating which
file prototypes belong in."
  (let ((s (semantic-fetch-overload 'prototype-file)))
    (if s
	(funcall s buffer)
      ;; Else, perform some default behaviors
      (if (and (fboundp 'ede-header-file) ede-minor-mode)
	  (save-excursion
	    (set-buffer buffer)
	    (ede-header-file))
	;; No EDE options for a quick answer.  Search.
	(save-excursion
	  (set-buffer buffer)
	  (if (re-search-forward "::Header:: \\([a-zA-Z0-9.]+\\)" nil t)
	      (match-string 1)))))))


;;;; Mode-specific Token information
;;
(defun semantic-nonterminal-children (token &optional positionalonly)
  "Return the list of top level children belonging to TOKEN.
Children are any sub-tokens which may contain overlays.
The default behavior (if not overriden with `nonterminal-children'
is to return type parts for a type, and arguments for a function.

If optional argument POSITIONALONLY is non-nil, then only return valid
children if they contain positions.  Some languages may choose to create
lists of children without position/overlay information.

If this function is overriden, use `semantic-nonterminal-children-default'
to also include the default behavior, and merely extend your own.

Note for language authors:
  If a mode defines a language that has tokens in it with overlays that
should not be considered children, you should still return them with
this function."
  (let* ((s (semantic-fetch-overload 'nonterminal-children))
	 (chil (if s (funcall s token)
		 (semantic-nonterminal-children-default token))))
    (if (or (not positionalonly)
	    (semantic-token-with-position-p (car chil)))
	chil
      nil)))

(defun semantic-nonterminal-children-default (token)
  "Return the children of TOKEN.
For types, return the type parts.
For functions return the argument list."
  (cond ((eq (semantic-token-token token) 'type)
	 (semantic-token-type-parts token))
	((eq (semantic-token-token token) 'function)
	 (semantic-token-function-args token))
	(t nil)))

(defun semantic-nonterminal-protection (token &optional parent)
  "Return protection information about TOKEN with optional PARENT.
This function returns on of the following symbols:
   nil        - No special protection.  Language dependent.
   'public    - Anyone can access this TOKEN.
   'private   - Only methods in the local scope can access TOKEN.
   'protected - Like private for outside scopes, like public for child
                classes.
Some languages may choose to provide additional return symbols specific
to themselves.  Use of this function should allow for this.

The default behavior (if not overriden with `nonterminal-children'
is to return a symbol based on type modifiers."
  (let* ((s (semantic-fetch-overload 'nonterminal-protection)))
    (if s (funcall s token parent)
      (semantic-nonterminal-protection-default token parent))))

(defun semantic-nonterminal-protection-default (token &optional parent)
  "Return the protection of TOKEN as a child of PARENT default action.
See `semantic-nonterminal-protection'."
  (let ((mods (semantic-token-modifiers token))
	(prot nil))
    (while (and (not prot) mods)
      (if (stringp (car mods))
	  (let ((s (car mods)))
	    ;; A few silly defaults to get things started.
	    (cond ((or (string= s "public")
		       (string= s "extern")
		       (string= s "export"))
		   'public)
		  ((or (string= s "private")
		       (string= s "static"))
		   'private)
		  ((string= s "protected")
		   'protected))))
      (setq mods (cdr mods)))
    prot))


;;; Do some fancy stuff with overlays
;;
(defun semantic-highlight-token (token &optional face)
  "Specify that TOKEN should be highlighted.
Optional FACE specifies the face to use."
  (let ((o (semantic-token-overlay token)))
    (semantic-overlay-put o 'old-face
			  (cons (semantic-overlay-get o 'face)
				(semantic-overlay-get o 'old-face)))
    (semantic-overlay-put o 'face (or face 'highlight))
    ))

(defun semantic-unhighlight-token (token)
  "Unhighlight TOKEN, restoring it's previous face."
  (let ((o (semantic-token-overlay token)))
    (semantic-overlay-put o 'face (car (semantic-overlay-get o 'old-face)))
    (semantic-overlay-put o 'old-face (cdr (semantic-overlay-get o 'old-face)))
    ))

(defun semantic-momentary-unhighlight-token (token)
  "Unhighlight TOKEN, restoring it's previous face."
  (semantic-unhighlight-token token)
  (remove-hook 'pre-command-hook
	       `(lambda () (semantic-momentary-unhighlight-token ',token))))

(defun semantic-momentary-highlight-token (token &optional face)
  "Highlight TOKEN, removing highlighting when the user hits a key.
Optional argument FACE is the face to use for highlighting.
If FACE is not specified, then `highlight' will be used."
  (semantic-highlight-token token face)
  (add-hook 'pre-command-hook
	    `(lambda () (semantic-momentary-unhighlight-token ',token))))

(defun semantic-set-token-face (token face)
  "Specify that TOKEN should use FACE for display."
  (semantic-overlay-put (semantic-token-overlay token) 'face face))

(defun semantic-set-token-invisible (token &optional visible)
  "Enable the text in TOKEN to be made invisible.
If VISIBLE is non-nil, make the text visible."
  (semantic-overlay-put (semantic-token-overlay token) 'invisible
			(not visible)))

(defun semantic-token-invisible-p (token)
  "Return non-nil if TOKEN is invisible."
  (semantic-overlay-get (semantic-token-overlay token) 'invisible))

(defun semantic-set-token-intangible (token &optional tangible)
  "Enable the text in TOKEN to be made intangible.
If TANGIBLE is non-nil, make the text visible.
This function does not have meaning in XEmacs because it seems that
the extent 'intangible' property does not exist."
  (semantic-overlay-put (semantic-token-overlay token) 'intangible
			(not tangible)))

(defun semantic-token-intangible-p (token)
  "Return non-nil if TOKEN is intangible.
This function does not have meaning in XEmacs because it seems that
the extent 'intangible' property does not exist."
  (semantic-overlay-get (semantic-token-overlay token) 'intangible))

(defun semantic-overlay-signal-read-only
  (overlay after start end &optional len)
  "Hook used in modification hooks to prevent modification.
Allows deletion of the entire text.
Argument OVERLAY, AFTER, START, END, and LEN are passed in by the system."
  ;; Stolen blithly from cpp.el in Emacs 21.1
  (if (and (not after)
	   (or (< (semantic-overlay-start overlay) start)
	       (> (semantic-overlay-end overlay) end)))
      (error "This text is read only")))

(defun semantic-set-token-read-only (token &optional writable)
  "Enable the text in TOKEN to be made read-only.
Optional argument WRITABLE should be non-nil to make the text writable.
instead of read-only."
  (let ((o (semantic-token-overlay token))
	(hook (if writable nil '(semantic-overlay-signal-read-only))))
    (if (featurep 'xemacs)
        ;; XEmacs extents have a 'read-only' property.
        (semantic-overlay-put o 'read-only (not writable))
      (semantic-overlay-put o 'modification-hooks hook)
      (semantic-overlay-put o 'insert-in-front-hooks hook)
      (semantic-overlay-put o 'insert-behind-hooks hook))))

(defun semantic-token-read-only-p (token)
  "Return non-nil if the current TOKEN is marked read only."
  (let ((o (semantic-token-overlay token)))
    (if (featurep 'xemacs)
        ;; XEmacs extents have a 'read-only' property.
        (semantic-overlay-get o 'read-only)
      (member 'semantic-overlay-signal-read-only
              (semantic-overlay-get o 'modification-hooks)))))

(defun semantic-narrow-to-token (token)
  "Narrow to the region specified by TOKEN."
  (narrow-to-region (semantic-token-start token)
		    (semantic-token-end token)))

;;; Interactive Functions for bovination
;;
(defun semantic-describe-token (&optional token)
  "Describe TOKEN in the minibuffer.
If TOKEN is nil, describe the token under the cursor."
  (interactive)
  (if (not token) (setq token (semantic-current-nonterminal)))
  (semantic-bovinate-toplevel t)
  (if token (message (semantic-summarize-nonterminal token))))


;;; Putting keys on tokens.
;;
(defun semantic-add-label (label value &optional token)
  "Add a LABEL with VALUE on TOKEN.
If TOKEN is not specified, use the token at point."
  (interactive "sLabel: \nXValue (eval): ")
  (if (not token)
      (progn
	(semantic-bovinate-toplevel t)
	(setq token (semantic-current-nonterminal))))
  (semantic-token-put token (intern label) value)
  (message "Added label %s with value %S" label value))

(defun semantic-show-label (label &optional token)
  "Show the value of LABEL on TOKEN.
If TOKEN is not specified, use the token at point."
  (interactive "sLabel: ")
  (if (not token)
      (progn
	(semantic-bovinate-toplevel t)
	(setq token (semantic-current-nonterminal))))
  (message "%s: %S" label (semantic-token-get token (intern label))))


;;; Show dirty mode
;;
;;;###autoload
(defcustom semantic-show-dirty-mode nil
  "*If non-nil enable the use of `semantic-show-dirty-mode'."
  :group 'semantic
  :type 'boolean
  :require 'semantic-util
  :initialize 'custom-initialize-default
  :set (lambda (sym val)
         (semantic-show-dirty-mode (if val 1 -1))
         (custom-set-default sym val)))

(defface semantic-dirty-token-face  '((((class color) (background dark))
				       (:background "gray10"))
				      (((class color) (background light))
				       (:background "gray90")))
  "Face used to show dirty tokens in `semantic-show-dirty-token-mode'."
  :group 'semantic)

(defun semantic-show-dirty-token-hook-fcn (token start end)
  "Function set into `semantic-dirty-token-hooks'.
This will highlight TOKEN as dirty.
START and END define the region changed, but are not used."
  (semantic-highlight-token token 'semantic-dirty-token-face))

(defun semantic-show-clean-token-hook-fcn (token)
  "Function set into `semantic-clean-token-hooks'.
This will unhighlight TOKEN from being dirty."
  (semantic-unhighlight-token token))

(defun semantic-show-dirty-mode (&optional arg)
  "Enable the display of dirty tokens.
If ARG is positive, enable, if it is negative, disable.
If ARG is nil, then toggle."
    (interactive "P")
  (if (not arg)
      (if (member #'semantic-show-dirty-token-hook-fcn
		  semantic-dirty-token-hooks)
	  (setq arg -1)
	(setq arg 1)))
  (if (< arg 0)
      (progn
	;; Remove hooks
	(remove-hook 'semantic-dirty-token-hooks 'semantic-show-dirty-token-hook-fcn)
	(remove-hook 'semantic-clean-token-hooks 'semantic-show-clean-token-hook-fcn)
	(remove-hook 'after-save-hook 'semantic-rebovinate-quickly-hook)
	)
    (add-hook 'semantic-dirty-token-hooks 'semantic-show-dirty-token-hook-fcn)
    (add-hook 'semantic-clean-token-hooks 'semantic-show-clean-token-hook-fcn)
    (add-hook 'after-save-hook 'semantic-rebovinate-quickly-hook)
    ))

;;; Hacks
;;
;; Some hacks to help me test these functions
(defun semantic-current-token (p)
  "Display the curent token.
Argument P is the point to search from in the current buffer."
  (interactive "d")
  (let ((tok (semantic-find-innermost-nonterminal-by-position
	      p (current-buffer))))
    (message (mapconcat 'semantic-abbreviate-nonterminal tok ","))
    (car tok))
  )

(defun semantic-hack-search ()
  "Disply info about something under the cursor using generic methods."
  (interactive)
  (let (
	;(name (thing-at-point 'symbol))
	(strm (cdr (semantic-bovinate-toplevel)))
	(res nil))
;    (if name
	(setq res
;	      (semantic-find-nonterminal-by-name name strm)
;	      (semantic-find-nonterminal-by-type name strm)
;	      (semantic-recursive-find-nonterminal-by-name name (current-buffer))
	      (semantic-find-nonterminal-by-position (point) strm)
	      
	      )
;	)
    (if res
	(progn
	  (pop-to-buffer "*SEMANTIC HACK RESULTS*")
	  (require 'pp)
	  (erase-buffer)
	  (insert (pp-to-string res) "\n")
	  (goto-char (point-min))
	  (shrink-window-if-larger-than-buffer))
      (message "nil"))))

(provide 'semantic-util)

;;; semantic-util.el ends here
Tip: Filter by directory path e.g. /media app.js to search for public/media/app.js.
Tip: Use camelCasing e.g. ProjME to search for ProjectModifiedEvent.java.
Tip: Filter by extension type e.g. /repo .js to search for all .js files in the /repo directory.
Tip: Separate your search with spaces e.g. /ssh pom.xml to search for src/ssh/pom.xml.
Tip: Use ↑ and ↓ arrow keys to navigate and return to view the file.
Tip: You can also navigate files with Ctrl+j (next) and Ctrl+k (previous) and view the file with Ctrl+o.
Tip: You can also navigate files with Alt+j (next) and Alt+k (previous) and view the file with Alt+o.