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;;; hideif.el --- hides selected code within ifdef  -*- lexical-binding:t -*-

;; Copyright (C) 1988, 1994, 2001-2016 Free Software Foundation, Inc.

;; Author: Brian Marick
;;	Daniel LaLiberte <liberte@holonexus.org>
;; Maintainer: Luke Lee <luke.yx.lee@gmail.com>
;; Keywords: c, outlines

;; 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 3 of the License, 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.  If not, see <http://www.gnu.org/licenses/>.

;;; Commentary:

;; To initialize, toggle the hide-ifdef minor mode with
;;
;; M-x hide-ifdef-mode
;;
;; This will set up key bindings and call hide-ifdef-mode-hook if it
;; has a value.  To explicitly hide ifdefs using a buffer-local
;; define list (default empty), type
;;
;; M-x hide-ifdefs  or C-c @ h
;;
;; Hide-ifdef suppresses the display of code that the preprocessor wouldn't
;; pass through.  Support complete C/C++ expression and precedence.
;; It will automatically scan for new #define symbols and macros on the way
;; parsing.
;;
;; The hidden code is marked by ellipses (...).  Be
;; cautious when editing near ellipses, since the hidden text is
;; still in the buffer, and you can move the point into it and modify
;; text unawares.
;; You can make your buffer read-only while hide-ifdef-hiding by setting
;; hide-ifdef-read-only to a non-nil value.  You can toggle this
;; variable with hide-ifdef-toggle-read-only (C-c @ C-q).
;;
;; You can undo the effect of hide-ifdefs by typing
;;
;; M-x show-ifdefs  or C-c @ s
;;
;; Use M-x hide-ifdef-define (C-c @ d) to define a symbol.
;; Use M-x hide-ifdef-undef (C-c @ u) to undefine a symbol.
;;
;; If you define or undefine a symbol while hide-ifdef-mode is in effect,
;; the display will be updated.  Only the define list for the current
;; buffer will be affected.  You can save changes to the local define
;; list with hide-ifdef-set-define-alist.  This adds entries
;; to hide-ifdef-define-alist.
;;
;; If you have defined a hide-ifdef-mode-hook, you can set
;; up a list of symbols that may be used by hide-ifdefs as in the
;; following example:
;;
;; (add-hook 'hide-ifdef-mode-hook
;;      (lambda ()
;;	 (unless hide-ifdef-define-alist
;;	   (setq hide-ifdef-define-alist
;;		'((list1 ONE TWO)
;;		  (list2 TWO THREE))))
;;	 (hide-ifdef-use-define-alist 'list2))) ; use list2 by default
;;
;; You can call hide-ifdef-use-define-alist (C-c @ U) at any time to specify
;; another list to use.
;;
;; To cause ifdefs to be hidden as soon as hide-ifdef-mode is called,
;; set hide-ifdef-initially to non-nil.
;;
;; If you set hide-ifdef-lines to t, hide-ifdefs hides all the #ifdef lines.
;; In the absence of highlighting, that might be a bad idea.  If you set
;; hide-ifdef-lines to nil (the default), the surrounding preprocessor
;; lines will be displayed.  That can be confusing in its own
;; right.  Other variations on display are possible, but not much
;; better.
;;
;; You can explicitly hide or show individual ifdef blocks irrespective
;; of the define list by using hide-ifdef-block and show-ifdef-block.
;;
;; You can move the point between ifdefs with forward-ifdef, backward-ifdef,
;; up-ifdef, down-ifdef, next-ifdef, and previous-ifdef.
;;
;; If you have minor-mode-alist in your mode line (the default) two labels
;; may appear.  "Ifdef" will appear when hide-ifdef-mode is active.  "Hiding"
;; will appear when text may be hidden ("hide-ifdef-hiding" is non-nil).
;;
;; Written by Brian Marick, at Gould, Computer Systems Division, Urbana IL.
;; Extensively modified by Daniel LaLiberte (while at Gould).
;;
;; Extensively modified by Luke Lee in 2013 to support complete C expression
;; evaluation and argumented macro expansion.

;;; Code:

(require 'cc-mode)
(require 'cl-lib)

(defgroup hide-ifdef nil
  "Hide selected code within `ifdef'."
  :group 'c)

(defcustom hide-ifdef-initially nil
  "Non-nil means call `hide-ifdefs' when Hide-Ifdef mode is first activated."
  :type 'boolean
  :group 'hide-ifdef)

(defcustom hide-ifdef-read-only nil
  "Set to non-nil if you want buffer to be read-only while hiding text."
  :type 'boolean
  :group 'hide-ifdef)

(defcustom hide-ifdef-lines nil
  "Non-nil means hide the #ifX, #else, and #endif lines."
  :type 'boolean
  :group 'hide-ifdef)

(defcustom hide-ifdef-shadow nil
  "Non-nil means shadow text instead of hiding it."
  :type 'boolean
  :group 'hide-ifdef
  :version "23.1")

(defface hide-ifdef-shadow '((t (:inherit shadow)))
  "Face for shadowing ifdef blocks."
  :group 'hide-ifdef
  :version "23.1")

(defcustom hide-ifdef-exclude-define-regexp nil
  "Ignore #define names if those names match this exclusion pattern."
  :type '(choice (const nil) string)
  :version "25.1")

(defcustom hide-ifdef-expand-reinclusion-protection t
  "Non-nil means don't hide an entire header file enclosed by #ifndef...#endif.
Most C/C++ headers are usually wrapped with ifdefs to prevent re-inclusion:

  ----- beginning of file -----
  #ifndef _XXX_HEADER_FILE_INCLUDED_
  #define _XXX_HEADER_FILE_INCLUDED_
     xxx
     xxx
     xxx...
  #endif
  ----- end of file -----

The first time we visit such a file, _XXX_HEADER_FILE_INCLUDED_ is
undefined, and so nothing is hidden.  The next time we visit it, everything will
be hidden.

This behavior is generally undesirable.  If this option is non-nil, the outermost
#if is always visible."
  :type 'boolean
  :version "25.1")

(defcustom hide-ifdef-header-regexp
  "\\.h\\(h\\|xx\\|pp\\|\\+\\+\\)?\\'"
  "C/C++ header file name patterns to determine if current buffer is a header.
Effective only if `hide-ifdef-expand-reinclusion-protection' is t."
  :type 'string
  :group 'hide-ifdef
  :version "25.1")

(defvar hide-ifdef-mode-submap
  ;; Set up the submap that goes after the prefix key.
  (let ((map (make-sparse-keymap)))
    (define-key map "d" 'hide-ifdef-define)
    (define-key map "u" 'hide-ifdef-undef)
    (define-key map "D" 'hide-ifdef-set-define-alist)
    (define-key map "U" 'hide-ifdef-use-define-alist)

    (define-key map "h" 'hide-ifdefs)
    (define-key map "s" 'show-ifdefs)
    (define-key map "\C-d" 'hide-ifdef-block)
    (define-key map "\C-s" 'show-ifdef-block)
    (define-key map "e" 'hif-evaluate-macro)
    (define-key map "C" 'hif-clear-all-ifdef-defined)

    (define-key map "\C-q" 'hide-ifdef-toggle-read-only)
    (define-key map "\C-w" 'hide-ifdef-toggle-shadowing)
    (substitute-key-definition
     'read-only-mode 'hide-ifdef-toggle-outside-read-only map)
    ;; `toggle-read-only' is obsoleted by `read-only-mode'.
    (substitute-key-definition
     'toggle-read-only 'hide-ifdef-toggle-outside-read-only map)
    map)
  "Keymap used by `hide-ifdef-mode' under `hide-ifdef-mode-prefix-key'.")

(defconst hide-ifdef-mode-prefix-key "\C-c@"
  "Prefix key for all Hide-Ifdef mode commands.")

(defvar hide-ifdef-mode-map
  ;; Set up the mode's main map, which leads via the prefix key to the submap.
  (let ((map (make-sparse-keymap)))
    (define-key map hide-ifdef-mode-prefix-key hide-ifdef-mode-submap)
    map)
  "Keymap used with `hide-ifdef-mode'.")

(easy-menu-define hide-ifdef-mode-menu hide-ifdef-mode-map
  "Menu for `hide-ifdef-mode'."
  '("Hide-Ifdef"
    ["Hide some ifdefs" hide-ifdefs
     :help "Hide the contents of some #ifdefs"]
    ["Show all ifdefs" show-ifdefs
     :help "Cancel the effects of `hide-ifdef': show the contents of all #ifdefs"]
    ["Hide ifdef block" hide-ifdef-block
     :help "Hide the ifdef block (true or false part) enclosing or before the cursor"]
    ["Show ifdef block" show-ifdef-block
     :help "Show the ifdef block (true or false part) enclosing or before the cursor"]
    ["Define a variable..." hide-ifdef-define
     :help "Define a VAR so that #ifdef VAR would be included"]
    ["Undefine a variable..." hide-ifdef-undef
     :help "Undefine a VAR so that #ifdef VAR would not be included"]
    ["Define an alist..." hide-ifdef-set-define-alist
     :help "Set the association for NAME to `hide-ifdef-env'"]
    ["Use an alist..." hide-ifdef-use-define-alist
     :help "Set `hide-ifdef-env' to the define list specified by NAME"]
    ["Toggle read only" hide-ifdef-toggle-read-only
     :style toggle :selected hide-ifdef-read-only
     :help "Buffer should be read-only while hiding text"]
    ["Toggle shadowing" hide-ifdef-toggle-shadowing
     :style toggle :selected hide-ifdef-shadow
     :help "Text should be shadowed instead of hidden"]))

(defvar hide-ifdef-hiding nil
  "Non-nil when text may be hidden.")

(or (assq 'hide-ifdef-hiding minor-mode-alist)
    (setq minor-mode-alist
          (cons '(hide-ifdef-hiding " Hiding")
                minor-mode-alist)))

;; Fix c-mode syntax table so we can recognize whole symbols.
(defvar hide-ifdef-syntax-table
  (let ((st (copy-syntax-table c-mode-syntax-table)))
    (modify-syntax-entry ?_ "w" st)
    (modify-syntax-entry ?& "." st)
    (modify-syntax-entry ?\| "." st)
    st)
  "Syntax table used for tokenizing #if expressions.")

(defvar hide-ifdef-env nil
  "An alist of defined symbols and their values.")

(defvar hide-ifdef-env-backup nil
  "This variable is a backup of the previously cleared `hide-ifdef-env'.
This backup prevents any accidental clearance of `hide-fidef-env' by
`hif-clear-all-ifdef-defined'.")

(defvar hif-outside-read-only nil
  "Internal variable.  Saves the value of `buffer-read-only' while hiding.")

;;;###autoload
(define-minor-mode hide-ifdef-mode
  "Toggle features to hide/show #ifdef blocks (Hide-Ifdef mode).
With a prefix argument ARG, enable Hide-Ifdef mode if ARG is
positive, and disable it otherwise.  If called from Lisp, enable
the mode if ARG is omitted or nil.

Hide-Ifdef mode is a buffer-local minor mode for use with C and
C-like major modes.  When enabled, code within #ifdef constructs
that the C preprocessor would eliminate may be hidden from view.
Several variables affect how the hiding is done:

`hide-ifdef-env'
        An association list of defined and undefined symbols for the
        current project.  Initially, the global value of `hide-ifdef-env'
        is used.  This variable was a buffer-local variable, which limits
        hideif to parse only one C/C++ file at a time.  We've extended
        hideif to support parsing a C/C++ project containing multiple C/C++
        source files opened simultaneously in different buffers.  Therefore
        `hide-ifdef-env' can no longer be buffer local but must be global.

`hide-ifdef-define-alist'
        An association list of defined symbol lists.
        Use `hide-ifdef-set-define-alist' to save the current `hide-ifdef-env'
        and `hide-ifdef-use-define-alist' to set the current `hide-ifdef-env'
        from one of the lists in `hide-ifdef-define-alist'.

`hide-ifdef-lines'
        Set to non-nil to not show #if, #ifdef, #ifndef, #else, and
        #endif lines when hiding.

`hide-ifdef-initially'
        Indicates whether `hide-ifdefs' should be called when Hide-Ifdef mode
        is activated.

`hide-ifdef-read-only'
        Set to non-nil if you want to make buffers read only while hiding.
        After `show-ifdefs', read-only status is restored to previous value.

\\{hide-ifdef-mode-map}"
  :group 'hide-ifdef :lighter " Ifdef"
  (if hide-ifdef-mode
      (progn
        ;; inherit global values

        ;; `hide-ifdef-env' is now a global variable.
        ;; We can still simulate the behavior of older hideif versions (i.e.
        ;; `hide-ifdef-env' being buffer local) by clearing this variable
        ;; (C-c @ C) everytime before hiding current buffer.
;;      (set (make-local-variable 'hide-ifdef-env)
;;           (default-value 'hide-ifdef-env))
        (set 'hide-ifdef-env (default-value 'hide-ifdef-env))
        ;; Some C/C++ headers might have other ways to prevent reinclusion and
        ;; thus would like `hide-ifdef-expand-reinclusion-protection' to be nil.
        (set (make-local-variable 'hide-ifdef-expand-reinclusion-protection)
             (default-value 'hide-ifdef-expand-reinclusion-protection))
        (set (make-local-variable 'hide-ifdef-hiding)
             (default-value 'hide-ifdef-hiding))
        (set (make-local-variable 'hif-outside-read-only) buffer-read-only)
        (set (make-local-variable 'line-move-ignore-invisible) t)
        (add-hook 'change-major-mode-hook
                  (lambda () (hide-ifdef-mode -1)) nil t)

        (add-to-invisibility-spec '(hide-ifdef . t))

        (if hide-ifdef-initially
            (hide-ifdefs)
          (show-ifdefs)))
    ;; else end hide-ifdef-mode
    (kill-local-variable 'line-move-ignore-invisible)
    (remove-from-invisibility-spec '(hide-ifdef . t))
    (when hide-ifdef-hiding
      (show-ifdefs))))

(defun hif-clear-all-ifdef-defined ()
  "Clears all symbols defined in `hide-ifdef-env'.
It will backup this variable to `hide-ifdef-env-backup' before clearing to
prevent accidental clearance."
  (interactive)
  (when (y-or-n-p "Clear all #defined symbols? ")
    (setq hide-ifdef-env-backup hide-ifdef-env)
    (setq hide-ifdef-env nil)))

(defun hif-show-all ()
  "Show all of the text in the current buffer."
  (interactive)
  (hif-show-ifdef-region (point-min) (point-max)))

;; By putting this on after-revert-hook, we arrange that it only
;; does anything when revert-buffer avoids turning off the mode.
;; (That can happen in VC.)
(defun hif-after-revert-function ()
  (and hide-ifdef-mode hide-ifdef-hiding
       (hide-ifdefs t)))
(add-hook 'after-revert-hook 'hif-after-revert-function)

(defun hif-end-of-line ()
  (end-of-line)
  (while (= (logand 1 (skip-chars-backward "\\\\")) 1)
    (end-of-line 2)))

(defun hif-merge-ifdef-region (start end)
  "This function merges nearby ifdef regions to form a bigger overlay.
The region is defined by START and END.  This will decrease the number of
overlays created."
  ;; Generally there is no need to call itself recursively since there should
  ;; originally exists no un-merged regions; however, if a part of the file is
  ;; hidden with `hide-ifdef-lines' equals to nil while another part with 't,
  ;; this case happens.
  ;; TODO: Should we merge? or just create a container overlay? -- this can
  ;; prevent `hideif-show-ifdef' expanding too many hidden contents since there
  ;; is only a big overlay exists there without any smaller overlays.
  (save-restriction
    (widen) ; Otherwise `point-min' and `point-max' will be restricted and thus
                                        ; fail to find neighbor overlays
    (let ((begovrs (overlays-in
                    (max (- start 2) (point-min))
                    (max (- start 1) (point-min))))
          (endovrs (overlays-in
                    (min (+ end 1) (point-max))
                    (min (+ end 2) (point-max))))
          (ob nil)
          (oe nil)
          b e)
      ;; Merge overlays before START
      (dolist (o begovrs)
        (when (overlay-get o 'hide-ifdef)
          (setq b (min start (overlay-start o))
                e (max end (overlay-end o)))
          (move-overlay o b e)
          (hif-merge-ifdef-region b e)
          (setq ob o)))
      ;; Merge overlays after END
      (dolist (o endovrs)
        (when (overlay-get o 'hide-ifdef)
          (setq b (min start (overlay-start o))
                e (max end (overlay-end o)))
          (move-overlay o b e)
          (hif-merge-ifdef-region b e)
          (setf oe o)))
      ;; If both START and END merging happens, merge into bigger one
      (when (and ob oe)
        (let ((b (min (overlay-start ob) (overlay-start oe)))
              (e (max (overlay-end ob) (overlay-end oe))))
          (delete-overlay oe)
          (move-overlay ob b e)
          (hif-merge-ifdef-region b e)))
      (or ob oe))))

(defun hide-ifdef-region-internal (start end)
  (unless (hif-merge-ifdef-region start end)
  (let ((o (make-overlay start end)))
    (overlay-put o 'hide-ifdef t)
    (if hide-ifdef-shadow
        (overlay-put o 'face 'hide-ifdef-shadow)
        (overlay-put o 'invisible 'hide-ifdef)))))

(defun hide-ifdef-region (start end)
  "START is the start of a #if, #elif, or #else form.  END is the ending part.
Everything including these lines is made invisible."
  (save-excursion
    (goto-char start) (hif-end-of-line) (setq start (point))
    (goto-char end) (hif-end-of-line) (setq end (point))
    (hide-ifdef-region-internal start end)))

(defun hif-show-ifdef-region (start end)
  "Everything between START and END is made visible."
  (let ((onum (length (overlays-in start end))))
    (remove-overlays start end 'hide-ifdef t)
    (/= onum (length (overlays-in start end)))))


;;===%%SF%% evaluation (Start)  ===

;; It is not useful to set this to anything but `eval'.
;; In fact, the variable might as well be eliminated.
(defvar hide-ifdef-evaluator 'eval
  "The function to use to evaluate a form.
The evaluator is given a canonical form and returns t if text under
that form should be displayed.")

(defvar hif-undefined-symbol nil
  "...is by default considered to be false.")


(defun hif-set-var (var value)
  "Prepend (VAR VALUE) pair to `hide-ifdef-env'."
  (setq hide-ifdef-env (cons (cons var value) hide-ifdef-env)))

(declare-function semantic-c-hideif-lookup  "semantic/bovine/c" (var))
(declare-function semantic-c-hideif-defined "semantic/bovine/c" (var))

(defun hif-lookup (var)
  (or (when (bound-and-true-p semantic-c-takeover-hideif)
        (semantic-c-hideif-lookup var))
      (let ((val (assoc var hide-ifdef-env)))
        (if val
            (cdr val)
          hif-undefined-symbol))))

(defun hif-defined (var)
  (cond
   ((bound-and-true-p semantic-c-takeover-hideif)
    (semantic-c-hideif-defined var))
   ((assoc var hide-ifdef-env) 1)
   (t 0)))

;;===%%SF%% evaluation (End)  ===



;;===%%SF%% parsing (Start)  ===
;;;  The code that understands what ifs and ifdef in files look like.

(defconst hif-cpp-prefix      "\\(^\\|\r\\)[ \t]*#[ \t]*")
(defconst hif-ifxdef-regexp   (concat hif-cpp-prefix "if\\(n\\)?def"))
(defconst hif-ifndef-regexp   (concat hif-cpp-prefix "ifndef"))
(defconst hif-ifx-regexp      (concat hif-cpp-prefix "if\\(n?def\\)?[ \t]+"))
(defconst hif-elif-regexp     (concat hif-cpp-prefix "elif"))
(defconst hif-else-regexp     (concat hif-cpp-prefix "else"))
(defconst hif-endif-regexp    (concat hif-cpp-prefix "endif"))
(defconst hif-ifx-else-endif-regexp
  (concat hif-ifx-regexp "\\|" hif-elif-regexp "\\|" hif-else-regexp "\\|"
          hif-endif-regexp))
(defconst hif-macro-expr-prefix-regexp
  (concat hif-cpp-prefix "\\(if\\(n?def\\)?\\|elif\\|define\\)[ \t]+"))

(defconst hif-white-regexp    "[ \t]*")
(defconst hif-define-regexp   (concat hif-cpp-prefix "\\(define\\|undef\\)"))
(defconst hif-id-regexp       (concat "[[:alpha:]_][[:alnum:]_]*"))
(defconst hif-macroref-regexp
  (concat hif-white-regexp "\\(" hif-id-regexp "\\)" hif-white-regexp
          "\\("
          "(" hif-white-regexp
          "\\(" hif-id-regexp "\\)?" hif-white-regexp
          "\\(" "," hif-white-regexp hif-id-regexp hif-white-regexp "\\)*"
          "\\(\\.\\.\\.\\)?" hif-white-regexp
          ")"
          "\\)?" ))

;; Store the current token and the whole token list during parsing.
;; Bound dynamically.
(defvar hif-token)
(defvar hif-token-list)

(defconst hif-token-alist
  '(("||"  . hif-or)
    ("&&"  . hif-and)
    ("|"   . hif-logior)
    ("^"   . hif-logxor)
    ("&"   . hif-logand)
    ("<<"  . hif-shiftleft)
    (">>"  . hif-shiftright)
    ("=="  . hif-equal)
    ;; Note: we include tokens like `=' which aren't supported by CPP's
    ;; expression syntax, because they are still relevant for the tokenizer,
    ;; especially in conjunction with ##.
    ("="   . hif-assign)
    ("!="  . hif-notequal)
    ("##"  . hif-token-concat)
    ("!"   . hif-not)
    ("~"   . hif-lognot)
    ("("   . hif-lparen)
    (")"   . hif-rparen)
    (">"   . hif-greater)
    ("<"   . hif-less)
    (">="  . hif-greater-equal)
    ("<="  . hif-less-equal)
    ("+"   . hif-plus)
    ("-"   . hif-minus)
    ("*"   . hif-multiply)
    ("/"   . hif-divide)
    ("%"   . hif-modulo)
    ("?"   . hif-conditional)
    (":"   . hif-colon)
    (","   . hif-comma)
    ("#"   . hif-stringify)
    ("..." . hif-etc)))

(defconst hif-valid-token-list (mapcar 'cdr hif-token-alist))

(defconst hif-token-regexp
  (concat (regexp-opt (mapcar 'car hif-token-alist))
          "\\|0x[0-9a-fA-F]+\\.?[0-9a-fA-F]*"
          "\\|[0-9]+\\.?[0-9]*"  ;; decimal/octal
          "\\|\\w+"))

(defconst hif-string-literal-regexp  "\\(\"\\(?:[^\"\\]\\|\\\\.\\)*\"\\)")

(defun hif-string-to-number (string &optional base)
  "Like `string-to-number', but it understands non-decimal floats."
  (if (or (not base) (= base 10))
      (string-to-number string base)
    (let* ((parts (split-string string "\\." t "[ \t]+"))
           (frac (cadr parts))
           (fraclen (length frac))
           (quot (expt (if (zerop fraclen)
                           base
                           (* base 1.0)) fraclen)))
      (/ (string-to-number (concat (car parts) frac) base) quot))))

;; The dynamic binding variable `hif-simple-token-only' is shared only by
;; `hif-tokenize' and `hif-find-define'. The purpose is to prevent `hif-tokenize'
;; from returning one more value to indicate a simple token is scanned. This help
;; speeding up macro evaluation on those very simple cases like integers or
;; literals.
;; Check the long comments before `hif-find-define' for more details. [lukelee]
(defvar hif-simple-token-only)

(defun hif-tokenize (start end)
  "Separate string between START and END into a list of tokens."
  (let ((token-list nil))
    (setq hif-simple-token-only t)
    (with-syntax-table hide-ifdef-syntax-table
      (save-excursion
        (goto-char start)
        (while (progn (forward-comment (point-max)) (< (point) end))
          ;; (message "expr-start = %d" expr-start) (sit-for 1)
          (cond
           ((looking-at "\\\\\n")
            (forward-char 2))

           ((looking-at hif-string-literal-regexp)
            (push (substring-no-properties (match-string 1)) token-list)
            (goto-char (match-end 0)))

           ((looking-at hif-token-regexp)
            (let ((token (buffer-substring-no-properties
                          (point) (match-end 0))))
              (goto-char (match-end 0))
              ;; (message "token: %s" token) (sit-for 1)
              (push
               (or (cdr (assoc token hif-token-alist))
                   (if (string-equal token "defined") 'hif-defined)
                   ;; TODO:
                   ;; 1. postfix 'l', 'll', 'ul' and 'ull'
                   ;; 2. floating number formats (like 1.23e4)
                   ;; 3. 098 is interpreted as octal conversion error
                   (if (string-match "0x\\([0-9a-fA-F]+\\.?[0-9a-fA-F]*\\)"
                                     token)
                       (hif-string-to-number (match-string 1 token) 16)) ;; hex
                   (if (string-match "\\`0[0-9]+\\(\\.[0-9]+\\)?\\'" token)
                       (hif-string-to-number token 8)) ;; octal
                   (if (string-match "\\`[1-9][0-9]*\\(\\.[0-9]+\\)?\\'"
                                     token)
                       (string-to-number token)) ;; decimal
                   (prog1 (intern token)
                     (setq hif-simple-token-only nil)))
               token-list)))

           ((looking-at "\r") ; Sometimes MS-Windows user will leave CR in
            (forward-char 1)) ;  the source code. Let's not get stuck here.
           (t (error "Bad #if expression: %s" (buffer-string)))))))

    (nreverse token-list)))

;;------------------------------------------------------------------------
;; Translate C preprocessor #if expressions using recursive descent.
;; This parser was limited to the operators &&, ||, !, and "defined".
;; Added ==, !=, +, and -.  Gary Oberbrunner, garyo@avs.com, 8/9/94
;;
;; Implement the C language operator precedence table. Add all those
;; missing operators that could be used in macros. Luke Lee 2013-09-04

;;  | Operator Type        | Operator                    | Associativity |
;;  +----------------------+-----------------------------+---------------+
;;  | Primary Expression   | () [] . -> expr++ expr--    | left-to-right |
;;  | Unary Operators      | * & + - ! ~ ++expr --expr   | right-to-left |
;;  |                      | (typecast) sizeof           |               |
;;  | Binary Operators     | * / %                       | left-to-right |
;;  |                      | + -                         |               |
;;  |                      | >> <<                       |               |
;;  |                      | < > <= >=                   |               |
;;  |                      | == !=                       |               |
;;  |                      | &                           |               |
;;  |                      | ^                           |               |
;;  |                      | |                           |               |
;;  |                      | &&                          |               |
;;  |                      | ||                          |               |
;;  | Ternary Operator     | ?:                          | right-to-left |
;; x| Assignment Operators | = += -= *= /= %= >>= <<= &= | right-to-left |
;;  |                      | ^= =                        |               |
;;  | Comma                | ,                           | left-to-right |

(defsubst hif-nexttoken ()
  "Pop the next token from token-list into the let variable `hif-token'."
  (setq hif-token (pop hif-token-list)))

(defsubst hif-if-valid-identifier-p (id)
  (not (or (numberp id)
           (stringp id))))

(defun hif-define-operator (tokens)
  "\"Upgrade\" hif-define XXX to `(hif-define XXX)' so it won't be substituted."
  (let ((result nil)
        (tok nil))
    (while (setq tok (pop tokens))
      (push
       (if (eq tok 'hif-defined)
           (progn
             (setq tok (cadr tokens))
             (if (eq (car tokens) 'hif-lparen)
                 (if (and (hif-if-valid-identifier-p tok)
                          (eq (nth 2 tokens) 'hif-rparen))
                     (setq tokens (cl-cdddr tokens))
                   (error "#define followed by non-identifier: %S" tok))
               (setq tok (car tokens)
                     tokens (cdr tokens))
               (unless (hif-if-valid-identifier-p tok)
                 (error "#define followed by non-identifier: %S" tok)))
             (list 'hif-defined 'hif-lparen tok 'hif-rparen))
         tok)
       result))
    (nreverse result)))

(defun hif-flatten (l)
  "Flatten a tree."
  (apply #'nconc
         (mapcar (lambda (x) (if (listp x)
                                 (hif-flatten x)
                               (list x))) l)))

(defun hif-expand-token-list (tokens &optional macroname expand_list)
  "Perform expansion on TOKENS till everything expanded.
Self-reference (directly or indirectly) tokens are not expanded.
EXPAND_LIST is the list of macro names currently being expanded, used for
detecting self-reference."
  (catch 'self-referencing
    (let ((expanded nil)
          (remains (hif-define-operator
                    (hif-token-concatenation
                     (hif-token-stringification tokens))))
          tok rep)
      (if macroname
          (setq expand_list (cons macroname expand_list)))
      ;; Expanding all tokens till list exhausted
      (while (setq tok (pop remains))
        (if (memq tok expand_list)
            ;; For self-referencing tokens, don't expand it
            (throw 'self-referencing tokens))
        (push
         (cond
          ((or (memq tok hif-valid-token-list)
               (numberp tok)
               (stringp tok))
           tok)

          ((setq rep (hif-lookup tok))
           (if (and (listp rep)
                    (eq (car rep) 'hif-define-macro)) ; A defined macro
               ;; Recursively expand it
               (if (cadr rep) ; Argument list is not nil
                   (if (not (eq (car remains) 'hif-lparen))
                       ;; No argument, no invocation
                       tok
                     ;; Argumented macro, get arguments and invoke it.
                     ;; Dynamically bind hif-token-list and hif-token
                     ;; for hif-macro-supply-arguments
                     (let* ((hif-token-list (cdr remains))
                            (hif-token nil)
                            (parmlist (mapcar #'hif-expand-token-list
                                              (hif-get-argument-list)))
                            (result
                             (hif-expand-token-list
                              (hif-macro-supply-arguments tok parmlist)
                              tok expand_list)))
                       (setq remains (cons hif-token hif-token-list))
                       result))
                 ;; Argument list is nil, direct expansion
                 (setq rep (hif-expand-token-list
                            (nth 2 rep) ; Macro's token list
                            tok expand_list))
                 ;; Replace all remaining references immediately
                 (setq remains (cl-substitute tok rep remains))
                 rep)
             ;; Lookup tok returns an atom
             rep))

          ;;[2013-10-22 16:06:12 +0800] Must keep the token, removing
          ;; this token might results in an incomplete expression that
          ;; cannot be parsed further.
          ;;((= 1 (hif-defined tok)) ; defined (hif-defined tok)=1,
          ;;  ;;but empty (hif-lookup tok)=nil, thus remove this token
          ;; (setq remains (delete tok remains))
          ;; nil)

          (t ; Usual IDs
           tok))

         expanded))

      (hif-flatten (nreverse expanded)))))

(defun hif-parse-exp (token-list &optional macroname)
  "Parse the TOKEN-LIST.
Return translated list in prefix form.  MACRONAME is applied when invoking
macros to prevent self-reference."
  (let ((hif-token-list (hif-expand-token-list token-list macroname)))
    (hif-nexttoken)
    (prog1
        (and hif-token
             (hif-exprlist))
      (if hif-token ; is there still a token?
          (error "Error: unexpected token: %s" hif-token)))))

(defun hif-exprlist ()
  "Parse an exprlist: expr { `,' expr}."
  (let ((result (hif-expr)))
    (if (eq hif-token 'hif-comma)
        (let ((temp (list result)))
          (while
            (progn
              (hif-nexttoken)
              (push (hif-expr) temp)
              (eq hif-token 'hif-comma)))
          (cons 'hif-comma (nreverse temp)))
      result)))

(defun hif-expr ()
  "Parse an expression as found in #if.
expr : or-expr | or-expr `?' expr `:' expr."
  (let ((result (hif-or-expr))
        middle)
    (while (eq hif-token 'hif-conditional)
      (hif-nexttoken)
      (setq middle (hif-expr))
      (if (eq hif-token 'hif-colon)
          (progn
            (hif-nexttoken)
            (setq result (list 'hif-conditional result middle (hif-expr))))
        (error "Error: unexpected token: %s" hif-token)))
    result))

(defun hif-or-expr ()
  "Parse an or-expr : and-expr | or-expr `||' and-expr."
  (let ((result (hif-and-expr)))
    (while (eq hif-token 'hif-or)
      (hif-nexttoken)
      (setq result (list 'hif-or result (hif-and-expr))))
  result))

(defun hif-and-expr ()
  "Parse an and-expr : logior-expr | and-expr `&&' logior-expr."
  (let ((result (hif-logior-expr)))
    (while (eq hif-token 'hif-and)
      (hif-nexttoken)
      (setq result (list 'hif-and result (hif-logior-expr))))
    result))

(defun hif-logior-expr ()
  "Parse a logor-expr : logxor-expr | logor-expr `|' logxor-expr."
  (let ((result (hif-logxor-expr)))
    (while (eq hif-token 'hif-logior)
      (hif-nexttoken)
      (setq result (list 'hif-logior result (hif-logxor-expr))))
    result))

(defun hif-logxor-expr ()
  "Parse a logxor-expr : logand-expr | logxor-expr `^' logand-expr."
  (let ((result (hif-logand-expr)))
    (while (eq hif-token 'hif-logxor)
      (hif-nexttoken)
      (setq result (list 'hif-logxor result (hif-logand-expr))))
    result))

(defun hif-logand-expr ()
  "Parse a logand-expr : eq-expr | logand-expr `&' eq-expr."
  (let ((result (hif-eq-expr)))
    (while (eq hif-token 'hif-logand)
      (hif-nexttoken)
      (setq result (list 'hif-logand result (hif-eq-expr))))
    result))

(defun hif-eq-expr ()
  "Parse an eq-expr : comp | eq-expr `=='|`!=' comp."
  (let ((result (hif-comp-expr))
	(eq-token nil))
    (while (memq hif-token '(hif-equal hif-notequal))
      (setq eq-token hif-token)
      (hif-nexttoken)
      (setq result (list eq-token result (hif-comp-expr))))
    result))

(defun hif-comp-expr ()
  "Parse a comp-expr : logshift | comp-expr `<'|`>'|`>='|`<=' logshift."
  (let ((result (hif-logshift-expr))
        (comp-token nil))
    (while (memq hif-token '(hif-greater hif-less hif-greater-equal
                                         hif-less-equal))
      (setq comp-token hif-token)
      (hif-nexttoken)
      (setq result (list comp-token result (hif-logshift-expr))))
    result))

(defun hif-logshift-expr ()
  "Parse a logshift : math | logshift `<<'|`>>' math."
  (let ((result (hif-math))
        (shift-token nil))
    (while (memq hif-token '(hif-shiftleft hif-shiftright))
      (setq shift-token hif-token)
      (hif-nexttoken)
      (setq result (list shift-token result (hif-math))))
    result))

(defun hif-math ()
  "Parse an expression with + or -.
       math : muldiv | math `+'|`-' muldiv."
  (let ((result (hif-muldiv-expr))
        (math-op nil))
    (while (memq hif-token '(hif-plus hif-minus))
      (setq math-op hif-token)
      (hif-nexttoken)
      (setq result (list math-op result (hif-muldiv-expr))))
    result))

(defun hif-muldiv-expr ()
  "Parse an expression with *,/,%.
       muldiv : factor | muldiv `*'|`/'|`%' factor."
  (let ((result (hif-factor))
        (math-op nil))
    (while (memq hif-token '(hif-multiply hif-divide hif-modulo))
      (setq math-op hif-token)
      (hif-nexttoken)
      (setq result (list math-op result (hif-factor))))
  result))

(defun hif-factor ()
  "Parse a factor.
factor : `!' factor | `~' factor | `(' expr `)' | `defined(' id `)' |
         id `(' parmlist `)' | strings | id."
  (cond
   ((eq hif-token 'hif-not)
    (hif-nexttoken)
    (list 'hif-not (hif-factor)))

   ((eq hif-token 'hif-lognot)
    (hif-nexttoken)
    (list 'hif-lognot (hif-factor)))

   ((eq hif-token 'hif-lparen)
    (hif-nexttoken)
    (let ((result (hif-exprlist)))
      (if (not (eq hif-token 'hif-rparen))
          (error "Bad token in parenthesized expression: %s" hif-token)
        (hif-nexttoken)
        result)))

   ((eq hif-token 'hif-defined)
    (hif-nexttoken)
    (let ((paren (when (eq hif-token 'hif-lparen) (hif-nexttoken) t))
          (ident hif-token))
      (if (memq hif-token '(or and not hif-defined hif-lparen hif-rparen))
          (error "Error: unexpected token: %s" hif-token))
      (when paren
        (hif-nexttoken)
        (unless (eq hif-token 'hif-rparen)
          (error "Error: expected \")\" after identifier")))
      (hif-nexttoken)
      `(hif-defined (quote ,ident))))

   ((numberp hif-token)
    (prog1 hif-token (hif-nexttoken)))
   ((stringp hif-token)
    (hif-string-concatenation))

   ;; Unary plus/minus.
   ((memq hif-token '(hif-minus hif-plus))
    (list (prog1 hif-token (hif-nexttoken)) 0 (hif-factor)))

   (t                                   ; identifier
    (let ((ident hif-token))
      (hif-nexttoken)
      (if (eq hif-token 'hif-lparen)
          (hif-place-macro-invocation ident)
        `(hif-lookup (quote ,ident)))))))

(defun hif-get-argument-list ()
  (let ((nest 0)
        (parmlist nil) ; A "token" list of parameters, will later be parsed
        (parm nil))

    (while (or (not (eq (hif-nexttoken) 'hif-rparen))
               (/= nest 0))
      (if (eq (car (last parm)) 'hif-comma)
          (setq parm nil))
      (cond
       ((eq hif-token 'hif-lparen)
        (cl-incf nest))
       ((eq hif-token 'hif-rparen)
        (cl-decf nest))
       ((and (eq hif-token 'hif-comma)
             (= nest 0))
        (push (nreverse parm) parmlist)
        (setq parm nil)))
      (push hif-token parm))

    (push (nreverse parm) parmlist) ; Okay even if PARM is nil
    (hif-nexttoken) ; Drop the `hif-rparen', get next token
    (nreverse parmlist)))

(defun hif-place-macro-invocation (ident)
  (let ((parmlist (hif-get-argument-list)))
    `(hif-invoke (quote ,ident) (quote ,parmlist))))

(defun hif-string-concatenation ()
  "Parse concatenated strings: string | strings string."
  (let ((result (substring-no-properties hif-token)))
    (while (stringp (hif-nexttoken))
      (setq result (concat
                    (substring result 0 -1)    ; remove trailing '"'
                    (substring hif-token 1)))) ; remove leading  '"'
    result))

(defun hif-define-macro (_parmlist _token-body)
  "A marker for defined macro with arguments.
This macro cannot be evaluated alone without parameters input."
  ;;TODO: input arguments at run time, use minibuffer to query all arguments
  (error
   "Argumented macro cannot be evaluated without passing any parameter"))

(defun hif-stringify (a)
  "Stringify a number, string or symbol."
  (cond
   ((numberp a)
    (number-to-string a))
   ((atom a)
    (symbol-name a))
   ((stringp a)
    (concat "\"" a "\""))
   (t
    (error "Invalid token to stringify"))))

(defun intern-safe (str)
  (if (stringp str)
      (intern str)))

(defun hif-token-concat (a b)
  "Concatenate two tokens into a longer token.
Currently support only simple token concatenation.  Also support weird (but
valid) token concatenation like `>' ## `>' becomes `>>'.  Here we take care only
those that can be evaluated during preprocessing time and ignore all those that
can only be evaluated at C(++) runtime (like `++', `--' and `+='...)."
  (if (or (memq a hif-valid-token-list)
          (memq b hif-valid-token-list))
      (let* ((ra (car (rassq a hif-token-alist)))
             (rb (car (rassq b hif-token-alist)))
             (result (and ra rb
                          (cdr (assoc (concat ra rb) hif-token-alist)))))
        (or result
            ;;(error "Invalid token to concatenate")
            (error "Concatenating \"%s\" and \"%s\" does not give a valid \
preprocessing token"
                   (or ra (symbol-name a))
                   (or rb (symbol-name b)))))
    (intern-safe (concat (hif-stringify a)
                         (hif-stringify b)))))

(defun hif-mathify (val)
  "Treat VAL as a number: if it's t or nil, use 1 or 0."
  (cond ((eq val t) 1)
	((null val) 0)
	(t val)))

(defun hif-conditional (a b c)
  (if (not (zerop (hif-mathify a))) (hif-mathify b) (hif-mathify c)))
(defun hif-and (a b)
  (and (not (zerop (hif-mathify a))) (not (zerop (hif-mathify b)))))
(defun hif-or (a b)
  (or (not (zerop (hif-mathify a))) (not (zerop (hif-mathify b)))))
(defun hif-not (a)
  (zerop (hif-mathify a)))
(defun hif-lognot (a)
  (lognot (hif-mathify a)))

(defmacro hif-mathify-binop (fun)
  `(lambda (a b)
     ,(format "Like `%s' but treat t and nil as 1 and 0." fun)
     (,fun (hif-mathify a) (hif-mathify b))))

(defun hif-shiftleft (a b)
  (setq a (hif-mathify a))
  (setq b (hif-mathify b))
  (if (< a 0)
      (ash a b)
    (lsh a b)))

(defun hif-shiftright (a b)
  (setq a (hif-mathify a))
  (setq b (hif-mathify b))
  (if (< a 0)
      (ash a (- b))
    (lsh a (- b))))


(defalias 'hif-multiply      (hif-mathify-binop *))
(defalias 'hif-divide        (hif-mathify-binop /))
(defalias 'hif-modulo        (hif-mathify-binop %))
(defalias 'hif-plus          (hif-mathify-binop +))
(defalias 'hif-minus         (hif-mathify-binop -))
(defalias 'hif-equal         (hif-mathify-binop =))
(defalias 'hif-notequal      (hif-mathify-binop /=))
(defalias 'hif-greater       (hif-mathify-binop >))
(defalias 'hif-less          (hif-mathify-binop <))
(defalias 'hif-greater-equal (hif-mathify-binop >=))
(defalias 'hif-less-equal    (hif-mathify-binop <=))
(defalias 'hif-logior        (hif-mathify-binop logior))
(defalias 'hif-logxor        (hif-mathify-binop logxor))
(defalias 'hif-logand        (hif-mathify-binop logand))


(defun hif-comma (&rest expr)
  "Evaluate a list of EXPR, return the result of the last item."
  (let ((result nil))
    (dolist (e expr)
      (ignore-errors
        (setq result (funcall hide-ifdef-evaluator e))))
    result))

(defun hif-token-stringification (l)
  "Scan token list for `hif-stringify' ('#') token and stringify the next token."
  (let (result)
    (while l
      (push (if (eq (car l) 'hif-stringify)
                (prog1
                    (if (cadr l)
                        (hif-stringify (cadr l))
                      (error "No token to stringify"))
                  (setq l (cdr l)))
              (car l))
            result)
      (setq l (cdr l)))
    (nreverse result)))

(defun hif-token-concatenation (l)
  "Scan token list for `hif-token-concat' ('##') token and concatenate two tokens."
  (let ((prev nil)
        result)
    (while l
      (while (eq (car l) 'hif-token-concat)
        (unless prev
          (error "No token before ## to concatenate"))
        (unless (cdr l)
          (error "No token after ## to concatenate"))
        (setq prev (hif-token-concat prev (cadr l)))
        (setq l (cddr l)))
      (if prev
          (setq result (append result (list prev))))
      (setq prev (car l)
            l (cdr l)))
    (if prev
        (append result (list prev))
      result)))

(defun hif-delimit (lis atom)
  (nconc (mapcan (lambda (l) (list l atom))
                 (butlast lis))
         (last lis)))

;; Perform token replacement:
(defun hif-macro-supply-arguments (macro-name actual-parms)
  "Expand a macro call, replace ACTUAL-PARMS in the macro body."
  (let* ((SA                   (assoc macro-name hide-ifdef-env))
         (macro                (and SA
                                    (cdr SA)
                                    (eq (cadr SA) 'hif-define-macro)
                                    (cddr SA)))
         (formal-parms         (and macro (car macro)))
         (macro-body           (and macro (cadr macro)))
         actual-count
         formal-count
         formal
         etc)

    (when (and actual-parms formal-parms macro-body)
      ;; For each actual parameter, evaluate each one and associate it
      ;; with an actual parameter, put it into local table and finally
      ;; evaluate the macro body.
      (if (setq etc (eq (car formal-parms) 'hif-etc))
          ;; Take care of `hif-etc' first. Prefix `hif-comma' back if needed.
          (setq formal-parms (cdr formal-parms)))
      (setq formal-count (length formal-parms)
            actual-count (length actual-parms))

      (if (> formal-count actual-count)
          (error "Too few parameters for macro %S" macro-name)
        (if (< formal-count actual-count)
            (or etc
                (error "Too many parameters for macro %S" macro-name))))

      ;; Perform token replacement on the MACRO-BODY with the parameters
      (while (setq formal (pop formal-parms))
        ;; Prevent repetitive substitution, thus cannot use `subst'
        ;; for example:
        ;; #define mac(a,b) (a+b)
        ;; #define testmac mac(b,y)
        ;; testmac should expand to (b+y): replace of argument a and b
        ;; occurs simultaneously, not sequentially. If sequentially,
        ;; according to the argument order, it will become:
        ;; 1. formal parm #1 'a' replaced by actual parm 'b', thus (a+b)
        ;;    becomes (b+b)
        ;; 2. formal parm #2 'b' replaced by actual parm 'y', thus (b+b)
        ;;    becomes (y+y).
        (setq macro-body
              ;; Unlike `subst', `substitute' replace only the top level
              ;; instead of the whole tree; more importantly, it's not
              ;; destructive.
              (cl-substitute (if (and etc (null formal-parms))
                                 (hif-delimit actual-parms 'hif-comma)
                               (car actual-parms))
                             formal macro-body))
        (setq actual-parms (cdr actual-parms)))

      ;; Replacement completed, flatten the whole token list
      (setq macro-body (hif-flatten macro-body))

      ;; Stringification and token concatenation happens here
      (hif-token-concatenation (hif-token-stringification macro-body)))))

(defun hif-invoke (macro-name actual-parms)
  "Invoke a macro by expanding it, reparse macro-body and finally invoke it."
  ;; Reparse the macro body and evaluate it
  (funcall hide-ifdef-evaluator
           (hif-parse-exp
            (hif-macro-supply-arguments macro-name actual-parms)
            macro-name)))

;;;----------- end of parser -----------------------


(defun hif-canonicalize-tokens (regexp) ; For debugging
  "Return the expanded result of the scanned tokens."
  (save-excursion
    (re-search-forward regexp)
    (let* ((curr-regexp (match-string 0))
           (defined (string-match hif-ifxdef-regexp curr-regexp))
           (negate (and defined
                        (string= (match-string 2 curr-regexp) "n")))
           (hif-simple-token-only nil) ;; Dynamic binding var for `hif-tokenize'
           (tokens (hif-tokenize (point)
                                 (progn (hif-end-of-line) (point)))))
      (if defined
          (setq tokens (list 'hif-defined tokens)))
      (if negate
          (setq tokens (list 'hif-not tokens)))
      tokens)))

(defun hif-canonicalize (regexp)
  "Return a Lisp expression for its condition by scanning current buffer.
Do this when cursor is at the beginning of `regexp' (i.e. #ifX)."
  (let ((case-fold-search nil))
    (save-excursion
      (re-search-forward regexp)
      (let* ((curr-regexp (match-string 0))
             (defined (string-match hif-ifxdef-regexp curr-regexp))
             (negate (and defined
                          (string= (match-string 2 curr-regexp) "n")))
             (hif-simple-token-only nil) ; Dynamic binding for `hif-tokenize'
             (tokens (hif-tokenize (point)
                                   (progn (hif-end-of-line) (point)))))
        (if defined
            (setq tokens (list 'hif-defined tokens)))
        (if negate
            (setq tokens (list 'hif-not tokens)))
        (hif-parse-exp tokens)))))

(defun hif-find-any-ifX ()
  "Move to next #if..., or #ifndef, at point or after."
  ;; (message "find ifX at %d" (point))
  (prog1
      (re-search-forward hif-ifx-regexp (point-max) t)
    (beginning-of-line)))


(defun hif-find-next-relevant ()
  "Move to next #if..., #elif..., #else, or #endif, after the current line."
  ;; (message "hif-find-next-relevant at %d" (point))
  (end-of-line)
  ;; Avoid infinite recursion by only going to line-beginning if match found
  (if (re-search-forward hif-ifx-else-endif-regexp (point-max) t)
      (beginning-of-line)))

(defun hif-find-previous-relevant ()
  "Move to previous #if..., #else, or #endif, before the current line."
  ;; (message "hif-find-previous-relevant at %d" (point))
  (beginning-of-line)
  ;; Avoid infinite recursion by only going to line-beginning if match found
  (if (re-search-backward hif-ifx-else-endif-regexp (point-min) t)
     (beginning-of-line)))


(defun hif-looking-at-ifX ()
  (looking-at hif-ifx-regexp))   ; Should eventually see #if
(defun hif-looking-at-endif ()
  (looking-at hif-endif-regexp))
(defun hif-looking-at-else ()
  (looking-at hif-else-regexp))

(defun hif-looking-at-elif ()
  (looking-at hif-elif-regexp))


(defun hif-ifdef-to-endif ()
  "If positioned at #ifX, #elif, or #else form, skip to corresponding #endif."
  ;; (message "hif-ifdef-to-endif at %d" (point)) (sit-for 1)
  (hif-find-next-relevant)
  (cond ((hif-looking-at-ifX)
         (hif-ifdef-to-endif) ; Find endif of nested if
         (hif-ifdef-to-endif)) ; Find outer endif or else
        ((hif-looking-at-elif)
         (hif-ifdef-to-endif))
        ((hif-looking-at-else)
         (hif-ifdef-to-endif)) ; Find endif following else
        ((hif-looking-at-endif)
         'done)
        (t
         (error "Mismatched #ifdef #endif pair"))))


(defun hif-endif-to-ifdef ()
  "If positioned at #endif form, skip backward to corresponding #ifX."
  ;; (message "hif-endif-to-ifdef at %d" (point))
  (let ((start (point)))
    (hif-find-previous-relevant)
    (if (= start (point))
        (error "Mismatched #ifdef #endif pair")))
  (cond ((hif-looking-at-endif)
         (hif-endif-to-ifdef) ; Find beginning of nested if
         (hif-endif-to-ifdef)) ; Find beginning of outer if or else
        ((hif-looking-at-elif)
         (hif-endif-to-ifdef))
        ((hif-looking-at-else)
         (hif-endif-to-ifdef))
        ((hif-looking-at-ifX)
         'done)
        (t
         (error "Mismatched #endif"))))                 ; never gets here


(defun forward-ifdef (&optional arg)
  "Move point to beginning of line of the next ifdef-endif.
With argument, do this that many times."
  (interactive "p")
  (or arg (setq arg 1))
  (if (< arg 0) (backward-ifdef (- arg))
    (while (< 0 arg)
      (setq arg (- arg))
      (let ((start (point)))
	(unless (hif-looking-at-ifX)
	  (hif-find-next-relevant))
	(if (hif-looking-at-ifX)
	    (hif-ifdef-to-endif)
	  (goto-char start)
	  (error "No following #ifdef"))))))


(defun backward-ifdef (&optional arg)
  "Move point to beginning of the previous ifdef-endif.
With argument, do this that many times."
  (interactive "p")
  (or arg (setq arg 1))
  (if (< arg 0) (forward-ifdef (- arg))
    (while (< 0 arg)
      (cl-decf arg)
      (beginning-of-line)
      (let ((start (point)))
	(unless (hif-looking-at-endif)
	  (hif-find-previous-relevant))
	(if (hif-looking-at-endif)
	    (hif-endif-to-ifdef)
	  (goto-char start)
	  (error "No previous #ifdef"))))))


(defun down-ifdef ()
  "Move point to beginning of nested ifdef or else-part."
    (interactive)
    (let ((start (point)))
      (hif-find-next-relevant)
      (if (or (hif-looking-at-ifX) (hif-looking-at-else))
	  ()
	(goto-char start)
	(error "No following #ifdef"))))


(defun up-ifdef ()
  "Move point to beginning of enclosing ifdef or else-part."
  (interactive)
  (beginning-of-line)
  (let ((start (point)))
    (unless (hif-looking-at-endif)
      (hif-find-previous-relevant))
    (if (hif-looking-at-endif)
	(hif-endif-to-ifdef))
      (if (= start (point))
	  (error "No previous #ifdef"))))

(defun next-ifdef (&optional arg)
  "Move to the beginning of the next #ifX, #else, or #endif.
With argument, do this that many times."
  (interactive "p")
  (or arg (setq arg 1))
  (if (< arg 0) (previous-ifdef (- arg))
    (while (< 0 arg)
      (cl-decf arg)
      (hif-find-next-relevant)
      (when (eolp)
	(beginning-of-line)
	(error "No following #ifdefs, #elses, or #endifs")))))

(defun previous-ifdef (&optional arg)
  "Move to the beginning of the previous #ifX, #else, or #endif.
With argument, do this that many times."
  (interactive "p")
  (or arg (setq arg 1))
  (if (< arg 0) (next-ifdef (- arg))
    (while (< 0 arg)
      (cl-decf arg)
      (let ((start (point)))
	(hif-find-previous-relevant)
	(if (= start (point))
	    (error "No previous #ifdefs, #elses, or #endifs"))))))


;;===%%SF%% parsing (End)  ===


;;===%%SF%% hide-ifdef-hiding (Start)  ===


;; A range is a structure with four components:
;; START       The start of the range. (beginning of line)
;; ELSE        The else marker (beginning of line)
;; END         The end of the range.  (beginning of line)
;; ELIF        A sequence of #elif markers (beginning of line)

(defsubst hif-make-range (start end &optional else elif)
  (list start else end elif))

(defsubst hif-range-start (range) (elt range 0))
(defsubst hif-range-else (range) (elt range 1))
(defsubst hif-range-end (range) (elt range 2))
(defsubst hif-range-elif (range) (elt range 3))


;; Find-Range
;; The workhorse, it delimits the #if region.  Reasonably simple:
;; Skip until an #else or #endif is found, remembering positions.  If
;; an #else was found, skip some more, looking for the true #endif.

(defun hif-find-range ()
  "Return a Range structure describing the current #if region.
Point is left unchanged."
  ;; (message "hif-find-range at %d" (point))
  (save-excursion
    (beginning-of-line)
    (let ((start (point))
          (elif nil)
          (else nil)
          (end nil))
      ;; Part one.  Look for either #elif, #else or #endif.
      ;; This loop-and-a-half dedicated to E. Dijkstra.
      (while (and (not else) (not end))
        (while (progn
                 (hif-find-next-relevant)
                 (hif-looking-at-ifX))            ; Skip nested ifdef
          (hif-ifdef-to-endif))
        ;; Found either a #else, #elif, or an #endif.
        (cond ((hif-looking-at-elif)
               (setq elif (nconc elif (list (point)))))
              ((hif-looking-at-else)
               (setq else (point)))
              (t
               (setq end (point)))))
      ;; If found #else, look for #endif.
      (when else
        (while (progn
                 (hif-find-next-relevant)
                 (hif-looking-at-ifX))  ; Skip nested ifdef
          (hif-ifdef-to-endif))
        (if (hif-looking-at-else)
            (error "Found two elses in a row?  Broken!"))
        (setq end (point)))            ; (line-end-position)
      (hif-make-range start end else elif))))


;; A bit slimy.

(defun hif-hide-line (point)
  "Hide the line containing point.
Does nothing if `hide-ifdef-lines' is nil."
  (when hide-ifdef-lines
    (save-excursion
      (goto-char point)
      (hide-ifdef-region-internal
       (line-beginning-position) (progn (hif-end-of-line) (point))))))


;;  Hif-Possibly-Hide
;;  There are four cases.  The #ifX expression is "taken" if it
;;  the hide-ifdef-evaluator returns T.  Presumably, this means the code
;;  inside the #ifdef would be included when the program was
;;  compiled.
;;
;;  Case 1:  #ifX taken, and there's an #else.
;;     The #else part must be hidden.  The #if (then) part must be
;;     processed for nested #ifX's.
;;  Case 2:  #ifX taken, and there's no #else.
;;     The #if part must be processed for nested #ifX's.
;;  Case 3:  #ifX not taken, and there's an #elif
;;     The #if part must be hidden, and then evaluate
;;     the #elif condition like a new #ifX.
;;  Case 4:  #ifX not taken, and there's just an #else.
;;     The #if part must be hidden.  The #else part must be processed
;;     for nested #ifs.
;;  Case 5:  #ifX not taken, and there's no #else.
;;     The #ifX part must be hidden.
;;
;;  Further processing is done by narrowing to the relevant region
;;  and just recursively calling hide-ifdef-guts.
;;
;;  When hif-possibly-hide returns, point is at the end of the
;;  possibly-hidden range.

(defvar hif-recurse-level 0)

(defun hif-recurse-on (start end &optional dont-go-eol)
  "Call `hide-ifdef-guts' after narrowing to end of START line and END line."
  (save-excursion
    (save-restriction
      (goto-char start)
      (unless dont-go-eol
        (end-of-line))
      (narrow-to-region (point) end)
      (let ((hif-recurse-level (1+ hif-recurse-level)))
        (hide-ifdef-guts)))))

(defun hif-possibly-hide (expand-reinclusion)
  "Called at #ifX expression, this hides those parts that should be hidden.
It uses the judgment of `hide-ifdef-evaluator'.  EXPAND-REINCLUSION is a flag
indicating that we should expand the #ifdef even if it should be hidden.
Refer to `hide-ifdef-expand-reinclusion-protection' for more details."
  ;; (message "hif-possibly-hide") (sit-for 1)
  (let* ((case-fold-search nil)
         (test (hif-canonicalize hif-ifx-regexp))
         (range (hif-find-range))
         (elifs (hif-range-elif range))
         (if-part t) ; Everytime we start from if-part
         (complete nil))
    ;; (message "test = %s" test) (sit-for 1)

    (hif-hide-line (hif-range-end range))
    (while (not complete)
      (if (and (not (and expand-reinclusion if-part))
               (hif-not (funcall hide-ifdef-evaluator test)))
          ;; ifX/elif is FALSE
          (if elifs
              ;; Case 3 - Hide the #ifX and eval #elif
              (let ((newstart (car elifs)))
                (hif-hide-line (hif-range-start range))
                (hide-ifdef-region (hif-range-start range)
                                   (1- newstart))
                (setcar range newstart)
                (goto-char newstart)
                (setq elifs (cdr elifs))
                (setq test (hif-canonicalize hif-elif-regexp)))

            ;; Check for #else
            (cond ((hif-range-else range)
                   ;; Case 4 - #else block visible
                   (hif-hide-line (hif-range-else range))
                   (hide-ifdef-region (hif-range-start range)
                                      (1- (hif-range-else range)))
                   (hif-recurse-on (hif-range-else range)
                                   (hif-range-end range)))
                  (t
                   ;; Case 5 - No #else block, hide #ifX
                   (hide-ifdef-region (point)
                                      (1- (hif-range-end range)))))
            (setq complete t))

        ;; ifX/elif is TRUE
        (cond (elifs
               ;; Luke fix: distinguish from #elif..#elif to #elif..#else
               (let ((elif (car elifs)))
                 ;; hide all elifs
                 (hif-hide-line elif)
                 (hide-ifdef-region elif (1- (hif-range-end range)))
                 (hif-recurse-on (hif-range-start range)
                                 elif)))
              ((hif-range-else range)
               ;; Case 1 - Hide #elif and #else blocks, recurse #ifX
               (hif-hide-line (hif-range-else range))
               (hide-ifdef-region (hif-range-else range)
                                  (1- (hif-range-end range)))
               (hif-recurse-on (hif-range-start range)
                               (hif-range-else range)))
              (t
               ;; Case 2 - No #else, just recurse #ifX
               (hif-recurse-on (hif-range-start range)
                               (hif-range-end range))))
        (setq complete t))
      (setq if-part nil))

    ;; complete = t
    (hif-hide-line (hif-range-start range)) ; Always hide start.
    (goto-char (hif-range-end range))
    (end-of-line)))

(defun hif-evaluate-region (start end)
  (let* ((tokens (ignore-errors ; Prevent C statement things like
                                ; 'do { ... } while (0)'
                   (hif-tokenize start end)))
         (expr (and tokens
                    (condition-case nil
                        (hif-parse-exp tokens)
                      (error
                       tokens))))
         (result (funcall hide-ifdef-evaluator expr)))
    result))

(defun hif-evaluate-macro (rstart rend)
  "Evaluate the macro expansion result for the active region.
If no region active, find the current #ifdefs and evaluate the result.
Currently it supports only math calculations, strings or argumented macros can
not be expanded."
  (interactive
   (if (use-region-p)
       (list (region-beginning) (region-end))
     '(nil nil)))
  (let ((case-fold-search nil))
    (save-excursion
      (unless (use-region-p)
        (setq rstart nil rend nil)
        (beginning-of-line)
        (when (and (re-search-forward hif-macro-expr-prefix-regexp nil t)
                   (string= "define" (match-string 2)))
          (re-search-forward hif-macroref-regexp nil t)))
      (let* ((start (or rstart (point)))
             (end   (or rend (progn (hif-end-of-line) (point))))
             (defined nil)
             (simple 't)
             (tokens (ignore-errors ; Prevent C statement things like
                                        ; 'do { ... } while (0)'
                       (hif-tokenize start end)))
             (expr (or (and (<= (length tokens) 1) ; Simple token
                            (setq defined (assoc (car tokens) hide-ifdef-env))
                            (setq simple (atom (hif-lookup (car tokens))))
                            (hif-lookup (car tokens)))
                       (and tokens
                            (condition-case nil
                                (hif-parse-exp tokens)
                              (error
                               nil)))))
             (result (funcall hide-ifdef-evaluator expr))
             (exprstring (replace-regexp-in-string
                          ;; Trim off leading/trailing whites
                          "^[ \t]*\\([^ \t]+\\)[ \t]*" "\\1"
                          (replace-regexp-in-string
                           "\\(//.*\\)" "" ; Trim off end-of-line comments
                           (buffer-substring-no-properties start end)))))
        (cond
         ((and (<= (length tokens) 1) simple) ; Simple token
          (if defined
              (message "%S <= `%s'" result exprstring)
            (message "`%s' is not defined" exprstring)))
         ((integerp result)
          (if (or (= 0 result) (= 1 result))
              (message "%S <= `%s'" result exprstring)
            (message "%S (0x%x) <= `%s'" result result exprstring)))
         ((null result) (message "%S <= `%s'" 'false exprstring))
         ((eq t result) (message "%S <= `%s'" 'true exprstring))
         (t (message "%S <= `%s'" result exprstring)))
        result))))

(defun hif-parse-macro-arglist (str)
  "Parse argument list formatted as `( arg1 [ , argn] [...] )'.
The `...' is also included.  Return a list of the arguments, if `...' exists the
first arg will be `hif-etc'."
  (let* ((hif-simple-token-only nil) ; Dynamic binding var for `hif-tokenize'
         (tokenlist
          (cdr (hif-tokenize
                (- (point) (length str)) (point)))) ; Remove `hif-lparen'
         etc result token)
    (while (not (eq (setq token (pop tokenlist)) 'hif-rparen))
      (cond
       ((eq token 'hif-etc)
        (setq etc t))
       ((eq token 'hif-comma)
        t)
       (t
        (push token result))))
    (if etc
        (cons 'hif-etc (nreverse result))
      (nreverse result))))

;; The original version of hideif evaluates the macro early and store the
;; final values for the defined macro into the symbol database (aka
;; `hide-ifdef-env'). The evaluation process is "strings -> tokens -> parsed
;; tree -> [value]". (The square bracket refers to what's stored in in our
;; `hide-ifdef-env'.)
;;
;; This forbids the evaluation of an argumented macro since the parameters
;; are applied at run time. In order to support argumented macro I then
;; postponed the evaluation process one stage and store the "parsed tree"
;; into symbol database. The evaluation process was then "strings -> tokens
;; -> [parsed tree] -> value". Hideif therefore run slower since it need to
;; evaluate the parsed tree everytime when trying to expand the symbol. These
;; temporarily code changes are obsolete and not in Emacs source repository.
;;
;; Furthermore, CPP did allow partial expression to be defined in several
;; macros and later got concatenated into a complete expression and then
;; evaluate it. In order to match this behavior I had to postpone one stage
;; further, otherwise those partial expression will be fail on parsing and
;; we'll miss all macros that reference it. The evaluation process thus
;; became "strings -> [tokens] -> parsed tree -> value." This degraded the
;; performance since we need to parse tokens and evaluate them everytime
;; when that symbol is referenced.
;;
;; In real cases I found a lot portion of macros are "simple macros" that
;; expand to literals like integers or other symbols. In order to enhance
;; the performance I use this `hif-simple-token-only' to notify my code and
;; save the final [value] into symbol database. [lukelee]

(defun hif-find-define (&optional min max)
  "Parse texts and retrieve all defines within the region MIN and MAX."
  (interactive)
  (and min (goto-char min))
  (and (re-search-forward hif-define-regexp max t)
       (or
        (let* ((defining (string= "define" (match-string 2)))
               (name (and (re-search-forward hif-macroref-regexp max t)
                          (match-string 1)))
               (parmlist (and (match-string 3) ; First arg id found
                              (hif-parse-macro-arglist (match-string 2)))))
          (if defining
              ;; Ignore name (still need to return 't), or define the name
              (or (and hide-ifdef-exclude-define-regexp
                       (string-match hide-ifdef-exclude-define-regexp
                                     name))

                  (let* ((start (point))
                         (end   (progn (hif-end-of-line) (point)))
                         (hif-simple-token-only nil) ; Dynamic binding
                         (tokens
                          (and name
                               ;; `hif-simple-token-only' is set/clear
                               ;; only in this block
                               (condition-case nil
                                   ;; Prevent C statements like
                                   ;; 'do { ... } while (0)'
                                   (hif-tokenize start end)
                                 (error
                                  ;; We can't just return nil here since
                                  ;; this will stop hideif from searching
                                  ;; for more #defines.
                                  (setq hif-simple-token-only t)
                                  (buffer-substring-no-properties
                                   start end)))))
                         ;; For simple tokens we save only the parsed result;
                         ;; otherwise we save the tokens and parse it after
                         ;; parameter replacement
                         (expr (and tokens
                                    ;; `hif-simple-token-only' is checked only
                                    ;; here.
                                    (or (and hif-simple-token-only
                                             (listp tokens)
                                             (= (length tokens) 1)
                                             (hif-parse-exp tokens))
                                        `(hif-define-macro ,parmlist
                                                           ,tokens))))
                         (SA (and name
                                  (assoc (intern name) hide-ifdef-env))))
                    (and name
                         (if SA
                             (or (setcdr SA expr) t)
                           ;; Lazy evaluation, eval only if hif-lookup find it.
                           ;; Define it anyway, even if nil it's still in list
                           ;; and therefore considered defined.
                           (push (cons (intern name) expr) hide-ifdef-env)))))
            ;; #undef
            (and name
                 (hif-undefine-symbol (intern name))))))
       t))


(defun hif-add-new-defines (&optional min max)
  "Scan and add all #define macros between MIN and MAX."
  (interactive)
  (save-excursion
    (save-restriction
      ;; (mark-region min max) ;; for debugging
      (while (hif-find-define min max)
        (setf min (point)))
      (if max (goto-char max)
        (goto-char (point-max))))))

(defun hide-ifdef-guts ()
  "Does most of the work of `hide-ifdefs'.
It does not do the work that's pointless to redo on a recursive entry."
  ;; (message "hide-ifdef-guts")
  (save-excursion
    (let* ((case-fold-search t) ; Ignore case for `hide-ifdef-header-regexp'
           (expand-header (and hide-ifdef-expand-reinclusion-protection
                               (string-match hide-ifdef-header-regexp
                                             (buffer-file-name))
                               (zerop hif-recurse-level)))
           (case-fold-search nil)
           min max)
      (goto-char (point-min))
      (setf min (point))
      (cl-loop do
               (setf max (hif-find-any-ifX))
               (hif-add-new-defines min max)
               (if max
                   (hif-possibly-hide expand-header))
               (setf min (point))
               while max))))

;;===%%SF%% hide-ifdef-hiding (End)  ===


;;===%%SF%% exports (Start)  ===

(defun hide-ifdef-toggle-read-only ()
  "Toggle `hide-ifdef-read-only'."
  (interactive)
  (setq hide-ifdef-read-only (not hide-ifdef-read-only))
  (message "Hide-Read-Only %s"
	   (if hide-ifdef-read-only "ON" "OFF"))
  (if hide-ifdef-hiding
      (setq buffer-read-only (or hide-ifdef-read-only
                                 hif-outside-read-only)))
  (force-mode-line-update))

(defun hide-ifdef-toggle-outside-read-only ()
  "Replacement for `read-only-mode' within Hide-Ifdef mode."
  (interactive)
  (setq hif-outside-read-only (not hif-outside-read-only))
  (message "Read only %s"
	   (if hif-outside-read-only "ON" "OFF"))
  (setq buffer-read-only
	(or (and hide-ifdef-hiding hide-ifdef-read-only)
	    hif-outside-read-only))
  (force-mode-line-update))

(defun hide-ifdef-toggle-shadowing ()
  "Toggle shadowing."
  (interactive)
  (set (make-local-variable 'hide-ifdef-shadow) (not hide-ifdef-shadow))
  (message "Shadowing %s" (if hide-ifdef-shadow "ON" "OFF"))
  (save-restriction
    (widen)
    (dolist (overlay (overlays-in (point-min) (point-max)))
      (when (overlay-get overlay 'hide-ifdef)
	(if hide-ifdef-shadow
	    (progn
	      (overlay-put overlay 'invisible nil)
	      (overlay-put overlay 'face 'hide-ifdef-shadow))
	  (overlay-put overlay 'face nil)
	  (overlay-put overlay 'invisible 'hide-ifdef))))))

(defun hide-ifdef-define (var &optional val)
  "Define a VAR to VAL (default 1) in `hide-ifdef-env'.
This allows #ifdef VAR to be hidden."
  (interactive
   (let* ((default (save-excursion
                     (beginning-of-line)
                     (cond ((looking-at hif-ifx-else-endif-regexp)
                            (forward-word-strictly 2)
                            (current-word 'strict))
                           (t
                            nil))))
          (var (read-minibuffer "Define what? " default))
          (val (read-from-minibuffer (format "Set %s to? (default 1): " var)
                                     nil nil t nil "1")))
     (list var val)))
  (hif-set-var var (or val 1))
  (message "%s set to %s" var (or val 1))
  (sleep-for 1)
  (if hide-ifdef-hiding (hide-ifdefs)))

(defun hif-undefine-symbol (var)
  (setq hide-ifdef-env
        (delete (assoc var hide-ifdef-env) hide-ifdef-env)))

(defun hide-ifdef-undef (start end)
  "Undefine a VAR so that #ifdef VAR would not be included."
  (interactive
   (if (use-region-p)
       (list (region-beginning) (region-end))
     '(nil nil)))
  (let* ((symstr
          (or (and (number-or-marker-p start)
                   (number-or-marker-p end)
                   (buffer-substring-no-properties start end))
              (read-string "Undefine what? " (current-word))))
         (sym (and symstr
                   (intern symstr))))
    (if (zerop (hif-defined sym))
        (message "`%s' not defined, no need to undefine it" symstr)
      (hif-undefine-symbol sym)
      (if hide-ifdef-hiding (hide-ifdefs))
      (message "`%S' undefined" sym))))

(defun hide-ifdefs (&optional nomsg)
  "Hide the contents of some #ifdefs.
Assume that defined symbols have been added to `hide-ifdef-env'.
The text hidden is the text that would not be included by the C
preprocessor if it were given the file with those symbols defined.
With prefix command presents it will also hide the #ifdefs themselves.

Turn off hiding by calling `show-ifdefs'."

  (interactive)
  (let ((hide-ifdef-lines current-prefix-arg))
    (or nomsg
        (message "Hiding..."))
    (setq hif-outside-read-only buffer-read-only)
    (unless hide-ifdef-mode (hide-ifdef-mode 1)) ; Turn on hide-ifdef-mode
    (if hide-ifdef-hiding
        (show-ifdefs))                    ; Otherwise, deep confusion.
    (setq hide-ifdef-hiding t)
    (hide-ifdef-guts)
    (setq buffer-read-only (or hide-ifdef-read-only hif-outside-read-only))
    (or nomsg
        (message "Hiding done"))))


(defun show-ifdefs ()
  "Cancel the effects of `hide-ifdef': show the contents of all #ifdefs."
  (interactive)
  (setq buffer-read-only hif-outside-read-only)
  (hif-show-all)
  (setq hide-ifdef-hiding nil))


(defun hif-find-ifdef-block ()
  "Utility to hide and show ifdef block.
Return as (TOP . BOTTOM) the extent of ifdef block."
  (let (max-bottom)
    (cons (save-excursion
            (beginning-of-line)
            (unless (or (hif-looking-at-else) (hif-looking-at-ifX))
              (up-ifdef))
            (prog1 (point)
              (hif-ifdef-to-endif)
              (setq max-bottom (1- (point)))))
          (save-excursion
            (beginning-of-line)
            (unless (hif-looking-at-endif)
              (hif-find-next-relevant))
            (while (hif-looking-at-ifX)
              (hif-ifdef-to-endif)
              (hif-find-next-relevant))
              (min max-bottom (1- (point)))))))


(defun hide-ifdef-block (&optional arg start end)
  "Hide the ifdef block (true or false part) enclosing or before the cursor.
With optional prefix argument ARG, also hide the #ifdefs themselves."
  (interactive "P\nr")
  (let ((hide-ifdef-lines arg))
    (if (use-region-p)
        (let ((hif-recurse-level (1+ hif-recurse-level)))
          (hif-recurse-on start end t)
          (setq mark-active nil))
      (unless hide-ifdef-mode (hide-ifdef-mode 1))
      (let ((top-bottom (hif-find-ifdef-block)))
        (hide-ifdef-region (car top-bottom) (cdr top-bottom))
        (when hide-ifdef-lines
          (hif-hide-line (car top-bottom))
          (hif-hide-line (1+ (cdr top-bottom))))
        (setq hide-ifdef-hiding t))
      (setq buffer-read-only
            (or hide-ifdef-read-only hif-outside-read-only)))))

(defun show-ifdef-block (&optional start end)
  "Show the ifdef block (true or false part) enclosing or before the cursor."
  (interactive
   (if (use-region-p)
       (list (region-beginning) (region-end))
     '(nil nil)))
  (if (and (number-or-marker-p start)
           (number-or-marker-p end))
      (progn
        (dolist (o (overlays-in start end))
          (if (overlay-get o 'hide-ifdef)
              (delete-overlay o)))
        (setq mark-active nil))
    (let ((top-bottom (condition-case nil
                          (hif-find-ifdef-block)
                        (error
                         nil)))
          (ovrs (overlays-in (max (point-min) (1- (point)))
                             (min (point-max) (1+ (point)))))
          (del nil))
      (if top-bottom
    (if hide-ifdef-lines
        (hif-show-ifdef-region
         (save-excursion
           (goto-char (car top-bottom)) (line-beginning-position))
         (save-excursion
           (goto-char (1+ (cdr top-bottom)))
           (hif-end-of-line) (point)))
      (setf del (hif-show-ifdef-region
                 (1- (car top-bottom)) (cdr top-bottom)))))
      (if (not (and top-bottom
                    del))
          (dolist (o ovrs)
            ;;(dolist (o (overlays-in (1- (point)) (1+ (point))))
            ;;   (if (overlay-get o 'hide-ifdef) (message "%S" o)))
            (if (overlay-get o 'hide-ifdef)
                (delete-overlay o)))))))


;;;  definition alist support

(defvar hide-ifdef-define-alist nil
  "A global assoc list of pre-defined symbol lists.")

(defun hif-compress-define-list (env)
  "Compress the define list ENV into a list of defined symbols only."
  (let ((new-defs nil))
    (dolist (def env new-defs)
      (if (hif-lookup (car def)) (push (car def) new-defs)))))

(defun hide-ifdef-set-define-alist (name)
  "Set the association for NAME to `hide-ifdef-env'."
  (interactive "SSet define list: ")
  (push (cons name (hif-compress-define-list hide-ifdef-env))
	hide-ifdef-define-alist))

(defun hide-ifdef-use-define-alist (name)
  "Set `hide-ifdef-env' to the define list specified by NAME."
  (interactive
   (list (completing-read "Use define list: "
			  (mapcar (lambda (x) (symbol-name (car x)))
                                  hide-ifdef-define-alist)
                          nil t)))
  (if (stringp name) (setq name (intern name)))
  (let ((define-list (assoc name hide-ifdef-define-alist)))
    (if define-list
	(setq hide-ifdef-env
	      (mapcar (lambda (arg) (cons arg t))
		      (cdr define-list)))
      (error "No define list for %s" name))
    (if hide-ifdef-hiding (hide-ifdefs))))

(provide 'hideif)

;;; hideif.el ends here

debug log:

solving 8086a28 ...
found 8086a28 in https://yhetil.org/emacs/alpine.DEB.2.20.1611101511530.21448@calancha-pc/
found 9fbb7d6 in https://git.savannah.gnu.org/cgit/emacs.git
preparing index
index prepared:
100644 9fbb7d6ad32448343b15f2604767899b16907a05	lisp/progmodes/hideif.el

applying [1/1] https://yhetil.org/emacs/alpine.DEB.2.20.1611101511530.21448@calancha-pc/
diff --git a/lisp/progmodes/hideif.el b/lisp/progmodes/hideif.el
index 9fbb7d6..8086a28 100644

Checking patch lisp/progmodes/hideif.el...
Applied patch lisp/progmodes/hideif.el cleanly.

index at:
100644 8086a2811b79ff4f1dd6d9c71cda9b3fd8d97ba3	lisp/progmodes/hideif.el

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