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;;; window.el --- GNU Emacs window commands aside from those written in C

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;; Copyright (C) 1985, 1989, 1992-1994, 2000-2013 Free Software
;; Foundation, Inc.
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;; Maintainer: FSF
;; Keywords: internal
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;; Package: emacs
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;; 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:

;; Window tree functions.

;;; Code:

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(defun internal--before-save-selected-window ()
  (cons (selected-window)
        ;; We save and restore all frames' selected windows, because
        ;; `select-window' can change the frame-selected-window of
        ;; whatever frame that window is in.  Each text terminal's
        ;; top-frame is preserved by putting it last in the list.
        (apply #'append
               (mapcar (lambda (terminal)
                         (let ((frames (frames-on-display-list terminal))
                               (top-frame (tty-top-frame terminal))
                               alist)
                           (if top-frame
                               (setq frames
                                     (cons top-frame
                                           (delq top-frame frames))))
                           (dolist (f frames)
                             (push (cons f (frame-selected-window f))
                                   alist))
                           alist))
                       (terminal-list)))))

(defun internal--after-save-selected-window (state)
  (dolist (elt (cdr state))
    (and (frame-live-p (car elt))
         (window-live-p (cdr elt))
         (set-frame-selected-window (car elt) (cdr elt) 'norecord)))
  (when (window-live-p (car state))
    (select-window (car state) 'norecord)))

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(defmacro save-selected-window (&rest body)
  "Execute BODY, then select the previously selected window.
The value returned is the value of the last form in BODY.

This macro saves and restores the selected window, as well as the
selected window in each frame.  If the previously selected window
is no longer live, then whatever window is selected at the end of
BODY remains selected.  If the previously selected window of some
frame is no longer live at the end of BODY, that frame's selected
window is left alone.

This macro saves and restores the current buffer, since otherwise
its normal operation could make a different buffer current.  The
order of recently selected windows and the buffer list ordering
are not altered by this macro (unless they are altered in BODY)."
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  (declare (indent 0) (debug t))
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  `(let ((save-selected-window--state (internal--before-save-selected-window)))
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     (save-current-buffer
       (unwind-protect
	   (progn ,@body)
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         (internal--after-save-selected-window save-selected-window--state)))))
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(defvar temp-buffer-window-setup-hook nil
  "Normal hook run by `with-temp-buffer-window' before buffer display.
This hook is run by `with-temp-buffer-window' with the buffer to be
displayed current.")

(defvar temp-buffer-window-show-hook nil
  "Normal hook run by `with-temp-buffer-window' after buffer display.
This hook is run by `with-temp-buffer-window' with the buffer
displayed and current and its window selected.")

(defun temp-buffer-window-setup (buffer-or-name)
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  "Set up temporary buffer specified by BUFFER-OR-NAME.
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Return the buffer."
  (let ((old-dir default-directory)
	(buffer (get-buffer-create buffer-or-name)))
    (with-current-buffer buffer
      (kill-all-local-variables)
      (setq default-directory old-dir)
      (delete-all-overlays)
      (setq buffer-read-only nil)
      (setq buffer-file-name nil)
      (setq buffer-undo-list t)
      (let ((inhibit-read-only t)
	    (inhibit-modification-hooks t))
	(erase-buffer)
	(run-hooks 'temp-buffer-window-setup-hook))
      ;; Return the buffer.
      buffer)))

(defun temp-buffer-window-show (&optional buffer action)
  "Show temporary buffer BUFFER in a window.
Return the window showing BUFFER.  Pass ACTION as action argument
to `display-buffer'."
  (let (window frame)
    (with-current-buffer buffer
      (set-buffer-modified-p nil)
      (setq buffer-read-only t)
      (goto-char (point-min))
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      (when (let ((window-combination-limit
		   ;; When `window-combination-limit' equals
		   ;; `temp-buffer' or `temp-buffer-resize' and
		   ;; `temp-buffer-resize-mode' is enabled in this
		   ;; buffer bind it to t so resizing steals space
		   ;; preferably from the window that was split.
		   (if (or (eq window-combination-limit 'temp-buffer)
			   (and (eq window-combination-limit
				    'temp-buffer-resize)
				temp-buffer-resize-mode))
		       t
		     window-combination-limit)))
	      (setq window (display-buffer buffer action)))
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	(setq frame (window-frame window))
	(unless (eq frame (selected-frame))
	  (raise-frame frame))
	(setq minibuffer-scroll-window window)
	(set-window-hscroll window 0)
	(with-selected-window window
	  (run-hooks 'temp-buffer-window-show-hook)
	  (when temp-buffer-resize-mode
	    (resize-temp-buffer-window window)))
	;; Return the window.
	window))))

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;; Doc is very similar to with-output-to-temp-buffer.
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(defmacro with-temp-buffer-window (buffer-or-name action quit-function &rest body)
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  "Bind `standard-output' to BUFFER-OR-NAME, eval BODY, show the buffer.
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BUFFER-OR-NAME must specify either a live buffer, or the name of a
buffer (if it does not exist, this macro creates it).
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This construct makes buffer BUFFER-OR-NAME empty before running BODY.
It does not make the buffer current for BODY.
Instead it binds `standard-output' to that buffer, so that output
generated with `prin1' and similar functions in BODY goes into
the buffer.
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At the end of BODY, this marks the specified buffer unmodified and
read-only, and displays it in a window (but does not select it, or make
the buffer current).  The display happens by calling `display-buffer'
with the ACTION argument.  If `temp-buffer-resize-mode' is enabled,
the relevant window shrinks automatically.
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This returns the value returned by BODY, unless QUIT-FUNCTION specifies
a function.  In that case, it runs the function with two arguments -
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the window showing the specified buffer and the value returned by
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BODY - and returns the value returned by that function.
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If the buffer is displayed on a new frame, the window manager may
decide to select that frame.  In that case, it's usually a good
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strategy if QUIT-FUNCTION selects the window showing the buffer
before reading any value from the minibuffer; for example, when
asking a `yes-or-no-p' question.
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This runs the hook `temp-buffer-window-setup-hook' before BODY,
with the specified buffer temporarily current.  It runs the
hook `temp-buffer-window-show-hook' after displaying the buffer,
with that buffer temporarily current, and the window that was used to
display it temporarily selected.

This construct is similar to `with-output-to-temp-buffer', but
runs different hooks.  In particular, it does not run
`temp-buffer-setup-hook', which usually puts the buffer in Help mode.
Also, it does not call `temp-buffer-show-function' (the ACTION
argument replaces this)."
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  (declare (debug t))
  (let ((buffer (make-symbol "buffer"))
	(window (make-symbol "window"))
	(value (make-symbol "value")))
    `(let* ((,buffer (temp-buffer-window-setup ,buffer-or-name))
	    (standard-output ,buffer)
	    ,window ,value)
       (with-current-buffer ,buffer
	 (setq ,value (progn ,@body))
	 (setq ,window (temp-buffer-window-show ,buffer ,action)))

       (if (functionp ,quit-function)
	   (funcall ,quit-function ,window ,value)
	 ,value))))

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;; The following two functions are like `window-next-sibling' and
;; `window-prev-sibling' but the WINDOW argument is _not_ optional (so
;; they don't substitute the selected window for nil), and they return
;; nil when WINDOW doesn't have a parent (like a frame's root window or
;; a minibuffer window).
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(defun window-right (window)
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  "Return WINDOW's right sibling.
Return nil if WINDOW is the root window of its frame.  WINDOW can
be any window."
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  (and window (window-parent window) (window-next-sibling window)))
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(defun window-left (window)
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  "Return WINDOW's left sibling.
Return nil if WINDOW is the root window of its frame.  WINDOW can
be any window."
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  (and window (window-parent window) (window-prev-sibling window)))
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(defun window-child (window)
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  "Return WINDOW's first child window.
WINDOW can be any window."
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  (or (window-top-child window) (window-left-child window)))
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(defun window-child-count (window)
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  "Return number of WINDOW's child windows.
WINDOW can be any window."
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  (let ((count 0))
    (when (and (windowp window) (setq window (window-child window)))
      (while window
	(setq count (1+ count))
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	(setq window (window-next-sibling window))))
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    count))

(defun window-last-child (window)
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  "Return last child window of WINDOW.
WINDOW can be any window."
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  (when (and (windowp window) (setq window (window-child window)))
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    (while (window-next-sibling window)
      (setq window (window-next-sibling window))))
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  window)

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(defun window-normalize-buffer (buffer-or-name)
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  "Return buffer specified by BUFFER-OR-NAME.
BUFFER-OR-NAME must be either a buffer or a string naming a live
buffer and defaults to the current buffer."
  (cond
   ((not buffer-or-name)
    (current-buffer))
   ((bufferp buffer-or-name)
    (if (buffer-live-p buffer-or-name)
	buffer-or-name
      (error "Buffer %s is not a live buffer" buffer-or-name)))
   ((get-buffer buffer-or-name))
   (t
    (error "No such buffer %s" buffer-or-name))))

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(defun window-normalize-frame (frame)
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  "Return frame specified by FRAME.
FRAME must be a live frame and defaults to the selected frame."
  (if frame
      (if (frame-live-p frame)
	  frame
	(error "%s is not a live frame" frame))
    (selected-frame)))

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(defun window-normalize-window (window &optional live-only)
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  "Return the window specified by WINDOW.
If WINDOW is nil, return the selected window.  Otherwise, if
WINDOW is a live or an internal window, return WINDOW; if
LIVE-ONLY is non-nil, return WINDOW for a live window only.
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Otherwise, signal an error."
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  (cond
   ((null window)
    (selected-window))
   (live-only
    (if (window-live-p window)
	window
      (error "%s is not a live window" window)))
   ((window-valid-p window)
    window)
   (t
    (error "%s is not a valid window" window))))
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(defvar ignore-window-parameters nil
  "If non-nil, standard functions ignore window parameters.
The functions currently affected by this are `split-window',
`delete-window', `delete-other-windows' and `other-window'.

An application may bind this to a non-nil value around calls to
these functions to inhibit processing of window parameters.")

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(defconst window-safe-min-height 1
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  "The absolute minimum number of lines of a window.
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Anything less might crash Emacs.")

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(defcustom window-min-height 4
  "The minimum number of lines of any window.
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The value has to accommodate a mode- or header-line if present.
A value less than `window-safe-min-height' is ignored.  The value
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of this variable is honored when windows are resized or split.

Applications should never rebind this variable.  To resize a
window to a height less than the one specified here, an
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application should instead call `window-resize' with a non-nil
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IGNORE argument.  In order to have `split-window' make a window
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shorter, explicitly specify the SIZE argument of that function."
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  :type 'integer
  :version "24.1"
  :group 'windows)

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(defconst window-safe-min-width 2
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  "The absolute minimum number of columns of a window.
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Anything less might crash Emacs.")

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(defcustom window-min-width 10
  "The minimum number of columns of any window.
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The value has to accommodate margins, fringes, or scrollbars if
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present.  A value less than `window-safe-min-width' is ignored.
The value of this variable is honored when windows are resized or
split.

Applications should never rebind this variable.  To resize a
window to a width less than the one specified here, an
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application should instead call `window-resize' with a non-nil
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IGNORE argument.  In order to have `split-window' make a window
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narrower, explicitly specify the SIZE argument of that function."
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  :type 'integer
  :version "24.1"
  :group 'windows)

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(defun window-combined-p (&optional window horizontal)
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  "Return non-nil if WINDOW has siblings in a given direction.
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WINDOW must be a valid window and defaults to the selected one.
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HORIZONTAL determines a direction for the window combination.
If HORIZONTAL is omitted or nil, return non-nil if WINDOW is part
of a vertical window combination.
If HORIZONTAL is non-nil, return non-nil if WINDOW is part of a
horizontal window combination."
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  (setq window (window-normalize-window window))
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  (let ((parent (window-parent window)))
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    (and parent
	 (if horizontal
	     (window-left-child parent)
	   (window-top-child parent)))))
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(defun window-combinations (window &optional horizontal)
  "Return largest number of windows vertically arranged within WINDOW.
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WINDOW must be a valid window and defaults to the selected one.
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If HORIZONTAL is non-nil, return the largest number of
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windows horizontally arranged within WINDOW."
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  (setq window (window-normalize-window window))
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  (cond
   ((window-live-p window)
    ;; If WINDOW is live, return 1.
    1)
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   ((if horizontal
	(window-left-child window)
      (window-top-child window))
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    ;; If WINDOW is iso-combined, return the sum of the values for all
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    ;; child windows of WINDOW.
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    (let ((child (window-child window))
	  (count 0))
      (while child
	(setq count
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	      (+ (window-combinations child horizontal)
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		 count))
	(setq child (window-right child)))
      count))
   (t
    ;; If WINDOW is not iso-combined, return the maximum value of any
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    ;; child window of WINDOW.
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    (let ((child (window-child window))
	  (count 1))
      (while child
	(setq count
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	      (max (window-combinations child horizontal)
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		   count))
	(setq child (window-right child)))
      count))))

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(defun walk-window-tree-1 (fun walk-window-tree-window any &optional sub-only)
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  "Helper function for `walk-window-tree' and `walk-window-subtree'."
  (let (walk-window-tree-buffer)
    (while walk-window-tree-window
      (setq walk-window-tree-buffer
	    (window-buffer walk-window-tree-window))
      (when (or walk-window-tree-buffer any)
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	(funcall fun walk-window-tree-window))
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      (unless walk-window-tree-buffer
	(walk-window-tree-1
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	 fun (window-left-child walk-window-tree-window) any)
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	(walk-window-tree-1
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	 fun (window-top-child walk-window-tree-window) any))
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      (if sub-only
	  (setq walk-window-tree-window nil)
	(setq walk-window-tree-window
	      (window-right walk-window-tree-window))))))

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(defun walk-window-tree (fun &optional frame any minibuf)
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  "Run function FUN on each live window of FRAME.
FUN must be a function with one argument - a window.  FRAME must
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be a live frame and defaults to the selected one.  ANY, if
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non-nil, means to run FUN on all live and internal windows of
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FRAME.

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Optional argument MINIBUF t means run FUN on FRAME's minibuffer
window even if it isn't active.  MINIBUF nil or omitted means run
FUN on FRAME's minibuffer window only if it's active.  In both
cases the minibuffer window must be part of FRAME.  MINIBUF
neither nil nor t means never run FUN on the minibuffer window.

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This function performs a pre-order, depth-first traversal of the
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window tree.  If FUN changes the window tree, the result is
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unpredictable."
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  (setq frame (window-normalize-frame frame))
  (walk-window-tree-1 fun (frame-root-window frame) any)
  (when (memq minibuf '(nil t))
    ;; Run FUN on FRAME's minibuffer window if requested.
    (let ((minibuffer-window (minibuffer-window frame)))
      (when (and (window-live-p minibuffer-window)
		 (eq (window-frame minibuffer-window) frame)
		 (or (eq minibuf t)
		     (minibuffer-window-active-p minibuffer-window)))
	(funcall fun minibuffer-window)))))
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(defun walk-window-subtree (fun &optional window any)
  "Run function FUN on the subtree of windows rooted at WINDOW.
WINDOW defaults to the selected window.  FUN must be a function
with one argument - a window.  By default, run FUN only on live
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windows of the subtree.  If the optional argument ANY is non-nil,
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run FUN on all live and internal windows of the subtree.  If
WINDOW is live, run FUN on WINDOW only.
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This function performs a pre-order, depth-first traversal of the
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subtree rooted at WINDOW.  If FUN changes that tree, the result
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is unpredictable."
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  (setq window (window-normalize-window window))
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  (walk-window-tree-1 fun window any t))
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(defun window-with-parameter (parameter &optional value frame any minibuf)
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  "Return first window on FRAME with PARAMETER non-nil.
FRAME defaults to the selected frame.  Optional argument VALUE
non-nil means only return a window whose window-parameter value
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for PARAMETER equals VALUE (comparison is done with `equal').
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Optional argument ANY non-nil means consider internal windows
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too.

Optional argument MINIBUF t means consider FRAME's minibuffer
window even if it isn't active.  MINIBUF nil or omitted means
consider FRAME's minibuffer window only if it's active.  In both
cases the minibuffer window must be part of FRAME.  MINIBUF
neither nil nor t means never consider the minibuffer window."
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  (let (this-value)
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    (catch 'found
      (walk-window-tree
       (lambda (window)
	 (when (and (setq this-value (window-parameter window parameter))
		    (or (not value) (equal value this-value)))
	   (throw 'found window)))
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       frame any minibuf))))
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;;; Atomic windows.
(defun window-atom-root (&optional window)
  "Return root of atomic window WINDOW is a part of.
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WINDOW must be a valid window and defaults to the selected one.
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Return nil if WINDOW is not part of an atomic window."
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  (setq window (window-normalize-window window))
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  (let (root)
    (while (and window (window-parameter window 'window-atom))
      (setq root window)
      (setq window (window-parent window)))
    root))

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(defun window-make-atom (window)
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  "Make WINDOW an atomic window.
WINDOW must be an internal window.  Return WINDOW."
  (if (not (window-child window))
      (error "Window %s is not an internal window" window)
    (walk-window-subtree
     (lambda (window)
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       (unless (window-parameter window 'window-atom)
	 (set-window-parameter window 'window-atom t)))
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     window t)
    window))

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(defun display-buffer-in-atom-window (buffer alist)
  "Display BUFFER in an atomic window.
This function displays BUFFER in a new window that will be
combined with an existing window to form an atomic window.  If
the existing window is already part of an atomic window, add the
new window to that atomic window.  Operations like `split-window'
or `delete-window', when applied to a constituent of an atomic
window, are applied atomically to the root of that atomic window.

ALIST is an association list of symbols and values.  The
following symbols can be used.

`window' specifies the existing window the new window shall be
  combined with.  Use `window-atom-root' to make the new window a
  sibling of an atomic window's root.  If an internal window is
  specified here, all children of that window become part of the
  atomic window too.  If no window is specified, the new window
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  becomes a sibling of the selected window.  By default, the
  `window-atom' parameter of the existing window is set to `main'
  provided it is live and was not set before.
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`side' denotes the side of the existing window where the new
  window shall be located.  Valid values are `below', `right',
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  `above' and `left'.  The default is `below'.  By default, the
  `window-atom' parameter of the new window is set to this value.
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The return value is the new window, nil when creating that window
failed."
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  (let* ((ignore-window-parameters t)
	 (window-combination-limit t)
	 (window-combination-resize 'atom)
	 (window (cdr (assq 'window alist)))
	 (side (cdr (assq 'side alist)))
	 (atom (when window (window-parameter window 'window-atom)))
	 root new)
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    (setq window (window-normalize-window window))
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    (setq root (window-atom-root window))
    ;; Split off new window.
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    (when (setq new (split-window window nil side))
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      (window-make-atom
       (if (and root (not (eq root window)))
	   ;; When WINDOW was part of an atomic window and we did not
	   ;; split its root, root atomic window at old root.
	   root
	 ;; Otherwise, root atomic window at WINDOW's new parent.
	 (window-parent window)))
      ;; Assign `window-atom' parameters, if needed.
      (when (and (not atom) (window-live-p window))
	(set-window-parameter window 'window-atom 'main))
      (set-window-parameter new 'window-atom side)
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      ;; Display BUFFER in NEW and return NEW.
      (window--display-buffer
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       buffer new 'window alist display-buffer-mark-dedicated))))
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(defun window--atom-check-1 (window)
  "Subroutine of `window--atom-check'."
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  (when window
    (if (window-parameter window 'window-atom)
	(let ((count 0))
	  (when (or (catch 'reset
		      (walk-window-subtree
		       (lambda (window)
			 (if (window-parameter window 'window-atom)
			     (setq count (1+ count))
			   (throw 'reset t)))
		       window t))
		    ;; count >= 1 must hold here.  If there's no other
		    ;; window around dissolve this atomic window.
		    (= count 1))
	    ;; Dissolve atomic window.
	    (walk-window-subtree
	     (lambda (window)
	       (set-window-parameter window 'window-atom nil))
	     window t)))
      ;; Check children.
      (unless (window-buffer window)
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	(window--atom-check-1 (window-left-child window))
	(window--atom-check-1 (window-top-child window))))
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    ;; Check right sibling
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    (window--atom-check-1 (window-right window))))
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(defun window--atom-check (&optional frame)
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  "Check atomicity of all windows on FRAME.
FRAME defaults to the selected frame.  If an atomic window is
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wrongly configured, reset the atomicity of all its windows on
FRAME to nil.  An atomic window is wrongly configured if it has
no child windows or one of its child windows is not atomic."
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  (window--atom-check-1 (frame-root-window frame)))
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;; Side windows.
(defvar window-sides '(left top right bottom)
  "Window sides.")

(defcustom window-sides-vertical nil
  "If non-nil, left and right side windows are full height.
Otherwise, top and bottom side windows are full width."
  :type 'boolean
  :group 'windows
  :version "24.1")

(defcustom window-sides-slots '(nil nil nil nil)
  "Maximum number of side window slots.
The value is a list of four elements specifying the number of
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side window slots on (in this order) the left, top, right and
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bottom side of each frame.  If an element is a number, this means
to display at most that many side windows on the corresponding
side.  If an element is nil, this means there's no bound on the
number of slots on that side."
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  :version "24.1"
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  :risky t
  :type
  '(list
    :value (nil nil nil nil)
    (choice
     :tag "Left"
     :help-echo "Maximum slots of left side window."
     :value nil
     :format "%[Left%] %v\n"
     (const :tag "Unlimited" :format "%t" nil)
     (integer :tag "Number" :value 2 :size 5))
    (choice
     :tag "Top"
     :help-echo "Maximum slots of top side window."
     :value nil
     :format "%[Top%] %v\n"
     (const :tag "Unlimited" :format "%t" nil)
     (integer :tag "Number" :value 3 :size 5))
    (choice
     :tag "Right"
     :help-echo "Maximum slots of right side window."
     :value nil
     :format "%[Right%] %v\n"
     (const :tag "Unlimited" :format "%t" nil)
     (integer :tag "Number" :value 2 :size 5))
    (choice
     :tag "Bottom"
     :help-echo "Maximum slots of bottom side window."
     :value nil
     :format "%[Bottom%] %v\n"
     (const :tag "Unlimited" :format "%t" nil)
     (integer :tag "Number" :value 3 :size 5)))
  :group 'windows)

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(defun window--major-non-side-window (&optional frame)
  "Return the major non-side window of frame FRAME.
The optional argument FRAME must be a live frame and defaults to
the selected one.

If FRAME has at least one side window, the major non-side window
is either an internal non-side window such that all other
non-side windows on FRAME descend from it, or the single live
non-side window of FRAME.  If FRAME has no side windows, return
its root window."
  (let ((frame (window-normalize-frame frame))
	major sibling)
    ;; Set major to the _last_ window found by `walk-window-tree' that
    ;; is not a side window but has a side window as its sibling.
    (walk-window-tree
     (lambda (window)
       (and (not (window-parameter window 'window-side))
	    (or (and (setq sibling (window-prev-sibling window))
		     (window-parameter sibling 'window-side))
		(and (setq sibling (window-next-sibling window))
		     (window-parameter sibling 'window-side)))
	    (setq major window)))
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     frame t 'nomini)
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    (or major (frame-root-window frame))))

(defun window--major-side-window (side)
  "Return major side window on SIDE.
SIDE must be one of the symbols `left', `top', `right' or
`bottom'.  Return nil if no such window exists."
  (let ((root (frame-root-window))
	window)
    ;; (1) If a window on the opposite side exists, return that window's
    ;;     sibling.
    ;; (2) If the new window shall span the entire side, return the
    ;;     frame's root window.
    ;; (3) If a window on an orthogonal side exists, return that
    ;;     window's sibling.
    ;; (4) Otherwise return the frame's root window.
    (cond
     ((or (and (eq side 'left)
	       (setq window (window-with-parameter 'window-side 'right nil t)))
	  (and (eq side 'top)
	       (setq window (window-with-parameter 'window-side 'bottom nil t))))
      (window-prev-sibling window))
     ((or (and (eq side 'right)
	       (setq window (window-with-parameter 'window-side 'left nil t)))
	  (and (eq side 'bottom)
	       (setq window (window-with-parameter 'window-side 'top nil t))))
      (window-next-sibling window))
     ((memq side '(left right))
      (cond
       (window-sides-vertical
	root)
       ((setq window (window-with-parameter 'window-side 'top nil t))
	(window-next-sibling window))
       ((setq window (window-with-parameter 'window-side 'bottom nil t))
	(window-prev-sibling window))
       (t root)))
     ((memq side '(top bottom))
      (cond
       ((not window-sides-vertical)
	root)
       ((setq window (window-with-parameter 'window-side 'left nil t))
	(window-next-sibling window))
       ((setq window (window-with-parameter 'window-side 'right nil t))
	(window-prev-sibling window))
       (t root))))))

(defun display-buffer-in-major-side-window (buffer side slot &optional alist)
  "Display BUFFER in a new window on SIDE of the selected frame.
SIDE must be one of `left', `top', `right' or `bottom'.  SLOT
specifies the slot to use.  ALIST is an association list of
symbols and values as passed to `display-buffer-in-side-window'.
This function may be called only if no window on SIDE exists yet.
The new window automatically becomes the \"major\" side window on
SIDE.  Return the new window, nil if its creation window failed."
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  (let* ((left-or-right (memq side '(left right)))
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	 (major (window--major-side-window side))
	 (on-side (cond
		   ((eq side 'top) 'above)
		   ((eq side 'bottom) 'below)
		   (t side)))
	 ;; The following two bindings will tell `split-window' to take
	 ;; the space for the new window from `major' and not make a new
	 ;; parent window unless needed.
	 (window-combination-resize 'side)
	 (window-combination-limit nil)
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	 (new (split-window major nil on-side)))
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    (when new
      ;; Initialize `window-side' parameter of new window to SIDE.
      (set-window-parameter new 'window-side side)
      ;; Install `window-slot' parameter of new window.
      (set-window-parameter new 'window-slot slot)
      ;; Install `delete-window' parameter thus making sure that when
      ;; the new window is deleted, a side window on the opposite side
      ;; does not get resized.
      (set-window-parameter new 'delete-window 'delete-side-window)
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      ;; Auto-adjust height/width of new window unless a size has been
      ;; explicitly requested.
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      (unless (if left-or-right
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		  (cdr (assq 'window-width alist))
		(cdr (assq 'window-height alist)))
	(setq alist
	      (cons
	       (cons
		(if left-or-right 'window-width 'window-height)
		(/ (window-total-size (frame-root-window) left-or-right)
		   ;; By default use a fourth of the size of the
		   ;; frame's root window.
		   4))
	       alist)))
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      ;; Install BUFFER in new window and return NEW.
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      (window--display-buffer buffer new 'window alist 'side))))
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(defun delete-side-window (window)
  "Delete side window WINDOW."
  (let ((window-combination-resize
	 (window-parameter (window-parent window) 'window-side))
	(ignore-window-parameters t))
    (delete-window window)))

(defun display-buffer-in-side-window (buffer alist)
  "Display BUFFER in a window on side SIDE of the selected frame.
ALIST is an association list of symbols and values.  The
following symbols can be used:

`side' denotes the side of the existing window where the new
  window shall be located.  Valid values are `bottom', `right',
  `top' and `left'.  The default is `bottom'.

`slot' if non-nil, specifies the window slot where to display
  BUFFER.  A value of zero or nil means use the middle slot on
  the specified side.  A negative value means use a slot
  preceding (that is, above or on the left of) the middle slot.
  A positive value means use a slot following (that is, below or
  on the right of) the middle slot.  The default is zero."
  (let ((side (or (cdr (assq 'side alist)) 'bottom))
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	(slot (or (cdr (assq 'slot alist)) 0)))
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    (cond
     ((not (memq side '(top bottom left right)))
      (error "Invalid side %s specified" side))
     ((not (numberp slot))
      (error "Invalid slot %s specified" slot)))

    (let* ((major (window-with-parameter 'window-side side nil t))
	   ;; `major' is the major window on SIDE, `windows' the list of
	   ;; life windows on SIDE.
	   (windows
	    (when major
	      (let (windows)
		(walk-window-tree
		 (lambda (window)
		   (when (eq (window-parameter window 'window-side) side)
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		     (setq windows (cons window windows))))
		 nil nil 'nomini)
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		(nreverse windows))))
	   (slots (when major (max 1 (window-child-count major))))
	   (max-slots
	    (nth (cond
		  ((eq side 'left) 0)
		  ((eq side 'top) 1)
		  ((eq side 'right) 2)
		  ((eq side 'bottom) 3))
		 window-sides-slots))
	   window this-window this-slot prev-window next-window
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	   best-window best-slot abs-slot)
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      (cond
       ((and (numberp max-slots) (<= max-slots 0))
	;; No side-slots available on this side.  Don't create an error,
	;; just return nil.
	nil)
       ((not windows)
	;; No major window exists on this side, make one.
	(display-buffer-in-major-side-window buffer side slot alist))
       (t
	;; Scan windows on SIDE.
	(catch 'found
	  (dolist (window windows)
	    (setq this-slot (window-parameter window 'window-slot))
	    (cond
	     ;; The following should not happen and probably be checked
	     ;; by window--side-check.
	     ((not (numberp this-slot)))
	     ((= this-slot slot)
	      ;; A window with a matching slot has been found.
	      (setq this-window window)
	      (throw 'found t))
	     (t
	      ;; Check if this window has a better slot value wrt the
	      ;; slot of the window we want.
	      (setq abs-slot
		    (if (or (and (> this-slot 0) (> slot 0))
			    (and (< this-slot 0) (< slot 0)))
			(abs (- slot this-slot))
		      (+ (abs slot) (abs this-slot))))
	      (unless (and best-slot (<= best-slot abs-slot))
		(setq best-window window)
		(setq best-slot abs-slot))
	      (cond
	       ((<= this-slot slot)
		(setq prev-window window))
	       ((not next-window)
		(setq next-window window)))))))

	;; `this-window' is the first window with the same SLOT.
	;; `prev-window' is the window with the largest slot < SLOT.  A new
	;; window will be created after it.
	;; `next-window' is the window with the smallest slot > SLOT.  A new
	;; window will be created before it.
	;; `best-window' is the window with the smallest absolute difference
	;; of its slot and SLOT.

	;; Note: We dedicate the window used softly to its buffer to
	;; avoid that "other" (non-side) buffer display functions steal
	;; it from us.  This must eventually become customizable via
	;; ALIST (or, better, avoided in the "other" functions).
	(or (and this-window
		 ;; Reuse `this-window'.
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		 (window--display-buffer buffer this-window 'reuse alist 'side))
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	    (and (or (not max-slots) (< slots max-slots))
		 (or (and next-window
			  ;; Make new window before `next-window'.
			  (let ((next-side
				 (if (memq side '(left right)) 'above 'left))
				(window-combination-resize 'side))
			    (setq window (split-window next-window nil next-side))
			    ;; When the new window is deleted, its space
			    ;; is returned to other side windows.
			    (set-window-parameter
			     window 'delete-window 'delete-side-window)
			    window))
		     (and prev-window
			  ;; Make new window after `prev-window'.
			  (let ((prev-side
				 (if (memq side '(left right)) 'below 'right))
				(window-combination-resize 'side))
			    (setq window (split-window prev-window nil prev-side))
			    ;; When the new window is deleted, its space
			    ;; is returned to other side windows.
			    (set-window-parameter
			     window 'delete-window 'delete-side-window)
			    window)))
		   (set-window-parameter window 'window-slot slot)
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		   (window--display-buffer buffer window 'window alist 'side))
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	    (and best-window
		 ;; Reuse `best-window'.
		 (progn
		   ;; Give best-window the new slot value.
		   (set-window-parameter best-window 'window-slot slot)
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		   (window--display-buffer
		    buffer best-window 'reuse alist 'side)))))))))
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(defun window--side-check (&optional frame)
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  "Check the side window configuration of FRAME.
FRAME defaults to the selected frame.

A valid side window configuration preserves the following two
invariants:

- If there exists a window whose window-side parameter is
  non-nil, there must exist at least one live window whose
  window-side parameter is nil.

- If a window W has a non-nil window-side parameter (i) it must
  have a parent window and that parent's window-side parameter
  must be either nil or the same as for W, and (ii) any child
  window of W must have the same window-side parameter as W.

If the configuration is invalid, reset the window-side parameters
of all windows on FRAME to nil."
  (let (left top right bottom none side parent parent-side)
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    (when (or (catch 'reset
		(walk-window-tree
		 (lambda (window)
		   (setq side (window-parameter window 'window-side))
		   (setq parent (window-parent window))
		   (setq parent-side
			 (and parent (window-parameter parent 'window-side)))
		   ;; The following `cond' seems a bit tedious, but I'd
		   ;; rather stick to using just the stack.
		   (cond
		    (parent-side
		     (when (not (eq parent-side side))
		       ;; A parent whose window-side is non-nil must
		       ;; have a child with the same window-side.
		       (throw 'reset t)))
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		    ((not side)
		     (when (window-buffer window)
		       ;; Record that we have at least one non-side,
		       ;; live window.
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		       (setq none t)))
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		    ((if (memq side '(left top))
			 (window-prev-sibling window)
		       (window-next-sibling window))
		     ;; Left and top major side windows must not have a
		     ;; previous sibling, right and bottom major side
		     ;; windows must not have a next sibling.
		     (throw 'reset t))
		    ;; Now check that there's no more than one major
		    ;; window for any of left, top, right and bottom.
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		    ((eq side 'left)
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		     (if left (throw 'reset t) (setq left t)))
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		    ((eq side 'top)
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		     (if top (throw 'reset t) (setq top t)))
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		    ((eq side 'right)
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		     (if right (throw 'reset t) (setq right t)))
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		    ((eq side 'bottom)
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		     (if bottom (throw 'reset t) (setq bottom t)))
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		    (t
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		     (throw 'reset t))))
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		 frame t 'nomini))
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	      ;; If there's a side window, there must be at least one
	      ;; non-side window.
	      (and (or left top right bottom) (not none)))
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      (walk-window-tree
       (lambda (window)
	 (set-window-parameter window 'window-side nil))
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       frame t 'nomini))))
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(defun window--check (&optional frame)
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  "Check atomic and side windows on FRAME.
FRAME defaults to the selected frame."
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  (window--side-check frame)
  (window--atom-check frame))
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;;; Window sizes.
(defvar window-size-fixed nil
  "Non-nil in a buffer means windows displaying the buffer are fixed-size.
If the value is `height', then only the window's height is fixed.
If the value is `width', then only the window's width is fixed.
Any other non-nil value fixes both the width and the height.

Emacs won't change the size of any window displaying that buffer,
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unless it has no other choice (like when deleting a neighboring
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window).")
(make-variable-buffer-local 'window-size-fixed)

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(defun window--size-ignore-p (window ignore)
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  "Return non-nil if IGNORE says to ignore size restrictions for WINDOW."
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  (if (window-valid-p ignore) (eq window ignore) ignore))
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(defun window-min-size (&optional window horizontal ignore)
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  "Return the minimum size of WINDOW.
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WINDOW must be a valid window and defaults to the selected one.
Optional argument HORIZONTAL non-nil means return the minimum
number of columns of WINDOW; otherwise return the minimum number
of WINDOW's lines.
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Optional argument IGNORE, if non-nil, means ignore restrictions
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imposed by fixed size windows, `window-min-height' or
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`window-min-width' settings.  If IGNORE equals `safe', live
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windows may get as small as `window-safe-min-height' lines and
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`window-safe-min-width' columns.  If IGNORE is a window, ignore
restrictions for that window only.  Any other non-nil value
means ignore all of the above restrictions for all windows."
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  (window--min-size-1
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   (window-normalize-window window) horizontal ignore))
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(defun window--min-size-1 (window horizontal ignore)
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  "Internal function of `window-min-size'."
  (let ((sub (window-child window)))
    (if sub
	(let ((value 0))
	  ;; WINDOW is an internal window.
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	  (if (window-combined-p sub horizontal)
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	      ;; The minimum size of an iso-combination is the sum of
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	      ;; the minimum sizes of its child windows.
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	      (while sub
		(setq value (+ value
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			       (window--min-size-1 sub horizontal ignore)))
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		(setq sub (window-right sub)))
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	    ;; The minimum size of an ortho-combination is the maximum
	    ;; of the minimum sizes of its child windows.
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	    (while sub
	      (setq value (max value
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			       (window--min-size-1 sub horizontal ignore)))
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	      (setq sub (window-right sub))))
	  value)
      (with-current-buffer (window-buffer window)
	(cond
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	 ((and (not (window--size-ignore-p window ignore))
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	       (window-size-fixed-p window horizontal))
	  ;; The minimum size of a fixed size window is its size.
	  (window-total-size window horizontal))
	 ((or (eq ignore 'safe) (eq ignore window))
	  ;; If IGNORE equals `safe' or WINDOW return the safe values.
	  (if horizontal window-safe-min-width window-safe-min-height))
	 (horizontal
	  ;; For the minimum width of a window take fringes and
	  ;; scroll-bars into account.  This is questionable and should
	  ;; be removed as soon as we are able to split (and resize)
	  ;; windows such that the new (or resized) windows can get a
	  ;; size less than the user-specified `window-min-height' and
	  ;; `window-min-width'.
	  (let ((frame (window-frame window))
		(fringes (window-fringes window))
		(scroll-bars (window-scroll-bars window)))
	    (max
	     (+ window-safe-min-width
		(ceiling (car fringes) (frame-char-width frame))
		(ceiling (cadr fringes) (frame-char-width frame))
		(cond
		 ((memq (nth 2 scroll-bars) '(left right))
		  (nth 1 scroll-bars))
		 ((memq (frame-parameter frame 'vertical-scroll-bars)
			'(left right))
		  (ceiling (or (frame-parameter frame 'scroll-bar-width) 14)
			   (frame-char-width)))
		 (t 0)))
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	     (if (and (not (window--size-ignore-p window ignore))
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		      (numberp window-min-width))
		 window-min-width
	       0))))
	 (t
	  ;; For the minimum height of a window take any mode- or
	  ;; header-line into account.
	  (max (+ window-safe-min-height
		  (if header-line-format 1 0)
		  (if mode-line-format 1 0))
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	       (if (and (not (window--size-ignore-p window ignore))
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			(numberp window-min-height))
		   window-min-height
		 0))))))))

(defun window-sizable (window delta &optional horizontal ignore)
  "Return DELTA if DELTA lines can be added to WINDOW.
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WINDOW must be a valid window and defaults to the selected one.
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Optional argument HORIZONTAL non-nil means return DELTA if DELTA
columns can be added to WINDOW.  A return value of zero means
that no lines (or columns) can be added to WINDOW.

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This function looks only at WINDOW and, recursively, its child
windows.  The function `window-resizable' looks at other windows
as well.
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DELTA positive means WINDOW shall be enlarged by DELTA lines or
columns.  If WINDOW cannot be enlarged by DELTA lines or columns
return the maximum value in the range 0..DELTA by which WINDOW
can be enlarged.

DELTA negative means WINDOW shall be shrunk by -DELTA lines or
columns.  If WINDOW cannot be shrunk by -DELTA lines or columns,
return the minimum value in the range DELTA..0 by which WINDOW
can be shrunk.

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Optional argument IGNORE non-nil means ignore restrictions
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imposed by fixed size windows, `window-min-height' or
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`window-min-width' settings.  If IGNORE equals `safe', live
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windows may get as small as `window-safe-min-height' lines and
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`window-safe-min-width' columns.  If IGNORE is a window, ignore
restrictions for that window only.  Any other non-nil value means
ignore all of the above restrictions for all windows."
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  (setq window (window-normalize-window window))
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  (cond
   ((< delta 0)
    (max (- (window-min-size window horizontal ignore)
	    (window-total-size window horizontal))
	 delta))
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   ((window--size-ignore-p window ignore)
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    delta)
   ((> delta 0)
    (if (window-size-fixed-p window horizontal)
	0
      delta))
   (t 0)))

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(defun window-sizable-p (window delta &optional horizontal ignore)
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  "Return t if WINDOW can be resized by DELTA lines.
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WINDOW must be a valid window and defaults to the selected one.
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For the meaning of the arguments of this function see the
doc-string of `window-sizable'."
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  (setq window (window-normalize-window window))
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  (if (> delta 0)
      (>= (window-sizable window delta horizontal ignore) delta)
    (<= (window-sizable window delta horizontal ignore) delta)))

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(defun window--size-fixed-1 (window horizontal)
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  "Internal function for `window-size-fixed-p'."
  (let ((sub (window-child window)))
    (catch 'fixed
      (if sub
	  ;; WINDOW is an internal window.
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	  (if (window-combined-p sub horizontal)
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	      ;; An iso-combination is fixed size if all its child
	      ;; windows are fixed-size.
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	      (progn
		(while sub
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		  (unless (window--size-fixed-1 sub horizontal)
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		    ;; We found a non-fixed-size child window, so
		    ;; WINDOW's size is not fixed.
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		    (throw 'fixed nil))
		  (setq sub (window-right sub)))
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		;; All child windows are fixed-size, so WINDOW's size is
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		;; fixed.
		(throw 'fixed t))
	    ;; An ortho-combination is fixed-size if at least one of its
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	    ;; child windows is fixed-size.
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	    (while sub
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	      (when (window--size-fixed-1 sub horizontal)
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		;; We found a fixed-size child window, so WINDOW's size
		;; is fixed.
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		(throw 'fixed t))
	      (setq sub (window-right sub))))
	;; WINDOW is a live window.
	(with-current-buffer (window-buffer window)
	  (if horizontal
	      (memq window-size-fixed '(width t))
	    (memq window-size-fixed '(height t))))))))

(defun window-size-fixed-p (&optional window horizontal)
  "Return non-nil if WINDOW's height is fixed.
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WINDOW must be a valid window and defaults to the selected one.
Optional argument HORIZONTAL non-nil means return non-nil if
WINDOW's width is fixed.
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If this function returns nil, this does not necessarily mean that
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WINDOW can be resized in the desired direction.  The function
`window-resizable' can tell that."
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  (window--size-fixed-1
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   (window-normalize-window window) horizontal))
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(defun window--min-delta-1 (window delta &optional horizontal ignore trail noup)
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  "Internal function for `window-min-delta'."
  (if (not (window-parent window))
      ;; If we can't go up, return zero.
      0
    ;; Else try to find a non-fixed-size sibling of WINDOW.
    (let* ((parent (window-parent window))
	   (sub (window-child parent)))
      (catch 'done
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	(if (window-combined-p sub horizontal)
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	    ;; In an iso-combination throw DELTA if we find at least one
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	    ;; child window and that window is either not fixed-size or
	    ;; we can ignore fixed-sizeness.
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	    (let ((skip (eq trail 'after)))
	      (while sub
		(cond
		 ((eq sub window)
		  (setq skip (eq trail 'before)))
		 (skip)
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		 ((and (not (window--size-ignore-p window ignore))
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		       (window-size-fixed-p sub horizontal)))
		 (t
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		  ;; We found a non-fixed-size child window.
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		  (throw 'done delta)))
		(setq sub (window-right sub))))
	  ;; In an ortho-combination set DELTA to the minimum value by
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	  ;; which other child windows can shrink.
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	  (while sub
	    (unless (eq sub window)
	      (setq delta
		    (min delta
			 (- (window-total-size sub horizontal)
			    (window-min-size sub horizontal ignore)))))
	    (setq sub (window-right sub))))
	(if noup
	    delta
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	  (window--min-delta-1 parent delta horizontal ignore trail))))))
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(defun window-min-delta (&optional window horizontal ignore trail noup nodown)
  "Return number of lines by which WINDOW can be shrunk.
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WINDOW must be a valid window and defaults to the selected one.
Return zero if WINDOW cannot be shrunk.
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Optional argument HORIZONTAL non-nil means return number of
columns by which WINDOW can be shrunk.

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Optional argument IGNORE non-nil means ignore restrictions
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imposed by fixed size windows, `window-min-height' or
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`window-min-width' settings.  If IGNORE is a window, ignore
restrictions for that window only.  If IGNORE equals `safe',
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live windows may get as small as `window-safe-min-height' lines
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and `window-safe-min-width' columns.  Any other non-nil value
means ignore all of the above restrictions for all windows.
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Optional argument TRAIL restricts the windows that can be enlarged.
If its value is `before', only windows to the left of or above WINDOW
can be enlarged.  If it is `after', only windows to the right of or
below WINDOW can be enlarged.
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Optional argument NOUP non-nil means don't go up in the window
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tree, but try to enlarge windows within WINDOW's combination only.
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Optional argument NODOWN non-nil means don't check whether WINDOW
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itself (and its child windows) can be shrunk; check only whether
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at least one other window can be enlarged appropriately."
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  (setq window (window-normalize-window window))
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  (let ((size (window-total-size window horizontal))
	(minimum (window-min-size window horizontal ignore)))
    (cond
     (nodown
      ;; If NODOWN is t, try to recover the entire size of WINDOW.
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      (window--min-delta-1 window size horizontal ignore trail noup))
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     ((= size minimum)
      ;; If NODOWN is nil and WINDOW's size is already at its minimum,
      ;; there's nothing to recover.
      0)
     (t
      ;; Otherwise, try to recover whatever WINDOW is larger than its
      ;; minimum size.
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      (window--min-delta-1
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       window (- size minimum) horizontal ignore trail noup)))))

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(defun window--max-delta-1 (window delta &optional horizontal ignore trail noup)
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  "Internal function of `window-max-delta'."
  (if (not (window-parent window))
      ;; Can't go up.  Return DELTA.
      delta
    (let* ((parent (window-parent window))
	   (sub (window-child parent)))
      (catch 'fixed
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	(if (window-combined-p sub horizontal)
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	    ;; For an iso-combination calculate how much we can get from
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	    ;; other child windows.
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	    (let ((skip (eq trail 'after)))
	      (while sub
		(cond
		 ((eq sub window)
		  (setq skip (eq trail 'before)))
		 (skip)
		 (t
		  (setq delta