;;; window.el --- GNU Emacs window commands aside from those written in C ;; Copyright (C) 1985, 1989, 1992-1994, 2000-2011 ;; Free Software Foundation, Inc. ;; Maintainer: FSF ;; Keywords: internal ;; Package: emacs ;; 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 . ;;; Commentary: ;; Window tree functions. ;;; Code: (eval-when-compile (require 'cl)) (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)." (declare (indent 0) (debug t)) `(let ((save-selected-window-window (selected-window)) ;; It is necessary to save all of these, because calling ;; select-window changes frame-selected-window for whatever ;; frame that window is in. (save-selected-window-alist (mapcar (lambda (frame) (cons frame (frame-selected-window frame))) (frame-list)))) (save-current-buffer (unwind-protect (progn ,@body) (dolist (elt save-selected-window-alist) (and (frame-live-p (car elt)) (window-live-p (cdr elt)) (set-frame-selected-window (car elt) (cdr elt) 'norecord))) (when (window-live-p save-selected-window-window) (select-window save-selected-window-window 'norecord)))))) ;; The following two functions are like `window-next' and `window-prev' ;; 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). (defsubst window-right (window) "Return WINDOW's right sibling. Return nil if WINDOW is the root window of its frame. WINDOW can be any window." (and window (window-parent window) (window-next window))) (defsubst window-left (window) "Return WINDOW's left sibling. Return nil if WINDOW is the root window of its frame. WINDOW can be any window." (and window (window-parent window) (window-prev window))) (defsubst window-child (window) "Return WINDOW's first child window." (or (window-vchild window) (window-hchild window))) (defun window-child-count (window) "Return number of WINDOW's child windows." (let ((count 0)) (when (and (windowp window) (setq window (window-child window))) (while window (setq count (1+ count)) (setq window (window-next window)))) count)) (defun window-last-child (window) "Return last child window of WINDOW." (when (and (windowp window) (setq window (window-child window))) (while (window-next window) (setq window (window-next window)))) window) (defsubst window-any-p (object) "Return t if OBJECT denotes a live or internal window." (and (windowp object) (or (window-buffer object) (window-child object)) t)) ;; The following four functions should probably go to subr.el. (defsubst normalize-live-buffer (buffer-or-name) "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)))) (defsubst normalize-live-frame (frame) "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))) (defsubst normalize-any-window (window) "Return window specified by WINDOW. WINDOW must be a window that has not been deleted and defaults to the selected window." (if window (if (window-any-p window) window (error "%s is not a window" window)) (selected-window))) (defsubst normalize-live-window (window) "Return live window specified by WINDOW. WINDOW must be a live window and defaults to the selected one." (if window (if (and (windowp window) (window-buffer window)) window (error "%s is not a live window" window)) (selected-window))) (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.") (defun window-iso-combination-p (&optional window horizontal) "If WINDOW is a vertical combination return WINDOW's first child. WINDOW can be any window and defaults to the selected one. Optional argument HORIZONTAL non-nil means return WINDOW's first child if WINDOW is a horizontal combination." (setq window (normalize-any-window window)) (if horizontal (window-hchild window) (window-vchild window))) (defsubst window-iso-combined-p (&optional window horizontal) "Return non-nil if and only if WINDOW is vertically combined. WINDOW can be any window and defaults to the selected one. Optional argument HORIZONTAL non-nil means return non-nil if and only if WINDOW is horizontally combined." (setq window (normalize-any-window window)) (let ((parent (window-parent window))) (and parent (window-iso-combination-p parent horizontal)))) (defun window-iso-combinations (&optional window horizontal) "Return largest number of vertically arranged subwindows of WINDOW. WINDOW can be any window and defaults to the selected one. Optional argument HORIZONTAL non-nil means to return the largest number of horizontally arranged subwindows of WINDOW." (setq window (normalize-any-window window)) (cond ((window-live-p window) ;; If WINDOW is live, return 1. 1) ((window-iso-combination-p window horizontal) ;; If WINDOW is iso-combined, return the sum of the values for all ;; subwindows of WINDOW. (let ((child (window-child window)) (count 0)) (while child (setq count (+ (window-iso-combinations child horizontal) count)) (setq child (window-right child))) count)) (t ;; If WINDOW is not iso-combined, return the maximum value of any ;; subwindow of WINDOW. (let ((child (window-child window)) (count 1)) (while child (setq count (max (window-iso-combinations child horizontal) count)) (setq child (window-right child))) count)))) (defun walk-window-tree-1 (proc walk-window-tree-window any &optional sub-only) "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) (funcall proc walk-window-tree-window)) (unless walk-window-tree-buffer (walk-window-tree-1 proc (window-hchild walk-window-tree-window) any) (walk-window-tree-1 proc (window-vchild walk-window-tree-window) any)) (if sub-only (setq walk-window-tree-window nil) (setq walk-window-tree-window (window-right walk-window-tree-window)))))) (defun walk-window-tree (proc &optional frame any) "Run function PROC on each live window of FRAME. PROC must be a function with one argument - a window. FRAME must be a live frame and defaults to the selected one. ANY, if non-nil means to run PROC on all live and internal windows of FRAME. This function performs a pre-order, depth-first traversal of the window tree. If PROC changes the window tree, the result is unpredictable." (let ((walk-window-tree-frame (normalize-live-frame frame))) (walk-window-tree-1 proc (frame-root-window walk-window-tree-frame) any))) (defun walk-window-subtree (proc &optional window any) "Run function PROC on each live subwindow of WINDOW. WINDOW defaults to the selected window. PROC must be a function with one argument - a window. ANY, if non-nil means to run PROC on all live and internal subwindows of WINDOW. This function performs a pre-order, depth-first traversal of the window tree rooted at WINDOW. If PROC changes that window tree, the result is unpredictable." (setq window (normalize-any-window window)) (walk-window-tree-1 proc window any t)) (defun windows-with-parameter (parameter &optional value frame any values) "Return a list of all windows on FRAME with PARAMETER non-nil. FRAME defaults to the selected frame. Optional argument VALUE non-nil means only return windows whose window-parameter value of PARAMETER equals VALUE \(comparison is done using `equal'). Optional argument ANY non-nil means consider internal windows too. Optional argument VALUES non-nil means return a list of cons cells whose car is the value of the parameter and whose cdr is the window." (let (this-value windows) (walk-window-tree (lambda (window) (when (and (setq this-value (window-parameter window parameter)) (or (not value) (or (equal value this-value)))) (setq windows (if values (cons (cons this-value window) windows) (cons window windows))))) frame any) (nreverse windows))) (defun window-with-parameter (parameter &optional value frame any) "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 for PARAMETER equals VALUE \(comparison is done with `equal'). Optional argument ANY non-nil means consider internal windows too." (let (this-value windows) (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))) frame any)))) ;;; Atomic windows. (defun window-atom-root (&optional window) "Return root of atomic window WINDOW is a part of. WINDOW can be any window and defaults to the selected one. Return nil if WINDOW is not part of a atomic window." (setq window (normalize-any-window window)) (let (root) (while (and window (window-parameter window 'window-atom)) (setq root window) (setq window (window-parent window))) root)) (defun make-window-atom (window) "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) (set-window-parameter window 'window-atom t)) window t) window)) (defun window-atom-check-1 (window) "Subroutine of `window-atom-check'." (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) (window-atom-check-1 (window-hchild window)) (window-atom-check-1 (window-vchild window)))) ;; Check right sibling (window-atom-check-1 (window-right window)))) (defun window-atom-check (&optional frame) "Check atomicity of all windows on FRAME. FRAME defaults to the selected frame. If an atomic window is wrongly configured, reset the atomicity of all its subwindows to nil. An atomic window is wrongly configured if it has no subwindows or one of its subwindows is not atomic." (window-atom-check-1 (frame-root-window frame))) ;; 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 side window slots on \(in this order) the left, top, right and 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." :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) (defun window-side-check (&optional frame) "Check the window-side parameter of all windows on FRAME. FRAME defaults to the selected frame. If the configuration is invalid, reset all window-side parameters to nil. A valid configuration has to preserve the following invariant: - If a window has a non-nil window-side parameter, it must have a parent window and the parent window's window-side parameter must be either nil or the same as for window. - If windows with non-nil window-side parameters exist, there must be at most one window of each side and non-side with a parent whose window-side parameter is nil and there must be no leaf window whose window-side parameter is nil." (let (normal none left top right bottom side parent parent-side code) (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))) ;; Now check that there's more than one main window ;; for any of none, left, top, right and bottom. ((eq side 'none) (if none (throw 'reset t) (setq none t))) ((eq side 'left) (if left (throw 'reset t) (setq left t))) ((eq side 'top) (if top (throw 'reset t) (setq top t))) ((eq side 'right) (if right (throw 'reset t) (setq right t))) ((eq side 'bottom) (if bottom (throw 'reset t) (setq bottom t))) ((window-buffer window) ;; A leaf window without window-side parameter, ;; record its existence. (setq normal t)))) frame t)) (if none ;; At least one non-side window exists, so there must ;; be at least one side-window and no normal window. (or (not (or left top right bottom)) normal) ;; No non-side window exists, so there must be no side ;; window either. (or left top right bottom))) (walk-window-tree (lambda (window) (set-window-parameter window 'window-side nil)) frame t)))) (defun window-check (&optional frame) "Check atomic and side windows on FRAME. FRAME defaults to the selected frame." (window-side-check frame) (window-atom-check frame)) ;;; 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, unless it has no other choice \(like when deleting a neighboring window).") (make-variable-buffer-local 'window-size-fixed) (defun window-body-height (&optional window) "Return number of lines in WINDOW available for actual buffer text. WINDOW defaults to the selected window. The return value does not include the mode line or the header line, if any. If a line at the bottom of the window is only partially visible, that line is included in the return value. If you do not want to include a partially visible bottom line in the return value, use `window-text-height' instead." (or window (setq window (selected-window))) (if (window-minibuffer-p window) (window-height window) (with-current-buffer (window-buffer window) (max 1 (- (window-height window) (if mode-line-format 1 0) (if header-line-format 1 0)))))) ;; See discussion in bug#4543. (defun window-full-height-p (&optional window) "Return non-nil if WINDOW is not the result of a vertical split. WINDOW defaults to the selected window. (This function is not appropriate for minibuffers.)" (unless window (setq window (selected-window))) (= (window-height window) (window-height (frame-root-window (window-frame window))))) (defun one-window-p (&optional nomini all-frames) "Return non-nil if the selected window is the only window. Optional arg NOMINI non-nil means don't count the minibuffer even if it is active. Otherwise, the minibuffer is counted when it is active. The optional arg ALL-FRAMES t means count windows on all frames. If it is `visible', count windows on all visible frames on the current terminal. ALL-FRAMES nil or omitted means count only the selected frame, plus the minibuffer it uses (which may be on another frame). ALL-FRAMES 0 means count all windows in all visible or iconified frames on the current terminal. If ALL-FRAMES is anything else, count only the selected frame." (let ((base-window (selected-window))) (if (and nomini (eq base-window (minibuffer-window))) (setq base-window (next-window base-window))) (eq base-window (next-window base-window (if nomini 'arg) all-frames)))) (defun window-current-scroll-bars (&optional window) "Return the current scroll bar settings for WINDOW. WINDOW defaults to the selected window. The return value is a cons cell (VERTICAL . HORIZONTAL) where VERTICAL specifies the current location of the vertical scroll bars (`left', `right', or nil), and HORIZONTAL specifies the current location of the horizontal scroll bars (`top', `bottom', or nil). Unlike `window-scroll-bars', this function reports the scroll bar type actually used, once frame defaults and `scroll-bar-mode' are taken into account." (let ((vert (nth 2 (window-scroll-bars window))) (hor nil)) (when (or (eq vert t) (eq hor t)) (let ((fcsb (frame-current-scroll-bars (window-frame (or window (selected-window)))))) (if (eq vert t) (setq vert (car fcsb))) (if (eq hor t) (setq hor (cdr fcsb))))) (cons vert hor))) (defun walk-windows (proc &optional minibuf all-frames) "Cycle through all windows, calling PROC for each one. PROC must specify a function with a window as its sole argument. The optional arguments MINIBUF and ALL-FRAMES specify the set of windows to include in the walk, see also `next-window'. MINIBUF t means include the minibuffer window even if the minibuffer is not active. MINIBUF nil or omitted means include the minibuffer window only if the minibuffer is active. Any other value means do not include the minibuffer window even if the minibuffer is active. Several frames may share a single minibuffer; if the minibuffer is active, all windows on all frames that share that minibuffer are included too. Therefore, if you are using a separate minibuffer frame and the minibuffer is active and MINIBUF says it counts, `walk-windows' includes the windows in the frame from which you entered the minibuffer, as well as the minibuffer window. ALL-FRAMES nil or omitted means cycle through all windows on the selected frame, plus the minibuffer window if specified by the MINIBUF argument, see above. If the minibuffer counts, cycle through all windows on all frames that share that minibuffer too. ALL-FRAMES t means cycle through all windows on all existing frames. ALL-FRAMES `visible' means cycle through all windows on all visible frames on the current terminal. ALL-FRAMES 0 means cycle through all windows on all visible and iconified frames on the current terminal. ALL-FRAMES a frame means cycle through all windows on that frame only. Anything else means cycle through all windows on the selected frame and no others. This function changes neither the order of recently selected windows nor the buffer list." ;; If we start from the minibuffer window, don't fail to come ;; back to it. (when (window-minibuffer-p (selected-window)) (setq minibuf t)) ;; Make sure to not mess up the order of recently selected ;; windows. Use `save-selected-window' and `select-window' ;; with second argument non-nil for this purpose. (save-selected-window (when (framep all-frames) (select-window (frame-first-window all-frames) 'norecord)) (let* (walk-windows-already-seen (walk-windows-current (selected-window))) (while (progn (setq walk-windows-current (next-window walk-windows-current minibuf all-frames)) (not (memq walk-windows-current walk-windows-already-seen))) (setq walk-windows-already-seen (cons walk-windows-current walk-windows-already-seen)) (funcall proc walk-windows-current))))) (defun get-window-with-predicate (predicate &optional minibuf all-frames default) "Return a window satisfying PREDICATE. More precisely, cycle through all windows using `walk-windows', calling the function PREDICATE on each one of them with the window as its sole argument. Return the first window for which PREDICATE returns non-nil. If no window satisfies PREDICATE, return DEFAULT. The optional arguments MINIBUF and ALL-FRAMES specify the set of windows to include. See `walk-windows' for the meaning of these arguments." (catch 'found (walk-windows #'(lambda (window) (when (funcall predicate window) (throw 'found window))) minibuf all-frames) default)) (defalias 'some-window 'get-window-with-predicate) ;; This should probably be written in C (i.e., without using `walk-windows'). (defun get-buffer-window-list (&optional buffer-or-name minibuf all-frames) "Return list of all windows displaying BUFFER-OR-NAME, or nil if none. BUFFER-OR-NAME may be a buffer or the name of an existing buffer and defaults to the current buffer. The optional arguments MINIBUF and ALL-FRAMES specify the set of windows to consider. See `walk-windows' for the precise meaning of these arguments." (let ((buffer (cond ((not buffer-or-name) (current-buffer)) ((bufferp buffer-or-name) buffer-or-name) (t (get-buffer buffer-or-name)))) windows) (walk-windows (function (lambda (window) (if (eq (window-buffer window) buffer) (setq windows (cons window windows))))) minibuf all-frames) windows)) (defun minibuffer-window-active-p (window) "Return t if WINDOW is the currently active minibuffer window." (eq window (active-minibuffer-window))) (defun count-windows (&optional minibuf) "Return the number of visible windows. The optional argument MINIBUF specifies whether the minibuffer window shall be counted. See `walk-windows' for the precise meaning of this argument." (let ((count 0)) (walk-windows (lambda (_w) (setq count (+ count 1))) minibuf) count)) ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;;; `balance-windows' subroutines using `window-tree' ;;; Translate from internal window tree format (defun bw-get-tree (&optional window-or-frame) "Get a window split tree in our format. WINDOW-OR-FRAME must be nil, a frame, or a window. If it is nil, then the whole window split tree for `selected-frame' is returned. If it is a frame, then this is used instead. If it is a window, then the smallest tree containing that window is returned." (when window-or-frame (unless (or (framep window-or-frame) (windowp window-or-frame)) (error "Not a frame or window: %s" window-or-frame))) (let ((subtree (bw-find-tree-sub window-or-frame))) (when subtree (if (integerp subtree) nil (bw-get-tree-1 subtree))))) (defun bw-get-tree-1 (split) (if (windowp split) split (let ((dir (car split)) (edges (car (cdr split))) (childs (cdr (cdr split)))) (list (cons 'dir (if dir 'ver 'hor)) (cons 'b (nth 3 edges)) (cons 'r (nth 2 edges)) (cons 't (nth 1 edges)) (cons 'l (nth 0 edges)) (cons 'childs (mapcar #'bw-get-tree-1 childs)))))) (defun bw-find-tree-sub (window-or-frame &optional get-parent) (let* ((window (when (windowp window-or-frame) window-or-frame)) (frame (when (windowp window) (window-frame window))) (wt (car (window-tree frame)))) (when (< 1 (length (window-list frame 0))) (if window (bw-find-tree-sub-1 wt window get-parent) wt)))) (defun bw-find-tree-sub-1 (tree win &optional get-parent) (unless (windowp win) (error "Not a window: %s" win)) (if (memq win tree) (if get-parent get-parent tree) (let ((childs (cdr (cdr tree))) child subtree) (while (and childs (not subtree)) (setq child (car childs)) (setq childs (cdr childs)) (when (and child (listp child)) (setq subtree (bw-find-tree-sub-1 child win get-parent)))) (if (integerp subtree) (progn (if (= 1 subtree) tree (1- subtree))) subtree )))) ;;; Window or object edges (defun bw-l (obj) "Left edge of OBJ." (if (windowp obj) (nth 0 (window-edges obj)) (cdr (assq 'l obj)))) (defun bw-t (obj) "Top edge of OBJ." (if (windowp obj) (nth 1 (window-edges obj)) (cdr (assq 't obj)))) (defun bw-r (obj) "Right edge of OBJ." (if (windowp obj) (nth 2 (window-edges obj)) (cdr (assq 'r obj)))) (defun bw-b (obj) "Bottom edge of OBJ." (if (windowp obj) (nth 3 (window-edges obj)) (cdr (assq 'b obj)))) ;;; Split directions (defun bw-dir (obj) "Return window split tree direction if OBJ. If OBJ is a window return 'both. If it is a window split tree then return its direction." (if (symbolp obj) obj (if (windowp obj) 'both (let ((dir (cdr (assq 'dir obj)))) (unless (memq dir '(hor ver both)) (error "Can't find dir in %s" obj)) dir)))) (defun bw-eqdir (obj1 obj2) "Return t if window split tree directions are equal. OBJ1 and OBJ2 should be either windows or window split trees in our format. The directions returned by `bw-dir' are compared and t is returned if they are `eq' or one of them is 'both." (let ((dir1 (bw-dir obj1)) (dir2 (bw-dir obj2))) (or (eq dir1 dir2) (eq dir1 'both) (eq dir2 'both)))) ;;; Building split tree (defun bw-refresh-edges (obj) "Refresh the edge information of OBJ and return OBJ." (unless (windowp obj) (let ((childs (cdr (assq 'childs obj))) (ol 1000) (ot 1000) (or -1) (ob -1)) (dolist (o childs) (when (> ol (bw-l o)) (setq ol (bw-l o))) (when (> ot (bw-t o)) (setq ot (bw-t o))) (when (< or (bw-r o)) (setq or (bw-r o))) (when (< ob (bw-b o)) (setq ob (bw-b o)))) (setq obj (delq 'l obj)) (setq obj (delq 't obj)) (setq obj (delq 'r obj)) (setq obj (delq 'b obj)) (add-to-list 'obj (cons 'l ol)) (add-to-list 'obj (cons 't ot)) (add-to-list 'obj (cons 'r or)) (add-to-list 'obj (cons 'b ob)) )) obj) ;;; Balance windows (defun balance-windows (&optional window-or-frame) "Make windows the same heights or widths in window split subtrees. When called non-interactively WINDOW-OR-FRAME may be either a window or a frame. It then balances the windows on the implied frame. If the parameter is a window only the corresponding window subtree is balanced." (interactive) (let ( (wt (bw-get-tree window-or-frame)) (w) (h) (tried-sizes) (last-sizes) (windows (window-list nil 0))) (when wt (while (not (member last-sizes tried-sizes)) (when last-sizes (setq tried-sizes (cons last-sizes tried-sizes))) (setq last-sizes (mapcar (lambda (w) (window-edges w)) windows)) (when (eq 'hor (bw-dir wt)) (setq w (- (bw-r wt) (bw-l wt)))) (when (eq 'ver (bw-dir wt)) (setq h (- (bw-b wt) (bw-t wt)))) (bw-balance-sub wt w h))))) (defun bw-adjust-window (window delta horizontal) "Wrapper around `adjust-window-trailing-edge' with error checking. Arguments WINDOW, DELTA and HORIZONTAL are passed on to that function." ;; `adjust-window-trailing-edge' may fail if delta is too large. (while (>= (abs delta) 1) (condition-case nil (progn (adjust-window-trailing-edge window delta horizontal) (setq delta 0)) (error ;;(message "adjust: %s" (error-message-string err)) (setq delta (/ delta 2)))))) (defun bw-balance-sub (wt w h) (setq wt (bw-refresh-edges wt)) (unless w (setq w (- (bw-r wt) (bw-l wt)))) (unless h (setq h (- (bw-b wt) (bw-t wt)))) (if (windowp wt) (progn (when w (let ((dw (- w (- (bw-r wt) (bw-l wt))))) (when (/= 0 dw) (bw-adjust-window wt dw t)))) (when h (let ((dh (- h (- (bw-b wt) (bw-t wt))))) (when (/= 0 dh) (bw-adjust-window wt dh nil))))) (let* ((childs (cdr (assq 'childs wt))) (cw (when w (/ w (if (bw-eqdir 'hor wt) (length childs) 1)))) (ch (when h (/ h (if (bw-eqdir 'ver wt) (length childs) 1))))) (dolist (c childs) (bw-balance-sub c cw ch))))) (defun window-fixed-size-p (&optional window direction) "Return t if WINDOW cannot be resized in DIRECTION. WINDOW defaults to the selected window. DIRECTION can be nil (i.e. any), `height' or `width'." (with-current-buffer (window-buffer window) (when (and (boundp 'window-size-fixed) window-size-fixed) (not (and direction (member (cons direction window-size-fixed) '((height . width) (width . height)))))))) ;;; A different solution to balance-windows. (defvar window-area-factor 1 "Factor by which the window area should be over-estimated. This is used by `balance-windows-area'. Changing this globally has no effect.") (make-variable-buffer-local 'window-area-factor) (defun balance-windows-area () "Make all visible windows the same area (approximately). See also `window-area-factor' to change the relative size of specific buffers." (interactive) (let* ((unchanged 0) (carry 0) (round 0) ;; Remove fixed-size windows. (wins (delq nil (mapcar (lambda (win) (if (not (window-fixed-size-p win)) win)) (window-list nil 'nomini)))) (changelog nil) next) ;; Resizing a window changes the size of surrounding windows in complex ;; ways, so it's difficult to balance them all. The introduction of ;; `adjust-window-trailing-edge' made it a bit easier, but it is still ;; very difficult to do. `balance-window' above takes an off-line ;; approach: get the whole window tree, then balance it, then try to ;; adjust the windows so they fit the result. ;; Here, instead, we take a "local optimization" approach, where we just ;; go through all the windows several times until nothing needs to be ;; changed. The main problem with this approach is that it's difficult ;; to make sure it terminates, so we use some heuristic to try and break ;; off infinite loops. ;; After a round without any change, we allow a second, to give a chance ;; to the carry to propagate a minor imbalance from the end back to ;; the beginning. (while (< unchanged 2) ;; (message "New round") (setq unchanged (1+ unchanged) round (1+ round)) (dolist (win wins) (setq next win) (while (progn (setq next (next-window next)) (window-fixed-size-p next))) ;; (assert (eq next (or (cadr (member win wins)) (car wins)))) (let* ((horiz (< (car (window-edges win)) (car (window-edges next)))) (areadiff (/ (- (* (window-height next) (window-width next) (buffer-local-value 'window-area-factor (window-buffer next))) (* (window-height win) (window-width win) (buffer-local-value 'window-area-factor (window-buffer win)))) (max (buffer-local-value 'window-area-factor (window-buffer win)) (buffer-local-value 'window-area-factor (window-buffer next))))) (edgesize (if horiz (+ (window-height win) (window-height next)) (+ (window-width win) (window-width next)))) (diff (/ areadiff edgesize))) (when (zerop diff) ;; Maybe diff is actually closer to 1 than to 0. (setq diff (/ (* 3 areadiff) (* 2 edgesize)))) (when (and (zerop diff) (not (zerop areadiff))) (setq diff (/ (+ areadiff carry) edgesize)) ;; Change things smoothly. (if (or (> diff 1) (< diff -1)) (setq diff (/ diff 2)))) (if (zerop diff) ;; Make sure negligible differences don't accumulate to ;; become significant. (setq carry (+ carry areadiff)) (bw-adjust-window win diff horiz) ;; (sit-for 0.5) (let ((change (cons win (window-edges win)))) ;; If the same change has been seen already for this window, ;; we're most likely in an endless loop, so don't count it as ;; a change. (unless (member change changelog) (push change changelog) (setq unchanged 0 carry 0))))))) ;; We've now basically balanced all the windows. ;; But there may be some minor off-by-one imbalance left over, ;; so let's do some fine tuning. ;; (bw-finetune wins) ;; (message "Done in %d rounds" round) )) (defcustom display-buffer-function nil "If non-nil, function to call to handle `display-buffer'. It will receive two args, the buffer and a flag which if non-nil means that the currently selected window is not acceptable. It should choose or create a window, display the specified buffer in it, and return the window. Commands such as `switch-to-buffer-other-window' and `find-file-other-window' work using this function." :type '(choice (const nil) (function :tag "function")) :group 'windows) (defcustom special-display-buffer-names nil "List of names of buffers that should be displayed specially. Displaying a buffer with `display-buffer' or `pop-to-buffer', if its name is in this list, displays the buffer in a way specified by `special-display-function'. `special-display-popup-frame' \(the default for `special-display-function') usually displays the buffer in a separate frame made with the parameters specified by `special-display-frame-alist'. If `special-display-function' has been set to some other function, that function is called with the buffer as first, and nil as second argument. Alternatively, an element of this list can be specified as \(BUFFER-NAME FRAME-PARAMETERS), where BUFFER-NAME is a buffer name and FRAME-PARAMETERS an alist of \(PARAMETER . VALUE) pairs. `special-display-popup-frame' will interpret such pairs as frame parameters when it creates a special frame, overriding the corresponding values from `special-display-frame-alist'. As a special case, if FRAME-PARAMETERS contains (same-window . t) `special-display-popup-frame' displays that buffer in the selected window. If FRAME-PARAMETERS contains (same-frame . t), it displays that buffer in a window on the selected frame. If `special-display-function' specifies some other function than `special-display-popup-frame', that function is called with the buffer named BUFFER-NAME as first, and FRAME-PARAMETERS as second argument. Finally, an element of this list can be also specified as \(BUFFER-NAME FUNCTION OTHER-ARGS). In that case, `special-display-popup-frame' will call FUNCTION with the buffer named BUFFER-NAME as first argument, and OTHER-ARGS as the second. If `special-display-function' specifies some other function, that function is called with the buffer named BUFFER-NAME as first, and the element's cdr as second argument. If this variable appears \"not to work\", because you added a name to it but the corresponding buffer is displayed in the selected window, look at the values of `same-window-buffer-names' and `same-window-regexps'. Those variables take precedence over this one. See also `special-display-regexps'." :type '(repeat (choice :tag "Buffer" :value "" (string :format "%v") (cons :tag "With parameters" :format "%v" :value ("" . nil) (string :format "%v") (repeat :tag "Parameters" (cons :format "%v" (symbol :tag "Parameter") (sexp :tag "Value")))) (list :tag "With function" :format "%v" :value ("" . nil) (string :format "%v") (function :tag "Function") (repeat :tag "Arguments" (sexp))))) :group 'windows :group 'frames) ;;;###autoload (put 'special-display-buffer-names 'risky-local-variable t) (defcustom special-display-regexps nil "List of regexps saying which buffers should be displayed specially. Displaying a buffer with `display-buffer' or `pop-to-buffer', if any regexp in this list matches its name, displays it specially using `special-display-function'. `special-display-popup-frame' \(the default for `special-display-function') usually displays the buffer in a separate frame made with the parameters specified by `special-display-frame-alist'. If `special-display-function' has been set to some other function, that function is called with the buffer as first, and nil as second argument. Alternatively, an element of this list can be specified as \(REGEXP FRAME-PARAMETERS), where REGEXP is a regexp as above and FRAME-PARAMETERS an alist of (PARAMETER . VALUE) pairs. `special-display-popup-frame' will then interpret these pairs as frame parameters when creating a special frame for a buffer whose name matches REGEXP, overriding the corresponding values from `special-display-frame-alist'. As a special case, if FRAME-PARAMETERS contains (same-window . t) `special-display-popup-frame' displays buffers matching REGEXP in the selected window. \(same-frame . t) in FRAME-PARAMETERS means to display such buffers in a window on the selected frame. If `special-display-function' specifies some other function than `special-display-popup-frame', that function is called with the buffer whose name matched REGEXP as first, and FRAME-PARAMETERS as second argument. Finally, an element of this list can be also specified as \(REGEXP FUNCTION OTHER-ARGS). `special-display-popup-frame' will then call FUNCTION with the buffer whose name matched REGEXP as first, and OTHER-ARGS as second argument. If `special-display-function' specifies some other function, that function is called with the buffer whose name matched REGEXP as first, and the element's cdr as second argument. If this variable appears \"not to work\", because you added a name to it but the corresponding buffer is displayed in the selected window, look at the values of `same-window-buffer-names' and `same-window-regexps'. Those variables take precedence over this one. See also `special-display-buffer-names'." :type '(repeat (choice :tag "Buffer" :value "" (regexp :format "%v") (cons :tag "With parameters" :format "%v" :value ("" . nil) (regexp :format "%v") (repeat :tag "Parameters" (cons :format "%v" (symbol :tag "Parameter") (sexp :tag "Value")))) (list :tag "With function" :format "%v" :value ("" . nil) (regexp :format "%v") (function :tag "Function") (repeat :tag "Arguments" (sexp))))) :group 'windows :group 'frames) (defun special-display-p (buffer-name) "Return non-nil if a buffer named BUFFER-NAME gets a special frame. More precisely, return t if `special-display-buffer-names' or `special-display-regexps' contain a string entry equaling or matching BUFFER-NAME. If `special-display-buffer-names' or `special-display-regexps' contain a list entry whose car equals or matches BUFFER-NAME, the return value is the cdr of that entry." (let (tmp) (cond ((not (stringp buffer-name))) ((member buffer-name special-display-buffer-names) t) ((setq tmp (assoc buffer-name special-display-buffer-names)) (cdr tmp)) ((catch 'found (dolist (regexp special-display-regexps) (cond ((stringp regexp) (when (string-match-p regexp buffer-name) (throw 'found t))) ((and (consp regexp) (stringp (car regexp)) (string-match-p (car regexp) buffer-name)) (throw 'found (cdr regexp)))))))))) (defcustom special-display-function 'special-display-popup-frame "Function to call for displaying special buffers. This function is called with two arguments - the buffer and, optionally, a list - and should return a window displaying that buffer. The default value usually makes a separate frame for the buffer using `special-display-frame-alist' to specify the frame parameters. See the definition of `special-display-popup-frame' for how to specify such a function. A buffer is special when its name is either listed in `special-display-buffer-names' or matches a regexp in `special-display-regexps'." :type 'function :group 'frames) (defcustom same-window-buffer-names nil "List of names of buffers that should appear in the \"same\" window. `display-buffer' and `pop-to-buffer' show a buffer whose name is on this list in the selected rather than some other window. An element of this list can be a cons cell instead of just a string. In that case, the cell's car must be a string specifying the buffer name. This is for compatibility with `special-display-buffer-names'; the cdr of the cons cell is ignored. See also `same-window-regexps'." :type '(repeat (string :format "%v")) :group 'windows) (defcustom same-window-regexps nil "List of regexps saying which buffers should appear in the \"same\" window. `display-buffer' and `pop-to-buffer' show a buffer whose name matches a regexp on this list in the selected rather than some other window. An element of this list can be a cons cell instead of just a string. In that case, the cell's car must be a regexp matching the buffer name. This is for compatibility with `special-display-regexps'; the cdr of the cons cell is ignored. See also `same-window-buffer-names'." :type '(repeat (regexp :format "%v")) :group 'windows) (defun same-window-p (buffer-name) "Return non-nil if a buffer named BUFFER-NAME would be shown in the \"same\" window. This function returns non-nil if `display-buffer' or `pop-to-buffer' would show a buffer named BUFFER-NAME in the selected rather than \(as usual\) some other window. See `same-window-buffer-names' and `same-window-regexps'." (cond ((not (stringp buffer-name))) ;; The elements of `same-window-buffer-names' can be buffer ;; names or cons cells whose cars are buffer names. ((member buffer-name same-window-buffer-names)) ((assoc buffer-name same-window-buffer-names)) ((catch 'found (dolist (regexp same-window-regexps) ;; The elements of `same-window-regexps' can be regexps ;; or cons cells whose cars are regexps. (when (or (and (stringp regexp) (string-match regexp buffer-name)) (and (consp regexp) (stringp (car regexp)) (string-match-p (car regexp) buffer-name))) (throw 'found t))))))) (defcustom pop-up-frames nil "Whether `display-buffer' should make a separate frame. If nil, never make a separate frame. If the value is `graphic-only', make a separate frame on graphic displays only. Any other non-nil value means always make a separate frame." :type '(choice (const :tag "Never" nil) (const :tag "On graphic displays only" graphic-only) (const :tag "Always" t)) :group 'windows) (defcustom display-buffer-reuse-frames nil "Non-nil means `display-buffer' should reuse frames. If the buffer in question is already displayed in a frame, raise that frame." :type 'boolean :version "21.1" :group 'windows) (defcustom pop-up-windows t "Non-nil means `display-buffer' should make a new window." :type 'boolean :group 'windows) (defcustom split-window-preferred-function 'split-window-sensibly "Function called by `display-buffer' routines to split a window. This function is called with a window as single argument and is supposed to split that window and return the new window. If the window can (or shall) not be split, it is supposed to return nil. The default is to call the function `split-window-sensibly' which tries to split the window in a way which seems most suitable. You can customize the options `split-height-threshold' and/or `split-width-threshold' in order to have `split-window-sensibly' prefer either vertical or horizontal splitting. If you set this to any other function, bear in mind that the `display-buffer' routines may call this function two times. The argument of the first call is the largest window on its frame. If that call fails to return a live window, the function is called again with the least recently used window as argument. If that call fails too, `display-buffer' will use an existing window to display its buffer. The window selected at the time `display-buffer' was invoked is still selected when this function is called. Hence you can compare the window argument with the value of `selected-window' if you intend to split the selected window instead or if you do not want to split the selected window." :type 'function :version "23.1" :group 'windows) (defcustom split-height-threshold 80 "Minimum height for splitting windows sensibly. If this is an integer, `split-window-sensibly' may split a window vertically only if it has at least this many lines. If this is nil, `split-window-sensibly' is not allowed to split a window vertically. If, however, a window is the only window on its frame, `split-window-sensibly' may split it vertically disregarding the value of this variable." :type '(choice (const nil) (integer :tag "lines")) :version "23.1" :group 'windows) (defcustom split-width-threshold 160 "Minimum width for splitting windows sensibly. If this is an integer, `split-window-sensibly' may split a window horizontally only if it has at least this many columns. If this is nil, `split-window-sensibly' is not allowed to split a window horizontally." :type '(choice (const nil) (integer :tag "columns")) :version "23.1" :group 'windows) (defun window-splittable-p (window &optional horizontal) "Return non-nil if `split-window-sensibly' may split WINDOW. Optional argument HORIZONTAL nil or omitted means check whether `split-window-sensibly' may split WINDOW vertically. HORIZONTAL non-nil means check whether WINDOW may be split horizontally. WINDOW may be split vertically when the following conditions hold: - `window-size-fixed' is either nil or equals `width' for the buffer of WINDOW. - `split-height-threshold' is an integer and WINDOW is at least as high as `split-height-threshold'. - When WINDOW is split evenly, the emanating windows are at least `window-min-height' lines tall and can accommodate at least one line plus - if WINDOW has one - a mode line. WINDOW may be split horizontally when the following conditions hold: - `window-size-fixed' is either nil or equals `height' for the buffer of WINDOW. - `split-width-threshold' is an integer and WINDOW is at least as wide as `split-width-threshold'. - When WINDOW is split evenly, the emanating windows are at least `window-min-width' or two (whichever is larger) columns wide." (when (window-live-p window) (with-current-buffer (window-buffer window) (if horizontal ;; A window can be split horizontally when its width is not ;; fixed, it is at least `split-width-threshold' columns wide ;; and at least twice as wide as `window-min-width' and 2 (the ;; latter value is hardcoded). (and (memq window-size-fixed '(nil height)) ;; Testing `window-full-width-p' here hardly makes any ;; sense nowadays. This can be done more intuitively by ;; setting up `split-width-threshold' appropriately. (numberp split-width-threshold) (>= (window-width window) (max split-width-threshold (* 2 (max window-min-width 2))))) ;; A window can be split vertically when its height is not ;; fixed, it is at least `split-height-threshold' lines high, ;; and it is at least twice as high as `window-min-height' and 2 ;; if it has a modeline or 1. (and (memq window-size-fixed '(nil width)) (numberp split-height-threshold) (>= (window-height window) (max split-height-threshold (* 2 (max window-min-height (if mode-line-format 2 1)))))))))) (defun split-window-sensibly (window) "Split WINDOW in a way suitable for `display-buffer'. If `split-height-threshold' specifies an integer, WINDOW is at least `split-height-threshold' lines tall and can be split vertically, split WINDOW into two windows one above the other and return the lower window. Otherwise, if `split-width-threshold' specifies an integer, WINDOW is at least `split-width-threshold' columns wide and can be split horizontally, split WINDOW into two windows side by side and return the window on the right. If this can't be done either and WINDOW is the only window on its frame, try to split WINDOW vertically disregarding any value specified by `split-height-threshold'. If that succeeds, return the lower window. Return nil otherwise. By default `display-buffer' routines call this function to split the largest or least recently used window. To change the default customize the option `split-window-preferred-function'. You can enforce this function to not split WINDOW horizontally, by setting \(or binding) the variable `split-width-threshold' to nil. If, in addition, you set `split-height-threshold' to zero, chances increase that this function does split WINDOW vertically. In order to not split WINDOW vertically, set \(or bind) the variable `split-height-threshold' to nil. Additionally, you can set `split-width-threshold' to zero to make a horizontal split more likely to occur. Have a look at the function `window-splittable-p' if you want to know how `split-window-sensibly' determines whether WINDOW can be split." (or (and (window-splittable-p window) ;; Split window vertically. (with-selected-window window (split-window-vertically))) (and (window-splittable-p window t) ;; Split window horizontally. (with-selected-window window (split-window-horizontally))) (and (eq window (frame-root-window (window-frame window))) (not (window-minibuffer-p window)) ;; If WINDOW is the only window on its frame and is not the ;; minibuffer window, try to split it vertically disregarding ;; the value of `split-height-threshold'. (let ((split-height-threshold 0)) (when (window-splittable-p window) (with-selected-window window (split-window-vertically))))))) (defun window--try-to-split-window (window) "Try to split WINDOW. Return value returned by `split-window-preferred-function' if it represents a live window, nil otherwise." (and (window-live-p window) (not (frame-parameter (window-frame window) 'unsplittable)) (let ((new-window ;; Since `split-window-preferred-function' might ;; throw an error use `condition-case'. (condition-case nil (funcall split-window-preferred-function window) (error nil)))) (and (window-live-p new-window) new-window)))) (defun window--frame-usable-p (frame) "Return FRAME if it can be used to display a buffer." (when (frame-live-p frame) (let ((window (frame-root-window frame))) ;; `frame-root-window' may be an internal window which is considered ;; "dead" by `window-live-p'. Hence if `window' is not live we ;; implicitly know that `frame' has a visible window we can use. (unless (and (window-live-p window) (or (window-minibuffer-p window) ;; If the window is soft-dedicated, the frame is usable. ;; Actually, even if the window is really dedicated, ;; the frame is still usable by splitting it. ;; At least Emacs-22 allowed it, and it is desirable ;; when displaying same-frame windows. nil ; (eq t (window-dedicated-p window)) )) frame)))) (defcustom even-window-heights t "If non-nil `display-buffer' will try to even window heights. Otherwise `display-buffer' will leave the window configuration alone. Heights are evened only when `display-buffer' chooses a window that appears above or below the selected window." :type 'boolean :group 'windows) (defun window--even-window-heights (window) "Even heights of WINDOW and selected window. Do this only if these windows are vertically adjacent to each other, `even-window-heights' is non-nil, and the selected window is higher than WINDOW." (when (and even-window-heights (not (eq window (selected-window))) ;; Don't resize minibuffer windows. (not (window-minibuffer-p (selected-window))) (> (window-height (selected-window)) (window-height window)) (eq (window-frame window) (window-frame (selected-window))) (let ((sel-edges (window-edges (selected-window))) (win-edges (window-edges window))) (and (= (nth 0 sel-edges) (nth 0 win-edges)) (= (nth 2 sel-edges) (nth 2 win-edges)) (or (= (nth 1 sel-edges) (nth 3 win-edges)) (= (nth 3 sel-edges) (nth 1 win-edges)))))) (let ((window-min-height 1)) ;; Don't throw an error if we can't even window heights for ;; whatever reason. (condition-case nil (enlarge-window (/ (- (window-height window) (window-height)) 2)) (error nil))))) (defun window--display-buffer-1 (window) "Raise the frame containing WINDOW. Do not raise the selected frame. Return WINDOW." (let* ((frame (window-frame window)) (visible (frame-visible-p frame))) (unless (or (not visible) ;; Assume the selected frame is already visible enough. (eq frame (selected-frame)) ;; Assume the frame from which we invoked the minibuffer ;; is visible. (and (minibuffer-window-active-p (selected-window)) (eq frame (window-frame (minibuffer-selected-window))))) (raise-frame frame)) window)) (defun window--display-buffer-2 (buffer window &optional dedicated) "Display BUFFER in WINDOW and make its frame visible. Set `window-dedicated-p' to DEDICATED if non-nil. Return WINDOW." (when (and (buffer-live-p buffer) (window-live-p window)) (set-window-buffer window buffer) (when dedicated (set-window-dedicated-p window dedicated)) (window--display-buffer-1 window))) (defvar display-buffer-mark-dedicated nil "If non-nil, `display-buffer' marks the windows it creates as dedicated. The actual non-nil value of this variable will be copied to the `window-dedicated-p' flag.") (defun display-buffer (buffer-or-name &optional not-this-window frame) "Make buffer BUFFER-OR-NAME appear in some window but don't select it. BUFFER-OR-NAME must be a buffer or the name of an existing buffer. Return the window chosen to display BUFFER-OR-NAME or nil if no such window is found. Optional argument NOT-THIS-WINDOW non-nil means display the buffer in a window other than the selected one, even if it is already displayed in the selected window. Optional argument FRAME specifies which frames to investigate when the specified buffer is already displayed. If the buffer is already displayed in some window on one of these frames simply return that window. Possible values of FRAME are: `visible' - consider windows on all visible frames on the current terminal. 0 - consider windows on all visible or iconified frames on the current terminal. t - consider windows on all frames. A specific frame - consider windows on that frame only. nil - consider windows on the selected frame \(actually the last non-minibuffer frame\) only. If, however, either `display-buffer-reuse-frames' or `pop-up-frames' is non-nil \(non-nil and not graphic-only on a text-only terminal), consider all visible or iconified frames on the current terminal." (interactive "BDisplay buffer:\nP") (let* ((can-use-selected-window ;; The selected window is usable unless either NOT-THIS-WINDOW ;; is non-nil, it is dedicated to its buffer, or it is the ;; `minibuffer-window'. (not (or not-this-window (window-dedicated-p (selected-window)) (window-minibuffer-p)))) (buffer (if (bufferp buffer-or-name) buffer-or-name (get-buffer buffer-or-name))) (name-of-buffer (buffer-name buffer)) ;; On text-only terminals do not pop up a new frame when ;; `pop-up-frames' equals graphic-only. (use-pop-up-frames (if (eq pop-up-frames 'graphic-only) (display-graphic-p) pop-up-frames)) ;; `frame-to-use' is the frame where to show `buffer' - either ;; the selected frame or the last nonminibuffer frame. (frame-to-use (or (window--frame-usable-p (selected-frame)) (window--frame-usable-p (last-nonminibuffer-frame)))) ;; `window-to-use' is the window we use for showing `buffer'. window-to-use) (cond ((not (buffer-live-p buffer)) (error "No such buffer %s" buffer)) (display-buffer-function ;; Let `display-buffer-function' do the job. (funcall display-buffer-function buffer not-this-window)) ((and (not not-this-window) (eq (window-buffer (selected-window)) buffer)) ;; The selected window already displays BUFFER and ;; `not-this-window' is nil, so use it. (window--display-buffer-1 (selected-window))) ((and can-use-selected-window (same-window-p name-of-buffer)) ;; If the buffer's name tells us to use the selected window do so. (window--display-buffer-2 buffer (selected-window))) ((let ((frames (or frame (and (or use-pop-up-frames display-buffer-reuse-frames (not (last-nonminibuffer-frame))) 0) (last-nonminibuffer-frame)))) (setq window-to-use (catch 'found ;; Search frames for a window displaying BUFFER. Return ;; the selected window only if we are allowed to do so. (dolist (window (get-buffer-window-list buffer 'nomini frames)) (when (or can-use-selected-window (not (eq (selected-window) window))) (throw 'found window)))))) ;; The buffer is already displayed in some window; use that. (window--display-buffer-1 window-to-use)) ((and special-display-function ;; `special-display-p' returns either t or a list of frame ;; parameters to pass to `special-display-function'. (let ((pars (special-display-p name-of-buffer))) (when pars (funcall special-display-function buffer (if (listp pars) pars)))))) ((or use-pop-up-frames (not frame-to-use)) ;; We want or need a new frame. (let ((win (frame-selected-window (funcall pop-up-frame-function)))) (window--display-buffer-2 buffer win display-buffer-mark-dedicated))) ((and pop-up-windows ;; Make a new window. (or (not (frame-parameter frame-to-use 'unsplittable)) ;; If the selected frame cannot be split look at ;; `last-nonminibuffer-frame'. (and (eq frame-to-use (selected-frame)) (setq frame-to-use (last-nonminibuffer-frame)) (window--frame-usable-p frame-to-use) (not (frame-parameter frame-to-use 'unsplittable)))) ;; Attempt to split largest or least recently used window. (setq window-to-use (or (window--try-to-split-window (get-largest-window frame-to-use t)) (window--try-to-split-window (get-lru-window frame-to-use t))))) (window--display-buffer-2 buffer window-to-use display-buffer-mark-dedicated)) ((let ((window-to-undedicate ;; When NOT-THIS-WINDOW is non-nil, temporarily dedicate ;; the selected window to its buffer, to avoid that some of ;; the `get-' routines below choose it. (Bug#1415) (and not-this-window (not (window-dedicated-p)) (set-window-dedicated-p (selected-window) t) (selected-window)))) (unwind-protect (setq window-to-use ;; Reuse an existing window. (or (get-lru-window frame-to-use) (let ((window (get-buffer-window buffer 'visible))) (unless (and not-this-window (eq window (selected-window))) window)) (get-largest-window 'visible) (let ((window (get-buffer-window buffer 0))) (unless (and not-this-window (eq window (selected-window))) window)) (get-largest-window 0) (frame-selected-window (funcall pop-up-frame-function)))) (when (window-live-p window-to-undedicate) ;; Restore dedicated status of selected window. (set-window-dedicated-p window-to-undedicate nil)))) (window--even-window-heights window-to-use) (window--display-buffer-2 buffer window-to-use))))) (defun pop-to-buffer (buffer-or-name &optional other-window norecord) "Select buffer BUFFER-OR-NAME in some window, preferably a different one. BUFFER-OR-NAME may be a buffer, a string \(a buffer name), or nil. If BUFFER-OR-NAME is a string not naming an existent buffer, create a buffer with that name. If BUFFER-OR-NAME is nil, choose some other buffer. If `pop-up-windows' is non-nil, windows can be split to display the buffer. If optional second arg OTHER-WINDOW is non-nil, insist on finding another window even if the specified buffer is already visible in the selected window, and ignore `same-window-regexps' and `same-window-buffer-names'. If the window to show BUFFER-OR-NAME is not on the selected frame, raise that window's frame and give it input focus. This function returns the buffer it switched to. This uses the function `display-buffer' as a subroutine; see the documentation of `display-buffer' for additional customization information. Optional third arg NORECORD non-nil means do not put this buffer at the front of the list of recently selected ones." (let ((buffer ;; FIXME: This behavior is carried over from the previous C version ;; of pop-to-buffer, but really we should use just ;; `get-buffer' here. (if (null buffer-or-name) (other-buffer (current-buffer)) (or (get-buffer buffer-or-name) (let ((buf (get-buffer-create buffer-or-name))) (set-buffer-major-mode buf) buf)))) (old-frame (selected-frame)) new-window new-frame) (set-buffer buffer) (setq new-window (display-buffer buffer other-window)) (select-window new-window norecord) (setq new-frame (window-frame new-window)) (unless (eq new-frame old-frame) ;; `display-buffer' has chosen another frame, make sure it gets ;; input focus and is risen. (select-frame-set-input-focus new-frame)) buffer)) ;; I think this should be the default; I think people will prefer it--rms. (defcustom split-window-keep-point t "If non-nil, \\[split-window-vertically] keeps the original point \ in both children. This is often more convenient for editing. If nil, adjust point in each of the two windows to minimize redisplay. This is convenient on slow terminals, but point can move strangely. This option applies only to `split-window-vertically' and functions that call it. `split-window' always keeps the original point in both children." :type 'boolean :group 'windows) (defun split-window-vertically (&optional size) "Split selected window into two windows, one above the other. The upper window gets SIZE lines and the lower one gets the rest. SIZE negative means the lower window gets -SIZE lines and the upper one the rest. With no argument, split windows equally or close to it. Both windows display the same buffer, now current. If the variable `split-window-keep-point' is non-nil, both new windows will get the same value of point as the selected window. This is often more convenient for editing. The upper window is the selected window. Otherwise, we choose window starts so as to minimize the amount of redisplay; this is convenient on slow terminals. The new selected window is the one that the current value of point appears in. The value of point can change if the text around point is hidden by the new mode line. Regardless of the value of `split-window-keep-point', the upper window is the original one and the return value is the new, lower window." (interactive "P") (let ((old-window (selected-window)) (old-point (point)) (size (and size (prefix-numeric-value size))) moved-by-window-height moved new-window bottom) (and size (< size 0) ;; Handle negative SIZE value. (setq size (+ (window-height) size))) (setq new-window (split-window nil size)) (unless split-window-keep-point (with-current-buffer (window-buffer) (goto-char (window-start)) (setq moved (vertical-motion (window-height))) (set-window-start new-window (point)) (when (> (point) (window-point new-window)) (set-window-point new-window (point))) (when (= moved (window-height)) (setq moved-by-window-height t) (vertical-motion -1)) (setq bottom (point))) (and moved-by-window-height (<= bottom (point)) (set-window-point old-window (1- bottom))) (and moved-by-window-height (<= (window-start new-window) old-point) (set-window-point new-window old-point) (select-window new-window))) (split-window-save-restore-data new-window old-window))) ;; This is to avoid compiler warnings. (defvar view-return-to-alist) (defun split-window-save-restore-data (new-window old-window) (with-current-buffer (window-buffer) (when view-mode (let ((old-info (assq old-window view-return-to-alist))) (when old-info (push (cons new-window (cons (car (cdr old-info)) t)) view-return-to-alist)))) new-window)) (defun split-window-horizontally (&optional size) "Split selected window into two windows side by side. The selected window becomes the left one and gets SIZE columns. SIZE negative means the right window gets -SIZE lines. SIZE includes the width of the window's scroll bar; if there are no scroll bars, it includes the width of the divider column to the window's right, if any. SIZE omitted or nil means split window equally. The selected window remains selected. Return the new window." (interactive "P") (let ((old-window (selected-window)) (size (and size (prefix-numeric-value size)))) (and size (< size 0) ;; Handle negative SIZE value. (setq size (+ (window-width) size))) (split-window-save-restore-data (split-window nil size t) old-window))) (defun set-window-text-height (window height) "Set the height in lines of the text display area of WINDOW to HEIGHT. HEIGHT doesn't include the mode line or header line, if any, or any partial-height lines in the text display area. Note that the current implementation of this function cannot always set the height exactly, but attempts to be conservative, by allocating more lines than are actually needed in the case where some error may be present." (let ((delta (- height (window-text-height window)))) (unless (zerop delta) ;; Setting window-min-height to a value like 1 can lead to very ;; bizarre displays because it also allows Emacs to make *other* ;; windows 1-line tall, which means that there's no more space for ;; the modeline. (let ((window-min-height (min 2 height))) ; One text line plus a modeline. (if (and window (not (eq window (selected-window)))) (save-selected-window (select-window window 'norecord) (enlarge-window delta)) (enlarge-window delta)))))) (defun enlarge-window-horizontally (columns) "Make selected window COLUMNS wider. Interactively, if no argument is given, make selected window one column wider." (interactive "p") (enlarge-window columns t)) (defun shrink-window-horizontally (columns) "Make selected window COLUMNS narrower. Interactively, if no argument is given, make selected window one column narrower." (interactive "p") (shrink-window columns t)) (defun window-buffer-height (window) "Return the height (in screen lines) of the buffer that WINDOW is displaying." (with-current-buffer (window-buffer window) (max 1 (count-screen-lines (point-min) (point-max) ;; If buffer ends with a newline, ignore it when ;; counting height unless point is after it. (eobp) window)))) (defun count-screen-lines (&optional beg end count-final-newline window) "Return the number of screen lines in the region. The number of screen lines may be different from the number of actual lines, due to line breaking, display table, etc. Optional arguments BEG and END default to `point-min' and `point-max' respectively. If region ends with a newline, ignore it unless optional third argument COUNT-FINAL-NEWLINE is non-nil. The optional fourth argument WINDOW specifies the window used for obtaining parameters such as width, horizontal scrolling, and so on. The default is to use the selected window's parameters. Like `vertical-motion', `count-screen-lines' always uses the current buffer, regardless of which buffer is displayed in WINDOW. This makes possible to use `count-screen-lines' in any buffer, whether or not it is currently displayed in some window." (unless beg (setq beg (point-min))) (unless end (setq end (point-max))) (if (= beg end) 0 (save-excursion (save-restriction (widen) (narrow-to-region (min beg end) (if (and (not count-final-newline) (= ?\n (char-before (max beg end)))) (1- (max beg end)) (max beg end))) (goto-char (point-min)) (1+ (vertical-motion (buffer-size) window)))))) (defun fit-window-to-buffer (&optional window max-height min-height) "Adjust height of WINDOW to display its buffer's contents exactly. WINDOW defaults to the selected window. Optional argument MAX-HEIGHT specifies the maximum height of the window and defaults to the maximum permissible height of a window on WINDOW's frame. Optional argument MIN-HEIGHT specifies the minimum height of the window and defaults to `window-min-height'. Both, MAX-HEIGHT and MIN-HEIGHT are specified in lines and include the mode line and header line, if any. Return non-nil if height was orderly adjusted, nil otherwise. Caution: This function can delete WINDOW and/or other windows when their height shrinks to less than MIN-HEIGHT." (interactive) ;; Do all the work in WINDOW and its buffer and restore the selected ;; window and the current buffer when we're done. (let ((old-buffer (current-buffer)) value) (with-selected-window (or window (setq window (selected-window))) (set-buffer (window-buffer)) ;; Use `condition-case' to handle any fixed-size windows and other ;; pitfalls nearby. (condition-case nil (let* (;; MIN-HEIGHT must not be less than 1 and defaults to ;; `window-min-height'. (min-height (max (or min-height window-min-height) 1)) (max-window-height ;; Maximum height of any window on this frame. (min (window-height (frame-root-window)) (frame-height))) ;; MAX-HEIGHT must not be larger than max-window-height and ;; defaults to max-window-height. (max-height (min (or max-height max-window-height) max-window-height)) (desired-height ;; The height necessary to show all of WINDOW's buffer, ;; constrained by MIN-HEIGHT and MAX-HEIGHT. (max (min ;; For an empty buffer `count-screen-lines' returns zero. ;; Even in that case we need one line for the cursor. (+ (max (count-screen-lines) 1) ;; For non-minibuffers count the mode line, if any. (if (and (not (window-minibuffer-p)) mode-line-format) 1 0) ;; Count the header line, if any. (if header-line-format 1 0)) max-height) min-height)) (delta ;; How much the window height has to change. (if (= (window-height) (window-height (frame-root-window))) ;; Don't try to resize a full-height window. 0 (- desired-height (window-height)))) ;; Do something reasonable so `enlarge-window' can make ;; windows as small as MIN-HEIGHT. (window-min-height (min min-height window-min-height))) ;; Don't try to redisplay with the cursor at the end on its ;; own line--that would force a scroll and spoil things. (when (and (eobp) (bolp) (not (bobp))) (set-window-point window (1- (window-point)))) ;; Adjust WINDOW's height to the nominally correct one ;; (which may actually be slightly off because of variable ;; height text, etc). (unless (zerop delta) (enlarge-window delta)) ;; `enlarge-window' might have deleted WINDOW, so make sure ;; WINDOW's still alive for the remainder of this. ;; Note: Deleting WINDOW is clearly counter-intuitive in ;; this context, but we can't do much about it given the ;; current semantics of `enlarge-window'. (when (window-live-p window) ;; Check if the last line is surely fully visible. If ;; not, enlarge the window. (let ((end (save-excursion (goto-char (point-max)) (when (and (bolp) (not (bobp))) ;; Don't include final newline. (backward-char 1)) (when truncate-lines ;; If line-wrapping is turned off, test the ;; beginning of the last line for ;; visibility instead of the end, as the ;; end of the line could be invisible by ;; virtue of extending past the edge of the ;; window. (forward-line 0)) (point)))) (set-window-vscroll window 0) (while (and (< desired-height max-height) (= desired-height (window-height)) (not (pos-visible-in-window-p end))) (enlarge-window 1) (setq desired-height (1+ desired-height)))) ;; Return non-nil only if nothing "bad" happened. (setq value t))) (error nil))) (when (buffer-live-p old-buffer) (set-buffer old-buffer)) value)) (defun window-safely-shrinkable-p (&optional window) "Return t if WINDOW can be shrunk without shrinking other windows. WINDOW defaults to the selected window." (with-selected-window (or window (selected-window)) (let ((edges (window-edges))) (or (= (nth 2 edges) (nth 2 (window-edges (previous-window)))) (= (nth 0 edges) (nth 0 (window-edges (next-window)))))))) (defun shrink-window-if-larger-than-buffer (&optional window) "Shrink height of WINDOW if its buffer doesn't need so many lines. More precisely, shrink WINDOW vertically to be as small as possible, while still showing the full contents of its buffer. WINDOW defaults to the selected window. Do not shrink to less than `window-min-height' lines. Do nothing if the buffer contains more lines than the present window height, or if some of the window's contents are scrolled out of view, or if shrinking this window would also shrink another window, or if the window is the only window of its frame. Return non-nil if the window was shrunk, nil otherwise." (interactive) (when (null window) (setq window (selected-window))) (let* ((frame (window-frame window)) (mini (frame-parameter frame 'minibuffer)) (edges (window-edges window))) (if (and (not (eq window (frame-root-window frame))) (window-safely-shrinkable-p window) (pos-visible-in-window-p (point-min) window) (not (eq mini 'only)) (or (not mini) (let ((mini-window (minibuffer-window frame))) (or (null mini-window) (not (eq frame (window-frame mini-window))) (< (nth 3 edges) (nth 1 (window-edges mini-window))) (> (nth 1 edges) (frame-parameter frame 'menu-bar-lines)))))) (fit-window-to-buffer window (window-height window))))) (defun kill-buffer-and-window () "Kill the current buffer and delete the selected window." (interactive) (let ((window-to-delete (selected-window)) (buffer-to-kill (current-buffer)) (delete-window-hook (lambda () (condition-case nil (delete-window) (error nil))))) (unwind-protect (progn (add-hook 'kill-buffer-hook delete-window-hook t t) (if (kill-buffer (current-buffer)) ;; If `delete-window' failed before, we rerun it to regenerate ;; the error so it can be seen in the echo area. (when (eq (selected-window) window-to-delete) (delete-window)))) ;; If the buffer is not dead for some reason (probably because ;; of a `quit' signal), remove the hook again. (condition-case nil (with-current-buffer buffer-to-kill (remove-hook 'kill-buffer-hook delete-window-hook t)) (error nil))))) (defun quit-window (&optional kill window) "Quit WINDOW and bury its buffer. With a prefix argument, kill the buffer instead. WINDOW defaults to the selected window. If WINDOW is non-nil, dedicated, or a minibuffer window, delete it and, if it's alone on its frame, its frame too. Otherwise, or if deleting WINDOW fails in any of the preceding cases, display another buffer in WINDOW using `switch-to-buffer'. Optional argument KILL non-nil means kill WINDOW's buffer. Otherwise, bury WINDOW's buffer, see `bury-buffer'." (interactive "P") (let ((buffer (window-buffer window))) (if (or window (window-minibuffer-p window) (window-dedicated-p window)) ;; WINDOW is either non-nil, a minibuffer window, or dedicated; ;; try to delete it. (let* ((window (or window (selected-window))) (frame (window-frame window))) (if (eq window (frame-root-window frame)) ;; WINDOW is alone on its frame. `delete-windows-on' ;; knows how to handle that case. (delete-windows-on buffer frame) ;; There are other windows on its frame, delete WINDOW. (delete-window window))) ;; Otherwise, switch to another buffer in the selected window. (switch-to-buffer nil)) ;; Deal with the buffer. (if kill (kill-buffer buffer) (bury-buffer buffer)))) (defvar recenter-last-op nil "Indicates the last recenter operation performed. Possible values: `top', `middle', `bottom', integer or float numbers.") (defcustom recenter-positions '(middle top bottom) "Cycling order for `recenter-top-bottom'. A list of elements with possible values `top', `middle', `bottom', integer or float numbers that define the cycling order for the command `recenter-top-bottom'. Top and bottom destinations are `scroll-margin' lines the from true window top and bottom. Middle redraws the frame and centers point vertically within the window. Integer number moves current line to the specified absolute window-line. Float number between 0.0 and 1.0 means the percentage of the screen space from the top. The default cycling order is middle -> top -> bottom." :type '(repeat (choice (const :tag "Top" top) (const :tag "Middle" middle) (const :tag "Bottom" bottom) (integer :tag "Line number") (float :tag "Percentage"))) :version "23.2" :group 'windows) (defun recenter-top-bottom (&optional arg) "Move current buffer line to the specified window line. With no prefix argument, successive calls place point according to the cycling order defined by `recenter-positions'. A prefix argument is handled like `recenter': With numeric prefix ARG, move current line to window-line ARG. With plain `C-u', move current line to window center." (interactive "P") (cond (arg (recenter arg)) ; Always respect ARG. (t (setq recenter-last-op (if (eq this-command last-command) (car (or (cdr (member recenter-last-op recenter-positions)) recenter-positions)) (car recenter-positions))) (let ((this-scroll-margin (min (max 0 scroll-margin) (truncate (/ (window-body-height) 4.0))))) (cond ((eq recenter-last-op 'middle) (recenter)) ((eq recenter-last-op 'top) (recenter this-scroll-margin)) ((eq recenter-last-op 'bottom) (recenter (- -1 this-scroll-margin))) ((integerp recenter-last-op) (recenter recenter-last-op)) ((floatp recenter-last-op) (recenter (round (* recenter-last-op (window-height)))))))))) (define-key global-map [?\C-l] 'recenter-top-bottom) (defun move-to-window-line-top-bottom (&optional arg) "Position point relative to window. With a prefix argument ARG, acts like `move-to-window-line'. With no argument, positions point at center of window. Successive calls position point at positions defined by `recenter-positions'." (interactive "P") (cond (arg (move-to-window-line arg)) ; Always respect ARG. (t (setq recenter-last-op (if (eq this-command last-command) (car (or (cdr (member recenter-last-op recenter-positions)) recenter-positions)) (car recenter-positions))) (let ((this-scroll-margin (min (max 0 scroll-margin) (truncate (/ (window-body-height) 4.0))))) (cond ((eq recenter-last-op 'middle) (call-interactively 'move-to-window-line)) ((eq recenter-last-op 'top) (move-to-window-line this-scroll-margin)) ((eq recenter-last-op 'bottom) (move-to-window-line (- -1 this-scroll-margin))) ((integerp recenter-last-op) (move-to-window-line recenter-last-op)) ((floatp recenter-last-op) (move-to-window-line (round (* recenter-last-op (window-height)))))))))) (define-key global-map [?\M-r] 'move-to-window-line-top-bottom) ;;; Scrolling commands. ;;; Scrolling commands which does not signal errors at top/bottom ;;; of buffer at first key-press (instead moves to top/bottom ;;; of buffer). (defcustom scroll-error-top-bottom nil "Move point to top/bottom of buffer before signalling a scrolling error. A value of nil means just signal an error if no more scrolling possible. A value of t means point moves to the beginning or the end of the buffer \(depending on scrolling direction) when no more scrolling possible. When point is already on that position, then signal an error." :type 'boolean :group 'scrolling :version "24.1") (defun scroll-up-command (&optional arg) "Scroll text of selected window upward ARG lines; or near full screen if no ARG. If `scroll-error-top-bottom' is non-nil and `scroll-up' cannot scroll window further, move cursor to the bottom line. When point is already on that position, then signal an error. A near full screen is `next-screen-context-lines' less than a full screen. Negative ARG means scroll downward. If ARG is the atom `-', scroll downward by nearly full screen." (interactive "^P") (cond ((null scroll-error-top-bottom) (scroll-up arg)) ((eq arg '-) (scroll-down-command nil)) ((< (prefix-numeric-value arg) 0) (scroll-down-command (- (prefix-numeric-value arg)))) ((eobp) (scroll-up arg)) ; signal error (t (condition-case nil (scroll-up arg) (end-of-buffer (if arg ;; When scrolling by ARG lines can't be done, ;; move by ARG lines instead. (forward-line arg) ;; When ARG is nil for full-screen scrolling, ;; move to the bottom of the buffer. (goto-char (point-max)))))))) (put 'scroll-up-command 'scroll-command t) (defun scroll-down-command (&optional arg) "Scroll text of selected window down ARG lines; or near full screen if no ARG. If `scroll-error-top-bottom' is non-nil and `scroll-down' cannot scroll window further, move cursor to the top line. When point is already on that position, then signal an error. A near full screen is `next-screen-context-lines' less than a full screen. Negative ARG means scroll upward. If ARG is the atom `-', scroll upward by nearly full screen." (interactive "^P") (cond ((null scroll-error-top-bottom) (scroll-down arg)) ((eq arg '-) (scroll-up-command nil)) ((< (prefix-numeric-value arg) 0) (scroll-up-command (- (prefix-numeric-value arg)))) ((bobp) (scroll-down arg)) ; signal error (t (condition-case nil (scroll-down arg) (beginning-of-buffer (if arg ;; When scrolling by ARG lines can't be done, ;; move by ARG lines instead. (forward-line (- arg)) ;; When ARG is nil for full-screen scrolling, ;; move to the top of the buffer. (goto-char (point-min)))))))) (put 'scroll-down-command 'scroll-command t) ;;; Scrolling commands which scroll a line instead of full screen. (defun scroll-up-line (&optional arg) "Scroll text of selected window upward ARG lines; or one line if no ARG. If ARG is omitted or nil, scroll upward by one line. This is different from `scroll-up-command' that scrolls a full screen." (interactive "p") (scroll-up (or arg 1))) (put 'scroll-up-line 'scroll-command t) (defun scroll-down-line (&optional arg) "Scroll text of selected window down ARG lines; or one line if no ARG. If ARG is omitted or nil, scroll down by one line. This is different from `scroll-down-command' that scrolls a full screen." (interactive "p") (scroll-down (or arg 1))) (put 'scroll-down-line 'scroll-command t) (defun scroll-other-window-down (lines) "Scroll the \"other window\" down. For more details, see the documentation for `scroll-other-window'." (interactive "P") (scroll-other-window ;; Just invert the argument's meaning. ;; We can do that without knowing which window it will be. (if (eq lines '-) nil (if (null lines) '- (- (prefix-numeric-value lines)))))) (defun beginning-of-buffer-other-window (arg) "Move point to the beginning of the buffer in the other window. Leave mark at previous position. With arg N, put point N/10 of the way from the true beginning." (interactive "P") (let ((orig-window (selected-window)) (window (other-window-for-scrolling))) ;; We use unwind-protect rather than save-window-excursion ;; because the latter would preserve the things we want to change. (unwind-protect (progn (select-window window) ;; Set point and mark in that window's buffer. (with-no-warnings (beginning-of-buffer arg)) ;; Set point accordingly. (recenter '(t))) (select-window orig-window)))) (defun end-of-buffer-other-window (arg) "Move point to the end of the buffer in the other window. Leave mark at previous position. With arg N, put point N/10 of the way from the true end." (interactive "P") ;; See beginning-of-buffer-other-window for comments. (let ((orig-window (selected-window)) (window (other-window-for-scrolling))) (unwind-protect (progn (select-window window) (with-no-warnings (end-of-buffer arg)) (recenter '(t))) (select-window orig-window)))) (defvar mouse-autoselect-window-timer nil "Timer used by delayed window autoselection.") (defvar mouse-autoselect-window-position nil "Last mouse position recorded by delayed window autoselection.") (defvar mouse-autoselect-window-window nil "Last window recorded by delayed window autoselection.") (defvar mouse-autoselect-window-state nil "When non-nil, special state of delayed window autoselection. Possible values are `suspend' \(suspend autoselection after a menu or scrollbar interaction\) and `select' \(the next invocation of 'handle-select-window' shall select the window immediately\).") (defun mouse-autoselect-window-cancel (&optional force) "Cancel delayed window autoselection. Optional argument FORCE means cancel unconditionally." (unless (and (not force) ;; Don't cancel for select-window or select-frame events ;; or when the user drags a scroll bar. (or (memq this-command '(handle-select-window handle-switch-frame)) (and (eq this-command 'scroll-bar-toolkit-scroll) (memq (nth 4 (event-end last-input-event)) '(handle end-scroll))))) (setq mouse-autoselect-window-state nil) (when (timerp mouse-autoselect-window-timer) (cancel-timer mouse-autoselect-window-timer)) (remove-hook 'pre-command-hook 'mouse-autoselect-window-cancel))) (defun mouse-autoselect-window-start (mouse-position &optional window suspend) "Start delayed window autoselection. MOUSE-POSITION is the last position where the mouse was seen as returned by `mouse-position'. Optional argument WINDOW non-nil denotes the window where the mouse was seen. Optional argument SUSPEND non-nil means suspend autoselection." ;; Record values for MOUSE-POSITION, WINDOW, and SUSPEND. (setq mouse-autoselect-window-position mouse-position) (when window (setq mouse-autoselect-window-window window)) (setq mouse-autoselect-window-state (when suspend 'suspend)) ;; Install timer which runs `mouse-autoselect-window-select' after ;; `mouse-autoselect-window' seconds. (setq mouse-autoselect-window-timer (run-at-time (abs mouse-autoselect-window) nil 'mouse-autoselect-window-select))) (defun mouse-autoselect-window-select () "Select window with delayed window autoselection. If the mouse position has stabilized in a non-selected window, select that window. The minibuffer window is selected only if the minibuffer is active. This function is run by `mouse-autoselect-window-timer'." (condition-case nil (let* ((mouse-position (mouse-position)) (window (condition-case nil (window-at (cadr mouse-position) (cddr mouse-position) (car mouse-position)) (error nil)))) (cond ((or (menu-or-popup-active-p) (and window (not (coordinates-in-window-p (cdr mouse-position) window)))) ;; A menu / popup dialog is active or the mouse is on the scroll-bar ;; of WINDOW, temporarily suspend delayed autoselection. (mouse-autoselect-window-start mouse-position nil t)) ((eq mouse-autoselect-window-state 'suspend) ;; Delayed autoselection was temporarily suspended, reenable it. (mouse-autoselect-window-start mouse-position)) ((and window (not (eq window (selected-window))) (or (not (numberp mouse-autoselect-window)) (and (> mouse-autoselect-window 0) ;; If `mouse-autoselect-window' is positive, select ;; window if the window is the same as before. (eq window mouse-autoselect-window-window)) ;; Otherwise select window if the mouse is at the same ;; position as before. Observe that the first test after ;; starting autoselection usually fails since the value of ;; `mouse-autoselect-window-position' recorded there is the ;; position where the mouse has entered the new window and ;; not necessarily where the mouse has stopped moving. (equal mouse-position mouse-autoselect-window-position)) ;; The minibuffer is a candidate window if it's active. (or (not (window-minibuffer-p window)) (eq window (active-minibuffer-window)))) ;; Mouse position has stabilized in non-selected window: Cancel ;; delayed autoselection and try to select that window. (mouse-autoselect-window-cancel t) ;; Select window where mouse appears unless the selected window is the ;; minibuffer. Use `unread-command-events' in order to execute pre- ;; and post-command hooks and trigger idle timers. To avoid delaying ;; autoselection again, set `mouse-autoselect-window-state'." (unless (window-minibuffer-p (selected-window)) (setq mouse-autoselect-window-state 'select) (setq unread-command-events (cons (list 'select-window (list window)) unread-command-events)))) ((or (and window (eq window (selected-window))) (not (numberp mouse-autoselect-window)) (equal mouse-position mouse-autoselect-window-position)) ;; Mouse position has either stabilized in the selected window or at ;; `mouse-autoselect-window-position': Cancel delayed autoselection. (mouse-autoselect-window-cancel t)) (t ;; Mouse position has not stabilized yet, resume delayed ;; autoselection. (mouse-autoselect-window-start mouse-position window)))) (error nil))) (defun handle-select-window (event) "Handle select-window events." (interactive "e") (let ((window (posn-window (event-start event)))) (unless (or (not (window-live-p window)) ;; Don't switch if we're currently in the minibuffer. ;; This tries to work around problems where the ;; minibuffer gets unselected unexpectedly, and where ;; you then have to move your mouse all the way down to ;; the minibuffer to select it. (window-minibuffer-p (selected-window)) ;; Don't switch to minibuffer window unless it's active. (and (window-minibuffer-p window) (not (minibuffer-window-active-p window))) ;; Don't switch when autoselection shall be delayed. (and (numberp mouse-autoselect-window) (not (zerop mouse-autoselect-window)) (not (eq mouse-autoselect-window-state 'select)) (progn ;; Cancel any delayed autoselection. (mouse-autoselect-window-cancel t) ;; Start delayed autoselection from current mouse ;; position and window. (mouse-autoselect-window-start (mouse-position) window) ;; Executing a command cancels delayed autoselection. (add-hook 'pre-command-hook 'mouse-autoselect-window-cancel)))) (when mouse-autoselect-window ;; Reset state of delayed autoselection. (setq mouse-autoselect-window-state nil) ;; Run `mouse-leave-buffer-hook' when autoselecting window. (run-hooks 'mouse-leave-buffer-hook)) (select-window window)))) (defun delete-other-windows-vertically (&optional window) "Delete the windows in the same column with WINDOW, but not WINDOW itself. This may be a useful alternative binding for \\[delete-other-windows] if you often split windows horizontally." (interactive) (let* ((window (or window (selected-window))) (edges (window-edges window)) (w window) delenda) (while (not (eq (setq w (next-window w 1)) window)) (let ((e (window-edges w))) (when (and (= (car e) (car edges)) (= (caddr e) (caddr edges))) (push w delenda)))) (mapc 'delete-window delenda))) (defun truncated-partial-width-window-p (&optional window) "Return non-nil if lines in WINDOW are specifically truncated due to its width. WINDOW defaults to the selected window. Return nil if WINDOW is not a partial-width window (regardless of the value of `truncate-lines'). Otherwise, consult the value of `truncate-partial-width-windows' for the buffer shown in WINDOW." (unless window (setq window (selected-window))) (unless (window-full-width-p window) (let ((t-p-w-w (buffer-local-value 'truncate-partial-width-windows (window-buffer window)))) (if (integerp t-p-w-w) (< (window-width window) t-p-w-w) t-p-w-w)))) (define-key ctl-x-map "2" 'split-window-vertically) (define-key ctl-x-map "3" 'split-window-horizontally) (define-key ctl-x-map "}" 'enlarge-window-horizontally) (define-key ctl-x-map "{" 'shrink-window-horizontally) (define-key ctl-x-map "-" 'shrink-window-if-larger-than-buffer) (define-key ctl-x-map "+" 'balance-windows) (define-key ctl-x-4-map "0" 'kill-buffer-and-window) ;;; window.el ends here