;;; tab-bar.el --- frame-local tabs with named persistent window configurations -*- lexical-binding: t; -*- ;; Copyright (C) 2019-2024 Free Software Foundation, Inc. ;; Author: Juri Linkov ;; Keywords: frames tabs ;; Maintainer: emacs-devel@gnu.org ;; 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: ;; Provides `tab-bar-mode' to control display of the tab bar and ;; bindings for the global tab bar. ;; The normal global binding for [tab-bar] (below) uses the value of ;; `tab-bar-map' as the actual keymap to define the tab bar. ;;; Code: (eval-when-compile (require 'icons)) (eval-when-compile (require 'cl-lib)) (defgroup tab-bar nil "Frame-local tabs." :group 'convenience :version "27.1") (defgroup tab-bar-faces '((tab-bar custom-face)) ; tab-bar is defined in faces.el "Faces used in the tab bar." :group 'tab-bar :group 'faces :version "27.1") (defface tab-bar-tab '((default :inherit tab-bar) (((class color) (min-colors 88)) :box (:line-width 1 :style released-button)) (t :inverse-video nil)) "Tab bar face for selected tab." :version "27.1" :group 'tab-bar-faces) (defface tab-bar-tab-inactive '((default :inherit tab-bar-tab) (((class color) (min-colors 88)) :background "grey75") (t :inverse-video t)) "Tab bar face for non-selected tab." :version "27.1" :group 'tab-bar-faces) (defface tab-bar-tab-group-current '((t :inherit tab-bar-tab :box nil :weight bold)) "Tab bar face for current group tab." :version "28.1" :group 'tab-bar-faces) (defface tab-bar-tab-group-inactive '((t :inherit (shadow tab-bar-tab-inactive))) "Tab bar face for inactive group tab." :version "28.1" :group 'tab-bar-faces) (defface tab-bar-tab-ungrouped '((t :inherit (shadow tab-bar-tab-inactive))) "Tab bar face for ungrouped tab when tab groups are used." :version "28.1" :group 'tab-bar-faces) (defcustom tab-bar-select-tab-modifiers '() "List of modifier keys for selecting tab-bar tabs by their numbers. Possible modifier keys are `control', `meta', `shift', `hyper', `super' and `alt'. Pressing one of the modifiers in the list and a digit selects the tab whose number equals the digit (see `tab-bar-select-tab'). The digit 9 selects the last (rightmost) tab (see `tab-last'). The digit 0 selects the most recently visited tab (see `tab-recent'). For easier selection of tabs by their numbers, consider customizing `tab-bar-tab-hints', which will show tab numbers alongside the tab name." :type '(set :tag "Tab selection modifier keys" (const control) (const meta) (const shift) (const hyper) (const super) (const alt)) :initialize #'custom-initialize-default :set (lambda (sym val) (when tab-bar-mode (tab-bar--undefine-keys)) (set-default sym val) ;; Reenable the tab-bar with new keybindings (when tab-bar-mode (tab-bar--define-keys))) :group 'tab-bar :version "27.1") (defun tab-bar--define-keys () "Install key bindings to switch between tabs if so configured." (when tab-bar-select-tab-modifiers (define-key tab-bar-mode-map (vector (append tab-bar-select-tab-modifiers (list ?0))) #'tab-recent) (dotimes (i 8) (define-key tab-bar-mode-map (vector (append tab-bar-select-tab-modifiers (list (+ i 1 ?0)))) #'tab-bar-select-tab)) (define-key tab-bar-mode-map (vector (append tab-bar-select-tab-modifiers (list ?9))) #'tab-last)) ;; Replace default value with a condition that supports displaying ;; global-mode-string in the tab bar instead of the mode line. (when (and (memq 'tab-bar-format-global tab-bar-format) (member '(global-mode-string ("" global-mode-string)) mode-line-misc-info)) (setf (alist-get 'global-mode-string mode-line-misc-info) '(("" (:eval (if (and tab-bar-mode (memq 'tab-bar-format-global tab-bar-format)) "" global-mode-string))))))) (defun tab-bar--undefine-keys () "Uninstall key bindings previously bound by `tab-bar--define-keys'." (when tab-bar-select-tab-modifiers (define-key tab-bar-mode-map (vector (append tab-bar-select-tab-modifiers (list ?0))) nil t) (dotimes (i 8) (define-key tab-bar-mode-map (vector (append tab-bar-select-tab-modifiers (list (+ i 1 ?0)))) nil t)) (define-key tab-bar-mode-map (vector (append tab-bar-select-tab-modifiers (list ?9))) nil t))) (defun tab-bar--load-buttons () "Load the icons for the tab buttons." (require 'icons) (declare-function icon-string "icons" (name)) (declare-function iconp "icons" (object)) (declare-function icons--register "icons") (unless (iconp 'tab-bar-new) (define-icon tab-bar-new nil `((image "symbols/plus_16.svg" "tabs/new.xpm" :face shadow :height (1 . em) :margin ,tab-bar-button-margin :ascent center) ;; (emoji "➕") ;; (symbol "+") (text " + ")) "Icon for creating a new tab." :version "29.1" :help-echo "New tab")) (setq tab-bar-new-button (icon-string 'tab-bar-new)) (unless (iconp 'tab-bar-close) (define-icon tab-bar-close nil `((image "symbols/cross_16.svg" "tabs/close.xpm" :face shadow :height (1 . em) :margin ,tab-bar-button-margin :ascent center) ;; (emoji " ❌") ;; (symbol "✕") ;; "ⓧ" (text " x")) "Icon for closing the clicked tab." :version "29.1" :help-echo "Click to close tab")) (setq tab-bar-close-button (propertize (icon-string 'tab-bar-close) 'close-tab t)) (unless (iconp 'tab-bar-menu-bar) (define-icon tab-bar-menu-bar nil `((image "symbols/menu_16.svg" :height (1 . em) :margin ,tab-bar-button-margin :ascent center) ;; (emoji "🍔") (symbol "☰") (text "Menu" :face tab-bar-tab-inactive)) "Icon for the menu bar." :version "29.1" :help-echo "Menu bar")) (setq tab-bar-menu-bar-button (icon-string 'tab-bar-menu-bar))) (defun tab-bar--tab-bar-lines-for-frame (frame) "Determine and return the value of `tab-bar-lines' for FRAME. Return 0 if `tab-bar-mode' is not enabled. Otherwise return either 1 or 0 depending on the value of the customizable variable `tab-bar-show', which see." (cond ((not tab-bar-mode) 0) ((not tab-bar-show) 0) ((eq tab-bar-show t) 1) ((natnump tab-bar-show) (if (> (length (funcall tab-bar-tabs-function frame)) tab-bar-show) 1 0)))) (defun tab-bar--update-tab-bar-lines (&optional frames) "Update the `tab-bar-lines' frame parameter in FRAMES. If the optional parameter FRAMES is omitted, update only the currently selected frame. If it is t, update all frames as well as the default for new frames. Otherwise FRAMES should be a list of frames to update." (let ((frame-lst (cond ((null frames) (list (selected-frame))) ((eq frames t) (frame-list)) (t frames)))) ;; Loop over all frames and update `tab-bar-lines' (dolist (frame frame-lst) (unless (or (frame-parameter frame 'tab-bar-lines-keep-state) (and (eq auto-resize-tab-bars 'grow-only) (> (frame-parameter frame 'tab-bar-lines) 1))) (set-frame-parameter frame 'tab-bar-lines (tab-bar--tab-bar-lines-for-frame frame))))) ;; Update `default-frame-alist' (when (eq frames t) (setq default-frame-alist (cons (cons 'tab-bar-lines (if (and tab-bar-mode (eq tab-bar-show t)) 1 0)) (assq-delete-all 'tab-bar-lines default-frame-alist))))) (defun tab-bar-mode--tab-key-bind (map key binding) ;; Don't override user customized global key bindings (define-key map key `(menu-item "" ,binding :filter ,(lambda (cmd) (unless (global-key-binding key) cmd))))) (defvar tab-bar-mode-map (let ((map (make-sparse-keymap))) (tab-bar-mode--tab-key-bind map [(control tab)] #'tab-next) (tab-bar-mode--tab-key-bind map [(control shift tab)] #'tab-previous) (tab-bar-mode--tab-key-bind map [(control shift iso-lefttab)] #'tab-previous) map) "Tab Bar mode map.") (define-minor-mode tab-bar-mode "Toggle the tab bar in all graphical frames (Tab Bar mode)." :global t ;; It's defined in C/cus-start, this stops the d-m-m macro defining it again. :variable tab-bar-mode ;; Recalculate `tab-bar-lines' for all frames (tab-bar--update-tab-bar-lines t) (when tab-bar-mode (tab-bar--load-buttons)) (if tab-bar-mode (tab-bar--define-keys) (tab-bar--undefine-keys))) ;;; Key bindings (defun tab-bar--key-to-number (key) "Return the tab number represented by KEY. If KEY is a symbol `tab-N', where N is a tab number, the value is N. If KEY is \\='current-tab, the value is nil. For any other value of KEY, the value is t." (cond ((null key) t) ((eq key 'current-tab) nil) ((let ((key-name (format "%S" key))) (when (string-prefix-p "tab-" key-name) (string-to-number (string-replace "tab-" "" key-name))))) (t t))) (defvar tab-bar--dragging-in-progress) (defun tab-bar--event-to-item (posn) "This function extracts extra info from the mouse event at position POSN. It returns a list of the form (KEY KEY-BINDING CLOSE-P), where: KEY is a symbol representing a tab, such as \\='tab-1 or \\='current-tab; KEY-BINDING is the binding of KEY; CLOSE-P is non-nil if the mouse event was a click on the close button \"x\", nil otherwise." (setq tab-bar--dragging-in-progress nil) (if (posn-window posn) (let* ((caption (car (posn-string posn))) (menu-item (when caption (get-text-property 0 'menu-item caption)))) (when (equal menu-item '(global ignore nil)) (setf (nth 1 menu-item) (key-binding (vector 'tab-bar last-nonmenu-event) t))) menu-item) ;; Text-mode emulation of switching tabs on the tab bar. ;; This code is used when you click the mouse in the tab bar ;; on a console which has no window system but does have a mouse. (let* ((x-position (car (posn-x-y posn))) (keymap (lookup-key (cons 'keymap (nreverse (current-active-maps))) [tab-bar])) (column 0)) (when x-position (catch 'done (map-keymap (lambda (key binding) (when (eq (car-safe binding) 'menu-item) (when (> (+ column (length (nth 1 binding))) x-position) (throw 'done (list key (nth 2 binding) (get-text-property (- x-position column) 'close-tab (nth 1 binding))))) (setq column (+ column (length (nth 1 binding)))))) keymap)))))) (defun tab-bar-mouse-down-1 (event) "Select the tab at mouse click, or add a new tab on the tab bar. Whether this command adds a new tab or selects an existing tab depends on whether the click is on the \"+\" button or on an existing tab." (interactive "e") (let* ((item (tab-bar--event-to-item (event-start event))) (tab-number (tab-bar--key-to-number (nth 0 item)))) (setq tab-bar--dragging-in-progress t) ;; Don't close the tab when clicked on the close button. Also ;; don't add new tab on down-mouse. Let `tab-bar-mouse-1' do this. (unless (or (memq (car item) '(add-tab history-back history-forward global)) (nth 2 item)) (if (functionp (nth 1 item)) (call-interactively (nth 1 item)) (unless (eq tab-number t) (tab-bar-select-tab tab-number)))))) (defun tab-bar-mouse-1 (event) "Close the tab whose \"x\" close button you click. See also `tab-bar-mouse-close-tab', which closes the tab regardless of where you click on it. Also add a new tab." (interactive "e") (let* ((item (tab-bar--event-to-item (event-start event))) (tab-number (tab-bar--key-to-number (nth 0 item)))) (cond ((and (memq (car item) '(add-tab history-back history-forward global)) (not (eq (nth 1 item) 'tab-bar-mouse-1)) (functionp (nth 1 item))) (call-interactively (nth 1 item))) ((and (nth 2 item) (not (eq tab-number t))) (tab-bar-close-tab tab-number))))) (defun tab-bar-mouse-close-tab (event) "Close the tab you click on. This is in contrast with `tab-bar-mouse-1' that closes a tab only when you click on its \"x\" close button." (interactive "e") (let* ((item (tab-bar--event-to-item (event-start event))) (tab-number (tab-bar--key-to-number (nth 0 item)))) (unless (eq tab-number t) (tab-bar-close-tab tab-number)))) (defun tab-bar-mouse-context-menu (event &optional posn) "Pop up the context menu for the tab on which you click. EVENT is a mouse or touch screen event. POSN is nil or the position of EVENT." (interactive "e") (let* ((item (tab-bar--event-to-item (or posn (event-start event)))) (tab-number (tab-bar--key-to-number (nth 0 item))) (menu (make-sparse-keymap (propertize "Context Menu" 'hide t)))) (cond ((eq tab-number t) (define-key-after menu [new-tab] '(menu-item "New tab" tab-bar-new-tab :help "Create a new tab")) (when tab-bar-closed-tabs (define-key-after menu [undo-close] '(menu-item "Reopen closed tab" tab-bar-undo-close-tab :help "Undo closing the tab")))) (t (define-key-after menu [duplicate-tab] `(menu-item "Duplicate" (lambda () (interactive) (tab-bar-duplicate-tab nil ,tab-number)) :help "Clone the tab")) (define-key-after menu [detach-tab] `(menu-item "Detach" (lambda () (interactive) (tab-bar-detach-tab ,tab-number)) :help "Move the tab to new frame")) (define-key-after menu [close] `(menu-item "Close" (lambda () (interactive) (tab-bar-close-tab ,tab-number)) :help "Close the tab")) (define-key-after menu [close-other] `(menu-item "Close other tabs" (lambda () (interactive) (tab-bar-close-other-tabs ,tab-number)) :help "Close all other tabs")))) (popup-menu menu event))) (defun tab-bar-mouse-move-tab (event) "Move a tab to a different position on the tab bar. This command should be bound to a drag event. It moves the tab at the mouse-down event to the position at mouse-up event." (interactive "e") (setq tab-bar--dragging-in-progress nil) (let ((from (tab-bar--key-to-number (nth 0 (tab-bar--event-to-item (event-start event))))) (to (tab-bar--key-to-number (nth 0 (tab-bar--event-to-item (event-end event)))))) (unless (or (eq from to) (eq from t) (eq to t)) (tab-bar-move-tab-to (if (null to) (1+ (tab-bar--current-tab-index)) to) from)))) ;;; Tab bar touchscreen support. (declare-function touch-screen-track-tap "touch-screen.el") (defun tab-bar-handle-timeout () "Handle a touch-screen timeout on the tab bar. Beep, then throw to `context-menu' and return." (beep) (throw 'context-menu 'context-menu)) (defvar touch-screen-delay) (defun tab-bar-touchscreen-begin (event) "Handle a touchscreen begin EVENT on the tab bar. Determine where the touch was made. If it was made on a tab itself, start a timer set to go off after a certain amount of time, and wait for the touch point to be released, and either display a context menu or select a tab as appropriate. Otherwise, if it was made on a button, close or create a tab as appropriate." (interactive "e") (let* ((posn (cdadr event)) (item (tab-bar--event-to-item posn)) (number (tab-bar--key-to-number (car item))) timer) (when (eq (catch 'context-menu (cond ((integerp number) ;; The touch began on a tab. Start a context ;; menu timer and start tracking the tap. (unwind-protect (progn (setq timer (run-at-time touch-screen-delay nil #'tab-bar-handle-timeout)) ;; Now wait for the tap to complete. (when (touch-screen-track-tap event) ;; And select the tab, or close it, ;; depending on whether or not the ;; close button was pressed. (if (caddr item) (tab-bar-close-tab number) (tab-bar-select-tab number)))) ;; Cancel the timer. (cancel-timer timer))) ((and (memq (car item) '( add-tab history-back history-forward global)) (functionp (cadr item))) ;; This is some kind of button. Wait for the ;; tap to complete and press it. (when (touch-screen-track-tap event) (call-interactively (cadr item)))) (t ;; The touch began on the tab bar itself. ;; Start a context menu timer and start ;; tracking the tap, but don't do anything ;; afterwards. (unwind-protect (progn (setq timer (run-at-time touch-screen-delay nil #'tab-bar-handle-timeout)) ;; Now wait for the tap to complete. (touch-screen-track-tap event)) ;; Cancel the timer. (cancel-timer timer))))) 'context-menu) ;; Display the context menu in response to a time out waiting ;; for the tap to complete. (tab-bar-mouse-context-menu event posn)))) (defvar-keymap tab-bar-map :doc "Keymap for the commands used on the tab bar." "" #'tab-bar-mouse-down-1 "" #'tab-bar-mouse-move-tab "" #'tab-bar-mouse-1 "" #'tab-bar-mouse-close-tab "" #'ignore "" #'tab-bar-mouse-context-menu "" #'tab-previous "" #'tab-next "" #'tab-previous "" #'tab-next "" #'tab-previous "" #'tab-next "S-" #'tab-bar-move-tab-backward "S-" #'tab-bar-move-tab "S-" #'tab-bar-move-tab-backward "S-" #'tab-bar-move-tab "S-" #'tab-bar-move-tab-backward "S-" #'tab-bar-move-tab "" #'tab-bar-touchscreen-begin) (global-set-key [tab-bar] `(menu-item ,(purecopy "tab bar") ,(make-sparse-keymap) :filter tab-bar-make-keymap)) (defun tab-bar-make-keymap (&optional _ignore) "Generate an actual keymap from `tab-bar-map'. Its main job is to show tabs in the tab bar and to bind mouse events to the commands." (tab-bar-make-keymap-1)) (defun toggle-tab-bar-mode-from-frame (&optional arg) "Toggle tab bar on or off, based on the status of the current frame. Used in the Show/Hide menu, to have the toggle reflect the current frame. See `tab-bar-mode' for more information." (interactive (list (or current-prefix-arg 'toggle))) (if (eq arg 'toggle) (tab-bar-mode (if (> (frame-parameter nil 'tab-bar-lines) 0) 0 1)) (tab-bar-mode arg))) (defun toggle-frame-tab-bar (&optional frame) "Toggle tab bar of the selected frame. When calling from Lisp, use the optional argument FRAME to toggle the tab bar on that frame. This is useful if you want to enable the tab bar individually on each new frame when the global `tab-bar-mode' is disabled, or if you want to disable the tab bar individually on each new frame when the global `tab-bar-mode' is enabled, by using (add-hook \\='after-make-frame-functions #\\='toggle-frame-tab-bar)" (interactive) (set-frame-parameter frame 'tab-bar-lines (if (> (frame-parameter frame 'tab-bar-lines) 0) 0 1)) (set-frame-parameter frame 'tab-bar-lines-keep-state (not (frame-parameter frame 'tab-bar-lines-keep-state)))) (defcustom tab-bar-show t "Defines when to show the tab bar. If t, the default, enable `tab-bar-mode' automatically upon using the commands that create new window configurations (e.g., `tab-new'). If a non-negative integer, show the tab bar only if the number of the tabs exceeds the value of this variable. In particular, if the value is 1, hide the tab bar when it has only one tab, and show it again once more tabs are created. A value that is a non-negative integer also makes the tab bar appearance be different on different frames: the tab bar can be shown on some frames and hidden on others, depending on how many tab-bar tabs are on that frame, and whether that number is greater than the numerical value of this variable. If nil, always keep the tab bar hidden. In this case it's still possible to use persistent named window configurations by relying on keyboard commands `tab-new', `tab-close', `tab-next', `tab-switcher', etc. Setting this variable directly does not take effect; please customize it (see the info node `Easy Customization'), then it will automatically update the tab bar on all frames according to the new value. To enable or disable the tab bar individually on each frame, you can use the command `toggle-frame-tab-bar'." :type '(choice (const :tag "Always" t) (const :tag "When more than one tab" 1) (const :tag "Never" nil)) :initialize #'custom-initialize-default :set (lambda (sym val) (set-default sym val) (if val (tab-bar-mode 1) (tab-bar--update-tab-bar-lines t))) :group 'tab-bar :version "27.1") (defcustom tab-bar-new-tab-choice t "Defines what to show in a new tab. If t, start a new tab with the current buffer, i.e. the buffer that was current before calling the command that adds a new tab (this is the same what `make-frame' does by default). If the value is the symbol `window', then keep the selected window as a single window on the new tab, and keep all its window parameters except `window-atom' and `window-side'. If the value is a string, use it as a buffer name to switch to if such buffer exists, or switch to a buffer visiting the file or directory that the string specifies. If the value is a function, call it with no arguments and switch to the buffer that it returns. If `clone', duplicate the contents of the tab that was active before calling the command that adds a new tab." :type '(choice (const :tag "Current buffer" t) (const :tag "Current window" window) (string :tag "Buffer" "*scratch*") (directory :tag "Directory" :value "~/") (file :tag "File" :value "~/.emacs") (function :tag "Function") (const :tag "Duplicate tab" clone)) :group 'tab-bar :version "27.1") (defcustom tab-bar-new-tab-group t "Defines what group to assign to a new tab. If nil, don't set a default group automatically. If t, inherit the group name from the previous tab. If the value is a string, use it as the group name of a new tab. If the value is a function, call it with no arguments to get the group name." :type '(choice (const :tag "No automatic group" nil) (const :tag "Inherit group from previous tab" t) (string :tag "Fixed group name") (function :tag "Function that returns group name")) :group 'tab-bar :version "28.1") (defcustom tab-bar-new-button-show t "If non-nil, show the \"New tab\" button in the tab bar. When this is nil, you can create new tabs with \\[tab-new]." :type 'boolean :initialize #'custom-initialize-default :set (lambda (sym val) (set-default sym val) (force-mode-line-update)) :group 'tab-bar :version "27.1") (make-obsolete-variable 'tab-bar-new-button-show 'tab-bar-format "28.1") (defvar tab-bar-new-button " + " "Button for creating a new tab.") (defcustom tab-bar-close-button-show t "Defines where to show the close tab button. If t, show the close tab button on all tabs. If `selected', show it only on the selected tab. If `non-selected', show it only on non-selected tab. If nil, don't show it at all." :type '(choice (const :tag "On all tabs" t) (const :tag "On selected tab" selected) (const :tag "On non-selected tabs" non-selected) (const :tag "None" nil)) :initialize #'custom-initialize-default :set (lambda (sym val) (set-default sym val) (force-mode-line-update)) :group 'tab-bar :version "27.1") (defvar tab-bar-close-button (propertize " x" 'close-tab t :help "Click to close tab") "Button for closing the clicked tab.") (defvar tab-bar-back-button " < " "Button for going back in tab history.") (defvar tab-bar-forward-button " > " "Button for going forward in tab history.") (defcustom tab-bar-tab-hints nil "Show absolute numbers on tabs in the tab bar before the tab name. This helps to select the tab by its number using `tab-bar-select-tab' and `tab-bar-select-tab-modifiers'." :type 'boolean :initialize #'custom-initialize-default :set (lambda (sym val) (set-default sym val) (force-mode-line-update)) :group 'tab-bar :version "27.1") (defvar tab-bar-separator nil "String that delimits tabs.") (defun tab-bar-separator () "Separator between tabs." (or tab-bar-separator (if (window-system) " " "|"))) (defcustom tab-bar-tab-name-function #'tab-bar-tab-name-current "Function to get a tab name. Function gets no arguments. The choice is between displaying only the name of the current buffer in the tab name (default), or displaying the names of all buffers from all windows in the window configuration." :type '(choice (const :tag "Selected window buffer" tab-bar-tab-name-current) (const :tag "Selected window buffer with window count" tab-bar-tab-name-current-with-count) (const :tag "Truncated buffer name" tab-bar-tab-name-truncated) (const :tag "All window buffers" tab-bar-tab-name-all) (function :tag "Function")) :initialize #'custom-initialize-default :set (lambda (sym val) (set-default sym val) (force-mode-line-update)) :group 'tab-bar :version "27.1") (defun tab-bar-tab-name-current () "Generate tab name from the buffer of the selected window." ;; `minibuffer-selected-window' loses its original window ;; after switching to another tab while the minibuffer was active, ;; so get the most recently used non-minibuffer window. (buffer-name (window-buffer (or (minibuffer-selected-window) (and (window-minibuffer-p) (get-mru-window)))))) (defun tab-bar-tab-name-current-with-count () "Generate tab name from the buffer of the selected window. Also add the number of windows in the window configuration." (let ((count (length (window-list-1 nil 'nomini))) (name (tab-bar-tab-name-current))) (if (> count 1) (format "%s (%d)" name count) (format "%s" name)))) (defun tab-bar-tab-name-all () "Generate tab name from buffers of all windows." (mapconcat #'buffer-name (delete-dups (mapcar #'window-buffer (window-list-1 (frame-first-window) 'nomini))) ", ")) (defcustom tab-bar-tab-name-truncated-max 20 "Maximum length of the tab name from the current buffer. Effective when `tab-bar-tab-name-function' is customized to `tab-bar-tab-name-truncated'." :type 'natnum :group 'tab-bar :version "27.1") (defvar tab-bar-tab-name-ellipsis t) (defun tab-bar-tab-name-truncated () "Generate tab name from the buffer of the selected window. Truncate it to the length specified by `tab-bar-tab-name-truncated-max'. Append ellipsis `tab-bar-tab-name-ellipsis' in this case." (let ((tab-name (tab-bar-tab-name-current))) (if (< (length tab-name) tab-bar-tab-name-truncated-max) tab-name (propertize (truncate-string-to-width tab-name tab-bar-tab-name-truncated-max nil nil tab-bar-tab-name-ellipsis) 'help-echo tab-name)))) (defvar tab-bar-tabs-function #'tab-bar-tabs "Function to get a list of tabs to display in the tab bar. This function should have one optional argument FRAME, defaulting to the selected frame when nil. It should return a list of alists with parameters that include at least the element (name . TAB-NAME). For example, \\='((tab (name . \"Tab 1\")) (current-tab (name . \"Tab 2\"))) By default, use function `tab-bar-tabs'.") (defun tab-bar-tabs (&optional frame) "Return a list of tabs belonging to the FRAME. Ensure the frame parameter `tabs' is pre-populated. Update the current tab name when it exists. Return its existing value or a new value." (let ((tabs (frame-parameter frame 'tabs))) (if tabs (let* ((current-tab (tab-bar--current-tab-find tabs)) (current-tab-name (assq 'name current-tab)) (current-tab-explicit-name (assq 'explicit-name current-tab))) (when (and current-tab-name current-tab-explicit-name (not (cdr current-tab-explicit-name))) (setf (cdr current-tab-name) (funcall tab-bar-tab-name-function)))) ;; Create default tabs (setq tabs (list (tab-bar--current-tab-make))) (tab-bar-tabs-set tabs frame)) tabs)) (defun tab-bar-tabs-set (tabs &optional frame) "Set a list of TABS on the FRAME." (set-frame-parameter frame 'tabs tabs)) (defun tab-bar-tab-name-format-truncated (name _tab _i) "Truncate the tab name. The maximal length is specified by `tab-bar-tab-name-truncated-max'. Append ellipsis `tab-bar-tab-name-ellipsis' at the end." (if (< (length name) tab-bar-tab-name-truncated-max) name (truncate-string-to-width name tab-bar-tab-name-truncated-max nil nil tab-bar-tab-name-ellipsis))) (defun tab-bar-tab-name-format-hints (name _tab i) "Show absolute numbers on tabs in the tab bar before the tab name. It has effect when `tab-bar-tab-hints' is non-nil." (if tab-bar-tab-hints (concat (format "%d " i) name) name)) (defun tab-bar-tab-name-format-close-button (name tab _i) "Show the tab close button. The variable `tab-bar-close-button-show' defines when to show it." (if (and tab-bar-close-button-show (not (eq tab-bar-close-button-show (if (eq (car tab) 'current-tab) 'non-selected 'selected))) tab-bar-close-button) (concat name tab-bar-close-button) name)) (defcustom tab-bar-tab-face-function #'tab-bar-tab-face-default "Function to define a tab face. Function gets one argument: a tab." :type 'function :group 'tab-bar :version "28.1") (defun tab-bar-tab-face-default (tab) (if (eq (car tab) 'current-tab) 'tab-bar-tab 'tab-bar-tab-inactive)) (defun tab-bar-tab-name-format-face (name tab _i) "Apply the face to the tab name. It uses the function `tab-bar-tab-face-function'." (add-face-text-property 0 (length name) (funcall tab-bar-tab-face-function tab) t name) name) (defcustom tab-bar-tab-name-format-functions '(tab-bar-tab-name-format-hints tab-bar-tab-name-format-close-button tab-bar-tab-name-format-face) "Functions called to modify the tab name. Each function is called with three arguments: the name returned by the previously called modifier, the tab and its number. It should return the formatted tab name to display in the tab bar." :type '(repeat (choice (function-item tab-bar-tab-name-format-truncated) (function-item tab-bar-tab-name-format-hints) (function-item tab-bar-tab-name-format-close-button) (function-item tab-bar-tab-name-format-face) (function :tag "Custom function"))) :group 'tab-bar :version "30.1") (defun tab-bar-tab-name-format-default (tab i) (let ((name (copy-sequence (alist-get 'name tab)))) (run-hook-wrapped 'tab-bar-tab-name-format-functions (lambda (fun) (setq name (funcall fun name tab i)) nil)) name)) (defcustom tab-bar-tab-name-format-function #'tab-bar-tab-name-format-default "Function to format a tab name. Function gets two arguments, the tab and its number, and should return the formatted tab name to display in the tab bar." :type 'function :initialize #'custom-initialize-default :set (lambda (sym val) (set-default sym val) (force-mode-line-update)) :group 'tab-bar :version "28.1") (defcustom tab-bar-format '(tab-bar-format-history tab-bar-format-tabs tab-bar-separator tab-bar-format-add-tab) "Template for displaying tab bar items. Every item in the list is a function that returns a string, or a list of menu-item elements, or nil. Adding a function to the list causes the tab bar to show that string, or display a tab button which, when clicked, will invoke the command that is the binding of the menu item. The menu-item binding of nil will produce a tab clicking on which will select that tab. The menu-item's title is displayed as the label of the tab. If a function returns nil, it doesn't directly affect the tab bar appearance, but can do that by some side-effect. If the list ends with `tab-bar-format-align-right' and `tab-bar-format-global', then after enabling `display-time-mode' \(or any other mode that uses `global-mode-string'), it will display time aligned to the right on the tab bar instead of the mode line. Replacing `tab-bar-format-tabs' with `tab-bar-format-tabs-groups' will group tabs on the tab bar." :type 'hook :options '(tab-bar-format-menu-bar tab-bar-format-history tab-bar-format-tabs tab-bar-format-tabs-groups tab-bar-separator tab-bar-format-add-tab tab-bar-format-align-right tab-bar-format-global) :initialize #'custom-initialize-default :set (lambda (sym val) (set-default sym val) (force-mode-line-update)) :group 'tab-bar :version "28.1") (defun tab-bar-menu-bar (event) "Pop up the same menu as displayed by the menu bar. Used by `tab-bar-format-menu-bar'." (interactive "e") (let ((menu (make-sparse-keymap (propertize "Menu Bar" 'hide t)))) (run-hooks 'activate-menubar-hook 'menu-bar-update-hook) (map-keymap (lambda (key binding) (when (consp binding) (define-key-after menu (vector key) (copy-sequence binding)))) (menu-bar-keymap)) (popup-menu menu event))) (defvar tab-bar-menu-bar-button (propertize "Menu" 'face 'tab-bar-tab-inactive) "Button for the menu bar.") (defun tab-bar-format-menu-bar () "Produce the Menu button for the tab bar that shows the menu bar." `((menu-bar menu-item ,tab-bar-menu-bar-button tab-bar-menu-bar :help "Menu bar"))) (defun tab-bar-format-history () "Produce back and forward buttons for the tab bar. These buttons will be shown when `tab-bar-history-mode' is enabled. You can hide these buttons by customizing `tab-bar-format' and removing `tab-bar-format-history' from it." (when tab-bar-history-mode `((sep-history-back menu-item ,(tab-bar-separator) ignore) (history-back menu-item ,tab-bar-back-button tab-bar-history-back :help "Click to go back in tab history") (sep-history-forward menu-item ,(tab-bar-separator) ignore) (history-forward menu-item ,tab-bar-forward-button tab-bar-history-forward :help "Click to go forward in tab history")))) (defun tab-bar--format-tab (tab i) "Format TAB using its index I and return the result as a keymap." (append `((,(intern (format "sep-%i" i)) menu-item ,(tab-bar-separator) ignore)) (cond ((eq (car tab) 'current-tab) `((current-tab menu-item ,(funcall tab-bar-tab-name-format-function tab i) ignore :help ,(alist-get 'name tab)))) (t `((,(intern (format "tab-%i" i)) menu-item ,(funcall tab-bar-tab-name-format-function tab i) ,(alist-get 'binding tab) :help ,(alist-get 'name tab))))) (when (alist-get 'close-binding tab) `((,(if (eq (car tab) 'current-tab) 'C-current-tab (intern (format "C-tab-%i" i))) menu-item "" ,(alist-get 'close-binding tab)))))) (defun tab-bar-format-tabs () "Produce all the tabs for the tab bar." (let ((i 0)) (mapcan (lambda (tab) (setq i (1+ i)) (tab-bar--format-tab tab i)) (funcall tab-bar-tabs-function)))) (defcustom tab-bar-tab-group-function #'tab-bar-tab-group-default "Function to get a tab group name. Function gets one argument: a tab." :type 'function :initialize #'custom-initialize-default :set (lambda (sym val) (set-default sym val) (force-mode-line-update)) :group 'tab-bar :version "28.1") (defun tab-bar-tab-group-default (tab) (alist-get 'group tab)) (defcustom tab-bar-tab-group-format-function #'tab-bar-tab-group-format-default "Function to format a tab group name. Function gets three arguments, a tab with a group name, its number, and an optional value that is non-nil when the tab is from the current group. It should return the formatted tab group name to display in the tab bar." :type 'function :initialize #'custom-initialize-default :set (lambda (sym val) (set-default sym val) (force-mode-line-update)) :group 'tab-bar :version "28.1") (defun tab-bar-tab-group-format-default (tab i &optional current-p) (propertize (concat (if (and tab-bar-tab-hints (not current-p)) (format "%d " i) "") (funcall tab-bar-tab-group-function tab)) 'face (if current-p 'tab-bar-tab-group-current 'tab-bar-tab-group-inactive))) (defcustom tab-bar-tab-group-face-function #'tab-bar-tab-group-face-default "Function to define a tab group face. Function gets one argument: a tab. Please note that if you customized `tab-bar-tab-face-function' and want to use the same faces for non-group tabs with `tab-bar-format-tabs-groups' as well, then you can set this variable to the same function." :type 'function :group 'tab-bar :version "28.1") (defun tab-bar-tab-group-face-default (tab) (if (not (or (eq (car tab) 'current-tab) (funcall tab-bar-tab-group-function tab))) 'tab-bar-tab-ungrouped (tab-bar-tab-face-default tab))) (defun tab-bar--format-tab-group (tab i &optional current-p) "Format TAB as a tab that represents a group of tabs. The argument I is the tab index, and CURRENT-P is non-nil when the tab is current. Return the result as a keymap." (append `((,(intern (format "sep-%i" i)) menu-item ,(tab-bar-separator) ignore)) `((,(intern (if current-p "current-group" (format "group-%i" i))) menu-item ,(if current-p (condition-case nil (funcall tab-bar-tab-group-format-function tab i current-p) ;; We used to define tab-bar-tab-group-format-function as ;; taking two arguments but after adding the third argument ;; we need to provide backwards-compatibility. (wrong-number-of-arguments (propertize (funcall tab-bar-tab-group-function tab) 'face 'tab-bar-tab-group-current))) (funcall tab-bar-tab-group-format-function tab i)) ,(if current-p 'ignore (or (alist-get 'binding tab) `(lambda () (interactive) (tab-bar-select-tab ,i)))) :help "Click to visit group")))) (defun tab-bar-format-tabs-groups () "Produce tabs for the tab bar grouped according to their groups." (let* ((tabs (funcall tab-bar-tabs-function)) (current-group (funcall tab-bar-tab-group-function (tab-bar--current-tab-find tabs))) (previous-group nil) (i 0)) (mapcan (lambda (tab) (let ((tab-group (funcall tab-bar-tab-group-function tab))) (setq i (1+ i)) (prog1 (cond ;; Show current group tabs and ungrouped tabs ((or (equal tab-group current-group) (not tab-group)) (append ;; Prepend current group name before first tab (when (and (not (equal previous-group tab-group)) tab-group) (tab-bar--format-tab-group tab i t)) ;; Override default tab faces to use group faces (let ((tab-bar-tab-face-function tab-bar-tab-group-face-function)) (tab-bar--format-tab tab i)))) ;; Show first tab of other groups with a group name ((not (equal previous-group tab-group)) (tab-bar--format-tab-group tab i)) ;; Hide other group tabs (t nil)) (setq previous-group tab-group)))) tabs))) (defun tab-bar-format-add-tab () "Button to add a new tab." (when (and tab-bar-new-button-show tab-bar-new-button) `((add-tab menu-item ,tab-bar-new-button tab-bar-new-tab :help "New tab")))) (defun tab-bar-format-align-right () "Align the rest of tab bar items to the right." (let* ((rest (cdr (memq 'tab-bar-format-align-right tab-bar-format))) (rest (tab-bar-format-list rest)) (rest (mapconcat (lambda (item) (nth 2 item)) rest "")) (hpos (progn (add-face-text-property 0 (length rest) 'tab-bar t rest) (string-pixel-width rest))) (str (propertize " " 'display ;; The `right' spec doesn't work on TTY frames ;; when windows are split horizontally (bug#59620) (if (window-system) `(space :align-to (- right (,hpos))) `(space :align-to (,(- (frame-inner-width) hpos))))))) `((align-right menu-item ,str ignore)))) (defun tab-bar-format-global () "Produce display of `global-mode-string' in the tab bar. When `tab-bar-format-global' is added to `tab-bar-format' \(possibly appended after `tab-bar-format-align-right'), then modes that display information on the mode line using `global-mode-string' will display the same text on the tab bar instead." (mapcar (lambda (string) `(global menu-item ,(format-mode-line string) ignore)) global-mode-string)) (defun tab-bar-format-list (format-list) (let ((i 0)) (apply #'append (mapcar (lambda (format) (setq i (1+ i)) (cond ((functionp format) (let ((ret (funcall format))) (when (stringp ret) (setq ret `((,(intern (format "str-%i" i)) menu-item ,ret ignore)))) ret)))) format-list)))) (defun tab-bar-make-keymap-1 () "Generate an actual keymap from `tab-bar-map', without caching." (let ((items (tab-bar-format-list tab-bar-format))) (when tab-bar-auto-width (setq items (tab-bar-auto-width items))) (append tab-bar-map items))) (defcustom tab-bar-auto-width t "Automatically resize width of tabs on tab bar to fill available tab-bar space. When non-nil, the widths of the tabs on the tab bar are automatically resized so that their width is evenly distributed across the tab bar. This keeps the widths of the tabs independent of the length of the buffer names shown on each tab; the tab widths change only when tabs are added or deleted, or when the frame's dimensions change. This also avoids as much as possible wrapping a long tab bar to a second tab-bar line. The automatic resizing of tabs takes place as long as tabs are no wider than allowed by the value of `tab-bar-auto-width-max', and at least as wide as specified by the value of `tab-bar-auto-width-min'. When this variable is nil, the width of each tab is determined by the length of the tab's name." :type 'boolean :group 'tab-bar :version "29.1") (defcustom tab-bar-auto-width-max '((220) 20) "Maximum width for automatic resizing of width of tab-bar tabs. This determines the maximum width of tabs before their names will be truncated on display. The value should be a list of two values: the first is the maximum width of tabs in pixels for GUI frames, the second is the maximum width of tabs in characters on TTY frames. Of these two values both accept integers, but the first element that provides a width in pixels can further be a list of a single integer, also specifying an integral width in pixels, but signifying that it should be scaled by the difference between the `frame-char-height' of the tab bar's frame, and 15, when the former height exceeds the latter threshold. If the value of this variable is nil, there is no limit on maximum width. This variable has effect only when `tab-bar-auto-width' is non-nil." :type '(choice (const :tag "No limit" nil) (list (choice (integer :tag "Max width (pixels)" :value 220) (list (integer :tag "Max width (scaled pixels)" :value 220))) (integer :tag "Max width (chars)" :value 20))) :initialize #'custom-initialize-default :set (lambda (sym val) (set-default sym val) (setq tab-bar--auto-width-hash nil)) :group 'tab-bar :version "30.1") (defvar tab-bar-auto-width-min '((20) 2) "Minimum width of tabs for automatic resizing under `tab-bar-auto-width'. The value should be a list of two numbers, giving the minimum width as the number of pixels for GUI frames and the number of characters for text-mode frames. Tabs whose width is smaller than this will not be narrowed. The first value may also be a list, as in `tab-bar-auto-width-max', which see. It's not recommended to change this value since with larger values, the tab bar might wrap to the second line when it shouldn't.") (defvar tab-bar-auto-width-faces '( tab-bar-tab tab-bar-tab-inactive tab-bar-tab-ungrouped tab-bar-tab-group-inactive) "Resize tabs only with these faces.") (defun tab-bar-auto-width-predicate-default (item) "Accepts tab ITEM and returns non-nil for tabs and tab groups." (string-match-p ;; (rx bos (or "current-tab" "current-group" "tab-" "group-")) "\\`\\(?:current-\\(?:group\\|tab\\)\\|\\(?:group\\|tab\\)-\\)" (symbol-name (nth 0 item)))) (defvar tab-bar-auto-width-functions '(tab-bar-auto-width-predicate-default) "List of functions for `tab-bar-auto-width' to call with a tab ITEM. If any of these functions returns non-nil for a given tab ITEM, that tab's width will be auto-sized.") (defvar tab-bar--auto-width-hash nil "Memoization table for `tab-bar-auto-width'.") (defun tab-bar-auto-width-1 (wvalue) "Return scaled value if WVALUE, if necessary. If WVALUE is a list of the form accepted as pixel width specifications by `tab-bar-auto-width-max' and suchlike, return its value as it should be scaled for display on the current frame." (if (consp wvalue) (let ((height (frame-char-height))) (if (< height 15) (car wvalue) (* (car wvalue) (/ height 15.0)))) wvalue)) (defun tab-bar-auto-width (items) "Return tab-bar items with resized tab names." (unless tab-bar--auto-width-hash (define-hash-table-test 'tab-bar--auto-width-hash-test #'equal-including-properties #'sxhash-equal-including-properties) (setq tab-bar--auto-width-hash (make-hash-table :test 'tab-bar--auto-width-hash-test))) (let ((tabs nil) ;; list of resizable tabs (non-tabs "") ;; concatenated names of non-resizable tabs (width 0)) ;; resize tab names to this width (dolist (item items) (when (and (eq (nth 1 item) 'menu-item) (stringp (nth 2 item))) (if (if (version<= "31" emacs-version) (run-hook-with-args-until-success 'tab-bar-auto-width-functions item) (memq (get-text-property 0 'face (nth 2 item)) tab-bar-auto-width-faces)) (push item tabs) (unless (eq (nth 0 item) 'align-right) (setq non-tabs (concat non-tabs (nth 2 item))))))) (when tabs (add-face-text-property 0 (length non-tabs) 'tab-bar t non-tabs) (setq width (/ (- (frame-inner-width) (string-pixel-width non-tabs)) (length tabs))) (when tab-bar-auto-width-min (setq width (max width (if (window-system) (tab-bar-auto-width-1 (nth 0 tab-bar-auto-width-min)) (nth 1 tab-bar-auto-width-min))))) (when tab-bar-auto-width-max (setq width (min width (if (window-system) (tab-bar-auto-width-1 (nth 0 tab-bar-auto-width-max)) (nth 1 tab-bar-auto-width-max))))) (dolist (item tabs) (setf (nth 2 item) (with-memoization (gethash (list (selected-frame) width (nth 2 item)) tab-bar--auto-width-hash) (let* ((name (nth 2 item)) (len (length name)) (close-p (get-text-property (1- len) 'close-tab name)) (continue t) (prev-width (string-pixel-width name)) curr-width) (cond ((< prev-width width) (let* ((space (apply #'propertize " " (text-properties-at 0 name))) (ins-pos (- len (if close-p (length tab-bar-close-button) 0))) (prev-name name)) (while continue (setq name (concat (substring name 0 ins-pos) space (substring name ins-pos))) (setq curr-width (string-pixel-width name)) (if (< curr-width width) (setq prev-width curr-width prev-name name) ;; Set back a shorter name (setq name prev-name continue nil))))) ((> prev-width width) (let ((del-pos1 (if close-p -2 -1)) (del-pos2 (if close-p -1 nil))) (while continue (setq name (concat (substring name 0 del-pos1) (and del-pos2 (substring name del-pos2)))) (setq curr-width (string-pixel-width name)) (if (> curr-width width) (setq prev-width curr-width) (setq continue nil))) (let* ((len (length name)) (pos (- len (if close-p 1 0)))) (add-face-text-property (max 0 (- pos 2)) (max 0 pos) 'shadow nil name))))) name))))) items)) ;; Some window-configuration parameters don't need to be persistent. ;; Don't save to the desktop file such tab parameters that are saved ;; as "Unprintable entity" so can't be used after restoring the desktop. ;; Actually tab-bar-select-tab already can handle unprintable entities, ;; but it's better not to waste the desktop file with useless data. (defun frameset-filter-tabs (current _filtered _parameters saving) (if saving (mapcar (lambda (current) (if (consp current) (seq-reduce (lambda (current param) (assq-delete-all param current)) '(wc wc-point wc-bl wc-bbl wc-history-back wc-history-forward) (copy-sequence current)) current)) current) current)) (push '(tabs . frameset-filter-tabs) frameset-filter-alist) (defun tab-bar--tab (&optional frame) "Make a new tab data structure that can be added to tabs on the FRAME." (let* ((tab (tab-bar--current-tab-find nil frame)) (tab-explicit-name (alist-get 'explicit-name tab)) (tab-group (alist-get 'group tab)) (bl (seq-filter #'buffer-live-p (frame-parameter frame 'buffer-list))) (bbl (seq-filter #'buffer-live-p (frame-parameter frame 'buried-buffer-list)))) (when tab-bar-select-restore-context (window-point-context-set)) `(tab (name . ,(if tab-explicit-name (alist-get 'name tab) (funcall tab-bar-tab-name-function))) (explicit-name . ,tab-explicit-name) ,@(if tab-group `((group . ,tab-group))) (time . ,(float-time)) (ws . ,(window-state-get (frame-root-window (or frame (selected-frame))) 'writable)) (wc . ,(current-window-configuration)) (wc-point . ,(copy-marker (window-point) window-point-insertion-type)) (wc-bl . ,bl) (wc-bbl . ,bbl) ,@(when tab-bar-history-mode `((wc-history-back . ,(gethash (or frame (selected-frame)) tab-bar-history-back)) (wc-history-forward . ,(gethash (or frame (selected-frame)) tab-bar-history-forward)))) ;; Copy other possible parameters ,@(mapcan (lambda (param) (unless (memq (car param) '(name explicit-name group time ws wc wc-point wc-bl wc-bbl wc-history-back wc-history-forward)) (list param))) (cdr tab))))) (defun tab-bar--current-tab (&optional tab frame) "Make the current tab data structure from TAB on FRAME." (tab-bar--current-tab-make (or tab (tab-bar--current-tab-find nil frame)))) (defun tab-bar--current-tab-make (&optional tab) "Make the current tab data structure from TAB. TAB here is an argument meaning \"use tab as template\", i.e. the tab is created using data from TAB. This is necessary when switching tabs, otherwise the destination tab inherits the current tab's `explicit-name' parameter." (let* ((tab-explicit-name (alist-get 'explicit-name tab)) (tab-group (if tab (alist-get 'group tab) (pcase tab-bar-new-tab-group ((pred stringp) tab-bar-new-tab-group) ((pred functionp) (funcall tab-bar-new-tab-group)))))) `(current-tab (name . ,(if tab-explicit-name (alist-get 'name tab) (funcall tab-bar-tab-name-function))) (explicit-name . ,tab-explicit-name) ,@(if tab-group `((group . ,tab-group))) ;; Copy other possible parameters ,@(mapcan (lambda (param) (unless (memq (car param) '(name explicit-name group time ws wc wc-point wc-bl wc-bbl wc-history-back wc-history-forward)) (list param))) (cdr tab))))) (defun tab-bar--current-tab-find (&optional tabs frame) ;; Find the current tab as a pointer to its data structure. (assq 'current-tab (or tabs (funcall tab-bar-tabs-function frame)))) (defun tab-bar--current-tab-index (&optional tabs frame) ;; Return the index of the current tab. (seq-position (or tabs (funcall tab-bar-tabs-function frame)) 'current-tab (lambda (a b) (eq (car a) b)))) (defun tab-bar--tab-index (tab &optional tabs frame) ;; Return the index of TAB. (seq-position (or tabs (funcall tab-bar-tabs-function frame)) tab #'eq)) (defun tab-bar--tab-index-by-name (name &optional tabs frame) ;; Return the index of TAB by the its NAME. (seq-position (or tabs (funcall tab-bar-tabs-function frame)) name (lambda (a b) (equal (alist-get 'name a) b)))) (defun tab-bar--tab-index-recent (nth &optional tabs frame) ;; Return the index of NTH recent tab. (let* ((tabs (or tabs (funcall tab-bar-tabs-function frame))) (sorted-tabs (tab-bar--tabs-recent tabs frame)) (tab (nth (1- nth) sorted-tabs))) (tab-bar--tab-index tab tabs))) (defun tab-bar--tabs-recent (&optional tabs frame) ;; Return the list of tabs sorted by recency. (let* ((tabs (or tabs (funcall tab-bar-tabs-function frame)))) (seq-sort-by (lambda (tab) (alist-get 'time tab)) #'> (seq-remove (lambda (tab) (eq (car tab) 'current-tab)) tabs)))) (defcustom tab-bar-tab-post-select-functions nil "List of functions to call after selecting a tab. Two arguments are supplied: the previous tab that was selected before, and the newly selected tab." :type '(repeat function) :group 'tab-bar :version "30.1") (defcustom tab-bar-select-restore-windows #'tab-bar-select-restore-windows "Function called when selecting a tab to handle windows whose buffer was killed. When a tab-bar tab displays a window whose buffer was killed since this tab was last selected, this variable determines what to do with that window. If this variable is nil, there is no special handling; `set-window-configuration' will decide what to do with the window, then either a random buffer is displayed instead of the killed buffer, or the window gets deleted. If this variable is a function, display another buffer in that window, and pass that buffer to the function. See the variable `window-restore-killed-buffer-windows' for the calling convention. By default, `tab-bar-select-restore-windows' displays a placeholder buffer in the same window to give information about the killed buffer." :type '(choice (const :tag "No special handling" nil) (const :tag "Show placeholder buffers" tab-bar-select-restore-windows) (function :tag "Function")) :group 'tab-bar :version "30.1") (defun tab-bar-select-restore-windows (_frame windows _type) "Display a placeholder buffer in the window whose buffer was killed. A button in the window allows to restore the killed buffer, if it was visiting a file." (dolist (quad windows) (when (window-live-p (nth 0 quad)) (let* ((window (nth 0 quad)) (old-buffer (nth 1 quad)) (file (when (bufferp old-buffer) (buffer-file-name old-buffer))) (name (or file (and (bufferp old-buffer) (buffer-last-name old-buffer)) old-buffer)) (new-buffer (generate-new-buffer (format " *Old buffer %s*" name)))) (with-current-buffer new-buffer (insert (format-message "This window displayed the %s `%s'.\n" (if file "file" "buffer") name)) (when file (insert-button "[Restore]" 'action (lambda (_button) (set-window-buffer window (find-file-noselect file)) (set-window-start window (nth 2 quad) t) (set-window-point window (nth 3 quad)))) (insert "\n")) (goto-char (point-min)) (special-mode) (set-window-buffer window new-buffer)))))) (defcustom tab-bar-select-restore-context t "If this is non-nil, try to restore window points from their contexts. This will try to find the same position in every window where point was before switching away from this tab. After selecting this tab, point in every window will be moved to its previous position in the buffer even when the buffer was modified." :type 'boolean :group 'tab-bar :version "30.1") (defvar tab-bar-minibuffer-restore-tab nil "Tab number for `tab-bar-minibuffer-restore-tab'.") (defun tab-bar-minibuffer-restore-tab () "Switch back to the tab where the minibuffer was activated. This is necessary to prepare the same window configuration where original windows were saved and will be restored. This function is used only when `read-minibuffer-restore-windows' is non-nil." (when tab-bar-minibuffer-restore-tab (tab-bar-select-tab tab-bar-minibuffer-restore-tab))) (defun tab-bar-select-tab (&optional tab-number) "Switch to the tab by its absolute position TAB-NUMBER in the tab bar. When this command is bound to a numeric key (with a key prefix or modifier key using `tab-bar-select-tab-modifiers'), calling it without an argument will translate its bound numeric key to the numeric argument. Also the prefix argument TAB-NUMBER can be used to override the numeric key, so it takes precedence over the bound digit key. For example, `-2' will select the second tab, but `C-u 15 -2' will select the 15th tab. TAB-NUMBER counts from 1. Negative TAB-NUMBER counts tabs from the end of the tab bar." (interactive "P") (unless (integerp tab-number) (let ((key (event-basic-type last-command-event))) (setq tab-number (if (and (characterp key) (>= key ?1) (<= key ?9)) (- key ?0) 0)))) (let* ((tabs (funcall tab-bar-tabs-function)) (from-index (tab-bar--current-tab-index tabs)) (to-number (cond ((< tab-number 0) (+ (length tabs) (1+ tab-number))) ((zerop tab-number) (1+ from-index)) (t tab-number))) (to-index (1- (max 1 (min to-number (length tabs))))) (minibuffer-was-active (minibuffer-window-active-p (selected-window)))) (when (and read-minibuffer-restore-windows minibuffer-was-active (not tab-bar-minibuffer-restore-tab)) (setq-local tab-bar-minibuffer-restore-tab (1+ from-index)) (add-hook 'minibuffer-exit-hook #'tab-bar-minibuffer-restore-tab nil t)) (unless (eq from-index to-index) (let* ((from-tab (tab-bar--tab)) (to-tab (nth to-index tabs)) (wc (alist-get 'wc to-tab)) (ws (alist-get 'ws to-tab)) (window-restore-killed-buffer-windows (or tab-bar-select-restore-windows window-restore-killed-buffer-windows))) ;; During the same session, use window-configuration to switch ;; tabs, because window-configurations are more reliable ;; (they keep references to live buffers) than window-states. ;; But after restoring tabs from a previously saved session, ;; its value of window-configuration is unreadable, ;; so restore its saved window-state. (cond ((and (window-configuration-p wc) ;; Check for such cases as cloning a frame with tabs. ;; When tabs were cloned to another frame, then fall back ;; to using `window-state-put' below. (eq (window-configuration-frame wc) (selected-frame))) (let ((wc-point (alist-get 'wc-point to-tab)) (wc-bl (seq-filter #'buffer-live-p (alist-get 'wc-bl to-tab))) (wc-bbl (seq-filter #'buffer-live-p (alist-get 'wc-bbl to-tab))) (wc-history-back (alist-get 'wc-history-back to-tab)) (wc-history-forward (alist-get 'wc-history-forward to-tab))) (set-window-configuration wc nil t) ;; set-window-configuration does not restore the value of ;; point in the current buffer, so restore it separately. (when (and (markerp wc-point) (marker-buffer wc-point)) (goto-char wc-point)) (when wc-bl (set-frame-parameter nil 'buffer-list wc-bl)) (when wc-bbl (set-frame-parameter nil 'buried-buffer-list wc-bbl)) (when tab-bar-history-mode (puthash (selected-frame) (and (window-configuration-p (alist-get 'wc (car wc-history-back))) wc-history-back) tab-bar-history-back) (puthash (selected-frame) (and (window-configuration-p (alist-get 'wc (car wc-history-forward))) wc-history-forward) tab-bar-history-forward)))) (ws ;; `window-state-put' fails when called in the minibuffer (when (window-minibuffer-p) (select-window (get-mru-window))) (window-state-put ws nil 'safe))) (when tab-bar-select-restore-context (window-point-context-use)) ;; Select the minibuffer when it was active before switching tabs (when (and minibuffer-was-active (active-minibuffer-window)) (select-window (active-minibuffer-window))) ;; When the minibuffer was activated in one tab, but exited in ;; another tab, then after going back to the first tab, it has ;; such inconsistent state that the current buffer is the minibuffer, ;; but its window is not active. So try to undo this mess. (when (and (window-minibuffer-p) (not (active-minibuffer-window))) (select-window (get-mru-window))) (when tab-bar-history-mode (setq tab-bar-history-omit t)) (when from-index (setf (nth from-index tabs) from-tab)) (setf (nth to-index tabs) (tab-bar--current-tab-make (nth to-index tabs))) (unless tab-bar-mode (message "Selected tab '%s'" (alist-get 'name to-tab))) (run-hook-with-args 'tab-bar-tab-post-select-functions from-tab to-tab)) (force-mode-line-update)))) (defun tab-bar-switch-to-next-tab (&optional arg) "Switch to ARGth next tab. Interactively, ARG is the prefix numeric argument and defaults to 1." (interactive "p") (unless (integerp arg) (setq arg 1)) (let* ((tabs (funcall tab-bar-tabs-function)) (from-index (or (tab-bar--current-tab-index tabs) 0)) (to-index (mod (+ from-index arg) (length tabs)))) (tab-bar-select-tab (1+ to-index)))) (defun tab-bar-switch-to-prev-tab (&optional arg) "Switch to ARGth previous tab. Interactively, ARG is the prefix numeric argument and defaults to 1." (interactive "p") (unless (integerp arg) (setq arg 1)) (tab-bar-switch-to-next-tab (- arg))) (defun tab-bar-switch-to-last-tab (&optional arg) "Switch to the last tab or ARGth tab from the end of the tab bar. Interactively, ARG is the prefix numeric argument; it defaults to 1, which means the last tab on the tab bar. For example, `C-u 2 -9' selects the tab before the last tab." (interactive "p") (tab-bar-select-tab (- (length (funcall tab-bar-tabs-function)) (1- (abs (or arg 1)))))) (defun tab-bar-switch-to-recent-tab (&optional arg) "Switch to ARGth most recently visited tab. Interactively, ARG is the prefix numeric argument and defaults to 1." (interactive "p") (unless (integerp arg) (setq arg 1)) (let ((tab-index (tab-bar--tab-index-recent arg))) (if tab-index (tab-bar-select-tab (1+ tab-index)) (message "No more recent tabs")))) (defun tab-bar-switch-to-tab (name) "Switch to the tab by NAME. Default values are tab names sorted by recency, so you can use \ \\\\[next-history-element] to get the name of the most recently visited tab, the second most recent, and so on. When the tab with that NAME doesn't exist, create a new tab and rename it to NAME." (interactive (let* ((recent-tabs (mapcar (lambda (tab) (alist-get 'name tab)) (tab-bar--tabs-recent)))) (list (completing-read (format-prompt "Switch to tab by name" (car recent-tabs)) recent-tabs nil nil nil nil recent-tabs)))) (let ((tab-index (tab-bar--tab-index-by-name name))) (if tab-index (tab-bar-select-tab (1+ tab-index)) (tab-bar-new-tab) (tab-bar-rename-tab name)))) (defalias 'tab-bar-select-tab-by-name #'tab-bar-switch-to-tab) (defun tab-bar-move-tab-to (to-number &optional from-number) "Move tab from FROM-NUMBER position to new position at TO-NUMBER. FROM-NUMBER defaults to the current tab number. FROM-NUMBER and TO-NUMBER count from 1. Negative TO-NUMBER counts tabs from the end of the tab bar. Argument addressing is absolute in contrast to `tab-bar-move-tab' where argument addressing is relative." (interactive "P") (let* ((tabs (funcall tab-bar-tabs-function)) (from-number (or from-number (1+ (tab-bar--current-tab-index tabs)))) (from-tab (nth (1- from-number) tabs)) (to-number (if to-number (prefix-numeric-value to-number) 1)) (to-number (if (< to-number 0) (+ (length tabs) (1+ to-number)) to-number)) (to-index (max 0 (min (1- to-number) (1- (length tabs)))))) (setq tabs (delq from-tab tabs)) (cl-pushnew from-tab (nthcdr to-index tabs)) (tab-bar-tabs-set tabs) (force-mode-line-update))) (defun tab-bar-move-tab (&optional arg) "Move the current tab ARG positions to the right. Interactively, ARG is the prefix numeric argument and defaults to 1. If ARG is negative, move the current tab ARG positions to the left. Argument addressing is relative in contrast to `tab-bar-move-tab-to', where argument addressing is absolute." (interactive "p") (let* ((tabs (funcall tab-bar-tabs-function)) (from-index (or (tab-bar--current-tab-index tabs) 0)) (to-index (mod (+ from-index arg) (length tabs)))) (tab-bar-move-tab-to (1+ to-index) (1+ from-index)))) (defun tab-bar-move-tab-backward (&optional arg) "Move the current tab ARG positions to the left. Interactively, ARG is the prefix numeric argument and defaults to 1. Like `tab-bar-move-tab', but moves in the opposite direction." (interactive "p") (tab-bar-move-tab (- (or arg 1)))) (defun tab-bar-move-tab-to-frame (arg &optional from-frame from-number to-frame to-number) "Move tab from FROM-NUMBER position to new position at TO-NUMBER. FROM-NUMBER defaults to the current tab number. FROM-NUMBER and TO-NUMBER count from 1. FROM-FRAME specifies the source frame and defaults to the selected frame. TO-FRAME specifies the target frame and defaults the next frame. Interactively, ARG selects the ARGth next frame on the same terminal, to which to move the tab; ARG defaults to 1." (interactive "P") (unless from-frame (setq from-frame (selected-frame))) (unless to-frame (dotimes (_ (prefix-numeric-value arg)) (setq to-frame (next-frame to-frame)))) (unless (eq from-frame to-frame) (let* ((from-tabs (funcall tab-bar-tabs-function from-frame)) (from-number (or from-number (1+ (tab-bar--current-tab-index from-tabs)))) (from-tab (nth (1- from-number) from-tabs)) (to-tabs (funcall tab-bar-tabs-function to-frame)) (to-index (max 0 (min (1- (or to-number 1)) (1- (length to-tabs)))))) (cl-pushnew (assq-delete-all 'wc (if (eq (car from-tab) 'current-tab) (tab-bar--tab from-frame) from-tab)) (nthcdr to-index to-tabs)) (with-selected-frame from-frame (let ((inhibit-message t) ; avoid message about deleted tab (tab-bar-close-last-tab-choice 'delete-frame) tab-bar-closed-tabs) (tab-bar-close-tab from-number))) (tab-bar-tabs-set to-tabs to-frame) (force-mode-line-update t)))) (defun tab-bar-detach-tab (&optional from-number) "Move tab number FROM-NUMBER to a new frame. FROM-NUMBER defaults to the current tab (which happens interactively)." (interactive (list (1+ (tab-bar--current-tab-index)))) (let* ((tabs (funcall tab-bar-tabs-function)) (tab-index (1- (or from-number (1+ (tab-bar--current-tab-index tabs))))) (tab-name (alist-get 'name (nth tab-index tabs))) ;; On some window managers, `make-frame' selects the new frame, ;; so previously selected frame is saved to `from-frame'. (from-frame (selected-frame)) (new-frame (make-frame `((name . ,tab-name))))) (tab-bar-move-tab-to-frame nil from-frame from-number new-frame nil) (with-selected-frame new-frame (tab-bar-close-tab)))) (defun tab-bar-move-window-to-tab () "Move the selected window to a new tab. This command removes the selected window from the configuration stored on the current tab, and makes a new tab with that window in its configuration." (interactive) (let ((tab-bar-new-tab-choice 'window)) (tab-bar-new-tab)) (tab-bar-switch-to-recent-tab) (let ((ignore-window-parameters t)) (delete-window)) (tab-bar-switch-to-recent-tab)) (defcustom tab-bar-new-tab-to 'right "Where to create a new tab. If `leftmost', create as the first tab. If `left', create to the left of the current tab. If `right', create to the right of the current tab. If `rightmost', create as the last tab. If the value is a function, it should return a number as a position on the tab bar specifying where to add a new tab." :type '(choice (const :tag "Add as First" leftmost) (const :tag "Add to Left" left) (const :tag "Add to Right" right) (const :tag "Add as Last" rightmost) (function :tag "Function")) :group 'tab-bar :version "27.1") (defcustom tab-bar-tab-post-open-functions nil "List of functions to call after creating a new tab. The current tab is supplied as an argument. Any modifications made to the tab argument will be applied after all functions are called." :type '(repeat function) :group 'tab-bar :version "27.1") (defun tab-bar-new-tab-to (&optional tab-number) "Add a new tab at the absolute position TAB-NUMBER. TAB-NUMBER counts from 1. If no TAB-NUMBER is specified, then add a new tab at the position specified by `tab-bar-new-tab-to'. Negative TAB-NUMBER counts tabs from the end of the tab bar, and -1 means the new tab will become the last one. Argument addressing is absolute in contrast to `tab-bar-new-tab', where argument addressing is relative. After the tab is created, the hooks in `tab-bar-tab-post-open-functions' are run." (interactive "P") (let* ((tabs (funcall tab-bar-tabs-function)) (from-index (tab-bar--current-tab-index tabs)) (from-tab (tab-bar--tab))) (when tab-bar-new-tab-choice ;; Handle the case when it's called in the active minibuffer. (when (window-minibuffer-p) (select-window (get-mru-window))) (let ((ignore-window-parameters t) (window--sides-inhibit-check t)) (if (eq tab-bar-new-tab-choice 'clone) ;; Create new unique windows with the same layout (window-state-put (window-state-get)) ;; Remove window parameters that can cause problems ;; with `delete-other-windows' and `split-window'. (set-window-parameter nil 'window-atom nil) (delete-other-windows) (if (eq tab-bar-new-tab-choice 'window) ;; Create new unique window from remaining window (progn (set-window-parameter nil 'window-side nil) (window-state-put (window-state-get))) ;; Create a new window to get rid of old window parameters ;; (e.g. prev/next buffers) of old window. (split-window nil window-safe-min-width t) (delete-window)))) (let ((buffer (if (and (functionp tab-bar-new-tab-choice) (not (memq tab-bar-new-tab-choice '(clone window)))) (funcall tab-bar-new-tab-choice) (if (stringp tab-bar-new-tab-choice) (or (get-buffer tab-bar-new-tab-choice) (find-file-noselect tab-bar-new-tab-choice)))))) (when (buffer-live-p buffer) (switch-to-buffer buffer)))) (when from-index (setf (nth from-index tabs) from-tab)) (let* ((to-tab (tab-bar--current-tab-make (when (eq tab-bar-new-tab-group t) `((group . ,(alist-get 'group from-tab)))))) (to-number (and tab-number (prefix-numeric-value tab-number))) (to-index (or (if to-number (if (< to-number 0) (+ (length tabs) (1+ to-number)) (1- to-number))) (pcase tab-bar-new-tab-to ('leftmost 0) ('rightmost (length tabs)) ('left (or from-index 1)) ('right (1+ (or from-index 0))) ((pred functionp) (funcall tab-bar-new-tab-to)))))) (setq to-index (max 0 (min (or to-index 0) (length tabs)))) (cl-pushnew to-tab (nthcdr to-index tabs)) (when (eq to-index 0) ;; `pushnew' handles the head of tabs but not frame-parameter (tab-bar-tabs-set tabs)) (when tab-bar-history-mode (puthash (selected-frame) nil tab-bar-history-back) (puthash (selected-frame) nil tab-bar-history-forward) (setq tab-bar-history-omit t)) (run-hook-with-args 'tab-bar-tab-post-open-functions (nth to-index tabs))) (when tab-bar-show (if (not tab-bar-mode) ;; Turn on `tab-bar-mode' since a tab was created. ;; Note: this also updates `tab-bar-lines'. (tab-bar-mode 1) (tab-bar--update-tab-bar-lines))) (force-mode-line-update) (unless tab-bar-mode (message "Added new tab at %s" tab-bar-new-tab-to)))) (defun tab-bar-new-tab (&optional arg from-number) "Create a new tab ARG positions to the right. If a negative ARG, create a new tab ARG positions to the left. If ARG is zero, create a new tab in place of the current tab. If no ARG is specified, then add a new tab at the position specified by `tab-bar-new-tab-to'. Argument addressing is relative in contrast to `tab-bar-new-tab-to', where argument addressing is absolute. If FROM-NUMBER is a tab number, a new tab is created from that tab." (interactive "P") (when from-number (let ((inhibit-message t)) (tab-bar-select-tab from-number))) (if arg (let* ((tabs (funcall tab-bar-tabs-function)) (from-index (or (tab-bar--current-tab-index tabs) 0)) (to-index (+ from-index (prefix-numeric-value arg)))) (tab-bar-new-tab-to (1+ to-index))) (tab-bar-new-tab-to))) (defun tab-bar-duplicate-tab (&optional arg from-number) "Clone the current tab to ARG positions to the right. ARG and FROM-NUMBER have the same meaning as in `tab-bar-new-tab'." (interactive "P") (let ((tab-bar-new-tab-choice 'clone) (tab-bar-new-tab-group t)) (tab-bar-new-tab arg from-number))) (defvar tab-bar-closed-tabs nil "A list of closed tabs to be able to undo their closing.") (defcustom tab-bar-close-tab-select 'recent "Which tab to make current after closing the specified tab. If `left', select the adjacent left tab. If `right', select the adjacent right tab. If `recent', select the most recently visited tab." :type '(choice (const :tag "Select left tab" left) (const :tag "Select right tab" right) (const :tag "Select recent tab" recent)) :group 'tab-bar :version "27.1") (defcustom tab-bar-close-last-tab-choice nil "What to do when the last tab is closed. If nil, do nothing and show a message, like closing the last window or frame. If `delete-frame', delete the containing frame, as a web browser would do. If `tab-bar-mode-disable', disable `tab-bar-mode' so that tabs no longer show in the frame. If the value is a function, call that function with the tab to be closed as an argument." :type '(choice (const :tag "Do nothing and show message" nil) (const :tag "Close the containing frame" delete-frame) (const :tag "Disable tab-bar-mode" tab-bar-mode-disable) (function :tag "Function")) :group 'tab-bar :version "27.1") (defcustom tab-bar-tab-prevent-close-functions nil "List of functions to call to determine whether to close a tab. The tab to be closed and a boolean indicating whether or not it is the only tab in the frame are supplied as arguments. If any function returns a non-nil value, the tab will not be closed." :type '(repeat function) :group 'tab-bar :version "27.1") (defcustom tab-bar-tab-pre-close-functions nil "List of functions to call before closing a tab. Each function is called with two arguments: the tab to be closed and a boolean indicating whether or not it is the only tab on its frame." :type '(repeat function) :group 'tab-bar :version "27.1") (defun tab-bar-close-tab (&optional tab-number to-number) "Close the tab specified by its absolute position TAB-NUMBER. If no TAB-NUMBER is specified, then close the current tab and switch to the tab specified by `tab-bar-close-tab-select'. Interactively, TAB-NUMBER is the prefix numeric argument, and defaults to 1. TAB-NUMBER counts from 1. Optional TO-NUMBER could be specified to override the value of `tab-bar-close-tab-select' programmatically with a position of an existing tab to select after closing the current tab. TO-NUMBER counts from 1. The functions in `tab-bar-tab-prevent-close-functions' will be run to determine whether or not to close the tab. Just before the tab is closed, the functions in `tab-bar-tab-pre-close-functions' will be run. The base behavior for the last tab on a frame is determined by `tab-bar-close-last-tab-choice'." (interactive "P") (let* ((tabs (funcall tab-bar-tabs-function)) (current-index (tab-bar--current-tab-index tabs)) (close-index (if (integerp tab-number) (1- tab-number) current-index)) (last-tab-p (= 1 (length tabs))) (prevent-close (run-hook-with-args-until-success 'tab-bar-tab-prevent-close-functions (nth close-index tabs) last-tab-p))) (unless prevent-close (run-hook-with-args 'tab-bar-tab-pre-close-functions (nth close-index tabs) last-tab-p) (if last-tab-p (pcase tab-bar-close-last-tab-choice ('nil (user-error "Attempt to delete the sole tab in a frame")) ('delete-frame (delete-frame)) ('tab-bar-mode-disable (tab-bar-mode -1)) ((pred functionp) ;; Give the handler function the full extent of the tab's ;; data, not just it's name and explicit-name flag. (funcall tab-bar-close-last-tab-choice (tab-bar--tab)))) ;; More than one tab still open (when (eq current-index close-index) ;; Select another tab before deleting the current tab (let ((to-index (or (if to-number (1- to-number)) (pcase tab-bar-close-tab-select ('left (1- (if (< current-index 1) 2 current-index))) ('right (if (> (length tabs) (1+ current-index)) (1+ current-index) (1- current-index))) ('recent (tab-bar--tab-index-recent 1 tabs)))))) (setq to-index (max 0 (min (or to-index 0) (1- (length tabs))))) (let ((inhibit-message t)) ; avoid message about selected tab (tab-bar-select-tab (1+ to-index))) ;; Re-read tabs after selecting another tab (setq tabs (funcall tab-bar-tabs-function)))) (let ((close-tab (nth close-index tabs))) (push `((frame . ,(selected-frame)) (index . ,close-index) (tab . ,(if (eq (car close-tab) 'current-tab) (tab-bar--tab) close-tab))) tab-bar-closed-tabs) (tab-bar-tabs-set (delq close-tab tabs))) ;; Recalculate `tab-bar-lines' and update frames (tab-bar--update-tab-bar-lines) (force-mode-line-update) (unless tab-bar-mode (message "Deleted tab and switched to %s" tab-bar-close-tab-select)))))) (defun tab-bar-close-tab-by-name (name) "Close the tab given its NAME. Interactively, prompt for NAME." (interactive (list (completing-read "Close tab by name: " (mapcar (lambda (tab) (alist-get 'name tab)) (funcall tab-bar-tabs-function))))) (tab-bar-close-tab (1+ (tab-bar--tab-index-by-name name)))) (defun tab-bar-close-other-tabs (&optional tab-number) "Close all tabs on the selected frame, except the tab TAB-NUMBER. TAB-NUMBER counts from 1 and defaults to the current tab (which happens interactively)." (interactive) (let* ((tabs (funcall tab-bar-tabs-function)) (current-index (tab-bar--current-tab-index tabs)) (keep-index (if (integerp tab-number) (1- (max 1 (min tab-number (length tabs)))) current-index)) (index 0)) (when (nth keep-index tabs) (unless (eq keep-index current-index) (tab-bar-select-tab (1+ keep-index)) (setq tabs (funcall tab-bar-tabs-function))) (dolist (tab tabs) (unless (or (eq index keep-index) (run-hook-with-args-until-success 'tab-bar-tab-prevent-close-functions tab ;; `last-tab-p' logically can't ever be true ;; if we make it this far nil)) (push `((frame . ,(selected-frame)) (index . ,index) (tab . ,tab)) tab-bar-closed-tabs) (run-hook-with-args 'tab-bar-tab-pre-close-functions tab nil) (setq tabs (delq tab tabs))) (setq index (1+ index))) (tab-bar-tabs-set tabs) ;; Recalculate tab-bar-lines and update frames (tab-bar--update-tab-bar-lines) (force-mode-line-update) (unless tab-bar-mode (message "Deleted all other tabs"))))) (defun tab-bar-undo-close-tab () "Restore the most recently closed tab." (interactive) ;; Pop out closed tabs that were on already deleted frames (while (and tab-bar-closed-tabs (not (frame-live-p (alist-get 'frame (car tab-bar-closed-tabs))))) (pop tab-bar-closed-tabs)) (if tab-bar-closed-tabs (let* ((closed (pop tab-bar-closed-tabs)) (frame (alist-get 'frame closed)) (index (alist-get 'index closed)) (tab (alist-get 'tab closed))) (unless (eq frame (selected-frame)) (select-frame-set-input-focus frame)) (let ((tabs (funcall tab-bar-tabs-function))) (setq index (max 0 (min index (length tabs)))) (cl-pushnew tab (nthcdr index tabs)) (when (eq index 0) ;; `pushnew' handles the head of tabs but not frame-parameter (tab-bar-tabs-set tabs)) (tab-bar-select-tab (1+ index))) (tab-bar--update-tab-bar-lines)) (message "No more closed tabs to undo"))) (defun tab-bar-rename-tab (name &optional tab-number) "Give the tab specified by its absolute position TAB-NUMBER a new NAME. If no TAB-NUMBER is specified, then rename the current tab. Interactively, TAB-NUMBER is the prefix numeric argument, and defaults to the current tab. TAB-NUMBER counts from 1. Interactively, prompt for the new NAME. If NAME is the empty string, then use the automatic name function `tab-bar-tab-name-function'." (interactive (let* ((tabs (funcall tab-bar-tabs-function)) (tab-number (or current-prefix-arg (1+ (tab-bar--current-tab-index tabs)))) (tab-name (alist-get 'name (nth (1- tab-number) tabs)))) (list (read-from-minibuffer "New name for tab (leave blank for automatic naming): " nil nil nil nil tab-name) current-prefix-arg))) (let* ((tabs (funcall tab-bar-tabs-function)) (tab-index (if (integerp tab-number) (1- (max 0 (min tab-number (length tabs)))) (tab-bar--current-tab-index tabs))) (tab-to-rename (nth tab-index tabs)) (tab-explicit-name (> (length name) 0)) (tab-new-name (if tab-explicit-name name (funcall tab-bar-tab-name-function)))) (setf (alist-get 'name tab-to-rename) tab-new-name (alist-get 'explicit-name tab-to-rename) tab-explicit-name) (force-mode-line-update) (unless tab-bar-mode (message "Renamed tab to '%s'" tab-new-name)))) (defun tab-bar-rename-tab-by-name (tab-name new-name) "Rename the tab named TAB-NAME to NEW-NAME. Interactively, prompt for TAB-NAME and NEW-NAME. If NEW-NAME is the empty string, then use the automatic name function `tab-bar-tab-name-function'." (interactive (let ((tab-name (completing-read "Rename tab by name: " (mapcar (lambda (tab) (alist-get 'name tab)) (funcall tab-bar-tabs-function))))) (list tab-name (read-from-minibuffer "New name for tab (leave blank for automatic naming): " nil nil nil nil tab-name)))) (tab-bar-rename-tab new-name (1+ (tab-bar--tab-index-by-name tab-name)))) ;;; Tab groups (defun tab-bar-move-tab-to-group (&optional tab) "Relocate TAB (by default, the current tab) closer to its group." (interactive) (let* ((tabs (funcall tab-bar-tabs-function)) (tab (or tab (tab-bar--current-tab-find tabs))) (tab-index (tab-bar--tab-index tab)) (group (alist-get 'group tab)) ;; Beginning position of the same group (beg (seq-position tabs group (lambda (tb gr) (and (not (eq tb tab)) (equal (alist-get 'group tb) gr))))) ;; Size of the same group (len (when beg (seq-position (nthcdr beg tabs) group (lambda (tb gr) (not (equal (alist-get 'group tb) gr)))))) (pos (when beg (cond ;; Don't move tab when it's already inside group bounds ((and len (>= tab-index beg) (<= tab-index (+ beg len))) nil) ;; Move tab from the right to the group end ((and len (> tab-index (+ beg len))) (+ beg len 1)) ;; Move tab from the left to the group beginning ((< tab-index beg) beg))))) (when pos (tab-bar-move-tab-to pos (1+ tab-index))))) (defcustom tab-bar-tab-post-change-group-functions '(tab-bar-move-tab-to-group) "List of functions to call after changing a tab group. This hook is run at the end of the function `tab-bar-change-tab-group'. The current tab is supplied as an argument. You can use any function, but by default it enables the function `tab-bar-move-tab-to-group' that moves the tab closer to its group." :type 'hook :options '(tab-bar-move-tab-to-group) :group 'tab-bar :version "29.1") (defun tab-bar-change-tab-group (group-name &optional tab-number) "Add the tab specified by its absolute position TAB-NUMBER to GROUP-NAME. If no TAB-NUMBER is specified, then set the GROUP-NAME for the current tab. Interactively, TAB-NUMBER is the prefix numeric argument, and the command prompts for GROUP-NAME. TAB-NUMBER counts from 1. If GROUP-NAME is the empty string, then remove the tab from any group. While using this command, you might also want to replace `tab-bar-format-tabs' with `tab-bar-format-tabs-groups' in `tab-bar-format' to group tabs on the tab bar. Runs the hook `tab-bar-tab-post-change-group-functions' at the end." (interactive (let* ((tabs (funcall tab-bar-tabs-function)) (tab-number (or current-prefix-arg (1+ (tab-bar--current-tab-index tabs)))) (group-name (funcall tab-bar-tab-group-function (nth (1- tab-number) tabs)))) (list (completing-read "Group name for tab (leave blank to remove group): " (delete-dups (delq nil (cons group-name (mapcar (lambda (tab) (funcall tab-bar-tab-group-function tab)) (funcall tab-bar-tabs-function)))))) current-prefix-arg))) (let* ((tabs (funcall tab-bar-tabs-function)) (tab-index (if tab-number (1- (max 0 (min tab-number (length tabs)))) (tab-bar--current-tab-index tabs))) (tab (nth tab-index tabs)) (group (assq 'group tab)) (group-new-name (and (> (length group-name) 0) group-name))) (if group (setcdr group group-new-name) (nconc tab `((group . ,group-new-name)))) (run-hook-with-args 'tab-bar-tab-post-change-group-functions tab) (force-mode-line-update) (unless tab-bar-mode (message "Set tab group to '%s'" group-new-name)))) (defun tab-bar-close-group-tabs (group-name) "Close all tabs that belong to GROUP-NAME on the selected frame. Interactively, prompt for GROUP-NAME." (interactive (let ((group-name (funcall tab-bar-tab-group-function (tab-bar--current-tab-find)))) (list (completing-read "Close all tabs with group name: " (delete-dups (delq nil (cons group-name (mapcar (lambda (tab) (funcall tab-bar-tab-group-function tab)) (funcall tab-bar-tabs-function))))))))) (let* ((close-group (and (> (length group-name) 0) group-name)) (tab-bar-tab-prevent-close-functions (cons (lambda (tab _last-tab-p) (not (equal (funcall tab-bar-tab-group-function tab) close-group))) tab-bar-tab-prevent-close-functions))) (tab-bar-close-other-tabs) (when (equal (funcall tab-bar-tab-group-function (tab-bar--current-tab-find)) close-group) (tab-bar-close-tab)))) ;;; Tab history mode (defvar tab-bar-history-limit 10 "The number of history elements to keep.") (defvar tab-bar-history-omit nil "When non-nil, omit window-configuration changes from the current command.") (defvar tab-bar-history-back (make-hash-table) "History of back changes in every tab per frame.") (defvar tab-bar-history-forward (make-hash-table) "History of forward changes in every tab per frame.") (defvar tab-bar-history-old nil "Window configuration before the current command.") (defvar tab-bar-history-pre-command nil "Command set to `this-command' by `pre-command-hook'.") (defvar tab-bar-history-done-command nil "Command handled by `window-configuration-change-hook'.") (defun tab-bar--history-pre-change () ;; Reset before the command could set it (setq tab-bar-history-omit nil) (setq tab-bar-history-pre-command this-command) (when (zerop (minibuffer-depth)) (setq tab-bar-history-old `((wc . ,(current-window-configuration)) (wc-point . ,(point-marker)))))) (defun tab-bar--history-change () (when (and (not tab-bar-history-omit) tab-bar-history-old ;; Don't register changes performed by the same command ;; repeated in sequence, such as incremental window resizing. (not (eq tab-bar-history-done-command tab-bar-history-pre-command)) (zerop (minibuffer-depth))) (puthash (selected-frame) (seq-take (cons tab-bar-history-old (gethash (selected-frame) tab-bar-history-back)) tab-bar-history-limit) tab-bar-history-back) (setq tab-bar-history-old nil)) (setq tab-bar-history-done-command tab-bar-history-pre-command)) (defun tab-bar-history-back () "Restore a previous window configuration used in the current tab. This navigates back in the history of window configurations." (interactive) (setq tab-bar-history-omit t) (let* ((history (pop (gethash (selected-frame) tab-bar-history-back))) (wc (alist-get 'wc history)) (wc-point (alist-get 'wc-point history))) (if (window-configuration-p wc) (progn (puthash (selected-frame) (cons tab-bar-history-old (gethash (selected-frame) tab-bar-history-forward)) tab-bar-history-forward) (set-window-configuration wc nil t) (when (and (markerp wc-point) (marker-buffer wc-point)) (goto-char wc-point))) (message "No more tab back history")))) (defun tab-bar-history-forward () "Cancel restoration of the previous window configuration. This navigates forward in the history of window configurations." (interactive) (setq tab-bar-history-omit t) (let* ((history (pop (gethash (selected-frame) tab-bar-history-forward))) (wc (alist-get 'wc history)) (wc-point (alist-get 'wc-point history))) (if (window-configuration-p wc) (progn (puthash (selected-frame) (cons tab-bar-history-old (gethash (selected-frame) tab-bar-history-back)) tab-bar-history-back) (set-window-configuration wc nil t) (when (and (markerp wc-point) (marker-buffer wc-point)) (goto-char wc-point))) (message "No more tab forward history")))) (defvar-keymap tab-bar-history-mode-map "C-c " #'tab-bar-history-back "C-c " #'tab-bar-history-forward) (define-minor-mode tab-bar-history-mode "Toggle tab history mode for the tab bar. Tab history mode remembers window configurations used in every tab, and can restore them." :global t :group 'tab-bar (if tab-bar-history-mode (progn (require 'icons) (unless (iconp 'tab-bar-back) (define-icon tab-bar-back nil `((image "symbols/chevron_left_16.svg" "tabs/left-arrow.xpm" :height (1 . em) :margin ,tab-bar-button-margin :ascent center) (text " < ")) "Icon for going back in tab history." :version "29.1")) (setq tab-bar-back-button (icon-string 'tab-bar-back)) (unless (iconp 'tab-bar-forward) (define-icon tab-bar-forward nil `((image "symbols/chevron_right_16.svg" "tabs/right-arrow.xpm" :height (1 . em) :margin ,tab-bar-button-margin :ascent center) (text " > ")) "Icon for going forward in tab history." :version "29.1")) (setq tab-bar-forward-button (icon-string 'tab-bar-forward)) (add-hook 'pre-command-hook #'tab-bar--history-pre-change) (add-hook 'window-configuration-change-hook #'tab-bar--history-change)) (remove-hook 'pre-command-hook #'tab-bar--history-pre-change) (remove-hook 'window-configuration-change-hook #'tab-bar--history-change))) ;;; Non-graphical access to frame-local tabs (named window configurations) (defun tab-switcher () "Display a list of named window configurations. The list is displayed in the buffer `*Tabs*'. It's placed in the center of the frame to resemble a window list displayed by a window switcher in some window managers on Alt+Tab. In this list of window configurations you can delete or select them. Type ? after invocation to get help on commands available. Type q to remove the list of window configurations from the display. The first column shows `D' for a window configuration you have marked for deletion." (interactive) (let ((dir default-directory)) (let ((tab-bar-new-tab-choice t) ;; Don't enable tab-bar-mode if it's disabled (tab-bar-show nil)) (tab-bar-new-tab)) (let ((switch-to-buffer-preserve-window-point nil)) (switch-to-buffer (tab-switcher-noselect))) (setq default-directory dir)) (message "Commands: d, x; RET; q to quit; ? for help.")) (defun tab-switcher-noselect () "Create and return a buffer with a list of window configurations. The list is displayed in a buffer named `*Tabs*'. For more information, see the function `tab-switcher'." (let* ((tabs (seq-remove (lambda (tab) (eq (car tab) 'current-tab)) (funcall tab-bar-tabs-function))) ;; Sort by recency (tabs (sort tabs (lambda (a b) (< (alist-get 'time b) (alist-get 'time a)))))) (with-current-buffer (get-buffer-create (format " *Tabs*<%s>" (or (frame-parameter nil 'window-id) (frame-parameter nil 'name)))) (setq buffer-read-only nil) (erase-buffer) (tab-switcher-mode) ;; Vertical alignment to the center of the frame (insert-char ?\n (/ (- (frame-height) (length tabs) 1) 2)) ;; Horizontal alignment to the center of the frame (setq tab-switcher-column (- (/ (frame-width) 2) 15)) (dolist (tab tabs) (insert (propertize (format "%s %s\n" (make-string tab-switcher-column ?\040) (propertize (alist-get 'name tab) 'mouse-face 'highlight 'help-echo "mouse-2: select this window configuration")) 'tab tab))) (goto-char (point-min)) (goto-char (or (next-single-property-change (point) 'tab) (point-min))) (when (> (length tabs) 1) (tab-switcher-next-line)) (move-to-column tab-switcher-column) (set-buffer-modified-p nil) (setq buffer-read-only t) (current-buffer)))) (defvar-local tab-switcher-column 3) (defvar-keymap tab-switcher-mode-map :doc "Local keymap for `tab-switcher-mode' buffers." :full t :suppress t "q" #'quit-window "RET" #'tab-switcher-select "d" #'tab-switcher-delete "k" #'tab-switcher-delete "C-d" #'tab-switcher-delete-backwards "C-k" #'tab-switcher-delete "x" #'tab-switcher-execute "SPC" #'tab-switcher-next-line "n" #'tab-switcher-next-line "p" #'tab-switcher-prev-line "DEL" #'tab-switcher-backup-unmark "?" #'describe-mode "u" #'tab-switcher-unmark "" #'tab-switcher-mouse-select "" 'mouse-face) (define-derived-mode tab-switcher-mode nil "Window Configurations" "Major mode for selecting a window configuration. Each line describes one window configuration in Emacs. Letters do not insert themselves; instead, they are commands. \\ \\[tab-switcher-mouse-select] -- select window configuration you click on. \\[tab-switcher-select] -- select current line's window configuration. \\[tab-switcher-delete] -- mark that window configuration to be deleted, and move down. \\[tab-switcher-delete-backwards] -- mark that window configuration to be deleted, and move up. \\[tab-switcher-execute] -- delete marked window configurations. \\[tab-switcher-unmark] -- remove all kinds of marks from current line. With prefix argument, also move up one line. \\[tab-switcher-backup-unmark] -- back up a line and remove marks." (setq truncate-lines t)) (defun tab-switcher-current-tab (error-if-non-existent-p) "Return window configuration described by this line of the list." (let* ((where (save-excursion (beginning-of-line) (+ 2 (point) tab-switcher-column))) (tab (and (not (eobp)) (get-text-property where 'tab)))) (or tab (if error-if-non-existent-p (user-error "No window configuration on this line") nil)))) (defun tab-switcher-next-line (&optional arg) "Move to ARGth next line in the list of tabs. Interactively, ARG is the prefix numeric argument and defaults to 1." (interactive "p") (forward-line arg) (beginning-of-line) (move-to-column tab-switcher-column)) (defun tab-switcher-prev-line (&optional arg) "Move to ARGth previous line in the list of tabs. Interactively, ARG is the prefix numeric argument and defaults to 1." (interactive "p") (forward-line (- arg)) (beginning-of-line) (move-to-column tab-switcher-column)) (defun tab-switcher-unmark (&optional backup) "Cancel operations on window configuration on this line and move down. With prefix arg BACKUP, move up instead." (interactive "P") (beginning-of-line) (move-to-column tab-switcher-column) (let* ((buffer-read-only nil)) (delete-char 1) (insert " ")) (forward-line (if backup -1 1)) (move-to-column tab-switcher-column)) (defun tab-switcher-backup-unmark () "Move up one line and cancel operations on window configuration there." (interactive) (forward-line -1) (tab-switcher-unmark) (forward-line -1) (move-to-column tab-switcher-column)) (defun tab-switcher-delete (&optional arg) "Mark window configuration on this line to be deleted. Prefix arg says how many window configurations to delete. Negative arg means delete backwards. The deletion will be done by the \\\\[tab-switcher-execute] command." (interactive "p") (let ((buffer-read-only nil)) (if (or (null arg) (= arg 0)) (setq arg 1)) (while (> arg 0) (delete-char 1) (insert ?D) (forward-line 1) (setq arg (1- arg))) (while (< arg 0) (delete-char 1) (insert ?D) (forward-line -1) (setq arg (1+ arg))) (move-to-column tab-switcher-column))) (defun tab-switcher-delete-backwards (&optional arg) "Mark window configuration on this line to be deleted. Then move up one line. Prefix arg means move that many lines. The deletion will be done by the \\\\[tab-switcher-execute] command." (interactive "p") (tab-switcher-delete (- (or arg 1)))) (defun tab-switcher-delete-from-list (tab) "Delete the window configuration from the list of tabs." (push `((frame . ,(selected-frame)) (index . ,(tab-bar--tab-index tab)) (tab . ,tab)) tab-bar-closed-tabs) (tab-bar-tabs-set (delq tab (funcall tab-bar-tabs-function)))) (defun tab-switcher-execute () "Delete the marked window configurations. Use the \\\\[tab-switcher-delete] commands to set those marks." (interactive) (save-excursion (goto-char (point-min)) (let ((buffer-read-only nil)) (while (re-search-forward (format "^%sD" (make-string tab-switcher-column ?\040)) nil t) (forward-char -1) (let ((tab (tab-switcher-current-tab nil))) (when tab (tab-switcher-delete-from-list tab) (beginning-of-line) (delete-region (point) (progn (forward-line 1) (point)))))))) (beginning-of-line) (move-to-column tab-switcher-column) (force-mode-line-update)) (defun tab-switcher-select () "Select this line's window configuration. This command replaces all the existing windows in the selected frame with those specified by the selected window configuration." (interactive) (let* ((to-tab (tab-switcher-current-tab t))) (kill-buffer (current-buffer)) ;; Delete the current window configuration of tab list ;; without storing it in the undo list of closed tabs (let ((inhibit-message t) ; avoid message about deleted tab tab-bar-closed-tabs) (tab-bar-close-tab nil (1+ (tab-bar--tab-index to-tab)))))) (defun tab-switcher-mouse-select (event) "Select the window configuration whose line you click on." (interactive "e") (set-buffer (window-buffer (posn-window (event-end event)))) (goto-char (posn-point (event-end event))) (tab-switcher-select)) (defun tab-bar--reusable-frames (all-frames) (cond ((eq all-frames t) (frame-list)) ((eq all-frames 'visible) (visible-frame-list)) ((framep all-frames) (list all-frames)) (t (list (selected-frame))))) (defun tab-bar-get-buffer-tab (buffer-or-name &optional all-frames ignore-current-tab all-tabs) "Return the tab that owns the window whose buffer is BUFFER-OR-NAME. BUFFER-OR-NAME may be a buffer or a buffer name, and defaults to the current buffer. The optional argument ALL-FRAMES specifies the frames to consider: - t means consider all tabs on all existing frames. - `visible' means consider all tabs on all visible frames. - A frame means consider all tabs on that frame only. - Any other value of ALL-FRAMES means consider all tabs on the selected frame and no others. When the optional argument IGNORE-CURRENT-TAB is non-nil, don't take into account the buffers in the currently selected tab. Otherwise, prefer buffers of the current tab. When the optional argument ALL-TABS is non-nil, return a list of all tabs that contain the buffer BUFFER-OR-NAME." (let ((buffer (if buffer-or-name (get-buffer buffer-or-name) (current-buffer))) buffer-tabs) (when (bufferp buffer) (funcall (if all-tabs #'seq-each #'seq-some) (lambda (frame) (funcall (if all-tabs #'seq-each #'seq-some) (lambda (tab) (when (if (eq (car tab) 'current-tab) (get-buffer-window buffer frame) (let* ((state (alist-get 'ws tab)) (buffers (when state (window-state-buffers state)))) (or ;; non-writable window-state (memq buffer buffers) ;; writable window-state (member (buffer-name buffer) buffers)))) (push (append tab `((index . ,(tab-bar--tab-index tab nil frame)) (frame . ,frame))) buffer-tabs))) (let* ((tabs (funcall tab-bar-tabs-function frame)) (current-tab (tab-bar--current-tab-find tabs))) (setq tabs (remq current-tab tabs)) (if ignore-current-tab ;; Use tabs without current-tab. tabs ;; Make sure current-tab is at the beginning of tabs. (cons current-tab tabs))))) (tab-bar--reusable-frames all-frames)) (if all-tabs (nreverse buffer-tabs) (car (last buffer-tabs)))))) (defun display-buffer-in-tab (buffer alist) "Display BUFFER in a tab using display actions in ALIST. ALIST is an association list of action symbols and values. See Info node `(elisp) Buffer Display Action Alists' for details of such alists. If ALIST contains a `tab-name' entry, it creates a new tab with that name and displays BUFFER in a new tab. If a tab with this name already exists, it switches to that tab before displaying BUFFER. The `tab-name' entry can be a function, in which case it is called with two arguments: BUFFER and ALIST, and should return the tab name. When a `tab-name' entry is omitted, create a new tab without an explicit name. The ALIST entry `tab-group' (string or function) defines the tab group. If ALIST contains a `reusable-frames' entry, its value determines which frames to search for a reusable tab: nil -- do not reuse any frames; a frame -- just that frame; `visible' -- all visible frames; 0 -- all frames on the current terminal; t -- all frames; other non-nil values -- use the selected frame. If ALIST contains a non-nil `ignore-current-tab' entry, then the buffers of the current tab are skipped when searching for a reusable tab. Otherwise, prefer buffers of the current tab. This is an action function for buffer display, see Info node `(elisp) Buffer Display Action Functions'. It should be called only by `display-buffer' or a function directly or indirectly called by the latter." (let* ((reusable-frames (alist-get 'reusable-frames alist)) (ignore-current-tab (alist-get 'ignore-current-tab alist)) (reusable-tab (when reusable-frames (tab-bar-get-buffer-tab buffer reusable-frames ignore-current-tab)))) (if reusable-tab (let* ((frame (alist-get 'frame reusable-tab)) (index (alist-get 'index reusable-tab))) (when frame (select-frame-set-input-focus frame)) (when index (tab-bar-select-tab (1+ index))) (when (get-buffer-window buffer frame) (select-window (get-buffer-window buffer frame)))) (let ((tab-name (alist-get 'tab-name alist))) (when (functionp tab-name) (setq tab-name (funcall tab-name buffer alist))) (if tab-name (let ((tab-index (tab-bar--tab-index-by-name tab-name))) (if tab-index (progn (tab-bar-select-tab (1+ tab-index)) (when (get-buffer-window buffer) (select-window (get-buffer-window buffer)))) (display-buffer-in-new-tab buffer alist))) (display-buffer-in-new-tab buffer alist)))))) (defun display-buffer-in-new-tab (buffer alist) "Display BUFFER in a new tab using display actions in ALIST. ALIST is an association list of action symbols and values. See Info node `(elisp) Buffer Display Action Alists' for details of such alists. Like `display-buffer-in-tab', but always creates a new tab unconditionally, without checking if a suitable tab already exists. If ALIST contains a `tab-name' entry, it creates a new tab with that name and displays BUFFER in a new tab. The `tab-name' entry can be a function, in which case it is called with two arguments: BUFFER and ALIST, and should return the tab name. When a `tab-name' entry is omitted, create a new tab without an explicit name. The ALIST entry `tab-group' (string or function) defines the tab group. This is an action function for buffer display, see Info node `(elisp) Buffer Display Action Functions'. It should be called only by `display-buffer' or a function directly or indirectly called by the latter." (let ((tab-bar-new-tab-choice t)) (tab-bar-new-tab) (let ((tab-name (alist-get 'tab-name alist))) (when (functionp tab-name) (setq tab-name (funcall tab-name buffer alist))) (when tab-name (tab-bar-rename-tab tab-name))) (let ((tab-group (alist-get 'tab-group alist))) (when (functionp tab-group) (setq tab-group (funcall tab-group buffer alist))) (when tab-group (tab-bar-change-tab-group tab-group))) (window--display-buffer buffer (selected-window) 'tab alist))) (defun switch-to-buffer-other-tab (buffer-or-name &optional _norecord) "Switch to buffer BUFFER-OR-NAME in another tab. Like \\[switch-to-buffer-other-frame] (which see), but creates a new tab. Interactively, prompt for the buffer to switch to." (declare (advertised-calling-convention (buffer-or-name) "28.1")) (interactive (list (read-buffer-to-switch "Switch to buffer in other tab: "))) (pop-to-buffer (window-normalize-buffer-to-switch-to buffer-or-name) '((display-buffer-in-tab) (inhibit-same-window . nil)))) (defun find-file-other-tab (filename &optional wildcards) "Edit file FILENAME, in another tab. Like \\[find-file-other-frame] (which see), but creates a new tab. Interactively, prompt for FILENAME. If WILDCARDS is non-nil, FILENAME can include widcards, and all matching files will be visited." (interactive (find-file-read-args "Find file in other tab: " (confirm-nonexistent-file-or-buffer))) (let ((value (find-file-noselect filename nil nil wildcards))) (if (listp value) (progn (setq value (nreverse value)) (switch-to-buffer-other-tab (car value)) (mapc #'switch-to-buffer (cdr value)) value) (switch-to-buffer-other-tab value)))) (defun find-file-read-only-other-tab (filename &optional wildcards) "Edit file FILENAME, in another tab, but don't allow changes. Like \\[find-file-other-frame] (which see), but creates a new tab. Like \\[find-file-other-tab], but marks buffer as read-only. Use \\[read-only-mode] to permit editing. Interactively, prompt for FILENAME. If WILDCARDS is non-nil, FILENAME can include widcards, and all matching files will be visited." (interactive (find-file-read-args "Find file read-only in other tab: " (confirm-nonexistent-file-or-buffer))) (find-file--read-only (lambda (filename wildcards) (window-buffer (find-file-other-tab filename wildcards))) filename wildcards)) (defun other-tab-prefix () "Display the buffer of the next command in a new tab. The next buffer is the buffer displayed by the next command invoked immediately after this command (ignoring reading from the minibuffer). Creates a new tab before displaying the buffer, or switches to the tab that already contains that buffer. When `switch-to-buffer-obey-display-actions' is non-nil, `switch-to-buffer' commands are also supported." (interactive) (display-buffer-override-next-command (lambda (buffer alist) (cons (progn (display-buffer-in-tab buffer (append alist '((inhibit-same-window . nil)))) (selected-window)) 'tab)) nil "[other-tab]") (message "Display next command buffer in a new tab...")) ;;; Short aliases and keybindings (defalias 'tab-new #'tab-bar-new-tab) (defalias 'tab-new-to #'tab-bar-new-tab-to) (defalias 'tab-duplicate #'tab-bar-duplicate-tab) (defalias 'tab-detach #'tab-bar-detach-tab) (defalias 'tab-window-detach #'tab-bar-move-window-to-tab) (defalias 'tab-close #'tab-bar-close-tab) (defalias 'tab-close-other #'tab-bar-close-other-tabs) (defalias 'tab-close-group #'tab-bar-close-group-tabs) (defalias 'tab-undo #'tab-bar-undo-close-tab) (defalias 'tab-select #'tab-bar-select-tab) (defalias 'tab-switch #'tab-bar-switch-to-tab) (defalias 'tab-next #'tab-bar-switch-to-next-tab) (defalias 'tab-previous #'tab-bar-switch-to-prev-tab) (defalias 'tab-last #'tab-bar-switch-to-last-tab) (defalias 'tab-recent #'tab-bar-switch-to-recent-tab) (defalias 'tab-move #'tab-bar-move-tab) (defalias 'tab-move-to #'tab-bar-move-tab-to) (defalias 'tab-rename #'tab-bar-rename-tab) (defalias 'tab-group #'tab-bar-change-tab-group) (defalias 'tab-list #'tab-switcher) (keymap-set tab-prefix-map "n" #'tab-duplicate) (keymap-set tab-prefix-map "N" #'tab-new-to) (keymap-set tab-prefix-map "2" #'tab-new) (keymap-set tab-prefix-map "1" #'tab-close-other) (keymap-set tab-prefix-map "0" #'tab-close) (keymap-set tab-prefix-map "u" #'tab-undo) (keymap-set tab-prefix-map "o" #'tab-next) (keymap-set tab-prefix-map "O" #'tab-previous) (keymap-set tab-prefix-map "m" #'tab-move) (keymap-set tab-prefix-map "M" #'tab-move-to) (keymap-set tab-prefix-map "G" #'tab-group) (keymap-set tab-prefix-map "r" #'tab-rename) (keymap-set tab-prefix-map "^ f" #'tab-detach) (keymap-set tab-prefix-map "RET" #'tab-switch) (keymap-set tab-prefix-map "b" #'switch-to-buffer-other-tab) (keymap-set tab-prefix-map "f" #'find-file-other-tab) (keymap-set tab-prefix-map "C-f" #'find-file-other-tab) (keymap-set tab-prefix-map "C-r" #'find-file-read-only-other-tab) (keymap-set tab-prefix-map "t" #'other-tab-prefix) (defvar-keymap tab-bar-switch-repeat-map :doc "Keymap to repeat tab switch commands `tab-next' and `tab-previous'. Used in `repeat-mode'." :repeat t "o" #'tab-next "O" #'tab-previous) (defvar-keymap tab-bar-move-repeat-map :doc "Keymap to repeat tab move commands `tab-move' and `tab-bar-move-tab-backward'. Used in `repeat-mode'." :repeat t "m" #'tab-move "M" #'tab-bar-move-tab-backward) (provide 'tab-bar) ;;; tab-bar.el ends here