electron/docs/api/base-window.md
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# BaseWindow
> Create and control windows.
Process: [Main](../glossary.md#main-process)
> **Note**
> `BaseWindow` provides a flexible way to compose multiple web views in a
> single window. For windows with only a single, full-size web view, the
> [`BrowserWindow`](browser-window.md) class may be a simpler option.
This module cannot be used until the `ready` event of the `app`
module is emitted.
```js
// In the main process.
const { BaseWindow, WebContentsView } = require('electron')
const win = new BaseWindow({ width: 800, height: 600 })
const leftView = new WebContentsView()
leftView.webContents.loadURL('https://electronjs.org')
win.contentView.addChildView(leftView)
const rightView = new WebContentsView()
rightView.webContents.loadURL('https://github.com/electron/electron')
win.contentView.addChildView(rightView)
leftView.setBounds({ x: 0, y: 0, width: 400, height: 600 })
rightView.setBounds({ x: 400, y: 0, width: 400, height: 600 })
```
## Parent and child windows
By using `parent` option, you can create child windows:
```js
const { BaseWindow } = require('electron')
const parent = new BaseWindow()
const child = new BaseWindow({ parent })
```
The `child` window will always show on top of the `parent` window.
## Modal windows
A modal window is a child window that disables parent window. To create a modal
window, you have to set both the `parent` and `modal` options:
```js
const { BaseWindow } = require('electron')
const parent = new BaseWindow()
const child = new BaseWindow({ parent, modal: true })
```
## Platform notices
* On macOS modal windows will be displayed as sheets attached to the parent window.
* On macOS the child windows will keep the relative position to parent window
when parent window moves, while on Windows and Linux child windows will not
move.
* On Linux the type of modal windows will be changed to `dialog`.
* On Linux many desktop environments do not support hiding a modal window.
## Class: BaseWindow
> Create and control windows.
Process: [Main](../glossary.md#main-process)
`BaseWindow` is an [EventEmitter][event-emitter].
It creates a new `BaseWindow` with native properties as set by the `options`.
### `new BaseWindow([options])`
* `options` [BaseWindowConstructorOptions](structures/base-window-options.md?inline) (optional)
### Instance Events
Objects created with `new BaseWindow` emit the following events:
**Note:** Some events are only available on specific operating systems and are
labeled as such.
#### Event: 'close'
Returns:
* `event` Event
Emitted when the window is going to be closed. It's emitted before the
`beforeunload` and `unload` event of the DOM. Calling `event.preventDefault()`
will cancel the close.
Usually you would want to use the `beforeunload` handler to decide whether the
window should be closed, which will also be called when the window is
reloaded. In Electron, returning any value other than `undefined` would cancel the
close. For example:
```js
window.onbeforeunload = (e) => {
console.log('I do not want to be closed')
// Unlike usual browsers that a message box will be prompted to users, returning
// a non-void value will silently cancel the close.
// It is recommended to use the dialog API to let the user confirm closing the
// application.
e.returnValue = false
}
```
_**Note**: There is a subtle difference between the behaviors of `window.onbeforeunload = handler` and `window.addEventListener('beforeunload', handler)`. It is recommended to always set the `event.returnValue` explicitly, instead of only returning a value, as the former works more consistently within Electron._
#### Event: 'closed'
Emitted when the window is closed. After you have received this event you should
remove the reference to the window and avoid using it any more.
#### Event: 'session-end' _Windows_
Emitted when window session is going to end due to force shutdown or machine restart
or session log off.
#### Event: 'blur'
Emitted when the window loses focus.
#### Event: 'focus'
Emitted when the window gains focus.
#### Event: 'show'
Emitted when the window is shown.
#### Event: 'hide'
Emitted when the window is hidden.
#### Event: 'maximize'
Emitted when window is maximized.
#### Event: 'unmaximize'
Emitted when the window exits from a maximized state.
#### Event: 'minimize'
Emitted when the window is minimized.
#### Event: 'restore'
Emitted when the window is restored from a minimized state.
#### Event: 'will-resize' _macOS_ _Windows_
Returns:
* `event` Event
* `newBounds` [Rectangle](structures/rectangle.md) - Size the window is being resized to.
* `details` Object
* `edge` (string) - The edge of the window being dragged for resizing. Can be `bottom`, `left`, `right`, `top-left`, `top-right`, `bottom-left` or `bottom-right`.
Emitted before the window is resized. Calling `event.preventDefault()` will prevent the window from being resized.
Note that this is only emitted when the window is being resized manually. Resizing the window with `setBounds`/`setSize` will not emit this event.
The possible values and behaviors of the `edge` option are platform dependent. Possible values are:
* On Windows, possible values are `bottom`, `top`, `left`, `right`, `top-left`, `top-right`, `bottom-left`, `bottom-right`.
* On macOS, possible values are `bottom` and `right`.
* The value `bottom` is used to denote vertical resizing.
* The value `right` is used to denote horizontal resizing.
#### Event: 'resize'
Emitted after the window has been resized.
#### Event: 'resized' _macOS_ _Windows_
Emitted once when the window has finished being resized.
This is usually emitted when the window has been resized manually. On macOS, resizing the window with `setBounds`/`setSize` and setting the `animate` parameter to `true` will also emit this event once resizing has finished.
#### Event: 'will-move' _macOS_ _Windows_
Returns:
* `event` Event
* `newBounds` [Rectangle](structures/rectangle.md) - Location the window is being moved to.
Emitted before the window is moved. On Windows, calling `event.preventDefault()` will prevent the window from being moved.
Note that this is only emitted when the window is being moved manually. Moving the window with `setPosition`/`setBounds`/`center` will not emit this event.
#### Event: 'move'
Emitted when the window is being moved to a new position.
#### Event: 'moved' _macOS_ _Windows_
Emitted once when the window is moved to a new position.
**Note**: On macOS this event is an alias of `move`.
#### Event: 'enter-full-screen'
Emitted when the window enters a full-screen state.
#### Event: 'leave-full-screen'
Emitted when the window leaves a full-screen state.
#### Event: 'always-on-top-changed'
Returns:
* `event` Event
* `isAlwaysOnTop` boolean
Emitted when the window is set or unset to show always on top of other windows.
#### Event: 'app-command' _Windows_ _Linux_
Returns:
* `event` Event
* `command` string
Emitted when an [App Command](https://learn.microsoft.com/en-us/windows/win32/inputdev/wm-appcommand)
is invoked. These are typically related to keyboard media keys or browser
commands, as well as the "Back" button built into some mice on Windows.
Commands are lowercased, underscores are replaced with hyphens, and the
`APPCOMMAND_` prefix is stripped off.
e.g. `APPCOMMAND_BROWSER_BACKWARD` is emitted as `browser-backward`.
```js
const { BaseWindow } = require('electron')
const win = new BaseWindow()
win.on('app-command', (e, cmd) => {
// Navigate the window back when the user hits their mouse back button
if (cmd === 'browser-backward') {
// Find the appropriate WebContents to navigate.
}
})
```
The following app commands are explicitly supported on Linux:
* `browser-backward`
* `browser-forward`
#### Event: 'swipe' _macOS_
Returns:
* `event` Event
* `direction` string
Emitted on 3-finger swipe. Possible directions are `up`, `right`, `down`, `left`.
The method underlying this event is built to handle older macOS-style trackpad swiping,
where the content on the screen doesn't move with the swipe. Most macOS trackpads are not
configured to allow this kind of swiping anymore, so in order for it to emit properly the
'Swipe between pages' preference in `System Preferences > Trackpad > More Gestures` must be
set to 'Swipe with two or three fingers'.
#### Event: 'rotate-gesture' _macOS_
Returns:
* `event` Event
* `rotation` Float
Emitted on trackpad rotation gesture. Continually emitted until rotation gesture is
ended. The `rotation` value on each emission is the angle in degrees rotated since
the last emission. The last emitted event upon a rotation gesture will always be of
value `0`. Counter-clockwise rotation values are positive, while clockwise ones are
negative.
#### Event: 'sheet-begin' _macOS_
Emitted when the window opens a sheet.
#### Event: 'sheet-end' _macOS_
Emitted when the window has closed a sheet.
#### Event: 'new-window-for-tab' _macOS_
Emitted when the native new tab button is clicked.
#### Event: 'system-context-menu' _Windows_
Returns:
* `event` Event
* `point` [Point](structures/point.md) - The screen coordinates the context menu was triggered at
Emitted when the system context menu is triggered on the window, this is
normally only triggered when the user right clicks on the non-client area
of your window. This is the window titlebar or any area you have declared
as `-webkit-app-region: drag` in a frameless window.
Calling `event.preventDefault()` will prevent the menu from being displayed.
### Static Methods
The `BaseWindow` class has the following static methods:
#### `BaseWindow.getAllWindows()`
Returns `BaseWindow[]` - An array of all opened browser windows.
#### `BaseWindow.getFocusedWindow()`
Returns `BaseWindow | null` - The window that is focused in this application, otherwise returns `null`.
#### `BaseWindow.fromId(id)`
* `id` Integer
Returns `BaseWindow | null` - The window with the given `id`.
### Instance Properties
Objects created with `new BaseWindow` have the following properties:
```js
const { BaseWindow } = require('electron')
// In this example `win` is our instance
const win = new BaseWindow({ width: 800, height: 600 })
```
#### `win.id` _Readonly_
A `Integer` property representing the unique ID of the window. Each ID is unique among all `BaseWindow` instances of the entire Electron application.
#### `win.contentView`
A `View` property for the content view of the window.
#### `win.tabbingIdentifier` _macOS_ _Readonly_
A `string` (optional) property that is equal to the `tabbingIdentifier` passed to the `BrowserWindow` constructor or `undefined` if none was set.
#### `win.autoHideMenuBar`
A `boolean` property that determines whether the window menu bar should hide itself automatically. Once set, the menu bar will only show when users press the single `Alt` key.
If the menu bar is already visible, setting this property to `true` won't
hide it immediately.
#### `win.simpleFullScreen`
A `boolean` property that determines whether the window is in simple (pre-Lion) fullscreen mode.
#### `win.fullScreen`
A `boolean` property that determines whether the window is in fullscreen mode.
#### `win.focusable` _Windows_ _macOS_
A `boolean` property that determines whether the window is focusable.
#### `win.visibleOnAllWorkspaces` _macOS_ _Linux_
A `boolean` property that determines whether the window is visible on all workspaces.
**Note:** Always returns false on Windows.
#### `win.shadow`
A `boolean` property that determines whether the window has a shadow.
#### `win.menuBarVisible` _Windows_ _Linux_
A `boolean` property that determines whether the menu bar should be visible.
**Note:** If the menu bar is auto-hide, users can still bring up the menu bar by pressing the single `Alt` key.
#### `win.kiosk`
A `boolean` property that determines whether the window is in kiosk mode.
#### `win.documentEdited` _macOS_
A `boolean` property that specifies whether the windows document has been edited.
The icon in title bar will become gray when set to `true`.
#### `win.representedFilename` _macOS_
A `string` property that determines the pathname of the file the window represents,
and the icon of the file will show in window's title bar.
#### `win.title`
A `string` property that determines the title of the native window.
**Note:** The title of the web page can be different from the title of the native window.
#### `win.minimizable` _macOS_ _Windows_
A `boolean` property that determines whether the window can be manually minimized by user.
On Linux the setter is a no-op, although the getter returns `true`.
#### `win.maximizable` _macOS_ _Windows_
A `boolean` property that determines whether the window can be manually maximized by user.
On Linux the setter is a no-op, although the getter returns `true`.
#### `win.fullScreenable`
A `boolean` property that determines whether the maximize/zoom window button toggles fullscreen mode or
maximizes the window.
#### `win.resizable`
A `boolean` property that determines whether the window can be manually resized by user.
#### `win.closable` _macOS_ _Windows_
A `boolean` property that determines whether the window can be manually closed by user.
On Linux the setter is a no-op, although the getter returns `true`.
#### `win.movable` _macOS_ _Windows_
A `boolean` property that determines Whether the window can be moved by user.
On Linux the setter is a no-op, although the getter returns `true`.
#### `win.excludedFromShownWindowsMenu` _macOS_
A `boolean` property that determines whether the window is excluded from the applications Windows menu. `false` by default.
```js @ts-expect-error=[12]
const { Menu, BaseWindow } = require('electron')
const win = new BaseWindow({ height: 600, width: 600 })
const template = [
{
role: 'windowmenu'
}
]
win.excludedFromShownWindowsMenu = true
const menu = Menu.buildFromTemplate(template)
Menu.setApplicationMenu(menu)
```
#### `win.accessibleTitle`
A `string` property that defines an alternative title provided only to
accessibility tools such as screen readers. This string is not directly
visible to users.
### Instance Methods
Objects created with `new BaseWindow` have the following instance methods:
**Note:** Some methods are only available on specific operating systems and are
labeled as such.
#### `win.setContentView(view)`
* `view` [View](view.md)
Sets the content view of the window.
#### `win.getContentView()`
Returns [View](view.md) - The content view of the window.
#### `win.destroy()`
Force closing the window, the `unload` and `beforeunload` event won't be emitted
for the web page, and `close` event will also not be emitted
for this window, but it guarantees the `closed` event will be emitted.
#### `win.close()`
Try to close the window. This has the same effect as a user manually clicking
the close button of the window. The web page may cancel the close though. See
the [close event](#event-close).
#### `win.focus()`
Focuses on the window.
#### `win.blur()`
Removes focus from the window.
#### `win.isFocused()`
Returns `boolean` - Whether the window is focused.
#### `win.isDestroyed()`
Returns `boolean` - Whether the window is destroyed.
#### `win.show()`
Shows and gives focus to the window.
#### `win.showInactive()`
Shows the window but doesn't focus on it.
#### `win.hide()`
Hides the window.
#### `win.isVisible()`
Returns `boolean` - Whether the window is visible to the user in the foreground of the app.
#### `win.isModal()`
Returns `boolean` - Whether current window is a modal window.
#### `win.maximize()`
Maximizes the window. This will also show (but not focus) the window if it
isn't being displayed already.
#### `win.unmaximize()`
Unmaximizes the window.
#### `win.isMaximized()`
Returns `boolean` - Whether the window is maximized.
#### `win.minimize()`
Minimizes the window. On some platforms the minimized window will be shown in
the Dock.
#### `win.restore()`
Restores the window from minimized state to its previous state.
#### `win.isMinimized()`
Returns `boolean` - Whether the window is minimized.
#### `win.setFullScreen(flag)`
* `flag` boolean
Sets whether the window should be in fullscreen mode.
**Note:** On macOS, fullscreen transitions take place asynchronously. If further actions depend on the fullscreen state, use the ['enter-full-screen'](base-window.md#event-enter-full-screen) or ['leave-full-screen'](base-window.md#event-leave-full-screen) events.
#### `win.isFullScreen()`
Returns `boolean` - Whether the window is in fullscreen mode.
#### `win.setSimpleFullScreen(flag)` _macOS_
* `flag` boolean
Enters or leaves simple fullscreen mode.
Simple fullscreen mode emulates the native fullscreen behavior found in versions of macOS prior to Lion (10.7).
#### `win.isSimpleFullScreen()` _macOS_
Returns `boolean` - Whether the window is in simple (pre-Lion) fullscreen mode.
#### `win.isNormal()`
Returns `boolean` - Whether the window is in normal state (not maximized, not minimized, not in fullscreen mode).
#### `win.setAspectRatio(aspectRatio[, extraSize])`
* `aspectRatio` Float - The aspect ratio to maintain for some portion of the
content view.
* `extraSize` [Size](structures/size.md) (optional) _macOS_ - The extra size not to be included while
maintaining the aspect ratio.
This will make a window maintain an aspect ratio. The extra size allows a
developer to have space, specified in pixels, not included within the aspect
ratio calculations. This API already takes into account the difference between a
window's size and its content size.
Consider a normal window with an HD video player and associated controls.
Perhaps there are 15 pixels of controls on the left edge, 25 pixels of controls
on the right edge and 50 pixels of controls below the player. In order to
maintain a 16:9 aspect ratio (standard aspect ratio for HD @1920x1080) within
the player itself we would call this function with arguments of 16/9 and
\{ width: 40, height: 50 \}. The second argument doesn't care where the extra width and height
are within the content view--only that they exist. Sum any extra width and
height areas you have within the overall content view.
The aspect ratio is not respected when window is resized programmatically with
APIs like `win.setSize`.
To reset an aspect ratio, pass 0 as the `aspectRatio` value: `win.setAspectRatio(0)`.
#### `win.setBackgroundColor(backgroundColor)`
* `backgroundColor` string - Color in Hex, RGB, RGBA, HSL, HSLA or named CSS color format. The alpha channel is optional for the hex type.
Examples of valid `backgroundColor` values:
* Hex
* #fff (shorthand RGB)
* #ffff (shorthand ARGB)
* #ffffff (RGB)
* #ffffffff (ARGB)
* RGB
* `rgb\(([\d]+),\s*([\d]+),\s*([\d]+)\)`
* e.g. rgb(255, 255, 255)
* RGBA
* `rgba\(([\d]+),\s*([\d]+),\s*([\d]+),\s*([\d.]+)\)`
* e.g. rgba(255, 255, 255, 1.0)
* HSL
* `hsl\((-?[\d.]+),\s*([\d.]+)%,\s*([\d.]+)%\)`
* e.g. hsl(200, 20%, 50%)
* HSLA
* `hsla\((-?[\d.]+),\s*([\d.]+)%,\s*([\d.]+)%,\s*([\d.]+)\)`
* e.g. hsla(200, 20%, 50%, 0.5)
* Color name
* Options are listed in [SkParseColor.cpp](https://source.chromium.org/chromium/chromium/src/+/main:third_party/skia/src/utils/SkParseColor.cpp;l=11-152;drc=eea4bf52cb0d55e2a39c828b017c80a5ee054148)
* Similar to CSS Color Module Level 3 keywords, but case-sensitive.
* e.g. `blueviolet` or `red`
Sets the background color of the window. See [Setting `backgroundColor`](browser-window.md#setting-the-backgroundcolor-property).
#### `win.previewFile(path[, displayName])` _macOS_
* `path` string - The absolute path to the file to preview with QuickLook. This
is important as Quick Look uses the file name and file extension on the path
to determine the content type of the file to open.
* `displayName` string (optional) - The name of the file to display on the
Quick Look modal view. This is purely visual and does not affect the content
type of the file. Defaults to `path`.
Uses [Quick Look][quick-look] to preview a file at a given path.
#### `win.closeFilePreview()` _macOS_
Closes the currently open [Quick Look][quick-look] panel.
#### `win.setBounds(bounds[, animate])`
* `bounds` Partial\<[Rectangle](structures/rectangle.md)\>
* `animate` boolean (optional) _macOS_
Resizes and moves the window to the supplied bounds. Any properties that are not supplied will default to their current values.
```js
const { BaseWindow } = require('electron')
const win = new BaseWindow()
// set all bounds properties
win.setBounds({ x: 440, y: 225, width: 800, height: 600 })
// set a single bounds property
win.setBounds({ width: 100 })
// { x: 440, y: 225, width: 100, height: 600 }
console.log(win.getBounds())
```
**Note:** On macOS, the y-coordinate value cannot be smaller than the [Tray](tray.md) height. The tray height has changed over time and depends on the operating system, but is between 20-40px. Passing a value lower than the tray height will result in a window that is flush to the tray.
#### `win.getBounds()`
Returns [`Rectangle`](structures/rectangle.md) - The `bounds` of the window as `Object`.
**Note:** On macOS, the y-coordinate value returned will be at minimum the [Tray](tray.md) height. For example, calling `win.setBounds({ x: 25, y: 20, width: 800, height: 600 })` with a tray height of 38 means that `win.getBounds()` will return `{ x: 25, y: 38, width: 800, height: 600 }`.
#### `win.getBackgroundColor()`
Returns `string` - Gets the background color of the window in Hex (`#RRGGBB`) format.
See [Setting `backgroundColor`](browser-window.md#setting-the-backgroundcolor-property).
**Note:** The alpha value is _not_ returned alongside the red, green, and blue values.
#### `win.setContentBounds(bounds[, animate])`
* `bounds` [Rectangle](structures/rectangle.md)
* `animate` boolean (optional) _macOS_
Resizes and moves the window's client area (e.g. the web page) to
the supplied bounds.
#### `win.getContentBounds()`
Returns [`Rectangle`](structures/rectangle.md) - The `bounds` of the window's client area as `Object`.
#### `win.getNormalBounds()`
Returns [`Rectangle`](structures/rectangle.md) - Contains the window bounds of the normal state
**Note:** whatever the current state of the window : maximized, minimized or in fullscreen, this function always returns the position and size of the window in normal state. In normal state, getBounds and getNormalBounds returns the same [`Rectangle`](structures/rectangle.md).
#### `win.setEnabled(enable)`
* `enable` boolean
Disable or enable the window.
#### `win.isEnabled()`
Returns `boolean` - whether the window is enabled.
#### `win.setSize(width, height[, animate])`
* `width` Integer
* `height` Integer
* `animate` boolean (optional) _macOS_
Resizes the window to `width` and `height`. If `width` or `height` are below any set minimum size constraints the window will snap to its minimum size.
#### `win.getSize()`
Returns `Integer[]` - Contains the window's width and height.
#### `win.setContentSize(width, height[, animate])`
* `width` Integer
* `height` Integer
* `animate` boolean (optional) _macOS_
Resizes the window's client area (e.g. the web page) to `width` and `height`.
#### `win.getContentSize()`
Returns `Integer[]` - Contains the window's client area's width and height.
#### `win.setMinimumSize(width, height)`
* `width` Integer
* `height` Integer
Sets the minimum size of window to `width` and `height`.
#### `win.getMinimumSize()`
Returns `Integer[]` - Contains the window's minimum width and height.
#### `win.setMaximumSize(width, height)`
* `width` Integer
* `height` Integer
Sets the maximum size of window to `width` and `height`.
#### `win.getMaximumSize()`
Returns `Integer[]` - Contains the window's maximum width and height.
#### `win.setResizable(resizable)`
* `resizable` boolean
Sets whether the window can be manually resized by the user.
#### `win.isResizable()`
Returns `boolean` - Whether the window can be manually resized by the user.
#### `win.setMovable(movable)` _macOS_ _Windows_
* `movable` boolean
Sets whether the window can be moved by user. On Linux does nothing.
#### `win.isMovable()` _macOS_ _Windows_
Returns `boolean` - Whether the window can be moved by user.
On Linux always returns `true`.
#### `win.setMinimizable(minimizable)` _macOS_ _Windows_
* `minimizable` boolean
Sets whether the window can be manually minimized by user. On Linux does nothing.
#### `win.isMinimizable()` _macOS_ _Windows_
Returns `boolean` - Whether the window can be manually minimized by the user.
On Linux always returns `true`.
#### `win.setMaximizable(maximizable)` _macOS_ _Windows_
* `maximizable` boolean
Sets whether the window can be manually maximized by user. On Linux does nothing.
#### `win.isMaximizable()` _macOS_ _Windows_
Returns `boolean` - Whether the window can be manually maximized by user.
On Linux always returns `true`.
#### `win.setFullScreenable(fullscreenable)`
* `fullscreenable` boolean
Sets whether the maximize/zoom window button toggles fullscreen mode or maximizes the window.
#### `win.isFullScreenable()`
Returns `boolean` - Whether the maximize/zoom window button toggles fullscreen mode or maximizes the window.
#### `win.setClosable(closable)` _macOS_ _Windows_
* `closable` boolean
Sets whether the window can be manually closed by user. On Linux does nothing.
#### `win.isClosable()` _macOS_ _Windows_
Returns `boolean` - Whether the window can be manually closed by user.
On Linux always returns `true`.
#### `win.setHiddenInMissionControl(hidden)` _macOS_
* `hidden` boolean
Sets whether the window will be hidden when the user toggles into mission control.
#### `win.isHiddenInMissionControl()` _macOS_
Returns `boolean` - Whether the window will be hidden when the user toggles into mission control.
#### `win.setAlwaysOnTop(flag[, level][, relativeLevel])`
* `flag` boolean
* `level` string (optional) _macOS_ _Windows_ - Values include `normal`,
`floating`, `torn-off-menu`, `modal-panel`, `main-menu`, `status`,
`pop-up-menu`, `screen-saver`, and ~~`dock`~~ (Deprecated). The default is
`floating` when `flag` is true. The `level` is reset to `normal` when the
flag is false. Note that from `floating` to `status` included, the window is
placed below the Dock on macOS and below the taskbar on Windows. From
`pop-up-menu` to a higher it is shown above the Dock on macOS and above the
taskbar on Windows. See the [macOS docs][window-levels] for more details.
* `relativeLevel` Integer (optional) _macOS_ - The number of layers higher to set
this window relative to the given `level`. The default is `0`. Note that Apple
discourages setting levels higher than 1 above `screen-saver`.
Sets whether the window should show always on top of other windows. After
setting this, the window is still a normal window, not a toolbox window which
can not be focused on.
#### `win.isAlwaysOnTop()`
Returns `boolean` - Whether the window is always on top of other windows.
#### `win.moveAbove(mediaSourceId)`
* `mediaSourceId` string - Window id in the format of DesktopCapturerSource's id. For example "window:1869:0".
Moves window above the source window in the sense of z-order. If the
`mediaSourceId` is not of type window or if the window does not exist then
this method throws an error.
#### `win.moveTop()`
Moves window to top(z-order) regardless of focus
#### `win.center()`
Moves window to the center of the screen.
#### `win.setPosition(x, y[, animate])`
* `x` Integer
* `y` Integer
* `animate` boolean (optional) _macOS_
Moves window to `x` and `y`.
#### `win.getPosition()`
Returns `Integer[]` - Contains the window's current position.
#### `win.setTitle(title)`
* `title` string
Changes the title of native window to `title`.
#### `win.getTitle()`
Returns `string` - The title of the native window.
**Note:** The title of the web page can be different from the title of the native
window.
#### `win.setSheetOffset(offsetY[, offsetX])` _macOS_
* `offsetY` Float
* `offsetX` Float (optional)
Changes the attachment point for sheets on macOS. By default, sheets are
attached just below the window frame, but you may want to display them beneath
a HTML-rendered toolbar. For example:
```js
const { BaseWindow } = require('electron')
const win = new BaseWindow()
const toolbarRect = document.getElementById('toolbar').getBoundingClientRect()
win.setSheetOffset(toolbarRect.height)
```
#### `win.flashFrame(flag)`
<!--
```YAML history
added:
- pr-url: https://github.com/electron/electron/pull/35658
changes:
- pr-url: https://github.com/electron/electron/pull/41391
description: "`window.flashFrame(bool)` will flash dock icon continuously on macOS"
breaking-changes-header: behavior-changed-windowflashframebool-will-flash-dock-icon-continuously-on-macos
```
-->
* `flag` boolean
Starts or stops flashing the window to attract user's attention.
#### `win.setSkipTaskbar(skip)` _macOS_ _Windows_
* `skip` boolean
Makes the window not show in the taskbar.
#### `win.setKiosk(flag)`
* `flag` boolean
Enters or leaves kiosk mode.
#### `win.isKiosk()`
Returns `boolean` - Whether the window is in kiosk mode.
#### `win.isTabletMode()` _Windows_
Returns `boolean` - Whether the window is in Windows 10 tablet mode.
Since Windows 10 users can [use their PC as tablet](https://support.microsoft.com/en-us/help/17210/windows-10-use-your-pc-like-a-tablet),
under this mode apps can choose to optimize their UI for tablets, such as
enlarging the titlebar and hiding titlebar buttons.
This API returns whether the window is in tablet mode, and the `resize` event
can be be used to listen to changes to tablet mode.
#### `win.getMediaSourceId()`
Returns `string` - Window id in the format of DesktopCapturerSource's id. For example "window:1324:0".
More precisely the format is `window:id:other_id` where `id` is `HWND` on
Windows, `CGWindowID` (`uint64_t`) on macOS and `Window` (`unsigned long`) on
Linux. `other_id` is used to identify web contents (tabs) so within the same
top level window.
#### `win.getNativeWindowHandle()`
Returns `Buffer` - The platform-specific handle of the window.
The native type of the handle is `HWND` on Windows, `NSView*` on macOS, and
`Window` (`unsigned long`) on Linux.
#### `win.hookWindowMessage(message, callback)` _Windows_
* `message` Integer
* `callback` Function
* `wParam` Buffer - The `wParam` provided to the WndProc
* `lParam` Buffer - The `lParam` provided to the WndProc
Hooks a windows message. The `callback` is called when
the message is received in the WndProc.
#### `win.isWindowMessageHooked(message)` _Windows_
* `message` Integer
Returns `boolean` - `true` or `false` depending on whether the message is hooked.
#### `win.unhookWindowMessage(message)` _Windows_
* `message` Integer
Unhook the window message.
#### `win.unhookAllWindowMessages()` _Windows_
Unhooks all of the window messages.
#### `win.setRepresentedFilename(filename)` _macOS_
* `filename` string
Sets the pathname of the file the window represents, and the icon of the file
will show in window's title bar.
#### `win.getRepresentedFilename()` _macOS_
Returns `string` - The pathname of the file the window represents.
#### `win.setDocumentEdited(edited)` _macOS_
* `edited` boolean
Specifies whether the windows document has been edited, and the icon in title
bar will become gray when set to `true`.
#### `win.isDocumentEdited()` _macOS_
Returns `boolean` - Whether the window's document has been edited.
#### `win.setMenu(menu)` _Linux_ _Windows_
* `menu` Menu | null
Sets the `menu` as the window's menu bar.
#### `win.removeMenu()` _Linux_ _Windows_
Remove the window's menu bar.
#### `win.setProgressBar(progress[, options])`
* `progress` Double
* `options` Object (optional)
* `mode` string _Windows_ - Mode for the progress bar. Can be `none`, `normal`, `indeterminate`, `error` or `paused`.
Sets progress value in progress bar. Valid range is \[0, 1.0].
Remove progress bar when progress < 0;
Change to indeterminate mode when progress > 1.
On Linux platform, only supports Unity desktop environment, you need to specify
the `*.desktop` file name to `desktopName` field in `package.json`. By default,
it will assume `{app.name}.desktop`.
On Windows, a mode can be passed. Accepted values are `none`, `normal`,
`indeterminate`, `error`, and `paused`. If you call `setProgressBar` without a
mode set (but with a value within the valid range), `normal` will be assumed.
#### `win.setOverlayIcon(overlay, description)` _Windows_
* `overlay` [NativeImage](native-image.md) | null - the icon to display on the bottom
right corner of the taskbar icon. If this parameter is `null`, the overlay is
cleared
* `description` string - a description that will be provided to Accessibility
screen readers
Sets a 16 x 16 pixel overlay onto the current taskbar icon, usually used to
convey some sort of application status or to passively notify the user.
#### `win.invalidateShadow()` _macOS_
Invalidates the window shadow so that it is recomputed based on the current window shape.
`BaseWindow`s that are transparent can sometimes leave behind visual artifacts on macOS.
This method can be used to clear these artifacts when, for example, performing an animation.
#### `win.setHasShadow(hasShadow)`
* `hasShadow` boolean
Sets whether the window should have a shadow.
#### `win.hasShadow()`
Returns `boolean` - Whether the window has a shadow.
#### `win.setOpacity(opacity)` _Windows_ _macOS_
* `opacity` number - between 0.0 (fully transparent) and 1.0 (fully opaque)
Sets the opacity of the window. On Linux, does nothing. Out of bound number
values are clamped to the \[0, 1] range.
#### `win.getOpacity()`
Returns `number` - between 0.0 (fully transparent) and 1.0 (fully opaque). On
Linux, always returns 1.
#### `win.setShape(rects)` _Windows_ _Linux_ _Experimental_
* `rects` [Rectangle[]](structures/rectangle.md) - Sets a shape on the window.
Passing an empty list reverts the window to being rectangular.
Setting a window shape determines the area within the window where the system
permits drawing and user interaction. Outside of the given region, no pixels
will be drawn and no mouse events will be registered. Mouse events outside of
the region will not be received by that window, but will fall through to
whatever is behind the window.
#### `win.setThumbarButtons(buttons)` _Windows_
* `buttons` [ThumbarButton[]](structures/thumbar-button.md)
Returns `boolean` - Whether the buttons were added successfully
Add a thumbnail toolbar with a specified set of buttons to the thumbnail image
of a window in a taskbar button layout. Returns a `boolean` object indicates
whether the thumbnail has been added successfully.
The number of buttons in thumbnail toolbar should be no greater than 7 due to
the limited room. Once you setup the thumbnail toolbar, the toolbar cannot be
removed due to the platform's limitation. But you can call the API with an empty
array to clean the buttons.
The `buttons` is an array of `Button` objects:
* `Button` Object
* `icon` [NativeImage](native-image.md) - The icon showing in thumbnail
toolbar.
* `click` Function
* `tooltip` string (optional) - The text of the button's tooltip.
* `flags` string[] (optional) - Control specific states and behaviors of the
button. By default, it is `['enabled']`.
The `flags` is an array that can include following `string`s:
* `enabled` - The button is active and available to the user.
* `disabled` - The button is disabled. It is present, but has a visual state
indicating it will not respond to user action.
* `dismissonclick` - When the button is clicked, the thumbnail window closes
immediately.
* `nobackground` - Do not draw a button border, use only the image.
* `hidden` - The button is not shown to the user.
* `noninteractive` - The button is enabled but not interactive; no pressed
button state is drawn. This value is intended for instances where the button
is used in a notification.
#### `win.setThumbnailClip(region)` _Windows_
* `region` [Rectangle](structures/rectangle.md) - Region of the window
Sets the region of the window to show as the thumbnail image displayed when
hovering over the window in the taskbar. You can reset the thumbnail to be
the entire window by specifying an empty region:
`{ x: 0, y: 0, width: 0, height: 0 }`.
#### `win.setThumbnailToolTip(toolTip)` _Windows_
* `toolTip` string
Sets the toolTip that is displayed when hovering over the window thumbnail
in the taskbar.
#### `win.setAppDetails(options)` _Windows_
* `options` Object
* `appId` string (optional) - Window's [App User Model ID](https://learn.microsoft.com/en-us/windows/win32/shell/appids).
It has to be set, otherwise the other options will have no effect.
* `appIconPath` string (optional) - Window's [Relaunch Icon](https://learn.microsoft.com/en-us/windows/win32/properties/props-system-appusermodel-relaunchiconresource).
* `appIconIndex` Integer (optional) - Index of the icon in `appIconPath`.
Ignored when `appIconPath` is not set. Default is `0`.
* `relaunchCommand` string (optional) - Window's [Relaunch Command](https://learn.microsoft.com/en-us/windows/win32/properties/props-system-appusermodel-relaunchcommand).
* `relaunchDisplayName` string (optional) - Window's [Relaunch Display Name](https://learn.microsoft.com/en-us/windows/win32/properties/props-system-appusermodel-relaunchdisplaynameresource).
Sets the properties for the window's taskbar button.
**Note:** `relaunchCommand` and `relaunchDisplayName` must always be set
together. If one of those properties is not set, then neither will be used.
#### `win.setIcon(icon)` _Windows_ _Linux_
* `icon` [NativeImage](native-image.md) | string
Changes window icon.
#### `win.setWindowButtonVisibility(visible)` _macOS_
* `visible` boolean
Sets whether the window traffic light buttons should be visible.
#### `win.setAutoHideMenuBar(hide)` _Windows_ _Linux_
* `hide` boolean
Sets whether the window menu bar should hide itself automatically. Once set the
menu bar will only show when users press the single `Alt` key.
If the menu bar is already visible, calling `setAutoHideMenuBar(true)` won't hide it immediately.
#### `win.isMenuBarAutoHide()` _Windows_ _Linux_
Returns `boolean` - Whether menu bar automatically hides itself.
#### `win.setMenuBarVisibility(visible)` _Windows_ _Linux_
* `visible` boolean
Sets whether the menu bar should be visible. If the menu bar is auto-hide, users can still bring up the menu bar by pressing the single `Alt` key.
#### `win.isMenuBarVisible()` _Windows_ _Linux_
Returns `boolean` - Whether the menu bar is visible.
#### `win.setVisibleOnAllWorkspaces(visible[, options])` _macOS_ _Linux_
* `visible` boolean
* `options` Object (optional)
* `visibleOnFullScreen` boolean (optional) _macOS_ - Sets whether
the window should be visible above fullscreen windows.
* `skipTransformProcessType` boolean (optional) _macOS_ - Calling
setVisibleOnAllWorkspaces will by default transform the process
type between UIElementApplication and ForegroundApplication to
ensure the correct behavior. However, this will hide the window
and dock for a short time every time it is called. If your window
is already of type UIElementApplication, you can bypass this
transformation by passing true to skipTransformProcessType.
Sets whether the window should be visible on all workspaces.
**Note:** This API does nothing on Windows.
#### `win.isVisibleOnAllWorkspaces()` _macOS_ _Linux_
Returns `boolean` - Whether the window is visible on all workspaces.
**Note:** This API always returns false on Windows.
#### `win.setIgnoreMouseEvents(ignore[, options])`
* `ignore` boolean
* `options` Object (optional)
* `forward` boolean (optional) _macOS_ _Windows_ - If true, forwards mouse move
messages to Chromium, enabling mouse related events such as `mouseleave`.
Only used when `ignore` is true. If `ignore` is false, forwarding is always
disabled regardless of this value.
Makes the window ignore all mouse events.
All mouse events happened in this window will be passed to the window below
this window, but if this window has focus, it will still receive keyboard
events.
#### `win.setContentProtection(enable)` _macOS_ _Windows_
* `enable` boolean
Prevents the window contents from being captured by other apps.
On macOS it sets the NSWindow's sharingType to NSWindowSharingNone.
On Windows it calls SetWindowDisplayAffinity with `WDA_EXCLUDEFROMCAPTURE`.
For Windows 10 version 2004 and up the window will be removed from capture entirely,
older Windows versions behave as if `WDA_MONITOR` is applied capturing a black window.
#### `win.setFocusable(focusable)` _macOS_ _Windows_
* `focusable` boolean
Changes whether the window can be focused.
On macOS it does not remove the focus from the window.
#### `win.isFocusable()` _macOS_ _Windows_
Returns `boolean` - Whether the window can be focused.
#### `win.setParentWindow(parent)`
* `parent` BaseWindow | null
Sets `parent` as current window's parent window, passing `null` will turn
current window into a top-level window.
#### `win.getParentWindow()`
Returns `BaseWindow | null` - The parent window or `null` if there is no parent.
#### `win.getChildWindows()`
Returns `BaseWindow[]` - All child windows.
#### `win.setAutoHideCursor(autoHide)` _macOS_
* `autoHide` boolean
Controls whether to hide cursor when typing.
#### `win.selectPreviousTab()` _macOS_
Selects the previous tab when native tabs are enabled and there are other
tabs in the window.
#### `win.selectNextTab()` _macOS_
Selects the next tab when native tabs are enabled and there are other
tabs in the window.
#### `win.showAllTabs()` _macOS_
Shows or hides the tab overview when native tabs are enabled.
#### `win.mergeAllWindows()` _macOS_
Merges all windows into one window with multiple tabs when native tabs
are enabled and there is more than one open window.
#### `win.moveTabToNewWindow()` _macOS_
Moves the current tab into a new window if native tabs are enabled and
there is more than one tab in the current window.
#### `win.toggleTabBar()` _macOS_
Toggles the visibility of the tab bar if native tabs are enabled and
there is only one tab in the current window.
#### `win.addTabbedWindow(baseWindow)` _macOS_
* `baseWindow` BaseWindow
Adds a window as a tab on this window, after the tab for the window instance.
#### `win.setVibrancy(type)` _macOS_
* `type` string | null - Can be `titlebar`, `selection`, `menu`, `popover`, `sidebar`, `header`, `sheet`, `window`, `hud`, `fullscreen-ui`, `tooltip`, `content`, `under-window`, or `under-page`. See
the [macOS documentation][vibrancy-docs] for more details.
Adds a vibrancy effect to the window. Passing `null` or an empty string
will remove the vibrancy effect on the window.
#### `win.setBackgroundMaterial(material)` _Windows_
* `material` string
* `auto` - Let the Desktop Window Manager (DWM) automatically decide the system-drawn backdrop material for this window. This is the default.
* `none` - Don't draw any system backdrop.
* `mica` - Draw the backdrop material effect corresponding to a long-lived window.
* `acrylic` - Draw the backdrop material effect corresponding to a transient window.
* `tabbed` - Draw the backdrop material effect corresponding to a window with a tabbed title bar.
This method sets the browser window's system-drawn background material, including behind the non-client area.
See the [Windows documentation](https://learn.microsoft.com/en-us/windows/win32/api/dwmapi/ne-dwmapi-dwm_systembackdrop_type) for more details.
**Note:** This method is only supported on Windows 11 22H2 and up.
#### `win.setWindowButtonPosition(position)` _macOS_
* `position` [Point](structures/point.md) | null
Set a custom position for the traffic light buttons in frameless window.
Passing `null` will reset the position to default.
#### `win.getWindowButtonPosition()` _macOS_
Returns `Point | null` - The custom position for the traffic light buttons in
frameless window, `null` will be returned when there is no custom position.
#### `win.setTouchBar(touchBar)` _macOS_
* `touchBar` TouchBar | null
Sets the touchBar layout for the current window. Specifying `null` or
`undefined` clears the touch bar. This method only has an effect if the
machine has a touch bar.
**Note:** The TouchBar API is currently experimental and may change or be
removed in future Electron releases.
#### `win.setTitleBarOverlay(options)` _Windows_ _Linux_
* `options` Object
* `color` String (optional) - The CSS color of the Window Controls Overlay when enabled.
* `symbolColor` String (optional) - The CSS color of the symbols on the Window Controls Overlay when enabled.
* `height` Integer (optional) - The height of the title bar and Window Controls Overlay in pixels.
On a Window with Window Controls Overlay already enabled, this method updates the style of the title bar overlay.
On Linux, the `symbolColor` is automatically calculated to have minimum accessible contrast to the `color` if not explicitly set.
[quick-look]: https://en.wikipedia.org/wiki/Quick_Look
[vibrancy-docs]: https://developer.apple.com/documentation/appkit/nsvisualeffectview?preferredLanguage=objc
[window-levels]: https://developer.apple.com/documentation/appkit/nswindow/level
[event-emitter]: https://nodejs.org/api/events.html#events_class_eventemitter