i3 - improved tiling WM


This document contains all the information you need to configure and use the i3 window manager. If it does not, please check http://faq.i3wm.org/ first, then contact us on IRC (preferred) or post your question(s) on the mailing list.

1. Default keybindings

For the "too long; didn’t read" people, here is an overview of the default keybindings (click to see the full size image):

Keys to use with $mod (Alt):

Keys to use with Shift+$mod:

The red keys are the modifiers you need to press (by default), the blue keys are your homerow.

2. Using i3

Throughout this guide, the keyword $mod will be used to refer to the configured modifier. This is the Alt key (Mod1) by default, with the Windows key (Mod4) being a popular alternative.

2.1. Opening terminals and moving around

One very basic operation is opening a new terminal. By default, the keybinding for this is $mod+Enter, that is Alt+Enter in the default configuration. By pressing $mod+Enter, a new terminal will be opened. It will fill the whole space available on your screen.

Single terminal

If you now open another terminal, i3 will place it next to the current one, splitting the screen size in half. Depending on your monitor, i3 will put the created window beside the existing window (on wide displays) or below the existing window (rotated displays).

Two terminals

To move the focus between the two terminals, you can use the direction keys which you may know from the editor vi. However, in i3, your homerow is used for these keys (in vi, the keys are shifted to the left by one for compatibility with most keyboard layouts). Therefore, $mod+J is left, $mod+K is down, $mod+L is up and $mod+; is right. So, to switch between the terminals, use $mod+K or $mod+L. Of course, you can also use the arrow keys.

At the moment, your workspace is split (it contains two terminals) in a specific direction (horizontal by default). Every window can be split horizontally or vertically again, just like the workspace. The terminology is "window" for a container that actually contains an X11 window (like a terminal or browser) and "split container" for containers that consist of one or more windows.

TODO: picture of the tree

To split a window vertically, press $mod+v before you create the new window. To split it horizontally, press $mod+h.

2.2. Changing the container layout

A split container can have one of the following layouts:

splith/splitv

Windows are sized so that every window gets an equal amount of space in the container. splith distributes the windows horizontally (windows are right next to each other), splitv distributes them vertically (windows are on top of each other).

stacking

Only the focused window in the container is displayed. You get a list of windows at the top of the container.

tabbed

The same principle as stacking, but the list of windows at the top is only a single line which is vertically split.

To switch modes, press $mod+e for splith/splitv (it toggles), $mod+s for stacking and $mod+w for tabbed.

Container modes

2.3. Toggling fullscreen mode for a window

To display a window in fullscreen mode or to go out of fullscreen mode again, press $mod+f.

There is also a global fullscreen mode in i3 in which the client will span all available outputs (the command is fullscreen global).

2.4. Opening other applications

Aside from opening applications from a terminal, you can also use the handy dmenu which is opened by pressing $mod+d by default. Just type the name (or a part of it) of the application which you want to open. The corresponding application has to be in your $PATH for this to work.

Additionally, if you have applications you open very frequently, you can create a keybinding for starting the application directly. See the section [configuring] for details.

2.5. Closing windows

If an application does not provide a mechanism for closing (most applications provide a menu, the escape key or a shortcut like Control+W to close), you can press $mod+Shift+q to kill a window. For applications which support the WM_DELETE protocol, this will correctly close the application (saving any modifications or doing other cleanup). If the application doesn’t support the WM_DELETE protocol your X server will kill the window and the behaviour depends on the application.

2.6. Using workspaces

Workspaces are an easy way to group a set of windows. By default, you are on the first workspace, as the bar on the bottom left indicates. To switch to another workspace, press $mod+num where num is the number of the workspace you want to use. If the workspace does not exist yet, it will be created.

A common paradigm is to put the web browser on one workspace, communication applications (mutt, irssi, …) on another one, and the ones with which you work, on the third one. Of course, there is no need to follow this approach.

If you have multiple screens, a workspace will be created on each screen at startup. If you open a new workspace, it will be bound to the screen you created it on. When you switch to a workspace on another screen, i3 will set focus to that screen.

2.7. Moving windows to workspaces

To move a window to another workspace, simply press $mod+Shift+num where num is (like when switching workspaces) the number of the target workspace. Similarly to switching workspaces, the target workspace will be created if it does not yet exist.

2.8. Resizing

The easiest way to resize a container is by using the mouse: Grab the border and move it to the wanted size.

See [resizingconfig] for how to configure i3 to be able to resize columns/rows with your keyboard.

2.9. Restarting i3 inplace

To restart i3 in place (and thus get into a clean state if there is a bug, or to upgrade to a newer version of i3) you can use $mod+Shift+r.

2.10. Exiting i3

To cleanly exit i3 without killing your X server, you can use $mod+Shift+e.

2.11. Floating

Floating mode is the opposite of tiling mode. The position and size of a window are not managed automatically by i3, but manually by you. Using this mode violates the tiling paradigm but can be useful for some corner cases like "Save as" dialog windows, or toolbar windows (GIMP or similar). Those windows usually set the appropriate hint and are opened in floating mode by default.

You can toggle floating mode for a window by pressing $mod+Shift+Space. By dragging the window’s titlebar with your mouse you can move the window around. By grabbing the borders and moving them you can resize the window. You can also do that by using the [floating_modifier].

For resizing floating windows with your keyboard, see [resizingconfig].

Floating windows are always on top of tiling windows.

3. Tree

i3 stores all information about the X11 outputs, workspaces and layout of the windows on them in a tree. The root node is the X11 root window, followed by the X11 outputs, then dock areas and a content container, then workspaces and finally the windows themselves. In previous versions of i3 we had multiple lists (of outputs, workspaces) and a table for each workspace. That approach turned out to be complicated to use (snapping), understand and implement.

3.1. The tree consists of Containers

The building blocks of our tree are so called Containers. A Container can host a window (meaning an X11 window, one that you can actually see and use, like a browser). Alternatively, it could contain one or more Containers. A simple example is the workspace: When you start i3 with a single monitor, a single workspace and you open two terminal windows, you will end up with a tree like this:

layout2
shot4
Figure 1. Two terminals on standard workspace

3.2. Orientation and Split Containers

It is only natural to use so-called Split Containers in order to build a layout when using a tree as data structure. In i3, every Container has an orientation (horizontal, vertical or unspecified) and the orientation depends on the layout the container is in (vertical for splitv and stacking, horizontal for splith and tabbed). So, in our example with the workspace, the default layout of the workspace Container is splith (most monitors are widescreen nowadays). If you change the layout to splitv ($mod+l in the default config) and then open two terminals, i3 will configure your windows like this:

shot2
Figure 2. Vertical Workspace Orientation

An interesting new feature of i3 since version 4 is the ability to split anything: Let’s assume you have two terminals on a workspace (with splith layout, that is horizontal orientation), focus is on the right terminal. Now you want to open another terminal window below the current one. If you would just open a new terminal window, it would show up to the right due to the splith layout. Instead, press $mod+v to split the container with the splitv layout (to open a Horizontal Split Container, use $mod+h). Now you can open a new terminal and it will open below the current one:

Layout
shot
Figure 3. Vertical Split Container

You probably guessed it already: There is no limit on how deep your hierarchy of splits can be.

3.3. Focus parent

Let’s stay with our example from above. We have a terminal on the left and two vertically split terminals on the right, focus is on the bottom right one. When you open a new terminal, it will open below the current one.

So, how can you open a new terminal window to the right of the current one? The solution is to use focus parent, which will focus the Parent Container of the current Container. In this case, you would focus the Vertical Split Container which is inside the horizontally oriented workspace. Thus, now new windows will be opened to the right of the Vertical Split Container:

shot3
Figure 4. Focus parent, then open new terminal

3.4. Implicit containers

In some cases, i3 needs to implicitly create a container to fulfill your command.

One example is the following scenario: You start i3 with a single monitor and a single workspace on which you open three terminal windows. All these terminal windows are directly attached to one node inside i3’s layout tree, the workspace node. By default, the workspace node’s orientation is horizontal.

Now you move one of these terminals down ($mod+k by default). The workspace node’s orientation will be changed to vertical. The terminal window you moved down is directly attached to the workspace and appears on the bottom of the screen. A new (horizontal) container was created to accommodate the other two terminal windows. You will notice this when switching to tabbed mode (for example). You would end up having one tab called "another container" and the other one being the terminal window you moved down.

4. Configuring i3

This is where the real fun begins ;-). Most things are very dependent on your ideal working environment so we can’t make reasonable defaults for them.

While not using a programming language for the configuration, i3 stays quite flexible in regards to the things you usually want your window manager to do.

For example, you can configure bindings to jump to specific windows, you can set specific applications to start on specific workspaces, you can automatically start applications, you can change the colors of i3, and you can bind your keys to do useful things.

To change the configuration of i3, copy /etc/i3/config to ~/.i3/config (or ~/.config/i3/config if you like the XDG directory scheme) and edit it with a text editor.

On first start (and on all following starts, unless you have a configuration file), i3 will offer you to create a configuration file. You can tell the wizard to use either Alt (Mod1) or Windows (Mod4) as modifier in the config file. Also, the created config file will use the key symbols of your current keyboard layout. To start the wizard, use the command i3-config-wizard. Please note that you must not have ~/.i3/config, otherwise the wizard will exit.

4.1. Comments

It is possible and recommended to use comments in your configuration file to properly document your setup for later reference. Comments are started with a # and can only be used at the beginning of a line:

Examples:

# This is a comment

4.2. Fonts

i3 has support for both X core fonts and FreeType fonts (through Pango) to render window titles.

To generate an X core font description, you can use xfontsel(1). To see special characters (Unicode), you need to use a font which supports the ISO-10646 encoding.

A FreeType font description is composed by a font family, a style, a weight, a variant, a stretch and a size. FreeType fonts support right-to-left rendering and contain often more Unicode glyphs than X core fonts.

If i3 cannot open the configured font, it will output an error in the logfile and fall back to a working font.

Syntax:

font <X core font description>
font pango:[family list] [style options] [size]

Examples:

font -misc-fixed-medium-r-normal--13-120-75-75-C-70-iso10646-1
font pango:DejaVu Sans Mono 10
font pango:DejaVu Sans Mono, Terminus Bold Semi-Condensed 11
font pango:Terminus 11px

4.3. Keyboard bindings

A keyboard binding makes i3 execute a command (see below) upon pressing a specific key. i3 allows you to bind either on keycodes or on keysyms (you can also mix your bindings, though i3 will not protect you from overlapping ones).

  • A keysym (key symbol) is a description for a specific symbol, like "a" or "b", but also more strange ones like "underscore" instead of "_". These are the ones you use in Xmodmap to remap your keys. To get the current mapping of your keys, use xmodmap -pke. To interactively enter a key and see what keysym it is configured to, use xev.

  • Keycodes do not need to have a symbol assigned (handy for custom vendor hotkeys on some notebooks) and they will not change their meaning as you switch to a different keyboard layout (when using xmodmap).

My recommendation is: If you often switch keyboard layouts but you want to keep your bindings in the same physical location on the keyboard, use keycodes. If you don’t switch layouts, and want a clean and simple config file, use keysyms.

Some tools (such as import or xdotool) might be unable to run upon a KeyPress event, because the keyboard/pointer is still grabbed. For these situations, the --release flag can be used, which will execute the command after the keys have been released.

Syntax:

bindsym [--release] [Modifiers+]keysym command
bindcode [--release] [Modifiers+]keycode command

Examples:

# Fullscreen
bindsym $mod+f fullscreen

# Restart
bindsym $mod+Shift+r restart

# Notebook-specific hotkeys
bindcode 214 exec --no-startup-id /home/michael/toggle_beamer.sh

# Simulate ctrl+v upon pressing $mod+x
bindsym --release $mod+x exec --no-startup-id xdotool key --clearmodifiers ctrl+v

# Take a screenshot upon pressing $mod+x (select an area)
bindsym --release $mod+x exec --no-startup-id import /tmp/latest-screenshot.png

Available Modifiers:

Mod1-Mod5, Shift, Control

Standard modifiers, see xmodmap(1)

Mode_switch

Unlike other window managers, i3 can use Mode_switch as a modifier. This allows you to remap capslock (for example) to Mode_switch and use it for both: typing umlauts or special characters and having some comfortably reachable key bindings. For example, when typing, capslock+1 or capslock+2 for switching workspaces is totally convenient. Try it :-).

4.4. The floating modifier

To move floating windows with your mouse, you can either grab their titlebar or configure the so called floating modifier which you can then press and click anywhere in the window itself to move it. The most common setup is to use the same key you use for managing windows (Mod1 for example). Then you can press Mod1, click into a window using your left mouse button, and drag it to the position you want.

When holding the floating modifier, you can resize a floating window by pressing the right mouse button on it and moving around while holding it. If you hold the shift button as well, the resize will be proportional (the aspect ratio will be preserved).

Syntax:

floating_modifier <Modifiers>

Example:

floating_modifier Mod1

4.5. Constraining floating window size

The maximum and minimum dimensions of floating windows can be specified. If either dimension of floating_maximum_size is specified as -1, that dimension will be unconstrained with respect to its maximum value. If either dimension of floating_maximum_size is undefined, or specified as 0, i3 will use a default value to constrain the maximum size. floating_minimum_size is treated in a manner analogous to floating_maximum_size.

Syntax:

floating_minimum_size <width> x <height>
floating_maximum_size <width> x <height>

Example:

floating_minimum_size 75 x 50
floating_maximum_size -1 x -1

4.6. Orientation for new workspaces

New workspaces get a reasonable default orientation: Wide-screen monitors (anything wider than high) get horizontal orientation, rotated monitors (anything higher than wide) get vertical orientation.

With the default_orientation configuration directive, you can override that behavior.

Syntax:

default_orientation <horizontal|vertical|auto>

Example:

default_orientation vertical

4.7. Layout mode for new containers

This option determines in which mode new containers on workspace level will start.

Syntax:

workspace_layout <default|stacking|tabbed>

Example:

workspace_layout tabbed

4.8. Border style for new windows

This option determines which border style new windows will have. The default is "normal". Note that new_float applies only to windows which are starting out as floating windows, e.g. dialog windows.

Syntax:

new_window <normal|1pixel|none|pixel>
new_float <normal|1pixel|none|pixel>

Example:

new_window 1pixel

The "normal" and "pixel" border styles support an optional border width in pixels:

Example:

# The same as new_window none
new_window pixel 0

# A 3 px border
new_window pixel 3

4.9. Hiding vertical borders

You can hide vertical borders adjacent to the screen edges using hide_edge_borders. This is useful if you are using scrollbars, or do not want to waste even two pixels in displayspace. Default is none.

Syntax:

hide_edge_borders <none|vertical|horizontal|both>

Example:

hide_edge_borders vertical

4.10. Arbitrary commands for specific windows (for_window)

With the for_window command, you can let i3 execute any command when it encounters a specific window. This can be used to set windows to floating or to change their border style, for example.

Syntax:

for_window <criteria> command

Examples:

# enable floating mode for all XTerm windows
for_window [class="XTerm"] floating enable

# Make all urxvts use a 1-pixel border:
for_window [class="urxvt"] border 1pixel

# A less useful, but rather funny example:
# makes the window floating as soon as I change
# directory to ~/work
for_window [title="x200: ~/work"] floating enable

The valid criteria are the same as those for commands, see [command_criteria].

4.11. Variables

As you learned in the section about keyboard bindings, you will have to configure lots of bindings containing modifier keys. If you want to save yourself some typing and be able to change the modifier you use later, variables can be handy.

Syntax:

set $name value

Example:

set $m Mod1
bindsym $m+Shift+r restart

Variables are directly replaced in the file when parsing. Variables expansion is not recursive so it is not possible to define a variable with a value containing another variable. There is no fancy handling and there are absolutely no plans to change this. If you need a more dynamic configuration you should create a little script which generates a configuration file and run it before starting i3 (for example in your ~/.xsession file).

4.12. Automatically putting clients on specific workspaces

To automatically make a specific window show up on a specific workspace, you can use an assignment. You can match windows by using any criteria, see [command_criteria]. It is recommended that you match on window classes (and instances, when appropriate) instead of window titles whenever possible because some applications first create their window, and then worry about setting the correct title. Firefox with Vimperator comes to mind. The window starts up being named Firefox, and only when Vimperator is loaded does the title change. As i3 will get the title as soon as the application maps the window (mapping means actually displaying it on the screen), you’d need to have to match on Firefox in this case.

Assignments are processed by i3 in the order in which they appear in the config file. The first one which matches the window wins and later assignments are not considered.

Syntax:

assign <criteria> [→] workspace

Examples:

# Assign URxvt terminals to workspace 2
assign [class="URxvt"] 2

# Same thing, but more precise (exact match instead of substring)
assign [class="^URxvt$"] 2

# Same thing, but with a beautiful arrow :)
assign [class="^URxvt$"] → 2

# Assignment to a named workspace
assign [class="^URxvt$"] → work

# Start urxvt -name irssi
assign [class="^URxvt$" instance="^irssi$"] → 3

Note that the arrow is not required, it just looks good :-). If you decide to use it, it has to be a UTF-8 encoded arrow, not -> or something like that.

To get the class and instance, you can use xprop. After clicking on the window, you will see the following output:

xprop:

WM_CLASS(STRING) = "irssi", "URxvt"

The first part of the WM_CLASS is the instance ("irssi" in this example), the second part is the class ("URxvt" in this example).

Should you have any problems with assignments, make sure to check the i3 logfile first (see http://i3wm.org/docs/debugging.html). It includes more details about the matching process and the window’s actual class, instance and title when starting up.

Note that if you want to start an application just once on a specific workspace, but you don’t want to assign all instances of it permanently, you can make use of i3’s startup-notification support (see [exec]) in your config file in the following way:

Start iceweasel on workspace 3 (once):

# Start iceweasel on workspace 3, then switch back to workspace 1
# (Being a command-line utility, i3-msg does not support startup notifications,
#  hence the exec --no-startup-id.)
# (Starting iceweasel with i3’s exec command is important in order to make i3
#  create a startup notification context, without which the iceweasel window(s)
#  cannot be matched onto the workspace on which the command was started.)
exec --no-startup-id i3-msg 'workspace 3; exec iceweasel; workspace 1'

4.13. Automatically starting applications on i3 startup

By using the exec keyword outside a keybinding, you can configure which commands will be performed by i3 on initial startup. exec commands will not run when restarting i3, if you need a command to run also when restarting i3 you should use the exec_always keyword. These commands will be run in order.

Syntax:

exec [--no-startup-id] command
exec_always [--no-startup-id] command

Examples:

exec chromium
exec_always ~/my_script.sh

# Execute the terminal emulator urxvt, which is not yet startup-notification aware.
exec --no-startup-id urxvt

The flag --no-startup-id is explained in [exec].

4.14. Automatically putting workspaces on specific screens

If you assign clients to workspaces, it might be handy to put the workspaces on specific screens. Also, the assignment of workspaces to screens will determine which workspace i3 uses for a new screen when adding screens or when starting (e.g., by default it will use 1 for the first screen, 2 for the second screen and so on).

Syntax:

workspace <workspace> output <output>

The output is the name of the RandR output you attach your screen to. On a laptop, you might have VGA1 and LVDS1 as output names. You can see the available outputs by running xrandr --current.

If you use named workspaces, they must be quoted:

Examples:

workspace 1 output LVDS1
workspace 5 output VGA1
workspace "2: vim" output VGA1

4.15. Changing colors

You can change all colors which i3 uses to draw the window decorations.

Syntax:

colorclass border background text indicator

Where colorclass can be one of:

client.focused

A client which currently has the focus.

client.focused_inactive

A client which is the focused one of its container, but it does not have the focus at the moment.

client.unfocused

A client which is not the focused one of its container.

client.urgent

A client which has its urgency hint activated.

You can also specify the color to be used to paint the background of the client windows. This color will be used to paint the window on top of which the client will be rendered.

Syntax:

client.background color

Only clients that do not cover the whole area of this window expose the color used to paint it.

Colors are in HTML hex format (#rrggbb), see the following example:

Examples (default colors):

# class                 border  backgr. text    indicator
client.focused          #4c7899 #285577 #ffffff #2e9ef4
client.focused_inactive #333333 #5f676a #ffffff #484e50
client.unfocused        #333333 #222222 #888888 #292d2e
client.urgent           #2f343a #900000 #ffffff #900000

Note that for the window decorations, the color around the child window is the background color, and the border color is only the two thin lines at the top of the window.

The indicator color is used for indicating where a new window will be opened. For horizontal split containers, the right border will be painted in indicator color, for vertical split containers, the bottom border. This only applies to single windows within a split container, which are otherwise indistinguishable from single windows outside of a split container.

4.16. Interprocess communication

i3 uses Unix sockets to provide an IPC interface. This allows third-party programs to get information from i3, such as the current workspaces (to display a workspace bar), and to control i3.

The IPC socket is enabled by default and will be created in /tmp/i3-%u.XXXXXX/ipc-socket.%p where %u is your UNIX username, %p is the PID of i3 and XXXXXX is a string of random characters from the portable filename character set (see mkdtemp(3)).

You can override the default path through the environment-variable I3SOCK or by specifying the ipc-socket directive. This is discouraged, though, since i3 does the right thing by default. If you decide to change it, it is strongly recommended to set this to a location in your home directory so that no other user can create that directory.

Examples:

ipc-socket ~/.i3/i3-ipc.sock

You can then use the i3-msg application to perform any command listed in the next section.

4.17. Focus follows mouse

By default, window focus follows your mouse movements. However, if you have a setup where your mouse usually is in your way (like a touchpad on your laptop which you do not want to disable completely), you might want to disable focus follows mouse and control focus only by using your keyboard. The mouse will still be useful inside the currently active window (for example to click on links in your browser window).

Syntax:

focus_follows_mouse <yes|no>

Example:

focus_follows_mouse no

4.18. Popups during fullscreen mode

When you are in fullscreen mode, some applications still open popup windows (take Xpdf for example). This is because these applications may not be aware that they are in fullscreen mode (they do not check the corresponding hint). There are three things which are possible to do in this situation:

  1. Display the popup if it belongs to the fullscreen application only. This is the default and should be reasonable behavior for most users.

  2. Just ignore the popup (don’t map it). This won’t interrupt you while you are in fullscreen. However, some apps might react badly to this (deadlock until you go out of fullscreen).

  3. Leave fullscreen mode.

Syntax:

popup_during_fullscreen <smart|ignore|leave_fullscreen>

Example:

popup_during_fullscreen smart

4.19. Focus wrapping

When being in a tabbed or stacked container, the first container will be focused when you use focus down on the last container — the focus wraps. If however there is another stacked/tabbed container in that direction, focus will be set on that container. This is the default behavior so you can navigate to all your windows without having to use focus parent.

If you want the focus to always wrap and you are aware of using focus parent to switch to different containers, you can use the force_focus_wrapping configuration directive. After enabling it, the focus will always wrap.

Syntax:

force_focus_wrapping <yes|no>

Example:

force_focus_wrapping yes

4.20. Forcing Xinerama

As explained in-depth in http://i3wm.org/docs/multi-monitor.html, some X11 video drivers (especially the nVidia binary driver) only provide support for Xinerama instead of RandR. In such a situation, i3 must be told to use the inferior Xinerama API explicitly and therefore don’t provide support for reconfiguring your screens on the fly (they are read only once on startup and that’s it).

For people who do cannot modify their ~/.xsession to add the --force-xinerama commandline parameter, a configuration option is provided:

Syntax:

force_xinerama <yes|no>

Example:

force_xinerama yes

Also note that your output names are not descriptive (like HDMI1) when using Xinerama, instead they are counted up, starting at 0: xinerama-0, xinerama-1, …

4.21. Automatic back-and-forth when switching to the current workspace

This configuration directive enables automatic workspace back_and_forth (see [back_and_forth]) when switching to the workspace that is currently focused.

For instance: Assume you are on workspace "1: www" and switch to "2: IM" using mod+2 because somebody sent you a message. You don’t need to remember where you came from now, you can just press $mod+2 again to switch back to "1: www".

Syntax:

workspace_auto_back_and_forth <yes|no>

Example:

workspace_auto_back_and_forth yes

4.22. Delaying urgency hint reset on workspace change

If an application on another workspace sets an urgency hint, switching to this workspace may lead to immediate focus of the application, which also means the window decoration color would be immediately reseted to client.focused. This may make it unnecessarily hard to tell which window originally raised the event.

In order to prevent this, you can tell i3 to delay resetting the urgency state by a certain time using the force_display_urgency_hint directive. Setting the value to 0 disables this feature.

The default is 500ms.

Syntax:

force_display_urgency_hint <timeout> ms

Example:

force_display_urgency_hint 500 ms

5. Configuring i3bar

The bar at the bottom of your monitor is drawn by a separate process called i3bar. Having this part of "the i3 user interface" in a separate process has several advantages:

  1. It is a modular approach. If you don’t need a workspace bar at all, or if you prefer a different one (dzen2, xmobar, maybe even gnome-panel?), you can just remove the i3bar configuration and start your favorite bar instead.

  2. It follows the UNIX philosophy of "Make each program do one thing well". While i3 manages your windows well, i3bar is good at displaying a bar on each monitor (unless you configure it otherwise).

  3. It leads to two separate, clean codebases. If you want to understand i3, you don’t need to bother with the details of i3bar and vice versa.

That said, i3bar is configured in the same configuration file as i3. This is because it is tightly coupled with i3 (in contrary to i3lock or i3status which are useful for people using other window managers). Therefore, it makes no sense to use a different configuration place when we already have a good configuration infrastructure in place.

Configuring your workspace bar starts with opening a bar block. You can have multiple bar blocks to use different settings for different outputs (monitors):

Example:

bar {
    status_command i3status
}

5.1. i3bar command

By default i3 will just pass i3bar and let your shell handle the execution, searching your $PATH for a correct version. If you have a different i3bar somewhere or the binary is not in your $PATH you can tell i3 what to execute.

The specified command will be passed to sh -c, so you can use globbing and have to have correct quoting etc.

Syntax:

i3bar_command command

Example:

bar {
    i3bar_command /home/user/bin/i3bar
}

5.2. Statusline command

i3bar can run a program and display every line of its stdout output on the right hand side of the bar. This is useful to display system information like your current IP address, battery status or date/time.

The specified command will be passed to sh -c, so you can use globbing and have to have correct quoting etc.

Syntax:

status_command command

Example:

bar {
    status_command i3status --config ~/.i3status.conf
}

5.3. Display mode

You can either have i3bar be visible permanently at one edge of the screen (dock mode) or make it show up when you press your modifier key (hide mode). It is also possible to force i3bar to always stay hidden (invisible mode). The modifier key can be configured using the modifier option.

The mode option can be changed during runtime through the bar mode command. On reload the mode will be reverted to its configured value.

The hide mode maximizes screen space that can be used for actual windows. Also, i3bar sends the SIGSTOP and SIGCONT signals to the statusline process to save battery power.

Invisible mode allows to permanently maximize screen space, as the bar is never shown. Thus, you can configure i3bar to not disturb you by popping up because of an urgency hint or because the modifier key is pressed.

In order to control whether i3bar is hidden or shown in hide mode, there exists the hidden_state option, which has no effect in dock mode or invisible mode. It indicates the current hidden_state of the bar: (1) The bar acts like in normal hide mode, it is hidden and is only unhidden in case of urgency hints or by pressing the modifier key (hide state), or (2) it is drawn on top of the currently visible workspace (show state).

Like the mode, the hidden_state can also be controlled through i3, this can be done by using the bar hidden_state command.

The default mode is dock mode; in hide mode, the default modifier is Mod4 (usually the windows key). The default value for the hidden_state is hide.

Syntax:

mode <dock|hide|invisible>
hidden_state <hide|show>
modifier <Modifier>

Example:

bar {
    mode hide
    hidden_state hide
    modifier Mod1
}

Available modifiers are Mod1-Mod5, Shift, Control (see xmodmap(1)).

5.4. Bar ID

Specifies the bar ID for the configured bar instance. If this option is missing, the ID is set to bar-x, where x corresponds to the position of the embedding bar block in the config file (bar-0, bar-1, …).

Syntax:

id <bar_id>

Example:

bar {
    id bar-1
}

5.5. Position

This option determines in which edge of the screen i3bar should show up.

The default is bottom.

Syntax:

position <top|bottom>

Example:

bar {
    position top
}

5.6. Output(s)

You can restrict i3bar to one or more outputs (monitors). The default is to handle all outputs. Restricting the outputs is useful for using different options for different outputs by using multiple bar blocks.

To make a particular i3bar instance handle multiple outputs, specify the output directive multiple times.

Syntax:

output <output>

Example:

# big monitor: everything
bar {
    # The display is connected either via HDMI or via DisplayPort
    output HDMI2
    output DP2
    status_command i3status
}

# laptop monitor: bright colors and i3status with less modules.
bar {
    output LVDS1
    status_command i3status --config ~/.i3status-small.conf
    colors {
        background #000000
        statusline #ffffff
    }
}

5.7. Tray output

i3bar by default provides a system tray area where programs such as NetworkManager, VLC, Pidgin, etc. can place little icons.

You can configure on which output (monitor) the icons should be displayed or you can turn off the functionality entirely.

Syntax:

tray_output <none|primary|output>

Example:

# disable system tray
bar {
    tray_output none
}

# show tray icons on the primary monitor
tray_output primary

# show tray icons on the big monitor
bar {
    tray_output HDMI2
}

Note that you might not have a primary output configured yet. To do so, run:

xrandr --output <output> --primary

5.8. Font

Specifies the font to be used in the bar. See [fonts].

Syntax:

font <font>

Example:

bar {
    font -misc-fixed-medium-r-normal--13-120-75-75-C-70-iso10646-1
    font pango:DejaVu Sans Mono 10
}

5.9. Workspace buttons

Specifies whether workspace buttons should be shown or not. This is useful if you want to display a statusline-only bar containing additional information.

The default is to show workspace buttons.

Syntax:

workspace_buttons <yes|no>

Example:

bar {
    workspace_buttons no
}

5.10. Binding Mode indicator

Specifies whether the current binding mode indicator should be shown or not. This is useful if you want to hide the workspace buttons but still be able to see the current binding mode indicator. For an example of a mode definition, see [resizingconfig].

The default is to show the mode indicator.

Syntax:

binding_mode_indicator <yes|no>

Example:

bar {
    binding_mode_indicator no
}

5.11. Colors

As with i3, colors are in HTML hex format (#rrggbb). The following colors can be configured at the moment:

background

Background color of the bar.

statusline

Text color to be used for the statusline.

separator

Text color to be used for the separator.

focused_workspace

Border, background and text color for a workspace button when the workspace has focus.

active_workspace

Border, background and text color for a workspace button when the workspace is active (visible) on some output, but the focus is on another one. You can only tell this apart from the focused workspace when you are using multiple monitors.

inactive_workspace

Border, background and text color for a workspace button when the workspace does not have focus and is not active (visible) on any output. This will be the case for most workspaces.

urgent_workspace

Border, background and text color for a workspace button when the workspace contains a window with the urgency hint set. Also applies to mode indicators.

Syntax:

colors {
    background <color>
    statusline <color>
    separator <color>

    colorclass <border> <background> <text>
}

Example (default colors):

bar {
    colors {
        background #000000
        statusline #ffffff
        separator #666666

        focused_workspace  #4c7899 #285577 #ffffff
        active_workspace   #333333 #5f676a #ffffff
        inactive_workspace #333333 #222222 #888888
        urgent_workspace   #2f343a #900000 #ffffff
    }
}

6. List of commands

Commands are what you bind to specific keypresses. You can also issue commands at runtime without pressing a key by using the IPC interface. An easy way to do this is to use the i3-msg utility:

Example:

# execute this on your shell to make the current container borderless
i3-msg border none

Commands can be chained by using ; (a semicolon). So, to move a window to a specific workspace and immediately switch to that workspace, you can configure the following keybinding:

Example:

bindsym $mod+x move container to workspace 3; workspace 3

Furthermore, you can change the scope of a command - that is, which containers should be affected by that command, by using various criteria. The criteria are specified before any command in a pair of square brackets and are separated by space.

When using multiple commands, separate them by using a , (a comma) instead of a semicolon. Criteria apply only until the next semicolon, so if you use a semicolon to separate commands, only the first one will be executed for the matched window(s).

Example:

# if you want to kill all windows which have the class Firefox, use:
bindsym $mod+x [class="Firefox"] kill

# same thing, but case-insensitive
bindsym $mod+x [class="(?i)firefox"] kill

# kill only the About dialog from Firefox
bindsym $mod+x [class="Firefox" window_role="About"] kill

# enable floating mode and move container to workspace 4
for_window [class="^evil-app$"] floating enable, move container to workspace 4

The criteria which are currently implemented are:

class

Compares the window class (the second part of WM_CLASS)

instance

Compares the window instance (the first part of WM_CLASS)

window_role

Compares the window role (WM_WINDOW_ROLE).

id

Compares the X11 window ID, which you can get via xwininfo for example.

title

Compares the X11 window title (_NET_WM_NAME or WM_NAME as fallback).

urgent

Compares the urgent state of the window. Can be "latest" or "oldest". Matches the latest or oldest urgent window, respectively. (The following aliases are also available: newest, last, recent, first)

con_mark

Compares the mark set for this container, see [vim_like_marks].

con_id

Compares the i3-internal container ID, which you can get via the IPC interface. Handy for scripting.

The criteria class, instance, role, title and mark are actually regular expressions (PCRE). See pcresyntax(3) or perldoc perlre for information on how to use them.

6.1. Executing applications (exec)

What good is a window manager if you can’t actually start any applications? The exec command starts an application by passing the command you specify to a shell. This implies that you can use globbing (wildcards) and programs will be searched in your $PATH.

Syntax:

exec [--no-startup-id] command

Example:

# Start the GIMP
bindsym $mod+g exec gimp

# Start the terminal emulator urxvt which is not yet startup-notification-aware
bindsym $mod+Return exec --no-startup-id urxvt

The --no-startup-id parameter disables startup-notification support for this particular exec command. With startup-notification, i3 can make sure that a window appears on the workspace on which you used the exec command. Also, it will change the X11 cursor to watch (a clock) while the application is launching. So, if an application is not startup-notification aware (most GTK and Qt using applications seem to be, though), you will end up with a watch cursor for 60 seconds.

6.2. Splitting containers

The split command makes the current window a split container. Split containers can contain multiple windows. Depending on the layout of the split container, new windows get placed to the right of the current one (splith) or new windows get placed below the current one (splitv).

If you apply this command to a split container with the same orientation, nothing will happen. If you use a different orientation, the split container’s orientation will be changed (if it does not have more than one window). Use layout toggle split to change the layout of any split container from splitv to splith or vice-versa.

Syntax:

split <vertical|horizontal>

Example:

bindsym $mod+v split vertical
bindsym $mod+h split horizontal

6.3. Manipulating layout

Use layout toggle split, layout stacking, layout tabbed, layout splitv or layout splith to change the current container layout to splith/splitv, stacking, tabbed layout, splitv or splith, respectively.

To make the current window (!) fullscreen, use fullscreen, to make it floating (or tiling again) use floating enable respectively floating disable (or floating toggle):

Syntax:

layout <default|tabbed|stacking|splitv|splith>
layout toggle [split|all]

Examples:

bindsym $mod+s layout stacking
bindsym $mod+l layout toggle split
bindsym $mod+w layout tabbed

# Toggle between stacking/tabbed/split:
bindsym $mod+x layout toggle

# Toggle between stacking/tabbed/splith/splitv:
bindsym $mod+x layout toggle all

# Toggle fullscreen
bindsym $mod+f fullscreen

# Toggle floating/tiling
bindsym $mod+t floating toggle

6.4. Focusing/Moving containers

To change the focus, use the focus command: focus left, focus right, focus down and focus up.

There are a few special parameters you can use for the focus command:

parent

Sets focus to the Parent Container of the current Container.

child

The opposite of focus parent, sets the focus to the last focused child container.

floating

Sets focus to the last focused floating container.

tiling

Sets focus to the last focused tiling container.

mode_toggle

Toggles between floating/tiling containers.

output

Followed by a direction or an output name, this will focus the corresponding output.

For moving, use move left, move right, move down and move up.

Syntax:

focus <left|right|down|up>
focus <parent|child|floating|tiling|mode_toggle>
focus output <<left|right|down|up>|output>
move <left|right|down|up> [<px> px]
move [absolute] position [[<px> px] [<px> px]|center]

Note that the amount of pixels you can specify for the move command is only relevant for floating containers. The default amount is 10 pixels.

Examples:

# Focus container on the left, bottom, top, right:
bindsym $mod+j focus left
bindsym $mod+k focus down
bindsym $mod+l focus up
bindsym $mod+semicolon focus right

# Focus parent container
bindsym $mod+u focus parent

# Focus last floating/tiling container
bindsym $mod+g focus mode_toggle

# Focus the output right to the current one
bindsym $mod+x focus output right

# Focus the big output
bindsym $mod+x focus output HDMI-2

# Move container to the left, bottom, top, right:
bindsym $mod+j move left
bindsym $mod+k move down
bindsym $mod+l move up
bindsym $mod+semicolon move right

# Move container, but make floating containers
# move more than the default
bindsym $mod+j move left 20 px

# Move floating container to the center
# of all outputs
bindsym $mod+c move absolute position center

6.5. Changing (named) workspaces/moving to workspaces

To change to a specific workspace, use the workspace command, followed by the number or name of the workspace. To move containers to specific workspaces, use move container to workspace.

You can also switch to the next and previous workspace with the commands workspace next and workspace prev, which is handy, for example, if you have workspace 1, 3, 4 and 9 and you want to cycle through them with a single key combination. To restrict those to the current output, use workspace next_on_output and workspace prev_on_output. Similarly, you can use move container to workspace next, move container to workspace prev to move a container to the next/previous workspace and move container to workspace current (the last one makes sense only when used with criteria).

See [move_to_outputs] for how to move a container/workspace to a different RandR output.

To switch back to the previously focused workspace, use workspace back_and_forth; likewise, you can move containers to the previously focused workspace using move container to workspace back_and_forth.

Syntax:

workspace <next|prev|next_on_output|prev_on_output>
workspace back_and_forth
workspace <name>
workspace number <name>

move [window|container] [to] workspace <name>
move [window|container] [to] workspace number <name>
move [window|container] [to] workspace <prev|next|current>

Examples:

bindsym $mod+1 workspace 1
bindsym $mod+2 workspace 2
...

bindsym $mod+Shift+1 move container to workspace 1
bindsym $mod+Shift+2 move container to workspace 2
...

# switch between the current and the previously focused one
bindsym $mod+b workspace back_and_forth
bindsym $mod+Shift+b move container to workspace back_and_forth

# move the whole workspace to the next output
bindsym $mod+x move workspace to output right

# move firefox to current workspace
bindsym $mod+F1 [class="Firefox"] move workspace current

6.5.1. Named workspaces

Workspaces are identified by their name. So, instead of using numbers in the workspace command, you can use an arbitrary name:

Example:

bindsym $mod+1 workspace mail
...

If you want the workspace to have a number and a name, just prefix the number, like this:

Example:

bindsym $mod+1 workspace 1: mail
bindsym $mod+2 workspace 2: www
...

Note that the workspace will really be named "1: mail". i3 treats workspace names beginning with a number in a slightly special way. Normally, named workspaces are ordered the way they appeared. When they start with a number, i3 will order them numerically. Also, you will be able to use workspace number 1 to switch to the workspace which begins with number 1, regardless of which name it has. This is useful in case you are changing the workspace’s name dynamically. To combine both commands you can use workspace number 1: mail to specify a default name if there’s currently no workspace starting with a "1".

6.5.2. Renaming workspaces

You can rename workspaces. This might be useful to start with the default numbered workspaces, do your work, and rename the workspaces afterwards to reflect what’s actually on them. You can also omit the old name to rename the currently focused workspace. This is handy if you want to use the rename command with i3-input.

Syntax:

rename workspace <old_name> to <new_name>
rename workspace to <new_name>

Examples:

i3-msg 'rename workspace 5 to 6'
i3-msg 'rename workspace 1 to "1: www"'
i3-msg 'rename workspace "1: www" to "10: www"'
i3-msg 'rename workspace to "2: mail"
bindsym $mod+r exec i3-input -F 'rename workspace to "%s"' -P 'New name: '

6.6. Moving workspaces to a different screen

See [move_to_outputs] for how to move a container/workspace to a different RandR output.

6.7. Moving containers/workspaces to RandR outputs

To move a container to another RandR output (addressed by names like LVDS1 or VGA1) or to a RandR output identified by a specific direction (like left, right, up or down), there are two commands:

Syntax:

move container to output <<left|right|down|up>|<output>>
move workspace to output <<left|right|down|up>|<output>>

Examples:

# Move the current workspace to the next output
# (effectively toggles when you only have two outputs)
bindsym $mod+x move workspace to output right

# Put this window on the presentation output.
bindsym $mod+x move container to output VGA1

6.8. Resizing containers/windows

If you want to resize containers/windows using your keyboard, you can use the resize command:

Syntax:

resize <grow|shrink> <direction> [<px> px [or <ppt> ppt]]

Direction can either be one of up, down, left or right. Or you can be less specific and use width or height, in which case i3 will take/give space from all the other containers. The optional pixel argument specifies by how many pixels a floating container should be grown or shrunk (the default is 10 pixels). The ppt argument means percentage points and specifies by how many percentage points a tiling container should be grown or shrunk (the default is 10 percentage points).

I recommend using the resize command inside a so called mode:

Example: Configuration file, defining a mode for resizing
mode "resize" {
        # These bindings trigger as soon as you enter the resize mode

        # Pressing left will shrink the window’s width.
        # Pressing right will grow the window’s width.
        # Pressing up will shrink the window’s height.
        # Pressing down will grow the window’s height.
        bindsym j           resize shrink width 10 px or 10 ppt
        bindsym k           resize grow height 10 px or 10 ppt
        bindsym l           resize shrink height 10 px or 10 ppt
        bindsym semicolon   resize grow width 10 px or 10 ppt

        # same bindings, but for the arrow keys
        bindsym Left        resize shrink width 10 px or 10 ppt
        bindsym Down        resize grow height 10 px or 10 ppt
        bindsym Up          resize shrink height 10 px or 10 ppt
        bindsym Right       resize grow width 10 px or 10 ppt

        # back to normal: Enter or Escape
        bindsym Return mode "default"
        bindsym Escape mode "default"
}

# Enter resize mode
bindsym $mod+r mode "resize"

6.9. Jumping to specific windows

Often when in a multi-monitor environment, you want to quickly jump to a specific window. For example, while working on workspace 3 you may want to jump to your mail client to email your boss that you’ve achieved some important goal. Instead of figuring out how to navigate to your mail client, it would be more convenient to have a shortcut. You can use the focus command with criteria for that.

Syntax:

[class="class"] focus
[title="title"] focus

Examples:

# Get me to the next open VIM instance
bindsym $mod+a [class="urxvt" title="VIM"] focus

6.10. VIM-like marks (mark/goto)

This feature is like the jump feature: It allows you to directly jump to a specific window (this means switching to the appropriate workspace and setting focus to the windows). However, you can directly mark a specific window with an arbitrary label and use it afterwards. You can unmark the label in the same way, using the unmark command. If you don’t specify a label, unmark removes all marks. You do not need to ensure that your windows have unique classes or titles, and you do not need to change your configuration file.

As the command needs to include the label with which you want to mark the window, you cannot simply bind it to a key. i3-input is a tool created for this purpose: It lets you input a command and sends the command to i3. It can also prefix this command and display a custom prompt for the input dialog.

Syntax:

mark identifier
[con_mark="identifier"] focus
unmark identifier

Example (in a terminal):

$ i3-msg mark irssi
$ i3-msg '[con_mark="irssi"] focus'
$ i3-msg unmark irssi

6.11. Changing border style

To change the border of the current client, you can use border normal to use the normal border (including window title), border 1pixel to use a 1-pixel border (no window title) and border none to make the client borderless.

There is also border toggle which will toggle the different border styles.

Examples:

bindsym $mod+t border normal
bindsym $mod+y border 1pixel
bindsym $mod+u border none

6.12. Enabling shared memory logging

As described in http://i3wm.org/docs/debugging.html, i3 can log to a shared memory buffer, which you can dump using i3-dump-log. The shmlog command allows you to enable or disable the shared memory logging at runtime.

Note that when using shmlog <size_in_bytes>, the current log will be discarded and a new one will be started.

Syntax:

shmlog <size_in_bytes>
shmlog <on|off|toggle>

Examples:

# Enable/disable logging
bindsym $mod+x shmlog toggle

# or, from a terminal:
# increase the shared memory log buffer to 50 MiB
i3-msg shmlog $((50*1024*1024))

6.13. Enabling debug logging

The debuglog command allows you to enable or disable debug logging at runtime. Debug logging is much more verbose than non-debug logging. This command does not activate shared memory logging (shmlog), and as such is most likely useful in combination with the above-described [shmlog] command.

Syntax:

debuglog <on|off|toggle>

Examples:

# Enable/disable logging
bindsym $mod+x debuglog toggle

6.14. Reloading/Restarting/Exiting

You can make i3 reload its configuration file with reload. You can also restart i3 inplace with the restart command to get it out of some weird state (if that should ever happen) or to perform an upgrade without having to restart your X session. To exit i3 properly, you can use the exit command, however you don’t need to (simply killing your X session is fine as well).

Examples:

bindsym $mod+Shift+r restart
bindsym $mod+Shift+w reload
bindsym $mod+Shift+e exit

6.15. Scratchpad

There are two commands to use any existing window as scratchpad window. move scratchpad will move a window to the scratchpad workspace. This will make it invisible until you show it again. There is no way to open that workspace. Instead, when using scratchpad show, the window will be shown again, as a floating window, centered on your current workspace (using scratchpad show on a visible scratchpad window will make it hidden again, so you can have a keybinding to toggle). Note that this is just a normal floating window, so if you want to "remove it from scratchpad", you can simple make it tiling again (floating toggle).

As the name indicates, this is useful for having a window with your favorite editor always at hand. However, you can also use this for other permanently running applications which you don’t want to see all the time: Your music player, alsamixer, maybe even your mail client…?

Syntax:

move scratchpad

scratchpad show

Examples:

# Make the currently focused window a scratchpad
bindsym $mod+Shift+minus move scratchpad

# Show the first scratchpad window
bindsym $mod+minus scratchpad show

# Show the sup-mail scratchpad window, if any.
bindsym mod4+s [title="^Sup ::"] scratchpad show

6.16. i3bar control

There are two options in the configuration of each i3bar instance that can be changed during runtime by invoking a command through i3. The commands bar hidden_state and bar mode allow setting the current hidden_state respectively mode option of each bar. It is also possible to toggle between hide state and show state as well as between dock mode and hide mode. Each i3bar instance can be controlled individually by specifying a bar_id, if none is given, the command is executed for all bar instances.

Syntax:

bar hidden_state hide|show|toggle [<bar_id>]

bar mode dock|hide|invisible|toggle [<bar_id>]

Examples:

# Toggle between hide state and show state
bindsym $mod+m bar hidden_state toggle

# Toggle between dock mode and hide mode
bindsym $mod+n bar mode toggle

# Set the bar instance with id 'bar-1' to switch to hide mode
bindsym $mod+b bar mode hide bar-1

# Set the bar instance with id 'bar-1' to always stay hidden
bindsym $mod+Shift+b bar mode invisible bar-1

7. Multiple monitors

As you can see in the goal list on the website, i3 was specifically developed with support for multiple monitors in mind. This section will explain how to handle multiple monitors.

When you have only one monitor, things are simple. You usually start with workspace 1 on your monitor and open new ones as you need them.

When you have more than one monitor, each monitor will get an initial workspace. The first monitor gets 1, the second gets 2 and a possible third would get 3. When you switch to a workspace on a different monitor, i3 will switch to that monitor and then switch to the workspace. This way, you don’t need shortcuts to switch to a specific monitor, and you don’t need to remember where you put which workspace. New workspaces will be opened on the currently active monitor. It is not possible to have a monitor without a workspace.

The idea of making workspaces global is based on the observation that most users have a very limited set of workspaces on their additional monitors. They are often used for a specific task (browser, shell) or for monitoring several things (mail, IRC, syslog, …). Thus, using one workspace on one monitor and "the rest" on the other monitors often makes sense. However, as you can create an unlimited number of workspaces in i3 and tie them to specific screens, you can have the "traditional" approach of having X workspaces per screen by changing your configuration (using modes, for example).

7.1. Configuring your monitors

To help you get going if you have never used multiple monitors before, here is a short overview of the xrandr options which will probably be of interest to you. It is always useful to get an overview of the current screen configuration. Just run "xrandr" and you will get an output like the following:

$ xrandr
Screen 0: minimum 320 x 200, current 1280 x 800, maximum 8192 x 8192
VGA1 disconnected (normal left inverted right x axis y axis)
LVDS1 connected 1280x800+0+0 (normal left inverted right x axis y axis) 261mm x 163mm
   1280x800       60.0*+   50.0
   1024x768       85.0     75.0     70.1     60.0
   832x624        74.6
   800x600        85.1     72.2     75.0     60.3     56.2
   640x480        85.0     72.8     75.0     59.9
   720x400        85.0
   640x400        85.1
   640x350        85.1

Several things are important here: You can see that LVDS1 is connected (of course, it is the internal flat panel) but VGA1 is not. If you have a monitor connected to one of the ports but xrandr still says "disconnected", you should check your cable, monitor or graphics driver.

The maximum resolution you can see at the end of the first line is the maximum combined resolution of your monitors. By default, it is usually too low and has to be increased by editing /etc/X11/xorg.conf.

So, say you connected VGA1 and want to use it as an additional screen:

xrandr --output VGA1 --auto --left-of LVDS1

This command makes xrandr try to find the native resolution of the device connected to VGA1 and configures it to the left of your internal flat panel. When running "xrandr" again, the output looks like this:

$ xrandr
Screen 0: minimum 320 x 200, current 2560 x 1024, maximum 8192 x 8192
VGA1 connected 1280x1024+0+0 (normal left inverted right x axis y axis) 338mm x 270mm
   1280x1024      60.0*+   75.0
   1280x960       60.0
   1152x864       75.0
   1024x768       75.1     70.1     60.0
   832x624        74.6
   800x600        72.2     75.0     60.3     56.2
   640x480        72.8     75.0     66.7     60.0
   720x400        70.1
LVDS1 connected 1280x800+1280+0 (normal left inverted right x axis y axis) 261mm x 163mm
   1280x800       60.0*+   50.0
   1024x768       85.0     75.0     70.1     60.0
   832x624        74.6
   800x600        85.1     72.2     75.0     60.3     56.2
   640x480        85.0     72.8     75.0     59.9
   720x400        85.0
   640x400        85.1
   640x350        85.1

Please note that i3 uses exactly the same API as xrandr does, so it will see only what you can see in xrandr.

See also [presentations] for more examples of multi-monitor setups.

7.2. Interesting configuration for multi-monitor environments

There are several things to configure in i3 which may be interesting if you have more than one monitor:

  1. You can specify which workspace should be put on which screen. This allows you to have a different set of workspaces when starting than just 1 for the first monitor, 2 for the second and so on. See [workspace_screen].

  2. If you want some applications to generally open on the bigger screen (MPlayer, Firefox, …), you can assign them to a specific workspace, see [assign_workspace].

  3. If you have many workspaces on many monitors, it might get hard to keep track of which window you put where. Thus, you can use vim-like marks to quickly switch between windows. See [vim_like_marks].

  4. For information on how to move existing workspaces between monitors, see [_moving_containers_workspaces_to_randr_outputs].

8. i3 and the rest of your software world

8.1. Displaying a status line

A very common thing amongst users of exotic window managers is a status line at some corner of the screen. It is an often superior replacement to the widget approach you have in the task bar of a traditional desktop environment.

If you don’t already have your favorite way of generating such a status line (self-written scripts, conky, …), then i3status is the recommended tool for this task. It was written in C with the goal of using as few syscalls as possible to reduce the time your CPU is woken up from sleep states. Because i3status only spits out text, you need to combine it with some other tool, like i3bar. See [status_command] for how to display i3status in i3bar.

Regardless of which application you use to display the status line, you want to make sure that it registers as a dock window using EWMH hints. i3 will position the window either at the top or at the bottom of the screen, depending on which hint the application sets. With i3bar, you can configure its position, see [i3bar_position].

8.2. Giving presentations (multi-monitor)

When giving a presentation, you typically want the audience to see what you see on your screen and then go through a series of slides (if the presentation is simple). For more complex presentations, you might want to have some notes which only you can see on your screen, while the audience can only see the slides.

8.2.1. Case 1: everybody gets the same output

This is the simple case. You connect your computer to the video projector, turn on both (computer and video projector) and configure your X server to clone the internal flat panel of your computer to the video output:

xrandr --output VGA1 --mode 1024x768 --same-as LVDS1

i3 will then use the lowest common subset of screen resolutions, the rest of your screen will be left untouched (it will show the X background). So, in our example, this would be 1024x768 (my notebook has 1280x800).

8.2.2. Case 2: you can see more than your audience

This case is a bit harder. First of all, you should configure the VGA output somewhere near your internal flat panel, say right of it:

xrandr --output VGA1 --mode 1024x768 --right-of LVDS1

Now, i3 will put a new workspace (depending on your settings) on the new screen and you are in multi-monitor mode (see [multi_monitor]).

Because i3 is not a compositing window manager, there is no ability to display a window on two screens at the same time. Instead, your presentation software needs to do this job (that is, open a window on each screen).