xmonad-contrib-0.5: Third party extensions for xmonadSource codeContentsIndex
Writing new extensions
Libraries for writing window managers
xmonad internals
The main entry point
The X monad and the internal state
Event handling and messages
The LayoutClass
Coding style
Licensing policy

This module documents the xmonad internals. It is intended for advanced users who are curious about the xmonad source code and want an brief overview. This document may also be helpful for the beginner/intermediate Haskell programmer who is motivated to write an xmonad extension as a way to deepen her understanding of this powerful functional language; however, there is not space here to go into much detail. A more comprehensive document introducing beginner/intermediate Haskell programmers to the xmonad source is planned for the xmonad users' wiki (http://haskell.org/haskellwiki/Xmonad).

If you write an extension module and think it may be useful for others, consider releasing it. Coding guidelines and licensing policies are covered at the end of this document, and must be followed if you want your code to be included in the official repositories.

Writing new extensions
Libraries for writing window managers

Starting with version 0.5, xmonad and xmonad-contrib are packaged and distributed as libraries, instead of components which must be compiled by the user into a binary (as they were prior to version 0.5). This way of distributing xmonad has many advantages, since it allows packaging by GNU/Linux distributions while still allowing the user to customize the window manager to fit her needs.

Basically, xmonad and the xmonad-contrib libraries let users write their own window manager in just a few lines of code. While ~/.xmonad/xmonad.hs at first seems to be simply a configuration file, it is actually a complete Haskell program which uses the xmonad and xmonad-contrib libraries to create a custom window manager.

This makes it possible not only to edit the default xmonad configuration, as we have seen in the XMonad.Doc.Extending document, but to use the Haskell programming language to extend the window manager you are writing in any way you see fit.

xmonad internals
The main entry point

xmonad installs a binary, xmonad, which must be executed by the Xsession starting script. This binary, whose code can be read in Main.hs of the xmonad source tree, will use XMonad.Core.recompile to run ghc in order to build a binary from ~/.xmonad/xmonad.hs. If this compilation process fails, for any reason, a default main entry point will be used, which calls the XMonad.Main.xmonad function with a default configuration.

Thus, the real main entry point, the one that even the users' custom window manager application in ~/.xmonad/xmonad.hs must call, is the XMonad.Main.xmonad function. This function takes a configuration as its only argument, whose type (XMonad.Core.XConfig) is defined in XMonad.Core.

XMonad.Main.xmonad takes care of opening the connection with the X server, initializing the state (or deserializing it when restarted) and the configuration, and calling the event handler (XMonad.Main.handle) that goes into an infinite loop (using Prelude.forever) waiting for events and acting accordingly.

The X monad and the internal state

The event loop which calls XMonad.Main.handle to react to events is run within the XMonad.Core.X monad, which is a Control.Monad.State.StateT transformer over IO, encapsulated within a Control.Monad.Reader.ReaderT transformer. The Control.Monad.State.StateT transformer encapsulates the (read/writable) state of the window manager (of type XMonad.Core.XState), whereas the Control.Monad.Reader.ReaderT transformer encapsulates the (read-only) configuration (of type XMonad.Core.XConf).

Thanks to GHC's newtype deriving feature, the instance of the Control.Monad.State.MonadState class parametrized over XMonad.Core.XState and the instance of the Control.Monad.Reader.MonadReader class parametrized over XMonad.Core.XConf are automatically derived for the XMonad.Core.X monad. This way we can use Control.Monad.State.get, Control.Monad.State.gets and Control.Monad.State.modify for the XMonad.Core.XState, and Control.Monad.Reader.ask and Control.Monad.Reader.asks for reading the XMonad.Core.XConf.

XMonad.Core.XState is where all the sensitive information about window management is stored. The most important field of the XMonad.Core.XState is the XMonad.Core.windowset, whose type (XMonad.Core.WindowSet) is a synonym for a XMonad.StackSet.StackSet parametrized over a XMonad.Core.WorkspaceID (a String), a layout type wrapped inside the XMonad.Layout.Layout existential data type, the Graphics.X11.Types.Window type, the XMonad.Core.ScreenID and the XMonad.Core.ScreenDetails.

What a XMonad.StackSet.StackSet is and how it can be manipulated with pure functions is described in the Haddock documentation of the XMonad.StackSet module.

The XMonad.StackSet.StackSet (XMonad.Core.WindowSet) has four fields:

  • XMonad.StackSet.current, for the current, focused workspace. This is a XMonad.StackSet.Screen, which is composed of a XMonad.StackSet.Workspace together with the screen information (for Xinerama support).
  • XMonad.StackSet.visible, a list of XMonad.StackSet.Screens for the other visible (with Xinerama) workspaces. For non-Xinerama setups, this list is always empty.
  • XMonad.StackSet.hidden, the list of non-visible XMonad.StackSet.Workspaces.
  • XMonad.StackSet.floating, a map from floating Graphics.X11.Types.Windows to XMonad.StackSet.RationalRects specifying their geometry.

The XMonad.StackSet.Workspace type is made of a XMonad.StackSet.tag, a XMonad.StackSet.layout and a (possibly empty) XMonad.StackSet.stack of windows.

XMonad.StackSet (which should usually be imported qualified, to avoid name clashes with Prelude functions such as Prelude.delete and filter) provides many pure functions to manipulate the XMonad.StackSet.StackSet. These functions are most commonlyq used as an argument to XMonad.Operations.windows, which takes a pure function to manipulate the XMonad.Core.WindowSet and does all the needed operations to refresh the screen and save the modified XMonad.Core.XState.

During each XMonad.Operations.windows call, the XMonad.StackSet.layout field of the XMonad.StackSet.current and XMonad.StackSet.visible XMonad.StackSet.Workspaces are used to physically arrange the XMonad.StackSet.stack of windows on each workspace.

The possibility of manipulating the XMonad.StackSet.StackSet (XMonad.Core.WindowSet) with pure functions makes it possible to test all the properties of those functions with QuickCheck, providing greater reliability of the core code. Every change to the XMonad.StackSet module must be accompanied by appropriate QuickCheck properties before being applied.

Event handling and messages

Event handling is the core activity of xmonad. Events generated by the X server are most important, but there may also be events generated by layouts or the user.

XMonad.Core defines a class that generalizes the concept of events, XMonad.Core.Message, constrained to types with a Data.Typeable.Typeable instance definition (which can be automatically derived by ghc). XMonad.Core.Messages are wrapped within an existential type XMonad.Core.SomeMessage. The Data.Typeable.Typeable constraint allows for the definition of a XMonad.Core.fromMessage function that can unwrap the message with Data.Typeable.cast. X Events are instances of this class, along with any messages used by xmonad itself or by extension modules.

Using the Data.Typeable.Typeable class for any kind of XMonad.Core.Messages and events allows us to define polymorphic functions for processing messages or unhandled events.

This is precisely what happens with X events: xmonad passes them to XMonad.Main.handle. If the main event handling function doesn't have anything to do with the event, the event is sent to all visible layouts by XMonad.Operations.broadcastMessage.

This messaging system allows the user to create new message types, simply declare an instance of the Data.Typeable.Typeable and use XMonad.Operations.sendMessage to send commands to layouts.

And, finally, layouts may handle X events and other messages within the same function... miracles of polymorphism.

The LayoutClass
to do
Coding style

These are the coding guidelines for contributing to xmonad and the xmonad contributed extensions.

  • Comment every top level function (particularly exported funtions), and provide a type signature.
  • Use Haddock syntax in the comments.
  • Follow the coding style of the other modules.
  • Code should be compilable with -Wall -Werror. There should be no warnings.
  • Partial functions should be avoided: the window manager should not crash, so do not call error or undefined.
  • Tabs are illegal. Use 4 spaces for indenting.
  • Any pure function added to the core should have QuickCheck properties precisely defining its behaviour.
Licensing policy
New modules should identify the author, and be submitted under the same license as xmonad (BSD3 license or freer).
Produced by Haddock version 2.3.0