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twin:haskell-ci-update twin:master twin:release-v0.17.2
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409 Commits
v0.6 ... v0.14.1

Author SHA1 Message Date
Peter Simons
49c69fa73b xmonad.cabal: require at least base version 4.9 
We need GHC 8.x and beyond for Data.Semigroup, Control.Monad.Fail, etc.
 2018-08-20 14:06:32 +02:00
Peter Simons
120ebce490 xmonad.cabal: simplify and modernize the Cabal file 
It's also pretty-printed with 'stylish-cabal' for consistent formatting.
 2018-08-20 14:05:33 +02:00
Peter Simons
c0cf91303f Tentatively bump version number to 0.14.1. 2018-08-20 13:49:34 +02:00
Peter Simons
80f1c6f027 CHANGES.md: move PR entries into the right section 2018-08-20 13:49:34 +02:00
Peter Simons
c54e7088f0 Merge pull request #167 from mgsloan/log-recompilation-info 
Log information about xmonad compile + avoid unnecessary recompile
 2018-08-20 13:49:10 +02:00
Peter Simons
1f3a27f9b9 Don't build generatemanpage with ghc 8.6.x yet: we're lacking pandoc. 2018-08-20 12:44:16 +02:00
Peter Simons
ec97d83f3f GenerateManpage: fix compiler warnings 2018-08-20 12:01:33 +02:00
Peter Simons
f0975b734c git: ignore "cabal new-build"-style artifacts 2018-08-20 12:01:33 +02:00
Peter Simons
2324266fae travis.yml: build with -fgeneratemanpage 2018-08-20 12:01:33 +02:00
Peter Simons
3b0559c6cc Merge pull request #129 from madnight/patch-2 
Change comment for grabButtons in Main.hs
 2018-08-20 11:47:45 +02:00
Peter Simons
886a0d4041 GenerateManpage: greatly simplify the code 
We can take advantage of modern Pandoc features to move information like the
release date, the man page section, etc. into the markdown source rather than
having to insert that data during the rendering process. The only thing that
remains to be figured out by this tool is the set of known key bindings.
 2018-08-20 11:35:31 +02:00
Peter Simons
98f39eabc1 xmonad.cabal: don't depend on semigroups when building with GHC 8.x 
Recent compiler versions have Data.Semigroup in 'base'.
 2018-08-20 10:40:03 +02:00
Peter Simons
425c3c0872 Core: derive 'MonadFail X' instance for GHC 8.6.x and beyond 
A side effect of that change is that our code no longer compiles with GHC
versions prior to 8.0.x. We could work around that, no doubt, but the resulting
code would require CPP and Cabal flags and whatnot. It feels more reasonable to
just require a moderately recent compiler instead of going through all that
trouble.
 2018-08-20 10:40:03 +02:00
Peter Simons
29c9819daa xmonad.cabal: update constraints on 'base' 
- Our code does not compile with versions prior to 4.6, because we need
   System.Environment.lookupEnv.

 - Our code does not compile with version 4.12 (GHC 8.6.x) and beyond.

Closes https://github.com/xmonad/xmonad/issues/180.
 2018-08-20 08:45:11 +02:00
Sibi
3c2b09c213 Merge pull request #179 from countermeasure/patch-1 
Update Debian packages in README
 2018-08-07 10:35:16 +05:30
Sky
64a660894d Update Debian packages in README 2018-08-06 18:42:59 -07:00
Peter Simons
27b1ce9dd7 Merge pull request #98 from tmciver/master 
Update README to add xrandr dependency and add build/install instruct…
 2018-07-30 12:43:33 +02:00
Peter Simons
5caf235f6b CHANGES.md: document recent changes 2018-07-30 12:42:16 +02:00
Peter Simons
4ef9c12d13 Merge pull request #99 from gliptak/warnings1 
Cleanup build warnings
 2018-07-30 12:40:09 +02:00
Peter Simons
d6705fd595 Merge pull request #128 from madnight/patch-1 
Remove unused CPP extension from Core.hs
 2018-07-30 12:38:16 +02:00
Peter Simons
7c1065c43f Merge pull request #127 from dudebout/patch-1 
remove the man pages from data-files
 2018-07-30 12:31:26 +02:00
Peter Simons
af104509c3 GenerateManpage does not compile with Cabal 2.2.x. 2018-07-30 11:56:07 +02:00
Michiel Derhaeg
586ee75a9a fix manpage generation 2018-07-30 11:53:58 +02:00
Clint Adams
013da018a1 Port GenerateManpage.hs to pandoc 2 
Closes: #123

There is a regression here in terms of aesthetics.
 2018-07-30 11:53:58 +02:00
Peter Simons
71cb355948 travis.yml: we can now run "cabal check" successfully 2018-07-30 11:06:02 +02:00
Peter Simons
19069b3d4b xmonad.cabal: drop hard-coded profiling mode 
Hackage won't accept the package with that "hack" in place. If you want to
compile with profiling enabled, please configure the build with
--enable-profiling via "cabal" or "stack" or whatever build driver you're
using.
 2018-07-30 11:03:53 +02:00
Peter Simons
969fca9406 Merge pull request #157 from xmonad/travis 
Travis
 2018-07-30 10:44:27 +02:00
Peter Simons
61f00e65f1 Merge pull request #169 from mimi1vx/patch-1 
Allow  X11-1.9
 2018-07-30 09:43:07 +02:00
Peter Simons
db11089e70 travis.yml: re-generate with latest version of make-travis-yml 2018-07-30 09:36:19 +02:00
Peter Simons
e601a7d16d xmonad.cabal: updated tested-with fields to the latest major release, respectively 2018-07-30 09:33:03 +02:00
Peter Simons
0dd23bddfa Merge branch 'master' into travis. 2018-07-30 09:32:12 +02:00
Peter Simons
55b14d4850 Bump version number to 0.14 for upcoming release. 2018-07-30 09:29:12 +02:00
Ondřej Súkup
9df514b378 Allow X11-1.9 2018-05-15 09:45:36 +02:00
Michael Sloan
b6d92b4e38 Log information about xmonad compile + avoid unnecessary recompile 
Particularly with the addition of build scripts, it can be tricky to figure out
what XMonad is doing when attempting recompilation.  This makes it clearer by
adding some logging.

Due to this logging, I noticed that the lag of xmonad start was because it was
always recompiling!  When I startup my computer, I do not want it to delay
rebuilding my window manager. This also fixes that issue such that it only
recompiles XMonad if it is going to reinvoke due to getProgName not being the
expected string.
 2018-05-09 18:41:46 -07:00
geekosaur
ecf1a0ca0d Merge pull request #163 from aplaice/patch-1 
Fix typo Utils -> Util
 2018-04-18 18:25:18 -04:00
aplaice
d216e95f97 Fix typo Utils -> Util 
This is extremely minor, but it results in haddock incorrectly
hyperlinking XMonad.Utils.ExtensibleState at
https://hackage.haskell.org/package/xmonad-0.13/docs/XMonad-Core.html#v:extensibleState
 2018-04-11 23:46:11 +02:00
Brent Yorgey
af3d3818c8 Revert "remove unnecessary profiling flag" 
This reverts commit d065038c8a.

Put profiling flag back, and comment out 'cabal check' test in .travis.yml
 2018-03-21 22:22:58 -05:00
Brent Yorgey
d065038c8a remove unnecessary profiling flag 
It was making cabal check unhappy.
 2018-03-21 15:34:27 -05:00
Brent Yorgey
10bc213349 include libxrandr-dev 2018-03-21 15:24:54 -05:00
Brent Yorgey
d22d93b43f try updating travis config 2018-03-21 14:58:54 -05:00
Brent Yorgey
871a80fee7 add GHC 8.4.1 to tested-with 2018-03-21 14:58:38 -05:00
Brent Yorgey
2d59f5157c update GHC version number to 8.4.1 2018-03-21 14:58:25 -05:00
Brent Yorgey
0738262d9e Merge pull request #153 from vmchale/master 
update to work with latest GHC
 2018-03-21 14:54:30 -05:00
Brent Yorgey
63d6a66133 Merge branch 'master' into master 2018-03-21 14:52:50 -05:00
Brent Yorgey
fe6215d309 Merge pull request #156 from MichielDerhaeg/compat 
restored compatability with GHC versions prior to 8.0.1
 2018-03-21 14:50:17 -05:00
Michiel Derhaeg
c3cb4ad65f forgot to remote windows specific code 2018-03-18 00:08:03 +01:00
Michiel Derhaeg
126f891d11 restored compatability with GHC versions prior to 8.0.1 2018-03-17 23:23:11 +01:00
Vanessa McHale
d3383ce0f5 make it work w/ xmonad-testing 2018-02-05 18:29:14 -06:00
Vanessa McHale
c96a59fa0d update to work with latest GHC 2018-02-05 17:46:57 -06:00
Peter J. Jones
12a45b4b99 Merge pull request #88 from Javran/master 
fix xmonad/xmonad#87
 2017-09-13 18:07:04 -07:00
Javran Cheng
462957b2f0 fix xmonad/xmonad#87 
switch focus when mouse is entering a workspace
but not moving into a window (w' == 0)

for magic number 0 in w' == 0
see discussion in https://github.com/xmonad/xmonad/pull/88#pullrequestreview-62489502
 2017-09-13 19:28:02 -04:00
Fabian Beuke
3ec3536761 Change comment for grabButtons in Main.hs 2017-08-11 14:46:19 +02:00
Fabian Beuke
179b6a30f4 Remove unused CPP extension from Core.hs 2017-08-08 00:46:00 +02:00
Nicolas Dudebout
3dc65c3d2e remove the man pages from data-files 
The man pages are available for packagers in `extra-source-files`.

Having them in `data-files` is confusing since, according to Cabal's user guide [1], `data-files` contains "A list of files to be installed for run-time use by the package.", but the man pages are not used at run-time by xmonad.

[1]: https://www.haskell.org/cabal/users-guide/developing-packages.html
 2017-08-06 10:29:54 -04:00
Peter J. Jones
2e6312776b Merge pull request #111 from YoYoYonnY/origin/patch-1 
Safer string quoting for help message
 2017-05-31 10:05:03 -07:00
Jonne Ransijn
3897cab7c9 Safer string quoting for help message 
Using `show` to quote help string instead of hard-coding it.
Allows for quotes and other characters to be placed inside the help string.
 2017-05-09 00:25:48 +02:00
Gábor Lipták
0c97a89754 Cleanup build warnings 
Signed-off-by: Gábor Lipták <gliptak@gmail.com>
 2017-04-15 18:16:40 -04:00
Tim McIver
5afdc16387 Update README to add xrandr dependency and add build/install instruction. 2017-04-13 22:31:34 -04:00
Peter Jones
10b843ad21 Add a section on rebashing and squashing 2017-04-10 16:58:45 -07:00
Peter J. Jones
bc320b69da Merge pull request #91 from pjones/pjones/remove-state-file 
Remove the xmonad state file after reading it
 2017-04-10 10:47:03 -07:00
Peter Jones
89a8cc88c3 Remove the xmonad state file after reading it 
Tries to make sure IO is not lazy so the file is processed before it
is removed from the file system.

Fixes #86 and friends.
 2017-03-30 16:19:26 -07:00
Peter Jones
76f4a16258 Add a stack.yaml file for testing and easy Hackage upload 2017-02-10 16:20:01 -07:00
Peter Jones
8f2eb540d7 Update documentation after final release review 2017-02-10 15:48:44 -07:00
Peter Jones
ba2d75b930 Build the man page for 0.13 2017-02-10 15:46:45 -07:00
Peter Jones
acf0652952 Add a release date 2017-02-09 16:25:41 -07:00
Peter Jones
e4d231920c Bump version to 0.13 2017-02-09 16:09:52 -07:00
Peter J. Jones
980828feea Merge pull request #76 from SirBoonami/master 
Rare crash fix due to uncaught exception from `getWindowAttributes`
 2017-02-09 15:04:41 -07:00
Felix Hirn
2e5ae02059 Updated CHANGES.md 2017-02-09 22:34:26 +01:00
Felix Hirn
50eb1844eb Fixed a crash due to an unhandled getWindowAttributes exception 2017-02-09 22:28:57 +01:00
Peter Jones
f18bda7dc7 Having an executable build script implies force = True' in recompile' 
This is slight change to the original implementation.  This version
forces a recompile if XMonad detects a custom build script.  The
previous version took into consideration the time stamps of the source
files.

For a custom build script, the source files may be located in another
location, or there could be dependencies unknown to XMonad.  Better to
just always call the build script and let it work out if something
needs to be built.
 2017-02-08 19:48:42 -07:00
Peter Jones
2d8cad02fe Improve function docs for setWindowBorderWithFallback 2017-02-08 16:53:40 -07:00
Peter Jones
2baab28602 When looking for a directory, prefer ~/.xmonad over XDG BDS 
This fixes issue #71
 2017-02-07 13:28:53 -07:00
Peter J. Jones
ef65f901ce Merge pull request #65 from HebaruSan/focus-race-condition 
Don't send focus events for the wrong windows
 2017-02-06 17:29:32 -07:00
Peter Jones
f2da028ff9 Add CONTRIBUTING.md and GitHub templates 2017-01-12 12:23:48 -07:00
Brent Yorgey
bad3ce7a5e Merge pull request #62 from pjones/feature/recompile 
Support for custom config locations and recompile strategies
 2017-01-03 17:56:40 -05:00
Peter Jones
e1c555e3e6 Implement recommendations from Brent's review 2017-01-03 15:46:07 -07:00
Peter Jones
ab20f7df8d Stop using the term XDG unqualified 
This change makes it clear that xmonad can use the "XDG Base Directory
Specification" a la the directory package without making any other XDG
claims.
 2017-01-03 15:15:26 -07:00
Peter Jones
a70bf6a6a3 Fix another compatibility issue with GHC 7.6.x and 7.8.x 2017-01-03 15:15:26 -07:00
Peter Jones
f58b2399bd Fix compatibility issue with GHC 7.6.x and 7.8.x 2017-01-03 15:15:25 -07:00
Peter Jones
91d23656a3 Fix compile issue when using directory-1.2.3 2017-01-03 15:15:24 -07:00
Peter Jones
d6b6189cc1 Add release notes for changes in this PR 2017-01-03 15:15:23 -07:00
Peter Jones
0248e3c9fa Custom entry point for people using build tools (cabal, stack, etc.) 
The xmonadNoArgs function is now exposed as launch.  This allows users
to start xmonad from a custom binary and skip the configuration
complication check. (This is related to issue #62.)

In order to make the new launch function easier to use, resume state
has been removed from the command line and is now stored in a
temporary file.  As a bonus this fixes issue #12.

This commit also includes a method of migrating from older command
line state to the newer state file.  This should allow you have an
older xmonad instance start a newer xmonad and maintain state.
 2017-01-03 15:15:22 -07:00
Peter Jones
40fc10b6a5 Allow customization of xmonad directories 
Users can specify directory overrides via environment variables.  If
those aren't set, xmonad now prefers XDG directories.  If ~/.xmonad
exists and none of the others do, it will be used instead.

See: xmonad/xmonad#61
 2017-01-03 15:15:22 -07:00
Paul Hebble
3a140badf5 Don't send focus events for the wrong windows 
Prevents focus switching loop with UpdatePointer.
From https://code.google.com/archive/p/xmonad/issues/200
 2016-12-24 21:01:44 -06:00
Brent Yorgey
2b103ede55 Merge pull request #64 from bennofs/fix-63 
fix #63: window jumping to origin position when dragging
 2016-12-21 13:49:57 -05:00
Benno Fünfstück
4565e2c90e fix #63: window jumping to origin position when dragging 
We need to make sure that the StackSet contains the right
position for the window at all times while dragging. Previously,
the window was only placed at a different position. If, for any
reason, a layout refresh happens while the window is being dragged,
then the window will jump back to the old position because the StackSet
still contains the position of the window where it was as the drag started.

This patch fixes that issue by calling float after each mouse movement, which
ensures that the position for the window is updated in the StackSet.

Fixes #63
 2016-12-15 18:42:54 +01:00
Peter Jones
285ee2f836 Add build status badge from Travis 2016-12-14 14:46:52 -07:00
Peter J. Jones
7e9c9ccb1f Merge pull request #59 from xmonad/feature/fix-PR9 
Fetch border color from the window's colormap
 2016-12-14 14:39:08 -07:00
Peter Jones
dc078490d0 Guard most calls to getWindowAttributes since it may throw an exception 
This is a continuation of the work done by Adam Sjøgren (@asjo) to
resolve an issue where RGBA windows have transparent borders.  It also
fixes bugs related to windows suddenly disappearing right before
xmonad calls getWindowAttributes.

For more information see xmonad/xmonad#9
 2016-12-14 14:18:45 -07:00
Peter Jones
202e239ea4 Refactor xmonad/xmonad#9 and remove explicit exception handling 2016-12-14 14:18:44 -07:00
Peter J. Jones
e159ec36fe Merge pull request #53 from Philonous/rebuild_script 
Add support for (re-) building using script
 2016-12-13 12:24:41 -07:00
Philipp Balzarek
0b1ccc75ef update CHANGES.md 2016-12-10 11:21:06 +01:00
Philipp Balzarek
b0f9a3d0b9 clean up build-script handling 2016-12-10 11:10:04 +01:00
Philipp Balzarek
75d297a633 Add support for rebuild script 
(#46)
 2016-12-10 11:10:04 +01:00
Peter J. Jones
5f5e737d9c Merge pull request #57 from xmonad/prof-flag 
only turn on -prof -auto-all with profiling flag
 2016-12-08 11:00:52 -07:00
geekosaur
a39ed3ee1b Merge pull request #58 from xmonad/manual-testing 
cabal: set 'testing' flag to manual
 2016-11-15 13:27:18 -05:00
Brent Yorgey
e05a046bca cabal: set 'testing' flag to manual 2016-11-15 05:12:40 -06:00
Brent Yorgey
12ddc800ab only turn on -prof -auto-all with profiling flag 2016-11-09 10:20:51 -06:00
Brent Yorgey
2fab1bb9f5 test GHC 8 on Travis 2016-11-09 10:09:01 -06:00
Brent Yorgey
1b17d1c378 Merge pull request #48 from mschristiansen/tests 
Fix failing tests on GHC 8 and reduce warnings.
 2016-11-09 11:06:46 -05:00
Mikkel Christiansen
f490ced673 Fix failing tests on GHC 8 and reduce warnings. 
Fix test failures on GHC 8 for `abort` and `new_abort` caused by `error`
appending the stack trace to the error message (since base
4.9.0.0)[1]. This fixes #36.

An alternative is to use `errorWithoutStackTrace` (new in base 4.9.0.0),
but this then requires use of CPP for backwards compatibility.

Remove type constraints prompting GHC to warn about redundant
constraints.

Tested with 7.6.3, 7.8.4, 7.10.3, 8.0.1 (all on NixOS).

[1] https://hackage.haskell.org/package/base-4.9.0.0/docs/GHC-Stack.html
 2016-11-09 12:03:34 +02:00
Brent Yorgey
0919ecfbde Merge pull request #51 from mgsloan/no-unicode-with-xmessage 
Replace unicode characters in ghc error messages
 2016-11-08 23:09:30 -05:00
Brent Yorgey
41b7b1341e Merge pull request #33 from dlahoti/patch-1 
replace "XXX comment me" with actual (albeit rudimentary) comments in `mouseMoveWindow` and `mouseResizeWindow`
 2016-11-08 23:01:07 -05:00
Michael Sloan
0f0aa5e8cb Replace unicode characters in ghc error messages 2016-10-14 17:40:51 -07:00
dlahoti
ad4417c8e0 clicked -> dragged 2016-05-15 10:46:14 -04:00
dlahoti
b0f7643cc5 replace "XXX comment me" with actual comments 2016-05-15 10:32:28 -04:00
Francesco Ariis
8b055621e9 clarify GenerateManpage.hs license 2016-05-12 11:08:37 -05:00
geekosaur
dc6a972bc1 Merge pull request #29 from windo/fix_help 
help: correct section for workspace switching
 2016-03-18 08:49:31 -04:00
Siim Põder
e4a3eede18 help: correct section for workspace switching 2016-03-18 09:49:15 +00:00
Brent Yorgey
a0ffe7e47d pandoc, etc. should not be a dependency when not building generatemanpage 2015-12-18 14:23:38 -06:00
Brent Yorgey
b00b94fda7 Merge pull request #13 from pjones/release-0.12 
Release 0.12
 2015-12-18 11:25:07 -06:00
Peter Jones
45a78ba802 Finial tweaks before release 2015-12-14 13:30:55 -07:00
Peter Jones
4c0717e9cc Make it easier to update the man page 2015-12-11 11:19:40 -07:00
Peter Jones
30b4ff5e40 Update development references (darcs, code.google.com, etc.) 
* All references to darcs have been updated to git

  * Most Google Code references have been changed to GitHub

  * References to specific issues at code.google.com have been left
    alone

  * Updated the GenerateManpage.hs to work with the latest version of
    pandoc
 2015-12-11 11:17:26 -07:00
Peter Jones
b68ebc797a Remove references to development snapshots from darcs 2015-12-11 10:34:31 -07:00
Peter Jones
eb4ef5b23f Update CONFIG instructions: defaultConfig -> def 2015-12-11 10:00:53 -07:00
Peter Jones
73224be21b Bring in entries from https://wiki.haskell.org/Xmonad/Notable_changes_since_0.11 2015-12-09 12:54:14 -07:00
Peter Jones
7e287ec815 Revert a typo that wasn't actually a typo 2015-12-08 16:46:16 -07:00
Peter Jones
60f472faa2 Fix a couple of links (darcs -> git) 2015-12-08 16:28:56 -07:00
Peter Jones
bd72c6e1e2 Add CHANGES.md 2015-12-08 13:50:20 -07:00
Peter Jones
b5402e76d3 Fix some bad formatting 2015-12-08 13:31:54 -07:00
Peter Jones
39dc00b16f Add a file extension to the README file to make GitHub happy 2015-12-08 13:30:11 -07:00
Peter Jones
038f77de5a Reformat the README as proper markdown for GitHub and Hackage 2015-12-08 13:28:08 -07:00
Adam Vogt
59e731ea11 minor update to STYLE and TODO 2015-11-28 16:23:24 -05:00
Brent Yorgey
3ce9dcbbb5 add generated .travis.yml 2015-11-06 14:49:32 -06:00
Brent Yorgey
f25afdab9f .cabal: update tested-with field 2015-11-06 14:49:15 -06:00
brandon s allbery kf8nh
577d5ae968 Add gitignore 
Shamelessly ganked from cabal, with obvious project-related files removed.
 2015-08-22 13:32:54 -04:00
Josh Holland
29bcd465c2 Bump dependency on utf8-string 
The release of utf8-string version 1 just removed some deprecated APIs
that are not used by XMonad.

Fixes #598.
 2015-05-05 10:27:18 +00:00
Adam Vogt
307b82a53d Make ~/.xmonad/xmonad-$arch-$os handle args like /usr/bin/xmonad 2015-04-14 18:48:21 +00:00
Adam Vogt
197b0091f8 remove unused FFI pragma 2015-03-27 19:27:59 +00:00
Adam Vogt
69c5dae00d Avoid using instances removed in QuickCheck-2.7 
see https://github.com/nick8325/quickcheck/issues/31 for details
 2015-03-01 13:50:49 +00:00
Adam Vogt
28c3482411 use setLocale properly 
passing in Nothing returns the locale, while Just "" sets the locale according
to environment variables (which is what was being done before).

Thanks to geekosaur & v_v for finding this.
 2015-02-27 02:52:28 +00:00
Adam Vogt
73ee008cf6 generate man/xmonad.1 man/xmonad.1.html with a more recent pandoc (1.13) 2014-12-22 00:40:33 +00:00
Adam Vogt
82a1cae123 build with ghc-6.12 again 2014-08-15 03:38:08 +00:00
Adam Vogt
d01b913594 depend on the setlocale package 2014-10-20 14:10:06 +00:00
Adam Vogt
d9e3ebf531 don't encode paths for spawnPID (#348) 2014-10-20 14:04:10 +00:00
Adam Vogt
252c9d5eee stop floating Gimp with the default manageHook 
most people have probably moved on to gimp-2.8,
which doesn't really need to be floating
 2014-07-04 22:40:25 +00:00
Joey Hess
5f0b1601d5 needs update for mplayer2 
xmonad floats mplayer by default. However, Debian has switched to
mplayer2, and so on upgrade, it will stop floating. This can be easily
fixed in the user's config file, but here is a patch that avoids
bothering the user with breakage on upgrade.
 2014-07-03 05:43:59 +00:00
Adam Vogt
d60791e3f5 minor formatting of manpage 2014-05-11 17:17:35 +00:00
Adam Vogt
f0054fdde7 update GenerateManpage to pandoc 1.12 2014-05-11 17:14:41 +00:00
Adam Vogt
a9de363b14 make GenerateManpage look in src/ 2014-05-11 17:14:07 +00:00
Daniel Wagner
7eb6ba0126 use only POSIX-standard regexen in GenerateManpage 2014-05-11 15:46:02 +00:00
Adam Vogt
f03d2cdf74 make the check for overflow cleaner 2014-05-07 02:49:30 +00:00
Adam Vogt
16c0cb9a33 make cabal test show a FAIL when at least one test fails 2014-05-03 05:46:29 +00:00
Adam Vogt
fdf3fb2c58 remove unnecessary CPP 2014-05-03 04:48:15 +00:00
Adam Vogt
22d5e7eaa3 add missing files to sdist 2014-05-03 04:47:40 +00:00
Adam Vogt
f837b830fc note -fno-warn-unused-do-bind in STYLE 2014-05-03 04:41:05 +00:00
Adam Vogt
939c0558e6 update README 2014-05-03 04:40:52 +00:00
Adam Vogt
fbd406eb03 add some more forgotten properties 2014-05-03 03:41:44 +00:00
Adam Vogt
ecde376224 make hpc report cover the testsuite too 2014-05-03 03:41:25 +00:00
Adam Vogt
edf3394821 run more tests (and add a couple) 2014-05-03 02:11:03 +00:00
Adam Vogt
20be322b08 put hpc reports in dist/hpc/ 2014-05-02 19:29:07 +00:00
Adam Vogt
f8f53fdff8 add forgotten tests back 2014-05-02 19:28:58 +00:00
Adam Vogt
1da1e2e21e updated hpc 2014-05-02 18:49:04 +00:00
Adam Vogt
4026075bc6 clean up cabal file 
We don't support ghc-6.6 anymore, so no need to include this split_base stuff.
 2014-05-02 18:07:21 +00:00
Adam Vogt
8863761d66 update testsuite (mostly due Jesper Reenberg) 
* use quickcheck2
* run them using cabal's test-suite field
* split up Properties into separate files
 2014-05-02 18:01:46 +00:00
Adam Vogt
d67dcd8c4b hack to avoid crash when fewer workspaces than screens (#543) 2014-05-02 17:59:10 +00:00
Adam Vogt
aa84841289 OPTIONS_GHC is the preferred pragma name 2014-05-02 17:57:34 +00:00
Adam Vogt
d10abdcdd0 move library part to src/ 2014-05-02 17:51:59 +00:00
Adam Vogt
3073826dfc avoid warnings from missing Prelude.catch in ghc>=7.6 2014-05-02 05:58:23 +00:00
Adam Vogt
daed0062c6 derive Applicative instance for Query 2014-05-02 05:57:43 +00:00
Adam Vogt
abd737cfb4 Bump version to 0.12 
This is to make contrib build failures resulting from by data-default
lead people to do the right thing: update xmonad-core.
 2013-07-20 19:21:24 +00:00
Daniel Wagner
e719be4e69 warning police: name userCodeDef's argument defValue instead of def 2013-05-28 16:44:01 +00:00
Daniel Wagner
ec1a20c727 depend on data-default, and deprecate the monomorphic name defaultConfig 2013-05-28 00:35:31 +00:00
Daniel Wagner
8f039ec434 use "modm" instead of "modMask" in the sample config 2013-01-06 17:44:14 +00:00
Daniel Wagner
057fcc5162 define the "help" string in the sample configuration bundled with xmonad 2013-01-06 17:42:54 +00:00
mwlochbaum
8e7634f543 configurableEventMasks 2013-02-05 18:28:58 +00:00
Daniel Wagner
40cb12ce17 Grab all keycodes linked to each keysym, not just one 
This patch is based heavily on the one contributed by
svein.ove@aas.no, but updated to avoid causing a conflict and to work
with the newest X11 bindings. The name of the patch (and comment
below) are copied verbatim from his patch.

XKeysymToKeycode only gives the first code bound to a given symbol. To
handle the case where multiple keys are bound to the same symbol,
XKeycodeToKeysym is used instead, searching through all possible
keycodes for each sym.
 2013-01-18 22:54:46 +00:00
Adam Vogt
b803fd74a5 Issue 135 use wa_border_width for floating windows (neoraider) 2013-01-15 17:07:15 +00:00
Adam Vogt
d386a230f6 Add flags for call to ghc closing issue 240 
The -main-is flag goes back to at least ghc 6.10, and maybe the warning that
this otherwise redundant flag enables (when xmonad.hs isn't a  module Main)
also dates back that far.
 2013-01-01 03:50:34 +00:00
Adam Vogt
e87456ab77 bump cabal-version to satisfy hackage 2013-01-01 01:40:56 +00:00
Adam Vogt
cdc22f0849 TAG 0.11 2013-01-01 01:30:31 +00:00
Adam Vogt
70413b2e22 Bump version to 0.11 2012-12-31 18:48:10 +00:00
Adam Vogt
67ffde0dfb Add more metadata to cabal file 2012-12-31 18:46:52 +00:00
Adam Vogt
d904fb1cc4 Update generated manpage (and releaseDate in util/GenerateManpage.hs) 2012-12-31 16:34:03 +00:00
Adam Vogt
4120be8ba0 Copy help binding from XMonad.Config to man/xmonad.hs 2012-12-31 16:33:05 +00:00
Adam Vogt
e015155131 Shorter hyperlinks to hackage in README. 2012-12-31 10:53:58 +00:00
Adam Vogt
4c1536cd18 Add clickJustFocuses option to template configuration. 2012-12-31 10:44:20 +00:00
Adam Vogt
a34a5e979a Add configuration option clickToFocus (issue 225) 
To summarize this allows clicks which change the focus to also be passed on to
that window.
 2012-01-03 01:39:16 +00:00
conrad.irwin
38faddf9de pass mouse clicks on to focused windows (experimental) 
Originally: http://www.haskell.org/pipermail/xmonad/2008-June/005807.html
 2011-05-25 04:34:13 +00:00
Adam Vogt
3ab2b28711 HCAR.tex convert line endings. 2012-11-18 19:40:06 +00:00
gwern0
934ff6a562 HCAR.tex: update to Janis's master version per his instructions 2012-11-18 01:03:10 +00:00
Adam Vogt
f8b07d8956 Add generated manpage and html manpage to the repo. 
The intention of adding these files to the data-files
is so that they get included in the upload to hackage:
people might like manpage but not have to install pandoc.

It's not really clear that this is the best solution.
 2012-11-08 23:11:39 +00:00
Adam Vogt
67d436a4e6 Resolve conflicts Geoff Reedy's window focus hack. 2010-02-22 14:45:12 +00:00
Geoff Reedy
c6fef373dc Give focus to windows that don't set the input hint 2009-10-10 23:19:07 +00:00
Geoff Reedy
2d4f304c0a implement the ICCCM WM_TAKE_FOCUS protocol 2009-06-22 05:19:11 +00:00
Geoff Reedy
1df8ea3d0e track currently processing event 2009-06-22 03:56:49 +00:00
Adam Vogt
490719c035 resolve HCar.tex conflict 2012-11-08 22:35:14 +00:00
gwern0
3cd001e8df HCAR.tex: update with Janis's master version 2012-10-03 19:04:25 +00:00
gwern0
b0dda7b351 HCAR.tex: update per Janis 2012-05-16 21:13:52 +00:00
gwern0
d8495adf0d HCAR.tex: update per Janis 2012-05-13 21:15:22 +00:00
gwern0
06f35a650e Config.hs: implement mod-shift-/ newbie keybinding guide per http://code.google.com/p/xmonad/issues/detail?id=182 2012-01-13 01:04:10 +00:00
gwern0
56f5ecb320 Config.hs: rm commented out keybinding (dead for years) 2012-01-13 00:01:15 +00:00
Adam Vogt
ff674a27e2 Include manual pages in data-files. 2011-12-04 00:11:37 +00:00
Adam Vogt
6c51745122 Correctly identify source files in ~/.lib (David McLean) 2012-04-30 15:42:22 +00:00
Adam Vogt
108c2280ef Address versioning problems related to X11 1.6 release. 
Bump version to 0.10.1 since cabal uses hackage dependencies even when the
locally installed package differs.

Allow X11-1.6 dependency.
 2012-03-20 00:49:24 +00:00
Adam Vogt
e70b489936 Drop PlainConfig from HCAR.tex: it doesn't exist in contrib. 
The code for that moved out to a separate project:
http://braincrater.wordpress.com/2008/08/28/announcing-xmonad-light/
 2011-12-11 00:44:05 +00:00
gwern0
450c3a34fe HCAR: update module count, date, versions, maintainer 2011-12-04 02:59:31 +00:00
Adam Vogt
32f416a3c2 Minor updates to supporting files (for 0.10 release). 2011-11-18 23:13:24 +00:00
Adam Vogt
4be3b39cd2 Assume locale is utf8 for spawn. 
This adds the utf8-string dependency so that users no longer need to encode
strings they (possibly indirectly) pass to spawn. This is the expected
behavior, since each Char in String should be an actual character.

For systems that do not use utf8 this does not help. Fixing this by using iconv
or similar libraries may be done later.
 2011-11-18 18:29:20 +00:00
Adam Vogt
75889ab62e Correct recompile keybinding (issue 126) 
Thanks reenberg for pointing out the previous patch incorrectly warns about a
missing xmonad when the config has an error.

Also changed is "type" which as a shell builtin is more likely to exist than
"which".
 2011-11-17 04:25:22 +00:00
Adam Vogt
792add376e Warn with xmessage when xmonad cannot be found for recompile (issue 126) 2010-03-30 00:33:10 +00:00
Daniel Wagner
87c50a911f change the default mod+p binding to keep up with changes to dmenu 2011-10-13 16:25:09 +00:00
Daniel Wagner
d16aa9975e recognize the --replace option 2011-08-09 19:52:50 +00:00
Adam Vogt
f34642cbac Break a long line 2011-06-09 04:24:24 +00:00
Jens Petersen
008c3638a5 output error code when xmonad.hs compile fails without any error output 
Currently if there is no ghc on the path say for some reason,
xmonad.error is empty.  This patch makes
it output the exitcode code when the compile process fails
without any error output.  (It might be easier just to spawn
a shell to get "ghc: command not found" output for free.)
 2011-04-26 06:23:41 +00:00
Adam Vogt
f5c40e9e12 Remove -fglasgow-exts for deriving Data/Typeable needed with ghc-6.6 
This gets rid of a warning with ghc-7.0.2, and -XDeriveDataTypeable seems to
have been added with 6.8, which should be far back enough:
http://www.haskell.org/ghc/docs/6.8-latest/html/users_guide/deriving.html#deriving-typeable
 2011-06-08 23:04:15 +00:00
Adam Vogt
bd82cc9150 Expose instances to haddock 
While haddock may have choked on -XGeneralizedNewtypeDeriving before, this is
no longer the case. Also this doesn't change the results with a recent haddock
(2.9.2)
 2011-06-08 22:56:13 +00:00
Adam Vogt
a025912ab7 Haddock formatting for a type (-->) 2011-05-24 01:51:35 +00:00
Brandon S Allbery KF8NH
19c1759b35 Generalize types of ManageHook functions, so they can be reused 2011-02-24 00:30:21 +00:00
gwern0
92acd1eb74 HCAR.tex: update per Janis's final version 2011-05-22 18:37:55 +00:00
gwern0
db9f39d6af HCAR.text: mention 2 features added since last HCAR 
Prompted by Janis's usual request for updated HCARs
 2011-04-11 16:45:19 +00:00
Adam Vogt
ebcd67efac Correct misleading documentation on Stack (thanks sdrodge) 
`Possibly empty' applies only to `Maybe (Stack a)', not `Stack a' described
there, so this is easier to understand.
 2011-03-28 00:19:30 +00:00
gwern0
387a253f62 HCAR.tex: apply Janis Voigtlaender's HCAR changes 2010-11-09 20:50:22 +00:00
Adam Vogt
4c83e8e097 Bump version to 0.10 
This doesn't mean it's ready for this number release, but at least
contrib/core incompatibilities introduced since 0.9 will be avoided.
 2011-01-15 18:07:15 +00:00
Adam Vogt
ae59a5184f Update util/GenerateManpage for pandoc 1.6 2010-12-31 16:31:18 +00:00
Adam Vogt
fa8fe9aca4 Update util/GenerateManpage to be pandoc-1.4 compatible 2010-04-03 18:13:54 +00:00
gwern0
673c3e9ed9 HCAR.tex: update from May 
- there were no significant changes to xmonad-core
- description of 2 new modules not mentioned in HCAR
 2010-10-12 01:09:15 +00:00
Adam Vogt
6ba45cdb38 Update comments describing `recompile' 2010-04-03 18:11:15 +00:00
Adam Vogt
b995b430bc Note things to update each release. 2010-03-22 15:06:22 +00:00
gwern0
ba482a4611 XMonad.Core: escape slashes, ln module 2010-06-20 17:57:41 +00:00
Tomas Janousek
684907bc77 fix haddock comment being assigned to constructor instead of field 2010-04-15 17:39:36 +00:00
gwern0
ad4136df26 HCAr.tex: update with additions and versions 2010-05-02 20:13:21 +00:00
gwern0
defe0c282e +original HCAR entry 2010-05-02 20:02:52 +00:00
Spencer Janssen
c7bdac1a7e Less refreshing in mouse-2 binding (thanks aavogt) 2010-05-03 15:50:17 +00:00
Daniel Schoepe
17799f131a Replaced custom forever_ by library function 2009-01-14 21:55:56 +00:00
Tomas Janousek
8cd66aa380 reveal: don't insert non-clients into the set of mapped windows 
In xmonad-core, this fixes a small bug that caused doIgnored windows to get
into `mapped' and never being removed from there.

In the context of xmonad-contrib, this fixes a tremendous memory leak that
could be triggered by using MouseResizableTile and UrgencyHook at the same
time. MRT would create dummy windows that would get added to `mapped' by the
reveal call in `windows'. As these were not removed (removal from `mapped' is
filtered by `isClient'), they'd stay there forever and due to an inefficiency
in UrgencyHook would eat up all memory sooner or later.
 2010-03-27 21:42:43 +00:00
gwern0
32ba0d4a0d loc.hs: hlintify 2010-02-13 23:15:37 +00:00
Spencer Janssen
77b3f62610 Various clean-ups suggested by HLint 2010-02-14 02:57:50 +00:00
Spencer Janssen
f3b07eb5dc Make the --replace docs consistent 2010-02-13 00:26:47 +00:00
Adam Vogt
4372c256ed Add --replace flag with documentation (issue 99). 2009-12-20 18:35:29 +00:00
Adam Vogt
34239a79de Fix compile error when using base-3 (thanks bogner). 2010-02-11 06:39:38 +00:00
Daniel Schoepe
5866db4f0f Broadcast PropertyChange events (needed for layouts with decoration) 2010-01-13 20:40:17 +00:00
Adam Vogt
46d039cde5 Rename numlockMask to numberlockMask to help users of the template config. 
Without the change, the errors are like:

>     [ unrelated error messages ]
>     No constructor has all these fields: `numlockMask',
>       `terminal', [every other field set]

With the change:

>     `numlockMask' is not a record selector
>     [ context where numlockMask is named ]
 2010-01-18 16:22:56 +00:00
Adam Vogt
dd22717961 Correct warnings with ghc-6.12 
Changes include:
  - compatibility with base-4 or 3 (base-2 untested) by using
    extensible-exceptions. This adds an additional dependency for users of
    ghc<6.10)
  - list all dependencies again when -ftesting (change in Cabal-1.8.0.2)
  - remove unnecessary imports
  - suppress -fwarn-unused-do-bind, with appropriate Cabal-1.8 workaround,
    described here:
    http://www.haskell.org/pipermail/xmonad/2010-January/009554.html
 2010-01-18 18:15:32 +00:00
Spencer Janssen
0beeb4164b Add xfork: a forkProcess that works around process global state 2009-12-23 06:16:23 +00:00
Spencer Janssen
0b435028ff TAG 0.9.1 2009-12-16 23:36:43 +00:00
Spencer Janssen
84a988da82 extra-source-files for the new manpage 2009-12-16 23:20:05 +00:00
Spencer Janssen
dbd739e41e Bump to 0.9.1 2009-12-16 23:11:10 +00:00
Spencer Janssen
d5d8d551e6 Determine numlockMask automatically, fixes #120 2009-12-16 01:21:40 +00:00
Spencer Janssen
a2ba4d8a6c Update for X11 1.5.0.0 2009-12-16 01:17:00 +00:00
Spencer Janssen
557d3edb7d Safer X11 version dependency 2009-12-16 01:03:30 +00:00
Brent Yorgey
262db2367f man/xmonad.hs: remove reference to deprecated 'dynamicLogDzen' function 2009-11-26 05:39:08 +00:00
Spencer Janssen
eddb445307 A few tweaks to --verbose-version 2009-12-08 04:07:29 +00:00
Adam Vogt
d5aadf2538 Generalize the type of (<+>). It can be used for keybindings too. 2009-12-05 23:36:11 +00:00
gwern0
a16bb44934 Main.hs +--verbose-version flag 
This resolves http://code.google.com/p/xmonad/issues/detail?id=320 by adding a
--verbose-version option yielding output like "xmonad 0.9 compiled by ghc 6.10 for linux/i386"
 2009-11-28 14:48:40 +00:00
Spencer Janssen
2b854ee47c Swap the order that windows are mapped/unmapped. Addresses #322 2009-11-19 02:54:40 +00:00
Spencer Janssen
02ed1cabdc Add GPL warning to GenerateManpage 2009-11-11 00:01:06 +00:00
Adam Vogt
02693d307c Add a basic header to the html manpage output 2009-10-28 03:30:42 +00:00
Adam Vogt
37dc284460 Use pandoc to convert a markdown manpage tranlation to html and man. 2009-10-28 03:06:39 +00:00
Daniel Schoepe
73e406f4a6 Support for extensible state in contrib modules. 2009-11-06 11:50:50 +00:00
Spencer Janssen
44bc9558d9 Set SIGPIPE to default in forked processes 2009-11-06 22:37:43 +00:00
Spencer Janssen
0eb84e4866 Bump version to 0.9 2009-10-26 00:45:43 +00:00
Adam Vogt
b4bf8de874 Grab the xmonad.cabal version for putting into the manpage 2009-10-24 20:09:20 +00:00
Adam Vogt
17c89e327e Correct formatting in manpage 2009-10-24 20:07:48 +00:00
Don Stewart
da71b6c8ac depend on X11 >= 1.4.6.1, for conformity with XMC 2009-10-24 21:24:09 +00:00
Khudyakov Alexey
2621f3f6a8 Fix for Tall documentation 2009-05-16 10:47:53 +00:00
Daniel Wagner
8ec0bf3290 correct a comment 2009-07-27 03:20:24 +00:00
Spencer Janssen
7e20d0d308 man/xmonad.hs is in data-files, remove it from extra-source-files 2009-10-23 03:14:57 +00:00
Adam Vogt
24d8de93d7 Add the template config as distributed file. 2009-10-22 04:14:02 +00:00
Adam Vogt
2dd6eeba7d Note in manpage that 'exec xmonad' should be used 2009-09-01 04:05:38 +00:00
Adam Vogt
72997cf982 Manual page spelling: maximise -> maximize, utilising -> utilizing 2009-09-01 04:02:17 +00:00
Adam Vogt
7365d7bc11 Describe modular configuration in the manual page 2009-09-01 04:00:46 +00:00
Spencer Janssen
36e20f689c Remove redundant parens 2009-09-18 03:55:47 +00:00
wirtwolff
cde261ed56 man_xmonad.hs: import Data.Monoid for mempty, keybinding edits 
Bring mempty into scope. Add commented ToggleStruts binding.
Replace shadowed modMask in keybindings with modm instead.
 2009-03-20 02:46:24 +00:00
Adam Vogt
8d8cc8bcd8 Only watch mtime for .hs, .lhs, .hsc for ~/.xmonad/lib 
Previously xmonad would force a recompile due to the object files being too
new, so only look at files which may contain haskell code.
 2009-05-03 23:54:15 +00:00
Adam Vogt
ccb6ff92f2 Add lib to ghc searchpath with recompilation check 2009-03-21 23:29:07 +00:00
Adam Vogt
e944a6c8d3 Remove tabs from ManageHook.hs 2009-07-10 01:14:24 +00:00
Adam Vogt
eb1e29c8bb Set infix 0 --> to reduce parentheses in ManageHooks 
What was previously:
> (appName ?= x <&&> classname ?= y) --> (doFloat <+> doIgnore)

Can now be:
> appName ?= x <&&> classname ?= y --> doFloat <+> doIgnore
 2009-07-10 01:13:08 +00:00
Adam Vogt
66e7715ea6 Pester the user with one (not two) xmessages on config errors 2009-03-21 23:37:36 +00:00
Wouter Swierstra
d9d3e40112 Minor bugfix in the creation of new StackSets. 2009-05-03 15:43:21 +00:00
Spencer Janssen
7385793c65 Avoid deadly cycle in man/xmonad.hs 2009-03-19 08:19:18 +00:00
wirtwolff
72885e7e24 X.Config.hs, ./man/xmonad.hs: update Event Hook doc 2009-02-09 18:38:37 +00:00
Spencer Janssen
a931776e54 Use records to document Tall's arguments 2009-02-21 23:06:28 +00:00
Joachim Breitner
61568318d6 Fix possible head [] 
This seems to be a rare case, but I just got hit by it.
 2009-01-06 19:20:26 +00:00
Spencer Janssen
3caa989e20 ManageHook.doShift: use shiftWin instead of shift 2009-02-19 04:14:58 +00:00
Spencer Janssen
09fd11d13b Express shift in terms of shiftWin 2009-02-17 23:53:43 +00:00
Don Stewart
f33681de49 Use standard -fforce-recomp instead of undocumented -no-recomp 2009-02-08 16:55:18 +00:00
Daniel Schoepe
bf8bfc66a5 Support for custom event hooks 2009-02-03 15:55:36 +00:00
Daniel Schoepe
4075e2d9d3 Make X an instance of Typeable 2009-01-28 21:54:06 +00:00
Spencer Janssen
78856e1a6f Add uninstallSignalHandlers, use in spawn 2009-01-22 00:26:43 +00:00
Spencer Janssen
4222dd9ad3 Create a new session for forked processes 2009-01-22 00:04:23 +00:00
Spencer Janssen
34a547ce57 TAG 0.8.1 2009-01-18 08:39:10 +00:00
Spencer Janssen
353e7cd681 Close stdin in spawned processes 2009-01-17 04:00:24 +00:00
Spencer Janssen
72dece0769 Document spawnPID 2009-01-17 03:59:07 +00:00
Spencer Janssen
6e1c5e9b49 Asynchronously recompile/restart xmonad on mod-q 2009-01-17 03:53:00 +00:00
Spencer Janssen
bf8ba79090 Add --restart, a command line flag to cause a running xmonad process to restart 2009-01-17 03:49:59 +00:00
Spencer Janssen
5edfb1d262 Bump version to 0.8.1 2009-01-16 22:36:21 +00:00
Spencer Janssen
0fecae0abc Remove doubleFork, handle SIGCHLD 
This is a rather big change.  Rather than make spawned processes become
children of init, we handle them in xmonad.  As a side effect of this change,
we never need to use waitForProcess in any contrib module -- in fact, doing so
will raise an exception.  The main benefit to handling SIGCHLD is that xmonad
can now be started with 'exec', and will correctly clean up after inherited
child processes.
 2009-01-16 20:47:42 +00:00
gwern0
26f4f734f9 Main.hs: escape / in Haddocks 
This lets haddocks for Main.hs, at least, to build with 2.3.0.
 2008-12-07 02:09:15 +00:00
Daniel Schoepe
5e7df396b9 More flexible userCode function 2009-01-10 22:18:52 +00:00
Spencer Janssen
314ba78335 Call logHook as the very last action in windows 2008-12-09 23:37:00 +00:00
Spencer Janssen
7aa78ecc75 Accept inferior crossing events. This patch enables fmouse-focus-follows-screen 2008-12-05 04:51:30 +00:00
Spencer Janssen
ba8e26458e Tile all windows at once 2008-11-18 07:44:47 +00:00
Spencer Janssen
c627e8cc4d Factor rational rect scaling into a separate function 2008-11-18 07:28:49 +00:00
Spencer Janssen
04f894275d Change screen focus by clicking on the root window. 
This is a modification of a patch from Joachim Breitner.
 2008-11-06 22:40:31 +00:00
Spencer Janssen
edb752136f Fix #192. 2008-10-21 22:00:59 +00:00
Adam Vogt
2b463a632f select base < 4 for building on ghc 6.10 2008-10-13 21:45:09 +00:00
Joachim Breitner
ca122dd2cb add killWindow function 
This is required to kill anything that is not focused, without
having to focus it first.
 2008-10-05 00:18:04 +00:00
Devin Mullins
77657b65f9 add'l documentation 2008-09-27 23:46:39 +00:00
Spencer Janssen
28c57a837a Regression: ungrab buttons on *non* root windows 2008-10-07 21:43:51 +00:00
Spencer Janssen
afda20b56d Partial fix for #40 
Improvements:
 - clicking on the root will change focus to that screen
 - moving the mouse from a window on a screen to an empty screen changes focus
   to that screen
The only remaining issue is that moving the mouse between two empty screens
does not change focus.  In order to solve this, we'd have to select motion events
on the root window, which is potentially expensive.
 2008-10-07 21:20:53 +00:00
Spencer Janssen
0cc7b12fd0 Track mouse position via events received 2008-10-07 20:39:53 +00:00
Spencer Janssen
15a78ae715 Fix haddock 2008-10-07 09:46:41 +00:00
Spencer Janssen
18444799e0 Move screen locating code into pointScreen 2008-10-07 09:42:07 +00:00
Spencer Janssen
cc60fa73ad Make pointWithin a top-level binding 2008-10-07 09:02:29 +00:00
gwern0
8881e2ac78 sp README, CONFIG, STYLE, TODO 2008-09-13 02:44:57 +00:00
Spencer Janssen
533031e3d6 Use the same X11 dependency as xmonad-contrib 2008-09-21 06:15:08 +00:00
Spencer Janssen
76d4af15e4 Export focusUp' and focusDown' -- work entirely on stacks 2008-09-11 21:48:03 +00:00
Devin Mullins
74c6dd2721 add W.shiftMaster, fix float/tile-reordering bug 2008-09-11 05:39:09 +00:00
Spencer Janssen
b605fd9fce Spelling. Any bets on how long this has been there? 2008-09-05 19:52:11 +00:00
Spencer Janssen
85202ebd47 Bump version to 0.8 2008-09-05 19:42:25 +00:00
Spencer Janssen
328c660ce7 Remove obsolete comments about darcs X11 2008-09-05 19:49:15 +00:00
Spencer Janssen
b185a439b1 Recommend latest packages rather than specific versions 2008-09-05 19:48:37 +00:00
Spencer Janssen
0016e06984 Also remove -optl from the executable section 2008-08-20 21:00:23 +00:00
Spencer Janssen
339b2d0097 -optl-Wl,-s is not needed with recent Cabal versions 2008-08-20 20:41:02 +00:00
Malebria
5f4d63ba71 Haddock links 2008-06-01 21:25:15 +00:00
Malebria
942572c830 Haddock syntax for enumeration 2008-06-01 20:49:51 +00:00
Spencer Janssen
46ac2ca24b I prefer the spencerjanssen@gmail.com address now 2008-07-14 20:26:50 +00:00
Trevor Elliott
3830d7a571 Raise windows in the floating layer when moving or resizing 2008-05-21 21:50:57 +00:00
Devin Mullins
5b3eaf663a add currentTag convenience function 2008-05-11 22:42:58 +00:00
Spencer Janssen
c93b7c7c3b Make Mirror a newtype 2008-05-08 10:46:40 +00:00
Spencer Janssen
42dee4768e Comments 2008-05-07 01:31:22 +00:00
Spencer Janssen
e847b350ed Break long line 2008-05-07 01:26:08 +00:00
Spencer Janssen
cccbfa21e4 Style 2008-05-07 01:25:19 +00:00
Spencer Janssen
870b3ad282 Simplify 2008-05-07 01:13:09 +00:00
Spencer Janssen
ab30d76578 Overhaul Choose, fixes issue 183 2008-05-06 22:08:09 +00:00
Klaus Weidner
d8d636e573 Remember if focus changes were caused by mouse actions or by key commands 
If the user used the mouse to change window focus (moving into or clicking on a
window), this should be handled differently than focus changes due to keyboard
commands. Specifically, it's inappropriate to discard window enter/leave events
while the mouse is moving. This fixes the bug where a fast mouse motion across
multiple windows resulted in the wrong window keeping focus.

It's also helpful information for contrib modules such as UpdatePointer - it's
supposed to move the mouse pointer only in response to keyboard actions, not if
the user was moving the mouse.
 2008-05-02 17:56:03 +00:00
Spencer Janssen
ba3987f299 Wibble 2008-05-06 20:38:40 +00:00
Ivan N. Veselov
5a19425e79 Added doShift function for more user-friendly hooks 2008-05-06 18:57:57 +00:00
Don Stewart
28431e18c8 use named colours. fixes startup failure on the XO 2008-05-02 21:01:49 +00:00
Spencer Janssen
43c2d26cdb Set focus *after* revealing windows 2008-04-07 22:25:59 +00:00
Spencer Janssen
c24016882e Reveal windows after moving/resizing them. 
This should reduce the number of repaints for newly visible windows.
 2008-04-07 22:07:56 +00:00
Spencer Janssen
9dae87c537 Hide newly created but non-visible windows (fixes bug #172) 2008-04-30 01:40:12 +00:00
Don Stewart
b67026dd02 formatting, eta expansion 2008-04-18 18:43:37 +00:00
Lukas Mai
aa58eea6dc XMonad.ManageHook: add 'appName', another name for 'resource' 2008-04-06 01:20:06 +00:00
Lukas Mai
7db13a2a45 XMonad.ManageHook: make 'title' locale-aware; haddock cleanup 
The code for 'title' was stolen from getname.patch (bug #44).
 2008-04-06 01:13:38 +00:00
Lukas Mai
029e668dbc XMonad.Main: call setlocale on startup 2008-04-06 01:12:34 +00:00
robreim
6f61c83623 floats always use current screen (with less bugs) 2008-04-05 13:50:09 +00:00
Lukas Mai
bcbccbfafc XMonad.Operations: applySizeHint reshuffle 
Make applySizeHints take window borders into account. Move old functionality
to applySizeHintsContents. Add new mkAdjust function that generates a custom
autohinter for a window.
 2008-04-04 21:56:15 +00:00
Lukas Mai
04c8d62361 XMonad.Layout: documentation cleanup 2008-04-04 21:54:44 +00:00
Spencer Janssen
4890116e49 Remove gaps from the example config 2008-03-29 23:29:59 +00:00
Spencer Janssen
708084dd48 Remove gaps 2008-03-25 09:15:26 +00:00
Spencer Janssen
ef516142b9 Remove -fhpc from ghc-options (annoying hackage workaround) 2008-03-29 20:58:04 +00:00
Spencer Janssen
cb51875da6 Remove version numbers from README 2008-03-29 20:41:58 +00:00
Spencer Janssen
167a6e155b Bump version to 0.7 2008-03-29 19:13:36 +00:00
Don Stewart
2b2774f81d no need to expose --resume to the user 2008-03-28 21:42:19 +00:00
Spencer Janssen
16725dfe0d Rename property to stringProperty 2008-03-25 20:18:14 +00:00
Brent Yorgey
15db3c6f0a ManageHook: add a 'property' Query that can get an arbitrary String property from a window (such as WM_WINDOW_ROLE, for example) 2008-03-25 14:54:14 +00:00
Brent Yorgey
6db444eb1a Main.hs: startupHook should be guarded by userCode 2008-03-25 17:12:41 +00:00
Spencer Janssen
46bc3bbd17 Also print compilation errors to stderr 2008-03-24 22:58:57 +00:00
Don Stewart
d948210935 clean up for style 2008-03-22 21:41:16 +00:00
Andrea Rossato
db08970071 add sendMessageWithNoRefresh and have broadcastMessage use it 
This patch:
- moves broadcastMessage and restart from Core to Operations (to avoid
  circular imports);
- in Operations introduces sendMessageWithNoRefresh and move
 updateLayout outside windows.
- broadcastMessage now uses sendMessageWithNoRefresh to obey to this
  rules:
  1. if handleMessage returns Nothing no action is taken;
  2. if handleMessage returns a Just ml *only* the layout field of the
     workspace record will be updated.
 2008-02-23 13:07:02 +00:00
Spencer Janssen
4c69a85b3f --recompile now forces recompilation of xmonad.hs 2008-03-24 21:24:53 +00:00
Lukas Mai
ac103b8472 add --help option 2008-01-29 23:52:58 +00:00
Don Stewart
029965e4d4 add mod-shift-tab to the default bindings, from Mathias Stearn 2008-03-23 21:14:21 +00:00
Don Stewart
9fd1d4f9d0 more tests 2008-03-23 00:34:36 +00:00
Don Stewart
dbbd934b0b some tests for the size increment handling in Operations.hs 2008-03-22 23:49:52 +00:00
Don Stewart
750544fda9 more properties for splitting horizontally and vertically 2008-03-22 20:18:35 +00:00
Don Stewart
90eae3fd63 test message handling of Full layout 2008-03-22 19:27:28 +00:00
Don Stewart
d6233d0463 formatting 2008-03-22 19:26:35 +00:00
Don Stewart
5f088f4e99 strict fields on layout messages 2008-03-22 19:22:48 +00:00
Don Stewart
f8a7d8d381 QuickCheck properties to fully specify the Tall layout, and its messages 2008-03-22 04:18:01 +00:00
Don Stewart
f7686746c6 clean up Layout.hs, not entirely happy about the impure layouts. 2008-03-22 04:17:18 +00:00
Don Stewart
04ee55c3ca comments 2008-03-22 04:16:54 +00:00
Don Stewart
50ce362626 add hpc generation script 2008-03-22 04:16:40 +00:00
Don Stewart
209b88f821 add QuickCheck property for Full: it produces one window, it is fullscreen, and it is the current window 2008-03-22 00:20:26 +00:00
Don Stewart
c5cca485df QC for pureLayout. confirm pureLayout . Tall produces no overlaps 2008-03-22 00:12:29 +00:00
Don Stewart
0593a282ca whitespace 2008-03-22 00:12:08 +00:00
Don Stewart
351de8d2b6 reenable quickcheck properties for layouts (no overlap, fullscreen) 2008-03-21 23:40:15 +00:00
Don Stewart
4bd9073937 formatting 2008-03-21 23:09:56 +00:00
Don Stewart
79754fd5d3 Revert float location patch. Not Xinerama safe 2008-03-21 21:41:29 +00:00
Lukas Mai
b14de19e8b XMonad.Core: ignore SIGPIPE, let write calls throw 2008-03-21 17:19:11 +00:00
Brent Yorgey
e97c326ff0 update documentation 2008-03-11 16:07:27 +00:00
Andrea Rossato
bc13b4ba07 Reimplement Mirror with runLayout 2008-02-25 08:32:36 +00:00
Andrea Rossato
5bea59a823 Reimplement Choose with runLayout 2008-02-22 19:31:19 +00:00
Andrea Rossato
669a162cfc runLayout is now a LayoutClass method and takes the Workspace and the screen Rectangle 2008-02-22 17:58:15 +00:00
Don Stewart
310c22694e add property for ensureTags behaviour on hidden workspaces 2008-03-10 18:25:57 +00:00
robreim
1c930ba955 Small linecount fix :) 2008-03-08 02:19:39 +00:00
robreim
797204fe6c Change floats to always use the current screen 2008-03-08 01:58:29 +00:00
Don Stewart
a3ecf5d304 use -fhpc by default when testing. All developers should have 6.8.x 2008-03-07 18:42:23 +00:00
Don Stewart
1a4a4a5000 more general properties for view, greedyView 2008-03-07 18:16:57 +00:00
Don Stewart
a8d3564653 rework failure cases in StackSet.view 2008-03-07 18:16:34 +00:00
Don Stewart
d5955b023c bit more code coverage 2008-03-07 18:09:05 +00:00
Don Stewart
4d9a6c2681 more tests. slightly better test coverage 2008-02-27 18:01:13 +00:00
Don Stewart
87193ff61e test geometry setting 2008-02-27 17:55:54 +00:00
Don Stewart
3303c6e05d incorrect invariant test for greedyView 2008-02-25 18:03:50 +00:00
Brent Yorgey
9d9acba45f Add a startupHook. 
The only thing I am not sure about here is at what exact point the 
startupHook should get run.  I picked a place that seems to make sense: 
as late as possible, right before entering the main loop.  That way all
the layouts/workspaces/other state are set up and the startupHook can
manipulate them.
 2008-02-04 19:24:45 +00:00
Brent Yorgey
cc2754d82a Core.hs: add an Applicative instance for X 2008-02-04 19:23:48 +00:00
gwern0
cea3492d28 update LOC claim in man page 2008-02-15 21:14:20 +00:00
Don Stewart
14d9a194ff add quickstart instructions 2008-02-12 20:35:02 +00:00
Spencer Janssen
e8d1d028ba Remove non-existent windows on restart 2008-02-07 09:11:40 +00:00
Don Stewart
695860f1fd Lift initColor exceptions into Maybe 
We should audit all X11 Haskell lib calls we make for whether
they throw undocumented exceptions, and then banish that.
 2008-02-06 19:48:58 +00:00
Don Stewart
261f742404 some things to do 2008-02-06 19:25:33 +00:00
Don Stewart
1de1bcded2 module uses CPP 2008-02-06 19:05:21 +00:00
Spencer Janssen
0c697ebbb4 Rename runManageHook to runQuery 2008-02-04 05:33:36 +00:00
daniel
a626083721 let enter dismiss compile errors 2008-02-03 20:28:52 +00:00
Brent Yorgey
481e42ab72 Core.hs, StackSet.hs: some documentation updates 2008-02-01 19:06:53 +00:00
Andrea Rossato
e751c4b62f Make Mirror implement emptyLayout 2008-01-28 00:18:34 +00:00
"Valery V. Vorotyntsev"
730984fd60 xmonad.cabal: add `build-type' to make Cabal happy 2008-01-31 16:32:13 +00:00
Daniel Neri
ad85e11a4a Get version from the Paths_xmonad module generated by Cabal 
No need to bump version in more than one place.
 2008-01-29 14:40:37 +00:00
Spencer Janssen
2da09787da Kill stale xmonad 0.1 comments 2008-01-28 21:14:18 +00:00
Spencer Janssen
162a54d992 Point to 0.6 release of contrib 2008-01-28 10:11:15 +00:00
Don Stewart
d00d4ca046 notes on releases 2008-01-28 17:10:12 +00:00
Don Stewart
0dd54885eb bump output of --version 2008-01-28 17:08:40 +00:00
Spencer Janssen
f80d593d57 Generalize the type of catchIO, use it in Main.hs 2008-01-28 05:46:51 +00:00
Andrea Rossato
10be8aaae0 Add emptyLayout to LayoutClass, a method to be called when a workspace is empty 2008-01-24 01:32:07 +00:00
Don Stewart
66f623b656 clarify copyright 2008-01-08 18:56:40 +00:00
Spencer Janssen
b86351f3c3 TAG 0.6 2008-01-27 22:06:33 +00:00
56 changed files with 5170 additions and 2553 deletions
Expand all files Collapse all files

24
.github/ISSUE_TEMPLATE.md vendored Normal file
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### Problem Description
Describe the problem you are having, what you expect to happen
instead, and how to reproduce the problem.
### Configuration File
Please include the smallest configuration file that reproduces the
problem you are experiencing:
```haskell
module Main (main) where
import XMonad
main :: IO ()
main = xmonad def
```
### Checklist
- [ ] I've read [CONTRIBUTING.md](https://github.com/xmonad/xmonad/blob/master/CONTRIBUTING.md)
- [ ] I tested my configuration with [xmonad-testing](https://github.com/xmonad/xmonad-testing)

14
.github/PULL_REQUEST_TEMPLATE.md vendored Normal file
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### Description
Include a description for your changes, including the motivation
behind them.
### Checklist
- [ ] I've read [CONTRIBUTING.md](https://github.com/xmonad/xmonad/blob/master/CONTRIBUTING.md)
- [ ] I've confirmed these changes don't belong in xmonad-contrib instead
- [ ] I tested my changes with [xmonad-testing](https://github.com/xmonad/xmonad-testing)
- [ ] I updated the `CHANGES.md` file

29
.gitignore vendored Normal file
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.hpc/
*.hi
*.o
*.p_hi
*.prof
*.tix
# editor temp files
*#
.#*
*~
.*.swp
# TAGS files
TAGS
tags
# stack artifacts
/.stack-work/
# cabal-install artifacts
/.*.environment.*-*
/.cabal-sandbox/
/cabal.config
/cabal.project.local
/cabal.sandbox.config
/dist-newstyle/
/dist/

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.travis.yml Normal file
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# This Travis job script has been generated by a script via
#
# runghc make_travis_yml_2.hs '-o' '.travis.yml' 'xmonad.cabal' 'libxrandr-dev'
#
# For more information, see https://github.com/haskell-CI/haskell-ci
#
language: c
sudo: false
git:
submodules: false # whether to recursively clone submodules
cache:
directories:
- $HOME/.cabal/packages
- $HOME/.cabal/store
before_cache:
- rm -fv $HOME/.cabal/packages/hackage.haskell.org/build-reports.log
# remove files that are regenerated by 'cabal update'
- rm -fv $HOME/.cabal/packages/hackage.haskell.org/00-index.*
- rm -fv $HOME/.cabal/packages/hackage.haskell.org/*.json
- rm -fv $HOME/.cabal/packages/hackage.haskell.org/01-index.cache
- rm -fv $HOME/.cabal/packages/hackage.haskell.org/01-index.tar
- rm -fv $HOME/.cabal/packages/hackage.haskell.org/01-index.tar.idx
- rm -rfv $HOME/.cabal/packages/head.hackage
matrix:
include:
- compiler: "ghc-8.6.1"
env: GHCHEAD=true
addons: {apt: {packages: [ghc-ppa-tools,cabal-install-head,ghc-8.6.1,libxrandr-dev], sources: [hvr-ghc]}}
- compiler: "ghc-8.4.3"
# env: TEST=--disable-tests BENCH=--disable-benchmarks
addons: {apt: {packages: [ghc-ppa-tools,cabal-install-2.2,ghc-8.4.3,libxrandr-dev], sources: [hvr-ghc]}}
- compiler: "ghc-8.2.2"
# env: TEST=--disable-tests BENCH=--disable-benchmarks
addons: {apt: {packages: [ghc-ppa-tools,cabal-install-2.2,ghc-8.2.2,libxrandr-dev], sources: [hvr-ghc]}}
- compiler: "ghc-8.0.2"
# env: TEST=--disable-tests BENCH=--disable-benchmarks
addons: {apt: {packages: [ghc-ppa-tools,cabal-install-2.2,ghc-8.0.2,libxrandr-dev], sources: [hvr-ghc]}}
allow_failures:
- compiler: "ghc-8.6.1"
before_install:
- HC=${CC}
- HCPKG=${HC/ghc/ghc-pkg}
- unset CC
- ROOTDIR=$(pwd)
- mkdir -p $HOME/.local/bin
- "PATH=/opt/ghc/bin:/opt/ghc-ppa-tools/bin:$HOME/local/bin:$PATH"
- HCNUMVER=$(( $(${HC} --numeric-version|sed -E 's/([0-9]+)\.([0-9]+)\.([0-9]+).*/\1 * 10000 + \2 * 100 + \3/') ))
- echo $HCNUMVER
install:
- cabal --version
- echo "$(${HC} --version) [$(${HC} --print-project-git-commit-id 2> /dev/null || echo '?')]"
- BENCH=${BENCH---enable-benchmarks}
- TEST=${TEST---enable-tests}
- HADDOCK=${HADDOCK-true}
- UNCONSTRAINED=${UNCONSTRAINED-true}
- NOINSTALLEDCONSTRAINTS=${NOINSTALLEDCONSTRAINTS-false}
- GHCHEAD=${GHCHEAD-false}
- travis_retry cabal update -v
- "sed -i.bak 's/^jobs:/-- jobs:/' ${HOME}/.cabal/config"
- rm -fv cabal.project cabal.project.local
# Overlay Hackage Package Index for GHC HEAD: https://github.com/hvr/head.hackage
- |
if $GHCHEAD; then
sed -i 's/-- allow-newer: .*/allow-newer: *:base/' ${HOME}/.cabal/config
for pkg in $($HCPKG list --simple-output); do pkg=$(echo $pkg | sed 's/-[^-]*$//'); sed -i "s/allow-newer: /allow-newer: *:$pkg, /" ${HOME}/.cabal/config; done
echo 'repository head.hackage' >> ${HOME}/.cabal/config
echo ' url: http://head.hackage.haskell.org/' >> ${HOME}/.cabal/config
echo ' secure: True' >> ${HOME}/.cabal/config
echo ' root-keys: 07c59cb65787dedfaef5bd5f987ceb5f7e5ebf88b904bbd4c5cbdeb2ff71b740' >> ${HOME}/.cabal/config
echo ' 2e8555dde16ebd8df076f1a8ef13b8f14c66bad8eafefd7d9e37d0ed711821fb' >> ${HOME}/.cabal/config
echo ' 8f79fd2389ab2967354407ec852cbe73f2e8635793ac446d09461ffb99527f6e' >> ${HOME}/.cabal/config
echo ' key-threshold: 3' >> ${HOME}/.cabal.config
grep -Ev -- '^\s*--' ${HOME}/.cabal/config | grep -Ev '^\s*$'
cabal new-update head.hackage -v
fi
- grep -Ev -- '^\s*--' ${HOME}/.cabal/config | grep -Ev '^\s*$'
- "printf 'packages: \".\"\\n' > cabal.project"
- "if [ $HCNUMVER -lt 80600 ]; then printf 'package xmonad\\n flags: +generatemanpage\n' >> cabal.project; fi"
- touch cabal.project.local
- "if ! $NOINSTALLEDCONSTRAINTS; then for pkg in $($HCPKG list --simple-output); do echo $pkg | grep -vw -- xmonad | sed 's/^/constraints: /' | sed 's/-[^-]*$/ installed/' >> cabal.project.local; done; fi"
- cat cabal.project || true
- cat cabal.project.local || true
- if [ -f "./configure.ac" ]; then
(cd "." && autoreconf -i);
fi
- rm -f cabal.project.freeze
- cabal new-build -w ${HC} ${TEST} ${BENCH} --project-file="cabal.project" --dep -j2 all
- cabal new-build -w ${HC} --disable-tests --disable-benchmarks --project-file="cabal.project" --dep -j2 all
- rm -rf .ghc.environment.* "."/dist
- DISTDIR=$(mktemp -d /tmp/dist-test.XXXX)
# Here starts the actual work to be performed for the package under test;
# any command which exits with a non-zero exit code causes the build to fail.
script:
# test that source-distributions can be generated
- (cd "." && cabal sdist)
- mv "."/dist/xmonad-*.tar.gz ${DISTDIR}/
- cd ${DISTDIR} || false
- find . -maxdepth 1 -name '*.tar.gz' -exec tar -xvf '{}' \;
- "printf 'packages: xmonad-*/*.cabal\\n' > cabal.project"
- "if [ $HCNUMVER -lt 80600 ]; then printf 'package xmonad\\n flags: +generatemanpage\n' >> cabal.project; fi"
- touch cabal.project.local
- "if ! $NOINSTALLEDCONSTRAINTS; then for pkg in $($HCPKG list --simple-output); do echo $pkg | grep -vw -- xmonad | sed 's/^/constraints: /' | sed 's/-[^-]*$/ installed/' >> cabal.project.local; done; fi"
- cat cabal.project || true
- cat cabal.project.local || true
# this builds all libraries and executables (without tests/benchmarks)
- cabal new-build -w ${HC} --disable-tests --disable-benchmarks all
# build & run tests, build benchmarks
- cabal new-build -w ${HC} ${TEST} ${BENCH} all
- if [ "x$TEST" = "x--enable-tests" ]; then cabal new-test -w ${HC} ${TEST} ${BENCH} all; fi
# cabal check
- (cd xmonad-* && cabal check)
# haddock
- rm -rf ./dist-newstyle
- if $HADDOCK; then cabal new-haddock -w ${HC} ${TEST} ${BENCH} all; else echo "Skipping haddock generation";fi
# Build without installed constraints for packages in global-db
- if $UNCONSTRAINED; then rm -f cabal.project.local; echo cabal new-build -w ${HC} --disable-tests --disable-benchmarks all; else echo "Not building without installed constraints"; fi
# REGENDATA ["-o",".travis.yml","xmonad.cabal","libxrandr-dev"]
# EOF

152
CHANGES.md Normal file
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@@ -0,0 +1,152 @@
# Change Log / Release Notes
## unknown (unknown)
## 0.14.1 (August 20, 2018)
### Breaking Changes
* The cabal build no longer installs xmonad.hs, xmonad.1, and xmonad.1.html
as data files. The location cabal picks for chose files isn't useful as
standard tools like man(1) won't find them there. Instead, we rely on
distributors to pick up the files from the source tarball during the build
and to install them into proper locations where their users expect them.
[https://github.com/xmonad/xmonad/pull/127]
### Bug Fixes
* Add support for GHC 8.6.x by providing an instance for 'MonadFail X'. A
side effect of that change is that our code no longer compiles with GHC
versions prior to 8.0.x. We could work around that, no doubt, but the
resulting code would require CPP and Cabal flags and whatnot. It feels more
reasonable to just require a moderately recent compiler instead of going
through all that trouble.
* xmonad no longer always recompile on startup. Now it only does so if the
executable does not have the name that would be used for the compilation
output. The purpose of recompiling and executing the results in this case is
so that the `xmonad` executable in the package can be used with custom
configurations.
### Enhancements
* Whenever xmonad recompiles, it now explains how it is attempting to
recompile, by outputting logs to stderr. If you are using xmonad as a custom
X session, then this will end up in a `.xsession-errors` file.
## 0.14 (July 30, 2018)
### Bug Fixes
* The state file that xmonad uses while restarting itself is now
removed after it is processed. This fixes a bug that manifested
in several different ways:
- Names of old workspaces would be resurrected after a restart
- Screen sizes would be wrong after changing monitor configuration (#90)
- `spawnOnce` stopped working (xmonad/xmonad-contrib#155)
- Focus did not follow when moving between workspaces (#87)
- etc.
* Recover old behavior (in 0.12) when `focusFollowsMouse == True`:
the focus follows when the mouse enters another workspace
but not moving into any window.
* Compiles with GHC 8.4.1
* Restored compatability with GHC version prior to 8.0.1 by removing the
dependency on directory version 1.2.3.
## 0.13 (February 10, 2017)
### Breaking Changes
* When restarting xmonad, resume state is no longer passed to the
next process via the command line. Instead, a temporary state
file is created and xmonad's state is serialized to that file.
When upgrading to 0.13 from a previous version, the `--resume`
command line option will automatically migrate to a state file.
This fixes issue #12.
### Enhancements
* You can now control which directory xmonad uses for finding your
configuration file and which one is used for storing the compiled
version of your configuration. In order of preference:
1. New environment variables. If you want to use these ensure
you set the correct environment variable and also create the
directory it references:
- `XMONAD_CONFIG_DIR`
- `XMONAD_CACHE_DIR`
- `XMONAD_DATA_DIR`
2. The `~/.xmonad` directory.
3. XDG Base Directory Specification directories, if they exist:
- `XDG_CONFIG_HOME/xmonad`
- `XDG_CACHE_HOME/xmonad`
- `XDG_DATA_HOME/xmonad`
If none of these directories exist then one will be created using
the following logic: If the relevant environment variable
mentioned in step (1) above is set, the referent directory will be
created and used. Otherwise `~/.xmonad` will be created and used.
This fixes a few issues, notably #7 and #56.
* A custom build script can be used when xmonad is given the
`--recompile` command line option. If an executable named `build`
exists in the xmonad configuration directory it will be called
instead of `ghc`. It takes one argument, the name of the
executable binary it must produce.
This fixes #8. (One of two possible custom build solutions. See
the next entry for another solution.)
* For users who build their xmonad configuration using tools such as
cabal or stack, there is another option for executing xmonad.
Instead of running the `xmonad` executable directly, arrange to
have your login manager run your configuration binary instead.
Then, in your binary, use the new `launch` command instead of
`xmonad`.
This will keep xmonad from using its configuration file
checking/compiling code and directly start the window manager
without `exec`ing any other binary.
See the documentation for the `launch` function in `XMonad.Main`
for more details.
Fixes #8. (Second way to have a custom build environment for
XMonad. See previous entry for another solution.)
## 0.12 (December 14, 2015)
* Compiles with GHC 7.10.2, 7.8.4, and 7.6.3
* Use of [data-default][] allows using `def` where previously you
had to write `defaultConfig`, `defaultXPConfig`, etc.
* The [setlocale][] package is now used instead of a binding shipped
with xmonad proper allowing the use of `Main.hs` instead of
`Main.hsc`
* No longer encodes paths for `spawnPID`
* The default `manageHook` no longer floats Gimp windows
* Doesn't crash when there are fewer workspaces than screens
* `Query` is now an instance of `Applicative`
* Various improvements to the example configuration file
[data-default]: http://hackage.haskell.org/package/data-default
[setlocale]: https://hackage.haskell.org/package/setlocale

6
CONFIG
View File

@@ -21,7 +21,7 @@ $HOME/.xmonad/xmonad.hs :
import XMonad
main = xmonad $ defaultConfig
main = xmonad $ def
{ borderWidth = 2
, terminal = "urxvt"
, normalBorderColor = "#cccccc"
@@ -51,9 +51,9 @@ Ok, looks good.
To have xmonad start using your settings, type 'mod-q'. xmonad will
then load this new file, and run it. If it is unable to, the defaults
are used.
are used.
To load succesfully, both 'xmonad' and 'ghc' must be in your $PATH
To load successfully, both 'xmonad' and 'ghc' must be in your $PATH
environment variable. If GHC isn't in your path, for some reason, you
can compile the xmonad.hs file yourself:

141
CONTRIBUTING.md Normal file
View File

@@ -0,0 +1,141 @@
# Contributing to xmonad and xmonad-contrib
## Before Creating a GitHub Issue
New issue submissions should adhere to the following guidelines:
* Does your issue have to do with [xmonad][], [xmonad-contrib][], or
maybe even with the [X11][] library?
Please submit your issue to the **correct** GitHub repository.
* To help you figure out which repository to submit your issue to,
and to help us resolve the problem you are having, create the
smallest configuration file you can that reproduces the problem.
You may find that the [xmonad-testing][] repository is helpful in
reproducing the problem with a smaller configuration file.
Once you've done that please include the configuration file with
your GitHub issue.
* If possible, use the [xmonad-testing][] repository to test your
configuration with the bleeding-edge development version of xmonad
and xmonad-contrib. We might have already fixed your problem.
## Contributing Changes/Patches
Have a change to xmonad that you want included in the next release?
Awesome! Here are a few things to keep in mind:
* Review the above section about creating GitHub issues.
* It's always best to talk with the community before making any
nontrivial changes to xmonad. There are a couple of ways you can
chat with us:
- Post a message to the [mailing list][ml].
- Join the `#xmonad` IRC channel on `chat.freenode.org`.
* Continue reading this document!
## Expediting Reviews and Merges
Here are some tips for getting your changes merged into xmonad:
* If your changes can go into [xmonad-contrib][] instead
of [xmonad][], please do so. We rarely accept new features to
xmonad. (Not that we don't accept changes to xmonad, just that we
prefer changes to xmonad-contrib instead.)
* Change the fewest files as possible. If it makes sense, submit a
completely new module to xmonad-contrib.
* Your changes should include relevant entries in the `CHANGES.md`
file. Help us communicate changes to the community.
* Make sure you test your changes using the [xmonad-testing][]
repository. Include a new configuration file that shows off your
changes if possible by creating a PR on that repository as well.
* Make sure you read the section on rebasing and squashing commits
below.
## Rebasing and Squashing Commits
Under no circumstances should you ever merge the master branch into
your feature branch. This makes it nearly impossible to review your
changes and we *will not accept your PR* if you do this.
Instead of merging you should rebase your changes on top of the master
branch. If a core team member asks you to "rebase your changes" this
is what they are talking about.
It's also helpful to squash all of your commits so that your pull
request only contains a single commit. Again, this makes it easier to
review your changes and identify the changes later on in the Git
history.
### How to Rebase Your Changes
The goal of rebasing is to bring recent changes from the master branch
into your feature branch. This often helps resolve conflicts where
you have changed a file that also changed in a recently merged pull
request (i.e. the `CHANGES.md` file). Here is how you do that.
1. Make sure that you have a `git remote` configured for the main
repository. I like to call this remote `upstream`:
$ git remote add upstream https://github.com/xmonad/xmonad-contrib.git
2. Pull from upstream and rewrite your changes on top of master. For
this to work you should not have any modified files in your
working directory. Run these commands from within your feature
branch (the branch you are asking to be merged):
$ git fetch --all
$ git pull --rebase upstream master
3. If the rebase was successful you can now push your feature branch
back to GitHub. You need to force the push since your commits
have been rewritten and have new IDs:
$ git push --force-with-lease
4. Your pull request should now be conflict-free and only contain the
changes that you actually made.
### How to Squash Commits
The goal of squashing commits is to produce a clean Git history where
each pull request contains just one commit.
1. Use `git log` to see how many commits you are including in your
pull request. (If you've already submitted your pull request you
can see this in the GitHub interface.)
2. Rebase all of those commits into a single commit. Assuming you
want to squash the last four (4) commits into a single commit:
$ git rebase -i HEAD~4
3. Git will open your editor and display the commits you are
rebasing with the word "pick" in front of them.
4. Leave the first listed commit as "pick" and change the remaining
commits from "pick" to "squash".
5. Save the file and exit your editor. Git will create a new commit
and open your editor so you can modify the commit message.
6. If everything was successful you can push your changed history
back up to GitHub:
$ git push --force-with-lease
[xmonad]: https://github.com/xmonad/xmonad
[xmonad-contrib]: https://github.com/xmonad/xmonad-contrib
[xmonad-testing]: https://github.com/xmonad/xmonad-testing
[x11]: https://github.com/xmonad/X11
[ml]: https://mail.haskell.org/cgi-bin/mailman/listinfo/xmonad

24
LICENSE
View File

@@ -1,27 +1,31 @@
Copyright (c) Spencer Janssen
Copyright (c) 2007,2008 Spencer Janssen
Copyright (c) 2007,2008 Don Stewart
All rights reserved.
Redistribution and use in source and binary forms, with or without
modification, are permitted provided that the following conditions
are met:
1. Redistributions of source code must retain the above copyright
notice, this list of conditions and the following disclaimer.
2. Redistributions in binary form must reproduce the above copyright
notice, this list of conditions and the following disclaimer in the
documentation and/or other materials provided with the distribution.
3. Neither the name of the author nor the names of his contributors
may be used to endorse or promote products derived from this software
without specific prior written permission.
THIS SOFTWARE IS PROVIDED BY THE AUTHORS ``AS IS'' AND
ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHORS OR CONTRIBUTORS BE LIABLE
FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
THIS SOFTWARE IS PROVIDED BY THE AUTHORS ``AS IS'' AND ANY EXPRESS OR
IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
DISCLAIMED. IN NO EVENT SHALL THE AUTHORS OR CONTRIBUTORS BE LIABLE FOR
ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
SUCH DAMAGE.
HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN
ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
POSSIBILITY OF SUCH DAMAGE.

83
MAINTAINERS.md Normal file
View File

@@ -0,0 +1,83 @@
# XMonad Maintainers
## The XMonad Core Team
* Adam Vogt [GitHub][aavogt]
* Brandon S Allbery [GitHub][geekosaur], IRC: `geekosaur`
* Brent Yorgey [GitHub][byorgey], IRC: `byorgey`
* Daniel Wagner [GitHub][dmwit], IRC: `dmwit`
* David Lazar [GitHub][davidlazar]
* Devin Mullins [GitHub][twifkak]
* Peter J. Jones [GitHub][pjones], [Twitter][twitter:pjones], [OpenPGP Key][pgp:pjones], IRC: `pmade`
## Release Procedures
When the time comes to release another version of XMonad and Contrib...
1. Create a release branch (e.g., `release-0.XX`).
This will allow you to separate the release process from main
development. Changes you make on this branch will be merged back
into `master` as one of the last steps.
2. Update the version number in the `*.cabal` files and verify
dependencies and documentation. This includes the `tested-with:`
field.
3. Use the [packdeps][] tool to ensure you have the dependency
versions correct. If you need to update the version of a
dependency then you should rebuild and retest.
4. Review documentation files and make sure they are accurate:
- `README.md`
- `CHANGES.md`
- and the `example-config.hs` in the `xmonad-testing` repo
5. Generate the manpage:
* `cabal configure` with the `-fgeneratemanpage` flag
* Build the project
* Run the `generatemanpage` tool from the top level of this repo
* Review the man page: `man -l man/xmonad.1`
6. Tag the repository with the release version (e.g., `v0.13`)
7. Build the project tarballs (`cabal sdist`)
8. Upload the packages to Hackage (`cabal upload`)
9. Merge the release branches into `master`
10. Update the website:
* Generate and push haddocks with `xmonad-web/gen-docs.sh`
* Check that `tour.html` and `intro.html` are up to date, and
mention all core bindings
11. Update the topic for the IRC channel (`#xmonad`)
12. Send the `announce-0.XX.txt` file to:
- XMonad mailing list
- Haskell Cafe
[packdeps]: http://hackage.haskell.org/package/packdeps
[aavogt]: https://github.com/orgs/xmonad/people/aavogt
[geekosaur]: https://github.com/orgs/xmonad/people/geekosaur
[byorgey]: https://github.com/orgs/xmonad/people/byorgey
[dmwit]: https://github.com/orgs/xmonad/people/dmwit
[davidlazar]: https://github.com/orgs/xmonad/people/davidlazar
[twifkak]: https://github.com/orgs/xmonad/people/twifkak
[pjones]: https://github.com/orgs/xmonad/people/pjones
[twitter:pjones]: https://twitter.com/contextualdev
[pgp:pjones]: http://pgp.mit.edu/pks/lookup?op=get&search=0x526722D1204284CB

44
Main.hs
View File

@@ -16,47 +16,5 @@ module Main (main) where
import XMonad
import Control.Exception (handle)
import System.IO
import System.Info
import System.Environment
import System.Posix.Process (executeFile)
#ifdef TESTING
import qualified Properties
#endif
-- | The entry point into xmonad. Attempts to compile any custom main
-- for xmonad, and if it doesn't find one, just launches the default.
main :: IO ()
main = do
args <- getArgs
let launch = handle (hPrint stderr) buildLaunch >> xmonad defaultConfig
case args of
[] -> launch
["--resume", _] -> launch
["--recompile"] -> recompile False >> return ()
["--recompile-force"] -> recompile True >> return ()
["--version"] -> putStrLn "xmonad 0.5"
#ifdef TESTING
("--run-tests":_) -> Properties.main
#endif
_ -> fail "unrecognized flags"
-- | Build "~/.xmonad/xmonad.hs" with ghc, then execute it. If there are no
-- errors, this function does not return. An exception is raised in any of
-- these cases:
-- * ghc missing
-- * ~/.xmonad/xmonad.hs missing
-- * xmonad.hs fails to compile
-- ** wrong ghc in path (fails to compile)
-- ** type error, syntax error, ..
-- * Missing xmonad/XMonadContrib modules due to ghc upgrade
--
buildLaunch :: IO ()
buildLaunch = do
recompile False
dir <- getXMonadDir
args <- getArgs
executeFile (dir ++ "/xmonad-"++arch++"-"++os) False args Nothing
return ()
main = xmonad def

152
README
View File

@@ -1,152 +0,0 @@
xmonad : a tiling window manager
http://xmonad.org
xmonad is a tiling window manager for X. Windows are arranged
automatically to tile the screen without gaps or overlap, maximising
screen use. Window manager features are accessible from the
keyboard: a mouse is optional. xmonad is written, configured and
extensible in Haskell. Custom layout algorithms, key bindings and
other extensions may be written by the user in config files. Layouts
are applied dynamically, and different layouts may be used on each
workspace. Xinerama is fully supported, allowing windows to be tiled
on several physical screens.
Building:
Building is quite straightforward, and requries a basic Haskell toolchain.
On many systems xmonad is available as a binary package in your
package system (e.g. on debian or gentoo). If at all possible, use this
in preference to a source build, as the dependency resolution will be
simpler.
We'll now walk through the complete list of toolchain dependencies.
* GHC: the Glasgow Haskell Compiler
You first need a Haskell compiler. Your distribution's package
system will have binaries of GHC (the Glasgow Haskell Compiler), the
compiler we use, so install that first. If your operating system's
package system doesn't provide a binary version of GHC, you can find
them here:
http://haskell.org/ghc
For example, in Debian you would install GHC with:
apt-get install ghc6
It shouldn't be necessary to compile GHC from source -- every common
system has a pre-build binary version.
* X11 libraries:
Since you're building an X application, you'll need the C X11
library headers. On many platforms, these come pre-installed. For
others, such as Debian, you can get them from your package manager:
apt-get install libx11-dev
Typically you need: libXinerama libXext libX11
* Cabal
xmonad requires a recent version of Cabal, >= 1.2.0. If you're using
GHC 6.8, then it comes bundled with the right version. If you're
using GHC 6.6.x, you'll need to build and install Cabal from hackage
first:
http://hackage.haskell.org/cgi-bin/hackage-scripts/package/Cabal
You can check which version you have with the command:
$ ghc-pkg list Cabal
Cabal-1.2.2.0
* Haskell libraries: mtl, unix, X11
Finally, you need the Haskell libraries xmonad depends on. Since
you've a working GHC installation now, most of these will be
provided. To check whether you've got a package run 'ghc-pkg list
some_package_name'. You will need the following packages:
mtl http://hackage.haskell.org/cgi-bin/hackage-scripts/package/mtl-1.0
unix http://hackage.haskell.org/cgi-bin/hackage-scripts/package/unix-2.0
X11 http://hackage.haskell.org/cgi-bin/hackage-scripts/package/X11-1.4.1
* Build xmonad:
Once you've got all the dependencies in place (which should be
straightforward), build xmonad:
runhaskell Setup.lhs configure --user --prefix=$HOME
runhaskell Setup.lhs build
runhaskell Setup.lhs install --user
And you're done!
------------------------------------------------------------------------
Notes for using the darcs version
If you're building the darcs version of xmonad, be sure to also
use the darcs version of the X11 library, which is developed
concurrently with xmonad.
darcs get http://darcs.haskell.org/X11
Not using X11 from darcs is the most common reason for the
darcs version of xmonad to fail to build.
------------------------------------------------------------------------
Running xmonad:
Add:
$HOME/bin/xmonad
to the last line of your .xsession or .xinitrc file.
------------------------------------------------------------------------
Configuring:
See the CONFIG document
------------------------------------------------------------------------
XMonadContrib
There are many extensions to xmonad available in the XMonadContrib
(xmc) library. Examples include an ion3-like tabbed layout, a
prompt/program launcher, and various other useful modules.
XMonadContrib is available at:
0.5 release: http://hackage.haskell.org/cgi-bin/hackage-scripts/package/xmonad-contrib-0.5
darcs version: darcs get http://code.haskell.org/XMonadContrib
------------------------------------------------------------------------
Other useful programs:
A nicer xterm replacment, that supports resizing better:
urxvt http://software.schmorp.de/pkg/rxvt-unicode.html
For custom status bars:
dzen http://gotmor.googlepages.com/dzen
xmobar http://hackage.haskell.org/cgi-bin/hackage-scripts/package/xmobar
For a program dispatch menu:
dmenu http://www.suckless.org/download/
gmrun (in your package system)
Authors:
Spencer Janssen
Don Stewart
Jason Creighton

129
README.md Normal file
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@@ -0,0 +1,129 @@
# xmonad: A Tiling Window Manager
[![Build Status](https://travis-ci.org/xmonad/xmonad.svg?branch=master)](https://travis-ci.org/xmonad/xmonad)
[xmonad][] is a tiling window manager for X. Windows are arranged
automatically to tile the screen without gaps or overlap, maximising
screen use. Window manager features are accessible from the keyboard:
a mouse is optional. xmonad is written, configured and extensible in
Haskell. Custom layout algorithms, key bindings and other extensions
may be written by the user in config files. Layouts are applied
dynamically, and different layouts may be used on each
workspace. Xinerama is fully supported, allowing windows to be tiled
on several physical screens.
## Quick Start
* From hackage:
cabal update
cabal install xmonad xmonad-contrib
* Alternatively, build from source using the following repositories:
- <https://github.com/xmonad/xmonad>
- <https://github.com/xmonad/xmonad-contrib>
For the full story, read on.
## Building
Building is quite straightforward, and requires a basic Haskell toolchain.
On many systems xmonad is available as a binary package in your
package system (e.g. on Debian or Gentoo). If at all possible, use this
in preference to a source build, as the dependency resolution will be
simpler.
We'll now walk through the complete list of toolchain dependencies.
* GHC: the Glasgow Haskell Compiler
You first need a Haskell compiler. Your distribution's package
system will have binaries of GHC (the Glasgow Haskell Compiler),
the compiler we use, so install that first. If your operating
system's package system doesn't provide a binary version of GHC
and the `cabal-install` tool, you can install both using the
[Haskell Platform][platform].
It shouldn't be necessary to compile GHC from source -- every common
system has a pre-build binary version. However, if you want to
build from source, the following links will be helpful:
- GHC: <http://haskell.org/ghc/>
- Cabal: <http://haskell.org/cabal/download.html>
* X11 libraries:
Since you're building an X application, you'll need the C X11
library headers. On many platforms, these come pre-installed. For
others, such as Debian, you can get them from your package manager:
# for xmonad
$ apt-get install libx11-dev libxinerama-dev libxext-dev libxrandr-dev libxss-dev
# for xmonad-contrib
$ apt-get install libxft-dev
Then build and install with:
$ cabal install
## Running xmonad
If you built XMonad using `cabal` then add:
exec $HOME/.cabal/bin/xmonad
to the last line of your `.xsession` or `.xinitrc` file.
## Configuring
See the [CONFIG][] document and the [example configuration file][example-config].
## XMonadContrib
There are many extensions to xmonad available in the XMonadContrib
(xmc) library. Examples include an ion3-like tabbed layout, a
prompt/program launcher, and various other useful modules.
XMonadContrib is available at:
* Latest release: <http://hackage.haskell.org/package/xmonad-contrib>
* Git version: <https://github.com/xmonad/xmonad-contrib>
## Other Useful Programs
A nicer xterm replacement, that supports resizing better:
* urxvt: <http://software.schmorp.de/pkg/rxvt-unicode.html>
For custom status bars:
* xmobar: <http://hackage.haskell.org/package/xmobar>
* taffybar: <https://github.com/travitch/taffybar>
* dzen: <http://gotmor.googlepages.com/dzen>
For a program dispatch menu:
* [XMonad.Prompt.Shell][xmc-prompt-shell]: (from [XMonadContrib][])
* dmenu: <http://www.suckless.org/download/>
* gmrun: (in your package system)
## Authors
* Spencer Janssen
* Don Stewart
* Jason Creighton
[xmonad]: http://xmonad.org
[xmonadcontrib]: https://hackage.haskell.org/package/xmonad-contrib
[xmc-prompt-shell]: https://hackage.haskell.org/package/xmonad-contrib/docs/XMonad-Prompt-Shell.html
[platform]: http://haskell.org/platform/
[example-config]: https://github.com/xmonad/xmonad-testing/blob/master/example-config.hs
[config]: https://github.com/xmonad/xmonad/blob/master/CONFIG

9
STYLE
View File

@@ -2,20 +2,21 @@
== Coding guidelines for contributing to
== xmonad and the xmonad contributed extensions
* Comment every top level function (particularly exported funtions), and
* Comment every top level function (particularly exported functions), 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.
* Code should be compilable with -Wall -Werror -fno-warn-unused-do-bind -fwarn-tabs.
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.
* Use 4 spaces for indenting.
* Any pure function added to the core should have QuickCheck properties
precisely defining its behaviour.
precisely defining its behavior.
* New modules should identify the author, and be submitted under
the same license as xmonad (BSD3 license or freer).

20
TODO
View File

@@ -1,20 +0,0 @@
- Write down invariants for the window life cycle, especially:
- When are borders set? Prove that the current handling is sufficient.
- current floating layer handling is unoptimal. FocusUp should raise,
for example
- Issues still with stacking order.
= Release management =
* configuration documentation
* generate haddocks for core and XMC, upload to xmonad.org
* generate manpage, generate html manpage
* double check README build instructions
* test core with 6.6 and 6.8
* bump xmonad.cabal version and X11 version
* upload X11 and xmonad to hackage
* check examples/text in user-facing Config.hs
* check tour.html and intro.html are up to date, and mention all core bindings

391
XMonad/Core.hs
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@@ -1,391 +0,0 @@
{-# LANGUAGE ExistentialQuantification, FlexibleInstances, GeneralizedNewtypeDeriving,
MultiParamTypeClasses, TypeSynonymInstances #-}
-- required for deriving Typeable
{-# OPTIONS_GHC -fglasgow-exts #-}
-----------------------------------------------------------------------------
-- |
-- Module : XMonad.Core
-- Copyright : (c) Spencer Janssen 2007
-- License : BSD3-style (see LICENSE)
--
-- Maintainer : sjanssen@cse.unl.edu
-- Stability : unstable
-- Portability : not portable, uses cunning newtype deriving
--
-- The X monad, a state monad transformer over IO, for the window
-- manager state, and support routines.
--
-----------------------------------------------------------------------------
module XMonad.Core (
X, WindowSet, WindowSpace, WorkspaceId,
ScreenId(..), ScreenDetail(..), XState(..),
XConf(..), XConfig(..), LayoutClass(..),
Layout(..), readsLayout, Typeable, Message,
SomeMessage(..), fromMessage, runLayout, LayoutMessages(..),
runX, catchX, userCode, io, catchIO, doubleFork,
withDisplay, withWindowSet, isRoot, runOnWorkspaces, broadcastMessage,
getAtom, spawn, restart, getXMonadDir, recompile, trace, whenJust, whenX,
atom_WM_STATE, atom_WM_PROTOCOLS, atom_WM_DELETE_WINDOW, ManageHook, Query(..), runManageHook
) where
import XMonad.StackSet hiding (modify)
import Prelude hiding ( catch )
import Control.Exception (catch, bracket, throw, Exception(ExitException))
import Control.Applicative
import Control.Monad.State
import Control.Monad.Reader
import System.IO
import System.Info
import System.Posix.Process (executeFile, forkProcess, getProcessStatus, createSession)
import System.Process
import System.Directory
import System.Exit
import Graphics.X11.Xlib
import Graphics.X11.Xlib.Extras (Event)
import Data.Typeable
import Data.Monoid
import qualified Data.Map as M
import qualified Data.Set as S
-- | XState, the window manager state.
-- Just the display, width, height and a window list
data XState = XState
{ windowset :: !WindowSet -- ^ workspace list
, mapped :: !(S.Set Window) -- ^ the Set of mapped windows
, waitingUnmap :: !(M.Map Window Int) -- ^ the number of expected UnmapEvents
, dragging :: !(Maybe (Position -> Position -> X (), X ())) }
data XConf = XConf
{ display :: Display -- ^ the X11 display
, config :: !(XConfig Layout) -- ^ initial user configuration
, theRoot :: !Window -- ^ the root window
, normalBorder :: !Pixel -- ^ border color of unfocused windows
, focusedBorder :: !Pixel -- ^ border color of the focused window
, keyActions :: !(M.Map (KeyMask, KeySym) (X ()))
-- ^ a mapping of key presses to actions
, buttonActions :: !(M.Map (KeyMask, Button) (Window -> X ()))
-- ^ a mapping of button presses to actions
}
-- todo, better name
data XConfig l = XConfig
{ normalBorderColor :: !String -- ^ Non focused windows border color. Default: \"#dddddd\"
, focusedBorderColor :: !String -- ^ Focused windows border color. Default: \"#ff0000\"
, terminal :: !String -- ^ The preferred terminal application. Default: \"xterm\"
, layoutHook :: !(l Window) -- ^ The available layouts
, manageHook :: !ManageHook -- ^ The action to run when a new window is opened
, workspaces :: ![String] -- ^ The list of workspaces' names
, defaultGaps :: ![(Int,Int,Int,Int)] -- ^ The list of gaps, per screen
, numlockMask :: !KeyMask -- ^ The numlock modifier
, modMask :: !KeyMask -- ^ the mod modifier
, keys :: !(XConfig Layout -> M.Map (ButtonMask,KeySym) (X ()))
-- ^ The key binding: a map from key presses and actions
, mouseBindings :: !(XConfig Layout -> M.Map (ButtonMask, Button) (Window -> X ()))
-- ^ The mouse bindings
, borderWidth :: !Dimension -- ^ The border width
, logHook :: !(X ()) -- ^ The action to perform when the windows set is changed
, focusFollowsMouse :: !Bool -- ^ Whether window entry events can change focus
}
type WindowSet = StackSet WorkspaceId (Layout Window) Window ScreenId ScreenDetail
type WindowSpace = Workspace WorkspaceId (Layout Window) Window
-- | Virtual workspace indicies
type WorkspaceId = String
-- | Physical screen indicies
newtype ScreenId = S Int deriving (Eq,Ord,Show,Read,Enum,Num,Integral,Real)
-- | The 'Rectangle' with screen dimensions and the list of gaps
data ScreenDetail = SD { screenRect :: !Rectangle
, statusGap :: !(Int,Int,Int,Int) -- ^ width of status bar on the screen
} deriving (Eq,Show, Read)
------------------------------------------------------------------------
-- | The X monad, a StateT transformer over IO encapsulating the window
-- manager state
--
-- Dynamic components may be retrieved with 'get', static components
-- with 'ask'. With newtype deriving we get readers and state monads
-- instantiated on XConf and XState automatically.
--
newtype X a = X (ReaderT XConf (StateT XState IO) a)
#ifndef __HADDOCK__
deriving (Functor, Monad, MonadIO, MonadState XState, MonadReader XConf)
#endif
instance (Monoid a) => Monoid (X a) where
mempty = return mempty
mappend = liftM2 mappend
type ManageHook = Query (Endo WindowSet)
newtype Query a = Query (ReaderT Window X a)
#ifndef __HADDOCK__
deriving (Functor, Monad, MonadReader Window, MonadIO)
#endif
runManageHook :: ManageHook -> Window -> X (WindowSet -> WindowSet)
runManageHook (Query m) w = appEndo <$> runReaderT m w
instance Monoid a => Monoid (Query a) where
mempty = return mempty
mappend = liftM2 mappend
-- | Run the X monad, given a chunk of X monad code, and an initial state
-- Return the result, and final state
runX :: XConf -> XState -> X a -> IO (a, XState)
runX c st (X a) = runStateT (runReaderT a c) st
-- | Run in the X monad, and in case of exception, and catch it and log it
-- to stderr, and run the error case.
catchX :: X a -> X a -> X a
catchX job errcase = do
st <- get
c <- ask
(a, s') <- io $ runX c st job `catch` \e -> case e of
ExitException {} -> throw e
_ -> do hPrint stderr e; runX c st errcase
put s'
return a
-- | Execute the argument, catching all exceptions. Either this function or
-- catchX should be used at all callsites of user customized code.
userCode :: X () -> X ()
userCode a = catchX (a >> return ()) (return ())
-- ---------------------------------------------------------------------
-- Convenient wrappers to state
-- | Run a monad action with the current display settings
withDisplay :: (Display -> X a) -> X a
withDisplay f = asks display >>= f
-- | Run a monadic action with the current stack set
withWindowSet :: (WindowSet -> X a) -> X a
withWindowSet f = gets windowset >>= f
-- | True if the given window is the root window
isRoot :: Window -> X Bool
isRoot w = (w==) <$> asks theRoot
-- | Wrapper for the common case of atom internment
getAtom :: String -> X Atom
getAtom str = withDisplay $ \dpy -> io $ internAtom dpy str False
-- | Common non-predefined atoms
atom_WM_PROTOCOLS, atom_WM_DELETE_WINDOW, atom_WM_STATE :: X Atom
atom_WM_PROTOCOLS = getAtom "WM_PROTOCOLS"
atom_WM_DELETE_WINDOW = getAtom "WM_DELETE_WINDOW"
atom_WM_STATE = getAtom "WM_STATE"
------------------------------------------------------------------------
-- | LayoutClass handling. See particular instances in Operations.hs
-- | An existential type that can hold any object that is in Read and LayoutClass.
data Layout a = forall l. (LayoutClass l a, Read (l a)) => Layout (l a)
-- | Using the 'Layout' as a witness, parse existentially wrapped windows
-- from a 'String'
readsLayout :: Layout a -> String -> [(Layout a, String)]
readsLayout (Layout l) s = [(Layout (asTypeOf x l), rs) | (x, rs) <- reads s]
-- | The different layout modes
--
-- 'doLayout': given a Rectangle and a Stack, layout the stack elements
-- inside the given Rectangle. If an element is not given a Rectangle
-- by 'doLayout', then it is not shown on screen. Windows are restacked
-- according to the order they are returned by 'doLayout'.
--
class Show (layout a) => LayoutClass layout a where
-- | Given a Rectangle in which to place the windows, and a Stack of
-- windows, return a list of windows and their corresponding Rectangles.
-- The order of windows in this list should be the desired stacking order.
-- Also return a modified layout, if this layout needs to be modified
-- (e.g. if we keep track of the windows we have displayed).
doLayout :: layout a -> Rectangle -> Stack a -> X ([(a, Rectangle)], Maybe (layout a))
doLayout l r s = return (pureLayout l r s, Nothing)
-- | This is a pure version of doLayout, for cases where we don't need
-- access to the X monad to determine how to layout the windows, and
-- we don't need to modify our layout itself.
pureLayout :: layout a -> Rectangle -> Stack a -> [(a, Rectangle)]
pureLayout _ r s = [(focus s, r)]
-- | 'handleMessage' performs message handling for that layout. If
-- 'handleMessage' returns Nothing, then the layout did not respond to
-- that message and the screen is not refreshed. Otherwise, 'handleMessage'
-- returns an updated 'Layout' and the screen is refreshed.
--
handleMessage :: layout a -> SomeMessage -> X (Maybe (layout a))
handleMessage l = return . pureMessage l
-- | Respond to a message by (possibly) changing our layout, but taking
-- no other action. If the layout changes, the screen will be refreshed.
pureMessage :: layout a -> SomeMessage -> Maybe (layout a)
pureMessage _ _ = Nothing
-- | This should be a human-readable string that is used when selecting
-- layouts by name.
description :: layout a -> String
description = show
instance LayoutClass Layout Window where
doLayout (Layout l) r s = fmap (fmap Layout) `fmap` doLayout l r s
handleMessage (Layout l) = fmap (fmap Layout) . handleMessage l
description (Layout l) = description l
instance Show (Layout a) where show (Layout l) = show l
-- | This calls doLayout if there are any windows to be laid out.
runLayout :: LayoutClass l a => l a -> Rectangle -> Maybe (Stack a) -> X ([(a, Rectangle)], Maybe (l a))
runLayout l r = maybe (return ([], Nothing)) (doLayout l r)
-- | Based on ideas in /An Extensible Dynamically-Typed Hierarchy of Exceptions/,
-- Simon Marlow, 2006. Use extensible messages to the handleMessage handler.
--
-- User-extensible messages must be a member of this class.
--
class Typeable a => Message a
-- |
-- A wrapped value of some type in the Message class.
--
data SomeMessage = forall a. Message a => SomeMessage a
-- |
-- And now, unwrap a given, unknown Message type, performing a (dynamic)
-- type check on the result.
--
fromMessage :: Message m => SomeMessage -> Maybe m
fromMessage (SomeMessage m) = cast m
-- | X Events are valid Messages
instance Message Event
-- | LayoutMessages are core messages that all layouts (especially stateful
-- layouts) should consider handling.
data LayoutMessages = Hide -- ^ sent when a layout becomes non-visible
| ReleaseResources -- ^ sent when xmonad is exiting or restarting
deriving (Typeable, Eq)
instance Message LayoutMessages
-- ---------------------------------------------------------------------
-- | General utilities
--
-- Lift an IO action into the X monad
io :: MonadIO m => IO a -> m a
io = liftIO
-- | Lift an IO action into the X monad. If the action results in an IO
-- exception, log the exception to stderr and continue normal execution.
catchIO :: IO () -> X ()
catchIO f = io (f `catch` \e -> hPrint stderr e >> hFlush stderr)
-- | spawn. Launch an external application
spawn :: MonadIO m => String -> m ()
spawn x = doubleFork $ executeFile "/bin/sh" False ["-c", x] Nothing
-- | Double fork and execute an IO action (usually one of the exec family of
-- functions)
doubleFork :: MonadIO m => IO () -> m ()
doubleFork m = io $ do
pid <- forkProcess $ do
forkProcess (createSession >> m)
exitWith ExitSuccess
getProcessStatus True False pid
return ()
-- | Send a message to all visible layouts, without necessarily refreshing.
-- This is how we implement the hooks, such as UnDoLayout.
broadcastMessage :: Message a => a -> X ()
broadcastMessage a = runOnWorkspaces $ \w -> do
ml' <- handleMessage (layout w) (SomeMessage a) `catchX` return Nothing
return $ w { layout = maybe (layout w) id ml' }
-- | This is basically a map function, running a function in the X monad on
-- each workspace with the output of that function being the modified workspace.
runOnWorkspaces :: (WindowSpace -> X WindowSpace) -> X ()
runOnWorkspaces job = do
ws <- gets windowset
h <- mapM job $ hidden ws
c:v <- mapM (\s -> (\w -> s { workspace = w}) <$> job (workspace s))
$ current ws : visible ws
modify $ \s -> s { windowset = ws { current = c, visible = v, hidden = h } }
-- | @restart name resume@. Attempt to restart xmonad by executing the program
-- @name@. If @resume@ is 'True', restart with the current window state.
-- When executing another window manager, @resume@ should be 'False'.
--
restart :: String -> Bool -> X ()
restart prog resume = do
broadcastMessage ReleaseResources
io . flush =<< asks display
args <- if resume then gets (("--resume":) . return . showWs . windowset) else return []
catchIO (executeFile prog True args Nothing)
where showWs = show . mapLayout show
-- | Return the path to @~\/.xmonad@.
getXMonadDir :: MonadIO m => m String
getXMonadDir = io $ getAppUserDataDirectory "xmonad"
-- | 'recompile force', recompile ~\/.xmonad\/xmonad.hs when any of the
-- following apply:
-- * force is True
-- * the xmonad executable does not exist
-- * the xmonad executable is older than xmonad.hs
--
-- The -i flag is used to restrict recompilation to the xmonad.hs file only.
--
-- Compilation errors (if any) are logged to ~\/.xmonad\/xmonad.errors. If
-- GHC indicates failure with a non-zero exit code, an xmessage displaying
-- that file is spawned.
--
-- False is returned if there is compilation errors.
--
recompile :: MonadIO m => Bool -> m Bool
recompile force = io $ do
dir <- getXMonadDir
let binn = "xmonad-"++arch++"-"++os
bin = dir ++ "/" ++ binn
base = dir ++ "/" ++ "xmonad"
err = base ++ ".errors"
src = base ++ ".hs"
srcT <- getModTime src
binT <- getModTime bin
if (force || srcT > binT)
then do
status <- bracket (openFile err WriteMode) hClose $ \h -> do
waitForProcess =<< runProcess "ghc" ["--make", "xmonad.hs", "-i", "-no-recomp", "-v0", "-o",binn] (Just dir)
Nothing Nothing Nothing (Just h)
-- now, if it fails, run xmessage to let the user know:
when (status /= ExitSuccess) $ do
ghcErr <- readFile err
let msg = unlines $
["Error detected while loading xmonad configuration file: " ++ src]
++ lines ghcErr ++ ["","Please check the file for errors."]
doubleFork $ executeFile "xmessage" True [msg] Nothing
return (status == ExitSuccess)
else return True
where getModTime f = catch (Just <$> getModificationTime f) (const $ return Nothing)
-- | Run a side effecting action with the current workspace. Like 'when' but
whenJust :: Monad m => Maybe a -> (a -> m ()) -> m ()
whenJust mg f = maybe (return ()) f mg
-- | Conditionally run an action, using a X event to decide
whenX :: X Bool -> X () -> X ()
whenX a f = a >>= \b -> when b f
-- | A 'trace' for the X monad. Logs a string to stderr. The result may
-- be found in your .xsession-errors file
trace :: MonadIO m => String -> m ()
trace = io . hPutStrLn stderr

175
XMonad/Layout.hs
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@@ -1,175 +0,0 @@
{-# OPTIONS_GHC -fglasgow-exts #-} -- For deriving Data/Typeable
{-# LANGUAGE FlexibleInstances, MultiParamTypeClasses, PatternGuards, TypeSynonymInstances #-}
-- --------------------------------------------------------------------------
-- |
-- Module : XMonad.Layout
-- Copyright : (c) Spencer Janssen 2007
-- License : BSD3-style (see LICENSE)
--
-- Maintainer : sjanssen@cse.unl.edu
-- Stability : unstable
-- Portability : not portable, Typeable deriving, mtl, posix
--
-- The collection of core layouts.
--
-----------------------------------------------------------------------------
module XMonad.Layout (ChangeLayout(..), Choose, (|||), Resize(..), IncMasterN(..),
Full(..), Tall(..), Mirror(..), mirrorRect, splitVertically,
splitHorizontally, splitHorizontallyBy, splitVerticallyBy) where
import XMonad.Core
import Graphics.X11 (Rectangle(..))
import qualified XMonad.StackSet as W
import Control.Arrow ((***), second)
import Control.Monad
import Data.Maybe (fromMaybe)
------------------------------------------------------------------------
-- LayoutClass selection manager
-- | A layout that allows users to switch between various layout options.
-- | Messages to change the current layout.
data ChangeLayout = FirstLayout | NextLayout deriving (Eq, Show, Typeable)
instance Message ChangeLayout
-- | The layout choice combinator
(|||) :: (LayoutClass l a, LayoutClass r a) => l a -> r a -> Choose l r a
(|||) = flip SLeft
infixr 5 |||
data Choose l r a = SLeft (r a) (l a)
| SRight (l a) (r a) deriving (Read, Show)
data NextNoWrap = NextNoWrap deriving (Eq, Show, Typeable)
instance Message NextNoWrap
-- This has lots of pseudo duplicated code, we must find a better way
instance (LayoutClass l a, LayoutClass r a) => LayoutClass (Choose l r) a where
doLayout (SLeft r l) = (fmap (second . fmap $ SLeft r) .) . doLayout l
doLayout (SRight l r) = (fmap (second . fmap $ SRight l) .) . doLayout r
description (SLeft _ l) = description l
description (SRight _ r) = description r
handleMessage lr m | Just FirstLayout <- fromMessage m = case lr of
SLeft {} -> return Nothing
SRight l r -> fmap (Just . flip SLeft l . fromMaybe r)
$ handleMessage r (SomeMessage Hide)
handleMessage lr m | Just NextLayout <- fromMessage m = do
mlr <- handleMessage lr $ SomeMessage NextNoWrap
maybe (handleMessage lr $ SomeMessage FirstLayout) (return . Just) mlr
handleMessage (SLeft r l) m | Just NextNoWrap <- fromMessage m = do
handleMessage l (SomeMessage Hide)
mr <- handleMessage r (SomeMessage FirstLayout)
return . Just . SRight l $ fromMaybe r mr
handleMessage lr m | Just ReleaseResources <- fromMessage m =
liftM2 ((Just .) . cons)
(fmap (fromMaybe l) $ handleMessage l m)
(fmap (fromMaybe r) $ handleMessage r m)
where (cons, l, r) = case lr of
(SLeft r' l') -> (flip SLeft, l', r')
(SRight l' r') -> (SRight, l', r')
-- The default cases for left and right:
handleMessage (SLeft r l) m = fmap (fmap $ SLeft r) $ handleMessage l m
handleMessage (SRight l r) m = fmap (fmap $ SRight l) $ handleMessage r m
--
-- | Builtin layout algorithms:
--
-- > fullscreen mode
-- > tall mode
--
-- The latter algorithms support the following operations:
--
-- > Shrink
-- > Expand
--
data Resize = Shrink | Expand deriving Typeable
-- | You can also increase the number of clients in the master pane
data IncMasterN = IncMasterN Int deriving Typeable
instance Message Resize
instance Message IncMasterN
-- | Simple fullscreen mode, just render all windows fullscreen.
data Full a = Full deriving (Show, Read)
instance LayoutClass Full a
-- | The inbuilt tiling mode of xmonad, and its operations.
data Tall a = Tall Int Rational Rational deriving (Show, Read)
instance LayoutClass Tall a where
pureLayout (Tall nmaster _ frac) r s = zip ws rs
where ws = W.integrate s
rs = tile frac r nmaster (length ws)
pureMessage (Tall nmaster delta frac) m = msum [fmap resize (fromMessage m)
,fmap incmastern (fromMessage m)]
where resize Shrink = Tall nmaster delta (max 0 $ frac-delta)
resize Expand = Tall nmaster delta (min 1 $ frac+delta)
incmastern (IncMasterN d) = Tall (max 0 (nmaster+d)) delta frac
description _ = "Tall"
-- | Mirror a rectangle
mirrorRect :: Rectangle -> Rectangle
mirrorRect (Rectangle rx ry rw rh) = (Rectangle ry rx rh rw)
-- | Mirror a layout, compute its 90 degree rotated form.
data Mirror l a = Mirror (l a) deriving (Show, Read)
instance LayoutClass l a => LayoutClass (Mirror l) a where
doLayout (Mirror l) r s = (map (second mirrorRect) *** fmap Mirror)
`fmap` doLayout l (mirrorRect r) s
handleMessage (Mirror l) = fmap (fmap Mirror) . handleMessage l
description (Mirror l) = "Mirror "++ description l
-- | tile. Compute the positions for windows using the default 2 pane tiling algorithm.
--
-- The screen is divided (currently) into two panes. all clients are
-- then partioned between these two panes. one pane, the `master', by
-- convention has the least number of windows in it (by default, 1).
-- the variable `nmaster' controls how many windows are rendered in the
-- master pane.
--
-- `delta' specifies the ratio of the screen to resize by.
--
-- 'frac' specifies what proportion of the screen to devote to the
-- master area.
--
tile :: Rational -> Rectangle -> Int -> Int -> [Rectangle]
tile f r nmaster n = if n <= nmaster || nmaster == 0
then splitVertically n r
else splitVertically nmaster r1 ++ splitVertically (n-nmaster) r2 -- two columns
where (r1,r2) = splitHorizontallyBy f r
--
-- Divide the screen vertically into n subrectangles
--
splitVertically, splitHorizontally :: Int -> Rectangle -> [Rectangle]
splitVertically n r | n < 2 = [r]
splitVertically n (Rectangle sx sy sw sh) = Rectangle sx sy sw smallh :
splitVertically (n-1) (Rectangle sx (sy+fromIntegral smallh) sw (sh-smallh))
where smallh = sh `div` fromIntegral n --hmm, this is a fold or map.
splitHorizontally n = map mirrorRect . splitVertically n . mirrorRect
-- Divide the screen into two rectangles, using a rational to specify the ratio
splitHorizontallyBy, splitVerticallyBy :: RealFrac r => r -> Rectangle -> (Rectangle, Rectangle)
splitHorizontallyBy f (Rectangle sx sy sw sh) =
( Rectangle sx sy leftw sh
, Rectangle (sx + fromIntegral leftw) sy (sw-fromIntegral leftw) sh)
where leftw = floor $ fromIntegral sw * f
splitVerticallyBy f = (mirrorRect *** mirrorRect) . splitHorizontallyBy f . mirrorRect

284
XMonad/Main.hs
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@@ -1,284 +0,0 @@
{-# LANGUAGE MultiParamTypeClasses, FlexibleContexts #-}
----------------------------------------------------------------------------
-- |
-- Module : XMonad.Main
-- Copyright : (c) Spencer Janssen 2007
-- License : BSD3-style (see LICENSE)
--
-- Maintainer : sjanssen@cse.unl.edu
-- Stability : unstable
-- Portability : not portable, uses mtl, X11, posix
--
-- xmonad, a minimalist, tiling window manager for X11
--
-----------------------------------------------------------------------------
module XMonad.Main (xmonad) where
import Data.Bits
import qualified Data.Map as M
import qualified Data.Set as S
import Control.Monad.Reader
import Control.Monad.State
import Data.Maybe (fromMaybe)
import System.Environment (getArgs)
import Graphics.X11.Xlib hiding (refreshKeyboardMapping)
import Graphics.X11.Xlib.Extras
import XMonad.Core
import XMonad.StackSet (new, floating, member)
import qualified XMonad.StackSet as W
import XMonad.Operations
import System.IO
-- |
-- The main entry point
--
xmonad :: (LayoutClass l Window, Read (l Window)) => XConfig l -> IO ()
xmonad initxmc = do
-- First, wrap the layout in an existential, to keep things pretty:
let xmc = initxmc { layoutHook = Layout $ layoutHook initxmc }
dpy <- openDisplay ""
let dflt = defaultScreen dpy
rootw <- rootWindow dpy dflt
xinesc <- getCleanedScreenInfo dpy
nbc <- initColor dpy $ normalBorderColor xmc
fbc <- initColor dpy $ focusedBorderColor xmc
hSetBuffering stdout NoBuffering
args <- getArgs
let layout = layoutHook xmc
lreads = readsLayout layout
initialWinset = new layout (workspaces xmc) $ zipWith SD xinesc gaps
maybeRead reads' s = case reads' s of
[(x, "")] -> Just x
_ -> Nothing
winset = fromMaybe initialWinset $ do
("--resume" : s : _) <- return args
ws <- maybeRead reads s
return . W.ensureTags layout (workspaces xmc)
$ W.mapLayout (fromMaybe layout . maybeRead lreads) ws
gaps = take (length xinesc) $ defaultGaps xmc ++ repeat (0,0,0,0)
cf = XConf
{ display = dpy
, config = xmc
, theRoot = rootw
, normalBorder = nbc
, focusedBorder = fbc
, keyActions = keys xmc xmc
, buttonActions = mouseBindings xmc xmc }
st = XState
{ windowset = initialWinset
, mapped = S.empty
, waitingUnmap = M.empty
, dragging = Nothing }
xSetErrorHandler -- in C, I'm too lazy to write the binding: dons
-- setup initial X environment
sync dpy False
selectInput dpy rootw $ substructureRedirectMask .|. substructureNotifyMask
.|. enterWindowMask .|. leaveWindowMask .|. structureNotifyMask
allocaXEvent $ \e ->
runX cf st $ do
grabKeys
grabButtons
io $ sync dpy False
-- bootstrap the windowset, Operations.windows will identify all
-- the windows in winset as new and set initial properties for
-- those windows
windows (const winset)
-- scan for all top-level windows, add the unmanaged ones to the
-- windowset
ws <- io $ scan dpy rootw
mapM_ manage ws
-- main loop, for all you HOF/recursion fans out there.
forever_ $ handle =<< io (nextEvent dpy e >> getEvent e)
return ()
where forever_ a = a >> forever_ a
-- ---------------------------------------------------------------------
-- | Event handler. Map X events onto calls into Operations.hs, which
-- modify our internal model of the window manager state.
--
-- Events dwm handles that we don't:
--
-- [ButtonPress] = buttonpress,
-- [Expose] = expose,
-- [PropertyNotify] = propertynotify,
--
handle :: Event -> X ()
-- run window manager command
handle (KeyEvent {ev_event_type = t, ev_state = m, ev_keycode = code})
| t == keyPress = withDisplay $ \dpy -> do
s <- io $ keycodeToKeysym dpy code 0
mClean <- cleanMask m
ks <- asks keyActions
userCode $ whenJust (M.lookup (mClean, s) ks) id
-- manage a new window
handle (MapRequestEvent {ev_window = w}) = withDisplay $ \dpy -> do
wa <- io $ getWindowAttributes dpy w -- ignore override windows
-- need to ignore mapping requests by managed windows not on the current workspace
managed <- isClient w
when (not (wa_override_redirect wa) && not managed) $ do manage w
-- window destroyed, unmanage it
-- window gone, unmanage it
handle (DestroyWindowEvent {ev_window = w}) = whenX (isClient w) $ do
unmanage w
modify (\s -> s { mapped = S.delete w (mapped s)
, waitingUnmap = M.delete w (waitingUnmap s)})
-- We track expected unmap events in waitingUnmap. We ignore this event unless
-- it is synthetic or we are not expecting an unmap notification from a window.
handle (UnmapEvent {ev_window = w, ev_send_event = synthetic}) = whenX (isClient w) $ do
e <- gets (fromMaybe 0 . M.lookup w . waitingUnmap)
if (synthetic || e == 0)
then unmanage w
else modify (\s -> s { waitingUnmap = M.update mpred w (waitingUnmap s) })
where mpred 1 = Nothing
mpred n = Just $ pred n
-- set keyboard mapping
handle e@(MappingNotifyEvent {}) = do
io $ refreshKeyboardMapping e
when (ev_request e == mappingKeyboard) grabKeys
-- handle button release, which may finish dragging.
handle e@(ButtonEvent {ev_event_type = t})
| t == buttonRelease = do
drag <- gets dragging
case drag of
-- we're done dragging and have released the mouse:
Just (_,f) -> modify (\s -> s { dragging = Nothing }) >> f
Nothing -> broadcastMessage e
-- handle motionNotify event, which may mean we are dragging.
handle e@(MotionEvent {ev_event_type = _t, ev_x = x, ev_y = y}) = do
drag <- gets dragging
case drag of
Just (d,_) -> d (fromIntegral x) (fromIntegral y) -- we're dragging
Nothing -> broadcastMessage e
-- click on an unfocused window, makes it focused on this workspace
handle e@(ButtonEvent {ev_window = w,ev_event_type = t,ev_button = b })
| t == buttonPress = do
-- If it's the root window, then it's something we
-- grabbed in grabButtons. Otherwise, it's click-to-focus.
isr <- isRoot w
m <- cleanMask $ ev_state e
ba <- asks buttonActions
if isr then userCode $ whenJust (M.lookup (m, b) ba) ($ ev_subwindow e)
else focus w
broadcastMessage e -- Always send button events.
-- entered a normal window, makes this focused.
handle e@(CrossingEvent {ev_window = w, ev_event_type = t})
| t == enterNotify && ev_mode e == notifyNormal
&& ev_detail e /= notifyInferior
= whenX (asks $ focusFollowsMouse . config) (focus w)
-- left a window, check if we need to focus root
handle e@(CrossingEvent {ev_event_type = t})
| t == leaveNotify
= do rootw <- asks theRoot
when (ev_window e == rootw && not (ev_same_screen e)) $ setFocusX rootw
-- configure a window
handle e@(ConfigureRequestEvent {ev_window = w}) = withDisplay $ \dpy -> do
ws <- gets windowset
wa <- io $ getWindowAttributes dpy w
bw <- asks (borderWidth . config)
if M.member w (floating ws)
|| not (member w ws)
then do io $ configureWindow dpy w (ev_value_mask e) $ WindowChanges
{ wc_x = ev_x e
, wc_y = ev_y e
, wc_width = ev_width e
, wc_height = ev_height e
, wc_border_width = fromIntegral bw
, wc_sibling = ev_above e
, wc_stack_mode = ev_detail e }
when (member w ws) (float w)
else io $ allocaXEvent $ \ev -> do
setEventType ev configureNotify
setConfigureEvent ev w w
(wa_x wa) (wa_y wa) (wa_width wa)
(wa_height wa) (ev_border_width e) none (wa_override_redirect wa)
sendEvent dpy w False 0 ev
io $ sync dpy False
-- configuration changes in the root may mean display settings have changed
handle (ConfigureEvent {ev_window = w}) = whenX (isRoot w) rescreen
-- property notify
handle PropertyEvent { ev_event_type = t, ev_atom = a }
| t == propertyNotify && a == wM_NAME = userCode =<< asks (logHook . config)
handle e = broadcastMessage e -- trace (eventName e) -- ignoring
-- ---------------------------------------------------------------------
-- IO stuff. Doesn't require any X state
-- Most of these things run only on startup (bar grabkeys)
-- | scan for any new windows to manage. If they're already managed,
-- this should be idempotent.
scan :: Display -> Window -> IO [Window]
scan dpy rootw = do
(_, _, ws) <- queryTree dpy rootw
filterM ok ws
-- TODO: scan for windows that are either 'IsViewable' or where WM_STATE ==
-- Iconic
where ok w = do wa <- getWindowAttributes dpy w
a <- internAtom dpy "WM_STATE" False
p <- getWindowProperty32 dpy a w
let ic = case p of
Just (3:_) -> True -- 3 for iconified
_ -> False
return $ not (wa_override_redirect wa)
&& (wa_map_state wa == waIsViewable || ic)
-- | Grab the keys back
grabKeys :: X ()
grabKeys = do
XConf { display = dpy, theRoot = rootw } <- ask
let grab kc m = io $ grabKey dpy kc m rootw True grabModeAsync grabModeAsync
io $ ungrabKey dpy anyKey anyModifier rootw
ks <- asks keyActions
forM_ (M.keys ks) $ \(mask,sym) -> do
kc <- io $ keysymToKeycode dpy sym
-- "If the specified KeySym is not defined for any KeyCode,
-- XKeysymToKeycode() returns zero."
when (kc /= '\0') $ mapM_ (grab kc . (mask .|.)) =<< extraModifiers
-- | XXX comment me
grabButtons :: X ()
grabButtons = do
XConf { display = dpy, theRoot = rootw } <- ask
let grab button mask = io $ grabButton dpy button mask rootw False buttonPressMask
grabModeAsync grabModeSync none none
io $ ungrabButton dpy anyButton anyModifier rootw
ems <- extraModifiers
ba <- asks buttonActions
mapM_ (\(m,b) -> mapM_ (grab b . (m .|.)) ems) (M.keys $ ba)

78
XMonad/ManageHook.hs
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{-# LANGUAGE GeneralizedNewtypeDeriving #-}
-----------------------------------------------------------------------------
-- |
-- Module : XMonad.ManageHook
-- Copyright : (c) Spencer Janssen 2007
-- License : BSD3-style (see LICENSE)
--
-- Maintainer : sjanssen@cse.unl.edu
-- Stability : unstable
-- Portability : not portable, uses cunning newtype deriving
--
-- An EDSL for ManageHooks
--
-----------------------------------------------------------------------------
-- XXX examples required
module XMonad.ManageHook where
import XMonad.Core
import Graphics.X11.Xlib.Extras
import Control.Monad.Reader
import Data.Maybe
import Data.Monoid
import qualified XMonad.StackSet as W
import XMonad.Operations (floatLocation, reveal)
liftX :: X a -> Query a
liftX = Query . lift
-- | The identity hook that returns the WindowSet unchanged.
idHook :: ManageHook
idHook = doF id
-- | Compose two 'ManageHook's
(<+>) :: ManageHook -> ManageHook -> ManageHook
(<+>) = mappend
-- | Compose the list of 'ManageHook's
composeAll :: [ManageHook] -> ManageHook
composeAll = mconcat
-- | 'p --> x'. If 'p' returns 'True', execute the 'ManageHook'.
(-->) :: Query Bool -> ManageHook -> ManageHook
p --> f = p >>= \b -> if b then f else mempty
-- | 'q =? x'. if the result of 'q' equals 'x', return 'True'.
(=?) :: Eq a => Query a -> a -> Query Bool
q =? x = fmap (== x) q
infixr 3 <&&>, <||>
-- | 'p <&&> q'. '&&' lifted to a Monad.
(<&&>) :: Monad m => m Bool -> m Bool -> m Bool
(<&&>) = liftM2 (&&)
-- | 'p <||> q'. '||' lifted to a Monad.
(<||>) :: Monad m => m Bool -> m Bool -> m Bool
(<||>) = liftM2 (||)
-- | Queries that return the window title, resource, or class.
title, resource, className :: Query String
title = ask >>= (\w -> liftX $ withDisplay $ \d -> fmap (fromMaybe "") $ io $ fetchName d w)
resource = ask >>= (\w -> liftX $ withDisplay $ \d -> fmap resName $ io $ getClassHint d w)
className = ask >>= (\w -> liftX $ withDisplay $ \d -> fmap resClass $ io $ getClassHint d w)
-- | Modify the 'WindowSet' with a pure function.
doF :: (WindowSet -> WindowSet) -> ManageHook
doF = return . Endo
-- | Move the window to the floating layer.
doFloat :: ManageHook
doFloat = ask >>= \w -> doF . W.float w . snd =<< liftX (floatLocation w)
-- | Map the window and remove it from the 'WindowSet'.
doIgnore :: ManageHook
doIgnore = ask >>= \w -> liftX (reveal w) >> doF (W.delete w)

1
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packages: ./

71
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% xmonad-Gx.tex
\begin{hcarentry}{xmonad}
\label{xmonad}
\report{Gwern Branwen}%11/11
\status{active development}
\makeheader
XMonad is a tiling window manager for X. Windows are arranged
automatically to tile the screen without gaps or overlap, maximizing
screen use. Window manager features are accessible from the keyboard; a
mouse is optional. XMonad is written, configured, and extensible in
Haskell. Custom layout algorithms, key bindings, and other extensions may
be written by the user in config files. Layouts are applied
dynamically, and different layouts may be used on each workspace.
Xinerama is fully supported, allowing windows to be tiled on several
physical screens.
Development since the last report has continued; XMonad founder Don Stewart
has stepped down and Adam Vogt is the new maintainer.
After gestating for 2 years, version 0.10 has been released, with simultaneous
releases of the XMonadContrib library of customizations (which has now grown to
no less than 216 modules encompassing a dizzying array of features) and the
xmonad-extras package of extensions,
Details of changes between releases can be found in the release notes:
\begin{compactitem}
\item \url{http://haskell.org/haskellwiki/Xmonad/Notable_changes_since_0.8}
\item \url{http://haskell.org/haskellwiki/Xmonad/Notable_changes_since_0.9}
% \item \url{http://haskell.org/haskellwiki/Xmonad/Notable_changes_since_0.10}
\item the Darcs repositories have been upgraded to the hashed format
\item XMonad.Config.PlainConfig allows writing configs in a more 'normal' style, and not raw Haskell
\item Supports using local modules in xmonad.hs; for example: to use definitions from \~/.xmonad/lib/XMonad/Stack/MyAdditions.hs
\item xmonad --restart CLI option
\item xmonad --replace CLI option
\item XMonad.Prompt now has customizable keymaps
\item Actions.GridSelect - a GUI menu for selecting windows or workspaces \& substring search on window names
\item Actions.OnScreen
\item Extensions now can have state
\item Actions.SpawnOn - uses state to spawn applications on the workspace the user was originally on,
and not where the user happens to be
\item Markdown manpages and not man/troff
\item XMonad.Layout.ImageButtonDecoration \&\\ XMonad.Util.Image
\item XMonad.Layout.Groups
\item XMonad.Layout.ZoomRow
\item XMonad.Layout.Renamed
\item XMonad.Layout.Drawer
\item XMonad.Layout.FullScreen
\item XMonad.Hooks.ScreenCorners
\item XMonad.Actions.DynamicWorkspaceOrder
\item XMonad.Actions.WorkspaceNames
\item XMonad.Actions.DynamicWorkspaceGroups
\end{compactitem}
Binary packages of XMonad and XMonadContrib are available for all major Linux distributions.
\FurtherReading
\begin{compactitem}
\item Homepage:
\url{http://xmonad.org/}
\item Git source:
\texttt{git clone} \url{https://github.com/xmonad/xmonad.git}
\item IRC channel:
\verb+#xmonad @@ irc.freenode.org+
\item Mailing list:
\email{xmonad@@haskell.org}
\end{compactitem}
\end{hcarentry}

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.\" Automatically generated by Pandoc 2.2.1
.\"
.TH "XMONAD" "1" "20 August 2018" "Tiling Window Manager" ""
.hy
.SH Name
.PP
xmonad \- Tiling Window Manager
.SH Description
.PP
\f[I]xmonad\f[] is a minimalist tiling window manager for X, written in
Haskell.
Windows are managed using automatic layout algorithms, which can be
dynamically reconfigured.
At any time windows are arranged so as to maximize the use of screen
real estate.
All features of the window manager are accessible purely from the
keyboard: a mouse is entirely optional.
\f[I]xmonad\f[] is configured in Haskell, and custom layout algorithms
may be implemented by the user in config files.
A principle of \f[I]xmonad\f[] is predictability: the user should know
in advance precisely the window arrangement that will result from any
action.
.PP
By default, \f[I]xmonad\f[] provides three layout algorithms: tall, wide
and fullscreen.
In tall or wide mode, windows are tiled and arranged to prevent overlap
and maximize screen use.
Sets of windows are grouped together on virtual screens, and each screen
retains its own layout, which may be reconfigured dynamically.
Multiple physical monitors are supported via Xinerama, allowing
simultaneous display of a number of screens.
.PP
By utilizing the expressivity of a modern functional language with a
rich static type system, \f[I]xmonad\f[] provides a complete, featureful
window manager in less than 1200 lines of code, with an emphasis on
correctness and robustness.
Internal properties of the window manager are checked using a
combination of static guarantees provided by the type system, and
type\-based automated testing.
A benefit of this is that the code is simple to understand, and easy to
modify.
.SH Usage
.PP
\f[I]xmonad\f[] places each window into a \[lq]workspace\[rq].
Each workspace can have any number of windows, which you can cycle
though with mod\-j and mod\-k.
Windows are either displayed full screen, tiled horizontally, or tiled
vertically.
You can toggle the layout mode with mod\-space, which will cycle through
the available modes.
.PP
You can switch to workspace N with mod\-N.
For example, to switch to workspace 5, you would press mod\-5.
Similarly, you can move the current window to another workspace with
mod\-shift\-N.
.PP
When running with multiple monitors (Xinerama), each screen has exactly
1 workspace visible.
mod\-{w,e,r} switch the focus between screens, while shift\-mod\-{w,e,r}
move the current window to that screen.
When \f[I]xmonad\f[] starts, workspace 1 is on screen 1, workspace 2 is
on screen 2, etc.
When switching workspaces to one that is already visible, the current
and visible workspaces are swapped.
.SS Flags
.PP
xmonad has several flags which you may pass to the executable.
These flags are:
.TP
.B \[en]recompile
Recompiles your configuration in \f[I]~/.xmonad/xmonad.hs\f[]
.RS
.RE
.TP
.B \[en]restart
Causes the currently running \f[I]xmonad\f[] process to restart
.RS
.RE
.TP
.B \[en]replace
Replace the current window manager with xmonad
.RS
.RE
.TP
.B \[en]version
Display version of \f[I]xmonad\f[]
.RS
.RE
.TP
.B \[en]verbose\-version
Display detailed version of \f[I]xmonad\f[]
.RS
.RE
.PP
##Default keyboard bindings
.TP
.B mod\-shift\-return
Launch terminal
.RS
.RE
.TP
.B mod\-p
Launch dmenu
.RS
.RE
.TP
.B mod\-shift\-p
Launch gmrun
.RS
.RE
.TP
.B mod\-shift\-c
Close the focused window
.RS
.RE
.TP
.B mod\-space
Rotate through the available layout algorithms
.RS
.RE
.TP
.B mod\-shift\-space
Reset the layouts on the current workspace to default
.RS
.RE
.TP
.B mod\-n
Resize viewed windows to the correct size
.RS
.RE
.TP
.B mod\-tab
Move focus to the next window
.RS
.RE
.TP
.B mod\-shift\-tab
Move focus to the previous window
.RS
.RE
.TP
.B mod\-j
Move focus to the next window
.RS
.RE
.TP
.B mod\-k
Move focus to the previous window
.RS
.RE
.TP
.B mod\-m
Move focus to the master window
.RS
.RE
.TP
.B mod\-return
Swap the focused window and the master window
.RS
.RE
.TP
.B mod\-shift\-j
Swap the focused window with the next window
.RS
.RE
.TP
.B mod\-shift\-k
Swap the focused window with the previous window
.RS
.RE
.TP
.B mod\-h
Shrink the master area
.RS
.RE
.TP
.B mod\-l
Expand the master area
.RS
.RE
.TP
.B mod\-t
Push window back into tiling
.RS
.RE
.TP
.B mod\-comma
Increment the number of windows in the master area
.RS
.RE
.TP
.B mod\-period
Deincrement the number of windows in the master area
.RS
.RE
.TP
.B mod\-shift\-q
Quit xmonad
.RS
.RE
.TP
.B mod\-q
Restart xmonad
.RS
.RE
.TP
.B mod\-shift\-slash
Run xmessage with a summary of the default keybindings (useful for
beginners)
.RS
.RE
.TP
.B mod\-question
Run xmessage with a summary of the default keybindings (useful for
beginners)
.RS
.RE
.TP
.B mod\-[1..9]
Switch to workspace N
.RS
.RE
.TP
.B mod\-shift\-[1..9]
Move client to workspace N
.RS
.RE
.TP
.B mod\-{w,e,r}
Switch to physical/Xinerama screens 1, 2, or 3
.RS
.RE
.TP
.B mod\-shift\-{w,e,r}
Move client to screen 1, 2, or 3
.RS
.RE
.TP
.B mod\-button1
Set the window to floating mode and move by dragging
.RS
.RE
.TP
.B mod\-button2
Raise the window to the top of the stack
.RS
.RE
.TP
.B mod\-button3
Set the window to floating mode and resize by dragging
.RS
.RE
.SH Examples
.PP
To use xmonad as your window manager add to your \f[I]~/.xinitrc\f[]
file:
.RS
.PP
exec xmonad
.RE
.SH Customization
.PP
xmonad is customized in ~/.xmonad/xmonad.hs, and then restarted with
mod\-q.
.PP
You can find many extensions to the core feature set in the xmonad\-
contrib package, available through your package manager or from
xmonad.org (http://xmonad.org).
.SS Modular Configuration
.PP
As of \f[I]xmonad\-0.9\f[], any additional Haskell modules may be placed
in \f[I]~/.xmonad/lib/\f[] are available in GHC's searchpath.
Hierarchical modules are supported: for example, the file
\f[I]~/.xmonad/lib/XMonad/Stack/MyAdditions.hs\f[] could contain:
.IP
.nf
\f[C]
module\ XMonad.Stack.MyAdditions\ (function1)\ where
\ \ function1\ =\ error\ "function1:\ Not\ implemented\ yet!"
\f[]
.fi
.PP
Your xmonad.hs may then import XMonad.Stack.MyAdditions as if that
module was contained within xmonad or xmonad\-contrib.
.SH Bugs
.PP
Probably.
If you find any, please report them to the
bugtracker (https://github.com/xmonad/xmonad/issues)

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<header>
<h1 class="title">XMONAD(1) Tiling Window Manager</h1>
<p class="author"></p>
<p class="date">20 August 2018</p>
</header>
<nav id="TOC">
<ul>
<li><a href="#name">Name</a></li>
<li><a href="#description">Description</a></li>
<li><a href="#usage">Usage</a><ul>
<li><a href="#flags">Flags</a></li>
</ul></li>
<li><a href="#examples">Examples</a></li>
<li><a href="#customization">Customization</a><ul>
<li><a href="#modular-configuration">Modular Configuration</a></li>
</ul></li>
<li><a href="#bugs">Bugs</a></li>
</ul>
</nav>
<h1 id="name">Name</h1>
<p>xmonad - Tiling Window Manager</p>
<h1 id="description">Description</h1>
<p><em>xmonad</em> is a minimalist tiling window manager for X, written in Haskell. Windows are managed using automatic layout algorithms, which can be dynamically reconfigured. At any time windows are arranged so as to maximize the use of screen real estate. All features of the window manager are accessible purely from the keyboard: a mouse is entirely optional. <em>xmonad</em> is configured in Haskell, and custom layout algorithms may be implemented by the user in config files. A principle of <em>xmonad</em> is predictability: the user should know in advance precisely the window arrangement that will result from any action.</p>
<p>By default, <em>xmonad</em> provides three layout algorithms: tall, wide and fullscreen. In tall or wide mode, windows are tiled and arranged to prevent overlap and maximize screen use. Sets of windows are grouped together on virtual screens, and each screen retains its own layout, which may be reconfigured dynamically. Multiple physical monitors are supported via Xinerama, allowing simultaneous display of a number of screens.</p>
<p>By utilizing the expressivity of a modern functional language with a rich static type system, <em>xmonad</em> provides a complete, featureful window manager in less than 1200 lines of code, with an emphasis on correctness and robustness. Internal properties of the window manager are checked using a combination of static guarantees provided by the type system, and type-based automated testing. A benefit of this is that the code is simple to understand, and easy to modify.</p>
<h1 id="usage">Usage</h1>
<p><em>xmonad</em> places each window into a “workspace”. Each workspace can have any number of windows, which you can cycle though with mod-j and mod-k. Windows are either displayed full screen, tiled horizontally, or tiled vertically. You can toggle the layout mode with mod-space, which will cycle through the available modes.</p>
<p>You can switch to workspace N with mod-N. For example, to switch to workspace 5, you would press mod-5. Similarly, you can move the current window to another workspace with mod-shift-N.</p>
<p>When running with multiple monitors (Xinerama), each screen has exactly 1 workspace visible. mod-{w,e,r} switch the focus between screens, while shift-mod-{w,e,r} move the current window to that screen. When <em>xmonad</em> starts, workspace 1 is on screen 1, workspace 2 is on screen 2, etc. When switching workspaces to one that is already visible, the current and visible workspaces are swapped.</p>
<h2 id="flags">Flags</h2>
<p>xmonad has several flags which you may pass to the executable. These flags are:</p>
<dl>
<dt>recompile</dt>
<dd>Recompiles your configuration in <em>~/.xmonad/xmonad.hs</em>
</dd>
<dt>restart</dt>
<dd>Causes the currently running <em>xmonad</em> process to restart
</dd>
<dt>replace</dt>
<dd>Replace the current window manager with xmonad
</dd>
<dt>version</dt>
<dd>Display version of <em>xmonad</em>
</dd>
<dt>verbose-version</dt>
<dd>Display detailed version of <em>xmonad</em>
</dd>
</dl>
<p>##Default keyboard bindings</p>
<dl>
<dt>mod-shift-return</dt>
<dd>Launch terminal
</dd>
<dt>mod-p</dt>
<dd>Launch dmenu
</dd>
<dt>mod-shift-p</dt>
<dd>Launch gmrun
</dd>
<dt>mod-shift-c</dt>
<dd>Close the focused window
</dd>
<dt>mod-space</dt>
<dd>Rotate through the available layout algorithms
</dd>
<dt>mod-shift-space</dt>
<dd>Reset the layouts on the current workspace to default
</dd>
<dt>mod-n</dt>
<dd>Resize viewed windows to the correct size
</dd>
<dt>mod-tab</dt>
<dd>Move focus to the next window
</dd>
<dt>mod-shift-tab</dt>
<dd>Move focus to the previous window
</dd>
<dt>mod-j</dt>
<dd>Move focus to the next window
</dd>
<dt>mod-k</dt>
<dd>Move focus to the previous window
</dd>
<dt>mod-m</dt>
<dd>Move focus to the master window
</dd>
<dt>mod-return</dt>
<dd>Swap the focused window and the master window
</dd>
<dt>mod-shift-j</dt>
<dd>Swap the focused window with the next window
</dd>
<dt>mod-shift-k</dt>
<dd>Swap the focused window with the previous window
</dd>
<dt>mod-h</dt>
<dd>Shrink the master area
</dd>
<dt>mod-l</dt>
<dd>Expand the master area
</dd>
<dt>mod-t</dt>
<dd>Push window back into tiling
</dd>
<dt>mod-comma</dt>
<dd>Increment the number of windows in the master area
</dd>
<dt>mod-period</dt>
<dd>Deincrement the number of windows in the master area
</dd>
<dt>mod-shift-q</dt>
<dd>Quit xmonad
</dd>
<dt>mod-q</dt>
<dd>Restart xmonad
</dd>
<dt>mod-shift-slash</dt>
<dd>Run xmessage with a summary of the default keybindings (useful for beginners)
</dd>
<dt>mod-question</dt>
<dd>Run xmessage with a summary of the default keybindings (useful for beginners)
</dd>
<dt>mod-[1..9]</dt>
<dd>Switch to workspace N
</dd>
<dt>mod-shift-[1..9]</dt>
<dd>Move client to workspace N
</dd>
<dt>mod-{w,e,r}</dt>
<dd>Switch to physical/Xinerama screens 1, 2, or 3
</dd>
<dt>mod-shift-{w,e,r}</dt>
<dd>Move client to screen 1, 2, or 3
</dd>
<dt>mod-button1</dt>
<dd>Set the window to floating mode and move by dragging
</dd>
<dt>mod-button2</dt>
<dd>Raise the window to the top of the stack
</dd>
<dt>mod-button3</dt>
<dd>Set the window to floating mode and resize by dragging
</dd>
</dl>
<h1 id="examples">Examples</h1>
<p>To use xmonad as your window manager add to your <em>~/.xinitrc</em> file:</p>
<blockquote>
<p>exec xmonad</p>
</blockquote>
<h1 id="customization">Customization</h1>
<p>xmonad is customized in ~/.xmonad/xmonad.hs, and then restarted with mod-q.</p>
<p>You can find many extensions to the core feature set in the xmonad- contrib package, available through your package manager or from <a href="http://xmonad.org">xmonad.org</a>.</p>
<h2 id="modular-configuration">Modular Configuration</h2>
<p>As of <em>xmonad-0.9</em>, any additional Haskell modules may be placed in <em>~/.xmonad/lib/</em> are available in GHCs searchpath. Hierarchical modules are supported: for example, the file <em>~/.xmonad/lib/XMonad/Stack/MyAdditions.hs</em> could contain:</p>
<div class="sourceCode" id="cb1"><pre class="sourceCode haskell"><code class="sourceCode haskell"><a class="sourceLine" id="cb1-1" data-line-number="1"><span class="kw">module</span> <span class="dt">XMonad.Stack.MyAdditions</span> (function1) <span class="kw">where</span></a>
<a class="sourceLine" id="cb1-2" data-line-number="2"> function1 <span class="fu">=</span> error <span class="st">&quot;function1: Not implemented yet!&quot;</span></a></code></pre></div>
<p>Your xmonad.hs may then import XMonad.Stack.MyAdditions as if that module was contained within xmonad or xmonad-contrib.</p>
<h1 id="bugs">Bugs</h1>
<p>Probably. If you find any, please report them to the <a href="https://github.com/xmonad/xmonad/issues">bugtracker</a></p>
</body>
</html>

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@@ -1,43 +0,0 @@
./" man page created by David Lazar on April 24, 2007
./" uses ``tmac.an'' macro set
.TH xmonad 1 "18 April 07" xmonad\-1.0 "xmonad manual"
.SH NAME
xmonad \- a tiling window manager
.SH DESCRIPTION
.PP
\fBxmonad\fR is a minimalist tiling window manager for X, written in Haskell. Windows are managed using automatic layout algorithms, which can be dynamically reconfigured. At any time windows are arranged so as to maximise the use of screen real estate. All features of the window manager are accessible purely from the keyboard: a mouse is entirely optional. \fBxmonad\fR is configured in Haskell, and custom layout algorithms may be implemented by the user in config files. A principle of \fBxmonad\fR is predictability: the user should know in advance precisely the window arrangement that will result from any action.
.PP
By default, \fBxmonad\fR provides three layout algorithms: tall, wide and fullscreen. In tall or wide mode, windows are tiled and arranged to prevent overlap and maximise screen use. Sets of windows are grouped together on virtual screens, and each screen retains its own layout, which may be reconfigured dynamically. Multiple physical monitors are supported via Xinerama, allowing simultaneous display of a number of screens.
.PP
By utilising the expressivity of a modern functional language with a rich static type system, \fBxmonad\fR provides a complete, featureful window manager in less than 500 lines of code, with an emphasis on correctness and robustness. Internal properties of the window manager are checked using a combination of static guarantees provided by the type system, and type-based automated testing. A benefit of this is that the code is simple to understand, and easy to modify.
.SH USAGE
.PP
\fBxmonad\fR places each window into a "workspace". Each workspace can have any number of windows, which you can cycle though with mod-j and mod-k. Windows are either displayed full screen, tiled horizontally, or tiled vertically. You can toggle the layout mode with mod-space, which will cycle through the available modes.
.PP
You can switch to workspace N with mod-N. For example, to switch to workspace 5, you would press mod-5. Similarly, you can move the current window to another workspace with mod-shift-N.
.PP
When running with multiple monitors (Xinerama), each screen has exactly 1 workspace visible. mod-{w,e,r} switch the focus between screens, while shift-mod-{w,e,r} move the current window to that screen. When \fBxmonad\fR starts, workspace 1 is on screen 1, workspace 2 is on screen 2, etc. When switching workspaces to one that is already visible, the current and visible workspaces are swapped.
.PP
.SS Flags
\fBxmonad\fR has several flags which you may pass to the executable. These flags are:
.TP
\fB--recompile
Recompiles your configuration in ~/.xmonad/xmonad.hs if it is newer than your already existing ~/.xmonad/xmonad executable.
.TP
\fB--recompile-force
Unconditionally recompiles your configuration in ~/.xmonad/xmonad.hs.
.TP
\fB--version
Display version of \fBxmonad\fR.
.SS Default keyboard bindings
___KEYBINDINGS___
.SH EXAMPLES
To use \fBxmonad\fR as your window manager add:
.RS
xmonad
.RE
to your \fI~/.xinitrc\fR file
.SH CUSTOMIZATION
\fBxmonad\fR is customized in ~/.xmonad/xmonad.hs, and then restarting with mod-q.
.SH BUGS
Probably. If you find any, please report them: http://code.google.com/p/xmonad/issues/list

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@@ -0,0 +1,111 @@
% XMONAD(1) Tiling Window Manager
%
% 20 August 2018
# Name
xmonad - Tiling Window Manager
# Description
_xmonad_ is a minimalist tiling window manager for X, written in Haskell.
Windows are managed using automatic layout algorithms, which can be
dynamically reconfigured. At any time windows are arranged so as to
maximize the use of screen real estate. All features of the window manager
are accessible purely from the keyboard: a mouse is entirely optional.
_xmonad_ is configured in Haskell, and custom layout algorithms may be
implemented by the user in config files. A principle of _xmonad_ is
predictability: the user should know in advance precisely the window
arrangement that will result from any action.
By default, _xmonad_ provides three layout algorithms: tall, wide and
fullscreen. In tall or wide mode, windows are tiled and arranged to prevent
overlap and maximize screen use. Sets of windows are grouped together on
virtual screens, and each screen retains its own layout, which may be
reconfigured dynamically. Multiple physical monitors are supported via
Xinerama, allowing simultaneous display of a number of screens.
By utilizing the expressivity of a modern functional language with a rich
static type system, _xmonad_ provides a complete, featureful window manager
in less than 1200 lines of code, with an emphasis on correctness and
robustness. Internal properties of the window manager are checked using a
combination of static guarantees provided by the type system, and
type-based automated testing. A benefit of this is that the code is simple
to understand, and easy to modify.
# Usage
_xmonad_ places each window into a "workspace". Each workspace can have
any number of windows, which you can cycle though with mod-j and mod-k.
Windows are either displayed full screen, tiled horizontally, or tiled
vertically. You can toggle the layout mode with mod-space, which will cycle
through the available modes.
You can switch to workspace N with mod-N. For example, to switch to
workspace 5, you would press mod-5. Similarly, you can move the current
window to another workspace with mod-shift-N.
When running with multiple monitors (Xinerama), each screen has exactly 1
workspace visible. mod-{w,e,r} switch the focus between screens, while
shift-mod-{w,e,r} move the current window to that screen. When _xmonad_
starts, workspace 1 is on screen 1, workspace 2 is on screen 2, etc. When
switching workspaces to one that is already visible, the current and
visible workspaces are swapped.
## Flags
xmonad has several flags which you may pass to the executable.
These flags are:
--recompile
: Recompiles your configuration in _~/.xmonad/xmonad.hs_
--restart
: Causes the currently running _xmonad_ process to restart
--replace
: Replace the current window manager with xmonad
--version
: Display version of _xmonad_
--verbose-version
: Display detailed version of _xmonad_
##Default keyboard bindings
___KEYBINDINGS___
# Examples
To use xmonad as your window manager add to your _~/.xinitrc_ file:
> exec xmonad
# Customization
xmonad is customized in ~/.xmonad/xmonad.hs, and then restarted
with mod-q.
You can find many extensions to the core feature set in the xmonad-
contrib package, available through your package manager or from
[xmonad.org].
## Modular Configuration
As of _xmonad-0.9_, any additional Haskell modules may be placed in
_~/.xmonad/lib/_ are available in GHC's searchpath. Hierarchical modules
are supported: for example, the file
_~/.xmonad/lib/XMonad/Stack/MyAdditions.hs_ could contain:
```haskell
module XMonad.Stack.MyAdditions (function1) where
function1 = error "function1: Not implemented yet!"
```
Your xmonad.hs may then import XMonad.Stack.MyAdditions as if that
module was contained within xmonad or xmonad-contrib.
# Bugs
Probably. If you find any, please report them to the [bugtracker]
[xmonad.org]: http://xmonad.org
[bugtracker]: https://github.com/xmonad/xmonad/issues

202
man/xmonad.hs
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@@ -8,6 +8,7 @@
--
import XMonad
import Data.Monoid
import System.Exit
import qualified XMonad.StackSet as W
@@ -18,6 +19,14 @@ import qualified Data.Map as M
--
myTerminal = "xterm"
-- Whether focus follows the mouse pointer.
myFocusFollowsMouse :: Bool
myFocusFollowsMouse = True
-- Whether clicking on a window to focus also passes the click to the window
myClickJustFocuses :: Bool
myClickJustFocuses = False
-- Width of the window border in pixels.
--
myBorderWidth = 1
@@ -29,21 +38,6 @@ myBorderWidth = 1
--
myModMask = mod1Mask
-- The mask for the numlock key. Numlock status is "masked" from the
-- current modifier status, so the keybindings will work with numlock on or
-- off. You may need to change this on some systems.
--
-- You can find the numlock modifier by running "xmodmap" and looking for a
-- modifier with Num_Lock bound to it:
--
-- > $ xmodmap | grep Num
-- > mod2 Num_Lock (0x4d)
--
-- Set numlockMask = 0 if you don't have a numlock key, or want to treat
-- numlock status separately.
--
myNumlockMask = mod2Mask
-- The default number of workspaces (virtual screens) and their names.
-- By default we use numeric strings, but any string may be used as a
-- workspace name. The number of workspaces is determined by the length
@@ -60,92 +54,82 @@ myWorkspaces = ["1","2","3","4","5","6","7","8","9"]
myNormalBorderColor = "#dddddd"
myFocusedBorderColor = "#ff0000"
-- Default offset of drawable screen boundaries from each physical
-- screen. Anything non-zero here will leave a gap of that many pixels
-- on the given edge, on the that screen. A useful gap at top of screen
-- for a menu bar (e.g. 15)
--
-- An example, to set a top gap on monitor 1, and a gap on the bottom of
-- monitor 2, you'd use a list of geometries like so:
--
-- > defaultGaps = [(18,0,0,0),(0,18,0,0)] -- 2 gaps on 2 monitors
--
-- Fields are: top, bottom, left, right.
--
myDefaultGaps = [(0,0,0,0)]
------------------------------------------------------------------------
-- Key bindings. Add, modify or remove key bindings here.
--
myKeys conf@(XConfig {XMonad.modMask = modMask}) = M.fromList $
myKeys conf@(XConfig {XMonad.modMask = modm}) = M.fromList $
-- launch a terminal
[ ((modMask .|. shiftMask, xK_Return), spawn $ XMonad.terminal conf)
[ ((modm .|. shiftMask, xK_Return), spawn $ XMonad.terminal conf)
-- launch dmenu
, ((modMask, xK_p ), spawn "exe=`dmenu_path | dmenu` && eval \"exec $exe\"")
, ((modm, xK_p ), spawn "dmenu_run")
-- launch gmrun
, ((modMask .|. shiftMask, xK_p ), spawn "gmrun")
, ((modm .|. shiftMask, xK_p ), spawn "gmrun")
-- close focused window
, ((modMask .|. shiftMask, xK_c ), kill)
-- close focused window
, ((modm .|. shiftMask, xK_c ), kill)
-- Rotate through the available layout algorithms
, ((modMask, xK_space ), sendMessage NextLayout)
, ((modm, xK_space ), sendMessage NextLayout)
-- Reset the layouts on the current workspace to default
, ((modMask .|. shiftMask, xK_space ), setLayout $ XMonad.layoutHook conf)
, ((modm .|. shiftMask, xK_space ), setLayout $ XMonad.layoutHook conf)
-- Resize viewed windows to the correct size
, ((modMask, xK_n ), refresh)
, ((modm, xK_n ), refresh)
-- Move focus to the next window
, ((modMask, xK_Tab ), windows W.focusDown)
, ((modm, xK_Tab ), windows W.focusDown)
-- Move focus to the next window
, ((modMask, xK_j ), windows W.focusDown)
, ((modm, xK_j ), windows W.focusDown)
-- Move focus to the previous window
, ((modMask, xK_k ), windows W.focusUp )
, ((modm, xK_k ), windows W.focusUp )
-- Move focus to the master window
, ((modMask, xK_m ), windows W.focusMaster )
, ((modm, xK_m ), windows W.focusMaster )
-- Swap the focused window and the master window
, ((modMask, xK_Return), windows W.swapMaster)
, ((modm, xK_Return), windows W.swapMaster)
-- Swap the focused window with the next window
, ((modMask .|. shiftMask, xK_j ), windows W.swapDown )
, ((modm .|. shiftMask, xK_j ), windows W.swapDown )
-- Swap the focused window with the previous window
, ((modMask .|. shiftMask, xK_k ), windows W.swapUp )
, ((modm .|. shiftMask, xK_k ), windows W.swapUp )
-- Shrink the master area
, ((modMask, xK_h ), sendMessage Shrink)
, ((modm, xK_h ), sendMessage Shrink)
-- Expand the master area
, ((modMask, xK_l ), sendMessage Expand)
, ((modm, xK_l ), sendMessage Expand)
-- Push window back into tiling
, ((modMask, xK_t ), withFocused $ windows . W.sink)
, ((modm, xK_t ), withFocused $ windows . W.sink)
-- Increment the number of windows in the master area
, ((modMask , xK_comma ), sendMessage (IncMasterN 1))
, ((modm , xK_comma ), sendMessage (IncMasterN 1))
-- Deincrement the number of windows in the master area
, ((modMask , xK_period), sendMessage (IncMasterN (-1)))
, ((modm , xK_period), sendMessage (IncMasterN (-1)))
-- toggle the status bar gap
, ((modMask , xK_b ),
modifyGap (\i n -> let x = (XMonad.defaultGaps conf ++ repeat (0,0,0,0)) !! i
in if n == x then (0,0,0,0) else x))
-- Toggle the status bar gap
-- Use this binding with avoidStruts from Hooks.ManageDocks.
-- See also the statusBar function from Hooks.DynamicLog.
--
-- , ((modm , xK_b ), sendMessage ToggleStruts)
-- Quit xmonad
, ((modMask .|. shiftMask, xK_q ), io (exitWith ExitSuccess))
, ((modm .|. shiftMask, xK_q ), io (exitWith ExitSuccess))
-- Restart xmonad
, ((modMask , xK_q ), restart "xmonad" True)
, ((modm , xK_q ), spawn "xmonad --recompile; xmonad --restart")
-- Run xmessage with a summary of the default keybindings (useful for beginners)
, ((modm .|. shiftMask, xK_slash ), spawn ("echo \"" ++ help ++ "\" | xmessage -file -"))
]
++
@@ -153,7 +137,7 @@ myKeys conf@(XConfig {XMonad.modMask = modMask}) = M.fromList $
-- mod-[1..9], Switch to workspace N
-- mod-shift-[1..9], Move client to workspace N
--
[((m .|. modMask, k), windows $ f i)
[((m .|. modm, k), windows $ f i)
| (i, k) <- zip (XMonad.workspaces conf) [xK_1 .. xK_9]
, (f, m) <- [(W.greedyView, 0), (W.shift, shiftMask)]]
++
@@ -162,7 +146,7 @@ myKeys conf@(XConfig {XMonad.modMask = modMask}) = M.fromList $
-- mod-{w,e,r}, Switch to physical/Xinerama screens 1, 2, or 3
-- mod-shift-{w,e,r}, Move client to screen 1, 2, or 3
--
[((m .|. modMask, key), screenWorkspace sc >>= flip whenJust (windows . f))
[((m .|. modm, key), screenWorkspace sc >>= flip whenJust (windows . f))
| (key, sc) <- zip [xK_w, xK_e, xK_r] [0..]
, (f, m) <- [(W.view, 0), (W.shift, shiftMask)]]
@@ -170,16 +154,18 @@ myKeys conf@(XConfig {XMonad.modMask = modMask}) = M.fromList $
------------------------------------------------------------------------
-- Mouse bindings: default actions bound to mouse events
--
myMouseBindings (XConfig {XMonad.modMask = modMask}) = M.fromList $
myMouseBindings (XConfig {XMonad.modMask = modm}) = M.fromList $
-- mod-button1, Set the window to floating mode and move by dragging
[ ((modMask, button1), (\w -> focus w >> mouseMoveWindow w))
[ ((modm, button1), (\w -> focus w >> mouseMoveWindow w
>> windows W.shiftMaster))
-- mod-button2, Raise the window to the top of the stack
, ((modMask, button2), (\w -> focus w >> windows W.swapMaster))
, ((modm, button2), (\w -> focus w >> windows W.shiftMaster))
-- mod-button3, Set the window to floating mode and resize by dragging
, ((modMask, button3), (\w -> focus w >> mouseResizeWindow w))
, ((modm, button3), (\w -> focus w >> mouseResizeWindow w
>> windows W.shiftMaster))
-- you may also bind events to the mouse scroll wheel (button4 and button5)
]
@@ -230,23 +216,35 @@ myManageHook = composeAll
, resource =? "desktop_window" --> doIgnore
, resource =? "kdesktop" --> doIgnore ]
-- Whether focus follows the mouse pointer.
myFocusFollowsMouse :: Bool
myFocusFollowsMouse = True
------------------------------------------------------------------------
-- Event handling
-- * EwmhDesktops users should change this to ewmhDesktopsEventHook
--
-- Defines a custom handler function for X Events. The function should
-- return (All True) if the default handler is to be run afterwards. To
-- combine event hooks use mappend or mconcat from Data.Monoid.
--
myEventHook = mempty
------------------------------------------------------------------------
-- Status bars and logging
-- Perform an arbitrary action on each internal state change or X event.
-- See the 'DynamicLog' extension for examples.
--
-- To emulate dwm's status bar
--
-- > logHook = dynamicLogDzen
-- See the 'XMonad.Hooks.DynamicLog' extension for examples.
--
myLogHook = return ()
------------------------------------------------------------------------
-- Startup hook
-- Perform an arbitrary action each time xmonad starts or is restarted
-- with mod-q. Used by, e.g., XMonad.Layout.PerWorkspace to initialize
-- per-workspace layout choices.
--
-- By default, do nothing.
myStartupHook = return ()
------------------------------------------------------------------------
-- Now run xmonad with all the defaults we set up.
@@ -255,22 +253,21 @@ myLogHook = return ()
main = xmonad defaults
-- A structure containing your configuration settings, overriding
-- fields in the default config. Any you don't override, will
-- fields in the default config. Any you don't override, will
-- use the defaults defined in xmonad/XMonad/Config.hs
--
--
-- No need to modify this.
--
defaults = defaultConfig {
defaults = def {
-- simple stuff
terminal = myTerminal,
focusFollowsMouse = myFocusFollowsMouse,
clickJustFocuses = myClickJustFocuses,
borderWidth = myBorderWidth,
modMask = myModMask,
numlockMask = myNumlockMask,
workspaces = myWorkspaces,
normalBorderColor = myNormalBorderColor,
focusedBorderColor = myFocusedBorderColor,
defaultGaps = myDefaultGaps,
-- key bindings
keys = myKeys,
@@ -279,5 +276,58 @@ defaults = defaultConfig {
-- hooks, layouts
layoutHook = myLayout,
manageHook = myManageHook,
logHook = myLogHook
handleEventHook = myEventHook,
logHook = myLogHook,
startupHook = myStartupHook
}
-- | Finally, a copy of the default bindings in simple textual tabular format.
help :: String
help = unlines ["The default modifier key is 'alt'. Default keybindings:",
"",
"-- launching and killing programs",
"mod-Shift-Enter Launch xterminal",
"mod-p Launch dmenu",
"mod-Shift-p Launch gmrun",
"mod-Shift-c Close/kill the focused window",
"mod-Space Rotate through the available layout algorithms",
"mod-Shift-Space Reset the layouts on the current workSpace to default",
"mod-n Resize/refresh viewed windows to the correct size",
"",
"-- move focus up or down the window stack",
"mod-Tab Move focus to the next window",
"mod-Shift-Tab Move focus to the previous window",
"mod-j Move focus to the next window",
"mod-k Move focus to the previous window",
"mod-m Move focus to the master window",
"",
"-- modifying the window order",
"mod-Return Swap the focused window and the master window",
"mod-Shift-j Swap the focused window with the next window",
"mod-Shift-k Swap the focused window with the previous window",
"",
"-- resizing the master/slave ratio",
"mod-h Shrink the master area",
"mod-l Expand the master area",
"",
"-- floating layer support",
"mod-t Push window back into tiling; unfloat and re-tile it",
"",
"-- increase or decrease number of windows in the master area",
"mod-comma (mod-,) Increment the number of windows in the master area",
"mod-period (mod-.) Deincrement the number of windows in the master area",
"",
"-- quit, or restart",
"mod-Shift-q Quit xmonad",
"mod-q Restart xmonad",
"mod-[1..9] Switch to workSpace N",
"",
"-- Workspaces & screens",
"mod-Shift-[1..9] Move client to workspace N",
"mod-{w,e,r} Switch to physical/Xinerama screens 1, 2, or 3",
"mod-Shift-{w,e,r} Move client to screen 1, 2, or 3",
"",
"-- Mouse bindings: default actions bound to mouse events",
"mod-button1 Set the window to floating mode and move by dragging",
"mod-button2 Raise the window to the top of the stack",
"mod-button3 Set the window to floating mode and resize by dragging"]

0
XMonad.hs → src/XMonad.hs
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191
XMonad/Config.hs → src/XMonad/Config.hs
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@@ -1,4 +1,5 @@
{-# OPTIONS -fno-warn-missing-signatures #-}
{-# OPTIONS_GHC -fno-warn-missing-signatures -fno-warn-orphans #-}
{-# LANGUAGE TypeFamilies #-}
-----------------------------------------------------------------------------
-- |
-- Module : XMonad.Config
@@ -13,34 +14,37 @@
--
-- DO NOT MODIFY THIS FILE! It won't work. You may configure xmonad
-- by providing your own @~\/.xmonad\/xmonad.hs@ that overrides
-- specific fields in 'defaultConfig'. For a starting point, you can
-- specific fields in the default config, 'def'. For a starting point, you can
-- copy the @xmonad.hs@ found in the @man@ directory, or look at
-- examples on the xmonad wiki.
--
------------------------------------------------------------------------
module XMonad.Config (defaultConfig) where
module XMonad.Config (defaultConfig, Default(..)) where
--
-- Useful imports
--
import XMonad.Core as XMonad hiding
(workspaces,manageHook,numlockMask,keys,logHook,borderWidth,mouseBindings
,defaultGaps,layoutHook,modMask,terminal,normalBorderColor,focusedBorderColor
,focusFollowsMouse)
(workspaces,manageHook,keys,logHook,startupHook,borderWidth,mouseBindings
,layoutHook,modMask,terminal,normalBorderColor,focusedBorderColor,focusFollowsMouse
,handleEventHook,clickJustFocuses,rootMask,clientMask)
import qualified XMonad.Core as XMonad
(workspaces,manageHook,numlockMask,keys,logHook,borderWidth,mouseBindings
,defaultGaps,layoutHook,modMask,terminal,normalBorderColor,focusedBorderColor
,focusFollowsMouse)
(workspaces,manageHook,keys,logHook,startupHook,borderWidth,mouseBindings
,layoutHook,modMask,terminal,normalBorderColor,focusedBorderColor,focusFollowsMouse
,handleEventHook,clickJustFocuses,rootMask,clientMask)
import XMonad.Layout
import XMonad.Operations
import XMonad.ManageHook
import qualified XMonad.StackSet as W
import Data.Bits ((.|.))
import Data.Default
import Data.Monoid
import qualified Data.Map as M
import System.Exit
import Graphics.X11.Xlib
import Graphics.X11.Xlib.Extras
-- | The default number of workspaces (virtual screens) and their names.
-- By default we use numeric strings, but any string may be used as a
@@ -62,22 +66,6 @@ workspaces = map show [1 .. 9 :: Int]
defaultModMask :: KeyMask
defaultModMask = mod1Mask
-- | The mask for the numlock key. Numlock status is "masked" from the
-- current modifier status, so the keybindings will work with numlock on or
-- off. You may need to change this on some systems.
--
-- You can find the numlock modifier by running "xmodmap" and looking for a
-- modifier with Num_Lock bound to it:
--
-- > $ xmodmap | grep Num
-- > mod2 Num_Lock (0x4d)
--
-- Set numlockMask = 0 if you don't have a numlock key, or want to treat
-- numlock status separately.
--
numlockMask :: KeyMask
numlockMask = mod2Mask
-- | Width of the window border in pixels.
--
borderWidth :: Dimension
@@ -86,23 +74,8 @@ borderWidth = 1
-- | Border colors for unfocused and focused windows, respectively.
--
normalBorderColor, focusedBorderColor :: String
normalBorderColor = "#dddddd"
focusedBorderColor = "#ff0000"
-- | Default offset of drawable screen boundaries from each physical
-- screen. Anything non-zero here will leave a gap of that many pixels
-- on the given edge, on the that screen. A useful gap at top of screen
-- for a menu bar (e.g. 15)
--
-- An example, to set a top gap on monitor 1, and a gap on the bottom of
-- monitor 2, you'd use a list of geometries like so:
--
-- > defaultGaps = [(18,0,0,0),(0,18,0,0)] -- 2 gaps on 2 monitors
--
-- Fields are: top, bottom, left, right.
--
defaultGaps :: [(Int,Int,Int,Int)]
defaultGaps = [(0,0,0,0)] -- 15 for default dzen font
normalBorderColor = "gray" -- "#dddddd"
focusedBorderColor = "red" -- "#ff0000" don't use hex, not <24 bit safe
------------------------------------------------------------------------
-- Window rules
@@ -119,14 +92,16 @@ defaultGaps = [(0,0,0,0)] -- 15 for default dzen font
manageHook :: ManageHook
manageHook = composeAll
[ className =? "MPlayer" --> doFloat
, className =? "Gimp" --> doFloat ]
, className =? "mplayer2" --> doFloat ]
------------------------------------------------------------------------
-- Logging
-- | Perform an arbitrary action on each internal state change or X event.
-- Examples include:
--
-- * do nothing
--
-- * log the state to stdout
--
-- See the 'DynamicLog' extension for examples.
@@ -134,6 +109,19 @@ manageHook = composeAll
logHook :: X ()
logHook = return ()
------------------------------------------------------------------------
-- Event handling
-- | Defines a custom handler function for X Events. The function should
-- return (All True) if the default handler is to be run afterwards.
-- To combine event hooks, use mappend or mconcat from Data.Monoid.
handleEventHook :: Event -> X All
handleEventHook _ = return (All True)
-- | Perform an arbitrary action at xmonad startup.
startupHook :: X ()
startupHook = return ()
------------------------------------------------------------------------
-- Extensible layouts
--
@@ -159,6 +147,19 @@ layout = tiled ||| Mirror tiled ||| Full
-- Percent of screen to increment by when resizing panes
delta = 3/100
------------------------------------------------------------------------
-- Event Masks:
-- | The client events that xmonad is interested in
clientMask :: EventMask
clientMask = structureNotifyMask .|. enterWindowMask .|. propertyChangeMask
-- | The root events that xmonad is interested in
rootMask :: EventMask
rootMask = substructureRedirectMask .|. substructureNotifyMask
.|. enterWindowMask .|. leaveWindowMask .|. structureNotifyMask
.|. buttonPressMask
------------------------------------------------------------------------
-- Key bindings:
@@ -171,6 +172,11 @@ terminal = "xterm"
focusFollowsMouse :: Bool
focusFollowsMouse = True
-- | Whether a mouse click select the focus or is just passed to the window
clickJustFocuses :: Bool
clickJustFocuses = True
-- | The xmonad key bindings. Add, modify or remove key bindings here.
--
-- (The comment formatting character is used when generating the manpage)
@@ -179,7 +185,7 @@ keys :: XConfig Layout -> M.Map (KeyMask, KeySym) (X ())
keys conf@(XConfig {XMonad.modMask = modMask}) = M.fromList $
-- launching and killing programs
[ ((modMask .|. shiftMask, xK_Return), spawn $ XMonad.terminal conf) -- %! Launch terminal
, ((modMask, xK_p ), spawn "exe=`dmenu_path | dmenu` && eval \"exec $exe\"") -- %! Launch dmenu
, ((modMask, xK_p ), spawn "dmenu_run") -- %! Launch dmenu
, ((modMask .|. shiftMask, xK_p ), spawn "gmrun") -- %! Launch gmrun
, ((modMask .|. shiftMask, xK_c ), kill) -- %! Close the focused window
@@ -190,6 +196,7 @@ keys conf@(XConfig {XMonad.modMask = modMask}) = M.fromList $
-- move focus up or down the window stack
, ((modMask, xK_Tab ), windows W.focusDown) -- %! Move focus to the next window
, ((modMask .|. shiftMask, xK_Tab ), windows W.focusUp ) -- %! Move focus to the previous window
, ((modMask, xK_j ), windows W.focusDown) -- %! Move focus to the next window
, ((modMask, xK_k ), windows W.focusUp ) -- %! Move focus to the previous window
, ((modMask, xK_m ), windows W.focusMaster ) -- %! Move focus to the master window
@@ -210,12 +217,13 @@ keys conf@(XConfig {XMonad.modMask = modMask}) = M.fromList $
, ((modMask , xK_comma ), sendMessage (IncMasterN 1)) -- %! Increment the number of windows in the master area
, ((modMask , xK_period), sendMessage (IncMasterN (-1))) -- %! Deincrement the number of windows in the master area
-- toggle the status bar gap
, ((modMask , xK_b ), modifyGap (\i n -> let x = (XMonad.defaultGaps conf ++ repeat (0,0,0,0)) !! i in if n == x then (0,0,0,0) else x)) -- %! Toggle the status bar gap
-- quit, or restart
, ((modMask .|. shiftMask, xK_q ), io (exitWith ExitSuccess)) -- %! Quit xmonad
, ((modMask , xK_q ), restart "xmonad" True) -- %! Restart xmonad
, ((modMask , xK_q ), spawn "if type xmonad; then xmonad --recompile && xmonad --restart; else xmessage xmonad not in \\$PATH: \"$PATH\"; fi") -- %! Restart xmonad
, ((modMask .|. shiftMask, xK_slash ), helpCommand) -- %! Run xmessage with a summary of the default keybindings (useful for beginners)
-- repeat the binding for non-American layout keyboards
, ((modMask , xK_question), helpCommand) -- %! Run xmessage with a summary of the default keybindings (useful for beginners)
]
++
-- mod-[1..9] %! Switch to workspace N
@@ -229,33 +237,100 @@ keys conf@(XConfig {XMonad.modMask = modMask}) = M.fromList $
[((m .|. modMask, key), screenWorkspace sc >>= flip whenJust (windows . f))
| (key, sc) <- zip [xK_w, xK_e, xK_r] [0..]
, (f, m) <- [(W.view, 0), (W.shift, shiftMask)]]
where
helpCommand :: X ()
helpCommand = spawn ("echo " ++ show help ++ " | xmessage -file -")
-- | Mouse bindings: default actions bound to mouse events
--
mouseBindings :: XConfig Layout -> M.Map (KeyMask, Button) (Window -> X ())
mouseBindings (XConfig {XMonad.modMask = modMask}) = M.fromList $
mouseBindings (XConfig {XMonad.modMask = modMask}) = M.fromList
-- mod-button1 %! Set the window to floating mode and move by dragging
[ ((modMask, button1), (\w -> focus w >> mouseMoveWindow w))
[ ((modMask, button1), \w -> focus w >> mouseMoveWindow w
>> windows W.shiftMaster)
-- mod-button2 %! Raise the window to the top of the stack
, ((modMask, button2), (\w -> focus w >> windows W.swapMaster))
, ((modMask, button2), windows . (W.shiftMaster .) . W.focusWindow)
-- mod-button3 %! Set the window to floating mode and resize by dragging
, ((modMask, button3), (\w -> focus w >> mouseResizeWindow w))
, ((modMask, button3), \w -> focus w >> mouseResizeWindow w
>> windows W.shiftMaster)
-- you may also bind events to the mouse scroll wheel (button4 and button5)
]
-- | And, finally, the default set of configuration values itself
defaultConfig = XConfig
instance (a ~ Choose Tall (Choose (Mirror Tall) Full)) => Default (XConfig a) where
def = XConfig
{ XMonad.borderWidth = borderWidth
, XMonad.workspaces = workspaces
, XMonad.defaultGaps = defaultGaps
, XMonad.layoutHook = layout
, XMonad.terminal = terminal
, XMonad.normalBorderColor = normalBorderColor
, XMonad.focusedBorderColor = focusedBorderColor
, XMonad.numlockMask = numlockMask
, XMonad.modMask = defaultModMask
, XMonad.keys = keys
, XMonad.logHook = logHook
, XMonad.startupHook = startupHook
, XMonad.mouseBindings = mouseBindings
, XMonad.manageHook = manageHook
, XMonad.focusFollowsMouse = focusFollowsMouse }
, XMonad.handleEventHook = handleEventHook
, XMonad.focusFollowsMouse = focusFollowsMouse
, XMonad.clickJustFocuses = clickJustFocuses
, XMonad.clientMask = clientMask
, XMonad.rootMask = rootMask
, XMonad.handleExtraArgs = \ xs theConf -> case xs of
[] -> return theConf
_ -> fail ("unrecognized flags:" ++ show xs)
}
-- | The default set of configuration values itself
{-# DEPRECATED defaultConfig "Use def (from Data.Default, and re-exported by XMonad and XMonad.Config) instead." #-}
defaultConfig :: XConfig (Choose Tall (Choose (Mirror Tall) Full))
defaultConfig = def
-- | Finally, a copy of the default bindings in simple textual tabular format.
help :: String
help = unlines ["The default modifier key is 'alt'. Default keybindings:",
"",
"-- launching and killing programs",
"mod-Shift-Enter Launch xterminal",
"mod-p Launch dmenu",
"mod-Shift-p Launch gmrun",
"mod-Shift-c Close/kill the focused window",
"mod-Space Rotate through the available layout algorithms",
"mod-Shift-Space Reset the layouts on the current workSpace to default",
"mod-n Resize/refresh viewed windows to the correct size",
"",
"-- move focus up or down the window stack",
"mod-Tab Move focus to the next window",
"mod-Shift-Tab Move focus to the previous window",
"mod-j Move focus to the next window",
"mod-k Move focus to the previous window",
"mod-m Move focus to the master window",
"",
"-- modifying the window order",
"mod-Return Swap the focused window and the master window",
"mod-Shift-j Swap the focused window with the next window",
"mod-Shift-k Swap the focused window with the previous window",
"",
"-- resizing the master/slave ratio",
"mod-h Shrink the master area",
"mod-l Expand the master area",
"",
"-- floating layer support",
"mod-t Push window back into tiling; unfloat and re-tile it",
"",
"-- increase or decrease number of windows in the master area",
"mod-comma (mod-,) Increment the number of windows in the master area",
"mod-period (mod-.) Deincrement the number of windows in the master area",
"",
"-- quit, or restart",
"mod-Shift-q Quit xmonad",
"mod-q Restart xmonad",
"",
"-- Workspaces & screens",
"mod-[1..9] Switch to workSpace N",
"mod-Shift-[1..9] Move client to workspace N",
"mod-{w,e,r} Switch to physical/Xinerama screens 1, 2, or 3",
"mod-Shift-{w,e,r} Move client to screen 1, 2, or 3",
"",
"-- Mouse bindings: default actions bound to mouse events",
"mod-button1 Set the window to floating mode and move by dragging",
"mod-button2 Raise the window to the top of the stack",
"mod-button3 Set the window to floating mode and resize by dragging"]

723
src/XMonad/Core.hs Normal file
View File

@@ -0,0 +1,723 @@
{-# LANGUAGE ExistentialQuantification, FlexibleInstances, GeneralizedNewtypeDeriving,
MultiParamTypeClasses, TypeSynonymInstances, DeriveDataTypeable #-}
-----------------------------------------------------------------------------
-- |
-- Module : XMonad.Core
-- Copyright : (c) Spencer Janssen 2007
-- License : BSD3-style (see LICENSE)
--
-- Maintainer : spencerjanssen@gmail.com
-- Stability : unstable
-- Portability : not portable, uses cunning newtype deriving
--
-- The 'X' monad, a state monad transformer over 'IO', for the window
-- manager state, and support routines.
--
-----------------------------------------------------------------------------
module XMonad.Core (
X, WindowSet, WindowSpace, WorkspaceId,
ScreenId(..), ScreenDetail(..), XState(..),
XConf(..), XConfig(..), LayoutClass(..),
Layout(..), readsLayout, Typeable, Message,
SomeMessage(..), fromMessage, LayoutMessages(..),
StateExtension(..), ExtensionClass(..),
runX, catchX, userCode, userCodeDef, io, catchIO, installSignalHandlers, uninstallSignalHandlers,
withDisplay, withWindowSet, isRoot, runOnWorkspaces,
getAtom, spawn, spawnPID, xfork, recompile, trace, whenJust, whenX,
getXMonadDir, getXMonadCacheDir, getXMonadDataDir, stateFileName,
atom_WM_STATE, atom_WM_PROTOCOLS, atom_WM_DELETE_WINDOW, atom_WM_TAKE_FOCUS, withWindowAttributes,
ManageHook, Query(..), runQuery
) where
import XMonad.StackSet hiding (modify)
import Prelude
import Control.Exception.Extensible (fromException, try, bracket, throw, finally, SomeException(..))
import qualified Control.Exception.Extensible as E
import Control.Applicative(Applicative, pure, (<$>), (<*>))
import Control.Monad.Fail
import Control.Monad.State
import Control.Monad.Reader
import Data.Semigroup
import Data.Default
import System.FilePath
import System.IO
import System.Info
import System.Posix.Env (getEnv)
import System.Posix.Process (executeFile, forkProcess, getAnyProcessStatus, createSession)
import System.Posix.Signals
import System.Posix.IO
import System.Posix.Types (ProcessID)
import System.Process
import System.Directory
import System.Exit
import Graphics.X11.Xlib
import Graphics.X11.Xlib.Extras (getWindowAttributes, WindowAttributes, Event)
import Data.Typeable
import Data.List ((\\))
import Data.Maybe (isJust,fromMaybe)
import Data.Monoid hiding ((<>))
import System.Environment (lookupEnv)
import qualified Data.Map as M
import qualified Data.Set as S
-- | XState, the (mutable) window manager state.
data XState = XState
{ windowset :: !WindowSet -- ^ workspace list
, mapped :: !(S.Set Window) -- ^ the Set of mapped windows
, waitingUnmap :: !(M.Map Window Int) -- ^ the number of expected UnmapEvents
, dragging :: !(Maybe (Position -> Position -> X (), X ()))
, numberlockMask :: !KeyMask -- ^ The numlock modifier
, extensibleState :: !(M.Map String (Either String StateExtension))
-- ^ stores custom state information.
--
-- The module "XMonad.Util.ExtensibleState" in xmonad-contrib
-- provides additional information and a simple interface for using this.
}
-- | XConf, the (read-only) window manager configuration.
data XConf = XConf
{ display :: Display -- ^ the X11 display
, config :: !(XConfig Layout) -- ^ initial user configuration
, theRoot :: !Window -- ^ the root window
, normalBorder :: !Pixel -- ^ border color of unfocused windows
, focusedBorder :: !Pixel -- ^ border color of the focused window
, keyActions :: !(M.Map (KeyMask, KeySym) (X ()))
-- ^ a mapping of key presses to actions
, buttonActions :: !(M.Map (KeyMask, Button) (Window -> X ()))
-- ^ a mapping of button presses to actions
, mouseFocused :: !Bool -- ^ was refocus caused by mouse action?
, mousePosition :: !(Maybe (Position, Position))
-- ^ position of the mouse according to
-- the event currently being processed
, currentEvent :: !(Maybe Event)
-- ^ event currently being processed
}
-- todo, better name
data XConfig l = XConfig
{ normalBorderColor :: !String -- ^ Non focused windows border color. Default: \"#dddddd\"
, focusedBorderColor :: !String -- ^ Focused windows border color. Default: \"#ff0000\"
, terminal :: !String -- ^ The preferred terminal application. Default: \"xterm\"
, layoutHook :: !(l Window) -- ^ The available layouts
, manageHook :: !ManageHook -- ^ The action to run when a new window is opened
, handleEventHook :: !(Event -> X All) -- ^ Handle an X event, returns (All True) if the default handler
-- should also be run afterwards. mappend should be used for combining
-- event hooks in most cases.
, workspaces :: ![String] -- ^ The list of workspaces' names
, modMask :: !KeyMask -- ^ the mod modifier
, keys :: !(XConfig Layout -> M.Map (ButtonMask,KeySym) (X ()))
-- ^ The key binding: a map from key presses and actions
, mouseBindings :: !(XConfig Layout -> M.Map (ButtonMask, Button) (Window -> X ()))
-- ^ The mouse bindings
, borderWidth :: !Dimension -- ^ The border width
, logHook :: !(X ()) -- ^ The action to perform when the windows set is changed
, startupHook :: !(X ()) -- ^ The action to perform on startup
, focusFollowsMouse :: !Bool -- ^ Whether window entry events can change focus
, clickJustFocuses :: !Bool -- ^ False to make a click which changes focus to be additionally passed to the window
, clientMask :: !EventMask -- ^ The client events that xmonad is interested in
, rootMask :: !EventMask -- ^ The root events that xmonad is interested in
, handleExtraArgs :: !([String] -> XConfig Layout -> IO (XConfig Layout))
-- ^ Modify the configuration, complain about extra arguments etc. with arguments that are not handled by default
}
type WindowSet = StackSet WorkspaceId (Layout Window) Window ScreenId ScreenDetail
type WindowSpace = Workspace WorkspaceId (Layout Window) Window
-- | Virtual workspace indices
type WorkspaceId = String
-- | Physical screen indices
newtype ScreenId = S Int deriving (Eq,Ord,Show,Read,Enum,Num,Integral,Real)
-- | The 'Rectangle' with screen dimensions
data ScreenDetail = SD { screenRect :: !Rectangle } deriving (Eq,Show, Read)
------------------------------------------------------------------------
-- | The X monad, 'ReaderT' and 'StateT' transformers over 'IO'
-- encapsulating the window manager configuration and state,
-- respectively.
--
-- Dynamic components may be retrieved with 'get', static components
-- with 'ask'. With newtype deriving we get readers and state monads
-- instantiated on 'XConf' and 'XState' automatically.
--
newtype X a = X (ReaderT XConf (StateT XState IO) a)
deriving (Functor, Monad, MonadFail, MonadIO, MonadState XState, MonadReader XConf, Typeable)
instance Applicative X where
pure = return
(<*>) = ap
instance Semigroup a => Semigroup (X a) where
(<>) = liftM2 (<>)
instance (Monoid a) => Monoid (X a) where
mempty = return mempty
mappend = liftM2 mappend
instance Default a => Default (X a) where
def = return def
type ManageHook = Query (Endo WindowSet)
newtype Query a = Query (ReaderT Window X a)
deriving (Functor, Applicative, Monad, MonadReader Window, MonadIO)
runQuery :: Query a -> Window -> X a
runQuery (Query m) w = runReaderT m w
instance Semigroup a => Semigroup (Query a) where
(<>) = liftM2 (<>)
instance Monoid a => Monoid (Query a) where
mempty = return mempty
mappend = liftM2 mappend
instance Default a => Default (Query a) where
def = return def
-- | Run the 'X' monad, given a chunk of 'X' monad code, and an initial state
-- Return the result, and final state
runX :: XConf -> XState -> X a -> IO (a, XState)
runX c st (X a) = runStateT (runReaderT a c) st
-- | Run in the 'X' monad, and in case of exception, and catch it and log it
-- to stderr, and run the error case.
catchX :: X a -> X a -> X a
catchX job errcase = do
st <- get
c <- ask
(a, s') <- io $ runX c st job `E.catch` \e -> case fromException e of
Just x -> throw e `const` (x `asTypeOf` ExitSuccess)
_ -> do hPrint stderr e; runX c st errcase
put s'
return a
-- | Execute the argument, catching all exceptions. Either this function or
-- 'catchX' should be used at all callsites of user customized code.
userCode :: X a -> X (Maybe a)
userCode a = catchX (Just `liftM` a) (return Nothing)
-- | Same as userCode but with a default argument to return instead of using
-- Maybe, provided for convenience.
userCodeDef :: a -> X a -> X a
userCodeDef defValue a = fromMaybe defValue `liftM` userCode a
-- ---------------------------------------------------------------------
-- Convenient wrappers to state
-- | Run a monad action with the current display settings
withDisplay :: (Display -> X a) -> X a
withDisplay f = asks display >>= f
-- | Run a monadic action with the current stack set
withWindowSet :: (WindowSet -> X a) -> X a
withWindowSet f = gets windowset >>= f
-- | Safely access window attributes.
withWindowAttributes :: Display -> Window -> (WindowAttributes -> X ()) -> X ()
withWindowAttributes dpy win f = do
wa <- userCode (io $ getWindowAttributes dpy win)
catchX (whenJust wa f) (return ())
-- | True if the given window is the root window
isRoot :: Window -> X Bool
isRoot w = (w==) <$> asks theRoot
-- | Wrapper for the common case of atom internment
getAtom :: String -> X Atom
getAtom str = withDisplay $ \dpy -> io $ internAtom dpy str False
-- | Common non-predefined atoms
atom_WM_PROTOCOLS, atom_WM_DELETE_WINDOW, atom_WM_STATE, atom_WM_TAKE_FOCUS :: X Atom
atom_WM_PROTOCOLS = getAtom "WM_PROTOCOLS"
atom_WM_DELETE_WINDOW = getAtom "WM_DELETE_WINDOW"
atom_WM_STATE = getAtom "WM_STATE"
atom_WM_TAKE_FOCUS = getAtom "WM_TAKE_FOCUS"
------------------------------------------------------------------------
-- LayoutClass handling. See particular instances in Operations.hs
-- | An existential type that can hold any object that is in 'Read'
-- and 'LayoutClass'.
data Layout a = forall l. (LayoutClass l a, Read (l a)) => Layout (l a)
-- | Using the 'Layout' as a witness, parse existentially wrapped windows
-- from a 'String'.
readsLayout :: Layout a -> String -> [(Layout a, String)]
readsLayout (Layout l) s = [(Layout (asTypeOf x l), rs) | (x, rs) <- reads s]
-- | Every layout must be an instance of 'LayoutClass', which defines
-- the basic layout operations along with a sensible default for each.
--
-- Minimal complete definition:
--
-- * 'runLayout' || (('doLayout' || 'pureLayout') && 'emptyLayout'), and
--
-- * 'handleMessage' || 'pureMessage'
--
-- You should also strongly consider implementing 'description',
-- although it is not required.
--
-- Note that any code which /uses/ 'LayoutClass' methods should only
-- ever call 'runLayout', 'handleMessage', and 'description'! In
-- other words, the only calls to 'doLayout', 'pureMessage', and other
-- such methods should be from the default implementations of
-- 'runLayout', 'handleMessage', and so on. This ensures that the
-- proper methods will be used, regardless of the particular methods
-- that any 'LayoutClass' instance chooses to define.
class Show (layout a) => LayoutClass layout a where
-- | By default, 'runLayout' calls 'doLayout' if there are any
-- windows to be laid out, and 'emptyLayout' otherwise. Most
-- instances of 'LayoutClass' probably do not need to implement
-- 'runLayout'; it is only useful for layouts which wish to make
-- use of more of the 'Workspace' information (for example,
-- "XMonad.Layout.PerWorkspace").
runLayout :: Workspace WorkspaceId (layout a) a
-> Rectangle
-> X ([(a, Rectangle)], Maybe (layout a))
runLayout (Workspace _ l ms) r = maybe (emptyLayout l r) (doLayout l r) ms
-- | Given a 'Rectangle' in which to place the windows, and a 'Stack'
-- of windows, return a list of windows and their corresponding
-- Rectangles. If an element is not given a Rectangle by
-- 'doLayout', then it is not shown on screen. The order of
-- windows in this list should be the desired stacking order.
--
-- Also possibly return a modified layout (by returning @Just
-- newLayout@), if this layout needs to be modified (e.g. if it
-- keeps track of some sort of state). Return @Nothing@ if the
-- layout does not need to be modified.
--
-- Layouts which do not need access to the 'X' monad ('IO', window
-- manager state, or configuration) and do not keep track of their
-- own state should implement 'pureLayout' instead of 'doLayout'.
doLayout :: layout a -> Rectangle -> Stack a
-> X ([(a, Rectangle)], Maybe (layout a))
doLayout l r s = return (pureLayout l r s, Nothing)
-- | This is a pure version of 'doLayout', for cases where we
-- don't need access to the 'X' monad to determine how to lay out
-- the windows, and we don't need to modify the layout itself.
pureLayout :: layout a -> Rectangle -> Stack a -> [(a, Rectangle)]
pureLayout _ r s = [(focus s, r)]
-- | 'emptyLayout' is called when there are no windows.
emptyLayout :: layout a -> Rectangle -> X ([(a, Rectangle)], Maybe (layout a))
emptyLayout _ _ = return ([], Nothing)
-- | 'handleMessage' performs message handling. If
-- 'handleMessage' returns @Nothing@, then the layout did not
-- respond to the message and the screen is not refreshed.
-- Otherwise, 'handleMessage' returns an updated layout and the
-- screen is refreshed.
--
-- Layouts which do not need access to the 'X' monad to decide how
-- to handle messages should implement 'pureMessage' instead of
-- 'handleMessage' (this restricts the risk of error, and makes
-- testing much easier).
handleMessage :: layout a -> SomeMessage -> X (Maybe (layout a))
handleMessage l = return . pureMessage l
-- | Respond to a message by (possibly) changing our layout, but
-- taking no other action. If the layout changes, the screen will
-- be refreshed.
pureMessage :: layout a -> SomeMessage -> Maybe (layout a)
pureMessage _ _ = Nothing
-- | This should be a human-readable string that is used when
-- selecting layouts by name. The default implementation is
-- 'show', which is in some cases a poor default.
description :: layout a -> String
description = show
instance LayoutClass Layout Window where
runLayout (Workspace i (Layout l) ms) r = fmap (fmap Layout) `fmap` runLayout (Workspace i l ms) r
doLayout (Layout l) r s = fmap (fmap Layout) `fmap` doLayout l r s
emptyLayout (Layout l) r = fmap (fmap Layout) `fmap` emptyLayout l r
handleMessage (Layout l) = fmap (fmap Layout) . handleMessage l
description (Layout l) = description l
instance Show (Layout a) where show (Layout l) = show l
-- | Based on ideas in /An Extensible Dynamically-Typed Hierarchy of
-- Exceptions/, Simon Marlow, 2006. Use extensible messages to the
-- 'handleMessage' handler.
--
-- User-extensible messages must be a member of this class.
--
class Typeable a => Message a
-- |
-- A wrapped value of some type in the 'Message' class.
--
data SomeMessage = forall a. Message a => SomeMessage a
-- |
-- And now, unwrap a given, unknown 'Message' type, performing a (dynamic)
-- type check on the result.
--
fromMessage :: Message m => SomeMessage -> Maybe m
fromMessage (SomeMessage m) = cast m
-- X Events are valid Messages.
instance Message Event
-- | 'LayoutMessages' are core messages that all layouts (especially stateful
-- layouts) should consider handling.
data LayoutMessages = Hide -- ^ sent when a layout becomes non-visible
| ReleaseResources -- ^ sent when xmonad is exiting or restarting
deriving (Typeable, Eq)
instance Message LayoutMessages
-- ---------------------------------------------------------------------
-- Extensible state
--
-- | Every module must make the data it wants to store
-- an instance of this class.
--
-- Minimal complete definition: initialValue
class Typeable a => ExtensionClass a where
-- | Defines an initial value for the state extension
initialValue :: a
-- | Specifies whether the state extension should be
-- persistent. Setting this method to 'PersistentExtension'
-- will make the stored data survive restarts, but
-- requires a to be an instance of Read and Show.
--
-- It defaults to 'StateExtension', i.e. no persistence.
extensionType :: a -> StateExtension
extensionType = StateExtension
-- | Existential type to store a state extension.
data StateExtension =
forall a. ExtensionClass a => StateExtension a
-- ^ Non-persistent state extension
| forall a. (Read a, Show a, ExtensionClass a) => PersistentExtension a
-- ^ Persistent extension
-- ---------------------------------------------------------------------
-- | General utilities
--
-- Lift an 'IO' action into the 'X' monad
io :: MonadIO m => IO a -> m a
io = liftIO
-- | Lift an 'IO' action into the 'X' monad. If the action results in an 'IO'
-- exception, log the exception to stderr and continue normal execution.
catchIO :: MonadIO m => IO () -> m ()
catchIO f = io (f `E.catch` \(SomeException e) -> hPrint stderr e >> hFlush stderr)
-- | spawn. Launch an external application. Specifically, it double-forks and
-- runs the 'String' you pass as a command to \/bin\/sh.
--
-- Note this function assumes your locale uses utf8.
spawn :: MonadIO m => String -> m ()
spawn x = spawnPID x >> return ()
-- | Like 'spawn', but returns the 'ProcessID' of the launched application
spawnPID :: MonadIO m => String -> m ProcessID
spawnPID x = xfork $ executeFile "/bin/sh" False ["-c", x] Nothing
-- | A replacement for 'forkProcess' which resets default signal handlers.
xfork :: MonadIO m => IO () -> m ProcessID
xfork x = io . forkProcess . finally nullStdin $ do
uninstallSignalHandlers
createSession
x
where
nullStdin = do
fd <- openFd "/dev/null" ReadOnly Nothing defaultFileFlags
dupTo fd stdInput
closeFd fd
-- | This is basically a map function, running a function in the 'X' monad on
-- each workspace with the output of that function being the modified workspace.
runOnWorkspaces :: (WindowSpace -> X WindowSpace) -> X ()
runOnWorkspaces job = do
ws <- gets windowset
h <- mapM job $ hidden ws
c:v <- mapM (\s -> (\w -> s { workspace = w}) <$> job (workspace s))
$ current ws : visible ws
modify $ \s -> s { windowset = ws { current = c, visible = v, hidden = h } }
-- | Return the path to the xmonad configuration directory. This
-- directory is where user configuration files are stored (e.g, the
-- xmonad.hs file). You may also create a @lib@ subdirectory in the
-- configuration directory and the default recompile command will add
-- it to the GHC include path.
--
-- Several directories are considered. In order of
-- preference:
--
-- 1. The directory specified in the @XMONAD_CONFIG_DIR@ environment variable.
-- 2. The @~\/.xmonad@ directory.
-- 3. The @XDG_CONFIG_HOME/xmonad@ directory.
--
-- The first directory that exists will be used. If none of the
-- directories exist then (1) will be used if it is set, otherwise (2)
-- will be used. Either way, a directory will be created if necessary.
getXMonadDir :: MonadIO m => m String
getXMonadDir =
findFirstDirWithEnv "XMONAD_CONFIG_DIR"
[ getAppUserDataDirectory "xmonad"
, getXDGDirectory XDGConfig "xmonad"
]
-- | Return the path to the xmonad cache directory. This directory is
-- used to store temporary files that can easily be recreated. For
-- example, the XPrompt history file.
--
-- Several directories are considered. In order of preference:
--
-- 1. The directory specified in the @XMONAD_CACHE_DIR@ environment variable.
-- 2. The @~\/.xmonad@ directory.
-- 3. The @XDG_CACHE_HOME/xmonad@ directory.
--
-- The first directory that exists will be used. If none of the
-- directories exist then (1) will be used if it is set, otherwise (2)
-- will be used. Either way, a directory will be created if necessary.
getXMonadCacheDir :: MonadIO m => m String
getXMonadCacheDir =
findFirstDirWithEnv "XMONAD_CACHE_DIR"
[ getAppUserDataDirectory "xmonad"
, getXDGDirectory XDGCache "xmonad"
]
-- | Return the path to the xmonad data directory. This directory is
-- used by XMonad to store data files such as the run-time state file
-- and the configuration binary generated by GHC.
--
-- Several directories are considered. In order of preference:
--
-- 1. The directory specified in the @XMONAD_DATA_DIR@ environment variable.
-- 2. The @~\/.xmonad@ directory.
-- 3. The @XDG_DATA_HOME/xmonad@ directory.
--
-- The first directory that exists will be used. If none of the
-- directories exist then (1) will be used if it is set, otherwise (2)
-- will be used. Either way, a directory will be created if necessary.
getXMonadDataDir :: MonadIO m => m String
getXMonadDataDir =
findFirstDirWithEnv "XMONAD_DATA_DIR"
[ getAppUserDataDirectory "xmonad"
, getXDGDirectory XDGData "xmonad"
]
-- | Helper function that will find the first existing directory and
-- return its path. If none of the directories can be found, create
-- and return the first from the list. If the list is empty this
-- function returns the historical @~\/.xmonad@ directory.
findFirstDirOf :: MonadIO m => [IO FilePath] -> m FilePath
findFirstDirOf [] = findFirstDirOf [getAppUserDataDirectory "xmonad"]
findFirstDirOf possibles = do
found <- go possibles
case found of
Just path -> return path
Nothing -> do
primary <- io (head possibles)
io (createDirectoryIfMissing True primary)
return primary
where
go [] = return Nothing
go (x:xs) = do
dir <- io x
exists <- io (doesDirectoryExist dir)
if exists then return (Just dir) else go xs
-- | Simple wrapper around @findFirstDirOf@ that allows the primary
-- path to be specified by an environment variable.
findFirstDirWithEnv :: MonadIO m => String -> [IO FilePath] -> m FilePath
findFirstDirWithEnv envName paths = do
envPath' <- io (getEnv envName)
case envPath' of
Nothing -> findFirstDirOf paths
Just envPath -> findFirstDirOf (return envPath:paths)
-- | Helper function to retrieve the various XDG directories.
-- This has been based on the implementation shipped with GHC version 8.0.1 or
-- higher. Put here to preserve compatibility with older GHC versions.
getXDGDirectory :: XDGDirectory -> FilePath -> IO FilePath
getXDGDirectory xdgDir suffix =
normalise . (</> suffix) <$>
case xdgDir of
XDGData -> get "XDG_DATA_HOME" ".local/share"
XDGConfig -> get "XDG_CONFIG_HOME" ".config"
XDGCache -> get "XDG_CACHE_HOME" ".cache"
where
get name fallback = do
env <- lookupEnv name
case env of
Nothing -> fallback'
Just path
| isRelative path -> fallback'
| otherwise -> return path
where
fallback' = (</> fallback) <$> getHomeDirectory
data XDGDirectory = XDGData | XDGConfig | XDGCache
-- | Get the name of the file used to store the xmonad window state.
stateFileName :: (Functor m, MonadIO m) => m FilePath
stateFileName = (</> "xmonad.state") <$> getXMonadDataDir
-- | 'recompile force', recompile the xmonad configuration file when
-- any of the following apply:
--
-- * force is 'True'
--
-- * the xmonad executable does not exist
--
-- * the xmonad executable is older than xmonad.hs or any file in
-- the @lib@ directory (under the configuration directory).
--
-- The -i flag is used to restrict recompilation to the xmonad.hs file only,
-- and any files in the aforementioned @lib@ directory.
--
-- Compilation errors (if any) are logged to the @xmonad.errors@ file
-- in the xmonad data directory. If GHC indicates failure with a
-- non-zero exit code, an xmessage displaying that file is spawned.
--
-- 'False' is returned if there are compilation errors.
--
recompile :: MonadIO m => Bool -> m Bool
recompile force = io $ do
cfgdir <- getXMonadDir
datadir <- getXMonadDataDir
let binn = "xmonad-"++arch++"-"++os
bin = datadir </> binn
err = datadir </> "xmonad.errors"
src = cfgdir </> "xmonad.hs"
lib = cfgdir </> "lib"
buildscript = cfgdir </> "build"
libTs <- mapM getModTime . Prelude.filter isSource =<< allFiles lib
srcT <- getModTime src
binT <- getModTime bin
useBuildscript <- do
exists <- doesFileExist buildscript
if exists
then do
isExe <- isExecutable buildscript
if isExe
then do
trace $ "XMonad will use build script at " ++ show buildscript ++ " to recompile."
return True
else do
trace $ unlines
[ "XMonad will not use build script, because " ++ show buildscript ++ " is not executable."
, "Suggested resolution to use it: chmod u+x " ++ show buildscript
]
return False
else do
trace $
"XMonad will use ghc to recompile, because " ++ show buildscript ++ " does not exist."
return False
shouldRecompile <-
if useBuildscript || force
then return True
else if any (binT <) (srcT : libTs)
then do
trace "XMonad doing recompile because some files have changed."
return True
else do
trace "XMonad skipping recompile because it is not forced (e.g. via --recompile), and neither xmonad.hs nor any *.hs / *.lhs / *.hsc files in lib/ have been changed."
return False
if shouldRecompile
then do
-- temporarily disable SIGCHLD ignoring:
uninstallSignalHandlers
status <- bracket (openFile err WriteMode) hClose $ \errHandle ->
waitForProcess =<< if useBuildscript
then compileScript bin cfgdir buildscript errHandle
else compileGHC bin cfgdir errHandle
-- re-enable SIGCHLD:
installSignalHandlers
-- now, if it fails, run xmessage to let the user know:
if status == ExitSuccess
then trace "XMonad recompilation process exited with success!"
else do
ghcErr <- readFile err
let msg = unlines $
["Error detected while loading xmonad configuration file: " ++ src]
++ lines (if null ghcErr then show status else ghcErr)
++ ["","Please check the file for errors."]
-- nb, the ordering of printing, then forking, is crucial due to
-- lazy evaluation
hPutStrLn stderr msg
forkProcess $ executeFile "xmessage" True ["-default", "okay", replaceUnicode msg] Nothing
return ()
return (status == ExitSuccess)
else return True
where getModTime f = E.catch (Just <$> getModificationTime f) (\(SomeException _) -> return Nothing)
isSource = flip elem [".hs",".lhs",".hsc"] . takeExtension
isExecutable f = E.catch (executable <$> getPermissions f) (\(SomeException _) -> return False)
allFiles t = do
let prep = map (t</>) . Prelude.filter (`notElem` [".",".."])
cs <- prep <$> E.catch (getDirectoryContents t) (\(SomeException _) -> return [])
ds <- filterM doesDirectoryExist cs
concat . ((cs \\ ds):) <$> mapM allFiles ds
-- Replace some of the unicode symbols GHC uses in its output
replaceUnicode = map $ \c -> case c of
'\8226' -> '*' --
'\8216' -> '`' --
'\8217' -> '`' --
_ -> c
compileGHC bin dir errHandle =
runProcess "ghc" ["--make"
, "xmonad.hs"
, "-i"
, "-ilib"
, "-fforce-recomp"
, "-main-is", "main"
, "-v0"
, "-o", bin
] (Just dir) Nothing Nothing Nothing (Just errHandle)
compileScript bin dir script errHandle =
runProcess script [bin] (Just dir) Nothing Nothing Nothing (Just errHandle)
-- | Conditionally run an action, using a @Maybe a@ to decide.
whenJust :: Monad m => Maybe a -> (a -> m ()) -> m ()
whenJust mg f = maybe (return ()) f mg
-- | Conditionally run an action, using a 'X' event to decide
whenX :: X Bool -> X () -> X ()
whenX a f = a >>= \b -> when b f
-- | A 'trace' for the 'X' monad. Logs a string to stderr. The result may
-- be found in your .xsession-errors file
trace :: MonadIO m => String -> m ()
trace = io . hPutStrLn stderr
-- | Ignore SIGPIPE to avoid termination when a pipe is full, and SIGCHLD to
-- avoid zombie processes, and clean up any extant zombie processes.
installSignalHandlers :: MonadIO m => m ()
installSignalHandlers = io $ do
installHandler openEndedPipe Ignore Nothing
installHandler sigCHLD Ignore Nothing
(try :: IO a -> IO (Either SomeException a))
$ fix $ \more -> do
x <- getAnyProcessStatus False False
when (isJust x) more
return ()
uninstallSignalHandlers :: MonadIO m => m ()
uninstallSignalHandlers = io $ do
installHandler openEndedPipe Default Nothing
installHandler sigCHLD Default Nothing
return ()

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{-# LANGUAGE FlexibleInstances, MultiParamTypeClasses, PatternGuards, TypeSynonymInstances, DeriveDataTypeable #-}
-- --------------------------------------------------------------------------
-- |
-- Module : XMonad.Layout
-- Copyright : (c) Spencer Janssen 2007
-- License : BSD3-style (see LICENSE)
--
-- Maintainer : spencerjanssen@gmail.com
-- Stability : unstable
-- Portability : not portable, Typeable deriving, mtl, posix
--
-- The collection of core layouts.
--
-----------------------------------------------------------------------------
module XMonad.Layout (
Full(..), Tall(..), Mirror(..),
Resize(..), IncMasterN(..), Choose, (|||), ChangeLayout(..),
mirrorRect, splitVertically,
splitHorizontally, splitHorizontallyBy, splitVerticallyBy,
tile
) where
import XMonad.Core
import Graphics.X11 (Rectangle(..))
import qualified XMonad.StackSet as W
import Control.Arrow ((***), second)
import Control.Monad
import Data.Maybe (fromMaybe)
------------------------------------------------------------------------
-- | Change the size of the master pane.
data Resize = Shrink | Expand deriving Typeable
-- | Increase the number of clients in the master pane.
data IncMasterN = IncMasterN !Int deriving Typeable
instance Message Resize
instance Message IncMasterN
-- | Simple fullscreen mode. Renders the focused window fullscreen.
data Full a = Full deriving (Show, Read)
instance LayoutClass Full a
-- | The builtin tiling mode of xmonad. Supports 'Shrink', 'Expand' and
-- 'IncMasterN'.
data Tall a = Tall { tallNMaster :: !Int -- ^ The default number of windows in the master pane (default: 1)
, tallRatioIncrement :: !Rational -- ^ Percent of screen to increment by when resizing panes (default: 3/100)
, tallRatio :: !Rational -- ^ Default proportion of screen occupied by master pane (default: 1/2)
}
deriving (Show, Read)
-- TODO should be capped [0..1] ..
-- a nice pure layout, lots of properties for the layout, and its messages, in Properties.hs
instance LayoutClass Tall a where
pureLayout (Tall nmaster _ frac) r s = zip ws rs
where ws = W.integrate s
rs = tile frac r nmaster (length ws)
pureMessage (Tall nmaster delta frac) m =
msum [fmap resize (fromMessage m)
,fmap incmastern (fromMessage m)]
where resize Shrink = Tall nmaster delta (max 0 $ frac-delta)
resize Expand = Tall nmaster delta (min 1 $ frac+delta)
incmastern (IncMasterN d) = Tall (max 0 (nmaster+d)) delta frac
description _ = "Tall"
-- | Compute the positions for windows using the default two-pane tiling
-- algorithm.
--
-- The screen is divided into two panes. All clients are
-- then partioned between these two panes. One pane, the master, by
-- convention has the least number of windows in it.
tile
:: Rational -- ^ @frac@, what proportion of the screen to devote to the master area
-> Rectangle -- ^ @r@, the rectangle representing the screen
-> Int -- ^ @nmaster@, the number of windows in the master pane
-> Int -- ^ @n@, the total number of windows to tile
-> [Rectangle]
tile f r nmaster n = if n <= nmaster || nmaster == 0
then splitVertically n r
else splitVertically nmaster r1 ++ splitVertically (n-nmaster) r2 -- two columns
where (r1,r2) = splitHorizontallyBy f r
--
-- Divide the screen vertically into n subrectangles
--
splitVertically, splitHorizontally :: Int -> Rectangle -> [Rectangle]
splitVertically n r | n < 2 = [r]
splitVertically n (Rectangle sx sy sw sh) = Rectangle sx sy sw smallh :
splitVertically (n-1) (Rectangle sx (sy+fromIntegral smallh) sw (sh-smallh))
where smallh = sh `div` fromIntegral n --hmm, this is a fold or map.
-- Not used in the core, but exported
splitHorizontally n = map mirrorRect . splitVertically n . mirrorRect
-- Divide the screen into two rectangles, using a rational to specify the ratio
splitHorizontallyBy, splitVerticallyBy :: RealFrac r => r -> Rectangle -> (Rectangle, Rectangle)
splitHorizontallyBy f (Rectangle sx sy sw sh) =
( Rectangle sx sy leftw sh
, Rectangle (sx + fromIntegral leftw) sy (sw-fromIntegral leftw) sh)
where leftw = floor $ fromIntegral sw * f
-- Not used in the core, but exported
splitVerticallyBy f = (mirrorRect *** mirrorRect) . splitHorizontallyBy f . mirrorRect
------------------------------------------------------------------------
-- | Mirror a layout, compute its 90 degree rotated form.
newtype Mirror l a = Mirror (l a) deriving (Show, Read)
instance LayoutClass l a => LayoutClass (Mirror l) a where
runLayout (W.Workspace i (Mirror l) ms) r = (map (second mirrorRect) *** fmap Mirror)
`fmap` runLayout (W.Workspace i l ms) (mirrorRect r)
handleMessage (Mirror l) = fmap (fmap Mirror) . handleMessage l
description (Mirror l) = "Mirror "++ description l
-- | Mirror a rectangle.
mirrorRect :: Rectangle -> Rectangle
mirrorRect (Rectangle rx ry rw rh) = Rectangle ry rx rh rw
------------------------------------------------------------------------
-- LayoutClass selection manager
-- Layouts that transition between other layouts
-- | Messages to change the current layout.
data ChangeLayout = FirstLayout | NextLayout deriving (Eq, Show, Typeable)
instance Message ChangeLayout
-- | The layout choice combinator
(|||) :: l a -> r a -> Choose l r a
(|||) = Choose L
infixr 5 |||
-- | A layout that allows users to switch between various layout options.
data Choose l r a = Choose LR (l a) (r a) deriving (Read, Show)
-- | Are we on the left or right sub-layout?
data LR = L | R deriving (Read, Show, Eq)
data NextNoWrap = NextNoWrap deriving (Eq, Show, Typeable)
instance Message NextNoWrap
-- | A small wrapper around handleMessage, as it is tedious to write
-- SomeMessage repeatedly.
handle :: (LayoutClass l a, Message m) => l a -> m -> X (Maybe (l a))
handle l m = handleMessage l (SomeMessage m)
-- | A smart constructor that takes some potential modifications, returns a
-- new structure if any fields have changed, and performs any necessary cleanup
-- on newly non-visible layouts.
choose :: (LayoutClass l a, LayoutClass r a)
=> Choose l r a-> LR -> Maybe (l a) -> Maybe (r a) -> X (Maybe (Choose l r a))
choose (Choose d _ _) d' Nothing Nothing | d == d' = return Nothing
choose (Choose d l r) d' ml mr = f lr
where
(l', r') = (fromMaybe l ml, fromMaybe r mr)
lr = case (d, d') of
(L, R) -> (hide l' , return r')
(R, L) -> (return l', hide r' )
(_, _) -> (return l', return r')
f (x,y) = fmap Just $ liftM2 (Choose d') x y
hide x = fmap (fromMaybe x) $ handle x Hide
instance (LayoutClass l a, LayoutClass r a) => LayoutClass (Choose l r) a where
runLayout (W.Workspace i (Choose L l r) ms) =
fmap (second . fmap $ flip (Choose L) r) . runLayout (W.Workspace i l ms)
runLayout (W.Workspace i (Choose R l r) ms) =
fmap (second . fmap $ Choose R l) . runLayout (W.Workspace i r ms)
description (Choose L l _) = description l
description (Choose R _ r) = description r
handleMessage lr m | Just NextLayout <- fromMessage m = do
mlr' <- handle lr NextNoWrap
maybe (handle lr FirstLayout) (return . Just) mlr'
handleMessage c@(Choose d l r) m | Just NextNoWrap <- fromMessage m =
case d of
L -> do
ml <- handle l NextNoWrap
case ml of
Just _ -> choose c L ml Nothing
Nothing -> choose c R Nothing =<< handle r FirstLayout
R -> choose c R Nothing =<< handle r NextNoWrap
handleMessage c@(Choose _ l _) m | Just FirstLayout <- fromMessage m =
flip (choose c L) Nothing =<< handle l FirstLayout
handleMessage c@(Choose d l r) m | Just ReleaseResources <- fromMessage m =
join $ liftM2 (choose c d) (handle l ReleaseResources) (handle r ReleaseResources)
handleMessage c@(Choose d l r) m = do
ml' <- case d of
L -> handleMessage l m
R -> return Nothing
mr' <- case d of
L -> return Nothing
R -> handleMessage r m
choose c d ml' mr'

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{-# LANGUAGE MultiParamTypeClasses, FlexibleContexts #-}
----------------------------------------------------------------------------
-- |
-- Module : XMonad.Main
-- Copyright : (c) Spencer Janssen 2007
-- License : BSD3-style (see LICENSE)
--
-- Maintainer : spencerjanssen@gmail.com
-- Stability : unstable
-- Portability : not portable, uses mtl, X11, posix
--
-- xmonad, a minimalist, tiling window manager for X11
--
-----------------------------------------------------------------------------
module XMonad.Main (xmonad, launch) where
import System.Locale.SetLocale
import qualified Control.Exception.Extensible as E
import Data.Bits
import Data.List ((\\))
import Data.Function
import qualified Data.Map as M
import qualified Data.Set as S
import Control.Monad.Reader
import Control.Monad.State
import Data.Maybe (fromMaybe)
import Data.Monoid (getAll)
import Graphics.X11.Xlib hiding (refreshKeyboardMapping)
import Graphics.X11.Xlib.Extras
import XMonad.Core
import qualified XMonad.Config as Default
import XMonad.StackSet (new, floating, member)
import qualified XMonad.StackSet as W
import XMonad.Operations
import System.IO
import System.Directory
import System.Info
import System.Environment
import System.Posix.Process (executeFile)
import System.Exit (exitFailure)
import System.FilePath
import Paths_xmonad (version)
import Data.Version (showVersion)
import Graphics.X11.Xinerama (compiledWithXinerama)
------------------------------------------------------------------------
-- |
-- | The entry point into xmonad. Attempts to compile any custom main
-- for xmonad, and if it doesn't find one, just launches the default.
xmonad :: (LayoutClass l Window, Read (l Window)) => XConfig l -> IO ()
xmonad conf = do
installSignalHandlers -- important to ignore SIGCHLD to avoid zombies
let launch' args = do
catchIO buildLaunch
conf' @ XConfig { layoutHook = Layout l }
<- handleExtraArgs conf args conf{ layoutHook = Layout (layoutHook conf) }
withArgs [] $ launch (conf' { layoutHook = l })
args <- getArgs
case args of
("--resume": ws : xs : args') -> migrateState ws xs >> launch' args'
["--help"] -> usage
["--recompile"] -> recompile True >>= flip unless exitFailure
["--restart"] -> sendRestart
["--version"] -> putStrLn $ unwords shortVersion
["--verbose-version"] -> putStrLn . unwords $ shortVersion ++ longVersion
"--replace" : args' -> sendReplace >> launch' args'
_ -> launch' args
where
shortVersion = ["xmonad", showVersion version]
longVersion = [ "compiled by", compilerName, showVersion compilerVersion
, "for", arch ++ "-" ++ os
, "\nXinerama:", show compiledWithXinerama ]
usage :: IO ()
usage = do
self <- getProgName
putStr . unlines $
concat ["Usage: ", self, " [OPTION]"] :
"Options:" :
" --help Print this message" :
" --version Print the version number" :
" --recompile Recompile your ~/.xmonad/xmonad.hs" :
" --replace Replace the running window manager with xmonad" :
" --restart Request a running xmonad process to restart" :
[]
-- | Build the xmonad configuration file with ghc, then execute it.
-- If there are no errors, this function does not return. An
-- exception is raised in any of these cases:
--
-- * ghc missing
--
-- * both the configuration file and executable are missing
--
-- * xmonad.hs fails to compile
--
-- ** wrong ghc in path (fails to compile)
--
-- ** type error, syntax error, ..
--
-- * Missing XMonad\/XMonadContrib modules due to ghc upgrade
--
buildLaunch :: IO ()
buildLaunch = do
whoami <- getProgName
let compiledConfig = "xmonad-"++arch++"-"++os
unless (whoami == compiledConfig) $ do
trace $ concat
[ "XMonad is recompiling and replacing itself another XMonad process because the current process is called "
, show whoami
, " but the compiled configuration should be called "
, show compiledConfig
]
recompile False
dir <- getXMonadDataDir
args <- getArgs
executeFile (dir </> compiledConfig) False args Nothing
sendRestart :: IO ()
sendRestart = do
dpy <- openDisplay ""
rw <- rootWindow dpy $ defaultScreen dpy
xmonad_restart <- internAtom dpy "XMONAD_RESTART" False
allocaXEvent $ \e -> do
setEventType e clientMessage
setClientMessageEvent e rw xmonad_restart 32 0 currentTime
sendEvent dpy rw False structureNotifyMask e
sync dpy False
-- | a wrapper for 'replace'
sendReplace :: IO ()
sendReplace = do
dpy <- openDisplay ""
let dflt = defaultScreen dpy
rootw <- rootWindow dpy dflt
replace dpy dflt rootw
-- | Entry point into xmonad for custom builds.
--
-- This function isn't meant to be called by the typical xmonad user
-- because it:
--
-- * Does not process any command line arguments.
--
-- * Therefore doesn't know how to restart a running xmonad.
--
-- * Does not compile your configuration file since it assumes it's
-- actually running from within your compiled configuration.
--
-- Unless you know what you are doing, you should probably be using
-- the 'xmonad' function instead.
--
-- However, if you are using a custom build environment (such as
-- stack, cabal, make, etc.) you will likely want to call this
-- function instead of 'xmonad'. You probably also want to have a key
-- binding to the 'XMonad.Operations.restart` function that restarts
-- your custom binary with the resume flag set to @True@.
launch :: (LayoutClass l Window, Read (l Window)) => XConfig l -> IO ()
launch initxmc = do
-- setup locale information from environment
setLocale LC_ALL (Just "")
-- ignore SIGPIPE and SIGCHLD
installSignalHandlers
-- First, wrap the layout in an existential, to keep things pretty:
let xmc = initxmc { layoutHook = Layout $ layoutHook initxmc }
dpy <- openDisplay ""
let dflt = defaultScreen dpy
rootw <- rootWindow dpy dflt
-- If another WM is running, a BadAccess error will be returned. The
-- default error handler will write the exception to stderr and exit with
-- an error.
selectInput dpy rootw $ rootMask initxmc
sync dpy False -- sync to ensure all outstanding errors are delivered
-- turn off the default handler in favor of one that ignores all errors
-- (ugly, I know)
xSetErrorHandler -- in C, I'm too lazy to write the binding: dons
xinesc <- getCleanedScreenInfo dpy
nbc <- do v <- initColor dpy $ normalBorderColor xmc
~(Just nbc_) <- initColor dpy $ normalBorderColor Default.def
return (fromMaybe nbc_ v)
fbc <- do v <- initColor dpy $ focusedBorderColor xmc
~(Just fbc_) <- initColor dpy $ focusedBorderColor Default.def
return (fromMaybe fbc_ v)
hSetBuffering stdout NoBuffering
let layout = layoutHook xmc
initialWinset = let padToLen n xs = take (max n (length xs)) $ xs ++ repeat ""
in new layout (padToLen (length xinesc) (workspaces xmc)) $ map SD xinesc
cf = XConf
{ display = dpy
, config = xmc
, theRoot = rootw
, normalBorder = nbc
, focusedBorder = fbc
, keyActions = keys xmc xmc
, buttonActions = mouseBindings xmc xmc
, mouseFocused = False
, mousePosition = Nothing
, currentEvent = Nothing }
st = XState
{ windowset = initialWinset
, numberlockMask = 0
, mapped = S.empty
, waitingUnmap = M.empty
, dragging = Nothing
, extensibleState = M.empty
}
allocaXEvent $ \e ->
runX cf st $ do
-- check for serialized state in a file.
serializedSt <- do
path <- stateFileName
exists <- io (doesFileExist path)
if exists then readStateFile initxmc else return Nothing
-- restore extensibleState if we read it from a file.
let extst = maybe M.empty extensibleState serializedSt
modify (\s -> s {extensibleState = extst})
setNumlockMask
grabKeys
grabButtons
io $ sync dpy False
ws <- io $ scan dpy rootw
-- bootstrap the windowset, Operations.windows will identify all
-- the windows in winset as new and set initial properties for
-- those windows. Remove all windows that are no longer top-level
-- children of the root, they may have disappeared since
-- restarting.
let winset = maybe initialWinset windowset serializedSt
windows . const . foldr W.delete winset $ W.allWindows winset \\ ws
-- manage the as-yet-unmanaged windows
mapM_ manage (ws \\ W.allWindows winset)
userCode $ startupHook initxmc
-- main loop, for all you HOF/recursion fans out there.
forever $ prehandle =<< io (nextEvent dpy e >> getEvent e)
return ()
where
-- if the event gives us the position of the pointer, set mousePosition
prehandle e = let mouse = do guard (ev_event_type e `elem` evs)
return (fromIntegral (ev_x_root e)
,fromIntegral (ev_y_root e))
in local (\c -> c { mousePosition = mouse, currentEvent = Just e }) (handleWithHook e)
evs = [ keyPress, keyRelease, enterNotify, leaveNotify
, buttonPress, buttonRelease]
-- | Runs handleEventHook from the configuration and runs the default handler
-- function if it returned True.
handleWithHook :: Event -> X ()
handleWithHook e = do
evHook <- asks (handleEventHook . config)
whenX (userCodeDef True $ getAll `fmap` evHook e) (handle e)
-- ---------------------------------------------------------------------
-- | Event handler. Map X events onto calls into Operations.hs, which
-- modify our internal model of the window manager state.
--
-- Events dwm handles that we don't:
--
-- [ButtonPress] = buttonpress,
-- [Expose] = expose,
-- [PropertyNotify] = propertynotify,
--
handle :: Event -> X ()
-- run window manager command
handle (KeyEvent {ev_event_type = t, ev_state = m, ev_keycode = code})
| t == keyPress = withDisplay $ \dpy -> do
s <- io $ keycodeToKeysym dpy code 0
mClean <- cleanMask m
ks <- asks keyActions
userCodeDef () $ whenJust (M.lookup (mClean, s) ks) id
-- manage a new window
handle (MapRequestEvent {ev_window = w}) = withDisplay $ \dpy -> do
withWindowAttributes dpy w $ \wa -> do -- ignore override windows
-- need to ignore mapping requests by managed windows not on the current workspace
managed <- isClient w
when (not (wa_override_redirect wa) && not managed) $ manage w
-- window destroyed, unmanage it
-- window gone, unmanage it
handle (DestroyWindowEvent {ev_window = w}) = whenX (isClient w) $ do
unmanage w
modify (\s -> s { mapped = S.delete w (mapped s)
, waitingUnmap = M.delete w (waitingUnmap s)})
-- We track expected unmap events in waitingUnmap. We ignore this event unless
-- it is synthetic or we are not expecting an unmap notification from a window.
handle (UnmapEvent {ev_window = w, ev_send_event = synthetic}) = whenX (isClient w) $ do
e <- gets (fromMaybe 0 . M.lookup w . waitingUnmap)
if (synthetic || e == 0)
then unmanage w
else modify (\s -> s { waitingUnmap = M.update mpred w (waitingUnmap s) })
where mpred 1 = Nothing
mpred n = Just $ pred n
-- set keyboard mapping
handle e@(MappingNotifyEvent {}) = do
io $ refreshKeyboardMapping e
when (ev_request e `elem` [mappingKeyboard, mappingModifier]) $ do
setNumlockMask
grabKeys
-- handle button release, which may finish dragging.
handle e@(ButtonEvent {ev_event_type = t})
| t == buttonRelease = do
drag <- gets dragging
case drag of
-- we're done dragging and have released the mouse:
Just (_,f) -> modify (\s -> s { dragging = Nothing }) >> f
Nothing -> broadcastMessage e
-- handle motionNotify event, which may mean we are dragging.
handle e@(MotionEvent {ev_event_type = _t, ev_x = x, ev_y = y}) = do
drag <- gets dragging
case drag of
Just (d,_) -> d (fromIntegral x) (fromIntegral y) -- we're dragging
Nothing -> broadcastMessage e
-- click on an unfocused window, makes it focused on this workspace
handle e@(ButtonEvent {ev_window = w,ev_event_type = t,ev_button = b })
| t == buttonPress = do
-- If it's the root window, then it's something we
-- grabbed in grabButtons. Otherwise, it's click-to-focus.
dpy <- asks display
isr <- isRoot w
m <- cleanMask $ ev_state e
mact <- asks (M.lookup (m, b) . buttonActions)
case mact of
Just act | isr -> act $ ev_subwindow e
_ -> do
focus w
ctf <- asks (clickJustFocuses . config)
unless ctf $ io (allowEvents dpy replayPointer currentTime)
broadcastMessage e -- Always send button events.
-- entered a normal window: focus it if focusFollowsMouse is set to
-- True in the user's config.
handle e@(CrossingEvent {ev_window = w, ev_event_type = t})
| t == enterNotify && ev_mode e == notifyNormal
= whenX (asks $ focusFollowsMouse . config) $ do
dpy <- asks display
root <- asks theRoot
(_, _, w', _, _, _, _, _) <- io $ queryPointer dpy root
-- when Xlib cannot find a child that contains the pointer,
-- it returns None(0)
when (w' == 0 || w == w') (focus w)
-- left a window, check if we need to focus root
handle e@(CrossingEvent {ev_event_type = t})
| t == leaveNotify
= do rootw <- asks theRoot
when (ev_window e == rootw && not (ev_same_screen e)) $ setFocusX rootw
-- configure a window
handle e@(ConfigureRequestEvent {ev_window = w}) = withDisplay $ \dpy -> do
ws <- gets windowset
bw <- asks (borderWidth . config)
if M.member w (floating ws)
|| not (member w ws)
then do io $ configureWindow dpy w (ev_value_mask e) $ WindowChanges
{ wc_x = ev_x e
, wc_y = ev_y e
, wc_width = ev_width e
, wc_height = ev_height e
, wc_border_width = fromIntegral bw
, wc_sibling = ev_above e
, wc_stack_mode = ev_detail e }
when (member w ws) (float w)
else withWindowAttributes dpy w $ \wa -> io $ allocaXEvent $ \ev -> do
setEventType ev configureNotify
setConfigureEvent ev w w
(wa_x wa) (wa_y wa) (wa_width wa)
(wa_height wa) (ev_border_width e) none (wa_override_redirect wa)
sendEvent dpy w False 0 ev
io $ sync dpy False
-- configuration changes in the root may mean display settings have changed
handle (ConfigureEvent {ev_window = w}) = whenX (isRoot w) rescreen
-- property notify
handle event@(PropertyEvent { ev_event_type = t, ev_atom = a })
| t == propertyNotify && a == wM_NAME = asks (logHook . config) >>= userCodeDef () >>
broadcastMessage event
handle e@ClientMessageEvent { ev_message_type = mt } = do
a <- getAtom "XMONAD_RESTART"
if (mt == a)
then restart "xmonad" True
else broadcastMessage e
handle e = broadcastMessage e -- trace (eventName e) -- ignoring
-- ---------------------------------------------------------------------
-- IO stuff. Doesn't require any X state
-- Most of these things run only on startup (bar grabkeys)
-- | scan for any new windows to manage. If they're already managed,
-- this should be idempotent.
scan :: Display -> Window -> IO [Window]
scan dpy rootw = do
(_, _, ws) <- queryTree dpy rootw
filterM (\w -> ok w `E.catch` skip) ws
-- TODO: scan for windows that are either 'IsViewable' or where WM_STATE ==
-- Iconic
where ok w = do wa <- getWindowAttributes dpy w
a <- internAtom dpy "WM_STATE" False
p <- getWindowProperty32 dpy a w
let ic = case p of
Just (3:_) -> True -- 3 for iconified
_ -> False
return $ not (wa_override_redirect wa)
&& (wa_map_state wa == waIsViewable || ic)
skip :: E.SomeException -> IO Bool
skip _ = return False
setNumlockMask :: X ()
setNumlockMask = do
dpy <- asks display
ms <- io $ getModifierMapping dpy
xs <- sequence [ do
ks <- io $ keycodeToKeysym dpy kc 0
if ks == xK_Num_Lock
then return (setBit 0 (fromIntegral m))
else return (0 :: KeyMask)
| (m, kcs) <- ms, kc <- kcs, kc /= 0]
modify (\s -> s { numberlockMask = foldr (.|.) 0 xs })
-- | Grab the keys back
grabKeys :: X ()
grabKeys = do
XConf { display = dpy, theRoot = rootw } <- ask
let grab kc m = io $ grabKey dpy kc m rootw True grabModeAsync grabModeAsync
(minCode, maxCode) = displayKeycodes dpy
allCodes = [fromIntegral minCode .. fromIntegral maxCode]
io $ ungrabKey dpy anyKey anyModifier rootw
ks <- asks keyActions
-- build a map from keysyms to lists of keysyms (doing what
-- XGetKeyboardMapping would do if the X11 package bound it)
syms <- forM allCodes $ \code -> io (keycodeToKeysym dpy code 0)
let keysymMap = M.fromListWith (++) (zip syms [[code] | code <- allCodes])
keysymToKeycodes sym = M.findWithDefault [] sym keysymMap
forM_ (M.keys ks) $ \(mask,sym) ->
forM_ (keysymToKeycodes sym) $ \kc ->
mapM_ (grab kc . (mask .|.)) =<< extraModifiers
-- | Grab the buttons
grabButtons :: X ()
grabButtons = do
XConf { display = dpy, theRoot = rootw } <- ask
let grab button mask = io $ grabButton dpy button mask rootw False buttonPressMask
grabModeAsync grabModeSync none none
io $ ungrabButton dpy anyButton anyModifier rootw
ems <- extraModifiers
ba <- asks buttonActions
mapM_ (\(m,b) -> mapM_ (grab b . (m .|.)) ems) (M.keys $ ba)
-- | @replace@ to signals compliant window managers to exit.
replace :: Display -> ScreenNumber -> Window -> IO ()
replace dpy dflt rootw = do
-- check for other WM
wmSnAtom <- internAtom dpy ("WM_S" ++ show dflt) False
currentWmSnOwner <- xGetSelectionOwner dpy wmSnAtom
when (currentWmSnOwner /= 0) $ do
-- prepare to receive destroyNotify for old WM
selectInput dpy currentWmSnOwner structureNotifyMask
-- create off-screen window
netWmSnOwner <- allocaSetWindowAttributes $ \attributes -> do
set_override_redirect attributes True
set_event_mask attributes propertyChangeMask
let screen = defaultScreenOfDisplay dpy
visual = defaultVisualOfScreen screen
attrmask = cWOverrideRedirect .|. cWEventMask
createWindow dpy rootw (-100) (-100) 1 1 0 copyFromParent copyFromParent visual attrmask attributes
-- try to acquire wmSnAtom, this should signal the old WM to terminate
xSetSelectionOwner dpy wmSnAtom netWmSnOwner currentTime
-- SKIPPED: check if we acquired the selection
-- SKIPPED: send client message indicating that we are now the WM
-- wait for old WM to go away
fix $ \again -> do
evt <- allocaXEvent $ \event -> do
windowEvent dpy currentWmSnOwner structureNotifyMask event
get_EventType event
when (evt /= destroyNotify) again

119
src/XMonad/ManageHook.hs Normal file
View File

@@ -0,0 +1,119 @@
{-# LANGUAGE GeneralizedNewtypeDeriving #-}
-----------------------------------------------------------------------------
-- |
-- Module : XMonad.ManageHook
-- Copyright : (c) Spencer Janssen 2007
-- License : BSD3-style (see LICENSE)
--
-- Maintainer : spencerjanssen@gmail.com
-- Stability : unstable
-- Portability : not portable, uses cunning newtype deriving
--
-- An EDSL for ManageHooks
--
-----------------------------------------------------------------------------
-- XXX examples required
module XMonad.ManageHook where
import XMonad.Core
import Graphics.X11.Xlib.Extras
import Graphics.X11.Xlib (Display, Window, internAtom, wM_NAME)
import Control.Exception.Extensible (bracket, SomeException(..))
import qualified Control.Exception.Extensible as E
import Control.Monad.Reader
import Data.Maybe
import Data.Monoid
import qualified XMonad.StackSet as W
import XMonad.Operations (floatLocation, reveal)
-- | Lift an 'X' action to a 'Query'.
liftX :: X a -> Query a
liftX = Query . lift
-- | The identity hook that returns the WindowSet unchanged.
idHook :: Monoid m => m
idHook = mempty
-- | Infix 'mappend'. Compose two 'ManageHook' from right to left.
(<+>) :: Monoid m => m -> m -> m
(<+>) = mappend
-- | Compose the list of 'ManageHook's.
composeAll :: Monoid m => [m] -> m
composeAll = mconcat
infix 0 -->
-- | @p --> x@. If @p@ returns 'True', execute the 'ManageHook'.
--
-- > (-->) :: Monoid m => Query Bool -> Query m -> Query m -- a simpler type
(-->) :: (Monad m, Monoid a) => m Bool -> m a -> m a
p --> f = p >>= \b -> if b then f else return mempty
-- | @q =? x@. if the result of @q@ equals @x@, return 'True'.
(=?) :: Eq a => Query a -> a -> Query Bool
q =? x = fmap (== x) q
infixr 3 <&&>, <||>
-- | '&&' lifted to a 'Monad'.
(<&&>) :: Monad m => m Bool -> m Bool -> m Bool
(<&&>) = liftM2 (&&)
-- | '||' lifted to a 'Monad'.
(<||>) :: Monad m => m Bool -> m Bool -> m Bool
(<||>) = liftM2 (||)
-- | Return the window title.
title :: Query String
title = ask >>= \w -> liftX $ do
d <- asks display
let
getProp =
(internAtom d "_NET_WM_NAME" False >>= getTextProperty d w)
`E.catch` \(SomeException _) -> getTextProperty d w wM_NAME
extract prop = do l <- wcTextPropertyToTextList d prop
return $ if null l then "" else head l
io $ bracket getProp (xFree . tp_value) extract `E.catch` \(SomeException _) -> return ""
-- | Return the application name.
appName :: Query String
appName = ask >>= (\w -> liftX $ withDisplay $ \d -> fmap resName $ io $ getClassHint d w)
-- | Backwards compatible alias for 'appName'.
resource :: Query String
resource = appName
-- | Return the resource class.
className :: Query String
className = ask >>= (\w -> liftX $ withDisplay $ \d -> fmap resClass $ io $ getClassHint d w)
-- | A query that can return an arbitrary X property of type 'String',
-- identified by name.
stringProperty :: String -> Query String
stringProperty p = ask >>= (\w -> liftX $ withDisplay $ \d -> fmap (fromMaybe "") $ getStringProperty d w p)
getStringProperty :: Display -> Window -> String -> X (Maybe String)
getStringProperty d w p = do
a <- getAtom p
md <- io $ getWindowProperty8 d a w
return $ fmap (map (toEnum . fromIntegral)) md
-- | Modify the 'WindowSet' with a pure function.
doF :: (s -> s) -> Query (Endo s)
doF = return . Endo
-- | Move the window to the floating layer.
doFloat :: ManageHook
doFloat = ask >>= \w -> doF . W.float w . snd =<< liftX (floatLocation w)
-- | Map the window and remove it from the 'WindowSet'.
doIgnore :: ManageHook
doIgnore = ask >>= \w -> liftX (reveal w) >> doF (W.delete w)
-- | Move the window to a given workspace
doShift :: WorkspaceId -> ManageHook
doShift i = doF . W.shiftWin i =<< ask

432
XMonad/Operations.hs → src/XMonad/Operations.hs
View File

@@ -1,7 +1,5 @@
{-# OPTIONS_GHC -fno-warn-orphans #-}
{-# OPTIONS_GHC -fglasgow-exts #-} -- For deriving Data/Typeable
{-# LANGUAGE FlexibleInstances, MultiParamTypeClasses, PatternGuards, TypeSynonymInstances #-}
{-# LANGUAGE FlexibleContexts, FlexibleInstances, MultiParamTypeClasses, PatternGuards, TypeSynonymInstances #-}
-- --------------------------------------------------------------------------
-- |
-- Module : XMonad.Operations
@@ -23,17 +21,22 @@ import XMonad.Layout (Full(..))
import qualified XMonad.StackSet as W
import Data.Maybe
import Data.Monoid (Endo(..))
import Data.List (nub, (\\), find)
import Data.Bits ((.|.), (.&.), complement)
import Data.Bits ((.|.), (.&.), complement, testBit)
import Data.Ratio
import qualified Data.Map as M
import qualified Data.Set as S
import Control.Applicative
import Control.Monad.State
import Control.Applicative((<$>), (<*>))
import Control.Arrow (second)
import Control.Monad.Reader
import Control.Monad.State
import qualified Control.Exception.Extensible as C
import System.IO
import System.Directory
import System.Posix.Process (executeFile)
import Graphics.X11.Xlib
import Graphics.X11.Xinerama (getScreenInfo)
import Graphics.X11.Xlib.Extras
@@ -54,7 +57,7 @@ manage w = whenX (not <$> isClient w) $ withDisplay $ \d -> do
let isFixedSize = sh_min_size sh /= Nothing && sh_min_size sh == sh_max_size sh
isTransient <- isJust <$> io (getTransientForHint d w)
(sc, rr) <- floatLocation w
rr <- snd `fmap` floatLocation w
-- ensure that float windows don't go over the edge of the screen
let adjust (W.RationalRect x y wid h) | x + wid > 1 || y + h > 1 || x < 0 || y < 0
= W.RationalRect (0.5 - wid/2) (0.5 - h/2) wid h
@@ -62,10 +65,10 @@ manage w = whenX (not <$> isClient w) $ withDisplay $ \d -> do
f ws | isFixedSize || isTransient = W.float w (adjust rr) . W.insertUp w . W.view i $ ws
| otherwise = W.insertUp w ws
where i = fromMaybe (W.tag . W.workspace . W.current $ ws) $ W.lookupWorkspace sc ws
where i = W.tag $ W.workspace $ W.current ws
mh <- asks (manageHook . config)
g <- runManageHook mh w `catchX` return id
g <- appEndo <$> userCodeDef (Endo id) (runQuery mh w)
windows (g . f)
-- | unmanage. A window no longer exists, remove it from the window
@@ -74,23 +77,14 @@ manage w = whenX (not <$> isClient w) $ withDisplay $ \d -> do
unmanage :: Window -> X ()
unmanage = windows . W.delete
-- | Modify the size of the status gap at the top of the current screen
-- Taking a function giving the current screen, and current geometry.
modifyGap :: (Int -> (Int,Int,Int,Int) -> (Int,Int,Int,Int)) -> X ()
modifyGap f = do
windows $ \ws@(W.StackSet { W.current = c@(W.Screen { W.screenDetail = sd }) }) ->
let n = fromIntegral . W.screen $ c
g = f n . statusGap $ sd
in ws { W.current = c { W.screenDetail = sd { statusGap = g } } }
-- | Kill the currently focused client. If we do kill it, we'll get a
-- | Kill the specified window. If we do kill it, we'll get a
-- delete notify back from X.
--
-- There are two ways to delete a window. Either just kill it, or if it
-- supports the delete protocol, send a delete event (e.g. firefox)
--
kill :: X ()
kill = withDisplay $ \d -> withFocused $ \w -> do
killWindow :: Window -> X ()
killWindow w = withDisplay $ \d -> do
wmdelt <- atom_WM_DELETE_WINDOW ; wmprot <- atom_WM_PROTOCOLS
protocols <- io $ getWMProtocols d w
@@ -101,6 +95,10 @@ kill = withDisplay $ \d -> withFocused $ \w -> do
sendEvent d w False noEventMask ev
else killClient d w >> return ()
-- | Kill the currently focused client.
kill :: X ()
kill = withFocused killWindow
-- ---------------------------------------------------------------------
-- Managing windows
@@ -109,70 +107,80 @@ windows :: (WindowSet -> WindowSet) -> X ()
windows f = do
XState { windowset = old } <- get
let oldvisible = concatMap (W.integrate' . W.stack . W.workspace) $ W.current old : W.visible old
newwindows = W.allWindows ws \\ W.allWindows old
ws = f old
XConf { display = d , normalBorder = nbc, focusedBorder = fbc } <- ask
mapM_ setInitialProperties (W.allWindows ws \\ W.allWindows old)
mapM_ setInitialProperties newwindows
whenJust (W.peek old) $ \otherw -> do
nbs <- asks (normalBorderColor . config)
setWindowBorderWithFallback d otherw nbs nbc
whenJust (W.peek old) $ \otherw -> io $ setWindowBorder d otherw nbc
modify (\s -> s { windowset = ws })
-- notify non visibility
let tags_oldvisible = map (W.tag . W.workspace) $ W.current old : W.visible old
gottenhidden = filter (`elem` tags_oldvisible) $ map W.tag $ W.hidden ws
sendMessageToWorkspaces Hide gottenhidden
gottenhidden = filter (flip elem tags_oldvisible . W.tag) $ W.hidden ws
mapM_ (sendMessageWithNoRefresh Hide) gottenhidden
-- for each workspace, layout the currently visible workspaces
let allscreens = W.screens ws
summed_visible = scanl (++) [] $ map (W.integrate' . W.stack . W.workspace) allscreens
visible <- fmap concat $ forM (zip allscreens summed_visible) $ \ (w, vis) -> do
let n = W.tag (W.workspace w)
this = W.view n ws
l = W.layout (W.workspace w)
flt = filter (flip M.member (W.floating ws)) (W.index this)
rects <- fmap concat $ forM (zip allscreens summed_visible) $ \ (w, vis) -> do
let wsp = W.workspace w
this = W.view n ws
n = W.tag wsp
tiled = (W.stack . W.workspace . W.current $ this)
>>= W.filter (`M.notMember` W.floating ws)
>>= W.filter (`notElem` vis)
(SD (Rectangle sx sy sw sh)
(gt,gb,gl,gr)) = W.screenDetail w
viewrect = Rectangle (sx + fromIntegral gl) (sy + fromIntegral gt)
(sw - fromIntegral (gl + gr)) (sh - fromIntegral (gt + gb))
viewrect = screenRect $ W.screenDetail w
-- just the tiled windows:
-- now tile the windows on this workspace, modified by the gap
(rs, ml') <- runLayout l viewrect tiled `catchX` runLayout (Layout Full) viewrect tiled
mapM_ (uncurry tileWindow) rs
whenJust ml' $ \l' -> runOnWorkspaces (\ww -> if W.tag ww == n
then return $ ww { W.layout = l'}
else return ww)
(rs, ml') <- runLayout wsp { W.stack = tiled } viewrect `catchX`
runLayout wsp { W.stack = tiled, W.layout = Layout Full } viewrect
updateLayout n ml'
-- now the floating windows:
-- move/resize the floating windows, if there are any
forM_ flt $ \fw -> whenJust (M.lookup fw (W.floating ws)) $
\(W.RationalRect rx ry rw rh) -> do
tileWindow fw $ Rectangle
(sx + floor (toRational sw*rx)) (sy + floor (toRational sh*ry))
(floor (toRational sw*rw)) (floor (toRational sh*rh))
let m = W.floating ws
flt = [(fw, scaleRationalRect viewrect r)
| fw <- filter (flip M.member m) (W.index this)
, Just r <- [M.lookup fw m]]
vs = flt ++ rs
let vs = flt ++ map fst rs
io $ restackWindows d vs
io $ restackWindows d (map fst vs)
-- return the visible windows for this workspace:
return vs
whenJust (W.peek ws) $ \w -> io $ setWindowBorder d w fbc
let visible = map fst rects
mapM_ (uncurry tileWindow) rects
whenJust (W.peek ws) $ \w -> do
fbs <- asks (focusedBorderColor . config)
setWindowBorderWithFallback d w fbs fbc
mapM_ reveal visible
setTopFocus
asks (logHook . config) >>= userCode
-- hide every window that was potentially visible before, but is not
-- given a position by a layout now.
mapM_ hide (nub oldvisible \\ visible)
mapM_ hide (nub (oldvisible ++ newwindows) \\ visible)
-- all windows that are no longer in the windowset are marked as
-- withdrawn, it is important to do this after the above, otherwise 'hide'
-- will overwrite withdrawnState with iconicState
mapM_ (flip setWMState withdrawnState) (W.allWindows old \\ W.allWindows ws)
clearEvents enterWindowMask
isMouseFocused <- asks mouseFocused
unless isMouseFocused $ clearEvents enterWindowMask
asks (logHook . config) >>= userCodeDef ()
-- | Produce the actual rectangle from a screen and a ratio on that screen.
scaleRationalRect :: Rectangle -> W.RationalRect -> Rectangle
scaleRationalRect (Rectangle sx sy sw sh) (W.RationalRect rx ry rw rh)
= Rectangle (sx + scale sw rx) (sy + scale sh ry) (scale sw rw) (scale sh rh)
where scale s r = floor (toRational s * r)
-- | setWMState. set the WM_STATE property
setWMState :: Window -> Int -> X ()
@@ -180,12 +188,26 @@ setWMState w v = withDisplay $ \dpy -> do
a <- atom_WM_STATE
io $ changeProperty32 dpy w a a propModeReplace [fromIntegral v, fromIntegral none]
-- | Set the border color using the window's color map, if possible,
-- otherwise fallback to the color in @Pixel@.
setWindowBorderWithFallback :: Display -> Window -> String -> Pixel -> X ()
setWindowBorderWithFallback dpy w color basic = io $
C.handle fallback $ do
wa <- getWindowAttributes dpy w
pixel <- color_pixel . fst <$> allocNamedColor dpy (wa_colormap wa) color
setWindowBorder dpy w pixel
where
fallback :: C.SomeException -> IO ()
fallback e = do hPrint stderr e >> hFlush stderr
setWindowBorder dpy w basic
-- | hide. Hide a window by unmapping it, and setting Iconified.
hide :: Window -> X ()
hide w = whenX (gets (S.member w . mapped)) $ withDisplay $ \d -> do
io $ do selectInput d w (clientMask .&. complement structureNotifyMask)
cMask <- asks $ clientMask . config
io $ do selectInput d w (cMask .&. complement structureNotifyMask)
unmapWindow d w
selectInput d w clientMask
selectInput d w cMask
setWMState w iconicState
-- this part is key: we increment the waitingUnmap counter to distinguish
-- between client and xmonad initiated unmaps.
@@ -198,17 +220,13 @@ reveal :: Window -> X ()
reveal w = withDisplay $ \d -> do
setWMState w normalState
io $ mapWindow d w
modify (\s -> s { mapped = S.insert w (mapped s) })
-- | The client events that xmonad is interested in
clientMask :: EventMask
clientMask = structureNotifyMask .|. enterWindowMask .|. propertyChangeMask
whenX (isClient w) $ modify (\s -> s { mapped = S.insert w (mapped s) })
-- | Set some properties when we initially gain control of a window
setInitialProperties :: Window -> X ()
setInitialProperties w = asks normalBorder >>= \nb -> withDisplay $ \d -> do
setWMState w iconicState
io $ selectInput d w $ clientMask
asks (clientMask . config) >>= io . selectInput d w
bw <- asks (borderWidth . config)
io $ setWindowBorderWidth d w bw
-- we must initially set the color of new windows, to maintain invariants
@@ -216,7 +234,7 @@ setInitialProperties w = asks normalBorder >>= \nb -> withDisplay $ \d -> do
io $ setWindowBorder d w nb
-- | refresh. Render the currently visible workspaces, as determined by
-- the StackSet. Also, set focus to the focused window.
-- the 'StackSet'. Also, set focus to the focused window.
--
-- This is our 'view' operation (MVC), in that it pretty prints our model
-- with X calls.
@@ -235,18 +253,17 @@ clearEvents mask = withDisplay $ \d -> io $ do
-- | tileWindow. Moves and resizes w such that it fits inside the given
-- rectangle, including its border.
tileWindow :: Window -> Rectangle -> X ()
tileWindow w r = withDisplay $ \d -> do
bw <- (fromIntegral . wa_border_width) <$> io (getWindowAttributes d w)
tileWindow w r = withDisplay $ \d -> withWindowAttributes d w $ \wa -> do
-- give all windows at least 1x1 pixels
let least x | x <= bw*2 = 1
let bw = fromIntegral $ wa_border_width wa
least x | x <= bw*2 = 1
| otherwise = x - bw*2
io $ moveResizeWindow d w (rect_x r) (rect_y r)
(least $ rect_width r) (least $ rect_height r)
reveal w
-- ---------------------------------------------------------------------
-- | Returns True if the first rectangle is contained within, but not equal
-- | Returns 'True' if the first rectangle is contained within, but not equal
-- to the second.
containedIn :: Rectangle -> Rectangle -> Bool
containedIn r1@(Rectangle x1 y1 w1 h1) r2@(Rectangle x2 y2 w2 h2)
@@ -274,9 +291,7 @@ rescreen = do
windows $ \ws@(W.StackSet { W.current = v, W.visible = vs, W.hidden = hs }) ->
let (xs, ys) = splitAt (length xinesc) $ map W.workspace (v:vs) ++ hs
(a:as) = zipWith3 W.Screen xs [0..] $ zipWith SD xinesc gs
sgs = map (statusGap . W.screenDetail) (v:vs)
gs = take (length xinesc) (sgs ++ repeat (0,0,0,0))
(a:as) = zipWith3 W.Screen xs [0..] $ map SD xinesc
in ws { W.current = a
, W.visible = as
, W.hidden = ys }
@@ -285,11 +300,14 @@ rescreen = do
-- | setButtonGrab. Tell whether or not to intercept clicks on a given window
setButtonGrab :: Bool -> Window -> X ()
setButtonGrab grab w = withDisplay $ \d -> io $
if grab
setButtonGrab grab w = do
pointerMode <- asks $ \c -> if clickJustFocuses (config c)
then grabModeAsync
else grabModeSync
withDisplay $ \d -> io $ if grab
then forM_ [button1, button2, button3] $ \b ->
grabButton d b anyModifier w False buttonPressMask
grabModeAsync grabModeSync none none
pointerMode grabModeSync none none
else ungrabButton d anyButton anyModifier w
-- ---------------------------------------------------------------------
@@ -303,9 +321,17 @@ setTopFocus = withWindowSet $ maybe (setFocusX =<< asks theRoot) setFocusX . W.p
-- This happens if X notices we've moved the mouse (and perhaps moved
-- the mouse to a new screen).
focus :: Window -> X ()
focus w = withWindowSet $ \s -> do
if W.member w s then when (W.peek s /= Just w) $ windows (W.focusWindow w)
else whenX (isRoot w) $ setFocusX w
focus w = local (\c -> c { mouseFocused = True }) $ withWindowSet $ \s -> do
let stag = W.tag . W.workspace
curr = stag $ W.current s
mnew <- maybe (return Nothing) (fmap (fmap stag) . uncurry pointScreen)
=<< asks mousePosition
root <- asks theRoot
case () of
_ | W.member w s && W.peek s /= Just w -> windows (W.focusWindow w)
| Just new <- mnew, w == root && curr /= new
-> windows (W.view new)
| otherwise -> return ()
-- | Call X to set the keyboard focus details.
setFocusX :: Window -> X ()
@@ -313,36 +339,66 @@ setFocusX w = withWindowSet $ \ws -> do
dpy <- asks display
-- clear mouse button grab and border on other windows
forM_ (W.current ws : W.visible ws) $ \wk -> do
forM_ (W.index (W.view (W.tag (W.workspace wk)) ws)) $ \otherw -> do
forM_ (W.current ws : W.visible ws) $ \wk ->
forM_ (W.index (W.view (W.tag (W.workspace wk)) ws)) $ \otherw ->
setButtonGrab True otherw
-- If we ungrab buttons on the root window, we lose our mouse bindings.
whenX (not <$> isRoot w) $ setButtonGrab False w
io $ do setInputFocus dpy w revertToPointerRoot 0
-- raiseWindow dpy w
hints <- io $ getWMHints dpy w
protocols <- io $ getWMProtocols dpy w
wmprot <- atom_WM_PROTOCOLS
wmtf <- atom_WM_TAKE_FOCUS
currevt <- asks currentEvent
let inputHintSet = wmh_flags hints `testBit` inputHintBit
when ((inputHintSet && wmh_input hints) || (not inputHintSet)) $
io $ do setInputFocus dpy w revertToPointerRoot 0
when (wmtf `elem` protocols) $
io $ allocaXEvent $ \ev -> do
setEventType ev clientMessage
setClientMessageEvent ev w wmprot 32 wmtf $ maybe currentTime event_time currevt
sendEvent dpy w False noEventMask ev
where event_time ev =
if (ev_event_type ev) `elem` timedEvents then
ev_time ev
else
currentTime
timedEvents = [ keyPress, keyRelease, buttonPress, buttonRelease, enterNotify, leaveNotify, selectionRequest ]
------------------------------------------------------------------------
-- Message handling
-- | Throw a message to the current LayoutClass possibly modifying how we
-- | Throw a message to the current 'LayoutClass' possibly modifying how we
-- layout the windows, then refresh.
sendMessage :: Message a => a -> X ()
sendMessage a = do
w <- W.workspace . W.current <$> gets windowset
ml' <- handleMessage (W.layout w) (SomeMessage a) `catchX` return Nothing
whenJust ml' $ \l' -> do
whenJust ml' $ \l' ->
windows $ \ws -> ws { W.current = (W.current ws)
{ W.workspace = (W.workspace $ W.current ws)
{ W.layout = l' }}}
-- | Send a message to a list of workspaces' layouts, without necessarily refreshing.
sendMessageToWorkspaces :: Message a => a -> [WorkspaceId] -> X ()
sendMessageToWorkspaces a l = runOnWorkspaces $ \w ->
if W.tag w `elem` l
then do ml' <- handleMessage (W.layout w) (SomeMessage a) `catchX` return Nothing
return $ w { W.layout = maybe (W.layout w) id ml' }
else return w
-- | Send a message to all layouts, without refreshing.
broadcastMessage :: Message a => a -> X ()
broadcastMessage a = withWindowSet $ \ws -> do
let c = W.workspace . W.current $ ws
v = map W.workspace . W.visible $ ws
h = W.hidden ws
mapM_ (sendMessageWithNoRefresh a) (c : v ++ h)
-- | Send a message to a layout, without refreshing.
sendMessageWithNoRefresh :: Message a => a -> W.Workspace WorkspaceId (Layout Window) Window -> X ()
sendMessageWithNoRefresh a w =
handleMessage (W.layout w) (SomeMessage a) `catchX` return Nothing >>=
updateLayout (W.tag w)
-- | Update the layout field of a workspace
updateLayout :: WorkspaceId -> Maybe (Layout Window) -> X ()
updateLayout i ml = whenJust ml $ \l ->
runOnWorkspaces $ \ww -> return $ if W.tag ww == i then ww { W.layout = l} else ww
-- | Set the layout of the currently viewed workspace
setLayout :: Layout Window -> X ()
@@ -354,15 +410,15 @@ setLayout l = do
------------------------------------------------------------------------
-- Utilities
-- | Return workspace visible on screen 'sc', or Nothing.
-- | Return workspace visible on screen 'sc', or 'Nothing'.
screenWorkspace :: ScreenId -> X (Maybe WorkspaceId)
screenWorkspace sc = withWindowSet $ return . W.lookupWorkspace sc
-- | Apply an X operation to the currently focused window, if there is one.
-- | Apply an 'X' operation to the currently focused window, if there is one.
withFocused :: (Window -> X ()) -> X ()
withFocused f = withWindowSet $ \w -> whenJust (W.peek w) f
-- | True if window is under management by us
-- | 'True' if window is under management by us
isClient :: Window -> X Bool
isClient w = withWindowSet $ return . W.member w
@@ -370,55 +426,156 @@ isClient w = withWindowSet $ return . W.member w
-- (numlock and capslock)
extraModifiers :: X [KeyMask]
extraModifiers = do
nlm <- asks (numlockMask . config)
nlm <- gets numberlockMask
return [0, nlm, lockMask, nlm .|. lockMask ]
-- | Strip numlock\/capslock from a mask
cleanMask :: KeyMask -> X KeyMask
cleanMask km = do
nlm <- asks (numlockMask . config)
nlm <- gets numberlockMask
return (complement (nlm .|. lockMask) .&. km)
-- | Get the Pixel value for a named color
initColor :: Display -> String -> IO Pixel
initColor dpy c = (color_pixel . fst) <$> allocNamedColor dpy colormap c
-- | Get the 'Pixel' value for a named color
initColor :: Display -> String -> IO (Maybe Pixel)
initColor dpy c = C.handle (\(C.SomeException _) -> return Nothing) $
(Just . color_pixel . fst) <$> allocNamedColor dpy colormap c
where colormap = defaultColormap dpy (defaultScreen dpy)
------------------------------------------------------------------------
-- | A type to help serialize xmonad's state to a file.
data StateFile = StateFile
{ sfWins :: W.StackSet WorkspaceId String Window ScreenId ScreenDetail
, sfExt :: [(String, String)]
} deriving (Show, Read)
-- | Write the current window state (and extensible state) to a file
-- so that xmonad can resume with that state intact.
writeStateToFile :: X ()
writeStateToFile = do
let maybeShow (t, Right (PersistentExtension ext)) = Just (t, show ext)
maybeShow (t, Left str) = Just (t, str)
maybeShow _ = Nothing
wsData = W.mapLayout show . windowset
extState = catMaybes . map maybeShow . M.toList . extensibleState
path <- stateFileName
stateData <- gets (\s -> StateFile (wsData s) (extState s))
catchIO (writeFile path $ show stateData)
-- | Read the state of a previous xmonad instance from a file and
-- return that state. The state file is removed after reading it.
readStateFile :: (LayoutClass l Window, Read (l Window)) => XConfig l -> X (Maybe XState)
readStateFile xmc = do
path <- stateFileName
-- I'm trying really hard here to make sure we read the entire
-- contents of the file before it is removed from the file system.
sf' <- userCode . io $ do
raw <- withFile path ReadMode readStrict
return $! maybeRead reads raw
io (removeFile path)
return $ do
sf <- join sf'
let winset = W.ensureTags layout (workspaces xmc) $ W.mapLayout (fromMaybe layout . maybeRead lreads) (sfWins sf)
extState = M.fromList . map (second Left) $ sfExt sf
return XState { windowset = winset
, numberlockMask = 0
, mapped = S.empty
, waitingUnmap = M.empty
, dragging = Nothing
, extensibleState = extState
}
where
layout = Layout (layoutHook xmc)
lreads = readsLayout layout
maybeRead reads' s = case reads' s of
[(x, "")] -> Just x
_ -> Nothing
readStrict :: Handle -> IO String
readStrict h = hGetContents h >>= \s -> length s `seq` return s
-- | Migrate state from a previously running xmonad instance that used
-- the older @--resume@ technique.
{-# DEPRECATED migrateState "will be removed some point in the future." #-}
migrateState :: (Functor m, MonadIO m) => String -> String -> m ()
migrateState ws xs = do
io (putStrLn "WARNING: --resume is no longer supported.")
whenJust stateData $ \s -> do
path <- stateFileName
catchIO (writeFile path $ show s)
where
stateData = StateFile <$> maybeRead ws <*> maybeRead xs
maybeRead s = case reads s of
[(x, "")] -> Just x
_ -> Nothing
-- | @restart name resume@. Attempt to restart xmonad by executing the program
-- @name@. If @resume@ is 'True', restart with the current window state.
-- When executing another window manager, @resume@ should be 'False'.
restart :: String -> Bool -> X ()
restart prog resume = do
broadcastMessage ReleaseResources
io . flush =<< asks display
when resume writeStateToFile
catchIO (executeFile prog True [] Nothing)
------------------------------------------------------------------------
-- | Floating layer support
-- | Given a window, find the screen it is located on, and compute
-- the geometry of that window wrt. that screen.
floatLocation :: Window -> X (ScreenId, W.RationalRect)
floatLocation w = withDisplay $ \d -> do
ws <- gets windowset
wa <- io $ getWindowAttributes d w
bw <- fi <$> asks (borderWidth . config)
floatLocation w =
catchX go $ do
-- Fallback solution if `go' fails. Which it might, since it
-- calls `getWindowAttributes'.
sc <- W.current <$> gets windowset
return (W.screen sc, W.RationalRect 0 0 1 1)
-- XXX horrible
let sc = fromMaybe (W.current ws) $ find (pointWithin (fi $ wa_x wa) (fi $ wa_y wa) . screenRect . W.screenDetail) $ W.screens ws
sr = screenRect . W.screenDetail $ sc
rr = W.RationalRect ((fi (wa_x wa) - fi (rect_x sr)) % fi (rect_width sr))
((fi (wa_y wa) - fi (rect_y sr)) % fi (rect_height sr))
(fi (wa_width wa + bw*2) % fi (rect_width sr))
(fi (wa_height wa + bw*2) % fi (rect_height sr))
return (W.screen $ sc, rr)
where fi x = fromIntegral x
pointWithin :: Integer -> Integer -> Rectangle -> Bool
pointWithin x y r = x >= fi (rect_x r) &&
x < fi (rect_x r) + fi (rect_width r) &&
y >= fi (rect_y r) &&
y < fi (rect_y r) + fi (rect_height r)
go = withDisplay $ \d -> do
ws <- gets windowset
wa <- io $ getWindowAttributes d w
let bw = (fromIntegral . wa_border_width) wa
sc <- fromMaybe (W.current ws) <$> pointScreen (fi $ wa_x wa) (fi $ wa_y wa)
let sr = screenRect . W.screenDetail $ sc
rr = W.RationalRect ((fi (wa_x wa) - fi (rect_x sr)) % fi (rect_width sr))
((fi (wa_y wa) - fi (rect_y sr)) % fi (rect_height sr))
(fi (wa_width wa + bw*2) % fi (rect_width sr))
(fi (wa_height wa + bw*2) % fi (rect_height sr))
return (W.screen sc, rr)
-- | Given a point, determine the screen (if any) that contains it.
pointScreen :: Position -> Position
-> X (Maybe (W.Screen WorkspaceId (Layout Window) Window ScreenId ScreenDetail))
pointScreen x y = withWindowSet $ return . find p . W.screens
where p = pointWithin x y . screenRect . W.screenDetail
-- | @pointWithin x y r@ returns 'True' if the @(x, y)@ co-ordinate is within
-- @r@.
pointWithin :: Position -> Position -> Rectangle -> Bool
pointWithin x y r = x >= rect_x r &&
x < rect_x r + fromIntegral (rect_width r) &&
y >= rect_y r &&
y < rect_y r + fromIntegral (rect_height r)
-- | Make a tiled window floating, using its suggested rectangle
float :: Window -> X ()
float w = do
(sc, rr) <- floatLocation w
windows $ \ws -> W.float w rr . fromMaybe ws $ do
i <- W.findTag w ws
i <- W.findTag w ws
guard $ i `elem` map (W.tag . W.workspace) (W.screens ws)
f <- W.peek ws
f <- W.peek ws
sw <- W.lookupWorkspace sc ws
return (W.focusWindow f . W.shiftWin sw w $ ws)
@@ -445,7 +602,7 @@ mouseDrag f done = do
clearEvents pointerMotionMask
return z
-- | XXX comment me
-- | drag the window under the cursor with the mouse while it is dragged
mouseMoveWindow :: Window -> X ()
mouseMoveWindow w = whenX (isClient w) $ withDisplay $ \d -> do
io $ raiseWindow d w
@@ -453,11 +610,14 @@ mouseMoveWindow w = whenX (isClient w) $ withDisplay $ \d -> do
(_, _, _, ox', oy', _, _, _) <- io $ queryPointer d w
let ox = fromIntegral ox'
oy = fromIntegral oy'
mouseDrag (\ex ey -> io $ moveWindow d w (fromIntegral (fromIntegral (wa_x wa) + (ex - ox)))
(fromIntegral (fromIntegral (wa_y wa) + (ey - oy))))
mouseDrag (\ex ey -> do
io $ moveWindow d w (fromIntegral (fromIntegral (wa_x wa) + (ex - ox)))
(fromIntegral (fromIntegral (wa_y wa) + (ey - oy)))
float w
)
(float w)
-- | XXX comment me
-- | resize the window under the cursor with the mouse while it is dragged
mouseResizeWindow :: Window -> X ()
mouseResizeWindow w = whenX (isClient w) $ withDisplay $ \d -> do
io $ raiseWindow d w
@@ -466,8 +626,10 @@ mouseResizeWindow w = whenX (isClient w) $ withDisplay $ \d -> do
io $ warpPointer d none w 0 0 0 0 (fromIntegral (wa_width wa)) (fromIntegral (wa_height wa))
mouseDrag (\ex ey -> do
io $ resizeWindow d w `uncurry`
applySizeHints sh (ex - fromIntegral (wa_x wa),
ey - fromIntegral (wa_y wa)))
applySizeHintsContents sh (ex - fromIntegral (wa_x wa),
ey - fromIntegral (wa_y wa))
float w)
(float w)
-- ---------------------------------------------------------------------
@@ -475,10 +637,30 @@ mouseResizeWindow w = whenX (isClient w) $ withDisplay $ \d -> do
type D = (Dimension, Dimension)
-- | Given a window, build an adjuster function that will reduce the given
-- dimensions according to the window's border width and size hints.
mkAdjust :: Window -> X (D -> D)
mkAdjust w = withDisplay $ \d -> liftIO $ do
sh <- getWMNormalHints d w
wa <- C.try $ getWindowAttributes d w
case wa of
Left err -> const (return id) (err :: C.SomeException)
Right wa' ->
let bw = fromIntegral $ wa_border_width wa'
in return $ applySizeHints bw sh
-- | Reduce the dimensions if needed to comply to the given SizeHints, taking
-- window borders into account.
applySizeHints :: Integral a => Dimension -> SizeHints -> (a, a) -> D
applySizeHints bw sh =
tmap (+ 2 * bw) . applySizeHintsContents sh . tmap (subtract $ 2 * fromIntegral bw)
where
tmap f (x, y) = (f x, f y)
-- | Reduce the dimensions if needed to comply to the given SizeHints.
applySizeHints :: Integral a => SizeHints -> (a,a) -> D
applySizeHints sh (w,h) = applySizeHints' sh (fromIntegral $ max 1 w,
fromIntegral $ max 1 h)
applySizeHintsContents :: Integral a => SizeHints -> (a, a) -> D
applySizeHintsContents sh (w, h) =
applySizeHints' sh (fromIntegral $ max 1 w, fromIntegral $ max 1 h)
-- | XXX comment me
applySizeHints' :: SizeHints -> D -> D

152
XMonad/StackSet.hs → src/XMonad/StackSet.hs
View File

@@ -31,18 +31,18 @@ module XMonad.StackSet (
-- * Xinerama operations
-- $xinerama
lookupWorkspace,
screens, workspaces, allWindows,
screens, workspaces, allWindows, currentTag,
-- * Operations on the current stack
-- $stackOperations
peek, index, integrate, integrate', differentiate,
focusUp, focusDown, focusMaster, focusWindow,
focusUp, focusDown, focusUp', focusDown', focusMaster, focusWindow,
tagMember, renameTag, ensureTags, member, findTag, mapWorkspace, mapLayout,
-- * Modifying the stackset
-- $modifyStackset
insertUp, delete, delete', filter,
-- * Setting the master window
-- $settingMW
swapUp, swapDown, swapMaster, modify, modify', float, sink, -- needed by users
swapUp, swapDown, swapMaster, shiftMaster, modify, modify', float, sink, -- needed by users
-- * Composite operations
-- $composite
shift, shiftWin,
@@ -52,7 +52,7 @@ module XMonad.StackSet (
) where
import Prelude hiding (filter)
import Data.Maybe (listToMaybe,fromJust,isJust)
import Data.Maybe (listToMaybe,isJust,fromMaybe)
import qualified Data.List as L (deleteBy,find,splitAt,filter,nub)
import Data.List ( (\\) )
import qualified Data.Map as M (Map,insert,delete,empty)
@@ -111,8 +111,8 @@ import qualified Data.Map as M (Map,insert,delete,empty)
-- receive keyboard events), other workspaces may be passively
-- viewable. We thus need to track which virtual workspaces are
-- associated (viewed) on which physical screens. To keep track of
-- this, StackSet keeps separate lists of visible but non-focused
-- workspaces, and non-visible workspaces.
-- this, 'StackSet' keeps separate lists of visible but non-focused
-- workspaces, and non-visible workspaces.
-- $focus
--
@@ -122,38 +122,6 @@ import qualified Data.Map as M (Map,insert,delete,empty)
-- 'delete'.
--
-- |
-- API changes from xmonad 0.1:
-- StackSet constructor arguments changed. StackSet workspace window screen
--
-- * new, -- was: empty
--
-- * view,
--
-- * index,
--
-- * peek, -- was: peek\/peekStack
--
-- * focusUp, focusDown, -- was: rotate
--
-- * swapUp, swapDown
--
-- * focus -- was: raiseFocus
--
-- * insertUp, -- was: insert\/push
--
-- * delete,
--
-- * swapMaster, -- was: promote\/swap
--
-- * member,
--
-- * shift,
--
-- * lookupWorkspace, -- was: workspace
--
-- * visibleWorkspaces -- gone.
--
------------------------------------------------------------------------
-- |
-- A cursor into a non-empty list of workspaces.
@@ -177,7 +145,7 @@ data Screen i l a sid sd = Screen { workspace :: !(Workspace i l a)
deriving (Show, Read, Eq)
-- |
-- A workspace is just a tag - its index - and a stack
-- A workspace is just a tag, a layout, and a stack.
--
data Workspace i l a = Workspace { tag :: !i, layout :: l, stack :: Maybe (Stack a) }
deriving (Show, Read, Eq)
@@ -187,7 +155,7 @@ data RationalRect = RationalRect Rational Rational Rational Rational
deriving (Show, Read, Eq)
-- |
-- A stack is a cursor onto a (possibly empty) window list.
-- A stack is a cursor onto a window list.
-- The data structure tracks focus by construction, and
-- the master window is by convention the top-most item.
-- Focus operations will not reorder the list that results from
@@ -226,7 +194,8 @@ abort x = error $ "xmonad: StackSet: " ++ x
-- Xinerama: Virtual workspaces are assigned to physical screens, starting at 0.
--
new :: (Integral s) => l -> [i] -> [sd] -> StackSet i l a s sd
new l wids m | not (null wids) && length m <= length wids = StackSet cur visi unseen M.empty
new l wids m | not (null wids) && length m <= length wids && not (null m)
= StackSet cur visi unseen M.empty
where (seen,unseen) = L.splitAt (length m) $ map (\i -> Workspace i l Nothing) wids
(cur:visi) = [ Screen i s sd | (i, s, sd) <- zip3 seen [0..] m ]
-- now zip up visibles with their screen id
@@ -234,7 +203,7 @@ new _ _ _ = abort "non-positive argument to StackSet.new"
-- |
-- /O(w)/. Set focus to the workspace with index \'i\'.
-- If the index is out of range, return the original StackSet.
-- If the index is out of range, return the original 'StackSet'.
--
-- Xinerama: If the workspace is not visible on any Xinerama screen, it
-- becomes the current screen. If it is in the visible list, it becomes
@@ -242,8 +211,7 @@ new _ _ _ = abort "non-positive argument to StackSet.new"
view :: (Eq s, Eq i) => i -> StackSet i l a s sd -> StackSet i l a s sd
view i s
| not (i `tagMember` s)
|| i == tag (workspace (current s)) = s -- out of bounds or current
| i == currentTag s = s -- current
| Just x <- L.find ((i==).tag.workspace) (visible s)
-- if it is visible, it is just raised
@@ -254,7 +222,7 @@ view i s
= s { current = (current s) { workspace = x }
, hidden = workspace (current s) : L.deleteBy (equating tag) x (hidden s) }
| otherwise = s -- can't happen: all workspaces are either invalid, current, visible, or hidden
| otherwise = s -- not a member of the stackset
where equating f = \x y -> f x == f y
@@ -285,7 +253,7 @@ greedyView w ws
-- $xinerama
-- | Find the tag of the workspace visible on Xinerama screen 'sc'.
-- Nothing if screen is out of bounds.
-- 'Nothing' if screen is out of bounds.
lookupWorkspace :: Eq s => s -> StackSet i l a s sd -> Maybe i
lookupWorkspace sc w = listToMaybe [ tag i | Screen i s _ <- current w : visible w, s == sc ]
@@ -302,7 +270,7 @@ with :: b -> (Stack a -> b) -> StackSet i l a s sd -> b
with dflt f = maybe dflt f . stack . workspace . current
-- |
-- Apply a function, and a default value for Nothing, to modify the current stack.
-- Apply a function, and a default value for 'Nothing', to modify the current stack.
--
modify :: Maybe (Stack a) -> (Stack a -> Maybe (Stack a)) -> StackSet i l a s sd -> StackSet i l a s sd
modify d f s = s { current = (current s)
@@ -317,13 +285,13 @@ modify' f = modify Nothing (Just . f)
-- |
-- /O(1)/. Extract the focused element of the current stack.
-- Return Just that element, or Nothing for an empty stack.
-- Return 'Just' that element, or 'Nothing' for an empty stack.
--
peek :: StackSet i l a s sd -> Maybe a
peek = with Nothing (return . focus)
-- |
-- /O(n)/. Flatten a Stack into a list.
-- /O(n)/. Flatten a 'Stack' into a list.
--
integrate :: Stack a -> [a]
integrate (Stack x l r) = reverse l ++ x : r
@@ -333,7 +301,7 @@ integrate (Stack x l r) = reverse l ++ x : r
integrate' :: Maybe (Stack a) -> [a]
integrate' = maybe [] integrate
-- |
-- |
-- /O(n)/. Turn a list into a possibly empty stack (i.e., a zipper):
-- the first element of the list is current, and the rest of the list
-- is down.
@@ -343,7 +311,7 @@ differentiate (x:xs) = Just $ Stack x [] xs
-- |
-- /O(n)/. 'filter p s' returns the elements of 's' such that 'p' evaluates to
-- True. Order is preserved, and focus moves as described for 'delete'.
-- 'True'. Order is preserved, and focus moves as described for 'delete'.
--
filter :: (a -> Bool) -> Stack a -> Maybe (Stack a)
filter p (Stack f ls rs) = case L.filter p (f:rs) of
@@ -375,15 +343,19 @@ index = with [] integrate
--
focusUp, focusDown, swapUp, swapDown :: StackSet i l a s sd -> StackSet i l a s sd
focusUp = modify' focusUp'
focusDown = modify' (reverseStack . focusUp' . reverseStack)
focusDown = modify' focusDown'
swapUp = modify' swapUp'
swapDown = modify' (reverseStack . swapUp' . reverseStack)
focusUp', swapUp' :: Stack a -> Stack a
-- | Variants of 'focusUp' and 'focusDown' that work on a
-- 'Stack' rather than an entire 'StackSet'.
focusUp', focusDown' :: Stack a -> Stack a
focusUp' (Stack t (l:ls) rs) = Stack l ls (t:rs)
focusUp' (Stack t [] rs) = Stack x xs [] where (x:xs) = reverse (t:rs)
focusDown' = reverseStack . focusUp' . reverseStack
swapUp' :: Stack a -> Stack a
swapUp' (Stack t (l:ls) rs) = Stack t ls (l:rs)
swapUp' (Stack t [] rs) = Stack t (reverse rs) []
@@ -397,27 +369,31 @@ reverseStack (Stack t ls rs) = Stack t rs ls
--
focusWindow :: (Eq s, Eq a, Eq i) => a -> StackSet i l a s sd -> StackSet i l a s sd
focusWindow w s | Just w == peek s = s
| otherwise = maybe s id $ do
| otherwise = fromMaybe s $ do
n <- findTag w s
return $ until ((Just w ==) . peek) focusUp (view n s)
-- | Get a list of all screens in the StackSet.
-- | Get a list of all screens in the 'StackSet'.
screens :: StackSet i l a s sd -> [Screen i l a s sd]
screens s = current s : visible s
-- | Get a list of all workspaces in the StackSet.
-- | Get a list of all workspaces in the 'StackSet'.
workspaces :: StackSet i l a s sd -> [Workspace i l a]
workspaces s = workspace (current s) : map workspace (visible s) ++ hidden s
-- | Get a list of all windows in the StackSet in no particular order
-- | Get a list of all windows in the 'StackSet' in no particular order
allWindows :: Eq a => StackSet i l a s sd -> [a]
allWindows = L.nub . concatMap (integrate' . stack) . workspaces
-- | Is the given tag present in the StackSet?
-- | Get the tag of the currently focused workspace.
currentTag :: StackSet i l a s sd -> i
currentTag = tag . workspace . current
-- | Is the given tag present in the 'StackSet'?
tagMember :: Eq i => i -> StackSet i l a s sd -> Bool
tagMember t = elem t . map tag . workspaces
-- | Rename a given tag if present in the StackSet.
-- | Rename a given tag if present in the 'StackSet'.
renameTag :: Eq i => i -> i -> StackSet i l a s sd -> StackSet i l a s sd
renameTag o n = mapWorkspace rename
where rename w = if tag w == o then w { tag = n } else w
@@ -432,27 +408,27 @@ ensureTags l allt st = et allt (map tag (workspaces st) \\ allt) st
et (i:is) [] s = et is [] (s { hidden = Workspace i l Nothing : hidden s })
et (i:is) (r:rs) s = et is rs $ renameTag r i s
-- | Map a function on all the workspaces in the StackSet.
-- | Map a function on all the workspaces in the 'StackSet'.
mapWorkspace :: (Workspace i l a -> Workspace i l a) -> StackSet i l a s sd -> StackSet i l a s sd
mapWorkspace f s = s { current = updScr (current s)
, visible = map updScr (visible s)
, hidden = map f (hidden s) }
where updScr scr = scr { workspace = f (workspace scr) }
-- | Map a function on all the layouts in the StackSet.
-- | Map a function on all the layouts in the 'StackSet'.
mapLayout :: (l -> l') -> StackSet i l a s sd -> StackSet i l' a s sd
mapLayout f (StackSet v vs hs m) = StackSet (fScreen v) (map fScreen vs) (map fWorkspace hs) m
where
fScreen (Screen ws s sd) = Screen (fWorkspace ws) s sd
fWorkspace (Workspace t l s) = Workspace t (f l) s
-- | /O(n)/. Is a window in the StackSet.
-- | /O(n)/. Is a window in the 'StackSet'?
member :: Eq a => a -> StackSet i l a s sd -> Bool
member a s = isJust (findTag a s)
-- | /O(1) on current window, O(n) in general/.
-- Return Just the workspace tag of the given window, or Nothing
-- if the window is not in the StackSet.
-- Return 'Just' the workspace tag of the given window, or 'Nothing'
-- if the window is not in the 'StackSet'.
findTag :: Eq a => a -> StackSet i l a s sd -> Maybe i
findTag a s = listToMaybe
[ tag w | w <- workspaces s, has a (stack w) ]
@@ -487,22 +463,26 @@ insertUp a s = if member a s then s else insert
-- /O(1) on current window, O(n) in general/. Delete window 'w' if it exists.
-- There are 4 cases to consider:
--
-- * delete on an Nothing workspace leaves it Nothing
-- * delete on an 'Nothing' workspace leaves it Nothing
--
-- * otherwise, try to move focus to the down
--
-- * otherwise, try to move focus to the up
-- * otherwise, you've got an empty workspace, becomes Nothing
--
-- * otherwise, you've got an empty workspace, becomes 'Nothing'
--
-- Behaviour with respect to the master:
--
-- * deleting the master window resets it to the newly focused window
--
-- * otherwise, delete doesn't affect the master.
--
delete :: (Ord a, Eq s) => a -> StackSet i l a s sd -> StackSet i l a s sd
delete :: (Ord a) => a -> StackSet i l a s sd -> StackSet i l a s sd
delete w = sink w . delete' w
-- | Only temporarily remove the window from the stack, thereby not destroying special
-- information saved in the Stackset
delete' :: (Eq a, Eq s) => a -> StackSet i l a s sd -> StackSet i l a s sd
-- information saved in the 'Stackset'
delete' :: (Eq a) => a -> StackSet i l a s sd -> StackSet i l a s sd
delete' w s = s { current = removeFromScreen (current s)
, visible = map removeFromScreen (visible s)
, hidden = map removeFromWorkspace (hidden s) }
@@ -512,7 +492,7 @@ delete' w s = s { current = removeFromScreen (current s)
------------------------------------------------------------------------
-- | Given a window, and its preferred rectangle, set it as floating
-- A floating window should already be managed by the StackSet.
-- A floating window should already be managed by the 'StackSet'.
float :: Ord a => a -> RationalRect -> StackSet i l a s sd -> StackSet i l a s sd
float w r s = s { floating = M.insert w r (floating s) }
@@ -533,6 +513,15 @@ swapMaster = modify' $ \c -> case c of
-- natural! keep focus, move current to the top, move top to current.
-- | /O(s)/. Set the master window to the focused window.
-- The other windows are kept in order and shifted down on the stack, as if you
-- just hit mod-shift-k a bunch of times.
-- Focus stays with the item moved.
shiftMaster :: StackSet i l a s sd -> StackSet i l a s sd
shiftMaster = modify' $ \c -> case c of
Stack _ [] _ -> c -- already master.
Stack t ls rs -> Stack t [] (reverse ls ++ rs)
-- | /O(s)/. Set focus to the master window.
focusMaster :: StackSet i l a s sd -> StackSet i l a s sd
focusMaster = modify' $ \c -> case c of
@@ -550,10 +539,7 @@ focusMaster = modify' $ \c -> case c of
-- element on the current stack, the original stackSet is returned.
--
shift :: (Ord a, Eq s, Eq i) => i -> StackSet i l a s sd -> StackSet i l a s sd
shift n s | n `tagMember` s && n /= curtag = maybe s go (peek s)
| otherwise = s
where go w = view curtag . insertUp w . view n . delete' w $ s
curtag = tag (workspace (current s))
shift n s = maybe s (\w -> shiftWin n w s) (peek s)
-- | /O(n)/. shiftWin. Searches for the specified window 'w' on all workspaces
-- of the stackSet and moves it to stack 'n', leaving it as the focused
@@ -561,14 +547,12 @@ shift n s | n `tagMember` s && n /= curtag = maybe s go (peek s)
-- focused element on that workspace.
-- The actual focused workspace doesn't change. If the window is not
-- found in the stackSet, the original stackSet is returned.
-- TODO how does this duplicate 'shift's behaviour?
shiftWin :: (Ord a, Eq a, Eq s, Eq i) => i -> a -> StackSet i l a s sd -> StackSet i l a s sd
shiftWin n w s | from == Nothing = s -- not found
| n `tagMember` s && (Just n) /= from = go
| otherwise = s
where from = findTag w s
go = on n (insertUp w) . on (fromJust from) (delete' w) $ s
curtag = tag (workspace (current s))
on i f = view curtag . f . view i
shiftWin :: (Ord a, Eq s, Eq i) => i -> a -> StackSet i l a s sd -> StackSet i l a s sd
shiftWin n w s = case findTag w s of
Just from | n `tagMember` s && n /= from -> go from s
_ -> s
where go from = onWorkspace n (insertUp w) . onWorkspace from (delete' w)
onWorkspace :: (Eq i, Eq s) => i -> (StackSet i l a s sd -> StackSet i l a s sd)
-> (StackSet i l a s sd -> StackSet i l a s sd)
onWorkspace n f s = view (currentTag s) . f . view n $ s

7
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@@ -0,0 +1,7 @@
resolver: lts-7.19
packages:
- ./
extra-deps:
- X11-1.8

140
tests/Instances.hs Normal file
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@@ -0,0 +1,140 @@
{-# LANGUAGE ScopedTypeVariables #-}
module Instances where
import Test.QuickCheck
import Utils
import XMonad.StackSet
import Control.Monad
import Data.List (nub, genericLength)
import Debug.Trace
import Graphics.X11 (Rectangle(Rectangle))
import Control.Applicative
--
-- The all important Arbitrary instance for StackSet.
--
instance (Integral i, Integral s, Eq a, Arbitrary a, Arbitrary l, Arbitrary sd)
=> Arbitrary (StackSet i l a s sd) where
arbitrary = do
-- TODO: Fix this to be a reasonable higher number, Possibly use PositiveSized
numWs <- choose (1, 20) -- number of workspaces, there must be at least 1.
numScreens <- choose (1, numWs) -- number of physical screens, there must be at least 1
lay <- arbitrary -- pick any layout
wsIdxInFocus <- choose (1, numWs) -- pick index of WS to be in focus
-- The same screen id's will be present in the list, with high possibility.
screens <- replicateM numScreens arbitrary
-- Generate a list of "windows" for each workspace.
wsWindows <- vector numWs :: Gen [[a]]
-- Pick a random window "number" in each workspace, to give focus.
focus <- sequence [ if null windows
then return Nothing
else liftM Just $ choose (0, length windows - 1)
| windows <- wsWindows ]
let tags = [1 .. fromIntegral numWs]
focusWsWindows = zip focus wsWindows
wss = zip tags focusWsWindows -- tmp representation of a workspace (tag, windows)
initSs = new lay tags screens
return $
view (fromIntegral wsIdxInFocus) $
foldr (\(tag, (focus, windows)) ss -> -- Fold through all generated (tags,windows).
-- set workspace active by tag and fold through all
-- windows while inserting them. Apply the given number
-- of `focusUp` on the resulting StackSet.
applyN focus focusUp $ foldr insertUp (view tag ss) windows
) initSs wss
--
-- Just generate StackSets with Char elements.
--
type Tag = Int
type Window = Char
type T = StackSet Tag Int Window Int Int
newtype EmptyStackSet = EmptyStackSet T
deriving Show
instance Arbitrary EmptyStackSet where
arbitrary = do
(NonEmptyNubList ns) <- arbitrary
(NonEmptyNubList sds) <- arbitrary
l <- arbitrary
-- there cannot be more screens than workspaces:
return . EmptyStackSet . new l ns $ take (min (length ns) (length sds)) sds
newtype NonEmptyWindowsStackSet = NonEmptyWindowsStackSet T
deriving Show
instance Arbitrary NonEmptyWindowsStackSet where
arbitrary =
NonEmptyWindowsStackSet `fmap` (arbitrary `suchThat` (not . null . allWindows))
instance Arbitrary Rectangle where
arbitrary = Rectangle <$> arbitrary <*> arbitrary <*> arbitrary <*> arbitrary
newtype SizedPositive = SizedPositive Int
deriving (Eq, Ord, Show, Read)
instance Arbitrary SizedPositive where
arbitrary = sized $ \s -> do x <- choose (1, max 1 s)
return $ SizedPositive x
newtype NonEmptyNubList a = NonEmptyNubList [a]
deriving ( Eq, Ord, Show, Read )
instance (Eq a, Arbitrary a) => Arbitrary (NonEmptyNubList a) where
arbitrary = NonEmptyNubList `fmap` ((liftM nub arbitrary) `suchThat` (not . null))
-- | Pull out an arbitrary tag from the StackSet. This removes the need for the
-- precondition "n `tagMember x` in many properties and thus reduces the number
-- of discarded tests.
--
-- n <- arbitraryTag x
--
-- We can do the reverse with a simple `suchThat`:
--
-- n <- arbitrary `suchThat` \n' -> not $ n' `tagMember` x
arbitraryTag :: T -> Gen Tag
arbitraryTag x = do
let ts = tags x
-- There must be at least 1 workspace, thus at least 1 tag.
idx <- choose (0, (length ts) - 1)
return $ ts!!idx
-- | Pull out an arbitrary window from a StackSet that is guaranteed to have a
-- non empty set of windows. This eliminates the precondition "i `member` x" in
-- a few properties.
--
--
-- foo (nex :: NonEmptyWindowsStackSet) = do
-- let NonEmptyWindowsStackSet x = nex
-- w <- arbitraryWindow nex
-- return $ .......
--
-- We can do the reverse with a simple `suchThat`:
--
-- n <- arbitrary `suchThat` \n' -> not $ n `member` x
arbitraryWindow :: NonEmptyWindowsStackSet -> Gen Window
arbitraryWindow (NonEmptyWindowsStackSet x) = do
let ws = allWindows x
-- We know that there are at least 1 window in a NonEmptyWindowsStackSet.
idx <- choose(0, (length ws) - 1)
return $ ws!!idx

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70
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{-# LANGUAGE ScopedTypeVariables #-}
module Properties.Delete where
import Test.QuickCheck
import Instances
import Utils
import XMonad.StackSet hiding (filter)
-- ---------------------------------------------------------------------
-- 'delete'
-- deleting the current item removes it.
prop_delete x =
case peek x of
Nothing -> True
Just i -> not (member i (delete i x))
where _ = x :: T
-- delete is reversible with 'insert'.
-- It is the identiy, except for the 'master', which is reset on insert and delete.
--
prop_delete_insert (x :: T) =
case peek x of
Nothing -> True
Just n -> insertUp n (delete n y) == y
where
y = swapMaster x
-- delete should be local
prop_delete_local (x :: T) =
case peek x of
Nothing -> True
Just i -> hidden_spaces x == hidden_spaces (delete i x)
-- delete should not affect focus unless the focused element is what is being deleted
prop_delete_focus = do
-- There should be at least two windows. One in focus, and some to try and
-- delete (doesn't have to be windows on the current workspace). We generate
-- our own, since we can't rely on NonEmptyWindowsStackSet returning one in
-- the argument with at least two windows.
x <- arbitrary `suchThat` \x' -> length (allWindows x') >= 2
w <- arbitraryWindow (NonEmptyWindowsStackSet x)
-- Make sure we pick a window that is NOT the currently focused
`suchThat` \w' -> Just w' /= peek x
return $ peek (delete w x) == peek x
-- focus movement in the presence of delete:
-- when the last window in the stack set is focused, focus moves `up'.
-- usual case is that it moves 'down'.
prop_delete_focus_end = do
-- Generate a StackSet with at least two windows on the current workspace.
x <- arbitrary `suchThat` \(x' :: T) -> length (index x') >= 2
let w = last (index x)
y = focusWindow w x -- focus last window in stack
return $ peek (delete w y) == peek (focusUp y)
-- focus movement in the presence of delete:
-- when not in the last item in the stack, focus moves down
prop_delete_focus_not_end = do
x <- arbitrary
-- There must be at least two windows and the current focused is not the
-- last one in the stack.
`suchThat` \(x' :: T) ->
let currWins = index x'
in length (currWins) >= 2 && peek x' /= Just (last currWins)
-- This is safe, as we know there are >= 2 windows
let Just n = peek x
return $ peek (delete n x) == peek (focusDown x)

30
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module Properties.Failure where
import XMonad.StackSet hiding (filter)
import qualified Control.Exception.Extensible as C
import System.IO.Unsafe
import Data.List (isPrefixOf)
-- ---------------------------------------------------------------------
-- testing for failure and help out hpc
--
-- Since base 4.9.0.0 `error` appends a stack trace. The tests below
-- use `isPrefixOf` to only test equality on the error message.
--
prop_abort :: Int -> Bool
prop_abort _ = unsafePerformIO $ C.catch (abort "fail") check
where
check (C.SomeException e) =
return $ "xmonad: StackSet: fail" `isPrefixOf` show e
-- new should fail with an abort
prop_new_abort :: Int -> Bool
prop_new_abort _ = unsafePerformIO $ C.catch f check
where
f = new undefined{-layout-} [] [] `seq` return False
check (C.SomeException e) =
return $ "xmonad: StackSet: non-positive argument to StackSet.new" `isPrefixOf` show e
-- TODO: Fix this?
-- prop_view_should_fail = view {- with some bogus data -}

36
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{-# LANGUAGE ScopedTypeVariables #-}
module Properties.Floating where
import Test.QuickCheck
import Instances
import XMonad.StackSet hiding (filter)
import qualified Data.Map as M
------------------------------------------------------------------------
-- properties for the floating layer:
prop_float_reversible (nex :: NonEmptyWindowsStackSet) = do
let NonEmptyWindowsStackSet x = nex
w <- arbitraryWindow nex
return $ sink w (float w geom x) == x
where
geom = RationalRect 100 100 100 100
prop_float_geometry (nex :: NonEmptyWindowsStackSet) = do
let NonEmptyWindowsStackSet x = nex
w <- arbitraryWindow nex
let s = float w geom x
return $ M.lookup w (floating s) == Just geom
where
geom = RationalRect 100 100 100 100
prop_float_delete (nex :: NonEmptyWindowsStackSet) = do
let NonEmptyWindowsStackSet x = nex
w <- arbitraryWindow nex
let s = float w geom x
t = delete w s
return $ not (w `member` t)
where
geom = RationalRect 100 100 100 100

74
tests/Properties/Focus.hs Normal file
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{-# LANGUAGE ScopedTypeVariables #-}
module Properties.Focus where
import Test.QuickCheck
import Instances
import Utils
import XMonad.StackSet hiding (filter)
import Data.Maybe (fromJust)
-- ---------------------------------------------------------------------
-- rotating focus
--
-- master/focus
--
-- The tiling order, and master window, of a stack is unaffected by focus changes.
--
prop_focus_left_master (SizedPositive n) (x::T) =
index (applyN (Just n) focusUp x) == index x
prop_focus_right_master (SizedPositive n) (x::T) =
index (applyN (Just n) focusDown x) == index x
prop_focus_master_master (SizedPositive n) (x::T) =
index (applyN (Just n) focusMaster x) == index x
prop_focusWindow_master (NonNegative n) (x :: T) =
case peek x of
Nothing -> True
Just _ -> let s = index x
i = n `mod` length s
in index (focusWindow (s !! i) x) == index x
-- shifting focus is trivially reversible
prop_focus_left (x :: T) = (focusUp (focusDown x)) == x
prop_focus_right (x :: T) = (focusDown (focusUp x)) == x
-- focus master is idempotent
prop_focusMaster_idem (x :: T) = focusMaster x == focusMaster (focusMaster x)
-- focusWindow actually leaves the window focused...
prop_focusWindow_works (NonNegative (n :: Int)) (x :: T) =
case peek x of
Nothing -> True
Just _ -> let s = index x
i = fromIntegral n `mod` length s
in (focus . fromJust . stack . workspace . current) (focusWindow (s !! i) x) == (s !! i)
-- rotation through the height of a stack gets us back to the start
prop_focus_all_l (x :: T) = (foldr (const focusUp) x [1..n]) == x
where n = length (index x)
prop_focus_all_r (x :: T) = (foldr (const focusDown) x [1..n]) == x
where n = length (index x)
-- prop_rotate_all (x :: T) = f (f x) == f x
-- f x' = foldr (\_ y -> rotate GT y) x' [1..n]
-- focus is local to the current workspace
prop_focus_down_local (x :: T) = hidden_spaces (focusDown x) == hidden_spaces x
prop_focus_up_local (x :: T) = hidden_spaces (focusUp x) == hidden_spaces x
prop_focus_master_local (x :: T) = hidden_spaces (focusMaster x) == hidden_spaces x
prop_focusWindow_local (NonNegative (n :: Int)) (x::T ) =
case peek x of
Nothing -> True
Just _ -> let s = index x
i = fromIntegral n `mod` length s
in hidden_spaces (focusWindow (s !! i) x) == hidden_spaces x
-- On an invalid window, the stackset is unmodified
prop_focusWindow_identity (x::T ) = do
n <- arbitrary `suchThat` \n' -> not $ n' `member` x
return $ focusWindow n x == x

44
tests/Properties/GreedyView.hs Normal file
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{-# LANGUAGE ScopedTypeVariables #-}
module Properties.GreedyView where
import Test.QuickCheck
import Instances
import Utils
import XMonad.StackSet hiding (filter)
import Data.List (sortBy)
-- ---------------------------------------------------------------------
-- greedyViewing workspaces
-- greedyView sets the current workspace to 'n'
prop_greedyView_current (x :: T) = do
n <- arbitraryTag x
return $ currentTag (greedyView n x) == n
-- greedyView leaves things unchanged for invalid workspaces
prop_greedyView_current_id (x :: T) = do
n <- arbitrary `suchThat` \n' -> not $ n' `tagMember` x
return $ currentTag (greedyView n x) == currentTag x
-- greedyView *only* sets the current workspace, and touches Xinerama.
-- no workspace contents will be changed.
prop_greedyView_local (x :: T) = do
n <- arbitraryTag x
return $ workspaces x == workspaces (greedyView n x)
where
workspaces a = sortBy (\s t -> tag s `compare` tag t) $
workspace (current a)
: map workspace (visible a) ++ hidden a
-- greedyView is idempotent
prop_greedyView_idem (x :: T) = do
n <- arbitraryTag x
return $ greedyView n (greedyView n x) == (greedyView n x)
-- greedyView is reversible, though shuffles the order of hidden/visible
prop_greedyView_reversible (x :: T) = do
n <- arbitraryTag x
return $ normal (greedyView n' (greedyView n x)) == normal x
where n' = currentTag x

52
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{-# LANGUAGE ScopedTypeVariables #-}
module Properties.Insert where
import Test.QuickCheck
import Instances
import Utils
import XMonad.StackSet hiding (filter)
import Data.List (nub)
-- ---------------------------------------------------------------------
-- 'insert'
-- inserting a item into an empty stackset means that item is now a member
prop_insert_empty i (EmptyStackSet x)= member i (insertUp i x)
-- insert should be idempotent
prop_insert_idem i (x :: T) = insertUp i x == insertUp i (insertUp i x)
-- insert when an item is a member should leave the stackset unchanged
prop_insert_duplicate (nex :: NonEmptyWindowsStackSet) = do
let NonEmptyWindowsStackSet x = nex
w <- arbitraryWindow nex
return $ insertUp w x == x
-- push shouldn't change anything but the current workspace
prop_insert_local (x :: T) = do
i <- arbitrary `suchThat` \i' -> not $ i' `member` x
return $ hidden_spaces x == hidden_spaces (insertUp i x)
-- Inserting a (unique) list of items into an empty stackset should
-- result in the last inserted element having focus.
prop_insert_peek (EmptyStackSet x) (NonEmptyNubList is) =
peek (foldr insertUp x is) == Just (head is)
-- insert >> delete is the identity, when i `notElem` .
-- Except for the 'master', which is reset on insert and delete.
--
prop_insert_delete x = do
n <- arbitrary `suchThat` \n -> not $ n `member` x
return $ delete n (insertUp n y) == (y :: T)
where
y = swapMaster x -- sets the master window to the current focus.
-- otherwise, we don't have a rule for where master goes.
-- inserting n elements increases current stack size by n
prop_size_insert is (EmptyStackSet x) =
size (foldr insertUp x ws ) == (length ws)
where
ws = nub is
size = length . index

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{-# LANGUAGE ScopedTypeVariables #-}
module Properties.Layout.Full where
import Test.QuickCheck
import Instances
import XMonad.StackSet hiding (filter)
import XMonad.Core
import XMonad.Layout
import Data.Maybe
------------------------------------------------------------------------
-- Full layout
-- pureLayout works for Full
prop_purelayout_full rect = do
x <- (arbitrary :: Gen T) `suchThat` (isJust . peek)
let layout = Full
st = fromJust . stack . workspace . current $ x
ts = pureLayout layout rect st
return $
length ts == 1 -- only one window to view
&&
snd (head ts) == rect -- and sets fullscreen
&&
fst (head ts) == fromJust (peek x) -- and the focused window is shown
-- what happens when we send an IncMaster message to Full --- Nothing
prop_sendmsg_full (NonNegative k) =
isNothing (Full `pureMessage` (SomeMessage (IncMasterN k)))
prop_desc_full = description Full == show Full

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{-# LANGUAGE ScopedTypeVariables #-}
module Properties.Layout.Tall where
import Test.QuickCheck
import Instances
import Utils
import XMonad.StackSet hiding (filter)
import XMonad.Core
import XMonad.Layout
import Graphics.X11.Xlib.Types (Rectangle(..))
import Data.Maybe
import Data.List (sort)
import Data.Ratio
------------------------------------------------------------------------
-- The Tall layout
-- 1 window should always be tiled fullscreen
prop_tile_fullscreen rect = tile pct rect 1 1 == [rect]
where pct = 1/2
-- multiple windows
prop_tile_non_overlap rect windows nmaster = noOverlaps (tile pct rect nmaster windows)
where _ = rect :: Rectangle
pct = 3 % 100
-- splitting horizontally yields sensible results
prop_split_horizontal (NonNegative n) x =
(noOverflows (+) (rect_x x) (rect_width x)) ==>
sum (map rect_width xs) == rect_width x
&&
all (== rect_height x) (map rect_height xs)
&&
(map rect_x xs) == (sort $ map rect_x xs)
where
xs = splitHorizontally n x
-- splitting vertically yields sensible results
prop_split_vertical (r :: Rational) x =
rect_x x == rect_x a && rect_x x == rect_x b
&&
rect_width x == rect_width a && rect_width x == rect_width b
where
(a,b) = splitVerticallyBy r x
-- pureLayout works.
prop_purelayout_tall n r1 r2 rect = do
x <- (arbitrary :: Gen T) `suchThat` (isJust . peek)
let layout = Tall n r1 r2
st = fromJust . stack . workspace . current $ x
ts = pureLayout layout rect st
return $
length ts == length (index x)
&&
noOverlaps (map snd ts)
&&
description layout == "Tall"
-- Test message handling of Tall
-- what happens when we send a Shrink message to Tall
prop_shrink_tall (NonNegative n) (Positive delta) (NonNegative frac) =
n == n' && delta == delta' -- these state components are unchanged
&& frac' <= frac && (if frac' < frac then frac' == 0 || frac' == frac - delta
else frac == 0 )
-- remaining fraction should shrink
where
l1 = Tall n delta frac
Just l2@(Tall n' delta' frac') = l1 `pureMessage` (SomeMessage Shrink)
-- pureMessage :: layout a -> SomeMessage -> Maybe (layout a)
-- what happens when we send a Shrink message to Tall
prop_expand_tall (NonNegative n)
(Positive delta)
(NonNegative n1)
(Positive d1) =
n == n'
&& delta == delta' -- these state components are unchanged
&& frac' >= frac
&& (if frac' > frac
then frac' == 1 || frac' == frac + delta
else frac == 1 )
-- remaining fraction should shrink
where
frac = min 1 (n1 % d1)
l1 = Tall n delta frac
Just l2@(Tall n' delta' frac') = l1 `pureMessage` (SomeMessage Expand)
-- pureMessage :: layout a -> SomeMessage -> Maybe (layout a)
-- what happens when we send an IncMaster message to Tall
prop_incmaster_tall (NonNegative n) (Positive delta) (NonNegative frac)
(NonNegative k) =
delta == delta' && frac == frac' && n' == n + k
where
l1 = Tall n delta frac
Just l2@(Tall n' delta' frac') = l1 `pureMessage` (SomeMessage (IncMasterN k))
-- pureMessage :: layout a -> SomeMessage -> Maybe (layout a)
-- toMessage LT = SomeMessage Shrink
-- toMessage EQ = SomeMessage Expand
-- toMessage GT = SomeMessage (IncMasterN 1)
prop_desc_mirror n r1 r2 = description (Mirror $! t) == "Mirror Tall"
where t = Tall n r1 r2

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tests/Properties/Screen.hs Normal file
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{-# LANGUAGE ScopedTypeVariables #-}
module Properties.Screen where
import Utils
import Test.QuickCheck
import Instances
import Control.Applicative
import XMonad.StackSet hiding (filter)
import XMonad.Operations
import Graphics.X11.Xlib.Types (Dimension)
import Graphics.X11 (Rectangle(Rectangle))
import XMonad.Layout
prop_screens (x :: T) = n `elem` screens x
where
n = current x
-- screens makes sense
prop_screens_works (x :: T) = screens x == current x : visible x
------------------------------------------------------------------------
-- Hints
prop_resize_inc (Positive inc_w,Positive inc_h) b@(w,h) =
w' `mod` inc_w == 0 && h' `mod` inc_h == 0
where (w',h') = applyResizeIncHint a b
a = (inc_w,inc_h)
prop_resize_inc_extra ((NonNegative inc_w)) b@(w,h) =
(w,h) == (w',h')
where (w',h') = applyResizeIncHint a b
a = (-inc_w,0::Dimension)-- inc_h)
prop_resize_max (Positive inc_w,Positive inc_h) b@(w,h) =
w' <= inc_w && h' <= inc_h
where (w',h') = applyMaxSizeHint a b
a = (inc_w,inc_h)
prop_resize_max_extra ((NonNegative inc_w)) b@(w,h) =
(w,h) == (w',h')
where (w',h') = applyMaxSizeHint a b
a = (-inc_w,0::Dimension)-- inc_h)
prop_aspect_hint_shrink hint (w,h) = case applyAspectHint hint (w,h) of
(w',h') -> w' <= w && h' <= h
-- applyAspectHint does nothing when the supplied (x,y) fits
-- the desired range
prop_aspect_fits =
forAll ((,,,) <$> pos <*> pos <*> pos <*> pos) $ \ (x,y,a,b) ->
let f v = applyAspectHint ((x, y+a), (x+b, y)) v
in and [ noOverflows (*) x (y+a), noOverflows (*) (x+b) y ]
==> f (x,y) == (x,y)
where pos = choose (0, 65535)
mul a b = toInteger (a*b) /= toInteger a * toInteger b
prop_point_within r @ (Rectangle x y w h) =
forAll ((,) <$>
choose (0, fromIntegral w - 1) <*>
choose (0, fromIntegral h - 1)) $
\(dx,dy) ->
and [ dx > 0, dy > 0,
noOverflows (\ a b -> a + abs b) x w,
noOverflows (\ a b -> a + abs b) y h ]
==> pointWithin (x+dx) (y+dy) r
prop_point_within_mirror r (x,y) = pointWithin x y r == pointWithin y x (mirrorRect r)

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{-# LANGUAGE ScopedTypeVariables #-}
module Properties.Shift where
import Test.QuickCheck
import Instances
import Utils
import XMonad.StackSet hiding (filter)
import qualified Data.List as L
-- ---------------------------------------------------------------------
-- shift
-- shift is fully reversible on current window, when focus and master
-- are the same. otherwise, master may move.
prop_shift_reversible (x :: T) = do
i <- arbitraryTag x
case peek y of
Nothing -> return True
Just _ -> return $ normal ((view n . shift n . view i . shift i) y) == normal y
where
y = swapMaster x
n = currentTag y
------------------------------------------------------------------------
-- shiftMaster
-- focus/local/idempotent same as swapMaster:
prop_shift_master_focus (x :: T) = peek x == (peek $ shiftMaster x)
prop_shift_master_local (x :: T) = hidden_spaces x == hidden_spaces (shiftMaster x)
prop_shift_master_idempotent (x :: T) = shiftMaster (shiftMaster x) == shiftMaster x
-- ordering is constant modulo the focused window:
prop_shift_master_ordering (x :: T) = case peek x of
Nothing -> True
Just m -> L.delete m (index x) == L.delete m (index $ shiftMaster x)
-- ---------------------------------------------------------------------
-- shiftWin
-- shiftWin on current window is the same as shift
prop_shift_win_focus (x :: T) = do
n <- arbitraryTag x
case peek x of
Nothing -> return True
Just w -> return $ shiftWin n w x == shift n x
-- shiftWin on a non-existant window is identity
prop_shift_win_indentity (x :: T) = do
n <- arbitraryTag x
w <- arbitrary `suchThat` \w' -> not (w' `member` x)
return $ shiftWin n w x == x
-- shiftWin leaves the current screen as it is, if neither n is the tag
-- of the current workspace nor w on the current workspace
prop_shift_win_fix_current = do
x <- arbitrary `suchThat` \(x' :: T) ->
-- Invariant, otherWindows are NOT in the current workspace.
let otherWindows = allWindows x' L.\\ index x'
in length(tags x') >= 2 && length(otherWindows) >= 1
-- Sadly we have to construct `otherWindows` again, for the actual StackSet
-- that got chosen.
let otherWindows = allWindows x L.\\ index x
-- We know such tag must exists, due to the precondition
n <- arbitraryTag x `suchThat` (/= currentTag x)
-- we know length is >= 1, from above precondition
idx <- choose(0, length(otherWindows) - 1)
let w = otherWindows !! idx
return $ (current $ x) == (current $ shiftWin n w x)

51
tests/Properties/Stack.hs Normal file
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{-# LANGUAGE ScopedTypeVariables #-}
module Properties.Stack where
import Test.QuickCheck
import Instances
import XMonad.StackSet hiding (filter)
import qualified XMonad.StackSet as S (filter)
import Data.Maybe
-- The list returned by index should be the same length as the actual
-- windows kept in the zipper
prop_index_length (x :: T) =
case stack . workspace . current $ x of
Nothing -> length (index x) == 0
Just it -> length (index x) == length (focus it : up it ++ down it)
-- For all windows in the stackSet, findTag should identify the
-- correct workspace
prop_findIndex (x :: T) =
and [ tag w == fromJust (findTag i x)
| w <- workspace (current x) : map workspace (visible x) ++ hidden x
, t <- maybeToList (stack w)
, i <- focus t : up t ++ down t
]
prop_allWindowsMember (NonEmptyWindowsStackSet x) = do
-- Reimplementation of arbitraryWindow, but to make sure that
-- implementation doesn't change in the future, and stop using allWindows,
-- which is a key component in this test (together with member).
let ws = allWindows x
-- We know that there are at least 1 window in a NonEmptyWindowsStackSet.
idx <- choose(0, (length ws) - 1)
return $ member (ws!!idx) x
-- preserve order
prop_filter_order (x :: T) =
case stack $ workspace $ current x of
Nothing -> True
Just s@(Stack i _ _) -> integrate' (S.filter (/= i) s) == filter (/= i) (integrate' (Just s))
-- differentiate should return Nothing if the list is empty or Just stack, with
-- the first element of the list is current, and the rest of the list is down.
prop_differentiate xs =
if null xs then differentiate xs == Nothing
else (differentiate xs) == Just (Stack (head xs) [] (tail xs))
where _ = xs :: [Int]

135
tests/Properties/StackSet.hs Normal file
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{-# LANGUAGE ScopedTypeVariables #-}
module Properties.StackSet where
import Test.QuickCheck
import Instances
import Utils
import XMonad.StackSet hiding (filter)
import Data.Maybe
import Data.List (nub)
-- ---------------------------------------------------------------------
-- QuickCheck properties for the StackSet
-- Some general hints for creating StackSet properties:
--
-- * ops that mutate the StackSet are usually local
-- * most ops on StackSet should either be trivially reversible, or
-- idempotent, or both.
------------------------------------------------------------------------
-- Basic data invariants of the StackSet
--
-- With the new zipper-based StackSet, tracking focus is no longer an
-- issue: the data structure enforces focus by construction.
--
-- But we still need to ensure there are no duplicates, and master/and
-- the xinerama mapping aren't checked by the data structure at all.
--
-- * no element should ever appear more than once in a StackSet
-- * the xinerama screen map should be:
-- -- keys should always index valid workspaces
-- -- monotonically ascending in the elements
-- * the current workspace should be a member of the xinerama screens
--
invariant (s :: T) = and
-- no duplicates
[ noDuplicates
-- TODO: Fix this.
-- all this xinerama stuff says we don't have the right structure
-- , validScreens
-- , validWorkspaces
-- , inBounds
]
where
ws = concat [ focus t : up t ++ down t
| w <- workspace (current s) : map workspace (visible s) ++ hidden s
, t <- maybeToList (stack w)] :: [Char]
noDuplicates = nub ws == ws
-- validScreens = monotonic . sort . M. . (W.current s : W.visible : W$ s
-- validWorkspaces = and [ w `elem` allworkspaces | w <- (M.keys . screens) s ]
-- where allworkspaces = map tag $ current s : prev s ++ next s
-- inBounds = and [ w >=0 && w < size s | (w,sc) <- M.assocs (screens s) ]
monotonic [] = True
monotonic (x:[]) = True
monotonic (x:y:zs) | x == y-1 = monotonic (y:zs)
| otherwise = False
prop_invariant = invariant
-- and check other ops preserve invariants
prop_empty_I (SizedPositive n) l = forAll (choose (1, fromIntegral n)) $ \m ->
forAll (vector m) $ \ms ->
invariant $ new l [0..fromIntegral n-1] ms
prop_view_I n (x :: T) =
invariant $ view n x
prop_greedyView_I n (x :: T) =
invariant $ greedyView n x
prop_focusUp_I (SizedPositive n) (x :: T) =
invariant $ applyN (Just n) focusUp x
prop_focusMaster_I (SizedPositive n) (x :: T) =
invariant $ applyN (Just n) focusMaster x
prop_focusDown_I (SizedPositive n) (x :: T) =
invariant $ applyN (Just n) focusDown x
prop_focus_I (SizedPositive n) (x :: T) =
case peek x of
Nothing -> True
Just _ -> let w = focus . fromJust . stack . workspace . current $
applyN (Just n) focusUp x
in invariant $ focusWindow w x
prop_insertUp_I n (x :: T) = invariant $ insertUp n x
prop_delete_I (x :: T) = invariant $
case peek x of
Nothing -> x
Just i -> delete i x
prop_swap_master_I (x :: T) = invariant $ swapMaster x
prop_swap_left_I (SizedPositive n) (x :: T) =
invariant $ applyN (Just n) swapUp x
prop_swap_right_I (SizedPositive n) (x :: T) =
invariant $ applyN (Just n) swapDown x
prop_shift_I (x :: T) = do
n <- arbitraryTag x
return $ invariant $ shift (fromIntegral n) x
prop_shift_win_I (nex :: NonEmptyWindowsStackSet) = do
let NonEmptyWindowsStackSet x = nex
w <- arbitraryWindow nex
n <- arbitraryTag x
return $ invariant $ shiftWin n w x
-- ---------------------------------------------------------------------
-- empty StackSets have no windows in them
prop_empty (EmptyStackSet x) =
all (== Nothing) [ stack w | w <- workspace (current x)
: map workspace (visible x) ++ hidden x ]
-- empty StackSets always have focus on first workspace
prop_empty_current (EmptyStackSet x) = currentTag x == head (tags x)
-- no windows will be a member of an empty workspace
prop_member_empty i (EmptyStackSet x) = member i x == False
-- peek either yields nothing on the Empty workspace, or Just a valid window
prop_member_peek (x :: T) =
case peek x of
Nothing -> True {- then we don't know anything -}
Just i -> member i x

47
tests/Properties/Swap.hs Normal file
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{-# LANGUAGE ScopedTypeVariables #-}
module Properties.Swap where
import Test.QuickCheck
import Instances
import Utils
import XMonad.StackSet hiding (filter)
-- ---------------------------------------------------------------------
-- swapUp, swapDown, swapMaster: reordiring windows
-- swap is trivially reversible
prop_swap_left (x :: T) = (swapUp (swapDown x)) == x
prop_swap_right (x :: T) = (swapDown (swapUp x)) == x
-- TODO swap is reversible
-- swap is reversible, but involves moving focus back the window with
-- master on it. easy to do with a mouse...
{-
prop_promote_reversible x b = (not . null . fromMaybe [] . flip index x . current $ x) ==>
(raiseFocus y . promote . raiseFocus z . promote) x == x
where _ = x :: T
dir = if b then LT else GT
(Just y) = peek x
(Just (z:_)) = flip index x . current $ x
-}
-- swap doesn't change focus
prop_swap_master_focus (x :: T) = peek x == (peek $ swapMaster x)
-- = case peek x of
-- Nothing -> True
-- Just f -> focus (stack (workspace $ current (swap x))) == f
prop_swap_left_focus (x :: T) = peek x == (peek $ swapUp x)
prop_swap_right_focus (x :: T) = peek x == (peek $ swapDown x)
-- swap is local
prop_swap_master_local (x :: T) = hidden_spaces x == hidden_spaces (swapMaster x)
prop_swap_left_local (x :: T) = hidden_spaces x == hidden_spaces (swapUp x)
prop_swap_right_local (x :: T) = hidden_spaces x == hidden_spaces (swapDown x)
-- rotation through the height of a stack gets us back to the start
prop_swap_all_l (x :: T) = (foldr (const swapUp) x [1..n]) == x
where n = length (index x)
prop_swap_all_r (x :: T) = (foldr (const swapDown) x [1..n]) == x
where n = length (index x)
prop_swap_master_idempotent (x :: T) = swapMaster (swapMaster x) == swapMaster x

47
tests/Properties/View.hs Normal file
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{-# LANGUAGE ScopedTypeVariables #-}
module Properties.View where
import Test.QuickCheck
import Instances
import Utils
import XMonad.StackSet hiding (filter)
import Data.List (sortBy)
-- ---------------------------------------------------------------------
-- viewing workspaces
-- view sets the current workspace to 'n'
prop_view_current (x :: T) = do
n <- arbitraryTag x
return $ (tag . workspace . current . view n) x == n
-- view *only* sets the current workspace, and touches Xinerama.
-- no workspace contents will be changed.
prop_view_local (x :: T) = do
n <- arbitraryTag x
return $ workspaces x == workspaces (view n x)
where
workspaces a = sortBy (\s t -> tag s `compare` tag t) $
workspace (current a)
: map workspace (visible a) ++ hidden a
-- TODO: Fix this
-- view should result in a visible xinerama screen
-- prop_view_xinerama (x :: T) (n :: NonNegative Int) = i `tagMember` x ==>
-- M.member i (screens (view i x))
-- where
-- i = fromIntegral n
-- view is idempotent
prop_view_idem (x :: T) = do
n <- arbitraryTag x
return $ view n (view n x) == (view n x)
-- view is reversible, though shuffles the order of hidden/visible
prop_view_reversible (x :: T) = do
n <- arbitraryTag x
return $ normal (view n' (view n x)) == normal x
where
n' = currentTag x

65
tests/Properties/Workspace.hs Normal file
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{-# LANGUAGE ScopedTypeVariables #-}
module Properties.Workspace where
import Test.QuickCheck
import Instances
import Utils
import XMonad.StackSet hiding (filter)
import Data.Maybe
-- looking up the tag of the current workspace should always produce a tag.
prop_lookup_current (x :: T) = lookupWorkspace scr x == Just tg
where
(Screen (Workspace tg _ _) scr _) = current x
-- looking at a visible tag
prop_lookup_visible = do
-- make sure we have some xinerama screens.
x <- arbitrary `suchThat` \(x' :: T) -> visible x' /= []
let tags = [ tag (workspace y) | y <- visible x ]
scr = last [ screen y | y <- visible x ]
return $ fromJust (lookupWorkspace scr x) `elem` tags
prop_currentTag (x :: T) =
currentTag x == tag (workspace (current x))
-- Rename a given tag if present in the StackSet.
prop_rename1 (x::T) = do
o <- arbitraryTag x
n <- arbitrary `suchThat` \n' -> not $ n' `tagMember` x
-- Rename o to n
let y = renameTag o n x
return $ n `tagMember` y
-- Ensure that a given set of workspace tags is present by renaming
-- existing workspaces and\/or creating new hidden workspaces as
-- necessary.
--
prop_ensure (x :: T) l xs = let y = ensureTags l xs x
in and [ n `tagMember` y | n <- xs ]
-- adding a tag should create a new hidden workspace
prop_ensure_append (x :: T) l = do
n <- arbitrary `suchThat` \n' -> not $ n' `tagMember` x
let ts = tags x
y = ensureTags l (n:ts) x
return $ hidden y /= hidden x -- doesn't append, renames
&& and [ isNothing (stack z) && layout z == l | z <- hidden y, tag z == n ]
prop_mapWorkspaceId (x::T) = x == mapWorkspace id x
prop_mapWorkspaceInverse (x::T) = x == mapWorkspace predTag (mapWorkspace succTag x)
where predTag w = w { tag = pred $ tag w }
succTag w = w { tag = succ $ tag w }
prop_mapLayoutId (x::T) = x == mapLayout id x
prop_mapLayoutInverse (x::T) = x == mapLayout pred (mapLayout succ x)

47
tests/Utils.hs Normal file
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{-# LANGUAGE RankNTypes #-}
module Utils where
import XMonad.StackSet hiding (filter)
import Graphics.X11.Xlib.Types (Rectangle(..))
import Data.List (sortBy)
-- Useful operation, the non-local workspaces
hidden_spaces x = map workspace (visible x) ++ hidden x
-- normalise workspace list
normal s = s { hidden = sortBy g (hidden s), visible = sortBy f (visible s) }
where
f = \a b -> tag (workspace a) `compare` tag (workspace b)
g = \a b -> tag a `compare` tag b
noOverlaps [] = True
noOverlaps [_] = True
noOverlaps xs = and [ verts a `notOverlap` verts b
| a <- xs
, b <- filter (a /=) xs
]
where
verts (Rectangle a b w h) = (a,b,a + fromIntegral w - 1, b + fromIntegral h - 1)
notOverlap (left1,bottom1,right1,top1)
(left2,bottom2,right2,top2)
= (top1 < bottom2 || top2 < bottom1)
|| (right1 < left2 || right2 < left1)
applyN :: (Integral n) => Maybe n -> (a -> a) -> a -> a
applyN Nothing f v = v
applyN (Just 0) f v = v
applyN (Just n) f v = applyN (Just $ n-1) f (f v)
tags x = map tag $ workspaces x
-- | noOverflows op a b is True if @a `op` fromIntegral b@ overflows (or
-- otherwise gives the same answer when done using Integer
noOverflows :: (Integral b, Integral c) =>
(forall a. Integral a => a -> a -> a) -> b -> c -> Bool
noOverflows op a b = toInteger (a `op` fromIntegral b) == toInteger a `op` toInteger b

4
tests/loc.hs
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@@ -5,9 +5,9 @@ main = do foo <- getContents
let actual_loc = filter (not.null) $ filter isntcomment $
map (dropWhile (==' ')) $ lines foo
loc = length actual_loc
putStrLn $ show loc
print loc
-- uncomment the following to check for mistakes in isntcomment
-- putStr $ unlines $ actual_loc
-- print actual_loc
isntcomment ('-':'-':_) = False
isntcomment ('{':'-':_) = False -- pragmas

109
util/GenerateManpage.hs
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@@ -1,47 +1,92 @@
{-# LANGUAGE FlexibleContexts #-}
-- Generates a in-memory version of "man/xmonad.1.markdown" that has the list
-- of known key-bindings is inserted automatically from "Config.hs". That
-- document is then rendered with Pandoc as "man/xmonad.1" and
-- "man/xmonad.1.html".
--
-- Generates man/xmonad.1 from man/xmonad.1.in by filling the list of
-- keybindings with values scraped from Config.hs
--
-- Format for the docstrings in Config.hs takes the following form:
--
-- -- mod-x %! Frob the whatsit
--
-- "Frob the whatsit" will be used as the description for keybinding "mod-x"
--
-- If the keybinding name is omitted, it will try to guess from the rest of the
-- line. For example:
--
-- [ ((modMask .|. shiftMask, xK_Return), spawn "xterm") -- %! Launch an xterm
--
-- Here, mod-shift-return will be used as the keybinding name.
--
import Control.Monad
import Text.Regex.Posix
-- Unlike the rest of xmonad, this file is released under the GNU General
-- Public License version 2 or later.
import Control.Monad.IO.Class (liftIO)
import Data.Char
import Data.List
import qualified Data.Text as T
import qualified Data.Text.IO as TIO
import Text.Pandoc
import Text.Regex.Posix
trim :: String -> String
trim = reverse . dropWhile isSpace . reverse . dropWhile isSpace
main :: IO ()
main = do
keybindings <- guessBindings
guessKeys line = concat $ intersperse "-" (modifiers ++ [map toLower key])
where modifiers = map (!!1) (line =~ "(mod|shift|control)Mask")
(_, _, _, [key]) = line =~ "xK_(\\w+)" :: (String, String, String, [String])
markdownSource <- readFile "./man/xmonad.1.markdown"
binding :: [String] -> (String, String)
binding [ _, bindingLine, "", desc ] = (guessKeys bindingLine, desc)
binding [ _, _, keyCombo, desc ] = (keyCombo, desc)
runIOorExplode $ do
parsed <- readMarkdown (def { readerStandalone = True, readerExtensions = pandocExtensions })
. T.pack
. unlines
. replace "___KEYBINDINGS___" keybindings
. lines
$ markdownSource
manTemplate <- getDefaultTemplate "man"
manBody <- writeMan def { writerTemplate = Just manTemplate } parsed
liftIO $ TIO.writeFile "./man/xmonad.1" $ manBody
liftIO $ putStrLn "Documentation created: man/xmonad.1"
htmltemplate <- getDefaultTemplate "html"
htmlBody <- writeHtml5String def
{ writerTemplate = Just htmltemplate
, writerTableOfContents = True }
parsed
liftIO $ TIO.writeFile "./man/xmonad.1.html" htmlBody
liftIO $ putStrLn "Documentation created: man/xmonad.1.html"
-- | The format for the docstrings in "Config.hs" takes the following form:
--
-- @
-- -- mod-x %! Frob the whatsit
-- @
--
-- "Frob the whatsit" will be used as the description for keybinding "mod-x".--
-- If the name of the key binding is omitted, the function tries to guess it
-- from the rest of the line. For example:
--
-- @
-- [ ((modMask .|. shiftMask, xK_Return), spawn "xterm") -- %! Launch an xterm
-- @
--
-- Here, "mod-shift-return" will be used as the key binding name.
guessBindings :: IO String
guessBindings = do
buf <- readFile "./src/XMonad/Config.hs"
return (intercalate "\n\n" (map markdownDefn (allBindings buf)))
allBindings :: String -> [(String, String)]
allBindings xs = map (binding . map trim) (xs =~ "(.*)--(.*)%!(.*)")
binding :: [String] -> (String, String)
binding [ _, bindingLine, "", desc ] = (guessKeys bindingLine, desc)
binding [ _, _, keyCombo, desc ] = (keyCombo, desc)
binding x = error ("binding: called with unexpected argument " ++ show x)
guessKeys :: String -> String
guessKeys line =
case keys of
[key] -> concat $ intersperse "-" (modifiers ++ [map toLower key])
_ -> error ("guessKeys: unexpected number of keys " ++ show keys)
where
modifiers = map (!!1) (line =~ "(mod|shift|control)Mask")
(_, _, _, keys) = line =~ "xK_([_[:alnum:]]+)" :: (String, String, String, [String])
-- FIXME: What escaping should we be doing on these strings?
troff :: (String, String) -> String
troff (key, desc) = ".IP\n \\fB" ++ key ++ "\\fR\n" ++ desc ++ "\n"
markdownDefn :: (String, String) -> String
markdownDefn (key, desc) = key ++ "\n: " ++ desc
replace :: Eq a => a -> a -> [a] -> [a]
replace x y = map (\a -> if a == x then y else a)
main = do
troffBindings <- (concatMap troff . allBindings) `liftM` readFile "./XMonad/Config.hs"
let sed = unlines . replace "___KEYBINDINGS___" troffBindings . lines
readFile "./man/xmonad.1.in" >>= return . sed >>= writeFile "./man/xmonad.1"
trim :: String -> String
trim = reverse . dropWhile isSpace . reverse . dropWhile isSpace

33
util/hpcReport.sh Normal file
View File

@@ -0,0 +1,33 @@
#!/bin/bash
set -e
if [[ ! ( -e xmonad.cabal && -e dist/hpc/tix/properties/properties.tix ) ]]; then
echo "run in the same dir as xmonad.cabal after having run
cabal configure --enable-tests --enable-library-coverage; cabal test
"
exit 1
fi
propsExclude=$(find tests/Properties -name '*.hs' \
| sed -e 's_/_._g' -e 's_.hs$__' -e 's_^tests._--exclude=_' )
hpcFlags="
--hpcdir=dist/hpc/mix/
dist/hpc/tix/properties/properties.tix
"
if [[ ! (-e dist/hpc/mix/Main.mix) ]]; then
mv dist/hpc/mix/properties/* dist/hpc/mix/
mv dist/hpc/mix/xmonad-*/xmonad-*/* dist/hpc/mix/xmonad-*/
fi
hpc markup --destdir=dist/hpc $hpcFlags > /dev/null
echo "see dist/hpc/hpc_index.html
"
hpc report $hpcFlags

170
xmonad.cabal
View File

@@ -1,76 +1,126 @@
name: xmonad
version: 0.6
homepage: http://xmonad.org
version: 0.14.1
synopsis: A tiling window manager
description:
xmonad is a tiling window manager for X. Windows are arranged
automatically to tile the screen without gaps or overlap, maximising
screen use. All features of the window manager are accessible from
the keyboard: a mouse is strictly optional. xmonad is written and
extensible in Haskell. Custom layout algorithms, and other
extensions, may be written by the user in config files. Layouts are
applied dynamically, and different layouts may be used on each
workspace. Xinerama is fully supported, allowing windows to be tiled
on several screens.
category: System
description: xmonad is a tiling window manager for X. Windows are arranged
automatically to tile the screen without gaps or overlap, maximising
screen use. All features of the window manager are accessible from the
keyboard: a mouse is strictly optional. xmonad is written and
extensible in Haskell. Custom layout algorithms, and other extensions,
may be written by the user in config files. Layouts are applied
dynamically, and different layouts may be used on each workspace.
Xinerama is fully supported, allowing windows to be tiled on several
screens.
license: BSD3
license-file: LICENSE
author: Spencer Janssen
author: Spencer Janssen, Don Stewart, Adam Vogt, David Roundy, Jason Creighton
, Brent Yorgey, Peter Jones, Peter Simons, Andrea Rossato, Devin Mullins
, Lukas Mai, Alec Berryman, Stefan O'Rear, Daniel Wagner, Peter J. Jones
, Daniel Schoepe, Karsten Schoelzel, Neil Mitchell, Joachim Breitner
, Peter De Wachter, Eric Mertens, Geoff Reedy, Michiel Derhaeg
, Philipp Balzarek, Valery V. Vorotyntsev, Alex Tarkovsky, Fabian Beuke
, Felix Hirn, Michael Sloan, Tomas Janousek, Vanessa McHale, Nicolas Pouillard
, Aaron Denney, Austin Seipp, Benno Fünfstück, Brandon S Allbery, Chris Mears
, Christian Thiemann, Clint Adams, Daniel Neri, David Lazar, Ferenc Wagner
, Francesco Ariis, Gábor Lipták, Ivan N. Veselov, Ivan Tarasov, Javran Cheng
, Jens Petersen, Joey Hess, Jonne Ransijn, Josh Holland, Khudyakov Alexey
, Klaus Weidner, Michael G. Sloan, Mikkel Christiansen, Nicolas Dudebout
, Ondřej Súkup, Paul Hebble, Shachaf Ben-Kiki, Siim Põder, Tim McIver
, Trevor Elliott, Wouter Swierstra, Conrad Irwin, Tim Thelion
maintainer: xmonad@haskell.org
extra-source-files: README TODO CONFIG STYLE tests/loc.hs tests/Properties.hs
man/xmonad.1.in man/xmonad.1 man/xmonad.html man/xmonad.hs
tested-with: GHC == 8.0.2, GHC == 8.2.2, GHC == 8.4.3, GHC == 8.6.1
category: System
homepage: http://xmonad.org
bug-reports: https://github.com/xmonad/xmonad/issues
build-type: Simple
extra-source-files: README.md
CHANGES.md
CONFIG
STYLE
tests/*.hs
tests/Properties/*.hs
tests/Properties/Layout/*.hs
man/xmonad.1.markdown
man/xmonad.1
man/xmonad.1.html
util/GenerateManpage.hs
cabal-version: >= 1.2
util/hpcReport.sh
cabal-version: >= 1.8
flag small_base
description: Choose the new smaller, split-up base package.
source-repository head
type: git
location: https://github.com/xmonad/xmonad
flag testing
description: Testing mode, only build minimal components
default: False
default: False
manual: True
description: Testing mode, only build minimal components
flag generatemanpage
default: False
manual: True
description: Build the tool for generating the man page
library
exposed-modules: XMonad
XMonad.Main
XMonad.Core
XMonad.Config
XMonad.Layout
XMonad.ManageHook
XMonad.Operations
XMonad.StackSet
exposed-modules: XMonad
XMonad.Config
XMonad.Core
XMonad.Layout
XMonad.Main
XMonad.ManageHook
XMonad.Operations
XMonad.StackSet
other-modules: Paths_xmonad
hs-source-dirs: src
build-depends: base >= 4.9 && < 5
, X11 >= 1.8 && < 1.10
, containers
, data-default
, directory
, extensible-exceptions
, filepath
, mtl
, process
, setlocale
, unix
, utf8-string >= 0.3 && < 1.1
ghc-options: -funbox-strict-fields -Wall -fno-warn-unused-do-bind
if flag(small_base)
build-depends: base >= 3, containers, directory, process
else
build-depends: base < 3
build-depends: X11>=1.4.1, mtl, unix
ghc-options: -funbox-strict-fields -Wall -optl-Wl,-s
ghc-prof-options: -prof -auto-all
extensions: CPP
if flag(testing)
buildable: False
if flag(testing)
buildable: False
executable xmonad
main-is: Main.hs
other-modules: XMonad
XMonad.Main
XMonad.Core
XMonad.Config
XMonad.Layout
XMonad.ManageHook
XMonad.Operations
XMonad.StackSet
main-is: Main.hs
build-depends: base, X11, mtl, unix, xmonad
ghc-options: -Wall -fno-warn-unused-do-bind
ghc-options: -funbox-strict-fields -Wall -optl-Wl,-s
ghc-prof-options: -prof -auto-all
extensions: CPP
executable generatemanpage
main-is: GenerateManpage.hs
hs-source-dirs: util
if flag(testing)
cpp-options: -DTESTING
hs-source-dirs: . tests/
build-depends: QuickCheck < 2
ghc-options: -Werror
if flag(testing) && flag(small_base)
build-depends: random
if flag(generatemanpage)
build-depends: base, pandoc >= 2, regex-posix, text
else
buildable: False
test-suite properties
type: exitcode-stdio-1.0
main-is: Properties.hs
other-modules: Instances
Properties.Delete
Properties.Failure
Properties.Floating
Properties.Focus
Properties.GreedyView
Properties.Insert
Properties.Layout.Full
Properties.Layout.Tall
Properties.Screen
Properties.Shift
Properties.Stack
Properties.StackSet
Properties.Swap
Properties.View
Properties.Workspace
Utils
hs-source-dirs: tests
build-depends: base, QuickCheck >= 2, X11, containers, extensible-exceptions, xmonad