# Copyright (c) 2012-2015 Tycho Andersen
# Copyright (c) 2013 xarvh
# Copyright (c) 2013 horsik
# Copyright (c) 2013-2014 roger
# Copyright (c) 2013 Tao Sauvage
# Copyright (c) 2014 ramnes
# Copyright (c) 2014 Sean Vig
# Copyright (c) 2014 Adi Sieker
#
# Permission is hereby granted, free of charge, to any person obtaining a copy
# of this software and associated documentation files (the "Software"), to deal
# in the Software without restriction, including without limitation the rights
# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
# copies of the Software, and to permit persons to whom the Software is
# furnished to do so, subject to the following conditions:
#
# The above copyright notice and this permission notice shall be included in
# all copies or substantial portions of the Software.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
# SOFTWARE.
#
#
# required for lazy type annotations
# can be removed when python 3.7...3.9 support is dropped (see PEP 563)
from __future__ import annotations
import contextlib
import os.path
import sys
from typing import TYPE_CHECKING, Callable, List, Optional, Union
from libqtile import configurable, hook, utils
from libqtile.backend import base
from libqtile.bar import Bar, BarType
from libqtile.command.base import CommandObject, ItemT
if TYPE_CHECKING:
from libqtile.group import _Group
[docs]class Key:
"""Defines a keybinding.
Parameters
==========
modifiers:
A list of modifier specifications. Modifier specifications are one of:
"shift", "lock", "control", "mod1", "mod2", "mod3", "mod4", "mod5".
key:
A key specification, e.g. "a", "Tab", "Return", "space".
commands:
A list of lazy command objects generated with the lazy.lazy helper.
If multiple Call objects are specified, they are run in sequence.
desc:
description to be added to the key binding
"""
def __init__(self, modifiers: List[str], key: str, *commands, desc: str = ""):
self.modifiers = modifiers
self.key = key
self.commands = commands
self.desc = desc
def __repr__(self):
return "<Key (%s, %s)>" % (self.modifiers, self.key)
[docs]class KeyChord:
"""Define a key chord aka vim like mode
Parameters
==========
modifiers:
A list of modifier specifications. Modifier specifications are one of:
"shift", "lock", "control", "mod1", "mod2", "mod3", "mod4", "mod5".
key:
A key specification, e.g. "a", "Tab", "Return", "space".
submappings:
A list of Key or KeyChord declarations to bind in this chord.
mode:
A string with vim like mode name. If it's set, the chord mode will
not be left after a keystroke (except for Esc which always leaves the
current chord/mode).
"""
def __init__(self, modifiers: List[str], key: str,
submappings: List[Union[Key, KeyChord]], mode: str = ""):
self.modifiers = modifiers
self.key = key
submappings.append(Key([], "Escape"))
self.submappings = submappings
self.mode = mode
def __repr__(self):
return "<KeyChord (%s, %s)>" % (self.modifiers, self.key)
class Mouse:
def __init__(self, modifiers: List[str], button: str, *commands, **kwargs):
self.modifiers = modifiers
self.button = button
self.commands = commands
self.button_code = int(self.button.replace('Button', ''))
for k, v in kwargs.items():
setattr(self, k, v)
self.modmask: int = 0
[docs]class Drag(Mouse):
"""Defines binding of a mouse to some dragging action
On each motion event command is executed with two extra parameters added x
and y offset from previous move.
"""
def __init__(self, *args, start=False, **kwargs):
super().__init__(*args, **kwargs)
self.start = start
def __repr__(self):
return "<Drag (%s, %s)>" % (self.modifiers, self.button)
[docs]class Click(Mouse):
"""Defines binding of a mouse click"""
def __repr__(self):
return "<Click (%s, %s)>" % (self.modifiers, self.button)
[docs]class EzConfig:
"""
Helper class for defining key and button bindings in an emacs-like format.
Inspired by Xmonad's XMonad.Util.EZConfig.
"""
modifier_keys = {
'M': 'mod4',
'A': 'mod1',
'S': 'shift',
'C': 'control',
}
def parse(self, spec):
"""
Splits an emacs keydef into modifiers and keys. For example:
"M-S-a" -> ['mod4', 'shift'], 'a'
"A-<minus>" -> ['mod1'], 'minus'
"C-<Tab>" -> ['control'], 'Tab'
"""
mods = []
keys = []
for key in spec.split('-'):
if not key:
break
if key in self.modifier_keys:
if keys:
msg = 'Modifiers must always come before key/btn: %s'
raise utils.QtileError(msg % spec)
mods.append(self.modifier_keys[key])
continue
if len(key) == 1:
keys.append(key)
continue
if len(key) > 3 and key[0] == '<' and key[-1] == '>':
keys.append(key[1:-1])
continue
if not keys:
msg = 'Invalid key/btn specifier: %s'
raise utils.QtileError(msg % spec)
if len(keys) > 1:
msg = 'Key chains are not supported: %s' % spec
raise utils.QtileError(msg)
return mods, keys[0]
class EzKey(EzConfig, Key):
def __init__(self, keydef, *commands, **kwargs):
modkeys, key = self.parse(keydef)
super().__init__(modkeys, key, *commands, **kwargs)
class EzClick(EzConfig, Click):
def __init__(self, btndef, *commands, **kwargs):
modkeys, button = self.parse(btndef)
button = 'Button%s' % button
super().__init__(modkeys, button, *commands, **kwargs)
class EzDrag(EzConfig, Drag):
def __init__(self, btndef, *commands, **kwargs):
modkeys, button = self.parse(btndef)
button = 'Button%s' % button
super().__init__(modkeys, button, *commands, **kwargs)
class ScreenRect:
def __init__(self, x, y, width, height):
self.x = x
self.y = y
self.width = width
self.height = height
def __repr__(self):
return '<%s %d,%d %d,%d>' % (
self.__class__.__name__,
self.x, self.y,
self.width, self.height
)
def hsplit(self, columnwidth):
assert columnwidth > 0
assert columnwidth < self.width
return (
self.__class__(self.x, self.y, columnwidth, self.height),
self.__class__(
self.x + columnwidth, self.y,
self.width - columnwidth, self.height
)
)
def vsplit(self, rowheight):
assert rowheight > 0
assert rowheight < self.height
return (
self.__class__(self.x, self.y, self.width, rowheight),
self.__class__(
self.x, self.y + rowheight,
self.width, self.height - rowheight
)
)
[docs]class Screen(CommandObject):
"""A physical screen, and its associated paraphernalia.
Define a screen with a given set of Bars of a specific geometry. Note that
bar.Bar objects can only be placed at the top or the bottom of the screen
(bar.Gap objects can be placed anywhere). Also, ``x``, ``y``, ``width``,
and ``height`` aren't specified usually unless you are using 'fake
screens'.
The ``wallpaper`` parameter, if given, should be a path to an image file. How this
image is painted to the screen is specified by the ``wallpaper_mode`` parameter. By
default, the image will be placed at the screens origin and retain its own
dimensions. If the mode is 'fill', the image will be centred on the screen and
resized to fill it. If the mode is 'stretch', the image is stretched to fit all of
it into the screen.
"""
group: _Group
previous_group: _Group
index: int
def __init__(self, top: Optional[BarType] = None, bottom: Optional[BarType] = None,
left: Optional[BarType] = None, right: Optional[BarType] = None,
wallpaper: Optional[str] = None, wallpaper_mode: Optional[str] = None,
x: Optional[int] = None, y: Optional[int] = None, width: Optional[int] = None,
height: Optional[int] = None):
self.top = top
self.bottom = bottom
self.left = left
self.right = right
self.wallpaper = wallpaper
self.wallpaper_mode = wallpaper_mode
self.qtile = None
# x position of upper left corner can be > 0
# if one screen is "right" of the other
self.x = x if x is not None else 0
self.y = y if y is not None else 0
self.width = width if width is not None else 0
self.height = height if height is not None else 0
def _configure(self, qtile, index, x, y, width, height, group):
self.qtile = qtile
self.index = index
self.x = x
self.y = y
self.width = width
self.height = height
self.set_group(group)
for i in self.gaps:
i._configure(qtile, self)
if self.wallpaper:
self.wallpaper = os.path.expanduser(self.wallpaper)
self.paint(self.wallpaper, self.wallpaper_mode)
def paint(self, path, mode=None):
self.qtile.paint_screen(self, path, mode)
@property
def gaps(self):
return (i for i in [self.top, self.bottom, self.left, self.right] if i)
@property
def dx(self):
return self.x + self.left.size if self.left else self.x
@property
def dy(self):
return self.y + self.top.size if self.top else self.y
@property
def dwidth(self):
val = self.width
if self.left:
val -= self.left.size
if self.right:
val -= self.right.size
return val
@property
def dheight(self):
val = self.height
if self.top:
val -= self.top.size
if self.bottom:
val -= self.bottom.size
return val
def get_rect(self):
return ScreenRect(self.dx, self.dy, self.dwidth, self.dheight)
def set_group(self, new_group, save_prev=True, warp=True):
"""Put group on this screen"""
if new_group is None:
return
if new_group.screen == self:
return
if save_prev and hasattr(self, "group"):
self.previous_group = self.group
if new_group.screen:
# g1 <-> s1 (self)
# g2 (new_group) <-> s2 to
# g1 <-> s2
# g2 <-> s1
g1 = self.group
s1 = self
g2 = new_group
s2 = new_group.screen
s2.group = g1
g1.set_screen(s2, warp)
s1.group = g2
g2.set_screen(s1, warp)
else:
if hasattr(self, "group"):
old_group = self.group
ctx = self.qtile.core.masked()
else:
old_group = None
ctx = contextlib.nullcontext()
self.group = new_group
with ctx:
# display clients of the new group and then hide from old group
# to remove the screen flickering
new_group.set_screen(self, warp)
if old_group is not None:
old_group.set_screen(None, warp)
hook.fire("setgroup")
hook.fire("focus_change")
hook.fire("layout_change",
self.group.layouts[self.group.current_layout],
self.group)
def toggle_group(self, group=None, warp=True):
"""Switch to the selected group or to the previously active one"""
if group in (self.group, None) and hasattr(self, "previous_group"):
group = self.previous_group
self.set_group(group, warp=warp)
def _items(self, name: str) -> ItemT:
if name == "layout" and self.group is not None:
return True, list(range(len(self.group.layouts)))
elif name == "window" and self.group is not None:
return True, [i.wid for i in self.group.windows]
elif name == "bar":
return False, [x.position for x in self.gaps]
elif name == "widget":
return False, [w.name for g in self.gaps for w in g.widgets if isinstance(g, Bar)]
elif name == "group":
return True, [self.group.name]
return None
def _select(self, name, sel):
if name == "layout":
if sel is None:
return self.group.layout
else:
return utils.lget(self.group.layouts, sel)
elif name == "window":
if sel is None:
return self.group.current_window
else:
for i in self.group.windows:
if i.wid == sel:
return i
elif name == "bar":
return getattr(self, sel)
elif name == "widget":
for gap in self.gaps:
if not isinstance(gap, Bar):
continue
for widget in gap.widgets:
if widget.name == sel:
return widget
elif name == "group":
if sel is None:
return self.group
else:
return self.group if sel == self.group.name else None
def resize(self, x=None, y=None, w=None, h=None):
if x is None:
x = self.x
if y is None:
y = self.y
if w is None:
w = self.width
if h is None:
h = self.height
self._configure(self.qtile, self.index, x, y, w, h, self.group)
for bar in [self.top, self.bottom, self.left, self.right]:
if bar:
bar.draw()
self.qtile.call_soon(self.group.layout_all)
[docs] def cmd_info(self):
"""Returns a dictionary of info for this screen."""
return dict(
index=self.index,
width=self.width,
height=self.height,
x=self.x,
y=self.y
)
[docs] def cmd_resize(self, x=None, y=None, w=None, h=None):
"""Resize the screen"""
self.resize(x, y, w, h)
[docs] def cmd_next_group(self, skip_empty=False, skip_managed=False):
"""Switch to the next group"""
n = self.group.get_next_group(skip_empty, skip_managed)
self.set_group(n)
return n.name
[docs] def cmd_prev_group(self, skip_empty=False, skip_managed=False, warp=True):
"""Switch to the previous group"""
n = self.group.get_previous_group(skip_empty, skip_managed)
self.set_group(n, warp=warp)
return n.name
[docs] def cmd_toggle_group(self, group_name=None, warp=True):
"""Switch to the selected group or to the previously active one"""
group = self.qtile.groups_map.get(group_name)
self.toggle_group(group, warp=warp)
[docs]class Group:
"""Represents a "dynamic" group
These groups can spawn apps, only allow certain Matched windows to be on
them, hide when they're not in use, etc.
Groups are identified by their name.
Parameters
==========
name: string
the name of this group
matches: default ``None``
list of ``Match`` objects whose windows will be assigned to this group
exclusive: boolean
when other apps are started in this group, should we allow them here or not?
spawn: string or list of strings
this will be ``exec()`` d when the group is created, you can pass
either a program name or a list of programs to ``exec()``
layout: string
the name of default layout for this group (e.g. 'max' or 'stack').
This is the name specified for a particular layout in config.py
or if not defined it defaults in general the class name in all lower case.
layouts: list
the group layouts list overriding global layouts.
Use this to define a separate list of layouts for this particular group.
persist: boolean
should this group stay alive with no member windows?
init: boolean
is this group alive when qtile starts?
position int
group position
label: string
the display name of the group.
Use this to define a display name other than name of the group.
If set to None, the display name is set to the name.
"""
def __init__(self, name: str, matches: List[Match] = None, exclusive=False,
spawn: Union[str, List[str]] = None, layout: str = None,
layouts: List = None, persist=True, init=True,
layout_opts=None, screen_affinity=None, position=sys.maxsize,
label: Optional[str] = None):
self.name = name
self.label = label
self.exclusive = exclusive
self.spawn = spawn
self.layout = layout
self.layouts = layouts or []
self.persist = persist
self.init = init
self.matches = matches or []
self.layout_opts = layout_opts or {}
self.screen_affinity = screen_affinity
self.position = position
def __repr__(self):
attrs = utils.describe_attributes(
self,
['exclusive', 'spawn', 'layout', 'layouts', 'persist', 'init',
'matches', 'layout_opts', 'screen_affinity'])
return '<config.Group %r (%s)>' % (self.name, attrs)
[docs]class ScratchPad(Group):
"""Represents a "ScratchPad" group
ScratchPad adds a (by default) invisible group to qtile.
That group is used as a place for currently not visible windows spawned by a
``DropDown`` configuration.
Parameters
==========
name: string
the name of this group
dropdowns: default ``None``
list of DropDown objects
position: int
group position
label: string
The display name of the ScratchPad group. Defaults to the empty string
such that the group is hidden in ``GroupList`` widget.
single : Boolean
Only one of the window among the specified dropdowns will be
visible at a time.
"""
def __init__(self, name, dropdowns=None, position=sys.maxsize, label='', single=False):
Group.__init__(self, name, layout='floating', layouts=['floating'],
init=False, position=position, label=label)
self.dropdowns = dropdowns if dropdowns is not None else []
self.single = single
def __repr__(self):
return '<config.ScratchPad %r (%s)>' % (
self.name, ', '.join(dd.name for dd in self.dropdowns))
[docs]class Match:
"""Match for dynamic groups or auto-floating windows.
It can match by title, wm_class, role, wm_type, wm_instance_class or
net_wm_pid.
``Match`` supports both regular expression objects (i.e. the result of
``re.compile()``) or strings (match as an "include"-match). If a window
matches all specified values, it is considered a match.
Parameters
==========
title:
matches against the WM_NAME atom (X11) or title (Wayland)
wm_class:
matches against the second string in WM_CLASS atom (X11) or app ID (Wayland)
role:
matches against the WM_ROLE atom (X11 only)
wm_type:
matches against the WM_TYPE atom (X11 only)
wm_instance_class:
matches against the first string in WM_CLASS atom (X11) or app ID (Wayland)
net_wm_pid:
matches against the _NET_WM_PID atom (X11) or PID (Wayland) -
(only int allowed for this rule)
func:
delegate the match to the given function, which receives the tested
client as argument and must return True if it matches, False otherwise
"""
def __init__(self, title=None, wm_class=None, role=None, wm_type=None,
wm_instance_class=None, net_wm_pid=None,
func: Callable[[base.WindowType], bool] = None, wid=None):
self._rules = {}
if title is not None:
self._rules["title"] = title
if wm_class is not None:
self._rules["wm_class"] = wm_class
if wm_instance_class is not None:
self._rules["wm_instance_class"] = wm_instance_class
if wid is not None:
self._rules["wid"] = wid
if net_wm_pid is not None:
try:
self._rules["net_wm_pid"] = int(net_wm_pid)
except ValueError:
error = 'Invalid rule for net_wm_pid: "%s" only int allowed' % \
str(net_wm_pid)
raise utils.QtileError(error)
if func is not None:
self._rules["func"] = func
if role is not None:
self._rules["role"] = role
if wm_type is not None:
self._rules["wm_type"] = wm_type
@staticmethod
def _get_property_predicate(name, value):
if name == 'net_wm_pid' or name == 'wid':
return lambda other: other == value
elif name == 'wm_class':
def predicate(other):
# match as an "include"-match on any of the received classes
match = getattr(other, 'match', lambda v: v in other)
return value and any(match(v) for v in value)
return predicate
else:
def predicate(other):
# match as an "include"-match
match = getattr(other, 'match', lambda v: v in other)
return match(value)
return predicate
def compare(self, client):
for property_name, rule_value in self._rules.items():
if property_name == 'title':
value = client.name
elif "class" in property_name:
wm_class = client.get_wm_class()
if not wm_class:
return False
if property_name == "wm_instance_class":
value = wm_class[0]
else:
value = wm_class
elif property_name == 'role':
value = client.get_wm_role()
elif property_name == 'func':
return rule_value(client)
elif property_name == 'net_wm_pid':
value = client.get_pid()
elif property_name == "wid":
value = client.window.wid
else:
value = client.get_wm_type()
# Some of the window.get_...() functions can return None
if value is None:
return False
match = self._get_property_predicate(property_name, value)
if not match(rule_value):
return False
if not self._rules:
return False
return True
def map(self, callback, clients):
"""Apply callback to each client that matches this Match"""
for c in clients:
if self.compare(c):
callback(c)
def __repr__(self):
return '<Match %s>' % self._rules
[docs]class Rule:
"""How to act on a match
A Rule contains a list of Match objects, and a specification about what to
do when any of them is matched.
Parameters
==========
match :
``Match`` object or a list of such associated with this ``Rule``
float :
auto float this window?
intrusive :
override the group's exclusive setting?
break_on_match :
Should we stop applying rules if this rule is matched?
"""
def __init__(self, match, group=None, float=False, intrusive=False,
break_on_match=True):
if isinstance(match, Match):
self.matchlist = [match]
else:
self.matchlist = match
self.group = group
self.float = float
self.intrusive = intrusive
self.break_on_match = break_on_match
def matches(self, w):
return any(w.match(m) for m in self.matchlist)
def __repr__(self):
actions = utils.describe_attributes(self, ['group', 'float', 'intrusive', 'break_on_match'])
return '<Rule match=%r actions=(%s)>' % (self.matchlist, actions)
[docs]class DropDown(configurable.Configurable):
"""
Configure a specified command and its associated window for the ScratchPad.
That window can be shown and hidden using a configurable keystroke
or any other scripted trigger.
"""
defaults = (
(
'x',
0.1,
'X position of window as fraction of current screen width. '
'0 is the left most position.'
),
(
'y',
0.0,
'Y position of window as fraction of current screen height. '
'0 is the top most position. To show the window at bottom, '
'you have to configure a value < 1 and an appropriate height.'
),
(
'width',
0.8,
'Width of window as fraction of current screen width'
),
(
'height',
0.35,
'Height of window as fraction of current screen.'
),
(
'opacity',
0.9,
'Opacity of window as fraction. Zero is opaque.'
),
(
'on_focus_lost_hide',
True,
'Shall the window be hidden if focus is lost? If so, the DropDown '
'is hidden if window focus or the group is changed.'
),
(
'warp_pointer',
True,
'Shall pointer warp to center of window on activation? '
'This has only effect if any of the on_focus_lost_xxx '
'configurations is True'
),
(
'match',
None,
"Use a ``config.Match`` to identify the spawned window and move it to the "
"scratchpad, instead of relying on the window's PID. This works around "
"some programs that may not be caught by the window's PID if it does "
"not match the PID of the spawned process."
),
)
def __init__(self, name, cmd, **config):
"""
Initialize DropDown window wrapper.
Define a command to spawn a process for the first time the DropDown
is shown.
Parameters
==========
name: string
The name of the DropDown configuration.
cmd: string
Command to spawn a process.
match : Match
A match object to identify the window instead of the pid.
"""
configurable.Configurable.__init__(self, **config)
self.name = name
self.command = cmd
self.add_defaults(self.defaults)
def info(self):
return dict(name=self.name,
command=self.command,
x=self.x,
y=self.y,
width=self.width,
height=self.height,
opacity=self.opacity,
on_focus_lost_hide=self.on_focus_lost_hide,
warp_pointer=self.warp_pointer,)