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kmk_firmware/kmk/keys.py
Josh Klar d34e8ce9d2 Re-add LED support 
This reverts commit 5b069a0104.
2019-07-17 16:05:40 -07:00

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import kmk.handlers.layers as layers
import kmk.handlers.modtap as modtap
import kmk.handlers.stock as handlers
from kmk.consts import UnicodeMode
from kmk.key_validators import (key_seq_sleep_validator, layer_key_validator,
mod_tap_validator, tap_dance_key_validator,
unicode_mode_key_validator)
from kmk.types import AttrDict, UnicodeModeKeyMeta
FIRST_KMK_INTERNAL_KEY = 1000
NEXT_AVAILABLE_KEY = 1000
KEY_SIMPLE = 0
KEY_MODIFIER = 1
KEY_CONSUMER = 2
# Global state, will be filled in througout this file, and
# anywhere the user creates custom keys
KC = AttrDict()
class Key:
def __init__(
self,
code,
has_modifiers=None,
no_press=False,
no_release=False,
on_press=handlers.default_pressed,
on_release=handlers.default_released,
meta=object(),
):
self.code = code
self.has_modifiers = has_modifiers
# cast to bool() in case we get a None value
self.no_press = bool(no_press)
self.no_release = bool(no_press)
self._pre_press_handlers = []
self._post_press_handlers = []
self._pre_release_handlers = []
self._post_release_handlers = []
self._handle_press = on_press
self._handle_release = on_release
self.meta = meta
def __call__(self, no_press=None, no_release=None):
if no_press is None and no_release is None:
return self
return Key(
code=self.code,
has_modifiers=self.has_modifiers,
no_press=no_press,
no_release=no_release,
)
def __repr__(self):
return 'Key(code={}, has_modifiers={})'.format(self.code, self.has_modifiers)
def _on_press(self, state, coord_int, coord_raw):
for fn in self._pre_press_handlers:
if not fn(self, state, KC, coord_int, coord_raw):
return None
ret = self._handle_press(self, state, KC, coord_int, coord_raw)
for fn in self._post_press_handlers:
fn(self, state, KC, coord_int, coord_raw)
return ret
def _on_release(self, state, coord_int, coord_raw):
for fn in self._pre_release_handlers:
if not fn(self, state, KC, coord_int, coord_raw):
return None
ret = self._handle_release(self, state, KC, coord_int, coord_raw)
for fn in self._post_release_handlers:
fn(self, state, KC, coord_int, coord_raw)
return ret
def clone(self):
'''
Return a shallow clone of the current key without any pre/post press/release
handlers attached. Almost exclusively useful for creating non-colliding keys
to use such handlers.
'''
return type(self)(
code=self.code,
has_modifiers=self.has_modifiers,
no_press=self.no_press,
no_release=self.no_release,
on_press=self._handle_press,
on_release=self._handle_release,
meta=self.meta,
)
def before_press_handler(self, fn):
'''
Attach a callback to be run prior to the on_press handler for this key.
Receives the following:
- self (this Key instance)
- state (the current InternalState)
- KC (the global KC lookup table, for convenience)
- coord_int (an internal integer representation of the matrix coordinate
for the pressed key - this is likely not useful to end users, but is
provided for consistency with the internal handlers)
- coord_raw (an X,Y tuple of the matrix coordinate - also likely not useful)
If return value of the provided callback is evaluated to False, press
processing is cancelled. Exceptions are _not_ caught, and will likely
crash KMK if not handled within your function.
These handlers are run in attachment order: handlers provided by earlier
calls of this method will be executed before those provided by later calls.
'''
self._pre_press_handlers.append(fn)
return self
def after_press_handler(self, fn):
'''
Attach a callback to be run after the on_release handler for this key.
Receives the following:
- self (this Key instance)
- state (the current InternalState)
- KC (the global KC lookup table, for convenience)
- coord_int (an internal integer representation of the matrix coordinate
for the pressed key - this is likely not useful to end users, but is
provided for consistency with the internal handlers)
- coord_raw (an X,Y tuple of the matrix coordinate - also likely not useful)
The return value of the provided callback is discarded. Exceptions are _not_
caught, and will likely crash KMK if not handled within your function.
These handlers are run in attachment order: handlers provided by earlier
calls of this method will be executed before those provided by later calls.
'''
self._post_press_handlers.append(fn)
return self
def before_release_handler(self, fn):
'''
Attach a callback to be run prior to the on_release handler for this
key. Receives the following:
- self (this Key instance)
- state (the current InternalState)
- KC (the global KC lookup table, for convenience)
- coord_int (an internal integer representation of the matrix coordinate
for the pressed key - this is likely not useful to end users, but is
provided for consistency with the internal handlers)
- coord_raw (an X,Y tuple of the matrix coordinate - also likely not useful)
If return value of the provided callback evaluates to False, the release
processing is cancelled. Exceptions are _not_ caught, and will likely crash
KMK if not handled within your function.
These handlers are run in attachment order: handlers provided by earlier
calls of this method will be executed before those provided by later calls.
'''
self._pre_release_handlers.append(fn)
return self
def after_release_handler(self, fn):
'''
Attach a callback to be run after the on_release handler for this key.
Receives the following:
- self (this Key instance)
- state (the current InternalState)
- KC (the global KC lookup table, for convenience)
- coord_int (an internal integer representation of the matrix coordinate
for the pressed key - this is likely not useful to end users, but is
provided for consistency with the internal handlers)
- coord_raw (an X,Y tuple of the matrix coordinate - also likely not useful)
The return value of the provided callback is discarded. Exceptions are _not_
caught, and will likely crash KMK if not handled within your function.
These handlers are run in attachment order: handlers provided by earlier
calls of this method will be executed before those provided by later calls.
'''
self._post_release_handlers.append(fn)
return self
class ModifierKey(Key):
# FIXME this is atrocious to read. Please, please, please, strike down upon
# this with great vengeance and furious anger.
FAKE_CODE = -1
def __call__(self, modified_code=None, no_press=None, no_release=None):
if modified_code is None and no_press is None and no_release is None:
return self
if modified_code is not None:
if isinstance(modified_code, ModifierKey):
new_keycode = ModifierKey(
ModifierKey.FAKE_CODE,
set() if self.has_modifiers is None else self.has_modifiers,
no_press=no_press,
no_release=no_release,
)
if self.code != ModifierKey.FAKE_CODE:
new_keycode.has_modifiers.add(self.code)
if modified_code.code != ModifierKey.FAKE_CODE:
new_keycode.has_modifiers.add(modified_code.code)
else:
new_keycode = Key(
modified_code.code,
{self.code},
no_press=no_press,
no_release=no_release,
)
if modified_code.has_modifiers:
new_keycode.has_modifiers |= modified_code.has_modifiers
else:
new_keycode = Key(
self.code,
no_press=no_press,
no_release=no_release,
)
return new_keycode
def __repr__(self):
return 'ModifierKey(code={}, has_modifiers={})'.format(self.code, self.has_modifiers)
class ConsumerKey(Key):
pass
def register_key_names(key, names=tuple()): # NOQA
'''
Names are globally unique. If a later key is created with
the same name as an existing entry in `KC`, it will overwrite
the existing entry.
If a name entry is only a single letter, its entry in the KC
object will not be case-sensitive (meaning `names=('A',)` is
sufficient to create a key accessible by both `KC.A` and `KC.a`).
'''
for name in names:
KC[name] = key
if len(name) == 1:
KC[name.upper()] = key
KC[name.lower()] = key
return key
def make_key(
code=None,
names=tuple(), # NOQA
type=KEY_SIMPLE,
**kwargs,
):
'''
Create a new key, aliased by `names` in the KC lookup table.
If a code is not specified, the key is assumed to be a custom
internal key to be handled in a state callback rather than
sent directly to the OS. These codes will autoincrement.
See register_key_names() for details on the assignment.
All **kwargs are passed to the Key constructor
'''
global NEXT_AVAILABLE_KEY
if type == KEY_SIMPLE:
constructor = Key
elif type == KEY_MODIFIER:
constructor = ModifierKey
elif type == KEY_CONSUMER:
constructor = ConsumerKey
else:
raise ValueError('Unrecognized key type')
if code is None:
code = NEXT_AVAILABLE_KEY
NEXT_AVAILABLE_KEY += 1
elif code >= FIRST_KMK_INTERNAL_KEY:
# Try to ensure future auto-generated internal keycodes won't
# be overridden by continuing to +1 the sequence from the provided
# code
NEXT_AVAILABLE_KEY = max(NEXT_AVAILABLE_KEY, code + 1)
key = constructor(code=code, **kwargs)
register_key_names(key, names)
return key
def make_mod_key(*args, **kwargs):
return make_key(*args, **kwargs, type=KEY_MODIFIER)
def make_shifted_key(target_name, names=tuple()): # NOQA
key = KC.LSFT(KC[target_name])
register_key_names(key, names)
return key
def make_consumer_key(*args, **kwargs):
return make_key(*args, **kwargs, type=KEY_CONSUMER)
# Argumented keys are implicitly internal, so auto-gen of code
# is almost certainly the best plan here
def make_argumented_key(
validator=lambda *validator_args, **validator_kwargs: object(),
names=tuple(), # NOQA
*constructor_args,
**constructor_kwargs,
):
global NEXT_AVAILABLE_KEY
def _argumented_key(*user_args, **user_kwargs):
global NEXT_AVAILABLE_KEY
meta = validator(*user_args, **user_kwargs)
if meta:
key = Key(
NEXT_AVAILABLE_KEY,
meta=meta,
*constructor_args,
**constructor_kwargs,
)
NEXT_AVAILABLE_KEY += 1
return key
else:
raise ValueError(
'Argumented key validator failed for unknown reasons. '
'This may not be the keymap\'s fault, as a more specific error '
'should have been raised.',
)
for name in names:
KC[name] = _argumented_key
return _argumented_key
# Modifiers
make_mod_key(code=0x01, names=('LEFT_CONTROL', 'LCTRL', 'LCTL'))
make_mod_key(code=0x02, names=('LEFT_SHIFT', 'LSHIFT', 'LSFT'))
make_mod_key(code=0x04, names=('LEFT_ALT', 'LALT'))
make_mod_key(code=0x08, names=('LEFT_SUPER', 'LGUI', 'LCMD', 'LWIN'))
make_mod_key(code=0x10, names=('RIGHT_CONTROL', 'RCTRL', 'RCTL'))
make_mod_key(code=0x20, names=('RIGHT_SHIFT', 'RSHIFT', 'RSFT'))
make_mod_key(code=0x40, names=('RIGHT_ALT', 'RALT'))
make_mod_key(code=0x80, names=('RIGHT_SUPER', 'RGUI', 'RCMD', 'RWIN'))
# MEH = LCTL | LALT | LSFT
make_mod_key(code=0x07, names=('MEH',))
# HYPR = LCTL | LALT | LSFT | LGUI
make_mod_key(code=0x0F, names=('HYPER', 'HYPR'))
# Basic ASCII letters
make_key(code=4, names=('A',))
make_key(code=5, names=('B',))
make_key(code=6, names=('C',))
make_key(code=7, names=('D',))
make_key(code=8, names=('E',))
make_key(code=9, names=('F',))
make_key(code=10, names=('G',))
make_key(code=11, names=('H',))
make_key(code=12, names=('I',))
make_key(code=13, names=('J',))
make_key(code=14, names=('K',))
make_key(code=15, names=('L',))
make_key(code=16, names=('M',))
make_key(code=17, names=('N',))
make_key(code=18, names=('O',))
make_key(code=19, names=('P',))
make_key(code=20, names=('Q',))
make_key(code=21, names=('R',))
make_key(code=22, names=('S',))
make_key(code=23, names=('T',))
make_key(code=24, names=('U',))
make_key(code=25, names=('V',))
make_key(code=26, names=('W',))
make_key(code=27, names=('X',))
make_key(code=28, names=('Y',))
make_key(code=29, names=('Z',))
# Numbers
# Aliases to play nicely with AttrDict, since KC.1 isn't a valid
# attribute key in Python, but KC.N1 is
make_key(code=30, names=('1', 'N1'))
make_key(code=31, names=('2', 'N2'))
make_key(code=32, names=('3', 'N3'))
make_key(code=33, names=('4', 'N4'))
make_key(code=34, names=('5', 'N5'))
make_key(code=35, names=('6', 'N6'))
make_key(code=36, names=('7', 'N7'))
make_key(code=37, names=('8', 'N8'))
make_key(code=38, names=('9', 'N9'))
make_key(code=39, names=('0', 'N0'))
# More ASCII standard keys
make_key(code=40, names=('ENTER', 'ENT', '\n'))
make_key(code=41, names=('ESCAPE', 'ESC'))
make_key(code=42, names=('BACKSPACE', 'BSPC', 'BKSP'))
make_key(code=43, names=('TAB', '\t'))
make_key(code=44, names=('SPACE', 'SPC', ' '))
make_key(code=45, names=('MINUS', 'MINS', '-'))
make_key(code=46, names=('EQUAL', 'EQL', '='))
make_key(code=47, names=('LBRACKET', 'LBRC', '['))
make_key(code=48, names=('RBRACKET', 'RBRC', ']'))
make_key(code=49, names=('BACKSLASH', 'BSLASH', 'BSLS', '\\'))
make_key(code=51, names=('SEMICOLON', 'SCOLON', 'SCLN', ';'))
make_key(code=52, names=('QUOTE', 'QUOT', '\''))
make_key(code=53, names=('GRAVE', 'GRV', 'ZKHK', '`'))
make_key(code=54, names=('COMMA', 'COMM', ','))
make_key(code=55, names=('DOT', '.'))
make_key(code=56, names=('SLASH', 'SLSH'))
# Function Keys
make_key(code=58, names=('F1',))
make_key(code=59, names=('F2',))
make_key(code=60, names=('F3',))
make_key(code=61, names=('F4',))
make_key(code=62, names=('F5',))
make_key(code=63, names=('F6',))
make_key(code=64, names=('F7',))
make_key(code=65, names=('F8',))
make_key(code=66, names=('F9',))
make_key(code=67, names=('F10',))
make_key(code=68, names=('F11',))
make_key(code=69, names=('F12',))
make_key(code=104, names=('F13',))
make_key(code=105, names=('F14',))
make_key(code=106, names=('F15',))
make_key(code=107, names=('F16',))
make_key(code=108, names=('F17',))
make_key(code=109, names=('F18',))
make_key(code=110, names=('F19',))
make_key(code=111, names=('F20',))
make_key(code=112, names=('F21',))
make_key(code=113, names=('F22',))
make_key(code=114, names=('F23',))
make_key(code=115, names=('F24',))
# Lock Keys, Navigation, etc.
make_key(code=57, names=('CAPS_LOCK', 'CAPSLOCK', 'CLCK', 'CAPS'))
# FIXME: Investigate whether this key actually works, and
# uncomment when/if it does.
# make_key(code=130, names=('LOCKING_CAPS', 'LCAP'))
make_key(code=70, names=('PRINT_SCREEN', 'PSCREEN', 'PSCR'))
make_key(code=71, names=('SCROLL_LOCK', 'SCROLLLOCK', 'SLCK'))
# FIXME: Investigate whether this key actually works, and
# uncomment when/if it does.
# make_key(code=132, names=('LOCKING_SCROLL', 'LSCRL'))
make_key(code=72, names=('PAUSE', 'PAUS', 'BRK'))
make_key(code=73, names=('INSERT', 'INS'))
make_key(code=74, names=('HOME',))
make_key(code=75, names=('PGUP',))
make_key(code=76, names=('DELETE', 'DEL'))
make_key(code=77, names=('END',))
make_key(code=78, names=('PGDOWN', 'PGDN'))
make_key(code=79, names=('RIGHT', 'RGHT'))
make_key(code=80, names=('LEFT',))
make_key(code=81, names=('DOWN',))
make_key(code=82, names=('UP',))
# Numpad
make_key(code=83, names=('NUM_LOCK', 'NUMLOCK', 'NLCK'))
# FIXME: Investigate whether this key actually works, and
# uncomment when/if it does.
# make_key(code=131, names=('LOCKING_NUM', 'LNUM'))
make_key(code=84, names=('KP_SLASH', 'NUMPAD_SLASH', 'PSLS'))
make_key(code=85, names=('KP_ASTERISK', 'NUMPAD_ASTERISK', 'PAST'))
make_key(code=86, names=('KP_MINUS', 'NUMPAD_MINUS', 'PMNS'))
make_key(code=87, names=('KP_PLUS', 'NUMPAD_PLUS', 'PPLS'))
make_key(code=88, names=('KP_ENTER', 'NUMPAD_ENTER', 'PENT'))
make_key(code=89, names=('KP_1', 'P1', 'NUMPAD_1'))
make_key(code=90, names=('KP_2', 'P2', 'NUMPAD_2'))
make_key(code=91, names=('KP_3', 'P3', 'NUMPAD_3'))
make_key(code=92, names=('KP_4', 'P4', 'NUMPAD_4'))
make_key(code=93, names=('KP_5', 'P5', 'NUMPAD_5'))
make_key(code=94, names=('KP_6', 'P6', 'NUMPAD_6'))
make_key(code=95, names=('KP_7', 'P7', 'NUMPAD_7'))
make_key(code=96, names=('KP_8', 'P8', 'NUMPAD_8'))
make_key(code=97, names=('KP_9', 'P9', 'NUMPAD_9'))
make_key(code=98, names=('KP_0', 'P0', 'NUMPAD_0'))
make_key(code=99, names=('KP_DOT', 'PDOT', 'NUMPAD_DOT'))
make_key(code=103, names=('KP_EQUAL', 'PEQL', 'NUMPAD_EQUAL'))
make_key(code=133, names=('KP_COMMA', 'PCMM', 'NUMPAD_COMMA'))
make_key(code=134, names=('KP_EQUAL_AS400', 'NUMPAD_EQUAL_AS400'))
# Making life better for folks on tiny keyboards especially: exposes
# the 'shifted' keys as raw keys. Under the hood we're still
# sending Shift+(whatever key is normally pressed) to get these, so
# for example `KC_AT` will hold shift and press 2.
make_shifted_key('GRAVE', names=('TILDE', 'TILD', '~'))
make_shifted_key('1', names=('EXCLAIM', 'EXLM', '!'))
make_shifted_key('2', names=('AT', '@'))
make_shifted_key('3', names=('HASH', 'POUND', '#'))
make_shifted_key('4', names=('DOLLAR', 'DLR', '$'))
make_shifted_key('5', names=('PERCENT', 'PERC', '%'))
make_shifted_key('6', names=('CIRCUMFLEX', 'CIRC', '^'))
make_shifted_key('7', names=('AMPERSAND', 'AMPR', '&'))
make_shifted_key('8', names=('ASTERISK', 'ASTR', '*'))
make_shifted_key('9', names=('LEFT_PAREN', 'LPRN', '('))
make_shifted_key('0', names=('RIGHT_PAREN', 'RPRN', ')'))
make_shifted_key('MINUS', names=('UNDERSCORE', 'UNDS', '_'))
make_shifted_key('EQUAL', names=('PLUS', '+'))
make_shifted_key('LBRACKET', names=('LEFT_CURLY_BRACE', 'LCBR', '{'))
make_shifted_key('RBRACKET', names=('RIGHT_CURLY_BRACE', 'RCBR', '}'))
make_shifted_key('BACKSLASH', names=('PIPE', '|'))
make_shifted_key('SEMICOLON', names=('COLON', 'COLN', ':'))
make_shifted_key('QUOTE', names=('DOUBLE_QUOTE', 'DQUO', 'DQT', '\''))
make_shifted_key('COMMA', names=('LEFT_ANGLE_BRACKET', 'LABK', '<'))
make_shifted_key('DOT', names=('RIGHT_ANGLE_BRACKET', 'RABK', '>'))
make_shifted_key('SLSH', names=('QUESTION', 'QUES', '?'))
# International
make_key(code=50, names=('NONUS_HASH', 'NUHS'))
make_key(code=100, names=('NONUS_BSLASH', 'NUBS'))
make_key(code=101, names=('APP', 'APPLICATION', 'SEL', 'WINMENU'))
make_key(code=135, names=('INT1', 'RO'))
make_key(code=136, names=('INT2', 'KANA'))
make_key(code=137, names=('INT3', 'JYEN'))
make_key(code=138, names=('INT4', 'HENK'))
make_key(code=139, names=('INT5', 'MHEN'))
make_key(code=140, names=('INT6',))
make_key(code=141, names=('INT7',))
make_key(code=142, names=('INT8',))
make_key(code=143, names=('INT9',))
make_key(code=144, names=('LANG1', 'HAEN'))
make_key(code=145, names=('LANG2', 'HAEJ'))
make_key(code=146, names=('LANG3',))
make_key(code=147, names=('LANG4',))
make_key(code=148, names=('LANG5',))
make_key(code=149, names=('LANG6',))
make_key(code=150, names=('LANG7',))
make_key(code=151, names=('LANG8',))
make_key(code=152, names=('LANG9',))
# Consumer ("media") keys. Most known keys aren't supported here. A much
# longer list used to exist in this file, but the codes were almost certainly
# incorrect, conflicting with each other, or otherwise 'weird'. We'll add them
# back in piecemeal as needed. PRs welcome.
#
# A super useful reference for these is http://www.freebsddiary.org/APC/usb_hid_usages.php
# Note that currently we only have the PC codes. Recent MacOS versions seem to
# support PC media keys, so I don't know how much value we would get out of
# adding the old Apple-specific consumer codes, but again, PRs welcome if the
# lack of them impacts you.
make_consumer_key(code=226, names=('AUDIO_MUTE', 'MUTE')) # 0xE2
make_consumer_key(code=233, names=('AUDIO_VOL_UP', 'VOLU')) # 0xE9
make_consumer_key(code=234, names=('AUDIO_VOL_DOWN', 'VOLD')) # 0xEA
make_consumer_key(code=181, names=('MEDIA_NEXT_TRACK', 'MNXT')) # 0xB5
make_consumer_key(code=182, names=('MEDIA_PREV_TRACK', 'MPRV')) # 0xB6
make_consumer_key(code=183, names=('MEDIA_STOP', 'MSTP')) # 0xB7
make_consumer_key(code=205, names=('MEDIA_PLAY_PAUSE', 'MPLY')) # 0xCD (this may not be right)
make_consumer_key(code=184, names=('MEDIA_EJECT', 'EJCT')) # 0xB8
make_consumer_key(code=179, names=('MEDIA_FAST_FORWARD', 'MFFD')) # 0xB3
make_consumer_key(code=180, names=('MEDIA_REWIND', 'MRWD')) # 0xB4
# Internal, diagnostic, or auxiliary/enhanced keys
# NO and TRNS are functionally identical in how they (don't) mutate
# the state, but are tracked semantically separately, so create
# two keys with the exact same functionality
for names in (('NO',), ('TRANSPARENT', 'TRNS')):
make_key(
names=names,
on_press=handlers.passthrough,
on_release=handlers.passthrough,
)
make_key(names=('RESET',), on_press=handlers.reset)
make_key(names=('BOOTLOADER',), on_press=handlers.bootloader)
make_key(names=('DEBUG', 'DBG'), on_press=handlers.debug_pressed, on_release=handlers.passthrough)
make_key(names=('GESC',), on_press=handlers.gesc_pressed, on_release=handlers.gesc_released)
make_key(names=('BKDL',), on_press=handlers.bkdl_pressed, on_release=handlers.bkdl_released)
make_key(names=('GESC', 'GRAVE_ESC'), on_press=handlers.gesc_pressed,
on_release=handlers.gesc_released)
make_key(names=('RGB_TOG',), on_press=handlers.rgb_tog)
make_key(names=('RGB_HUI',), on_press=handlers.rgb_hui)
make_key(names=('RGB_HUD',), on_press=handlers.rgb_hud)
make_key(names=('RGB_SAI',), on_press=handlers.rgb_sai)
make_key(names=('RGB_SAD',), on_press=handlers.rgb_sad)
make_key(names=('RGB_VAI',), on_press=handlers.rgb_vai)
make_key(names=('RGB_VAD',), on_press=handlers.rgb_vad)
make_key(names=('RGB_ANI',), on_press=handlers.rgb_ani)
make_key(names=('RGB_AND',), on_press=handlers.rgb_and)
make_key(names=('RGB_MODE_PLAIN', 'RGB_M_P'), on_press=handlers.rgb_mode_static)
make_key(names=('RGB_MODE_BREATHE', 'RGB_M_B'), on_press=handlers.rgb_mode_breathe)
make_key(names=('RGB_MODE_RAINBOW', 'RGB_M_R'), on_press=handlers.rgb_mode_rainbow)
make_key(names=('RGB_MODE_BREATHE_RAINBOW', 'RGB_M_BR'),
on_press=handlers.rgb_mode_breathe_rainbow)
make_key(names=('RGB_MODE_SWIRL', 'RGB_M_S'), on_press=handlers.rgb_mode_swirl)
make_key(names=('RGB_MODE_KNIGHT', 'RGB_M_K'), on_press=handlers.rgb_mode_knight)
make_key(names=('LED_TOG',), on_press=handlers.led_tog)
make_key(names=('LED_INC',), on_press=handlers.led_inc)
make_key(names=('LED_DEC',), on_press=handlers.led_dec)
make_key(names=('LED_ANI',), on_press=handlers.led_ani)
make_key(names=('LED_AND',), on_press=handlers.led_and)
make_key(names=('LED_MODE_PLAIN', 'LED_M_P'), on_press=handlers.led_mode_static)
make_key(names=('LED_MODE_BREATHE', 'LED_M_B'), on_press=handlers.led_mode_breathe)
make_key(
names=('LEADER', 'LEAD'),
on_press=handlers.leader_pressed,
on_release=handlers.passthrough,
)
# Layers
make_argumented_key(
validator=layer_key_validator,
names=('MO',),
on_press=layers.mo_pressed,
on_release=layers.mo_released,
)
make_argumented_key(
validator=layer_key_validator,
names=('DF',),
on_press=layers.df_pressed,
)
make_argumented_key(
validator=layer_key_validator,
names=('LM',),
on_press=layers.lm_pressed,
on_release=layers.lm_released,
)
make_argumented_key(
validator=layer_key_validator,
names=('LT',),
on_press=layers.lt_pressed,
on_release=layers.lt_released,
)
make_argumented_key(
validator=layer_key_validator,
names=('TG',),
on_press=layers.tg_pressed,
)
make_argumented_key(
validator=layer_key_validator,
names=('TO',),
on_press=layers.to_pressed,
)
make_argumented_key(
validator=layer_key_validator,
names=('TT',),
on_press=layers.tt_pressed,
on_release=layers.tt_released,
)
make_argumented_key(
validator=mod_tap_validator,
names=('MT',),
on_press=modtap.mt_pressed,
on_release=modtap.mt_released,
)
# A dummy key to trigger a sleep_ms call in a sequence of other keys in a
# simple sequence macro.
make_argumented_key(
validator=key_seq_sleep_validator,
names=('MACRO_SLEEP_MS', 'SLEEP_IN_SEQ'),
on_press=handlers.sleep_pressed,
)
make_key(
names=('UC_MODE_NOOP', 'UC_DISABLE'),
meta=UnicodeModeKeyMeta(UnicodeMode.NOOP),
on_press=handlers.uc_mode_pressed,
)
make_key(
names=('UC_MODE_LINUX', 'UC_MODE_IBUS'),
meta=UnicodeModeKeyMeta(UnicodeMode.IBUS),
on_press=handlers.uc_mode_pressed,
)
make_key(
names=('UC_MODE_MACOS', 'UC_MODE_OSX', 'US_MODE_RALT'),
meta=UnicodeModeKeyMeta(UnicodeMode.RALT),
on_press=handlers.uc_mode_pressed,
)
make_key(
names=('UC_MODE_WINC',),
meta=UnicodeModeKeyMeta(UnicodeMode.WINC),
on_press=handlers.uc_mode_pressed,
)
make_argumented_key(
validator=unicode_mode_key_validator,
names=('UC_MODE',),
on_press=handlers.uc_mode_pressed,
)
make_argumented_key(
validator=tap_dance_key_validator,
names=('TAP_DANCE', 'TD'),
on_press=handlers.td_pressed,
on_release=handlers.td_released,
)
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