feat(extensions): most of the extensions implementation, by kdb424

This commit is contained in:
Kyle Brown 2020-10-21 12:19:42 -07:00 committed by Josh Klar
parent 9821f7bcc3
commit e72d2b8c34
No known key found for this signature in database
GPG Key ID: A4A0C7B4E8EEE222
140 changed files with 3860 additions and 2312 deletions

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@ -23,7 +23,7 @@ MPY_TARGET_DIR ?= .compiled
PY_KMK_TREE = $(shell find $(MPY_SOURCES) -name "*.py")
DIST_DESCRIBE = $(shell $(DIST_DESCRIBE_CMD))
all: copy-kmk copy-bootpy copy-keymap
all: copy-kmk copy-bootpy copy-keymap copy-board
compile: $(MPY_TARGET_DIR)/.mpy.compiled
@ -96,7 +96,7 @@ fix-formatting: devdeps
@$(PIPENV) run black .
fix-isort: devdeps
@find kmk/ user_keymaps/ -name "*.py" | xargs $(PIPENV) run isort
@find kmk/ user_keymaps/ boards/ -name "*.py" | xargs $(PIPENV) run isort
clean:
@echo "===> Cleaning build artifacts"
@ -135,6 +135,12 @@ copy-kmk:
echo "**** MOUNTPOINT must be defined (wherever your CIRCUITPY drive is mounted) ****" && exit 1
endif
copy-board: $(MOUNTPOINT)/kb.py
$(MOUNTPOINT)/kb.py: $(BOARD)
@echo "===> Copying your board to kb.py"
@rsync -rh $(BOARD) $@
@sync
ifdef MOUNTPOINT
$(MOUNTPOINT)/kmk/boot.py: boot.py
@echo "===> Copying required boot.py"
@ -162,4 +168,10 @@ copy-keymap: $(MOUNTPOINT)/main.py
else
copy-keymap:
echo "**** MOUNTPOINT must be defined (wherever your CIRCUITPY drive is mounted) ****" && exit 1
ifdef BOARD
copy-board: $(MOUNTPOINT)/kb.py
endif # BOARD
endif # MOUNTPOINT

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@ -34,72 +34,15 @@ file](https://cdn.kmkfw.io/kmk-latest.unoptimized.zip) forms. These follow the
`KC.LWIN(KC.L)` to lock the screen on a Windows PC
- [Built-in unicode macros, including
emojis](https://github.com/KMKfw/kmk_firmware/blob/master/docs/sequences.md)
- [Multiple vim-inspired leader key
modes](https://github.com/KMKfw/kmk_firmware/blob/master/docs/leader.md)
- [RGB underglow](https://github.com/KMKfw/kmk_firmware/blob/master/docs/rgb.md)
and [LED
backlights](https://github.com/KMKfw/kmk_firmware/blob/master/docs/led.md)
- One key can turn into many more based on [how many times you tap
it](https://github.com/KMKfw/kmk_firmware/blob/master/docs/tapdance.md)
Coming (hopefully) soon: Bluetooth support! Stay tuned.
- Bluetooth HID and split keyboards. No more wires.
## Getting Started
- Start by grabbing a supported microcontroller. Broadly speaking, KMK supports
any device CircuitPython does, but KMK requires a decent bit of RAM, and in
general requires a working USB HID stack, which leads us to recommend the
following controllers:
* [Adafruit ItsyBitsy M4 Express](https://www.adafruit.com/product/3800)\*
* [Adafruit Feather M4 Express](https://www.adafruit.com/product/3857)
* [Adafruit Feather nRF52840 Express](https://www.adafruit.com/product/4062)
* [MakerDiary nRF52840 MDK](https://store.makerdiary.com/collections/frontpage/products/nrf52840-mdk-iot-development-kit)
* [SparkFun Pro nRF52840 Mini](https://www.sparkfun.com/products/15025)
> \* The ItsyBitsy M4 Express is the only controller we currently support in
> non-handwired configurations, using our [ItsyBitsy to Pro Micro converter
> PCB](https://github.com/KMKfw/kmk_firmware/tree/master/hardware) designed by
> @siddacious and @kdb424. It is our most-recommended MCU until [the ItsyBitsy is
> updated with an nRF52840
> chip](https://blog.adafruit.com/2019/01/26/comingsoon-itsybitsy-nrf52480-runs-circuitpython-adafruit-circuitpython-adafruit-circuitpython/)
> Some other controllers, such as the [Feather M0 Express](https://www.adafruit.com/product/3403),
> are usable in reduced functionality modes and may require custom hackery.
> For example, @kdb424 uses a ItsyBitsy M0 Express as a barebones matrix scanner
> in a split keyboard configuration
> [here](https://github.com/KMKfw/kmk_firmware/commit/1f84079dc8aadeb9627c4762d9f9fb855292c4a2).
> Use such controllers at your own risk.
- Ensure CircuitPython 4.0.0 or newer is installed on your controller. We
recommend the latest stable version from
[circuitpython.org](https://circuitpython.org/downloads). Flashing
instructions vary by device: all Adafruit boards can be flashed [using their
instructions](https://learn.adafruit.com/welcome-to-circuitpython/installing-circuitpython),
other boards generally have their instructions [in the CircuitPython
repository](https://github.com/adafruit/circuitpython) under the
`ports/atmel-samd/boards/<your board here>` and `ports/nrf/boards/<your board
here>` directories. If all else fails, consult your device's official
documentation.
- [Download the latest KMK release](https://cdn.kmkfw.io/kmk-latest.zip) and
extract the zip to the USB drive exposed by CircuitPython, typically labeled
`CIRCUITPY`. Again, [we'll defer to Adafruit's
documentation](https://learn.adafruit.com/welcome-to-circuitpython/circuitpython-libraries)
on adding libraries to a CircuitPython installation. You should end up with a
folder called `kmk` and a file called `boot.py`, both living at the top of
this USB drive.
- Define your keyboard in a file called `main.py` on this `CIRCUITPY` drive and
get tinkering! Examples of both handwired and ProMicro-\>ItsyBitsy converted
boards exist under the `user_keymaps/` tree, and feel free to submit a pull
request of your own definitions! At this point, you'll want to look through
`docs/` in the source tree to explore the functionality at your disposal.
> Linux, BSD, and MacOS users can also make use of the `Makefile` provided in
> this source tree to flash KMK and a keymap using `rsync`. This is advanced
> functionality outside the scope of this README, but it's documented in the
> `docs/` tree.
Our getting started guide can be found [here](https://github.com/KMKfw/docs/Getting_Started.md)
## The KMK Team

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@ -0,0 +1,13 @@
# Boardsource 3x4
![Boardsource3x4](https://boardsource.imgix.net/30171267-d988-46cc-ba03-9f6a8ab96487.jpg?raw=true)
This macro pad / small 12 key was inspired by the plaid look
kb.py is designed to work with the nice!nano
Retailers (USA)
[Boardsource](https://boardsource.xyz/store/5ecc2008eee64242946c98c1)
Extentions enabled by default
- [Layers](https://github.com/KMKfw/kmk_firmware/tree/master/docs/layers.md) Need more keys than switches? Use layers.

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@ -5,6 +5,8 @@ from kmk.matrix import DiodeOrientation
class KMKKeyboard(_KMKKeyboard):
col_pins = (board.D9, board.D10, board.D11, board.D12, board.D13, board.SCL)
row_pins = (board.A3, board.A4, board.A5, board.SCK, board.MOSI)
row_pins = (board.P1_15, board.P0_02, board.P0_29)
col_pins = (board.P0_09, board.P0_10, board.P1_11, board.P1_13)
diode_orientation = DiodeOrientation.COLUMNS
i2c = board.I2C
powersave_pin = board.P0_13

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@ -0,0 +1,30 @@
from kb import KMKKeyboard
from kmk.keys import KC
from kmk.modules.layers import Layers
keyboard = KMKKeyboard()
# Cleaner key names
_______ = KC.TRNS
XXXXXXX = KC.NO
layers_ext = Layers()
keyboard.modules = [layers_ext]
RAISE = KC.MO(1)
keyboard.keymap = [
[ #Base
KC.N0, KC.N1, KC.N4, KC.N7,
KC.ENT, KC.N2, KC.N5, KC.N8,
RAISE, KC.N3, KC.N6, KC.N9
],
[ #RAISE
_______, _______, _______, _______,
_______, _______, _______, _______,
_______, _______, _______, _______
]
]
if __name__ == '__main__':
keyboard.go()

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@ -0,0 +1,21 @@
# Boardsource 4x12 Ortho
![Boardsource4x12](https://boardsource.imgix.net/164c3388-5057-46c8-8fcd-82c58c7870ce.jpg?raw=true)
![Boardsource4x12LP](https://boardsource.imgix.net/c2108ea4-7d70-4327-b4b4-88c8191b1369.jpg?raw=true)
The 4x12 ortholinear keyboard is an extremely common and beloved layout within the keyboard community. Made popular by Jack's Planck from OLKB, the 4x12 ortholinear layout is possibly the most popular non-stagger layout available.
kb.py is designed to work with the nice!nano
Retailers (USA)
4x12
[Boardsource](https://boardsource.xyz/store/5ecb78d286879c9a0c22dafd )
Low profile 4x12
[Boardsource](https://boardsource.xyz/store/5ecb7dad86879c9a0c22db32)
Extentions enabled by default
- [Layers](https://github.com/KMKfw/kmk_firmware/tree/master/docs/layers.md) Need more keys than switches? Use layers.
- [MediaKeys](https://github.com/KMKfw/kmk_firmware/tree/master/docs/media_keys.md) Control volume and other media functions
Common Extentions
- [Power](https://github.com/KMKfw/kmk_firmware/tree/master/docs/power.md) Powersaving features for battery life

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@ -0,0 +1,25 @@
import board
from kmk.kmk_keyboard import KMKKeyboard as _KMKKeyboard
from kmk.matrix import DiodeOrientation
class KMKKeyboard(_KMKKeyboard):
row_pins = (board.P0_08, board.P0_06, board.P0_17, board.P0_20)
col_pins = (
board.P0_31,
board.P0_29,
board.P0_02,
board.P1_15,
board.P1_13,
board.P1_11,
board.P0_10,
board.P0_09,
board.P1_06,
board.P1_04,
board.P0_11,
board.P1_00,
)
diode_orientation = DiodeOrientation.COLUMNS
i2c = board.I2C
powersave_pin = board.P0_13

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@ -0,0 +1,43 @@
from kb import KMKKeyboard
from kmk.extensions.media_keys import MediaKeys
from kmk.keys import KC
from kmk.modules.layers import Layers
keyboard = KMKKeyboard()
media = MediaKeys()
layers_ext = Layers()
keyboard.extensions = [media]
keyboard.modules = [layers_ext]
# Cleaner key names
_______ = KC.TRNS
XXXXXXX = KC.NO
LOWER = KC.MO(1)
RAISE = KC.MO(2)
keyboard.keymap = [
[ #QWERTY
KC.TAB, KC.Q, KC.W, KC.E, KC.R, KC.T, KC.Y, KC.U, KC.I, KC.O, KC.P, KC.BSPC,
KC.ESC, KC.A, KC.S, KC.D, KC.F, KC.G, KC.H, KC.J, KC.K, KC.L, KC.SCLN, KC.QUOT,
KC.LSFT, KC.Z, KC.X, KC.C, KC.V, KC.B, KC.N, KC.M, KC.COMM, KC.DOT, KC.SLSH, KC.ENT ,
KC.PIPE, KC.LCTL, KC.LALT, KC.LGUI, LOWER, KC.SPC, KC.SPC, RAISE, KC.LEFT, KC.DOWN, KC.UP, KC.RGHT
],
[ #LOWER
KC.GRV, KC.N1, KC.N2, KC.N3, KC.N4, KC.N5, KC.N6, KC.N7, KC.N8, KC.N9, KC.N0, KC.BSPC,
KC.DEL, KC.F1, KC.F2, KC.F3, KC.F4, KC.F5, KC.F6, KC.MINS, KC.EQL, KC.LBRC, KC.RBRC, KC.BSLS,
_______, KC.F7, KC.F8, KC.F9, KC.F10, KC.F11, KC.F12, KC.NUHS, KC.NUBS, KC.PGUP, KC.PGDN, _______,
_______, _______, _______, _______, _______, _______, _______, _______, KC.MNXT, KC.VOLD, KC.VOLU, KC.MPLY
],
[ #RAISE
KC.TILD, KC.EXLM, KC.AT, KC.HASH, KC.DLR, KC.PERC, KC.CIRC, KC.AMPR, KC.ASTR, KC.LPRN, KC.RPRN, KC.BSPC,
KC.DEL, KC.F1, KC.F2, KC.F3, KC.F4, KC.F5, KC.F6, KC.UNDS, KC.PLUS, KC.LCBR, KC.RCBR, KC.PIPE,
_______, KC.F7, KC.F8, KC.F9, KC.F10, KC.F11, KC.F12, _______, _______, KC.HOME, KC.END, _______,
_______, _______, _______, _______, _______, _______, _______, _______, KC.MNXT, KC.VOLD, KC.VOLU, KC.MPLY
]
]
if __name__ == '__main__':
keyboard.go()

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@ -0,0 +1,21 @@
# Boardsource 5x12 Ortho
![Boardsource5x12](https://boardsource.imgix.net/74abb511-792e-42d9-9f6e-8100c521b2e0.jpg?raw=true)
![Boardsource5x12LP](https://boardsource.imgix.net/57ad3f69-3c88-4ae8-9592-6e4d2f45a58e.jpg?raw=true)
5x12 ortholinear -- for when just really don't want to give up your number row. The 5x12 ortholinear keyboard is a common ortholinear layout that many people prefer because it includes a number row. Made popular by Jack's Preonic from OLKB, the 5x12 ortholinear layout is a great option for those who want to try ortholinear but feel they aren't ready to make the jump to a 40%. The 5x12 Ortho is an approachable keyboard with hotswap compatibility.
kb.py is designed to work with the nice!nano
Retailers (USA)
5x12
[Boardsource](https://boardsource.xyz/store/5ecb802c86879c9a0c22db61)
Low Profile 5x12
[Boardsource](https://boardsource.xyz/store/5ecb822386879c9a0c22db84)
Extentions enabled by default
- [Layers](https://github.com/KMKfw/kmk_firmware/tree/master/docs/layers.md) Need more keys than switches? Use layers.
- [MediaKeys](https://github.com/KMKfw/kmk_firmware/tree/master/docs/media_keys.md) Control volume and other media functions
Common Extentions
- [Power](https://github.com/KMKfw/kmk_firmware/tree/master/docs/power.md) Powersaving features for battery life

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@ -0,0 +1,25 @@
import board
from kmk.kmk_keyboard import KMKKeyboard as _KMKKeyboard
from kmk.matrix import DiodeOrientation
class KMKKeyboard(_KMKKeyboard):
row_pins = (board.P0_08, board.P0_06, board.P0_17, board.P0_20, board.P0_22)
col_pins = (
board.P0_31,
board.P0_29,
board.P0_02,
board.P1_15,
board.P1_13,
board.P1_11,
board.P0_10,
board.P0_09,
board.P1_06,
board.P1_04,
board.P0_11,
board.P1_00,
)
diode_orientation = DiodeOrientation.COLUMNS
i2c = board.I2C
powersave_pin = board.P0_13

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@ -0,0 +1,46 @@
from kb import KMKKeyboard
from kmk.extensions.media_keys import MediaKeys
from kmk.keys import KC
from kmk.modules.layers import Layers
keyboard = KMKKeyboard()
media = MediaKeys()
layers_ext = Layers()
keyboard.modules = [layers_ext]
keyboard.extensions = [media]
# Cleaner key names
_______ = KC.TRNS
XXXXXXX = KC.NO
LOWER = KC.MO(1)
RAISE = KC.MO(2)
keyboard.keymap = [
[ #QWERTY
KC.GRV, KC.N1, KC.N2, KC.N3, KC.N4, KC.N5, KC.N6, KC.N7, KC.N8, KC.N9, KC.N0, KC.BSPC,
KC.TAB, KC.Q, KC.W, KC.E, KC.R, KC.T, KC.Y, KC.U, KC.I, KC.O, KC.P, KC.DEL,
KC.ESC, KC.A, KC.S, KC.D, KC.F, KC.G, KC.H, KC.J, KC.K, KC.L, KC.SCLN, KC.QUOT,
KC.LSFT, KC.Z, KC.X, KC.C, KC.V, KC.B, KC.N, KC.M, KC.COMM, KC.DOT, KC.SLSH, KC.ENT,
KC.PIPE, KC.LCTL, KC.LALT, KC.LGUI, LOWER, KC.SPC, KC.SPC, RAISE, KC.LEFT, KC.DOWN, KC.UP, KC.RGHT
],
[ #LOWER
KC.ESC, KC.F1, KC.F2, KC.F3, KC.F4, KC.F5, KC.F6, KC.F7, KC.F8, KC.F9, KC.F10, KC.F11,
_______, _______, _______, _______, _______, _______, _______, _______, KC.UP, _______, _______, _______,
_______, _______, _______, _______, _______, _______, _______, KC.LEFT, KC.DOWN, KC.RGHT, _______, _______,
KC.CAPS, _______, _______, _______, _______, _______, _______, _______, _______, _______, _______, _______,
_______, _______, _______, _______, _______, _______, _______, _______, KC.MNXT, KC.VOLD, KC.VOLU, KC.MPLY
],
[ #RAISE
KC.GRV, KC.F1, KC.F2, KC.F3, KC.F4, KC.F5, KC.F6, KC.F7, KC.F8, KC.F9, KC.F10, KC.F11,
KC.ESC, KC.N1, KC.N2, KC.N3, KC.N4, KC.N5, KC.N6, KC.N7, KC.N8, KC.N9, KC.N0, KC.DEL,
_______, KC.N4, KC.N5, KC.N6, KC.PLUS, KC.F5, KC.F6, KC.MINS, KC.EQL, KC.LBRC, KC.RBRC, _______,
KC.ENT, KC.N7, KC.N8, KC.N9, KC.MINS, KC.F11, KC.F12, KC.NUHS, KC.NUBS, KC.MUTE, _______, KC.BSLS,
_______, _______, _______, _______, _______, _______, _______, _______, KC.MNXT, KC.VOLD, KC.VOLU, KC.MPLY
]
]
if __name__ == '__main__':
keyboard.go()

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@ -0,0 +1,19 @@
# Microdox
![microdox](https://boardsource.imgix.net/337ae65a-d061-46a4-b119-9916b043c58f.jpg?raw=true)
The Microdox is is a feature-packed 30% split columnar staggered keyboard. Even though the Microdox is an extremely small keyboard it offers tons of features from larger boards while maintaining a tiny footprint.
kb.py is designed to work with the nice!nano
Retailers (USA)
[Boardsource](https://boardsource.xyz/store/5f2e7e4a2902de7151494f92)
Extentions enabled by default
- [Layers](https://github.com/KMKfw/kmk_firmware/tree/master/docs/layers.md) Need more keys than switches? Use layers.
- [BLE_Split](https://github.com/KMKfw/kmk_firmware/tree/master/docs/split.md) Connects halves without wires
- [ModTap](https://github.com/KMKfw/kmk_firmware/tree/master/docs/modtap.md) Allows mod keys to act as different keys when tapped.
Common Extentions
- [Split](https://github.com/KMKfw/kmk_firmware/tree/master/docs/split.md) Connects halves using a wire
- [Power](https://github.com/KMKfw/kmk_firmware/tree/master/docs/power.md) Powersaving features for battery life

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@ -0,0 +1,24 @@
import board
from kmk.kmk_keyboard import KMKKeyboard as _KMKKeyboard
from kmk.matrix import DiodeOrientation
from kmk.matrix import intify_coordinate as ic
class KMKKeyboard(_KMKKeyboard):
col_pins = (board.P0_31, board.P0_29, board.P0_02, board.P1_15, board.P1_13)
row_pins = (board.P0_10, board.P0_09, board.P1_04, board.P1_06)
diode_orientation = DiodeOrientation.COLUMNS
data_pin = board.P0_08
rgb_pixel_pin = board.P0_06
rgb_num_pixels = 12
i2c = board.I2C
powersave_pin = board.P0_13
coord_mapping = []
coord_mapping.extend(ic(0, x) for x in range(10))
coord_mapping.extend(ic(1, x) for x in range(10))
coord_mapping.extend(ic(2, x) for x in range(10))
# And now, to handle R3, which at this point is down to just six keys
coord_mapping.extend(ic(3, x) for x in range(3, 9))

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@ -0,0 +1,54 @@
from kb import KMKKeyboard
from kmk.keys import KC
from kmk.modules.layers import Layers
from kmk.modules.split import Split, SplitSide, SplitType
keyboard = KMKKeyboard()
# TODO Comment one of these on each side
split_side = SplitSide.LEFT
split_side = SplitSide.RIGHT
split = Split(split_type=SplitType.BLE, split_side=split_side)
layers_ext = Layers()
keyboard.modules = [layers_ext, split]
# Cleaner key names
_______ = KC.TRNS
XXXXXXX = KC.NO
LOWER = KC.MO(2)
RAISE = KC.MO(1)
RGB_TOG = KC.RGB_TOG
RGB_HUI = KC.RGB_HUI
RGB_HUD = KC.RGB_HUI
RGB_SAI = KC.RGB_SAI
RGB_SAD = KC.RGB_SAD
RGB_VAI = KC.RGB_VAI
RGB_VAD = KC.RGB_VAD
keyboard.keymap = [
[ #QWERTY
KC.Q, KC.W, KC.E, KC.R, KC.T, KC.Y, KC.U, KC.I, KC.O, KC.P,\
KC.A, KC.S, KC.D, KC.F, KC.G, KC.H, KC.J, KC.K, KC.L, KC.SCLN,\
KC.Z, KC.X, KC.C, KC.V, KC.B, KC.N, KC.M, KC.COMM, KC.DOT, KC.SLSH,\
KC.LCTL, LOWER, KC.SPC, KC.BSPC, RAISE, KC.ENT,
],
[ #RAISE
KC.N1, KC.N2, KC.N3, KC.N4, KC.N5, KC.N6, KC.N7, KC.N8, KC.N9, KC.N0,\
KC.TAB, KC.LEFT, KC.DOWN, KC.UP, KC.RGHT, XXXXXXX, KC.MINS, KC.EQL, KC.LBRC, KC.RBRC,\
KC.LCTL, KC.GRV, KC.LGUI, KC.LALT, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, KC.BSLS, KC.QUOT,\
XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX,
],
[ #LOWER
KC.EXLM, KC.AT, KC.HASH, KC.DLR, KC.PERC, KC.CIRC, KC.AMPR, KC.ASTR, KC.LPRN, KC.RPRN,\
KC.ESC, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, KC.UNDS, KC.PLUS, KC.LCBR, KC.RCBR,\
KC.CAPS, KC.TILD, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, KC.PIPE, KC.DQT,\
XXXXXXX, XXXXXXX, XXXXXXX, KC.ENT, XXXXXXX, KC.DEL
]
]
if __name__ == '__main__':
keyboard.go()

27
boards/crkbd/README.md Normal file
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@ -0,0 +1,27 @@
# Corne Keyboard (CRKBD)
![Crkbd](https://boardsource.imgix.net/a90342e3-caa0-467c-bebd-d17f031d5210.jpg?raw=true)
![Crkbd](https://boardsource.imgix.net/9cbd31b7-3b37-42c6-919e-3be35a2578f6.jpg?raw=true)
A split keyboard with a 3x6 collumnar stagger and 3 thumb keys.
kb.py is designed to work with the nice!nano
Hardware Availability: [PCB & Case Source](https://github.com/foostan/crkbd)
Retailers (USA)
Corne
[Boardsource](https://boardsource.xyz/store/5ecc0f81eee64242946c988f)
Corne LP
[Boardsource](https://boardsource.xyz/store/5f2efc462902de7151495057)
Extentions enabled by default
- [Layers](https://github.com/KMKfw/kmk_firmware/tree/master/docs/layers.md) Need more keys than switches? Use layers.
- [RGB](https://github.com/KMKfw/kmk_firmware/tree/master/docs/rgb.md) Light it up
- [BLE_Split](https://github.com/KMKfw/kmk_firmware/tree/master/docs/split.md) Connects halves without wires
Common Extentions
- [Split](https://github.com/KMKfw/kmk_firmware/tree/master/docs/split.md) Connects halves using a wire
- [Power](https://github.com/KMKfw/kmk_firmware/tree/master/docs/power.md) Powersaving features for battery life

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@ -16,13 +16,10 @@ class KMKKeyboard(_KMKKeyboard):
)
row_pins = (board.P0_22, board.P0_24, board.P1_00, board.P0_11)
diode_orientation = DiodeOrientation.COLUMNS
split_type = 'UART' # TODO add bluetooth support as well
split_flip = True
split_offsets = [6, 6, 6, 6, 6]
uart_pin = board.P0_08
data_pin = board.P0_08
rgb_pixel_pin = board.P0_06
extra_data_pin = board.SDA # TODO This is incorrect. Find better solution
i2c = board.I2C
powersave_pin = board.P0_13
coord_mapping = []
coord_mapping.extend(ic(0, x) for x in range(12))

67
boards/crkbd/main.py Normal file
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from kb import KMKKeyboard, rgb_pixel_pin
from kmk.extensions.rgb import RGB
from kmk.keys import KC
from kmk.modules.layers import Layers
from kmk.modules.split import Split, SplitSide, SplitType
keyboard = KMKKeyboard()
# Adding extentions
rgb = RGB(pixel_pin=rgb_pixel_pin, num_pixels=27, val_limit=100, hue_default=190, sat_default=100, val_default=5)
# TODO Comment one of these on each side
split_side = SplitSide.LEFT
split_side = SplitSide.RIGHT
split = Split(split_type=SplitType.BLE, split_side=split_side)
layers_ext = Layers()
keyboard.modules = [layers_ext, split]
keyboard.extensions = [rgb]
#
# Cleaner key names
_______ = KC.TRNS
XXXXXXX = KC.NO
LOWER = KC.MO(1)
RAISE = KC.MO(2)
ADJUST = KC.LT(3, KC.SPC)
RGB_TOG = KC.RGB_TOG
RGB_HUI = KC.RGB_HUI
RGB_HUD = KC.RGB_HUI
RGB_SAI = KC.RGB_SAI
RGB_SAD = KC.RGB_SAD
RGB_VAI = KC.RGB_VAI
RGB_VAD = KC.RGB_VAD
keyboard.keymap = [
[ #QWERTY
KC.TAB, KC.Q, KC.W, KC.E, KC.R, KC.T, KC.Y, KC.U, KC.I, KC.O, KC.P, KC.BSPC,\
KC.LCTL, KC.A, KC.S, KC.D, KC.F, KC.G, KC.H, KC.J, KC.K, KC.L, KC.SCLN, KC.QUOT,\
KC.LSFT, KC.Z, KC.X, KC.C, KC.V, KC.B, KC.N, KC.M, KC.COMM, KC.DOT, KC.SLSH, KC.RSFT,\
KC.LGUI, LOWER, ADJUST, KC.ENT, RAISE, KC.RALT,
],
[ #LOWER
KC.ESC, KC.N1, KC.N2, KC.N3, KC.N4, KC.N5, KC.N6, KC.N7, KC.N8, KC.N9, KC.N0, KC.BSPC,\
KC.LCTL, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, KC.LEFT, KC.DOWN, KC.UP, KC.RIGHT, XXXXXXX, XXXXXXX,\
KC.LSFT, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX,\
KC.LGUI, LOWER, ADJUST, KC.ENT, RAISE, KC.RALT,
],
[ #RAISE
KC.ESC, KC.EXLM, KC.AT, KC.HASH, KC.DLR, KC.PERC, KC.CIRC, KC.AMPR, KC.ASTR, KC.LPRN, KC.RPRN, KC.BSPC,\
KC.LCTL, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, KC.MINS, KC.EQL, KC.LCBR, KC.RCBR, KC.PIPE, KC.GRV,\
KC.LSFT, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, KC.UNDS, KC.PLUS, KC.LBRC, KC.RBRC, KC.BSLS, KC.TILD,\
KC.LGUI, LOWER, ADJUST, KC.ENT, RAISE, KC.RALT,
],
[ #ADJUST
RGB_TOG, RGB_HUI, RGB_SAI, RGB_VAI, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX,\
XXXXXXX, RGB_HUD, RGB_SAD, RGB_VAD, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX,\
XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX,\
KC.LGUI, LOWER, ADJUST, KC.ENT, RAISE, KC.RALT,
]
]
if __name__ == '__main__':
keyboard.go()

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# Ergo Travel
![ergo_travel](https://boardsource.imgix.net/fa53de62-fd37-4c75-8c5b-b4bec37927c1.jpg?raw=true)
As the name implies, the Ergo Travel was originally designed as a travel keyboard, but it works just as well on your desk as a main daily use keyboard. The Ergo Travel is a popular choice by many because it offers a few more keys than other keyboards in similar sizes, and that is why we chose to stock it. Additionally, the Ergo Travel has nice customization options in the thumb cluster because you can configure the main thumb key to use a single larger 2u key, or two smaller 1u keys depending on your preference. The clean and simple aesthetic of the Ergo Travel and the few extra keys make it an awesome option for people wanting a 40%-ish split keyboard.
kb.py is designed to work with the nice!nano
Hardware Availability: [PCB & Case Source](https://github.com/jpconstantineau/ErgoTravel/blob/master/OrderingInstructions.md)
Retailers (USA)
[Boardsource](https://boardsource.xyz/store/5eed23430883e03ef9a69d6a)
Extentions enabled by default
- [Layers](https://github.com/KMKfw/kmk_firmware/tree/master/docs/layers.md) Need more keys than switches? Use layers.
- [BLE_Split](https://github.com/KMKfw/kmk_firmware/tree/master/docs/split.md) Connects halves without wires
- [MediaKeys](https://github.com/KMKfw/kmk_firmware/tree/master/docs/media_keys.md) Control volume and other media functions
Common Extentions
- [Split](https://github.com/KMKfw/kmk_firmware/tree/master/docs/split.md) Connects halves using a wire
- [Power](https://github.com/KMKfw/kmk_firmware/tree/master/docs/power.md) Powersaving features for battery life

33
boards/ergo_travel/kb.py Normal file
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import board
from kmk.kmk_keyboard import KMKKeyboard as _KMKKeyboard
from kmk.matrix import DiodeOrientation
from kmk.matrix import intify_coordinate as ic
class KMKKeyboard(_KMKKeyboard):
row_pins = (board.P0_24, board.P1_00, board.P0_11, board.P1_04)
col_pins = (
board.P0_29,
board.P0_02,
board.P1_15,
board.P1_13,
board.P1_11,
board.P0_10,
board.P0_09,
)
diode_orientation = DiodeOrientation.COLUMNS
led_pin = board.P1_06
rgb_pixel_pin = board.P0_06
rgb_num_pixels = 12
data_pin = board.P0_08
i2c = board.I2C
powersave_pin = board.P0_13
coord_mapping = []
coord_mapping.extend(ic(0, x) for x in range(14))
coord_mapping.extend(ic(1, x) for x in range(14))
coord_mapping.extend(ic(2, x) for x in range(14))
# And now, to handle R3, which at this point is down to just six keys
coord_mapping.extend(ic(3, x) for x in range(3, 12))

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from kb import KMKKeyboard
from kmk.extensions.media_keys import MediaKeys
from kmk.keys import KC
from kmk.modules.layers import Layers
from kmk.modulessplit import Split, SplitSide, SplitType
keyboard = KMKKeyboard()
# TODO Comment one of these on each side
split_side = SplitSide.LEFT
split_side = SplitSide.RIGHT
split = Split(split_type=SplitType.BLE, split_side=split_side)
media = MediaKeys()
layers_ext = Layers()
keyboard.modules = [layers_ext, split]
keyboard.extensions = (media)
# Cleaner key names
_______ = KC.TRNS
XXXXXXX = KC.NO
LOWER = KC.MO(1)
RAISE = KC.MO(2)
ADJUST = KC.MO(3)
CALTDEL = KC.LCTL(KC.LALT(KC.DEL))
TSKMGR = KC.LCTL(KC.LSFT(KC.KC_ESC))
keyboard.keymap = [
[ #QWERTY
KC.ESC, KC.Q, KC.W, KC.E, KC.R, KC.T, KC.MINS, KC.EQL, KC.Y, KC.U, KC.I, KC.O, KC.P, KC.BSPC,\
KC.TAB, KC.A, KC.S, KC.D, KC.F, KC.G, KC.LBRC, KC.RBRC, KC.H, KC.J, KC.K, KC.L, KC.SCLN, KC.QUOT,\
KC.LSFT, KC.Z, KC.X, KC.C, KC.V, KC.B, KC.SPC, KC.SPC, KC.N, KC.M, KC.COMM, KC.DOT, KC.SLSH, KC.ENT,\
KC.LCTL, KC.LGUI, KC.LALT, ADJUST, LOWER, KC.SPC, KC.SPC, RAISE, KC.LEFT, KC.UP, KC.DOWN, KC.RGHT\
],
[ #LOWER
KC.TILD, KC.EXLM, KC.AT, KC.HASH, KC.DLR, KC.PERC, KC.HOME, KC.PGUP, KC.CIRC, KC.AMPR, KC.ASTR, KC.LPRN, KC.RPRN, KC.DEL,\
_______, KC.F1, KC.F2, KC.F3, KC.F4, KC.F5, KC.END , KC.PGDN, KC.F6, KC.UNDS, KC.PLUS, KC.LCBR, KC.RCBR, KC.BSLS,\
_______, KC.F7, KC.F8, KC.F9, KC.F10, KC.F11, KC.BSPC, KC.BSPC, KC.F12, _______, _______, KC.MUTE, _______, KC.PIPE,\
_______, _______, _______, _______, _______, KC.BSPC, KC.BSPC, _______, KC.MNXT, KC.VOLD, KC.VOLU, KC.MPLY\
],
[ #RAISE
KC.ESC, KC.N1, KC.N2, KC.N3, KC.N4, KC.N5, _______, _______, KC.N6, KC.N7, KC.N8, KC.N9, KC.N0, KC.DEL, \
_______, KC.N4, KC.N5, KC.N6, KC.PLUS, _______, _______, _______, _______, KC.MINS, KC.EQL, KC.LBRC, KC.RBRC, _______, \
KC.ENT, KC.N7, KC.N8, KC.N9, KC.MINS, _______, _______, _______, _______, KC.NUHS, KC.NUBS, KC.MUTE, _______, KC.BSLS, \
_______, KC.COMM, KC.N0, KC.DOT, _______, KC.BSPC, KC.BSPC, _______, KC.MNXT, KC.VOLD, KC.VOLU, KC.MPLY \
],
[ #ADJUST
TSKMGR, _______, _______, _______, _______, _______, _______, _______, _______, _______, _______, _______, _______, CALTDEL,
_______, _______, _______, _______, _______, _______, _______, _______, _______, _______, _______, _______, _______, _______,
_______, _______, _______, _______, _______, _______, _______, _______, _______, _______, _______, _______, _______, _______,
_______, _______, _______, _______, _______, _______, _______, _______, _______, _______, _______, _______,
]
]
if __name__ == '__main__':
keyboard.go()

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# Ghirkin
![Gherkin](https://4.bp.blogspot.com/-sQ18-lNZXOc/WCzlTde-4PI/AAAAAAAB_JQ/qQrehAMG6DMKf3i4oj4mkmLGOfTUvb3KgCLcB/s640/IMG_20161116_122926.jpg)
A keyboard with only 30 keys.
kb.py is designed to work with the nice!nano
Hardware Availability: [Gherkin project on 40% Keyboards](http://www.40percent.club/2016/11/gherkin.html)
Extentions enabled by default
- [Layers](https://github.com/KMKfw/kmk_firmware/tree/master/docs/layers.md) Need more keys than switches? Use layers.
- [ModTap](https://github.com/KMKfw/kmk_firmware/tree/master/docs/modtap.md) Allows mod keys to act as different keys when tapped.
- [LED](https://github.com/KMKfw/kmk_firmware/tree/master/docs/led.md) Light your keys up
Common Extentions
- [Power](https://github.com/KMKfw/kmk_firmware/tree/master/docs/power.md) Powersaving features for battery life

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@ -0,0 +1,21 @@
import board
from kmk.kmk_keyboard import KMKKeyboard as _KMKKeyboard
from kmk.matrix import DiodeOrientation
class KMKKeyboard(_KMKKeyboard):
row_pins = (board.P1_15, board.P1_13, board.P1_11, board.P0_10, board.P0_09)
col_pins = (
board.P1_04,
board.P0_11,
board.P1_00,
board.P0_24,
board.P0_22,
board.P0_20,
)
diode_orientation = DiodeOrientation.COLUMNS
led_pin = board.P1_06
rgb_num_pixels = 0
i2c = board.I2C
powersave_pin = board.P0_13

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from kb import KMKKeyboard
from kmk.extensions.led import LED
from kmk.keys import KC
from kmk.modules.layers import Layers
from kmk.modules.modtap import ModTap
keyboard = KMKKeyboard()
modtap = ModTap()
layers_ext = Layers()
led = LED()
keyboard.extensions = [led]
keyboard.modules = [layers_ext, modtap]
# Cleaner key names
_______ = KC.TRNS
XXXXXXX = KC.NO
FN1_SPC = KC.LT(1, KC.SPC)
FN2_BSPC = KC.LT(2, KC.BSPC)
FN3_C = KC.LT(3, KC.C)
FN4_V = KC.LT(4, KC.V)
FN5_B = KC.LT(5, KC.B)
CTL_Z = KC.CTL_T(KC.Z)
ALT_X = KC.ALT(KC.X)
ALT_N = KC.ALT(KC.N)
CTL_M = KC.CTL(KC.M)
SFT_ENT = KC.SFT(KC.ENT)
BL_DEC = KC.BL_DEC
BL_INC = KC.BL_INC
keyboard.keymap = [
[
KC.Q, KC.W, KC.E, KC.R, KC.T, KC.Y, KC.U, KC.I, KC.O, KC.P,
KC.A, KC.S, KC.D, KC.F, KC.G, KC.H, KC.J, KC.K, KC.L, KC.ESC,
CTL_Z, ALT_X, FN3_C, FN4_V, FN2_BSPC, FN1_SPC, FN5_B, ALT_N, CTL_M, SFT_ENT
],
[
KC.N1, KC.N2, KC.N3, KC.N4, KC.N5, KC.N6, KC.N7, KC.N8, KC.N9, KC.N0,
KC.F1, KC.F2, KC.F3, KC.F4, KC.F5, KC.F6, KC.F7, KC.F8, KC.F9, KC.F10,
_______, _______, _______, _______, KC.DEL, _______, _______, _______, _______, _______
],
[
KC.EXLM, KC.AT, KC.HASH, KC.DLR, KC.PERC, KC.CIRC, KC.AMPR, KC.ASTR, KC.LPRN, KC.RPRN,
KC.F11, KC.F12, _______, _______, _______, _______, _______, _______, _______, KC.GRV,
_______, _______, _______, _______, _______, _______, _______, _______, _______, _______
],
[
_______, _______, _______, _______, _______, KC.MINS, KC.EQL, KC.LBRC, KC.RBRC, KC.BSLS,
KC.TAB, _______, _______, _______, _______, KC.COMM, KC.DOT, KC.SLSH, KC.SCLN, KC.QUOT,
_______, _______, _______, _______, _______, _______, KC.LEFT, KC.DOWN, KC.UP, KC.RGHT
],
[
_______, _______, _______, _______, _______, KC.UNDS, KC.PLUS, KC.LCBR, KC.RCBR, KC.PIPE,
KC.TAB, _______, _______, _______, _______, KC.LABK, KC.RABK, KC.QUES, KC.COLN, KC.DQUO,
_______, _______, _______, _______, _______, _______, KC.HOME, KC.PGDN, KC.PGUP, KC.END
],
[
KC.CALC, KC.WHOM, KC.MAIL, KC.MYCM, _______, _______, _______, _______, _______, KC.PSCR,
_______, _______, _______, _______, _______, _______, _______, _______, BL_DEC, BL_INC,
_______, _______, _______, _______, _______, _______, _______, _______, _______, _______
]
]
if __name__ == '__main__':
keyboard.go()

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# Luddite
![Luddite](https://1.bp.blogspot.com/-GAAa-sMU_WU/W7uYLJJ8x1I/AAAAAAACS44/31n2z69BSboM4KT48YkNMJRYciC8LUMWgCLcBGAs/s640/a.jpg)
Luddite 60% keyboard with backlight and RGB underglow.
kb.py is designed to work with the nice!nano
kb_converter.py is designed to work with an itsybitsy with converter board found [here](https://github.com/KMKfw/kmk_firmware/tree/master/hardware)
Hardware Availability: [Luddite project on 40% Keyboards](http://www.40percent.club/search/label/luddite)
Extentions enabled by default
- [Layers](https://github.com/KMKfw/kmk_firmware/tree/master/docs/layers.md) Need more keys than switches? Use layers.
- [RGB](https://github.com/KMKfw/kmk_firmware/tree/master/docs/rgb.md) RGB underglow
- [LED](https://github.com/KMKfw/kmk_firmware/tree/master/docs/led.md) Light your keys up
Common Extentions
- [Power](https://github.com/KMKfw/kmk_firmware/tree/master/docs/power.md) Powersaving features for battery life

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@ -0,0 +1,33 @@
import board
from kmk.kmk_keyboard import KMKKeyboard as _KMKKeyboard
from kmk.matrix import DiodeOrientation
class KMKKeyboard(_KMKKeyboard):
row_pins = (
board.P0_06,
board.P0_08,
board.P0_17,
board.P0_20,
board.P0_22,
board.P0_24,
board.P1_00,
board.P0_11,
)
col_pins = (
board.P0_31,
board.P0_29,
board.P0_02,
board.P1_15,
board.P1_13,
board.P1_11,
board.P0_10,
board.P0_09,
)
diode_orientation = DiodeOrientation.COLUMNS
led_pin = board.P1_06
rgb_pixel_pin = board.P1_04
rgb_num_pixels = 8
i2c = board.I2C
powersave_pin = board.P0_13

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@ -1,11 +1,20 @@
from kmk.boards.converter.fourtypercentclub.luddite import KMKKeyboard
from kb import KMKKeyboard
from kmk.extensions.led import LED
from kmk.extensions.rgb import RGB
from kmk.keys import KC
from kmk.modules.layers import Layers
keyboard = KMKKeyboard()
_______ = KC.TRNS
XXXXXXX = KC.NO
rgb_ext = RGB(pixel_pin=keyboard.rgb_pixel_pin, num_pixels=keyboard.rgb_num_pixels)
led = LED()
layers_ext = Layers()
keyboard.extensions = [rgb_ext, led]
keyboard.modules = [layers_ext]
BASE = 0
FN1 = 1

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@ -0,0 +1,15 @@
# Iris Rev 2
A split keyboard with a 4x6 layout with additional 4 thumb buttons
kb.py is designed to work with the nice!nano
kb_converter.py is designed to work with an itsybitsy with converter board found [here](https://github.com/KMKfw/kmk_firmware/tree/master/hardware)
Extentions enabled by default
- [Layers](https://github.com/KMKfw/kmk_firmware/tree/master/docs/layers.md) Need more keys than switches? Use layers.
- [RGB](https://github.com/KMKfw/kmk_firmware/tree/master/docs/rgb.md) Light it up
- [BLE_Split](https://github.com/KMKfw/kmk_firmware/tree/master/docs/split.md) Connects halves without wires
Common Extentions
- [Split](https://github.com/KMKfw/kmk_firmware/tree/master/docs/split.md) Connects halves using a wire
- [Power](https://github.com/KMKfw/kmk_firmware/tree/master/docs/power.md) Powersaving features for battery life

43
boards/keebio/iris/kb.py Normal file
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import board
from kmk.kmk_keyboard import KMKKeyboard as _KMKKeyboard
from kmk.matrix import DiodeOrientation
from kmk.matrix import intify_coordinate as ic
class KMKKeyboard(_KMKKeyboard):
row_pins = (board.P1_00, board.P0_11, board.P1_04, board.P0_08, board.P0_22)
col_pins = (
board.P0_02,
board.P1_15,
board.P1_13,
board.P1_11,
board.P0_10,
board.P0_09,
)
diode_orientation = DiodeOrientation.COLUMNS
led_pin = board.P1_06
rgb_pixel_pin = board.P0_06
rgb_num_pixels = 12
i2c = board.I2C
data_pin = board.P0_08
powersave_pin = board.P0_13
led_pin = board.D7
coord_mapping = []
coord_mapping.extend(ic(0, x) for x in range(12))
coord_mapping.extend(ic(1, x) for x in range(12))
coord_mapping.extend(ic(2, x) for x in range(12))
# Buckle up friends, the bottom row of this keyboard is wild, and making
# our layouts match, visually, what the keyboard looks like, requires some
# surgery on the bottom two rows of coords
# Row index 3 is actually perfectly sane and we _could_ expose it
# just like the above three rows, however, visually speaking, the
# top-right thumb cluster button (when looking at the left-half PCB)
# is more inline with R3, so we'll jam that key (and its mirror) in here
coord_mapping.extend(ic(3, x) for x in range(6))
coord_mapping.append(ic(4, 2))
coord_mapping.append(ic(4, 9))
coord_mapping.extend(ic(3, x) for x in range(6, 12)) # Now, the rest of R3

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@ -16,8 +16,10 @@ class KMKKeyboard(_KMKKeyboard):
split_flip = True
split_offsets = (6, 6, 6, 6, 6)
split_type = 'UART'
uart_pin = board.SCL
extra_data_pin = board.SDA
data_pin = board.SCL
data_pin2 = board.SDA
rgb_num_pixels = 12
i2c = board.I2C
rgb_pixel_pin = board.TX
led_pin = board.D7

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from kb import KMKKeyboard
from kmk.consts import UnicodeMode
from kmk.extensions.rgb import RGB
from kmk.handlers.sequences import compile_unicode_string_sequences as cuss
from kmk.handlers.sequences import send_string
from kmk.keys import KC
from kmk.modules.layers import Layers
from kmk.modules.split import Split, SplitSide, SplitType
keyboard = KMKKeyboard()
keyboard.debug_enabled = False
keyboard.unicode_mode = UnicodeMode.LINUX
keyboard.tap_time = 750
emoticons = cuss({
# Emojis
'BEER': r'🍺',
'BEER_TOAST': r'🍻',
'FACE_CUTE_SMILE': r'😊',
'FACE_HEART_EYES': r'😍',
'FACE_JOY': r'😂',
'FACE_SWEAT_SMILE': r'😅',
'FACE_THINKING': r'🤔',
'FIRE': r'🔥',
'FLAG_CA': r'🇨🇦',
'FLAG_US': r'🇺🇸',
'HAND_CLAP': r'👏',
'HAND_HORNS': r'🤘',
'HAND_OK': r'👌',
'HAND_THUMB_DOWN': r'👎',
'HAND_THUMB_UP': r'👍',
'HAND_WAVE': r'👋',
'HEART': r'❤️',
'MAPLE_LEAF': r'🍁',
'POOP': r'💩',
'TADA': r'🎉',
'SHRUG_EMOJI': r'🤷',
# Emoticons, but fancier
'ANGRY_TABLE_FLIP': r'(ノಠ痊ಠ)ノ彡┻━┻',
'CELEBRATORY_GLITTER': r'+。:.゚ヽ(´∀。)ノ゚.:。+゚゚+。:.゚ヽ(*´∀)ノ゚.:。+゚',
'SHRUGGIE': r'¯\_(ツ)_/¯',
'TABLE_FLIP': r'(╯°□°)╯︵ ┻━┻',
})
WPM = send_string('Lorem ipsum dolor sit amet, consectetur adipiscing elit, sed do eiusmod tempor incididunt ut labore et dolore magna aliqua. Bibendum arcu vitae elementum curabitur vitae nunc sed. Facilisis sed odio morbi quis.')
_______ = KC.TRNS
xxxxxxx = KC.NO
HELLA_TD = KC.TD(
KC.A,
KC.B,
send_string('macros in a tap dance? I think yes'),
KC.TG(1),
)
rgb_ext = RGB(pixel_pin=keyboard.rgb_pixel_pin, num_pixels=keyboard.rgb_num_pixels)
layers_ext = Layers()
# TODO Comment one of these on each side
split_side = SplitSide.LEFT
split_side = SplitSide.RIGHT
split = Split(split_type=SplitType.BLE, split_side=split_side)
keyboard.extensions = [rgb_ext]
keyboard.modules = [split, layers_ext]
keyboard.keymap = [
[
KC.GESC, KC.N1, KC.N2, KC.N3, KC.N4, KC.N5, KC.N6, KC.N7, KC.N8, KC.N9, KC.N0, KC.BSPC,
KC.TAB, KC.QUOT, KC.COMM, KC.DOT, KC.P, KC.Y, KC.F, KC.G, KC.C, KC.R, KC.L, KC.SLSH,
KC.LGUI, KC.A, KC.O, KC.E, KC.U, KC.I, KC.D, KC.H, KC.T, KC.N, KC.S, KC.ENTER,
KC.LCTL, KC.SCLN, KC.Q, KC.J, KC.K, KC.X, KC.MO(2), KC.MO(1), KC.B, KC.M, KC.W, KC.V, KC.Z, KC.LALT,
KC.LEFT, KC.RGHT, KC.LSFT, KC.SPC, KC.UP, KC.DOWN,
],
[
_______, xxxxxxx, xxxxxxx, xxxxxxx, xxxxxxx, xxxxxxx, KC.F10, KC.F11, KC.F12, xxxxxxx, xxxxxxx, _______,
xxxxxxx, xxxxxxx, xxxxxxx, xxxxxxx, xxxxxxx, xxxxxxx, KC.F7, KC.F8, KC.F9, xxxxxxx, xxxxxxx, KC.EQUAL,
xxxxxxx, xxxxxxx, xxxxxxx, xxxxxxx, xxxxxxx, KC.INS, KC.F4, KC.F5, KC.F6, xxxxxxx, xxxxxxx, xxxxxxx,
xxxxxxx, xxxxxxx, xxxxxxx, xxxxxxx, xxxxxxx, xxxxxxx, KC.NO, _______, KC.F1, KC.F2, KC.F3, xxxxxxx, xxxxxxx, _______,
KC.HOME, KC.END, _______, xxxxxxx, KC.PGUP, KC.PGDN,
],
[
KC.MUTE, xxxxxxx, xxxxxxx, xxxxxxx, xxxxxxx, xxxxxxx, xxxxxxx, xxxxxxx, xxxxxxx, KC.LBRC, KC.RBRC, KC.DEL,
xxxxxxx, xxxxxxx, xxxxxxx, xxxxxxx, xxxxxxx, xxxxxxx, xxxxxxx, xxxxxxx, xxxxxxx, xxxxxxx, xxxxxxx, KC.BSLS,
KC.RGUI, xxxxxxx, xxxxxxx, xxxxxxx, xxxxxxx, xxxxxxx, xxxxxxx, xxxxxxx, xxxxxxx, xxxxxxx, xxxxxxx, KC.MINS,
xxxxxxx, xxxxxxx, xxxxxxx, xxxxxxx, xxxxxxx, xxxxxxx, _______, KC.VOLU, xxxxxxx, xxxxxxx, xxxxxxx, xxxxxxx, xxxxxxx, KC.RALT,
KC.HOME, KC.END, _______, KC.VOLD, KC.PGUP, KC.PGDN,
],
]
if __name__ == '__main__':
keyboard.go()

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@ -0,0 +1,15 @@
# Levinson Rev 2
A split keyboard with a 4x6 layout
kb.py is designed to work with the nice!nano
kb_converter.py is designed to work with an itsybitsy with converter board found [here](https://github.com/KMKfw/kmk_firmware/tree/master/hardware)
Extentions enabled by default
- [Layers](https://github.com/KMKfw/kmk_firmware/tree/master/docs/layers.md) Need more keys than switches? Use layers.
- [RGB](https://github.com/KMKfw/kmk_firmware/tree/master/docs/rgb.md) Light it up
- [BLE_Split](https://github.com/KMKfw/kmk_firmware/tree/master/docs/split.md) Connects halves without wires
Common Extentions
- [Split](https://github.com/KMKfw/kmk_firmware/tree/master/docs/split.md) Connects halves using a wire
- [Power](https://github.com/KMKfw/kmk_firmware/tree/master/docs/power.md) Powersaving features for battery life

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@ -0,0 +1,23 @@
import board
from kmk.kmk_keyboard import KMKKeyboard as _KMKKeyboard
from kmk.matrix import DiodeOrientation
class KMKKeyboard(_KMKKeyboard):
row_pins = (board.P0_22, board.P1_00, board.P0_11, board.P1_04)
col_pins = (
board.P0_02,
board.P1_15,
board.P1_13,
board.P1_11,
board.P0_10,
board.P0_09,
)
diode_orientation = DiodeOrientation.COLUMNS
rgb_pixel_pin = board.P0_06
rgb_num_pixels = 12
led_pin = board.P1_06
data_pin = board.P0_08
i2c = board.I2C
powersave_pin = board.P0_13

View File

@ -12,7 +12,7 @@ class KMKKeyboard(_KMKKeyboard):
split_type = 'UART'
split_flip = True
split_offsets = [6, 6, 6, 6, 6]
uart_pin = board.SCL
extra_data_pin = board.SDA
data_pin = board.SCL
data_pin2 = board.SDA
rgb_pixel_pin = board.TX
# led_pin = board.D7
led_pin = board.D7

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@ -0,0 +1,132 @@
from kb import KMKKeyboard
from kmk.extensions.rgb import RGB
from kmk.keys import KC
from kmk.modules.layers import Layers
from kmk.modules.split import Split, SplitSide, SplitType
keyboard = KMKKeyboard()
rgb_ext = RGB(pixel_pin=keyboard.rgb_pixel_pin, num_pixels=keyboard.rgb_num_pixels)
layers_ext = Layers()
# TODO Comment one of these on each side
split_side = SplitSide.LEFT
split_side = SplitSide.RIGHT
split = Split(split_type=SplitType.BLE, split_side=split_side)
keyboard.extensions = [rgb_ext]
keyboard.modules = [layers_ext, split]
_______ = KC.TRNS
XXXXXXX = KC.NO
LOWER = KC.MO(3)
RAISE = KC.MO(4)
ADJUST = KC.MO(5)
keyboard.keymap = [
# Qwerty
# ,-----------------------------------------------------------------------------------.
# | Tab | Q | W | E | R | T | Y | U | I | O | P | Bak |
# |------+------+------+------+------+-------------+------+------+------+------+------|
# | Esc | A | S | D | F | G | H | J | K | L | ; | " |
# |------+------+------+------+------+------|------+------+------+------+------+------|
# | Shift| Z | X | C | V | B | N | M | , | . | / |Enter |
# |------+------+------+------+------+------+------+------+------+------+------+------|
# |Adjust| Ctrl | Alt | GUI |Lower |Space |Space |Raise | Left | Down | Up |Right |
# `-----------------------------------------------------------------------------------'
[
KC.TAB, KC.Q, KC.W, KC.E, KC.R, KC.T, KC.Y, KC.U, KC.I, KC.O, KC.P, KC.BSPC,
KC.GESC, KC.A, KC.S, KC.D, KC.F, KC.G, KC.H, KC.J, KC.K, KC.L, KC.SCLN, KC.QUOT,
KC.LSFT, KC.Z, KC.X, KC.C, KC.V, KC.B, KC.N, KC.M, KC.COMM, KC.DOT, KC.SLSH, KC.ENT,
ADJUST, KC.LCTL, KC.LALT, KC.LGUI, LOWER, KC.SPC, KC.SPC, RAISE, KC.LEFT, KC.DOWN, KC.UP, KC.RGHT,
],
# Colemak
# ,-----------------------------------------------------------------------------------.
# | Tab | Q | W | F | P | G | J | L | U | Y | ; | Bak |
# |------+------+------+------+------+-------------+------+------+------+------+------|
# | Esc | A | R | S | T | D | H | N | E | I | O | " |
# |------+------+------+------+------+------|------+------+------+------+------+------|
# | Shift| Z | X | C | V | B | K | M | , | . | / |Enter |
# |------+------+------+------+------+------+------+------+------+------+------+------|
# |Adjust| Ctrl | Alt | GUI |Lower |Space |Space |Raise | Left | Down | Up |Right |
# `-----------------------------------------------------------------------------------'
[
KC.TAB, KC.Q, KC.W, KC.F, KC.P, KC.G, KC.J, KC.L, KC.U, KC.Y, KC.SCLN, KC.BSPC,
KC.GESC, KC.A, KC.R, KC.S, KC.T, KC.D, KC.H, KC.N, KC.E, KC.I, KC.O, KC.QUOT,
KC.LSFT, KC.Z, KC.X, KC.C, KC.V, KC.B, KC.K, KC.M, KC.COMM, KC.DOT, KC.SLSH, KC.ENT,
ADJUST, KC.LCTL, KC.LALT, KC.LGUI, LOWER, KC.SPC, KC.SPC, RAISE, KC.LEFT, KC.DOWN, KC.UP, KC.RGHT,
],
# Dvorak
# ,-----------------------------------------------------------------------------------.
# | Tab | " | , | . | P | Y | F | G | C | R | L | Bak |
# |------+------+------+------+------+-------------+------+------+------+------+------|
# | Esc | A | O | E | U | I | D | H | T | N | S | / |
# |------+------+------+------+------+------|------+------+------+------+------+------|
# | Shift| ; | Q | J | K | X | B | M | W | V | Z |Enter |
# |------+------+------+------+------+------+------+------+------+------+------+------|
# |Adjust| Ctrl | Alt | GUI |Lower |Space |Space |Raise | Left | Down | Up |Right |
# `-----------------------------------------------------------------------------------'
[
KC.TAB, KC.QUOT, KC.COMM, KC.DOT, KC.P, KC.Y, KC.F, KC.G, KC.C, KC.R, KC.L, KC.BSPC,
KC.GESC, KC.A, KC.O, KC.E, KC.U, KC.I, KC.D, KC.H, KC.T, KC.N, KC.S, KC.SLSH,
KC.LSFT, KC.SCLN, KC.Q, KC.J, KC.K, KC.X, KC.B, KC.M, KC.W, KC.V, KC.Z, KC.ENT,
ADJUST, KC.LCTL, KC.LALT, KC.LGUI, LOWER, KC.SPC, KC.SPC, RAISE, KC.LEFT, KC.DOWN, KC.UP, KC.RGHT,
],
# Lower
# ,-----------------------------------------------------------------------------------.
# | ~ | ! | @ | # | $ | % | ^ | & | * | ( | ) | Del |
# |------+------+------+------+------+-------------+------+------+------+------+------|
# | Del | F1 | F2 | F3 | F4 | F5 | F6 | . | + | | \ | | |
# |------+------+------+------+------+------|------+------+------+------+------+------|
# | | F7 | F8 | F9 | F10 | F11 | F12 |ISO ~ |ISO | | | |Enter |
# |------+------+------+------+------+------+------+------+------+------+------+------|
# | | | | | | | | Next | Vol- | Vol+ | Play |
# `-----------------------------------------------------------------------------------'
[
KC.TILD, KC.EXLM, KC.AT, KC.HASH, KC.DLR, KC.PERC, KC.CIRC, KC.AMPR, KC.ASTR, KC.LPRN, KC.RPRN, KC.DEL,
KC.DEL, KC.F1, KC.F2, KC.F3, KC.F4, KC.F5, KC.F6, KC.UNDS, KC.PLUS, KC.LCBR, KC.RCBR, KC.PIPE,
_______, KC.F7, KC.F8, KC.F9, KC.F10, KC.F11, KC.F12, KC.NUHS, KC.NUBS, _______, _______, _______,
_______, _______, _______, _______, _______, _______, _______, _______, KC.MNXT, KC.VOLD, KC.VOLU, KC.MPLY,
],
# Raise
# ,-----------------------------------------------------------------------------------.
# | ` | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 0 | Del |
# |------+------+------+------+------+-------------+------+------+------+------+------|
# | Del | F1 | F2 | F3 | F4 | F5 | F6 | - | = | [ | ] | \ |
# |------+------+------+------+------+------|------+------+------+------+------+------|
# | | F7 | F8 | F9 | F10 | F11 | F12 |ISO # |ISO / | | |Enter |
# |------+------+------+------+------+------+------+------+------+------+------+------|
# | | | | | | | | Next | Vol- | Vol+ | Play |
# `-----------------------------------------------------------------------------------'
[
KC.GRV, KC.N1, KC.N2, KC.N3, KC.N4, KC.N5, KC.N6, KC.N7, KC.N8, KC.N9, KC.N0, KC.DEL,
KC.DEL, KC.F1, KC.F2, KC.F3, KC.F4, KC.F5, KC.F6, KC.MINS, KC.EQL, KC.LBRC, KC.RBRC, KC.BSLS,
_______, KC.F7, KC.F8, KC.F9, KC.F10, KC.F11, KC.F12, KC.NUHS, KC.NUBS, _______, _______, _______,
_______, _______, _______, _______, _______, _______, _______, _______, KC.MNXT, KC.VOLD, KC.VOLU, KC.MPLY,
],
# Adjust
# ,-----------------------------------------------------------------------------------.
# | | Reset|RGB Tg|RGB Md|Hue Up|Hue Dn|Sat Up|Sat Dn|Val Up|Val Dn| | Del |
# |------+------+------+------+------+-------------+------+------+------+------+------|
# | | | | | | | |Qwerty|Colemk|Dvorak| | |
# |------+------+------+------+------+------|------+------+------+------+------+------|
# | | | | | | | | | | | | |
# |------+------+------+------+------+------+------+------+------+------+------+------|
# | | | | | | | | | | | |
# `-----------------------------------------------------------------------------------'
[
_______, _______, KC.RGB.TOG, KC.RGB.MOD, KC.RGB.HUD, KC.RGB.HUI, KC.RGB.SAD, KC.RGB.SAI, KC.RGB.VAD, KC.RGB.VAI, _______, KC.DEL,
_______, _______, _______, _______, _______, _______, _______, KC.DF(0), KC.DF(1), KC.DF(2), _______, _______,
_______, _______, _______, _______, _______, _______, _______, _______, _______, _______, _______, _______,
_______, _______, _______, _______, _______, _______, _______, _______, _______, _______, _______, _______,
],
]
if __name__ == '__main__':
keyboard.go()

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@ -0,0 +1,16 @@
# Nyquist Rev 2
A split keyboard with a 5x6 layout
kb.py is designed to work with the nice!nano
kb_converter.py is designed to work with an itsybitsy with converter board found [here](https://github.com/KMKfw/kmk_firmware/tree/master/hardware)
Extentions enabled by default
- [Layers](https://github.com/KMKfw/kmk_firmware/tree/master/docs/layers.md) Need more keys than switches? Use layers.
- [RGB](https://github.com/KMKfw/kmk_firmware/tree/master/docs/rgb.md) Light it up
- [BLE_Split](https://github.com/KMKfw/kmk_firmware/tree/master/docs/split.md) Connects halves without wires
Common Extentions
- [Split](https://github.com/KMKfw/kmk_firmware/tree/master/docs/split.md) Connects halves using a wire
- [Power](https://github.com/KMKfw/kmk_firmware/tree/master/docs/power.md) Powersaving features for battery life

View File

@ -0,0 +1,23 @@
import board
from kmk.kmk_keyboard import KMKKeyboard as _KMKKeyboard
from kmk.matrix import DiodeOrientation
class KMKKeyboard(_KMKKeyboard):
row_pins = (board.P0_22, board.P1_00, board.P0_11, board.P1_04, board.P1_06)
col_pins = (
board.P0_08,
board.P0_29,
board.P0_02,
board.P1_15,
board.P1_13,
board.P1_11,
)
diode_orientation = DiodeOrientation.COLUMNS
rgb_pixel_pin = board.P0_06
rgb_num_pixels = 12
data_pin = board.P0_08
led_pin = board.P0_09
i2c = board.I2C
powersave_pin = board.P0_13

View File

@ -11,7 +11,7 @@ class KMKKeyboard(_KMKKeyboard):
split_type = 'UART'
split_flip = True
split_offsets = [6, 6, 6, 6, 6]
uart_pin = board.SCL
data_pin = board.SCL
rgb_num_pixels = 12
rgb_pixel_pin = board.TX
extra_data_pin = board.SDA
data_pin2 = board.SDA

View File

@ -1,8 +1,22 @@
from kmk.boards.converter.keebio.nyquist_r2 import KMKKeyboard
from kb import KMKKeyboard
from kmk.extensions.rgb import RGB
from kmk.keys import KC
from kmk.modules.layers import Layers
from kmk.modules.split import Split, SplitSide, SplitType
keyboard = KMKKeyboard()
rgb_ext = RGB(pixel_pin=keyboard.rgb_pixel_pin, num_pixels=keyboard.rgb_num_pixels)
layers_ext = Layers()
# TODO Comment one of these on each side
split_side = SplitSide.LEFT
split_side = SplitSide.RIGHT
split = Split(split_type=SplitType.BLE, split_side=split_side)
keyboard.modules = [layers_ext, split]
keyboard.extensions = [rgb_ext]
_______ = KC.TRNS
XXXXXXX = KC.NO

View File

@ -3,6 +3,7 @@ import board
from kmk.kmk_keyboard import KMKKeyboard as _KMKKeyboard
from kmk.matrix import DiodeOrientation
from kmk.matrix import intify_coordinate as ic
from kmk.modules.layers import Layers
# Implements what used to be handled by KMKKeyboard.swap_indicies for this
# board, by flipping various row3 (bottom physical row) keys so their
@ -40,3 +41,6 @@ class KMKKeyboard(_KMKKeyboard):
coord_mapping.extend(ic(1, x) for x in range(12))
coord_mapping.extend(ic(2, x) for x in range(12))
coord_mapping.extend(ic(3, r3_swap(x)) for x in range(12))
layers_ext = Layers()
modules = [layers_ext]

20
boards/lily58/README.md Normal file
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@ -0,0 +1,20 @@
# Lily 58 Pro
![Lily58](https://boardsource.imgix.net/af3d8d6d-5fbe-4578-a2ba-d09d7686fb29.jpg?raw=true)
The Lily58 is a 58 key split keyboard design by kata0510, featuring a 6x4 columnar stagger and 4 thumb cluster keys on each hand. The Lily58 is a perfect choice for people who want to be on a split keyboard but still want to have a fairly standard amount of keys.
Hardware Availability: [PCB & Case Source](https://github.com/kata0510/Lily58)
kb.py is designed to work with the nice!nano
Retailers (USA)
[Boardsource](https://boardsource.xyz/store/5ec9df84c6b834480de6c3d0)
Extentions enabled by default
- [Layers](https://github.com/KMKfw/kmk_firmware/tree/master/docs/layers.md) Need more keys than switches? Use layers.
- [RGB](https://github.com/KMKfw/kmk_firmware/tree/master/docs/rgb.md) Light it up
- [BLE_Split](https://github.com/KMKfw/kmk_firmware/tree/master/docs/split.md) Connects halves without wires
Common Extentions
- [Split](https://github.com/KMKfw/kmk_firmware/tree/master/docs/split.md) Connects halves using a wire
- [Power](https://github.com/KMKfw/kmk_firmware/tree/master/docs/power.md) Powersaving features for battery life

32
boards/lily58/kb.py Normal file
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@ -0,0 +1,32 @@
import board
from kmk.kmk_keyboard import KMKKeyboard as _KMKKeyboard
from kmk.matrix import DiodeOrientation
from kmk.matrix import intify_coordinate as ic
class KMKKeyboard(_KMKKeyboard):
col_pins = (
board.P0_31,
board.P0_29,
board.P0_02,
board.P1_15,
board.P1_13,
board.P1_11,
)
row_pins = (board.P0_22, board.P0_24, board.P1_00, board.P0_11)
diode_orientation = DiodeOrientation.COLUMNS
uart_pin = board.P0_08
rgb_pixel_pin = board.P0_06
data_pin = board.P0_08
i2c = board.I2C
powersave_pin = board.P0_13
coord_mapping = []
coord_mapping.extend(ic(0, x) for x in range(12))
coord_mapping.extend(ic(1, x) for x in range(12))
coord_mapping.extend(ic(2, x) for x in range(12))
coord_mapping.extend(ic(3, x) for x in range(12))
# And now, to handle R4, which at this point is down to just ten keys
coord_mapping.extend(ic(4, x) for x in range(1, 11))

66
boards/lily58/main.py Normal file
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@ -0,0 +1,66 @@
from kb import KMKKeyboard, rgb_pixel_pin
from kmk.extensions.ble_split import BLE_Split
from kmk.extensions.layers import Layers
from kmk.extensions.rgb import RGB
from kmk.keys import KC
keyboard = KMKKeyboard()
# Cleaner key names
_______ = KC.TRNS
XXXXXXX = KC.NO
LOWER = KC.MO(1)
RAISE = KC.MO(2)
ADJUST = KC.LT(3, KC.SPC)
RGB_TOG = KC.RGB_TOG
RGB_HUI = KC.RGB_HUI
RGB_HUD = KC.RGB_HUI
RGB_SAI = KC.RGB_SAI
RGB_SAD = KC.RGB_SAD
RGB_VAI = KC.RGB_VAI
RGB_VAD = KC.RGB_VAD
# Adding extentions
rgb = RGB(pixel_pin=rgb_pixel_pin, num_pixels=27, val_limit=100, hue_default=190, sat_default=100, val_default=5)
# TODO Comment one of these on each side
# Left is 0, Right is 1
split_side = 0
split_side = 1
split = BLE_Split(split_side=split_side)
layers_ext = Layers()
extensions = [layers_ext, split, rgb]
keyboard.keymap = [
[ #QWERTY
KC.TAB, KC.Q, KC.W, KC.E, KC.R, KC.T, KC.Y, KC.U, KC.I, KC.O, KC.P, KC.BSPC,\
KC.LCTL, KC.A, KC.S, KC.D, KC.F, KC.G, KC.H, KC.J, KC.K, KC.L, KC.SCLN, KC.QUOT,\
KC.LSFT, KC.Z, KC.X, KC.C, KC.V, KC.B, KC.N, KC.M, KC.COMM, KC.DOT, KC.SLSH, KC.RSFT,\
KC.LGUI, LOWER, ADJUST, KC.ENT, RAISE, KC.RALT,
],
[ #LOWER
KC.ESC, KC.N1, KC.N2, KC.N3, KC.N4, KC.N5, KC.N6, KC.N7, KC.N8, KC.N9, KC.N0, KC.BSPC,\
KC.LCTL, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, KC.LEFT, KC.DOWN, KC.UP, KC.RIGHT, XXXXXXX, XXXXXXX,\
KC.LSFT, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX,\
KC.LGUI, LOWER, ADJUST, KC.ENT, RAISE, KC.RALT,
],
[ #RAISE
KC.ESC, KC.EXLM, KC.AT, KC.HASH, KC.DLR, KC.PERC, KC.CIRC, KC.AMPR, KC.ASTR, KC.LPRN, KC.RPRN, KC.BSPC,\
KC.LCTL, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, KC.MINS, KC.EQL, KC.LCBR, KC.RCBR, KC.PIPE, KC.GRV,\
KC.LSFT, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, KC.UNDS, KC.PLUS, KC.LBRC, KC.RBRC, KC.BSLS, KC.TILD,\
KC.LGUI, LOWER, ADJUST, KC.ENT, RAISE, KC.RALT,
],
[ #ADJUST
RGB_TOG, RGB_HUI, RGB_SAI, RGB_VAI, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX,\
XXXXXXX, RGB_HUD, RGB_SAD, RGB_VAD, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX,\
XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX,\
KC.LGUI, LOWER, ADJUST, KC.ENT, RAISE, KC.RALT,
]
]
if __name__ == '__main__':
keyboard.go()

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@ -0,0 +1,20 @@
# Reviung39
![Reviung39](https://boardsource.imgix.net/d6215164-6100-4b72-b355-1a67b7704463.jpg?raw=true)
Reviung39 is a 39 key keyboard designed by gtips. The Reviung39 sits somewhere between an Atreus and a Corne, you get some nice ergonomic benefits based on its quasi-split design and since a true split keyboard isn't for everyone, this is an awesome middle ground. I find this keyboard extremely comfortable to use.
kb.py is designed to work with the nice!nano
Hardware Availability: [PCB & Case Data](https://github.com/gtips/reviung)
Retailers (USA)
[Boardsource](https://boardsource.xyz/store/5ecb734486879c9a0c22dab3)
Extentions enabled by default
- [Layers](https://github.com/KMKfw/kmk_firmware/tree/master/docs/layers.md) Need more keys than switches? Use layers.
- [RGB](https://github.com/KMKfw/kmk_firmware/tree/master/docs/rgb.md) Light it up
- [ModTap](https://github.com/KMKfw/kmk_firmware/tree/master/docs/modtap.md) Allows mod keys to act as different keys when tapped.
Common Extentions
- [Power](https://github.com/KMKfw/kmk_firmware/tree/master/docs/power.md) Powersaving features for battery life

27
boards/reviung39/kb.py Normal file
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@ -0,0 +1,27 @@
import board
from kmk.kmk_keyboard import KMKKeyboard as _KMKKeyboard
from kmk.matrix import DiodeOrientation
class KMKKeyboard(_KMKKeyboard):
row_pins = (
board.P0_31,
board.P0_29,
board.P0_02,
board.P1_15,
board.P1_13,
board.P1_11,
board.P0_10,
)
col_pins = (
board.P0_22,
board.P0_24,
board.P1_00,
board.P0_11,
board.P1_04,
board.P1_06,
)
diode_orientation = DiodeOrientation.COLUMNS
i2c = board.I2C
powersave_pin = board.P0_13

48
boards/reviung39/main.py Normal file
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@ -0,0 +1,48 @@
from kb import KMKKeyboard
from kmk.extensions.rgb import RGB
from kmk.keys import KC
from kmk.modules.layers import Layers
from kmk.modules.modtap import ModTap
keyboard = KMKKeyboard()
# Adding extentions
rgb = RGB(pixel_pin=keyboard.rgb_pixel_pin, num_pixels=keyboard.rgb_num_pixels, val_limit=100, hue_default=190, sat_default=100, val_default=5)
modtap = ModTap()
layers_ext = Layers()
keyboard.modules = [layers_ext, modtap]
keyboard.extensions = [rgb]
# Cleaner key names
_______ = KC.TRNS
XXXXXXX = KC.NO
LOWER = KC.MO(1)
RAISE = KC.MO(2)
keyboard.keymap = [
[ #QWERTY
KC.ESC, KC.N1, KC.N2, KC.N3, KC.N4, KC.N5, KC.N6, KC.N7, KC.N8, KC.N9, KC.N0, KC.GRV,
KC.TAB, KC.Q, KC.W, KC.E, KC.R, KC.T, KC.Y, KC.U, KC.I, KC.O, KC.P, KC.MINS,
KC.LCTRL, KC.A, KC.S, KC.D, KC.F, KC.G, KC.H, KC.J, KC.K, KC.L, KC.SCLN, KC.QUOT,
KC.LSFT, KC.Z, KC.X, KC.C, KC.V, KC.B, KC.LBRC, KC.RBRC, KC.N, KC.M, KC.COMM, KC.DOT, KC.SLSH, KC.RSFT,
KC.LALT, KC.LGUI, LOWER, KC.SPC, KC.ENT, RAISE, KC.BSPC, KC.RGUI
],
[ #LOWER
KC.F1, KC.F2, KC.F3, KC.F4, KC.F5, KC.F6, KC.F7, KC.F8, KC.F9, KC.F10, KC.F11, KC.F12,
KC.GRV, KC.EXLM, KC.AT, KC.HASH, KC.DLR, KC.PERC, KC.CIRC, KC.AMPR, KC.ASTR, KC.LPRN, KC.RPRN, KC.TILD,
_______, _______, _______, _______, _______, _______, _______, _______, XXXXXXX, KC.UNDS, KC.PLUS, KC.LCBR, KC.RCBR, KC.PIPE,
_______, _______, _______, _______, _______, _______, _______, _______
],
[ #RAISE
KC.GRV, KC.N1, KC.N2, KC.N3, KC.N4, KC.N5, KC.N6, KC.N7, KC.N8, KC.N9, KC.N0, _______,
KC.F1, KC.F2, KC.F3, KC.F4, KC.F5, KC.F6, XXXXXXX, KC.LEFT, KC.DOWN, KC.UP, KC.RGHT, XXXXXXX,
KC.F7, KC.F8, KC.F9, KC.F10, KC.F11, KC.F12, _______, _______, KC.PLUS, KC.MINS, KC.EQL, KC.LBRC, KC.RBRC, KC.BSLS,
_______, _______, _______, _______, _______, _______, _______, _______
]
]
if __name__ == '__main__':
keyboard.go()

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# Reviung41
![Reviung41](https://boardsource.imgix.net/ea77f3f8-6cc4-4cb4-a801-cf58b5af8fcc.jpg?raw=true)
The Reviung41 is a 41 key keyboard designed by gtips, it is a slightly larger version of the popular Reviung 39. These "split non-split" keyboards offer a lot of features split keyboards have in terms of comfort and ergonomics but do so in a single-piece package. Many people consider keyboards in this style easier to travel with since you don't have to manage two halves and there is of course no need for a TRRS cable. This board sits somewhere between and Atreus and Corne, and it is extremely comfortable to use.
kb.py is designed to work with the nice!nano
Hardware Availability: [PCB & Case Data](https://github.com/gtips/reviung/tree/master/reviung41)
Retailers (USA)
[Boardsource](https://boardsource.xyz/store/5f2ef1b52bf5e8714a60f613)
Extentions enabled by default
- [Layers](https://github.com/KMKfw/kmk_firmware/tree/master/docs/layers.md) Need more keys than switches? Use layers.
- [RGB](https://github.com/KMKfw/kmk_firmware/tree/master/docs/rgb.md) Light it up
- [ModTap](https://github.com/KMKfw/kmk_firmware/tree/master/docs/modtap.md) Allows mod keys to act as different keys when tapped.
Common Extentions
- [Power](https://github.com/KMKfw/kmk_firmware/tree/master/docs/power.md) Powersaving features for battery life

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import board
from kmk.kmk_keyboard import KMKKeyboard as _KMKKeyboard
from kmk.matrix import DiodeOrientation
from kmk.matrix import intify_coordinate as ic
class KMKKeyboard(_KMKKeyboard):
col_pins = (
board.P0_22,
board.P0_24,
board.P1_00,
board.P0_11,
board.P1_04,
board.P1_06,
)
row_pins = (
board.P0_31,
board.P0_29,
board.P0_02,
board.P1_15,
board.P1_13,
board.P1_11,
board.P0_10,
)
diode_orientation = DiodeOrientation.COLUMNS
rgb_pixel_pin = board.P0_06
rgb_num_pixels = 11
i2c = board.I2C
powersave_pin = board.P0_13
coord_mapping = []
coord_mapping.extend(ic(0, x) for x in range(12))
coord_mapping.extend(ic(1, x) for x in range(12))
coord_mapping.extend(ic(2, x) for x in range(12))
# And now, to handle R3, which at this point is down to just five keys
coord_mapping.extend(ic(3, x) for x in range(5))

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from kb import KMKKeyboard
from kmk.extensions.rgb import RGB
from kmk.keys import KC
from kmk.modules.layers import Layers
from kmk.modules.modtap import ModTap
keyboard = KMKKeyboard()
# Adding extentions
rgb = RGB(pixel_pin=keyboard.rgb_pixel_pin, num_pixels=keyboard.rgb_num_pixels, val_limit=100, hue_default=190, sat_default=100, val_default=5)
modtap = ModTap()
layers_ext = Layers()
keyboard.modules = [layers_ext, modtap]
keyboard.extensions = [rgb]
# Cleaner key names
_______ = KC.TRNS
XXXXXXX = KC.NO
LOWER = KC.MO(1)
RAISE = KC.MO(2)
ADJUST = KC.LT(3, KC.SPC)
RSFT_ENT = KC.MT(KC.ENT, KC.RSFT)
RSFT_SPC = KC.MT(KC.SPC, KC.RSFT)
RGB_TOG = KC.RGB_TOG
RGB_HUI = KC.RGB_HUI
RGB_HUD = KC.RGB_HUI
RGB_SAI = KC.RGB_SAI
RGB_SAD = KC.RGB_SAD
RGB_VAI = KC.RGB_VAI
RGB_VAD = KC.RGB_VAD
keyboard.keymap = [
[ #QWERTY
KC.TAB, KC.Q, KC.W, KC.E, KC.R, KC.T, KC.Y, KC.U, KC.I, KC.O, KC.P, KC.BSPC,
KC.LCTL, KC.A, KC.S, KC.D, KC.F, KC.G, KC.H, KC.J, KC.K, KC.L, KC.SCLN, KC.QUOT,
KC.LSFT, KC.Z, KC.X, KC.C, KC.V, KC.B, KC.N, KC.M, KC.COMM, KC.DOT, KC.SLSH, RSFT_ENT,
KC.LALT, LOWER, KC.SPC, RAISE, KC.RGUI,
],
[ #LOWER
KC.ESC, KC.N1, KC.N2, KC.N3, KC.N4, KC.N5, KC.N6, KC.N7, KC.N8, KC.N9, KC.N0, KC.BSPC,
KC.LCTL, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, KC.LEFT, KC.DOWN, KC.UP, KC.RIGHT, XXXXXXX, XXXXXXX,
KC.LSFT, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, RSFT_SPC,
KC.LALT, LOWER, KC.SPC, RAISE, KC.RGUI,
],
[ #RAISE
KC.ESC, KC.EXLM, KC.AT, KC.HASH, KC.DLR, KC.PERC, KC.CIRC, KC.AMPR, KC.ASTR, KC.LPRN, KC.RPRN, KC.BSPC,
KC.LCTL, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, KC.MINS, KC.EQL, KC.LCBR, KC.RCBR, KC.PIPE, KC.GRV,
KC.LSFT, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, KC.UNDS, KC.PLUS, KC.LBRC, KC.RBRC, KC.BSLS, KC.TILD,
KC.LALT, LOWER, KC.SPC, RAISE, KC.RGUI,
],
[ #ADJUST
RGB_TOG, RGB_HUI, RGB_SAI, RGB_VAI, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX,
XXXXXXX, RGB_HUD, RGB_SAD, RGB_VAD, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX,
XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX,
KC.LALT, LOWER, KC.SPC, RAISE, KC.RGUI,
]
]
if __name__ == '__main__':
keyboard.go()

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# Rhymestone
![rhymestone](https://boardsource.imgix.net/0968c21e-ed0c-47ec-ae5e-511ec6eb3bd2.jpg?raw=true)
The Rhymestone is 40-key ortholinear split keyboard. Originally the Rhymestone was created to be sold alongside the Treadstone and used as either a Macro pad or a 10-key numpad, hence the similar naming conventions. However; the Rhymestone is also often used as a standalone split keyboard by people who prefer a 5 column ortholinear layout.
kb.py is designed to work with the nice!nano
Retailers (USA)
[Boardsource](https://boardsource.xyz/store/5ecb6aee86879c9a0c22da89)
Extentions enabled by default
- [Layers](https://github.com/KMKfw/kmk_firmware/tree/master/docs/layers.md) Need more keys than switches? Use layers.
- [BLE_Split](https://github.com/KMKfw/kmk_firmware/tree/master/docs/split.md) Connects halves without wires
- [ModTap](https://github.com/KMKfw/kmk_firmware/tree/master/docs/modtap.md) Allows mod keys to act as different keys when tapped.
Common Extentions
- [Split](https://github.com/KMKfw/kmk_firmware/tree/master/docs/split.md) Connects halves using a wire
- [Power](https://github.com/KMKfw/kmk_firmware/tree/master/docs/power.md) Powersaving features for battery life

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import board
from kmk.kmk_keyboard import KMKKeyboard as _KMKKeyboard
from kmk.matrix import DiodeOrientation
class KMKKeyboard(_KMKKeyboard):
row_pins = (board.P0_31, board.P0_29, board.P0_02, board.P1_15)
col_pins = (board.P0_22, board.P0_24, board.P1_00, board.P0_11, board.P1_04)
diode_orientation = DiodeOrientation.COLUMNS
rgb_pixel_pin = board.P0_06
rgb_num_pixels = 40
data_pin = board.P0_08
i2c = board.I2C
powersave_pin = board.P0_13

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from kb import KMKKeyboard
from kmk.extensions.layers import Layers
from kmk.extensions.split import Split, SplitSide, SplitType
from kmk.keys import KC
keyboard = KMKKeyboard()
# TODO Comment one of these on each side
split_side = SplitSide.LEFT
split_side = SplitSide.RIGHT
split = Split(split_type=SplitType.BLE, split_side=split_side)
layers_ext = Layers()
keyboard.extensions = [layers_ext, split]
# Cleaner key names
_______ = KC.TRNS
XXXXXXX = KC.NO
LOWER = KC.MO(2)
RAISE = KC.MO(1)
KC_Z_SF = KC.LSFT(KC.Z)
KC_SLSF = KC.RSFT(KC.SLSH)
KC_11SF = KC.LSFT(KC.F11)
KC_GRSF = KC.RSFT(KC.GRV)
keyboard.keymap = [
[ #QWERTY
KC.Q, KC.W, KC.E, KC.R, KC.T, KC.Y, KC.U, KC.I, KC.O, KC.P,
KC.A, KC.S, KC.D, KC.F, KC.G, KC.H, KC.J, KC.K, KC.L, KC.ENT,
KC.Z_SF, KC.X, KC.C, KC.V, KC.B, KC.N, KC.M, KC.COMM, KC.DOT, KC.SLSF,
KC.LCTL, KC.LALT, KC.LGUI, LOWER, KC.BSPC, KC.SPC, RAISE, KC.RGUI, KC.APP, KC.RCTL
],
[ #RAISE
KC.N1, KC.N2, KC.N3, KC.N4, KC.N5, KC.N6, KC.N7, KC.N8, KC.N9, KC.N0,
KC.LSFT, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, KC.LEFT, KC.DOWN, KC.UP, KC.RGHT, KC.RSFT,
XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, XXXXXXX, KC.MINS, KC.RO, KC.COMM, KC.DOT, KC.SLSF,
_______, _______, _______, _______, _______, _______, _______, _______, _______, _______
],
[ #LOWER
KC.F1, KC.F2, KC.F3, KC.F4, KC.F5, KC.MINS, KC.EQL, KC.LBRC, KC.RBRC, KC.BSLS,
KC.F6, KC.F7, KC.F8, KC.F9, KC.F10, XXXXXXX, XXXXXXX, XXXXXXX, KC.SCLN, KC.QUOT,
KC.N11SF, KC.F12, KC.ESC, KC.TAB, _______, KC.DEL, XXXXXXX, XXXXXXX, KC.RO, KC.GRSF,
_______, _______, _______, _______, KC.DEL, _______, _______, _______, _______, _______
]
]
if __name__ == '__main__':
keyboard.go()

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# TG4X
![TG4X](https://boardsource.imgix.net/d50e1163-06dd-4c18-826e-caacd0a4a33d.jpg?raw=true)
TG4X is a 45% staggered keyboard, compared to a standard 40% stagger it has one additional column which makes it an approachable and highly use-able 40%-ish stagger.
kb.py is designed to work with the nice!nano
Retailers (USA)
[Boardsource](https://boardsource.xyz/store/5eff7ead037395179221b90c)
Extentions enabled by default
- [Layers](https://github.com/KMKfw/kmk_firmware/tree/master/docs/layers.md) Need more keys than switches? Use layers.
- [RGB](https://github.com/KMKfw/kmk_firmware/tree/master/docs/rgb.md) Light it up
Common Extentions
- [Power](https://github.com/KMKfw/kmk_firmware/tree/master/docs/power.md) Powersaving features for battery life

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import board
from kmk.kmk_keyboard import KMKKeyboard as _KMKKeyboard
from kmk.matrix import DiodeOrientation
class KMKKeyboard(_KMKKeyboard):
row_pins = (
board.P1_06,
board.P1_04,
board.P0_11,
board.P1_00,
board.P0_24,
board.P0_22,
board.P0_20,
board.P0_17,
)
col_pins = [
board.P0_06,
board.P1_11,
board.P1_13,
board.P1_15,
board.P0_02,
board.P0_29,
board.P0_31,
]
diode_orientation = DiodeOrientation.COLUMNS
rgb_pixel_pin = board.P0_08
rgb_num_pixels = 6
i2c = board.I2C
powersave_pin = board.P0_13

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from kb import KMKKeyboard
from kmk.extensions.rgb import RGB
from kmk.keys import KC
from kmk.modules.layers import Layers
keyboard = KMKKeyboard()
# Cleaner key names
_______ = KC.TRNS
XXXXXXX = KC.NO
# Adding extentions
rgb = RGB(pixel_pin=keyboard.rgb_pixel_pin, num_pixels=keyboard.rgb_num_pixels, val_limit=100, hue_default=190, sat_default=100, val_default=5)
layers_ext = Layers()
keyboard.modules = [layers_ext]
keyboard.extensions = [rgb]
keyboard.keymap = [
[ #QWERTY
KC.ESC, KC.Q, KC.W, KC.E, KC.R, KC.T, KC.Y, KC.U, KC.I, KC.O, KC.P, KC.MINS, KC.DEL,\
KC.TAB, KC.A, KC.S, KC.D, KC.F, KC.G, KC.H, KC.J, KC.K, KC.L, KC.QUOT, KC.ENT,\
KC.LSFT, KC.Z, KC.X, KC.C, KC.V, KC.B, KC.N, KC.M, KC.COMM, KC.DOT, KC.SLSH, KC.RSFT,\
KC.LCTL, KC.LGUI, KC.LALT, KC.SPACE, KC.SPACE, KC.RALT, KC.RGUI, KC.RCTL, KC.MO(1)\
],
[ #LOWER
_______, _______, _______, _______, _______, _______, _______, _______, _______, _______, _______, _______, _______,
_______, _______, _______, _______, _______, _______, _______, _______, _______, _______, _______, _______,
_______, _______, _______, _______, _______, _______, _______, _______, _______, _______, _______, _______,
_______, _______, _______, _______, _______, _______, _______, _______, _______
],
]
if __name__ == '__main__':
keyboard.go()

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@ -1,3 +1,3 @@
import supervisor
supervisor.set_next_stack_limit(4096 + 1024)
supervisor.set_next_stack_limit(4096 + 4096)

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# Getting Started
## Microcontrollers
KMK will run on most microcontrollers supported by
[Circuitpython](https://circuitpython.org/downloads). Our recommended
microcontrollers are found [here](Officially_Supported_Microcontrollers.md)
## Firmware
### KMKPython
KMKPython is a fork of Circuitpython, but with libraries for most extensions
built in. This saves you from having to get them all and keep them updated
yourself. There may be other features added in the future that are exclusive to
KMKPython. For the nice!nano, this is highly recommended, and used in place of
Circuitpython.
Notable differences include
- Built in libraries for bluetooth, RGB, and more
- Saves space as builds are optimized for keyboards
- Microcontrollers like the nice!nano will be able to access all features out of
the box.
### Circuitpython
Circuitpython can be installed by following this guide using the guide
[here](https://learn.adafruit.com/welcome-to-circuitpython/installing-circuitpython).
It's recommended to run the latest stable version that is at least 5.0 or higher.
Beta versions may work, but expect limited support.
#### Notable differences include
- Supports more devices
- Less built in libraries. If using RGB, bluetooth, and more, you will have to
add these libraries yourself
- Some devices such as the nice!nano don't have much free space, so not all
features can be installed at the same time
## Getting KMK
You can always find the latest releases on our CDN, in
[compiled and optimized](https://cdn.kmkfw.io/kmk-latest.zip) and
[raw, hackable text file](https://cdn.kmkfw.io/kmk-latest.unoptimized.zip)
forms. These follow the `master` branch here on GitHub. Just get the KMK folder
and drop this directly in the CIRCUITPYTHON directory (not in a sub folder).
Make sure to extract the zip, and put the `kmk` folder on the root of the
CIRCUITPY drive on the microcontroller
## Turning a controller into a keyboard
### Supported keyboards
If your keyboard and microcontroller are officially supported, simply visit the
page for your files, and dropping them on the root of the "flash drive". Those
pages can be found [here](https://github.com/KMKfw/boards). You will need the
`kb.py` and `main.py`. More advanced instructions can be found
[here](config_and_keymap.md). If using Curcuitpython and NOT KMKPython, you will
also need [boot.py](https://github.com/KMKfw/kmk_firmware/blob/master/boot.py)
### Porting a keyboard
If you are porting a board to KMK, check the page [here](porting_to_kmk.md).
### Handwired Keyboard
If you are doing a hand wire, check [here](handwiring.md)
## Additional features
Want to have fun features such as RGB, split keyboards and more? Check out what
extensions can do [here](extensions.md)
## Debugging
Debugging help can be found [here](debugging.md)
## Additional help and support
If you need support with KMK or just want to say hi, find us in
[#kmkfw:klar.sh on Matrix](https://matrix.to/#/#kmkfw:klar.sh). This channel is
bridged to Discord [here](https://discordapp.com/widget?id=493256121075761173&theme=dark)
for convenience. If you ask for help on chat or open a bug report, if possible
please give us your commit SHA, found by running
`from kmk.consts import KMK_RELEASE; print(KMK_RELEASE)` in the REPL on your
controller.

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# Officially supported microcontrollers
While most Circuitpython devices are great for hand wired keyboards, most
keyboards are designed to accept a Pro Micro. The boards listed below either
are, or can be adapted to that pinout to use common keyboards already on the market.
## Nice!Nano
Features include
- Pro Micro pinout
- Both USB HID and Bluetooth support
- Can do bluetooth split keyboards with no wires at all
- Has battery support including charging
Downsides
- $25 USD per microcontroller at most retailers
Recommended Retailers
[Boardsource](https://boardsource.xyz/store/5f4a1733bbaa5c635b83ed67)
[NiceKeyboards](https://nicekeyboards.com/collections/group-buy/products/nice-nano-v1-0).
## ItsyBitsy M4 Express
Features include
- Affordable at $15 USD
- Can run most features of KMK including RGB
Downsides
- Needs adapted to work with Pro Micro pinout keyboards. Adapter can be found
[HERE](https://github.com/KMKfw/kmk_firmware/tree/master/hardware)
Recommended Retailers
[Adafruit](https://www.adafruit.com/product/3800)
## Adafruit ItsyBitsy nRF52840 Express
Features include
- Both USB HID and Bluetooth support
- More affordable than the Nice!Nano at only $18
Downsides
- Needs adapted to work with Pro Micro pinout keyboards. Adapter can be found
[HERE](https://github.com/KMKfw/kmk_firmware/tree/master/hardware)
- No battery support without addon board found
[HERE](https://www.adafruit.com/product/2124)
## Other microcontrollers
What you'll need to have at minimum
- CircuitPython/KMKpython
- 256KB of flash storage
- HID over USB and/or Bluetooth.

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# BLE HID
Bluetooth connections help clean up the wire mess!
## Circuitpython
If not running KMKpython, this does require the adafruit_ble library from Adafruit.
This can be downloaded
[here](https://github.com/adafruit/Adafruit_CircuitPython_BLE/tree/master/adafruit_ble).
It is part of the [Adafruit CircuitPython Bundle](https://github.com/adafruit/Adafruit_CircuitPython_Bundle).
Simply put this in the "root" of your circuitpython device. If unsure, it's the folder with main.py in it, and should be the first folder you see when you open the device.
## Enabling BLE
To enable BLE hid, change the keyboard.go(). By default, the advertised name
will be the name of the "flash drive". By default this is CIRCUITPY
```python
if __name__ == '__main__':
keyboard.go(hid_type=HIDModes.BLE)
```
## Changing the advertisee name
There are two ways to change the advertising name. The first would be to
[change the name of the drive](https://learn.adafruit.com/welcome-to-circuitpython/the-circuitpy-drive).
The second would be to change the keyboard.go() like this.
```python
if __name__ == '__main__':
keyboard.go(hid_type=HIDModes.BLE, ble_name='KMKeyboard')
```

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@ -2,9 +2,10 @@
KMK is configured through a rather large plain-old-Python class called
`KMKKeyboard`. Subclasses of this configuration exist which pre-fill defaults
for various known keyboards (for example, many Keebio keyboards are supported
through our ItsyBitsy to ProMicro pinout adapter). This class is the main
interface between end users and the inner workings of KMK. Let's dive in!
for various known keyboards (for example, many QMK, TMK, or ZMK keyboards
are supported with a nice!nano, or through our ItsyBitsy to ProMicro pinout adapter.
This class is the main interface between end users and the inner workings of KMK.
Let's dive in!
- Edit or create a file called `main.py` on your `CIRCUITPY` drive. You can also
keep this file on your computer (perhaps under `user_keymaps` - please feel
@ -17,9 +18,6 @@ interface between end users and the inner workings of KMK. Let's dive in!
corruption bugs, or you might just have bad luck and delete the wrong file
some day.
- Import the `KMKKeyboard` object for your keyboard from `kmk.boards` (or, if
handwiring your keyboard, import `KMKKeyboard` from `kmk.kmk_keyboard`).
- Assign a `KMKKeyboard` instance to a variable (ex. `keyboard = KMKKeyboard()` - note
the parentheses)
@ -77,29 +75,10 @@ keyboard.keymap = [[KC.A, KC.B]]
You can further define a bunch of other stuff:
- `debug_enabled` which will spew a ton of debugging information to the serial
- `keyboard.debug_enabled` which will spew a ton of debugging information to the serial
console. This is very rarely needed, but can provide very valuable information
if you need to open an issue.
- `unicode_mode` from `kmk.consts.UnicodeMode`, which defines the default
operating system implementation to use for unicode sequences (see examples
below, or `unicode.md`. This can be changed after boot with a key (see
`keycodes.md`)
- `keyboard.tap_time` which defines how long `KC.TT` and `KC.LT` will wait before
considering a key "held" (see `layers.md`)
- `tap_time` which defines how long `KC.TT` and `KC.LT` will wait before
considering a key "held" (see `keycodes.md`)
- `leader_dictionary`, which defines leader sequences (see `leader.md`), defined
as tuples of keycode objects (or you can use
`kmk.keycodes.generate_leader_dictionary_seq` with a string)
We also support unicode sequences (emojis, emoticons, umlauted letters,
whatever) if your operating system and system setup do! See `unicode.md` for
details.
[Here's a giant example of all the
above](https://github.com/KMKfw/kmk_firmware/blob/master/user_keymaps/klardotsh/klarank_featherm4.py).
This is my personal 4x12 matrix layout running on a Planck Rev6 PCB, with a
Feather M4 Express wired up to the outer matrix pins (in somewhat of a "spider"
setup), utilizing most of the above features - it's one of the "kitchen sink
tester" definitions we use on the KMK Core team.

View File

@ -3,7 +3,7 @@ Debug will output most of the useful state to the console. This can be enable in
by setting this in your keymap. NOTE that it will be slower, so only enable this when you
need debugging.
```python
DEBUG_ENABLE = True
keyboard.debug_enabled = True
```
The output can be viewed by connecting to the serial port of the keybord. Please refer to [THIS](https://learn.adafruit.com/welcome-to-circuitpython/kattni-connecting-to-the-serial-console) for

View File

@ -1,16 +0,0 @@
# Examples
Here you can find some examples of what some users have created in their personal keyboard configs. These are here to
help you understand how some of the tools may be used.
## Changing LED color based on layers
This allows you to create a layer key that also changes colors when pushing a layer key, and restore turn off the lights
when you release the layer key. The example uses the MO though any layer switch keys can be used if imported. Just use the
LAYER_1 key in your keymap, and it's ready to go! You can change animations, colors, or anything in there.
```python
LAYER_1 = KC.MO(1)
LAYER_1.after_press_handler(lambda *args, **kwargs: keyboard.pixels.set_hsv_fill(100, 100, 100))
LAYER_1.after_release_handler(lambda *args, **kwargs: keyboard.pixels.set_hsv_fill(0, 0, 0))
keyboard.keymap = [ ....... LAYER_1 ....... ]
```

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@ -0,0 +1,14 @@
# Extensions
Extensions add features that change the experience, but not the core features of
the keyboard. They are meant to be easy to add, and create your own. These live in
a sandbox to help prevent any bad code from crashing your keyboard.
## Core Extensions
These extensions are proveded in all builds and can be enabled. Currently offered
extensions are
- [International](international.md): Adds international keycodes
- [LED](led.md): Adds backlight support. This is for monocolor backlight, not RGB
- [MediaKeys](media_keys.md): Adds support for media keys such as volume
- [RGB](rgb.md): RGB lighting for underglow. Will work on most matrix RGB as will
be treated the same as underglow.

View File

@ -18,7 +18,7 @@ If you get permissions errors here, **don't run make as root or with sudo**. See
`Troubleshooting` below.
```sh
make MOUNTPOINT=/media/CIRCUITPY USER_KEYMAP=user_keymaps/nameofyourkeymap.py
make MOUNTPOINT=/media/CIRCUITPY USER_KEYMAP=user_keymaps/nameofyourkeymap.py BOARD=board/nameofyourboard/kb.py
```
# Troubleshooting

6
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@ -0,0 +1,6 @@
# Handwire keyboards
This guide will not talk about the physical wiring. Check out our
[recommended microcontrollers](Offiially_Supported_Microcontrollers.md) and
follow the amazing guide for that[here](https://docs.qmk.fm/#/hand_wire). That
guide can be followed until you are setting up the firmware. After wiring the
keyboard, you can refer to our porting guide [here](porting_to_kmk.md)

View File

@ -1,35 +0,0 @@
## Supported Devices
| Board | Chipset | Python Platform | Notes |
| ----- | ------- | --------------- | ----- |
| [Adafruit Feather M4 Express](https://www.adafruit.com/product/3857) | Atmel SAMD51 (Cortex M4F) | CircuitPython | An economical solution for basic USB keyboards |
| [Adafruit ItsyBitsy M4 Express](https://www.adafruit.com/product/3800) | Atmel SAMD51 (Cortex M4F) | CircuitPython | A smaller solution for basic USB keyboards |
| [Adafruit Feather NRF52840 Express](https://www.adafruit.com/product/4062) | Cortex M4F/nrf52840 | CircuitPython | Supports USB HID and soon BLE (Bluetooth) |
| [Seeed nRF52840 Micro Dev Kit](https://www.seeedstudio.com/nRF52840-Micro-Development-Kit-p-3079.html) | M4F/nrf52840 | CircuitPython | Supports USB HID and soon BLE (Bluetooth) |
## Support Planned/WIP
| Board | Chipset | Python Platform | Notes |
| ----- | ------- | --------------- | ----- |
| [Planck rev6 Keyboard](https://olkb.com/planck) | STM32F303 | CircuitPython | Requires porting CircuitPython to STM32F3. |
| [Proton C Controller?](https://olkb.com/parts/qmk-proton-c) | STM32F303CCT6 | CircuitPython | Requires porting CircuitPython to STM32F3. |
## Porting new devices
Pull requests are welcome and encouraged to add support for new
keyboards/microcontrollers. The base requirements for device support
- CircuitPython
- 256KB of flash storage
- HID over USB and/or Bluetooth.
## Secondary Support
In the future, secondary support for lesser controllers is planned. One of
these cases is the pro micro being used for a slave half of a split keyboard
while all actual work is being done by a supported board. This could also be
used to convert boards that use USB or i2c that run lesser chips to a KMK
board, with a supported board acting as a translation layer. Support for
a converter is planned with the inspiration coming from the [Hasu USB to
USB Controller Converter](https://www.1upkeyboards.com/shop/controllers/usb-to-usb-converter/)
and would allow for conversion to KMK as opposed to TMK or QMK with that board.

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@ -0,0 +1,35 @@
# International Keycodes
International extention adds keys for non US layouts. It can simply be added to
the extentions list.
```python
from kmk.extensions.international import International
keyboard.extensions.append(International())
```
## Keycodes
|Key |Aliases |Description |
|-----------------------|--------------------|-----------------------------------------------|
|`KC.NONUS_HASH` |`KC.NUHS` |Non-US `#` and `~` |
|`KC.NONUS_BSLASH` |`KC.NUBS` |Non-US `\` and <code>&#124;</code> |
|`KC.INT1` |`KC.RO` |JIS `\` and <code>&#124;</code> |
|`KC.INT2` |`KC.KANA` |JIS Katakana/Hiragana |
|`KC.INT3` |`KC.JYEN` |JIS `¥` |
|`KC.INT4` |`KC.HENK` |JIS Henkan |
|`KC.INT5` |`KC.MHEN` |JIS Muhenkan |
|`KC.INT6` | |JIS Numpad `,` |
|`KC.INT7` | |International 7 |
|`KC.INT8` | |International 8 |
|`KC.INT9` | |International 9 |
|`KC.LANG1` |`KC.HAEN` |Hangul/English |
|`KC.LANG2` |`KC.HANJ` |Hanja |
|`KC.LANG3` | |JIS Katakana |
|`KC.LANG4` | |JIS Hiragana |
|`KC.LANG5` | |JIS Zenkaku/Hankaku |
|`KC.LANG6` | |Language 6 |
|`KC.LANG7` | |Language 7 |
|`KC.LANG8` | |Language 8 |
|`KC.LANG9` | |Language 9 |

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@ -52,7 +52,6 @@
|`KC.LBRACKET` |`KC.LBRC` |`[` and `{` |
|`KC.RBRACKET` |`KC.RBRC` |`]` and `}` |
|`KC.BSLASH` |`KC.BSLS` |`\` and <code>&#124;</code> |
|`KC.NONUS_HASH` |`KC.NUHS` |Non-US `#` and `~` |
|`KC.SCOLON` |`KC.SCLN` |`;` and `:` |
|`KC.QUOTE` |`KC.QUOT` |`'` and `"` |
|`KC.GRAVE` |`KC.GRV`, `KC.ZKHK` |<code>&#96;</code> and `~`, JIS Zenkaku/Hankaku|
@ -102,7 +101,6 @@
|`KC.KP_9` |`KC.P9` |Keypad `9` and Page Up |
|`KC.KP_0` |`KC.P0` |Keypad `0` and Insert |
|`KC.KP_DOT` |`KC.PDOT` |Keypad `.` and Delete |
|`KC.NONUS_BSLASH` |`KC.NUBS` |Non-US `\` and <code>&#124;</code> |
|`KC.KP_EQUAL` |`KC.PEQL` |Keypad `=` |
|`KC.F13` | |F13 |
|`KC.F14` | |F14 |
@ -121,24 +119,6 @@
|`KC.LOCKING_SCROLL` |`KC.LSCR` |Locking Scroll Lock |
|`KC.KP_COMMA` |`KC.PCMM` |Keypad `,` |
|`KC.KP_EQUAL_AS400` | |Keypad `=` on AS/400 keyboards |
|`KC.INT1` |`KC.RO` |JIS `\` and <code>&#124;</code> |
|`KC.INT2` |`KC.KANA` |JIS Katakana/Hiragana |
|`KC.INT3` |`KC.JYEN` |JIS `¥` |
|`KC.INT4` |`KC.HENK` |JIS Henkan |
|`KC.INT5` |`KC.MHEN` |JIS Muhenkan |
|`KC.INT6` | |JIS Numpad `,` |
|`KC.INT7` | |International 7 |
|`KC.INT8` | |International 8 |
|`KC.INT9` | |International 9 |
|`KC.LANG1` |`KC.HAEN` |Hangul/English |
|`KC.LANG2` |`KC.HANJ` |Hanja |
|`KC.LANG3` | |JIS Katakana |
|`KC.LANG4` | |JIS Hiragana |
|`KC.LANG5` | |JIS Zenkaku/Hankaku |
|`KC.LANG6` | |Language 6 |
|`KC.LANG7` | |Language 7 |
|`KC.LANG8` | |Language 8 |
|`KC.LANG9` | |Language 9 |
|`KC.LCTRL` |`KC.LCTL` |Left Control |
|`KC.LSHIFT` |`KC.LSFT` |Left Shift |
|`KC.LALT` | |Left Alt |
@ -190,11 +170,10 @@
|Key |Description |
|-----------------------|---------------------------------------------------------------------|
|`KC.RESET` |Put the keyboard into DFU mode for flashing |
|`KC.RESET` |Restarts the keyboard |
|`KC.DEBUG` |Toggle `debug_enabled`, which enables log spew to serial console |
|`KC.GESC` |Escape when tapped, <code>&#96;</code> when pressed with Shift or GUI|
|`KC.BKDL` |Backspace when tapped, Delete when pressed with GUI |
|`KC.LEAD` |The [Leader key] |
|`KC.UC_MODE_NOOP` |Sets UnicodeMode to NOOP |
|`KC.UC_MODE_LINUX` |Sets UnicodeMode to Linux |
|`KC.UC_MODE_MACOS` |Sets UnicodeMode to MocOS |
@ -202,19 +181,6 @@
|`KC.MACRO_SLEEP_MS(ms)`|Sleeps in a macro. Check MACROS for more information. |
## [Layer Switching]
|Key |Description |
|-----------------|------------------------------------------------------------------------|
|`KC.DF(layer)` |Switches the default layer |
|`KC.MO(layer)` |Momentarily activates layer, switches off when you let go |
|`KC.LM(layer, mod)` |As `MO(layer)` but with `mod` active |
|`KC.LT(layer, kc)` |Momentarily activates layer if held, sends kc if tapped |
|`KC.TG(layer)` |Toggles the layer (enables it if no active, and vise versa) |
|`KC.TO(layer)` |Activates layer and deactivates all other layers |
|`KC.TT(layer)` |Momentarily activates layer if held, toggles it if tapped repeatedly |
## [Modifiers]
|Key |Description |
@ -230,41 +196,6 @@
|`KC.RALT(kc)`|Hold Right Alt and press `kc` |
|`KC.RGUI(kc)`|Hold Right GUI and press `kc` |
## [RGB/Underglow]
|Key |Aliases |Description |
|-----------------------------|-------------------|----------------------------|
|`KC.RGB_TOG` | |Toggles RGB |
|`KC.RGB_HUI` | |Increase Hue |
|`KC.RGB_HUD` | |Decrease Hue |
|`KC.RGB_SAI` | |Increase Saturation |
|`KC.RGB_SAD` | |Decrease Saturation |
|`KC.RGB_VAI` | |Increase Value |
|`KC.RGB_VAD` | |Decrease Value |
|`KC.RGB_MODE_PLAIN` |`RGB_M_P` |Static RGB |
|`KC.RGB_MODE_BREATHE` |`RGB_M_B` |Breathing animation |
|`KC.RGB_MODE_RAINBOW` |`RGB_M_R` |Rainbow animation |
|`KC.RGB_MODE_BREATHE_RAINBOW`|`RGB_M_BR` |Breathing rainbow animation |
|`KC.RGB_MODE_KNIGHT` |`RGB_M_K` |Knightrider animation |
## [Mod-Tap Keys]
|New Keycode | Description |
|-------------------------------------------------------|-----------------------------------------------------------------|
|LCTL = KC.MT(KC.SOMETHING, KC.LCTRL) |`LCTRL` if held `kc` if tapped |
|LSFT = KC.MT(KC.SOMETHING, KC.LSFT) |`LSHIFT` if held `kc` if tapped |
|LALT = KC.MT(KC.SOMETHING, KC.LALT) |`LALT` if held `kc` if tapped |
|LGUI = KC.MT(KC.SOMETHING, KC.LGUI) |`LGUI` if held `kc` if tapped |
|RCTL = KC.MT(KC.SOMETHING, KC.RCTRL) |`RCTRL` if held `kc` if tapped |
|RSFT = KC.MT(KC.SOMETHING, KC.RSFT) |`RSHIFT` if held `kc` if tapped |
|RALT = KC.MT(KC.SOMETHING, KC.RALT) |`RALT` if held `kc` if tapped |
|RGUI = KC.MT(KC.SOMETHING, KC.RGUI) |`RGUI` if held `kc` if tapped |
|SGUI = KC.MT(KC.SOMETHING, KC.LSHFT(KC.LGUI)) |`LSHIFT` and `LGUI` if held `kc` if tapped |
|LCA = KC.MT(KC.SOMETHING, KC.LCTRL(KC.LALT)) |`LCTRL` and `LALT` if held `kc` if tapped |
|LCAG = KC.MT(KC.SOMETHING, KC.LCTRL(KC.LALT(KC.LGUI))) |`LCTRL` and `LALT` and `LGUI` if held `kc` if tapped |
|MEH = KC.MT(KC.SOMETHING, KC.LCTRL(KC.LSFT(KC.LALT))) |`CTRL` and `LSHIFT` and `LALT` if held `kc` if tapped |
|HYPR = KC.MT(KC.SOMETHING, KC.HYPR) |`LCTRL` and `LSHIFT` and `LALT` and `LGUI` if held `kc` if tapped|
## [Bluetooth Keys]

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@ -0,0 +1,21 @@
# Layers
Layers module adds keys for accessing other layers. It can simply be added to
the extentions list.
```python
from kmk.modules.layers import Layers
keyboard.modules.append(Layers())
```
## Keycodes
|Key |Description |
|-----------------|------------------------------------------------------------------------|
|`KC.DF(layer)` |Switches the default layer |
|`KC.MO(layer)` |Momentarily activates layer, switches off when you let go |
|`KC.LM(layer, mod)` |As `MO(layer)` but with `mod` active |
|`KC.LT(layer, kc)` |Momentarily activates layer if held, sends kc if tapped |
|`KC.TG(layer)` |Toggles the layer (enables it if no active, and vise versa) |
|`KC.TO(layer)` |Activates layer and deactivates all other layers |
|`KC.TT(layer)` |Momentarily activates layer if held, toggles it if tapped repeatedly |

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@ -1,68 +0,0 @@
# Leader Key
The leader key acts as a prefix to a key sequence. These can be used to trigger macros quickly
without dedicated keys set to each function. For those of you who dislike key combos, such as
Ctrl+Shift+Esc, then this feature is for you. This is very much inspired from vim.
Leader key sequences can be as long or short as you like. The action must be a macro, so it
can be things like unicode macros, or generic macros. The example below shows how you would
trigger task manager in Windows with a leader sequence.
1. Assign a key to KC.LEAD
2. Above your keymap, include a LEADER_DICTIONARY.
```python
from kmk.macros.simple import simple_key_sequence
# ...
keyboard.leader_dictionary = {
(KC.T, KC.A, KC.S, KC.K): simple_key_sequence([Modifiers.KC_LCTRL(Modifiers.KC_LSHIFT(Common.KC_ESC))])
}
keymap = [...KC.LEAD,...]
# ...
```
If defining tuples of keycodes is too obtuse for you, we have a convenience
function available for that, too!
```python
from kmk.keycodes import generate_leader_dictionary_seq as glds
# ...
keyboard.leader_dictionary = {
glds('task'): simple_key_sequence([Modifiers.KC_LCTRL(Modifiers.KC_LSHIFT(Common.KC_ESC))])
}
# ...
```
# Modes
1. LeaderMode.TIMEOUT (the default)
2. LeaderMode.ENTER
### Timeout Mode
Will expire after a timer and trigger the sequence that matches if any.
This can be enabled with
```python
from kmk.consts import LeaderMode
keyboard.leader_mode = LeaderMode.TIMEOUT
```
The timeout can be set like this
```python
keyboard.leader_timeout = 2000 # in milliseconds-ish
```
The timeout defaults to `1000`, which is roughly a second.
### Enter Mode
Has no timeout. To end sequence press the enter key, or cancel and do nothing, press escape.
This can be enabled with
```python
from kmk.consts import LeaderMode
keyboard.leader_mode = LeaderMode.ENTER
```

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@ -1,6 +1,18 @@
# LED (Mono color backlight)
Want your keyboard to shine? Add some lights!
## Enabling the extention
The only required values that you need to give the LED extention would be the
pixel pin, and the number of pixels/LED's. If using a split keyboard, this number
is per side, and not the total of both sides.
```python
from kmk.extensions.RGB import RGB
from kb import led_pin # This can be imported or defined manually
led_ext = LED(led_pin=led_pin)
keyboard.extensions.append(led_ext)
```
## [Keycodes]
|Key |Aliases |Description |
@ -14,69 +26,16 @@ Want your keyboard to shine? Add some lights!
|`KC.LED_MODE_BREATHE` |`LED_M_B` |Breathing animation |
## Configuration
|Define |Default |Description |
|-----------------------------------------|-------------|------------------------------------------------|
|`keyboard.led_config['brightness_step']` |`5` |The number of steps to change the brightness by |
|`keyboard.led_config['brightness_limit']`|`100` |The maximum brightness level in percent |
## Built-in Animation Configuration
|Define |Default |Description |
|-----------------------------------------|-------------|-------------------------------------------------------------------------------------|
|`keyboard.led_config['breath_center']` |`1.5` |Used to calculate the curve for the breathing animation. Anywhere from 1.0 - 2.7 is valid|
## Functions
If you want to create your own animations, or for example, change the lighting in a macro, or a layer switch, here are some functions that are available.
|Function |Description |
|--------------------------------------------|--------------------------------------------------------------------------------------------|
|`keyboard.pixels.increase_brightness(step)` |Increases hue by a given step |
|`keyboard.pixels.decrease_brightness(step)` |Decreases hue by a given step |
|`keyboard.pixels.set_brightness(percent)` |Increases saturation by a given step |
## Direct variable access
|Define |Default |Description |
|-----------------------------------|-----------|--------------------------------------------------------------------------------------------------------|
|`keyboard.led.brightness` |`0` |Sets the brightness by percent 0-100 |
|`keyboard.led.brightness_limit` |`100` |Sets the limit of brightness |
|`keyboard.led.brightness_step` |`5` |Sets the step value to change brightness by |
|`keyboard.led.animation_mode` |`static` |This can be changed to any modes included, or to something custom for user animations. Any string is valid |
|`keyboard.led.animation_speed` |`1` |Increases animation speed of most animations. Recommended 1-5, Maximum 10. |
## User animations
User animations can be created as well. An example of a light show would look like this
All of these values can be set by default for when the keyboard boots.
```python
from kmk.keys import make_key
def start_flicker(*args, **kwargs):
# Setting mode to user will use the user animation
keyboard.led.animation_mode = 'user'
def flicker(self):
# This is the code that is run every cycle that can serve as an animation
# Refer to the kmk/rgb.py for actual examples of what has been done
if self.brightness == 0:
self.brightness = 100
else:
self.brightness = 0
keyboard.led.set_brightness(self.brightness)
return self
# This is what "gives" your function to KMK so it knows what your animation code is
keyboard.led_config['user_animation'] = flicker
# Makes a key that would start your animation
LS = make_key(on_press=start_flicker())
keymap = [...LS,...]
from kmk.extentions.led import AnimationModes
led_ext = LED(
led_pin=led_pin,
brightness_step=5,
brightness_limit=100,
breathe_center=1.5,
animation_mode=AnimationModes.STATIC,
animation_speed=1,
val=100,
)
```
# Troubleshooting
Make sure that your board supports LED backlight by checking for a line with "LED_PIN". If it does not, you can add it to your keymap.
|Define |Description |
|---------------------|---------------------------------------------|
|`keyboard.led_pin` |The pin connected to the data pin of the LEDs|

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@ -0,0 +1,23 @@
# Media Keys
Media keys extention adds keys for common media control keys. It can simply be
added to the extentions list.
```python
from kmk.extensions.media_keys import MediaKeys
keyboard.extensions.append(MediaKeys())
```
## Keycodes
|Key |Aliases |Description |
|-----------------------|--------------------|-----------------------------------------------|
|`KC.AUDIO_MUTE` |`KC.MUTE` |Mute |
|`KC.AUDIO_VOL_UP` |`KC.VOLU` |Volume Up |
|`KC.AUDIO_VOL_DOWN` |`KC.VOLD` |Volume Down |
|`KC.MEDIA_NEXT_TRACK` |`KC.MNXT` |Next Track (Windows) |
|`KC.MEDIA_PREV_TRACK` |`KC.MPRV` |Previous Track (Windows) |
|`KC.MEDIA_STOP` |`KC.MSTP` |Stop Track (Windows) |
|`KC.MEDIA_PLAY_PAUSE` |`KC.MPLY` |Play/Pause Track |
|`KC.MEDIA_EJECT` |`KC.EJCT` |Eject (macOS) |
|`KC.MEDIA_FAST_FORWARD`|`KC.MFFD` |Next Track (macOS) |
|`KC.MEDIA_REWIND` |`KC.MRWD` |Previous Track (macOS) |

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@ -1,10 +1,13 @@
# ModTap
One key if you tap it, one or more modifier keys if you hold it!
# ModTap Keycodes
Enabling ModTap will give you access to the following keycodes and can simply be
added to the modules list.
```python
from kmk.modules.modtap import ModTap
keyboard.modules.append(ModTap())
```
## Helpful examples
Just copy the example from New Keycode above your keymap and change KC.SOMETHING to the key that you want when tapped.
After that, just use the new keycode anywhere in your keymap.
## Keycodes
|New Keycode | Description |
|-------------------------------------------------------|-----------------------------------------------------------------|
@ -22,9 +25,4 @@ After that, just use the new keycode anywhere in your keymap.
|MEH = KC.MT(KC.SOMETHING, KC.LCTRL(KC.LSFT(KC.LALT))) |`CTRL` and `LSHIFT` and `LALT` if held `kc` if tapped |
|HYPR = KC.MT(KC.SOMETHING, KC.HYPR) |`LCTRL` and `LSHIFT` and `LALT` and `LGUI` if held `kc` if tapped|
```python
SHFT_HOME = KC.MT(KC.HOME, KC.LSFT)
keyboard.keymap = [[ ...., SHFT_HOME, ....], ....]
```

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@ -0,0 +1,15 @@
# Modules
Modules, unlike extensions, change how your keyboard works. These are meant to have
the ability to alter the core code in any way. Unlike extensions, these are not in a
sandbox, and can make massive changes to normal operation.
## Core Modules
These modules are proveded in all builds and can be enabled. Currently offered
modules are
- [Layers](layers.md): Adds layer support (Fn key) to allow many more keys to be
put on your keyboard
- [ModTap](modtap.md): Adds support for augmented modifier keys to act as one key
when tapped, and modifier when held.
- [Power](power.md): Power saving features. This is mostly useful when on battery power.
- [Split](split_keyboards.md): Keyboards split in two. Seems ergonomic!

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# Porting to KMK
Porting a board to KMK is quite simple, and follows this base format.
```python
import board
from kmk.kmk_keyboard import KMKKeyboard as _KMKKeyboard
from kmk.matrix import DiodeOrientation
{EXTENTIONS_IMPORT}
class KMKKeyboard(_KMKKeyboard):
{REQUIRED}
extensions = []
```
## REQUIRED
This is designed to be replaced with the defining pins of your keyboard. Rows,
colums and the diode direction (if any), should be defined like this
```python
row_pins = [board.p0_31, board.p0_29, board.p0_02, board.p1_15]
col_pins = [board.p0_22, board.p0_24, board.p1_00, board.p0_11, board.p1_04]
diode_orientation = DiodeOrientation.COLUMNS
```
## Additional pins for extentions
KMK includes built in extentions for RGB and split keyboards, and powersave. If
these are applicible on your keyboard/microcontroller, the pins should be added
here. Refer to the instructions on the respective extentions page on how to add
them. If not adding any extentions, leave this as an empty list as shown.
# Coord mapping
If your keyboard is not built electrically as a square (though most are), you can
provide a mapping directly. An example of this is the
[Corne](https://github.com/foostan/crkbd). That has 12 colums for 3 rows, and 6
colums for the bottom row. Split keyboards count as the total keyboard, not per
side. That would look like this
```python
from kmk.matrix import intify_coordinate as ic
coord_mapping = []
coord_mapping.extend(ic(0, x) for x in range(12))
coord_mapping.extend(ic(1, x) for x in range(12))
coord_mapping.extend(ic(2, x) for x in range(12))
# And now, to handle R3, which at this point is down to just six keys
coord_mapping.extend(ic(3, x) for x in range(3, 9))
```
## Keymaps
Keymaps are organized as a list of lists. Keycodes are added for every key on
each layer. See [keycodes](keycodes.md) for more details on what keycodes are
avaliable. If using layers or other extentions, also refer to the extentions
page for additional keycodes.
```python
from kb import KMKKeyboard
from kmk.keys import KC
keyboard = KMKKeyboard()
keyboard.keymap = [
[KC.A, KC.B],
[KC.C, KC.D],
]
if __name__ == '__main__':
keyboard.go()
```
## More information
More information on keymaps can be found [here](config_and_keymap.md)

42
docs/power.md Normal file
View File

@ -0,0 +1,42 @@
# Power(save)
This module allows you to save power and is targeted to bluetooth/battery
based keyboards.
## Keycodes
|Key |Description |
|-----------------------|-------------------------|
|`KC.PS_TOG ` |Toggles powersave on/off |
|`KC.PS_ON ` |Turns powersave on |
|`KC.PS_OFF ` |Turns powersave off |
# Enabling the extention
To turn on basic power saving, this is all that is required.
```python
from kmk.modules.power import Power
power = Power()
keyboard.modules.append(power)
```
## Optional extra power saving
On supported boards, such as the nice!nano, power can be cut on VCC saving extra
power if OLEDS or RGBs are installed. These drain power even when off, so this
will prevent them from doing so.
```python
from kmk.modules.power import Power
# Your kb.py may already have this set. If not, add it like this
# import board
# keyboard.powersave_pin = board.P0_13
power = Power(powersave_pin=keyboard.powersave_pin)
keyboard.modules.append(power)
```
Make sure that the pin is correct for your microcontroller. The example is for
the nice!nano. Not all microcontrollers have this feature and this can be omitted
if not and there will simply be less power saving.

View File

@ -1,15 +1,17 @@
# RGB/Underglow/Neopixel
Want your keyboard to shine? Add some lights!
This does require the neopixel library from Adafruit. This can be downloaded [here](https://github.com/adafruit/Adafruit_CircuitPython_NeoPixel/blob/6e35cd2b40575a20e2904b096508325cef4a71d3/neopixel.py).
It is part of the [Adafruit CircuitPython Bundle](https://github.com/adafruit/Adafruit_CircuitPython_Bundle).
## Circuitpython
If not running KMKpython, this does require the neopixel library from Adafruit.
This can be downloaded
[here](https://github.com/adafruit/Adafruit_CircuitPython_NeoPixel/blob/6e35cd2b40575a20e2904b096508325cef4a71d3/neopixel.py).
It is part of the [Adafruit CircuitPython Bundle](https://github.com/adafruit/Adafruit_CircuitPython_Bundle).
Simply put this in the "root" of your circuitpython device. If unsure, it's the folder with main.py in it, and should be the first folder you see when you open the device.
Currently we support the following addressable LEDs:
* WS2811, WS2812, WS2812B, WS2812C, etc.
* SK6812, SK6812MINI, SK6805
* All neopixels
### Color Selection
@ -19,6 +21,16 @@ Changing the **Hue** cycles around the circle.
Changing the **Saturation** moves between the inner and outer sections of the wheel, affecting the intensity of the color.
Changing the **Value** sets the overall brightness.
## Enabling the extention
The only required values that you need to give the RGB extention would be the pixel pin, and the number of pixels/LED's. If using a split keyboard, this number is per side, and not the total of both sides.
```python
from kmk.extensions.RGB import RGB
from kb import rgb_pixel_pin # This can be imported or defined manually
rgb_ext = RGB(pixel_pin=rgb_pixel_pin, num_pixels=27)
keyboard.extensions.append(rgb_ext)
```
## [Keycodes]
|Key |Aliases |Description |
@ -92,55 +104,46 @@ If you want to create your own animations, or for example, change the lighting i
|`keyboard.pixels.animation_mode` |`static` |This can be changed to any modes included, or to something custom for user animations. Any string is valid |
|`keyboard.pixels.animation_speed` |`1` |Increases animation speed of most animations. Recommended 1-5, Maximum 10. |
```python
from kmk.extentions.rgb import AnimationModes
rgb_ext = RGB(pixel_pin=rgb_pixel_pin,
num_pixels=27
num_pixels=0,
val_limit=100,
hue_default=0,
sat_default=100,
rgb_order=(1, 0, 2), # GRB WS2812
val_default=100,
hue_step=5,
sat_step=5,
val_step=5,
animation_speed=1,
breathe_center=1, # 1.0-2.7
knight_effect_length=3,
animation_mode=AnimationModes.STATIC,
reverse_animation=False,
)
```
## Hardware Modification
To add RGB LED's to boards that don't support them directly, you will have to add a 3 wires. The power wire will run on 3.3v or 5v (depending on the LED),
ground, and data pins will need added to an unused pin on your microcontroller unless your keyboard has specific solder points for them. With those 3 wires
connected, set the pixel_pin as described above, and you are ready to use your RGB LED's/Neopixels.
## ADVANCED USAGE
If you wish to interact with these as you would normal LED's and do not want help from KMK, you can disable all helper functions from working and access the
neopixel object directly like this.
```python
keyboard.pixels.disable_auto_write = True
keyboard.pixels.neopixel() # <-- This is the neopixel object
```
## User animations
User animations can be created as well. An example of a light show would look like this
```python
from kmk.keys import make_key
def start_light_show(*args, **kwargs):
# Setting mode to user will use the user animation
keyboard.pixels.animation_mode = 'user'
def light_show(self):
# This is the code that is run every cycle that can serve as an animation
# Refer to the kmk/rgb.py for actual examples of what has been done
self.hue = (self.hue + 35) % 360
keyboard.pixels.set_hsv_fill(self.hue, self.sat, self.val)
return self
# This is what "gives" your function to KMK so it knows what your animation code is
keyboard.rgb_config['user_animation'] = light_show
# Makes a key that would start your animation
LS = make_key(on_press=start_light_show)
keymap = [...LS,...]
```
To add RGB LED's to boards that don't support them directly, you will have to
add a 3 wires. The power wire will run on 3.3v or 5v (depending on the LED),
ground, and data pins will need added to an unused pin on your microcontroller
unless your keyboard has specific solder points for them. With those 3 wires
connected, set the `pixel_pin` as described above, and you are ready to use your
RGB LED's/Neopixels.
## Troubleshooting
### Incorrect colors
If your colors are incorrect, check the pixel order of your specific LED's. Here are some common ones.
* WS2811, WS2812, WS2812B, WS2812C are all GRB (1, 0, 2)
* SK6812, SK6812MINI, SK6805 are all GRB (1, 0, 2)
* Neopixels will vary depending on which one you buy. It will be listed on the product page.# Troubleshooting
* Neopixels will vary depending on which one you buy. It will be listed on the product page.
### Lights don't turn on
Make sure that your board supports LED backlight by checking for a line with "PIXEL_PIN". If it does not, you can add it to your keymap.
If you added the LED's yourself, you will also need to set num_pixels to the number of installed LED's in total.
Make sure that your board supports LED backlight by checking for a line with
`PIXEL_PIN`. If it does not, you can add it to your keymap. If you added the
LED's yourself, you will also need to set `num_pixels` to the number of
installed LED's in total.

View File

@ -70,35 +70,6 @@ keymap = [...emoticons.BEER, emoticons.HAND_WAVE...]
> `kmk.types.AttrDict`, which you can think of as a read-only view over a
> dictionary adding attribute-based (dot-notation) access.
Remember from the Leader Mode documentation that leader sequences simply bind to
keys, so extrapolating this example out a bit, you can bind emojis to leader
sequences matching some name or mnemonic representing the sequence you're
looking to send. If you ever wanted to type `<Leader>fire` and see a fire emoji
on your screen, welcome home.
```python
from kmk.handlers.sequences import compile_unicode_string_sequences as cuss
emoticons = cuss({
# Emojis
'BEER': r'🍺',
'BEER_TOAST': r'🍻',
'FACE_THINKING': r'🤔',
'FIRE': r'🔥',
'FLAG_CA': r'🇨🇦',
'FLAG_US': r'🇺🇸',
})
keyboard.leader_dictionary = {
'beer': emoticons.BEER,
'beers': emoticons.BEER_TOAST,
'fire': emoticons.FIRE,
'uhh': emoticons.FACE_THINKING,
'fca': emoticons.FLAG_CA,
'fus': emoticons.FLAG_US,
}
```
Finally, if you need to send arbitrary unicode codepoints in raw form, that's
supported too, through `unicode_codepoint_sequence`.

View File

@ -1,35 +1,63 @@
# Split Keyboards
Split keyboards are mostly the same as unsplit and very easy to adapt a keymap for. Currently
UART is supported, though other modes will come later such as Bluetooth and i2c.
Split keyboards are mostly the same as unsplit. Wired UART and Bluetooth are supported.
## UART
To enable uart it's as simple as adding this line, of course changing the pin
## Wired UART
Wired connections can use UART over 1 or 2 wires. With 2 wires, you will be able
to syncronize the halves allowing additional features in some extentions.
```python
keyboard.split_type = "UART"
keyboard.uart_pin = board.SCL
from kb import data_pin
:from kmk.modules.split import Split, SplitType
split = Split(split_side=SplitSide.LEFT)
keyboard.modules.append(split)
```
## Config
## Bluetooth split (aka no TRRS)
Wireless splits are fully featured with 2 way communication allowing all extentions to work 100%.
```python
from kb import data_pin
from kmk.modules.split import Split, SplitType, Split_Side
split = Split(split_type=Split.BLE, split_side=SplitSide.LEFT)
OR
split = Split(split_type=Split.BLE, split_side=SplitSide.LEFT)
keyboard.modules.append(split)
```
### Config
Useful config options:
```python
keyboard.split_flip = True # If your boards are identical but one is flipped, this option is for you
keyboard.split_offsets = [6, 6, 6, 6] # This is the how many keys are on each column on the "target" half
split = Split(
split_flip=True, # If both halves are the same, but flipped, set this True
split_side=None, # Sets if this is to SplitSide.LEFT or SplitSide.RIGHT, or use EE hands
split_type=SplitType.UART, # Defaults to UART
split_target_left=True, # If you want the right to be the target, change this to false
uart_interval=20, # Sets the uarts delay. Lower numbers draw more power
data_pin=None, # The primary data pin to talk to the secondary device with
data_pin2=None, # Second uart pin to allow 2 way communication
target_left=True, # Assumes that left will be the one on USB. Set to folse if it will be the right
uart_flip=True, # Reverses the RX and TX pins if both are provided
)
```
### EE HANDS
If you want to plug in on either side, it can be done fairly easily but requires setup.
If you want to plug USB in on either side, or are using bluetooth, this is for
you.
On each half of your keyboard make a file called kmk_side.py and add one of these lines to the file
depending on where each piece is physically located.
Rename your CIRCUITPY drive to something different. The left side must
end in L, the right must is in R. The name must be 11 characters or less! This is
a limitation of the filesystem. You will receive an error if you choose a name
longer than 11 characters. Instructions on how to do that are
[here](https://learn.adafruit.com/welcome-to-circuitpython/the-circuitpy-drive).
For example on NYQUISTL for left and NYQUISTR for the right.
For wired connections you don't need to pass anything. For bluetooth, remove the `split_side` like this
```python
split_target = "Left"
OR
split_target = "Right"
# Wired
split = Split()
# Wireless
split = Split(split_type=Split.BLE)
```
and then in your keymap, add the line
```python
from kmk_side import split_target
```

View File

@ -1,13 +1,15 @@
# Support
If you are having any issues in installing, configuring, or otherwise issues
with KMK, please reach out to us and our community here.
If you need support with KMK or just want to say hi, find us in [#kmkfw:klar.sh
on Matrix](https://matrix.to/#/#kmkfw:klar.sh). This channel is bridged to
Discord [here](https://discordapp.com/widget?id=493256121075761173&theme=dark)
for convenience.
If you ask for help on chat or open a bug report, if possible please give us
your commit SHA, found by running `from kmk.consts import KMK_RELEASE;
print(KMK_RELEASE)` in the REPL on your controller.
your commit SHA, found by running
```python
from kmk.consts import KMK_RELEASE; print(KMK_RELEASE)
```
in the REPL on your controller.

View File

@ -32,15 +32,9 @@ are planned to be worked around "eventually", but for now are noteworthy:
we strongly recommend avoiding `KC.MO` (or any other layer switch keys that
use momentary switch behavior - `KC.LM`, `KC.LT`, and `KC.TT`)
- Super fancy stuff like sending a keypress only when the leader key is released
(perhaps based on how long the leader key was held) is **unsupported** - an
example use case might be "tap for Home, hold for Shift"
Here's an example of all this in action:
```python
# user_keymaps/some_silly_example.py
from kmk.boards.klarank import KMKKeyboard
from kmk.keycodes import KC
from kmk.macros.simple import send_string

View File

@ -1,102 +0,0 @@
from adafruit_ble import BLERadio
from adafruit_ble.advertising.standard import ProvideServicesAdvertisement
from adafruit_ble.services.standard.hid import HIDService
from kmk.hid import AbstractHID
BLE_APPEARANCE_HID_KEYBOARD = 961
# Hardcoded in CPy
MAX_CONNECTIONS = 2
class BLEHID(AbstractHID):
def post_init(self, ble_name='KMK Keyboard', **kwargs):
self.conn_id = -1
self.ble = BLERadio()
self.ble.name = ble_name
self.hid = HIDService()
self.hid.protocol_mode = 0 # Boot protocol
# Security-wise this is not right. While you're away someone turns
# on your keyboard and they can pair with it nice and clean and then
# listen to keystrokes.
# On the other hand we don't have LESC so it's like shouting your
# keystrokes in the air
if not self.ble.connected or not self.hid.devices:
self.start_advertising()
self.conn_id = 0
@property
def devices(self):
'''Search through the provided list of devices to find the ones with the
send_report attribute.'''
if not self.ble.connected:
return []
result = []
# Security issue:
# This introduces a race condition. Let's say you have 2 active
# connections: Alice and Bob - Alice is connection 1 and Bob 2.
# Now Chuck who has already paired with the device in the past
# (this assumption is needed only in the case of LESC)
# wants to gather the keystrokes you send to Alice. You have
# selected right now to talk to Alice (1) and you're typing a secret.
# If Chuck kicks Alice off and is quick enough to connect to you,
# which means quicker than the running interval of this function,
# he'll be earlier in the `self.hid.devices` so will take over the
# selected 1 position in the resulted array.
# If no LESC is in place, Chuck can sniff the keystrokes anyway
for device in self.hid.devices:
if hasattr(device, 'send_report'):
result.append(device)
return result
def _check_connection(self):
devices = self.devices
if not devices:
return False
if self.conn_id >= len(devices):
self.conn_id = len(devices) - 1
if self.conn_id < 0:
return False
if not devices[self.conn_id]:
return False
return True
def hid_send(self, evt):
if not self._check_connection():
return
device = self.devices[self.conn_id]
while len(evt) < len(device._characteristic.value) + 1:
evt.append(0)
return device.send_report(evt[1:])
def clear_bonds(self):
import _bleio
_bleio.adapter.erase_bonding()
def next_connection(self):
self.conn_id = (self.conn_id + 1) % len(self.devices)
def previous_connection(self):
self.conn_id = (self.conn_id - 1) % len(self.devices)
def start_advertising(self):
advertisement = ProvideServicesAdvertisement(self.hid)
advertisement.appearance = BLE_APPEARANCE_HID_KEYBOARD
self.ble.start_advertising(advertisement)
def stop_advertising(self):
self.ble.stop_advertising()

View File

@ -1,20 +0,0 @@
import board
from kmk.kmk_keyboard import KMKKeyboard as _KMKKeyboard
from kmk.matrix import DiodeOrientation
class KMKKeyboard(_KMKKeyboard):
col_pins = (
board.RX,
board.D13,
board.A0,
board.D11,
board.A4,
board.A5,
board.D10,
board.D9,
board.SCK,
)
diode_orientation = DiodeOrientation.COLUMNS
rgb_pixel_pin = board.TX

View File

@ -1,15 +0,0 @@
import board
from kmk.kmk_keyboard import KMKKeyboard as _KMKKeyboard
from kmk.matrix import DiodeOrientation
class KMKKeyboard(_KMKKeyboard):
col_pins = (board.A1, board.A2, board.A3, board.A4, board.A5, board.SCK, board.MOSI)
row_pins = (board.A0, board.D11, board.D10, board.D9)
diode_orientation = DiodeOrientation.COLUMNS
rgb_pixel_pin = board.TX
uart_pin = board.SCL
split_type = 'UART'
split_flip = True
split_offsets = [7, 7, 7, 7]

View File

@ -1,15 +0,0 @@
import board
from kmk.kmk_keyboard import KMKKeyboard as _KMKKeyboard
from kmk.matrix import DiodeOrientation
class KMKKeyboard(_KMKKeyboard):
col_pins = (board.A2, board.A3, board.A4, board.A5, board.SCK, board.MOSI)
row_pins = (board.D11, board.D10, board.D9, board.D7, board.D13)
diode_orientation = DiodeOrientation.COLUMNS
rgb_pixel_pin = board.TX
uart_pin = board.SCL
split_type = 'UART'
split_flip = True
split_offsets = [6, 6, 6, 6, 6]

View File

@ -1,28 +0,0 @@
import board
from kmk.kmk_keyboard import KMKKeyboard as _KMKKeyboard
from kmk.matrix import DiodeOrientation
class KMKKeyboard(_KMKKeyboard):
col_pins = (
board.SDA,
board.A2,
board.A3,
board.A4,
board.A5,
board.SCK,
board.MOSI,
)
row_pins = (
board.TX,
board.A0,
board.RX,
board.A1,
board.D11,
board.D9,
board.D12,
board.D10,
)
diode_orientation = DiodeOrientation.COLUMNS
rgb_pixel_pin = board.D13

View File

@ -1,15 +0,0 @@
import board
from kmk.kmk_keyboard import KMKKeyboard as _KMKKeyboard
from kmk.matrix import DiodeOrientation
class KMKKeyboard(_KMKKeyboard):
col_pins = (board.A2, board.A3, board.A4, board.A5, board.SCK, board.A0)
row_pins = (board.D11, board.D10, board.D9, board.D7)
diode_orientation = DiodeOrientation.COLUMNS
rgb_pixel_pin = board.TX
uart_pin = board.SCL
split_type = 'UART'
split_flip = True
split_offsets = [6, 6, 6, 6]

View File

@ -1,15 +0,0 @@
import board
from kmk.kmk_keyboard import KMKKeyboard as _KMKKeyboard
from kmk.matrix import DiodeOrientation
class KMKKeyboard(_KMKKeyboard):
col_pins = (board.A2, board.A3, board.A4, board.A5, board.SCK, board.MOSI)
row_pins = (board.D13, board.D11, board.D10, board.D9, board.D7)
diode_orientation = DiodeOrientation.COLUMNS
rgb_pixel_pin = board.TX
uart_pin = board.SCL
split_type = 'UART'
split_flip = True
split_offsets = [6, 6, 6, 6, 6]

View File

@ -1,25 +0,0 @@
import board
from kmk.kmk_keyboard import KMKKeyboard as _KMKKeyboard
from kmk.matrix import DiodeOrientation
class KMKKeyboard(_KMKKeyboard):
# Will need additional work and testing
col_pins = (
board.A1,
board.A2,
board.A3,
board.A4,
board.A5,
board.SCK,
board.MOSI,
board.D12,
)
row_pins = (board.A0, board.D13, board.D11, board.D10, board.D9, board.D7)
diode_orientation = DiodeOrientation.COLUMNS
rgb_pixel_pin = board.TX
uart_pin = board.SCL
split_type = 'UART'
split_flip = False
split_offsets = [8, 8, 8, 8, 8, 8]

View File

@ -1,15 +0,0 @@
import board
from kmk.kmk_keyboard import KMKKeyboard as _KMKKeyboard
from kmk.matrix import DiodeOrientation
class KMKKeyboard(_KMKKeyboard):
col_pins = (board.A2, board.A3, board.A4, board.A5, board.SCK, board.MOSI)
row_pins = (board.D11, board.D10, board.D9, board.RX, board.D13)
diode_orientation = DiodeOrientation.COLUMNS
rgb_pixel_pin = board.TX
uart_pin = board.SCL
split_type = 'UART'
split_flip = True
split_offsets = [6, 6, 6, 6, 6]

View File

@ -1,29 +0,0 @@
import board
from kmk.kmk_keyboard import KMKKeyboard as _KMKKeyboard
from kmk.matrix import DiodeOrientation
class KMKKeyboard(_KMKKeyboard):
col_pins = (
board.A0,
board.A1,
board.A2,
board.A3,
board.A4,
board.A5,
board.SCK,
board.MOSI,
)
row_pins = (
board.TX,
board.RX,
board.SDA,
board.SCL,
board.D9,
board.D10,
board.D12,
board.D11,
board.D13,
)
diode_orientation = DiodeOrientation.COLUMNS

View File

@ -1,15 +0,0 @@
import board
from kmk.kmk_keyboard import KMKKeyboard as _KMKKeyboard
from kmk.matrix import DiodeOrientation
class KMKKeyboard(_KMKKeyboard):
col_pins = (board.A1, board.A2, board.A3, board.A4, board.A5, board.SCK, board.MOSI)
row_pins = (board.D13, board.D11, board.D10, board.D9, board.D7)
diode_orientation = DiodeOrientation.COLUMNS
rgb_pixel_pin = board.TX
uart_pin = board.SCL
split_type = 'UART'
split_flip = True
split_offsets = [7, 7, 7, 7, 7]

View File

@ -1,15 +0,0 @@
import board
from kmk.kmk_keyboard import KMKKeyboard as _KMKKeyboard
from kmk.matrix import DiodeOrientation
class KMKKeyboard(_KMKKeyboard):
col_pins = (board.A0, board.A1, board.A2, board.A3, board.A4, board.A5, board.SCK)
row_pins = (board.D13, board.D11, board.D10, board.D9, board.D7)
diode_orientation = DiodeOrientation.COLUMNS
rgb_pixel_pin = board.TX
uart_pin = board.SCL
split_type = 'UART'
split_flip = True
split_offsets = [7, 7, 7, 7, 7]

View File

@ -1,15 +0,0 @@
import board
from kmk.kmk_keyboard import KMKKeyboard as _KMKKeyboard
from kmk.matrix import DiodeOrientation
class KMKKeyboard(_KMKKeyboard):
col_pins = (board.A5, board.A4, board.A3, board.A2, board.A1, board.A0)
row_pins = (board.D7, board.D9, board.D10, board.D11)
diode_orientation = DiodeOrientation.COLUMNS
rgb_pixel_pin = board.TX
uart_pin = board.SCL
split_type = 'UART'
split_flip = True
split_offsets = [6, 6, 6, 6]

View File

@ -1,15 +0,0 @@
import board
from kmk.kmk_keyboard import KMKKeyboard as _KMKKeyboard
from kmk.matrix import DiodeOrientation
class KMKKeyboard(_KMKKeyboard):
col_pins = (board.MOSI, board.SCK, board.A5, board.A4, board.A3, board.A2)
row_pins = (board.D11, board.D10, board.D9, board.D7)
diode_orientation = DiodeOrientation.COLUMNS
rgb_pixel_pin = board.TX
uart_pin = board.SCL
split_type = 'UART'
split_flip = True
split_offsets = [6, 6, 6, 6]

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