kmk_firmware/kmk/boards/converter/keebio/iris_r2.py

45 lines
1.7 KiB
Python

import board
from kmk.consts import DiodeOrientation
from kmk.matrix import intify_coordinate as ic
from kmk.mcus.circuitpython_usbhid import KeyboardConfig as _KeyboardConfig
from kmk.pins import Pin as P
class KeyboardConfig(_KeyboardConfig):
# Pin mappings for converter board found at hardware/README.md
# QMK: MATRIX_COL_PINS { F6, F7, B1, B3, B2, B6 }
# QMK: MATRIX_ROW_PINS { D7, E6, B4, D2, D4 }
col_pins = (P.A2, P.A3, P.A4, P.A5, P.SCK, P.MOSI)
row_pins = (P.D11, P.D10, P.D9, P.RX, P.D13)
diode_orientation = DiodeOrientation.COLUMNS
split_flip = True
split_offsets = (6, 6, 6, 6, 6)
split_type = 'UART'
uart_pin = board.SCL
extra_data_pin = board.SDA
rgb_pixel_pin = board.TX
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
# And now, to handle R4, which at this point is down to just six keys
coord_mapping.extend(ic(4, x) for x in range(3, 9))