sporq/kmk_firmware
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Prepare things for the event loop, also abstract gross stuff from end users

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This commit is contained in:
Josh Klar 2018-09-03 03:22:11 -07:00
parent 1df2012c7a
commit d5de2601d9
9 changed files with 72 additions and 35 deletions
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14
Makefile
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@ -6,6 +6,10 @@
freeze-nrf-vendor-deps \
lint
NRF_DFU_PORT ?= /dev/ttyUSB0
NRF_DFU_BAUD ?= 115200
NRF_DFU_DELAY ?= 1.5
devdeps: Pipfile.lock
@pipenv install --dev --ignore-pipfile
@ -39,15 +43,15 @@ circuitpy-freeze-kmk-nrf: freeze-nrf-vendor-deps
@rm -rf vendor/circuitpython/ports/nrf/kmk*
@cp -av kmk vendor/circuitpython/ports/nrf/freeze/
circuitpy-flash-nrf: circuitpy-freeze-kmk-nrf
circuitpy-flash-nrf:
@echo "===> Building and flashing CircuitPython with KMK and your keymap"
@make -C vendor/circuitpython/ports/nrf BOARD=feather_nrf52832 SERIAL=/dev/ttyUSB0 SD=s132 FROZEN_MPY_DIR=freeze clean dfu-gen dfu-flash
@make -C vendor/circuitpython/ports/nrf BOARD=feather_nrf52832 SERIAL=${NRF_DFU_PORT} SD=s132 FROZEN_MPY_DIR=freeze clean dfu-gen dfu-flash
circuitpy-flash-nrf-entrypoint:
@echo "===> Flashing entrypoint if it doesn't already exist"
@sleep 2
@-timeout -k 5s 10s pipenv run ampy rm main.py 2>/dev/null
@-timeout -k 5s 10s pipenv run ampy put entrypoints/feather_nrf52832.py main.py
@-timeout -k 5s 10s pipenv run ampy -p ${NRF_DFU_PORT} -d ${NRF_DFU_DELAY} -b ${NRF_DFU_BAUD} rm main.py 2>/dev/null
@-timeout -k 5s 10s pipenv run ampy -p ${NRF_DFU_PORT} -d ${NRF_DFU_DELAY} -b ${NRF_DFU_BAUD} put entrypoints/feather_nrf52832.py main.py
@echo "===> Flashed keyboard successfully!"
build-feather-test: lint devdeps circuitpy-deps circuitpy-freeze-kmk-nrf
@ -77,5 +81,5 @@ burn-it-all-with-fire: lint devdeps
@$(MAKE) circuitpy-flash-nrf
@echo "===> Wiping keyboard config"
@sleep 2
@-pipenv run ampy rm main.py 2>/dev/null
@-timeout -k 5s 10s pipenv run ampy -p ${NRF_DFU_PORT} -d ${NRF_DFU_DELAY} -b ${NRF_DFU_BAUD} rm main.py 2>/dev/null
@echo "===> Wiped! Probably safe to flash keyboard, try Python serial REPL to verify?"

22
boards/klardotsh/twotwo_matrix_feather.py
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@ -1,23 +1,25 @@
import board
from kmk.circuitpython.matrix import MatrixScanner
from kmk.common.consts import DiodeOrientation
from kmk.common.keymap import Keymap
from kmk.firmware import Firmware
def main():
cols = (board.A4, board.A5)
rows = (board.D27, board.A6)
matrix = MatrixScanner(
cols=cols, rows=rows,
diode_orientation=DiodeOrientation.COLUMNS,
)
diode_orientation = DiodeOrientation.COLUMNS
keymap = Keymap([
keymap = [
['A', 'B'],
['C', 'D'],
])
]
while True:
keymap.parse(matrix.raw_scan())
firmware = Firmware(
keymap=keymap,
row_pins=rows,
col_pins=cols,
diode_orientation=diode_orientation,
)
firmware.go()

1
entrypoints/feather_nrf52832.py
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@ -1,5 +1,4 @@
from kmk_keyboard_user import main
if __name__ == '__main__':
main()

18
kmk/circuitpython/matrix.py
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@ -1,9 +1,10 @@
import digitalio
from kmk.common.abstract.matrix_scanner import AbstractMatrixScanner
from kmk.common.consts import DiodeOrientation
class MatrixScanner:
class MatrixScanner(AbstractMatrixScanner):
def __init__(self, cols, rows, diode_orientation=DiodeOrientation.COLUMNS):
# A pin cannot be both a row and column, detect this by combining the
# two tuples into a set and validating that the length did not drop
@ -35,20 +36,7 @@ class MatrixScanner:
pin.switch_to_input(pull=digitalio.Pull.DOWN)
def _normalize_matrix(self, matrix):
'''
We always want to internally look at a keyboard as a list of rows,
where a "row" is a list of keycodes (columns).
This will convert DiodeOrientation.COLUMNS matrix scans into a
ROWS scan, so we never have to think about these things again.
'''
if self.diode_orientation == DiodeOrientation.ROWS:
return matrix
return [
[col[col_entry] for col in matrix]
for col_entry in range(max(len(col) for col in matrix))
]
return super()._normalize_matrix(matrix)
def raw_scan(self):
matrix = []

5
kmk/circuitpython/util.py
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@ -1,7 +1,8 @@
import sys
import time
import board
import digitalio
import time
import sys
def feather_signal_error_with_led_flash(rate=0.5):

0
kmk/common/abstract/__init__.py Normal file
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25
kmk/common/abstract/matrix_scanner.py Normal file
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@ -0,0 +1,25 @@
from kmk.common.consts import DiodeOrientation
class AbstractMatrixScanner():
def __init__(self, cols, rows, diode_orientation=DiodeOrientation.COLUMNS):
raise NotImplementedError('Abstract implementation')
def _normalize_matrix(self, matrix):
'''
We always want to internally look at a keyboard as a list of rows,
where a "row" is a list of keycodes (columns).
This will convert DiodeOrientation.COLUMNS matrix scans into a
ROWS scan, so we never have to think about these things again.
'''
if self.diode_orientation == DiodeOrientation.ROWS:
return matrix
return [
[col[col_entry] for col in matrix]
for col_entry in range(max(len(col) for col in matrix))
]
def raw_scan(self):
raise NotImplementedError('Abstract implementation')

4
kmk/common/keymap.py
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@ -10,9 +10,9 @@ class Keymap:
for ridx, row in enumerate(matrix):
for cidx, col in enumerate(row):
if col != self.state[ridx][cidx]:
print('{}: {}'.format(
yield '{}: {}'.format(
'KEYDOWN' if col else 'KEYUP',
self.map[ridx][cidx],
))
)
self.state = matrix

18
kmk/firmware.py Normal file
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@ -0,0 +1,18 @@
from kmk.common.keymap import Keymap
try:
from kmk.circuitpython.matrix import MatrixScanner
except ImportError:
from kmk.micropython.matrix import MatrixScanner
class Firmware:
def __init__(self, keymap, row_pins, col_pins, diode_orientation):
self.raw_keymap = keymap
self.keymap = Keymap(keymap)
self.matrix = MatrixScanner(col_pins, row_pins, diode_orientation)
def go(self):
while True:
for event in self.keymap.parse(self.matrix.raw_scan()):
print(event)