kmk_firmware/kmk/kmk_keyboard.py

548 lines
17 KiB
Python
Raw Permalink Normal View History

try:
2023-03-29 22:02:29 +02:00
from typing import Callable, Optional
except ImportError:
pass
from collections import namedtuple
2022-09-22 21:02:14 +02:00
from keypad import Event as KeyEvent
from kmk.consts import UnicodeMode
from kmk.hid import BLEHID, USBHID, AbstractHID, HIDModes
from kmk.keys import KC, Key
from kmk.modules import Module
2022-04-10 14:46:40 +02:00
from kmk.scanners.keypad import MatrixScanner
2023-03-29 22:02:29 +02:00
from kmk.scheduler import Task, cancel_task, create_task, get_due_task
2022-07-20 15:35:56 +02:00
from kmk.utils import Debug
debug = Debug('kmk.keyboard')
KeyBufferFrame = namedtuple(
'KeyBufferFrame', ('key', 'is_pressed', 'int_coord', 'index')
)
def debug_error(module, message: str, error: Exception):
if debug.enabled:
debug(
message, ': ', error.__class__.__name__, ': ', error, name=module.__module__
)
class Sandbox:
matrix_update = None
secondary_matrix_update = None
active_layers = None
class KMKKeyboard:
#####
# User-configurable
keymap = []
coord_mapping = None
row_pins = None
col_pins = None
diode_orientation = None
matrix = None
unicode_mode = UnicodeMode.NOOP
modules = []
extensions = []
sandbox = Sandbox()
#####
# Internal State
keys_pressed = set()
axes = set()
_coordkeys_pressed = {}
hid_type = HIDModes.USB
secondary_hid_type = None
_hid_helper = None
2022-02-03 23:04:58 +01:00
_hid_send_enabled = False
hid_pending = False
matrix_update = None
secondary_matrix_update = None
matrix_update_queue = []
_trigger_powersave_enable = False
_trigger_powersave_disable = False
i2c_deinit_count = 0
_go_args = None
_processing_timeouts = False
_resume_buffer = []
_resume_buffer_x = []
# this should almost always be PREpended to, replaces
# former use of reversed_active_layers which had pointless
# overhead (the underlying list was never used anyway)
active_layers = [0]
_timeouts = {}
2022-09-24 06:56:10 +02:00
def __repr__(self) -> str:
return self.__class__.__name__
2018-10-17 07:50:41 +02:00
2022-09-22 21:02:14 +02:00
def _send_hid(self) -> None:
if not self._hid_send_enabled:
return
if debug.enabled:
if self.keys_pressed:
debug('keys_pressed=', self.keys_pressed)
if self.axes:
debug('axes=', self.axes)
self._hid_helper.create_report(self.keys_pressed, self.axes)
try:
self._hid_helper.send()
except Exception as err:
debug_error(self._hid_helper, 'send', err)
self.hid_pending = False
for axis in self.axes:
axis.move(self, 0)
2018-10-17 07:50:41 +02:00
2022-09-22 21:02:14 +02:00
def _handle_matrix_report(self, kevent: KeyEvent) -> None:
if kevent is not None:
self._on_matrix_changed(kevent)
2022-09-22 21:02:14 +02:00
def _find_key_in_map(self, int_coord: int) -> Key:
try:
idx = self.coord_mapping.index(int_coord)
except ValueError:
2022-07-20 15:35:56 +02:00
if debug.enabled:
debug('no such int_coord: ', int_coord)
return None
for layer in self.active_layers:
try:
key = self.keymap[layer][idx]
except IndexError:
key = None
2022-07-20 15:35:56 +02:00
if debug.enabled:
debug('keymap IndexError: idx=', idx, ' layer=', layer)
if not key or key == KC.TRNS:
continue
return key
2022-09-22 21:02:14 +02:00
def _on_matrix_changed(self, kevent: KeyEvent) -> None:
int_coord = kevent.key_number
is_pressed = kevent.pressed
key = None
if not is_pressed:
try:
key = self._coordkeys_pressed[int_coord]
except KeyError:
2022-07-20 15:35:56 +02:00
if debug.enabled:
debug('release w/o press: ', int_coord)
if key is None:
key = self._find_key_in_map(int_coord)
if key is None:
return
2022-07-20 15:35:56 +02:00
if debug.enabled:
debug(kevent, ': ', key)
2022-04-23 23:16:47 +02:00
self.pre_process_key(key, is_pressed, int_coord)
2022-04-23 21:48:55 +02:00
def _process_resume_buffer(self):
'''
Resume the processing of buffered, delayed, deferred, etc. key events
emitted by modules.
We use a copy of the `_resume_buffer` as a working buffer. The working
buffer holds all key events in the correct order for processing. If
during processing new events are pushed to the `_resume_buffer`, they
are prepended to the working buffer (which may not be emptied), in
order to preserve key event order.
We also double-buffer `_resume_buffer` with `_resume_buffer_x`, only
copying the reference to hopefully safe some time on allocations.
'''
buffer, self._resume_buffer = self._resume_buffer, self._resume_buffer_x
while buffer:
ksf = buffer.pop(0)
key = ksf.key
# Handle any unaccounted-for layer shifts by looking up the key resolution again.
2023-03-13 23:14:49 +01:00
if ksf.int_coord is not None:
key = self._find_key_in_map(ksf.int_coord)
# Resume the processing of the key event and update the HID report
# when applicable.
self.pre_process_key(key, ksf.is_pressed, ksf.int_coord, ksf.index)
if self.hid_pending:
self._send_hid()
self.hid_pending = False
# Any newly buffered key events must be prepended to the working
# buffer.
if self._resume_buffer:
self._resume_buffer.extend(buffer)
buffer.clear()
buffer, self._resume_buffer = self._resume_buffer, buffer
self._resume_buffer_x = buffer
2022-07-20 15:35:56 +02:00
@property
2022-09-22 21:02:14 +02:00
def debug_enabled(self) -> bool:
2022-07-20 15:35:56 +02:00
return debug.enabled
@debug_enabled.setter
2022-09-22 21:02:14 +02:00
def debug_enabled(self, enabled: bool):
2022-07-20 15:35:56 +02:00
debug.enabled = enabled
2022-09-22 21:02:14 +02:00
def pre_process_key(
self,
key: Key,
is_pressed: bool,
int_coord: Optional[int] = None,
index: int = 0,
) -> None:
for module in self.modules[index:]:
try:
key = module.process_key(self, key, is_pressed, int_coord)
if key is None:
break
except Exception as err:
debug_error(module, 'process_key', err)
if int_coord is not None:
if is_pressed:
self._coordkeys_pressed[int_coord] = key
else:
try:
del self._coordkeys_pressed[int_coord]
except KeyError:
2022-07-20 15:35:56 +02:00
if debug.enabled:
debug('release w/o press:', int_coord)
if debug.enabled:
debug('coordkeys_pressed=', self._coordkeys_pressed)
if key:
self.process_key(key, is_pressed, int_coord)
2022-09-22 21:02:14 +02:00
def process_key(
self, key: Key, is_pressed: bool, int_coord: Optional[int] = None
2022-09-22 21:02:14 +02:00
) -> None:
if is_pressed:
key.on_press(self, int_coord)
else:
key.on_release(self, int_coord)
def resume_process_key(
self,
module: Module,
key: Key,
is_pressed: bool,
int_coord: Optional[int] = None,
2023-03-15 21:59:03 +01:00
reprocess: Optional[bool] = False,
) -> None:
2023-03-15 21:59:03 +01:00
index = self.modules.index(module) + (0 if reprocess else 1)
ksf = KeyBufferFrame(
key=key, is_pressed=is_pressed, int_coord=int_coord, index=index
)
self._resume_buffer.append(ksf)
2022-09-22 21:02:14 +02:00
def remove_key(self, keycode: Key) -> None:
self.keys_pressed.discard(keycode)
2022-09-22 21:02:14 +02:00
self.process_key(keycode, False)
2022-09-22 21:02:14 +02:00
def add_key(self, keycode: Key) -> None:
self.keys_pressed.add(keycode)
2022-09-22 21:02:14 +02:00
self.process_key(keycode, True)
2022-09-22 21:02:14 +02:00
def tap_key(self, keycode: Key) -> None:
self.add_key(keycode)
# On the next cycle, we'll remove the key.
2023-03-29 22:02:29 +02:00
self.set_timeout(0, lambda: self.remove_key(keycode))
2023-03-29 22:02:29 +02:00
def set_timeout(self, after_ticks: int, callback: Callable[[None], None]) -> [Task]:
return create_task(callback, after_ms=after_ticks)
2022-09-22 21:02:14 +02:00
def cancel_timeout(self, timeout_key: int) -> None:
2023-03-29 22:02:29 +02:00
cancel_task(timeout_key)
2022-09-22 21:02:14 +02:00
def _process_timeouts(self) -> None:
2023-03-29 22:02:29 +02:00
for task in get_due_task():
task()
2022-09-22 21:02:14 +02:00
def _init_sanity_check(self) -> None:
'''
Ensure the provided configuration is *probably* bootable
'''
assert self.keymap, 'must define a keymap with at least one row'
assert (
self.hid_type in HIDModes.ALL_MODES
), 'hid_type must be a value from kmk.consts.HIDModes'
2022-02-21 02:34:44 +01:00
if not self.matrix:
assert self.row_pins, 'no GPIO pins defined for matrix rows'
assert self.col_pins, 'no GPIO pins defined for matrix columns'
assert (
self.diode_orientation is not None
), 'diode orientation must be defined'
2022-09-22 21:02:14 +02:00
def _init_coord_mapping(self) -> None:
'''
Attempt to sanely guess a coord_mapping if one is not provided. No-op
if `kmk.extensions.split.Split` is used, it provides equivalent
functionality in `on_bootup`
To save RAM on boards that don't use Split, we don't import Split
and do an isinstance check, but instead do string detection
'''
if any(x.__class__.__module__ == 'kmk.modules.split' for x in self.modules):
return
if not self.coord_mapping:
cm = []
for m in self.matrix:
cm.extend(m.coord_mapping)
self.coord_mapping = tuple(cm)
2022-09-22 21:02:14 +02:00
def _init_hid(self) -> None:
if self.hid_type == HIDModes.NOOP:
self._hid_helper = AbstractHID
elif self.hid_type == HIDModes.USB:
self._hid_helper = USBHID
elif self.hid_type == HIDModes.BLE:
self._hid_helper = BLEHID
else:
self._hid_helper = AbstractHID
self._hid_helper = self._hid_helper(**self._go_args)
2022-02-03 23:04:58 +01:00
self._hid_send_enabled = True
if debug.enabled:
debug('hid=', self._hid_helper)
2023-02-24 21:20:22 +01:00
def _deinit_hid(self) -> None:
self._hid_helper.clear_all()
self._hid_helper.send()
2022-09-22 21:02:14 +02:00
def _init_matrix(self) -> None:
if self.matrix is None:
2022-04-10 14:46:40 +02:00
self.matrix = MatrixScanner(
column_pins=self.col_pins,
row_pins=self.row_pins,
columns_to_anodes=self.diode_orientation,
)
try:
self.matrix = tuple(iter(self.matrix))
offset = 0
for matrix in self.matrix:
matrix.offset = offset
offset += matrix.key_count
except TypeError:
self.matrix = (self.matrix,)
if debug.enabled:
debug('matrix=', [_.__class__.__name__ for _ in self.matrix])
def during_bootup(self) -> None:
# Modules and extensions that fail `during_bootup` get removed from
# their respective lists. This serves as a self-check mechanism; any
# modules or extensions that initialize peripherals or data structures
# should do that in `during_bootup`.
for idx, module in enumerate(self.modules):
try:
module.during_bootup(self)
except Exception as err:
debug_error(module, 'during_bootup', err)
del self.modules[idx]
if debug.enabled:
debug('modules=', [_.__class__.__name__ for _ in self.modules])
for idx, ext in enumerate(self.extensions):
try:
ext.during_bootup(self)
except Exception as err:
debug_error(ext, 'during_bootup', err)
del self.extensions[idx]
if debug.enabled:
debug('extensions=', [_.__class__.__name__ for _ in self.extensions])
2022-09-22 21:02:14 +02:00
def before_matrix_scan(self) -> None:
for module in self.modules:
try:
module.before_matrix_scan(self)
except Exception as err:
debug_error(module, 'before_matrix_scan', err)
for ext in self.extensions:
try:
ext.before_matrix_scan(self.sandbox)
except Exception as err:
debug_error(ext, 'before_matrix_scan', err)
2018-12-29 15:58:08 +01:00
2022-09-22 21:02:14 +02:00
def after_matrix_scan(self) -> None:
for module in self.modules:
try:
module.after_matrix_scan(self)
except Exception as err:
debug_error(module, 'after_matrix_scan', err)
for ext in self.extensions:
try:
ext.after_matrix_scan(self.sandbox)
except Exception as err:
debug_error(ext, 'after_matrix_scan', err)
2022-09-22 21:02:14 +02:00
def before_hid_send(self) -> None:
for module in self.modules:
try:
module.before_hid_send(self)
except Exception as err:
debug_error(module, 'before_hid_send', err)
for ext in self.extensions:
try:
ext.before_hid_send(self.sandbox)
except Exception as err:
debug_error(ext, 'before_hid_send', err)
2022-09-22 21:02:14 +02:00
def after_hid_send(self) -> None:
for module in self.modules:
try:
module.after_hid_send(self)
except Exception as err:
debug_error(module, 'after_hid_send', err)
for ext in self.extensions:
try:
ext.after_hid_send(self.sandbox)
except Exception as err:
debug_error(ext, 'after_hid_send', err)
2022-09-22 21:02:14 +02:00
def powersave_enable(self) -> None:
for module in self.modules:
try:
module.on_powersave_enable(self)
except Exception as err:
debug_error(module, 'powersave_enable', err)
for ext in self.extensions:
try:
ext.on_powersave_enable(self.sandbox)
except Exception as err:
debug_error(ext, 'powersave_enable', err)
2022-09-22 21:02:14 +02:00
def powersave_disable(self) -> None:
for module in self.modules:
try:
module.on_powersave_disable(self)
except Exception as err:
debug_error(module, 'powersave_disable', err)
for ext in self.extensions:
try:
ext.on_powersave_disable(self.sandbox)
except Exception as err:
debug_error(ext, 'powersave_disable', err)
def deinit(self) -> None:
for module in self.modules:
try:
module.deinit(self)
except Exception as err:
debug_error(module, 'deinit', err)
for ext in self.extensions:
try:
ext.deinit(self.sandbox)
except Exception as err:
debug_error(ext, 'deinit', err)
2022-09-22 21:02:14 +02:00
def go(self, hid_type=HIDModes.USB, secondary_hid_type=None, **kwargs) -> None:
self._init(hid_type=hid_type, secondary_hid_type=secondary_hid_type, **kwargs)
2023-02-24 21:20:22 +01:00
try:
while True:
self._main_loop()
finally:
debug('Unexpected error: cleaning up')
self._deinit_hid()
self.deinit()
2022-09-22 21:02:14 +02:00
def _init(
self,
hid_type: HIDModes = HIDModes.USB,
secondary_hid_type: Optional[HIDModes] = None,
**kwargs,
) -> None:
self._go_args = kwargs
self.hid_type = hid_type
self.secondary_hid_type = secondary_hid_type
if debug.enabled:
debug('Initialising ', self)
debug('unicode_mode=', self.unicode_mode)
self._init_hid()
self._init_matrix()
self._init_coord_mapping()
self.during_bootup()
2022-07-20 15:35:56 +02:00
if debug.enabled:
import gc
gc.collect()
debug('mem_info used:', gc.mem_alloc(), ' free:', gc.mem_free())
2022-09-22 21:02:14 +02:00
def _main_loop(self) -> None:
self.sandbox.active_layers = self.active_layers.copy()
self.before_matrix_scan()
self._process_resume_buffer()
for matrix in self.matrix:
update = matrix.scan_for_changes()
if update:
2022-05-03 01:36:19 +02:00
self.matrix_update = update
break
self.sandbox.matrix_update = self.matrix_update
self.sandbox.secondary_matrix_update = self.secondary_matrix_update
self.after_matrix_scan()
if self.secondary_matrix_update:
self.matrix_update_queue.append(self.secondary_matrix_update)
self.secondary_matrix_update = None
if self.matrix_update:
self.matrix_update_queue.append(self.matrix_update)
self.matrix_update = None
# only handle one key per cycle.
if self.matrix_update_queue:
self._handle_matrix_report(self.matrix_update_queue.pop(0))
self.before_hid_send()
if self.hid_pending:
self._send_hid()
self._process_timeouts()
2022-07-20 15:35:56 +02:00
if self.hid_pending:
self._send_hid()
self.after_hid_send()
if self._trigger_powersave_enable:
self.powersave_enable()
if self._trigger_powersave_disable:
self.powersave_disable()