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kmk-paintbrush/kmk/modules/power.py

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Python
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import board
import digitalio
from supervisor import ticks_ms
from time import sleep
from kmk.handlers.stock import passthrough as handler_passthrough
from kmk.keys import make_key
from kmk.kmktime import check_deadline
from kmk.modules import Module
class Power(Module):
def __init__(self, powersave_pin=None):
self.enable = False
self.powersave_pin = powersave_pin # Powersave pin board object
self._powersave_start = ticks_ms()
self._usb_last_scan = ticks_ms() - 5000
self._psp = None # Powersave pin object
self._i2c = 0
self._loopcounter = 0
make_key(
names=('PS_TOG',), on_press=self._ps_tog, on_release=handler_passthrough
)
make_key(
names=('PS_ON',), on_press=self._ps_enable, on_release=handler_passthrough
)
make_key(
names=('PS_OFF',), on_press=self._ps_disable, on_release=handler_passthrough
)
def __repr__(self):
return f'Power({self._to_dict()})'
def _to_dict(self):
return {
'enable': self.enable,
'powersave_pin': self.powersave_pin,
'_powersave_start': self._powersave_start,
'_usb_last_scan': self._usb_last_scan,
'_psp': self._psp,
}
def during_bootup(self, keyboard):
self._i2c_scan()
def before_matrix_scan(self, keyboard):
return
def after_matrix_scan(self, keyboard):
if keyboard.matrix_update or keyboard.secondary_matrix_update:
self.psave_time_reset()
def before_hid_send(self, keyboard):
return
def after_hid_send(self, keyboard):
if self.enable:
self.psleep()
def on_powersave_enable(self, keyboard):
'''Gives 10 cycles to allow other extensions to clean up before powersave'''
if self._loopcounter > 10:
self.enable_powersave(keyboard)
self._loopcounter = 0
else:
self._loopcounter += 1
return
def on_powersave_disable(self, keyboard):
self.disable_powersave(keyboard)
return
def enable_powersave(self, keyboard):
'''Enables power saving features'''
if keyboard.i2c_deinit_count >= self._i2c and self.powersave_pin:
# Allows power save to prevent RGB drain.
# Example here https://docs.nicekeyboards.com/#/nice!nano/pinout_schematic
if not self._psp:
self._psp = digitalio.DigitalInOut(self.powersave_pin)
self._psp.direction = digitalio.Direction.OUTPUT
if self._psp:
self._psp.value = True
self.enable = True
keyboard._trigger_powersave_enable = False
return
def disable_powersave(self, keyboard):
'''Disables power saving features'''
if self._psp:
self._psp.value = False
# Allows power save to prevent RGB drain.
# Example here https://docs.nicekeyboards.com/#/nice!nano/pinout_schematic
keyboard._trigger_powersave_disable = False
self.enable = False
return
def psleep(self):
'''
Sleeps longer and longer to save power the more time in between updates.
'''
if check_deadline(ticks_ms(), self._powersave_start, 60000):
sleep(8 / 1000)
elif check_deadline(ticks_ms(), self._powersave_start, 240000) is False:
sleep(180 / 1000)
return
def psave_time_reset(self):
self._powersave_start = ticks_ms()
def _i2c_scan(self):
i2c = board.I2C()
while not i2c.try_lock():
pass
try:
self._i2c = len(i2c.scan())
finally:
i2c.unlock()
return
def usb_rescan_timer(self):
return bool(check_deadline(ticks_ms(), self._usb_last_scan, 5000) is False)
def usb_time_reset(self):
self._usb_last_scan = ticks_ms()
return
def usb_scan(self):
# TODO Add USB detection here. Currently lies that it's connected
# https://github.com/adafruit/circuitpython/pull/3513
return True
def _ps_tog(self, key, keyboard, *args, **kwargs):
if self.enable:
keyboard._trigger_powersave_disable = True
else:
keyboard._trigger_powersave_enable = True
def _ps_enable(self, key, keyboard, *args, **kwargs):
if not self.enable:
keyboard._trigger_powersave_enable = True
def _ps_disable(self, key, keyboard, *args, **kwargs):
if self.enable:
keyboard._trigger_powersave_disable = True
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