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wasp-os/wasp/wasp.py

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# SPDX-License-Identifier: LGPL-3.0-or-later
# Copyright (C) 2020 Daniel Thompson
"""WASP system management (including constants)
.. data:: system = Manager()
system is the system-wide instance of the Manager class. Applications
can use this instance to access system services.
"""
import gc
import machine
import watch
import widgets
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from apps import *
class EventType():
"""Enumerated interface actions.
MicroPython does not implement the enum module so EventType
is simply a regular object which acts as a namespace.
"""
DOWN = 1
UP = 2
LEFT = 3
RIGHT = 4
TOUCH = 5
HOME = 256
BACK = 257
class EventMask():
"""Enumerated event masks.
"""
TOUCH = 0x0001
SWIPE_LEFTRIGHT = 0x0002
SWIPE_UPDOWN = 0x0004
BUTTON = 0x0008
class PinHandler():
"""Pin (and Signal) event generator.
TODO: Currently this driver doesn't actually implement any
debounce but it will!
"""
def __init__(self, pin):
"""
:param Pin pin: The pin to generate events from
"""
self._pin = pin
self._value = pin.value()
def get_event(self):
"""Receive a pin change event.
Check for a pending pin change event and, if an event is pending,
return it.
:return: boolean of the pin state if an event is received, None
otherwise.
"""
new_value = self._pin.value()
if self._value == new_value:
return None
self._value = new_value
return new_value
class Manager():
"""WASP system manager
The manager is responsible for handling top-level UI events and
dispatching them to the foreground application. It also provides
services to the application.
The manager is expected to have a single system-wide instance
which can be accessed via :py:data:`wasp.system` .
"""
def __init__(self):
self.app = None
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self.quick_ring = []
self.launcher = LauncherApp()
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self.launcher_ring = []
self.blank_after = 15
self._brightness = 2
self._button = PinHandler(watch.button)
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self._charging = True
# TODO: Eventually these should move to main.py
self.register(ClockApp(), True)
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self.register(StopwatchApp(), True)
self.register(FlashlightApp(), False)
self.register(SettingsApp(), False)
self.register(TestApp(), False)
def register(self, app, quick_ring=False):
"""Register an application with the system.
:param object app: The application to regsister
"""
if quick_ring == True:
self.quick_ring.append(app)
else:
self.launcher_ring.append(app)
self.launcher_ring.sort(key = lambda x: x.NAME)
@property
def brightness(self):
"""Cached copy of the brightness current written to the hardware."""
return self._brightness
@brightness.setter
def brightness(self, value):
self._brightness = value
watch.backlight.set(self._brightness)
def switch(self, app):
"""Switch to the requested application.
"""
if self.app:
if 'background' in dir(self.app):
self.app.background()
else:
# System start up...
watch.display.poweron()
watch.display.mute(True)
watch.backlight.set(self._brightness)
self.sleep_at = watch.rtc.uptime + 90
# Clear out any configuration from the old application
self.event_mask = 0
self.tick_period_ms = 0
self.tick_expiry = None
self.app = app
watch.display.mute(True)
watch.drawable.reset()
app.foreground()
watch.display.mute(False)
def navigate(self, direction=None):
"""Navigate to a new application.
Left/right navigation is used to switch between applications in the
quick application ring. Applications on the ring are not permitted
to subscribe to :py:data`EventMask.SWIPE_LEFTRIGHT` events.
Swipe up is used to bring up the launcher. Clock applications are not
permitted to subscribe to :py:data`EventMask.SWIPE_UPDOWN` events since
they should expect to be the default application (and is important that
we can trigger the launcher from the default application).
:param int direction: The direction of the navigation
"""
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app_list = self.quick_ring
if direction == EventType.LEFT:
if self.app in app_list:
i = app_list.index(self.app) + 1
if i >= len(app_list):
i = 0
else:
i = 0
self.switch(app_list[i])
elif direction == EventType.RIGHT:
if self.app in app_list:
i = app_list.index(self.app) - 1
if i < 0:
i = len(app_list)-1
else:
i = 0
self.switch(app_list[i])
elif direction == EventType.UP:
self.switch(self.launcher)
elif direction == EventType.DOWN:
if self.app != app_list[0]:
self.switch(app_list[0])
else:
watch.vibrator.pulse()
elif direction == EventType.HOME or direction == EventType.BACK:
if self.app != app_list[0]:
self.switch(app_list[0])
else:
self.sleep()
def request_event(self, event_mask):
"""Subscribe to events.
:param int event_mask: The set of events to subscribe to.
"""
self.event_mask |= event_mask
def request_tick(self, period_ms=None):
"""Request (and subscribe to) a periodic tick event.
Note: With the current simplistic timer implementation sub-second
tick intervals are not possible.
"""
self.tick_period_ms = period_ms
self.tick_expiry = watch.rtc.get_uptime_ms() + period_ms
def keep_awake(self):
"""Reset the keep awake timer."""
self.sleep_at = watch.rtc.uptime + self.blank_after
def sleep(self):
"""Enter the deepest sleep state possible.
"""
watch.backlight.set(0)
if 'sleep' not in dir(self.app) or not self.app.sleep():
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self.switch(self.quick_ring[0])
self.app.sleep()
watch.display.poweroff()
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self._charging = watch.battery.charging()
self.sleep_at = None
def wake(self):
"""Return to a running state.
"""
watch.display.poweron()
self.app.wake()
watch.backlight.set(self._brightness)
# Discard any pending touch events
_ = watch.touch.get_event()
self.keep_awake()
def _handle_button(self, state):
"""Process a button-press (or unpress) event.
"""
self.keep_awake()
if bool(self.event_mask & EventMask.BUTTON):
# Currently we only support one button
if not self.app.press(EventType.HOME, state):
# If app reported None or False then we are done
return
if state:
self.navigate(EventType.HOME)
def _handle_touch(self, event):
"""Process a touch event.
"""
self.keep_awake()
event_mask = self.event_mask
if event[0] < 5:
updown = event[0] == 1 or event[0] == 2
if (bool(event_mask & EventMask.SWIPE_UPDOWN) and updown) or \
(bool(event_mask & EventMask.SWIPE_LEFTRIGHT) and not updown):
if self.app.swipe(event):
self.navigate(event[0])
else:
self.navigate(event[0])
elif event[0] == 5 and self.event_mask & EventMask.TOUCH:
self.app.touch(event)
def _tick(self):
"""Handle the system tick.
This function may be called frequently and includes short
circuit logic to quickly exit if we haven't reached a tick
expiry point.
"""
rtc = watch.rtc
if self.sleep_at:
if rtc.update() and self.tick_expiry:
now = rtc.get_uptime_ms()
if self.tick_expiry <= now:
ticks = 0
while self.tick_expiry <= now:
self.tick_expiry += self.tick_period_ms
ticks += 1
self.app.tick(ticks)
state = self._button.get_event()
if None != state:
self._handle_button(state)
event = watch.touch.get_event()
if event:
self._handle_touch(event)
if self.sleep_at and watch.rtc.uptime > self.sleep_at:
self.sleep()
gc.collect()
else:
watch.rtc.update()
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if 1 == self._button.get_event() or \
self._charging != watch.battery.charging():
self.wake()
def run(self, no_except=True):
"""Run the system manager synchronously.
This allows all watch management activities to handle in the
normal execution context meaning any exceptions and other problems
can be observed interactively via the console.
"""
if not self.app:
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self.switch(self.quick_ring[0])
# Reminder: wasptool uses this string to confirm the device has
# been set running again.
print('Watch is running, use Ctrl-C to stop')
if not no_except:
# This is a simplified (uncommented) version of the loop
# below
while True:
self._tick()
machine.deepsleep()
while True:
try:
self._tick()
except KeyboardInterrupt:
raise
except Exception as e:
# Only print the exception if the watch provides a way to do so!
if 'print_exception' in dir(watch):
watch.print_exception(e)
self.switch(CrashApp(e))
# Currently there is no code to control how fast the system
# ticks. In other words this code will break if we improve the
# power management... we are currently relying on no being able
# to stay in the low-power state for very long.
machine.deepsleep()
system = Manager()