# SPDX-License-Identifier: LGPL-3.0-or-later # Copyright (C) 2020 Daniel Thompson import time def sleep_ms(ms): time.sleep(ms / 1000) time.sleep_ms = sleep_ms import sys, traceback def print_exception(exc, file=sys.stdout): exc_type, exc_value, exc_traceback = sys.exc_info() traceback.print_exception(exc_type, exc_value, exc_traceback, file=file) sys.print_exception = print_exception import draw565 import array from machine import I2C from machine import Pin from machine import SPI from drivers.cst816s import CST816S from drivers.st7789 import ST7789_SPI from drivers.vibrator import Vibrator class Accelerometer: """Simulated accelerometer. Accelerometers such as BMA421 are complex and most of the driver is written in C. For that reason we simulate the accelerometer rather than emulate (by comparison we emulate the ST7789). """ def reset(self): self._steps = 3 @property def steps(self): """Report the number of steps counted.""" if self._steps < 10000: self._steps = int(self._steps * 1.34) else: self._steps += 1 return self._steps @steps.setter def steps(self, value): self.reset() class Backlight(object): def __init__(self, level=1): pass def set(self, level): """Set the simulated backlight level. This function contains a subtle trick. As soon as the backlight is turned off (e.g. the watch goes to sleep) then we will simulate a button press in order to turn the watch back on again. """ print(f'BACKLIGHT: {level}') button.value(bool(level)) class Battery(object): def __init__(self): self.voltage = 3.9 self.step = -0.01 self.powered = False def charging(self): self.voltage_mv() return self.powered def power(self): self.voltage_mv() return self.powered def voltage_mv(self): if self.voltage > 4: self.step = -0.01 self.powered = False elif self.voltage < 3.4: self.step = 0.04 self.powered = True self.voltage += self.step return int(self.voltage * 1000) def level(self): mv = self.voltage_mv() level = ((19 * mv) // 100) - 660 if level > 100: return 100 if level < 0: return 0 return level class RTC(object): def __init__(self): self._epoch = time.time() self._lasttime = 0 def update(self): now = time.time() if now == self._lasttime: return False self._lasttime = now return True def get_localtime(self): #if self.uptime < 60: # # Jump back a little over a day # return time.localtime(time.time() - 100000) return time.localtime() def get_time(self): now = self.get_localtime() return (now[3], now[4], now[5]) def time(self): return time.time() @property def uptime(self): return time.time() - self._epoch def get_uptime_ms(self): return int(self.uptime * 1000) class HRS(): DATA = ( 9084,9084,9025,9025,9009,9009,9009,9015,9015,9024,9024,9024,9073,9073,9074,9074, 9074,9100,9100,9097,9097,9097,9045,9045,9023,9023,9023,9035,9035,9039,9039,9039, 9049,9049,9052,9052,9052,9066,9066,9070,9070,9070,9078,9078,9081,9081,9081,9092, 9092,9093,9093,9093,9094,9094,9108,9108,9108,9124,9124,9122,9122,9122,9100,9100, 9110,9110,9110,9112,9112,9118,9118,9118,9127,9127,9136,9136,9136,9147,9147,9154, 9154,9154,9156,9156,9153,9153,9153,9152,9152,9156,9156,9156,9161,9161,9161,9177, 9177,9186,9186,9196,9196,9196,9201,9201,9201,9189,9189,9176,9176,9176,9176,9176, 9175,9175,9175,9175,9175,9180,9180,9180,9189,9189,9202,9202,9202,9207,9207,9181, 9181,9181,9167,9167,9169,9169,9169,9163,9163,9164,9164,9164,9165,9165,9172,9172, 9172,9180,9180,9192,9192,9192,9178,9178,9161,9161,9161,9163,9163,9173,9173,9173, 9170,9170,9179,9179,9183,9183,9183,9196,9196,9207,9207,9207,9208,9208,9186,9186, 9186,9182,9182,9193,9193,9193,9197,9197,9188,9204,9204,9212,9212,9212,9223,9223, 9228,9228,9228,9235,9235,9215,9215,9215,9217,9217,9225,9225,9225,9230,9230,9237, 9237,9237,9246,9246,9260,9260,9260,9270,9270,9269,9269,9269,9256,9256,9256,9256, 9256,9263,9263,9274,9274,9274,9288,9288,9292,9292,9292,9307,9307,9310 ) def __init__(self): self._i = 0 self._step = 1 def enable(self): pass def disable(self): pass def read_hrs(self): d = self.DATA[self._i] self._i += self._step if self._i >= len(self.DATA): self._i -= 1 self._step = -1 elif self._i < 0: self._i += 1 self._step = 1 return d backlight = Backlight() spi = SPI(0) spi.init(polarity=1, phase=1, baudrate=8000000) display = ST7789_SPI(240, 240, spi, cs=Pin("DISP_CS", Pin.OUT, quiet=True), dc=Pin("DISP_DC", Pin.OUT, quiet=True), res=Pin("DISP_RST", Pin.OUT, quiet=True)) drawable = draw565.Draw565(display) accel = Accelerometer() battery = Battery() button = Pin('BUTTON', Pin.IN, quiet=True) hrs = HRS() rtc = RTC() touch = CST816S(I2C(0), Pin('TP_INT', Pin.IN, quiet=True), Pin('TP_RST', Pin.OUT, quiet=True)) vibrator = Vibrator(Pin('MOTOR', Pin.OUT, value=0), active_low=True) def connected(): return not (int(rtc.uptime / 30) & 1)