# SPDX-License-Identifier: LGPL-3.0-or-later # Copyright (C) 2020 Daniel Thompson import wasp import machine import ppg class HeartApp(): """Heart Rate Sensing application. .. figure:: res/HeartApp.png :width: 179 Screenshot of the heart rate application """ NAME = 'Heart' def foreground(self): """Activate the application.""" wasp.watch.hrs.enable() # There is no delay after the enable because the redraw should # take long enough it is not needed draw = wasp.watch.drawable draw.fill() draw.string('PPG graph', 0, 6, width=240) wasp.system.request_tick(1000 // 8) self._hrdata = ppg.PPG(wasp.watch.hrs.read_hrs()) self._x = 0 def background(self): wasp.watch.hrs.disable() del self._hrdata def _subtick(self, ticks): """Notify the application that its periodic tick is due.""" draw = wasp.watch.drawable spl = self._hrdata.preprocess(wasp.watch.hrs.read_hrs()) if len(self._hrdata.data) >= 240: draw.string('{} bpm'.format(self._hrdata.get_heart_rate()), 0, 6, width=240) # Graph is orange by default... color = 0xffc0 # If the maths goes wrong lets show it in the chart! if spl > 100 or spl < -100: color = 0xffff if spl > 104 or spl < -104: spl = 0 spl += 104 x = self._x draw.fill(0, x, 32, 1, 208-spl) draw.fill(color, x, 239-spl, 1, spl) x += 2 if x >= 240: x = 0 self._x = x def tick(self, ticks): """This is an outrageous hack but, at present, the RTC can only wake us up every 125ms so we implement sub-ticks using a regular timer to ensure we can read the sensor at 24Hz. """ t = machine.Timer(id=1, period=8000000) t.start() self._subtick(1) wasp.system.keep_awake() while t.time() < 41666: pass self._subtick(1) while t.time() < 83332: pass self._subtick(1) t.stop() del t