# SPDX-License-Identifier: LGPL-3.0-or-later # Copyright (C) 2020 Daniel Thompson """Analogue clock ~~~~~~~~~~~~~~~~~ Shows the time as a traditional watch face together with a battery meter. .. figure:: res/ChronoApp.png :width: 179 Screenshot of the analogue clock application """ import wasp class ChronoApp(): """Simple analogue clock application. """ NAME = 'Chrono' def foreground(self): """Activate the application. Configure the status bar, redraw the display and request a periodic tick callback every second. """ wasp.system.bar.clock = False self._draw(True) wasp.system.request_tick(1000) def sleep(self): """Prepare to enter the low power mode. :returns: True, which tells the system manager not to automatically switch to the default application before sleeping. """ return True def wake(self): """Return from low power mode. Time will have changes whilst we have been asleep so we must udpate the display (but there is no need for a full redraw because the display RAM is preserved during a sleep. """ self._draw() def tick(self, ticks): """Periodic callback to update the display.""" self._draw() def _draw(self, redraw=False): """Draw or lazily update the display. The updates are as lazy by default and avoid spending time redrawing if the time on display has not changed. However if redraw is set to True then a full redraw is be performed. """ draw = wasp.watch.drawable hi = wasp.system.theme('accent-hi') mid = wasp.system.theme('accent-mid') lo = wasp.system.theme('accent-lo') if redraw: now = wasp.watch.rtc.get_localtime() # Clear the display and draw that static parts of the watch face draw.fill() # Redraw the status bar wasp.system.bar.draw() # Draw the dividers draw.set_color(mid) for theta in range(12): draw.polar(120, 120, theta * 360 // 12, 111, 119, 2) self._hh = 0 self._mm = 0 else: now = wasp.system.bar.update() if not now or self._mm == now[4]: # Skip the update return # Undraw old time hh = (30 * (self._hh % 12)) + (self._mm / 2) mm = 6 * self._mm draw.polar(120, 120, hh, 5, 80, 5, 0) draw.polar(120, 120, mm, 5, 110, 3, 0) # Record the minute that is currently being displayed self._hh = now[3] self._mm = now[4] # Draw the new time hh = (30 * (self._hh % 12)) + (self._mm / 2) mm = 6 * self._mm draw.polar(120, 120, hh, 5, 80, 5, hi) draw.polar(120, 120, hh, 5, 60, 3, lo) draw.polar(120, 120, mm, 5, 110, 3, hi)