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wasp-os/wasp/apps/fibonacci_clock.py
Daniel Thompson aef95e6d80 apps: fibonacci_clock: Add an simple icon
For some users the icon is pointless because they would rather install
the clock on the quick ring but this clock is something of a novelty so
it would be quite reasonable to only launch it when in the mood for
decoding something!

Happily the icon compresses nicely too!

Signed-off-by: Daniel Thompson <daniel@redfelineninja.org.uk>
2020-10-10 14:06:44 +01:00

127 lines
4.5 KiB
Python

# SPDX-License-Identifier: LGPL-3.0-or-later
# Copyright (C) 2020 Johannes Wache
"""Fibonacci clock
The Fibonacci sequence is a sequence of numbers created by the Italian
mathematician Fibonacci in the 13th century. This is a sequence starting with
1 and 1, where each subsequent number is the sum of the previous two. For the
clock I used the first 5 terms: 1, 1, 2, 3 and 5.
The screen of the clock is made up of five squares whose side lengths match
the first five Fibonacci numbers: 1, 1, 2, 3 and 5. The hours are displayed
using red and the minutes using green. When a square is used to display both
the hours and minutes it turns blue. White squares are ignored.
To tell time on the Fibonacci clock you need to do some calculations. To read
the hour, simply add up the corresponding values of the red and blue squares.
To read the minutes, do the same with the green and blue squares. The minutes
are displayed in 5 minute increments (0 to 12) so you have to multiply your
result by 5 to get the actual number.
"""
import wasp
import icons
MONTH = 'JanFebMarAprMayJunJulAugSepOctNovDec'
# 2-bit RLE, generated from res/fibo_icon.png, 246 bytes
icon = (
b'\x02'
b'`@'
b'?\xff\xffk\xd3\x01\xc9\x01@\x1er\x10\xd3\x01\xc9\x01'
b'r\x10\xd3\x01\xc9\x01r\x10\xd3\x01\xc9\x01r\x10\xd3\x01'
b'\xc9\x01r\x10\xd3\x01\xc9\x01r\x10\xd3\x01\xc9\x01r\x10'
b'\xd3\x01\xc9\x01r\x10\xd3\x01\xc9\x01r\x10\xd3\x0br\x10'
b'\xd3\x01I\x01r\x10\xd3\x01I\x01r\x10\xd3\x01I\x01'
b'r\x10\xd3\x01I\x01r\x10\xd3\x01I\x01r\x10\xd3\x01'
b'I\x01r\x10\xd3\x01I\x01r\x10\xd3\x01I\x01r\x10'
b'\xd3\x01I\x01r.r\x10\xdd\x01r\x10\xdd\x01r\x10'
b'\xdd\x01r\x10\xdd\x01r\x10\xdd\x01r\x10\xdd\x01r\x10'
b'\xdd\x01r\x10\xdd\x01r\x10\xdd\x01r\x10\xdd\x01r\x10'
b'\xdd\x01r\x10\xdd\x01r\x10\xdd\x01r\x10\xdd\x01r\x10'
b'\xdd\x01r\x10\xdd\x01r\x10\xdd\x01r\x10\xdd\x01r\x10'
b'\xdd\x01r\x10\xdd\x01r\x10\xdd\x01r\x10\xdd\x01r\x10'
b'\xdd\x01r\x10\xdd\x01r\x10\xdd\x01r\x10\xdd\x01r\x10'
b'\xdd\x01r\x10\xdd\x01r\x10\xdd\x01r\x10\xdd\x01r?'
b'\xff\xffk'
)
class FibonacciClockApp():
"""Displays the time as a Fibonacci Clock
"""
NAME = 'Fibo'
ICON = icon
def __init__(self):
self.meter = wasp.widgets.BatteryMeter()
self.fields = b'\x05\x03\x02\x01\x01'
self.color_codes = [0xffff,0xf800,0x07e0,0x001f] # White, red, green and blue
def foreground(self):
"""Activate the application."""
self.on_screen = ( -1, -1, -1, -1, -1, -1 )
self.draw()
wasp.system.request_tick(1000)
def sleep(self):
return True
def wake(self):
self.update()
def tick(self, ticks):
self.update()
def draw(self):
"""Redraw the display from scratch."""
draw = wasp.watch.drawable
draw.fill()
self.on_screen = ( -1, -1, -1, -1, -1, -1 )
self.update()
self.meter.draw()
def update(self):
"""Update the display (if needed).
The updates are a lazy as possible and rely on an prior call to
draw() to ensure the screen is suitably prepared.
"""
now = wasp.watch.rtc.get_localtime()
if now[3] == self.on_screen[3] and now[4] == self.on_screen[4]:
if now[5] != self.on_screen[5]:
self.meter.update()
self.on_screen = now
return False
draw = wasp.watch.drawable
#calculate colors of fields:
field_colors = bytearray(5)
hr = now[3]
mn = now[4] // 5 # Clock can only display every 5 minutes
if (hr >= 12):
hr -= 12
for i in range(5):
if ((hr - self.fields[i]) >= 0):
hr -= self.fields[i]
field_colors[i] += 1
if ((mn - self.fields[i]) >= 0):
mn -= self.fields[i]
field_colors[i] += 2
draw.fill(x=71,y=51,w=23,h=23,bg=self.color_codes[field_colors[4]]) # 1 field
draw.fill(x=71,y=76,w=23,h=23,bg=self.color_codes[field_colors[3]]) # 1 field
draw.fill(x=21,y=51,w=48,h=48,bg=self.color_codes[field_colors[2]]) # 2 field
draw.fill(x=21,y=101,w=73,h=73,bg=self.color_codes[field_colors[1]]) # 3 field
draw.fill(x=96,y=51,w=123,h=123,bg=self.color_codes[field_colors[0]]) # 5 field
self.on_screen = now
month = now[1] - 1
month = MONTH[month*3:(month+1)*3]
draw.string('{}. {} {}'.format(now[2], month, now[0]),
0, 185, width=240)
self.meter.update()
return True