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Verified Commit 7726c734 authored by rahix's avatar rahix
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Merge 'Make main clock an app' 

This will make it easier to change the default app, without overwriting
the clock script.
parents 039118ac 9ce301dd
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CHANGELOG.md
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0
View file @ 7726c734
......@@ -4,6 +4,10 @@ All notable changes to this project will be documented in this file.
The format is based on [Keep a Changelog](https://keepachangelog.com/en/1.0.0/).
## [Unreleased]
### Changed
- `main.py` was moved into an app to allow easier reconfiguration of the
default app. The new `main.py` points to the "old" one so behavior is not
changed.
## [v1.8] - 2019-08-27 11:38 - [HabaneroChilli]
......
preload/apps/analog_clock/__init__.py 0 → 100644
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View file @ 7726c734
# Adapted from https://github.com/muccc/flipdots/blob/master/scripts/clock.py
import display
from utime import sleep
import utime
import math
import leds
import buttons
import ujson
import os
CONFIG_NAME = "clock.json"
class Time:
def __init__(self, start=0):
self.time = start
self.wait_time = 0.95
def tick(self):
sleep(self.wait_time)
self.time += 1
@property
def second(self):
return self.time % 60
@property
def minute(self):
return (self.time / 60) % 60
@property
def hour(self):
return (self.time / 3600) % 24
class Clock:
def __init__(
self,
sizex=80,
sizey=80,
radius=38,
offsetx=30,
hour_hand=True,
minute_hand=True,
second_hand=True,
console_out=False,
run_once=False,
update_interval=0,
):
self.sizex = sizex
self.sizey = sizey
self.radius = radius
self.center = (int(self.sizex / 2), int(self.sizey / 2))
self.hour_hand = hour_hand
self.minute_hand = minute_hand
self.second_hand = second_hand
self.console_out = console_out
self.update_interval = (
update_interval if update_interval != 0 else (1 if self.second_hand else 30)
)
self.run_once = run_once
self.offsetx = offsetx
self.time = Time()
self.theme = 0
self.default_themes = [
{
"background": [0, 0, 0],
"center": [255, 255, 255],
"m1": [255, 255, 255],
"m5": [255, 255, 255],
"hour_hand": [255, 255, 255],
"minute_hand": [255, 255, 255],
"second_hand": [255, 255, 255],
},
{
"background": [130, 30, 70],
"center": [255, 255, 255],
"m1": [255, 255, 255],
"m5": [255, 255, 255],
"hour_hand": [255, 255, 255],
"minute_hand": [255, 255, 255],
"second_hand": [255, 255, 255],
},
{
"background": [0, 80, 0],
"center": [255, 255, 255],
"m1": [255, 255, 255],
"m5": [255, 255, 255],
"hour_hand": [255, 255, 255],
"minute_hand": [255, 255, 255],
"second_hand": [255, 255, 255],
},
{
"background": [0, 80, 80],
"center": [255, 255, 255],
"m1": [255, 255, 255],
"m5": [255, 255, 255],
"hour_hand": [255, 255, 255],
"minute_hand": [255, 255, 255],
"second_hand": [255, 255, 255],
},
{
"background": [255, 255, 255],
"center": [0, 0, 0],
"m1": [0, 0, 0],
"m5": [0, 0, 0],
"hour_hand": [0, 0, 0],
"minute_hand": [0, 0, 0],
"second_hand": [0, 0, 0],
},
]
self.themes = self.default_themes
# check for config file
if CONFIG_NAME in os.listdir("."):
self.readConfig()
else:
self.writeConfig()
# load colors
self.setTheme(self.theme)
def readConfig(self):
with open(CONFIG_NAME, "r") as f:
try:
c = ujson.loads(f.read())
if (
"themes" in c
and len(c["themes"]) > 0
and isinstance(c["themes"], list)
):
self.themes = c["themes"]
if "theme" and isinstance(c["theme"], int):
self.theme = c["theme"]
except ValueError:
print("parsing %s failed" % CONFIG_NAME)
def writeConfig(self):
with open(CONFIG_NAME, "w") as f:
f.write(ujson.dumps({"theme": self.theme, "themes": self.themes}))
def setTheme(self, theme):
self.theme = theme % len(self.themes)
self.background_col = (
self.themes[self.theme]["background"]
if "background" in self.themes[self.theme]
else self.default_themes[0]["background"]
)
self.center_col = (
self.themes[self.theme]["center"]
if "center" in self.themes[self.theme]
else self.default_themes[0]["center"]
)
self.m1_col = (
self.themes[self.theme]["m1"]
if "m1" in self.themes[self.theme]
else self.default_themes[0]["m1"]
)
self.m5_col = (
self.themes[self.theme]["m5"]
if "m5" in self.themes[self.theme]
else self.default_themes[0]["m5"]
)
self.hour_hand_col = (
self.themes[self.theme]["hour_hand"]
if "hour_hand" in self.themes[self.theme]
else self.default_themes[0]["hour_hand"]
)
self.minute_hand_col = (
self.themes[self.theme]["minute_hand"]
if "minute_hand" in self.themes[self.theme]
else self.default_themes[0]["minute_hand"]
)
self.second_hand_col = (
self.themes[self.theme]["second_hand"]
if "second_hand" in self.themes[self.theme]
else self.default_themes[0]["second_hand"]
)
def loop(self):
colored = False
try:
with display.open() as disp:
button_pressed = False
while True:
self.updateClock(disp)
if self.run_once:
break
# check for button presses
v = buttons.read(buttons.BOTTOM_LEFT | buttons.BOTTOM_RIGHT)
if v == 0:
button_pressed = False
if not button_pressed and v & buttons.BOTTOM_LEFT != 0:
button_pressed = True
self.setTheme(self.theme - 1)
self.writeConfig()
elif not button_pressed and v & buttons.BOTTOM_RIGHT != 0:
button_pressed = True
self.setTheme(self.theme + 1)
self.writeConfig()
except KeyboardInterrupt:
for i in range(11):
leds.set(i, (0, 0, 0))
return
def drawImage(self, image):
with display.open() as d:
d.clear()
for x in range(len(image)):
for y in range(len(image[x])):
d.pixel(
x + self.offsetx,
y,
col=(255, 255, 255) if image[x][y] else (0, 0, 0),
)
d.update()
def updateClock(self, disp):
disp.clear(self.background_col)
localtime = utime.localtime()
disp.pixel(self.center[0] + self.offsetx, self.center[1], col=self.center_col)
hour_coords = self.circlePoint(
math.radians(
(((localtime[3] % 12) / 12.0) if localtime[3] else 0) * 360
+ 270
+ (localtime[4] / 2)
)
)
minute_coords = self.circlePoint(math.radians(localtime[4] * 6 + 270))
second_coords = self.circlePoint(math.radians(localtime[5] * 6 + 270))
for i in range(60):
degree = i * 6 + 90
radian = -math.radians(degree)
coords = self.circlePoint(radian)
if not i % 5:
self.addLine(disp, coords, self.center, 3, 1, col=self.m5_col)
else:
self.addLine(disp, coords, self.center, 1, col=self.m1_col)
if self.hour_hand:
self.addLine(
disp,
self.center,
hour_coords,
int(self.radius / 3),
1,
col=self.hour_hand_col,
)
if self.minute_hand:
self.addLine(
disp,
self.center,
minute_coords,
int(self.radius / 2),
col=self.minute_hand_col,
)
if self.second_hand:
self.addLine(
disp,
self.center,
second_coords,
self.radius - int(self.radius / 8.0),
col=self.second_hand_col,
)
if self.console_out:
for y in range(self.radius * 2):
line = ""
for x in range(self.radius * 2):
line = line + (
"."
if image[(self.center[1] - self.radius) + y][
(self.center[0] - self.radius) + x
]
else " "
)
print(line)
disp.update()
def circlePoint(self, t):
return (
int(round(self.radius * math.cos(t))) + self.center[0],
int(round(self.radius * math.sin(t))) + self.center[1],
)
def addLine(self, disp, source, aim, length, thickness=1, col=(255, 255, 255)):
vector = self.subVector(aim, source)
vector = self.normVector(vector)
destination = self.addVector(source, self.multiplyVector(vector, length))
disp.line(
round(source[0]) + self.offsetx,
round(source[1]),
round(destination[0]) + self.offsetx,
round(destination[1]),
col=col,
size=thickness,
)
def normVector(self, v):
length = math.sqrt(sum([i ** 2 for i in v]))
new_v = []
for i in range(len(v)):
new_v.append(v[i] / length)
return tuple(new_v)
def subVector(self, v1, v2):
res = []
for i in range(len(v1)):
res.append(v1[i] - v2[i])
return tuple(res)
def addVector(self, v1, v2):
res = []
for i in range(len(v1)):
res.append(v1[i] + v2[i])
return tuple(res)
def multiplyVector(self, v, multiplier):
return tuple([i * multiplier for i in v])
clock = Clock()
clock.loop()
preload/apps/analog_clock/metadata.json 0 → 100644
+ 1
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View file @ 7726c734
{"name":"Analog Clock","description":"Analog Clock","category":"graphics","author":"markus","revision":-1}
preload/main.py
+ 12
325
View file @ 7726c734
# Adapted from https://github.com/muccc/flipdots/blob/master/scripts/clock.py
import display
from utime import sleep
import utime
import math
import leds
import buttons
import ujson
import os
CONFIG_NAME = "clock.json"
def main():
# Try loading analog clock
default_app = "apps/analog_clock/__init__.py"
try:
with open(default_app, "r"):
pass
class Time:
def __init__(self, start=0):
self.time = start
self.wait_time = 0.95
print("main.py: Loading " + default_app)
os.exec(default_app)
finally:
os.exit(1)
def tick(self):
sleep(self.wait_time)
self.time += 1
@property
def second(self):
return self.time % 60
@property
def minute(self):
return (self.time / 60) % 60
@property
def hour(self):
return (self.time / 3600) % 24
class Clock:
def __init__(
self,
sizex=80,
sizey=80,
radius=38,
offsetx=30,
hour_hand=True,
minute_hand=True,
second_hand=True,
console_out=False,
run_once=False,
update_interval=0,
):
self.sizex = sizex
self.sizey = sizey
self.radius = radius
self.center = (int(self.sizex / 2), int(self.sizey / 2))
self.hour_hand = hour_hand
self.minute_hand = minute_hand
self.second_hand = second_hand
self.console_out = console_out
self.update_interval = (
update_interval if update_interval != 0 else (1 if self.second_hand else 30)
)
self.run_once = run_once
self.offsetx = offsetx
self.time = Time()
self.theme = 0
self.default_themes = [
{
"background": [0, 0, 0],
"center": [255, 255, 255],
"m1": [255, 255, 255],
"m5": [255, 255, 255],
"hour_hand": [255, 255, 255],
"minute_hand": [255, 255, 255],
"second_hand": [255, 255, 255],
},
{
"background": [130, 30, 70],
"center": [255, 255, 255],
"m1": [255, 255, 255],
"m5": [255, 255, 255],
"hour_hand": [255, 255, 255],
"minute_hand": [255, 255, 255],
"second_hand": [255, 255, 255],
},
{
"background": [0, 80, 0],
"center": [255, 255, 255],
"m1": [255, 255, 255],
"m5": [255, 255, 255],
"hour_hand": [255, 255, 255],
"minute_hand": [255, 255, 255],
"second_hand": [255, 255, 255],
},
{
"background": [0, 80, 80],
"center": [255, 255, 255],
"m1": [255, 255, 255],
"m5": [255, 255, 255],
"hour_hand": [255, 255, 255],
"minute_hand": [255, 255, 255],
"second_hand": [255, 255, 255],
},
{
"background": [255, 255, 255],
"center": [0, 0, 0],
"m1": [0, 0, 0],
"m5": [0, 0, 0],
"hour_hand": [0, 0, 0],
"minute_hand": [0, 0, 0],
"second_hand": [0, 0, 0],
},
]
self.themes = self.default_themes
# check for config file
if CONFIG_NAME in os.listdir("."):
self.readConfig()
else:
self.writeConfig()
# load colors
self.setTheme(self.theme)
def readConfig(self):
with open(CONFIG_NAME, "r") as f:
try:
c = ujson.loads(f.read())
if (
"themes" in c
and len(c["themes"]) > 0
and isinstance(c["themes"], list)
):
self.themes = c["themes"]
if "theme" and isinstance(c["theme"], int):
self.theme = c["theme"]
except ValueError:
print("parsing %s failed" % CONFIG_NAME)
def writeConfig(self):
with open(CONFIG_NAME, "w") as f:
f.write(ujson.dumps({"theme": self.theme, "themes": self.themes}))
def setTheme(self, theme):
self.theme = theme % len(self.themes)
self.background_col = (
self.themes[self.theme]["background"]
if "background" in self.themes[self.theme]
else self.default_themes[0]["background"]
)
self.center_col = (
self.themes[self.theme]["center"]
if "center" in self.themes[self.theme]
else self.default_themes[0]["center"]
)
self.m1_col = (
self.themes[self.theme]["m1"]
if "m1" in self.themes[self.theme]
else self.default_themes[0]["m1"]
)
self.m5_col = (
self.themes[self.theme]["m5"]
if "m5" in self.themes[self.theme]
else self.default_themes[0]["m5"]
)
self.hour_hand_col = (
self.themes[self.theme]["hour_hand"]
if "hour_hand" in self.themes[self.theme]
else self.default_themes[0]["hour_hand"]
)
self.minute_hand_col = (
self.themes[self.theme]["minute_hand"]
if "minute_hand" in self.themes[self.theme]
else self.default_themes[0]["minute_hand"]
)
self.second_hand_col = (
self.themes[self.theme]["second_hand"]
if "second_hand" in self.themes[self.theme]
else self.default_themes[0]["second_hand"]
)
def loop(self):
colored = False
try:
with display.open() as disp:
button_pressed = False
while True:
self.updateClock(disp)
if self.run_once:
break
# check for button presses
v = buttons.read(buttons.BOTTOM_LEFT | buttons.BOTTOM_RIGHT)
if v == 0:
button_pressed = False
if not button_pressed and v & buttons.BOTTOM_LEFT != 0:
button_pressed = True
self.setTheme(self.theme - 1)
self.writeConfig()
elif not button_pressed and v & buttons.BOTTOM_RIGHT != 0:
button_pressed = True
self.setTheme(self.theme + 1)
self.writeConfig()
except KeyboardInterrupt:
for i in range(11):
leds.set(i, (0, 0, 0))
return
def drawImage(self, image):
with display.open() as d:
d.clear()
for x in range(len(image)):
for y in range(len(image[x])):
d.pixel(
x + self.offsetx,
y,
col=(255, 255, 255) if image[x][y] else (0, 0, 0),
)
d.update()
def updateClock(self, disp):
disp.clear(self.background_col)
localtime = utime.localtime()
disp.pixel(self.center[0] + self.offsetx, self.center[1], col=self.center_col)
hour_coords = self.circlePoint(
math.radians(
(((localtime[3] % 12) / 12.0) if localtime[3] else 0) * 360
+ 270
+ (localtime[4] / 2)
)
)
minute_coords = self.circlePoint(math.radians(localtime[4] * 6 + 270))
second_coords = self.circlePoint(math.radians(localtime[5] * 6 + 270))
for i in range(60):
degree = i * 6 + 90
radian = -math.radians(degree)
coords = self.circlePoint(radian)
if not i % 5:
self.addLine(disp, coords, self.center, 3, 1, col=self.m5_col)
else:
self.addLine(disp, coords, self.center, 1, col=self.m1_col)
if self.hour_hand:
self.addLine(
disp,
self.center,
hour_coords,
int(self.radius / 3),
1,
col=self.hour_hand_col,
)
if self.minute_hand:
self.addLine(
disp,
self.center,
minute_coords,
int(self.radius / 2),
col=self.minute_hand_col,
)
if self.second_hand:
self.addLine(
disp,
self.center,
second_coords,
self.radius - int(self.radius / 8.0),
col=self.second_hand_col,
)
if self.console_out:
for y in range(self.radius * 2):
line = ""
for x in range(self.radius * 2):
line = line + (
"."
if image[(self.center[1] - self.radius) + y][
(self.center[0] - self.radius) + x
]
else " "
)
print(line)
disp.update()
def circlePoint(self, t):
return (
int(round(self.radius * math.cos(t))) + self.center[0],
int(round(self.radius * math.sin(t))) + self.center[1],
)
def addLine(self, disp, source, aim, length, thickness=1, col=(255, 255, 255)):
vector = self.subVector(aim, source)
vector = self.normVector(vector)
destination = self.addVector(source, self.multiplyVector(vector, length))
disp.line(
round(source[0]) + self.offsetx,
round(source[1]),
round(destination[0]) + self.offsetx,
round(destination[1]),
col=col,
size=thickness,
)
def normVector(self, v):
length = math.sqrt(sum([i ** 2 for i in v]))
new_v = []
for i in range(len(v)):
new_v.append(v[i] / length)
return tuple(new_v)
def subVector(self, v1, v2):
res = []
for i in range(len(v1)):
res.append(v1[i] - v2[i])
return tuple(res)
def addVector(self, v1, v2):
res = []
for i in range(len(v1)):
res.append(v1[i] + v2[i])
return tuple(res)
def multiplyVector(self, v, multiplier):
return tuple([i * multiplier for i in v])
clock = Clock()
clock.loop()
if __name__ == "__main__":
main()
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