def doTemp():
fps = 30
current_millis = lambda: int(round(time.time() * 1000))
off = bytearray([0, 0, 0])
sleepTime = 0.1
myledData = bytearray()
colors = getColorArgs()
for i in range(hyperion.ledCount):
myledData += bytearray([0, 0, 0])
color = colors[0]
myledData[150] = colors[0][0]
myledData[151] = colors[0][1]
myledData[152] = colors[0][2]
myledData[180] = colors[1][0]
myledData[181] = colors[1][1]
myledData[182] = colors[1][2]
myledData[310] = colors[2][0]
myledData[311] = colors[2][1]
myledData[312] = colors[2][2]
# Start the write data loop
while not hyperion.abort():
hyperion.setColor(myledData)
time.sleep(sleepTime)
def shiftLED(ledData, increment, limit, lightPos=None):
state = 0
while state < limit and not hyperion.abort():
ledData = ledData[increment:] + ledData[:increment]
if (lightPos):
tmp = ledData[lightPos]
ledData[lightPos] = light
hyperion.setColor(ledData)
if (lightPos):
ledData[lightPos] = tmp
time.sleep(sleepTime)
state += 1
def shiftLED(ledData, increment, limit, lightPos=None): state = 0 while state < limit and not hyperion.abort(): ledData = ledData[increment:] + ledData[:increment] if (lightPos): tmp = ledData[lightPos] ledData[lightPos] = light hyperion.setColor(ledData) if (lightPos): ledData[lightPos] = tmp time.sleep(sleepTime) state += 1
def runScene(self):
print "Starting led scene loop..."
#30 fps sleep time
sleepTime = 1.0 / fps
lastTime = current_millis();
while not hyperion.abort():
# hyperion.setColor(ledData[colorIndex])
# colorIndex = (colorIndex + 1) % len(ledData)
now = current_millis()
elapsed = now - lastTime
lastTime = now
self.updateObjects(elapsed)
#create a new empty scene to paint on
ledScene = bytearray()
for i in range(hyperion.ledCount):
ledScene += off
self.paintObjects(ledScene)
hyperion.setColor(ledScene)
time.sleep(sleepTime)
import errno
# Get the parameters
udpPort = int(hyperion.args.get('udpPort', 2812))
UDPSock = socket.socket(socket.AF_INET,socket.SOCK_DGRAM)
UDPSock.setblocking(False)
listen_addr = ("",udpPort)
print "udp.py: bind socket port:",udpPort
UDPSock.bind(listen_addr)
hyperion.setColor(hyperion.ledCount * bytearray((int(0), int(0), int(0))) )
# Start the write data loop
while not hyperion.abort():
try:
data,addr = UDPSock.recvfrom(4500)
# print data.strip(),len(data),addr
if (len(data)%3 == 0):
# print "numleds ",len(data)/3
ledData = bytearray()
for i in range(hyperion.ledCount):
if (i<(len(data)/3)):
ledData += data[i*3+0]
ledData += data[i*3+1]
ledData += data[i*3+2]
else:
ledData += bytearray((int(0), int(0), int(0)))
hyperion.setColor(ledData)
def main():
try:
# use GPIO pin numbering convention
GPIO.setmode(GPIO.BOARD)
# set up GPIO pin for input
GPIO.setup(GPIOFrontLight, GPIO.IN)
GPIO.setup(GPIOSwitchAmbianceMode, GPIO.IN)
GPIO.setup(GPIODimmer, GPIO.IN)
GPIO.setup(GPIOFrontLight, GPIO.IN, pull_up_down=GPIO.PUD_DOWN)
GPIO.setup(GPIOSwitchAmbianceMode, GPIO.IN, pull_up_down=GPIO.PUD_DOWN)
GPIO.setup(GPIODimmer, GPIO.IN, pull_up_down=GPIO.PUD_DOWN)
frontLightStatus = 0 # 0 = off , 1 = on
ambianceLightStatus = 0 # 0 = off, 1 = on
ambianceMode = 0 # 0 = normal ambiance light , 1 = tv ambiance mode
dimmerValue = 1 # 0 to 10
ledDataWandOn = bytearray()
ledDataLampenOn = bytearray()
ledDataWandOff = bytearray()
ledDataLampenOff = bytearray()
hsv = colorsys.rgb_to_hsv(250 / 255.0, 1.0, 158.0 / 255.0)
hsvFront = colorsys.rgb_to_hsv(250.0 / 255.0, 1.0, 158.0 / 255.0)
for i in range(1, 151):
rgb = colorsys.hsv_to_rgb(hsv[0], hsv[1] * 2, 1)
ledDataWandOn += bytearray(
(int(rgb[0] * 255), int(rgb[1] * 255), int(rgb[2] * 255)))
ledDataWandOff += bytearray((0, 0, 0))
for i in range(1, 62):
rgb = colorsys.hsv_to_rgb(hsvFront[0], hsvFront[1] * 2,
hsvFront[2])
ledDataLampenOn += bytearray(
(int(rgb[0] * 255), int(rgb[1] * 255), int(rgb[2] * 255)))
ledDataLampenOff += bytearray((0, 0, 0))
while not hyperion.abort():
# get GPIO value
if GPIO.input(GPIOSwitchAmbianceMode) and ambianceMode <> 1:
ambianceMode = 1
# print("Button 2 pressed")
if not GPIO.input(GPIOSwitchAmbianceMode) and ambianceMode <> 0:
ambianceMode = 0
# print("Button 2 released")
if GPIO.input(GPIOFrontLight) and frontLightStatus <> 1:
frontLightStatus = 1
# print("Button 1 pressed")
if not GPIO.input(GPIOFrontLight) and frontLightStatus <> 0:
frontLightStatus = 0
# print("Button 1 released")
if GPIO.input(GPIODimmer):
# print("DIMMER 1")
timeCounter = 0
if GPIO.input(GPIODimmer) and ambianceLightStatus == 0:
# print("Light on")
ambianceLightStatus = 1
ledData = ledDataWandOn
if frontLightStatus == 1:
ledData = ledData + ledDataLampenOn
else:
ledData = ledData + ledDataLampenOff
hyperion.setColor(ledData)
time.sleep(0.4)
while GPIO.input(GPIODimmer):
timeCounter = timeCounter + 1
# print("TIME COUNTER")
if timeCounter > 10:
ambianceLightStatus = 0
ledData = ledDataWandOff
if frontLightStatus == 1:
ledData = ledData + ledDataLampenOn
else:
ledData = ledData + ledDataLampenOff
hyperion.setColor(ledData)
# print("Light off")
time.sleep(0.1)
if ambianceLightStatus == 1 and timeCounter <= 10:
# print("DIMMING")
ledDataWandOn = bytearray()
dimmerValue = dimmerValue + 1
if dimmerValue == 11:
dimmerValue = 1
for i in range(1, 151):
rgb = colorsys.hsv_to_rgb(hsv[0], hsv[1],
dimmerValue / 10.0)
ledDataWandOn += bytearray(
(int(rgb[0] * 255), int(rgb[1] * 255),
int(rgb[2] * 255)))
# print("Dimmdone")
ledData = bytearray()
if ambianceLightStatus == 1:
ledData = ledData + ledDataWandOn
else:
ledData = ledData + ledDataWandOff
if frontLightStatus == 1:
ledData = ledData + ledDataLampenOn
else:
ledData = ledData + ledDataLampenOff
hyperion.setColor(ledData)
# wait 100ms
time.sleep(0.1)
# reset GPIO settings if user pressed Ctrl+C
except KeyboardInterrupt:
print("Execution stopped by user")
GPIO.cleanup()
import os, hyperion, time
# Get the parameters
imageFile = hyperion.args.get('image')
framesPerSecond = float(hyperion.args.get('fps', 25))
reverse = bool(hyperion.args.get('reverse', False))
sleepTime = 1./framesPerSecond
imageList = []
if imageFile:
imageList = [reversed(hyperion.getImage(imageFile))] if reverse else hyperion.getImage(imageFile)
# Start the write data loop
while not hyperion.abort() and imageList:
for image in imageList:
hyperion.setImage(image["imageWidth"], image["imageHeight"], image["imageData"])
time.sleep(sleepTime)
incrementOut = max(1,int(round(steps / (fadeOutTime / minStepTime) ))) sleepTimeOut = fadeOutTime / (steps / incrementOut) else: incrementOut = sleepTimeOut = 1 def setColor(r,g,b): global currentR,currentG,currentB currentR = r currentG = g currentB = b hyperion.setColor(r,g,b) # loop repeatCounter = 1 while not hyperion.abort(): # fade in if fadeInTime > 0: setColor( colors[0][0],colors[0][1],colors[0][2] ) for step in range(0,int(steps)+1,incrementIn): if hyperion.abort(): break setColor( colors[step][0],colors[step][1],colors[step][2] ) time.sleep(sleepTimeIn) # end color t = 0.0 while t<colorStartTime and not hyperion.abort(): setColor( colors[int(steps)][0],colors[int(steps)][1],colors[int(steps)][2] ) time.sleep(minStepTime) t += minStepTime
import hyperion, time
# Get the parameters
imageData = hyperion.args.get('url') if hyperion.args.get('imageSource', "") == "url" else hyperion.args.get('file')
framesPerSecond = float(hyperion.args.get('fps', 25))
reverse = bool(hyperion.args.get('reverse', False))
cropLeft = int(hyperion.args.get('cropLeft', 0))
cropTop = int(hyperion.args.get('cropTop', 0))
cropRight = int(hyperion.args.get('cropRight', 0))
cropBottom = int(hyperion.args.get('cropBottom', 0))
grayscale = bool(hyperion.args.get('grayscale', False))
sleepTime = 1./framesPerSecond
imageFrameList = []
if imageData:
if reverse:
imageFrameList = reversed(hyperion.getImage(imageData, cropLeft, cropTop, cropRight, cropBottom, grayscale))
else:
imageFrameList = hyperion.getImage(imageData, cropLeft, cropTop, cropRight, cropBottom, grayscale)
# Start the write data loop
while not hyperion.abort() and imageFrameList:
for image in imageFrameList:
if not hyperion.abort():
hyperion.setImage(image["imageWidth"], image["imageHeight"], image["imageData"])
time.sleep(sleepTime)
method = locals()[method]
red = partial(method,
b=color_start[0],
c=color_end[0] - color_start[0],
d=duration)
green = partial(method,
b=color_start[1],
c=color_end[1] - color_start[1],
d=duration)
blue = partial(method,
b=color_start[2],
c=color_end[2] - color_start[2],
d=duration)
start = time.time()
prev_color = None
while not hyperion.abort():
current = time.time() - start
color = (red(current), green(current), blue(current))
if color != prev_color:
#print(color)
hyperion.setColor(*color)
prev_color = color
time.sleep(interval)
if current >= duration:
break
hyperion.setColor(color_end[0], color_end[1], color_end[2])
while not hyperion.abort() and maintain_color:
time.sleep(1)
def main():
try:
# use GPIO pin numbering convention
GPIO.setmode(GPIO.BOARD)
# set up GPIO pin for input
GPIO.setup(GPIOFrontLight, GPIO.IN)
GPIO.setup(GPIOSwitchAmbianceMode, GPIO.IN)
GPIO.setup(GPIODimmer, GPIO.IN)
GPIO.setup(GPIOFrontLight, GPIO.IN, pull_up_down = GPIO.PUD_DOWN)
GPIO.setup(GPIOSwitchAmbianceMode, GPIO.IN, pull_up_down = GPIO.PUD_DOWN)
GPIO.setup(GPIODimmer, GPIO.IN, pull_up_down = GPIO.PUD_DOWN)
frontLightStatus = 0 # 0 = off , 1 = on
ambianceLightStatus = 0 # 0 = off, 1 = on
ambianceMode = 0 # 0 = normal ambiance light , 1 = tv ambiance mode
dimmerValue = 1 # 0 to 10
ledDataWandOn = bytearray()
ledDataLampenOn = bytearray()
ledDataWandOff = bytearray()
ledDataLampenOff = bytearray()
hsv = colorsys.rgb_to_hsv(250/255.0, 1.0, 158.0/255.0)
hsvFront = colorsys.rgb_to_hsv(250.0/255.0, 1.0, 158.0/255.0)
for i in range(1,151):
rgb = colorsys.hsv_to_rgb(hsv[0], hsv[1]*2, 1)
ledDataWandOn += bytearray((int(rgb[0]*255), int(rgb[1]*255), int(rgb[2]*255)))
ledDataWandOff += bytearray((0,0,0))
for i in range(1,62):
rgb = colorsys.hsv_to_rgb(hsvFront[0], hsvFront[1]*2, hsvFront[2])
ledDataLampenOn += bytearray((int(rgb[0]*255), int(rgb[1]*255), int(rgb[2]*255)))
ledDataLampenOff += bytearray((0,0,0))
while not hyperion.abort():
# get GPIO value
if GPIO.input(GPIOSwitchAmbianceMode) and ambianceMode <> 1:
ambianceMode = 1
# print("Button 2 pressed")
if not GPIO.input(GPIOSwitchAmbianceMode) and ambianceMode <> 0:
ambianceMode = 0
# print("Button 2 released")
if GPIO.input(GPIOFrontLight) and frontLightStatus <> 1:
frontLightStatus = 1
# print("Button 1 pressed")
if not GPIO.input(GPIOFrontLight) and frontLightStatus <> 0:
frontLightStatus = 0
# print("Button 1 released")
if GPIO.input(GPIODimmer):
# print("DIMMER 1")
timeCounter = 0
if GPIO.input(GPIODimmer) and ambianceLightStatus == 0:
# print("Light on")
ambianceLightStatus = 1
ledData = ledDataWandOn
if frontLightStatus == 1:
ledData = ledData + ledDataLampenOn
else:
ledData = ledData + ledDataLampenOff
hyperion.setColor(ledData)
time.sleep(0.4)
while GPIO.input(GPIODimmer):
timeCounter = timeCounter + 1
# print("TIME COUNTER")
if timeCounter > 10:
ambianceLightStatus = 0
ledData = ledDataWandOff
if frontLightStatus == 1:
ledData = ledData + ledDataLampenOn
else:
ledData = ledData + ledDataLampenOff
hyperion.setColor(ledData)
# print("Light off")
time.sleep(0.1)
if ambianceLightStatus == 1 and timeCounter <=10:
# print("DIMMING")
ledDataWandOn = bytearray()
dimmerValue = dimmerValue + 1
if dimmerValue == 11:
dimmerValue = 1
for i in range(1,151):
rgb = colorsys.hsv_to_rgb(hsv[0], hsv[1], dimmerValue/10.0)
ledDataWandOn += bytearray((int(rgb[0]*255), int(rgb[1]*255), int(rgb[2]*255)))
# print("Dimmdone")
ledData = bytearray()
if ambianceLightStatus == 1:
ledData = ledData + ledDataWandOn
else:
ledData = ledData + ledDataWandOff
if frontLightStatus == 1:
ledData = ledData + ledDataLampenOn
else:
ledData = ledData + ledDataLampenOff
hyperion.setColor(ledData)
# wait 100ms
time.sleep(0.1)
# reset GPIO settings if user pressed Ctrl+C
except KeyboardInterrupt:
print("Execution stopped by user")
GPIO.cleanup()
def main():
try:
# use GPIO pin numbering convention
GPIO.setmode(GPIO.BOARD)
# set up GPIO pin for input
GPIO.setup(GPIOFrontLight, GPIO.IN)
GPIO.setup(GPIOSwitchAmbianceMode, GPIO.IN)
GPIO.setup(GPIODimmer, GPIO.IN)
GPIO.setup(GPIOFrontLight, GPIO.IN, pull_up_down = GPIO.PUD_DOWN)
GPIO.setup(GPIOSwitchAmbianceMode, GPIO.IN, pull_up_down = GPIO.PUD_DOWN)
GPIO.setup(GPIODimmer, GPIO.IN, pull_up_down = GPIO.PUD_DOWN)
frontLightStatus = 0 # 0 = off , 1 = on
ambianceLightStatus = 0 # 0 = off, 1 = on
ambianceMode = 0 # 0 = normal ambiance light , 1 = tv ambiance mode
dimmerValue = 10 # 0 to 10
UDP_IP = ""
UDP_PORT = 8888
sock = socket.socket(socket.AF_INET, # Internet
socket.SOCK_DGRAM) # UDP
sock.bind((UDP_IP, UDP_PORT))
sock.settimeout(0.3)
ledDataWandOn = bytearray()
ledDataLampenOn = bytearray()
ledDataWandOff = bytearray()
ledDataLampenOff = bytearray()
hsv = colorsys.rgb_to_hsv(250/255.0, 1.0, 158.0/255.0)
hsvFront = colorsys.rgb_to_hsv(250.0/255.0, 1.0, 158.0/255.0)
for i in range(1,152):
rgb = colorsys.hsv_to_rgb(hsv[0], hsv[1]*2, 1)
ledDataWandOn += bytearray((int(rgb[0]*255), int(rgb[1]*255), int(rgb[2]*255)))
ledDataWandOff += bytearray((0,0,0))
for i in range(1,61):
rgb = colorsys.hsv_to_rgb(hsvFront[0], hsvFront[1]*2, hsvFront[2])
ledDataLampenOn += bytearray((int(rgb[0]*255), int(rgb[1]*255), int(rgb[2]*255)))
ledDataLampenOff += bytearray((0,0,0))
while not hyperion.abort():
# get GPIO value
if GPIO.input(GPIOSwitchAmbianceMode) and ambianceMode <> 1:
ambianceMode = 1
time.sleep(0.2)
print("Button 2 pressed")
if not GPIO.input(GPIOSwitchAmbianceMode) and ambianceMode <> 0:
ambianceMode = 0
ambianceLightStatus = 0
time.sleep(0.2)
print("Button 2 released")
if GPIO.input(GPIOFrontLight) and frontLightStatus <> 1:
frontLightStatus = 1
time.sleep(0.2)
print("Button 1 pressed")
if not GPIO.input(GPIOFrontLight) and frontLightStatus <> 0:
frontLightStatus = 0
time.sleep(0.2)
print("Button 1 released")
if GPIO.input(GPIODimmer):
print("DIMMER 1")
timeCounter = 0
if GPIO.input(GPIODimmer) and ambianceLightStatus == 0:
print("Light on")
ambianceLightStatus = 1
ledData = ledDataWandOn
if frontLightStatus == 1:
ledData = ledData + ledDataLampenOn
else:
ledData = ledData + ledDataLampenOff
hyperion.setColor(ledData)
time.sleep(0.4)
while GPIO.input(GPIODimmer):
timeCounter = timeCounter + 1
print("TIME COUNTER")
if timeCounter > 10:
ambianceLightStatus = 0
ledData = ledDataWandOff
if frontLightStatus == 1:
ledData = ledData + ledDataLampenOn
else:
ledData = ledData + ledDataLampenOff
hyperion.setColor(ledData)
# print("Light off")
time.sleep(0.1)
if ambianceLightStatus == 1 and timeCounter <=10:
print("DIMMING")
ledDataWandOn = bytearray()
dimmerValue = dimmerValue - 1
if dimmerValue == -1:
dimmerValue = 10
for i in range(1,152):
rgb = colorsys.hsv_to_rgb(hsv[0], hsv[1]*2, dimmerValue/10.0)
ledDataWandOn += bytearray((int(rgb[0]*255), int(rgb[1]*255), int(rgb[2]*255)))
print("Dimmdone")
ledData = bytearray()
sleepTime = 0.1
if ambianceMode == 1:
srgb = bytearray(152*3)
try:
number,addr = sock.recvfrom_into(srgb) # buffer size is
ledDataServer = bytearray()
for i in range(1, number-3, 3):
ledDataServer += bytearray((srgb[i+2], srgb[i], srgb[i+1]))
ledData = ledData + ledDataServer
sleepTime = 0.01
except socket.timeout:
ledData = ledData + ledDataWandOff
else:
if ambianceLightStatus == 1:
ledData = ledData + ledDataWandOn
else:
ledData = ledData + ledDataWandOff
if frontLightStatus == 1:
ledData = ledData + ledDataLampenOn
else:
ledData = ledData + ledDataLampenOff
hyperion.setColor(ledData)
# wait 100ms
time.sleep(sleepTime)
# reset GPIO settings if user pressed Ctrl+C
except KeyboardInterrupt:
print("Execution stopped by user")
GPIO.cleanup()
import os, hyperion, time
# Get the parameters
imageFile = hyperion.args.get('image')
framesPerSecond = float(hyperion.args.get('fps', 25))
reverse = bool(hyperion.args.get('reverse', False))
sleepTime = 1. / framesPerSecond
if imageFile:
imageList = list(reversed(hyperion.getImage(
imageFile))) if reverse else hyperion.getImage(imageFile)
# Start the write data loop
while not hyperion.abort() and imageList:
for image in imageList:
hyperion.setImage(image["imageWidth"], image["imageHeight"],
image["imageData"])
time.sleep(sleepTime)
def main():
try:
# use GPIO pin numbering convention
GPIO.setmode(GPIO.BOARD)
# set up GPIO pin for input
GPIO.setup(GPIOFrontLight, GPIO.IN)
GPIO.setup(GPIOSwitchAmbianceMode, GPIO.IN)
GPIO.setup(GPIODimmer, GPIO.IN)
GPIO.setup(GPIOFrontLight, GPIO.IN, pull_up_down=GPIO.PUD_DOWN)
GPIO.setup(GPIOSwitchAmbianceMode, GPIO.IN, pull_up_down=GPIO.PUD_DOWN)
GPIO.setup(GPIODimmer, GPIO.IN, pull_up_down=GPIO.PUD_DOWN)
frontLightStatus = 0 # 0 = off , 1 = on
ambianceLightStatus = 0 # 0 = off, 1 = on
ambianceMode = 0 # 0 = normal ambiance light , 1 = tv ambiance mode
dimmerValue = 10 # 0 to 10
UDP_IP = ""
UDP_PORT = 8888
sock = socket.socket(
socket.AF_INET, # Internet
socket.SOCK_DGRAM) # UDP
sock.bind((UDP_IP, UDP_PORT))
sock.settimeout(0.3)
ledDataWandOn = bytearray()
ledDataLampenOn = bytearray()
ledDataWandOff = bytearray()
ledDataLampenOff = bytearray()
hsv = colorsys.rgb_to_hsv(250 / 255.0, 1.0, 158.0 / 255.0)
hsvFront = colorsys.rgb_to_hsv(250.0 / 255.0, 1.0, 158.0 / 255.0)
for i in range(1, 152):
rgb = colorsys.hsv_to_rgb(hsv[0], hsv[1] * 2, 1)
ledDataWandOn += bytearray(
(int(rgb[0] * 255), int(rgb[1] * 255), int(rgb[2] * 255)))
ledDataWandOff += bytearray((0, 0, 0))
for i in range(1, 61):
rgb = colorsys.hsv_to_rgb(hsvFront[0], hsvFront[1] * 2,
hsvFront[2])
ledDataLampenOn += bytearray(
(int(rgb[0] * 255), int(rgb[1] * 255), int(rgb[2] * 255)))
ledDataLampenOff += bytearray((0, 0, 0))
while not hyperion.abort():
# get GPIO value
if GPIO.input(GPIOSwitchAmbianceMode) and ambianceMode <> 1:
ambianceMode = 1
time.sleep(0.2)
print("Button 2 pressed")
if not GPIO.input(GPIOSwitchAmbianceMode) and ambianceMode <> 0:
ambianceMode = 0
ambianceLightStatus = 0
time.sleep(0.2)
print("Button 2 released")
if GPIO.input(GPIOFrontLight) and frontLightStatus <> 1:
frontLightStatus = 1
time.sleep(0.2)
print("Button 1 pressed")
if not GPIO.input(GPIOFrontLight) and frontLightStatus <> 0:
frontLightStatus = 0
time.sleep(0.2)
print("Button 1 released")
if GPIO.input(GPIODimmer):
print("DIMMER 1")
timeCounter = 0
if GPIO.input(GPIODimmer) and ambianceLightStatus == 0:
print("Light on")
ambianceLightStatus = 1
ledData = ledDataWandOn
if frontLightStatus == 1:
ledData = ledData + ledDataLampenOn
else:
ledData = ledData + ledDataLampenOff
hyperion.setColor(ledData)
time.sleep(0.4)
while GPIO.input(GPIODimmer):
timeCounter = timeCounter + 1
print("TIME COUNTER")
if timeCounter > 10:
ambianceLightStatus = 0
ledData = ledDataWandOff
if frontLightStatus == 1:
ledData = ledData + ledDataLampenOn
else:
ledData = ledData + ledDataLampenOff
hyperion.setColor(ledData)
# print("Light off")
time.sleep(0.1)
if ambianceLightStatus == 1 and timeCounter <= 10:
print("DIMMING")
ledDataWandOn = bytearray()
dimmerValue = dimmerValue - 1
if dimmerValue == -1:
dimmerValue = 10
for i in range(1, 152):
rgb = colorsys.hsv_to_rgb(hsv[0], hsv[1] * 2,
dimmerValue / 10.0)
ledDataWandOn += bytearray(
(int(rgb[0] * 255), int(rgb[1] * 255),
int(rgb[2] * 255)))
print("Dimmdone")
ledData = bytearray()
sleepTime = 0.1
if ambianceMode == 1:
srgb = bytearray(152 * 3)
try:
number, addr = sock.recvfrom_into(srgb) # buffer size is
ledDataServer = bytearray()
for i in range(1, number - 3, 3):
ledDataServer += bytearray(
(srgb[i + 2], srgb[i], srgb[i + 1]))
ledData = ledData + ledDataServer
sleepTime = 0.01
except socket.timeout:
ledData = ledData + ledDataWandOff
else:
if ambianceLightStatus == 1:
ledData = ledData + ledDataWandOn
else:
ledData = ledData + ledDataWandOff
if frontLightStatus == 1:
ledData = ledData + ledDataLampenOn
else:
ledData = ledData + ledDataLampenOff
hyperion.setColor(ledData)
# wait 100ms
time.sleep(sleepTime)
# reset GPIO settings if user pressed Ctrl+C
except KeyboardInterrupt:
print("Execution stopped by user")
GPIO.cleanup()
import time
import colorsys
import math
import itertools
from random import random
# create a Array for the colors
colors = bytearray(hyperion.ledCount * (0,0,0))
Speakers = [5,2]
Backwash = [7,0]
Down = [9,8,4]
ScreenTop = [6,3,1]
for set in itertools.cycle([Speakers, Backwash, Down, ScreenTop]):
if hyperion.abort():
break
for sel in itertools.chain(*itertools.repeat(set, 4)):
for i in xrange(hyperion.ledCount):
if sel == i:
colors[i*3] = 255
else:
colors[i*3] = 0
hyperion.setColor(colors)
time.sleep(0.2)
for sel in set:
colors[sel*3] = 255
hyperion.setColor(colors)
percentage = max(1, min(percentage, 100))
# Process parameters
factor = percentage / 100.0
hsv = colorsys.rgb_to_hsv(color[0] / 255.0, color[1] / 255.0, color[2] / 255.0)
# Initialize the led data
snakeLeds = max(1, int(hyperion.ledCount * factor))
ledData = bytearray()
for i in range(hyperion.ledCount - snakeLeds):
ledData += bytearray((0, 0, 0))
for i in range(1, snakeLeds + 1):
rgb = colorsys.hsv_to_rgb(hsv[0], hsv[1], hsv[2] / i)
ledData += bytearray((int(rgb[0] * 255), int(rgb[1] * 255), int(rgb[2] * 255)))
# Calculate the sleep time and rotation increment
increment = 3
sleepTime = rotationTime / hyperion.ledCount
while sleepTime < 0.05:
increment *= 2
sleepTime *= 2
increment %= hyperion.ledCount
# Start the write data loop
while not hyperion.abort():
hyperion.setColor(ledData)
ledData = ledData[increment:] + ledData[:increment]
time.sleep(sleepTime)
else:
incrementOut = sleepTimeOut = 1
def setColor(r, g, b):
global currentR, currentG, currentB
currentR = r
currentG = g
currentB = b
hyperion.setColor(r, g, b)
# loop
repeatCounter = 1
while not hyperion.abort():
# fade in
if fadeInTime > 0:
setColor(colors[0][0], colors[0][1], colors[0][2])
for step in range(0, int(steps) + 1, incrementIn):
if hyperion.abort(): break
setColor(colors[step][0], colors[step][1], colors[step][2])
time.sleep(sleepTimeIn)
# end color
t = 0.0
while t < colorStartTime and not hyperion.abort():
setColor(colors[int(steps)][0], colors[int(steps)][1],
colors[int(steps)][2])
time.sleep(minStepTime)
t += minStepTime
imageData[offset+1] = rgb[1]
imageData[offset+2] = rgb[2]
# Initialize the led data and args
sleepTime = float(hyperion.args.get('speed', 1.0))*0.5
alarmColor = hyperion.args.get('alarm-color', (255,0,0))
postColor = hyperion.args.get('post-color', (255,174,11))
off = bool(hyperion.args.get('shutdown-enabled', False))
width = 12
height = 10
imageData = bytearray(height * width * (0,0,0))
# Start the write data loop
for i in range(6):
if hyperion.abort():
off = False
break
if i % 2:
hyperion.setColor(alarmColor[0], alarmColor[1], alarmColor[2])
else:
hyperion.setColor(0, 0, 0)
time.sleep(sleepTime)
for y in range(height,0,-1):
if hyperion.abort():
off = False
break
for x in range(width):
setPixel(x, y-1, alarmColor)
hyperion.setImage(width, height, imageData)
