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default.py
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default.py
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import xbmc
import xbmcgui
import xbmcaddon
import time
import sys
import colorsys
import os
import datetime
import math
__addon__ = xbmcaddon.Addon()
__cwd__ = __addon__.getAddonInfo('path')
__resource__ = xbmc.translatePath( os.path.join( __cwd__, 'resources', 'lib' ) )
sys.path.append (__resource__)
from settings import *
from tools import *
try:
import requests
except ImportError:
xbmc.log("ERROR: Could not locate required library requests")
notify("XBMC Hue", "ERROR: Could not import Python requests")
xbmc.log("XBMC Hue service started, version: %s" % get_version())
capture = xbmc.RenderCapture()
fmt = capture.getImageFormat()
# BGRA or RGBA
# xbmc.log("Hue Capture Image format: %s" % fmt)
fmtRGBA = fmt == 'RGBA'
class MyMonitor( xbmc.Monitor ):
def __init__( self, *args, **kwargs ):
xbmc.Monitor.__init__( self )
def onSettingsChanged( self ):
logger.debuglog("running in mode %s" % str(hue.settings.mode))
last = datetime.datetime.now()
hue.settings.readxml()
hue.update_settings()
monitor = MyMonitor()
class MyPlayer(xbmc.Player):
duration = 0
playingvideo = None
def __init__(self):
xbmc.Player.__init__(self)
def onPlayBackStarted(self):
if self.isPlayingVideo():
self.playingvideo = True
self.duration = self.getTotalTime()
state_changed("started", self.duration)
def onPlayBackPaused(self):
if self.isPlayingVideo():
self.playingvideo = False
state_changed("paused", self.duration)
def onPlayBackResumed(self):
if self.isPlayingVideo():
self.playingvideo = True
state_changed("resumed", self.duration)
def onPlayBackStopped(self):
if self.playingvideo:
self.playingvideo = False
state_changed("stopped", self.duration)
def onPlayBackEnded(self):
if self.playingvideo:
self.playingvideo = False
state_changed("stopped", self.duration)
class Hue:
params = None
connected = None
last_state = None
light = None
dim_group = None
def __init__(self, settings, args):
self.logger = Logger()
if settings.debug:
self.logger.debug()
self.settings = settings
self._parse_argv(args)
if self.settings.bridge_user not in ["-", "", None]:
self.update_settings()
if self.params == {}:
if self.settings.bridge_ip not in ["-", "", None]:
self.test_connection()
elif self.params['action'] == "discover":
self.logger.debuglog("Starting discover")
notify("Bridge discovery", "starting")
hue_ip = start_autodisover()
if hue_ip != None:
notify("Bridge discovery", "Found bridge at: %s" % hue_ip)
username = register_user(hue_ip)
self.logger.debuglog("Updating settings")
self.settings.update(bridge_ip = hue_ip)
self.settings.update(bridge_user = username)
notify("Bridge discovery", "Finished")
self.test_connection()
self.update_settings()
else:
notify("Bridge discovery", "Failed. Could not find bridge.")
else:
# not yet implemented
self.logger.debuglog("unimplemented action call: %s" % self.params['action'])
if self.connected:
if self.settings.misc_initialflash:
self.flash_lights()
def flash_lights(self):
self.logger.debuglog("class Hue: flashing lights")
if self.settings.light == 0:
self.light.flash_light()
else:
self.light[0].flash_light()
if self.settings.light > 1:
xbmc.sleep(1)
self.light[1].flash_light()
if self.settings.light > 2:
xbmc.sleep(1)
self.light[2].flash_light()
def _parse_argv(self, args):
try:
self.params = dict(arg.split("=") for arg in args.split("&"))
except:
self.params = {}
def test_connection(self):
r = requests.get('http://%s/api/%s/config' % \
(self.settings.bridge_ip, self.settings.bridge_user))
test_connection = r.text.find("name")
if not test_connection:
notify("Failed", "Could not connect to bridge")
self.connected = False
else:
notify("XBMC Hue", "Connected")
self.connected = True
def dim_lights(self):
self.logger.debuglog("class Hue: dim lights")
if self.settings.light == 0:
self.light.dim_light()
else:
self.light[0].dim_light()
if self.settings.light > 1:
xbmc.sleep(1)
self.light[1].dim_light()
if self.settings.light > 2:
xbmc.sleep(1)
self.light[2].dim_light()
def brighter_lights(self):
self.logger.debuglog("class Hue: brighter lights")
if self.settings.light == 0:
self.light.brighter_light()
else:
self.light[0].brighter_light()
if self.settings.light > 1:
xbmc.sleep(1)
self.light[1].brighter_light()
if self.settings.light > 2:
xbmc.sleep(1)
self.light[2].brighter_light()
def update_settings(self):
self.logger.debuglog("class Hue: update settings")
self.logger.debuglog(settings)
if self.settings.light == 0 and \
(self.light is None or type(self.light) != Group):
self.logger.debuglog("creating Group instance")
self.light = Group(self.settings)
elif self.settings.light > 0 and \
(self.light is None or \
type(self.light) == Group or \
len(self.light) != self.settings.light or \
self.light[0].light != self.settings.light1_id or \
(self.settings.light > 1 and self.light[1].light != self.settings.light2_id) or \
(self.settings.light > 2 and self.light[2].light != self.settings.light3_id)):
self.logger.debuglog("creating Light instances")
self.light = [None] * self.settings.light
self.light[0] = Light(self.settings.light1_id, self.settings)
if self.settings.light > 1:
xbmc.sleep(1)
self.light[1] = Light(self.settings.light2_id, self.settings)
if self.settings.light > 2:
xbmc.sleep(1)
self.light[2] = Light(self.settings.light3_id, self.settings)
class HSVRatio:
cyan_min = float(4.5/12.0)
cyan_max = float(7.75/12.0)
def __init__(self, hue=0.0, saturation=0.0, value=0.0, ratio=0.0):
self.h = hue
self.s = saturation
self.v = value
self.ratio = ratio
def average(self, h, s, v):
self.h = (self.h + h)/2
self.s = (self.s + s)/2
self.v = (self.v + v)/2
def averageValue(self, overall_value):
if self.ratio > 0.5:
self.v = self.v * self.ratio + overall_value * (1-self.ratio)
else:
self.v = (self.v + overall_value)/2
def hue(self, fullSpectrum):
if fullSpectrum != True:
if self.s > 0.01:
if self.h < 0.5:
#yellow-green correction
self.h = self.h * 1.17
#cyan-green correction
if self.h > self.cyan_min:
self.h = self.cyan_min
else:
#cyan-blue correction
if self.h < self.cyan_max:
self.h = self.cyan_max
h = int(self.h*65535) # on a scale from 0 <-> 65535
s = int(self.s*255)
v = int(self.v*255)
if v < hue.settings.ambilight_min:
v = hue.settings.ambilight_min
if v > hue.settings.ambilight_max:
v = hue.settings.ambilight_max
return h, s, v
def __repr__(self):
return 'h: %s s: %s v: %s ratio: %s' % (self.h, self.s, self.v, self.ratio)
class Screenshot:
def __init__(self, pixels, capture_width, capture_height):
self.pixels = pixels
self.capture_width = capture_width
self.capture_height = capture_height
def most_used_spectrum(self, spectrum, saturation, value, size, overall_value):
# color bias/groups 6 - 36 in steps of 3
colorGroups = settings.color_bias
if colorGroups == 0:
colorGroups = 1
colorHueRatio = 360 / colorGroups
hsvRatios = []
hsvRatiosDict = {}
for i in range(360):
if spectrum.has_key(i):
#shift index to the right so that groups are centered on primary and secondary colors
colorIndex = int(((i+colorHueRatio/2) % 360)/colorHueRatio)
pixelCount = spectrum[i]
if hsvRatiosDict.has_key(colorIndex):
hsvr = hsvRatiosDict[colorIndex]
hsvr.average(i/360.0, saturation[i], value[i])
hsvr.ratio = hsvr.ratio + pixelCount / float(size)
else:
hsvr = HSVRatio(i/360.0, saturation[i], value[i], pixelCount / float(size))
hsvRatiosDict[colorIndex] = hsvr
hsvRatios.append(hsvr)
colorCount = len(hsvRatios)
if colorCount > 1:
# sort colors by popularity
hsvRatios = sorted(hsvRatios, key=lambda hsvratio: hsvratio.ratio, reverse=True)
# logger.debuglog("hsvRatios %s" % hsvRatios)
#return at least 3
if colorCount == 2:
hsvRatios.insert(0, hsvRatios[0])
hsvRatios[0].averageValue(overall_value)
hsvRatios[1].averageValue(overall_value)
hsvRatios[2].averageValue(overall_value)
return hsvRatios
elif colorCount == 1:
hsvRatios[0].averageValue(overall_value)
return [hsvRatios[0]] * 3
else:
return [HSVRatio()] * 3
def spectrum_hsv(self, pixels, width, height):
spectrum = {}
saturation = {}
value = {}
size = int(len(pixels)/4)
pixel = 0
i = 0
s, v = 0, 0
r, g, b = 0, 0, 0
tmph, tmps, tmpv = 0, 0, 0
for i in range(size):
if fmtRGBA:
r = pixels[pixel]
g = pixels[pixel + 1]
b = pixels[pixel + 2]
else: #probably BGRA
b = pixels[pixel]
g = pixels[pixel + 1]
r = pixels[pixel + 2]
pixel += 4
tmph, tmps, tmpv = colorsys.rgb_to_hsv(float(r/255.0), float(g/255.0), float(b/255.0))
s += tmps
v += tmpv
# skip low value and saturation
if tmpv > 0.25:
if tmps > 0.33:
h = int(tmph * 360)
# logger.debuglog("%s \t set pixel r %s \tg %s \tb %s" % (i, r, g, b))
# logger.debuglog("%s \t set pixel h %s \ts %s \tv %s" % (i, tmph*100, tmps*100, tmpv*100))
if spectrum.has_key(h):
spectrum[h] += 1 # tmps * 2 * tmpv
saturation[h] = (saturation[h] + tmps)/2
value[h] = (value[h] + tmpv)/2
else:
spectrum[h] = 1 # tmps * 2 * tmpv
saturation[h] = tmps
value[h] = tmpv
overall_value = v / float(i)
# s_overall = int(s * 100 / i)
return self.most_used_spectrum(spectrum, saturation, value, size, overall_value)
def run():
player = None
last = datetime.datetime.now()
while not xbmc.abortRequested:
if hue.settings.mode == 1: # theatre mode
if player == None:
logger.debuglog("creating instance of player")
player = MyPlayer()
xbmc.sleep(500)
if hue.settings.mode == 0: # ambilight mode
if hue.settings.ambilight_dim and hue.dim_group == None:
logger.debuglog("creating group to dim")
tmp = hue.settings
tmp.group_id = tmp.ambilight_dim_group
hue.dim_group = Group(tmp)
if player == None:
player = MyPlayer()
else:
xbmc.sleep(100)
capture.waitForCaptureStateChangeEvent(1000/60)
if capture.getCaptureState() == xbmc.CAPTURE_STATE_DONE:
if player.playingvideo:
screen = Screenshot(capture.getImage(), capture.getWidth(), capture.getHeight())
hsvRatios = screen.spectrum_hsv(screen.pixels, screen.capture_width, screen.capture_height)
if hue.settings.light == 0:
fade_light_hsv(hue.light, hsvRatios[0])
else:
fade_light_hsv(hue.light[0], hsvRatios[0])
if hue.settings.light > 1:
xbmc.sleep(4)
fade_light_hsv(hue.light[1], hsvRatios[1])
if hue.settings.light > 2:
xbmc.sleep(4)
fade_light_hsv(hue.light[2], hsvRatios[2])
def fade_light_hsv(light, hsvRatio):
fullSpectrum = light.fullSpectrum
h, s, v = hsvRatio.hue(fullSpectrum)
hvec = abs(h - light.hueLast) % int(65535/2)
hvec = float(hvec/128.0)
svec = s - light.satLast
vvec = v - light.valLast
distance = math.sqrt(hvec * hvec + svec * svec + vvec * vvec)
if distance > 0:
duration = int(3 + 27 * distance/255)
# logger.debuglog("distance %s duration %s" % (distance, duration))
light.set_light2(h, s, v, duration)
def state_changed(state, duration):
logger.debuglog("state changed to: %s" % state)
if duration < 300 and hue.settings.misc_disableshort:
logger.debuglog("add-on disabled for short movies")
return
if state == "started":
logger.debuglog("retrieving current setting before starting")
if hue.settings.light == 0:
hue.light.get_current_setting()
else:
hue.light[0].get_current_setting()
if hue.settings.light > 1:
xbmc.sleep(1)
hue.light[1].get_current_setting()
if hue.settings.light > 2:
xbmc.sleep(1)
hue.light[2].get_current_setting()
#start capture when playback starts
capture_width = 32 #100
capture_height = int(capture_width / capture.getAspectRatio())
logger.debuglog("capture %s x %s" % (capture_width, capture_height))
capture.capture(capture_width, capture_height, xbmc.CAPTURE_FLAG_CONTINUOUS)
if state == "started" or state == "resumed":
if hue.settings.mode == 0 and hue.settings.ambilight_dim: # only if a complete group
logger.debuglog("dimming group for ambilight")
hue.dim_group.dim_light()
else:
logger.debuglog("dimming lights")
hue.dim_lights()
elif state == "stopped" or state == "paused":
if hue.settings.mode == 0 and hue.settings.ambilight_dim:
# Be persistent in restoring the lights
# (prevent from being overwritten by an ambilight update)
for i in range(0, 3):
logger.debuglog("brighter lights")
hue.dim_group.brighter_light()
time.sleep(1)
else:
hue.brighter_lights()
if ( __name__ == "__main__" ):
settings = settings()
logger = Logger()
if settings.debug == True:
logger.debug()
args = None
if len(sys.argv) == 2:
args = sys.argv[1]
hue = Hue(settings, args)
while not hue.connected:
logger.debuglog("not connected")
time.sleep(1)
run()