def on_channel_state(self, msg):
if msg.channel_id not in self.channels_by_id:
chan = Channel(self.bot, msg.channel_id)
self.channels_by_id[msg.channel_id] = chan
else:
chan = self.channels_by_id[msg.channel_id]
chan.update(msg)
if msg.parent == msg.channel_id:
if not msg.channel_id == 0:
LOGGER.warning('Root channel not ID 0.')
if self.root and self.root != chan:
LOGGER.error('Received 2 different roots...?')
raise Exception('Two roots.')
self.root = chan
elif chan.parent:
if chan.parent.id != msg.parent:
chan.parent.remove_child(chan)
self.channels_by_id[msg.parent].add_child(chan)
else:
if not msg.parent in self.channels_by_id:
LOGGER.error('Parent ID passed by server is not in the channel list.')
raise Exception('Invalid Parent.')
self.channels_by_id[msg.parent].add_child(chan)
print msg
def __init__(self):
# Estruturas de clientes e canais
self.clients = {}
self.canais = {}
self.canais["Canal 1"] = Channel("Canal 1")
self.canais["Canal 2"] = Channel("Canal 2")
self.canais["Canal 3"] = Channel("Canal 3")
# Handlers para comandos
self.handlers = {
"NICK": self.nickClientHandler,
"USUARIO": self.userClientHandler,
"SAIR": self.quitClientHandler,
"ENTRAR": self.subscribeChannelHandler,
"SAIRC": self.quitChannelHandler,
"LISTAR": self.listChannelHandler,
}
# requisita API do SO uma conexão AF_INET (IPV4) com protocolo de transporte SOCK_STREAM (TCP)
self.sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
# requisita ao SO a posse de uma porta associada a um IP
self.sock.bind((host, port))
# requisita ao SO que a porta indicada de um dado IP seja reservado para escuta
self.sock.listen(5)
print("Conexão aberta porta: ", port)
self.run()
def single_compute(centroid, fn):
map_func = lambda x: centroid[tuple(x)]
mean_Es = np.average([np.sum(np.square(x)) for x in list(centroid.values())])
ber_vals = []
# EbN0 values
for EbN0 in ebn0_values:
# calculate N0 value to meet Eb/N0 requirement and add noise to sample
EbN0_lin = 10**(0.1*EbN0)
power = mean_Es/(EbN0_lin*n_bits)
# Define channel
channel = Channel(power)
# Modulate signal
mod_preamble = np.array(list(map(map_func, PREAMBLE)))
mod_message = np.array(list(map(map_func, MESSAGE)))
# Noisy signal
mod_preamble_n = channel.AWGN(mod_preamble)
mod_message_n = channel.AWGN(mod_message)
# Demodulate signal
demod_message = util.centroid_mapping(mod_preamble_n, PREAMBLE, mod_message_n)
# Compute BER
ber = np.sum(np.linalg.norm(demod_message - MESSAGE, ord=1, axis=1)) / (TEST_LEN*n_bits)
# Add to list
ber_vals.append(str(ber))
print(" EbN0: %8f, ber: %8f" % (EbN0, ber))
print(" done")
with open(fn, "w") as f:
f.write(init_string + ",".join(ber_vals) + "\n")
def main():
### (Optional) Replace these addresses with others
id_a = Id('e12048ff037a0f15bcf977c86181828f5e05dbfe6cf2efe9af6362c8d53a00b0') # addr: mwZ5RAPyv7NxHeeqq2zFo8xngHqWiB4Urb
id_b = Id('e12048ff047a0f15bcf977c86171828f5e05dbfe6cf2efe9af6362c8d53a00b4') # addr: mgUd1ycGZ7GW66XqdjDFkhGNHmf38b6ATL
### Change these inputs to unspent transaction outputs, given the transaction id and the output index
tx_in1 = TxInput('72ad77c50666676d0ca0a1f395a3ee4ba00acbaad9bcb281892c5ab2a78ff11c', 1) # A in ai
tx_in2 = TxInput('f6e382f958dbf2e89303e16e4052185e8a30bd97517abc7d498f9c07260848bf', 0) # I in ai
### Change these values to carry the same amount as the outputs specified above
val_a = 0.01
val_b = 0.01985
# Transaction fee
fee = 0.00005
# create channel between AB
if lightning:
print('TESTING LIGHTNING CHANNELS:')
c_ab = Channel.from_inputs(id_a, id_b, tx_in1, tx_in2, val_a, val_b, fee, LIGHTNING_STATE)
else:
print('TESTING GENERALIZED CHANNELS:')
c_ab = Channel.from_inputs(id_a, id_b, tx_in1, tx_in2, val_a, val_b, fee, GENERALIZED_STATE)
print_tx(c_ab.ft, 'FT_AB')
for name, tx in c_ab.state.get_state_transactions():
print_tx(tx, name)
c_ab.close(val_a, val_b)
print_tx(c_ab.close_tx, 'FT_AB close')
def __init__(self):
super().__init__()
dial = ConnectDialog(self)
dial.exec()
# tmp!!!!! TODO:
try:
self.channel = Channel('192.168.1.11',
8000 + int(dial.port_field.text()), '69420')
except ValueError as _:
self.channel = Channel('192.168.1.11', 8000, '69420')
# self.channel = Channel(dial.host_field.text(), dial.port_field.text(), dial.password_field.text())
self.move_buttons = dict()
self.light_buttons = dict()
self.distance_label = None
self.speed_label = None
self.line_label = None
self.place_move_buttons()
self.place_light_buttons()
self.place_labels()
self.widget_update_signal.connect(self.update_widgets)
self.lock = Lock()
self.update_active = True
Thread(target=self.supervise_update).start()
def test_get_how_many_days_ago_was_creation_7_days_ago(self):
"""should return 7 when the current date and the creation date are
7 days apart"""
test_channel = Channel("My Ballad", "John Henry")
test_channel.creation_time = datetime.today() - timedelta(7)
self.assertEqual(test_channel._get_how_many_days_ago_was_creation(), 7)
def test_get_how_many_days_ago_was_creation_yesterday(self):
"""should return 1 if the creation day is the day before the current
day"""
test_channel = Channel("Kérsz Taslit?", "Zuboly")
test_channel.creation_time = datetime.today() - timedelta(1)
self.assertEqual(test_channel._get_how_many_days_ago_was_creation(), 1)
def test_get_how_many_days_ago_was_creation_6_days_ago(self):
"""should return 6 when the current date and the creation date are
6 days apart"""
test_channel = Channel("Black Rock", "Joe Bonamassa")
test_channel.creation_time = datetime.today() - timedelta(6)
self.assertEqual(test_channel._get_how_many_days_ago_was_creation(), 6)
def test_get_day_of_creation_from_yesterday(self):
"""should return 'yesterday' if the creation date is a day before the
current date"""
test_channel = Channel("Cream", "Strange Brew")
test_channel.creation_time = datetime.today() - timedelta(1)
self.assertEqual(test_channel._get_day_of_creation(), "yesterday")
def test_get_time_of_creation_afternoon(self):
"""should return the creation time in the '24H' format"""
test_channel = Channel("Scenes From a Memory", "Dream Theater")
test_channel.creation_time = datetime.fromisoformat(
'2020-02-10 14:30:00.000')
self.assertEqual(test_channel._get_time_of_creation(), "14:30")
def subscribe(self, icepap_addr, signal_name):
"""
Creates a new subscription for signal values.
icepap_addr - IcePAP driver number.
signal_name - Signal name.
Return - A positive integer id used when unsubscribing.
"""
for ch in self.channels_subscribed.values():
if ch.equals(icepap_addr, signal_name):
msg = 'Channel already exists.\nAddr: ' \
'{}\nSignal: {}'.format(icepap_addr, signal_name)
raise Exception(msg)
channel = Channel(icepap_addr, signal_name)
sn = QString(signal_name)
cond_1 = sn.endsWith('Tgtenc')
cond_2 = sn.endsWith('Shftenc')
cond_3 = sn == 'DifAxMeasure'
if cond_1 or cond_2 or cond_3:
try:
cfg = self.icepap_system[icepap_addr].get_cfg()
except RuntimeError as e:
msg = 'Failed to retrieve configuration parameters ' \
'for driver {}\n{}.'.format(icepap_addr, e)
raise Exception(msg)
if (cond_1 and cfg['TGTENC'].upper() == 'NONE') or \
(cond_2 and cfg['SHFTENC'].upper() == 'NONE'):
msg = 'Signal {} is not mapped/valid.'.format(sn)
raise Exception(msg)
if cond_3:
channel.set_measure_resolution(cfg)
self.channel_id += 1
self.channels_subscribed[self.channel_id] = channel
return self.channel_id
def run(self):
logger.info(
f'{self.index}: ClientQueue running, connect to {self.address}')
self.retry = 0
while True:
self.channel = Channel(self.index)
try:
self.channel.connect(self.address)
except Exception as e:
logger.error(f'{self.index}: Channel connect exception {e}')
continue
logger.debug(f'{self.index}: Connected to {self.address}')
message = None
self.retry = 0
while self.retry < 5:
if not message:
message = self.queue.get()
try:
self.channel.send(message)
message = None
self.retry = 0
continue
except Exception as e:
logger.warning(
f'Exception sending: {message} {e} retry={self.retry}')
self.retry += 1
def __init__(self, node, num):
self.node = node
self.id = node.id + '.' + num
self.running = True
self.channel = Channel()
self.link = None
def GetAllChannelsTest():
plex = getServer()
# searchParams = {}
# searchParams["studio"] = "TV Tokyo"
# channel = searchShow(plex, 'Anime', **searchParams)
indir = 'channels'
for root, dirs, filenames in os.walk(indir):
for f in filenames:
channel = Channel(indir + '/' + f)
searchParams = {}
genParams = channel.getGeneralParams()
for d in genParams:
if d != 'library' and d != 'show_block':
searchParams[d] = genParams[d]
# library = searchParams['library']
# del searchParams["library"]
# del searchParams["show_block"]
shows = searchShow(plex, genParams['library'], **searchParams)
show = shows[0]
# show = shows[random.randint(0,len(shows)-1)]
episodes = getEpisodeBlock(plex, genParams['library'], show.title,
genParams['show_block'])
print(episodes)
print("Channel: %s\nDescription: %s" %
(channel.title, channel.description))
for e in episodes:
print(
"%s %s: %s\n%s\n" %
(e.grandparentTitle, e.seasonEpisode, e.title, e.summary))
def test_5_channel_name_taken(self):
"""channel_name_taken test: channel list with more entries"""
self.setup_channels_list_with([Channel("roger", "Pink"),
Channel("dave", "Pink"),
Channel("rick", "Pink"),
Channel("nick", "Pink")])
self.assertTrue(application.is_channel_name_taken("Dave"))
def get_master(self):
keyboard = Frame(self, padx=10)
header = Frame(keyboard)
Label(header, text="master").pack()
header.pack()
mainkeys = Frame(keyboard)
master_list = []
for chnl in self.channels:
channel_list = chnl.options
for word in channel_list:
break
for i in range(len(wordlist)):
optkey = Frame(mainkeys)
num = (i + 1) % 10
keylabel = '%s.' % Channel.optionmap()[i][0]
keystroke = Channel.optionmap()[i][1]
Label(optkey, text=keylabel, width=4, anchor=W,
font=self.font).pack(side=LEFT)
option = wordlist[i]
label = option
b = Button(optkey,
text=label,
font=self.font,
width=14,
anchor=W,
borderwidth=0,
command=lambda word=option: self.onAddWord(word),
pady=0)
b.pack(side=LEFT)
self.textframe.bind(keystroke,
lambda event, arg=option: self.onAddWord(arg))
optkey.pack(side=TOP)
mainkeys.pack()
class Iface:
def __init__(self, node, addr_iface):
self.node = node
self.addr_iface = addr_iface
self.running = True
self.channel = Channel()
def __processQueue(self):
"""
Funcio que s'executa tota la estona per tal de poder rebre missatges.
"""
while self.running:
message = self.channel.receive()
self.node.receive(message, self.addr_iface)
def send(self, msg):
"""
Funci que serveix per enviar un missatge desde aquesta iface
"""
self.channel.send(msg)
def run(self):
"""
Genera un thread per a cada interficie. Aquest thread creida a la funcio
__processQueue, el qual esta pendent de rebre missatges.
"""
self.thread = Thread(target=self.__processQueue)
self.thread.start()
def get_channels(self):
"""Return a list of all Channels from Asterisk."""
result = self._api.call('channels', http_method='GET')
# Temporary until method is implemented
result_list = [Channel(self._api), Channel(self._api)]
#channels = [Channel(x) for x in result]
return result_list
def createProto(self, name, proto):
scroll = QtGui.QScrollArea()
scroll.setWidgetResizable(True)
scroll.setFrameStyle(QtGui.QFrame.NoFrame)
scroll.setHorizontalScrollBarPolicy(QtCore.Qt.ScrollBarAlwaysOff)
layout = QtGui.QVBoxLayout()
widget = QtGui.QWidget()
sock = socket.socket()
try:
sock.connect((self.host, self.port + proto["id"]))
except:
print ("Failed to connect on %s %d" % (self.host, self.port))
sys.exit(-1)
file = sock.makefile(mode="rw")
chan = Channel(file.buffer, print_packet, proto = name,
transmitter = self.transmitter,
symmetrical = self.symmetrical)
chan._file_ = file # archi moche
for packet in proto['packets']:
if proto['packets'][packet]['transmitter'] == self.transmitter \
or proto['packets'][packet]['transmitter'] == 'both' \
or self.transmitter == 'both':
layout.addWidget(self.createPacket(packet,
proto['packets'][packet], chan), 0)
widget.setLayout(layout)
scroll.setWidget(widget)
return scroll
def test_send_receive():
channel = Channel()
tx = channel.tx()
rx = channel.rx()
tx.put(1)
assert rx.get() == 1
async def _fetch(session, channel_id):
url = f"https://www.youtube.com/feeds/videos.xml?channel_id={channel_id}"
channel = Channel(id = channel_id)
retry_count = 0
for retry_count in range(MAX_RETRY):
try:
async with session.get(url) as resp:
text = await resp.text()
try:
doc = xmltodict.parse(text)
channel.title = doc['feed']['title']
for m in doc['feed']['entry']:
channel.videos.append(m.get('yt:videoId'))
except KeyError:
#チャンネル内動画がゼロ
pass
except AttributeError:
#チャンネル内動画が一つだけ(feedの構造が変わっている)
m = doc['feed']['entry']
channel.videos.append(m.get('yt:videoId'))
except xml.parsers.expat.ExpatError:
#チャンネルURLが削除されている
print(f'チャンネルが見つかりません:{channel_id}')
return channel
except (aiohttp.client_exceptions.ClientConnectorError,
aiohttp.client_exceptions.ServerDisconnectedError) as e:
print(f'[{channel_id}]通信エラー:リトライ {retry_count+1}回目/{MAX_RETRY}回中')
await asyncio.sleep(3)
def create_channels(only_id=None):
"""
Create channel objects
"""
global channels
# Get list of channel config files
configs = os.listdir('tsmgr/channels')
for c in configs:
if not c.endswith('.ini'): continue
# Parse channel config
chan_config = configparser.ConfigParser()
chan_config.read(f'tsmgr/channels/{c}')
id = chan_config.get('channel', 'id')
if only_id:
if id == only_id:
channels[id] = Channel(chan_config, config)
print()
else:
# Check for channel ID conflicts
try:
channels[id]
print(f"Channel ID conflict (ID: {id})\nExiting...")
exit(1)
except KeyError:
# Create new channel object
channels[id] = Channel(chan_config, config)
print()
if not only_id: print("--------------------------------\n")
def createProto(self, name, proto):
scroll = QtGui.QScrollArea()
scroll.setWidgetResizable(True)
scroll.setFrameStyle(QtGui.QFrame.NoFrame)
scroll.setHorizontalScrollBarPolicy(QtCore.Qt.ScrollBarAlwaysOff)
layout = QtGui.QVBoxLayout()
widget = QtGui.QWidget()
sock = socket.socket()
try:
sock.connect((self.host, self.port + proto["id"]))
except:
print("Failed to connect on %s %d" % (self.host, self.port))
sys.exit(-1)
file = sock.makefile(mode="rw")
chan = Channel(file.buffer,
print_packet,
proto=name,
transmitter=self.transmitter,
symmetrical=self.symmetrical)
chan._file_ = file # archi moche
for packet in proto['packets']:
if proto['packets'][packet]['transmitter'] == self.transmitter \
or proto['packets'][packet]['transmitter'] == 'both' \
or self.transmitter == 'both':
layout.addWidget(
self.createPacket(packet, proto['packets'][packet], chan),
0)
widget.setLayout(layout)
scroll.setWidget(widget)
return scroll
def step(self):
self.channel = Channel(self.tran, self.recs)
# for rec in receivers:
# rec.signal.plot()
# plt.show()
receivers =[]
dis = []
est_num = 200
for i in range(est_num):
# Receive signals from the channel
receivers = self.channel.propagate(duration=self.duration, Rs=self.Rs,
symbol_wave_freq=self.symbol_wave_freq,
carrier_freq=self.carrier_freq, fs=self.fs, amp=self.amp,
noise_amp=self.noise_amp, wave_template='sine',
data_seed=self.data_seed + i, noise_seed=self.noise_seed + i)
dis_error = self.pos_mse(receivers)
# print(dis_error)
dis.append(dis_error)
# mean of minimum 10 error
dis = np.sort(dis)
# print("soted:", dis)
dis_error50 = dis[:int(est_num*0.68)] # (mu-sigma, mu+sigm) 2sigma: 0.9545
# print(dis_error50[-1])
return np.sqrt(np.mean(np.square(dis_error50))), [rec.SNR for rec in receivers ]
def __init__(self, id, ordering):
super(Process, self).__init__() # call __init__ from multiprocessing.Process
self.id = id
# Read config from file
self.process_info, self.addr_dict = configreader.get_processes_info()
address = self.process_info[id]
ip, port = address[0], address[1]
print(ip, port)
# Init a socket
self.socket = socket.socket(
socket.AF_INET, socket.SOCK_DGRAM)
self.socket.bind(address)
# Init channel
# Causal Order Channel
if ordering == 'causal':
print 'causal ordering'
self.channel = CausalOrderChannel(self, self.id, self.socket, self.process_info, self.addr_dict)
elif ordering == 'total':
print 'total ordering'
# Total Order Channel
if id == 1:
# Select process 1 to be the sequencer
self.channel = TotalOrderChannel(self, self.id, self.socket, self.process_info, self.addr_dict, True)
else:
self.channel = TotalOrderChannel(self, self.id, self.socket, self.process_info, self.addr_dict)
else:
# Regular channel
print 'no ordering'
self.channel = Channel(self, self.id, self.socket, self.process_info, self.addr_dict)
class Client(object):
def __init__(self, addr, coder=None):
self.sock = Socket()
self.addr = addr
self.loop = Loop()
self.ch = Channel(self.sock, self.loop, coder)
self.ch.set_read_callback(self.on_msg_in)
self.ch.set_write_callback(self.on_msg_sent)
self.ch.set_error_callback(self.on_error)
def start(self):
self.ch.connect(self.addr)
self.loop.loop()
def on_msg_in(self, msg):
pass
def on_msg_sent(self):
pass
def on_error(self):
pass
def send(self, msg):
self.ch.send(msg)
def test_reproducability():
c = Channel()
c.send("Yes")
r = c.receive_random_int(0, 2**20)
d = Channel()
d.send("Yes")
assert r == d.receive_random_int(0, 2**20)
def on_channel_state(self, msg):
if msg.channel_id not in self.channels_by_id:
chan = Channel(self.bot, msg.channel_id)
self.channels_by_id[msg.channel_id] = chan
else:
chan = self.channels_by_id[msg.channel_id]
chan.update(msg)
if msg.parent == msg.channel_id:
if not msg.channel_id == 0:
LOGGER.warning('Root channel not ID 0.')
if self.root and self.root != chan:
LOGGER.error('Received 2 different roots...?')
raise Exception('Two roots.')
self.root = chan
elif chan.parent:
if chan.parent.id != msg.parent:
chan.parent.remove_child(chan)
self.channels_by_id[msg.parent].add_child(chan)
else:
if not msg.parent in self.channels_by_id:
LOGGER.error(
'Parent ID passed by server is not in the channel list.')
raise Exception('Invalid Parent.')
self.channels_by_id[msg.parent].add_child(chan)
def __init__(self, directory, run_id, plot_every, restrict_energy,
num_iterations, len_preamble, n_bits, n_hidden, stepsize,
lambda_p, initial_logstd, k, noise_power):
# System Parameters
self.num_iterations = num_iterations
self.preamble = util.generate_preamble(len_preamble, n_bits)
self.restrict_energy = restrict_energy
# Transmitter Parameters
groundtruth = util.schemes[n_bits]
t_args = [
self.preamble, restrict_energy, groundtruth, n_bits, n_hidden,
lambda_p, initial_logstd
]
r_args = [self.preamble, k]
# Receiver Parameters
self.agent_one = actor.Actor(t_args, r_args, stepsize,
directory + 'agent_1/')
self.agent_two = actor.Actor(t_args, r_args, stepsize,
directory + 'agent_2/')
# Parameters to write in the plotted diagrams
p_args_names = 'run_id total_iters len_preamble stepsize lambda_p initial_logstd noise_power restrict_energy'.split(
)
p_args_params = [
run_id, num_iterations, len_preamble, stepsize, lambda_p,
initial_logstd, noise_power, restrict_energy
]
self.p_args = dict(zip(p_args_names, p_args_params))
self.channel = Channel(noise_power)
class v3(Base):
MAX_CORE_CHANNELS = 16
def _init_channels(self):
self.control_channel = Channel(index=0, log=self._log)
self.cpu_data_channels = ChannelList(length=self.MAX_CORE_CHANNELS,
log=self._log)
self.module_data_channel = Channel(index=self.MAX_CORE_CHANNELS,
log=self._log)
self.uncore_data_channel = Channel(index=self.MAX_CORE_CHANNELS +
1,
log=self._log)
self.data_channels = ChannelList(length=self.MAX_CORE_CHANNELS + 2,
log=self._log)
self.data_channels.includes(*self.cpu_data_channels.reserved)
self.data_channels.includes(self.module_data_channel)
self.data_channels.includes(self.uncore_data_channel)
def close(self):
self._log.debug('COMMUNICATION CHANNELS - Closing')
for channel in self.data_channels:
channel.close()
self.control_channel.close()
self._init_channels()
def test_channel_name_taken_multiple_entries_in_list(self):
"""channel_name_taken test: channel list with more entries"""
self.channel_registry.setup_channels_list_with([
Channel("roger", "Pink"),
Channel("dave", "Pink"),
Channel("rick", "Pink"),
Channel("nick", "Pink")])
self.assertTrue(self.channel_registry.is_channel_name_taken("Dave"))
def createChannel(self,channelName):
"""Factory function for Channel Objects. Registers the channel.
Returns: new Channel Object"""
channel = Channel()
channel.name = channelName
self.addChannel(channel)
return channel
def __init__(self, addr, coder=None):
self.sock = Socket()
self.addr = addr
self.loop = Loop()
self.ch = Channel(self.sock, self.loop, coder)
self.ch.set_read_callback(self.on_msg_in)
self.ch.set_write_callback(self.on_msg_sent)
self.ch.set_error_callback(self.on_error)
def process_new(self, sock):
ch = Channel(Socket(sock), self.loop, self.coder)
ch.set_read_callback(self.on_msg_in)
ch.set_write_callback(self.on_msg_sent)
ch.set_error_callback(self.on_error)
ch.set_peer_closed(self.peer_closed)
self.clients[ch.fd] = ch
self.on_connect(ch)
def markStream(self, chId, status):
ch = Channel()
ch.findOne(chId)
ch.setStatus(status)
xbmc.executebuiltin("Container.Refresh")
def __init__(self, channels = 512):
self.channels = [None] * channels
for i in range(0, channels):
channel = Channel()
channel.index = i
channel.addListener(self)
self.channels[i] = channel;
self.output = Output()
self.filters = []
def run():
page_id = random_page_id()
page_channel = Channel('http://readline.io', page_id)
print("Access your application by going to http://{}/{}".format(server_name, page_id))
while True:
message = page_channel.dequeue()
if message:
print("Message received: len={}".format(len(json.dumps(message))))
handle_message(message)
else:
print("No message received, continuing long poll.")
def convert(self):
"""
Convert the channel to the expected sample width and frame rate.
"""
newchannel = Channel()
newchannel.set_frames( self.__convert_frames( self.channel.frames ) )
newchannel.sampwidth = self.sampwidth
newchannel.framerate = self.framerate
self.channel = newchannel
def joined_channel(self, channel, who):
# We just joined the channel
if who == self._nick:
c = Channel()
c.users.append(who)
c.channel = channel
self._joined_channels.append(c)
for i in self._joined_channels:
if i.channel == channel:
i.users.append(who)
def add_frames(self, frames, position):
"""
Convert the channel by adding frames.
@param position (int) the position where the frames will be inserted
"""
newchannel = Channel()
newchannel.set_frames( self.channel.frames[:position*self.sampwidth] + frames + self.channel.frames[position*self.sampwidth:] )
newchannel.sampwidth = self.sampwidth
newchannel.framerate = self.framerate
self.channel = newchannel
def remove_offset(self):
"""
Remove the offset in the channel
"""
newchannel = Channel()
newchannel.sampwidth = self.sampwidth
newchannel.framerate = self.framerate
avg = audioutils.avg(self.channel.frames, self.sampwidth)
newchannel.set_frames(audioutils.bias(self.channel.frames, self.sampwidth, - avg))
self.channel = newchannel
def append_frames(self, frames):
"""
Convert the channel by appending frames.
@param frames (string) the frames to append
"""
newchannel = Channel()
newchannel.set_frames( self.channel.frames + frames )
newchannel.sampwidth = self.sampwidth
newchannel.framerate = self.framerate
self.channel = newchannel
class List(object):
def __init__(self, name, id=None):
self.id = id if id else str(uuid4())
self.channel = Channel(self.id)
self.channel.onMessage = self.onMessage
self.channel.onJoin = self.onJoin
self.name = name
self.items = []
self.dirty = False
def entitle(self, user):
self.channel.entitle(user)
def entitled(self, user):
return user in self.channel.entitled
def onJoin(self, socket):
for i, item in enumerate(self.items):
self.channel.sendTo(socket,
{"type": "insert",
"index": i,
"attrs": item})
def onMessage(self, socket, msg):
require(msg, "index")
if msg.type == "insert":
require(msg, "attrs")
self.items.insert(msg.index, msg.attrs)
self.channel.broadcast(
{"type": "insert",
"index": msg.index,
"attrs": msg.attrs})
self.dirty = True
elif msg.type == "delete":
del self.items[msg.index]
self.channel.broadcast(
{"type": "delete",
"index": msg.index})
self.dirty = True
elif msg.type == "update":
require(msg, "attrs")
item = self.items[msg.index]
item.update(msg.attrs)
self.channel.broadcast(
{"type": "update",
"index": msg.index,
"attrs": msg.attrs})
self.dirty = True
def remove_frames(self, begin, end):
"""
Convert the channel by removing frames.
@param begin (int) the position of the beggining of the frames to remove
@param end (int) the position of the end of the frames to remove
"""
newchannel = Channel()
newchannel.set_frames( self.channel.frames[:begin*self.sampwidth] + self.channel.frames[end*self.sampwidth:] )
newchannel.sampwidth = self.sampwidth
newchannel.framerate = self.framerate
self.channel = newchannel
def mul(self, factor):
"""
Multiply the frames by the factor
@param bias (int) the factor to multiply the frames
"""
newchannel = Channel()
newchannel.sampwidth = self.sampwidth
newchannel.framerate = self.framerate
newchannel.set_frames(audioutils.mul(self.channel.frames, self.sampwidth, factor))
self.channel = newchannel
def bias(self, bias):
"""
Apply a bias on the frames
@param bias (int) the value to bias the frames
"""
newchannel = Channel()
newchannel.sampwidth = self.sampwidth
newchannel.framerate = self.framerate
newchannel.set_frames(audioutils.bias(self.channel.frames, self.sampwidth, bias))
self.channel = newchannel
def __init__(self, host, port):
self.sock = socket.socket()
self.sock.connect((HOST, PORT+5))
self.asserv_file = self.sock.makefile(mode='rw')
self.asserv = Channel(self.asserv_file.buffer,
lambda name, args: name, proto = 'asserv')
self.states = None
self.speed = SpeedOrder(self.asserv)
self.speed.start()
self.sock2 = socket.socket()
self.sock2.connect((HOST, PORT+6))
self.mother_file = self.sock2.makefile(mode='rw')
self.mother = Channel(self.mother_file.buffer,
lambda name, args: name, proto = 'mother')
def createChannelFromConfig(self,configObject):
channel = Channel(configObject['name'],self.config)
channel.slug = configObject['slug']
channel.url = configObject['url']
# ================
# = Inlet/Source =
# ================
if configObject['source']['type'] == 'kniveTCPSource':
channel.inlet = TCPTSServer(
secret=configObject['source']['sharedSecret'],
port=configObject['source']['listenPort']
)
elif configObject['source']['type'] == 'GstInlet':
channel.inlet = GstInlet(
name = configObject['source']['name'],
pipeline = configObject['source']['pipeline']
)
else:
print "Unknown Inlet Type %s" % self.config['source']['type']
sys.exit(1)
# ===============
# = Set outlets =
# ===============
for outletsectionname in configObject['outlets']:
logging.debug('Setting up outlet: %s' % outletsectionname)
outletConfig = configObject['outlets'][outletsectionname]
if outletConfig['type'] == 'HTTPLive':
try:
httplivestream = HTTPLiveStream(channel=channel,destdir=outletConfig['outputLocation'],publishURL=outletConfig['publishURL'])
channel.addOutlet(httplivestream)
except Exception, err:
logging.exception(err)
sys.exit(1)
for qualityname in outletConfig.sections:
qualityConfig = outletConfig[qualityname]
httplivestream.createQuality(qualityname,qualityConfig,ffmpegbin=self.config['paths']['ffmpegbin'])
elif outletConfig['type'] == 'StreamArchiver':
archiver = FileWriter(
self.config[outletsectionname]['outputdir'],
suffix=self.config[outletsectionname]['suffix'],
keepFiles=self.config[outletsectionname]['keepfiles'],
filename=self.config[outletsectionname]['filename']
)
channel.addOutlet(archiver)
def __init__(self, client_id, serverID):
super(Client, self).__init__() # call __init__ from multiprocessing.Process
self.server_id = multiprocessing.Value('i', 0)
with self.server_id.get_lock():
self.server_id.value = serverID + 1 # (1,10)
self.socket_status = multiprocessing.Value('i', 0)
with self.socket_status.get_lock():
self.socket_status.value = 0
"""
Read config from file
process_info[id] = (ip, port)
addr_dict[(ip, port)] = id
"""
self.process_info, self.addr_dict = configreader.get_processes_info()
self.total_server = configreader.get_total_servers()
self.batch_cmd = ''
self.reconnect_try = 0
self.client_id = client_id
# self.exit = sys.exit()
"""
init TCP connect to server
"""
with self.server_id.get_lock():
self.address = self.process_info[self.server_id.value]
self.ip, self.port = self.address[0], self.address[1]
# print(self.ip, self.port)
for res in socket.getaddrinfo(self.ip, self.port, socket.AF_UNSPEC, socket.SOCK_STREAM):
af, socktype, proto, canonname, sa = res
try:
self.socket = socket.socket(af, socktype, proto) # build a socket
with self.socket_status.get_lock():
self.socket_status.value = 1
except socket.error as msg:
self.socket = None
with self.socket_status.get_lock():
self.socket_status.value = 0
continue
try:
self.socket.connect(sa) # connect to socket
except socket.error as msg:
self.socket.close()
self.socket = None
with self.socket_status.get_lock():
self.socket_status.value = 0
continue
break
if self.socket is None:
print('could not open socket')
sys.exit(1)
"""
Init unicast channel
"""
print("client, no ordering")
# pass Client obj as arg to Channel
self.channel = Channel(self, self.client_id, self.socket, self.process_info, self.addr_dict)
def join_channel(self, chan):
"""
Notify the client that he has joined the channel, and supply the
client with a userlist.
"""
try:
chan = Channel(chan)
except NameError:
chan = Channel.channels[chan]
if chan not in self.user.channels:
logging.debug("Putting user '%s' in channel '%s'" % (self.user.nickname, chan.name))
chan.add_user(self.user)
self.user.add_channel(chan)
self.server.queue_message("JOINED: %s\r\n" % chan.name, self.sock)
self.server.queue_message("USERLIST %s: %s\r\n" % (chan.name, chan.userlist()), self.sock)
def __init__(self, name, id=None):
self.id = id if id else str(uuid4())
self.channel = Channel(self.id)
self.channel.onMessage = self.onMessage
self.channel.onJoin = self.onJoin
self.name = name
self.items = []
self.dirty = False
def get_tv_channels_from_part(text):
line_where_first_channel_starts = 15
attributes_per_item = 6
list_to_iterate = text.split("|")[line_where_first_channel_starts:-1]
while "\n" in list_to_iterate:
list_to_iterate.remove("\n")
channel_list = []
for i in range(0, len(list_to_iterate), attributes_per_item):
item_name = list_to_iterate[i].strip()
item_options = list_to_iterate[i + 1].strip()
item_web = list_to_iterate[i + 2].strip()
if len(item_web) > 0 and item_web[0] != "-":
item_web = stringbetweenparantheses(item_web)
if len(item_web) == 1:
item_web = ""
if "HD" in item_name:
item_resolution = "HD"
else:
item_resolution = "SD"
item_logo = list_to_iterate[i + 3].strip()
if len(item_logo) > 0 and item_logo[0] != "-":
item_logo = stringbetweenparantheses(item_logo)
if len(item_logo) == 1:
item_logo = ""
item_epg = list_to_iterate[i + 4].strip()
if len(item_epg) == 1:
item_epg = ""
item_extra_info = list_to_iterate[i + 5].strip()
if len(item_extra_info) == 1:
item_extra_info = ""
channel = Channel(item_name, item_web, item_resolution, item_logo, item_epg, item_extra_info)
item_options = item_options.split(" - ")
if len(item_options) > 0 and item_options[0] != "-":
for option in item_options:
format = (option[1:5]).replace("]", "")
url = stringbetweenparantheses(option)
channel.add_option(format, url)
channel_list.append(channel)
return channel_list
def __init__(self, channelNames = [], count = 512, id = "submaster"):
self.id = id
super(SubMaster, self).__init__(count)
master = Channel()
master.addListener(ChannelListener('master', self))
masterMap = MultiChannelMapping(master)
self.channelMap = {}
self.targetMap = {}
for index, name in enumerate(channelNames):
channel = self[index]
self.channelMap[name] = channel
self.targetMap[name] = MultiChannelMapping(channel)
masterMap.addTarget(channel)
channel.addListener(ChannelListener(name, self))
self.channelMap['master'] = master
self.selectChannel('master')
def addChannel(self, variableName, regions, nBins, binLow, binHigh):
"""
Build a channel object from this fitConfig
@param variableName The variable name to use in this channel
@param regions Region to use
@param nBins Number of bins
@param binLow Left edge of lower bin
@param binHight Right edge of upper bin
"""
if variableName == "cuts":
nBins = len(regions)
#binLow = 0.5
binHigh = nBins + binLow
pass
chanObj = Channel(variableName, regions, self.prefix, nBins,
binLow, binHigh, self.statErrThreshold)
# Verify that this name is not already used
for chan in self.channels:
if chan.name == chanObj.name:
log.info("Not gonna add the region, because it exists in fitConfig --> channel-List follows:" )
for chan in self.channels:
print " chan.name = ", chan.name
raise RuntimeError("Channel %s already exists in fitConfig %s. Please use a different name." % (chanObj.name, self.name))
#set channel parent
chanObj.parentTopLvl = self
#set stat error type
chanObj.statErrorType = self.statErrorType
# Channel doesn't have weights so add them
chanObj.setWeights(self.weights)
# Propagate systematics into channel
for (systName, syst) in self.systDict.items():
chanObj.addSystematic(syst)
# Put samples owned by this fitConfig into the channel
for s in self.sampleList:
chanObj.addSample(s.Clone())
# Add channel to the list
self.channels.append(chanObj)
return self.channels[len(self.channels) - 1]
def __init__(self,bus_number,simulation_mode=False):
Channel.__init__(self,bus_number)
self.bus_number = bus_number
self.bus_id = bus_number
self.cards = {}
self.in_ports = {}
self.out_ports = {}
self.serial = serial.Serial()
self.serial.port = self.bus_id
self.serial.baudrate = Bus.baud_rate
self.simulation_mode = False
if simulation_mode :
self.start_simulation_mode()
else :
self.connect()
self.set_default_probabilitys()
def __init__(self): self.url = 'http://douban.fm/j/mine/playlist?type=n&channel=%d&from=mainsite' self.current_song = None self.player = Player() self.channel = Channel() self.current_channel = self.channel.current_channel self.view = View(self.channel) self.update_current_song() self.is_playing = False self.seconds = 0 self.length = self.current_song.length
def connect(self, conn):
'''
Nawiazywanie polaczenia, inicjalizujace eventy
'''
#jesli uzytkonik zalogowany id -> pk usera
#if conn.request.user.is_authenticated():
# conn.id = conn.request.user.pk
conn.id = self.id_gen.next()
user_id = conn.get_user_id()
logger.debug("New connection; user %s; path %s; conn_id %s " % (user_id,
conn.request.path_info, conn.id))
if user_id not in self.users:
self.users[user_id] = {}
#tworzymy kanaly dla wspieranych eventow i doklejamy zdarzenia
for event in conn.events:
if active_events.has_key(event):
#niezalogowani uzytkownicy moga odbierac tylko broadcasty
if active_events[event].is_init_event():
Channel.init_event(conn, event, shared=self.shared)
if self.history.has_key(event):
self.history[event].send_history(conn)
if not (active_events[event].is_broadcast_event() or
conn.request.user.is_authenticated()):
continue
#XXX: nadmiarowe, w konstruktorze wszystkie kanaly sa inicjalizowane
if not self.channels.has_key(event):
logger.error('Brak kanalu %s, to niepowinno miec miejsca' % event)
self.channels[event] = Channel(event, tracker=self,
history=self.history.get(event, None))
if not self.users[user_id].has_key(event):
self.users[user_id][event] = True
self.channels[event].new_connection(conn)
def __init__(self):
Router = SockJSRouter(ChannelDispatcher, '/todo')
self.app = web.Application(Router.urls)
self.control = Channel("control")
self.control.onMessage = self.controlMessageHandler
ChannelDispatcher.addChannel(self.control)
self.lists = []
self.byId = {}
self.init()
self.dirty = True
def parseChannel(self, showName):
baseUrl = "http://radio.hrt.hr"
data = self.readUrl(baseUrl + "/emisije/?" + urllib.urlencode({"q": showName.encode("utf-8")}))
urls = re.findall(
r'<div class="col-md-4 col-sm-6 item split">.*?<div class="thumbnail thumbnail-shows">.*?<a href="(.+?)">.*?<img src="(.+?)" alt=".*?" title="(.+?)" class="normal_size">.*?</a>.*?<div class="caption">.*?<h4><a href=".*?">.*?</a></h4>.*?<p>.*?</p>.*?<p>.*?</p>.*?</div>.*?</div>.*?</div>',
data,
re.DOTALL,
)
if not urls:
return None
showLink = baseUrl + urls[0][0]
image = baseUrl + urls[0][1]
title = urls[0][2]
data = self.readUrl(showLink)
searchItems = re.findall(r'<meta name="description" content="(.+?)" />', data, re.DOTALL)
description = searchItems[0]
channel = Channel()
channel.link = showLink.strip()
channel.title = title.strip()
channel.description = description.strip()
channel.image = image.strip()
# channel.lastBuildDate = lastBuildDate.strip()
channel.articles = self.parseArticles(baseUrl, showLink)
return channel
def __init__(self, client_id, server_id):
super(Client, self).__init__() # call __init__ from multiprocessing.Process
# a shared variable to show serverID
self.server_id = multiprocessing.Value('i', 0)
with self.server_id.get_lock():
self.server_id.value = server_id + 1 # (1,10)
# a shared variable to show socket status
self.socket_status = multiprocessing.Value('i', 0)
with self.socket_status.get_lock():
self.socket_status.value = 0
# read process config from file
self.process_info, self.addr_dict = configreader.get_processes_info()
self.total_server = configreader.get_total_servers()
self.batch_cmd = ''
self.reconnect_try = 0
self.client_id = client_id
# init a TCP socket to connect to server
with self.server_id.get_lock():
self.address = self.process_info[self.server_id.value]
self.ip, self.port = self.address[0], self.address[1]
# robust way to find an available port
for res in socket.getaddrinfo(self.ip, self.port, socket.AF_UNSPEC, socket.SOCK_STREAM):
af, socktype, proto, canonname, sa = res
try:
self.socket = socket.socket(af, socktype, proto) # init TCP socket
with self.socket_status.get_lock():
self.socket_status.value = 1
except socket.error as msg:
self.socket = None
with self.socket_status.get_lock():
self.socket_status.value = 0
continue
try:
self.socket.connect(sa) # connect to TCP socket
except socket.error as msg:
self.socket.close()
self.socket = None
with self.socket_status.get_lock():
self.socket_status.value = 0
continue
break
if self.socket is None:
print('could not open socket')
sys.exit(1)
# init a unicast channel with delayed function, reuse code from MP1
self.channel = Channel(self, self.client_id, self.socket, self.process_info, self.addr_dict)
