def test_toggle_night_view(args, cam_id, sock):
for i in ("on", "off"):
message = OSCMessage("/toggleNightView")
message.appendTypedArg(cam_id, "i")
message.appendTypedArg(i, "s")
binary = message.encode_osc()
send(sock, binary, args)
def test_focus_cam(args, cam_id, sock):
for i in (1, 5000, 9999):
message = OSCMessage("/focusCam")
message.appendTypedArg(cam_id, "i")
message.appendTypedArg(i, "i")
binary = message.encode_osc()
send(sock, binary, args)
def test_use_cam_preset(args, cam_id, sock):
for i in range(10):
message = OSCMessage("/useCamPreset")
message.appendTypedArg(cam_id, "i")
message.appendTypedArg(i, "i")
binary = message.encode_osc()
send(sock, binary, args)
def unsubscribe(self):
logger.info("unsubscribe")
msg = OSCMessage("/unsubscribe")
msg.appendTypedArg(self.args.client_host, "s")
msg.appendTypedArg(self.args.client_port, "i")
msg.appendTypedArg(self.args.authenticate, "s")
self.osc_sock.writeDatagram(QByteArray(msg.encode_osc()), QHostAddress(self.args.chaosc_host),
self.args.chaosc_port)
def test_move_cam(args, cam_id, sock):
directions = ("home", "up", "down", "left", "right", "upleft", "upright",
"downleft", "downright")
for direction in directions:
message = OSCMessage("/moveCam")
message.appendTypedArg(cam_id, "i")
message.appendTypedArg(direction, "s")
binary = message.encode_osc()
send(sock, binary, args)
def unsubscribe_me(self):
if self.args.keep_subscribed:
return
logger.info("%s: unsubscribing from '%s:%d'",
datetime.now().strftime("%x %X"), self.chaosc_address[0],
self.chaosc_address[1])
msg = OSCMessage("/unsubscribe")
msg.appendTypedArg(self.client_address[0], "s")
msg.appendTypedArg(self.client_address[1], "i")
msg.appendTypedArg(self.args.authenticate, "s")
self.osc_sock.sendto(msg.encode_osc(), self.chaosc_address)
def handleConnResult(self, connection, *args, **kwargs):
conn_result = connection.getresponse()
if "client_address" in kwargs:
response = OSCMessage("/Response")
response.appendTypedArg(kwargs["cmd"], "s")
for arg in args:
response.append(arg)
response.appendTypedArg(conn_result.status, "i")
response.appendTypedArg(conn_result.reason, "s")
self.socket.sendto(response.encode_osc(), kwargs["client_address"])
if conn_result.status != 200:
print "%s. Error: %d, %s" % (datetime.now().strftime("%x %X"),
conn_result.status,
conn_result.reason)
def test_osc_message(self):
msg = CMessage("/my/osc/address")
msg.append('something')
msg.insert(0, 'something else')
msg[1] = 'entirely'
msg.extend([1,2,3.])
msg.appendTypedArg(4, "i")
msg.appendTypedArg(5, "i")
msg.append(6.)
del msg[3:6]
self.assertEqual(msg.pop(-2), 5)
self.assertEqual(msg.__str__(), "/my/osc/address ['something else', 'entirely', 1, 6.0]")
binary = msg.encode_osc()
self.assertEqual(binary, '/my/osc/address\x00,ssif\x00\x00\x00something else\x00\x00entirely\x00\x00\x00\x00\x00\x00\x00\x01@\xc0\x00\x00')
msg2 = c_decode_osc(binary, 0, len(binary))
self.assertEqual(msg2.__repr__(), "('/my/osc/address', ['s', 's', 'i', 'f'], ['something else', 'entirely', 1, 6.0])")
def subscribe_me(self):
logger.info("%s: subscribing to '%s:%d' with label %r",
datetime.now().strftime("%x %X"), self.chaosc_address[0],
self.chaosc_address[1], self.args.subscriber_label)
msg = OSCMessage("/subscribe")
msg.appendTypedArg(self.client_address[0], "s")
msg.appendTypedArg(self.client_address[1], "i")
msg.appendTypedArg(self.args.authenticate, "s")
if self.args.subscriber_label is not None:
msg.appendTypedArg(self.args.subscriber_label, "s")
self.osc_sock.sendto(msg.encode_osc(), self.chaosc_address)
def test_osc_message(self):
msg = CMessage("/my/osc/address")
msg.appendTypedArg(4, "i")
msg.appendTypedArg("foo", "s")
msg2 = CMessage("/other/address")
msg.appendTypedArg(4., "f")
bundle = CBundle()
bundle.append(msg)
bundle.append(msg2)
binary = bundle.encode_osc()
address, typetags, args = c_decode_osc(binary, 0, len(binary))
self.assertEqual(typetags, bundle.timetag)
self.assertEqual(list(args), [
('/my/osc/address', ['i', 's', 'f'], [4, 'foo', 4.0]),
('/other/address', [], [])]
)
def handle_read(self, osc_sock):
data = self.serial.readline()[:-2]
try:
airFlow, emg, temp = data.split(";")
except ValueError:
return
try:
airFlow = int(airFlow)
emg = int(emg)
temp = int(temp)
except ValueError:
return
osc_message = OSCMessage("/%s/airFlow" % self.actor)
osc_message.appendTypedArg(airFlow, "i")
osc_sock.sendall(osc_message.encode_osc())
osc_message = OSCMessage("/%s/emg" % self.actor)
osc_message.appendTypedArg(emg, "i")
osc_sock.sendall(osc_message.encode_osc())
osc_message = OSCMessage("/%s/temperature" % self.actor)
osc_message.appendTypedArg(temp, "i")
osc_sock.sendall(osc_message.encode_osc())
def handle_read(self, osc_sock):
t = ord(self.serial.read(1))
osc_message = OSCMessage("/%s/ekg" % self.actor)
osc_message.appendTypedArg(t, "i")
osc_sock.sendall(osc_message.encode_osc())
def main():
parser = argparse.ArgumentParser(prog='psychose_actor')
parser.add_argument("-H",
'--chaosc_host',
required=True,
type=str,
help='host of chaosc instance to control')
parser.add_argument("-p",
'--chaosc_port',
required=True,
type=int,
help='port of chaosc instance to control')
args = parser.parse_args(sys.argv[1:])
osc_sock = socket.socket(2, 2, 17)
osc_sock.connect((args.chaosc_host, args.chaosc_port))
naming = {
"/dev/ttyUSB0": ["bjoern", "ehealth"],
"/dev/ttyACM0": ["bjoern", "ekg"],
"/dev/ttyACM1": ["bjoern", "pulse"],
"/dev/ttyUSB1": ["merle", "ehealth"],
"/dev/ttyACM2": ["merle", "ekg"],
"/dev/ttyACM3": ["merle", "pulse"],
"/dev/ttyUSB2": ["uwe", "ehealth"],
"/dev/ttyACM4": ["uwe", "ekg"],
"/dev/ttyACM5": ["uwe", "pulse"]
}
used_devices = dict()
while 1:
for device, description in naming.iteritems():
if os.path.exists(device):
if device not in used_devices:
actor, platform = naming[device]
if description[1] == "ehealth":
print device, actor, platform
used_devices[device] = EHealth2OSC(
actor, platform, device)
elif description[1] == "ekg":
print device, actor, platform
used_devices[device] = EKG2OSC(actor, platform, device)
elif description[1] == "pulse":
print device, actor, platform
used_devices[device] = Pulse2OSC(
actor, platform, device)
else:
raise ValueError(
"unknown description %r for device %r" %
(description, device))
else:
print "device missing", device
message = OSCMessage("/DeviceMissing")
message.appendTypedArg(description[0], "s")
message.appendTypedArg(description[1], "s")
osc_sock.sendall(message.encode_osc())
read_map = {}
for forwarder in used_devices.values():
read_map[forwarder.serial] = forwarder.handle_read
readers, writers, errors = select.select(read_map, [], [], 0.1)
for reader in readers:
read_map[reader](osc_sock)
def handle_read(self, osc_sock):
t = ord(self.serial.read(1))
self.buf.append(t)
if t == 0:
try:
heart_signal, heart_rate, o2, pulse = self.buf.getData()
if pulse == 245 and not self.heartbeat_on:
osc_message = OSCMessage("/%s/heartbeat" % self.actor)
osc_message.appendTypedArg(1, "i")
osc_message.appendTypedArg(heart_rate, "i")
osc_message.appendTypedArg(o2, "i")
osc_sock.sendall(osc_message.encode_osc())
#print "heartbeat", datetime.datetime.now(), heart_signal
self.heartbeat_on = True
elif pulse == 1 and self.heartbeat_on:
#print "off heartbeat", datetime.datetime.now(), heart_signal
self.heartbeat_on = False
osc_message = OSCMessage("/%s/heartbeat" % self.actor)
osc_message.appendTypedArg(0, "i")
osc_message.appendTypedArg(heart_rate, "i")
osc_message.appendTypedArg(o2, "i")
osc_sock.sendall(osc_message.encode_osc())
except ValueError, e:
print e
def test_set_cam_preset(args, cam_id, sock):
message = OSCMessage("/setCamPreset")
message.appendTypedArg(cam_id, "i")
message.appendTypedArg(0, "i")
binary = message.encode_osc()
send(sock, binary, args)
def __init__(self, args):
SimpleOSCServer.__init__(self, args)
self.addMsgHandler("X", self.stats_handler)
if "unsubscribe" == args.subparser_name:
msg = OSCMessage("/unsubscribe")
msg.appendTypedArg(args.host, "s")
msg.appendTypedArg(args.port, "i")
msg.appendTypedArg(args.authenticate, "s")
self.sendto(msg, self.chaosc_address)
logger.info("unsubscribe %r:%r from %r:%r",
args.host, args.port, args.chaosc_host, args.chaosc_port)
elif "subscribe" == args.subparser_name:
msg = OSCMessage("/subscribe")
msg.appendTypedArg(args.host, "s")
msg.appendTypedArg(args.port, "i")
msg.appendTypedArg(args.authenticate, "s")
if args.subscriber_label:
msg.appendTypedArg(args.subscriber_label, "s")
self.sendto(msg, self.chaosc_address)
logger.info("subscribe %r:%r to %r:%r",
args.host, args.port, args.chaosc_host, args.chaosc_port)
elif "list" == args.subparser_name:
msg = OSCMessage("/list")
msg.appendTypedArg(args.client_host, "s")
msg.appendTypedArg(args.client_port, "i")
self.sendto(msg, self.chaosc_address)
elif "save" == args.subparser_name:
msg = OSCMessage("/save")
msg.appendTypedArg(args.authenticate, "s")
self.sendto(msg, self.chaosc_address)
elif "pause" == args.subparser_name:
msg = OSCMessage("/pause")
msg.appendTypedArg(args.pause_state, "i")
self.sendto(msg, self.chaosc_address)
else:
raise Exception("unknown command")
sys.exit(1)