def note_handler(addr, note, velocity, chan):
harmnote = 0
if vhWrap.playChannels[chan - 1]:
while harmnote > -999:
if velocity > 0:
harmnote, fracinstr = vhWrap.vectorHarmonizeMidiNote(
note, chan, 0)
else:
pass
harmnote, fracinstr = vhWrap.vectorHarmonizeMidiNoteOff(
note, chan)
if harmnote > -999:
returnmsg = [harmnote, velocity, chan, fracinstr]
msg = oscbuildparse.OSCMessage("/vectorHarmonizerReturnNote",
None, returnmsg)
osc_send(msg, "vectorHarmClient")
if vhWrap.vectorHarmonizeAutoVoiceRange:
low, high = vhWrap.getVectorHarmonizeVoiceRange()
rangemsg = [low, high]
msg = oscbuildparse.OSCMessage(
"/vectorHarmonizerControlReturn/range", None, rangemsg)
osc_send(msg, "vectorHarmClient")
if vhWrap.recordChannels[chan - 1] and velocity > 0:
vector = vhWrap.recordIntervalVector(note)
if vector != None:
msg = oscbuildparse.OSCMessage(
"/vectorHarmonizerControlReturn/vector", None, vector)
osc_send(msg, "vectorHarmClient")
def buttonNetworkClicked(self):
def handlerfunction(x):
print("get cmd: " + x)
sender = self.sender()
self.statusBar().showMessage(sender.text() + ' pressed')
#
# send out START command as a bundle
msg1 = oscbuildparse.OSCMessage("/pc1/cmd/control/ruthere", None,
["1111"])
msg2 = oscbuildparse.OSCMessage("/pc2/cmd/control/ruthere", None,
["1111"])
msg3 = oscbuildparse.OSCMessage("/pc3/cmd/control/ruthere", None,
["1111"])
msg4 = oscbuildparse.OSCMessage("/pc4/cmd/control/ruthere", None,
["1111"])
bun = oscbuildparse.OSCBundle(oscbuildparse.OSC_IMMEDIATELY,
[msg1, msg2, msg3, msg4])
osc_send(bun, "oscclient")
# receive echo back
osc_process()
osc_method("/pc1/cmd/control/ruthere", handlerfunction)
osc_process()
def send(path, *argv):
msg = None
if len(argv):
msg = oscbuildparse.OSCMessage(path, *argv)
else:
msg = oscbuildparse.OSCMessage(path, None, [])
osc_send(msg, "ardour")
def detected_callback():
pygame.mixer.init()
#1
osc_method("/state_receive", handlerfunction)
state = osc_message
msg = oscbuildparse.OSCMessage("/event_state", None, [state])
osc_send(msg, "input_state")
osc_process()
pygame.mixer.music.load(filename1)
mp3_length = mp3(filename1).info.length
pygame.mixer.music.play(1)
sleep(mp3_length + 0.25)
pygame.mixer.music.stop()
#2
osc_method("/state_receive", handlerfunction)
state = osc_message
msg = oscbuildparse.OSCMessage("/event_state", None, [state])
osc_send(msg, "input_state")
osc_process()
pygame.mixer.music.load(filename2)
mp3_length = mp3(filename2).info.length
pygame.mixer.music.play(1)
sleep(mp3_length + 0.25)
pygame.mixer.music.stop()
#3
osc_method("/state_receive", handlerfunction)
state = osc_message
msg = oscbuildparse.OSCMessage("/event_state", None, [state])
osc_send(msg, "input_state")
osc_process()
pygame.mixer.music.load(filename3)
mp3_length = mp3(filename3).info.length
pygame.mixer.music.play(1)
sleep(mp3_length + 0.25)
pygame.mixer.music.stop()
#4
osc_method("/state_receive", handlerfunction)
state = osc_message
msg = oscbuildparse.OSCMessage("/event_state", None, [state])
osc_send(msg, "input_state")
osc_process()
pygame.mixer.music.load(filename4)
mp3_length = mp3(filename4).info.length
pygame.mixer.music.play(1)
sleep(mp3_length + 0.25)
pygame.mixer.music.stop()
def pass_emotion_to_client(self, uid, age, isMale):
print(
"EmotionCommunicator.pass_demographic_to_client() -> age: {0}, gender(isMale): {1}"
.format(age, isMale))
if isMale:
msg = oscbuildparse.OSCMessage("/control/demographic", ",ifT",
[uid, age, True])
else:
msg = oscbuildparse.OSCMessage("/control/demographic", ",ifF",
[uid, age, False])
osc_send(msg, "demographicclient")
def main(sample_rate, device_name):
# See http://g.co/cloud/speech/docs/languages
# for a list of supported languages.
language_code = 'en-US' # a BCP-47 language tag
client = speech.SpeechClient()
config = types.RecognitionConfig(
encoding=enums.RecognitionConfig.AudioEncoding.LINEAR16,
sample_rate_hertz=sample_rate,
language_code=language_code,
max_alternatives=1,
enable_word_time_offsets=True)
streaming_config = types.StreamingRecognitionConfig(config=config,
interim_results=True)
mic_manager = ResumableMicrophoneStream(sample_rate,
int(sample_rate / 10),
device_name,
max_replay_secs=5)
osc_startup()
osc_udp_client('127.0.0.1', 2781, 'python-speech-to-text')
msg = oscbuildparse.OSCMessage('/start', None, oscbuildparse.OSCbang())
osc_send(msg, 'python-speech-to-text')
osc_process()
with mic_manager as stream:
resume = False
while True:
audio_generator = stream.generator(resume=resume)
requests = (types.StreamingRecognizeRequest(audio_content=content)
for content in audio_generator)
responses = client.streaming_recognize(streaming_config, requests)
try:
# Now, put the transcription responses to use.
listen_print_loop(responses, stream)
# Teardown code should be executed here
msg = oscbuildparse.OSCMessage('/stop', None,
oscbuildparse.OSCbang())
osc_send(msg, 'python-speech-to-text')
osc_process()
osc_terminate()
break
except (exceptions.OutOfRange, exceptions.InvalidArgument) as e:
if not ('maximum allowed stream duration' in e.message
or 'deadline too short' in e.message):
raise
print('Resuming...')
resume = True
def pass_decision_to_client(self, retrieved_uid):
print("\nOscManager.pass_decision_to_client()")
msg = None
if retrieved_uid is None:
retrieved_uid = -1
msg = oscbuildparse.OSCMessage("/control/detected", ",iT",
[retrieved_uid, True])
else:
msg = oscbuildparse.OSCMessage("/control/detected", ",iF",
[retrieved_uid, False])
# Override decision for testing purposes
msg = oscbuildparse.OSCMessage("/control/detected", ",iT",
[retrieved_uid, True])
osc_send(msg, "recogniserclient")
def playback_started(self, loop, preschedule_ms):
self.loop = loop
self.preschedule_ms = int(preschedule_ms) / 1000
self.recording_start_time = self.start_loop_time
log.info("Started recording {}".format(
self.recording.summary["title"]))
if self.recording.detail is not None:
key_name = self.recording.detail["tonal"]["key_key"]
key_scale = self.recording.detail["tonal"]["key_scale"]
key_strength = self.recording.detail["tonal"]["key_strength"]
key_number = key_to_index(key_name)
scale_number = scale_to_index(key_scale)
else:
key_number = -1
scale_number = -1
key_strength = 0
msg = oscbuildparse.OSCMessage(
"/songdata/songstart".format(self.recording.get_persistent_id()),
",hsiif", [
self.recording.get_persistent_id(),
self.recording.summary["title"], key_number, scale_number,
key_strength
])
osc_send(msg, "lightjams")
def send_cue(req_cue):
if (disable):
print(f"Cues disabled {req_cue}")
return
if req_cue not in cue_sheet["cues"]:
print(f"Cue '{req_cue}' not found.")
for target in cue_sheet["targets"].values():
ip = target["ip"]
cues = target["cues"]
if req_cue in cues:
cue = cues[req_cue]
if not cue:
continue
port = cue["port"]
if (ip, port) not in osc_channels:
client_uuid = str(uuid.uuid4())
osc_channels[(ip, port)] = client_uuid
osc_udp_client(ip, port, client_uuid)
else:
client_uuid = osc_channels[(ip, port)]
addr = cue["addr"]
data = cue["data"]
msg = oscbuildparse.OSCMessage(addr, None, data)
print(msg)
osc_send(msg, client_uuid)
osc_process()
def scheduler(arg1, arg2):
global signal_count
global loopCount
global loopChange
#毎フレやること
#現在のループの位置を送る
msg_send_loopCount = oscbuildparse.OSCMessage("/get/loopcount", None,
[loopCount])
osc_send(msg_send_loopCount, "aclientname")
osc_process() #もしかしたらLight()の後の方がいいかもしれない
#スイッチの値を読み込む
global switch_flag
if GPIO.input(SWITCH_PIN):
#スイッチがオンのとき
switch_flag = True #スイッチフラグをTrueにする
else:
switch_flag = False #スイッチフラグをFalseにする
###loopCountの処理
loopCount = loopCount + loopChange
loopChange = 0
if loopCount < 0:
loopCount = 0
#print("error:loopCount is negative")
if loopCount > LIGHT_SEC * FPS:
loopCount = LIGHT_SEC * FPS
#print("error:loopCount is over")
#print("loopCount:"+str(loopCount))
###
Light() #call light function
signal_count = signal_count + 1
def run(self):
while True:
#print("THREAD DIM RUN: " + str(self.dim)) # Helpful for observing threads running behaviours.
sa.seg_dim_analysis(self.dim)
msg = oscbuildparse.OSCMessage("/kodama/", None, sa.get_nearest(self.dim))
osc_send(msg, "Kodama")
time.sleep(args.audio_length/(self.dim+1))
def action_util(action: bool, cmd):
if action:
try:
#osc_startup()
#osc_udp_client(config.parms[ "atemOsc_ip" ], config.parms[ "atemOsc_port" ], config.parms[ "atemOsc_cn" ])
addr = cmd
args = [1.0]
msg = oscbuildparse.OSCMessage(addr, ",f", args)
x = osc_send(msg, cn)
x = osc_process()
status = "ok"
result = "cmd=" + cmd
except Exception as e:
result = ["Failed:" + e.strerror]
status = "exception"
else:
result = ["No action"]
status = "ok"
res = {"status": status, "result": result}
return (res)
def add_loop(self):
"""
/loop_add i:#channels f:min_length_seconds
"""
msg = oscbuildparse.OSCMessage("/loop_add", None,
[STEREO, MINIMUM_LOOP_DURATION])
self._send_message(msg)
def playReaperPauseMusic():
pauseMessage = oscbuildparse.OSCMessage("/marker/11", None, [1])
finished = False
while not finished:
osc_send(pauseMessage, REAPER_CLIENT_NAME)
osc_process()
finished = True
def oscOut(gaze_left_eye):
#gaze_left_eye = list(gaze_left_eye)
print(gaze_left_eye)
msg = oscbuildparse.OSCMessage("/test/me", None, (gaze_left_eye))
osc_send(msg, "tobiiSend")
osc_process()
def playReaperAudio():
playMessage = oscbuildparse.OSCMessage("/action/40317", None, [1])
finished = False
while not finished:
finished = True
osc_send(playMessage, REAPER_CLIENT_NAME)
osc_process()
def get(self, param, loop=None):
"""
/get s:param s:return_url s:retpath
OR
/sl/#/get s:control s:return_url s: return_path
Which returns an OSC message to the given return url and path with
the arguments:
i:loop_index s:control f:value
"""
if loop is None:
msg = oscbuildparse.OSCMessage("/get",
None, [param, self.return_url, "/get"])
else:
assert loop >= -3 and loop <= MAX_LOOP_COUNT-1
msg = oscbuildparse.OSCMessage("/sl/{}/get".format(loop),
None, [param, self.return_url, "/get"])
self._send_message(msg)
def __init__(self, ip, port, name):
self.outboundIP = str(ip)
self.outboundPort = int(port)
self.oscName = name
osc_startup()
osc_udp_client(self.outboundIP, self.outboundPort, self.oscName)
msg = oscbuildparse.OSCMessage("/test/message", ',is', [123, "test"])
osc_send(msg, self.oscName)
def load_session(self, infile):
"""
/load_session s:filename s:return_url s:error_path
"""
print('Loading session from file: {}'.format(infile))
msg = oscbuildparse.OSCMessage("/load_session", None,
[infile, self.return_url, "/ping"])
self._send_message(msg)
def printing_handler(addr, tags, stuff, source):
msg_string = "%s [%s] %s" % (addr, tags, str(stuff))
logger.info("OSCServer Got: '%s' from %s", msg_string, source)
# send a reply to the client.
msg = oscbuildparse.OSCMessage("/printed", None, msg_string)
osc.osc_send(msg, "main")
osc.osc_process()
def _construct_msg(self, data):
'''
None as second argument to OSCMessage means datatypes are autodetected.
replace None with explicit datatype formatted as ',sif' for string, integer, float.
data should be a list or tuple of args to pass in message like ['string', 42, 4.2]
'''
return oscbp.OSCMessage(self.address, None, data)
def on_holdStr(self, inst, val):
# update seconds when holdStr changes
self.seconds = int(self.holdStr[2:]) + (int(self.holdStr[:2]) * 60)
# update TouchOSC Label
tmr = time.gmtime(self.updateEndTime() - time.time() + 1)
oscLabel = oscbuildparse.OSCMessage('/1/label1', None,
[time.strftime('%M:%S', tmr)])
osc_send(oscLabel, 'OSC_client')
def setReaperMarker(currentNumber):
markerMessage = oscbuildparse.OSCMessage("/marker/" + str(currentNumber),
None, [1])
finished = False
while not finished:
osc_send(markerMessage, REAPER_CLIENT_NAME)
osc_process()
finished = True
def test(address, in_num):
# Will receive message data unpacked in s
print("test function=======>>>>>>> address:" + str(address) +
" get data: " + str(in_num))
if in_num == "alive":
msg_send = oscbuildparse.OSCMessage("/get/alive_check", None,
["alive"])
osc_send(msg_send, "aclientname")
osc_process()
def set(self, param, value, loop=None):
"""
/set s:param f:value
sync_source: [-3 = internal, -2 = midi, -1 = jack, 0 = none, # > 0 = loop number (1 indexed)]
"""
if param in 'sync_source':
assert value >= -3 and value <= MAX_LOOP_COUNT
if param == 'selected_loop_num':
assert value >= 0 and value <= MAX_LOOP_COUNT-1
if loop is None:
msg = oscbuildparse.OSCMessage("/set", None, [param, value])
else:
assert loop >= -3 and loop <= MAX_LOOP_COUNT-1
msg = oscbuildparse.OSCMessage("/sl/{}/set".format(loop),
None, [param, value])
if self.verbose:
print("Set param={}, value={}, loop={}".format(param, value, loop))
self._send_message(msg)
def save_session(self, outfile):
"""
/save_session s:filename s:return_url s:error_path
saves current session description to filename.
"""
print('Saving session to file: {}'.format(outfile))
msg = oscbuildparse.OSCMessage("/save_session", None,
[outfile, self.return_url, "/ping"])
self._send_message(msg)
def ping(self):
"""
/ping s:return_url s:return_path
If engine is there, it will respond with to the given URL and PATH
with an OSC message with arguments:
s:hosturl s:version i:loopcount
"""
msg = oscbuildparse.OSCMessage("/ping", None, [self.return_url, "/ping"])
self._send_message(msg)
def sendChordSC(self, chord):
midiChord = [str2midi(note) for note in chord]
chordOSC = oscbuildparse.OSCMessage('/chord', None, midiChord)
arpeggiateOSC = oscbuildparse.OSCMessage('/arpeggiate', None,
[self.arpBool])
durationOSC = oscbuildparse.OSCMessage('/duration', None,
[self.durVal])
scrambleOSC = oscbuildparse.OSCMessage('/scramble', None,
[self.scrambleBool])
numRepeatsOSC = oscbuildparse.OSCMessage('/numRepeats', None,
[self.numRepeats])
messages = [
arpeggiateOSC, durationOSC, scrambleOSC, chordOSC, numRepeatsOSC
]
for msg in messages:
osc_send(msg, self.clientNameOSC)
osc_process()
def clear_loops(self):
"""
Crude way to clear out loops from the looper. Works so long as
you don't have more than 10 in there!
"""
for i in range(10):
msg = oscbuildparse.OSCMessage("/loop_del", ",i", [-1])
osc_send(msg, "SooperLooper")
osc_process()
time.sleep(0.1)
def save_loop_audio(self, index, outfile):
"""
/sl/#/save_loop s:filename s:format s:endian s:return_url s:error_path
saves current loop to given filename, may return error to error_path
format and endian currently ignored, always uses 32 bit IEEE float WAV
"""
print('Saving audio in loop {} to file: {}'.format(index, outfile))
msg = oscbuildparse.OSCMessage("/sl/{}/save_loop".format(index),
None, [outfile, '', '', self.return_url, "/ping"])
self._send_message(msg)
