void ReportOscStart()
{
// stupid Vector2s:
osc_falling_transpRange.Add(aud_falling_transpRange[0]);
osc_falling_transpRange.Add(aud_falling_transpRange[1]);
osc_falling_delay_timeRange.Add(mx_falling_delay_timeRange[0]);
osc_falling_delay_timeRange.Add(mx_falling_delay_timeRange[1]);
osc_falling_delay_lineDurRange.Add(mx_falling_delay_lineDurRange[0]);
osc_falling_delay_lineDurRange.Add(mx_falling_delay_lineDurRange[1]);
osc_curving_casetopRolly_delay_timeRange.Add(mx_curving_casetopRolly_delay_timeRange[0]);
osc_curving_casetopRolly_delay_timeRange.Add(mx_curving_casetopRolly_delay_timeRange[1]);
osc_curving_casetopRolly_delay_lineDurRange.Add(mx_curving_casetopRolly_delay_lineDurRange[0]);
osc_curving_casetopRolly_delay_lineDurRange.Add(mx_curving_casetopRolly_delay_lineDurRange[1]);
osc_curving_figure8s_1_transpRange.Add(aud_curving_figure8s_1_transpRange[0]);
osc_curving_figure8s_1_transpRange.Add(aud_curving_figure8s_1_transpRange[1]);
osc_curving_figure8s_1_delay_timeRange.Add(mx_curving_figure8s_1_delay_timeRange[0]);
osc_curving_figure8s_1_delay_timeRange.Add(mx_curving_figure8s_1_delay_timeRange[1]);
osc_curving_figure8s_1_delay_lineDurRange.Add(mx_curving_figure8s_1_delay_lineDurRange[0]);
osc_curving_figure8s_1_delay_lineDurRange.Add(mx_curving_figure8s_1_delay_lineDurRange[1]);
osc_curving_figure8s_2_transpRange.Add(aud_curving_figure8s_2_transpRange[0]);
osc_curving_figure8s_2_transpRange.Add(aud_curving_figure8s_2_transpRange[1]);
osc_curving_figure8s_2_delay_timeRange.Add(mx_curving_figure8s_2_delay_timeRange[0]);
osc_curving_figure8s_2_delay_timeRange.Add(mx_curving_figure8s_2_delay_timeRange[1]);
osc_curving_figure8s_2_delay_lineDurRange.Add(mx_curving_figure8s_2_delay_lineDurRange[0]);
osc_curving_figure8s_2_delay_lineDurRange.Add(mx_curving_figure8s_2_delay_lineDurRange[1]);
oscOutScript.Send("/igniter/" + self_id + "/on", aud_GO_born);
oscOutScript.Send("/igniter/" + self_id + "/falling/begin", aud_falling_begin);
oscOutScript.Send("/igniter/" + self_id + "/falling/bufferName", mx_falling_bufferName);
oscOutScript.Send("/igniter/" + self_id + "/falling/startDur", aud_falling_bufferStartDur);
oscOutScript.Send(osc_falling_transpRange);
oscOutScript.Send(osc_falling_delay_timeRange);
oscOutScript.Send(osc_falling_delay_lineDurRange);
oscOutScript.Send("/igniter/" + self_id + "/falling/amp/global", aud_falling_globalAmp);
oscOutScript.Send("/igniter/" + self_id + "/curving/casetopRollyPolly/bufferName", mx_curving_casetopRolly_bufferName);
oscOutScript.Send("/igniter/" + self_id + "/curving/casetopRollyPolly/startDur", aud_curving_casetopRolly_bufferStartDur);
oscOutScript.Send(osc_curving_casetopRolly_delay_timeRange);
oscOutScript.Send(osc_curving_casetopRolly_delay_lineDurRange);
oscOutScript.Send("/igniter/" + self_id + "/curving/casetopRollyPolly/amp/global", aud_curving_casetopRolly_globalAmp);
oscOutScript.Send("/igniter/" + self_id + "/curving/figure8s/1/bufferName", mx_curving_figure8s_1_bufferName);
oscOutScript.Send("/igniter/" + self_id + "/curving/figure8s/1/startDur", aud_curving_figure8s_1_bufferStartDur);
oscOutScript.Send(osc_curving_figure8s_1_transpRange);
oscOutScript.Send(osc_curving_figure8s_1_delay_timeRange);
oscOutScript.Send(osc_curving_figure8s_1_delay_lineDurRange);
oscOutScript.Send("/igniter/" + self_id + "/curving/figure8s/1/amp/global", aud_curving_figure8s_1_globalAmp);
oscOutScript.Send("/igniter/" + self_id + "/curving/figure8s/2/bufferName", mx_curving_figure8s_2_bufferName);
oscOutScript.Send("/igniter/" + self_id + "/curving/figure8s/2/startDur", aud_curving_figure8s_2_bufferStartDur);
oscOutScript.Send(osc_curving_figure8s_2_transpRange);
oscOutScript.Send(osc_curving_figure8s_2_delay_timeRange);
oscOutScript.Send(osc_curving_figure8s_2_delay_lineDurRange);
oscOutScript.Send("/igniter/" + self_id + "/curving/figure8s/2/amp/global", aud_curving_figure8s_2_globalAmp);
aud_GO_born = false;
aud_falling_begin = false;
}
void Update()
{
// Send a message with one float argument.
oscOut.Send( "/test1", Random.value );
// Send a message with a number of assorted argument types.
oscOut.Send( "/test2", Random.value, "Text", false );
// Create a message and send it.
OscMessage message = new OscMessage( "/test3" );
message.Add( "Allo" );
message.Add( "World" );
message.args[0] = "Hello"; // Let's say we want overwrite the first argument
oscOut.Send( message );
}
void Update()
{
// Create a messege.
OscMessage message = new OscMessage(address);
// Create a timetag. Default time is DateTime.Now.
OscTimeTag timetag = new OscTimeTag();
// Make it 1 milisecond into the future.
timetag.time = timetag.time.AddMilliseconds(1);
// Two possible methods for sending timetags ...
if (sendTimeTagWithBundle)
{
// Either create a bundle with the timetag, add the message and send.
OscBundle bundle = new OscBundle(timetag);
bundle.Add(message);
oscOut.Send(bundle);
}
else
{
// Or add the timetag to message and send it.
message.Add(timetag);
oscOut.Send(message);
}
// Incoming bundles are unpacked automatically and are never exposed.
// In the case where we send the timetag with a bundle and want to
// access them through incoming messages, we can ask OscIn to add
// the timetags from bundles to each of their contained messages.
oscIn.addTimeTagsToBundledMessages = sendTimeTagWithBundle;
// Update label.
sendLabel.text = timetag.time + ":" + timetag.time.Millisecond;
}
private void Init()
{
for (int i = oscEventUiContainer.childCount - 1; i >= 0; --i)
{
DestroyImmediate(oscEventUiContainer.GetChild(i).gameObject);
}
timeMachineOscEvents.Clear();
foreach (var c in timeMachineTrackManeger.clipValues)
{
var oscEventValue = new TimeMachineOscEvent();
oscEventValue.address = $"/{c.name}";
oscEventValue.index = c.index;
oscEventValue.name = c.name;
timeMachineOscEvents.Add(oscEventValue);
oscIn.MapInt(oscEventValue.address, OnReceiveMoveClipEvent);
var ui = Instantiate(timeMachineOscEventUI, oscEventUiContainer);
ui.oscIn = oscIn;
ui.controller = this;
ui.oscEvent = oscEventValue;
var message = new OscMessage();
message.address = ui.oscAddress;
message.Add(c.index);
ui.SetTestOscMessage(oscOut, message);
}
// oscIn
}
public void Send(string address, params object[] args)
{
OscMessage message = OscPool.GetMessage(address);
message.Add(args);
SendPooled(message);
}
void Update()
{
// Send a message with one float argument.
oscOut.Send("/test1", Random.value);
// Send a message with a number of assorted argument types.
oscOut.Send("/test2", Random.value, "Text", false);
// Create a message and send it.
OscMessage message = new OscMessage("/test3");
message.Add("Allo");
message.Add("World");
message.args[0] = "Hello"; // Let's say we want overwrite the first argument
oscOut.Send(message);
}
void UnpackRecursivelyAndDispatch(OscPacket packet)
{
if (packet is OscBundle)
{
OscBundle bundle = packet as OscBundle;
foreach (OscPacket subPacket in bundle.packets)
{
if (_addTimeTagsToBundledMessages && subPacket is OscMessage)
{
OscMessage message = subPacket as OscMessage;
message.Add(bundle.timeTag);
}
UnpackRecursivelyAndDispatch(subPacket);
}
OscPool.Recycle(bundle);
}
else
{
OscMessage message = packet as OscMessage;
if (_filterDuplicates)
{
if (_uniqueAddresses.Contains(message.address))
{
OscPool.Recycle(message);
return;
}
_uniqueAddresses.Add(message.address);
}
Dispatch(packet as OscMessage);
_messageCount++; // Influenced by _filterDuplicates.
}
}
// data[0] must always be the adress ; adress is taken from https://plugins.iem.at/docs/osc/#multiencoder
// data[1] must always be the value to send
public void SendOSCMessageToClient(string[] data)
{
OscMessage msg = new OscMessage(data[0]);
msg.Add(data[1]);
oscOut.Send(msg);
//oscOut.Send(data[0], float.Parse(data[1]));
}
// TCP
// public void setupSocket()
// {
// try {
// mySocket = new TcpClient(Host, Port);
// theStream = mySocket.GetStream();
// theWriter = new StreamWriter(theStream);
// theReader = new StreamReader(theStream);
// socketReady = true;
// }
// catch (Exception e) {
// Debug.Log("Socket error: " + e);
// }
// }
// public void writeSocket(string theLine)
// {
// if (!socketReady)
// return;
// String foo = theLine + "\r\n";
// theWriter.Write(foo);
// theWriter.Flush();
// }
// public String readSocket()
// {
// if (!socketReady)
// return "";
// if (theStream.DataAvailable)
// return theReader.ReadLine();
// return "";
// }
// public void closeSocket()
// {
// if (!socketReady)
// return;
// theWriter.Close();
// theReader.Close();
// mySocket.Close();
// socketReady = false;
// }
void checkTriggers(int panelNumber, int sensorNumber, float currentTouchValue)
{
String messageAddress = "/P" + panelNumber + "_" + sensorNumber;
OscMessage triggerMessage = new OscMessage(messageAddress);
triggerMessage.Add(clip_slot_triggers[panelNumber][sensorNumber]);
oscout.Send(triggerMessage);
Debug.Log("clip slot trigger message sent: " + messageAddress + "-" + clip_slot_triggers[panelNumber][sensorNumber] + " touch val:" + currentTouchValue);
}
// Send some keyboard event such as : F1, F2, ...
void SendKeyboardEvent(KeyCode keyCode)
{
OscMessage message = new OscMessage(oscKeyCodeAddress);
message.Add(keyCode.ToString());
oscSend.Send(message);
Debug.LogFormat("Sending keyboard event with ToryMessage : {0}", message.ToString());
}
// Send Time.realtimeSinceStartup as vital sign.
void SendVital()
{
OscMessage message = new OscMessage(oscVitalAddress);
message.Add(Time.realtimeSinceStartup);
oscSend.Send(message);
// Debug.Log(message.ToString());
}
public void SendPlayLog(params string[] log)
{
OscMessage message = new OscMessage(oscPlayLogAddress);
foreach (string s in log)
{
message.Add(s);
}
oscSend.Send(message);
// Debug.Log(message.ToString());
}
public void InitOSCEvent()
{
var newOscEventValue = new TimeMachineOscEvent();
newOscEventValue.address = oscAddress;
newOscEventValue.index = timeMachineOscEvent.index;
newOscEventValue.name = timeMachineOscEvent.name;
oscIn.MapInt(newOscEventValue.address, controller.OnReceiveMoveClipEvent);
oscEvent = newOscEventValue;
var message = new OscMessage();
message.address = newOscEventValue.address;
message.Add(newOscEventValue.index);
testOscMessage = message;
}
public void AddNewEvent()
{
var oscEventValue = new TimeMachineOscEvent();
oscEventValue.address = "/Test";
oscEventValue.index = 0;
oscEventValue.name = "Test";
timeMachineOscEvents.Add(oscEventValue);
// oscIn.MapInt( oscEventValue.address,OnReceiveMoveClipEvent );
var ui = Instantiate(timeMachinePlainOscEventUI, oscEventUiContainer);
ui.oscEvent = oscEventValue;
var message = new OscMessage();
message.address = ui.oscAddress;
message.Add(oscEventValue.index);
ui.SetTestOscMessage(oscOut, message);
}
void Start()
{
// Ensure that we have a OscOut component.
if (!_oscOut)
{
_oscOut = gameObject.AddComponent <OscOut>();
}
// Prepare for sending messages locally on this device on port 7000.
_oscOut.Open(7000);
// ... or, alternatively target a remote devices with an IP Address.
//oscOut.Open( 7000, "192.168.1.101" );
// If you want to send a single value then you can use this one-liner.
_oscOut.Send(address1, Random.value);
// If you want to send a message with multiple values, then you
// need to create a message, add your values and send it.
// Always cache messages you create, so that you can reuse them.
_message2 = new OscMessage(address2);
_message2.Add(Time.frameCount).Add(Time.time).Add(Random.value);
_oscOut.Send(_message2);
}
// UPDATE
void Update()
{
if (Input.GetKey("up") && !manualStart)
{
calibrateReadings();
}
if (Input.GetKeyDown("space"))
{
manualStart = true;
Debug.Log("manual start!!");
}
if (firstTime)
{
Debug.Log("first time");
firstTime = false;
oscout.Send("/start", 1);
InitialStart();
}
if (nowRunning)
{
AnalyseSound();
updateVisualisation();
}
// ***** reading sensors
for (int j = 0; j < numberofarduinos; j++)
{
//readings = allReadings [j];
try{
switch (j)
{
case 0:
strIn = portPanel0.readingsData;
break;
case 1:
strIn = portPanel1.readingsData;
break;
case 2:
strIn = portPanel2.readingsData;
break;
case 3:
strIn = portPanel3.readingsData;
break;
default:
break;
}
//strIn = ReadFromArduino(j);
//Debug.Log("receieved from arduino" + j + ":" + strIn);
if (strIn != null)
{
strIn = strIn.Trim();
string[] readingsText = strIn.Split(' ');
if (readingsText.Length == numberBubbles)
{
for (int i = 0; i < numberBubbles; i++)
{
readingsText[i] = readingsText[i].Trim();
bool Result;
int number;
Result = int.TryParse(readingsText[i], out number);
if (Result)
{
//readings[i] = number;
allReadings[j][i] = number;
//Debug.Log("arduino:" + j + " bubble:" + i + " reading:" + number + " allReadings:" + allReadings[j][i]);
}
else
{
Debug.Log("failed");
}
}
//allReadings [j] = readings;
}
}
}
catch (TimeoutException) {
Debug.Log("timeout exception");
}
}
readingsToSend = "";
// **** process readings
for (int o = 0; o < numberofarduinos; o++)
{
for (int p = 0; p < numberBubbles; p++)
{
// *** creating string for MAX
//Debug.Log ("allreadings" + o + ":" + allReadings [o][p]);
float currentDiff = restValues[o][p] - allReadings[o][p];
float maxDiff = restValues[o][p] - pressedValues[o][p];
float percentDiff = currentDiff / maxDiff;
if (percentDiff < 0)
{
percentDiff = 0;
}
if (percentDiff > 1)
{
percentDiff = 1;
}
// int valueForMax = Mathf.RoundToInt(percentDiff * 128);
// String panelID = "/panel" + o + "_" + p;
// Debug.Log(panelID + ":" + valueForMax);
// oscout.Send(panelID, valueForMax);
// readingsToSend += valueForMax + " ";
readingsToSend += percentDiff + " ";
// *** send specific triggers to max
if (nowRunning)
{
if (percentDiff > touchThreshold && clip_slot_triggers[o][p] == 0)
{
Debug.Log("press clip_slot_trigger current value pre:" + clip_slot_triggers[o][p] + "percentDiff:" + percentDiff);
clip_slot_triggers[o][p] = 1;
Debug.Log("press clip_slot_trigger current value post:" + clip_slot_triggers[o][p] + "percentDiff:" + percentDiff);
checkTriggers(o, p, percentDiff);
}
if (percentDiff < 0.05f && clip_slot_triggers[o][p] == 1)
{
Debug.Log("not press the clip_slot_trigger for pre panel" + o + "_" + p + " is:" + clip_slot_triggers[o][p] + " should be 0");
clip_slot_triggers[o][p] = 0;
Debug.Log("not press the clip_slot_trigger for post panel" + o + "_" + p + " is:" + clip_slot_triggers[o][p] + " should be 0");
}
}
// *** check for first touch to start everything
if (!firstTime && !nowRunning && manualStart)
{
if (percentDiff > touchThreshold)
{
firstTime = true;
}
}
}
}
// Debug.Log(readingsToSend);
OscMessage readingsMessage = new OscMessage("/touch");
readingsMessage.Add(readingsToSend);
oscout.Send(readingsMessage);
//writeSocket(readingsToSend);
//sendStringUDP(readingsToSend);
updateBubbles();
}
void Beatings_SpinEvent()
{
// we'll add extra tones to the model list, to create beatings / spin sound
// **** we generate the extra frequencies constantly, scaled to the rate of spin so it will sound like its spinning ****
// **** an evolving list of F, A, D ****
lightSpinEvent_freqs = new List <float>(modelFreqs);
// lightSpinEvent_amps = new List<float>( modelAmps );
// lightSpinEvent_decays = new List<float>( modelDecays );
InstantiateOscAddrs_SpinEvent();
foreach (float freq in modelFreqs)
{
osc_freqsSpin.Add(freq);
}
foreach (float amp in modelAmps)
{
osc_ampsSpin.Add(amp);
}
foreach (float decay in modelDecays)
{
osc_decaysSpin.Add(decay);
}
for (int f = 0; f < modelFreqs.Count; f++)
{
// fundamental
if (f == 0)
{
criticalBand = 24.7f * ((0.00437f * modelFreqs[f]) + 1);
half_criticalBand = criticalBand / 2;
float lightSpinEvent_spinDeltaClamped = Mathf.Clamp(lightSpinEvent_spinDelta, 0f, .1f);
percentOfCriticalBand = Scale(lightSpinEvent_spinDeltaClamped, 0.0f, .1f, mx_lightSpinEvent_fund_percentOfCriticalBandRange[0], mx_lightSpinEvent_fund_percentOfCriticalBandRange[1]);
percentOfCriticalBandFreq = modelFreqs[f] + (percentOfCriticalBand * half_criticalBand);
osc_freqsSpin.Add(percentOfCriticalBandFreq);
osc_ampsSpin.Add(RandomAmp("louder", aud_lightEventType));
osc_decaysSpin.Add(RandomDecay("slower"));
// for debug:
lightSpinEvent_freqs.Add(percentOfCriticalBandFreq);
// lightSpinEvent_amps.Add( RandomAmp( "louder" ) );
// lightSpinEvent_decays.Add( RandomDecay( "slower" ) );
}
/*
* // upper partials
* // too noisy - for now
* else
* {
* criticalBand = 24.7f * ((0.00437f * modelFreqs[f]) + 1);
* half_criticalBand = criticalBand / 2;
* float lightSpinEvent_spinDeltaClamped = Mathf.Clamp(lightSpinEvent_spinDelta, 0f, .1f);
* percentOfCriticalBand = Scale(lightSpinEvent_spinDeltaClamped, 0.0f, .1f, mx_lightSpinEvent_fund_percentOfCriticalBandRange[0], mx_lightSpinEvent_fund_percentOfCriticalBandRange[1]);
* percentOfCriticalBandFreq = modelFreqs[f] + (percentOfCriticalBand * half_criticalBand);
*
* osc_freqsSpin.Add(percentOfCriticalBandFreq);
* osc_ampsSpin.Add(RandomAmp("softer", aud_lightEventType));
* osc_decaysSpin.Add(RandomDecay("faster"));
*
* lightSpinEvent_freqs.Add(percentOfCriticalBandFreq);
* }*/
}
/*
* if (selectedGO != null)
* {
* if (selectedGO.name == this.transform.name)
* {
* if( osc_freqsSpin != null )
* {
* Debug.Log("not null");
* }
* }
* }*/
}
void Update()
{
// If we are going to send 'as bundle', then we would like OSC io
// to add the timetag to the messeges contained in the bundle.
oscIn.addTimeTagsToBundledMessages = sendAsBundle;
// Create a messege
OscMessage message = new OscMessage( address );
// Create a timetag. Default time is DateTime.Now.
OscTimeTag timetag = new OscTimeTag();
// Make it 1 milisecond into the future.
timetag.time = timetag.time.AddMilliseconds( 1 );
// Two possible methods for sending timetags ...
if( sendAsBundle )
{
// Either create a bundle with the timetag, add the message and send.
OscBundle bundle = new OscBundle( timetag );
bundle.Add( message );
oscOut.Send( bundle );
} else {
// Or add the timetag to message and send it.
message.Add( timetag );
oscOut.Send( message );
}
// Update label.
sendLabel.text = timetag.time + ":" + timetag.time.Millisecond;
}
void Beatings_FlareEvent()
{
// we'll add extra tones to the model list, to create beatings / interest / shimmer around each fundamental and partial
// **** we only generate the extra frequencies once, on event On - this isn't an evolving list of F, A, D ****
lightFlareEvent_freqs = new List <float>(modelFreqs); // <-- for troubleshooting
InstantiateOscAddrs_FlareEvent();
discModelParams = makeDiscsModel_script.discModelParams;
sc_lightFlareEvent_shimmer_percentOfCriticalBandRange = discModelParams.lightFlareEvent_shimmer_percentOfCriticalBandRange;
foreach (float freq in modelFreqs)
{
osc_freqsFlare.Add(freq);
}
foreach (float amp in modelAmps)
{
osc_ampsFlare.Add(amp);
}
foreach (float decay in modelDecays)
{
osc_decaysFlare.Add(decay);
}
for (int f = 0; f < modelFreqs.Count; f++)
{
criticalBand = 24.7f * ((0.00437f * modelFreqs[f]) + 1);
half_criticalBand = criticalBand / 2;
// fundamental - add three extra tones
if (f == 0)
{
for (int e = 0; e < 3; e++)
{
percentOfCriticalBand = Random.Range(sc_lightFlareEvent_shimmer_percentOfCriticalBandRange[0], sc_lightFlareEvent_shimmer_percentOfCriticalBandRange[1]);
percentOfCriticalBandFreq = modelFreqs[f] + (percentOfCriticalBand * half_criticalBand);
osc_freqsFlare.Add(percentOfCriticalBandFreq);
osc_ampsFlare.Add(RandomAmp("louder", aud_lightEventType));
osc_decaysFlare.Add(RandomDecay("slower"));
// for debug:
lightFlareEvent_freqs.Add(percentOfCriticalBandFreq);
// lightFlareEvent_amps.Add( RandomAmp( "louder" ) );
// lightFlareEvent_decays.Add( RandomDecay( "slower" ) );
}
}
// upper partials - add two extra tones each
else
{
for (int e = 0; e < 2; e++)
{
percentOfCriticalBand = Random.Range(sc_lightFlareEvent_shimmer_percentOfCriticalBandRange[0], sc_lightFlareEvent_shimmer_percentOfCriticalBandRange[1]);
percentOfCriticalBandFreq = modelFreqs[f] + (percentOfCriticalBand * half_criticalBand);
osc_freqsFlare.Add(percentOfCriticalBandFreq);
osc_ampsFlare.Add(RandomAmp("softer", aud_lightEventType));
osc_decaysFlare.Add(RandomDecay("faster"));
lightFlareEvent_freqs.Add(percentOfCriticalBandFreq);
}
}
}
}