/// <summary>
/// Sets up a new OpenAL buffer for this AudioData. This will result in decompressing
/// the <see cref="Duality.OggVorbis.OV">Ogg Vorbis</see> data and uploading it to OpenAL,
/// unless the AudioData is streamed.
/// </summary>
public void SetupAlBuffer()
{
// No AudioData available
if (this.data.Length == 0 || this.data == null)
{
this.DisposeAlBuffer();
return;
}
// Streamed Audio
if (this.IsStreamed)
{
this.DisposeAlBuffer();
this.alBuffer = AlBuffer_StreamMe;
}
// Non-Streamed Audio
else
{
if (this.alBuffer <= AlBuffer_NotAvailable && DualityApp.Sound.IsAvailable)
{
this.alBuffer = AL.GenBuffer();
PcmData pcm = OV.LoadFromMemory(this.data);
AL.BufferData(
this.alBuffer,
pcm.channelCount == 1 ? ALFormat.Mono16 : ALFormat.Stereo16,
pcm.data.ToArray(),
(int)pcm.data.Length,
pcm.sampleRate);
}
else
{
// Buffer already there? Do nothing.
}
}
}
public void opOVI(Ice.AsyncResult result)
{
OV i = (OV)result.AsyncState;
OV o;
OV r = MyClassPrxHelper.uncheckedCast(result.getProxy()).end_opOV(out o, result);
test(Ice.CollectionComparer.Equals(i, o));
test(Ice.CollectionComparer.Equals(i, r));
callback.called();
}
void Start()
{
obj = GameObject.FindGameObjectWithTag("Elevator");
obj2 = GameObject.FindGameObjectWithTag("GameModeManager");
OST_Intro = FMODUnity.RuntimeManager.CreateInstance("event:/OST/OST_Intro");
OST_Intro.getParameter("MainGame", out MainGame);
OST_Intro.getParameter("IV", out IV);
MainGame.setValue(0);
IV.setValue(0.9f);
OST_Intro.start();
OST_2 = FMODUnity.RuntimeManager.CreateInstance("event:/OST/OST_2");
OST_2.getParameter("MainGame2", out MainGame2);
OST_2.getParameter("OV", out OV);
OST_2.getParameter("EndGame", out EndGame);
OST_2.getParameter("GameOver", out GameOver);
MainGame2.setValue(0);
EndGame.setValue(0);
GameOver.setValue(0);
OV.setValue(0.9f);
FluxEffect = FMODUnity.RuntimeManager.CreateInstance("event:/SD/FluxCarrier");
FluxEffect.getParameter("FV", out FV);
FV.setValue(0.8f);
Checkpoint = FMODUnity.RuntimeManager.CreateInstance("event:/SD/Hexagon");
Checkpoint.getParameter("HV", out HV);
Checkpoint.getParameter("HP", out HP);
HV.setValue(0.95f);
HP.setValue(0);
Jump = FMODUnity.RuntimeManager.CreateInstance("event:/SD/Jump");
Jump.getParameter("JV", out JV);
JV.setValue(0.8f);
Headroll = FMODUnity.RuntimeManager.CreateInstance("event:/SD/Headroll");
Headroll.getParameter("HRV", out HRV);
HRV.setValue(0.75f);
JumpPad = FMODUnity.RuntimeManager.CreateInstance("event:/SD/JumpPad");
JumpPad.getParameter("JPV", out JPV);
JPV.setValue(0.74f);
Atmosphere = FMODUnity.RuntimeManager.CreateInstance("event:/SD/Atmosphere");
Atmosphere.getParameter("AV", out AV);
AV.setValue(0.7f);
Atmosphere.start();
Stinger = FMODUnity.RuntimeManager.CreateInstance("event:/SD/Stinger");
Stinger.getParameter("STV", out STV);
STV.setValue(0.8f);
}
private void OnDisposed(bool manually)
{
if (manually)
{
if (this.strWorker != null && this.strWorker.IsAlive)
{
lock (this.strLock)
{
if (this.strOvStr != IntPtr.Zero)
{
OV.EndStream(ref this.strOvStr);
}
}
}
this.strWorker = null;
this.attachedTo = null;
this.curPriority = -1;
lock (this.strLock)
{
if (this.alSource > AlSource_NotAvailable)
{
this.CleanupAlSource();
DualityApp.Sound.FreeAlSource(this.alSource);
this.alSource = AlSource_NotAvailable;
}
if (this.strAlBuffers != null)
{
for (int i = 0; i < this.strAlBuffers.Length; i++)
{
if (!AL.IsBuffer(this.strAlBuffers[i]))
{
continue;
}
AL.DeleteBuffer(this.strAlBuffers[i]);
}
this.strAlBuffers = null;
}
}
}
}
public void SendReply()
{
if (!Client.Connected || Handled)
{
return;
}
Client.SendLine("HTTP/1.1 ", Result.Status);
Client.SendLine("Date: ", DateTime.UtcNow.HttpTimeString());
if (this.Data != null && Data.Length > 0)
{
if (Result.Headers.Search <string>("content-type") == null)
{
Client.SendLine("Content-Type: ", Result.MIME);
}
Client.SendLine("Content-Length: ", Data.Length.ToString());
}
else
{
Client.SendLine("Content-Length: 0");
}
Result.Headers.ForEach((K, V) => {
Client.SendLine(K, ": ", V.ToString());
});
Result.Cookies.ForEach <jsObject>((K, V) => {
Client.Send("Set-Cookie: ");
V.ForEach((OK, OV) => {
Client.Send(OK, "=", OV.ToString(), ";");
});
Client.SendLine();
});
Client.SendLine();
}
public ObjectValidation(string aiName, List <KeyValuePair <string, string> > aiData, TreeNode tn, SlaveTypes sType, int sNo)
{
string strRoutineName = "UnsolResponse";
try
{
slaveType = sType;
slaveNo = sNo;
try
{
ainType = (OV)Enum.Parse(typeof(OV), aiName);
}
catch (System.ArgumentException)
{
}
if (aiData != null && aiData.Count > 0) //Parse n store values...
{
foreach (KeyValuePair <string, string> aikp in aiData)
{
try
{
if (this.GetType().GetProperty(aikp.Key) != null) //Ajay: 03/07/2018
{
this.GetType().GetProperty(aikp.Key).SetValue(this, aikp.Value);
}
}
catch (System.NullReferenceException)
{
}
}
}
}
catch (Exception ex)
{
MessageBox.Show(strRoutineName + ": " + "Error: " + ex.Message.ToString(), Application.ProductName, MessageBoxButtons.OK, MessageBoxIcon.Error);
}
}
public ObjectValidation(XmlNode aiNode, SlaveTypes sType, int sNo, bool imported)
{
string strRoutineName = "UnsolResponse";
try
{
slaveType = sType;
slaveNo = sNo;
if (aiNode.Attributes != null)
{
try
{
ainType = (OV)Enum.Parse(typeof(OV), aiNode.Name);
}
catch (System.ArgumentException)
{
}
foreach (XmlAttribute item in aiNode.Attributes)
{
try
{
if (this.GetType().GetProperty(item.Name) != null) //Ajay: 03/07/2018
{
this.GetType().GetProperty(item.Name).SetValue(this, item.Value);
}
}
catch (System.NullReferenceException)
{
}
}
}
}
catch (Exception Ex)
{
MessageBox.Show(strRoutineName + ": " + "Error: " + Ex.Message.ToString(), Application.ProductName, MessageBoxButtons.OK, MessageBoxIcon.Error);
}
}
public override OV opOV(OV i, out OV o, Ice.Current current)
{
o = i;
return(i);
}
internal static void twowaysAMI(Ice.Communicator communicator, Test.MyClassPrx p)
{
{
Dictionary <int, int> i = new Dictionary <int, int>();
i[0] = 1;
i[1] = 0;
AMI_MyClass_opNVI cb = new AMI_MyClass_opNVI(i);
p.opNV_async(cb, i);
cb.check();
}
{
Dictionary <string, string> i = new Dictionary <string, string>();
i["a"] = "b";
i["b"] = "a";
AMI_MyClass_opNRI cb = new AMI_MyClass_opNRI(i);
p.opNR_async(cb, i);
cb.check();
}
{
Dictionary <string, Dictionary <int, int> > i = new Dictionary <string, Dictionary <int, int> >();
Dictionary <int, int> id = new Dictionary <int, int>();
id[0] = 1;
id[1] = 0;
i["a"] = id;
i["b"] = id;
AMI_MyClass_opNDVI cb = new AMI_MyClass_opNDVI(i);
p.opNDV_async(cb, i);
cb.check();
}
{
Dictionary <string, Dictionary <string, string> > i = new Dictionary <string, Dictionary <string, string> >();
Dictionary <string, string> id = new Dictionary <string, string>();
id["a"] = "b";
id["b"] = "a";
i["a"] = id;
i["b"] = id;
AMI_MyClass_opNDRI cb = new AMI_MyClass_opNDRI(i);
p.opNDR_async(cb, i);
cb.check();
}
{
OV i = new OV();
i[0] = 1;
i[1] = 0;
AMI_MyClass_opOVI cb = new AMI_MyClass_opOVI(i);
p.opOV_async(cb, i);
cb.check();
}
{
OR i = new OR();
i["a"] = "b";
i["b"] = "a";
AMI_MyClass_opORI cb = new AMI_MyClass_opORI(i);
p.opOR_async(cb, i);
cb.check();
}
{
ODV i = new ODV();
OV id = new OV();
id[0] = 1;
id[1] = 0;
i["a"] = id;
i["b"] = id;
AMI_MyClass_opODVI cb = new AMI_MyClass_opODVI(i);
p.opODV_async(cb, i);
cb.check();
}
{
ODR i = new ODR();
OR id = new OR();
id["a"] = "b";
id["b"] = "a";
i["a"] = id;
i["b"] = id;
AMI_MyClass_opODRI cb = new AMI_MyClass_opODRI(i);
p.opODR_async(cb, i);
cb.check();
}
{
Dictionary <string, ODV> i = new Dictionary <string, ODV>();
OV iid = new OV();
iid[0] = 1;
iid[1] = 0;
ODV id = new ODV();
id["a"] = iid;
id["b"] = iid;
i["a"] = id;
i["b"] = id;
AMI_MyClass_opNODVI cb = new AMI_MyClass_opNODVI(i);
p.opNODV_async(cb, i);
cb.check();
}
{
Dictionary <string, ODR> i = new Dictionary <string, ODR>();
OR iid = new OR();
iid["a"] = "b";
iid["b"] = "a";
ODR id = new ODR();
id["a"] = iid;
id["b"] = iid;
i["a"] = id;
i["b"] = id;
AMI_MyClass_opNODRI cb = new AMI_MyClass_opNODRI(i);
p.opNODR_async(cb, i);
cb.check();
}
{
ONDV i = new ONDV();
Dictionary <int, int> iid = new Dictionary <int, int>();
iid[0] = 1;
iid[1] = 0;
Dictionary <string, Dictionary <int, int> > id
= new Dictionary <string, Dictionary <int, int> >();
id["a"] = iid;
id["b"] = iid;
i["a"] = id;
i["b"] = id;
AMI_MyClass_opONDVI cb = new AMI_MyClass_opONDVI(i);
p.opONDV_async(cb, i);
cb.check();
}
{
ONDR i = new ONDR();
Dictionary <string, string> iid = new Dictionary <string, string>();
iid["a"] = "b";
iid["b"] = "a";
Dictionary <string, Dictionary <string, string> > id
= new Dictionary <string, Dictionary <string, string> >();
id["a"] = iid;
id["b"] = iid;
i["a"] = id;
i["b"] = id;
AMI_MyClass_opONDRI cb = new AMI_MyClass_opONDRI(i);
p.opONDR_async(cb, i);
cb.check();
}
{
int[] ii = new int[] { 1, 2 };
Dictionary <string, int[]> i = new Dictionary <string, int[]>();
i["a"] = ii;
i["b"] = ii;
AMI_MyClass_opNDAISI cb = new AMI_MyClass_opNDAISI(i);
p.opNDAIS_async(cb, i);
cb.check();
}
{
CIS ii = new CIS();
ii.Add(1);
ii.Add(2);
Dictionary <string, CIS> i = new Dictionary <string, CIS>();
i["a"] = ii;
i["b"] = ii;
AMI_MyClass_opNDCISI cb = new AMI_MyClass_opNDCISI(i);
p.opNDCIS_async(cb, i);
cb.check();
}
{
List <int> ii = new List <int>();
ii.Add(1);
ii.Add(2);
Dictionary <string, List <int> > i = new Dictionary <string, List <int> >();
i["a"] = ii;
i["b"] = ii;
AMI_MyClass_opNDGISI cb = new AMI_MyClass_opNDGISI(i);
p.opNDGIS_async(cb, i);
cb.check();
}
{
string[] ii = new string[] { "a", "b" };
Dictionary <string, string[]> i = new Dictionary <string, string[]>();
i["a"] = ii;
i["b"] = ii;
AMI_MyClass_opNDASSI cb = new AMI_MyClass_opNDASSI(i);
p.opNDASS_async(cb, i);
cb.check();
}
{
CSS ii = new CSS();
ii.Add("a");
ii.Add("b");
Dictionary <string, CSS> i = new Dictionary <string, CSS>();
i["a"] = ii;
i["b"] = ii;
AMI_MyClass_opNDCSSI cb = new AMI_MyClass_opNDCSSI(i);
p.opNDCSS_async(cb, i);
cb.check();
}
{
List <string> ii = new List <string>();
ii.Add("a");
ii.Add("b");
Dictionary <string, List <string> > i = new Dictionary <string, List <string> >();
i["a"] = ii;
i["b"] = ii;
AMI_MyClass_opNDGSSI cb = new AMI_MyClass_opNDGSSI(i);
p.opNDGSS_async(cb, i);
cb.check();
}
{
int[] ii = new int[] { 1, 2 };
ODAIS i = new ODAIS();
i["a"] = ii;
i["b"] = ii;
AMI_MyClass_opODAISI cb = new AMI_MyClass_opODAISI(i);
p.opODAIS_async(cb, i);
cb.check();
}
{
CIS ii = new CIS();
ii.Add(1);
ii.Add(2);
ODCIS i = new ODCIS();
i["a"] = ii;
i["b"] = ii;
AMI_MyClass_opODCISI cb = new AMI_MyClass_opODCISI(i);
p.opODCIS_async(cb, i);
cb.check();
}
{
List <int> ii = new List <int>();
ii.Add(1);
ii.Add(2);
ODGIS i = new ODGIS();
i["a"] = ii;
i["b"] = ii;
AMI_MyClass_opODGISI cb = new AMI_MyClass_opODGISI(i);
p.opODGIS_async(cb, i);
cb.check();
}
{
string[] ii = new string[] { "a", "b" };
ODASS i = new ODASS();
i["a"] = ii;
i["b"] = ii;
AMI_MyClass_opODASSI cb = new AMI_MyClass_opODASSI(i);
p.opODASS_async(cb, i);
cb.check();
}
{
CSS ii = new CSS();
ii.Add("a");
ii.Add("b");
ODCSS i = new ODCSS();
i["a"] = ii;
i["b"] = ii;
AMI_MyClass_opODCSSI cb = new AMI_MyClass_opODCSSI(i);
p.opODCSS_async(cb, i);
cb.check();
}
{
List <string> ii = new List <string>();
ii.Add("a");
ii.Add("b");
ODGSS i = new ODGSS();
i["a"] = ii;
i["b"] = ii;
AMI_MyClass_opODGSSI cb = new AMI_MyClass_opODGSSI(i);
p.opODGSS_async(cb, i);
cb.check();
}
}
public override void ice_response(OV r, OV o)
{
test(Ice.CollectionComparer.Equals(_i, o));
test(Ice.CollectionComparer.Equals(_i, r));
callback.called();
}
public AMI_MyClass_opOVI(OV i)
{
_i = i;
}
internal static void twowaysAMI(Ice.Communicator communicator, Test.MyClassPrx p)
{
{
Dictionary<int, int> i = new Dictionary<int, int>();
i[0] = 1;
i[1] = 0;
AMI_MyClass_opNVI cb = new AMI_MyClass_opNVI(i);
p.opNV_async(cb, i);
cb.check();
}
{
Dictionary<string, string> i = new Dictionary<string, string>();
i["a"] = "b";
i["b"] = "a";
AMI_MyClass_opNRI cb = new AMI_MyClass_opNRI(i);
p.opNR_async(cb, i);
cb.check();
}
{
Dictionary<string, Dictionary<int, int>> i = new Dictionary<string, Dictionary<int, int>>();
Dictionary<int, int> id = new Dictionary<int, int>();
id[0] = 1;
id[1] = 0;
i["a"] = id;
i["b"] = id;
AMI_MyClass_opNDVI cb = new AMI_MyClass_opNDVI(i);
p.opNDV_async(cb, i);
cb.check();
}
{
Dictionary<string, Dictionary<string, string>> i = new Dictionary<string, Dictionary<string, string>>();
Dictionary<string, string> id = new Dictionary<string, string>();
id["a"] = "b";
id["b"] = "a";
i["a"] = id;
i["b"] = id;
AMI_MyClass_opNDRI cb = new AMI_MyClass_opNDRI(i);
p.opNDR_async(cb, i);
cb.check();
}
{
OV i = new OV();
i[0] = 1;
i[1] = 0;
AMI_MyClass_opOVI cb = new AMI_MyClass_opOVI(i);
p.opOV_async(cb, i);
cb.check();
}
{
OR i = new OR();
i["a"] = "b";
i["b"] = "a";
AMI_MyClass_opORI cb = new AMI_MyClass_opORI(i);
p.opOR_async(cb, i);
cb.check();
}
{
ODV i = new ODV();
OV id = new OV();
id[0] = 1;
id[1] = 0;
i["a"] = id;
i["b"] = id;
AMI_MyClass_opODVI cb = new AMI_MyClass_opODVI(i);
p.opODV_async(cb, i);
cb.check();
}
{
ODR i = new ODR();
OR id = new OR();
id["a"] = "b";
id["b"] = "a";
i["a"] = id;
i["b"] = id;
AMI_MyClass_opODRI cb = new AMI_MyClass_opODRI(i);
p.opODR_async(cb, i);
cb.check();
}
{
Dictionary<string, ODV> i = new Dictionary<string, ODV>();
OV iid = new OV();
iid[0] = 1;
iid[1] = 0;
ODV id = new ODV();
id["a"] = iid;
id["b"] = iid;
i["a"] = id;
i["b"] = id;
AMI_MyClass_opNODVI cb = new AMI_MyClass_opNODVI(i);
p.opNODV_async(cb, i);
cb.check();
}
{
Dictionary<string, ODR> i = new Dictionary<string, ODR>();
OR iid = new OR();
iid["a"] = "b";
iid["b"] = "a";
ODR id = new ODR();
id["a"] = iid;
id["b"] = iid;
i["a"] = id;
i["b"] = id;
AMI_MyClass_opNODRI cb = new AMI_MyClass_opNODRI(i);
p.opNODR_async(cb, i);
cb.check();
}
{
ONDV i = new ONDV();
Dictionary<int, int> iid = new Dictionary<int, int>();
iid[0] = 1;
iid[1] = 0;
Dictionary<string, Dictionary<int, int>> id
= new Dictionary<string, Dictionary<int, int>>();
id["a"] = iid;
id["b"] = iid;
i["a"] = id;
i["b"] = id;
AMI_MyClass_opONDVI cb = new AMI_MyClass_opONDVI(i);
p.opONDV_async(cb, i);
cb.check();
}
{
ONDR i = new ONDR();
Dictionary<string, string> iid = new Dictionary<string, string>();
iid["a"] = "b";
iid["b"] = "a";
Dictionary<string, Dictionary<string, string>> id
= new Dictionary<string, Dictionary<string, string>>();
id["a"] = iid;
id["b"] = iid;
i["a"] = id;
i["b"] = id;
AMI_MyClass_opONDRI cb = new AMI_MyClass_opONDRI(i);
p.opONDR_async(cb, i);
cb.check();
}
{
int[] ii = new int[] { 1, 2 };
Dictionary<string, int[]> i = new Dictionary<string, int[]>();
i["a"] = ii;
i["b"] = ii;
AMI_MyClass_opNDAISI cb = new AMI_MyClass_opNDAISI(i);
p.opNDAIS_async(cb, i);
cb.check();
}
{
CIS ii = new CIS();
ii.Add(1);
ii.Add(2);
Dictionary<string, CIS> i = new Dictionary<string, CIS>();
i["a"] = ii;
i["b"] = ii;
AMI_MyClass_opNDCISI cb = new AMI_MyClass_opNDCISI(i);
p.opNDCIS_async(cb, i);
cb.check();
}
{
List<int> ii = new List<int>();
ii.Add(1);
ii.Add(2);
Dictionary<string, List<int>> i = new Dictionary<string, List<int>>();
i["a"] = ii;
i["b"] = ii;
AMI_MyClass_opNDGISI cb = new AMI_MyClass_opNDGISI(i);
p.opNDGIS_async(cb, i);
cb.check();
}
{
string[] ii = new string[] { "a", "b" };
Dictionary<string, string[]> i = new Dictionary<string, string[]>();
i["a"] = ii;
i["b"] = ii;
AMI_MyClass_opNDASSI cb = new AMI_MyClass_opNDASSI(i);
p.opNDASS_async(cb, i);
cb.check();
}
{
CSS ii = new CSS();
ii.Add("a");
ii.Add("b");
Dictionary<string, CSS> i = new Dictionary<string, CSS>();
i["a"] = ii;
i["b"] = ii;
AMI_MyClass_opNDCSSI cb = new AMI_MyClass_opNDCSSI(i);
p.opNDCSS_async(cb, i);
cb.check();
}
{
List<string> ii = new List<string>();
ii.Add("a");
ii.Add("b");
Dictionary<string, List<string>> i = new Dictionary<string, List<string>>();
i["a"] = ii;
i["b"] = ii;
AMI_MyClass_opNDGSSI cb = new AMI_MyClass_opNDGSSI(i);
p.opNDGSS_async(cb, i);
cb.check();
}
{
int[] ii = new int[] { 1, 2 };
ODAIS i = new ODAIS();
i["a"] = ii;
i["b"] = ii;
AMI_MyClass_opODAISI cb = new AMI_MyClass_opODAISI(i);
p.opODAIS_async(cb, i);
cb.check();
}
{
CIS ii = new CIS();
ii.Add(1);
ii.Add(2);
ODCIS i = new ODCIS();
i["a"] = ii;
i["b"] = ii;
AMI_MyClass_opODCISI cb = new AMI_MyClass_opODCISI(i);
p.opODCIS_async(cb, i);
cb.check();
}
{
List<int> ii = new List<int>();
ii.Add(1);
ii.Add(2);
ODGIS i = new ODGIS();
i["a"] = ii;
i["b"] = ii;
AMI_MyClass_opODGISI cb = new AMI_MyClass_opODGISI(i);
p.opODGIS_async(cb, i);
cb.check();
}
{
string[] ii = new string[] { "a", "b" };
ODASS i = new ODASS();
i["a"] = ii;
i["b"] = ii;
AMI_MyClass_opODASSI cb = new AMI_MyClass_opODASSI(i);
p.opODASS_async(cb, i);
cb.check();
}
{
CSS ii = new CSS();
ii.Add("a");
ii.Add("b");
ODCSS i = new ODCSS();
i["a"] = ii;
i["b"] = ii;
AMI_MyClass_opODCSSI cb = new AMI_MyClass_opODCSSI(i);
p.opODCSS_async(cb, i);
cb.check();
}
{
List<string> ii = new List<string>();
ii.Add("a");
ii.Add("b");
ODGSS i = new ODGSS();
i["a"] = ii;
i["b"] = ii;
AMI_MyClass_opODGSSI cb = new AMI_MyClass_opODGSSI(i);
p.opODGSS_async(cb, i);
cb.check();
}
}
public override void ice_response(OV r, OV o)
{
test(Ice.CollectionComparer.Equals(_i, o));
test(Ice.CollectionComparer.Equals(_i, r));
callback.called();
}
public AMI_MyClass_opOVI(OV i)
{
_i = i;
}
public override OV opOV(OV i, out OV o, Ice.Current current)
{
o = i;
return i;
}
internal static void twoways(Ice.Communicator communicator, Test.MyClassPrx p)
{
{
Dictionary<int, int> i = new Dictionary<int, int>();
i[0] = 1;
i[1] = 0;
Dictionary<int, int> o;
Dictionary<int, int> r;
r = p.opNV(i, out o);
test(Ice.CollectionComparer.Equals(i, o));
test(Ice.CollectionComparer.Equals(i, r));
}
{
Dictionary<string, string> i = new Dictionary<string, string>();
i["a"] = "b";
i["b"] = "a";
Dictionary<string, string> o;
Dictionary<string, string> r;
r = p.opNR(i, out o);
test(Ice.CollectionComparer.Equals(i, o));
test(Ice.CollectionComparer.Equals(i, r));
}
{
Dictionary<string, Dictionary<int, int>> i = new Dictionary<string, Dictionary<int, int>>();
Dictionary<int, int> id = new Dictionary<int, int>();
id[0] = 1;
id[1] = 0;
i["a"] = id;
i["b"] = id;
Dictionary<string, Dictionary<int, int>> o;
Dictionary<string, Dictionary<int, int>> r;
r = p.opNDV(i, out o);
foreach(string key in i.Keys)
{
test(Ice.CollectionComparer.Equals(i[key], o[key]));
test(Ice.CollectionComparer.Equals(i[key], r[key]));
}
}
{
Dictionary<string, Dictionary<string, string>> i = new Dictionary<string, Dictionary<string, string>>();
Dictionary<string, string> id = new Dictionary<string, string>();
id["a"] = "b";
id["b"] = "a";
i["a"] = id;
i["b"] = id;
Dictionary<string, Dictionary<string, string>> o;
Dictionary<string, Dictionary<string, string>> r;
r = p.opNDR(i, out o);
foreach(string key in i.Keys)
{
test(Ice.CollectionComparer.Equals(i[key], o[key]));
test(Ice.CollectionComparer.Equals(i[key], r[key]));
}
}
{
OV i = new OV();
i[0] = 1;
i[1] = 0;
OV o;
OV r;
r = p.opOV(i, out o);
test(OV.Equals(i, o));
test(OV.Equals(i, r));
}
{
OR i = new OR();
i["a"] = "b";
i["b"] = "a";
OR o;
OR r;
r = p.opOR(i, out o);
test(OR.Equals(i, o));
test(OR.Equals(i, r));
}
{
ODV i = new ODV();
OV id = new OV();
id[0] = 1;
id[1] = 0;
i["a"] = id;
i["b"] = id;
ODV o;
ODV r;
r = p.opODV(i, out o);
test(ODV.Equals(i, o));
test(ODV.Equals(i, r));
}
{
ODR i = new ODR();
OR id = new OR();
id["a"] = "b";
id["b"] = "a";
i["a"] = id;
i["b"] = id;
ODR o;
ODR r;
r = p.opODR(i, out o);
test(ODR.Equals(i, o));
test(ODR.Equals(i, r));
}
{
Dictionary<string, ODV> i = new Dictionary<string, ODV>();
OV iid = new OV();
iid[0] = 1;
iid[1] = 0;
ODV id = new ODV();
id["a"] = iid;
id["b"] = iid;
i["a"] = id;
i["b"] = id;
Dictionary<string, ODV> o;
Dictionary<string, ODV> r;
r = p.opNODV(i, out o);
test(Ice.CollectionComparer.Equals(i, o));
test(Ice.CollectionComparer.Equals(i, r));
}
{
Dictionary<string, ODR> i = new Dictionary<string, ODR>();
OR iid = new OR();
iid["a"] = "b";
iid["a"] = "b";
ODR id = new ODR();
id["a"] = iid;
id["b"] = iid;
i["a"] = id;
i["b"] = id;
Dictionary<string, ODR> o;
Dictionary<string, ODR> r;
r = p.opNODR(i, out o);
test(Ice.CollectionComparer.Equals(i, o));
test(Ice.CollectionComparer.Equals(i, r));
}
{
ONDV i = new ONDV();
Dictionary<int, int> iid = new Dictionary<int, int>();
iid[0] = 1;
iid[1] = 0;
Dictionary<string, Dictionary<int, int>> id
= new Dictionary<string, Dictionary<int, int>>();
id["a"] = iid;
id["b"] = iid;
i["a"] = id;
i["b"] = id;
ONDV o;
ONDV r;
r = p.opONDV(i, out o);
foreach(string key in i.Keys)
{
foreach(string s in i[key].Keys)
{
test(Ice.CollectionComparer.Equals(i[key][s], o[key][s]));
test(Ice.CollectionComparer.Equals(i[key][s], r[key][s]));
}
}
}
{
ONDR i = new ONDR();
Dictionary<string, string> iid = new Dictionary<string, string>();
iid["a"] = "b";
iid["b"] = "a";
Dictionary<string, Dictionary<string, string>> id
= new Dictionary<string, Dictionary<string, string>>();
id["a"] = iid;
id["b"] = iid;
i["a"] = id;
i["b"] = id;
ONDR o;
ONDR r;
r = p.opONDR(i, out o);
foreach(string key in i.Keys)
{
foreach(string s in i[key].Keys)
{
test(Ice.CollectionComparer.Equals(i[key][s], o[key][s]));
test(Ice.CollectionComparer.Equals(i[key][s], r[key][s]));
}
}
}
{
int[] ii = new int[] { 1, 2 };
Dictionary<string, int[]> i = new Dictionary<string, int[]>();
i["a"] = ii;
i["b"] = ii;
Dictionary<string, int[]> o;
Dictionary<string, int[]> r;
r = p.opNDAIS(i, out o);
foreach(string key in i.Keys)
{
test(Ice.CollectionComparer.Equals(i[key], o[key]));
test(Ice.CollectionComparer.Equals(i[key], r[key]));
}
}
{
CIS ii = new CIS();
ii.Add(1);
ii.Add(2);
Dictionary<string, CIS> i = new Dictionary<string, CIS>();
i["a"] = ii;
i["b"] = ii;
Dictionary<string, CIS> o;
Dictionary<string, CIS> r;
r = p.opNDCIS(i, out o);
test(Ice.CollectionComparer.Equals(i, o));
test(Ice.CollectionComparer.Equals(i, r));
}
{
List<int> ii = new List<int>();
ii.Add(1);
ii.Add(2);
Dictionary<string, List<int>> i = new Dictionary<string, List<int>>();
i["a"] = ii;
i["b"] = ii;
Dictionary<string, List<int>> o;
Dictionary<string, List<int>> r;
r = p.opNDGIS(i, out o);
foreach(string key in i.Keys)
{
test(Ice.CollectionComparer.Equals(i[key], o[key]));
test(Ice.CollectionComparer.Equals(i[key], r[key]));
}
}
{
string[] ii = new string[] { "a", "b" };
Dictionary<string, string[]> i = new Dictionary<string, string[]>();
i["a"] = ii;
i["b"] = ii;
Dictionary<string, string[]> o;
Dictionary<string, string[]> r;
r = p.opNDASS(i, out o);
foreach(string key in i.Keys)
{
test(Ice.CollectionComparer.Equals(i[key], o[key]));
test(Ice.CollectionComparer.Equals(i[key], r[key]));
}
}
{
CSS ii = new CSS();
ii.Add("a");
ii.Add("b");
Dictionary<string, CSS> i = new Dictionary<string, CSS>();
i["a"] = ii;
i["b"] = ii;
Dictionary<string, CSS> o;
Dictionary<string, CSS> r;
r = p.opNDCSS(i, out o);
test(Ice.CollectionComparer.Equals(i, o));
test(Ice.CollectionComparer.Equals(i, r));
}
{
List<string> ii = new List<string>();
ii.Add("a");
ii.Add("b");
Dictionary<string, List<string>> i = new Dictionary<string, List<string>>();
i["a"] = ii;
i["b"] = ii;
Dictionary<string, List<string>> o;
Dictionary<string, List<string>> r;
r = p.opNDGSS(i, out o);
foreach(string key in i.Keys)
{
test(Ice.CollectionComparer.Equals(i[key], o[key]));
test(Ice.CollectionComparer.Equals(i[key], r[key]));
}
}
{
int[] ii = new int[] { 1, 2 };
ODAIS i = new ODAIS();
i["a"] = ii;
i["b"] = ii;
ODAIS o;
ODAIS r;
r = p.opODAIS(i, out o);
foreach(string key in i.Keys)
{
test(Ice.CollectionComparer.Equals(i[key], o[key]));
test(Ice.CollectionComparer.Equals(i[key], r[key]));
}
}
{
CIS ii = new CIS();
ii.Add(1);
ii.Add(2);
ODCIS i = new ODCIS();
i["a"] = ii;
i["b"] = ii;
ODCIS o;
ODCIS r;
r = p.opODCIS(i, out o);
foreach(string key in i.Keys)
{
test(Ice.CollectionComparer.Equals(i[key], o[key]));
test(Ice.CollectionComparer.Equals(i[key], r[key]));
}
}
{
List<int> ii = new List<int>();
ii.Add(1);
ii.Add(2);
ODGIS i = new ODGIS();
i["a"] = ii;
i["b"] = ii;
ODGIS o;
ODGIS r;
r = p.opODGIS(i, out o);
foreach(string key in i.Keys)
{
test(Ice.CollectionComparer.Equals(i[key], o[key]));
test(Ice.CollectionComparer.Equals(i[key], r[key]));
}
}
{
string[] ii = new string[] { "a", "b" };
ODASS i = new ODASS();
i["a"] = ii;
i["b"] = ii;
ODASS o;
ODASS r;
r = p.opODASS(i, out o);
foreach(string key in i.Keys)
{
test(Ice.CollectionComparer.Equals(i[key], o[key]));
test(Ice.CollectionComparer.Equals(i[key], r[key]));
}
}
{
CSS ii = new CSS();
ii.Add("a");
ii.Add("b");
ODCSS i = new ODCSS();
i["a"] = ii;
i["b"] = ii;
ODCSS o;
ODCSS r;
r = p.opODCSS(i, out o);
foreach(string key in i.Keys)
{
test(Ice.CollectionComparer.Equals(i[key], o[key]));
test(Ice.CollectionComparer.Equals(i[key], r[key]));
}
}
{
List<string> ii = new List<string>();
ii.Add("a");
ii.Add("b");
ODGSS i = new ODGSS();
i["a"] = ii;
i["b"] = ii;
ODGSS o;
ODGSS r;
r = p.opODGSS(i, out o);
foreach(string key in i.Keys)
{
test(Ice.CollectionComparer.Equals(i[key], o[key]));
test(Ice.CollectionComparer.Equals(i[key], r[key]));
}
}
}
internal static void twoways(Ice.Communicator communicator, Test.MyClassPrx p)
{
{
Dictionary <int, int> i = new Dictionary <int, int>();
i[0] = 1;
i[1] = 0;
Dictionary <int, int> o;
Dictionary <int, int> r;
r = p.opNV(i, out o);
test(Ice.CollectionComparer.Equals(i, o));
test(Ice.CollectionComparer.Equals(i, r));
}
{
Dictionary <string, string> i = new Dictionary <string, string>();
i["a"] = "b";
i["b"] = "a";
Dictionary <string, string> o;
Dictionary <string, string> r;
r = p.opNR(i, out o);
test(Ice.CollectionComparer.Equals(i, o));
test(Ice.CollectionComparer.Equals(i, r));
}
{
Dictionary <string, Dictionary <int, int> > i = new Dictionary <string, Dictionary <int, int> >();
Dictionary <int, int> id = new Dictionary <int, int>();
id[0] = 1;
id[1] = 0;
i["a"] = id;
i["b"] = id;
Dictionary <string, Dictionary <int, int> > o;
Dictionary <string, Dictionary <int, int> > r;
r = p.opNDV(i, out o);
foreach (string key in i.Keys)
{
test(Ice.CollectionComparer.Equals(i[key], o[key]));
test(Ice.CollectionComparer.Equals(i[key], r[key]));
}
}
{
Dictionary <string, Dictionary <string, string> > i = new Dictionary <string, Dictionary <string, string> >();
Dictionary <string, string> id = new Dictionary <string, string>();
id["a"] = "b";
id["b"] = "a";
i["a"] = id;
i["b"] = id;
Dictionary <string, Dictionary <string, string> > o;
Dictionary <string, Dictionary <string, string> > r;
r = p.opNDR(i, out o);
foreach (string key in i.Keys)
{
test(Ice.CollectionComparer.Equals(i[key], o[key]));
test(Ice.CollectionComparer.Equals(i[key], r[key]));
}
}
{
OV i = new OV();
i[0] = 1;
i[1] = 0;
OV o;
OV r;
r = p.opOV(i, out o);
test(OV.Equals(i, o));
test(OV.Equals(i, r));
}
{
OR i = new OR();
i["a"] = "b";
i["b"] = "a";
OR o;
OR r;
r = p.opOR(i, out o);
test(OR.Equals(i, o));
test(OR.Equals(i, r));
}
{
ODV i = new ODV();
OV id = new OV();
id[0] = 1;
id[1] = 0;
i["a"] = id;
i["b"] = id;
ODV o;
ODV r;
r = p.opODV(i, out o);
test(ODV.Equals(i, o));
test(ODV.Equals(i, r));
}
{
ODR i = new ODR();
OR id = new OR();
id["a"] = "b";
id["b"] = "a";
i["a"] = id;
i["b"] = id;
ODR o;
ODR r;
r = p.opODR(i, out o);
test(ODR.Equals(i, o));
test(ODR.Equals(i, r));
}
{
Dictionary <string, ODV> i = new Dictionary <string, ODV>();
OV iid = new OV();
iid[0] = 1;
iid[1] = 0;
ODV id = new ODV();
id["a"] = iid;
id["b"] = iid;
i["a"] = id;
i["b"] = id;
Dictionary <string, ODV> o;
Dictionary <string, ODV> r;
r = p.opNODV(i, out o);
test(Ice.CollectionComparer.Equals(i, o));
test(Ice.CollectionComparer.Equals(i, r));
}
{
Dictionary <string, ODR> i = new Dictionary <string, ODR>();
OR iid = new OR();
iid["a"] = "b";
iid["a"] = "b";
ODR id = new ODR();
id["a"] = iid;
id["b"] = iid;
i["a"] = id;
i["b"] = id;
Dictionary <string, ODR> o;
Dictionary <string, ODR> r;
r = p.opNODR(i, out o);
test(Ice.CollectionComparer.Equals(i, o));
test(Ice.CollectionComparer.Equals(i, r));
}
{
ONDV i = new ONDV();
Dictionary <int, int> iid = new Dictionary <int, int>();
iid[0] = 1;
iid[1] = 0;
Dictionary <string, Dictionary <int, int> > id
= new Dictionary <string, Dictionary <int, int> >();
id["a"] = iid;
id["b"] = iid;
i["a"] = id;
i["b"] = id;
ONDV o;
ONDV r;
r = p.opONDV(i, out o);
foreach (string key in i.Keys)
{
foreach (string s in i[key].Keys)
{
test(Ice.CollectionComparer.Equals(i[key][s], o[key][s]));
test(Ice.CollectionComparer.Equals(i[key][s], r[key][s]));
}
}
}
{
ONDR i = new ONDR();
Dictionary <string, string> iid = new Dictionary <string, string>();
iid["a"] = "b";
iid["b"] = "a";
Dictionary <string, Dictionary <string, string> > id
= new Dictionary <string, Dictionary <string, string> >();
id["a"] = iid;
id["b"] = iid;
i["a"] = id;
i["b"] = id;
ONDR o;
ONDR r;
r = p.opONDR(i, out o);
foreach (string key in i.Keys)
{
foreach (string s in i[key].Keys)
{
test(Ice.CollectionComparer.Equals(i[key][s], o[key][s]));
test(Ice.CollectionComparer.Equals(i[key][s], r[key][s]));
}
}
}
{
int[] ii = new int[] { 1, 2 };
Dictionary <string, int[]> i = new Dictionary <string, int[]>();
i["a"] = ii;
i["b"] = ii;
Dictionary <string, int[]> o;
Dictionary <string, int[]> r;
r = p.opNDAIS(i, out o);
foreach (string key in i.Keys)
{
test(Ice.CollectionComparer.Equals(i[key], o[key]));
test(Ice.CollectionComparer.Equals(i[key], r[key]));
}
}
{
CIS ii = new CIS();
ii.Add(1);
ii.Add(2);
Dictionary <string, CIS> i = new Dictionary <string, CIS>();
i["a"] = ii;
i["b"] = ii;
Dictionary <string, CIS> o;
Dictionary <string, CIS> r;
r = p.opNDCIS(i, out o);
test(Ice.CollectionComparer.Equals(i, o));
test(Ice.CollectionComparer.Equals(i, r));
}
{
List <int> ii = new List <int>();
ii.Add(1);
ii.Add(2);
Dictionary <string, List <int> > i = new Dictionary <string, List <int> >();
i["a"] = ii;
i["b"] = ii;
Dictionary <string, List <int> > o;
Dictionary <string, List <int> > r;
r = p.opNDGIS(i, out o);
foreach (string key in i.Keys)
{
test(Ice.CollectionComparer.Equals(i[key], o[key]));
test(Ice.CollectionComparer.Equals(i[key], r[key]));
}
}
{
string[] ii = new string[] { "a", "b" };
Dictionary <string, string[]> i = new Dictionary <string, string[]>();
i["a"] = ii;
i["b"] = ii;
Dictionary <string, string[]> o;
Dictionary <string, string[]> r;
r = p.opNDASS(i, out o);
foreach (string key in i.Keys)
{
test(Ice.CollectionComparer.Equals(i[key], o[key]));
test(Ice.CollectionComparer.Equals(i[key], r[key]));
}
}
{
CSS ii = new CSS();
ii.Add("a");
ii.Add("b");
Dictionary <string, CSS> i = new Dictionary <string, CSS>();
i["a"] = ii;
i["b"] = ii;
Dictionary <string, CSS> o;
Dictionary <string, CSS> r;
r = p.opNDCSS(i, out o);
test(Ice.CollectionComparer.Equals(i, o));
test(Ice.CollectionComparer.Equals(i, r));
}
{
List <string> ii = new List <string>();
ii.Add("a");
ii.Add("b");
Dictionary <string, List <string> > i = new Dictionary <string, List <string> >();
i["a"] = ii;
i["b"] = ii;
Dictionary <string, List <string> > o;
Dictionary <string, List <string> > r;
r = p.opNDGSS(i, out o);
foreach (string key in i.Keys)
{
test(Ice.CollectionComparer.Equals(i[key], o[key]));
test(Ice.CollectionComparer.Equals(i[key], r[key]));
}
}
{
int[] ii = new int[] { 1, 2 };
ODAIS i = new ODAIS();
i["a"] = ii;
i["b"] = ii;
ODAIS o;
ODAIS r;
r = p.opODAIS(i, out o);
foreach (string key in i.Keys)
{
test(Ice.CollectionComparer.Equals(i[key], o[key]));
test(Ice.CollectionComparer.Equals(i[key], r[key]));
}
}
{
CIS ii = new CIS();
ii.Add(1);
ii.Add(2);
ODCIS i = new ODCIS();
i["a"] = ii;
i["b"] = ii;
ODCIS o;
ODCIS r;
r = p.opODCIS(i, out o);
foreach (string key in i.Keys)
{
test(Ice.CollectionComparer.Equals(i[key], o[key]));
test(Ice.CollectionComparer.Equals(i[key], r[key]));
}
}
{
List <int> ii = new List <int>();
ii.Add(1);
ii.Add(2);
ODGIS i = new ODGIS();
i["a"] = ii;
i["b"] = ii;
ODGIS o;
ODGIS r;
r = p.opODGIS(i, out o);
foreach (string key in i.Keys)
{
test(Ice.CollectionComparer.Equals(i[key], o[key]));
test(Ice.CollectionComparer.Equals(i[key], r[key]));
}
}
{
string[] ii = new string[] { "a", "b" };
ODASS i = new ODASS();
i["a"] = ii;
i["b"] = ii;
ODASS o;
ODASS r;
r = p.opODASS(i, out o);
foreach (string key in i.Keys)
{
test(Ice.CollectionComparer.Equals(i[key], o[key]));
test(Ice.CollectionComparer.Equals(i[key], r[key]));
}
}
{
CSS ii = new CSS();
ii.Add("a");
ii.Add("b");
ODCSS i = new ODCSS();
i["a"] = ii;
i["b"] = ii;
ODCSS o;
ODCSS r;
r = p.opODCSS(i, out o);
foreach (string key in i.Keys)
{
test(Ice.CollectionComparer.Equals(i[key], o[key]));
test(Ice.CollectionComparer.Equals(i[key], r[key]));
}
}
{
List <string> ii = new List <string>();
ii.Add("a");
ii.Add("b");
ODGSS i = new ODGSS();
i["a"] = ii;
i["b"] = ii;
ODGSS o;
ODGSS r;
r = p.opODGSS(i, out o);
foreach (string key in i.Keys)
{
test(Ice.CollectionComparer.Equals(i[key], o[key]));
test(Ice.CollectionComparer.Equals(i[key], r[key]));
}
}
}
public override void opOV_async(AMD_MyClass_opOV cb, OV i, Ice.Current current)
{
cb.ice_response(i, i);
}
public override void opOV_async(AMD_MyClass_opOV cb, OV i, Ice.Current current)
{
cb.ice_response(i, i);
}
private static void ThreadStreamFunc(object param)
{
SoundInstance sndInst = (SoundInstance)param;
while (true)
{
lock (sndInst.strLock)
{
if (sndInst.Disposed)
{
return;
}
if (!DualityApp.Sound.IsAvailable)
{
return;
}
ALSourceState stateTemp = ALSourceState.Stopped;
if (sndInst.alSource > AlSource_NotAvailable)
{
stateTemp = AL.GetSourceState(sndInst.alSource);
}
if (sndInst.strStopReq)
{
// Stopped intentionally due to Stop() or eof. If strStopReq is NOT set,
// the source stopped playing because it reached the end of the buffer
// but in fact only because we were too slow inserting new data.
if (stateTemp != ALSourceState.Stopped)
{
sndInst.Stop();
}
return;
}
Sound res = sndInst.snd.Res;
if (res == null)
{
sndInst.Dispose();
return;
}
if (stateTemp == ALSourceState.Initial)
{
// Generate streaming buffers
sndInst.strAlBuffers = new int[3];
for (int i = 0; i < sndInst.strAlBuffers.Length; ++i)
{
AL.GenBuffers(1, out sndInst.strAlBuffers[i]);
}
// Begin streaming
OV.BeginStreamFromMemory(res.Data.Res.OggVorbisData, out sndInst.strOvStr);
// Initially, completely fill all buffers
for (int i = 0; i < sndInst.strAlBuffers.Length; ++i)
{
PcmData pcm;
bool eof = !OV.StreamChunk(sndInst.strOvStr, out pcm);
if (pcm.data.Length > 0)
{
AL.BufferData(
sndInst.strAlBuffers[i],
pcm.channelCount == 1 ? ALFormat.Mono16 : ALFormat.Stereo16,
pcm.data,
pcm.data.Length,
pcm.sampleRate);
AL.SourceQueueBuffer(sndInst.alSource, sndInst.strAlBuffers[i]);
if (eof)
{
break;
}
}
else
{
break;
}
}
// Initially play source
AL.SourcePlay(sndInst.alSource);
stateTemp = AL.GetSourceState(sndInst.alSource);
}
else
{
int num;
AL.GetSource(sndInst.alSource, ALGetSourcei.BuffersProcessed, out num);
while (num > 0)
{
num--;
int unqueued;
unqueued = AL.SourceUnqueueBuffer(sndInst.alSource);
if (sndInst.strOvStr != IntPtr.Zero)
{
PcmData pcm;
bool eof = !OV.StreamChunk(sndInst.strOvStr, out pcm);
if (pcm.data.Length > 0)
{
AL.BufferData(
unqueued,
pcm.channelCount == 1 ? ALFormat.Mono16 : ALFormat.Stereo16,
pcm.data,
pcm.data.Length,
pcm.sampleRate);
}
AL.SourceQueueBuffer(sndInst.alSource, unqueued);
if (eof && pcm.data.Length == 0)
{
OV.EndStream(ref sndInst.strOvStr);
if (sndInst.looped)
{
OV.BeginStreamFromMemory(res.Data.Res.OggVorbisData, out sndInst.strOvStr);
}
else
{
sndInst.strStopReq = true;
break;
}
}
}
}
}
if (stateTemp == ALSourceState.Stopped && !sndInst.strStopReq)
{
// If the source stopped unintentionally, restart it. (See above)
AL.SourcePlay(sndInst.alSource);
}
}
Thread.Sleep(8);
}
}