public static MixerParameterDefinition[] GetEffectParameters(string effect)
{
MixerParameterDefinition[] result;
foreach (MixerEffectDefinition current in MixerEffectDefinitions.s_MixerEffectDefinitions)
{
if (current.name == effect)
{
result = current.parameters;
return(result);
}
}
result = new MixerParameterDefinition[0];
return(result);
}
public static void Refresh()
{
MixerEffectDefinitions.ClearDefinitions();
MixerEffectDefinitions.RegisterAudioMixerEffect("Attenuation", new MixerParameterDefinition[0]);
MixerEffectDefinitions.RegisterAudioMixerEffect("Send", new MixerParameterDefinition[0]);
MixerEffectDefinitions.RegisterAudioMixerEffect("Receive", new MixerParameterDefinition[0]);
MixerParameterDefinition[] parameterDefinitionArray = new MixerParameterDefinition[7]{ new MixerParameterDefinition() { name = "Threshold", units = "dB", displayScale = 1f, displayExponent = 1f, minRange = -80f, maxRange = 0.0f, defaultValue = -10f, description = "Threshold of side-chain level detector" }, new MixerParameterDefinition() { name = "Ratio", units = "%", displayScale = 100f, displayExponent = 1f, minRange = 0.2f, maxRange = 10f, defaultValue = 2f, description = "Ratio of compression applied when side-chain signal exceeds threshold" }, new MixerParameterDefinition() { name = "Attack Time", units = "ms", displayScale = 1000f, displayExponent = 3f, minRange = 0.0f, maxRange = 10f, defaultValue = 0.1f, description = "Level detector attack time" }, new MixerParameterDefinition() { name = "Release Time", units = "ms", displayScale = 1000f, displayExponent = 3f, minRange = 0.0f, maxRange = 10f, defaultValue = 0.1f, description = "Level detector release time" }, new MixerParameterDefinition() { name = "Make-up Gain", units = "dB", displayScale = 1f, displayExponent = 1f, minRange = -80f, maxRange = 40f, defaultValue = 0.0f, description = "Make-up gain" }, new MixerParameterDefinition() { name = "Knee", units = "dB", displayScale = 1f, displayExponent = 1f, minRange = 0.0f, maxRange = 50f, defaultValue = 10f, description = "Sharpness of compression curve knee" }, new MixerParameterDefinition() { name = "Sidechain Mix", units = "%", displayScale = 100f, displayExponent = 1f, minRange = 0.0f, maxRange = 1f, defaultValue = 1f, description = "Sidechain/source mix. If set to 100% the compressor detects level entirely from sidechain signal." } };
MixerEffectDefinitions.RegisterAudioMixerEffect("Duck Volume", parameterDefinitionArray);
MixerEffectDefinitions.AddDefinitionRuntime("Duck Volume", parameterDefinitionArray);
foreach (string audioEffectName in MixerEffectDefinitions.GetAudioEffectNames())
{
MixerParameterDefinition[] effectParameterDesc = MixerEffectDefinitions.GetAudioEffectParameterDesc(audioEffectName);
MixerEffectDefinitions.RegisterAudioMixerEffect(audioEffectName, effectParameterDesc);
}
}
public override bool GetFloatParameterInfo(string name, out float minRange, out float maxRange, out float defaultValue)
{
MixerParameterDefinition[] paramDefs = this.m_ParamDefs;
for (int i = 0; i < paramDefs.Length; i++)
{
MixerParameterDefinition mixerParameterDefinition = paramDefs[i];
if (mixerParameterDefinition.name == name)
{
minRange = mixerParameterDefinition.minRange;
maxRange = mixerParameterDefinition.maxRange;
defaultValue = mixerParameterDefinition.defaultValue;
return(true);
}
}
minRange = 0f;
maxRange = 1f;
defaultValue = 0.5f;
return(false);
}
public static void Refresh()
{
ClearDefinitions();
RegisterAudioMixerEffect("Attenuation", new MixerParameterDefinition[0]);
RegisterAudioMixerEffect("Send", new MixerParameterDefinition[0]);
RegisterAudioMixerEffect("Receive", new MixerParameterDefinition[0]);
var duckVolDef = new MixerParameterDefinition[7];
duckVolDef[0] = new MixerParameterDefinition {
name = "Threshold", units = "dB", displayScale = 1.0f, displayExponent = 1.0f, minRange = -80.0f, maxRange = 0.0f, defaultValue = -10.0f, description = "Threshold of side-chain level detector"
};
duckVolDef[1] = new MixerParameterDefinition {
name = "Ratio", units = "%", displayScale = 100.0f, displayExponent = 1.0f, minRange = 0.2f, maxRange = 10.0f, defaultValue = 2.0f, description = "Ratio of compression applied when side-chain signal exceeds threshold"
};
duckVolDef[2] = new MixerParameterDefinition {
name = "Attack Time", units = "ms", displayScale = 1000.0f, displayExponent = 3.0f, minRange = 0.0f, maxRange = 10.0f, defaultValue = 0.1f, description = "Level detector attack time"
};
duckVolDef[3] = new MixerParameterDefinition {
name = "Release Time", units = "ms", displayScale = 1000.0f, displayExponent = 3.0f, minRange = 0.0f, maxRange = 10.0f, defaultValue = 0.1f, description = "Level detector release time"
};
duckVolDef[4] = new MixerParameterDefinition {
name = "Make-up Gain", units = "dB", displayScale = 1.0f, displayExponent = 1.0f, minRange = -80.0f, maxRange = 40.0f, defaultValue = 0.0f, description = "Make-up gain"
};
duckVolDef[5] = new MixerParameterDefinition {
name = "Knee", units = "dB", displayScale = 1.0f, displayExponent = 1.0f, minRange = 0.0f, maxRange = 50.0f, defaultValue = 10.0f, description = "Sharpness of compression curve knee"
};
duckVolDef[6] = new MixerParameterDefinition {
name = "Sidechain Mix", units = "%", displayScale = 100.0f, displayExponent = 1.0f, minRange = 0.0f, maxRange = 1.0f, defaultValue = 1.0f, description = "Sidechain/source mix. If set to 100% the compressor detects level entirely from sidechain signal."
};
RegisterAudioMixerEffect("Duck Volume", duckVolDef);
AddDefinitionRuntime("Duck Volume", duckVolDef);
string[] effectNames = GetAudioEffectNames();
foreach (var effectName in effectNames)
{
MixerParameterDefinition[] paramDesc = GetAudioEffectParameterDesc(effectName);
RegisterAudioMixerEffect(effectName, paramDesc);
}
}
public static void Refresh()
{
MixerEffectDefinitions.ClearDefinitions();
MixerEffectDefinitions.RegisterAudioMixerEffect("Attenuation", new MixerParameterDefinition[0]);
MixerEffectDefinitions.RegisterAudioMixerEffect("Send", new MixerParameterDefinition[0]);
MixerEffectDefinitions.RegisterAudioMixerEffect("Receive", new MixerParameterDefinition[0]);
MixerParameterDefinition[] parameterDefinitionArray = new MixerParameterDefinition[7] {
new MixerParameterDefinition()
{
name = "Threshold", units = "dB", displayScale = 1f, displayExponent = 1f, minRange = -80f, maxRange = 0.0f, defaultValue = -10f, description = "Threshold of side-chain level detector"
}, new MixerParameterDefinition()
{
name = "Ratio", units = "%", displayScale = 100f, displayExponent = 1f, minRange = 0.2f, maxRange = 10f, defaultValue = 2f, description = "Ratio of compression applied when side-chain signal exceeds threshold"
}, new MixerParameterDefinition()
{
name = "Attack Time", units = "ms", displayScale = 1000f, displayExponent = 3f, minRange = 0.0f, maxRange = 10f, defaultValue = 0.1f, description = "Level detector attack time"
}, new MixerParameterDefinition()
{
name = "Release Time", units = "ms", displayScale = 1000f, displayExponent = 3f, minRange = 0.0f, maxRange = 10f, defaultValue = 0.1f, description = "Level detector release time"
}, new MixerParameterDefinition()
{
name = "Make-up Gain", units = "dB", displayScale = 1f, displayExponent = 1f, minRange = -80f, maxRange = 40f, defaultValue = 0.0f, description = "Make-up gain"
}, new MixerParameterDefinition()
{
name = "Knee", units = "dB", displayScale = 1f, displayExponent = 1f, minRange = 0.0f, maxRange = 50f, defaultValue = 10f, description = "Sharpness of compression curve knee"
}, new MixerParameterDefinition()
{
name = "Sidechain Mix", units = "%", displayScale = 100f, displayExponent = 1f, minRange = 0.0f, maxRange = 1f, defaultValue = 1f, description = "Sidechain/source mix. If set to 100% the compressor detects level entirely from sidechain signal."
}
};
MixerEffectDefinitions.RegisterAudioMixerEffect("Duck Volume", parameterDefinitionArray);
MixerEffectDefinitions.AddDefinitionRuntime("Duck Volume", parameterDefinitionArray);
foreach (string audioEffectName in MixerEffectDefinitions.GetAudioEffectNames())
{
MixerParameterDefinition[] effectParameterDesc = MixerEffectDefinitions.GetAudioEffectParameterDesc(audioEffectName);
MixerEffectDefinitions.RegisterAudioMixerEffect(audioEffectName, effectParameterDesc);
}
}
public static void Refresh()
{
ClearDefinitions();
RegisterAudioMixerEffect("Attenuation", new MixerParameterDefinition[0]);
RegisterAudioMixerEffect("Send", new MixerParameterDefinition[0]);
RegisterAudioMixerEffect("Receive", new MixerParameterDefinition[0]);
MixerParameterDefinition[] definitions = new MixerParameterDefinition[7];
MixerParameterDefinition definition = new MixerParameterDefinition {
name = "Threshold",
units = "dB",
displayScale = 1f,
displayExponent = 1f,
minRange = -80f,
maxRange = 0f,
defaultValue = -10f,
description = "Threshold of side-chain level detector"
};
definitions[0] = definition;
MixerParameterDefinition definition2 = new MixerParameterDefinition {
name = "Ratio",
units = "%",
displayScale = 100f,
displayExponent = 1f,
minRange = 0.2f,
maxRange = 10f,
defaultValue = 2f,
description = "Ratio of compression applied when side-chain signal exceeds threshold"
};
definitions[1] = definition2;
MixerParameterDefinition definition3 = new MixerParameterDefinition {
name = "Attack Time",
units = "ms",
displayScale = 1000f,
displayExponent = 3f,
minRange = 0f,
maxRange = 10f,
defaultValue = 0.1f,
description = "Level detector attack time"
};
definitions[2] = definition3;
MixerParameterDefinition definition4 = new MixerParameterDefinition {
name = "Release Time",
units = "ms",
displayScale = 1000f,
displayExponent = 3f,
minRange = 0f,
maxRange = 10f,
defaultValue = 0.1f,
description = "Level detector release time"
};
definitions[3] = definition4;
MixerParameterDefinition definition5 = new MixerParameterDefinition {
name = "Make-up Gain",
units = "dB",
displayScale = 1f,
displayExponent = 1f,
minRange = -80f,
maxRange = 40f,
defaultValue = 0f,
description = "Make-up gain"
};
definitions[4] = definition5;
MixerParameterDefinition definition6 = new MixerParameterDefinition {
name = "Knee",
units = "dB",
displayScale = 1f,
displayExponent = 1f,
minRange = 0f,
maxRange = 50f,
defaultValue = 10f,
description = "Sharpness of compression curve knee"
};
definitions[5] = definition6;
MixerParameterDefinition definition7 = new MixerParameterDefinition {
name = "Sidechain Mix",
units = "%",
displayScale = 100f,
displayExponent = 1f,
minRange = 0f,
maxRange = 1f,
defaultValue = 1f,
description = "Sidechain/source mix. If set to 100% the compressor detects level entirely from sidechain signal."
};
definitions[6] = definition7;
RegisterAudioMixerEffect("Duck Volume", definitions);
AddDefinitionRuntime("Duck Volume", definitions);
string[] audioEffectNames = GetAudioEffectNames();
foreach (string str in audioEffectNames)
{
MixerParameterDefinition[] audioEffectParameterDesc = GetAudioEffectParameterDesc(str);
RegisterAudioMixerEffect(str, audioEffectParameterDesc);
}
}
public static void Refresh()
{
ClearDefinitions();
RegisterAudioMixerEffect("Attenuation", new MixerParameterDefinition[0]);
RegisterAudioMixerEffect("Send", new MixerParameterDefinition[0]);
RegisterAudioMixerEffect("Receive", new MixerParameterDefinition[0]);
MixerParameterDefinition[] definitions = new MixerParameterDefinition[7];
MixerParameterDefinition definition = new MixerParameterDefinition {
name = "Threshold",
units = "dB",
displayScale = 1f,
displayExponent = 1f,
minRange = -80f,
maxRange = 0f,
defaultValue = -10f,
description = "Threshold of side-chain level detector"
};
definitions[0] = definition;
MixerParameterDefinition definition2 = new MixerParameterDefinition {
name = "Ratio",
units = "%",
displayScale = 100f,
displayExponent = 1f,
minRange = 0.2f,
maxRange = 10f,
defaultValue = 2f,
description = "Ratio of compression applied when side-chain signal exceeds threshold"
};
definitions[1] = definition2;
MixerParameterDefinition definition3 = new MixerParameterDefinition {
name = "Attack Time",
units = "ms",
displayScale = 1000f,
displayExponent = 3f,
minRange = 0f,
maxRange = 10f,
defaultValue = 0.1f,
description = "Level detector attack time"
};
definitions[2] = definition3;
MixerParameterDefinition definition4 = new MixerParameterDefinition {
name = "Release Time",
units = "ms",
displayScale = 1000f,
displayExponent = 3f,
minRange = 0f,
maxRange = 10f,
defaultValue = 0.1f,
description = "Level detector release time"
};
definitions[3] = definition4;
MixerParameterDefinition definition5 = new MixerParameterDefinition {
name = "Make-up Gain",
units = "dB",
displayScale = 1f,
displayExponent = 1f,
minRange = -80f,
maxRange = 40f,
defaultValue = 0f,
description = "Make-up gain"
};
definitions[4] = definition5;
MixerParameterDefinition definition6 = new MixerParameterDefinition {
name = "Knee",
units = "dB",
displayScale = 1f,
displayExponent = 1f,
minRange = 0f,
maxRange = 50f,
defaultValue = 10f,
description = "Sharpness of compression curve knee"
};
definitions[5] = definition6;
MixerParameterDefinition definition7 = new MixerParameterDefinition {
name = "Sidechain Mix",
units = "%",
displayScale = 100f,
displayExponent = 1f,
minRange = 0f,
maxRange = 1f,
defaultValue = 1f,
description = "Sidechain/source mix. If set to 100% the compressor detects level entirely from sidechain signal."
};
definitions[6] = definition7;
RegisterAudioMixerEffect("Duck Volume", definitions);
AddDefinitionRuntime("Duck Volume", definitions);
string[] audioEffectNames = GetAudioEffectNames();
foreach (string str in audioEffectNames)
{
MixerParameterDefinition[] audioEffectParameterDesc = GetAudioEffectParameterDesc(str);
RegisterAudioMixerEffect(str, audioEffectParameterDesc);
}
}
public static bool RegisterAudioMixerEffect(string name, MixerParameterDefinition[] definitions)
{
foreach (MixerEffectDefinition definition in s_MixerEffectDefinitions)
{
if (definition.name == name)
{
return false;
}
}
MixerEffectDefinition item = new MixerEffectDefinition(name, definitions);
s_MixerEffectDefinitions.Add(item);
ClearDefinitionsRuntime();
foreach (MixerEffectDefinition definition3 in s_MixerEffectDefinitions)
{
AddDefinitionRuntime(definition3.name, definition3.parameters);
}
return true;
}
private static extern void AddDefinitionRuntime(string name, MixerParameterDefinition[] parameters);
public MixerEffectDefinition(string name, MixerParameterDefinition[] parameters)
{
this.m_EffectName = name;
this.m_Parameters = new MixerParameterDefinition[parameters.Length];
Array.Copy((Array) parameters, (Array) this.m_Parameters, parameters.Length);
}
public static bool RegisterAudioMixerEffect(string name, MixerParameterDefinition[] definitions)
{
using (List<MixerEffectDefinition>.Enumerator enumerator = MixerEffectDefinitions.s_MixerEffectDefinitions.GetEnumerator())
{
while (enumerator.MoveNext())
{
if (enumerator.Current.name == name)
return false;
}
}
MixerEffectDefinition effectDefinition = new MixerEffectDefinition(name, definitions);
MixerEffectDefinitions.s_MixerEffectDefinitions.Add(effectDefinition);
MixerEffectDefinitions.ClearDefinitionsRuntime();
using (List<MixerEffectDefinition>.Enumerator enumerator = MixerEffectDefinitions.s_MixerEffectDefinitions.GetEnumerator())
{
while (enumerator.MoveNext())
{
MixerEffectDefinition current = enumerator.Current;
MixerEffectDefinitions.AddDefinitionRuntime(current.name, current.parameters);
}
}
return true;
}
public static bool RegisterAudioMixerEffect(string name, MixerParameterDefinition[] definitions)
{
foreach (MixerEffectDefinition current in MixerEffectDefinitions.s_MixerEffectDefinitions)
{
if (current.name == name)
{
return false;
}
}
MixerEffectDefinition item = new MixerEffectDefinition(name, definitions);
MixerEffectDefinitions.s_MixerEffectDefinitions.Add(item);
MixerEffectDefinitions.ClearDefinitionsRuntime();
foreach (MixerEffectDefinition current2 in MixerEffectDefinitions.s_MixerEffectDefinitions)
{
MixerEffectDefinitions.AddDefinitionRuntime(current2.name, current2.parameters);
}
return true;
}
