Struct MultiControlModuleHandle
With this module you can change the values of multiple controllers (in different modules) at once. Maximum number of connected controllers - 16.
public readonly struct MultiControlModuleHandle : IMultiControlModuleHandle, ITypedModuleHandle, IGenericSynthModuleHandle- Implements
Constructors
MultiControlModuleHandle(SynthModuleHandle)
public MultiControlModuleHandle(SynthModuleHandle moduleHandle)Parameters
moduleHandleSynthModuleHandle
Properties
Id
Gets the ID of the synthesizer module.
public int Id { get; }Property Value
- int
ModuleHandle
public SynthModuleHandle ModuleHandle { get; }Property Value
Slot
Gets the slot associated with this instance.
public ISlot Slot { get; }Property Value
Methods
AssertCorrectHandleType()
Throws an exception if the underlying module is not of the correct type.
public void AssertCorrectHandleType()Exceptions
- IncorrectSynthHandleTypeException
Thrown if the underlying module is not of the correct type.
ConnectInput(SynthModuleHandle)
Connect the input of this module to the output of another module.
public void ConnectInput(SynthModuleHandle targetModule)Parameters
targetModuleSynthModuleHandle
Remarks
Requires LockSlot(int) / UnlockSlot(int).
Calls sv_connect_module(int, int, int).Exceptions
- SunVoxException
Thrown when the operation fails.
ConnectOutput(SynthModuleHandle)
Connect the output of this module to the input of another module.
public void ConnectOutput(SynthModuleHandle targetModule)Parameters
targetModuleSynthModuleHandle
Remarks
Requires LockSlot(int) / UnlockSlot(int).
Calls sv_connect_module(int, int, int).Exceptions
- SunVoxException
Thrown when the operation fails.
DisconnectInput(SynthModuleHandle)
Disconnect the input of this module from the output of another module.
public void DisconnectInput(SynthModuleHandle targetModule)Parameters
targetModuleSynthModuleHandle
Remarks
Requires LockSlot(int) / UnlockSlot(int).
Calls sv_connect_module(int, int, int).Exceptions
- SunVoxException
Thrown when the operation fails.
DisconnectOutput(SynthModuleHandle)
Disconnect the output of this module from the input of another module.
public void DisconnectOutput(SynthModuleHandle targetModule)Parameters
targetModuleSynthModuleHandle
Remarks
Requires LockSlot(int) / UnlockSlot(int).
Calls sv_connect_module(int, int, int).Exceptions
- SunVoxException
Thrown when the operation fails.
GetColor()
Get the module color.
public (byte, byte, byte) GetColor()Returns
- (byte R, byte G, byte B)
RGB color tuple (r, g, b).
Remarks
GetExists()
Check if a module exists.
public bool GetExists()Returns
- bool
true if module exists.
Remarks
GetFineTune()
Get the module fine tune and relative note values.
public FineTunePair GetFineTune()Returns
- FineTunePair
Fine tune pair containing fine tune value and relative note.
Remarks
GetFlags()
Get the module flags.
public ModuleFlags GetFlags()Returns
- ModuleFlags
Module flags indicating existence, type, state, and connections.
Remarks
GetGain(ValueScalingMode)
Value range: displayed: 0 to 1024, real: 0 to 1024 Original name: 1 'Gain'
public int GetGain(ValueScalingMode valueScalingMode = ValueScalingMode.Displayed)Parameters
valueScalingModeValueScalingMode
Returns
- int
GetInputModules()
Get the array of input modules connected to this module.
public SynthModuleHandle[] GetInputModules()Returns
- SynthModuleHandle[]
Array of connected input module numbers.
Remarks
GetInputs()
Get the array of input module numbers connected to this module.
public int[] GetInputs()Returns
- int[]
Array of connected input module numbers.
Remarks
GetModuleType()
Returns the module type. If the module does not exist, returns null. If the module type is unknown (due to library mismatch or otherwise), returns Unknown.
public SynthModuleType? GetModuleType()Returns
GetName()
Get the module name.
public string? GetName()Returns
- string
Module name, or null if unavailable.
Remarks
Calls sv_get_module_name(int, int).
GetOutOffset(ValueScalingMode)
Value range: displayed: -16384 to 16384, real: 0 to 32768 Original name: 3 'OUT offset'
public int GetOutOffset(ValueScalingMode valueScalingMode = ValueScalingMode.Displayed)Parameters
valueScalingModeValueScalingMode
Returns
- int
GetOutputModules()
Gets the array of output modules connected to this module.
public SynthModuleHandle[] GetOutputModules()Returns
- SynthModuleHandle[]
Array of connected output module numbers.
Remarks
GetOutputs()
Get the array of output module numbers connected from this module.
public int[] GetOutputs()Returns
- int[]
Array of connected output module numbers.
Remarks
GetPosition()
Get the module position on the canvas.
public (int, int) GetPosition()Returns
- (int x, int y)
Tuple containing X and Y coordinates.
Remarks
Calls sv_get_module_xy(int, int).
GetQuantization(ValueScalingMode)
Value range: displayed: 0 to 32768, real: 0 to 32768 Original name: 2 'Quantization'
public int GetQuantization(ValueScalingMode valueScalingMode = ValueScalingMode.Displayed)Parameters
valueScalingModeValueScalingMode
Returns
- int
GetResponse(ValueScalingMode)
Value range: displayed: 0 to 1000, real: 0 to 1000 Original name: 4 'Response'
public int GetResponse(ValueScalingMode valueScalingMode = ValueScalingMode.Displayed)Parameters
valueScalingModeValueScalingMode
Returns
- int
GetSampleRate(ValueScalingMode)
Value range: displayed: 1 to 32768, real: 1 to 32768 Original name: 5 'Sample rate'
public int GetSampleRate(ValueScalingMode valueScalingMode = ValueScalingMode.Displayed)Parameters
valueScalingModeValueScalingMode
Returns
- int
GetValue(ValueScalingMode)
Value range: displayed: 0 to 32768, real: 0 to 32768 Original name: 0 'Value'
public int GetValue(ValueScalingMode valueScalingMode = ValueScalingMode.Displayed)Parameters
valueScalingModeValueScalingMode
Returns
- int
IsCorrectHandleType()
Determines whether the underlying module is of the correct type.
public bool IsCorrectHandleType()Returns
- bool
MakeEvent(Note, byte?, byte?, Effect, ushort)
Creates a new generic pattern event with optional parameters for flexible event construction.
public PatternEvent MakeEvent(Note note = default, byte? velocity = null, byte? controller = null, Effect effect = Effect.None, ushort value = 0)Parameters
noteNoteNote value. Allows for explicit note commands. velocitybyte?Note velocity. Returns null when default velocity is used. Automatically handles the +1 offset used in raw data. controllerbyte?Controller identifier (0-based). Returns null when no controller is specified. Module controllers: 0-126 (raw data: 1-127). MIDI controllers: 127+ (raw data: 0x80+). Automatically handles the +1 offset used in raw data. effectEffectPattern event effect code. valueushortParameter value for controller or effect (16-bit unsigned integer). Range: 0-32768 (0x8000) for controllers, 0-65535 (0xFFFF) for effects.
For pitch commands: 0x0000 = highest pitch, 0x7800 = C0, 0x100 = one semitone.
Returns
- PatternEvent
A new PatternEvent with the specified fields.
Remarks
This method provides maximum flexibility for creating events. For common scenarios, consider using specific factory methods like NoteEvent(Note, int?, byte?), ControllerEvent(int, byte, ushort), etc.
MakeGainEvent(int)
This is a helper method to automatically handle turning target controller values into column values.
For this controller the input value is mapped from displayed range (0 to 1024) to column range (0 to 0x8000). Out of range values are clamped.
public PatternEvent MakeGainEvent(int value)Parameters
valueint
Returns
MakeNoteEvent(Note, byte?)
Creates a note event that triggers a note on the specified module.
public PatternEvent MakeNoteEvent(Note note, byte? velocity = null)Parameters
noteNoteNote value. Allows for explicit note commands. velocitybyte?Note velocity. Returns null when default velocity is used. Automatically handles the +1 offset used in raw data.
Returns
MakeOutOffsetEvent(int)
This is a helper method to automatically handle turning target controller values into column values.
For this controller the input value is mapped from displayed range (-16384 to 16384) to column range (0 to 0x8000). Out of range values are clamped.
public PatternEvent MakeOutOffsetEvent(int value)Parameters
valueint
Returns
MakeQuantizationEvent(int)
This is a helper method to automatically handle turning target controller values into column values.
For this controller the input value is mapped from displayed range (0 to 32768) to column range (0 to 0x8000). Out of range values are clamped.
public PatternEvent MakeQuantizationEvent(int value)Parameters
valueint
Returns
MakeResponseEvent(int)
This is a helper method to automatically handle turning target controller values into column values.
For this controller the input value is mapped from displayed range (0 to 1000) to column range (0 to 0x8000). Out of range values are clamped.
public PatternEvent MakeResponseEvent(int value)Parameters
valueint
Returns
MakeSampleRateEvent(int)
This is a helper method to automatically handle turning target controller values into column values.
For this controller the input value is mapped from displayed range (1 to 32768) to column range (0 to 0x8000). Out of range values are clamped.
public PatternEvent MakeSampleRateEvent(int value)Parameters
valueint
Returns
MakeSetControllerValueEvent(byte, ushort)
Creates a controller event that changes a module parameter.
public PatternEvent MakeSetControllerValueEvent(byte controllerId, ushort value)Parameters
controllerIdbytevalueushortParameter value for controller or effect (16-bit unsigned integer). Range: 0-32768 (0x8000) for controllers, 0-65535 (0xFFFF) for effects.
For pitch commands: 0x0000 = highest pitch, 0x7800 = C0, 0x100 = one semitone.
Returns
Remarks
For better type safety and readability, consider using typed module handles and extension methods.
MakeSetFrequencyEvent(double, byte?)
Creates a Set Pitch event by converting a frequency in Hz to the appropriate pitch value.
public PatternEvent MakeSetFrequencyEvent(double frequency, byte? velocity = null)Parameters
frequencydoubleFrequency in Hz (e.g., 440.0 for A4).
velocitybyte?Velocity value (0-128). Use null for default velocity.
Returns
- PatternEvent
A new PatternEvent with the calculated pitch value.
Examples
// Set pitch to A4 (440 Hz)
var a440 = PatternEvent.SetFrequencyEvent(0, 440.0, 100);
// Set pitch to middle C (261.63 Hz)
var c4 = PatternEvent.SetFrequencyEvent(0, 261.63);MakeSetPitchEvent(ushort, byte?)
Creates a Set Pitch event with exact pitch value for microtonal or pitch-bend effects.
public PatternEvent MakeSetPitchEvent(ushort pitch, byte? velocity = null)Parameters
pitchushortPitch value where 0x0000 = highest pitch, 0x7800 = C0 (lowest), 0x100 = one semitone.
velocitybyte?Velocity value (0-128). Use null for default velocity.
Returns
- PatternEvent
A new PatternEvent configured as a set pitch event.
Examples
// Set pitch to middle C (C4 = 0x3C00)
var middleC = PatternEvent.SetPitchEvent(0, 0x3C00);
// Set pitch to A4 (440Hz reference = 0x4500)
var a440 = PatternEvent.SetPitchEvent(0, 0x4500, 100);MakeValueEvent(int)
This is a helper method to automatically handle turning target controller values into column values.
For this controller the input value is mapped from displayed range (0 to 32768) to column range (0 to 0x8000). Out of range values are clamped.
public PatternEvent MakeValueEvent(int value)Parameters
valueint
Returns
ReadCurveValueMap(float[])
Modifies values.
Read from curve 0 of MultiControl.
The curve contains 257 values in range of 0 to 1.public int ReadCurveValueMap(float[] buffer)Parameters
bufferfloat[]
Returns
- int
ReadScope(AudioChannel, short[])
Read module scope view, and write it to a buffer.
public int ReadScope(AudioChannel channel, short[] buffer)Parameters
channelAudioChannelAudio channel.
buffershort[]Buffer to receive scope data.
Returns
- int
Number of samples successfully read.
Remarks
Exceptions
- ArgumentNullException
Thrown if
bufferis null.
SetColor(byte, byte, byte)
Set the module color.
public void SetColor(byte r, byte g, byte b)Parameters
rbyteRed component (0 to 255).
gbyteGreen component (0 to 255).
bbyteBlue component (0 to 255).
Remarks
Exceptions
- SunVoxException
Thrown when the operation fails.
SetFineTune(FineTunePair)
Sets the fine tune for the module.
public void SetFineTune(FineTunePair fineTune)Parameters
fineTuneFineTunePair
SetGain(int, ValueScalingMode)
Value range: displayed: 0 to 1024, real: 0 to 1024 Original name: 1 'Gain' Note: equivalent SendEvent(int, PatternEvent) will be used internally, which may introduce latency. It will also be affected by the event timestamp set.
public void SetGain(int value, ValueScalingMode valueScalingMode = ValueScalingMode.Displayed)Parameters
valueintvalueScalingModeValueScalingMode
SetName(string)
Set the module name.
public void SetName(string name)Parameters
namestringNew module name.
Remarks
Exceptions
- SunVoxException
Thrown when the operation fails.
- ArgumentNullException
Thrown if
nameis null.
SetOutOffset(int, ValueScalingMode)
Value range: displayed: -16384 to 16384, real: 0 to 32768 Original name: 3 'OUT offset' Note: equivalent SendEvent(int, PatternEvent) will be used internally, which may introduce latency. It will also be affected by the event timestamp set.
public void SetOutOffset(int value, ValueScalingMode valueScalingMode = ValueScalingMode.Displayed)Parameters
valueintvalueScalingModeValueScalingMode
SetPosition(int, int)
Set the module position.
public void SetPosition(int x, int y)Parameters
xintX coordinate (center: 512, working area: 0 to 1024).
yintY coordinate (center: 512, working area: 0 to 1024).
Remarks
Exceptions
- SunVoxException
Thrown when the operation fails.
SetQuantization(int, ValueScalingMode)
Value range: displayed: 0 to 32768, real: 0 to 32768 Original name: 2 'Quantization' Note: equivalent SendEvent(int, PatternEvent) will be used internally, which may introduce latency. It will also be affected by the event timestamp set.
public void SetQuantization(int value, ValueScalingMode valueScalingMode = ValueScalingMode.Displayed)Parameters
valueintvalueScalingModeValueScalingMode
SetResponse(int, ValueScalingMode)
Value range: displayed: 0 to 1000, real: 0 to 1000 Original name: 4 'Response' Note: equivalent SendEvent(int, PatternEvent) will be used internally, which may introduce latency. It will also be affected by the event timestamp set.
public void SetResponse(int value, ValueScalingMode valueScalingMode = ValueScalingMode.Displayed)Parameters
valueintvalueScalingModeValueScalingMode
SetSampleRate(int, ValueScalingMode)
Value range: displayed: 1 to 32768, real: 1 to 32768 Original name: 5 'Sample rate' Note: equivalent SendEvent(int, PatternEvent) will be used internally, which may introduce latency. It will also be affected by the event timestamp set.
public void SetSampleRate(int value, ValueScalingMode valueScalingMode = ValueScalingMode.Displayed)Parameters
valueintvalueScalingModeValueScalingMode
SetValue(int, ValueScalingMode)
Value range: displayed: 0 to 32768, real: 0 to 32768 Original name: 0 'Value' Note: equivalent SendEvent(int, PatternEvent) will be used internally, which may introduce latency. It will also be affected by the event timestamp set.
public void SetValue(int value, ValueScalingMode valueScalingMode = ValueScalingMode.Displayed)Parameters
valueintvalueScalingModeValueScalingMode
WriteCurveValueMap(float[])
Modifies values.
Write to curve 0 of MultiControl.
The curve contains 257 values in range of 0 to 1.public int WriteCurveValueMap(float[] buffer)Parameters
bufferfloat[]
Returns
- int
Operators
implicit operator SynthModuleHandle(MultiControlModuleHandle)
public static implicit operator SynthModuleHandle(MultiControlModuleHandle handle)Parameters
handleMultiControlModuleHandle